5KF Maintenance and Lubrication Products

Size: px

Start display at page:

Download "5KF Maintenance and Lubrication Products"

Harry Morton
5 years ago
Views:

1 KF Maintenance and Lubrication Products Extending the Bearing Life Cycle

.*'"'" SKF Maintenance and Lubrication Products 7 39 47 71 2 Mounting and lubrication Alignment

2 .*'"'" SKF Maintenance and Lubrication Products Mounting and lubrication Alignment Relubrication Basic condition monitoring 81 Dismounting SKF Support Technical data index

3 The SKF Help your beari ounting and lubricati Mounting is one of the critical stages of the bearing's lifecycle. If the bearing is not mounted properly using the correct method and tools, the bearing's service lifetime will be reduced. Lubrication is also an important step in the mounting procedure. Selecting bearing grease suitable for the application is critical to achieving optimum performance. Additionally, the quantity of grease and the lubrication method used can positively influence the service life of the bearing. Alignment After the bearing has been mounted in an application, such as a motor connected to a pump, the application should be aligned. If the application is not properly aligned, the misalignment can cause the bearing to suffer additional load, friction and vibration. These can accelerate fatigue and reduce the bearing's, as well as other machine components, service life. Furthermore, increased vibration and friction can significantly increase energy consumption and the risk of premature failures. Mounting and Lubrication Includes mechanical fitting tools, induction heaters and hydraulic /. «T" I equipment Alignment Includes shaft and belt alignment tools and machinery shims How to use this catalogue Inside this catalogue you will find SKF's complete range of maintenance products, which can help you get the maximum service life from your bearings. Products included in this catalogue are arranged according to the stages of the bearing life cycle: Mounting and Lubrication, Alignment, Relubrication. Basic Condition Monitoring and Dismounting. To help you locate the product you need as easily as possible, we have developed the following quick reference guide: For more information about SKF maintenance products or to order any of these products, please contact your local SKF authorised distributor or SKF sales company. On the Internet, SKF can be found at SKF Maintenance Products can be found at 2

earing Life Cycle hieve its maximum service lifetime Every bearing has a precalculated service lifetime. However, research has shown that for various reasons, not every bearing achieves it.

4 earing Life Cycle hieve its maximum service lifetime Every bearing has a precalculated service lifetime. However, research has shown that for various reasons, not every bearing achieves it. Important stages, which have a major impact on a bearing service lifetime can be recognised during the bearing's lifecycle. These stages are mounting and lubrication, alignment, relubrication, basic condition monitoring and dismounting. The stages in a bearing life cycle are extremely important for achieving the maximum service life of the bearing. By applying the right maintenance practices and using the correct tools, you can considerably extend your bearing's service life and increase plant productivity and efficiency. When operating, the bearing requires correct relubrication practices to optimise its performance. Selecting bearing grease suitable for the application and applying the right quantities at correct intervals are essential for achieving the maximum service life of the bearing. Additionally, the relubrication method used can positively contribute to optimising the bearing's service life. Continuous lubrication using automatic lubricators, single or multiplepoint, provides more consistent, correct and contaminationfree grease supply than manual relubrication methods. During operation, it is important to regularly inspect the condition of the bearing by performing basic condition monitoring, such as temperature, vibration and noise measurements. These regular inspections will allow the detection of potential problems and help to prevent unexpected machine stops. Consequently the machine maintenance can be planned to suit the production schedule, increasing the plant's productivity and efficiency. At some point, the bearing will reach the end of its service life and will have to be replaced. Although the bearing may not be used again, it is extremely important to dismount it correctly so that the service life of the replacement bearing is not compromised. Firstly, the use of proper dismounting methods tools will help prevent damage to other machine components, such as the shaft and housing, which are often reused. Secondly, incorrect dismounting techniques can be hazardous to the operator Relubrication Includes bearing greases, manual and automatic lubricators and lubrication accessories Basic Condition Monitoring Includes temperature, noise, speed and vibration measuring instruments Dismounting Includes pullers, both mechanical and hydraulic, induction heaters and hydraulic equipment rfei I Found next to a product: Indicating that this product is a new addition to the SKF range Located next to each product: Indicates on which page you can find the technical data and ordering details for that product Technical data and Ordering details Located on pages provides the complete list of technical data and ordering details per product index Located on pages lists all products by designation followed by product description in alphanumerical order 3

5 Prevent over 60% of premature bearing failures Around 16% of all premature bearing failures are caused by poor fitting (usually brute force...) and being unaware of the availability of the correct fitting tools. Individual installations may require mechanical, hydraulic or heat application methods for correct and efficient mounting or dismounting. SKF offers a complete range of tools and equipment to make these tasks easier, quicker and more cost effective, backed up by a wealth of service engineering knowhow. Professional fitting, using specialised tools and techniques, is another positive step towards achieving maximum machine uptime. Although 'sealedforlife' bearings can be fitted and forgotten, some 36% of premature bearing failures are caused by incorrect specification and inadequate application of the lubricant. Inevitably, any bearing deprived of proper lubrication will fail long ' before its normal service lifespan. Because bearings are usually the least accessible components of machinery, neglected lubrication frequently compounds the problem. Wherever manual maintenance is not feasible, fully automatic lubrication systems can be specified by SKF for optimum lubrication. Effective lubrication, using only recommended SKF greases, tools and techniques, helps to significantly reduce downtime. A bearing is a precision component that will not operate efficiently unless both the bearing and its lubricants are isolated from contamination. And, since sealedforlife bearings in readygreased variants account for only a small proportion of all bearings in use, at least 14% of all premature bearing failures are attributed to contamination problems. SKF has an unrivalled bearing manufacturing and design capability and can tailor sealing solutions for the most arduous operating environments. Whenever machines are overloaded, incorrectly serviced or neglected, bearings suffer from the consequences, resulting in 34% of all premature bearing failures. Sudden or unexpected failure can be avoided, since neglected or overstressed bearings emit 'early warning' signals, which can be detected and interpreted using SKF condition monitoring equipment. The SKF range includes handheld instruments, hardwired systems and data management software for periodic or continuous monitoring of key operating parameters.

6 SKF methods and tools lgements Mounting tools Dismounting tools Щ Cylindrical Small bearings Mechanical Hydraulic Oil injection OI*f Heaters Mechanical Hydraulic Oil injection Heaters 3 Medium bearings > Large bearings!ikm Cylindrical roller bearing types NU, NJ, NUP, all sizes DNHT ta W * = ^ Tapered seating Small bearings 3 Medium bearings Large bearings 1* fcl w % ^ Adapter sleeve Small bearings n г fc Medium bearings Large bearings ( * fcl ithdrawal leeve Small bearings OWj Medium bearings Large bearings ( * fcl r Id Small bearings: Bore diameter < 80 mm / Medium bearings: Bore diameter 80 0 mm / Large bearings: Bore diameter > 0 mm / * Only for selfaligning ball bearings. Jaw puller Bearing Hydraulic Fitting separator puller tool Key Hook Impact spanner spanner Hydraulic nut Driveup Oil injection Hot plate Aluminium and pump Method method Induction ring heater EAZ heater 31Э? П^Г^ f 1 _a

The Maintenance Challenge: Achieving More with Less Today maintenance managers face a difficult task: Although their staff members are highly competent, there are often fewer of them than in the past.

7 The Maintenance Challenge: Achieving More with Less Today maintenance managers face a difficult task: Although their staff members are highly competent, there are often fewer of them than in the past. Consequently, each one has a larger group of machines to look after and so may not be able to follow precision maintenance practices. In addition, equipment maintenance is becoming more complicated because of ongoing technical advances, and environmental and safety laws are increasingly strict, placing more pressure on this function than ever before. Despite all these challenges, maintenance personnel are driven by management to maximise machine uptime to increase productivity often with a reduced budget. From cost centre to profit centre Recognising the need for supplemental resources, SKF has focused on combining its broad range of products and industry knowledge to address specific plant maintenance and reliability needs. Our goal is to help our customers manage maintenance costs more effectively to reduce cost and increase productivity. By combining its knowledge of bearings, seals, lubrication, maintenance, and condition monitoring. SKF will research, design and implement solutions that go beyond corrective maintenance. Depending on need, customers can either choose standalone services, such as Shaft Alignment, Lubrication Analysis, and Precision Balancing or combine them into an allinclusive contract strategy. SKF capabilities include, but are not limited to: Asset management strategy and consulting Reliability maintenance solutions and service Mechanical maintenance services System installation and management services For more information about SKF solutions, contact your local SKF representative, or visit The bearing maintenance tools and instruments shown in this catalogue are key components in the solutions mix. Whether used by maintenance personnel or by an SKF Reliability Systems technician, they provide the means to safe and damagefree component installation and dismounting.

Mounting and Lubrication Mounting Mounting bearings in a cold condition Interference fits: cylindrical shafts Interference fits: tapered shafts Antifretting agent LAGF 3E Bearing fitting tool kittmft

8 Mounting and Lubrication Mounting Mounting bearings in a cold condition Interference fits: cylindrical shafts Interference fits: tapered shafts Antifretting agent LAGF 3E Bearing fitting tool kittmft 33 Bearing lock nut spanner TMHN 7 series Hydraulic pump Hydraulic pump TMJL 0 Hydraulic pump TMJL 50 Hydraulic pump E Airdriven hydraulic pumps. THAP series Hook spanners HN series 13 Screw injectors and Adjustable hook spanners HNA series Hook spanners for SNL housings HN../SNL series Impact spanners TMFN series Axial lock nut sockets TMFS series 13 и и 14 Oil injector series Oil injection kits 7291 series Oil injection setstmje 300 and 400 series Adapter block Mounting bearings using heat SCORPIO induction heater TMBH 1 Electric hot plate С Portable induction heater TIH 030m Mediumsize induction heater TIH 070m /TIH 090m Large induction heater TIH 2m Induction heater trolley TIH Tl Special heaters for large components Highpressure pipes Pressure gauges Plugs for oil ducts and vent holes Flexible highpressure hoses Quick connecting coupling and nipples Connection pipes with metric and G pipe threads Connection nipples with NPT tapered threads Extension pipes with connecting nipples Mounting fluid LHMF300 OK coupling mounting and dismounting kits Mounting bearings using hydraulic techniques The SKF Oil Injection Method SKF Oil Injection CDROM The SKF Driveup Method Hydraulic nut driveup adapter HMVA 42/0 Driveup Method CDROM Adapter and withdrawal sleeves for Oil Injection Hydraulic nuts HMV..E series Feeler gauges series SensorMount IndicatorTMEM 1500 Hydraulic pumps and oil injectors selection guide Accessories Anti corrosive agent LHRP 1 Special working gloves TMBA G11W Heat resistant gloves TMBA Gil Extreme temperature gloves TMBA G11ET Heat and oil resistant gloves TMBA G11H Lubrication SKF bearing greases

Mounting and lubrication Mounting Prevent 16% of premature bearing failures Around 16% of all premature bearing failures are a result of poor fitting or using incorrect mounting techniques.

9 Mounting and lubrication Mounting Prevent 16% of premature bearing failures Around 16% of all premature bearing failures are a result of poor fitting or using incorrect mounting techniques. Individual applications may require mechanical, heat or hydraulic mounting methods for correct and efficient bearing mounting. Selecting the mounting technique appropriate for your application will help you extend your bearing's service life and reduce costs resulting from premature bearing failure as well as potential damage to the application. Mounting bearings in a cold condition Small and medium size bearings are generally cold mounted. Traditionally the bearing is mounted using a hammer and a length of old pipe. This practice can cause forces to be transmitted through the rolling elements, causing damage to the raceways. SKF fitting tools help prevent bearing damage by applying the forces to the bearing ring with the interference fit. Mounting bearings using hydraulic techniques SKF has pioneered the use of hydraulic techniques, such as the SKF Oil Injection Method and the SKF Driveup Method, for mounting bearings. These techniques have helped to simplify bearing arrangements and facilitate correct and easy mounting. SKF has also developed a comprehensive range of tools and equipment to put these hydraulic techniques into effect. Online mounting and dismounting instructions At skf.com/mount, SKF offers a unique Webbased, free of charge information service for the mounting and dismounting of SKF bearings and bearing housings in eight languages. This service provides stepbystep instructions for mounting or dismounting. The system also provides information on proper tools and lubricants. With this free Internet based service; SKF's expertise is at your fingertips around the clock worldwide. Mounting bearings using heat Oil baths are often used for heating bearings prior to mounting. However, this method can contaminate the bearing, resulting in premature bearing failure. Today, induction heating is the most common technique for heating bearings since it allows a high degree of controllability, efficiency and safety. SKF has set the standards for the development of induction heaters for bearing applications. SKF bearing induction heaters are equipped with many features, which help prevent bearing damage during heating.

10 Mounting bearings in a cold condition Premature bearing failure can result from damage incurred when a bearing is incorrectly mounted Typical problems that can cause premature failures are: Damage caused during the fitting procedure Incorrect sized shafts and housings i.e. too loose or too tight Retaining lock nuts coming loose in operation Burred and damaged shaft and housing seats and shoulders Incorrectly mounted bearings Interference fits: cylindrical shafts Most bearings are fitted to their shaft or housing with one component having an interference fit. For determining the correct fit, refer to the SKF General Catalogue, the SKF Maintenance Handbook or consult an SKF application engineer. Incorrect mounting When bearings are mounted cold, care must be taken to ensure the driveup forces are applied to the ring with the interference fit. Damage and a resulting bearing failure can occur if the mounting force is transmitted through the rolling elements causing damage to the raceways. Correct mounting The correct way to minimise raceway damage is to use the specifically designed tools from SKF. such as thetmft 36 fitting tool kit. These tools allow driveup forces to be applied effectively and evenly to the component with the interference fit avoiding raceway damage. 0 Ш 3 m Ш 4 Л El Shaft interference fit Щ Housing interference fit Щ Uneven distribution of forces can result in raceway damage 0 With the correct tools raceway damage is avoided m Ш

Mounting and lubrication Interference fits: tapered shafts if.. MMg & Bearings mounted on tapered seatings achieve their interference fit by being driven up the tapered shaft.

11 Mounting and lubrication Interference fits: tapered shafts if.. MMg & Bearings mounted on tapered seatings achieve their interference fit by being driven up the tapered shaft. Care should be taken to ensure the bearing is not driven up too far, as all the internal clearance may be removed and damage to the bearing is possible. Spherical roller bearings Method: Correct adjustment of spherical roller bearings is determined by measuring the residual internal clearance in the bearing or by the amount of axial driveup. Details of the required reduction of clearance and axial driveup can be obtained from tables published in the SKF General Catalogue. For larger size bearings, it is generally recommended to consider using a tapered seating to facilitate easy mounting and dismounting. Selfaligning ball bearings Method: Adjustment of double row, selfaligning ball bearings is more difficult to achieve than spherical roller bearings because the feeler gauge method cannot be used. A very effective method to mount this type of bearing correctly is to use the SKF TMHN 7 lock nut spanner set. О Correctly mounted: Bearing driven up the correct distance and the right clearance is achieved Ш Incorrectly mounted: Bearing driven up too far and all clearance removed: damage possible 0 Correctly mounted: Bearing driven up the correct distance and the right clearance is achieved Щ Incorrectly mounted: Bearing driven up too far and all clearance removed: damage possible Ш Before adjustment Щ After adjustment J V SKF antifretting agent LGAF 3E 5KF LGAF 3E is a greasy, smooth paste especially developed to prevent fretting corrosion between metal surfaces in loose fit arrangements. Fretting corrosion is caused by very slight oscillations or by vibrations, which may lead to serious damage in bearings and other machine parts and can make dismounting almost impossible. 1 Reduction of fretting corrosion providing easier dismounting of bearings Better sliding on designed loose bearing arrangements such as vibrating screens, truck and car wheel bearings Easier removal of general industrial components in a wide range of applications such as nuts, bolts, flanges, studs, bearings, guide pins, couplings, jack screws, lathe centres, push rods, and spline shafts

12 Bearing fitting tools TMFT series Reduced bearing damage through effective mounting The 5KF bearing fitting tool kits are designed for quick, precise and safe mounting of bearings with bore diameters from to 50 mm (0.39 to 2 in). The right combination of impact rings and sleeves safeguards against mounting forces being transmitted via the rolling elements of the bearing. 2 kit combinations for selected use Individually packed rings and sleeves for special requirements Supertough acetal resin, impact resistant material Special design sleeve head for even force distribution around ring Eliminates impact damage to the bearing Covers a wide range of various bearings Can be used also to mount bushings, seals and pulleys, etc. Deadblow hammer TMFT 33H Unique deadblow hammer for mounting of precision parts Nylon doublesided hammer head avoids damaging of parts Special rubber handgrip 11

* & Ж;'Л Я 1 In Mounting and lubrication Selection chart TMFT 33 Sleeve Rings SKF bearing series C*^ ^ ^3 d/d 60 63 62 64 12 13 22 23 72B 73B 32 33 222 223 213 NUNJN 234 302 303 322 313 323 CARB«/26

13 * & Ж;'Л Я 1 In Mounting and lubrication Selection chart TMFT 33 Sleeve Rings SKF bearing series C*^ ^ ^3 d/d B 73B NUNJN CARB«/26 /30 /30 / A TMFT 33A 12/28 12/32 12/32 12/37 12/37 15/32 15/35 15/35 15/42 15/ ? 72 В /35 17/40 17/40 17/47 17/ В 7303 В В TMFT 33B 25/47 25/52 25/52 25/62 25/62 30/55 30/62 30/62 30/72 30/ В 7305 В 76 В 7306 В С 6006 V С 26 С 26V 35/62 35/72 35/72 35/80 35/ В С 4908 V* С 49 V* С 69 V* С 27 V 40/68 40/80 40/80 ^90 / С 4908 V* С 28 С 28V TMFT 33С 45/75 45/85 45/85 45/85 45/0 45 /0 45/0* 45/0* 50/80 50/90 50/90 50/90* 50/90* 50/1 50/1 50/1* 50/1* 50/1* 50/1* 50 /1* 50/1* В 7309 В 7211В 72 В 73 В 7212 В 7213 В 7311В С 29 С 29V С 6912 V* С 2211 С 2211V С 69V С 22 С 22V С 49 V' С 2212 С 2212V * Outerringfitting only ** Innerringfitting only 12

14 Bearing lock nut spanner TMHN 7 series For achieving the correct radial clearance The TMHN 7 set of lock nut spanners is especially designed for mounting selfaligning ball bearings as well as small spherical roller and CARB bearings on tapered seatings. Using the TMHN 7 minimises the risk of overtightening of the lock nut, which can result in removing the bearing's radial clearance and bearing damage. 7 differentsized spanners to fit nut sizes 5 to 11 Each spanner is clearly marked with correct tightening angle and protractor U grip points on each spanner giving better and safer grip on the nut Reduced risk of damaging bearing by overtightening Suitable for use with lock nuts of the KM series either on shaft or in 5NL housings Hook spanners HN series Exact spanner radius reduces the risk of nut damage The HN series includes 15 different size hook spanners based on the DIN 18 standard. The hook spanners are designed for use with 5KF KM nuts as well as any other KM nuts conforming to the DIN 981 standard. Additionally, they are suitable for use with N, AN, KMK, KMFE and KMT as well as nuts manufactured according to the DIN 1804 standard. Minimises the risk of shaft and nut damage Plastic handle is oil, grease and dirt resistant to provide a better grip The plastic handle minimises direct metal to skin contact, reducing the risk of corrosion in the handle area Hole in the spanner's handle facilitates easy storage of spanner representing its size is laserengraved allowing easy identification and selection Adjustable hook spanners HNA series Four sizes for tightening or loosening up to 24 nut sizes The 5KF adjustable hook spanners HNA series facilitate the easy and safe tightening and loosening of KM, KML, N, AN, KMK, KMFE and KMT nuts. The spanners are made of special hardened steel for durability. П One hook spanner covers several nut sizes, making it suitable for use with many applications Economic solution: A hook spanners cover 24 nut sizes Laser engraved designation, which represents the range of nut sizes covered by the spanner, allows easy selection of the correct spanner Versatile: suitable for KM. KML, N, AN, KMK, KMFE and KMT nuts Hole in the spanner's handle facilitates easy storage Minimises the risk of shaft and nut damage

15 Mounting and lubrication Hook spanners HN../SNL series г*: А Easy and quick bearing mounting and dismounting in SNL housings A normal design HN hook spanner cannot be used in a SKF SNL housing, however the hook spanners of HN../SNL series are especially designed to facilitate easy and quick mounting and dismounting of bearings with tapered bore on adapter sleeve in SKF SNL bearing housings. They are also suitable for tightening and loosening a wide variety of locknuts in both housing and shaft applications. The HN../SNL series consists of 16 sizes suitable for nut outer diameter ranging from 38 to 145 mm (1.5 to 5.7 in). The spanners are made of hardened high quality chrome vanadium steel for durability. Unique, special design allows the HN../SNL series to be used inside SKF SNL and SNH bearing housings Suitable for tightening and loosening KM, KML, N, AN, KMK, KMFE and KMT lock nuts, facilitating the use in a wide range of housing and shaft applications The large contact area of the spanner around the nut provides excellent grip and force transmission Exact fit reduces the risk of shaft, nut and housing damage is laserengraved on the handle allowing easy identification and selection Additional five larger sizes for nut outer diameter 155 to 2 mm (6.1 to 8.3 in) are available upon request Hole in the spanner's handle facilitates easy storage Impact spanners TMFN series High impact forces without nut damage SKF impact spanners are designed for safe and easy tightening and loosening of locknuts used to secure and adjust larger bearings directly on the shaft or with adapter and withdrawal sleeves. ЩЗ Avoids shaft and nut damage Safe and user friendly Impact applied effectively to the nut Suitable for nuts of series KM, KML, HM.. T, HMLT. HM 30, HM 31, AN.., N.. and N.. (for nut sizes 23 and above) Special wide impact face Axial lock nut sockets TMFS series Easy mounting and dismounting without nut damage SKF axial lock nut sockets are designed for safe and easy tightening and loosening of lock nuts. They are used to secure and adjust bearings on tapered journals, adapter sleeves and withdrawal sleeves. «Demands less space around the bearing arrangement than hook spanners Inch connections for power tools or torque wrenches i TMFS fits nuts of series KM. KMK (metric) and KMF 1/,

16 Mounting bearings using heat The force needed to mount a bearing increases rapidly with bearing size. Because of the mounting force required, larger bearings cannot easily be pressed onto a shaft or into a housing. Therefore the bearing or the housing is heated before mounting. Q Principle of induction heating ffl Hot mounting Ш Lifting gear Ш Never heat a bearing using an open flame Principle of induction heating An induction heater can be compared to a transformer using the principle of a primary coil with a large number of windings, and a secondary coil with a few windings, on a mutual iron core. The input/output voltage ratio is equal to the ratio of the windings, while the energy remains the same. Consequently, the secondary coil will provide a low voltage at a high amperage. In the case of the SKF induction heater, the bearing is a short circuited, single turn, secondary coil through which a low A.C. voltage flows at high amperage, thus generating high heat. The heater itself, as well as the yoke, remains at ambient temperature. As this type of heating induces an electric current, the bearing will become magnetised. It is important to ensure that the bearing is then demagnetised so that it will not attract metal particles during operation. All SKF induction heaters have automatic demagnetising cycles. Hot mounting The temperature difference between the bearing and seating depends on the magnitude of the interference fit and the bearing size. Normally a bearing temperature of 80 to 90 C (144 to 162 F) above that of the shaft is sufficient for mounting. Never heat a bearing to a temperature greater than 125 C (257 F), because the material may change metallurgically and produce alterations in diameter or hardness. Local overheating must be avoided and in particular never heat a bearing using an open flame. Wear clean protective gloves when mounting a hot bearing. Lifting (hoisting) gear can facilitate mounting. Push the bearing along the shaft as far as the abutment and hold the bearing in position, pressing until a tight fit is obtained. SKF supplies a full range of heating tools, such as induction heaters and electric hot plates with an adjustable thermostat and cover for all common mounting needs. Selection guide There are no totally restrictive guidelines to follow when choosing your SKF bearing heater. It will depend upon the type and geometrical dimensions of the components you want to heat. Nevertheless, SKF offers the following helpful general selection guide. SKF 1TI concept "m 2 o" represents the weight (kg) of the heaviest SRB 231 bearing which can be heated from to 1 C (68 to 230 F) in minutes. This defines the heater's power output instead of its power consumption. 15

Mounting and lubrication SCORPIO induction heater TMBH 1 A portable bearing heater weighing only 4,5 kg ( lb) The 5KF bearing heater TMBH 1 is a portable lightweight heater for heating bearings with

17 Mounting and lubrication SCORPIO induction heater TMBH 1 A portable bearing heater weighing only 4,5 kg ( lb) The 5KF bearing heater TMBH 1 is a portable lightweight heater for heating bearings with an inner diameter ranging from to 0 mm (0.8 to 4 in) and a maximum corresponding weight of 4,5 kg ( lb). The heater uses a patented method of heating based on high frequency induction, which provides optimised efficiency. This method is very quiet and creates no magnetisation at all. In addition to bearings, the heater can also be used for heating ferrous components such as gears, pulleys, bushings and shrink rings.,^^^ 1 Lightweight and portable (4,5 kg lbs) Heating efficiency better than 85% Components are not magnetised Equipped with temperature and time control Supplied with a heating clamp, temperature probe, power cable, heat resistant gloves and a carrying case [I Electric hot plate С Thermostat controlled bearing heating The SKF electric hot plate, C, is a professional heating device especially designed for preheating small bearings prior to mounting. The temperature of the plate can be adjusted at the turn of a knob to provide a temperature range of between 50 and 0 C (1 and 390 F). <#J Adjustable temperature range of 50 0 C (1 390 F) Protective cover to avoid contamination during heating 16

Portable Induction Heater TIH 030m Small bearing heater with high heating capacity of up to 40 kg bearing дм I The new 5KF small induction heater TIH 030m combines high heating capacity with

18 Portable Induction Heater TIH 030m Small bearing heater with high heating capacity of up to 40 kg bearing дм I The new 5KF small induction heater TIH 030m combines high heating capacity with portability. The compact lightweight design makes the TIH 030m portable. Placing the induction coil outside the heater's housing allows the heating of bearings weighing up to 40 kg (88 lb). The heater is equipped with thermal overheating protection to reduce the risk of damage to the induction coil and the electronics. In addition to temperature mode, the TIH 030m is equipped with a time mode for heating components other than bearings. The heater is supplied standard with three yokes and is available in two executions: 230V/5060Hz and 01V/5060Hz. SKF m concept "m " represents the weight (kg) of the heaviest 5RB 231 bearing which can be heated from to 1 C (68 to 230 F) in minutes. This defines the heater's power output instead of its power consumption. Compact lightweight design: just,9 kg (46.0 lb) facilitating portability 2step power setting and smaller yokes allow heating smaller bearings safely and at lower power consumption Capable of heating a 28 kg (61.7 lb) bearing in just minutes Temperature mode preset at 1 C (230 F) to help prevent bearing overheating Automatic demagnetisation 3 years warranty 0 Induction coil outside the heater's housing allows shorter heating time and lower energy consumption Ш Foldable bearing support arms facilitate the heating of larger diameter bearings В Magnetic temperature probe helps prevent bearing overheating 0 Easytouse control panel and LED display integrated in a remote control Ш Internal storage for all 3 yokes reduces the risk of yoke damage or loss В Integrated carrying handle facilitates portability 17

Mounting and lubrication Induction heater TIH 070m Heating small to medium size bearings three times faster and twice as cheap For heating small to medium size bearings, 5KF offers the TIH 070m.

19 Mounting and lubrication Induction heater TIH 070m Heating small to medium size bearings three times faster and twice as cheap For heating small to medium size bearings, 5KF offers the TIH 070m. This small to medium size heater has a high heating capacity of up to 80 kg (176 lb). щр Available in two power executions; 230V/50Hz and 1V/60Hz Supplied standard with three yokes Compact, lightweight design, 35 kg (77 lb) including three yokes Swivel arm is optional A fan version, TIH 090m, allowing continuous use is available: One power supply execution ranging from 400V/50Hz to 460V/60Hz, the SKF TIH 090m detects the power supply and automatically adjusts its voltage accordingly Swivel arm facilitates easy placement and removal of the bearing Heating capacity up to 1 kg (260 lb) TIH 090m Q Induction coil outside the heater's housing. Reduces heating time and energy consumption by 30%. Reduces heating cost by 50% Щ Magnetic temperature probe monitors bearing temperature during heating И Easytouse control panel with LED display and temperature mode preset at 1 C (230 F). helps preventing bearing overheating И 4step power reduction heats smaller bearings just as quickly but at lower power consumption Ш Integrated carrying handles provide excellent grip when moving the TIH 070m/TIH 090m around Щ Internal yoke storage for the second yoke reduces the risk of yoke damage or loss Ш Swivel arm (optional for TIH 070m, standard on TIH 090m) 18 J

Large induction heater TIH 2m ДМ Heating a 2 kg bearing now takes as long as a coffee break The SKF TIH 2m heats a 2 kg (460 lb) bearing from to 1 C (68 to 230 F) in just minutes.

20 Large induction heater TIH 2m ДМ Heating a 2 kg bearing now takes as long as a coffee break The SKF TIH 2m heats a 2 kg (460 lb) bearing from to 1 C (68 to 230 F) in just minutes. This incredible speed is achieved by positioning the induction coil outside the heater's housing, allowing the bearing to be placed around the coil. This significant innovation results in reducing heating time and power consumption by up to 30%, ultimately saving up to 50% on heating costs. Thermal overheating protection of the induction coil and electronics Time and temperature modes for heating components other than bearings Automatic demagnetisation One power supply execution ranging from 400V/50Hz to 460V/60Hz. the SKF TIH 2m detects the power supply and automatically adjusts its voltage accordingly Compact design Bgj; И Induction coil outside the heater's housing heats a 2 kilogram bearing in just minutes. Reduces heating time and energy consumption by 30%. Reduces heating cost by 50% (0 Magnetic temperature probe monitors bearing temperature during heating В Easytouse control panel with LED display and temperature mode preset at 1 C (230 F). helps preventing bearing overheating Ш 4step power reduction heats smaller bearings just as quickly but at lower power consumption Щ Integrated carrying handles provide excellent grip when moving the TIH 2m around Q Internal yoke storage for the second yoke reduces the risk of yoke damage or loss 0 Sliding arm allows easy and quick bearing placement T9

$Mounting and lubrication Induction heater trolley TIH Tl \м У"«;> Move induction heaters from one job to another easily and quickly The SKF TIH Tl trolley is designed to improve mobility when using$

21 Mounting and lubrication Induction heater trolley TIH Tl \м У"«;> Move induction heaters from one job to another easily and quickly The SKF TIH Tl trolley is designed to improve mobility when using SKF induction heaters, especially the larger ones. The trolley has a high carrying capacity of up to 900 kg (1,934 lb) and is fitted with a drawer with an oil resistant mat and two adjustable dividers. ^09 Special heaters for large components Custommade to your specifications SKF can quote for the supply of special heaters for large heating jobs. To provide an accurate quotation the following information is required: Dimensions of the component to be heated (d x D x H) Weight in kg or lb Required heating temperature Desired heating times Available power supply Demagnetisation requirements Temperature or time control requirements Portability requirements, if any A sketch or drawing of the component to be heated SKF also offers a range of heating equipment, which can be used for both mounting and dismounting bearin The range includes aluminium rings. TMBR series, as well as fixed and adjustable EAZ induction heaters. For details of these products, please see pages 9697 of this catalogue.

22 Mounting bearings using hydraulic techniques SKF pioneered hydraulic mounting techniques SKF invented hydraulic techniques for mounting bearings in the 1940 s. Since then, the SKF hydraulic methods have been further developed to become the preferred mounting methods for larger bearings as well as other components. These techniques have helped to simplify bearing arrangements and facilitate correct and easy mounting. With the SKF hydraulic mounting techniques you can achieve: More control, allowing precision, accuracy and repeatability to be maintained Minimum risk of damaging the bearings and shafts Less manual effort Greater operator safety The SKF Oil Injection Method Makes bearing mounting an easy task The SKF Oil Injection Method allows bearings and other components with an interference fit to be fitted in a safe, controllable and rapid manner. The method does not require keyways to be machined on the shaft, saving valuable time and money in materials and production. Interference fits (also known as shrink fits) have long been recognised for their reliability in transmitting large torsional loads. Very often interference fits offer the only solution when connecting hubs to shafts with intermittent or fluctuating loads. The SKF Oil Injection Method is used to mount bearings on tapered seatings in combination with a hydraulic nut. The method, which is used for many bearing applications, can also be found in other applications, such as: Couplings Gear wheels Railway wheels Propellers Builtup crankshafts Tapered shafts The concept Ш Injecting oil between two tapered surfaces creates a thin oil film, which reduces the friction between them, thereby significantly reducing the mounting force required. The thin oil film also minimises the risk of metallic contact when mounting, reducing the risk of component damage. The preparation Ш During manufacture the shafts are prepared with oil ducts and grooves. For technical information on how to prepare the shafts, consult an SKF application engineer. The action И Bearings are mounted by pushing them up the shaft with the aid of an SKF HMV.. E nut. Ш The force to mount the bearing is reduced if oil is injected between the shaft and the bearing. This is often done with larger size bearings. In addition to mounting bearings on tapered seatings, the SKF Oil Method can be also used for dismounting bearings mounted on eithi or cylindrical seatings. See page 98 of this catalogue for more details. 21

Mounting and lubrication SKF Oil Injection Method CDROM " ШШШ The SKF oil injection calculations made easy The CDROM calculation program computes easily the laborious manual calculations often

23 Mounting and lubrication SKF Oil Injection Method CDROM " ШШШ The SKF oil injection calculations made easy The CDROM calculation program computes easily the laborious manual calculations often necessary for the SKF Oil Injection Method. Additionally, the CDROM provides theoretical details behind the method plus information on designing components, practical experiences, application examples and more. The CDROM provides you with detailed instructions and practical information on how to use the SKF Oil Injection Method for mounting and dismounting bearings, as well as using the method in design, calculation and application of shrink fitted components. In addition, the program includes animations, photographs, detailed product information and instructions for use, as well as video clips showing various methods and techniques. The CDROM is a powerful tool, which includes the following features: Userfriendly calculation program to determine pressures, stresses and interference levels Explanations of the theoretical background Information on designing components Information on SKF products, which enable the Oil Injection Method to be used Practical experiences and application examples Complete SKF Driveup Method program for fitting spherical roller bearings and CARB bearings in a safe, rapid and controlled manner Information on related SKF products such as gauges, heaters and pullers The benefits of using the SKF Oil Injection Method CDROM include: Substantial time and costsavings Elimination of arithmetic errors Ability to see the effects of design changes in seconds All information on Oil Injection gathered on one CDROM Quick and easy access to all the advantages of the Oil Injection Method 22

24 The SKF Driveup Method agj. Accurate axial driveup of spherical roller and CARB bearings The SKF Driveup Method is a wellproven method of accurately achieving the adjustment of spherical roller and CARB bearings, mounted on tapered seatings, which is unique to SKF. The correct fit is achieved by controlling the axial driveup of the bearing from a predetermined position. The method incorporates the use of an SKF HMV..E hydraulic nut fitted with a dial indicator, and a high accuracy digital pressure gauge, mounted on the selected pump. Special hydraulic pressure tables have been developed, providing the required pressures, for each bearing type. This enables accurate positioning of the bearing at the starting point from where the axial driveup is measured. Reduces the use of feeler gauges Greatly reduces the time to mount spherical roller and CARB bearings A reliable and accurate method of adjustment The only suitable way to mount sealed spherical roller and CARB bearings Step by step procedure 1. Ensure that the bearing size is equal to the HMV..Enut. (Otherwise the pressure in the table must be adjusted.) 2. Determine whether one or two surfaces slide during mounting; see figures AD. 3. Lightly oil all mating surfaces with a thin oil, e.g. SKF LHMF 300, and carefully place the bearing on the shaft. 4. Drive the bearing up to the starting position by applying the HMV..Enut pressure found in the table. Monitor the pressure by the gauge on the selected pump. SKF hydraulic pump SRB is suitable for hydraulic nuts s HMV 54E. SKF TMJL 0SRB is suitable for hydraulic nuts s HMV 92E while TMJL 50SRB is suitable for nuts s HMV 0E. As an alternative the SKF digital pressure gauge TMJG 0D can be screwed directly into the hydraulic nut. 5. Drive the bearing up the taper by the required distance Ss. The axial driveup is best monitored by a dial indicator. The SKF hydraulic nut HMV..E is prepared for dial indicators. Normally, the bearing is now mounted with a suitable interference on the shaft and a suitable residual clearance. For abnormal operating conditions, hollow shafts, very accurate requirements on residual clearance etc., the driveup must be adjusted. In such cases please contact SKF or refer to the SKF Driveup Method CDROM or skf.com/mount. Al Zero position A2 Starting position A3 Final position Ordering details HMV..E (e.g. HMV 54E) HMVC..E (e.g. HMVC 54E) HMV..E/A1 (e.g. HMV 54E/A1) SRB (for nuts s HMV 54E) TMJL 0SRB (for nuts s HMV 92E) TMJL 50SRB (for nuts s HMV 0E) TMJG 0 D TMCD R TMCD 5P TMCD 1/2R Description Metric thread hydraulic nut Inch thread hydraulic nut Unthreaded hydraulic nut Pump with digital gauge (MPa/psi) Pump with digital gauge (MPa/psi) Pump with digital gauge (MPa/psi) Gauge only (MPa/psi) Horizontal dial indicator (0 mm) Vertical dial indicator (05 mm) Horizontal dial indicator (00.5 in) One sliding surface Two sliding surfaces One sliding surface Two sliding surfaces Patent protected 23

Mounting and lubrication Hydraulic nut driveup adapter HMVA 42/0 For use with previous generation of SKF HMV(C) hydraulic nuts The SKF Driveup Method is the preferred method for mounting SKF

25 Mounting and lubrication Hydraulic nut driveup adapter HMVA 42/0 For use with previous generation of SKF HMV(C) hydraulic nuts The SKF Driveup Method is the preferred method for mounting SKF spherical roller and CARB bearings on tapered seatings. In conjunction with an SKF dial indicator, the adapter allows the previous generation of HMV nuts to be used with the SKF Driveup Method. The adapter can be used with nuts from size HMV(C) 42 to HMV(C) 0. The adapter is not required for the current generation of HMV(C)..E nuts. c^ I One adapter suits previous generation nuts from HMV(C) 42 up to 0 Rugged construction Easy to attach to the HMV nut using strong magnets Used in conjunction with SKF dial indicators SKF Driveup Method CDROM A computerised handbook on mounting bearings with a tapered bore The SKF Driveup Method is used for mounting bearings with a tapered bore. This CDROM gives a description of the method with the aid of pictures, animations and tables. The program includes calculation modules covering most bearing mounting situations in seven languages. r ShowSKfuWupMahnd db. 1 >: HMvtq..Ewi ltmvj3f ниусав. J Щ I SttBctad baartnfl 1 \ Г о.»ъ Г oeo*. I (t акут С!.",%. I I &,m Pr*vwut mourfmo* Г n Pump pretture lo storting pnsllitxi. MP* or pet 1.7J Driveup S, (runrintmepothon. mm or inch a.b44 Adapter and withdrawal sleeves for Oil Injection Mounting bearings made easy These SKF sleeves facilitate the use of the SKF Oil Injection Method. The larger sleeves have oil supply ducts and distribution grooves, enabling the user to inject oil between the sleeve and bearing bore and between the sleeve and the shaft. This oil reduces friction and force necessary for mounting, particularly when mounting in a dry state. Reduces the risk of damage to shaft and sleeve Reduces time to mount and dismount bearings A full range of pumps, nipples and pipes are available SKF sleeves also help making bearing dismounting easier For more information, please refer to the SKF General Catalogue, the SKF Maintenance Handbook or consult an SKF application engineer Ш \zzztez77> I! 2A

Hydraulic nuts HMV..E series Easy application of high driveup forces Mounting bearings on tapered seatings can be a difficult and timeconsuming job.

26 Hydraulic nuts HMV..E series Easy application of high driveup forces Mounting bearings on tapered seatings can be a difficult and timeconsuming job. Using an SKF hydraulic nut facilitates easy and quick application of the high driveup forces required for mounting bearings. All HMV..E nuts are equipped with a quick connection coupling to fit the SKF hydraulic pumps. Wide size range, covering shaft diameters from 50 to 00 mm as standard Full range of inch threads available, series HMVC E up to 37.4 in Quick connection coupling can be fitted on the face or side of the nut. allowing the nut to be used in areas where space is limited Spare set of piston seals and Maintenance kit supplied as standard To assist nut threading, a tube of lubricant is supplied standard with all nuts from size HMV(C) 54E To facilitate easy nut threading, all nuts from size HMV(C) 54E are equipped with two tommy bars and four mating holes on their front face Nuts from size HMV(C) 94E are equipped with eyebolts, allowing easy handling Nuts from size HMV(C) 94E have the starting position of the thread indicated, facilitating easy matching of thread positions on both the nut and mating thread Special threads and sizes available on request El HMV..E nut for driving the bearing onto a tapered seating. Ж HMV..E nut screwed onto the shaft for driving in a withdrawal sleeve. Ш HMV..E nut for driving the bearing onto an adapter sleeve. HMV..E nut and special stop nut for driving in a withdrawal sleeve. In addition to facilitating the mounting of bearings, SKF hydraulic nuts HMV E series can be also used t dismounting them. See page 99 of this catalogue for more details. 25

Mounting and lubrication Feeler gauges 729865 series For accurate bearing clearance measurement SKF feeler gauges are designed to measure the internal clearance when adjusting spherical roller

27 Mounting and lubrication Feeler gauges series For accurate bearing clearance measurement SKF feeler gauges are designed to measure the internal clearance when adjusting spherical roller bearings. Two types are available, one with 13 blades of 0 mm (4 in) length and the other with 29 blades of 0 mm (8 in) length. High accuracy of measurement A is supplied with protective plastic cover В is supplied with protective steel cage SensorMount Indicator TMEM 1500 The tool to monitor the mounting of SensorMount bearings The SensorMount Indicator TMEM 1500 provides a direct reading of the fit of a "SensorMount " bearing mounted on a tapered seating. The SensorMount Indicator is only compatible with SKF bearings, which are fitted with the SensorMount sensor. These bearings from SKF have the designation suffixes ZE, ZEB, or ZEV, e.g. ZE 241/500 ECAK30/W33. The SensorMount Indicator provides a numeric value, which guides the user in achieving a reliable bearing fit. SKF bearings fitted with the SensorMount system can also be mounted on adapter sleeves, withdrawal sleeves and hollow shafts. The material composition of the shaft has no effect on the proper operation of the SensorMount system. What you see is what you get; directly indicates the real reduction in internal bearing clearance Easy to use Fast Reliable Simplifies the mounting process: No calculations needed Makes feeler gauges obsolete Minimises the risk of human errors Note: SensorMount'" is a registered trademark of the SKF Group 26

28 Hydraulic pumps and oil injectors selection guide Max. working Pump Type pressure Oil container capacity Connection nipple Mounting Applications* ЗОМРа 4,350 psi THAP030 Airdriven pump Separate container oil G 3/4 OK couplings 50MPa 7,250 psi TMJL50 Hand operated pump cm 3 (165 in 3 ) Gl/4 2HMV92E OK couplings 0 MPa 14,500 psi Hand operated pump 250 cm 3 (15 in 3 ) Gl/4 s HMV54E TMJL0 Hand operated pump 800 cm 3 (48 in 3 ) G 1/4 HMV 92E 150 MPa 21,750 psi THAP150 Airdriven pump Separate container G 3/4 Bolt tensioners. propeller mounting E Hand operated pump cm 3 (155 in 3 ) Gl/4 All HMV..E nuts 300 MPa 43,500 psi THAP 3O0E Airdriven pump Separate container G3/4 OK couplings Large pressure joints Hand operated oil injector 0 cm 3 (12.2 in 3 ) G3/4 OK couplings Adapter / withdrawal sleeves 7291 В Oil injection kit 0 cm 3 (12.2 in 3 ) Several Many applications, such as OK couplings Adapter / withdrawal sleeves TMJE 300 Oil injection set 0 cm 3 (12.2 in 3 ) Several Screw injector 5.5 cm 3 (0.33 in 3 ) G3/8 Machine tool applications shaft diameter s 0 mm Screw injector 25 cm 3 (1.5 in 3 ) G3/4 Machine tool applications shaft diameter s 0 mm 400 MPa 58,000 psi / 400 MPa Hand operated oil injector 0 cm 3 (12.2 in 3 ) G3/4 Joints with high interference fits 7291E Oil injection kit 0 cm 3 (12.2 in 3 ) Gl/4 Complete kit / set to suit many applications TMJE 400 Oil injection set 0 cm 3 (12.2 in 3 ) Gl/4 * The mounting applications given above are for guidance only. The interference fit present may mean that a pump I injector with a higherpressure capacity is required. 2 7

29 Mounting and lubrication Hydraulic pump MPa (14,500 psi) The pump is suitable for use with hydraulic nuts U HMV 54E) to mount bearings or components where a maximum pressure of 0 MPa (14,500 psi) is required. The pump is supplied with 1500 mm (59 in) pressure hose, quick connect coupling and mating nipple and pressure gauge. The pump is filled with 5KF mounting fluid LHMF 300 and is supplied with an extra litre of fluid. For applications where space does not permit the use of a quick connect coupling and nipple, such as A0H sleeves, a special pump design is available ( A). Suitable for hydraulic nuts s HMV 54E Extra litre of mounting fluid Special pump configurations available Packed in a sturdy protective case Oil container capacity 250 cm 3 (15 in 3 ) Applications SKF hydraulic nuts <; HMV 54E All other oil injection applications where the maximum pressure is 0 MPa (14,500 psi) Hydraulic pump TMJL 0 Large oil container 0 MPa (14,500 psi) TheTMJL 0 pump is suitable for use with hydraulic nuts (s HMV 92E) to mount bearings or components where a maximum pressure of 0 MPa (14,500 psi) is required. The pump is supplied with 3000 mm (118 in) pressure hose, quick connect coupling and mating nipple, and pressure gauge. The pump is filled with SKF mounting fluid LHMF 300 and is supplied with an extra litre of fluid. Suitable for hydraulic nuts <. HMV 92E Suitable with SKF hydraulic assisted pullers TMHP series Extra litre of mounting fluid Packed in a sturdy protective case Oil container capacity 800 cm 3 (48 in 3 ) ВЯ Applications SKF hydraulic nuts * HMV 92E All other oil injection applications where the maximum pressure is 0 MPa ( psi) SKF hydraulic assisted pullers TMHP series

30 Hydraulic pump TMJL MPa (7,250 psi) The TMJL 50 pump is mainly intended for use on the lowpressure side of SKF OK couplings, but is also suitable for applications where a maximum pressure of 50 MPa (7,250 psi) is required. The pump is supplied with a 3000 mm (118 in) long highpressure hose with quick connect coupling and mating nipple. It is filled with SKF mounting fluid LHMF 300 and is supplied with an extra litre of fluid. The pump is fitted with an overpressure valve and has a connection port for a pressure gauge. Ф Large oil container (cap cm 3,165 in 3 ) Over pressure valve Extra litre of mounting fluid Packed in a sturdy protective case Applications Low pressure side of SKF OK couplings Larger size hydraulic nuts (a HMV 94E) All other oil injection applications where the maximum pressure is 50 MPa (7,250 psi) Hydraulic pump E 150 MPa (21,750 psi) The E is a twostage pump suitable for use with SKF Supergrip bolts and to mount bearings or components where a maximum pressure of 150 MPa (21,750 psi) is required. The pump is supplied with a 3000 mm (118 in) pressure hose, quick connect coupling and mating nipple and pressure gauge. The pump is filled with SKF mounting fluid LHMF 300, is supplied with an extra litre and is protected in a sturdy metal case. Two stage pressure pumping Extra litre of mounting fluid Packed in a sturdy protective metal case Oil container capacity 2550 cm 3 (155 in 3 ) Applications SKF Supergrip bolts All other oil injection applications where the maximum pressure is 150 MPa (21,750 psi) All sizes HMV..E hydraulic nuts V. J

31 Mounting and lubrication '" ш Airdriven hydraulic pumps, THAP series 30,150 and 300 MPa (4,350, 21,750 and 43,500 psi) The THAP airdriven pumps are available in three different pressure versions. They can be used for mounting OK couplings, large pressure joints such as bearings, flywheels, couplings and railway wheels. The pumps consist of a highpressure hydraulic pump, driven by an air piston. The units are supplied in a sturdy case including oil suction and return hoses with quick connect couplings. The pumps can also be supplied in complete sets, which consists of pump, pressure gauge, adapter block, highpressure pipe and connection nipples. Time savings compared to hand operated pumps Portable Continuous supply of oil Sturdy storage boxes Low, medium and high pressure units в Г1 Applications SKF 0KCouplings Mounting bearings Mounting ship propellers, rudder pintles, railway wheels and other similar applications Я 1 \THAP J К Screw injectors and MPa (43,500 psi) The and screw injectors are mainly used within the machine tool industry for mounting bearings and components using the SKF Oil Injection Method. Valve nipples and can be used to retain the oil pressure while the injector is refilled. ^O Suitable for components with a shaft diameter up to 0 mm (4 in) Oil container capacity 5.5 cm 3 (0.33 in 3 ) Suitable for components with a shaft diameter not exceeding 0 mm (8 in) Oil container capacity 25 cm 3 (1.5 in 3 ) 30

32 Oil injector series 300 and 400 MPa (43,500 and 58,000 psi) The series oil injectors have a varied usage when applying the SKF Oil Injection Method. For mounting bearings, couplings, railway wheels, gear wheels, flywheels, ship propellers and so on. The injector is supplied with an oil reservoir in a compact carrying case. For applications where 400 MPa ( psi) is required a special model is available: /400 MPa. The injector can be mounted directly onto the work piece or connected to an adapter block to make it a floor standing model making it easy to connect pressure gauges and highpressure pipes. Easy to operate Compact carrying case Large range of accessories available. including: Adapter block Pressure gauges High pressure pipes Connecting nipples Oil container capacity 0 cm 3 (12.2 in 3 ) Applications For mounting and dismounting of: Bearings Couplings Railway wheels Gear wheels Flywheels Ship propellers and so on For any oil injection application where maximum pressure of up to 400 MPa (58,000 psi) is required ** "<? 4J. Oil injection kits 7291 series 300 and 400 MPa (43,500 and 58,000 psi) The oil injection kits contain the oil injector complete with high pressure pipe, pressure gauge, adapter block and a range of connection nipples all packed together in a sturdy plastic carrying case. Complete highpressure kits, including oil injector, pressure gauge, 2.0 m highpressure pipe and a range of connection nipples Oil container capacity 0 cm 3 (12.2 in 3 ) Ordering details Description 7291 В 7291E Oil injection kit (300 MPa/ psi) Oil injection kit (400 MPa / psi) Contents list Oil injector Adapter block High pressure pipe (G 3/4 1/4) Connection nipple (G 1/4 1/8) Connection nipple (G 1/4 1/2) Connection nipple (G 1/4 3/4) Pressure gauge (0 300 MPa) Carrying case 7291 В A A 16402E E В 7291E /400 MPa A/400 MPa 16402E E 77589/2 (0400 MPa) В 31

33 1 Ч i*^ Mounting and lubrication Oil Injection sets TMJE 300 and 400 series 300 and 400 MPa (43,500 and 58,000 psi) The SKF TMJE 300 and 400 are used for mounting of pressure joints of all sizes and applications such as propellers, rolling bearings, couplings, gears, pulleys, flywheels and SKF 0Kcouplings. Complete highpressure set with integral pressure gauge, oil reservoir and 2.0 m highpressure pipe Can be dismounted and used directly on the application Provided with range of connection nipples Oil container capacity 0 cm 3 (12.2 in 3 ) wtikv Contents list Oil injector Pressure gauge High pressure pipe (G 3/4 Connection nipple (G 1/4 Connection nipple (G 1/4 Connection nipple (G 1/4 Carrying case Plug Mounting fluid 1/4) 1/8) 1/2) 3/4) TMJE 300 TMJE A A 16402E E /3A E LHMF 300/1 TMJE 400 TMJE / AMOOMPa 16402E E /3A E LHMF 300/1 Hydraulic accessories Adapter block The adapter block consists of a cast steel block to which a pressure gauge and highpressure pipe can be connected. It comes with a floor support and a 90 degree connection nipple for the oil reservoir. Highpressure pipes Maximum working pressure 300 MPa (43,500 psi) The range of SKF highpressure pipes covers most applications where there is a requirement to transfer oil at high pressure They consist of a steel pipe with a steel ball fitted to both ends. Two swivelling connection nipples press these balls against the seating of the connecting hole and thus sealing against oil leakage. Wide range of pipes All pipes are pressure tested to 0 MPa ( psi) over recommended working pressure Special lengths (up to 4 m / 157 in) made on request 400 MPa versions available 69 Safety note: For safety reasons, these highpressure pipes have a maximum recommended service life. All SKF high pressure pipes are hardmarked with the year in which their recommended service life expires; e.g. RECOMMENDED SERVICE LIFE EXPIRES. 32

34 Pressures gauges 0 to 400 MPa (14,500 to 58,000 psi) SKF pressure gauges are designed to fit SKF hydraulic pumps and oil injectors. The gauges are all liquid filled and/or equipped with a restriction screw in order to absorb any sudden pressure drop and prevent damage. Safety glass and blowout discs are standard for all gauges and all have dual scales (MPa/psi). «Cn Covers pressures of 0 to 400 MPa (14,500 to 58,000 psi) Protection against sudden pressure drops Safety glass and blow out discs on all gauges Stainless steel case Dual scales MPa/psi Easy to read, high visibility yellow gauge faces Plugs for oil ducts and vent holes Up to 400 MPa (58,000 psi) SKF plugs have been designed to seal off oil connections at a maximum pressure of 400 MPa (58,000 psi). сэ Flexible highpressure hoses Maximum working pressure up to 150 MPa (21,750 psi) The SKF flexible pressure hoses are designed to be used together with the quick connect coupling A and nipple A on the range of SKF hydraulic pumps. Safety note: All flexible pressure hoses are subject to ageing and after a number of years the performance deteriorates. All SKF flexible pressure hoses are hard marked with the year in which their life expires, e.g. LIFE EXPIRES 08. Quick connecting coupling and nipples For easy pressure hose connection One coupling and two different nipples are available to connect SKF hydraulic pumps to the work piece When nipples with other thread types are required, select an additional SKF nipple from the range to make the connection. Nipple A is supplied standard with all SKF HMV,.E hydraulic nuts. Connection nipples with metric and G pipe threads External to internal metric and G pipe threads SKF provides a wide range of connecting nipples covering many different thread combinations and sizes. All nipples with an E suffix have a maximum working pressure of 400 MPa (58,000 psi). The remainder have a maximum working pressure of 300 MPa (43,500 psi). *$J. 3 3

35 Mounting and lubrication Connection nipples with NPT tapered threads Connection nipples with tapered threads (NPT) and pipe threads (G) SKF can also supply a range of adapters for connecting NPT threads to G threads. All nipples have a maximum working pressure of 300 MPa (43,500 psi). Nipples having a maximum working pressure of 400 MPa (58,000 psi) are available on request. 4J Extension pipes with connecting nipples Catering for difficult connection applications С$.Ё M4 extension pipe with connection nipple Used to extend a highpressure pipe with a G 1/4 nipple (e.g A) when the connection hole has an M4 thread. The extension pipe and connection nipple should be ordered as separate items. M6 extension pipe with connection nipple Used to extend a highpressure pipe with a G 1/4 nipple (e.g A) when the connection hole has a M6 thread. The extension pipe and connection nipple should be ordered as separate items. Valve nipple with extension pipe This combination is intended to be used between an oil pressure joint and an oil injector (226271) when a thin wall thickness of the pressure joint prevents the connection of the injector directly to the joint. The valve nipple is used to retain the pressured oil while the injector is refilled. The extension pipe and connection nipple should be ordered as separate items. Extension pipe This unit is used for connection to components with a thin wall thickness, such as sleeves with oil injection preparations. It is normally used in combination with highpressure pipes such as A. Mounting fluid LHMF 300 For easy and quick bearing mounting The SKF mounting fluid LHMF 300 is suitable for use with SKF hydraulic equipment, including hydraulic pumps, HMV,.E nuts and oil injection tools. The LHMF 300 contains anti corrosives which are non aggressive to seal materials such as nitrile rubber, perbunan, leather and chrome leather, PTFE, and so on. Ordering details and technical data Specific gravity Flash point Pour point Viscosity at C (68 F) Viscosity at «0 C (4 F) Viscosity at 0 C (212 F) Viscosity index Available pack size LHMF 300/pack size C(390 F) 30 C (22 F) 300 mm 2 /s 116 mm 2 /s 17.5 mnrvs litre 34

36 OK Coupling mounting and dismounting kits Specially prepared kits are made to simplify the process of mounting and dismounting SKF OK couplings Ordering details and selection chart Coupling size Contents Weight Application OKC25OKC90 TMHK35 lxtmje 3001 Oil injector set 1 x E Plug 1 x A Pressure pipe (for OKC 80 and 90) 1 x A/00 Pressure pipe (for OKC 2575) Tools and storage case 13.8 kg (30.4 lb) 0KC0OKC170 0KCS178OKCS360 TMHK 36 1 x Injector with spares 1 x TMJL 50 Hydraulic pump Tools and storage case 19 kg (41.8 1b) OKC180OKC250 TMHK 37 2 x Injector with spares OKF 0OKF x * Adapter block * = for use with 1 x A * High pressure pipe OKF couplings 1 x TMJL 50 Hydraulic pump Tools and storage case 28.1 kg (61.8 lb) OKC OKF 0KC180OKC49O 0KF300OKF700 Shipboard or infrequent use TMHK 38 1 x THAP 030/SET Airdriven pump set 1 x A Return hose 2 x Injector with spares 32,1 kg (70.6 1b) OKC OKF 0KC180OKC490 OKF300OKF700 Shipyard or frequent use TMHK 38S 1 x THAP 030/SET Airdriven pump set 1 x A Return hose 1 x THAP 300E Airdriven pump 1 x Injector with spares 78.2 kg (172.3 lb) OKC 500OKC 600 TMHK 39 1 x THAP 030/SET Airdriven pump Shipboard or 1 x A Return hose infrequent use 3 x Injector with spares 35.1 kg (77.2 lb) OKC 500 and larger TMHK 40 Shipboard or infrequent use 1 x THAP 030/SET Airdriven pump 1 x THAP 300E Airdriven pump 1 x A Return hose 2 x Injector with spares 80.2 kg (176.7 lb) 0КС 500 and larger TMHK 41 Shipyard or frequent use 1 x THAP 030/SET Airdriven pump 3 x THAP 300E Airdriven pump 1 x A Return hose 132,7 kg ( b) 3 5

37 Pl^ Ш \Л Mounting and lubrication Accessories SKF anti corrosive agent LHRP 1 SKF LHRP 1 provides excellent longterm corrosion protection to ferrous and nonferrous metals. When applied, it leaves a stable rust protection film over the metal component. Excellent rust protection in high humidity environments (tests at 30 C/80 F 90% relative humidity indicates full protection for at least one year) Excellent longterm indoor storage protection Special working gloves TMBA GllW For providing protection while maintaining excellent grip The SKF working glove TMBA GllW are specially designed for generalpurpose industrial maintenance work. The inside palm of the glove is coated with nonflammable dots providing excellent grip. Abrasion resistant Blade cut resistant Tear resistant Puncture resistant Flexible and comfortable gloves with excellent grip Lint free Tested and certified according to EN 388 (mechanical risks) < fl Heat resistant gloves TMBA Gil For safe handling of heated components up to 150 C (302 F) The SKF heat resistant gloves TMBA Gil are specially designed for the handling of heated bearings. They are made of special fabric to obtain the following combination of features: Lint free Heat resistant up to 150 C (302 F) Cut resistant Contains no asbestos Tested and certified for mechanical risks (EN 388) and thermal risks (EN 407) i ii Я 6

Extreme temperature gloves TMBA GllET For safe handling of heated components up to 500 C (932 F) The TMBA GllET gloves are especially designed for allowing the safe handling of heated bearings or

38 Extreme temperature gloves TMBA GllET For safe handling of heated components up to 500 C (932 F) The TMBA GllET gloves are especially designed for allowing the safe handling of heated bearings or other components for prolonged periods. They can withstand extreme temperatures of up to 500 C (932 F), without the presence of hot liquid or steam, with a high degree of nonflammability. Heatresistance to extreme temperatures allows the safe and prolonged handling heated components Highdegree of nonflammability reduces the risk of burning Extremely tough KEVLAR gloves with high cut, abrasion, puncture and tear resistance for increased safety Lintfree design safeguards against bearing contamination Comfortable to wear, as they are knitted from flexible high performance materials in one piece without seams Tested and certified for mechanical risks (EN 388) and thermal risks (EN 407) Heat and oil resistant gloves TMBA GllH l l! For safe handling of oily and heated components up to 250 C (482 F) The SKF heat and oil resistant gloves TMBA GllH are specially designed for the handling of hot and oily bearings. They are made of multiple layers of different kinds of fabric to obtain an important combination of features: A combination of heat, cut, oil and water resistance KEVLAR gloves Melt and burn proof Maximum temperature: 250 C (482 F) Remains heat resistant when wet Cut resistant Lint free Tested and certified for mechanical risks (EN 388) and thermal risks (EN 407)

suns Mounting and lubrication Lubrication 5KF greases for most bearing applications Sealed bearings are prelubricated and do not require lubrication when mounted.

39 suns Mounting and lubrication Lubrication 5KF greases for most bearing applications Sealed bearings are prelubricated and do not require lubrication when mounted. However, in applications where open bearings are used, these bearings must be lubricated after mounting. Selecting the right bearing grease for your application is another step to maximise your bearing's service life. SKF offers thirteen different bearing greases, which have been especially developed by SKF to cover most bearing applications. SKF bearing greases LGMT2 LGMT3 LGEP2 LGLT2 LGHP2 LGFP2 LGGB2 LGWA2 LGHB2 LGET2 LGEM2 LGEV2 LGWM1 Description All purpose industrial and automotive bearing grease All purpose industrial and automotive bearing grease Extreme pressure bearing grease Low temperature, extremely high speed bearing grease High performance bearing grease Food compatible bearing grease Green biodegradable grease Wide temperature range bearing grease High viscosity, high temperature bearing grease Extreme temperature bearing grease High viscosity bearing grease with solid lubricant Extremely high viscosity bearing grease with solid lubricant Extreme pressure low temperature bearing grease For more information about the above listed SKF bearing greases, please see the Relubrication section of this catalogue on pages 4770 AH

40 Alignment Misalignment costs time and money Shaft alignment tools TMEA series Thermal printer TMEA PI Machinery shims TMAS series Belt alignment tool BeltAlign TMEB r»

1ж_^«и Alignment Misalignment costs time and money Shaft misalignment Shaft misalignment is responsible for up to 50% of all costs related to rotating machinery breakdowns.

41 1ж_^«и Alignment Misalignment costs time and money Shaft misalignment Shaft misalignment is responsible for up to 50% of all costs related to rotating machinery breakdowns. These breakdowns increase unplanned machinery downtime, resulting in higher maintenance costs and loss of production. Additionally, misaligned shafts can increase vibration levels and friction, which can significantly increase energy consumption and can cause premature bearing failures. Overheated motor due to misalignment. Picture taken using a FUR infrared camera. Traditional shaft alignment methods Traditional alignment methods, although very common, do not often produce the exacting degree of accuracy required by today's precision machinery. The rough alignment methods still used nowadays, such as using a straight edge and feeler gauge, may be quick, but they can be inaccurate. Another traditional method employing dial indicators offers a higher degree of accuracy, but it requires specialist operators and can be time consuming. И Straight edge and feeler gauge method Ш Dial indicator method Laser shaft alignment method Laser alignment methods are a marked improvement on traditional ones. A laser shaft alignment tool facilitates a quicker and more accurate alignment than traditional methods. Since shaft misalignment has a direct, negative, impact on bearing service life, SKF offers a range of high precision, easytouse laser shaft alignment tools. The tools, the TMEA Series, combine simplicity with a high degree of accuracy. They feature a threestep process for correcting alignment: Measuring, Aligning and Documenting. Accurate shaft alignment can help you: Increase bearing life Reduce stress on couplings and thereby the risk of overheating and breakage Reduce wear on seals, helping to prevent contamination and lubricant leakage Reduce friction and thereby energy consumption Reduce noise and vibration Increase machinery uptime, efficiency and productivity Reduce costs of replacing components and machinery downtime Parallel misalignment (or offset) Angular misalignment Correct alignment 4 U

42 Belt misalignment One of the common reasons for unplanned downtime of beltdriven machinery is pulley misalignment. Pulley misalignment can increase wear on pulleys and belts as well as increasing the noise and vibration levels, which can result in unplanned machinery downtime. Another side effect of increased vibration is premature bearing failure. This too can cause unplanned machinery downtime. Traditional belt alignment methods These methods, which are the most widely used, involve either using visual judgement alone or visual judgement in combination with a straight edge and/or length of string. The advantage of these traditional methods is the perceived short time needed for adjustment, although the use of a straight edge takes more time than visual judgement alone. The major disadvantage is the lack of accuracy. Some belt manufacturers recommend a maximum horizontal angle misalignment of 0.5 or even 0.25, which is impossible to accomplish by using naked eye. *Р^ЩЩЩЩЩЬу ']"Ч Ч "<1' : "!" \ " ГА"! 1 T"T"T l "r, T"T"T,M "Ti"l""l1 Measuring parallel and angular misalignment using a straight edge or a piece of string Laser belt alignment methods A laser belt alignment tool facilitates alignment with far more speed and accuracy than with traditional methods. Belt alignment tools available on the market can be categorised according to the way the tools can be attached to the pulley and the way they align. In general there are two groups; one aligns the face of the pulleys and the other aligns the grooves of the pulleys. The major disadvantage of the tools, which use the face or side of the pulley as a reference for aligning the pulleys and belts, is that only the face of the pulley is used as a reference. This means that only the faces of the pulleys are aligned with each other and not necessarily the grooves in which the belt runs. This method results in varying degrees of accuracy when the pulleys are of different thickness, brands or kinds. X L Correct alignment means that the grooves of the pulleys are aligned The tools, which align the grooves of the pulley allow for alignment where it counts most in the grooves of the pulley, substantially increasing accuracy irrespective of the thickness, brand or type of pulleys. Accurate pulley and belt alignment can help you: Increase bearing life Increase machinery uptime, efficiency and productivity Reduce wear on pulleys and belts Reduce friction and thereby energy consumption Reduce noise and vibration Reduce costs of replacing components and machinery downtime El Vertical angle misalignment Щ Horizontal angle misalignment Щ Parallel misalignment 0 Correct alignment 41

Alignment ши «... Shaft alignment tools TMEA Series Pinpoint accurate alignment simply achieved The 5KF shaft alignment tools TMEA Series offer you simplicity with a high degree of accuracy.

43 Alignment ши «... Shaft alignment tools TMEA Series Pinpoint accurate alignment simply achieved The 5KF shaft alignment tools TMEA Series offer you simplicity with a high degree of accuracy. These highly innovative tools feature a threestep process for correcting alignment: Measuring, Aligning and Documenting. First, Measure the machinery's current alignment status. Then Align the machine vertically and horizontally. Finally, Document and keep track of the alignment activities. These three simple steps allow you to easily and effectively align shafts using advanced laser technology. Easytouse, threestep process: MeasureAlignDocument Compact, lightweight design Spirit levels allow easy and fast positioning of the measuring units Selectable mm or inch reading of measurement facilitates worldwide use Supplied in sturdy, lightweight carrying cases for portability Supplied with high precision SKF precut shims for accurate alignment Я 1 ftfcl Shaft alignment tool TMEA 2 Easy, quick and affordable shaft alignment The TMEA 2 is an easytouse shaft alignment tool, which requires no special training to operate. The two measuring units can be easily attached to the shafts using magnetic brackets or chains. Each measuring unit emits a laser line, which is projected on the detector of the other unit. Display unit simultaneously provides clear "realtime" coupling and feet values during alignment process making rechecking of the alignment unnecessary The laser and scale lines facilitate easy prealignment "Soft foot" feature easily guides the operator through this function Display unit can be held using one hand, freeing the operator to perform the alignment Magnetic brackets allow easy fixture of the measuring units onto the shaft A set of blank alignment reports to help you keep record of your alignment jobs Maximum distance of 0,85 m (2.8 ft) between the measuring units brackets 42

44 Shaft alignment tool with printer capability TMEA IP/2.5 Record alignment activities using an optional printer The TMEA IP/2.5 offers you the advantage of keeping record of the alignment activities. It is equipped with a printer port to which the optional thermal printer TMEA PI can be connected. The printer provides a clear and complete alignment report, which can be used to document alignment activities. This userfriendly printer is operated with the touch of a single button on the display unit of the TMEA IP/2.5. Optional printer facilitates recording of alignment activities Maximum distance of 2,5 m (8.2 ft) between the measuring units makes it suitable for aligning variety of applications Display unit provides clear "realtime" values during the alignment process making rechecking alignment unnecessary Userfriendly display unit with only four buttons for operation Supplied with blank alignment reports for recording alignment activities in case the printer is not purchased Intrinsically safe shaft alignment tool TMEA IPEx Accurate alignment in explosive hazardous areas The TMEA IPEx is an intrinsically safe (Ex) shaft alignment tool, especially designed for use in potentially explosive hazardous areas. It has been tested and certified according to the latest ATEX standards in intrinsic safety zones generally found in industries such as the petrochemical, gas and pharmaceutical among others. The TMEA IPEx is supplied standard with a thermal printer for recording alignment activities. Intrinsically safe classification ATEX code: II 2 G, EEx ib НС Т4, at ambient temperature range of 0 to АО С (32 to 4 C F) EC Type Examination Certificate Nemko03ATEX1X Standard printer facilitates recording of alignment activities Maximum distance of 1 m (3 ft) between the measuring units makes it suitable for aligning a variety of applications Display unit provides clear "realtime" values during the alignment process making rechecking alignment unnecessary Userfriendly display unit with only five buttons for operation A3

Alignment Thermal printer TMEA PI Рйнтта Keep track of alignment jobs This compact thermal printer helps you to document your alignment jobs.

45 Alignment Thermal printer TMEA PI Рйнтта Keep track of alignment jobs This compact thermal printer helps you to document your alignment jobs. A clear and complete printout of the measurement data shows that the machine has been properly aligned within the allowed tolerances. Compact easytouse printer Clear easytoread printout Prealignment and postalignment reports possible Battery is rechargeable Continental European adaptor included Printer uses standard thermal paper roll (1 mm x m) / (4.4 in x 65 ft) Can be used in combination with TMEA IP/2.5 and TMEA IPEx only Machinery Shims TMAS series For accurate vertical machinery alignment Accurate machine adjustment is an essential element of any alignment process. 5KF single slot precut shims are available in five different dimensions and in ten different thicknesses. Made of high quality stainless steel, allowing reuse Easy to fit and to remove Close tolerances for accurate alignment Thickness clearly marked on each shim Fully deburred Precut shims are supplied in packs of and complete kits are also available 1,1,

46 Contents TMAS shim kits TMAS 340 Thickness (mm) 0,05 Size (mm) Quantities: 0x0 125x125 0, 0. 0,25 0,40 0, ,00 2,00 TMAS 360 Thickness (mm) Size (mm) 50x50 75x75 0x Quantities: 0, 0, TMAS 5 Thickness (mm) Size (mm) 50x50 75x75 0x Quantities: 0, 0, 0,25 0,40 0,50 0,70 1,00 2,00 If] TMAS 7 Thickness (mm) Size (mm) 50x50 75x75 0x0 125x Quantities: 0. 0, 0, Л Г J \TMAS 7 4 5

47 Alignment Belt alignment tool BeltAlign TMEB 2 ЙНЕ? а Beltdriven machinery downtime caused by misalignment is a thing of the past The SKF BeltAlign, TMEB 2, aligns the pulleys where it counts most in the grooves. Vguides and powerful magnets allow the BeltAlign to be fitted in the grooves of the pulley. With only two components, a laseremitting unit and a receiver unit, the BeltAlign is easy and fast to attach. The threedimensional target area on the receiver unit allows the easy detection of misalignment as well as its nature; whether it is horizontal, vertical, parallel or a combination of all three. Armed with this precise information, the operator can easily make the appropriate adjustments until the laser line corresponds with the reference line on the receiver unit. Pinpoint accuracy with latest laser technology: Aligns grooves of the pulley rather than its face, allowing the alignment of pulleys of unequal width or with dissimilar faces even fits applications where the pulley face cannot be used as a reference No trial and error. The laser position indicates the nature of misalignment allowing easy and accurate adjustment ГМ 1 Versatile and userfriendly: Powerful magnets allow fast and easy attachment Easytouse, requires no special training to operate Threedimensional target area simplifies the alignment process Facilitates simultaneous adjustment of tension and alignment Vguides facilitate the alignment of a wide range of Vbelt pulleys Special side adaptor allowing alignment of multiribbed and timing belt pulleys as well as chain sprockets is available as accessory A maximum operating distance of 6 meters ( ft) makes it suitable for use in various applications Sturdy aluminium housings provide great assembly stability and accuracy m ь щт \ 4 6

Relubrication SKF bearing greases: The perfect solution for every application Glossary of lubrication terms Basic bearing grease selection SKF bearing grease selection chart SKF bearing greases and

48 Relubrication SKF bearing greases: The perfect solution for every application Glossary of lubrication terms Basic bearing grease selection SKF bearing grease selection chart SKF bearing greases and their applications SYSTEM 24 singlepoint automatic lubricator LAGD 125 and LAGD 60 DialSet 3.0 Relubrication Calculation Program SYSTEM Multipoint automatic lubricator LAGD 400 Oil Leveller LAHD series Grease packer LAGP 400 Grease gun One hand operated grease gun LAGH 400 Bearing packer VKN 550 Disposable grease resistant gloves TMBA GllD Grease meter LAGM 00E Grease filler pumps LAGF series Grease pumps LAGG series 1 kg grease pump LAGG 1M Lubrication accessory sets

Relubrication Я L Л SKF bearing greases: The perfect solution for every application Even the very best bearing can only show optimum performance when it is lubricated correctly.

49 Relubrication Я L Л SKF bearing greases: The perfect solution for every application Even the very best bearing can only show optimum performance when it is lubricated correctly. Here, it is extremely important to choose the right bearing grease and to apply the most suitable lubrication intervals and methods. This realisation has prompted SKF, the world's leading manufacturer of rolling bearings, to look intensively into the subject of lubrication. SKF engineers consider grease to be a "fundamental" component of the bearing arrangement and thus, as important as the bearing, housing and sealing. SKF's vast experience in the development of rolling bearings forms the basis for the development of a special range of lubricants, the superior quality of which is obtained through continuous testing and studies. The strict standards and testing parameters developed and applied at the SKF Engineering and Research Centre have become internationally recognised benchmarks for bearing greases. The comprehensive range of SKF bearing greases is the result of many decades of research and development. Each individual lubricant is precisely adjusted to the respective field of application. SKF sets the standard Tangible performance parameters mean more to SKF than the chemical composition of the lubricant. The chemical composition is not the only factor in determining the quality of a particular grease, since modern lubricants are extremely complex. SKF has set the standards for developing special testing parameters. Bearing grease selection Incorrect lubrication accounts for up to 36% of premature bearing failures. Allpurpose greases are inadequate for specialised bearing needs and can cause problems rather than be beneficial. Bearing applications have wide variations of operating conditions and correct lubrication calls for matching the grease precisely to the application. I!!!! Bearing greases help ensure smooth, troublefree operation and maximum reliability even under the most extreme conditions. They help prevent contamination from penetrating the bearing, cushion any shock loads and protect against corrosion. Selecting the right bearing grease for a certain application is essential for achieving the maximum service life of a bearing. Selection criteria for correct lubrication include bearing type and size, temperatures, speeds and loads, as well as the desired service life and relubrication intervals. SKF Traffic light concept and Grease Performance Factor The temperature range over which a grease can be used depends largely on the type of base oil and thickener used as well as the additives. The relevant temperatures are schematically illustrated in the following diagrams in the form of a "double traffic light", Operating temperature range of greases: The SKF Traffic Light Concept LTL Lowtemperature limit: The lowest temperature at which the grease will allow the bearing to be started up without difficulty. LTPL Lowtemperature performance limit: Below this limit, the supply of grease to the contact surfaces of rolling elements and raceways may become insufficient. Values are different for roller and ball bearings. HTPL Hightemperature performance limit: Above this limit the grease will oxidise in an uncontrolled way, so that grease life cannot be determined accurately. HTL Hightemperature limit: When exceeding this limit, the grease loses its structure permanently (e.g., the dropping point for soapbase greases), LTL LTPL HTPL HTL Forbidden to operate Temperature Unsafe functioning (only for short periods) Safe functioning i.e. with predictable grease life 48

JP^ Grease failure process < H] Starvation Degradation LD 0.01 LTL LTPL HTPL HTL Bearing temperature ^ ^ Insufficient oil bleeding (i.e. grease too "dry") Increased shear strength (i.e. grease too "stiff) Fast oil bleeding Increased oxidation Increased evaporation Decreased stiffnes (i.

50 JP^ Grease failure process < H] Starvation Degradation LD 0.01 LTL LTPL HTPL HTL Bearing temperature ^ ^ Insufficient oil bleeding (i.e. grease too "dry") Increased shear strength (i.e. grease too "stiff) Fast oil bleeding Increased oxidation Increased evaporation Decreased stiffnes (i.e. too "soft") Starvation process Degradation process Effect of temperature on grease functioning The values shown in these diagrams are based on extensive tests conducted in SKF laboratories. These tests allow us to accurately determine the temperature range of the SKF bearing greases given in the selection charts included in this catalogue. The results of these tests are also used to evaluate the grease life. The performance of each grease is then translated into a Grease Performance Factor (GPF). Greases with highest values offer the longest life. This factor, used in correlation with the SKF relubrication diagram (see SKF General Catalogue GC 5000). allows you to determine the correct relubrication intervals for the chosen grease. Relubrication intervals Choosing the right bearing grease for a certain application is critical to bearing performance. Applying the correct quantity of grease at the right intervals is of equal importance. Over or undergreasing as well as inadequate lubrication methods can shorten the bearing's service life. For determining the right amount of grease and the correct relubrication intervals for a specific application, SKF has developed DialSet, a simple computerised relubrication calculation program. Calculated relubrication intervals are based on the latest lubrication theories published in the SKF General Catalogue (GC 5000) and depend on bearing type used, application conditions and properties of selected bearing grease. Using a grease meter in combination with a grease gun or pump during manual lubrication helps ensure the supply of the right quantity of grease. SKF's range of grease guns, pumps and lubrication accessories is designed for contaminationfree grease supply as well as easeofuse. Continuous lubrication using automatic lubricators, single or multiplepoint, provides the application with consistent and controlled supply of bearing grease. This reduces the risk of over or undergreasing and positively contributes to optimising the bearing's service life. Additionally, automatic relubrication reduces the risk of contamination. Around the clock solutions offered by SKF, such as SYSTEM 24 and SYSTEM Multipoint, provide precise and reliable grease supply, exactly adjusted to the application's needs. Lubrication methods The lubrication method used is equally important to the right bearing grease, quantity and lubrication intervals. Using lubricators, manual or automatic, facilitates proper lubricant supply to the application. Maintaining cleanliness when lubricating bearings is crucial, as contamination can cause the bearing to fail prematurely. 49

51 Relubrication Glossary of lubrication terms Thickener or soap Thickener or soap is the system, which holds the oil and/or additives together to enable the lubricating grease to function. The thickener system is formed from either soaps or nonsoaps. The type of thickener gives the grease its typical characteristics. Soaps are based on lithium, calcium, sodium, barium, or aluminium. Nonsoaps are based on organic or nonorganic solids, bentonite clay, polyurea, silica gel. Thickener compatibility chart Lithium Calcium Sodium Lithium complex Calcium complex Sodium complex Barium complex Aluminium complex Clay Common Polyurea Calcium sulphonate complex Lithium Calcium Sodium Lithium complex О I О О _ О О О О О О О О О О _ О О о О О о 1 Calcium complex 0 о О о Sodium complex О О О О 1 о О Barium complex о о о о о О Aluminium complex Clay Common D»lwnr«о о о о о о о о о о о 1 _ О о о о 1 Calcium sulphonate complex I = Compatible О Test required = Incompatible Note: SKF high performance, high temperature bearing grease LGHP 2 is not a common polyurea type grease. It is a diurea bearing grease, which has successfully been tested for compatibility with lithium and lithium complex thickened greases i.e. LGHP 2 is compatible with such greases. Base oil The base oil is the oil inside the grease, which provides the lubrication under the operating conditions. Greases are normally based on mineral oils. Synthetic oils can be used for very specific applications such as extremely high or low temperatures. The base oil generally constitutes more than 70% of a grease's composition. Base oil compatibility chart Mineral/PAO Ester Polyglycol Silicone: Methyl Silicone: Phenyl Polyphenyl ether PFPE Mineral oil / РАО Ester Polyglycol Silicone: methyl Silicone: phenyl Polyphenylether PFPE «Compatible О = Test required О Incompatible О О О 50

52 Base oil viscosity Viscosity is a measure of a fluid's flow characteristics and is usually expressed in terms of the time required for a standard quantity of the fluid, at a given temperature, to flow through a standard orifice. Since viscosity decreases with increasing temperature, the temperature at which it is measured is always stated. The viscosity of base oils is always indicated as a kinematic viscosity abbreviated to cst, at 40 C and often also at 0 C. Additives Additives are used to provide additional characteristics such as wear and corrosion protection, friction reducing effects and preventing damage under boundary and mixed lubrication conditions. Grease consistency/penetration A measure of the stiffness of a grease. The consistency is classified according to a scale developed by the NLGI (National Lubricating Grease Institute). This is based on the degree of penetration achieved by allowing a standard cone to sink into the grease at a temperature of 25 C C for a period of five seconds. The depth of penetration is measured on a scale of " 1 mm and the softer greases allow the cone to penetrate further into the grease, hence the higher penetration number. The test method is in accordance to DIN ISO Drop point The drop point is the temperature at which the grease sample, when heated, will begin to flow through an opening and is measured according to DIN ISO The drop point does not relate to the allowable operating service temperature of the grease. Mechanical stability The consistency of a rolling bearing grease should not alter, or only slightly, during the working life of the rolling bearing. Depending on the application, the following tests can be relevant to evaluate the mechanical stability of a grease. Prolonged penetration The grease sample is filled into a cup and using an automatic device (called a grease worker) subjected to double strokes. At the end of the test the penetration of the grease is measured. The difference between the measured penetration at 60 strokes and after strokes penetration is reported as the change in " 1 mm. DIN Classification system Bearing greases can be classified according to DIN The explanation of the DIN code KP2G is given in the below tables. DIN for example: К Р 2 G Application area DIN Additional information NLGI Grade Upper operating temperature and water resistance Lower operating temperature К G I K= Greases for bearings G= Grease for closed gears 0G= Greases for open gears M= Greases for friction bearings/sealing P= EP additives F= Solid lubricants E= Ester C (see NLGI classification) (see next table) Third Letter С D E F G H К M N P R S T и designation letter 1 Upper operating 1 temperature ( C) >2 Water resistance DIN to to to to to to to to 390 No requirement No requirement No requirement No requirement No requirement No requirement Classification of greases by NLGI consistency number NLGI number ASTM worked penetration ( 1 mm) Appearance at room temperature NLGI number ASTM worked penetration ( л mm) Appearance at room temperature very fluid fluid semifluid very soft soft medium hard hard very hard extremely hard VI

Relubrication 4*». 3 Roll stability The change in the grease structure (amount of softening or hardening) can be evaluated by filling a cylinder with a prespecified quantity of grease.

53 Relubrication 4*». 3 Roll stability The change in the grease structure (amount of softening or hardening) can be evaluated by filling a cylinder with a prespecified quantity of grease. A roller is placed inside the cylinder and the complete unit is rotated for 2 hours at room temperature in accordance with ASTM D SKF modified the standard test procedure to reflect the application conditions under which the grease is used to either 72 or 0 hours at a test temperature of 80 or 0 C. At the end of the test period the cylinder is allowed to cool to room temperature and the penetration of the grease is measured. The difference between the original penetration and the value measured is reported as the change in penetration in _1 mm. SKF V2F test The candidate grease is tested for mechanical stability using the following procedure. The test rig consists of a railway axlebox subjected to vibration shocks of 1Hz from a bouncing hammer producing an acceleration level between 1215 g. The test is run at two different speeds, 500 and rpm. If the grease, which leaks from the housing through the labyrinth seal which is collected in a tray after 72 hours at 500 rpm, weighs less than 50 grams the test is continued for a further 72 hours at rpm. If the total amount of grease leakage after both tests (72 hours at both 500 and rpm) does not exceed 150 grams then a rating of 'M' is given. If the grease only fulfils the first part of the test (72 hours at 500 rpm with a grease leakage of 50 grams or less) but fails the second stage, a rating of 'm' is given. If the grease leakage after 72 hours at 500 rpm is greater than 50 grams then it is rated a 'fail'. Copper corrosion Lubricating greases should protect copper alloys used in bearings from corrosive attack while in service. The copper corrosion protection properties of rolling bearing greases are evaluated using the standardised method DIN A copper strip is immersed in the grease sample and placed in an oven. The strip is then cleaned and the degradation is observed. The result is rated by a numerical system. Water resistance The water resistance of lubricating greases is measured in accordance with DIN part 1. A glass strip is coated with the candidate grease, which is placed into a waterfilled test tube. The test tube is immersed in a water bath for three hours at a specified test temperature. The change in the grease is evaluated visually and reported as a value between 0 (no change) and 3 (major change) along with the test temperature. Oil separation Lubricating greases release oil when stored for long periods of time or when used in bearings as a function of temperature. This phenomenon is necessary to ensure good lubrication. The degree of oil separation will depend upon the thickener, base oil and manufacturing method. A cup is filled with a given quantity of grease (which is weighed before the test) and a 0 gram weight placed on top of the grease. The complete unit is put into an oven at 40 C for one week. At the end of the week the amount of oil, which has leaked through the sieve is weighed and reported as a percentage of weight loss. The amount of oil separation is measured in accordance with DIN Corrosion protection Lubricating greases should protect metal surfaces from corrosive attack in service. The corrosion protection properties of rolling bearing greases are evaluated using the SKF Emcor method, which is standardised under ISO 107. Under this test method a mixture of lubricating grease and distilled water is present in the bearing. The bearing alternates during a defined test cycle between standstill and rotation at 80 rpm. At the end of the test cycle the degree of corrosion is evaluated according to a scale between 0 (no corrosion) and 5 (very severe corrosion). A more severe test method is to use salt water to replace the distilled water following the standard test procedure. In addition the test can also be carried out by continuously allowing water to flow or wash through the bearing arrangement during the test cycle. This test method is called the SKF Distilled Water Washout Test. The evaluation procedure is exactly the same as that used under the standardised method. However the procedure places greater demands on the corrosion protection properties of the grease. Lubricating ability The SKF R2F machine assesses the high temperature performance and lubricating ability of a grease, simulating the conditions under which large size bearings operate in housings. The test method is carried out under two different conditions. Test A is conducted at ambient temperature and Test В is conducted at 1 C. A pass rating in the unheated test (Test A) means that a grease can be used to lubricate larger rolling bearings at normal operating temperatures and also in low vibrating applications. A pass in the heated test (Test B) at 1 C means that the grease is suitable for use in large roller bearings operating at elevated temperatures. Test for oil bleeding rate Test for water resistance of greases X Dead weight (gives light pressure on grease sample) Gfass or metal plate Thin layer of grease on plate Sieve Separated oil! = = Distilled water Temperature controlled bath e.g. 90±1 C DIN : determination of the % oil separated V after one week at 40 С DIN : rating for degree of grease deterioration in water 5 2

Rolling bearing grease life The SKF ROF grease test machine determines the grease life and high temperature performance limit of a lubricating grease.

54 Rolling bearing grease life The SKF ROF grease test machine determines the grease life and high temperature performance limit of a lubricating grease. Ten deep groove ball bearings are fitted into 5 housings and filled with a given quantity of grease. The test is undertaken at a predetermined speed and temperature. Both an axial and radial load is applied and the bearings run until failure. The time to failure is recorded in hours and a Weibull life calculation is made at the end of the test period to establish the grease life. This information can then be used in the determination of relubrication intervals in an application. EP performances The 4ball weld load test This method evaluates the EP (Extreme Pressure) performance of a lubricating grease. This test method is standardised under DIN /4. Three steel balls are held in a cup and another fourth ball is rotated against the three balls at a given speed. A starting load is applied and increased at predetermined intervals until the rotating ball siezes and welds to the three stationary balls. The test indicates the point at which the extreme pressure limit of the grease is exceeded. Greases can be considered as EP greases when the weld load is higher than 2600 N. The Дball wear scar test This test is performed with the same rig used in the 4ball weld load test N are applied on the fourth ball during 1 minute. Then the wear on the three balls is measured. Standard test uses a load of 400 N. However, SKF has decided to increase that to 1400 N in order to make the test relevant for bearing applications. False Brinelling Antifretting properties of a grease can be relevant for certain applications. SKF can assess these properties using the FAFNIR test standardised as ASTM D4170. Two ball thrust bearings are loaded and oscillated. The wear on each bearing is then measured. Greases offer good fretting protection when the measured wear is below 7 mg. Basic bearing grease selection Generally use if: Speed M. Temperature» M and Load M Unless: Expected bearing temperature continuously > 150 C / 302 F, demands for radiation resistance Low ambient 50 C / 58 F, expected bearing temperature < 50 C /122 F к loads, heavy loads, frequent startup / shutdown Food processing industry LGMT 2 LGHP2 LGET2 LGLT2 LGEP2 LGFP2 LGGB2 General purpose ^UL^:. Extremely high temperature Low temperature High load Food processing Note: For areas with relatively high ambient temperatures, use LGMT 3 instead of LGMT 2 For special operating conditions, refer to the SKF bearing grease selection chart Bearing operating parameters Temperature L Low M в Medium H = High EH = Extremely high <50 C/122 F 50 to 0 C/122 to 230 F >0 C/ 212 F >150 C/302 F Speed for roller bearings H = High M = Medium L = Low VL = Very Low SRB/TRB/CARB CRB n.dm over n.dm over n.dm up to n.dm up to n.dm up to n.dm up to n.dm below n.dm below Speed for ball bearings EH = Extremely High VH = Very High H = High M = Medium L = Low n.dm over n.dm up to n.dm up to n.dm up to n.dm below Load VH = Very high H = High M = Medium L = Low C/P<2 C/P4 C/P8 C/P15 53

1 Pi [Ж [м ю Relubrication SKF bearing grease selection chart Bearing working conditions Temp Speed Load Vertical shaft Fast outer ring rotation Oscillating movements Severe vibrations Shock load or

55 1 Pi [Ж [м ю Relubrication SKF bearing grease selection chart Bearing working conditions Temp Speed Load Vertical shaft Fast outer ring rotation Oscillating movements Severe vibrations Shock load or frequent startup Low noise LGMT 2 м M Lto M О О M L to M LGEP2 M L to M H О LGFP 2 i M M Lto M LGEM м о VL H to VH О LGEV2 м VL HtoVH О тт "t" "H Т тт ~ LGLT2 L to M M to EH L О LGGB 2 LGWM1 to M L to мм to н о "Ь Ч" Hh " О L to M L to M H LGWA 2 LGHB 2 M to H L to M H MtoH VLtoM HtoVH О О О О LGHP2 M to H M to H L to M LGET 2 VH LtoM HtoVH о (*1) Grease Performance Factor (*2) for information on safe operating temperature please refer to pages (*3) mm 2 /s at 40 C /4 F = cst. (*4) LGGB 2 can withstand peak temperatures of 1 C / 250 F (*5) LGWA 2 can withstand peak temperatures of 2 C / 428 F (*6) LGHB 2 can withstand peak temperatures of 0 C / 392 F (*7) Contact SKF for relubrication intervals 5/.

: :; Temperature range (*2) Rust inhibiting jroperties GPF (*1) Description LTL HTPL Thickener / base oil Base oil viscosity (*3) 1 General purpose industrial and automotive 30 C 1 C Lithium

56 : :; Temperature range (*2) Rust inhibiting jroperties GPF (*1) Description LTL HTPL Thickener / base oil Base oil viscosity (*3) 1 General purpose industrial and automotive 30 C 1 C Lithium soap/mineral oil 22 F 250 F 1 1 General purpose industrial and automotive 30 C 22 F 1 C 250 F Lithium soap/ mineral oil О о 1 Extreme pressure 0.7 Food compatible 1 High viscosity plus solid lubricants 1 Extremely high viscosity with solid lubricants 2 Low temperature, extremely high speed 0.7 Green biodegradable, low toxicity 1 Extreme pressure, low temperature C 4 F 1 C 230 F Lithium soap/mineral oil 0 C 1 C Aluminium complex/medical white oil F 230 F C 1 C Lithium soap/mineral oil F 250 F "C 1 C Lithiumcalcium soap/mineral oil F 250 F 50 C 1 C Lithium soap / РАО oil F 230 F 40 C 90 C (*4) Lithiumcalcium soap/synthetic ester oil 40 F 194 F 30 C 22 o F 1 C 230 F Lithium soap / mineral oil 1.5 Wide temperature (*5). extreme pressure 30 C 22 F 140 C 284 F Lithium complex soap / mineral oil EP high viscosity, high temperature (*6) 2 High performance potyurea grease C 4 F 150 C 302 F Complex calcium sulphonate / mineral oil 400 (*7) Extreme temperature 40 C 40 F 260 C 500 F PTFE / synthetic (fluonnated polyether) 400 = Recommended Suitable Not suitable 5 5

57 и гт; Relubrication 5KF Bearing greases and their applications N LGMT 2 SKF general purpose industrial and automotive bearing grease LGMT 2 is mineral oil based lithium soap thickened grease with excellent thermal stability within its operating temperature range. This premium quality, general purposes grease is suitable for a wide range of industrial and automotive applications. Excellent oxidation stability Good mechanical stability Excellent water resistance and rust inhibiting properties Typical applications: Agricultural equipment Automotive wheel bearings Conveyors Small electric motors Industrial fans Bearing operating conditions Temperature Speed Load Vertical shaft Fast outer ring rotation Oscillating movements Severe vibrations Shock load or frequent startup Low noise Low friction Rust inhibiting properties = Recommended О = Suitable I Medium Medium Low to Mediur О t О = Not suitable t LGMT3 SKF general purpose industrial and automotive bearing grease Available pack sizes LGMT 2 35 g tube 4 ml cartridge 1 kg can 18 kg can 50 kg drum LGMT 3 is mineral oil based lithium soap thickened grease. This premium quality, general purposes grease is suitable for a wide range of industrial and automotive applications. 0 g tube 5 kg can 180 kg drum Excellent rust inhibiting properties High oxidation stability within its recommended temperature range Typical applications: Bearings >0 mm (3.9 in) shaft size Outer bearing ring rotation Vertical shaft applications Continuous high ambient temperatures >35 C C (95 F) Propeller shafts Agricultural equipment Car, truck and trailer wheel bearings Large electric motors Bearing operating conditions Temperature Speed Load Vertical shaft Fast outer ring rotation Oscillating movements Severe vibrations Shock load or frequent startup Low noise Low friction Rust inhibiting properties Recommended О = Suitable Medium Medium Low to Medium О О О Not suitable Available pack sizes LGMT 3 4 ml cartridge 1 kg can 18 kg can 50 kg drum 5 kg can 180 kg drum r,h

58 LGEP2 5KF high load, extreme pressure (EP) bearing grease LGEP 2 is mineral oil based lithium soap thickened grease with extreme pressure additives. This grease provides good lubrication in operating temperatures ranging from C (4 F) up to 1 C (230 F). m Excellent mechanical stability Extremely good corrosion inhibiting properties Excellent EP performance Typical applications: Pulp and paper making machines Jaw crushers Traction motors for rail vehicles Dam gates Work roll bearings in steel industry Heavy machinery, vibrating screens Crane wheels, sheaves Bearing operating conditions Temperature Speed Load Vertical shaft Fast outer ring rotation Oscillating movements Severe vibrations Shock load or frequent startup Low noise Low friction Rust inhibiting properties = Recommended О = Suitable Medium Low to Medium High О О Not suitable Available pack sizes LGEP 2 4 ml cartridge 18 kg can 1 kg can 50 kg drum 5 kg can 180 kg drum LGFP 2 SKF food compatible bearing grease LGFP 2 is clean, nontoxic bearing grease, which is based on medical white oil using an aluminium complex soap. This grease is formulated using only FDA* listed ingredients and is authorised by the NSF** for category HI*** service. Compliance with all existing legislation on food protection High resistance to water washout making it suitable for applications subject to frequent wash down Excellent grease life Excellent corrosion resistance An essentially neutral ph value FDA Food and Drug Administration ** NSF National Sanitation Foundation *** HI Incidental Contact with Food Typical applications: Bakery equipment Food processing equipment Multipack cassette bearings Wrapping machines Conveyor bearings Bottling machines [Bearing operating conditions Temperature Speed Load Vertical shaft Fast outer ring rotation Oscillating movements Severe vibrations Shock load or frequent startup Low noise Low friction Rust inhibiting properties = Recommended О = Suitable [Available pack sizes LGFP 2 SYSTEM 24 1 kg can 180 kg drum Medium Medium Low to Medium О = Not suitable 4 ml cartridge 18 kg can 5 7

59 LGEM 2 Relubrication SKF High viscosity bearing grease with solid lubricants LGEM 2 is a premium quality, high viscosity, mineral oil based grease using a lithium soap containing molybdenum disulphide and graphite. Good lubrication for bearings operating under high loads and slow rotations Safe lubrication due to the inclusion of molybdenum disulphide and graphite Typical applications: Rolling element bearings running at low speed and very high loads Jaw crushers Track laying machines Lift mast wheels Building machines such as mechanical rams, crane arms and crane hooks Bearing operating conditions Temperature Speed Load Vertical shaft Fast outer ring rotation Oscillating movements Severe vibrations Shock load or frequent startup Low noise Low friction Rust inhibiting properties Recommended О Suitable Medium Very Low II igh to Very High О Not suitable Available pack sizes LGEM 2 SYSTEM 24 4 ml cartridge 5 kg can 18 kg can 180 kg drum LGEV 2 SKF Extremely high viscosity bearing grease with solid lubricants LGEV 2 is a premium quality, extremely high viscosity, mineral oil based grease using a lithiumcalcium soap containing molybdenum disulphide and graphite. Excellent lubrication properties due to the inclusion of molybdenum disulphide and graphite solid Extremely suitable for lubricating large sized spherical roller bearings subject to high loads and slow rotations, a situation where microslip is likely to occur Extremely mechanically stable providing good water resistance and corrosion protection Typical applications: Trunnion bearings on rotating drums Support and thrust rollers on rotary kilns and dryers Bucket wheel excavators Slewing ring bearings High pressure roller mills Crushers Bearing operating conditions Temperature Speed Load Vertical shaft Fast outer ring rotation Oscillating movements Severe vibrations Shock load or frequent start up Low noise Low friction Rust inhibiting properties = Recommended 1 О = Suitable Medium Very Low High to Very High О = Not suitable Available pack sizes LGEV 2 35 g tube 4 ml cartridge 18 kg can 50 kg drum 5 kg can 180 kg drum 58

60 LGLT2 SKF low temperature, extremely high speed bearing grease LGLT 2 is premium quality, fully synthetic oil based grease using lithium soap. Its unique thickener technology and its low viscosity oil (РАО) provide excellent lubrication performances at low temperatures (50 C) and extremely high speeds n.dm values of 1.6xl0 6 can be reached. Low friction torque Low level of power loss Quiet running behaviour Extremely good oxidation stability and resistance to water Typical applications: Textile spinning spindles Machine tool spindles Instruments and control equipment Small electric motors used in medical and dental equipment Inline skates Printing cylinders Robots Bearing operating conditions Temperature Speed Load Vertical shaft Fast outer ring rotation Oscillating movements Severe vibrations Shock load or frequent startup Low noise Low friction Rust inhibiting properties = Recommended О = Suitable Low to Medium Medium to Extremely High 1 ow О О о 1 = Not suitable Available pack sizes LGLT 2 1 kg can 25 kg can 1 0 g tube 180 kg drum LGGB 2 SKF green biodegradable bearing grease LGGB 2 is biodegradable, low toxicity, synthetic ester oil based grease using a lithiumcalcium thickener. It has excellent lubrication properties for a wide range of applications operating under different conditions. Compliance with current regulations on toxicity and biodegradability Good performance in applications with steelonsteel spherical plain bearings, ball bearings and roller bearings Good low temperature startup performance Good corrosion inhibiting properties Suitable for medium to high loads Typical applications: Agricultural and forestry equipment Construction and earthmoving equipment Mining and conveying equipment Water treatment and irrigation Locks, dams, bridges Linkages, rod ends Other applications where contamination of the environment is a concern iditions Temperature Speed Load Vertical shaft Fast outer ring rotation Oscillating movements Severe vibrations Shock load or frequent startup Low noise Low friction Rust inhibiting properties = Recommended О Suitable Low to Medium Low to Medium Medium to High О 1 t t О О = Not suitable SYSTEM 24 4 ml cartridge 18 kg can 5 kg can 180 kg drum r.9

61 LGWM1 Relubrication SKF extreme pressure low temperature bearing grease LGWM 1 is a mineral oil based grease using a lithium soap and containing extreme pressure additives. It is extremely suitable for the lubrication of bearings operating under both radial and axial loads e.g. transport screws. CBI Good oil film formation at low temperatures down to 30 C (22 F) Good pumpability at low temperature Good corrosion protection Good water resistance Typical applications: Windmills Screw conveyors Centralised lubrication systems Spherical roller thrust bearing applications Bearing operating conditions Temperature Speed Load Vertical shaft Fast outer ring rotation Oscillating movements Severe vibrations Shock load or frequent startup Low noise Low friction Rust inhibiting properties = Recommended О = Suitable Low to Medium Low to Medium High = Not suitable 4 ml cartridge 50 kg drum 5 kg can 180 kg drum LGWA 2 SKF high load, extreme pressure, wide temperature range bearing grease LGWA 2 is premium quality mineral oil based lithium complex grease with extreme pressure (EP) performance. LGWA 2 has such properties that it can be recommended for a wide range of industrial and automotive applications. Excellent lubrication at peak temperatures up to 2 C (428 F) for short periods Protection of wheel bearings operating under severe conditions Effective lubrication in wet conditions Good water and corrosion resistance Excellent lubrication under high loads and low speeds Typical applications: Wheel bearings in cars, trailers and trucks Washing machines Electric motors Bearing operating conditions Temperature Speed Load Vertical shaft Fast outer ring rotation Oscillating movements Severe vibrations Shock load or frequent startup Low noise Low friction Rust inhibiting properties Recommended О = Suitable Medium to High Low to Medium High О О О о о = Not suitable Available pack sizes LGWA 2 SYSTEM g tube 4 ml cartridge 1 kg can 50 kg drum 0 g tube 5kc can 180 kg drum 60

62 LGHB2 SKF high load, high temperature, high viscosity bearing grease LGHB 2 is a premium quality, high viscosity, mineral oil based grease using the latest complex calcium, sulphonate soap technology. This grease contains no additives and the extreme pressure characteristics are created within the soap structure. Excellent antioxidation and anticorrosion properties Good EP performance in applications running at high loads Typical applications: Steel on steel plain bearings Pulp and paper making machines Asphalt vibrating screens Continuous casting machines Sealed spherical roller bearings operating up to 150 C (302 F) Withstands peak temperatures of 0 C (392 F) Work roll bearings in steel industry Mast rollers of fork lift trucks Bearing operating conditions Temperature Speed Load Vertical shaft Fast outer ring rotation Oscillating movements Severe vibrations Shock load or frequent startup Low noise Low friction Rust inhibiting properties Recommended I O Suitable I = Not suitable t Available pack sizes LGHB 2 SYSTEM 24 4 ml cartridge 18 kg can 50 kg drum 5 kg can 180 kg drum LGHP 2 SKF high performance, high temperature bearing grease LGHP 2 is premium quality mineral oil based grease, using a modern Polyurea (diurea) thickener. It is suitable for ball (and roller) bearings required to run extremely quiet, operating at a wide temperature range from 40 C (40 F) up to 150 C (302 F), at medium to high speeds. Extremely long life at high temperature Wide temperature range Excellent corrosion protection High thermal stability Good low temperature startup performance Compatibility with common Polyurea greases Compatibility with lithium complex thickened greases Low noise characteristics Very good mechanical stability Typical applications: Electric motors: Small, medium and large Industrial fans, including high speed fans Water pumps Rolling bearings in textile, paper processing and drying machines Applications with high speed ball bearings operating at medium and high temperatures Clutch release bearings Kiln trucks and rollers Vertical shaft applications Vibrating applications Temperature Speed Load Vertical shaft Fast outer ring rotation Oscillating movements Severe vibrations Shock load or frequent startup Low noise Low friction Rust inhibiting properties Recommended О = Suitable SYSTEM 24 4 ml cartridge 1 kg can 18 kg can 50 kg drum Medium to High Medium to High Low to Medium I О О Not suitable 5 kg can 61

Relubrication LGET 2 ШИЯЯМИШШВЯШЯШМ ш УЪ У% SKF extreme temperature, extreme condition bearing grease LGET 2 is premium quality, synthetic fluorinated oil based grease using a PTFE thickener.

63 Relubrication LGET 2 ШИЯЯМИШШВЯШЯШМ ш УЪ У% SKF extreme temperature, extreme condition bearing grease LGET 2 is premium quality, synthetic fluorinated oil based grease using a PTFE thickener. It has excellent lubrication properties at extremely high temperatures exceeding 0 C (392 F) up to 260 C (500 F) Long life in aggressive environments such as very reactive environments or areas with a presence of high purity gaseous oxygen, hexane and so on Excellent oxidation resistance Good corrosion resistance Excellent water and steam resistance Typical applications: Bakery equipment (ovens) Kiln truck wheels Load rollers in copying machines Wafer baking machines Textile dryers Film stretching tenders Electric motors running at extreme temperatures Emergency / hot fans Vacuum pumps [ Bearing operating conditions Temperature Speed Load Vertical shaft Fast outer ring rotation Oscillating movements Severe vibrations Shock load or frequent startup Low noise Low friction Rust inhibiting properties = Recommended! О = Suitable [ Available pack sizes LGET 2 50 g (25 ml) syringe 1 kg can Very High Low to Medium High to Very High О О о о Not suitable Important note: Fluorinated greases in general are very costly, however the SKF LGET 2 is competitively priced. Given that LGET 2 is more expensive than other SKF greases, it is therefore recommended to use it only for applications where other SKF greases would not provide the required performance. SKF single point automatic lubricators SYSTEM 24 LAGD 125 and LAGD 60 Automatic lubrication, 24 hours a day, 7 days a week Any bearing deprived of correct lubrication will fail well within its predicted lifespan. With that fundamental engineering principle in mind SKF offers SYSTEM 24, an advanced generation of automatic lubricators that bridge the conflicting interests of commercial need and environmental pressures. e f Pump application Gearbox linkage arm application 62

Practical benefits SKF SYSTEM 24 sets new standards in lubrication management and efficiency: Reliability allowing fit and forget procedures until predetermined replacement time Flexible time

64 Practical benefits SKF SYSTEM 24 sets new standards in lubrication management and efficiency: Reliability allowing fit and forget procedures until predetermined replacement time Flexible time setting, up to 12 months, reduces inventory cost as one lubricator covers a wide range of time settings Available in two sizes; 125 ml and 60 ml Intrinsically safe (Ex) approved for use in potentially explosive atmospheres by TUV in Germany and FM Global in the USA Transparent container to check lubricant levels SKF offers SYSTEM 24 filled with various SKF bearing greases and oils for a wide range of applications High capacity, compact size permits installation in restricted areas Dispense rate setting is a simple part of the installation process Can be temporarily deactivated Hermetic sealing prevents ingress of dirt or foreign matter No harmful chemicals to generate the drive gas Allows low grease purge: lowest possible purge for LAGD 60 is 4,5 g (0.15 oz)/month, for LAGD 125 the lowest is 9 g (0.31oz)/month The DialSet relubrication calculation program includes a special calculation function for the 60 ml version of SYSTEM 24 Wide range of accessories is available e.g. adapter nipples, tubes and brushes Intrinsically safe classification ATEX code: II 2 EEX IB НС Т6, EC Type Examination Certificate EX r И Lubricator time set dial Allows easy and accurate adjustment of lubrication flow (0 Gas cell Patented cell design enables controlled production of hydrogen gas И Hydrogen gas Build up of gas dispenses lubricant consistently Ш Special piston shape Ensures optimum emptying of lubricator SYSTEM 24 is a registered trademark of SKF USA Inc. II Transparent container Allows visual checking of dispense rate В High performance SKF grease Available with various SKF greases Щ Profiled base Matches piston profile 13 Cartridge neck Screws into lubrication point or accessories 63

й Relubrication Ordering detai LAGD 125/WA2 LAGD 60/WA2 LAGD 125/EM2 LAGD 125/FP2 LAGD 125/GB2 LAGD 125/HB2 LAGD 125/HP2 Description 125 ml (4.25 fl oz. US) unit filled with LGWA 2 grease 60 ml (2.

65 й Relubrication Ordering detai LAGD 125/WA2 LAGD 60/WA2 LAGD 125/EM2 LAGD 125/FP2 LAGD 125/GB2 LAGD 125/HB2 LAGD 125/HP2 Description 125 ml (4.25 fl oz. US) unit filled with LGWA 2 grease 60 ml (2.03 fl oz. US) unit filled with LGWA 2 grease 125 ml (4.25 fl oz. US) unit filled with LGEM 2 grease 125 ml (4.25 fl oz. US) unit filled with LGFP 2 grease 125 ml (4.25 fl oz. US) unit filled with LGGB 2 grease 125 ml (4.25 fl oz. US) unit filled with LGHB 2 grease 125 ml (4.25 fl oz. US) unit filled with LGHP 2 grease LAGD 125/HFP: LAGD 125/HHT26' LAGD 125/HMT68 LAGD 60/HMT68* LAGD 125/U* 125 ml (4.25 fi oz. US) unit filled with food processing oil (viscosity ISO 1) 125 ml (4.25 fl oz. US) unit filled with synthetic high temperature chain oil (viscosity ISO 265) 125 ml (4.25 fl oz. US) unit filled with mineral EP type chain oil (viscosity ISO 68) 60 ml (2.03 fl oz. US) unit filled with mineral EP type chain oil (viscosity ISO 68) 125 ml (4.25 fl oz. US) empty unit suitable for oil filling Includes nonreturn valve SYSTEM 24 accessor! LAPA 45 LAPA 90 LAPB 3X4E* LAPB 3X7E* LAPB 3XE* LAPB 516* LAPB D2* LAPC 50 LAPE 35 LAPE 50 LAPT 00 LAPF Fl/4 LAPF Ml/4 LAPF Ml/8 LAPF M3/8 LAPG 1/4 LAPM2 LAPM4 es Description Angle connection 45 Angle connection 90 Lubrication brush 3 x 4 cm Lubrication brush 3 x 7 cm Lubrication brush 3 x cm Lift rail lubrication brush Lubrication brush; round, diameter 2 cm Clamp Extension 35 mm Extension 50 mm Flexible tube mm (39.4 in) long Tube connection female G 1/4 Tube connection male G 1/4 Tube connection male G 1/8 Tube connection male G 3/8 Grease nipple G 1/4 Yconnection 4 to 1 manifold G 1/2 gnation Description LAPN 1/8 LAPN 1/2 LAPN 1M LAPN 3/8 LAPN 6 LAPN 8 LAPN 8X1 LAPN LAPN X1 LAPN 12 LAPN 12X1.5 LAPP1 LAPP 2 LAPP3 LAPM 1x1** LAPM 1x3** LAPM 1x5** LAPV 1/4 LAPV 1/8 Nipple G 1/4 G 1/8 Nipple G 1/4 G 1/2 Nipple G 1/4 G 1/4 Nipple G 1/4 G 3/8 Nipple G 1/4 M6 Nipple G 1/4 M8 Nipple G 1/4 M8xl Nipple G 1/4 M Nipple G 1/4MIOxl Nipple G 1/4 M12 Nipple G 1/4 M12xl.5 Dust protection cab Protection base Protection cover Mounting bracket, single Mounting bracket, triple Mounting bracket, fivefold Non return valve G 1/4 Non return valve G 1/8 Suitable for use with oil filled SYSTEM 24 units only ' Only in combination with LAPP 2 Relubrication Calculation Program DialSet 3.0 Accurate calculation of relubrication intervals DialSet is a calculation program, which easily calculates the correct relubrication intervals settings. After selecting the criteria and grease relevant to your application, the program provides you with the correct settings for your SKF automatic lubricators. Additionally, it recommends when to use LAGD 60, LAGD 125 (SYSTEM 24) or LAGD 400 (SYSTEM MultiPoint). Selecting the operating conditions of your application, vertical shaft, outer ring rotation and shock loads, allows accurate calculation of the relubrication intervals Calculations are based on the latest SKF lubrication theories published in the 03 SKF General Catalogue (publ. nr. 5000) Calculated lubrication interval depends on the properties of the selected grease, minimising the risk of under or overlubrication and optimising grease consumption Calculations are based on SYSTEM 24 and SYSTEM MultiPoint grease dispense rates, allowing the recommendation of the correct automatic lubricator for your application Recommended grease quantity depends on the grease replenishment position; side or W33 for optimum grease consumption Includes a complete list of SYSTEM 24 accessories 6 4

DialSet 3.0 for PDA/PPC If you own a PDA or a PPC, you can now calculate the correct relubrication intervals onsite. From www.mapro.skf.

66 DialSet 3.0 for PDA/PPC If you own a PDA or a PPC, you can now calculate the correct relubrication intervals onsite. From you can now download, freeofcharge, the PDA/PPC version of SKF's relubrication calculation program DialSet 3.0 in English language. DialSet 3.0 on CDROM DialSet 3.0 is available on CDROM with calculation in six languages: English, French, German, Italian, Spanish and Swedish. The program is suitable for PC's working with MS Windows 95 or later and can be ordered from SKF under designation MP3605. DialSet 3.0 online In addition to the downloadable PDA/PPC and the CDROM versions, SKF also offers you DialSet 3.0 online in English language. The program is accessible freeofcharge from After filling in your application's conditions, calculations are made online and the program provides you with a printable relubrication interval recommendation. rv m> eh Pii ' * = 4? ESL^J»^j "»* i H I»i 1» lew 1 «1.1 «1 АКР SYSTEM Multipoint automatic lubricator LAGD 400 Multiple grease lubrication points made easy The lubrication of bearings with the correct type and quantity of grease is essential for troublefree operation. Research has shown that 36% of all bearings fail prematurely due to incorrect lubrication. Especially for installations with multiple lubrication points, this can be a timeconsuming and costly process. SYSTEM Multipoint, SKF's centralised automatic lubricator, is the most userfriendly and costeffective automatic lubricator for multiple grease lubrication points available today. Its compact design, combined with electronically controlled accuracy, makes it an excellent solution for longer bearinglife and increased uptime of your machinery. Being a doityourself lubrication system, SYSTEM Multipoint can be easily installed without the assistance of a costly lubrication service company and requires no special training to use. Once the correct grease dispense rate for your application is calculated using DialSet 3.0, SKF's relubrication calculation program, SYSTEM MultiPoint will keep up to eight lubrication points simultaneously and automatically lubricated, preventing both over and undergreasing. The transparent cartridge housing allows for easy inspection, while an electronic alarm will warn you when the grease cartridge is empty. Ф Doityourself centralised lubrication system Up to 8 feed lines Easytouse DialSet 3.0 included: SKF's relubrication calculation program allowing accurate calculation of the correct relubrication intervals Long feed lines (maximum up to 5 m/16 ft) Electronic setting and readout of control parameters Alarm function for blocked feed lines and empty cartridge Machine steering (i.e. lubricator only operates while machine is running) Highpressure capability (40 bar / 600 psi) Tested and approved with all SKF greases Uses standard SKF grease cartridges (4 ml) Ready for use, all accessories included 6 b

67 4 ^ щ. ^"" Relubrication Oil Leveller LAHD series т:'.ж Щ. 1. ^ ч \ \ ч Automatic adjustment for optimal oil lubrication level SKF Oil Levellers, LAHD 500 and LAHD 00, are designed for automatic adjustment of the optimal oil lubrication level within a bearing housing, gear box, crank case or similar oil bath lubrication application. Not usually possible, SKF Oil Levellers allow you to effectively adjust the correct oil level during running conditions, optimising machine performance and increasing the service life of the applications. Furthermore, they automatically compensate for oil leakage and offer the possibility of visual inspection of the oil level. How it works The SKF Oil Leveller consists of two communicating oil reservoirs. The lower reservoir is in direct contact with the application and hence its oil level is the same as the oil level inside the application. Through a ventilation hole, the lower reservoir is also in direct contact with the ambient air. The upper reservoir is an airtight container storing replacement oil. Through its extended neck, which dips into the oil of the lower reservoir, the two reservoirs are in direct contact with each other. However, oil can only flow from the upper to the lower reservoir once the oil level in the lower reservoir goes below the preset level, allowing air to flow through the extended neck to the upper reservoir. Optimally maintained oil level provides adequate lubrication Easy visual inspection Extended relubrication intervals. LAHD 00 compensates for evaporation losses of up to 1 litre of lubricating oil! Oil must be refilled manually Grease packer LAGP 400 To lubricate open bearings The grease packer LAGP 400 is a lowpressure alternative for emptying SKF grease cartridges It provides an easy and clean alternative to manual grease packing of open bearings. fi Supplied with three spout caps Applies grease to open applications such as bearings or open gears 66

68 Grease gun Easy grease filling The 5KF grease gun is ideal for the agricultural, industrial and construction industries and for private use. The 5KF grease gun is delivered with a 175 mm (6.9 in) long extension pipe with hydraulic gripping nozzle. A flexible 500 mm (19.7 in) long pressure hose with hydraulic gripping nozzle is available as an accessory. For use with cartridges and loose grease Rigid hinging system offers longlasting use Knurled body for firm and safe grip High quality steel is dentresistant for easy cartridge loading Special piston design for smooth emptying of cartridges 40 MPa (5,800 psi) maximum pressure 1,5 cm 3 (0.092 in 3 ) volume/stroke Also available with a with 300 mm (12 inch) high pressure hose with a hydraulic gripping nozzle, 77600H A complete set, including 3 extension pipes, high pressure hose, packed in a carrying case is also supplied G9 J v Ordering details H /SET Description Grease gun with extension pipe Grease gun withflexiblehose Flexible hose Grease gun set One hand operated grease gun LAGH 400 Easy grease filling with one hand Suitable for grease filling by grease filler pumps and also suitable for grease cartridges Ergonomic design, flexible hose and possibility to mount the hose in both vertical and horizontal position make it easy to use. 4?: Easytouse: only one hand is needed to operate the gun Refillable: grease filling nipple and deairing valve allow filling up by filler or grease pump Heavy duty: operating pressure up to 30 MPa 0,8 cm 3 (0.05 in 3 ) volume/stroke Flexible hydraulic type hose: can be bent, can be mounted both horizontally and vertically on the gun 67

69 s> sn Ш Relubrication Bearing packer VKN 550 Contamination free grease filling The SKF bearing packer, VKN 550, is a sturdy, easytouse, efficient and effective bearing grease packer. It can also be used in combination with a standard grease gun, airoperated grease pump or grease filler pump. Although specially designed for taper roller bearings, the SKF bearing packer works for any type of open bearing which needs to be 0% prefilled with grease. Flushes the grease between the rolling elements where it matters most, prolonging the bearing service life Closed system and the cover lid prevent ingress of dirt virtually eliminating contamination Allows the operator to prefill bearings with grease in a quick and clean way Prevents unnecessary grease loss Economical and environmentally friendly ф Disposable grease resistant gloves TMBA G11D Skin protection when handling grease Specially designed to protect the skin when working with SKF bearing grease. The gloves are packed in a handy box containing 50 pairs. Nonpowdered nitrile rubber gloves Close fitting for precision wear Excellent resistance against bearing greases Nonallergic Grease meter LAGM 00E ф Accurate grease quantity measurement for adequate lubrication It is generally difficult to determine the correct quantity of grease when manually lubricating bearings, either using a grease gun or pump, which can result in either over or undergreasing the bearing. That can negatively influence the bearing's service life and possibly result in machine breakdown. The SKF grease meter LAGM 00E accurately measures grease discharge in volume or weight, in both metric (cm 3 or g) and US units (US fl. oz or oz). It has a high maximum pressure of 70 MPa (.000 psi), making it ideal for use in combination with many types of grease guns and pumps. Measures grease discharge in volume or weight, making conversion calculations unnecessary High accuracy facilitates adequate bearing lubrication, reducing the risk of over or undergreasing Suitable for all SKF bearing greases of consistency classes up to NLGI 3 An oil and grease resistant rubber sleeve protects the electronics in case of impact The backlit LCD displays large and cleartoread digits, including "low battery" indication Small, compact and lightweight design only 0,3 kg (0.66 lb) Corrosionfree aluminium housing Easy to install and use <J1 68

70 Grease filler pumps LAGF series High quantity grease packer SKF filler pumps are suitable for filling grease guns. Especially designed for use on grease gun and LAGH 400. Tested and approved for SKF greases. Easy to install and ready for use. Available for standard SKF 18 and 50 kg (39 and 1 lb) drums. Quick filling: low pressure allows higher stroke volume Easy to install: all necessary items are included Reliable: tested and approved for all SKF greases Can be used in combination with SKF bearing packer VKN 550 Ordering details LAGF 18 LAGF 50 Description Grease filler pump for 18 kg drums Grease filler pump for 50 kg drums Grease pumps LAGG series Meeting all your grease lubricator needs Full range of manual and airoperated grease pumps are designed to empty standard 18, 50 or 180 kg (39,1 or 400 lb) grease drums. Can be connected directly on the greasing points, also suitable for centralised lubricating grease systems. SKF grease pumps have a maximum pressure of 40 and 42 MPa (5,800 and 6,090 psi) respectively. Tested and approved for SKF greases. Easy to install and ready for use since pumps are supplied with all necessary items including mm (137.8 in) of tubing. Full range; pumps available for or 180 kg (39.1 or 400 lb) drums High pressure: maximum of 42 MPa (6,090 psi) Easy to install; all necessary items as well as mm (137.8 in) of tubing are included Reliable; tested and approved for SKF greases Can be used in combination with SKF bearing packer VKN 550 Ordering details LAGG 18M LAGG 18AE LAGG 50AE LAGG180AE LAGT 180 Description Grease pump for 18 kg drums Mobile grease pump for 18 kg drums Grease pump for 50 kg drums Grease pump for 180 kg drums Trolley for drums up to 0 kg 6 У

71 Н Е Ш Ш 1 kg grease pump LAGG 1M Contaminationfree grease lubrication The manual grease pump LAGG 1M facilitates clean and easy grease lubrication of bearings. The pump has been especially designed for use in combination with SKF 1 kg grease cans. It seals the grease can, minimising grease contamination and slowing down the oxidation process. The LAGG 1M is suitable for use with greases of consistency classes ranging from 1 up to 3 NLGI. Cp 1 Airtight seal of the grease can. which slows down the oxidation process Greatly minimises the risk of grease contamination when compared to lubrication by operator's hand out of the grease can The pump is equipped with a locking mechanism The design of the pump helps ensure that virtually no residual grease remains in the can, making it economic to use and environmentally friendly Minimises user skin contact with the grease, which reduces the possibility of an allergic reaction to petroleumbased products Tested and approved for use with all SKF bearing greases Sturdy design for long service life Lubrication accessory sets Grease nozzles LAGS 8 / Grease nipples LAGN 1 The right tools for adequate (re)lubrication The SKF LAGS 8 Grease nozzle kit provides the user with practical accessories for daily lubrication such as connectors, couplings and nozzles most widely used in the industry. To meet all of your needs for grease lubrication points, SKF has developed a grease fitting kit, LAGN 1, which contains a full range of 1 standardised conical grease fittings made of precision steel, zinc plated, hardened and blue chromated. Includes the most widely used accessories in the industry Upgrade the grease gun with the LAGS 8 Grease nozzle kit Replace damaged grease fittings Contents LAGS 8 Straight pipe 180 mm and nozzle / Hose / Tube / Tube with nose piece and plastic transparent cover / Nipple MxlGl/8 / Nipple Mxll/827NP5 / Nozzle (2x) 4f Contents Grease nipple GN: Quantity M6xl M8xl MIOxl Gl/8 M6xl M8xl MIOxl Gl/8 M6xl M8xl MIOxl Gl/8 straight straight straight straight x x lox Юх 5x Юх 5x 5x 5x Юх 5x 5x 70

72 Basic Condition Monitoring Basic condition monitoring is essential for achieving maximum bearing service life 72 ThermoPen TMTP 0 73 Intrinsically safe ThermoPen TMTP 0Ex 73 Noncontact thermometer ThermoLaser TMTL Infrared Thermometer CMAC 40SL 74 Dual channel digital thermometer TMDT Ktype thermocouple probes TMDT 2 series 75 Multifunctional tachometers TMRT series 77 Electronic stethoscope TM5T 2 77 OilCheck monitor TMEH 1 78 Vibration Pen plus CMVP series 78 Inspector 400 Ultrasonic Probe CMIN 400K 79 Basic Condition Monitoring Package CMPK series 79 Bearing Analysis Kit CMPK series 80 Micro Vibe PCMVL т\

Basic Condition Monitoring Basic condition monitoring is essential for achieving maximum bearing service life To help ensure long bearing service life, it is important to determine the condition of

73 Basic Condition Monitoring Basic condition monitoring is essential for achieving maximum bearing service life To help ensure long bearing service life, it is important to determine the condition of machinery and bearings while in operation. Good predictive maintenance will help reduce machine downtime and decrease overall maintenance costs. To help you achieve the maximum service life from your bearings, SKF has developed a wide range of measuring instruments for analysing the critical environmental conditions, which have an impact on bearing and machine performance. The SKF range covers the most important parameters for measuring machine condition to achieve optimum bearing performance: Cost of maintenance per year Run to Failure Temperature Speed Noise Oil condition Vibrations Bearing condition Preventive Predictive Maintenance Concepts Maintenance Program Maintenance cost comparisons X Run to failure Run to failure occurs when repair action is not taken until a problem results in machine failure. Run to failure problems often cause costly secondary damage along with unplanned downtime and maintenance costs. The most expensive maintenance alternative. X Preventive maintenance Preventive maintenance implies that a machine, or parts of a machine, are overhauled on a regular basis regardless of the condition of the parts. While preferable to run to failure maintenance, preventive maintenance is costly because of excessive downtime from unnecessary overhauls and the cost of replacing good parts along with worn parts. Preventive maintenance is similar to the regular service of a car. Often unnecessary maintenance is performed. V Condition based maintenance means repairs are only carried out when required. The most effective alternative. DeleUlun by Listen and Гее Predictive maintenance Condition monitoring/predictive maintenance is the process of determining the condition of machinery while in operation. This enables the repair of problem components prior to failure. Condition monitoring not only helps plant personnel reduce the possibility of catastrophic failure, but also allows them to order parts in advance, schedule manpower, and plan other repairs during the downtime. With condition monitoring, machinery analysis takes two overlapping forms: predictive and diagnostic. 72

74 Generalpurpose thermometer ThermoPen TMTP 0 ГМ 1 Accurate temperature measurement in general industries The SKFThermoPen is a userfriendly, durable pocket size thermometer. Its sturdy flexible probe tip provides effective surface contact for accurate temperature measurement. Since no maintenance engineer should work without one, the ThermoPen is supplied with a handy pouch with belt clip for protection and portability. Compact, ergonomic design Wide measurement range. from 40 to 0 C (40 to 392 F) Temperature reading selection in C or F Flexible probe tip for better surface contact, providing high measuring accuracy Dust tight and water resistant, rated IP 65 Maximum temperature function allows temperature peak hold Auto power off function Ultra low power consumption B J J V Intrinsically Safe ThermoPen TMTP 0Ex Safe and accurate temperature measurement in explosive hazardous areas The SKF ThermoPen is also available in an intrinsically safe (Ex) version, especially ^ designed for use in explosive hazardous areas. The Intrinsically Safe ThermoPen has been tested and approved for use in highrisk areas, such as: ир j Underground and surface mining operations Areas where explosive atmospheres caused by mixtures of air and gasses, vapours or mists are present Areas where explosive atmosphere caused by a mixture of air and dust is present Intrinsically safe; one of few thermometers approved for use in the highest risk areas Certified confirming to ATEX, EC type examination ISSEP02ATEX054X Approvals: Mining I Ml EEx ia I Other areas II1GD EEx ia ПС Т4 IP65 Ш1 73

Basic Condition Monitoring Noncontact thermometer ThermoLaser TMTL 260 OpJ Measuring temperature at safe distance Lightweight and compact, the SKF ThermoLaser utilises advanced class II laser beam

75 Basic Condition Monitoring Noncontact thermometer ThermoLaser TMTL 260 OpJ Measuring temperature at safe distance Lightweight and compact, the SKF ThermoLaser utilises advanced class II laser beam for accurate aiming and an infrared detector for measuring temperature. The ThermoLaser is extremely userfriendly simply aim, pull the trigger and read the temperature on the large backlit display. No contact with hot surfaces or moving parts means safer, faster and easier temperature measurement. Additionally, the ThermoLaser allows temperature measurement where contact with a conventional temperature probe should be avoided to prevent surface contamination, making it ideal to use for measuring temperature of food processing applications. Safely measures the temperature of hot, hazardous or hardtoreach objects The large backlit LCD holds temperature reading for 7 seconds Wide measurement range, from 18 to 260 C (0 to 500 F) Temperature reading selection in C or F Distance to Spot size (D:S) is 8:1 Visible Class II Laser Infrared Thermometer CMAC 40SL Measuring wide temperature range at safe distance The SKF Infrared Thermometer CMAC 40SL with laser sighting is a rugged, easy to use portable noncontact thermometer. Ideal for a broad range of maintenance tasks, the CMAC 40SL may be connected directly to SKF's portable data collectors for quick, accurate recording of temperatures. A useful onboard table including 30 preset material emissivity listings is easily accessed, allowing accurate temperature measurement of different material surfaces. Wide temperature range of 30 C to 900 C (25 to 1,600 F) Accuracy ± 1% of reading Compatible with SKF portable data collectors Designed for physically demanding environments ^ ^ Easy to use 16Dot laser sighting circle with Distance to Spot size (D:S) of 60:1 Adjustable emissivity with onboard table Fast response time For more information, please visit: Ik

76 Dual channel digital thermometer TMDT 1300 Multifunctionality combined with high measurement accuracy oipj The 5KFTMDT 1300 is a high quality dual channel thermometer, which is equipped with a sensitive microprocessor allowing a high degree of temperature measurement accuracy. The thermometer is equipped with many functions such as hold maximum reading and difference between temperature 1 and temperature 2. The TMDT 1300 has an analogue output for data logging or use in combination with a temperature recorder. A flexible rubber sleeve protects the housing of the TMDT 1300 and its electronics in case of impact. Wide temperatures measurement range, between 50 up to 1300 C (58 to 1999 F) Display resolution is selectable, between 0,1 and 1 C/F Temperature reading in C or F Large display allows easy and clear temperature reading High electronics accuracy A flexible rubber sleeve protects the housing, and thereby protecting the electronics in case of impact Retractable support allows the TMDT 1300 to stand on its own, freeing the operator's hands during temperature measurement Suitable for use with all SKF Ktype probes Supplied in a sturdy carrying case, complete with a standard surface probe, a battery and /* instructions for use И Probe connection Tl Щ Temp, difference Tl T2 Щ Hold maximum reading Ш Low battery indication Щ Probe connection T2 И Hold last reading В Selectable C/ F H Overload indication И m в Ш Ш в в га Т1 Т2 Т1Т2 Т T1 MAX T1 Т1 СЗ IQU.3 SS.H 149 1W г/г.5. ЧЗТ5 п» U L. Ktype thermocouple probes TMDT 2 series Wide variety of thermocouple probes for many applications SKF offers fifteen Ktype thermocouple probes for use with the SKF digital thermometer TMDT ВЭ Typical applications are: Surface measurements (TMDT 230, 31, 32, 33) Gas and liquid measurements (TMDT 234) Semi solid materials (TMDT 235) Clamp for pipe measurements (TMDT 236) Rotating surface measurements (TMDT 240) Liquid nonferrous metal measurements (TMDT 241) Ambient temperature measurements (TMDT 242) Gas measurements wire probes (TMDT ) Heavyduty surface measurements (TMDT 243) All probes can be used with the SKF digital thermometer TMDT 1300 without recalibration.

77 Basic Condition Monitoring Ktype thermocouple probes Description Dimensions (mm) Max. temp Response time TMDT 230 Standard surface probe For hard surfaces such as bearings, bearing housings, engine blocks, oven shields, etc C 1,650 F 2.3 sec TMDT 231 Magnetic surface probe For hard, magnetic surfaces; the integral heat sink design and low mass minimise thermal inertia and provide an accurate temperature measurement 4 l 1 /. I 240 C 460 F 7,0 sec. TMDT 232 Insulated surface probe For hard surfaces where electrical wiring might cause short circuiting, e.g. electric motors, transformers, etc. 130 )Ie8 0 C 390 F 2.3 sec. TMDT 233 Right angle surface probe For hard surfaces in heavyduty applications, e.g. machine components, engines, etc. 250 ЧИ1 450 C 840 F 8,0 sec. TMDT 234 Gas and liquid probe Flexible shank made of stainless steel for liquids, oils, acids, etc. and at high temperature, e.g. open fire (not for molten metals). 250 Э 1из 1.0 "С 2,0 F 12,0 sec. TMDT 234/1.5 Gas and liquid probe Same as TMDT 234 but with thin shank and faster response time. Very flexible, specially suitable for measuring temperature of gases. 900 C F 6.0 sec. TMDT 235 Probe with sharp tip Can be easily inserted into semisolid materials like foodstuffs, meat, plastic, asphalt, deepfrozen products, etc. 600 C 130 ч 1Д F ^ 1иЗ 12,0 sec. TMDT 235/1.5 Probe with sharp tip Same as TMDT 235 but with thinner shank and faster response time for insertion into soft solids C 1,1 "F 6.0 sec. TMDT 236 Pipe clamp probe For temperature measuring on pipes, cables, etc. Diameter up to в 35 mm (1.4 in). I и 35 max. 0 C 390 F 8,0 sec. TMDT 237 Extension cable For use with all Ktype probes. Special lengths are available on request. TMDT 238 Wire probe Thin, light weight, very fast response, fibreglass insulated _ 300 C zx> :CB1,5 570 F 5,0 sec. TMDT 239 High temperature wire probe Thin, light weight, very fast response, ceramic insulation "C ^ i F 2,9x4,5 6,0 sec. TMDT 240 Rotating probe For moving or rotating smooth surfaces. Four roller bearings provide suitable contact with the surfaces. Max. velocity 500 m/min. a 0 C 390 F 0,6 sec. TMDT 241 Nonferrous foundry probe Holder including dipelement for molten, nonferrous metals. Highly resistant to corrosion and oxidation at high temperatures C 2,300 F 30.0 sec. TMDT 241A Dipelement Replacement dipelement for TMDT 241. I..1С "C 2,300 F 30,0 sec. TMDT 242 Ambient temperature probe For measurement of ambient temperature TMDT 243 Heavy duty surface probe Same as TMDT 230 but with silicon encapsulated tip for heavy duty applications C F 3,0 sec. 76

Multifunctional laser / contact tachometers TMRT series QpJ Pinpoint accuracy combined with measurement versatility The SKFTMRT series includes two userfriendly and accurate tachometers utilising

78 Multifunctional laser / contact tachometers TMRT series QpJ Pinpoint accuracy combined with measurement versatility The SKFTMRT series includes two userfriendly and accurate tachometers utilising laser or contact for measuring rotational and linear speed: TMRT 1 and TMRT lex. Equipped with laser and contact adaptor, both tachometers offer excellent speed measurement versatility in five different modes. Additionally, their large angular range of ± 80 to target facilitates the easy measurement in areas where straightline access is difficult. The laser optical system allows easy and quick speed measurement at safe distance from rotating machinery. The user can select to measure: rpm, rps, m, ft or yds per minute or second, length or revolution counting, or time interval Wide speed range and the various measurement modes make the TMRT series suitable for measuring speed in many applications Large angular range of ± 80 to target facilitates easy measuring in areas where straightline access is difficult The large inverting LCD display facilitates easy reading even when pointing the unit down into the machinery Compact design; onehand operated instrument Supplied in carrying case for protection and portability The TMRT 1 can also be equipped with remote laser sensor, which is optionally available Intrinsically safe tachometer TMRT lex The SKFTMRT 1 is also available in an intrinsically safe (Ex) version, especially designed for use in potentially explosive hazardous areas. The TMRT lex has been tested and certified according to the latest ATEX standards in intrinsic safety zones generally found in industries such as the petrochemical, gas and pharmaceutical among others. EC Type Examination Certificate Baseefa03ATEX0425X. II 2 G EEx ia IICT4 Electronic stethoscope TMST 2 4x Detects changes in bearing condition The SKFTMST 2 is a high quality, sensitive instrument enabling the determination of troublesome machine parts by the detection of machine noises or vibrations. With the included headset, two different length probes, an adjustable sound level facility and a comparative prerecorded demonstration CD, it is an ideal instrument for detecting troublesome machine parts or damaged bearings. The instrument, probes, headset and demonstration CD are supplied complete in a sturdy carrying case. User friendly Rugged construction Output for tape recording Prerecorded demonstration CD for comparisons Equipped with piezoelectric sensor and adjustable volume control Sturdy sensitive headset Two probes as standard щллм 11

Basic Condition Monitoring OilCheck monitor TMEH 1 Detects changes in oil condition The OilCheck measures the changes in dielectric constant of an oil.

79 Basic Condition Monitoring OilCheck monitor TMEH 1 Detects changes in oil condition The OilCheck measures the changes in dielectric constant of an oil. By comparing the measurements obtained from used and unused oils of the same type and brand, the SKF OilCheck is able to determine the degree of change in the condition of the oil. Dielectric change is directly related to the degradation and the contamination level of the oil and will allow the user to achieve optimised intervals between oil changes and detect increased mechanical wear and loss of the oils lubricating properties. To facilitate trending the instrument is equipped with a numerical readout. Warning The SKF OilCheck is not an analytical instrument. It is an instrument to detect only changes in the oil condition. The visual and numerical readouts are purely a guide to enable trending of the comparative readings of a good oil to a used oil of the same type and brand. Do not rely solely on numerical readings. Shows changes in oil condition affected by such things as: Water content Fuel contamination Metallic content Oxidation Hand held and user friendly Numerical readout to facilitate trending Vibration Pen plus CMVP 40 and CMVP 50 A powerful combination for detection of machine and bearing defects A multiparameter approach to condition monitoring provides two different methods for monitoring machinery condition. This allows early detection of specific machinery problems and provides more ways to measure changes in machinery condition. The Vibration Pen piu5 is a multiparameter vibrationmonitoring tool capable of measuring vibration caused by rotational and structural problems such as unbalance, misalignment and looseness. It is also capable of measuring vibration in higher frequencies caused by rolling element bearing or gear mesh problems. This approach provides accurate and reliable data upon which to base maintenance decisions and promotes early detection, confirmation and accurate trending of bearing and machinery problems. Measures ISO 816. low frequency vibration, from Hz to 1 khz, for overall machine condition Assess vibration in industrial nonreciprocating machinery Acceleration enveloping for early warning of bearing and gear mesh faults So light and compact it fits in your shirt pocket Easy one button operation Easy to read dual value display ЩЗ For more information, please visit: Ordering details CMVP 40 CMVP 50 Description (in/s) eq. peak English Vibration Pen*" (mm/s) RMS Metric Vibration Pen" 1 " 5

80 Inspector 400 Ultrasonic Probe CMIN 400K Easy detection of high frequency sounds The Inspector 400 Ultrasonic Probe senses high frequency sounds produced by operating equipment, leaks and electrical discharges. It electronically translates these signals by a heterodyning process, making them audible, so that a user can hear these sounds through a headset and see them as intensity increments on a meter. Detects pressure and vacuum leaks, including compressed air Checks steam traps and valves quickly and accurately Detects arcing, tracking and corona in electric apparatus Tests bearings, pumps, motors and compressors Frequency response: 0 khz (centred at 3842 khz) Indicator: segment LED bar graph (red) For more information, please visit: Basic Condition Monitoring Package CMPK series Check bearing and machine condition quickly and easily The CMPK series is an essential collection of monitoring tools that no industrial manufacturing plant should be without. These tools make condition monitoring a simple task for maintenance, operations, reliability and vibration analysis departments. Kit CMPK 0 plus (Metric) includes: Vibration Pen""" 5 with Carrying Case CMVP 50 (mm/s, RMS Metric) Inspector 400 Ultrasonic Probe with Headphones CMIN 400 Noncontact MicroTemp Thermometer CM5S Batteries included VibCard Belt Holder for the Vibration Pen" 1 "' Comprehensive Quick Start Instruction Card Rugged Carrying Case Kit CMPK 2 plls (English) includes: Vibration Pen plus with Carrying Case CMVP 40 (in/s, eq. peak English) Remainder of items same as the CMPK 0 plus package For more information, please visit: 79

$Basic Condition Monitoring Bearing Analysis Kit CMPK series i4 N \ 3./*.$

81 Basic Condition Monitoring Bearing Analysis Kit CMPK series i4 N \ 3./*. Check bearing and machine condition quickly and easily The Bearing Analysis Kit is a convenient collection of monitoring tools that no industrial manufacturing plant should be without. It makes condition monitoring a simple task for maintenance, operations, reliability and vibration analysis departments. Bearing Analysis Kit CMPK 60 plus (English) includes: Vibration Pen plus CMVP ДО (in/s, eq. peak English), including manual, carrying case, severity card and battery Laser Sighted NonContact Temperature Probe CM55 00SL, including manual, hard case, belt clip and battery OilCheck Monitor TMEH 1, including soft carrying case and battery Custom hardshell carrying case Bearing Analysis Kit CMPK 70 plus (Metric) includes: Vibration Pen plus CMVP 50 (mm/s, RMS Metric), including manual, carrying case, severity card and battery Remainder of items same as the CMPK 60 plus kit For more information, please visit: Ordering details CMPK 60»'" CMPK 70»"" Description Bearing Analysis Kit (English) Bearing Analysis Kit (Metric) MicroVibe P CMVL 3850 Analysis power without complexity This economical vibration meter expansion module fits in a PocketPC's compact flash card slot (CFType II) and features the userfriendly Windows Mobile Operating System. Identify problems and assess machine condition quickly and easily with this versatile and easytouse pocket tool. The MicroVibe P collects and displays overall vibration readings and automatically provides expert judgment of the measured velocity and overall enveloped acceleration levels, enabling immediate, accurate and reliable assessment of machine or bearing condition. Universal PDA platform with userfriendly Windows Mobile OS Displays overall vibration, timewaveform, FFT spectrum analysis and early indication of bearing degradation Easily operated by novice and experienced users Onboard vibration dictionary Enables experienced Pocket PC users to upload overall scalar and spectral data to PC for trending and further analysis with included Data Management Software Kit includes MicroVibe P Module, MicroVibe P Data Management Software, accelerometer and cable, stinger and magnet, earphones and carrying case (does not include PDA) For more information, piease visit: 80

Bearing dismounting Mechanical dismounting 83 Guide to SKF puller selection 84 Guide to SKF puller accessory selection 85 TMMA pullers series: EasyPull 86 Hydraulic TMMA pullers series: hydraulic

82 Bearing dismounting Mechanical dismounting 83 Guide to SKF puller selection 84 Guide to SKF puller accessory selection 85 TMMA pullers series: EasyPull 86 Hydraulic TMMA pullers series: hydraulic EasyPull 86 Hydraulic EasyPull Set TMMA 8E/SET 87 Trisection pulling plates TMMS series 87 Advanced Hydraulic Spindles TMHS 8E and TMHS 5E 88 Standard jaw pullers TMMP series 89 Reversible jaw pullers TMMR F series 89 Heavy duty jaw pullers TMMP series 90 Hydraulicallyassisted heavy duty jaw pullers TMHP series 90 Hydraulic jaw puller kit TMHP E 91 Hydraulic Puller kit TMHC 1E 91 Strong back pullers TMBS E series 92 Blind housing puller kit TMMD Internal bearing puller kits TMSC series 94 Puller protection blankets TMMX series 95 Blind housing puller kit TMBP 95 Other dismounting tools 96 Dismounting using heat Aluminium heating rings TMBR series Adjustable induction heaters EAZ series Fixed induction heaters EAZ series Dismounting bearings using hydraulic techniques 98 SKF Oil Injection Method 98 Hydraulic Nuts HMV..E series 99 Dismounting fluid 0 Hydraulic pumps and oil injectors selection guide 0 Dismounting 81

ч'. Dismounting Bearing dismounting Ж1ж Н Reduce the risk of damaging components and personal injury When dismounting bearings, care must be taken not to damage other machine components, such as the

83 ч'. Dismounting Bearing dismounting Ж1ж Н Reduce the risk of damaging components and personal injury When dismounting bearings, care must be taken not to damage other machine components, such as the shaft or housing, as damage can result in compromising the machine's efficiency and lifetime. Bearings are sometimes dismounted to maintain or replace other components of the machine. These bearings are often reused. Selecting the correct dismounting methods and tools is then essential in reducing the risk of damaging the bearing, allowing it to be used again. Dismounting bearings can be a hazardous and demanding task. Selecting the correct dismounting methods and tools is therefore of utmost importance for reducing the risk of personal injuries. Individual applications may require mechanical, heat or hydraulic dismounting methods and tools to allow safe, correct and efficient bearing dismounting. Dismounting using heat The inner rings of cylindrical roller bearings generally have a tight interference fit, which requires high forces to dismount. In such cases, using a puller can cause damage to the shaft and ring, and can be hazardous to the operator. Using heating equipment facilitates easy and quick dismounting while reducing the risk of damage to the ring and shaft. SKF offers a range of heating equipment, which includes aluminium heating rings as well as adjustable and fixed induction heaters, for dismounting cylindrical roller bearing inner rings. Mechanical dismounting Choosing the right puller for the job is critical. Not only the puller type, but also its maximum withdrawal capacity is crucial for completing any dismounting job safely and easily. Puller overload can result in breakage of the puller's arms and/or beam and therefore should be avoided. This breakage can damage the bearing or shaft and can cause persona injury. In general, it is recommended to use a threearm puller rather than a twoarm one as the threearm puller is more stable. Whenever possible, apply the withdrawal force to the ring with the interference fit. SKF offers a complete range of easytouse mechanical, hydraulic and hydraulically assisted bearing pullers for use in many bearing applications.

Dismounting bearings using hydraulic techniques The SKF hydraulic techniques are often the preferred method for dismounting larger bearings as well as other components.

84 Dismounting bearings using hydraulic techniques The SKF hydraulic techniques are often the preferred method for dismounting larger bearings as well as other components. These techniques, which employ hydraulic pumps, nuts and oil injectors, allow the application of substantial forces to dismount bearings or other components. Safety For optimum safety when dismounting bearings: Always wear protective clothing and goggles when dismounting bearings When dismounting bearings using pullers, make sure to select a suitable puller for the application with sufficient pulling force in order to reduce the risk of puller overload. Overloading a puller can result in puller arm or spindle breakage, causing injury to the operator A safety blanket fitted around the puller and bearing helps reduce the risk of injury in case the bearing, puller's arm or spindle break Always use heat resistant gloves when dismounting bearings using heat For your own safety, do not strike the bearing directly with any hard object such as a hammer or chisel Apply dismounting force to part of bearing that has highest fit Mechanical dismounting Always the right puller for the job SKF offers a wide range of bearing pullers for various types of pulls: External, internal and even blind. The range includes mechanical, hydraulic and hydraulically assisted pullers for easy application of high withdrawal forces. 8 3

и Dismounting ЯН ш Guide to SKF puller selection Type of pull EXTERNAL PULL COMBINED INTERNAL OR EXTERNAL PULL* AB INTERNAL PULL В BLIND PULL' TMMP 2x65 TMMP 2x170 TMMP 3x185 TMMP 3x230 TMMP 3x300

85 и Dismounting ЯН ш Guide to SKF puller selection Type of pull EXTERNAL PULL COMBINED INTERNAL OR EXTERNAL PULL* AB INTERNAL PULL В BLIND PULL' TMMP 2x65 TMMP 2x170 TMMP 3x185 TMMP 3x230 TMMP 3x300 TMMP 6 TMMP TMMP15 TMMA3 TMMA5 TMMA5E TMMA8 TMMA8E.../SET TMHPE TMHC1E TMHP 15/260 TMHP 30/170 TMHP 30/350 TMHP 30/600 TMHP 50/140 TMHP 50/3 TMHP 50/570 TMBS 50E TMBS 0E TMBS150E TMHC HOE TMMR40F TMMR60F TMMR80F TMMR1F TMMR 160F TMMR0F TMMR250F TMMR350F TMSC6 TMSC 3060 No. of arms Width of grip x x No. of extension rod sets No. of extension rod sets No. of collets 6 3 No. of arms Shaft diameter d i mm in D Width of grip D mm in Effective arm length L in mm in kn Maximum bearing outer diameter mm ir Width of grip d mm Maximum withdrawal force Effective arm length L in (max) 32.5 (max) 825 (max) 32.5 (max) 255 mm Shaft diameter d Bearing bore diameter d Hammer displacement Effective arm length L SKF bearing series in in kg F max ton (US) Maximum withdrawal force kn ton (US) Maximum withdrawal force kn ton (US) Weight of hammer Effective arm length L TMMD61 6x (min.) 5.5 (min.) TMBP (max.) 23.6 (max.) : A bridge construction is needed to support the spindle when used as an internal puller 84

Guide to SKF puller accessory selection Puller series Safety Puller Protection Blankets TMMX series Force Generators Advanced Hydraulic Spindle TMHS.

86 Guide to SKF puller accessory selection Puller series Safety Puller Protection Blankets TMMX series Force Generators Advanced Hydraulic Spindle TMHS..E series Trisection Pulling Plates TMMS series TMMP.x.. Standard jaw pullers TMMP2x65 TMMP 2x170 TMMP 3x185 TMMP 3x230 TMMP 3x300 TMMX 2* TMMX2/TMMX280* TMMX280/TMMX350* TMMS 50*/TMMS 0 TMMS50*/TMMS0 TMMS 50 / TMMS 0* / TMMS 160 TMMP. Heavy duty jaw pullers TMMP 6 TMMP TMMP 15 TMMX2 TMMX280/TMMX350 TMMX 350 TMMS 50* TMMS 0* TMMS 0*/TMMS 160* TMMR..F Reversible jaw puller TMMR40F TMMR60F TMMR80F TMMR1F TMMR 160F TMMR0F TMMR 250F TMMR350F TMMX 2 TMMX 2/TMMX 280* TMMX 280* TMMX 350* TMMA. EasyPull TMMA3 TMMA 5 TMMA 8 TMMA 5E TMMA8E TMMA8E/SET TMMX 2*/TMMX280 TMMX 280* /TMMX 350 TMMX 280/TMMX 350* TMMX 280*/TMMX 350 TMMX 280/TMMX 350* TMMX 350 included TMHS5E TMHS8E TMHS 5E included TMHS 8E included TMHS 8E included TMMS 50* TMMS50*/TMMS0 TMMS 50 / TMMS 0* / TMMS 160* TMMS 50*/TMMS 0 TMMS 50 / TMMS 0* / TMMS 160* TMMS160 included TMHC..E Hydraulic Puller kit TMHC HOE TMMX 280*/TMMX 350 TMHS 0 included TMMS 50/TMMS 0* TMHP..E Hydraulic Puller kit TMHPE TMMX 2/TMMX 280*/TMMX 350 TMHS 0 included TMMS 50* / TMMS 0* / TMMS 160 TMHP.. Hydraulicallyassisted heavy duty jaw pullers TMHP 15/260 TMHP 30/170 TMHP 30/350 TMHP 30/600 TMHP 50/140 TMHP 50/3 TMHP 50/570 TMHP 15/260X TMHP 30/170X TMHP 30/350X TMHP 30/600X TMHP 50/140X TMHP 50/3X TMHP 50/570X TMMS 160/TMMS 260 TMMS 260*/TMMS 380 TMMS 260*/TMMS380 TMMS 260*/TMMS 380 TMMS 260/TMMS 380* TMMS 260/TMMS 380* TMMS 260/TMMS 380* TMMS160/TMMS260 TMMS 260*/TMMS380 TMMS 260*/TMMS 380 TMMS 260*/TMMS 380 TMMS 260/TMMS 380* TMMS 260/TMMS 380* TMMS 260/TMMS 380* TMBS..E Strong back pullers TMBS 50E TMBS0E TMBS150E TMMX 2 TMMX 2*/TMMX 280 TMMX280*/TMMX350 TMHS 0 included TMHS 0 included TMSC Internal bearing puller kit TMSC 6 TMSC 3060 TMMD 0/ TMBP Blind housing puller kits TMMD 61 TMBP TMMX 2* TMMX2/TMMX280 * = recommended I included» accessory included with puller 8 r )

Dismounting TMMA pullers series: EasyPull Safe and simple dismounting of bearings Equipped with springoperated arms and safety pin, SKF's patented EasyPull is one of the most userfriendly and safe

87 Dismounting TMMA pullers series: EasyPull Safe and simple dismounting of bearings Equipped with springoperated arms and safety pin, SKF's patented EasyPull is one of the most userfriendly and safe tools on the market today. Ergonomically designed, the springoperated arms enable the user to position the puller behind the component with just one movement of the hand. Costs resulting from replacement of expensive spare parts are avoided with the EasyPull's unique safety pin, which breaks instead of the puller itself, should excessive force be used. To help prevent shaft damage, two nose pieces are included. Userfriendly: Double hexagonal heads allow easier application of withdrawal force The unique red rings springoperated opening mechanism allows the EasyPull to be placed behind the component with one movement of the hands Available in three sizes with a maximum withdrawal force of 30, 50 or 80 kn (3.4, 5.6 or 9.0 ton US), enabling, easy selection Hydraulic force generators available for the 50 and 80 kn versions Safe: The safety pin. or shear pin, is a critical design feature of this product The safety pin is designed to break at the maximum load for that puller. Continued breakage of the safety pin may indicate the need for a larger puller Safety pin minimises any injury to the user and prevents damage to puller arms. rings and spindle Selflocking arms prevent risk of puller slipping under load Costsaving: Efficient use of time due to quick dismounting No need to buy expensive spareparts: a unique safety pin breaks should excessive force be used Service life of puller extended by safety pin Selfcentring avoids damage to shaft Hydraulic TMMA pullers series: hydraulic EasyPull Quick and effortless bearing dismounting The hydraulic versions of the EasyPull, TMMA 8E and TMMA 5E, combine the user friendliness and safety of the mechanical EasyPull with the effortless force generation provided by integrated hydraulic spindles. The pullers are protected from overload by safety valves built in their hydraulic spindles. Readytouse, integrated hydraulic cylinder, pump and puller separate hydraulic spindles and pumps are not required Safety valve prevents spindles and pullers from being overloaded if excessive force is applied The springloaded centre point on the hydraulic spindle allows easy centring of the puller on the shaft without damaging the shaft The TMMA 8E has a maximum withdrawal force of 80 kn (9.0 ton US) and a long stroke of 80 mm (3.1 in), which facilitates most dismounting jobs in just one operation For dismounting jobs requiring less force, SKF offers a 50 kn (5.6 ton US) version: Hydraulic EasyPull TMMA 5E with a maximum stroke of 75 mm (3 in)

88 Hydraulic EasyPull Set TMMA 8E/SET A complete bearing dismounting solution The 5KF Hydraulic EasyPull Set, TMMA 8E/SET, is the most complete dismounting kit available on the market today. The set offers the unique combination of the Hydraulic EasyPull, a trisection pulling plate and a puller protection blanket. Combined together, the components of the set facilitate safe and effortless dismounting of bearings, such as spherical roller and CARB bearings, or other components, such as pulleys and flywheels. In addition to all the benefits of the TMMA 8E, which is a part of the set, the TMMA 8E/SET also offers: The trisection pulling plate. TMMS 160. facilitates easy and damagefree dismounting, especially of spherical roller and CARB bearings The puller protection blanket, TMMX 350, is made of transparent material, which increases the user's safety while dismounting The TMMA 8E/SET is supplied in a durable metal storage case filled with custom made storage facilities for all parts, minimising the risk of loosing or damaging any of the components Complete solution for effortless and safe dismounting for many bearing types, especially spherical roller and CARB bearings, as well other components such as pulleys and flywheels J V Trisection pulling plate TMMS Series Efficient and correct dismounting The trisection pulling plates, TMMS series, are especially designed for use in combination with threearmed pullers. The plates grip behind the inner ring of the bearing. This prevents the pulling forces from being transmitted through the outer ring and the rolling elements, minimising the risk of bearing damage. The TMMS series consists of 5 different sizes of trisection pulling plates suitable for shafts with maximum diameter ranging from 50 to 380 mm (2 to 15 in). The firm grip behind the bearing's inner ring helps ensure that the pulling forces are only transmitted through the inner ring and not through the outer ring or the rolling elements, preventing bearing damage The trisection construction allows even force distribution, preventing bearing locking and/or tilting on the shaft, especially in the case of spherical roller and CARB bearings, during dismounting Suitable for use in combination with threearmed pullers Special wedge shape design allows the plates to be easily inserted between the bearing and the shoulder on the shaft Available in a wide range, covering most common shaft sizes C BJ j 87

89 Dismounting Advanced Hydraulic Spindles TMHS 8E and TMHS 5E Effortless force generation up to 80 kn The SKF advanced hydraulic spindles, TMHS 8E and TMHS 5E, effortlessly generate forces up to 80 kn (9.0 ton US) and 50 kn (5.6 ton US) respectively. Facilitating the easy dismounting of bearings or other components. The spindles are equipped with integrated hydraulic pumps for force generation. They are supplied with a nosepiece and extension pieces, allowing easy and quick adaptation to the shaft's length. ГШ J Integrated hydraulic cylinder, pump and spindle no separate pump is required Safety valve helps prevent overloading the spindle and the puller in case excessive force is applied The springloaded centre point allows easy centring of the puller on the shaft without damaging it Hand lever with ergonomic grip allows 360 rotation TMH5 8E: Generates a maximum withdrawal force of 80 kn (9.0 ton US) and has a long stroke of 80 mm (3.1 in), which facilitates dismounting in one operation Suitable for use with SKF puller TMMA 8 Suitable for use with any 80 kn (9.0 ton US) puller equipped with a UN If x 16 tpi threading Extension pieces for maximum reach of 350 mm (13.8 in) allow quick adaptation to pulling length TMHS 5E: Generates a maximum withdrawal force of 50 kn (5.6 ton US) and has a stroke of 75 mm (3 in) Suitable for use with SKF puller TMMA 5 Equipped with a UN If x 12 tpi threading TMHS 5E Л Гл TMHS 8E л г & J V Description Hydraulic spindle Safety valve Nose piece Extension pieces: 50 mm (.0 in) 0 mm (3.9 in) 150 mm (5.9 in) TMHS 5E TMHS8E

90 Standard jaw pullers TMMP series Versatile two and three arm mechanical pullers One of the most common ways to dismount small to medium size bearings is to use a basic mechanical puller. Using an SKF puller helps to safeguard against damage caused to the bearing or to the bearing seating during dismounting. SKF standard jaw pullers offer you easy and safe puller operation. 'C Range of five different jaw pullers with two or three arms Maximum nominal span from 65 to 300 mm (2.6 to 11.8 in) Cone system for automatic centring and secure positioning of arms Strong springs keep arms apart for easy operation Hardened, high quality carbon steel Reversible jaw puller TMMR F series Combined internal and external puller The multipurpose SKF TMMR F jaw pullers are able to grip on both the outside as well as the inside of a component, with equal strength. The TMMR F's are available as a complete set, TMMR 8. Both internal and external pulling Puller for use in every workshop Selflocking arms Special safety neck avoids damaging of thread and arms Hexagonal head on beam allows rotation of bearing during dismounting Gripping range from 23 to 350 mm (0.9 to 13.8 in) Also available as complete set on a stand J V 89

Dismounting Heavyduty jaw pullers TMMP series Powerful selfcentring mechanical pullers The 5KFTMMP heavyduty jaw pullers provide perfect alignment and shaft protection as well as an exceptional grip

91 Dismounting Heavyduty jaw pullers TMMP series Powerful selfcentring mechanical pullers The 5KFTMMP heavyduty jaw pullers provide perfect alignment and shaft protection as well as an exceptional grip for medium to large size bearings. 3 arm jaw pullers with a maximum withdrawal force of 60 to 150 kn (6.7 to 17.0 ton US) Unique pantograph system for grip width adjustment that counteracts misalignment during operation Fast, efficient and smooth handling Blackened, high quality steel for corrosion resistance Ф J V. Hydraulically assisted heavy duty jaw pullers TMHP series Powerful selfcentring hydraulic pullers The 5KF hydraulically assisted pullers TMHP 15, TMHP 30 and TMHP 50 are both safe and powerful. They also have a selfcentring ability, which is necessary when applying large forces. Hydraulically assisted pullers with a maximum withdrawal force of 150, 300 or 500 kn (17.0, 34.0 or 56.0 ton US) Pantograph system for ultimate alignment of withdrawal forces and minimised risk of damaging shaft or bearing Extreme forces can be applied with ease (selfcentring, lifting handle and eye bolt) The combination of a spindle and hydraulic cylinder allows the working length to be easily adjusted Can be supplied with or without the SKF hydraulic pump TMJL 0 л г Г 90

92 Hydraulic jaw puller kit TMHP E Effortless bearing dismounting up to 0 kn The SKF TMHP E jaw puller kit is equipped with a hydraulic spindle, which facilitates effortless bearing dismounting up to 0 kn (11.2 ton US). The versatile puller kit includes three different arm sizes and can be assembled as a twoarm puller or a threearm puller depending on the space and demand of the application. ГШ I High load rating of 0 kn (11.2 ton US) makes the puller suitable for a variety of dismounting jobs The 3 different arm sizes, with a maximum effective arm length of 0 mm (7.9 in), make the TMHP E suitable for use in a wide range of applications The selflocking arms minimise the risk of the puller slipping from the application when under load Hydraulic spindle facilitates effortless dismounting The hydraulic spindle is equipped with a safety valve, which minimises the risk of puller overload by limiting the applied force to 0 kn (11.2 ton US) Long stroke of hydraulic spindle, 80 mm (3.1 in), facilitates dismounting in one operation Extension pieces of the hydraulic spindle allow quick adaptation to pulling length. The springloaded centre point of the hydraulic spindle allows easy centring of the puller on the shaft without damaging it Hydraulic Puller kit TMHC 1E Powerful combination of a jaw and strong back puller The SKF TMHC 1E is a hydraulic puller kit, which combines a jaw puller and a strong back puller with up to 0 kn (11.2 ton US) pulling power. The versatile puller kit facilitates safe and easy dismounting in a variety of applications. Unique combination of a hydraulic jaw and a strong back puller for use in various applications High load rating of 0 kn (11.2 ton US) make the TMHC HOE suitable for use in many applications Hydraulic spindle facilitates easy and quick dismounting, effortless generation of force The jaw puller includes 2 different arm sizes for maximum reach of 1 mm (4.7 in) The jaw puller can be assembled as a threearm or twoarm puller depending on the space and demands of the application The firm grip of the strong back puller behind the bearing's inner ring reduces the force required to dismount the bearing The special separator design of the strong back puller allows the puller to be used even in the tightest spaces The extension rods of the strong back puller allow a maximum reach of 255 mm ( in) for quick adaptation to required pulling length У К. 91

Dismounting Strong back pullers TMBS E series ПМ I Easy bearing dismounting even in the tightest spaces The 5KFTMB5 E strong back pullers facilitate dismounting of bearings in applications where the

93 Dismounting Strong back pullers TMBS E series ПМ I Easy bearing dismounting even in the tightest spaces The 5KFTMB5 E strong back pullers facilitate dismounting of bearings in applications where the use of traditional jaw pullers is restricted due to lack of space or where the application demands a long reach. TMBS 0E and the TMBS 150E are equipped with a hydraulic spindle, which allows for effortless application of force up to 0 kn (11.2 ton US). The TMBS 50E is equipped with a mechanical spindle for force generation. Special separator design allows the puller to be easily inserted between the bearing and the shoulder on the shaft, even in the tightest spaces The firm grip behind the bearing's inner ring reduces the force required to dismount the bearing High load rating of 0 kn (11.2 ton US) make the TMBS 0E and TMBS 150E suitable for use in many applications TMBS 0E and TMBS 150E offer complete hydraulic puller kits, allowing effortless generation of force The extension rods of the TMBS 0E and TMBS 150E allow easy and quick adaptation to required pulling length Maximum reach of 825 mm (32.5 in) and maximum shaft diameter of 150 mm (6 in) allow the TMBS E series to be used in many applications The hydraulic spindle is equipped with a safety valve, which limits the applied force to 0 kn (11.2 ton US), minimising the risk of puller overload The springloaded centre point of the hydraulic spindle allows easy centring of the puller on the shaft without damaging it Long stroke of hydraulic spindle, 80 mm (3.1 in), facilitates dismounting in one operation Pumping mechanism used for force generation is effortless and more efficient than turning mechanism Extension pieces of the hydraulic spindle allow quick adaptation to pulling length ^fo TMBS 50E л л TMBS 0E V V Л Л TMBS 150E у v J V. 92

94 Blind housing puller kit TMMD 61 Easy dismounting of ball bearings in blind housings The 5KF TMMD 61 is an excellent bearing puller for removing ball bearings in blind housings. The kit comes complete with 6 different arm sets and 2 supporting spindles covering 61 different bearings from to 0 mm (0.4 to 4 in) shaft diameters. 6 arm sets and 2 withdrawal spindles, neatly housed in a practical carrying case weighing only 3.2 kg (7 lb) Hinged arms for optimised grip in bearing Elastic locking ring for easy connection of arms to spindle High tensile alloy steel for optimum performance Selection chart for bearings ^0C J V

95 Dismounting Selection chart TMMD 61 Ball bearing type SKF standard bearing Arm Spindle Ball bearing type SKF standard bearing Arm Spindle TMMDA1 TMMDA2 TMMDA3 TMMD M TMMDA4 TMMDA5 TMMDA6 TMMD M16 Internal bearing puller kits TMSC series Slide impact hammer assisted pullers The SKF TMSC internal bearing puller kits are ideal for removing bearings from housings that are difficult to reach with conventional pullers. The TMSC 6 kit is supplied with 6 different adjustable collets covering bore diameters from 8 to 36 mm (0.3 to 1.4 in), and the TMSC 3060 kit with 3 different collets covering bore diameters from 30 to 60 mm (1.2 to 2.4 in) Easy removal of bearings from housings Positive bearing grip through collet expansion Minimises housing damage Six segment collets for efficient force application/transmission TMSC 6 4!: Л Гл TMSC 3060 И Insert the extractor through the bore of the bearing Ш Tighten the collet nut in order to expand the extractor behind the bearing Щ Connect the slide hammer. Extract by throwing the hammer towards the handle и i i im m Ш J V ИЛЁЕ]=^1ЭГ, 4 Л J ф 94

96 Puller protection blankets TMMX series For safety during dismounting The SKF puller protection blankets, TMMX series, are especially designed to offer additional safety during the dismounting bearings or other components. The TMMX series blankets are simply wrapped around the puller and application after the puller has been positioned. ГМ j Offers additional protection for the user during dismounting jobs The tough, transparent plastic allows the user to monitor the component and the puller during operation Suitable for use in combination with many pullers Especially designed to fit SKF pullers TMMA series <f. Blind housing puller kit TMBP Removes bearing without dismantling machinery The SKF TMBP is a unique adapter type puller for dismounting of deep groove ball bearings in blind housings. The cage of the bearing must be broken apart in order to insert the adapters between the bearing inner and outer raceways. With 6 sets of adaptors, Д6 different deep groove ball bearings can be dismounted The use of extension rods allow increased working reach Can be used for blind housing and Ishaft applications Balanced tension for reduced resistance and rapid extraction И Remove seal and open selected section of ball cage. Clean the swarf out. Ш Insert appropriate bearing adapter and rotate it 90 ensuring positive grip within the bearing race. В Insert the second adapter into prepared area diametrically opposed. Connect the adapters to the main rod. Assemble beam and spindle. Start extracting. 9 5

97 Dismounting Other dismounting tools SKF also offers a wide range of mechanical tools, which facilitate dismounting. For more details on these tools, please see pages 1314 of the Mounting and Lubrication section of this catalogue. Index other mechanical dism ounting tools Description HN series HNA series HN../SNL series TMFN series TMFS series Hook spanners Adjustable hook spanners Hook spanners for SNL housings Impact spanners Axial lock nut sockets Page Dismounting using heat Easy, quick and safe dismounting of cylindrical roller bearing inner rings SKF's range of heating equipment enables quick and safe dismounting of cylindrical roller bearing inner rings and covers a wide range of applications. Aluminium heating rings TMBR series are designed for dismounting inner rings of small and mediumsize cylindrical roller bearings. Adjustable and fixed induction heaters EAZ series are suitable for frequent dismounting of various sizes of cylindrical roller bearing inner rings. Aluminium heating rings TMBR series For regular dismounting of cylindrical roller bearings The aluminium heating rings are designed for dismounting inner rings of cylindrical roller bearings. They are available for all bearing sizes of the NU, NJ and NUP series, these are bearings without flanges or with only one flange on the inner ring. The rings are available as standard for the following bearing sizes: 4 to 252, 304 to 340, 406 to 430. Simple and easytouse Avoids shaft and bearing inner ring damage < f 96

98 Adjustable induction heaters EAZ series For frequent dismounting of cylindrical roller bearings The adjustable induction heaters EAZ 80/130 and EAZ 130/170 are used for frequent dismounting of cylindrical bearing inner rings. Where inner rings are removed infrequently, aluminium heating rings, TMBR series, are also available. For larger cylindrical inner rings normally found in steel milt applications, 5KF can supply special EAZ induction heaters. Covers most cylindrical bearings 65 to 130 mm (2.5 to 5.1 in) bore diameter Wide range of power supplies 1 year warranty Avoids shaft and bearing inner ring damage Fast and reliable bearing removal Up to n6 interference fit ^00 EAZ 80/ EAZ 130/ All Etypes included. Selection table for bearings NU EAZ 80/ EAZ 130/ All Etypes included. Fixed induction heaters EAZ series Quick roll changes with bearing removal in 3 minutes In light section mills and wire rod mills, fourrow cylindrical roller bearings are usually used to take up the roll separating forces. The inner rings of these bearings are mounted with an interference fit on the roll necks. Because of the rapid wear, heavy loads and severe contamination the rolls must be frequently replaced. This inevitably involves dismounting the inner rings and remounting them onto new rolls. Three minutes are enough Using the EAZ, inner rings are heated evenly while the roll neck remains cold. The ring, together with the induction heater, can be easily withdrawn from the neck. Even with relatively large rings this complete operation takes not more than two to three minutes. Г Reduced time to remove bearings Increased production time Available in different voltage versions Bearings can be reused Control cabinet is to be ordered separately 9 7

99 j4'\ #4 Dismounting Dismounting bearings using hydraulic techniques Correct and quick bearing dismounting Using SKF hydraulic techniques for bearing dismounting reduces the risk of damaging the bearing or its seating. Additionally, greater withdrawal forces can be applied with minimum effort and maximum control, allowing quick and safe dismounting. The SKF Oil Injection Method Easy, quick and effortless bearing dismounting When using the SKF Oil Injection Method the mating surfaces are separated by a thin film of oil injected under high pressure, thereby virtually eliminating the friction between them. The method is versatile as it can be used for dismounting bearings and other components mounted on either cylindrical or tapered seatings. When dismounting bearings mounted on cylindrical seatings, the injected oil can reduce the required pulling forces by up to 90%. Subsequently, the physical effort required when using a puller to remove the bearing from its seating is reduced. When using the Oil Injection Method to dismount bearings mounted on tapered seatings, the interference fit is completely overcome by the injected oil. The bearing is then ejected from the seating with great force, making the use of a puller unnecessary. In this case, a stopnut must be used to control the ejection of the bearing. The method, which is used for many bearing applications, can also be found in other applications, such as: Couplings Gear wheels Railway wheels Propellers Builtup crankshafts Cylindrical shafts The concept 0 By injecting oil of a certain viscosity between two shrink fitted surfaces, the mating surfaces will be separated by a thin oil film. The dismounting force required is thus greatly reduced. The thin oil film also minimises the risk of metallic contact when dismounting, reducing the risk of component damage. The preparation Ш During manufacture the shafts are prepared with oil ducts and grooves. For technical information on how to prepare the shafts, consult an SKF application engineer. The action Ш Dismounting the bearing is made easy by pumping oil under pressure between the mating surfaces. Once the oil pressure has built up, the component can be removed from the shaft with a minimum of effort. 98

100 Tapered shafts The concept 0 Injecting the oil between two tapered surfaces will create a reaction force which could be quite substantial as the oil will also act as a "hydraulic cylinder" which can push the outer component off. m The preparation Ш During manufacture the shafts are prepared with oil ducts and grooves. For technical information on how to prepare the shafts, consult an SKF application engineer. The action Bearings are dismounted by injecting oil between the mating surfaces and when sufficient pressure is reached, the bearing will be pushed off. A nut is required to keep the bearing from sliding off the shaft. в In addition to dismounting bearings mounted on cylindrical or tapered seatings, the SKF Oil Injection Method can be also used for mounting on tapered seatings. See page 21 of this catalogue for more di Hydraulic Nuts HMV..E series Effortless dismounting of bearings mounted on sleeves Dismounting bearings mounted on either adapter or withdrawal sleeves is often a difficult and timeconsuming job. These problems can be reduced with the use of an SKF hydraulic nut. Oil is pumped into the nut and the piston is pushed out with a force, which is sufficient to free the sleeve. All HMV,.E nuts are supplied with a quick connection coupling to fit the SKF hydraulic pumps. И HMV.. nut and stop ring in position to press an adapter sleeve free. Ш HMV.. nut used to free a withdrawal sleeve. SKF hydraulic nuts HMV..E series also facilitate bearing mounting. For more details see page 25 of this catalogue. 9 9

Dismounting Dismounting fluid LHDF 900 For easy and quick bearing dismounting The dismounting fluid LHDF 900 is suitable for use with SKF hydraulic equipment, including hydraulic pumps and oil

101 Dismounting Dismounting fluid LHDF 900 For easy and quick bearing dismounting The dismounting fluid LHDF 900 is suitable for use with SKF hydraulic equipment, including hydraulic pumps and oil injection tools. The LHDF 900 contains anti corrosives which are non aggressive to seal materials such as nitrile rubber, perbunan, leather and chrome leather, PTFE, and so on. Ordering details and technical data LHDF 900/pack size Specific gravity 0,885 Flash point 2 C (395 F) Pour point 28 C (18 F) Viscosity at C (68 F) 9 mm 2 /s Viscosity at 40 C (4 F) 330 mrnvs Viscosity at 0 C (212 F) 43 mm 2 /s Viscosity index 180 Available pack size 5 & 5 litre Hydraulic pumps and oil injectors selection guide SKF offers a wide range of hydraulic equipment, which facilitates the dismounting of bearings and other components. This selection guide features the most common applications for which the equipment can be used. For more details on these hydraulic pumps and oil injectors, please see pages 2734 of the Mounting and Lubrication section of this catalogue. Ordering details and dimensons Max. working pressure Pump Type Oil container capacity Dismounting applications* 30 MPa (4,350 psi) THAP 030 Airdriven pump Separate container oil OK couplings hydraulic chamber 50 MPa (7,250 psi) TMJL50 Hand operated pump cm 3 (165 in 3 ) г HMV 92E with sleeves OK couplings 0 MPa (14,500 psi) TMJL 0 Hand operated pump Hand operated pump 250 cm 3 (15 in 3 ) 800 cm 3 (48 in 3 ) s HMV 54E with sleeves Oil injection for small bearings s HMV 92E with sleeves Oil injection for medium bearings 150 MPa (21,750 psi) THAP E Airdriven pump Hand operated pump Separate container cm 3 (155 in 3 ) Bolt tensioners, propellers Oil injection for bearing seatings All HMV E nuts with sleeves Oil injection for bearing seatings 300 MPa ( psi) THAP 300E В TMJE Airdriven pump Hand operated oil injector Oil injection kit Oil injection set Screw injector Screw injector Separate container 0 cm 3 (12.2 in 3 ) 0 cm 3 (12.2 in 3 ) 0 cm 3 (12.2 in 3 ) 5.5 cm 3 (0.33 in 3 ) 25 cm 3 (1.5 in 3 ) OK couplings Large pressure joints Oil injection for bearing seatings OK couplings Adapter / withdrawal sleeves Oil injection for bearing seatings Complete kit / set to suit many applications Complete kit / set to suit many applications Machine tool applications shaft diameter s 0 mm Machine tool applications shaft diameter s 0 mm 400 MPa ( psi) / 400MPa 7291E TMJE400 Hand operated oil injector Oil injection kit Oil injection set 0 cm 3 (12.2 in 3 ) 0 cm 3 (12.2 in 3 ) 0 cm 3 (12.2 in 3 ) Joints with high interference fits Complete kit / set to suit many applications Complete kit / set to suit many applications * The dismounting applications given above are for guidance only. The interference fit present may mean that a pump I injector with a higherpressure capacity is required. 0

102 SKF Support SKF Internet sites SKF Driveup Method SKF Oil Injection Method SKF DialSet 3.0 Relubrication Calculation Program SKF Demonstration Trucks Audio visual Technical literature Training

Support 5KF Support Reduced machinery downtime through effective bearing maintenance Product quality is just one of the factors that determine bearing service life.

103 Support 5KF Support Reduced machinery downtime through effective bearing maintenance Product quality is just one of the factors that determine bearing service life. Operating environment, proper installation and maintenance are also critical to bearing performance; factors that enter the picture after the bearing has been delivered to our customers. At 5KF we have put together the industry's most comprehensive program for maximising bearing service life and to help our customers reduce costly machine stoppages due to bearing failures. For more information on the services described below, please contact your nearest SKF supplier. SKF Internet sites At you will find the SKF Maintenance Products catalogue online, offering a complete listing of products and technical specifications in many languages. There, you can also find a wealth of information about bearing maintenance practices as well as an extensive "frequently asked questions" section. For information on the SKF Group, history, products, divisions and services worldwide visit the SKF Group site at r Efc Cgrrtnti una*» Irnliucucm. [. I... 1 r я,,,.щ DrtVtup calculations **«STSI'^Sli, =H~rP ШЗЯШШ 1 ll 1 ШЩ SKF Driveup Method The SKF Driveup Method CDOROM program is a computerized handbook on how to use the Driveup Method for mounting bearings with a tapered bore. The program describes the method with the aid of pictures, animations, videos, and calculation tables that can easily be printed. The program is available in English, German, Swedish, French, Italian and Spanish. Reference no. MP3600 J "' Design i>t components Т^и 1 мг " ^^'' ^011 " 22 CZTSSZSXS" ±zr^'ir.rr. T *4M,.lbicani*OT>l#»w chwintl4mhlihf<i Ihi and Ы Ihi fikh Th4 >» ptmculwlr i»*rt«' II» ti SiSSsriS'Sr '" l ; i C M» Г" s С^ЯЯ LrlA JSItlJI г г ^^^ 'Ц* SKF Oil Injection Method The SKF Oil Injection Method allows bearings and other components with an interference fit to be fitted and removed in a safe, controllable and rapid manner. The CDROM revolutionizes the method by fully automating the technique, making the detailed calculations easy and simple to compute. The CDROM provides detailed instructions and practical information on how to use the method for mounting and dismounting bearings, as well as using the method in design, calculation and application of shrink fitted components. Reference no. MP3601 2

SKF DialSet 3.0 Relubrication Calculation Program The SKF DialSet 3.0 Relubrication Calculation program enables accurate calculation of relubrication intervals for lubricating bearings.

104 SKF DialSet 3.0 Relubrication Calculation Program The SKF DialSet 3.0 Relubrication Calculation program enables accurate calculation of relubrication intervals for lubricating bearings. The computer program determines the right time setting and dispense rates for SYSTEM 24 and SYSTEM MultiPoint. It also recommends when to use SYSTEM 24 LAGD 125 or LAGD 60. The program is available on diskette and is translated into English, French, German, Swedish, Spanish and Italian languages. Reference no. MP3506. It is also available in English online as well as downloadable version for PDA from hf. r4r t SKF Demonstration Trucks SKF offers demonstrations and training with mobile demonstration vehicles which tour throughout Europe, Asia and North America. The training program is tailored to the customers needs and may consist of a short theoretical explanation of the latest maintenance methods and concepts, followed by a detailed handson demonstration with qualified SKF personnel. For more information about these vehicles, please contact your local distributor or SKF office to schedule an appointment. Audio visual SKF provides a range of videos to support training courses on different facets of bearing and seal performance. The "Get Even Smarter" video shows the do's and don'ts of good bearing maintenance in a lighthearted way. Technical literature SKF technical literature is a must in every maintenance workshop. The SKF General Catalogue and the unique SKF Bearing Maintenance Handbook provide the answers to all mounting and dismounting questions. v_ Training SKF offers training courses on all facets of bearing maintenance and machine reliability. By prior arrangement training courses can be organised at our customers own premises or at one of our wellequipped SKF Maintenance Support Centres. If you would like to know what courses are offered in your area, talk to your local SKF representative or visit 3

Technical data TMFT 33 (page 11) Impact rings Sleeve Hammer Dimensions of case Weight Impact rings Sleeves Packages s: Example TMFT 33A/26 TMFT 33 bore dia. 50 mm (0.4 2 in) bore dia. 18.

105 Technical data TMFT 33 (page 11) Impact rings Sleeve Hammer Dimensions of case Weight Impact rings Sleeves Packages s: Example TMFT 33A/26 TMFT 33 bore dia. 50 mm (0.4 2 in) bore dia , 52 mm (0.7,1.3, 2 in) TMFT 33H, weight: lkg (2.2 lb) 440 x 350 x 95 mm (17.3 x 13.8 x 3.7 in) 4,5 kg (9.9 lb) 50 mm (0.4 2 in) bore dia. 18, 32, 52 mm (0.7, in) individually in recyclable plastic material A = sleeve, mm bore of impact ring, 26 = 26 mm outside dia. of impact ring TMHN7(pagel3) Dimensions of case (wxdxh) Weight TMHN7 340 x 250 x 80 mm (13.4 x 9.8 x 3.1 in) 2.2 kg (4.7 lb) TMHN 7 selection chart Spanner HNM5 HNM6 HNM7 HNM8 Bearing designation 15 EK 25 EK 16 EK 26 EK 17 EK 27 EK 18 EK 28 EK 1305 EK 1306 EK 1307 EK 1308 EK 2306 К 2307 EK 2308EK i Spanner HNM9 HNM HNM11 Bearing designation 19 EK 29 EK 12 EK 22 EK 1211 EK 2211 EK 1309 EK 13 EK 1311 EK 2309EK 23 К 2311 К HN Series (pagel3) Description Material Material handle Suitable (see table below) Hook spanner Special hardened steel PVC For many SKF nuts For all KM nuts according to DIN 981 For all nuts according to DIN 1804 For nuts from KMO (018) to KM22 (0145) 4 ^4. j. " Spanner design DIN 18 mm mm Diameter с in mm Working length L in mm Thickness l in 9 Weight lb HN0 HN1 HN23 HN4 HN56 HN7 HN89 HN 11 HN 1213 HN14 HN15 HN16 HN17 HN 18 HN Ш

HN series Selection chart Suitable for SKF nuts of series N AN KMK KMFE KMT DIN 1804 (M) HNO HN1 HN23 HN4 HN56 HN7 HN89 HN 11 HN 1213 HN14 HN15 HN16 HN17 HN 18 HN 2122 14 15 14 V, 16 17 18,19, 21.

106 HN series Selection chart Suitable for SKF nuts of series N AN KMK KMFE KMT DIN 1804 (M) HNO HN1 HN23 HN4 HN56 HN7 HN89 HN 11 HN 1213 HN14 HN15 HN16 HN17 HN 18 HN V, ,19, , ,9,11 12, ,19, , , , ,4, ,18,19,22 M6x0,75, M8xl M8xl MIOxl, M12xl,5 M14xl,5, M16xl,5 M22xl,5, M24xl,5, M26xl.5 M32xl,5. M35xl,5 M38xl.5, M40xl,5, M42xl,5 M45xl,5. M48xl,5, M50xl,5 M52xl,5, M55xl,5, M58xl,5, M60xl,5 M62xl,5, M65xl,5, M68xl,5, M70xl,5 M72xl,5. M75xl,5, M80x2 M85x2, M90x2 M95x2. M0x2 5

Мьл Technical data HN/SNL series (page 14) Description Material Suitable ш Special hook spanner for use with SNL housings Black phosphated, hardened chrome vanadium steel SKF SNL and SNH housings KM.

107 Мьл Technical data HN/SNL series (page 14) Description Material Suitable ш Special hook spanner for use with SNL housings Black phosphated, hardened chrome vanadium steel SKF SNL and SNH housings KM. KML, N, AN. KMK. KMFE and KMT lock nuts d outer diameter locknut mm L working length n thickness in weight lb HN 5/SNL HN 6/SNL HN 7/SNL HN 8/SNL HN 9/SNL HN /SNL HN 11/SNL HN 12/SNL HN 13/SNL HN 15/SNL HN 16/SNL HN 17/SNL HN 18/SNL HN 19/SNL HN /SNL HN 22/SNL HN 24/SNL HN 26/SNL HN 28/SNL HN 30/SNL HN 32/SNL b HN /SNL series Selection chart Suitable for SKF housings SNL Suitable for SKF nuts of series KM i KML I N* AN*! KMK* I KMFE* KMT* HN 5/SNL HN 6/SNL HN 7/SNL HN 8/SNL HN 9/SNL HN /SNL HN 11/SNL HN 12/SNL HN 13/SNL HN 15/SNL HN 16/SNL HN 17/SNL HN 18/SNL HN 19/SNL HN /SNL HN 22/SNL , , , , HN 24/SNL HN 26/SNL HN 28/SNL HN 30/SNL HN 32/SNL j _ * Not recommended in combination with SNUSNH housing

TMFN series (page 14) designation in I mm Dimensions f kg Weight TMFN 2330 TMFN 3040 TMFN 4052 TMFN 5264 TMFN 6480 TMFN 80500 TMFN 500600 TMFN 600750 150195 5.9 7.7 11,5 195250 7.7 9.8 13,5 250 3 9.

108 TMFN series (page 14) designation in I mm Dimensions f kg Weight TMFN 2330 TMFN 3040 TMFN 4052 TMFN 5264 TMFN 6480 TMFN TMFN TMFN , , , , ,2 4, , TMFN series Selection chart Suitable for adapter sleeves TMFN 2330 TMFN 3040 TMFN 4052 TMFN 5264 TMFN 6480 TMFN TMFN TMFN H 23, H 31 H sizes H30 H KM KML HMT. 42T 50T 52T 56T Suitable for nuts of series HM /500 30/630 31/600 31/750 KMFE 2326 KMT DIN 1804 (M) M5x2. M1x2 TMFS Series (page 14) Dimensions D Connection DC Weight Suitable for nuts of series KM, KMK. KMF TMFS0 TMFS1 TMFS 2 TMFS3 TMFS 4 TMFS 5 TMFS 6 TMFS 7 TMFS 8 TMFS 9 TMFS TMFS 11 TMFS 12 TMFS 13 TMFS TMFS TMFS 16 5 TMFS 17 1 TMFS 18 1 TMFS TMFS 130 SBH ^ H nch mm 22,0 28,0 33,0 36,0 38,0 46,0 53, ,5 78,5 83,5 88, ,0 9,0 116,0 121,0 131,0 137,0 143,0 inch mm inrh mi h 3/8 3/8 1/2 1/2 1/2 1/2 1/2 1/2 1/2 3/4 3/4 3/4 3/4 3/ kg 0,12 0,12 0, ,26 0, , ,83 1, ЯП lb size TMBH 1 (page 16) Power: Voltage Power (maximum) Cosine ф Component size ra inner diameter width weight ige: Control functions: Time control Temperature contr ol Accuracy temperat ure control Maximum tempera ture ITMBH V Hz 350 Watt > mm ( in) < 50 mm (2 in) up to approximately 5 kg (11 lb) 060 minutes 00 C(32392 F) ± 3 C (6 F) 0 C(392 F) Dimensions: Control box Heating clamp Operating space heating clamp Complete unit in carrying case Length clamp cable Length power cable Length temperature probe cable Weight complete unit 150 x 330 x 5 mm (6 x 13 x 4 in) 114x114 mm (4.5x4.5 in) 52x52 mm (2.0x2.0 in) 370 x 240 x 130 mm (15 x 9 x 5 in) 75 cm (30 in) 2 m (80 in) 0 cm (40 in) 4.5 kg ( lb)

Technical data 729659 С (page 16) 729659 С 729659 C/1V Voltage Power Temperature range Plate dimensions (I x w) 729659 С 230V(50/60Hz) 729659 C/1V 115V(50/60Hz) 1.

109 Technical data С (page 16) С C/1V Voltage Power Temperature range Plate dimensions (I x w) С 230V(50/60Hz) C/1V 115V(50/60Hz) W 500 C(1390 F) 380x178 mm (15x7 in) Height of cover Overall dimensions (Ixwxh) Weight Length of connection cable 50 mm (2 in) 400 x 240 x 130 mm (16 x x 5 in) 4,7 kg ( lb) 2 metres (6.6 ft) (earth connection required) SKF Ш performance Voltage, V/Hz (page. Work piece: Maximum weight Maximum bore diameter TIH 030m 28 kg (61.7 lb) 230V/5060Hz or 1V/5060HZ 40 kg (88 lb) 300 mm ( in) TIH 070M/TIH 090m 65,5 kg (144.4 lb)/90.5 kg (0 lb) 230V/5OHZ or 1V/60Hz / Selfadjusting; 400/50 460/60 80 kg (176 lb)/1 kg (260 lb) 400 mm ( in) TIH 2m / TIH 2f 2 kg (460 lb) Selfadjusting 400/50 460/ kg (660 lb) mm ( in) Temperature control: Range Magnetic probe Accuracy (electronics) 0250 C(32482 F) Yes. Ktype ± 2 C (± 3,6 F) 0250 C(32 Yes, Ktype ±3 C(±5 F) 0250 C(32482 F) Yes, Ktype *3*C *S*F) Time control: Range Accuracy Maximum temperature (approx.) Thermometer mode Bearing mode Power reduction Demagnetisation according to SKF norms (automatic) Can heat sealed bearings 060 minutes ± 0,01 sec. 400 C (750 F) Yes Yes 2step: 500% Yes (<2 A/cm) Yes 060 minutes ± 0,01 sec. 400 C (750 F) Yes Yes 4step; % Yes (<2 A/cm) Yes 060 minutes ± 0,01 sec. 400 C (750 F) Yes Yes 4step; % Yes (<2 A/cm) Yes Can heat pregreased bearings Yes Yes Yes Error guiding codes Yes Yes Yes Thermal overload protection Yes Yes Yes Maximum magnetic flux 1.7 T 1,5 T 1,5 T Control panel Operating area (w x h) Coil diameter Dimensions (w x d x h) Total weight, including yokes Maximum power consumption Key board with LED in remote control 0x135 mm (3.9x5.3 in) 95 mm (3.7 in) 450 x195 x2 mm (17.7 x 7.6 x 8.2 in),9 kg (46 lb) 2.0 kva Key board with LED 145x5 mm (5.7x8.0 in) 115 mm (4.5 in) 4x280x4 mm / 600x350x4 mm (16.5x11.0x13.6 in / 16.5x11.0x16.5 in) 35 kg/38 kg (77 lb)/(84 lb) 3,62,0kVa/6.4kVA Key board with LED 250x250 mm (9.8x9.8 in) 135 mm (5.3 in! 600 x350 x4 mm (24x13.7x16.5 in) 75 kg (165 lb).0 kva Number of standard yokes Standard yokes 45 x 45 x 215 mm (1.7 x 1.7 x 8.4 in), for heating bearings with bore diameter of 65 mm (2.6 in) and larger 28 x 28 x 215 mm (1.1 x 1.1 x 8.4 in), for heating bearings with bore diameter of 40 mm (1.6 in) and larger 14 x 14 x 215 mm (0.5 x 0.5 x 8.4 in), for heating bearings with bore diameter of mm (0.8 in) and larger 55 x 55 x 275 mm (2.2 x 2.2 x.8 in), for heating bearings with bore diameter of 80 mm (3.1 in) and larger 28 x 28 x 275 mm (1.1 x 1.1 x.8 in), for heating bearings with bore diameter of 40 mm (1.6 in) and larger 14 x 14 x 275 mm (0.5 x 0.5 x.8 in), for heating bearings with bore, diameter of mm (0.8 in) and larger 70 x 70 x 4 mm (2.8 x 2.8 x 16.5 in), for heating bearings with bore diameter of 0 mm (3.9 in) and larger 40 x 40 x 4 mm (1.6 x 1.6 x 16.5 in), for heating bearings with bore diameter of 60 mm (2,4 in) and larger Core cross section Yoke storage Sliding arm Swivel arm Cooling fan Housing material Warranty period 45x45 mm (1.7x1.7 in) Yes, foldable No No No Steel and glass filled polyamide 3 years 55x55 mm (2.2) Yes. internal No Optional/Yes No / Yes Aluminium 3 yean!.2 in 70x70 mm (2.8x2.8 in) Yes. internal Yes No Optional Aluminium 3 years 8

$in го"гу 2 CD О 4 О ' О П 1П rl УЭ, L o кг О r\j < Й rl ris 1 ГО sf ) СП (N1 s en Ch CM fm Г"* r ps ps > > sz X X с «" 3 О «I а: " U' Е Е о о in о о in in о о о о in о о о LT» 1П 1П О 1П О in in in$

110 <» Е * m се 1Л _ 1 > CN fm^ К о "^ Ей 2 и о га 0 in fs Q. in го"гу 2 CD О 4 О ' О П 1П rl УЭ, L o кг О r\j < Й rl ris 1 ГО sf ) СП (N1 s en Ch CM fm Г"* r ps ps > > sz X X с «" 3 О «I а: " U' Е Е о о in о о in in о о о о in о о о LT» 1П 1П О 1П О in in in CD КГ Гк Гк О ГО NO О SO Cf* *# *"t О чt ГУ ГМ* го" го" * кг" so" <м" гм" гм" ni m го" en го" ч чт" ** кг" sr in in in in in %o so so* NO' Г*" Г* CO rf virlrlrl ооддо гм го" го го го" о о о о о о о о о о 3 Й о о о о о ГУ st <) СО ГО о о о о о о о о о о iriri^oosr CD О О О О о о о о о го in in со кг О тi ГМ ГУ ГО о о о о о О О О CD О Г. КГ ГУ 1П ГУ го" <t in" tri >Ь rlrlrlrlrl з m > С I t о Я > Sit Ill та 1Л та g > (Л 1= 3 OJ з 1Л о с с И О. >ч *rf the о о (Л I I 4J ж 3 uts z Ы 3S fc aa Q. 1Я о Е Е rf st чг >t >j * о <i <о о t 4 ' Ш LD ID Ш LD in in in in in 1П LD LTl in in in in in in in Kt Kt Ш 1П 1П in in in in in O NO УЭ УЭ УЭ г< со со со с> 1П in so so NO so О СО СО О о о о о 2 ls. СО СО СО СО 00 СО СО СО СО Е Е х УЭ *л IT "С "Л О) ГО с " го «и 03 1 ГО ГО ГО ГО ГО oo со со со со m го го го го O^OvOIN >J >J 1Л IflO rlhrtrlrl ГО ГО Г0 ГО ГО УЭ о о г** rs. fsrsrsrsh СО СО 00 СО О O 4 О О О rl ГО ГО ГО ГО ГО ГО ГО Kt J Kt ri ГУ Г0 ГО КГ * КГ кг st st гм со кг со <г О КЗ ГМ 00 3 so О ГУ СО КГ О О О О rl ГМ fm ГО ГО КГ 1П Г^ СО СО О rlrlrlrlh rl rt Гч1 ГМ ГЧ1 ГМ ГМ CM OJ fm ГУ ГУ OJ ГУ ГУ Kt st Lfl LD УЭ sfsrststst О УЭ ГМ CO so О О rl rl ГУ ГО ГО ГО ГО ГО Z'' о Зх iffii та 3 ies ш (Л ш >. X ation 01 О О та 1 rl О* п rl LD О го УЭ О <>гд^ О О #: ш о о о >* ГМ > > Л и Е 1 Х з С 1 t 5= ead fc VIOE jnting ZZ о h X X Z in part ent E OJ lac HI cr о X с* со *<. го о з елго гу г ш ГУ г. <л ing, о с nee 3 1 с о ai 15 "з" mo с о CD ah О а С о э tb <Jj СМИ CJ й 1Л с о с ш Е а а с 113 1Л га *> а> а о> с 01 а О 1 2 $ ~ Е " Е * 1 G thread Hrlrlrlrt ГМ s OJ [^ ГО го го ^ st in rlrlrlhrl in in in in in in о m" о in NOOOOCM> ГМ OJ ГУ ГУ ГМ X X X X X in о in о in N CO CO О О rlrtrlrtrl r^rlrlrlri Ш Ш 1П Ш Ш О in" o" in O rlrlrlrlrl КГ О in О О C0U>ff>OO т\ vi irl C4 CV in in in in in in о in" О in fvinmsr st rlrlrlrlrl ГУ ГМ OJ ГЧ] f\i X X X X X in о in о in OJ ГО ГО КГ Kf H r l r l d r i rl COst СМЛ Гs. О vh so ГУ тt тt ГУ fm ГО st 1Л rs IKCO ГМ ГУ ГМ ГМ ГМ ГУ OJ ГУ ГУ ГУ in in in in in о in о in о in 1П vo vo Г r l r l d r l r l гм го го m ro X X X X X О in О in О in LD so so Гs. rlrlrlrlrl " } гн Т1 Г ГУ О О О О т1 00 ^ ГУ ГМ ГУ ГО ГО ГО Kt sf X X X X X О О О LTl CD СО О О CD vh ri тн гм гм гм ^ Г ГО О in rl СО f> О О rl ГУ ГМ ГО ГО ГО Г ГУ Г*. ГУ rs rl ГУ ГУ ГО ГО ГУ ГМ ГМ ГУ ГУ Тг 215x4 Тг 2x4 Тг225x4 Тг 230x4 Тг 235x4 ЗЗШЖХШЯЗЗЗЯЗЗЗЗЗЗЗЗ

$HI \Л1 (И ^ Technical data Ordering details and dimensions Permitted piston displacement Piston area Weight thread mm 4, mm mm В mm В, mm kq HMV48E HMV SOE HMV 52E HMV 54E HMV 56E HMV 58E HMV 60E HMV$

111 HI \Л1 (И ^ Technical data Ordering details and dimensions Permitted piston displacement Piston area Weight thread mm 4, mm mm В mm В, mm kq HMV48E HMV SOE HMV 52E HMV 54E HMV 56E HMV 58E HMV 60E HMV 62E HMV 64E HMV 66E HMV 68E HMV 69E HMV70E HMV72E HMV73E HMV 74E HMV76E HMV77E HMV 80E HMV82E HMV 84E HMV 86E HMV 88E HMV90E HMV 92E HMV 94E HMV 96E HMV 98E HMV 0E HMV 2E HMV 4E HMV 6E HMV 8E HMV HOE HMV112E HMV 114E HMV 116E HMV 1E HMV 126E HMV 130E HMV134E HMV138E HMV142E HMV150E HMV160E HMV 170E HMV180E HMV190E HMV0E Tr 240x4 Tr 250x4 Tr 260x4 Tr 270x4 Tr 280x4 Tr 290x4 Tr 300x4 Tr 3x5 Tr 3x5 Tr 330x5 Tr 340x5 Tr 345x5 Tr 350x5 Tr 360x5 Tr 365x5 Tr 370x5 Tr 380x5 Tr 385x5 Tr 400x5 Tr 4x5 Tr 4x5 Tr 430x5 Tr 440x5 Tr 450x5 Tr 460x5 Tr 470x5 Tr 480x5 Tr 490x5 Tr 500x5 Tr 5x6 Tr 5x6 Tr 530x6 Tr 540x6 Tr 550x6 Tr 560x6 Tr 570x6 Tr 580x6 Tr 600x6 Tr 630x6 Tr 650x6 Tr 670x6 Tr 690x6 Tr 7x7 Tr 750x7 Tr 800x7 Tr 850x7 Tr 900x7 Tr 950x8 Tr00x Ь ,5 19,0,5 22,0 22,5 25,5 27,0 29,5 30,0 31,5 32,5 35,0 35,5 38, ,5 41,0 45,5 48,0 50, ,0 57,5 60,0 62,0 63,0 66,0 70,0 74,0 75,0 79,0 81, ,0 91,0 94,

$Г\1 О СО 1П ГУ rl< СО ГП О 1ЛГМО*Г0 ГО О О О ГМ OJsJvrO ГО Ш СОГМ Ш О CM *~l vri sri ^ ji S К со en со" о" o>" rt ^ го * *о со о ro m о in тt coomc^co c> О г* v ro Г2 "^ th < ^^>см^^ смл со О О МЭ МЭ$

112 о о о ^ Orlin о ^ о ш < ^J 2 О fm ГМ " ^ ГО г11>о00 О Z! СО О гм S гм гм г*» h г^ г^ о Ог(СМчОг1 m ГМ ГО СО Ш ; ^ ^ ^ ""? Г\1 О СО 1П ГУ rl< СО ГП О 1ЛГМО*Г0 ГО О О О ГМ OJsJvrO ГО Ш СОГМ Ш О CM *~l vri sri ^ ji S К со en со" о" o>" rt ^ го * *о со о ro m о in тt coomc^co c> О г* v ro Г2 "^ th < ^^>см^^ смл со О О МЭ МЭ Г Г СО СО СО О О ^ ^ ^ ^ ^_, ^ ^ ^, pg ГМГМ ГМ ГО ^Г * Ш О О Г ЮИННтН rlhrirffm ГМ ГМГМ ГО СО ГО ^Г J ш о г н о о гдшсогочо о гм г го о *Н 1Л NO *? ГО И МЭ *? Я О соjго ^ го <з о тн гн ^<ocqqin г оэиш о о о оо. о о го со с тi г 0^: о **! р Г^^^Г; r\j о ^о о К о rj ** го г~ ^з* in in in NO о sd г' r< r^cdcboo ^._._ ovinjo о го о' r\i гм in m f> о nj^rirs^rri rsjoo<ico * i\ri tiorvjmo r\i 1Л пч iri шог^гд i r I ^* "* IJ ( "*" ) ^ f/ 1 if? L^! ^ *~? 1С " f^ Dj' Я, 5 rlrlrirlh тl *l ГМ ГМ ГМ ГОГО^Г*>* tn LD чо NO О гг 00 О, Д j } ^f, ^ VH^^J ш ш о* о. <Л ГМ ГМ Q. m о г* В E U О 3 и с 0_ > 2 2 > T3 1 X X o S f 1 с ш ш x 's О vo E Tl 1П I 01 E и и ш Е о ~* ё. a» > 2 2 > <* S > о rr X X 2 5 хо III O O O O O О О О О О ГМ ГМ ГМ ГМ f\j О О О О О o o o o o ОО^а**^ coriinon г* m in m о го r~ г~ г г mm mr^ri ri * со со со tn coco ГМ ГМ ГМ C\JГМ ГМ ГМ OJГМ ГМ ГМ ПГП П st * 1П in Ш 1П so^ovoo M^ DQCOCT O O O O O O*!^ O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O О CD CD О О ^iri^i ч >МЭ О О О OCDOOO <Г Э" <r ~4" 4" CO CO CQ 00 CO rl rl H 1П ID in О О О О ГОПГОГ^Г^ Р^Г^гНгНтН 1П1ЛОЧ>т ГОГ^Г^ ri rl ГУ IN f\j ГМ ГМ OJГМ f\j ГМCM ГМГМГМ N (M (Nj fvj ГУ ГОГОГОГОГО ГО ГО ГО ГО ГО Л" ^J <Г ^ <f sf ^ ш Ш in 1Л Ш 1Л 1Л so О О >0 О О О О CD O O O O O OCDOOO OCDOOO O O O O O O O O O O O O O O O O O O O O О О* О CD О О О О ininuilpin Ul 1Л 1Л lilin 1П 1П Ш 1П 1П 1Л Ш «О О»0 Г~; Г^ Г CO О тi vt vi тi \i С>;ОНПГ\1 ri rvi oj r\i Ы го ^з ^ з in Ы Ы rvi oj см OvONCOO CM r\i Ы см oj r\i го го го го п " * "^ го" го" го шготнго mrscnri^f in со о*oo rjr.rio'l ^ ' I P O p p o o r ^ o ooinroro rjo^n* со ш го o p гмсого * sr ^ uri ш inininomd <jmjsks со со о" о OHrvjnj ^ "] <J!> о о тi см го 4 m чо о о см d in ao 0(MJ Ш U l ^ * ^ ^ ^ CO UU u^ w ^_, ^ ^_, ^ ^_, ^,_,,_,,_, тн ^ *HCMCMCM OJ ГМ ГМ ГЧ1 <M PJ Г0ГОГ0Г0ГО < 'J sj riroincoo ^ч* ч* < in rvjsf чоооо см л о о in orocoror r H r^lr^'^"^ ГО ГМ т1 О О Г^чСО^ГМ rlo^n^t NtnrlCOO О rl (M in _ _'.. in tn «S ^O _ ^ _ ^ _ _ S ^ S ^ KodcSo'c* _ cdo^rsirq n c~) гн f\j ro ^i j^^^~ 4jinsd<Jr< cdoorir\j 2 Е ; Я ^ Й СЛ^^^сО ro «* iri <» ori o'riro^4 9Viro'^rsp :^o о^тiro vt rtrlhrtr) x~i тн ГЧ1ГМГМ ГМГМГМГМГМ (МгОГОГОГО ГО*<Г ГО g OfM^oco of\ >* vo со onj^jryi inoror^tf inor^in' r\ir4ir\ir\jr\i ro1 ro ro ro ro ^" ^ * ч* in" miri^ook r^r^cdo' ri virvirosf О CO >D 3" ГЧ1 1Л iri чь S CO ocoo^ir^ oinooo ininin goqn 1 IJIJI (1 «ssss аазза Й^ЙЗ^ ЙЙ»»» ^C»»^^ ^^^^^ ^^.л^^ u,^^^^ ^ ч^гогого о о о~ о о о о о*стсто о о о о оооосооо с» со оо гс; ' i ' i u S S O O O C D O о о о о о о о о о о o o o о о m SJ со r\j In fg S S r o S S r\jros!t=s n S S n S in ^ ro cjо r in r\j o r^ лчгмпя сь J vjct i o 4 m SSPiKiC cqprs^s raorsp ЗооЯдюоч S S S n P? 5? ^1 Я? ^ "? Г*? D f1 ^ 5 <> nj r. ro ro rxi гч г vir\ir\ir\ir\i rsirorororo ro1 vf ^r <r in ш in о >о о K' s cdo >;( ~ гогого 11 та :lil ^ p NO ai Ш о 4.r^OCOri m l ^ O N O corsjinvoo О in О <t LT> ГОГО^чГМГО TirvlCNi^HO CN rl ГО Ul Гч; 0«1Г01ПГч Cbrirorvrl vir\ir4ir\ir\j rvirorororo ro^'^t'^in ШШШШШ Ш Ш LLt LU Ш 1Л ONCOO Ог»ГМч?чО CO О ГМ rttititlti ihirirlh rsinifmcjim ГЧ ГО ГО U U U U U U U U U U CJ *J О U О l_* lj U >>>>> >>>>> >>>>> XXXXX XXXXX XXXXX HHHBHHHHBHBLMHIHHR Г^СО*ГТччО rsi 1ч ffl fm ^ 4ШГЧ0 MflfMON >* IM Гч. СО П ococoscs ^SrSS 0 4 ooovoror m^rrotto о oo о <r гм S S r S S o ^coo5^ P^^^^! orinror^ cqocqoso ininook KKcdoo ^ H? i S ^ ^ ^ ^ ^ S З Й З Я > > > уу2z X X X чоо>» СО ГУ Ш ЧЭ»о чо Г* и и и и и > > > > > S.S. s.s.s.s.s. ISIZZ iii?l?? I X X X X X X X X X X X X 1! ЗО^нОТ forto ONvOHO r^"^vh corooinin J 4j^ jcs t>ri n io гч.' гмгмгмгмго гогого ШШШШШ ШШШ <0ч г\00 О О О wm члпчо м о е r^т^чlr^т^ Hrlrl иииии и и и >>>>> >>> ХХХХХ XXX

$О ш <С Э ON ГМ " vh ГО =f о со Z> ОД О^.">. ГМ f\j Г^ PN III SSI 111 Ф E.2 13 Bore d OJ E < rz mm с /8в*Д»>. *\ "* \ N _._._T.$

113 О ш <С Э ON ГМ " vh ГО =f о со Z> ОД О^.">. ГМ f\j Г^ PN III SSI 111 Ф E.2 13 Bore d OJ E < rz mm с /8в*Д»>. *\ "* \ N _._._T.<,/ О ON CO CO CO CO NO О * CO CO CO С> ON O" r l r l d r l r l CM NO СI* CO cidririri гм гм гм гм гм Гч ГЧ. N. (N. N рч. Рч, Г" Г^_ Г *" j* <* N* со co" со" со" ro" со" NO Г CO О О vh ГМ ГО NJ цл Nt "NT Nf Nf LO LP in in 1П 1Л 5; frs CD \ "О 1 1 rtr ИПИГВД 1 tojpl O 4 ON P~ NO NJ чн in CO 1П CO гм гм ro NJ in см гм гм гм см Гч r*. h N fn. го" го" го' со" ro" NO 1 О CM J in LD in \D NO L CD J \ т1 О NO CM ГМ <i vbrnf>ri гм см гм гм ro PN PN PN P Г. ro" со гм гм" см NO CO О J" O NQ NO fnv fn pn и 0 OOi^NNt v4 v4 О О p i m f N f > CO CO ГО ГО JS. Г* tn rn. CM" CM" rt тч~ ЧГ ON N* ON CO CO О ON r l r t r l r t r t r l r l r l r l r l r J r t И rl rl rl r» r l r l r i r t O Q O O O O O O O O O O O O O O O O O O O H f t r t О О О гч ^ гч * гч гч гч гч ч* тч rl ri rl r4 ri гч гч rl l H П r И П г ( < < < < < < < < < < < < < < < < < < < < < i"~ 5l N"; Ш Ш Ш Ш Ш Ш Ш Ш Ш Ш Ш Ш in ill m in in in LU щ UJ Ш Ш Ш О ГМ * NO 00 О CM < 4 «0 «0 ^ О О Г М О О О О О О 4 NO оо о о o o o r i r i гч тч гм см со mmn»tn>o р оо о* о О* СЪ о* гч тч чч тч тч тч гч *t гч тч»гч тч r t r l r t r l r t гч тч тч ГЧ >>>>> >>>>> >>>>> >>>>> >>>> S5S2S I I Х Х Х Х Х Х Х Х Х Х Х Х Х Х Х Х Х Х Х Х Х Х Х Х со г р ГN. чо (MNT N O O O D СО СО СО СО ON" SSPSS «^sss CO ГМ О О CO Q O N r N ^ O CM NO О ГО Г TH CO in ON TH чi чч" гм гм c\i со со го со N* r l r l r l r l r l NO 1П in Nt CO ro ГN. ON in ON ^d* N* ^j" in in r l r l d r i r t C l f M r l r l O CO FN. T) in O 4 о с К S N rlrtrlrlrl Е t с О О О VI О О О О о о о о «н о Й гч О гм о о^ in го со O O O O o o o o о о о со о CN Nt о о о о <3Оч01Пт1Пч*^гаcoinrNONTiromrNO 4 гмсмсмсмсосососого о о о о о о с э р о о о о о о о ' о ' о о " чо о тч ~N чо о FN о Г. о и о со о in CN СО со CG о со О О О *1 т1 тн 0N о in fn Г чо о р о о о о о о р о о о о ' о о о о о о о in о in о in О in C M C M C O r O N t N t i n i n о о" о* о" о* о" о" O N t C O O i n O N C O r N ^ H i n O N C O r N f\i(mrv]wfo(*i<ntmmin«o о о о о о о о о о о о о о о о о о р о о о о о о о р о о о о о о о о о о о о о LL. гм гм гч о и_ о За и 5" о т 3 о *м Ш 8 ~ о.» О Г V>9= m m ГМ Tl О) СП с я t~ а: а Й с 5 3, в» ^ С >. СЛ CO vi X n CO X 1. f: ^^ E 38 ss Ol X 1 «5 я г и з * в II ^ ГЧ «:» ^ ^ ""^ AJ rrj a К <я Technical? об Hi tf 44 HMV E/A1 se 1 Ш > X 2 I T 5 5 g J* я a? O IT ' III ons ering details and dimensi Ord Bored Designati s re diame S G mm E E ГМ СМ СМ ГМ СМ CD LT1 О m" о" ri т) C\J ГМ ГО СМ ГМ ГМ ГМ ГМ гм гм гм гм гм LD LT) 1П 1П UD ГО Nt in NQ PN ГМ ГМ ГМ ГМ ГМ ГМ (М fn. N. rn 1П* 1П Nt ^~,* CO ON О vt ГМ гм гм со со ro Г*. Г"; Г_ fn Г^. *# ON ^t" <t O" CO CO ~* 1П 1П CO CO ГО СО CO Г~Г~Г^.Г~Г^ Nt" *" О 4 " ~* Nj NO Г~ Г ON О ГО СО ГО ГО 4 N N N N rn NT *" 4f" Nt 4f гн см со Nt m Nt NJ Nt Nt Nt r l r l r t r l r l *t гч * < гч тч тч тч гч тч тч tt W тч гч гч ^ЧгЧтЧгЧтЧ гчгчгчтчтч о о о о о о о о о о о о о о о о о о о о о о о о о о о о о о H r l r l H r t гч гч гч *Ч тч тчг»тчг1г» тч * «Н тч тч гчтчтчтчтч r l r t r f H H < < < < < < < < < [ < : < < < < < < < < < < < < < < < < < < < < щ Ш in LU iii Ш Ш Ш Ш Ш Ш Ш Ш Ш Ш Ш Ш Ш Ш Ш Ш Ш Ш Ш Ш Ш Ш Ш Ш Ш ПЧ» ififln 00 О ГМ чр NO СО О ГМ * NO О0 ON О ГМ ГО < o r N O N Nt t M ч* ^ s* «# * * IT) LCi Ifl in Ш NO NO NO NO xo M3 Г*. Г Г fn PN P. 00 CO OO OO CO ON ON >>>>> >>>>> >>>>> >>>>> >>>>> >>>>> xxxxx xxxxx xxxxx xxxxx xxxxx xxxxx 4f r l r l r l O О О О 4 О 4 О CO О ГМ N чо DOOrlCnifl гч см см" см гм" гм" го го го* со Г. ri «H сч сч NO V4 ЧО* vi" NO" Nt 1Л 1Л SONO W NO" TH NO" ЧЧ [NN CO CO CO PN PN ГN ON \ri CO 1П П Г О ч т ^ ч Т ^ d r t r l r l," «Ч* NO" T1 NO" 1 NO NO NO NO I ON V4 ГО 1П sf Ntiji trim тi гч v4 v4_ ri_ ГЧ NO" ri NO" T1 CM ГМ ГО CO N* LD О ON ON ON Г. ON О ГМ NJ in m NO NO NO ri CO CO_ CO CO O ON NT O 4 " N* чт Nt 1Л ltl>0 r i r l r l r i r l CO CO P CO CO CO CM NO CO О ^К^Ксо CO 00 CO OJ CM Nt Nt 4t" О If) ГN oo О 4 О О ПгШгмги 1 llll lllll Hill llll 1 Hi Hill I lllii lilli lilli lllll Hill lllll "в СО Nf LD NO CN _ в ЕГ О О О О О 5 Е rt СМ СО 1П NO PN О О О О О О О О О О О О О О О ^ ги «а СП о о ш 2 1 О Й s ^ н в 1 а О vh NO С _1 чо 4J ш а» О. >ч *" ш СГ э Ш 1Л о/оо ine batt ntinuou 15 ^з 2>5 ~ E.E a = «S 111 "oj IT "5. ts? O ^ 0 0 Q < < t I l Я» IfS sit; f L fes ^ ow bat uto sh isplay o: Dm _i< о

729124 (page 28) 729124 Maximum pressure Volume/stroke Oil container capacity 0 MPa (14,500 psi) 0.5 cm 3 (0.03 in 3 ) 250 cm 3 (15 in 3 ) Length of pressure hose Connection nipple Weight 1.

114 (page 28) Maximum pressure Volume/stroke Oil container capacity 0 MPa (14,500 psi) 0.5 cm 3 (0.03 in 3 ) 250 cm 3 (15 in 3 ) Length of pressure hose Connection nipple Weight mm (59 in) G 1/4 quick connection 3,5 kg (8 lb) TMJL0(page28)! TMJL0 Maximum pressure Volume/stroke Oil container capacity 0 MPa ( psi) 1,0 cm 3 (0.06 in 3 ) 800 cm 3 (48 in 3 ) Length of pressure hose Connection nipple Weight mm (118 in) G 1/4 quick connection 13 kg (29 lb) TMJL50(page29) TMJL 50 Maximum pressure Volume/stroke Oil container capacity 50 MPa (7,250 psi) 3,5 cm 3 (0.21 in 3 ) cm 3 (165 in 3 ) Length of pressure hose Connection nipple mm (118 in) G 1/4 quick connection 12 kg (26 lb) E (page 29) I E Maximum pressure Volume/stroke 1st Stage Volume/stroke 2nd Stage 150 MPa ( psi) cm 3 below 2.5 MPa (1.2 in 3 below 362 psi) 1 cm 3 above 2.5 MPa (0.06 in 3 above 362 psi) Oil container capacity Length of pressure hose Connection nipple cm 3 (155 in 3 ) mm (118 in) G 1/4 quick connection 11,4 kg (25 lb) THAP Series (радезо) Nominal hydraulic pressure THAP MPa psi 1: MPa 1.5 psi 6,63 cm in 3 G3/4 380 mm 15 in 190 mm 7.5 in 1 mm 4.7 in 21kg 46.21b THAP 030/SET Complete set consisting of pump, high pressure hose and connecting nipples 23 kg 50.7 lb THAP MPa 21,750 psi 1:252 0,7 MPa 1.5 psi 1,09 cm 0.06 in 3 19 kg 41.81b ГНАР 150/SET Complete set consisting of pump, pressure gauge, adapter block high pressure hose and connecting nipples. 24 kg 52.9 lb ГНАР 300Е 300 MPa psi 1: MPa 1.5 psi 0,84 cm 0.05 in 3 24,5 kg 54 1b THAP 300E/SET Complete set consisting of pump, pressure gauge, high pressure pip 541b and (page Injector Valve nipple (optional) Suitable shaft diameters Maximum pressure Oil container capacity Connecting threads Load to reach max. pressure Weight I mm (4 in) 300 MPa (43,500 psi) 5.5 cm 3 (0.33 in 3 ) G3/8 kg (22 lb) 0.8 kg (1.8 lb)! mm (8 in) 300 MPa (43,500 psi) 25 cm 3 (1.5 in 3 ) G3/4 30 kg (66 lb) 2.1 kg (4.6 lb) 113

Technical data Valve nipple Dimensions 226272 226273 G3/8 G3/4 15 0.59 17 0.79 22 0.67 9 0.87 14 0.35 0.55 15 0.39 40 0.59 50 1.57 1.97 25.4 36,9 1.00 1.

115 Technical data Valve nipple Dimensions G3/8 G3/ , Width across flats in kg Weight series (page 3D Maximum pressure Volume /stroke Oil container capacity Connecting threads Weight I MPa ( psi) 0.23 cm 3 (0.014 in 3 ) 0 cm 3 (12.2 in 3 ) G3/4 2.2 kg (5 lb) /4O0MPa 400 MPa (58,000 psi) 0.23 cm 3 (0.014 in 3 ) 0 cm 3 (12.2 in 3 ) G3/4 2.2 kg (5 lb) TMJE Series (page 32) Injector set Maximum pressure Handle force at max. pressure Volume per stroke Oil container capacity Weight Pressure gauge High pressure pipe I TMJE MPa ( psi) 300 N (67.5 Ibf) 0,23 cm 3 (0.014 in 3 ) 0 cm 3 (12.2 in 3 ) 8 kg (18 lb) A TMJE MPa ( psi) 400 N (90 Ibf) 0.23 cm 3 (0.014 in 3 ) 0 cm 3 (12.2 in 3 ) 8 kg (18 lb) 77589/ AMOOMPa (page 32) Maximum pressure Pressure gauge connection Pressure pipe connection Length of floor support Weight 400 MPa ( psi Gl/2 G3/4 570 mm (22.4 in) 2.65 kg (6 lb) High presure pipes (page 32) Maximum working pressure Test pressure Test quantity Ordering details and dimensions A A* A* 612 A** A A*** A G a G3/4 G3/4 G3/4 61/4 Gl/4 Gl/4 G3/4 300 MPa (43,500 psi) 400 MPa (58,000 psi) 0% G Gl/8 Gl/4 G3/4 Gl/4 Gl/4 Gl/4 Gl/4 mm ,9 17,3 17,3 17,3 17,3 4 in Dimensions A, mm in , ,3 36,9 Outer pipe diameter Inner pipe diameter Pipe lengths mm 7, ,11 11,11 7, Dw in mm , Dw t 4 mm (0.16 in) 2 mm (0.08 in) Between 300 mm (12 in) and 4000 mm (118 in) can be ordered e.g A/3000 (3000 mm long) in mm L in kg ,6 0,5 0, ,3 Weight lb These pipes are also available in a 400 MPa execution. s are A/400MP and A/iOOMP. Outer diameter of the pipe is 6 mm (0.24 in) Maximum pressure 400 MPa ( psi). Outer diameter of the pipe 6 mm (0.24 in). The high pressure pipe A is designed to fit small OKcouplings This pipe is not suitable for normal oil injection connection holes. 114

Pressure gauges (радезз) MPa Pressure range psi Diameter H Connection thread kg Weight lb Accuracy % of full scale 77587 77587/2 TMJG0D 77589 77589/2 00 00 00 0300 0400 014.500 014,500 015.000 043.

116 Pressure gauges (радезз) MPa Pressure range psi Diameter H Connection thread kg Weight lb Accuracy % of full scale /2 TMJG0D / , Gl/2 Gl/4 Gl/4 Gl/2 Gl/ < Plugs for oil ducts and vent holes (page зз) E 7299A4 E E Thread Gl/4 Gl/2 G3/4 mm Le lgth n kg 0,02 0, W ight lb mm Suitable hex. key in Plug E Plug E Maximum working pressure 400 MPa ( psi) :^ Plug E Flexible high pressure hoses (page 33) Bore Outside Maximum Minimum I Minimum diameter diameter working burst bending pressure pressure radius End fittings Working temperature Length Weight in mm in MPa psi MPa psi Gl/4 Gl/4 30/80 22/ /80 22/ in kg lb n Tr г il f^ 1500 mm/59 in...l...j... Г f ,. Й в JT 1_ 3000 mm/ 118 in " J.... Г I ^ & i 1/4 4 Л Quick connection coupling and nipples (радезз) Thread Dimensions Coupling mm in mm m mm A Gl/ in MPa Maximum pressure psi Nipples A 7290 dl Gl/4 Gl/ Dl , A 7290 Connection nipples with NPT tapered threads (page 34) Dimensions Willi ШШ Key width Weight kg NPT 1/4" NPT 3/8" Gl/4 NPT 3/4" Gl/4 Gl/4 NPT 3/8" Gl/ , , , , Maximum working pressure 300 MPa (34,500 psi) 115

Technical data Connection nipples with metric and G pipe threads (радезз) Dimensions A, in mm in mm in mm in 77456 77455 14357 A 09030 В 19950 18219 E 09030 E 12783 E 08593 E 16402 E 729146 228027 E

117 Technical data Connection nipples with metric and G pipe threads (радезз) Dimensions A, in mm in mm in mm in A В E E E E E E M8 Gl/8 Gl/8 Gl/8 Gl/8 Gl/4 Gl/4 G3/8 G3/8 Gl/2 Gl/2 G3/4 M6 M6 Gl/4 G3/8 Gl/2 G3/8 G3/4 в G3/4 Gl/4 G3/4 Gl/ , ,4 36, , , ,5 9, mrr Width across flats in kg Weight A В E E E E E E ЩШШШ ,05 0,06 0,06 0,14 0,07 0,13 0, ,18 0,25 All nipples with E suffix have a maximum working pressure of 400 MPa (58,000 psi). otherwise maximum working pressure is 300 MPa (34,500 psi) Extension pipes with connection nipples (page 34) M4 extension pipe with connection nipple (A) pipe I nipple Max. pressure M6 extension pipe with connection nipple (B) Max. pressure Valve nipple with extension pipe (0 Max. pressure Extension pipe (D) Max. pressure M4x0,S 50 MPa (7,250 psi) I pipe MPa (29,000 psi) I pipe MPa (43,500 psi) I MPa (7.250 psi) I nipple MPa ( psi)! nipple MPa ( psi) 300 MPa ( psi) Normally used in combination with high pressure pipe eg A m 1? 4i M6 в m G1/4 G1/ n 15! l G 1/4 G 1/4 * 25,4 116

118 TMBAGllW(pa g e36) Size Colour Pack size TMBA G11W White/blue 1 pair TMBA Gil (page 36) Material Inner lining Size Colour Maximum temperature Pack size 1 TMBA Gil Hytex Cotton 9 White 150 C(302 F) 1 pair TMBA G11ET (page 37) Material Inner lining Size Colour Maximum temperature Pack size TMBA G11ET KEVLAR Cotton (EN 4 size) Yellow 500 C (932 F) 1 pair TMBA G11H (page 37) Material Inner lining Size Colour Maximum temperature Pack size I TMBA G11H Polyaramid Nitrile Blue 250 C (482 F) 1 pair TMEA Series (page 4243) Measuring units: Type of laser Laser wave length Laser class Maximum laser power Maximum distance between measuring units Type of detectors Fixture Display unit: Battery type Operating time Displayed resolution! TMEA 2 Diode laser nm 2 ImW 0,850 m (2.8 ft) Single axis PSD, 8.5 x 0.9 mm (0.3 x.04 in) Magnetic and/or chain 2 x 1,5V LR14 Alkaline hours continuous operation 0,01 mm (0.1 mil in "inch" setting) I TMEA1/P2.5 Diode laser nm 2 ImW 2,50 m (8.2 ft) Single axis PSD, x mm (0.4 x.04 in) Chain standard Magnetic optional 3 x 1,5V LR14 Alkaline hours continuous operation 0,01 mm (0.1 mil in "inch" setting)! TMEAlPEx Diode laser nm 2 ImW 1 m (3 ft) Single axis PSD, x mm (0.4 x.04 in) Chain standard Magnetic optional Special type of LR 14 batteries hours continuous operation 0,01 mm (0.1 mil in "inch" setting) Complete system: Content Display unit 2 measuring units with spirit levels 2 magnetic / mechanical shaft fixtures 2 locking chains 5 sets of shims Measuring tape Instructions for use Set of alignment reports Carrying case Display unit 2 measuring units with spirit levels 2 mechanical shaft fixtures 2 locking chains 2 extension chains 5 sets of shims Measuring tape Instructions for use Set of alignment reports Carrying case Display unit 2 measuring units with spirit levels 2 mechanical shaft fixtures 2 locking chains 2 extension chains 5 sets of shims Measuring tape Instructions for use Set of alignment reports Carrying case Printer Charger Connection cable Spare paper roll Shaft diameter range Accuracy of system Magnetic: mm (1.6 in) Chain: mm ( in) Optional chain: mm (5.9 in) Better than 2% mm (1.2 in) Better than 2% mm (1.2 in) Better than 2% Ex classification Ex certificate number Temperature range Operating humidity Carrying case dimensions Total weight (incl. case) Calibration certificate Warranty Printing capability 040 C(324 F) <90% 390 x340 x95 mm (15.4x13.4x3.7 in) 3,7 kg (8.1 lb) Valid for two years 12 months No 0 40 C (32 4 F) without printer < 90 X without printer 534 x427 x157 mm (21.0x16.8x6.2 in) 8,9 kg (19.6 lb) Valid for two years 12 months Yes printer is optional 11 2 G. EExibllCT4 Nemko03ATEX1X O40 C(324 F) without printer < 90 % without printer 534 x427 x157 mm (21.0x16.8x6.2 in) 8,9 kg (19.6 lb) Valid for two years 12 months Yes printer is standard 117

119 Я,.. U Technical data т TMEA PI (page 44) (optional for TMEA IP/2.5 and standard for TMEA IPEx) Printing system Power Operation time Thermal dot matrix Rechargeable battery 12V maximum, Continental European adapter 60 minutes continuous operation with fully charged battery Product and accessories ordering details Description TMEA 2 TMEA IP/2.5 TMEAlPEx TMEA PI TMEA C2 TMEA F2 TMEA F6 TMEAF7 TMEA MF TMEA Pl TMEA Rl Shaft alignment tool Shaft alignment tool with printer capability Intrinsically safe shaft alignment with printer Thermal printer complete with Continental European adaptor and connection cable (TMEA IP/2.5 and TMEA IPEx only) Extension chain set ( mm / 40.1 in) 1 x non magnetic fixture, chain and 2 mm (8.6 in) rod 2 thin chain fixtures, complete set Set of 3 pairs of connection rods; short: 150 mm (5.9 in), medium: 2 mm (8.6 in) and long: 3 mm (12.5 in) 1 magnetic fixture UK / Australian mains adaptor for the printer 3 spare rolls of thermal paper for the printer TMAS Series (page 44) Number of shims per set A В С Thickness Number of shims per set Thickness mm mm mm mm TMAS 5000S TMAS 500 TMAS 500 TMAS TMAS TMAS TMAS TMAS 500 TMAS 500 TMAS , 0, ,40 0,50 0,70 1,00 2,00 3,00 TMAS TMAS 750 TMAS 750 TMAS TMAS TMAS TMAS TMAS 750 TMAS 750 TMAS ,05 0, 0, ,50 0,70 1,00 2, TMAS 0005 TMAS 00 TMAS 00 TMAS 0025 TMAS 0040 TMAS 0050 TMAS 0070 TMAS 00 TMAS 00 TMAS , 0, 0, ,50 0,70 1, TMAS TMAS 1250 TMAS 1250 TMAS TMAS TMAS TMAS TMAS 1250 TMAS 1250 TMAS TMAS 0005 TMAS 00 TMAS 00 TMAS 0025 TMAS 0040 TMAS 0050 TMAS 0070 TMAS 00 TMAS 00 TMAS 0300 Kits of single slot shims (metric) Contents TMAS 340 I 340 shims in 9 thicknesses and 2 sizes TMAS 360 I 360 shims in 6 thicknesses and 3 sizes TMAS 5 5 shims in 9 thicknesses and 3 sizes TMAS 7 I 7 shims in 9 thicknesses and 4 sizes , ,50 0,70 1,00 2,00 3,00 I } С t, 1 1 Weight Ш Ф ' '* 17 kg (37.4 lb) 12 kg (26.4 lb) 14 kg (30.8 lb) 30 kg (66 lb) A л Г T] г J,1 118

ТМЕВ2(р а9 е46, TMEB2 Content Housing material Type of laser Laser wave length Measurement distance Fixture Measurement accuracy angular Measurement accuracy linear 1 laser unit 1 receiver unit 4 set

120 ТМЕВ2(р а9 е46, TMEB2 Content Housing material Type of laser Laser wave length Measurement distance Fixture Measurement accuracy angular Measurement accuracy linear 1 laser unit 1 receiver unit 4 set of V guides Carrying case Extruded aluminium Diode laser, class 2.1 mw 632 nm 50 mm to mm (2 in to ft) Magnetic Better than 0.2 Better than 0.5 mm Dimensions laser unit Dimensions receiver unit Battery type Battery lifetime Weight laser unit Weight receiver unit Calibration certificate Warranty 70 x 74 x 61 mm (2.8 x 2.9 x 2.4 in) 96 x 74 x 61 mm (3.8 x 2.9 x 2.4 in) 2 x 1.5V LR03 (AAA) batteries in laser unit hours continuous operation 3 g (11.3 oz) 270g(9.5oz) Valid for two years 12 months Accessory ordering details Description TMEBA2 TMEB G2 2 x magnetic side adaptor for chain sprocket, multiribbed and timing belt pulleys Set of Vguides, 4 different sizes Chemicals and oils LHRP 1 (page 36)/LGAF 3E (page io)/lhmt 68, LHHT 265, LHFP 1 I LHRPl I LGAF3E I LHMT 68 Description Anticorrosive Antifretting Medium agent paste temperature oil 62) LHHT 265 High temperature oil i LHFP1 Food compatible. N5F approved oil Specific gravity Colour Hazy brown П Я75 Yellowbrown Greenbrown 0,857 Pale yellow Base oil type Mineral Mineral and synthetic Mineral Synthetic Medical white oil Thickener Not applicable Lithium soap Not applicable Not applicable Not applicable Operating temperature range, C ( F) 25 to 250 C (13 to 482 F) to 90 C (14 to 194 F) to 250 C (4 to 482 F) to 150 C (4 to 302 F) Base oil viscosity: C, mmvs 40 C, mm7s 0 C. mm7s not valid because of thixotropic nature 17,5 265 Flash point Pour point Available pack sizes 39 C (2 F) C (4 F) 5 I can 180 I drum 0,5 kg can 222 C (432 F) 27 C 17 F) 125 ml automatic lubricator SYSTEM "C (446 F) 46 C {51 F) 125 ml automatic lubricator SYSTEM ml automatic lubricator SYSTEM 24 LHRPl/ (pack size) 119

Technical data Bearing greases (page 56 62) DIN 51825 code LGMT2 LGMT 3 LGEP 2 LGLT 2 LGHP2 K3K30 KP2G KP2G50 K2N40 LGFP2 K2G NLGI consistency class 3 2 2 23 2 Soap type Colour Red brown Lithium

121 Technical data Bearing greases (page 56 62) DIN code LGMT2 LGMT 3 LGEP 2 LGLT 2 LGHP2 K3K30 KP2G KP2G50 K2N40 LGFP2 K2G NLGI consistency class Soap type Colour Red brown Lithium Amber Lithium Light brown Lithium Beige Diurea comple: Blue umini Transparent Base oil type Operating temperature range, C ( F) Mineral 30 to 1 (22 to 250) Mineral 30 to 1 (22 to 250) Mineral to 1 (4 to 230) РАО 50 to 1 (58 to 230) Mineral white oil 40 to 150 (40 to 300) Medical to 1 (4 to 230) Dropping point DIN ISO 2176, C ( F) Base oil viscosity: 40 C. mm7s 0 C. mm J /s 180 min. (356 min.) min. (356 min.) min. (356 min.) min. (356 min.) min. (464 min.) 96,5 250 min. (482 min.) 130 7,3 Penetration DIN ISO 2137: 60 strokes, ' mm strokes, " 1 mm max. 280 max. (325 max.) max. (325 max.) ШШШ max max max Mechanical stability: Roll stability, 50 hrs at 80 C, " 1 mm SKF V2F test 50 max. 295 max. 'M' W 50 max. 'M' 380 max. 365 max. Corrosion protection: SKF Emcor. standard ISO 107 water washout test salt water test (0% seawater) Water resistance DIN /1. 3 hrs at 90 C 1 max. 2 max. 1 max. 1 max. 1 max. 1 max. Oil separation DIN , 7 days at 40 C. static. Lubrication ability SKF R2F, running test В at 1 C Pass Pass Pass Pass Copper corrosion DIN C 2 max. 2 max. (130 C/ 266 F) 2 max. 1 max. (0 C) ИШЯЯЯШМИВМШЯ 1 max. (150 C/ 300 F) Rolling bearing grease life SKF ROF test L50 life at.000 rpm, hrs 00 mm. atl30 C (266 F) > 00,,000 rpm atlocc (212"F) 00 min. atl50 C (302 F) 00 at 1 C (230 F) EP performance Wear scar DIN 51350/ N, mm 4ball test, welding load DIN 51350/4 Fretting corrosion ASTM D4170 (mg) 5.7' Available pack sizes g tube 4 ml cart. 1,5,18, 50,180 kg 4 ml cart. 1.5,18, kg 4 ml cart. 1. 5,18, 50,180 kg 1, kg 4 ml cart. 1,5.18, 50,180 kg SYSTEM 24 LGMT 2/ (pack size) LGMT 3/ (pack size) LGEP 2/ (pack size) LGLT 2/ (pack size) LGHP2/ (pack size) LGFP 2/ (pack size) * Typical value 1

Bearing greases (page 56 62) DIN 51825 code LGGB 2 LGWA 2 LGHB 2 KPE2K40 KP2N30 KP2N LGET2 KFK2U40 KPF2K LGEV 2 LGWM 1 KPF2K KP1G30 NLGI consistency class 2 2 2 2 2 2 1 Soap type Colour Base oil type

122 Bearing greases (page 56 62) DIN code LGGB 2 LGWA 2 LGHB 2 KPE2K40 KP2N30 KP2N LGET2 KFK2U40 KPF2K LGEV 2 LGWM 1 KPF2K KP1G30 NLGI consistency class Soap type Colour Base oil type Operating temperature range, C ( F) Lithium/ calcium Off white Synthetic ester 40 to 1 (40 to 250) Lithium complex Amber Mineral Complex calcium sulphonate Brown Mineral 30 to 140 to 150 (22 to 284) (4 to 300) PTFE Whitish cream Lithium Black Synthetic Mineral (fluorinated polyether) 40 to 260 to 1 (40 to 500) (4 to 250) Lithiumcalcium Black Mineral to 1 (14 to 250) Lithium brown Mineral 30 to 1 (22 to 230) Dropping point DIN ISO 2176, C ( F) >170 (>338) > 250 (482) >2(>428) >170 (338) Base oil viscosity: 40 C. mm7s 0 C. mmvs Penetration DIN ISO 2137: 60 strokes, " 1 mm strokes, > mm Mechanical stability: Roll stability, 50 hrs at 80 C, lo" 1 mm Roll stability. 72 hrs at 0 C, 1 mm max. (325 max.) 70 max. (350 max.) i ШЩЩ. _ 50 max. (325 max.) 50 max. change 50 (325 max.) ± 30 max. 345 max. (130 C/266 F) max. 50 max. SKF V2F test Corrosion protection: SKF Emcor standard ISO 10 water washout test salt water test Water resistance DIN /1, 3 hrs at 90 C 0 max 1 max. 1 max. 0 max. 1 max. 1 max. 1 max. Oil separation ^ ^ ^ ^ ^ ^ ^ ^ ^ DIN , 7 days at 40 C, static. % Lubrication ability SKF R2F. running test В Copper corrosion DIN C Rolling bearing grease life SKF ROF test L50 life at.000 rpm. hrs EP performance Wear scar DIN 51350/5.1,400 N. mm 4ball test, welding load DIN 51350/ Passat 0 C* (212 F) >300 atl C (250 F) 1.8 max min. 15 Pass at 0 C (212 F) 13 (at 60 C) Pass at 140 C (284 F) 2 max. 2 maxj (150 C/300 F) (150 "C/300 F) > 00 atl30 C (266 F) 1.6 max. 0,86* 2600 min N* 13 max. 1 (30 hrs at 0 C) > rpm* at2 C (428 F) 8000 min. Pass at 0 C (212 F) 2 max. : max, (90 "C/194 F) 1.4 max min. 1,2 max min. 1.8 max. 30 min.' Fretting protection ASTM D4170 (mg) *VV V>!4 ШВШВШВШ 5.5' Available pack sizes 4 ml cart. 5.18, 180 kg SYSTEM 24 35, 0 g tube 4 ml cart. 1.5, 50,180 kg SYSTEM 24 4 ml cart. 5,18, 50,180 kg SYSTEM g (25 ml) syringe lkg 4 ml cart kg SYSTEM g tube 4 ml cart. 5,18. 50,180 kg 4 ml cart kg LGGB 2/ (pack size) LGWA 2/ (pack size) LGHB 2/ (pack size) LGET2/ (pack size) LGEM 2/ (pack size) LGEV 2/ (pack size) LGWM 1/ (pack size) * Typical value

123 Technical data LAGD series (page 62) Grease capacity LAGD 125 LAGD ml (4.25 fl oz. US) 60 ml (2.03 fl ог. US) Nominal emptying time Ambient temperature range Maximum operating pressure Drive mechanism Connection thread Recommended storage temperature Adjustable; 112 months to 55 C (5 to 131 F) 5bar(73psi) Gas cell producing hydrogen gas (Нг) Б1/4 C(70 F) Storage life of lubricator Gas cell life Weight LAGD 60 LAGD 125 Atex certificate no. Atex marking 2 years 3 years appro* 115 g (4.1 oz) lubricant included approx 190 g (6.7 oz) lubricant included EX II 2 G EEx ib ПС Т6 LAGD 400 (page 65) Content Number of feed lines Maximum pressure Suitable grease Maximum length of feedlines Ambient temperature Drive mechanism 1 LAGD 400 8outlet lubricator m tubing Quick connectors for application side 2 Yconnectors LGMT 2/0.4 grease cartridge SKF's DialSet program bar (600 psi) NLGI1. 2 and 3 5 m (16 ft) 050 C (321 F) Electromechanical Volume Power Alarms External steering IP rating Lubrication tubes Connection thread Height 0.1 cmvday ( US fl. oz/day) per outlet approx g/week ( oz/week) 1240V AC, 5060HZ or 24V DC Blocked feed lines, empty cartridge; internal and external External relay steering 54 m (65 ft), Nylon, 6x1,5 mm (1/4 x 0.06 in) Gl/4 530 mm (21 in) LAHD series (page 66) Boundary dimensions LAHD 500 LAHD 00 Reservoir volume LAHD 500 LAHD 00 Container material Allowed temperature range i LAHD 500 / LAHD mm x 290 mm high (3.6x11.4 in) mm x 290 mm high (4.8x11.4 in) 500 ml (17 fl. oz. US) ml (34 fl. oz. US) Polycarbonate / aluminium to 125 C (4 to 255 F) Permissible humidity Length of connecting tube Connection thread Tube material 0ring material Gaskets Other material Suitable oil types 0 0 % 600 mm (23.5 in) Gl/2 Polyurethane NBR70 Shore NBR 80 Shore 6 pieces Aluminum, Bronze, Stainless Steel Mineral and synthetic oils LAGP400(page66) Maximum volume per stroke Material I LAGP400 cm 3 (1.2 in 3 ) steel and polyethylene Length Weight 360 mm (14 in) 0.35 kg (0.77 Ib) (page 67) Maximum pressure Volume/stroke! MPa (5,800 psi) 1.5 cm 3 (0.09 in 3 ) Length Weight 380 mm (14.9 in) 1,5 kg (3.3 1b) LAGH 400 (page 67) Maximum pressure Volume/stroke! LAGH MPa (4.350 psi) approx. 0.8 cm 3 (0.049 in 3 ) Length Weight 370 mm (14.6 in) 1,5 kg (3.3 lb) 122

124 VKN 550 (page 68) I VKN 550 Description Weight Material Suitable greases Bearing grease packer 1,8 kg (3.9 lb) Zinc plated, metal finish approved for all SKF greases Other greases Bearing range Inner diameter d Outer diameter D NLGIclass000to2 19 to 1 mm Max 0 mm TMBAGllD(page68) l TMBAG11D Pack size Size Colour 50 pairs 9 white LAGM 00E (page 68) I LAGM 00E Housing material Weight IP rating Suitable greases Maximum operating pressure Maximum grease flow Thread connections Display Aluminium, anodised 0,3 kg (0.66 lb) IP 67 NLGI 0 NLGI 3 70 MPa (.000 psi) 00 cmvmin (34 US fl. oz/min) MIOxl Lit LCD (4 digits/9 mm) Accuracy Selectable units Display lamp auto switch off Low battery Battery type Unit auto switch off ±351 from bar ±5% from bar cm 3, g, US fl. oz or oz 15 seconds after last pulse Indication on display 1.5 VLRl(2x) Alkaline 1 minute after last pulse LAGF series (page 69) Maximum pressure Volume/stroke Suitable drum dimensions: inside diameter maximum inside height Weight 1 LAGF 18 3 MPa (430 psi) approx. 45 cm 3 (1.5 fl oz.) mm ( in) 4 mm (16.5 in) 5 kg (11 lb) I LAGF 50 3 MPa (430 psi) approx. 45 cm 3 (1.5 fl oz.) mm ( in) 675 mm (26.6 in) 7 kg (15 lb) LAGG series (page 69) I LAGG 18M 1 LAGG18AE I LAGG 50AE LAGG 180AE LAGT 180 Description Pumping Max. pressure SKF Drum Inner diameter Note Volume/stroke Volume/min. Grease pump for 18 kg drums Manual 50 MPa (7,250 psi) 18 kg (39.6 lb) mm ( in) Stationary 1.6 cc Mobile grease pump for 18 kg drums Airpressure 42 MPa (6,090 psi) 18 kg (39.6 lb) mm ( in) Mobile 0 cc Grease pump for 50 kg drums Airpressure 42 MPa (6.090 psi) 50 kg (1 lb) mm ( in) Stationary 0 cc Grease pump for 180 kg drums Airpressure 42 MPa (6,090 psi) 180 kg (396 lb) mm ( in) Stationary 0 cc Trolley for drums up to 0 kg n.a. n.a. 180 kg (396 lb) n.a. Mobile LAGG 1M (page 70) LAGG 1M Body pump material Follower plate material Weight Volume per stroke Polypropylene / Polyethylene, compatible with all SKF greases NBR, compatible with all SKF greases 230 g (0.5 lb) 26 cm 3 (1.6 in 3 ) Suitable can dimensions Inside diameter Maximum inside height Suitable greases consistencies 5 8 mm ( in) 145 mm (5.7 in) NLGI 1 to 3 LAGN 1 (page 70) I LAGN 1 Max working pressure Min burst pressure 40 MPa (5.800 psi) 80 MPa (11,600 psi) Standard Material DIN Hardened steel 123

125 Technical data ГР series Temperature range Accuracy electronics Display resolution Probe Dimensions Weight Battery Average battery lifetime I TMTP 0 / TMTP 0Ex 40 to 0 C (40 to 392 F) s 0.5 C (s 0.9 F) 1 C/ F Integrated KType 163 x 50 x 21 mm (6.4 x 2 x 0.8 in) 95 g (0.2 lb) 3xAAA(LR03) Only Duracell PC2400/MN2400 batteries are allowed for TMTP 0Ex 4000 hours 00 hours (TMTP 0Ex) Switch off Display indications IP rate Drop resistance Ex classification (TMTP 0Ex) Ambient temperature range EC Type Examination Certificate Button or automatic after 5 minutes Temperature. C or F, maximum temperature, out of range, defective probe, low battery IP 65 1 m (3.2 ft) HlGDEExiallC T4 IP65 IMlEExial 0 C C ISSEP02ATEX054X duct ordering details I Description TMTP 0 TMTP 0Ex General purpose industrial thermometer Intrinsically safe contact thermometer TMTL260! Temperature range Accuracy electronics Display resolution Distance to Spot size Spectral response Emissivity Dimensions 1 TMTL to 260 C (0 to 500 F) s2%ofreadingors2 C(s3.5 F). whichever is greater. 0,2 Cor0.5 F 8:1 718 urn Preset x 1 x 38 mm (6 x 4 x 1.5 in) Weight Battery Average battery lifetime Switch off Display indications 227 g (0.5 lb) 9V Alkaline 12 hours Automatic after 7 seconds after trigger is released Temperature, C or F, hold, out of range, low battery Content Temperature range Display resolution Accuracy electronics 1 TMDT x dual channel digital thermometer 1 x standard surface probe 1 x 9 V battery Instructions for use Carrying case 50 to 1300 C (58 to 1999 F) Up to 199 C/ F: 0,1 C/ F Greater than 199 C/ F :1 C/ F ± 0.3% 1 C at range 50 up to C ± 0.5% 1 C at range 0 up to 00 C ± 0.75% 1 C at range 01 up to 1300 C ± 0.3% 2 F at range 58 up to 199,9 F ± 0.5% 2 F at range 0 up to 1999 F Analogue output Output impedance Battery Average battery lifetime Temperature probe Instrument dimensions 0.1 mv per C/ F at Resolution 1 C/1 F 1.0 mv per C/ F at Resolution 0.1 "C/0.1 F 50 Ohms 9 V Battery IEC 6 LR61 (Alkaline) 0 hours Thermocouple. Ktype (NiCr/NiAl) 160 x 77 x 45 mm (6.3 x 3.0 x 1.8 in) Ktype thermocouple probes (page 75 Probe type Accuracy Handle Ktype thermocouple (NiCr/NiAl) ace. IEC 584 Class 1 Cable ± 1,5 C (2.7 F) up to 375 C (707 F) ± 0,4% of reading above 375 C (707 F) Plug 1 mm (4.3 in) long mm (39.4 in) spiral cable (excl. TMDT 231, 38, ) Ktype miniplug (1.260K) 124

126 Display Display functions Rotational speed range Linear speed range Measurement modes Laser optical range Angle of operation Light source Accuracy speed modes only I TMRT 1 / TMRT lex Inverting LCD Vertical 5 digit display 180 Inverting Optical mode: 3 99,999 rpm (or equivalent in rps) Contact mode: Max rpm for sec (or equivalent in rps) Metres or Yds/min. (4,500 ft/min) or equivalent in seconds Optical; rpm and rps (also Count and Time) Via contact adaptor; rpm and rps. metres, yards, feet, per min and per sec. Count total revs, metres, feet, yards Measure Time interval in seconds between pulses (reciprocal rate) Speed Capture feature Maximum, Minimum or Average rate 50 mm 00 mm ( in) ±80 Class II laser diode 0.01%, ±1 digit Resolution range features On target indicator Low battery indicator Memory features Auto switch off Remote input for laser remote sensor TMRT 156 Contact adaptor Battery type TMRT 1 Battery type TMRT 1 Ex Unit dimensions Unit weight Carrying case dimensions Total weight (incl. case) Warranty Intrinsically safe classification (TMRT lex only) EC Type Examination Certificate I Fully Auto ranging up to digit or ± 1 digit fixed, user selectable Yes Yes Last reading held for 1 minute Program settings retained in memory after power off After 1 minute Yes, TMRT 1 only Included complete with rpm cone and removable metric wheel assembly 4 x AAA alkaline cells Only use 4 x Duracell "Procell" AAA cells 213 x 40 x 39 mm (8.3 x 1.5 x 1.5 in) 170 g (5.9 oz) 238 x 49 x 2 mm (9.3 x 1.9 x 4.0 in) 355 g (12.5 oz) 12 months II 2 G EEx ia ПС Т4 Baseefa03ATEX0425X uct and accessories ordering details signation Description TMRT1 TMRTlEx TMRT 156 TMRT 160 Multi function laser and contact tachometer Intrinsically safe multi function laser and contact tachometer Laser remote sensor, for TMRT 1 only 0 22 x 65 mm (0.8 x 2.5 in) Bracket for laser remote sensor TMST 2 (page 77) Frequency range Operating temperature Output volume Minimum recorder impedance Maximum recorder output Headset!TMST 2 30 Hz15 khz 045 C (32113 F) Adjustable Ohm 250 mv 8 Ohm Piezo type (with ear defender) Battery Battery lifetime Dimensions Weight (instrument) Weight (headset) i 9VAIkalinelEC6LR61 Approx. hours; low battery indication 190x60x30 mm (7.5x2.4x1.2 in) 0g(7oz) 250 g (9 oz) Part ordering details Description Electronic stethoscope i Handset complete TMST 22A i High quality headset TMST 23 I Probe set page 78) Suitable oil types Repeatability Readout!TMEH1 mineral and synthetic oils better than 5% green/red grading numerical value (0 0) Battery Battery lifetime Dimensions 9V Alkaline IEC6LR61 > 150 hours or tests 250 x 95 x 32 mm (instrument) (9.8x3.7x1.3 in) 'art ordering deta I Description ГМЕН 1 I OilCheck monitor 125

127 Technical data IP Series (page; Vibration pickup Measurement range Tolerance: Frequency range Display Display cycle Overload indication Battery replacement indication I CMVP 40 / CMVP 50 Piezo electric acceleration integrated sensor (compression type) lto55,0mm/s(rms) 0,06 to 3,00 in/s (eq. Peak) ± % and 2 digits measured at 80Hz (2 digits) Overall vibration Hz to Hz (tolerance measured within the frequency range are in accordance with ISO 3945 and 2 digits) acceleration enveloping khz to 30 khz Measurement value: 3,5 digit LCD Approximately 1 second OVER ВАТТ Hold indication Power Battery lifetime Auto power off function Dimensions Weight Ambient operating conditions HOLD 2 x CR32 lithium batteries 170 ma hours current consumption Measurement mode: 7,5 ma HOLD mode 3,0 ma Power is turned off Approximately 2 minutes after last ON or HOLD operation 17,8 x 30,5 x 157,5 mm (0.7 x 1.2 x 6.2 in) approximately 77 g (2.7 oz) with batteries to 50 C (14 to 122 F) to 90% relative humidity Part orderinc CMVP40 CMVP 50 details Description in/s eq. peak mm/s RMS TMMA Series (page 86) ITMMA3 I TMMA 5 ITMMA8 Maximum withdrawal force Minimum width of grip Maximum width of grip Effective arm length Weight 30 kn (3.4 ton US) 36 mm (1.4 in) 150 mm (5.9 in) 150 mm (5.9 in) 4,0 kg (8.8 lb) 50 kn (5.6 ton US) 52 mm (2.0 in) 0 mm (7.9 in) 0 mm (7.9 in) 5,4 kg (11.9 lb) 80 kn (5.6 ton US) 75 mm (3.0 in) 250 mm (9.8 in) 250 mm (9.8 in),9 kg (24.0 lb) Part ordering details Description Safety pin set (3 pes) Arm assembly Claws (3 pes) Spindle assembly with nose pieces and a tube of SKF grease LGEV 2 Opening mechanism Contents d TMMA 8E (page! Maximum withdrawal force Maximum stroke (spindle) Minimum width of grip Maximum width of grip Effective arm length Weight TMMA 5E lxeasypull,tmma5 without mechanical spindle 1 x Advanced Hydraulic Spindle, TMHS 5E 2 x extension pieces for the hydraulic spindle; 50 and 0 mm (2.0 and 3.9 in) 1 x nosepiece for the hydraulic spindle 50 kn (5.6 ton US) 75 mm (3.0 in) 52 mm (2.0 in) 0 mm (7.9 in) 0 mm (7.9 in) 6,6 kg (14.6 lb) I TMMA 8E 1 x EasyPutl. TMMA 8 without mechanical spindle 1 x Advanced Hydraulic Spindle, TMHS 8E 3 x extension pieces for the hydraulic spindle; 50.0 and 150 mm (2.0, 3.9 and 5.9 in) 1 x nosepiece for the hydraulic spindle 80 kn (9 ton US) 80 mm (3.1 in) 80 mm (3.1 in) 250 mm (9.8 in) 250 mm (9.8 in) 12,1 kg (26.7 lb) 126

128 Contents Length of metal case Width of metal case Height of metal case Weight of metal case, including all components Set contents technical details Maximum withdrawal force Minimum width of grip Maximum width of grip Effective arm length Weight Minimum bore diameter Maximum bore diameter Weight Length Width Maximum diameter TMMA 8E/SET 1 x Hydraulic EasyPull. TMMA8E 1 x Trisection pulling plate, TMMS x Puller protection blanket, TMMX x Heavy duty metal case 1 x Language free instructions for use manual 680 mm (27 in) 3 mm (13 in) 270 mm (11 in) 30.5 kg (72 lb) TMMA8E 80 kn (9 ton US) 75 mm (3.0 in) 250 mm (9.8 in) 250 mm (9.8 in) 12.1 kg (26.7 lb) TMMS mm (2 in) 160 mm (6.3 in) 5,9 kg (13 lb) TMMX 350 mm (47.2 in) 580 mm (22.8 in) 350 mm (13.8 in) Width of grip d min d max f^a* I mm I 12 TMMS 0 26 TMMS TMMS TMMS I M16x2 M16x2 M22x2.5 M32 x2.5 Maximum Withdrawal Force (F max) Weight < Wi «* л * kn tonus kg MMSS0 MMS 0 MMS160 MMS 260 MMS , , Contents Maximum withdrawal force Maximum stroke (spindle) Maximum reach Threading Weight 8E (page I TMHS 5E 1 x hydraulic spindle 2 x extension pieces; 50 and 0 mm (2.0 and 3.9) 1 x nosepiece 50 kn (5.6 ton US) 75 mm (3.0 in) 225 mm (8.8 in) UN 1} " x 16 tpi 3.5 kg (7.7 lb) TMHS8E 1 x hydraulic spindle 3 x extension pieces; 50,0 and 150 mm ( and 5.9 in) 1 x nosepiece 80 kn (9 ton US) 80 mm (3.1 in) 380 mm (15 in) UNl}"xl2tpi 4.6 kg ( lb) 127

129 Technical data TMMP series (page 89) 4o. of arms qty mm Width of grip in mm Effective length of arms in kn Maximum withdrawal force tonus kg Weight lb TMMP 2x65 TMMP 2x170 TMMP 3x185 TMMP 3x230 TMMP 3x , TMMRFse ies (page 89) mm Width of grip external pull n mm Width of grip internal pull in mm Effective arm length in kn Maximum withdrawal force tonus kg Weight lb TMMR 40F TMMR 60F TMMR 80F TMMR 1F TMMR 160F TMMR 0F TMMR 250F TMMR 350F TMMR Complete kit of 8 pullers on a :ounter stand ,3 0,4 1, ,3 2,6 4,4 5, t^si TMMP: No. of arms qty mm Width of grip in Effective length of arms* in Maximum withdrawal force kn ton US kg Weight TMMP 6 TMMP TMMP , ' other arm lengths available according to part ordering details Part ordering details No. Description TMMP. TMMP. TMMP. TMMP. TMMP. TMMP IK TMMP 6 mm Arm length Armlength Arm length Arm length Spindle with centre nib Stand, boss and complete set of pins, bolts and link arms (per arm) TMMP TMMP15 in TMHP Series (page 90) esignation* No. of arms Width of grip Effective length of arms Stroke Maximum working pressure Maximum withdrawal force Weight qty MPa pii kn tonus kg TMHP 15/260 TMHP 30/170 TMHP 30/350 TMHP 30/600 TMHP 50/140 TMHP 50/3 TMHP 50/ , , *Also available wit hout hydraulic pump TMJL 0. Please add suffix X to designation when ordering (t,o. ТМНР30/170Ю 128

130 Maximum pressure Volume/stroke Oil container capacity Pressure hose Weight with gauge Oil type Hydraulic pump TMJL 0 0 MPa (14,500 psi) lcm 3 (0.06 in 3 ) 800 cm 3 (48 in 3 ) mm (118.1 in) long with quick connection coupling and nipple G 1/4 internal/external thread 13 kg (29 lb) filled with SKFLHMF 300 Part ordering details No. Description TMHP...1 TMHP...2 TMHP...3 TMHP...4 TMHP...5 TMHP...11 Arm length Arm length Arm length Arm length Spindle with centre nib Repair kit for hydraulic < ylinder 1 mm TMHP IE in mm TMHP 30 in mm TMHP 50 in TMHP E (page 9; Description Contents Maximum stroke Weight complete kit Cycle life hydraulic cylinder Threading hydraulic cylinder Safety valve setting hydraulic cylinder Carrying case dimensions Nominal working force TMHPE Advanced hydraulic jaw puller kit 1 x armassembly stand 3 x arms, 150 mm (6 in) 3 x arms, 0 mm (7.8 in) 3 x arms, 250 mm ( in) 1 x hydraulic spindle TMHS 0 3 x extension pieces for hydraulic spindle; 50.0,150 mm (2. 4, 6 in) 1 x nosepiece with centre point for hydraulic spindle 80 mm (3.1 in) 14,5 kg (32 lb) Minimum 5000 cycles up to 0 kn (11.2 US ton force) UN If x 16 tpi 5 kn (11.8 US ton force) 578 x 4 x 70 mm (23 x 16 x 2.8 in) 0 kn (11.2 US ton force) Arm set 1 (3 x TMHP E) Effective arms length Width of grip Claw dimensions Armset2(3xTMHPEll) Effective arms length Width of grip Claw dimensions Arm set 3 (3 x TMHP E12) Effective arms length Width of grip Claw dimensions 1 mm (4.7 in) mm ( in) a = 6 mm (0.2 in) b = 15 mm (0.6 in) с = 25 mm (1 in) 170 mm (6.7 in) mm ( in) a = 6 mm (0.2 in) b = 12 mm (0.5 in) с = 25 mm (1 in) 0 mm (7.9 in) 1280 mm (4.311 in) a = 6 mm (0.2 In) b = 12 mm (0.5 in) с 25 mm (1 in) I Description I Advanced hydraulic spindle, 0 kn I Set of extension pieces an nose piece for the hydraulic spindle TMHP E5 Armassembly stand, centre, bolts and nuts TMHP E TMHPE11 TMHP E12 Description 150 mm arm (6 in) 0 mm arm (8 in) 250 mm arm ( in) TMHC1E (page 91) Description Contents Maximum stroke Nominal working force Cycle life hydraulic cylinder Threading hydraulic cylinder Safety valve setting hydraulic cylinder Carrying case dimensions Weight I TMHC1E Advanced hydraulic puller kit 1 x armassembly stand 3 x arms, 0 mm (4 in) 3 x arms. 150 mm (6 in) 1 x separator set 1 x beam 2 x main rods 2 x extension rods, 125 mm (4.9 in) 1 x hydraulic spindle TMHS 0 2 x extension pieces for hydraulic spindle; 50,0 mm ( in) 1 x nosepiece with centre point for hydraulic spindle 80 mm (3.1 in) 0 kn (11.2 US ton force) Minimum 5000 cycles up to 0 kn (11.2 US ton force) UN If x 16 tpi 5 kn (11.8 US ton force) 580 x 4 x 70 mm (23 x 16 x 2.8 in) 13.5 kg (29.8 lb) Jaw puller: Arms set 1 (TMHP E9) Effective arms length Width of grip, arms set 1 Claw dimensions Arms set 2 (TMHP E) Effective arms length Width of grip, arms set 2 Claw dimensions Strong back puller: Maximum reach Shaft diameter range 70 mm (2.8 in) 501 mm (24.3 in) a 5 mm (0.2 in) b 15 mm (0.6 in) с * 25 mm (1 in) 1 mm (4.7 in) mm ( in) a 6 mm (0.2 in) b = 15 mm (0.6 in) с 25 mm(l in) 255 mm ( in) 0 mm (0.84 in) 129

ш Technical data Pan t ordering details Desig I TMHP E5 TMHP E9 TMHP E TMBS 0E1 TMBS0E2 TMBS 0E3 TMBS 0E5 8 S0 S8T as Armassembly stand, centre, bolts and nuts 0 mm (4 in) arm 150 mm (6 in) arm Beam

131 ш Technical data Pan t ordering details Desig I TMHP E5 TMHP E9 TMHP E TMBS 0E1 TMBS0E2 TMBS 0E3 TMBS 0E5 8 S0 S8T as Armassembly stand, centre, bolts and nuts 0 mm (4 in) arm 150 mm (6 in) arm Beam Main rods, washers and nuts Extension rods (2 pes) 125 mm (4.9 in) Separator set. bolts and nuts (0 mm / 4 in) Advanced hydraulic spindle, 0 kn Set of extension pieces and a nose piece for the hydraulic spindle Description Contents Nominal working force Maximum reach Shaft diameter range Maximum torque (T) Spindle Hexagon head (AF) Carrying case dimensions Weight TMBS 50E Mechanical strong back puller 1 x separator set 1 x mechanical spindle 1 x beam 2 x main rods 30 kn (3.4 US ton force) 1 mm (4.3 in) 7 50 mm (0.3 2 in) 70Nm(50lbfft) 19 mm (0.8 in) 295x190x55 mm (11.6x7.5x2 in) 1.8 kg (4 lb) Part ordering de I Description TMBS 50E1 TMBS 50E2 TMBS 50E1K : Beam Spmdle Mam rodb, washers (4 pes), bolts and nuts (2pcs) TMBS E series (page < Description Contents Maximum stroke Nominal working force Maximum reach Shaft diameter range Cycle life hydraulic cylinder Threading hydraulic cylinder Safety valve setting hydraulic cylinder Carrying case dimensions Weight i TMBS0E Advanced hydraulic strong back puller 1 x separator set 2 x main rods 2 x extension rods, 125 mm (4.9 in) 4 x extension rods. 285 mm (11.2 in) 1 x beam 1 x hydraulic spindle TMHS E 2 x extension pieces for hydraulic spindle: 50,0 mm (2, in) 1 x nosepiece with centre point for hydraulic spindle 80 mm (3.1 in) 0 kn (11.2 US ton force) 825 mm (32.5 in) 0 mm (0.8 4 in) Minimum 5000 cycles up to 0 kn (11.2 US ton force) UN If x 16 tpi 5 kn (11.8 US ton force) 580 x 4 x 70 mm (23 x 16 x 2.8 in) 13,5 kg (29.8 lb) Description Contents Maximum stroke Nominal working force Maximum reach Shaft diameter range Cycle life hydraulic cylinder Threading hydraulic cylinder Safety valve setting hydraulic cylinder Carrying case dimensions Weight I TMBS150E Advanced hydraulic strong back puller 1 x separator set 2 x main rods 2 x extension rods. 125 mm (4.9 in) 4 x extension rods. 285 mm (11.2 in) 1 x beam 1 x hydraulic spindle TMHS 0 2 x extension pieces for hydraulic spindle; 50,0 mm (2.0, 3.9 in) 1 x nosepiece with centre point for hydraulic spindle 80 mm (3.1 in) 0 kn (11.2 US ton force) 825 mm (32.5 in) mm (1.46 in) Minimum 5000 cycles up to 0 kn (11.2 US ton force) UN If x 16 tpi 5 kn (11.8 US ton force) 580 x 4 x 70 mm (23 x 16 x 2.8 in) 17 kg (37.5 lb) Part ordering details TMHS 0 TMHS 8T TMBS 0E1 TMBS 0E2 TMBS 0E3 TMBS0E4 TMBS 0E5 TMHS 0 TMHS 8T TMBS 150E1 TMBS 0E2 TMBS 0E3 TMBS QE4 TMBS 150E5 Description Advanced hydraulic spindle. 0 kn Set of extension pieces for the hydraulic spindle, nose piece Beam Main rods, nuts, washers (set) Extension rods (2 pes) 125 mm (4.9 in) Extension rods (4 pes) 285 mm (11.2 in) Separator (complete) 130

132 Suitable bearings Effective length Weight Dimensions of case 1 TMMD Al 140 mm (5.5 in) A2 140 mm (5.5 in) A3 140 mm (5.5 in) A4 170 mm (6.7 in) A5 170 mm (6.7 in) A6 170 mm (6.7 in) 3.2 kg (7 lb) 315 x 250 x 70 mm (12.4 x x 2.8 in) TMMDA1 TMMDA2 TMMDA3 TMMDA4 TMMDA5 TMMDA6 TMMD M12 TMMD M16 Description Puller arm Puller arm Puller arm Puller arm Puller arm Puller arm Spindle, nut and handle Spindle, nut and handle TMMX Series (page Recommended maximum diameter Length Width Length of strap No of strap Buckle size in mm in mm in in TMMX 2 I 2 TMMX 280 I 280 TMMX 350 I /2 ries (page { Shaft diameter range Hammer displacement Weight of hammer Total weight Dimensions of case I TMSC6 836 mm ( in) 2 mm (8.7 in) 1.0 kg (2.2 lb) 4.0 kg (8.8 lb) 465 x 135 x 55 mm (18 x 5 x 2 in) Part ordering details No. Description TMSC1 TMSC5 TMSC9 TMSC TMSC11 TMSC12 TMSC13 TM5C: Slide hammer complete Adapter Extractor mm ( in) Extractor mm ( in) Extractor mm ( in) Extractor mm ( in) Extractor mm ( in) Extractor mm ( in) ^3 7 of; 1 8 Shaft diameter range Hammer displacement Weight of hammer Total weight Dimensions of case I TMSC mm ( in) 300 mm (11.8 in) 1,6 kg (3.5 lb) kg (22 lb) 585 x 235 x 90 mm (23 x 9.3 x 3.5 in) Part ordering detail No. Description 1 I Slide hammer complete 2 I Extractor mm ( in) 3 I Extractor mm ( in) 4 TMSC16 I Extractor mm ( in) 131

ЛЧ Technical data IP (page 95) Suitable bearings Effective length of arms Overall puller spread Adapter diameters Weight Dimensions of case No. 1 2 3 4.5 7.8.

133 ЛЧ Technical data IP (page 95) Suitable bearings Effective length of arms Overall puller spread Adapter diameters Weight Dimensions of case No t ordering details TMBP 1K TMBP 2K TMBP3K.11,12 TMBP4K Selection chart Ball bearing type SKF standard bearing Description Beam Spindle (incl. nose piece) TMBP mm (24 in) 602 mm ( in) 1632 mm ( in) 9 kg ( lb) 445 x 295 x 95 mm (17.5 x 11.6 x 3.7 in) Main rods (2) incl. nuts and washers Extension rods 195 mm (7.7 in) (2 pes) / Extension rods (2 pes) 295 mm (11.6 in) Bearing adapters no. 7 (2 pes) / Bearing adapters no. 8 (2 pes) / Bearing adapters no. 9 (2 pes) Bearing adapters no. (2 pes) / Bearing adapters no. 11 (2 pes) / Bearing adapters no. 12 (2 pes) Adapters Ball bearing type SKF standard bearing E =.. в» В В Adapters i TMBR Series (page 96) Material Maximum temperature I TMBR Bearing designation; (e.g. TMBR NU216E) Aluminium 300 C (572 F) Connection cable Dimensions Weight Length A В С D a b с d 5m 285 mm 115 mm 555 mm mm 134 mm 50 mm 35 mm mm 28 kg EAZ 80/ ft 11.2 in 4.5 in 21.8 in in 5.3 in 2.0 in 1.4 in in 62 1b 5 m 335 mm 1 mm 630 mm mm 180 mm 50 mm 30 mm mm 35 kg EAZ 130/ ft 13.2 in 4.7 in 24.8 in 7.1 in 2.0 in 1.2 in in 77 1b Part ordering details Powersupply Current Powersupply Current EAZ 80/130A EAZ 80/1308 EAZ 80/130C EAZ 80/1300 EAZ 130/170A EAZ 130/170B 2 x 230V/50HZ 2x400V/50Hz 2 x 460V/60HZ 2x415V/50Hz 2 x 230V/50Hz 2 x 400V/50HZ 40 A 45 A 25 A 35 A 60 A 45 A EAZ 130/170D EAZ 13O/170E EAZ 130/170F EAZ 130/170G EAZ 130/170H 3 x 230V/50HZ 3 x 400V/50HZ 3 x 460V/60HZ 3 x 4V/60HZ 3 x 415V/50Hz 43 A 35 A 23 A 30 A 30 A 132

Heater designation Voltage class Bearing designation Coil Current consumption Connecting cable Control cabinet Dimensions ring Dimensions heater mm G В mm.

134 Heater designation Voltage class Bearing designation Coil Current consumption Connecting cable Control cabinet Dimensions ring Dimensions heater mm G В mm., F mm G mm С mm D mm A mm EAZ 166 EAZ 169 EAZ 174 EAZ 179 EAZ 180 EAZ 181 EAZ 190 EAZ 2 EAZ 212 EAZ 2221 EAZ 2222 EAZ 226 EAZ 244 EAZ 246 EAZ 260 EAZ265 EAZ 270 EAZ 292 EAZ 308 EAZ 312 LV MV HV LV MV HV LV MV HV LV MV HV LV MV HV LV MV HV LV MV HV LV MV HV LV MV HV LV MV HV LV MV HV LV MV HV LV MV HV LV MV HV LV MV HV LV MV HV LV MV HV LV MV HV LV MV HV LV MV HV A A A / VJ2 BC4B В В С ШшШШЯЯМЯЯЯЯШШвИ A07RNF3x25 A07RNF3xl6 A07RNF3xl6 A07 RN F 3 x 25 A07RNF3xl6 A07 RN F 3 x 16 A07RNF3x25 A07RNF3xl6 A07RNF3xl6 A07RNF3x35 A07RNF3xl6 A07RNF3xl6 A07 RN F 3 x 25 A07RNF3xl6 A07 RN F 3 x 16 A07RNF3x35 A07RNF3xl6 A07RNF3xl6 A07 RN F 3 x 25 A07RNF3xl6 A07 RN F 3 x 16 A07RNF3x25 A07 RN F 3 x 16 A07RNF3xl6 A07RNF3x35 A07RNF3x25 A07 RN F 3 x 16 A07RNF3x35 A07RNF3xl6 A07RNF3xl6 A07RN F3x25 A07RNF3xl6 A07RNF3xl6 A07RNF3x35 A07RNF3x25 A07 RN F 3 x 16 A07 RN F3x50 A07 RN F3x35 A07 RN F3x25 A07 RN F3x50 A07 RN F3x25 A07 RN F3x25 A07 RN F3x50 A07 RN F3x25 A07 RN F3x35 A07 RN F3x35 A07 RN F3x25 A07 RN F3xl6 A07 RN F3x50 A07 RN F3x25 A07 RN F3x25 A07 RN F3x50 A07 RN F3x25 A07 RN F3x25 A07 RN F3x50 A07 RN F3x35 A07 RN F3x25 A07 RN F3x50 A07 RN > F3x25 A07 RN F3x25 SS250 SS350 SS250 SS350 SS250 SS350 SS250 SS250 SS350 SS S250 SS350 SS250 SS350 SS250 SS p S p SS p SS p p SS ,1 p SS p SS p SS p S250 0 p S p SS250 0 p r r r r r r r r

Technical data EAZ series Heater designation Voltage class Bearing designation Coil Current consumption Connecting cable Control cabinet Dimensions ring Dimensions heater A c 4; d mm В mm F mm G mm С

135 Technical data EAZ series Heater designation Voltage class Bearing designation Coil Current consumption Connecting cable Control cabinet Dimensions ring Dimensions heater A c 4; d mm В mm F mm G mm С mm D mm A mm EAZ 332 EAZ 378 Voltage classification EAZ series Each heater is available in three different voltage versions as follows: LV MV HV LV MV HV LV MV HV Low Medium High D A 190 to 230V 400 to 480V 500 to 575V Please add the corresponding class as a suffix to the designation when ordering (e.g. EAZ 166 HV). A07 RN F 3 x 70 A07RNF3x35 A07RNF3x25 A07RNF3x70 A07 RN F 3 x 50 A07RNF3x35 Control cabinets EAZ series 5S250A SS250C SS350B 5SD 350A SSD 350C r S r SS V, 50Hz. 250A SS 250B 400V, 50Hz, 250A 460V, 60Hz. 250A SS 350A 230V, 50Hz, 350A 400V, 50Hz, 350A SS 350C 460V, 60Hz, 350A A special control cabinet suitable for handling two heaters at the same time is also available. 230V. 50Hz, 350A(2x) SSD V, 50Hz, 350A(2x 460V, 60Hz, 350A(2x) Copyright SKF 05 The contents of this publication are the copyright of the publisher and may not be reproduced (even extracts) unless permission is granted. In line with our policy of continuous development of our products we reserve the right to alter the specifications given in this catalogue regarding any product and/or part thereof without prior notice. Every care has been taken to ensure the accuracy of the information contained in this publication but no liability can be accepted for any loss or damage whether direct, indirect or consequential arising out of use of the information contained herein. Concept, text, graphic design and production: SKF Maintenance Products. Nieuwegein. The Netherlands Photography: Yves Paternoster, Amsterdam, The Netherlands (and others) Printing: Verweij Printing, Mijdrecht, The Netherlands This catalogue was printed on elementary chlorinefree paper. SKF on internet:

$! Г, \ index Description Page TO Description Page TD 08593 E 09030 В 09030 E 12783 E 14357 A 16402 E 18219 E 19950 612 A 30816 E 77453 77454 77455 77456 77587 77587/2 77589 77589/2 77600 77600/SET$

136 ! Г, \ index Description Page TO Description Page TD E В E E A E E A E / / /SET /400MPa A A E E A A A E В 7291 E A A SRB С A A A В E CMAC 40SL CMIN 400K CMPK 0 CMPK2 CMPK 60 CMPK 70 CMVL 3850 CMVP 40 CMVP 50 EAZ 130/170 AH EAZ 166 EAZ 378 Nipple with pipe thread (G) Nipple with pipe thread (G) Nipple with pipe thread (G) Nipple with pipe thread (G) Nipple with pipe thread (G) Nipple with pipe thread (G) Nipple with pipe thread (G) Nipple with pipe thread (G) High pressure pipe Plug for oil ducts and vent holes Extension pipe Connection nipple Nipple with pipe thread (G) Nipple with pipe thread (G) Pressure gauge Pressure gauge Pressure gauge Pressure gauge Grease gun Grease gun set Flexible hose Screw injector Screw injector Valve nipple Valve nipple Oil injector Oil injector Adapter block High pressure pipe High pressure pipe Valve nipple Extension pipe Extension pipe Nipple with pipe thread (G) Plug for oil ducts and vent holes Connection nipple Extension pipe High pressure pipe High pressure pipe High pressure pipe Hydraulic pump Quick connection nipple Oil injection kit Oil injection kit Connection nipple (NPT and G) High pressure pipe Hydraulic pump Hydraulic pump Hydraulic pump with digital gauge High pressure hose Nipple with pipe thread (G) Connection nipple (NPT and G) Connection nipple (NPT and G) Connection nipple (NPT and G) Electric hot plate Quick connection coupling Quick connection nipple High pressure hose Feeler gauge Feeler gauge Plug for oil ducts and vent holes Infrared thermometer Inspector 400 ultrasonic probe Condition monitoring starter kit (English) Condition monitoring starter kit (Metric) Bearing analysis kit Bearing analysis kit MicroVibe P Vibration pen (in/s) Vibration pen (mm/s) Adjustable induction heaters Fixed induction heaters ЗА lib EAZ 80/130 AD HMV E 0E HMV E 0E/A1 HMVA 42/0 HMVC E 190E HN 0 HN 22 HN 5/SNL HN 32/SNL HNA 14 HNA 1424 LAGD125 LAGD 400 LAGD 60 LAGF 18 LAGF 50 LAGG 180AE LAGG 18AE LAGG 18M LAGG 1M LAGG 50AE LAGH 400 LAGM 00E LAGN 1 LAGP 400 LAGS 8 LAGT180 LAHD 00 LAHD 500 LGAF 3E LGEM2 LGEP2 LGET2 LGEV2 LGFP2 LGGB2 LGHB2 LGHP2 LGLT2 LGMT2 LGMT3 LGWA2 LGWM1 LHDF 900 LHFP 1 LHHT 265 LHMF 300 LHMT 68 LHRP1 THAP 030 THAP 030/SET THAP 150 THAP 150/SET THAP 300E THAP 300E/SET TIH 030m TIH 070m TIH 090m TIH 2m TIHT1 TMAS series TMBA Gil TMBA G11D TMBA G11ET TMBA G11H TMBA G11W TMBH1 TMBP TMBR series TMBS 0E TMBS 150E TMBS 50E TMCD R TMCD 5P TMDC 1/2R Adjustable induction heaters Hydraulic nuts 25 & 99 9 Hydraulic nuts without threads 25 & Hydraulic nut driveup adapter 24 Hydraulic nuts, inch thread series 25 & Hook spanners 13 4 Hook spanners for SNL housings 14 6 Adjustable hook spanners 13 5 SYSTEM 24 automatic lubricator SYSTEM MultiPoint automatic lubricator SYSTEM 24 automatic lubricator Grease filler pump Grease filler pump Grease pump Mobile grease pump Grease pump Grease pump Grease pump Grease gun Grease meter Grease nipples set Grease packer Grease nozzle set Trolley for drums Oil leveller Oil leveller Antifret 119 High viscosity grease Extreme pressure grease 57 1 Extreme high temperature grease Extremely high viscosity grease Food compatible grease 57 1 Biodegradable grease High viscosity, high temperature grease High performance grease 61 1 Low temperature, high speed grease 59 1 All purpose grease 56 1 All purpose grease 56 1 Wide temperature range grease Extreme pressure, low temperature grease Dismounting fluid 0 0 Food compatible oil. SYSTEM High temperature oil, SYSTEM Mounting fluid Medium temperature oil. SYSTEM Anticorrosive Airdriven pump Airdriven pump set Airdriven pump Airdriven pump set Airdriven pump Airdriven pump set Portable induction heater 17 8 Induction heater 18 8 Induction heater for continuous use 18 8 Efficient induction heater 19 8 Induction heater trolley 9 Precision shims Heat resistant gloves Disposable grease resistant gloves Extreme heat resistant gloves Heat and oil resistant gloves Special working gloves SCORPIO induction heater 16 7 Blind housing puller kit Aluminium ring series Strong back puller Strong back puller Strong back puller Horizontal dial indicator, mm Vertical dial indicator Horizontal dial indicator, in ЩШШЯШШШ^ШШМ ШШШШ 135

137 index Description Page TD Description Page TD TMDT 1300 TMDT 230 TMDT 231 TMDT 232 TMDT 233 TMDT 234 TMDT 234/1.5 TMDT 235 TMDT 235/1.5 TMDT 236 TMDT 237 TMDT 238 TMDT 239 TMDT 240 TMDT 241 TMDT 241A TMDT 242 TMDT 243 TMEA IP/2.5 TMEA IPEx TMEA 2 TMEA PI TMEB2 TMEH1 TMEM 1500 TMFN series TMFS series TMFT 33 TMHC1E TMHK 35 TMHK 36 TMHK 37 TMHK 38 TMHK 38S TMHK 39 TMHK 40 TMHK 41 TMHN7 TMHP E TMHP 15 TMHP 30 TMHP 50 TMHS 5E TMHS 8E TMJE 300 TMJE 400 TMJG 0D TMJL0 TMJL0SRB TMJL 50 TMJL 50SRB TMMA3 TMMA5 TMMA 5E TMMA8 TMMA 8E TMMA8E/SET TMMD 61 TMMP TMMP 15 TMMP 2x170 TMMP 2x65 TMMP 3x185 Dual channel digital thermometer Standard surface probe Magnetic surface probe Insulated surface probe Right angle surface probe Gas and liquid probe Gas and liquid probe Probe with sharp tip Probe with sharp tip Pipe clamp probe Extension cable Wire probe High temperature wire probe Rotating probe Nonferrous foundry probe Dipelement Ambient temperature probe Heavy duty surface probe Laser shaft alignment tool with printer r 43 Intrinsically safe laser shaft alignment tool with printer 43 Laser shaft alignment tool 42 Thermal printer Laser belt alignment tool Oil check monitor SensorMount indicator Impact spanners Axial lock nut sockets Bearing fitting tool kit Hydraulic puller kit Mounting & dismounting kit for OK couplings Mounting & dismounting kit for OK couplings Mounting & dismounting kit for OK couplings Mounting & dismounting kit for OK couplings Mounting & dismounting kit i for OK couplings Mounting & dismounting kit i for OK couplings Mounting & dismounting kit for OK couplings Mounting & dismounting kit for OK couplings Lock nut spanner kit Hydraulic jaw puller kit Hydraulically assisted heavy duty jaw puller 90 Hydraulically assisted heavy duty jaw puller 90 Hydraulically assisted heavy duty jaw puller 90 Advanced hydraulic spindle Advanced hydraulic spindle Oil injection set Oil injection set ; Digital pressure gauge. MPa Hydraulic pump Hydraulic pump with digital gauge Hydraulic pump Hydraulic pump with digital gauge Springoperated jaw puller Springoperated jaw puller Hydraulic springoperated jaw puller Springoperated jaw puller 86 Hydraulic springoperated jaw puller 86 Hydraulic springoperated jaw puller set 87 Blind housing puller kit Heavy duty jaw puller Heavy duty jaw puller Standard jaw puller Standard jaw puller Standard jaw puller IS TMMP 3x230 TMMP 3x300 TMMP 6 TMMR 1F TMMR 160F TMMR 0F TMMR 250F TMMR 350F TMMR 40F TMMR 60F TMMR 8 TMMR 80F TMMS 0 TMMS 160 TMMS 260 TMMS 380 TMMS 50 TMMX 2 TMMX 280 TMMX 350 TMRT1 TMRT156 TMRT 160 TMRT lex TMSC 3060 TMSC6 TMST2 TMTL 260 TMTP 0 TMTP 0Ex VKN 550 Standard jaw puller Standard jaw puller Heavy duty jaw puller Reversible jaw puller Reversible jaw puller Reversible jaw puller Reversible jaw puller Reversible jaw puller Reversible jaw puller Reversible jaw puller Reversible jaw puller set Reversible jaw puller Trisection pulling plate Trisection pulling plate Trisection pulling plate Trisection pulling plate Trisection pulling plate Puller protection blanket Puller protection blanket Puller protection blanket Multifunction laser and contact tachometer Laser remote sensor for TMRT 1 Bracket for laser remote sensor Intrinsically safe multifunction i laser and contact tachometer Internal bearing puller kit Internal bearing puller kit Electronic stethoscope \ Noncontact lasersighted thermometer General purpose thermometer Intrinsically safe contact thermometer Bearing packer / b

Mounting and Lubrication Includes mechanical fitting tools, induction heaters and hydraulic equipment Alignment Includes shaft and belt alignment tools and machinery shims Relubrication Includes

138 Mounting and Lubrication Includes mechanical fitting tools, induction heaters and hydraulic equipment Alignment Includes shaft and belt alignment tools and machinery shims Relubrication Includes bearing greases, manual and automatic lubricators and lubrication accessories Basic Condition Monitoring Includes temperature, noise, speed and vibration measuring instruments Dismounting Includes pullers, both mechanical and hydraulic, induction heaters and hydraulic equipment SKF Maintenance Products Copyright SKF 05/04

Федеральный информационный фонд отечественных и иностранных каталогов на промышленную продукцию Каталог был представлен на выставке «Нефтегаз 06» Каталог включен в базу данных «Федерального

139 Федеральный информационный фонд отечественных и иностранных каталогов на промышленную продукцию Каталог был представлен на выставке «Нефтегаз 06» Каталог включен в базу данных «Федерального информационного фонда отечественных и иностранных каталогов на промышленную продукцию» Россия,5679, Москва, Измайловское шоссе, 44, Тел./факс (095)36650, , ; fkatalog(a)mail.ru, Электронная копия издания изготовлена с целью её включения в базы данных Федерального информационного фонда отечественных и иностранных каталогов на промышленную продукцию, которые формируются в соответствии с Постановлением Правительства РФ от 24 июля 1997 г. 950 и Постановлением Правительства РФ от 31 декабря 1999 г. 2172р и зарегистрированы Комитетом по политике информатизации при Президенте РФ под год

SKF Maintenance and Lubrication Products

SKF Maintenance and Lubrication Products Basic Condition Monitoring Includes temperature, noise, speed and vibration measuring instruments Dismounting Includes pullers, both mechanical and hydraulic, induction heaters and hydraulic equipment