Series G Industrial Reducers

Series G Industrial Reducers Technical p to -,860kW / 65,000 Nm Industrial Reducers CG-2.00GB3

PRODCTS IN TE RANGE Serving an entire spectrum of mechanical drive applications from food, energy, mining and metal; to automotive, aerospace and marine propulsion, we are here to make a positive difference to the supply of drive solutions. Series A Worm Gear units and geared motors in single & double reduction types Series BD Screwjack worm gear unit Series BS Worm gear unit Series C Right angle drive helical worm geared motors & reducers Series F Parallel angle helical bevel helical geared motors & reducers Series G elical parallel shaft & bevel helical right angle drive gear units Series Large helical parallel shaft & bevel helical right angle drive units Series J Shaft mounted helical speed reducers Series K Right angle helical bevel helical geared motors & reducers Series In-line helical geared motors & reducers Roloid Gear Pump Lubrication and fluid transportation pump Series X Cone Ring Pin and bush elastomer coupling Series X Gear Torsionally rigid, high torque coupling Series X Grid Double flexing steel grid coupling Series X Nylicon Gear coupling with nylon sleeve Series X Torque Limiter Overload protection device We offer a wide range of repair services and many years experience of repairing demanding and highly critical transmissions in numerous industries. We can create custom engineered transmission solutions of any size and configuration.

ATEX Compliance Assured Total compliance with the ATEX Directive safeguarding the use of industrial equipment in potentially explosive atmospheres is assured for users of our geared products. equipment group/category. suppliers of electrical and non-electrical equipment for use in 2 or 3 for surface industries in designated hazardous location 22 for dusts.

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General Description nit Designations 2 Design Features 3-4 Explanation and use of Ratings and Service Factors 5-7 Selection Procedure 8-9 Lubrication 0 nit andings and Shaft Rotations - 2 Standard Shaft Sealing Arrangements 3 Inputshaft Options 4 Outputshaft Options 5 Outputbore Options 6 REDCER Overhung & Axial Loads on Shafts 9-20 Agitator Applications 2-22 Parallel Shaft nits oments of Inertia 25 Exact Ratios 26 echanical Ratings - Input Power / Output Torque 27-3 Thermal Ratings 32 Dimension Sheets - Speed Reducers 33-36 Fan Cooling 37 Right Angle Shaft nits oments of Inertia 39 Exact Ratios 40 echanical Ratings - Input Power / Output Torque 4-45 Thermal Ratings 46 Dimension Sheets - Speed Reducers 47-52 Fan Cooling 53 ollow Output Shaft with Shrink Disc 54 Keyed Sleeves 55 Cooling Coil Connections 56 Backstops 57 Torque Arm 58 OTORISED Dimension Sheets - Geared otors 60-6 SERIES G CONTENTS PAGE

GENERAL DESCRIPTION Series G Series G gear units are available in parallel shaft helical units and right angle shaft bevel/helical units in double, triple and quadruple reduction gear stages having a maximum output torque of up to 62,000 Nm. The modular design and construction of the Series G offers many engineering and interchangeability of parts and sub assemblies. This in turn provides considerable economies of production whilst maintaining the highest standard of component integrity. Adding to the range of power transmission geared motors this product takes advantage of our many years of accumulated design expertise together with the use of high quality materials and components. The end result is a series of speed reducing gear units offering high load running and reliability. Parallel shaft unit Right angle shaft unit The Range Includes 6.3: to 35:. Right angle bevel/helical units. Design Features Include Type 'J' right angle shaft unit running. mounting positions or alternatively vertical mounting. Right angle shaft unit with mechanical fan and hollow output shaft with shrink disc heavy duty agitator or tower applications. bore for output shaft mounting. Output bores are connected by a shrink disc or can be supplied with a keyed sleeve. Parallel shaft unit with a lantern housing coupling and motor units when required to operate in non-reversing drives. As improvements in design are being made as binding in detail and drawings and capacities drawings will be sent on request. Right angle heavy duty agitator unit

NIT DESIGNATIONS 2 3 4 5 6 7 8 9 0 2 3 4 5 6 7 8 9 20 * EXAPLE G 4 3 0 5 0. - - - - R L - - - - - SERIES G * TIS PAGE AY BE POTOCOPIED ALLOWING TE CSTOER TO ENTER TEIR ORDER 20 - TORQE AR & GEARCASE FINIS RANGE G - - NO TORQE AR + STD PAINT 2, 3 - SIZE OF NIT 4 TROG 2 2 T C - TORQE AR + STD PAINT - STD EXTREE CLIATIC PAINT F - STD EXTREE CLIATIC PAINT + TORQE AR Z - SPECIAL 4 - NO OF REDCTIONS 2 TROG 4 9 - CASE CONSTRCTION - - CAST IRON 5 - REVISION VERSION 0 ETC 6, 7, 8 - NOINAL OVERALL RATIO eg 8. 0 5 0. See pages 26 for parallel shaft units 40 for right angle units S - SG IRON F - FABRICATED STEEL CASE 8 - OIL LEVEL - - DIPSTICK G - SIGTGLASS 7 - COOLING - - NONE 9 - NIT VERSION F C - ECANICAL FAN - COOLING COIL - ORIZONTAL PARALLEL SAFT NIT A - ECANICAL FAN & COOLING COIL V - VERTICAL PARALLEL SAFT NIT B R - ORIZONTAL RIGT ANGLE NIT - VERTICAL RIGT ANGLE NIT 6 - SAFT ROTATION 0 - OTPTSAFT - - ETRIC SOLID SINGLE EXTENSION D - ETRIC SOLID DOBLE EXTENSION 2 3 OR 4 SEE PAGES and 2 4, 5 - NIT ANDLING eg R L SEE PAGES and 2 F G A C N P L R S T J K - ETRIC SOLID SINGLE EXTENSION (REVERSIBLE) - ETRIC SOLID DOBLE EXTENSION (REVERSIBLE) - ETRIC AGITATOR WIT DROP BEARING OSING - ETRIC TOWER WIT EXTENDED BEARING OSING - INC SOLID SINGLE EXTENSION - INC SOLID DOBLE EXTENSION - INC SOLID SINGLE EXTENSION (REVERSIBLE) - INC SOLID DOBLE EXTENSION (REVERSIBLE) - INC AGITATOR WIT DROP BEARING OSING - INC TOWER WIT EXTENDED BEARING OSING - STD OLLOW SLEEVE WIT SRINK DISC - STD OLLOW SLEEVE WIT SRINK DISC (REVERSIBLE) - STD KEYED OLLOW SLEEVE (REVERSIBLE) - INPTSAFT 3 - TYPE OF NIT FOR REDCER (STANDARD NIT) ENTER - TO ALLOW FITTING OF OTOR SEE PAGES 60 and 6 2 - BACKSTOP - - NO BACKSTOP X - BACKSTOP FITTED - - ETRIC STANDARD SINGLE EXTENSION D - ETRIC DOBLE EXTENDED PARALLEL NIT N - INC STANDARD SINGLE EXTENSION P - INC DOBLE EXTENDED PARALLEL NIT L - ETRIC EAVY DTY SINGLE EXTENSION (FOR RIGT ANGLE NITS ONLY) REVERSIBLE OPTION SOLD BE SELECTED FOR ALL NITS SBJECT TO TORQE REVERSALS (see page 5 for explanation of use and associated rating factors) 2

DESIGN FEATRES Shaft ounted nits Shaft mounted units can be mounted on the driven machine shaft extension and connected to the foundation by a torque arm, supplied as an optional extra. Additionally, unit feet are available for mounting on a baseplate with motor and coupling, the complete assembly being mounted on the driven machine shaft extension and connected to the foundation by a torque arm. It is positioned on the input side of the gear unit. otorised Gear nits Baseplates Standard baseplates can be supplied for units with parallel or right angle shafts. Assemblies comprise of gear units and Baseplates for right angle shaft gear units are designed for use with either foot or shaft mounted arrangements, and provision is made for attaching torque arms where required. Designs provide ample stiffness to prevent distortion under load. Full details are available from our Application Engineers. Backstops They are located on the helical pinion shaft and have adequate capacities to deal with full rated torques. All backstops are centrifugal lift off type. Changing the direction of locking rotation is a simple operation. If required, a torque limiting back- Preservation / Protection Series G gear units are despatched without oil. Prior to despatch they are test run with a rust preventative oil giving adequate protection to internal parts for a period of six months covering normal transport and covered storage. Shaft extensions and hollow output shafts are protected with a rust inhibitor which is proof against sea water and suitable for under-cover storage up to 2 months. Note: Where gear units are to operate in abnormal conditions, or where they are to stand for long periods without run- 3

DESIGN FEATRES Gears igh quality alloy case hardening materials provide long life wear resistance and fatigue strength. spiral bevel and helical gears. Gearcases Standard gearcases are of rigid cast iron construction with modern styling, special cases can be supplied as SG iron or fabricated steel. Inspection cover provided for viewing gear contacts. Gearcase Finish Gearcase housings are shot blasted to SA 2-/2 (or better) prior to painting. Standard Paint System - Short oil alkyd resin/pigment semi-gloss, Colour: - RAL 5009 (Blue). Optional Paint System for Extreme Climatic and Environmental Conditions - Two pack epoxy acrylic Both paint systems are resistant to dilute acids and alkalis, oils and solvents, sea water and temperatures up to 40 Deg C. External Dimensions Shaft extensions and hollow wheelshaft bores are to metric standards. Fasteners are metric. Lubrication Lubrication in most instances is by the transfer of oil by gears dipping in the sumps of gear unit bases. Where high pitch line speeds could cause churning of the lubricant. Spray lubrication is necessary where shown and complete systems can be supplied when required. The unit oil grade and change period will be stamped on the nameplate. The change period will be 6 months for mineral oil o C. Oil nits are provided with a dipstick, ventilator and drain plugs. Cooling Depending on the application standard gear units are cooled by:- Normal heat dissipation by convection from external surfaces. Fan and cooling coil. Separate oil cooler incorporated in forced lubrication system. 4

5 SERIES G Gear unit selection is made by comparing actual loads with catalogue ratings. Catalogue ratings are based on a standard set of loading conditions, whereas actual load conditions vary according to type of application. Service Factors are therefore used to calculate an equivalent load to compare with catalogue ratings. i.e. Equivalent Load = Actual Load x Service Factor echanical and Thermal Service Factor must be considered:- echanical Service Factors Fm and Fs Thermal Service Factors Ft, Fd, Fh and Fv echanical ratings and service factors Fm and Fs echanical ratings measure capacity in terms of life and/or strength, assuming 0 hr/day continuous running under uniform load conditions. Catalogue ratings allow 00% overload at starting, braking or momentarily during operation up to 0 times per day. The unit selected must therefore have a catalogue rating at least equal to half maximum overload. echanical Service Factor Fm (Table ) is used to modify the actual load according to daily operating time, and type of loading. Required mechanical power rating P(mech) = absorbed power x Fm Load characteristics for a wide range of applications are detailed in Table 3 opposite, which are used in deciding the appropriate Service Factor Fm from Table. If loading can be calculated, or accurately assessed, actual loads should be used instead modifying using Fm. For units subject to torque reversal or frequent stop/start overloads in excess of 0 times per day, the following check should be made gear unit input power capacity (kw) > Tm x Fs x n 2 x 9550 n = input speed (rev/min) Fs = number of starts factor (See table 2) For applications where high inertia loads are involved e.g. crane travel drives, slewing motion etc, or when units are to operate in extremely dusty or moist/humid atmospheres, unit selection should be referred to our Application Engineers. Table. echanical Service Factor (Fm) Prime over Electric motor, stream turbine or hydraulic motor ulti-cylinder internal combustion engine Single cylinder internal combustion engine Duration of service hours per day Table 2. Number of Starts Factor (Fs) Start / Stops per hour () p to Note: () Intermediate values are obtained by linear interpolation niform oderate Shock eavy Shock nder 3.00.00.50 3 to 0.00.25.75 Over 0.25.50 2.00 nder 3.00.25.75 3 to 0.25.50 2.00 Over 0.50.75 2.25 nder 3.25.50 2.00 3 to 0.50.75 2.25 Over 0.75 2.00 2.50 5 0 40 60 >200 nidirectional.0.03.06.0.5.20 Reversing.4.45.50.55.60.70 EXPLANATION AND SE OF RATINGS AND ASSOCIATED RATING FACTORS

EXPLANATION AND SE OF RATINGS AND ASSOCIATED RATING FACTORS Table 3 = niform load = oderate shock load = eavy shock load = Refer to Application Engineering Driven achine Agitators pure liquids liquids and solids liquids-variable density Blowers centrifugal lobe vane Brewing and distilling bottling machinery brew kettles-continuous duty cookers-continuous duty mash tubs-continuous duty scale hopper-frequent starts Cane knifes Car dumpers Car pullers Clay working machinery brick press briquette machine clay working machinery pug mill Compressors centrifugal lobe reciprocating multi-cylinder single cylinder Conveyors-uniformly loaded or fed apron assembly belt bucket chain oven screw Conveyors-heavy duty not uniformly fed apron assembly belt bucket chain live roll oven reciprocating screw shaker type of load Driven achine type of Driven achine type of Driven achine load load Cranes main hoists bridge travel trolley travel Crusher ore stone sugar Dredges cable reels conveyors cutter head drives jig drives manoeuvring winches pumps screen drive stackers utility winches Dry dock cranes main hoist auxiliary hoist rotating, swing or slew tracking, drive wheels Elevators bucket-uniform load bucket-heavy load bucket-continuous centrifugal discharge escalators freight gravity discharge man lifts passenger Fans centrifugal cooling towers induced draft forced draft induced draft large, mine, etc large, industrial light, small diameter Feeders apron belt disc reciprocating screw Food industry beef slicer cereal cooker dough mixer meat grinders Generators-not welding ammer mills oists heavy duty medium duty skip hoist Laundry washers reversing Laundry tumblers Line shafts driving processing equipment light other line shafts Lumber industry barkers-hydraulicmechanical burner conveyor chain saw and drag saw chain transfer craneway transfer de-barking drum edger feed gang feed green chain live rolls log deck log haul-incline log haul-well type log turning device main log conveyor off bearing rolls planer feed chains planer tilting hoist re-saw merry-go-round conveyor roll cases slab conveyor small waste conveyor-belt small waste conveyor-chain sorting table tipple hoist conveyor tipple hoist drive transfer conveyors transfer rolls tray drive trimmer feed waste conveyor achine tools bending roll punch press-gear driven notching press- belt driven plate planers tapping machine other machine tools main drives auxiliary drives etal mills draw bench carriage and main drive pinch, dryer and scrubber rolls-reversing slitters table conveyors non-reversing group drives individual drives reversing wire drawing and wire winding machine ill-rotary type ball cement kilns dryers and coolers kilns, other than cement pebble rod plain wedge bar tumbling barrels ixers concrete mixers -continuous concrete mixers -intermittent constant density variable density Oil industry chillers oil well pumping rotary kilns Paper mills agitators, (mixers) barker-auxiliarieshydraulic barker-mechanical barking drum beater and pulper bleacher calenders calenders-super converting machine, except cutters, platers conveyors couch cutters-plates cylinders dryers felt stretcher felt whipper jordans log haul presses pulp machine reel stock chest suction roll washers and thickeners winders Printing presses Pullers barge haul Pumps centrifugal proportioning reciprocating single acting; 3 or more cylinders double acting; 2 or more cylinders single acting; or 2 cylinders double acting; single cylinder rotary gear type lobe, vane Rubber and plastics industries crackers laboratory equipment mixed mills rubber calenders rubber mill-2 on line rubber mill-3 on line sheeter tire building machines tire and tube press openers tubers and strainers warming mills Sand muller Sewage disposal equipment bar screens chemical feeders collectors dewatering screws scum breakers slow or rapid mixers thickeners Screens air washing rotary-stone or gravel travelling water intake Slab pushers Steering gear Stokers Sugar industry cane knives crushers mills Textile industry batchers calenders cards dry cans dryers dyeing machinery knitting machines looms mangles nappers pads range drives slashers soapers spinners tenter frames washers winders Windlass type of load 6

EXPLANATION AND SE OF RATINGS AND ASSOCIATED RATING FACTORS Thermal ratings and service factors The Thermal ratings are a measure of the gear units ability to dissipate heat. If they are exceeded the lubricant may overheat and breakdown, resulting in gear failure. Thermal ratings are given on page 32 for parallel shaft units and page 46 for right angle shaft units. The following choices are available: i) No additional cooling Catalogue thermal limitations are based on the unit operating continuously in an environment with an ambient temperature equal to 25 o per hour, altitude and operating area. To account for these varying conditions, the service factors given in tables 4, 5, 6 and 7 should be applied as follows:- Ptherm = Absorbed Power Ft x Fd x Fh x Fv Ptherm = Required thermal rating (kw) Ft = Service factor for ambient temperature (see Table 4) Fd = Service factor for intermittent duty (see Table 5) Fh = Thermal service factor for altitude (see Table 6) Fv = Thermal service factor for air velocity correction (operating area) (see Table 7) Table 4. Ambient Temperature Factor (Ft) nit Type Ambient Temperature -20 C -0 C 0 C 5 C 25 C 30 C 35 C 45 C All nits.65.50.35.4.00 0.93 0.86 0.7 Table 5. Intermittent Duty Factor (Fd) nit Output % Running time per hour Speed (Rev / min) 00 80 60 40 20 0 to 0.00.8.45.72 2.38 >0 to 25.00.6.39.64 2.22 >25 to 50.00.4.3.54 2.00 >50 to 00.00.08.9.33.64 >00 to 50.00.04.08.9.4 >50 to 200.00.00.00.06.23 >200.00.00.00.00.00 Table 6. Altitude Adjustment Factor (Fh) Altitude (m) Factor Fh Sea Level.0 500 0.97 000 0.93 500 0.90 2000 0.87 3000 0.8 4000 0.75 5000 0.70 Table 7. Ambient Air Velocity Correction Factor (Fv) se Fv =.0 For Fan Cooled nits Operating Area Small con- (no fan) Large indoor space (& fan cooled) Sheltered outdoor space (no fan) Outdoor space (no fan) If Vv is not known use this value for Fv Air Velocity Vv m/sec Factor Fv If Vv is known use this formula for Fv 0.86 0 -.4 Fv = 0. Vv + 0.86 >.4 - < 6 Fv = 0.2 Vv + 0.72.3 >2 - < 6 Fv = 0.7 Vv + 0.9.5 > 2 Fv = 0.7 Vv + 0.9 (max Fv =.92) General When checking thermal capacities of units, use actual load required to be transmitted, not rating of prime mover. 7

SELECTION PROCEDRE EXAPLE APPLICATION DETAILS Absorbed power of driven machine = 70 kw Output speed of gearbox or Input speed of machine = 65 rev/min Application = niformly loaded belt conveyor operating in a large indoor space Duration of service (hours per day) = 24hrs otor speed = 3 phase electric motor, 4 pole, 450 rev/min Ambient temperature = 35 o C Running time (%) = 00% Altitude = Sea Level DETERINE RATIO OF GEARBOX REQIRED otor speed 450 = 22.3 Gearbox output speed 65 Refer to exact ratios (page 40) for nearest standard ratio = 22: 3 DETERINE REQIRED ECANICAL OTPT TORQE CAPACITY OF GEARBOX Required mechanical = Absorbed power x Fm rating (Pmech) Pmech = 70 x.25 = 87.5 kw 2 DETERINE ECANICAL SERVICE FACTOR (Fm) Application = niformly loaded belt conveyor Conveyors-uniformly loaded or fed apron assembly belt bucket chain = niform load Refer to mechanical service factor (Fm), table, page 5 Duration of service (hours per day) = 24hrs Prime mover Electric motor, steam turbine or hydraulic motor Duration of servicehrs per day niform Shock oderate nder 3 0.80.00 3 to 0.00.25 Over 0.25.50 Therefore mechanical service factor (Fm) =.25 4 DETERINE SIZE OF GEAR BOX REQIRED Refer to ratings tables, Input speed = 450rev/min, therefore refer to page 42. NOINAL RATIO 22. NOINAL OT- PT SPEED REV / IN 65.9 nit input power capacity > Pmech CAPACITY G4 RIGT ANGLE NIT - SIZE G5 G6 G7 Input Power - kw 69.2 03 85 243 Output Torque - Nm 9550 4000 23700 35300 echanical input power capacity must be equal or more than required mechanical input power capacity of the gear box (Pmech). Required mechanical input power = 87.5 kw. At a 22: ratio, nominal output speed 65.9 a G5 unit has a mechanical input power capacity of 03 kw. Therefore the unit is acceptable. If the unit is subject to torque reversal or frequent stop /starts the input power capacity must be checked in accordance with the formulae on page 5. 5 DETERINE EXACT RATIO OF GEARBOX Refer to exact ratios table, page 40 Nominal Ratio Column Entry 6 7 8 4 5 6 7 Go to point 6 page 9 2 2. 2.775 2.54 2.756 22.894 Exact ratio = 2.54 8

SELECTION PROCEDRE 6 DETERINE TERAL SERVICE FACTOR (Ft) Refer to table 4, page 7 Ambient temperature = 35 o C Ambient temperature o C Ft = 0.86-20 -0 0 5 25 30 35 Factor Ft.65.50.35.4.00 0.93 0.86 8 DETERINE ALTITDE ADJSTENT TERAL SERVICE FACTOR (Fh) Refer to table 6, page 7 7 DETERINE TERAL SERVICE FACTOR (Fd) Refer to table 5, page 7 nit running time per hour = 00% Nominal output speed (rev/min) = 65.9 % Running time per hour nit Output Speed (Rev / min) 00 80 >0 to 25.0.6 >25 to 50.0.4 >50 to 00.0.08 Fd =.0 Altitude (m) Factor Fh Sea Level.0 500 0.97 000 0.93 Fh =.0 9 DETERINE ABIENT AIR VELOCITY FACTOR (Fv) Operating Area If Vv is not known use this value for Fv Air Velocity Vv m/sec Factor Fv If Vv is known use this formula for Fv 0 CALCLATE REQIRED TERAL RATING Ptherm Ptherm = Absorbed Power (kw) Ft x Fd x Fh x Fv Ptherm = 70 0.86 x.0 x.0 x.0 Ptherm = 8.4 kw space Large indoor.0 >.4 - < 6 Fv = 0.2 Vv + 0.72 space & fan cooled Fv =.0 CECK TERAL CAPACITY Refer to Page 46 Thermal Ratings Kw Type of Cooling No Additional Cooling Fan Cooling Input Speed (rev/min) 960 750 450 60 960 Cooling Coil 750 Thermal Rating > Ptherm Right Angle Shaft nits - Triple Reduction Ratio G430 G530 G630 2: 62 65 07 25: 49 54 9 56: 3 37 65 2: 79 8 288 25: 54 6 26 56: 24 2 2: 58 6 259 25: 35 42 234 56: 96 08 87 2: 38 40 230 25: 7 23 207 56: 83 93 63 2: 24 26 20 25: 04 0 88 56: 73 83 47 2: 74 80 28 25: 49 60 255 56: 06 23 205 Ptherm = 8.4 kw therefore unit requires cooling. Thermal rating for the nearest fan cooled G5 unit is 25: ratio = 42 Kw. Thermal capacity is therefore acceptable. 2 CECK OVERNG LOADS If sprocket, gear, etc is mounted on the input or output shaft then refer to Overhung loads procedure, pages 8 TO 24 3 CECK COPLING B CAPACITIES If any of the following conditions occur then our Application Engineers must be consulted:- a) Inertia of the Driven achine (Referred to motor speed) >.0 b) Ambient temperature is above 50 o C Inertia of Gear nit plus otor 9

type of oil will be stamped on the nameplate in accordance with either of the types of oil from tables 2 and 3. Recommended oils are listed in the Approved Lubrication scheme booklet. The oil change period will be as stated in the lubrication section of Design Features page 4. overheating. Where possible run the unit without load for a short time to circulate the lubricant thoroughly, then stop the unit and recheck the oil level after allowing the unit to stand for 0 minutes and if necessary top up to the correct mark on the dipstick or any other In addition where bearings are grease packed, the greases approved are NLGI grade 2 and recommended greases are listed in the Approved Lubrication scheme booklet. TABLE LBRICANT QANTITY (Litres) LBRICATION nit Type NIT SIZE 4 5 6 7 8 9 2 22 Parallel Shaft 2 Stage Parallel Shaft 3 Stage Parallel Shaft 4 Stage Right Angle 3 Stage Right Angle 4 Stage 22 20 47 42 92 95 80 6 Vertical 8 8 40 37 80 85 40 50 2 9 46 4 9 94 85 75 Vertical 8 8 40 37 80 85 40 55 2 9 46 4 9 94 85 75 Vertical 8 8 40 37 80 85 40 55 2 9 47 42 92 95 85 75 Vertical 20 20 43 39 87 92 40 70 - - 48 43 94 96 90 75 Vertical - - 45 39 89 89 40 85 TABLE 2 OIL GRADES EP ineral Oil (type E) ABIENT TEPERATRE RANGE LBRICANT -5 C to 20 C 0 C to 35 C 20 C to 50 C Oil Grade 5E (VG 220) 6E (VG 320) 7E (VG 460) TABLE 3 OIL GRADES ABIENT TEPERATRE RANGE LBRICANT -30 C to 35 C 20 C to 50 C Oil Grade 5 (VG 220) 6 (VG 320) 0

Column 4 Entry - Output Shaft Positions L SINGLE EXTENSION ON LEFT R SINGLE EXTENSION ON RIGT SERIES G NIT ANDINGS & SAFT ROTATIONS PARALLEL SAFT NITS D DOBLE EXTENSION l Vertical l Vertical l (Not applicable on vertical units) Column 6 Entry - Shaft Rotations output shaft end** (This side if double extended or keyed hollow sleeve) Note: for shaft mounted units driven machine side (opposite to shriink disc) is assumed as extension side. Column 5 Entry - Input Shaft Positions L R D SINGLE EXTENSION ON LEFT SINGLE EXTENSION ON RIGT DOBLE EXTENSION l Vertical l (Not applicable on vertical units) l (Not applicable on vertical units) ** Driven machine side for shaft mounted units, opposite side to shrink disc. Rotation Parallel Shaft Outputshaft Inputshaft 2 Stage & 4 Stage 3 Stage Clockwise Clockwise (std) n/a Anticlockwise Anticlockwise 2 n/a Clockwise Anticlockwise n/a (std) Anticlockwise Clockwise n/a 2 with a backstop (anti-runback device). (std) if no rotation is entered rotation will be assumed as standard build. L R R R D R R L L L Double & Quadruple Reduction orizontal ounting R L D L L L L D R D D D Vertical ounting L R R R D R R L L L orizontal ounting Triple Reduction D L L D R D D D R L L L Vertical ounting Note: parallel shaft unit handings R R or L L are subject to a reduction in external overhung load capacities

Column 4 Entry - Output Shaft Positions L SINGLE EXTENSION ON LEFT R SINGLE EXTENSION ON RIGT SERIES G NIT ANDINGS & SAFT ROTATIONS RIGT ANGLE SAFT NITS D DOBLE EXTENSION orizontal Vertical orizontal Vertical orizontal (Not applicable on vertical units) Column 6 Entry - Shaft Rotations output shaft end** (This side if double extended or keyed hollow sleeve) Note: for shaft mounted units driven machine side (opposite to shriink disc) is assumed as extension side. Column 5 Entry - Input Shaft Positions orizontal B STANDARD RIGT ANGLE EXTENSION Vertical orizontal J RIGT ANGLE NIT TYPE J Vertical Note: Only available for ratios: G4, G6, G8 nits - Ratios 22 to 63 G5, G7, G9, G22 nits - Ratios 28 to 80 G2 nits - Ratios 25 to 7 ** Driven machine side for shaft mounted units, opposite side to shrink disc. Rotation Right Angle Shafts Outputshaft Inputshaft 3 Stage & 4 Stage Clockwise Clockwise (std) Anticlockwise Anticlockwise 2 Clockwise Anticlockwise 3 * Anticlockwise Clockwise 4 * with a backstop (anti-runback device). (std) if no rotation is entered rotation will be assumed as standard build. Right Angle Shafts - Triple & Quadruple Reduction orizontal ounting Vertical ounting L R B B R L B B D B L J R J D J orizontal ounting Type J Shafts - Triple Reduction Vertical ounting R J L J Note: For units fitted with a backstop please see page 58 for backstop position. 2

STANDARD SAFT SEALING ARRANGEENTS Right Angle nit Input Shaft eavy Duty Agitator nit Output Shaft Face Seal (to prevent ingress of foreign bodies) Labyrinth (Grease packed) Viton Lip Seal Parallel nit Input Shaft Flinger (to eliminate oil surge from bearing to seal Face Seal Drywell Bearing (Grease purge) Lip Seal Face Seal (to prevent ingress of foreign bodies) Labyrinth (Grease packed) Viton Lip Seal Labyrinth (Grease purge) eavy Duty Tower nit Output Shaft G2 & G22 nits Face Seal (to prevent ingress of foreign bodies) Viton Lip Seal Standard nit Output Shaft Labyrinth (Grease packed) Flinger Labyrinth (Grease purge) Lip Seal Lip Seal Labyrinth (Grease purge) 3

INPTSAFT OPTIONS * Inch shaft has an open ended keyway, therefore no Parallel Shaft nits SIZE OF NIT TYPE OF INPTSAFT 4 AND 5 Standard etric 6 AND 7 Standard etric 8 AND 9 Standard etric 2 AND 22 Standard etric 4 AND 5 Inch 6 AND 7 Inch 8 AND 9 Inch 2 AND 22 Inch Right Angle Shaft nits SIZE OF NIT 4 AND 5 6 AND 7 8 AND 9 TYPE OF INPTSAFT C* Tapped hole dimn V4 NO OF REDCTIONS W2 W Y øv SERIES G INPTSAFT OPTIONS Z Column Entry etric Single - Inch Single Double D Double D L NO OF DIENSIONS IN (Inch Shaft in Inches) REDCTIONS C* øv V4 W W2 Y Z 2 Stage 3 50.08 6 38 30 4 53.5 50.002 x 36 3 and 4 Stage 3 35.08 2 99 90 0 38 35.002 x 25 2 Stage 3 60.03 20 48 40 8 64 60.0 x 43 3 and 4 Stage 3 45.08 6 8 0 4 48.5 45.002 x 36 2 Stage 3 85.035 24 90 80 22 90 85.03 x 52 3 and 4 Stage 3 60.03 20 50 40 8 64 60.0 x 43 2 Stage 3 0.035 30 20 200 28 6 0.03 x 63 3 and 4 Stage 3 80.03 20 90 80 22 85 80.0 x 43 2 Stage - 3 and 4 Stage - 2 Stage - 3 and 4 Stage - 2 Stage - 3 and 4 Stage - 2 Stage - 3 and 4 Stage -.8750 5/8 NF 5.3 4.3 0.500 2.0.8740 x.25 deep.3750 /2 NF 3.74 3.00 0.325.5.3745 x deep 2.2500 3/4 NF 5.7 4.3 0.500 2.47 2.2490 x.62 deep.7500 5/8 NF 4.53 4.3 0.375.92.7490 x.25 deep 3.2500 NF 7.48 5.88 0.750 3.58 3.2490 x 2 deep 2.2500 3/4 NF 5.7 4.3 0.500 2.47 2.2490 x.62 deep 4.2500 NF 8.27 7.5.000 4.69 4.2490 x 2 deep 3.0000 3/4 NF 7.48 6.50 0.750 3.33 2.9990 x.62 deep DIENSIONS IN (Inch Shaft in Inches) C* øv V4 W W2 Y Z Standard etric 38.08 / 38.002 2 x 32 00 90 0 4 3 Stage 3 D etric 50.08 / 50.002 4 53.5 Standard etric 50.08 / 50.002 6 x 36 40 30 4 53.5 3 Stage 3 D etric 60.030 / 60.0 8 64 Standard etric 38.08 / 38.002 2 x 32 00 90 0 4 4 Stage 3 D etric 50.08 / 50.002 4 53.5 Standard etric 75.0 / 75.030 20 x 43 60 50 20 79.5 3 Stage 3 D etric 90.035 / 90.03 25 95 Standard etric 50.08 / 50.002 6 x 36 40 30 4 53.5 4 Stage 3 D etric 60.030 / 60.0 8 64 2 AND 22 Standard etric 3 Stage 3 4 Stage 3 00.035 00.03 75.03 75.0 24 x 52 20 200 28 06 20 x 43 60 50 20 79.5 N P 4 AND 5 Inch 3 Stage - Inch 3 Stage - 6 AND 7 Inch 4 Stage - Inch 3 Stage - 8 AND 9 Inch 4 Stage - Inch 3 Stage - 2 AND 22 Inch 4 Stage - 4.5000 5/8 NF 3.94 3.44 0.375.66.4995 x.25 deep.8750 5/8 NF 5.5 4.3 0.500 2.0.8740 x.25 deep.5000 5/8 NF 3.94 3.44 0.375.66.4995 x.25 deep 3.0000 3/4 NF 6.30 5.25 0.750 3.33 2.9990 x.62 deep.8750 5/8 NF 5.5 4.3 0.500 2.0.8740 x.25 deep 4.0000 NF 8.27 7.5.00 4.44 3.9990 x 2 deep 3.0000 3/4 NF 6.30 5.25 0.750 3.33 2.9990 x.62 deep

OTPTSAFT OPTIONS OTPTSAFT OPTIONS Column 0 Entry Column 0 Entry * Inch shaft has an open ended keyway, there- required. C* Tapped hole dimn V5 W3 Y Z etric Single - Double D Agitator A Tower C Inch Single N Double P Agitator S Tower C W øv SIZE OF NIT 4 5 6 7 8 9 2 22 TYPE OF OTPTSAFT DIENSIONS IN (Inch Shaft in Inches) C* ØV V5 W W3 Y Z Standard Single Standard Double 5 0.035 30 x 3.5 80 70 28 6 Standard Agitator / Tower 0.03 63 deep Standard Single Standard Double 5 30.04 30 x 3.5 90 80 32 37 Standard Agitator / Tower 30.05 63 deep Standard Single Standard Double 5 45.04 42 x 4.5 230 220 36 53 Standard Agitator / Tower 45.05 8 deep Standard Single Standard Double 5 70.04 42 x 4.5 250 240 40 79 Standard Agitator / Tower 70.05 8 deep Standard Single Standard Double 5 90.046 42 x 4.5 300 290 45 200 Standard Agitator / Tower 90.07 8 deep Standard Single Standard Double 5 20.046 42 x 4.5 350 340 50 22 Standard Agitator / Tower 20.07 8 deep Standard Single Standard Double 5 220.046 42 x 4.5 350 340 50 23 Standard Agitator / Tower 220.07 8 deep Standard Single Standard Double 5 240.046 42 x 4.5 380 340 56 252 Standard Agitator / Tower 240.07 8 deep 4 5 6 7 8 9 2 22 Inch Single Inch Double - 4.500 NF 7.09 6.50.00 4.94 Inch Agitator / Tower 4.499 x 2 deep Inch Single Inch Double - 5.000 NF 7.48 7.3.25 5.55 Inch Agitator / Tower 4.999 x 2 deep Inch Single Inch Double - 6.000.25 NF 9.06 8.75.50 6.66 Inch Agitator / Tower 5.999 x 2.5 deep Inch Single Inch Double - 6.750.25 NF 9.84 9.38.75 7.39 Inch Agitator / Tower 6.749 x 2.5 deep Inch Single Inch Double - 7.500.5 NF.8.38.75 8.5 Inch Agitator / Tower 7.499 x 3 deep Inch Single Inch Double - 8.250.5 NF 3.78 3.00 2.00 8.88 Inch Agitator / Tower 8.249 x 3 deep Inch Single Inch Double - 8.500.5 NF 3.78 3.00 2.00 9.3 Inch Agitator / Tower 8.499 x 3 deep Inch Single Inch Double - 9.250.5 NF 4.96 4.25 2.50 9.95 Inch Agitator / Tower 9.249 x 3 deep 5

OTPTBORE OPTIONS OTPTBORE OPTIONS L L2 Column 0 Entry * etric With Shrink Disc L ød 3 ød ød 2 ød SIZE OF NIT TYPE OF OTPTBORE 4 Standard with Shrink Disc 5 Standard with Shrink Disc 6 Standard with Shrink Disc 7 Standard with Shrink Disc 8 Standard with Shrink Disc 9 Standard with Shrink Disc 2 Standard with Shrink Disc 22 Standard with Shrink Disc DIENSIONS IN (Inch Bore in Inches) ØD ØD ØD2 ØD3 L L L2 20 95.035 00.087 96 45 80 255 95.000 00.000 40 0.035 5.087 420 80 260 0.000 5.000 60 25.040 30.00 26 533 230 325 25.000 30.000 80 45.040 50.00 47 548 230 340 45.000 50.000 200 60.040 70.00 62 688 300 40 60.000 70.000 220 70.040 80.00 72 708 300 430 70.000 80.000 260 20.046 220.00 22 824 350 500 20.000 220.000 280 230.046 240.00 232 839 350 55 230.000 240.000 * Please see pages 55 & 56 for details of the hollow output shaft with Kibo bush 6

NOTES 7

REDCER SERIES G 8

aximum permissible overhung loads SERIES G When a sprocket, gear etc. is mounted on the shaft a calculation, as below, must be made to determine the overhung load on the shaft, and the results compared to the maximum permissible overhung loads tabulated. Overhung loads can be reduced by increasing the diameter of the sprocket, gear, etc. If the maximum permissible overhung load is exceeded, the sprocket, gear, extended to run in an outboard bearing. Alternatively, a larger gear is often a less expensive solution. Permissible overhung loads vary according to the direction of rotation. The values tabulated are for the most unfavourable direction with the unit transmitting full rated power and the load P applied midway along the shaft extension. ence they can sometimes be increased for a more favourable direction of rotation, or if the power transmitted is less than the rated capacity of the gear unit, or if the load is applied nearer to the gear unit case. Refer to our Application Engineers for further details. In any event, the sprocket, gear etc. should be positioned as close as possible to the gear unit case in order to reduce bearing loads and shaft stresses, and to prolong life. All units will accept 00% momentary overload on stated capacities. Overhung load (Newtons) Overhung member P = kw x 9,500,000 x K N x R where P = equivalent overhung load (Newtons) kw = power transmitted by the shaft (kilowatts) N = speed of shaft (rev/min) R = pitch radius of sprocket, etc. (mm) K = factor Note: Newton = 0.097 kg = 0.2248 lbs. Fra Frb Frb Chain sprocket*.00 Spur or helical pinion.25 Vee belt sheave.50 Flat belt pulley 2.00 OVERNG & AXIAL LOADS ON SAFTS K (factor) * If multistrand chain drives are equally loaded and the outer strand is further than dimension A output or B input, refer to our Application Engineers. A B B Output Shaft Parallel Input Shaft Right Angle Input Shaft Output Shaft - Distance 'A' (midway along the shaft extension) Dimension A(mm) G4 90 G5 95 G6 5 G7 25 G8 50 G9 75 G2 75 G22 90 Input Shaft - Distance 'B' (midway along the shaft extension) Parallel Shaft nit Right Angle Shaft nit 2 Stage 3 & 4 Stage 3 Stage 4 Stage G4 and G5 67.5 47.5 50 - G6 and G7 72.5 57.5 70 50 G8 and G9 95 72.5 80 70 G2 and G22 05 95 05 80 Axial Thrust Capacities (Newtons) Permissible axial thrust capacities vary according to the direction of rotation and the direction of thrust, towards or away from the unit. The values tabulated are for the most unfavourable direction and hence can sometimes be increased. Similarly they can sometimes be increased if the power transmitted is less than the rated capacity of the gear unit. Thrust capacities tabulated refer to outputshafts, and are calculated without any overhung loads being applied. In cases where combined axial thrusts and overhung loads are to be applied, refer to our Application Engineers. 9

OVERNG LOADS (Fra) ON OTPTSAFT (KN) Parallel Shaft nits andings: LR, RL, DL and DR Right Angle Shaft nits All handings with preferred shaft rotations SERIES G OVERNG & AXIAL LOADS ON SAFTS Shaft Speed (Rev/min) 4 5 6 7 8 9 2 22 < 240 25 40 43 82 85 6 30 60 < 80 27 43 46 82 87 6 30 60 < 30 29 47 49 82 90 6 30 60 < 90 32 50 52 82 95 6 30 60 < 45 34 55 55 82 0 6 97 97 < 20 3 55 55 82 6 6 275 275 OVERNG LOADS (Fra) ON OTPTSAFT (KN) Parallel Shaft nits andings: LL and RR Right Angle Shaft nits All handings with non-preferred shaft rotations Shaft Speed (Rev/min) 4 5 6 7 8 9 2 22 < 240 25 32 28 60 60 80 80 80 < 80 27 35 29 60 6 80 80 80 < 30 29 37 3 60 63 80 80 80 < 90 32 40 3 60 68 80 80 80 < 45 34 45 3 60 80 80 30 30 < 20 3 45 3 60 80 80 250 250 AXIAL TRST ON OTPTSAFT (KN) Shaft Speed (Rev/min) 4 5 6 7 8 9 2 22 < 240 5.0 8.5 8.0 25 6 26 26 36 < 80 5. 8.6 8.5 25 7 27 27 36 < 30 5.3 9.9 9.5 27 8 30 27 36 < 90 6.2 2 0 29 9 34 27 36 < 45 20 5 40 36 45 37 37 < 20 9 32 28 65 65 65 80 87 OVERNG LOADS (Frb) ON INPTSAFT (KN) nit Type 4 5 6 7 8 9 2 22 2 Stage 5 5 22 22 39 39 70 70 Parallel Shaft 3 and 4 Stage 6.9 6.9 9. 9. 6 6 25 25 2 Stage 6 6 4 4 56 56 Right Angle 3 and 4 Stage - - 6 6 4 4 20

To calculate the Bending oment on the gearbox output shaft using Association andbook No. 9:- Bending oment = Absorbed Power (kw) x 9.5 x L = knm Shaft Speed x 0.75 R The above information is given for guidance. When more precise bending moment values are available they should be used. SERIES G AGITATOR APPLICATIONS BENDING OENT CAPACITY Check the Bending oment Capacity of the Gearbox Agitator units are suitable for supporting a paddle directly coupled to the gearbox output shaft and for accepting the bending moments and axial thrusts generated from the forces at the paddle. Agitator type units have an extended bearing span and taper bearings to accept higher loads than the standard unit. Check the Bending oment Capacity limited by shaft stress, using Table 2. Output Torque (Nm) L metres Check the Bending oment Capacity limited by bearing life, using Table 3. R metres Note: Bearing Capacities are based on 0,000 hours, L0 life. For other bearing lives multiply the values in Table 3 by the factors in Table. P (kn) Table Bearing Life Factors (F B ) Required Life (hours) 3/ 4 R 5000 0000 25000 50000 00000 Factor.23 0.76 0.62 0.50 For intermediate values F B = ( 0000 ) 0.3 Required Life (hours) Table 2 Bending oment Capacity (knm) Allowable Bending oment at output shaft lower bearing, limited by SAFT STRESS nit Type 4 5 6 7 8 9 2 22 Agitator nits.2 7.3 24.2 37.3 50 68 02 ** Table 3 Bending oment Capacity (knm) Allowable Bending oment on output shaft bearings, limited by BEARING LIFE (0,000 hrs L0)* nit Type Agitator nits Output Speed rev/min 4 5 6 7 8 9 2 22 < 240 5.9 0.9.5 25.7 26.9 36.8 40 < 80 7.4 2.9 4.5 30. 33.7 45 53 < 30 0.6 6.8 2.2 38.9 48.8 6 84 < 90.5 8.4 22.9 42.6 53 68 9 < 45 6.6 25.2 33.3 55 73 89 33 < 20 24. 32.9 46.7 7 97 7 76 ** * For other lives multiply values by the factors in table ** Consult Application Engineering 2

AGITATOR APPLICATIONS AXIAL TRST LOADS Table 4 Axial thrust capacity (kn) Allowable thrust on output shaft, limited by COVER BOLT STRESS nit Type 4 5 6 7 8 9 2 22 Agitator nits 30 40 55 65 65 65 50 ** Note: The values in table 4 are calculated for the most adverse direction of rotation. For the opposite rotation they can be increased. Consult our Application Engineers for an analysis where necessary. Table 5 Axial thrust capacity (kn) Allowable thrust on output shaft, limited by BEARING LIFE (0,000 hrs L0)* Direction Of Thrust nit Type Agitator nits Agitator nits Output Speed rev/min 4 5 6 7 8 9 2 22 < 240 4 26 23 5 40 55 56 < 80 4 27 24 52 4 56 58 < 30 5 28 25 52 4 57 58 < 90 6 30 28 57 46 63 66 < 45 26 43 45 8 75 97 0 < 20 40 63 70 6 5 46 75 < 240 0 22 7 44 3 45 40 < 80 23 8 45 32 46 4 < 30 24 8 46 32 47 4 < 90 3 25 2 50 37 53 50 < 45 23 39 38 74 65 86 93 < 20 36 59 64 0 06 35 57 ** ** * For other lives multiply values by the factors in table page 2. Note: Values are based on the most unfavourable directions of rotation. igher values may be permitted after analysis by our Application Engineers. 22

NOTES 23

PARALLEL SAFT NITS Contents Page No oments of Inertia 25 Exact Ratios 26 echanical Ratings - Input Power / Output Torque 27-3 Thermal Ratings 32 Dimension Sheets - Speed Reducers 33-37 24

OENTS OF INERTIA (Kg cm 2 ) Referred to Input Shaft SERIES G OENTS OF INERTIA PARALLEL SAFT NITS PARALLEL SAFT NITS - without fans NOINAL RATIO PARALLEL SAFT NITS - SIZE COLN ENTRY 6 7 8 G4 G5 G6 G7 G8 G9 G2 G22 6. 3 40-420 - 6670 - - - 7. 335-320 - 5760-23000 - 8. 0 295 485 40 765 4645 7960 20000 2590 9. 0 255 395 975 620 400 6860 7500 2900 0. 225 345 835 400 3735 5490 5200 8800. 95 300 700 65 3230 4685 2900 6400 2. 70 260 585 985 2500 430 300 3900 4. 45 220 485 825 2335 3685 9590 2000 6. 25 90 445 690 945 2860 8050 0200 8. 05 65 45 565 730 260 7490 8480 2 0. 98 35 380 505 665 250 6630 7860 2 2. 90 5 350 460 530 90 630 690 2 5. 85 05 320 420 345 80 5650 6360 2 8. 79 97 296 380 305 650 5265 5830 3 2. 73 89 292 345 200 430 4935 5400 3 6. 45 83 50 35 60 375 4765 5040 4 0. 39 77 4 30 595 250 2395 4850 4 5. 37 43 33 65 560 655 2270 2470 5 0. 35 4 26 50 55 630 250 2330 5 6. 34 39 20 40 505 590 2050 290 6 3. 33 37 8 35 475 535 970 2090 7. 3 35 2 25 435 520 925 990 8 0. 3 34 08 22 430 490 670 950 9 0. 30 32 07 5 45 445 625 825 0 0 30 3 92 365 435 600 70 2 29 3 9 0 360 425 300 750 2 5 29 30 90 95 350 365 280 450 4 0 8 30 57 92 250 360 270 420 6 0 8 29 53 9 225 355 840 40 8 0 8 8 52 60 220 250 730 960 2 0 0 8 8 52 53 220 225 720 840 2 2 5-8 - 52-220 75 835 2 5 0-8 - 52-220 - 830 DOBLE REDCTION TRIPLE REDCTION QADRPLE REDCTION PARALLEL SAFT NITS - with fans If fan cooling is required the inertia of the fan must be added to the table above. OENTS OF INERTIA of fans (Kg cm 2 ) G4/G5 G6/G7 G8/G9 G2 DOBLE REDCTION 284 739 2365 4906 TRIPLE REDCTION N/A 284 739 2365 GD 2 (Kg cm 2 ) = 4 x oment of Inertia (Kg cm 2 ) 25

EXACT RATIOS - PARALLEL SAFT NITS SERIES G EXACT RATIOS PARALLEL SAFT NITS Double Reduction Nominal Ratio Column Entry NIT - SIZE 6 7 8 G4 G5 G6 G7 G8 G9 G2 G22 6. 3 6. - 6.528-6.324 - - - 7. 7.029-7.06-6.986-7.36-8. 0 7.752 7.7 7.729 8.393 8.06 7.93 8.53 8.22 9. 0 8.578 8.873 8.82 9.078 8.935 8.76 9.22 9.06 0. 9.53 9.785 9.929 9.938 9.765 0.05 0.04 0.293. 0.643 0.828.063.34 0.957.204.324.285 2..957 2.03 2.64 2.766 2.797 2.245 2.765 2.647 4. 3.534 3.435 4.36 4.223 4.092 3.739 4.494 4.257 6. 5.462 5.094 5.504 6.253 5.982 6.047 6.608 6.88 8. - 7.084-8.463-7.67 7.85 8.549 2 0. - 9.57-9.934-20.04-9.938 Triple Reduction Nominal Ratio Column Entry NIT - SIZE 6 7 8 G4 G5 G6 G7 G8 G9 G2 G22 8. 7.40-7.934-7.539 - - - 2 0. 9.335-20.9-9.68-20.569-2 2. 2.59 2.966 22.494 23.058 2.507 2.994 23.05 22.973 2 5. 24.256 24.406 25.704 25.958 25.2 24.036 25.985 25.746 2 8. 27.455 27.254 29.99 28.92 27.662 26.969 29.506 29.023 3 2. 3.365 30.69 3.525 33.048 3.37 3.499 33.809 32.955 3 6. 34.72 34.657 35.77 37.542 35.82 34.688 36.34 37.76 4 0. 38.579 39.592 40.269 40.532 38.45 39.339 4.0 40.587 4 5. 43.08 43.828 44.865 45.99 43.4 44.7 45.96 45.804 5 0. 48.399 48.698 5.268 5.774 50.388 48.25 5.8 5.332 5 6. 54.782 54.379 58.239 57.683 55.488 54.098 58.829 57.865 6 3. 62.583 6.094 62.877 65.96 62.928 63.85 67.408 65.705 7. - 69.5-74.879-69.58 72.455 75.287 8 0. - 78.999-80.842-78.909-80.924 Quadruple Reduction Nominal Ratio Column Entry NIT - SIZE 6 7 8 G4 G5 G6 G7 G8 G9 G2 G22 7. 70.494-7.59-73.05 - - - 8 0. 78.327-8.324-80.504-79.69-9 0. 87.465 88.984 87.8 92.044 9.298 9.67 90.75 88.423 0 0 98.265 98.872 04.00 04.559 02.455 00.949 97.506 0.38 2.224 0.407 8.42 2.886 2.825 4.485 5.479 08.903 2 5 27.063 24.039 27.55 33.76 27.953 28.475 32.32 28.977 4 0 36.49 40.398 40.233 5.897 40.825 4.479 42.226 47.786 6 0 53.263 60.392 66.09 63.993 58.034 60.449 59.476 58.85 8 0 73.476 72.20 88.694 80.299 74.029 76.59 88.872 78.6 2 0 0 98.8 93.464 203.72 23.568 97.364 98.7 26.46 20.948 2 2 5-28.978-242.607-28.227 232.68 24.72 2 5 0-250.63-26.927-247.488-259.808 26

PARALLEL SAFT NIT ECANICAL RATINGS AT 750 RP INPT NOINAL RATIO NOINAL OTPT SPEED rev / min 6. 3 278 7. 246 8. 0 29 9. 0 94 0. 75. 56 2. 40 4. 25 6. 09.4 8. 97.2 2 0. 87.5 2 2. 79.5 2 5. 70.0 2 8. 62.5 3 2. 54.7 3 6. 48.6 4 0. 43.8 4 5. 39.9 5 0. 35.0 5 6. 3.3 6 3. 27.8 7. 24.6 8 0. 2.9 9 0. 9.4 0 0 7.5 2 5.6 2 5 4.0 4 0 2.5 6 0 0.9 8 0 9.7 2 0 0 8.8 2 2 5 7.8 2 5 0 7.0 CAPACITY PARALLEL SAFT NITS - SIZE G4 G5 G6 G7 G8 G9 G2 G22 Input Power - kw 288-55 - 250 - - - Output Torque - Nm 9330-900 - 42300 - - - Input Power - kw 260-534 - 70-2250 - Output Torque - Nm 9680-20000 - 43900-89000 - Input Power - kw 242 29 497 55 060 250 2250 2250 Output Torque - Nm 9930 900 20400 24600 45400 53000 98000 99300 Input Power - kw 224 262 46 534 986 70 2250 2250 Output Torque - Nm 0200 2300 2600 25800 47000 55000 0000 0000 Input Power - kw 206 244 424 497 950 060 250 2250 Output Torque - Nm 0400 2700 22300 26200 49500 57000 6000 24000 Input Power - kw 87 227 387 46 875 986 980 250 Output Torque - Nm 0500 3000 22700 27700 5000 59000 9000 30000 Input Power - kw 69 208 368 424 76 950 85 980 Output Torque - Nm 0700 3200 24500 28700 5700 6200 23000 34000 Input Power - kw 5 89 34 387 724 875 630 820 Output Torque - Nm 0800 3400 23800 29200 5400 64000 25000 39000 Input Power - kw 35 70 295 372 648 76 470 630 Output Torque - Nm 000 3600 24200 3900 54800 64900 30000 4000 Input Power - kw 6 53 238 34 570 724 360 50 Output Torque - Nm 0600 3600 22400 30600 52700 67900 30000 49000 Input Power - kw 08 36 229 295 570 648 85 430 Output Torque - Nm 000 4000 24200 300 57500 68800 30000 52000 Input Power - kw 97.8 6 20 238 52 570 060 200 Output Torque - Nm 000 3300 24700 28800 57900 6600 30000 47000 Input Power - kw 87.9 07 9 238 445 570 94 80 Output Torque - Nm 000 3700 25600 32400 58600 72200 30000 6000 Input Power - kw 78.4 96.6 68 230 405 52 830 050 Output Torque - Nm 000 3800 25600 34900 58600 76800 30000 6000 Input Power - kw 69.2 86.6 56 204 357 479 726 926 Output Torque - Nm 000 3900 25600 35200 58600 7900 30000 6000 Input Power - kw 59.8 77.4 37 80 305 435 676 80 Output Torque - Nm 000 4000 25600 35300 58600 7900 30000 6000 Input Power - kw 54.4 68.4 22 67 292 384 600 755 Output Torque - Nm 000 4000 25600 35400 58600 79200 30000 6000 Input Power - kw 49.2 59. 0 43 26 305 536 670 Output Torque - Nm 000 3500 25600 34400 58600 7000 30000 6000 Input Power - kw 44.2 53.7 96 29 223 305 476 599 Output Torque - Nm 000 3700 25600 34700 58600 76600 30000 6000 Input Power - kw 39.4 48.6 84.6 6 203 28 420 532 Output Torque - Nm 000 3800 25600 34900 58600 79200 30000 6000 Input Power - kw 34.8 43.6 78.4 03 79 24 367 470 Output Torque - Nm 000 4000 25600 35200 58600 79200 30000 6000 Input Power - kw 29.4 38.9 69.4 90.5 37 29 342 4 Output Torque - Nm 0700 4000 25600 35300 5500 79200 30000 6000 Input Power - kw 26.7 34.4 6.2 84.3 29 93 35 382 Output Torque - Nm 0800 4000 25600 35400 53300 79200 30000 6000 Input Power - kw 24. 28.7 56.7 70.5 8 53 275 352 Output Torque - Nm 0900 3300 25600 33500 55600 72400 30000 62000 Input Power - kw 2.7 25.8 47.9 62.7 08 44 256 308 Output Torque - Nm 000 3200 25600 33800 57000 75200 30000 62000 Input Power - kw 9.3 23.2 42.2 59 0 33 27 287 Output Torque - Nm 000 3600 25600 34300 58600 78400 30000 62000 Input Power - kw 7. 20.6 39.2 49.7 89.3 20 90 243 Output Torque - Nm 000 3800 25600 34200 58600 79300 30000 62000 Input Power - kw 5.5 8.3 35.6 43.8 8 09 77 22 Output Torque - Nm 000 4000 25600 34200 58600 79300 30000 62000 Input Power - kw 3.9 6 30. 40.7 72.3 96.3 58 98 Output Torque - Nm 000 4000 25600 34300 58600 79300 30000 62000 Input Power - kw 2.4 4.9 26.5 37 65.7 87.4 33 77 Output Torque - Nm 000 4000 25600 34300 58600 79300 30000 62000 Input Power - kw 0.9 3.2 24.6 3.2 58 78 6 49 Output Torque - Nm 000 4000 25600 34200 58600 79300 30000 62000 Input Power - kw -.7-27.4-70.9 08 30 Output Torque - Nm - 4000-34200 - 79300 30000 62000 Input Power - kw - 0.3-25.5-62.6-2.0 Output Torque - Nm - 4000-34200 - 79300-62000 DOBLE REDCTION TRIPLE REDCTION QADRPLE REDCTION Bold Text: Forced lubrication System Required 27

PARALLEL SAFT NIT ECANICAL RATINGS AT 450 RP INPT NOINAL RATIO NOINAL OTPT SPEED rev / min 6. 3 230 7. 204 8. 0 8 9. 0 6 0. 45. 29 2. 6 4. 04 6. 90.6 8. 80.6 2 0. 72.5 2 2. 65.9 2 5. 58.0 2 8. 5.8 3 2. 45.3 3 6. 40.3 4 0. 36.3 4 5. 32.2 5 0. 29.0 5 6. 25.9 6 3. 23.0 7. 20.4 8 0. 8. 9 0. 6. 0 0 4.5 2 2.9 2 5.6 4 0 0.4 6 0 9. 8 0 8. 2 0 0 7.3 2 2 5 6.4 2 5 0 5.8 CAPACITY PARALLEL SAFT NITS - SIZE G4 G5 G6 G7 G8 G9 G2 G22 Input Power - kw 253-483 - 090 - - - Output Torque - Nm 9870-20200 - 44700 - - - Input Power - kw 228-468 - 030-860 - Output Torque - Nm 0200-2200 - 46400-89000 - Input Power - kw 20 255 435 483 930 090 860 860 Output Torque - Nm 0400 2600 2600 26000 48000 5600 98000 99300 Input Power - kw 92 230 404 468 865 030 860 860 Output Torque - Nm 0500 300 22800 27200 49700 58200 0000 0000 Input Power - kw 75 23 372 435 833 930 860 860 Output Torque - Nm 0600 3300 23600 27700 52300 60200 22000 24000 Input Power - kw 59 94 339 404 767 865 760 860 Output Torque - Nm 0800 3500 24000 29300 53900 62300 29000 36000 Input Power - kw 43 77 33 372 667 833 570 740 Output Torque - Nm 0900 3600 25200 30400 54700 65600 30000 42000 Input Power - kw 29 60 275 339 635 767 380 590 Output Torque - Nm 000 3800 25200 30800 57200 67600 30000 47000 Input Power - kw 5 44 259 320 568 667 20 430 Output Torque - Nm 000 3900 25600 33200 58000 68600 30000 49000 Input Power - kw 96.6 29 209 275 500 635 30 300 Output Torque - Nm 0600 4000 23700 32400 55700 7800 30000 55000 Input Power - kw 89.6 4 20 259 482 568 984 220 Output Torque - Nm 000 4000 25600 32900 58600 72700 30000 56000 Input Power - kw 8 96.6 80 209 430 500 879 040 Output Torque - Nm 000 3400 25600 30400 58600 70000 30000 52000 Input Power - kw 72.8 88.5 58 209 369 500 780 980 Output Torque - Nm 000 3700 25600 34300 58600 76300 30000 6000 Input Power - kw 64.9 80 39 9 335 449 689 87 Output Torque - Nm 000 3800 25600 34900 58600 76800 30000 6000 Input Power - kw 57.3 7.9 29 69 296 397 602 769 Output Torque - Nm 000 3900 25600 35200 58600 7900 30000 6000 Input Power - kw 49.5 64. 4 49 265 36 56 672 Output Torque - Nm 000 4000 25600 35300 58600 7900 30000 6000 Input Power - kw 45 56.6 0 39 242 39 498 627 Output Torque - Nm 000 4000 25600 35400 58600 79200 30000 6000 Input Power - kw 40.7 48.9 90.8 9 26 267 445 557 Output Torque - Nm 000 3500 25600 34400 58600 74200 30000 6000 Input Power - kw 36.6 44.5 79.6 07 85 26 395 497 Output Torque - Nm 500 3700 25600 34700 58600 79200 30000 6000 Input Power - kw 32.6 40.2 70. 96 68 233 349 442 Output Torque - Nm 000 3800 25600 34900 58600 79200 30000 6000 Input Power - kw 28.8 36. 65 84.9 48 200 304 390 Output Torque - Nm 000 4000 25600 35200 58600 79200 30000 6000 Input Power - kw 24.3 32.2 57.5 75 20 8 283 34 Output Torque - Nm 0700 4000 25600 35300 54500 79200 30000 6000 Input Power - kw 22. 28.5 50.7 69.8 3 60 26 37 Output Torque - Nm 0800 4000 25600 35400 56400 79200 30000 62000 Input Power - kw 20 23.8 47 59.6 03 34 228 292 Output Torque - Nm 0900 3300 25600 34200 58600 76600 30000 62000 Input Power - kw 7.9 2.4 39.7 52.5 92.2 26 23 256 Output Torque - Nm 000 3200 25600 34200 58600 79300 30000 62000 Input Power - kw 6 9.2 35 48.8 83.8 80 238 Output Torque - Nm 000 3600 25600 34200 58600 79300 30000 62000 Input Power - kw 4. 7. 32.4 4.2 74 99.4 57 20 Output Torque - Nm 000 3800 25600 34200 58600 79300 30000 62000 Input Power - kw 2.8 5. 29.4 36.3 67. 90.4 46 76 Output Torque - Nm 000 4000 25600 34200 58600 79300 30000 62000 Input Power - kw.5 3.3 24.9 33.7 59.9 79.8 3 64 Output Torque - Nm 000 4000 25600 34200 58600 79300 30000 62000 Input Power - kw 0.3 2.3 2.9 30.6 54.4 72.4 0 46 Output Torque - Nm 000 4000 25600 34200 58600 79300 30000 62000 Input Power - kw 9. 20.3 25.8 48 64.6 96.5 24 Output Torque - Nm 000 4000 25600 34200 58600 79300 30000 62000 Input Power - kw - 9.7-22.7-58.7 89.2 08 Output Torque - Nm - 4000-34200 - 79300 30000 62000 Input Power - kw - 8.5-2. - 5.8-0.0 Output Torque - Nm - 4000-34200 - 79300-62000 DOBLE REDCTION TRIPLE REDCTION QADRPLE REDCTION 28

PARALLEL SAFT NIT ECANICAL RATINGS AT 60 RP INPT NOINAL RATIO NOINAL OTPT SPEED rev / min 6. 3 84 7. 63 8. 0 45 9. 0 29 0. 6. 04 2. 93 4. 83 6. 72.5 8. 64.4 2 0. 58.0 2 2. 52.7 2 5. 46.4 2 8. 4.4 3 2. 36.3 3 6. 32.2 4 0. 29.0 4 5. 25.8 5 0. 23.2 5 6. 20.7 6 3. 8.4 7. 6.3 8 0. 4.5 9 0. 2.9 0 0.6 2 0.4 2 5 9.3 4 0 8.3 6 0 7.3 8 0 6.4 2 0 0 5.8 2 2 5 5.2 2 5 0 4.6 CAPACITY PARALLEL SAFT NITS - SIZE G4 G5 G6 G7 G8 G9 G2 G22 Input Power - kw 24-43 - 937 - - - Output Torque - Nm 0400-2600 - 47700 - - - Input Power - kw 89-400 - 88-490 - Output Torque - Nm 0600-22600 - 49500-89000 - Input Power - kw 73 2 372 43 796 937 490 490 Output Torque - Nm 0700 3000 23000 27800 5200 59800 98000 99200 Input Power - kw 58 87 345 400 740 88 490 490 Output Torque - Nm 0900 3300 24400 2900 53000 6200 0000 0000 Input Power - kw 44 7 38 372 73 796 490 490 Output Torque - Nm 000 3400 25200 29600 55800 64300 22000 24000 Input Power - kw 30 56 289 345 656 740 40 490 Output Torque - Nm 000 3500 25600 3300 57600 66500 29000 36000 Input Power - kw 7 42 254 38 570 73 260 490 Output Torque - Nm 000 3700 25600 32400 58400 70000 30000 52000 Input Power - kw 04 29 223 290 520 656 0 350 Output Torque - Nm 000 3800 25600 33000 58600 72300 30000 55000 Input Power - kw 92 5 207 264 460 570 970 90 Output Torque - Nm 000 3900 25600 34300 58600 73200 30000 55000 Input Power - kw 77.8 03 79 235 422 543 900 070 Output Torque - Nm 0700 4000 25300 34600 58600 76700 30000 59000 Input Power - kw 7.7 90.9 6 222 386 486 788 00 Output Torque - Nm 000 4000 25600 35200 58600 77600 30000 6000 Input Power - kw 64.8 77.8 44 79 345 425 704 866 Output Torque - Nm 000 3500 25600 32600 58600 7400 30000 59000 Input Power - kw 58.2 70.8 26 69 295 46 625 786 Output Torque - Nm 000 3700 25600 34700 58600 7900 30000 6000 Input Power - kw 5.9 64 53 268 37 552 698 Output Torque - Nm 000 3800 25600 34900 58600 7900 30000 6000 Input Power - kw 45.9 57.5 03 35 237 38 482 66 Output Torque - Nm 000 3900 25600 35200 58600 79200 30000 6000 Input Power - kw 39.6 5.3 90.9 9 22 289 449 539 Output Torque - Nm 000 4000 25600 35300 58600 79200 30000 6000 Input Power - kw 36 45.3 80.8 94 255 399 502 Output Torque - Nm 000 4000 25600 35400 58600 79200 30000 6000 Input Power - kw 32.6 39. 72.6 94.9 73 228 357 447 Output Torque - Nm 000 3500 25600 34400 58600 79200 30000 6000 Input Power - kw 29.3 35.6 63.7 85.2 48 209 37 399 Output Torque - Nm 000 3700 25600 34700 58600 79200 30000 6000 Input Power - kw 26. 32.2 56. 76.8 35 86 279 354 Output Torque - Nm 000 3800 25600 34900 58600 79200 30000 62000 Input Power - kw 23 28.9 52 67.9 9 60 244 32 Output Torque - Nm 000 4000 25600 35200 58600 79300 30000 62000 Input Power - kw 9.4 25.8 46 60 03 45 227 273 Output Torque - Nm 0700 4000 25600 35300 58300 79300 30000 62000 Input Power - kw 7.7 22.8 40.5 55.8 93.6 28 209 254 Output Torque - Nm 0800 4000 25600 35400 58600 79300 30000 62000 Input Power - kw 6 9 37.6 47.7 82.7 83 234 Output Torque - Nm 0900 3300 25600 34200 58600 79300 30000 62000 Input Power - kw 4.3 7. 3.7 42. 73.7 0 70 205 Output Torque - Nm 000 3400 25600 34300 58600 79300 30000 62000 Input Power - kw 2.8 5.3 28 39. 67 89.2 44 9 Output Torque - Nm 000 3600 25600 34300 58600 79300 30000 62000 Input Power - kw.3 3.7 25.9 32.9 59.2 79.5 26 6 Output Torque - Nm 000 3600 25600 34200 58600 79300 30000 62000 Input Power - kw 0.3 2. 23.6 29 53.7 72.3 7 4 Output Torque - Nm 000 4000 25600 34200 58600 79300 30000 62000 Input Power - kw 9.2 0.6 9.9 27 47.9 63.8 04 3 Output Torque - Nm 000 4000 25600 34300 58600 79300 30000 62000 Input Power - kw 8.2 9.8 7.5 24.5 43.5 57.9 88.4 7 Output Torque - Nm 000 4000 25600 34300 58600 79300 30000 62000 Input Power - kw 7.3 8.8 6.3 20.6 38.4 5.7 77.2 99 Output Torque - Nm 000 4000 25600 34200 58600 79300 30000 62000 Input Power - kw - 7.8-8.2-46.9 7.9 87 Output Torque - Nm - 4000-34200 - 79300 30000 62000 Input Power - kw - 6.8-6.9-4.4-80.5 Output Torque - Nm - 4000-34200 - 79300-62000 DOBLE REDCTION TRIPLE REDCTION QADRPLE REDCTION 29

PARALLEL SAFT NIT ECANICAL RATINGS AT 960 RP INPT NOINAL RATIO NOINAL OTPT SPEED rev / min 6. 3 52 7. 35 8. 0 20 9. 0 07 0. 96. 86 2. 77 4. 69 6. 60.0 8. 53.3 2 0. 48.0 2 2. 43.6 2 5. 38.4 2 8. 34.3 3 2. 30.0 3 6. 26.7 4 0. 24.0 4 5. 2.3 5 0. 9.2 5 6. 7. 6 3. 5.2 7. 3.5 8 0. 2.0 9 0. 0.7 0 0 9.6 2 8.6 2 5 7.7 4 0 6.9 6 0 6.0 8 0 5.3 2 0 0 4.8 2 2 5 4.3 2 5 0 3.8 CAPACITY PARALLEL SAFT NITS - SIZE G4 G5 G6 G7 G8 G9 G2 G22 Input Power - kw 77-352 - 820 - - - Output Torque - Nm 0400-22300 - 50400 - - - Input Power - kw 56-350 - 77-230 - Output Torque - Nm 0600-23900 - 52300-89000 - Input Power - kw 43 75 326 352 697 820 230 230 Output Torque - Nm 0800 3000 24400 28600 54200 63200 98000 9900 Input Power - kw 3 55 300 350 648 77 230 230 Output Torque - Nm 0900 3300 25500 30800 5600 65600 0000 0000 Input Power - kw 9 42 267 326 69 697 230 230 Output Torque - Nm 000 3400 25600 3300 58600 68000 22000 24000 Input Power - kw 08 29 240 303 553 648 70 230 Output Torque - Nm 000 3500 25600 33200 58600 70400 2900 36000 Input Power - kw 96.7 8 20 279 474 624 040 230 Output Torque - Nm 000 3700 25600 34300 58600 7400 30000 52000 Input Power - kw 86.2 06 85 254 43 575 920 50 Output Torque - Nm 000 3800 25600 34900 58600 76400 30000 59000 Input Power - kw 76. 95.5 72 225 38 500 800 00 Output Torque - Nm 000 3900 25600 35200 58600 77500 30000 59000 Input Power - kw 64.7 85.2 49 98 350 464 750 897 Output Torque - Nm 0800 4000 25600 35300 58600 7900 30000 6000 Input Power - kw 59.3 75.2 33 85 320 40 653 835 Output Torque - Nm 000 4000 25600 35400 58600 7900 30000 6000 Input Power - kw 53.6 64.4 9 56 285 352 583 729 Output Torque - Nm 000 3500 25600 34400 58600 74000 30000 6000 Input Power - kw 48.2 58.6 05 40 245 345 58 652 Output Torque - Nm 000 3700 25600 34700 58600 79200 30000 6000 Input Power - kw 43 53 92.2 26 222 307 457 579 Output Torque - Nm 000 3800 25600 34900 58600 79200 30000 6000 Input Power - kw 37.9 47.6 85.5 2 96 264 400 5 Output Torque - Nm 000 3900 25600 35200 58600 7900 30000 6000 Input Power - kw 32.8 42.4 75.3 98.7 75 240 372 447 Output Torque - Nm 0900 4000 25600 35300 58600 7900 30000 6000 Input Power - kw 29.8 37.5 66.9 9.8 60 22 33 46 Output Torque - Nm 000 4000 25600 35400 58600 79200 30000 6000 Input Power - kw 27 32.4 60. 78.5 43 89 295 370 Output Torque - Nm 000 3500 25600 34400 58600 74200 30000 6000 Input Power - kw 24.2 29.4 52.7 70.5 23 73 262 330 Output Torque - Nm 000 3700 25600 34700 58600 79200 30000 62000 Input Power - kw 2.6 26.6 46.4 63.6 54 23 293 Output Torque - Nm 000 3800 25600 34900 58600 79200 30000 62000 Input Power - kw 9. 23.9 43 56.2 98.3 32 202 259 Output Torque - Nm 000 4000 25600 35200 58600 79200 30000 62000 Input Power - kw 6. 2.3 38 49.6 85.3 20 88 226 Output Torque - Nm 0700 4000 25600 35300 58600 79200 30000 62000 Input Power - kw 4.6 8.8 33.5 46.2 77.5 06 73 20 Output Torque - Nm 0800 4000 25600 35400 58600 79200 30000 62000 Input Power - kw 3.2 5.7 3. 39.5 68.4 9.9 5 94 Output Torque - Nm 0900 3300 25600 34200 58600 79300 30000 62000 Input Power - kw.9 4.2 26.3 34.7 6 83.5 4 70 Output Torque - Nm 000 3400 25600 34200 58600 79300 30000 62000 Input Power - kw 0.6 2.7 23. 32.3 55.4 73.8 9 58 Output Torque - Nm 000 3600 25600 34300 58600 79300 30000 62000 Input Power - kw 9.3.3 2.5 27.2 48.9 65.8 04 34 Output Torque - Nm 000 3800 25600 34200 58600 79300 30000 62000 Input Power - kw 8.5 0 9.5 24 44.4 59.8 96.9 7 Output Torque - Nm 000 4000 25600 34200 58600 79300 30000 62000 Input Power - kw 7.6 8.8 6.5 22.3 39.6 52.8 86.4 09 Output Torque - Nm 000 4000 25600 34300 58600 79300 30000 62000 Input Power - kw 6.8 8. 4.5 20.3 36 47.9 73. 97 Output Torque - Nm 000 4000 25600 34300 58600 79300 30000 62000 Input Power - kw 6 7.3 3.5 7. 3.8 42.7 63.8 82 Output Torque - Nm 000 4000 25600 34200 58600 79300 30000 62000 Input Power - kw - 6.4-5 - 38.8 59.4 72 Output Torque - Nm - 4000-34200 - 79300 30000 62000 Input Power - kw - 5.6-4 - 34.3-66.6 Output Torque - Nm - 4000-34300 - 79300-62000 DOBLE REDCTION TRIPLE REDCTION QADRPLE REDCTION 30

PARALLEL SAFT NIT ECANICAL RATINGS AT 725 RP INPT NOINAL RATIO NO 6. 3 5 7. 02 8. 0 9 9. 0 8 0. 73. 65 2. 58 4. 52 6. 45.3 8. 40.3 2 0. 36.3 2 2. 33.0 2 5. 29.0 2 8. 25.9 3 2. 22.7 3 6. 20. 4 0. 8. 4 5. 6. 5 0. 4.5 5 6. 2.9 6 3..5 7. 0.2 8 0. 9. 9 0. 8. 0 0 7.3 2 6.5 2 5 5.8 4 0 5.2 6 0 4.5 8 0 4.0 2 0 0 3.6 2 2 5 3.2 2 5 0 2.9,P PARALLEL SAFT NITS - SIZE G4 G5 G6 G7 G8 G9 G2 G22 Input Power - kw 34-266 - 634 - - - Output Torque - Nm 0400-22300 - 5500 - - - Input Power - kw 8-266 - 634-935 - Output Torque - Nm 0600-24000 - 56900-89000 - Input Power - kw 08 32 258 266 570 634 935 935 Output Torque - Nm 0800 3000 25600 28600 58600 64600 98000 99200 Input Power - kw 98.9 7 227 266 52 634 935 935 Output Torque - Nm 0900 3300 25600 30900 58600 7300 0000 09000 Input Power - kw 89.9 07 202 266 468 573 935 935 Output Torque - Nm 000 3400 25600 33800 58600 73900 22000 24000 Input Power - kw 8.3 97.7 8 237 48 532 885 932 Output Torque - Nm 000 3500 25600 34400 58600 76500 29000 35000 Input Power - kw 73. 88.8 59 23 358 504 785 932 Output Torque - Nm 000 3700 25600 34700 58600 7900 30000 52000 Input Power - kw 65. 70.3 40 92 326 450 695 879 Output Torque - Nm 000 3800 25600 34900 58600 7900 30000 6000 Input Power - kw 57.5 72. 30 70 287 386 603 776 Output Torque - Nm 000 4000 25600 35200 58600 7900 30000 6000 Input Power - kw 49.2 64.3 3 50 264 35 562 679 Output Torque - Nm 0800 4000 25600 35300 58600 79200 30000 6000 Input Power - kw 44.8 56.8 00 39 242 30 494 632 Output Torque - Nm 000 4000 25600 35400 58600 79200 30000 6000 Input Power - kw 40.5 48.7 90.2 8 26 266 44 552 Output Torque - Nm 000 3500 25600 34400 58600 74000 30000 6000 Input Power - kw 36.4 44.2 79 06 85 26 392 494 Output Torque - Nm 000 3700 25600 34700 58600 79200 30000 6000 Input Power - kw 32.4 40 69.6 95.4 68 232 346 439 Output Torque - Nm 000 3800 25600 34900 58600 79200 30000 6000 Input Power - kw 28.6 35.9 64.5 84.3 48 264 302 387 Output Torque - Nm 000 3900 25600 35200 58600 7900 30000 6000 Input Power - kw 24.8 32 56.9 74.5 32 8 28 338 Output Torque - Nm 000 4000 25600 35300 58600 7900 30000 62000 Input Power - kw 22.5 28.3 50.5 69.3 2 60 250 35 Output Torque - Nm 000 4000 25600 35400 58600 79200 30000 62000 Input Power - kw 20.4 24.5 45.4 59.3 08 43 223 280 Output Torque - Nm 000 3500 25600 34400 58600 74200 30000 62000 Input Power - kw 8.3 22.2 39.8 53.3 92.5 3 98 250 Output Torque - Nm 000 3700 25600 34700 58600 79200 30000 62000 Input Power - kw 6.3 20. 35 48 84 6 74 222 Output Torque - Nm 000 3800 25600 34900 58600 79200 30000 62000 Input Power - kw 4.4 8. 32.5 42.4 74.2 99.8 52 95 Output Torque - Nm 000 4000 25600 35200 58600 79200 30000 62000 Input Power - kw 2. 6. 28.7 37.5 64.4 90.7 42 7 Output Torque - Nm 0700 4000 25600 35300 58600 79200 30000 62000 Input Power - kw 4.2 25.3 34.9 58.5 80 3 6 Output Torque - Nm 0800 4000 25600 35400 58600 79200 30000 65000 Input Power - kw 0.9 23.5 29.8 5.6 69.4 4 47 Output Torque - Nm 0900 3200 25600 34200 58600 79300 30000 62000 Input Power - kw 9 0.7 9.8 26.2 46 63. 06 28 Output Torque - Nm 000 3400 25600 34200 58600 79300 30000 62000 Input Power - kw 8 9.6 7.5 24.4 4.8 55.7 90 9 Output Torque - Nm 000 3600 25600 34300 58600 79300 30000 62000 Input Power - kw 7 8.5 6.2 20.6 36.9 49.7 78.6 0 Output Torque - Nm 000 3800 25600 34200 58600 79300 30000 62000 Input Power - kw 6.4 7.5 4.7 8. 33.5 45. 73.2 88 Output Torque - Nm 000 4000 25600 34200 58600 79300 30000 62000 Input Power - kw 5.8 6.6 2.4 6.8 29.9 39.9 65.3 82 Output Torque - Nm 000 4000 25600 34300 58600 79300 30000 62000 Input Power - kw 5. 6.2 5.3 27.2 36.2 55.2 73 Output Torque - Nm 000 4000 25600 34300 58600 79300 30000 62000 Input Power - kw 4.5 5.5 0.2 2.9 24 32.3 48.2 62 Output Torque - Nm 000 4000 25600 34200 58600 79300 30000 62000 Input Power - kw - 4.8 -.4-29.3 55.9 55 Output Torque - Nm - 4000-34200 - 79300 30000 64000 Input Power - kw - 4.3-0.6-25.9-5. Output Torque - Nm - 4000-34300 - 79300-64000 DOBLE REDCTION TRIPLE REDCTION QADRPLE REDCTION 3

Thermal Ratings kw These thermal ratings assume the gear unit is in constant use working in an ambient temperature of 25 C * installed in a large indoor space at sea level. These ratings must be adjusted for alternative operating and environment conditions refer to Thermal ratings and service factors on page 6. *maximum bulk oil temperature 95 C Parallel Shaft nits - Double Reduction Type of Cooling No Additional Cooling Fan Cooling Cooling Coil Fan and Cooling Coil Input Speed (rev/min) 750 450 60 960 750 450 60 960 750 450 60 960 750 450 60 960 Parallel Shaft nits - Triple Reduction PARALLEL SAFT NIT TERAL RATINGS Ratio G420 G520 G620 G720 G820 G920 G220 G2220 8: 82 92 38 3 27 65 96 208 6: 63 73 4 80 63 76 88 8: 82 9 42 36 228 84 234 248 6: 63 73 9 6 9 82 22 227 8: 8 89 46 40 239 200 267 28 6: 63 72 22 2 20 99 244 260 8: 8 89 49 43 245 2 287 303 6: 64 72 25 24 208 209 264 28 8: 48 5 239 23 374 348 45 438 6: 2 27 209 205 323 346 386 42 8: 3 34 28 209 338 36 388 4 6: 06 2 89 85 29 34 36 385 8: 4 7 97 87 303 286 362 383 6: 92 98 70 65 260 283 336 359 8: 03 06 82 72 279 264 344 364 6: 82 88 56 5 239 262 39 340 8: 224 238 372 378 653 558 584 62 6: 9 209 336 348 588 555 553 583 8: 29 233 37 376 65 560 600 628 6: 88 206 336 346 588 557 568 600 8: 25 229 37 375 649 56 64 644 6: 85 202 336 345 587 558 582 65 8: 23 226 37 373 648 562 623 654 6: 83 200 336 344 586 559 592 625 8: 265 273 43 434 746 663 73 748 6: 23 243 394 402 677 660 680 77 8: 250 259 45 47 76 637 692 726 6: 27 23 379 386 650 633 660 696 8: 235 246 400 40 688 6 672 706 6: 204 28 365 37 624 608 640 676 8: 225 236 390 390 669 594 658 69 6: 95 20 355 360 606 59 627 662 Type of Cooling Input Speed (rev/min) Ratio G430 G530 G630 G730 G830 G930 G230 G2230 750 22: 58 62 92 89 47 26 36 45 56: 39 45 68 69 09 97 5 24 450 No Additional 22: 56: 56 39 60 44 92 69 9 72 5 4 39 0 60 38 70 49 Cooling 60 22: 56: 55 39 58 44 92 70 93 74 55 9 50 20 8 58 9 69 960 22: 56: 54 38 57 43 93 7 94 75 58 22 56 27 93 70 204 82 750 22: 56: - - - - 77 43 80 52 307 249 33 282 383 35 40 370 Fan Cooling 22: 56: - - - - 39 0 42 8 239 92 262 22 39 290 334 307 450 22: 56: - - - - 58 26 6 35 272 220 296 25 35 32 368 339 60 960 22: 56: - - - - 25 99 29 07 26 73 238 200 296 268 3 284 750 22: 56: 56 24 63 36 25 2 257 225 43 365 428 374 398 366 49 388 Cooling Coil 22: 56: 47 7 54 29 243 206 250 220 420 358 425 373 44 382 435 405 450 22: 56: 5 20 58 32 247 209 253 223 425 36 426 374 406 374 427 397 60 960 22: 44 5 24 248 46 423 49 44 56: 5 26 204 29 355 373 387 4 Parallel Shafts - Quadruple Reduction Type of Cooling No Additional Cooling Input Speed (rev/min) 750 450 60 960 Ratio G440 G540 G640 G740 G840 G940 G240 G2240 00: 36 4 63 65 03 02 6 29 200: 26 30 45 5 8 82 92 04 00: 35 40 63 65 06 09 34 48 200: 26 30 46 52 84 89 09 22 00: 35 39 63 66 09 5 49 63 200: 26 29 47 53 88 95 24 37 00: 34 38 63 66 8 59 72 200: 26 29 47 54 90 99 33 46 32

DIENSIONS ORIZONTAL PARALLEL SAFTS DOBLE REDCTION G 2 0 Double Reduction Parallel Shaft nits orizontal P Q B N W W A Tapped hole dimn V4 3 Y øv W2 Input Shaft Z ø D 2 F G F ø D W3 Y øv 5 For shaft/sleeve tolerance refer to shaft options tables pages 4 to 6 Rø holes for Sø bolts Output Shaft Tapped hole dimn V5 Z P T W K A K2 J (Opposite side of case) ollow Shaft Option L L2 D E E Output Bore * aximum bolt length nit Size A B D E E F G J K K2 N P Q R S T G4 325 554 230 250 370 77 265 300 50 70 285 820 295 35 360 8.5 6 x 6 x 60* G5 365 594 230 250 370 77 265 300 50 30 285 820 255 35 370 8.5 6 x 6 x 60* G6 430 728 300 335 55 225 330 380 90 225 385 060 370 370 460 28 6 x 24 x 80* G7 485 783 300 335 55 225 330 380 90 70 385 060 35 370 480 28 6 x 24 x 80* G8 570 953 385 420 70 290 440 500 250 53 520 350 240 338 480 600 33 6 x 30 x 00* G9 635 08 385 420 70 290 440 500 250 220 500 374 407 480 650 33 6 x 30 x 00* G2 765 240 465 507 750 340 530 600 300 225 695 480 655 465 560 700 39 6 x 36 x 00* G22 805 280 465 507 750 340 530 600 300 245 745 490 75 485 560 730 39 6 x 36 x 00* 25 684 55 25 684 55 30 898 70 30 898 70 37 036 90 40 70 90 50 380 20 50 440 20 nit Size G4 G5 G6 G7 G8 G9 G2 0 G22 0 Input Shaft Output Shaft Output Bore V V4 W W2 Y Z V V5 W W3 Y Z D D2 L L2 50 6 0 30 k6 x 36 38 30 4 53.5 x63 80 70 28 6 95 00 80 255 50 k6 6 x 36 38 30 4 53.5 30 30 x63 90 80 32 37 0 5 80 260 60 20 x 43 48 40 8 64 45 42 x8 230 220 36 53 25 30 230 325 60 20 x 43 48 40 8 64 70 42 x8 250 240 40 79 45 50 230 340 85 24 x 52 90 80 22 90 90 42 x8 300 290 45 200 60 70 300 40 85 24 x 52 90 80 22 90 20 42 x8 350 340 50 22 70 80 300 430 30 x 63 20 200 28 6 220 42 x8 350 340 50 23 20 220 350 500 30 x 63 20 200 28 6 240 42 x8 380 340 56 252 230 240 350 55 33

DIENSIONS VERTICAL PARALLEL SAFTS DOBLE REDCTION G 2 0 V Double Reduction Parallel Shaft nits Vertical Tapped hole dimn V4 3 A W W 3 5 Y Z Tapped hole dimn V5 P 2 P øv Input Shaft Y Z F øv T B G2 G2 N A D W W2 F F Q Pump Output Shaft Note Agitator nit Agitator unit has a drywell and grease lubricated lower bearings * Tower nit øg3 W Q2 G D øg3 Q2 W or shaft tolerance refer to shaft options tables pages 4 and 5 R K J nit A B D F F G G2 (min) G3 J K N P P2 Q Q2 R T G4 325 554 230 77 390 390 35 230 300 50 260 750 820 295 35 236 360 475 4 X Ø 24 30 G5 365 594 230 77 390 390 35 260 300 50 220 750 820 255 35 236 370 495 4 X Ø 24 30 G6 430 728 300 225 55 506 75 300 380 90 325 970 060 370 370 285 460 595 4 X Ø 33 45 G7 485 783 300 225 55 506 75 340 380 90 270 970 060 35 370 285 480 65 4 X Ø 33 45 G8 570 953 385 290 700 656 205 370 500 250 28 26 240 338 480 345 600 760 4 X Ø 40 55 G9 635 08 385 290 700 656 205 400 500 250 350 260 374 407 480 345 650 85 4 X Ø 40 55 G2 765 240 465 340 750 790 255 500 600 300 395 55 655 465 560 400 700 925 4 X Ø 48 70 G22 805 280 465 340 750 790 265 * 600 300 45 575 75 485 560 400 730 * 4 X Ø 48 70 nit G4 G5 G6 G7 G8 G9 G2 0 G22 0 Input Shaft Output Shaft V V4 W W2 Y Z V V5 W W3 Y Z 50 6 0 30 k6 x 36 38 30 4 53.5 x63 80 70 28 6 50 6 38 30 4 53.5 30 30 k6 x 36 x63 90 80 32 37 60 20 x 43 48 40 8 64 45 42 x8 230 220 36 53 60 20 x 43 48 40 8 64 70 42 x8 250 240 40 79 85 24 x 52 90 80 22 90 90 42 x8 300 290 45 200 85 24 x 52 90 80 22 90 20 42 x8 350 340 50 22 30 x 63 20 200 28 6 220 42 x8 350 340 50 23 30 x 63 20 200 28 6 240 42 x8 380 340 56 252 * = Contact Application Engineering 34

DIENSIONS ORIZONTAL PARALLEL SAFTS TRIPLE & QADRPLE REDCTION G 3 0 Triple and Quadruple Reduction Parallel Shaft nits orizontal 4 W P Q W B A N Tapped hole dimn V4 3 Y øv W2 Input Shaft Z ød 2 F G F ød W3 Y øv 5 or shaft/sleeve tolerance refer to shaft options tables pages 4 to 6 Output Shaft Tapped hole dimn V5 Z P T Rø holes for Sø bolts W K A K2 J ollow Shaft Option L L2 D E (Opposite side of case) E Output Bore * aximum bolt length nit A B D E E F G J K K2 N P Q R S T G4 435 554 230 250 370 77 265 300 50 70 285 820 295 275 360 8.5 6 X X 60* m6 G5 475 594 230 250 370 77 265 300 50 30 285 820 255 275 370 8.5 6 X m6 X 60* G6 570 728 300 335 55 225 330 380 90 225 385 060 370 340 460 28 6 X m24 X 80* G7 625 783 300 335 55 225 330 380 90 70 385 060 35 340 480 28 6 X m24 X 80* G8 755 953 385 420 70 290 440 500 250 53 520 350 240 338 440 600 33 6 X m30 X 00* G9 820 08 385 420 70 290 440 500 250 220 500 374 407 440 650 33 6 X m30 X 00* G2 00 240 465 507 750 340 530 600 300 225 695 480 655 465 540 700 39 6 X m36 X 00* G22 050 280 465 507 750 340 530 600 300 245 745 490 75 485 540 730 39 6 X m36 X 00* 25 684 55 25 684 55 30 898 70 30 898 70 37 036 90 40 70 90 50 380 20 50 440 20 nit G4 G5 G6 G7 G8 G9 G2 G22 Input Shaft Output Shaft Output Bore V V4 W W2 Y Z V V5 W W3 Y Z D D2 L L2 35 2 0 30 k6 x 25 99 90 0 38 x63 80 70 28 6 95 00 80 255 35 k6 2 x 25 99 90 0 38 30 30 x63 90 80 32 37 0 5 80 260 45 6 x 36 8 0 4 48.5 45 42 x8 230 220 36 53 25 30 230 325 45 6 70 42 x 36 8 0 4 48.5 x8 250 240 40 79 45 50 230 340 60 20 x 43 50 40 8 64 90 42 x8 300 290 45 200 60 70 300 40 60 20 x 43 50 40 8 64 20 42 x8 350 340 50 22 70 80 300 430 80 20 x 43 90 80 22 85 220 42 x8 350 340 50 23 20 220 350 500 80 20 x 43 90 80 22 85 240 42 x8 380 340 56 252 230 240 350 55 35

P 2 P A SERIES G DIENSIONS VERTICAL PARALLEL SAFTS TRIPLE & QADRPLE REDCTION G 3 0 V Triple and Quadruple Reduction Parallel Shaft nits Vertical 4 W Tapped hole dimn V4 3 Y Y øv Z Z F øv T G2 G2 B A N D W2 W W 3 5 F F Q Input Shaft Tapped hole dimn V5 Pump Output Shaft Agitator nit * Tower nit Note Agitator unit has a drywell and grease lubricated lower bearings øg3 W G Q2 D øg3 Q2 W or shaft tolerance refer to shaft options tables pages 4 and 5 R K J nit A B D F F G G2 min G3 J K N P P2 Q Q2 R T G4 435 554 230 77 390 390 35 230 300 50 260 750 820 295 275 236 360 475 G5 475 594 230 77 390 390 35 260 300 50 220 750 820 255 275 236 370 495 G6 570 728 300 225 55 506 75 300 380 90 325 970 060 370 340 285 460 595 G7 625 783 300 225 55 506 75 340 380 90 270 970 060 35 340 285 480 65 G8 755 953 385 290 700 656 205 370 500 250 28 26 240 338 440 345 600 760 G9 820 08 385 290 700 656 205 400 500 250 350 260 374 407 440 345 650 85 G2 00 240 465 340 750 790 255 500 600 300 395 55 655 465 540 400 700 925 G22 050 280 465 340 750 790 265 * 600 300 45 575 75 485 540 400 730 * 4 X Ø 24 4 X Ø 24 4 X Ø 33 4 X Ø 33 4 X Ø 40 4 X Ø 40 4 X 48 4 X 48 30 30 45 45 55 55 70 70 nit G4 G5 G6 G7 G8 G9 G2 G22 Input Shaft Output Shaft V V4 W W2 Y Z V V5 W W3 Y Z 35 k6 2 x 25 99 90 0 38 0 30 x63 80 70 28 6 35 k6 2 x 25 99 90 0 38 30 30 x63 90 80 32 37 45 6 45 42 8 0 4 48.5 x 36 x8 230 220 36 53 45 6 x 36 8 0 4 48.5 70 42 x8 250 240 40 79 60 20 x 43 50 40 8 64 90 42 x8 300 290 45 200 60 20 x 43 50 40 8 64 20 42 x8 350 340 50 22 80 20 x 43 90 80 22 85 220 42 x8 350 340 50 23 80 20 x 43 90 80 22 85 240 42 x8 380 340 56 252 * = Contact Application Engineering 36

Parallel Shaft nits with echanical Fans SERIES G FAN COOLING DIENSIONS PARALLEL SAFTS B F2 B F P W3 2 Double Reduction Triple and Quadruple Reduction nit B F F2 2 P W3 (seable shaft extension) G4 585 225 452 200 63 35 08 G5 625 225 452 200 63 35 08 G6 766 28 58 245 85 370 08 G7 82 28 58 245 85 370 08 G8 005 36 758 304 0 480 35 G9 070 36 758 304 0 480 35 G2 333 428 96 358 55 560 55 G22 373 428 96 358 55 560 55 nit B F F2 2 P W3 (seable shaft extension) G4 Not Available G5 G6 766 268 47 245 85 340 78 G7 82 268 47 245 85 340 78 G8 005 350 623 304 0 440 0 G9 070 350 623 304 0 440 0 G2 333 428 803 358 55 540 35 G22 373 428 803 358 55 540 35 37

RIGT ANGLE NITS Contents Page No oments of Inertia 39 Exact Ratios 40 echanical Ratings - Input Power / Output Torque 4-45 Thermal Ratings 46 Dimension Sheets - Speed Reducers 47-53 38

OENTS OF INERTIA (Kg cm 2 ) Referred to Input Shaft SERIES G OENTS OF INERTIA RIGT ANGLE SAFTS RIGT ANGLE NITS - without fans NOINAL RATIO RIGT ANGLE SAFT NITS - SIZE COLN ENTRY G4 G5 G6 G7 G8 G9 G2 G22 6 7 8 8. 0 60-200 - 0900 - - - 9. 0 565-2060 - 0350-3200 - 0. 540-940 - 9630-29000 3600. 55-830 - 920-27000 29400 2. 495 565 740 20 9040 080 25400 27400 4. 475 540 660 960 870 9650 23900 25800 6. 460 55 580 840 8240 940 22600 24300 8. 445 490 55 740 840 9000 2400 22900 2 0. 435 470 505 640 7870 8460 20400 2700 2 2. 5 455 430 560 875 8320 9000 20700 2 5. 0 440 42 545 835 800 7900 20200 2 8. 05 20 393 450 755 980 7570 8070 3 2. 00 5 374 430 645 920 7260 773 3 6. 96 0 360 4 620 825 700 7370 4 0. 93 05 348 39 555 695 6800 700 4 5. 50 00 87 376 780 660 6690 6860 5 0. 45 95 80 364 750 590 3040 6740 5 6. 43 50 77 96 740 830 2940 3080 6 3. 4 45 7 89 75 775 2860 2980 7. - 44 435 86 520 760 2820 2890 8 0. - 42 435 79 500 730 7500 2840 9 0. - - 0 440 420 530 7420 7930 0 0 - - 05 435 40 50 60 7900 2 - - 05 0 394 430 580 790 2 5 - - 95 07 37 425 570 760 4 0 - - 95 06 360 397 460 750 6 0 - - 95 96 348 370 450 570 8 0 - - 46 95 87 360 440 550 2 0 0 - - 42 94 78 348 725 545 2 2 5 - - 42 47 75 88 680 800 2 5 0 - - 4 42 72 78 670 720 2 8 0 - - - 42-76 670 75 3 5 - - - 42-73 - 70 TRIPLE REDCTION QADRPLE REDCTION RIGT ANGLE NITS - with fans If fan cooling is required the inertia of the fan must be added to the table above. OENTS OF INERTIA of fans (Kg cm 2 ) G4/G5 G6/G7 G8/G9 G2 TRIPLE REDCTION 284 739 2365 4906 GD 2 (Kg cm 2 ) = 4 x oment of Inertia (Kg cm 2 ) 39

EXACT RATIOS - RIGT ANGLE NITS SERIES G EXACT RATIOS RIGT ANGLE SAFTS Triple Reduction Nominal Ratio Column Entry RIGT ANGLE SAFT NITS - SIZE 6 7 8 G4 G5 G6 G7 G8 G9 G2 G22 8. 0 7.69-8.095-7.842 - - - 9. 0 8.863-8.755-8.663-9.27-0. 9.774-9.584-9.939-0. 0.94. 0.86-0.937 -.08 -.434.29 2. 2.08 2.338 2.32 2.323 2.09 2.464 2.529 2.77 4. 3.42 3.653 3.78 4.062 3.586 3.893 4.04 3.993 6. 5.077 5.7 5.675 5.83 5.868 5.84 5.828 5.682 8. 7.065 6.94 7.807 7.637 7.474 7.037 7.973 7.678 2 0. 9.495 9.03 9.225 20.54 9.87 9.898 20.594 20.073 2 2. 2.775 2.54 2.756 22.894 22.636 2.92 22.36 23.00 2 5. 24.95 24.609 24.492 24.78 24.738 24.85 25.597 24.723 2 8. 27.07 27.487 27.288 27.972 27.757 28.384 28.686 28.589 3 2. 30.353 30.54 3.82 3.49 32.49 3.02 32.337 32.039 3 6. 34.356 34.04 35.422 35.084 35.7 34.806 36.78 36.7 4 0. 39.249 38.35 38.243 40.09 40.487 40.652 42.073 4.0 4 5. 4.605 43.368 43.244 45.543 42.83 44.767 45.223 46.99 5 0. 46.743 49.544 49.47 49.7 50.024 50.769 52.335 50.509 5 6. 52.907 52.58 56.36 55.6 55.087 53.708 59.426 58.452 6 3. 60.442 59.003 60.606 63.536 62.474 62.729 68.092 66.372 7. - 66.784-72.74-69.078 73.9 76.05 8 0. - 76.295-77.922-78.34-8.745 Quadruple Reduction Nominal Ratio Column Entry RIGT ANGLE SAFT NITS - SIZE 6 7 8 G4 G5 G6 G7 G8 G9 G2 G22 7. - - 73.432-68.805 - - - 8 0. - - 79.28-78.03-83.586-9 0. - - 89.584 94.42 88.634 86.279 89.844 93.356 0 0 - - 0.765 0.93 97.66 97.847 02.73 00.345 2 - - 09.869 5.8 0.755.207 7.073 4.5 2 5 - - 30.42 30.84 24.29 22.463 25.838 30.757 4 0 - - 47.837 4.26 36.87 38.883 49.034 40.546 6 0 - - 59.6 67.326 55.22 55.855 70.768 66.453 8 0 - - 69.92 90.077 75.52 7.63 83.552 90.728 2 0 0 - - 200.42 205.24 96.97 94.643 94.76 205.007 2 2 5 - - 227.66 27.533 26.906 220.098 229.968 26.872 2 5 0 - - 245.792 257.672 245.99 246.994 263.505 256.847 2 8 0 - - - 292.708-27.994 283.223 294.304 3 5 - - - 36.08-308.463-36.338 40

RIGT ANGLE SAFT ECANICAL RATINGS AT 750 RP INPT NOINAL RATIO NOINAL OTPT SPEED rev / min 8. 0 29 9. 0 94 0. 75. 56 2. 40 4. 25 6. 09 8. 97 2 0. 87.5 2 2. 79.5 2 5. 70 2 8. 62.5 3 2. 54.7 3 6. 48.6 4 0. 43.8 4 5. 38.9 5 0. 35 5 6. 3.3 6 3. 27.8 7. 24.6 8 0. 2.9 9 0. 9.4 0 0 7.5 2 5.6 2 5 4 4 0 2.5 6 0 0.9 8 0 9.7 2 0 0 8.8 2 2 5 7.8 2 5 0 7 2 8 0 6.3 3 5 5.6 CAPACITY RIGT ANGLE SAFT NITS - SIZE G4 G5 G6 G7 G8 G9 G2 G22 Input Power - kw 96-47 - 925 - - - Output Torque - Nm 7920-7800 - 38600 - - - Input Power - kw 96-47 - 925-825 - Output Torque - Nm 930-9300 - 42600-88500 - Input Power - kw 96-47 - 925-825 825 Output Torque - Nm 000-200 - 48900-98000 99300 Input Power - kw 90-47 - 925-825 825 Output Torque - Nm 0800-24000 - 54400-000 0000 Input Power - kw 73 96 393 47 93 925 809 825 Output Torque - Nm 000 2700 25500 2700 58600 6300 20000 24000 Input Power - kw 57 89 354 47 85 925 70 800 Output Torque - Nm 000 3600 25500 30900 58600 68200 27000 35000 Input Power - kw 4 7 30 404 699 925 543 700 Output Torque - Nm 000 3700 25500 33700 58600 74500 30000 42000 Input Power - kw 26 55 273 375 635 863 36 560 Output Torque - Nm 000 3800 25600 34800 58600 77800 30000 47000 Input Power - kw 39 253 325 56 750 90 40 Output Torque - Nm 000 4000 25600 34400 58600 79000 30000 50000 Input Power - kw 83.5 24 20 293 47 682 09 300 Output Torque - Nm 9550 4000 24000 35300 5600 79000 30000 58000 Input Power - kw 83.5 0 99 273 450 603 94 220 Output Torque - Nm 0600 4000 25600 35400 58600 79000 27000 60000 Input Power - kw 78. 83.5 79 20 402 47 857 936 Output Torque - Nm 000 3000 25600 3000 58600 70500 30000 42000 Input Power - kw 70.2 82.5 57 20 344 457 76 90 Output Torque - Nm 000 3400 25600 34700 58600 74600 30000 53000 Input Power - kw 62.6 77. 38 89 33 432 67 844 Output Torque - Nm 000 3800 25600 35000 58600 79000 30000 6000 Input Power - kw 55.2 69.3 28 67 276 37 587 745 Output Torque - Nm 000 4000 25600 35200 58600 79200 30000 6000 Input Power - kw 50.2 6.8 3 48 26 337 546 652 Output Torque - Nm 000 4000 25600 35300 58600 79200 30000 6000 Input Power - kw 45.6 54.5 99.2 38 224 297 473 607 Output Torque - Nm 000 4000 25600 35400 58600 79200 30000 6000 Input Power - kw 40.7 50.2 87.4 8 203 265 48 49 Output Torque - Nm 000 4000 25600 34500 58600 74600 30000 50000 Input Power - kw 35.9 45. 8 06 80 24 365 465 Output Torque - Nm 000 4000 25600 35200 58600 79200 30000 6000 Input Power - kw - 40.2 67.6 93.5 65 29 340 406 Output Torque - Nm - 4000 25600 35300 58600 79200 30000 6000 Input Power - kw - 35.5 62.7 87 45 94 300 378 Output Torque - Nm - 4000 25600 35400 58600 79200 30000 6000 Input Power - kw - - 55.4 72.3 26 66 278 334 Output Torque - Nm - - 25600 35400 5500 7400 30000 62000 Input Power - kw - - 48.8 67.3 6 57 244 3 Output Torque - Nm - - 25600 35400 53300 79300 30000 62000 Input Power - kw - - 45.2 58.3 02 26 23 273 Output Torque - Nm - - 25600 34700 55600 72400 30000 62000 Input Power - kw - - 38.2 52.2 9.4 25 99 239 Output Torque - Nm - - 25600 35400 57000 79300 30000 62000 Input Power - kw - - 33.7 48.6 83 68 222 Output Torque - Nm - - 25600 35400 58600 79300 30000 62000 Input Power - kw - - 3.2 40.8 73.3 98.5 47 88 Output Torque - Nm - - 25600 35200 58600 79300 30000 62000 Input Power - kw - - 26.7 36 64.8 89.5 37 64 Output Torque - Nm - - 25600 35300 58600 79300 30000 62000 Input Power - kw - - 23.6 33.5 57.8 79 29 53 Output Torque - Nm - - 25600 35400 58600 79300 30000 62000 Input Power - kw - - 2.9 26.7 52.5 69.9 09 45 Output Torque - Nm - - 25600 30000 58600 79300 30000 62000 Input Power - kw - - 20.3 23.6 46.3 62.3 95 22 Output Torque - Nm - - 25600 3500 58600 79300 30000 62000 Input Power - kw - - - 23.4-56.6 89 07 Output Torque - Nm - - - 35300-79300 30000 62000 Input Power - kw - - - 2.8-50 - 99.4 Output Torque - Nm - - - 35400-79300 - 62000 Bold Text: Forced lubrication System Required TRIPLE REDCTION QADRPLE REDCTION 4

RIGT ANGLE SAFT ECANICAL RATINGS AT 450 RP INPT NOINAL RATIO NOINAL OTPT SPEED rev / min 8. 0 8 9. 0 6 0. 45. 29 2. 6 4. 04 6. 9 8. 8 2 0. 72.5 2 2. 65.9 2 5. 58.0 2 8. 5.8 3 2. 45.3 3 6. 40.3 4 0. 36.3 4 5. 32.2 5 0. 29.0 5 6. 25.9 6 3. 23.0 7. 20.4 8 0. 8. 9 0. 6. 0 0 4.5 2 2.9 2 5.6 4 0 0.4 6 0 9. 8 0 8. 2 0 0 7.3 2 2 5 6.4 2 5 0 5.8 2 8 0 5.2 3 5 4.6 CAPACITY RIGT ANGLE SAFT NITS - SIZE G4 G5 G6 G7 G8 G9 G2 G22 Input Power - kw 72-365 - 767 - - - Output Torque - Nm 8400-8900 - 38600 - - - Input Power - kw 66-365 - 767-500 - Output Torque - Nm 9400-20400 - 42600-88000 - Input Power - kw 62-365 - 767-500 500 Output Torque - Nm 000-22300 - 48800-97000 98800 Input Power - kw 57-365 - 767-500 500 Output Torque - Nm 0800-25400 - 54300-0000 09000 Input Power - kw 44 62 327 373 757 767 500 500 Output Torque - Nm 000 2700 25500 29300 58600 6200 20000 24000 Input Power - kw 30 56 293 365 676 767 432 500 Output Torque - Nm 000 3500 25600 32700 58600 6800 29000 35000 Input Power - kw 7 42 257 345 580 767 273 490 Output Torque - Nm 000 3700 25600 34700 58600 74400 30000 50000 Input Power - kw 04 28 227 3 527 726 23 370 Output Torque - Nm 000 3800 25600 34900 58600 79000 30000 55000 Input Power - kw 9.9 5 20 275 466 623 983 230 Output Torque - Nm 000 4000 25600 35200 58600 79000 30000 58000 Input Power - kw 69.2 03 85 243 407 567 95 00 Output Torque - Nm 9550 4000 23700 35300 58500 79000 30000 6000 Input Power - kw 69.2 82.5 65 226 373 50 776 020 Output Torque - Nm 0700 4000 25600 35400 58600 7900 27000 6000 Input Power - kw 64.7 69.2 48 85 333 407 706 776 Output Torque - Nm 000 2000 25600 32700 58600 73300 30000 4000 Input Power - kw 58. 69.2 30 74 286 392 627 747 Output Torque - Nm 000 3400 25600 34700 58600 7700 30000 53000 Input Power - kw 5.8 63.9 4 57 259 359 554 70 Output Torque - Nm 000 4000 25600 34900 58600 7900 30000 6000 Input Power - kw 45.8 57.4 06 39 229 308 484 69 Output Torque - Nm 000 4000 25600 35200 58600 79200 30000 6000 Input Power - kw 4.6 5.2 93.8 23 26 279 45 54 Output Torque - Nm 000 4000 25600 35300 58600 78200 30000 6000 Input Power - kw 37.8 45.2 82.2 4 85 247 39 504 Output Torque - Nm 000 4000 25600 35400 58600 79200 30000 6000 Input Power - kw 33.7 4.6 72.4 99.2 69 220 345 407 Output Torque - Nm 000 4000 25600 35000 58600 75000 30000 50000 Input Power - kw 29.8 37.3 67. 87.7 49 200 30 385 Output Torque - Nm 000 4000 25600 35200 58600 79200 30000 6000 Input Power - kw - 33.3 56 77.5 36 82 280 337 Output Torque - Nm - 4000 25600 35200 58600 79200 30000 62000 Input Power - kw - 29.4 5.9 72. 20 60 248 33 Output Torque - Nm - 4000 25600 35300 58600 79300 30000 62000 Input Power - kw - - 45.9 59.9 06 45 23 277 Output Torque - Nm - - 25600 35300 54500 78400 30000 62000 Input Power - kw - - 40.4 55.8 96.2 30 202 258 Output Torque - Nm - - 25600 35400 56400 79300 30000 62000 Input Power - kw - - 37.5 49 84.9 07 77 227 Output Torque - Nm - - 25600 35200 58600 74300 30000 62000 Input Power - kw - - 3.7 43.2 75.7 04 65 98 Output Torque - Nm - - 25600 35300 58600 79300 30000 62000 Input Power - kw - - 27.9 40.2 68.8 9.6 39 84 Output Torque - Nm - - 25600 35400 58600 79300 30000 62000 Input Power - kw - - 25.9 33.8 60.7 8.7 22 56 Output Torque - Nm - - 25600 35200 58600 79300 30000 62000 Input Power - kw - - 22. 29.8 53.7 74.2 3 36 Output Torque - Nm - - 25600 35300 58600 79300 30000 62000 Input Power - kw - - 9.6 27.8 47.9 65.5 07 27 Output Torque - Nm - - 25600 35400 58600 79300 30000 62000 Input Power - kw - - 8. 22. 43.5 57.9 90 20 Output Torque - Nm - - 25600 30000 58600 79300 30000 62000 Input Power - kw - - 6.8 9.6 38.4 5.6 79 0 Output Torque - Nm - - 25600 3500 58600 79300 30000 62000 Input Power - kw - - - 9.4-46.9 74 88.5 Output Torque - Nm - - - 35300-79300 30000 62000 Input Power - kw - - - 8-4.4-82.4 Output Torque - Nm - - - 35400-79300 - 62000 TRIPLE REDCTION QADRPLE REDCTION Bold Text: Forced lubrication System Required 42

RIGT ANGLE SAFT ECANICAL RATINGS AT 60 RP INPT NOINAL RATIO NOINAL OTPT SPEED rev / min 8. 0 45 9. 0 29 0. 6. 04 2. 93 4. 83 6. 73 8. 64 2 0. 58.0 2 2. 52.7 2 5. 46.4 2 8. 4.4 3 2. 36.3 3 6. 32.2 4 0. 29.0 4 5. 25.8 5 0. 23.2 5 6. 20.7 6 3. 8.4 7. 6.3 8 0. 4.5 9 0. 2.9 0 0.6 2 0.4 2 5 9.3 4 0 8.3 6 0 7.3 8 0 6.4 2 0 0 5.8 2 2 5 5.2 2 5 0 4.6 2 8 0 4. 3 5 3.7 CAPACITY RIGT ANGLE SAFT NITS - SIZE G4 G5 G6 G7 G8 G9 G2 G22 Input Power - kw 38-299 - 63 - - - Output Torque - Nm 8450-9300 - 38500 - - - Input Power - kw 33-299 - 63-200 - Output Torque - Nm 9380-20800 - 42500-88000 - Input Power - kw 30-299 - 63-200 200 Output Torque - Nm 000-22700 - 48700-97000 98600 Input Power - kw 26-294 - 63-200 200 Output Torque - Nm 0800-25600 - 54200-0000 09000 Input Power - kw 5 30 262 299 607 63 200 200 Output Torque - Nm 000 2700 25600 29300 58600 600 20000 23000 Input Power - kw 04 25 235 297 54 63 48 200 Output Torque - Nm 000 3500 25600 33200 58600 68000 29000 35000 Input Power - kw 93.4 4 206 276 464 63 020 200 Output Torque - Nm 000 3700 25600 34700 58400 74300 30000 5000 Input Power - kw 83.3 03 82 249 422 583 900 40 Output Torque - Nm 000 3800 25600 35000 58600 79000 30000 6000 Input Power - kw 73.5 90.2 68 220 373 500 787 000 Output Torque - Nm 000 4000 25600 35200 58600 7900 30000 6000 Input Power - kw 55.3 82.2 48 95 326 454 733 878 Output Torque - Nm 9550 4000 25300 35300 58600 7900 30000 6000 Input Power - kw 55.3 72.6 32 8 299 40 62 88 Output Torque - Nm 0600 4000 25600 35400 58600 7900 27000 6000 Input Power - kw 5.8 55.3 9 48 267 326 566 62 Output Torque - Nm 000 2000 25600 33000 58600 73300 30000 4000 Input Power - kw 46.5 55.3 04 39 228 34 503 598 Output Torque - Nm 000 3400 25600 34700 58600 7700 30000 52000 Input Power - kw 4.5 5. 9.6 26 208 287 444 562 Output Torque - Nm 000 3800 25600 35000 58600 79200 30000 6000 Input Power - kw 36.6 45.9 84.9 83 246 388 496 Output Torque - Nm 000 4000 25600 35200 58600 79200 30000 6000 Input Power - kw 33.3 40.9 75. 98 73 224 36 434 Output Torque - Nm 000 4000 25600 35300 58600 79200 30000 6000 Input Power - kw 30.2 36.2 65.8 9.2 48 97 33 404 Output Torque - Nm 000 4000 25600 35400 58600 79200 30000 6000 Input Power - kw 27 33.2 57.9 79.4 35 76 276 325 Output Torque - Nm 000 4000 25600 35000 58600 75000 30000 50000 Input Power - kw 23.8 29.9 53.7 70.2 9 60 24 308 Output Torque - Nm 000 4000 25600 35200 58600 79200 30000 62000 Input Power - kw - 26.6 44.8 62 09 45 224 269 Output Torque - Nm - 4000 25600 35300 58600 79200 30000 62000 Input Power - kw - 23.5 4.5 57.7 96.4 28 98 25 Output Torque - Nm - 4000 25600 35400 58600 79300 30000 62000 Input Power - kw - - 36.7 47.9 84.7 8 85 222 Output Torque - Nm - - 25600 35300 58300 79300 30000 62000 Input Power - kw - - 32.3 44.6 76.9 04 62 207 Output Torque - Nm - - 25600 35400 58600 79300 30000 62000 Input Power - kw - - 30 39.2 67.9 88.7 4 8 Output Torque - Nm - - 25600 35200 58600 77000 30000 62000 Input Power - kw - - 25.3 34.6 60.6 83 32 58 Output Torque - Nm - - 25600 35300 58600 79300 30000 62000 Input Power - kw - - 22.3 32.2 55 73.3 47 Output Torque - Nm - - 25600 35400 58600 79300 30000 62000 Input Power - kw - - 20.7 27 48.6 65.3 97 25 Output Torque - Nm - - 25600 35200 58600 79300 30000 62000 Input Power - kw - - 7.7 23.9 42.9 59.3 9 09 Output Torque - Nm - - 23500 35300 58600 79300 30000 62000 Input Power - kw - - 5.7 22.2 38.3 52.4 86 0 Output Torque - Nm - - 24500 35400 58600 79300 30000 62000 Input Power - kw - - 4.5 7.7 34.8 46.3 72 95.8 Output Torque - Nm - - 25600 30000 58600 79300 30000 62000 Input Power - kw - - 3.4 5.7 30.7 4.3 63 8 Output Torque - Nm - - 25600 3500 58600 79300 30000 62000 Input Power - kw - - - 5.5-37.5 59 70.7 Output Torque - Nm - - - 35300-79300 30000 62000 Input Power - kw - - - 4.5-33. - 65.9 Output Torque - Nm - - - 35400-79300 - 62000 TRIPLE REDCTION QADRPLE REDCTION 43

RIGT ANGLE SAFT ECANICAL RATINGS AT 960 RP INPT NOINAL RATIO NOINAL OTPT SPEED rev / min 8. 0 20 9. 0 07 0. 96. 86 2. 77 4. 69 6. 60 8. 53 2 0. 48.0 2 2. 43.6 2 5. 38.4 2 8. 34.3 3 2. 30.0 3 6. 26.7 4 0. 24.0 4 5. 2.3 5 0. 9.2 5 6. 7. 6 3. 5.2 7. 3.5 8 0. 2.0 9 0. 0.7 0 0 9.6 2 8.6 2 5 7.7 4 0 6.9 6 0 6.0 8 0 5.3 2 0 0 4.8 2 2 5 4.3 2 5 0 3.8 2 8 0 3.4 3 5 3.0 CAPACITY RIGT ANGLE SAFT NITS - SIZE G4 G5 G6 G7 G8 G9 G2 G22 Input Power - kw 4-247 - 507 - - - Output Torque - Nm 8450-9200 - 38400 - - - Input Power - kw 0-247 - 507-995 - Output Torque - Nm 9380-20800 - 42400-88000 - Input Power - kw 07-247 - 507-995 996 Output Torque - Nm 000-22700 - 48600-97000 98500 Input Power - kw 04-244 - 507-995 996 Output Torque - Nm 0800-25600 - 54200-0000 09000 Input Power - kw 95. 07 27 247 503 507 995 996 Output Torque - Nm 000 2700 25600 29200 58600 6000 20000 23000 Input Power - kw 86 03 95 246 448 507 950 996 Output Torque - Nm 000 3500 25600 33200 58600 68000 29000 35000 Input Power - kw 77.3 94 7 229 385 507 845 996 Output Torque - Nm 000 3700 25600 34700 58600 74200 30000 5000 Input Power - kw 68.9 85 50 206 350 482 746 943 Output Torque - Nm 000 3800 25600 34900 58600 7900 30000 6000 Input Power - kw 60.8 76.3 39 82 309 44 652 832 Output Torque - Nm 000 4000 25600 35200 58600 7900 30000 6000 Input Power - kw 45.8 68 22 6 269 376 607 728 Output Torque - Nm 9550 4000 25600 35300 58600 7900 30000 6000 Input Power - kw 45.8 60. 09 50 247 332 54 678 Output Torque - Nm 0700 4000 25600 35400 58600 79200 26000 6000 Input Power - kw 42.8 45.8 98.2 22 22 269 469 54 Output Torque - Nm 000 2000 25600 33000 58600 73500 30000 4000 Input Power - kw 38.5 45.8 86 5 89 260 47 495 Output Torque - Nm 000 3400 25600 34700 58600 7700 30000 52000 Input Power - kw 34.3 42.3 75.8 04 72 238 368 466 Output Torque - Nm 000 4000 25600 34900 58600 79200 30000 6000 Input Power - kw 30.3 38 70.2 9.8 52 204 32 4 Output Torque - Nm 000 4000 25600 35200 58600 79200 30000 6000 Input Power - kw 27.5 33.9 62. 8. 43 85 300 359 Output Torque - Nm 0800 4000 25600 35300 58600 79200 30000 6000 Input Power - kw 25 29.9 54.4 75.5 23 63 259 334 Output Torque - Nm 0900 4000 25600 35400 58600 79300 30000 62000 Input Power - kw 22.3 27.5 48 65.7 2 45 228 269 Output Torque - Nm 000 4000 25600 35000 58600 75000 30000 50000 Input Power - kw 9.7 24.7 44.4 58. 98.5 32 200 255 Output Torque - Nm 000 4000 25600 35200 58600 79200 30000 62000 Input Power - kw - 22 37. 5.3 90.4 20 85 223 Output Torque - Nm - 4000 25600 35300 58600 79300 30000 62000 Input Power - kw - 9.5 34.4 47.7 79.8 06 64 208 Output Torque - Nm - 4000 25600 35400 58600 79300 30000 62000 Input Power - kw - - 30.4 39.7 70. 97.5 53 84 Output Torque - Nm - - 25600 35300 58600 79300 30000 62000 Input Power - kw - - 26.8 36.9 63.7 86. 34 7 Output Torque - Nm - - 25600 35400 58600 79300 30000 62000 Input Power - kw - - 24.8 32.4 56.2 75.6 7 50 Output Torque - Nm - - 25600 35300 58600 79300 30000 62000 Input Power - kw - - 2 28.6 50. 68.7 09 3 Output Torque - Nm - - 25600 35300 58600 79300 30000 62000 Input Power - kw - - 8.5 26.6 45.5 60.6 92 22 Output Torque - Nm - - 25600 35400 58600 79300 30000 62000 Input Power - kw - - 7. 22.4 40.2 54. 8 03 Output Torque - Nm - - 25600 35400 58600 79300 30000 62000 Input Power - kw - - 4.6 9.7 35.5 49. 75 90.2 Output Torque - Nm - - 23500 35400 58600 79300 30000 62000 Input Power - kw - - 3 8.4 3.7 43.4 7 83.9 Output Torque - Nm - - 24500 35400 58600 79300 30000 62000 Input Power - kw - - 2 4.6 28.8 38.3 60 79.3 Output Torque - Nm - - 25700 30000 58600 79300 30000 62000 Input Power - kw - -. 3 25.4 34.2 52 67 Output Torque - Nm - - 25700 3500 58600 79300 30000 62000 Input Power - kw - - - 2.8-3. 49 58.8 Output Torque - Nm - - - 35400-79300 30000 62000 Input Power - kw - - -.9-27.4-55. Output Torque - Nm - - - 35400-79300 - 64000 TRIPLE REDCTION QADRPLE REDCTION 44

RIGT ANGLE SAFT ECANICAL RATINGS AT 725 RP INPT NOINAL RATIO NO 8. 0 9 9. 0 8 0. 73. 65 2. 58 4. 52 6. 45 8. 40 2 0. 36.3 2 2. 33.0 2 5. 29.0 2 8. 25.9 3 2. 22.7 3 6. 20. 4 0. 8. 4 5. 6. 5 0. 4.5 5 6. 2.9 6 3..5 7. 0.2 8 0. 9. 9 0. 8. 0 0 7.3 2 6.5 2 5 5.8 4 0 5.2 6 0 4.5 8 0 4.0 2 0 0 3.6 2 2 5 3.2 2 5 0 2.9 2 8 0 2.6 3 5 2.3,P RIGT ANGLE SAFT NITS - SIZE G4 G5 G6 G7 G8 G9 G2 G22 Input Power - kw 86.4-87 - 383 - - - Output Torque - Nm 8450-9200 - 38400 - - - Input Power - kw 83.2-87 - 383-752 - Output Torque - Nm 9380-20800 - 42400-88000 - Input Power - kw 8-87 - 383-752 752 Output Torque - Nm 000-22700 - 48600-97000 98200 Input Power - kw 78.5-84 - 383-752 752 Output Torque - Nm 0800-25600 - 5400-0000 09000 Input Power - kw 7.8 8 64 87 380 383 752 752 Output Torque - Nm 000 2700 25600 29200 58600 6000 20000 23000 Input Power - kw 65 78. 47 86 339 383 720 752 Output Torque - Nm 000 3500 25600 33200 58600 68000 29000 35000 Input Power - kw 58.4 7 29 73 29 383 639 752 Output Torque - Nm 000 3700 25600 34700 58600 7400 30000 5000 Input Power - kw 52 64.2 4 56 264 365 564 74 Output Torque - Nm 000 3800 25600 34900 58600 7900 30000 6000 Input Power - kw 45.9 57.6 05 38 233 33 493 630 Output Torque - Nm 000 4000 25600 35200 58600 79200 30000 6000 Input Power - kw 34.6 5.4 92.4 22 204 285 459 55 Output Torque - Nm 9550 4000 25600 35300 58600 79200 30000 6000 Input Power - kw 34.6 45.4 82.6 3 87 25 389 54 Output Torque - Nm 0700 4000 25600 35400 58600 79200 26000 6000 Input Power - kw 32.4 34.6 74.2 92.4 67 204 355 389 Output Torque - Nm 000 2000 25600 33000 58600 73500 30000 4000 Input Power - kw 29. 34.6 65 87 43 96 35 374 Output Torque - Nm 000 3400 25600 34700 58600 7700 30000 52000 Input Power - kw 25.9 32 57.3 78.4 30 80 278 353 Output Torque - Nm 000 4000 25600 34900 58600 79200 30000 62000 Input Power - kw 22.9 28.7 53. 69.4 4 54 243 3 Output Torque - Nm 000 4000 25600 35200 58600 79300 30000 62000 Input Power - kw 20.8 25.6 46.9 6.3 08 40 226 272 Output Torque - Nm 0800 4000 25600 35300 58600 79300 30000 62000 Input Power - kw 8.9 22.6 4. 57 92.7 23 95 253 Output Torque - Nm 000 4000 25600 35400 58600 79300 30000 62000 Input Power - kw 6.8 20.8 36.2 49.6 84.2 0 72 203 Output Torque - Nm 000 4000 25600 35000 58600 75000 30000 50000 Input Power - kw 4.9 8.7 33.6 43.9 74.4 00 50 93 Output Torque - Nm 000 4000 25600 35200 58600 79300 30000 62000 Input Power - kw - 6.6 28 38.7 68.2 90 40 68 Output Torque - Nm - 4000 25600 35300 58600 79300 30000 62000 Input Power - kw - 4.7 25.9 36 60.2 80.2 24 57 Output Torque - Nm - 4000 25600 35400 58600 79300 30000 62000 Input Power - kw - - 22.9 29.9 52.9 73.6 5 39 Output Torque - Nm - - 25600 35300 58600 79300 30000 62000 Input Power - kw - - 20.2 27.9 48. 65 0 29 Output Torque - Nm - - 25600 35400 58600 79300 30000 62000 Input Power - kw - - 8.7 24.5 42.4 57. 88 3 Output Torque - Nm - - 25600 35300 58600 79300 30000 62000 Input Power - kw - - 5.8 2.6 37.8 5.9 82 99 Output Torque - Nm - - 25600 35400 58600 79300 30000 62000 Input Power - kw - - 3.9 20. 34.4 45.8 70 92.2 Output Torque - Nm - - 25600 35400 58600 79300 30000 62000 Input Power - kw - - 2.9 6.9 30.3 40.8 6 77.9 Output Torque - Nm - - 25600 35400 58600 79300 30000 62000 Input Power - kw - - 4.9 26.8 37. 57 68. Output Torque - Nm - - 23500 35400 58600 79300 30000 62000 Input Power - kw - - 9.8 3.9 23.9 32.7 53 63.4 Output Torque - Nm - - 24500 35400 58600 79300 30000 62000 Input Power - kw - - 9. 2.7 29 45 59.9 Output Torque - Nm - - 25700 30000 58600 79300 30000 62000 Input Power - kw - - 8.4 9.8 9.2 25.8 39 5.4 Output Torque - Nm - - 25700 3500 58600 79300 30000 64000 Input Power - kw - - - 9.7-23.5 37 44.9 Output Torque - Nm - - - 35400-79300 30000 64000 Input Power - kw - - - 9-20.7-4.8 Output Torque - Nm - - - 35400-79300 - 64000 TRIPLE REDCTION QADRPLE REDCTION 45

Thermal Ratings kw Right Angle Shafts - Triple Reduction Right Angle Shafts - Quadruple Reduction SERIES G RIGT ANGLE SAFT TERAL RATINGS These thermal ratings assume the gear unit is in constant use working in an ambient temperature of 25 C (77 F) * installed in a large indoor space at sea level. These ratings must be adjusted for alternative operating and environment conditions refer to Thermal ratings and service factors on page 6. *maximum bulk oil temperature 95 C (203 F) Type of Cooling No Additional Cooling Fan Cooling Cooling Coil Fan and Cooling Coil Input Speed (rev/min) 750 450 60 960 750 450 60 960 750 450 60 960 750 450 60 960 Ratio G430 G530 G630 G730 G830 G930 G230 G2230 2: 67 72 07 02 67 46 76 86 25: 50 58 89 87 39 24 54 66 56: 30 38 6 63 97 89 7 29 2: 65 69 07 04 7 60 208 220 25: 50 56 90 89 45 38 85 98 56: 3 38 63 66 03 02 44 58 2: 63 67 07 05 76 73 235 247 25: 49 55 90 9 50 50 2 225 56: 3 37 64 68 09 3 67 82 2: 62 65 07 06 78 80 252 265 25: 49 54 9 93 53 58 227 242 56: 3 37 65 70 2 20 82 98 2: 79 8 288 285 485 54 763 785 25: 54 6 26 264 44 502 722 748 56: 24 2 22 357 424 634 669 2: 58 6 259 257 436 489 696 77 25: 35 42 234 237 395 452 656 682 56: 96 08 87 97 37 379 573 606 2: 38 40 230 229 388 437 629 649 25: 7 23 207 2 350 403 59 66 56: 83 93 63 73 278 335 52 544 2: 24 26 20 20 354 400 58 60 25: 04 0 88 92 38 368 544 568 56: 73 83 47 57 25 304 469 500 2: 74 80 28 283 473 479 554 573 25: 49 60 255 26 430 44 56 539 56: 06 23 205 29 347 367 439 468 2: 68 75 277 279 467 477 563 582 25: 45 56 25 258 425 44 526 549 56: 04 2 203 27 345 368 449 479 2: 64 70 272 275 46 476 57 59 25: 4 5 248 255 42 440 534 558 56: 02 8 200 25 343 369 459 489 2: 6 66 269 273 458 475 576 596 25: 38 49 245 254 48 440 540 564 56: 0 6 99 24 34 370 465 495 2: 249 252 399 399 68 737 967 992 25: 22 23 37 376 633 695 923 953 56: 70 88 33 329 537 608 828 868 2: 23 234 375 376 640 693 909 933 25: 204 24 348 354 594 652 866 895 56: 56 74 292 308 50 568 774 83 2: 23 27 35 354 600 649 85 875 25: 88 98 325 332 556 6 809 838 56: 43 60 272 288 467 530 72 759 2: 20 206 335 338 572 69 80 834 25: 77 87 309 37 529 58 770 798 56: 34 50 258 274 444 503 684 72 Type of Cooling No Additional Cooling Input Speed (rev/min) 750 450 60 960 Ratio G440 G540 G640 G740 G840 G940 G240 G2240 00: - - 62 6 83 75 92 94 250: - - 45 46 63 59 72 76 00: - - 62 6 86 82 09 0 250: - - 45 47 67 66 88 92 00: - - 6 62 89 88 23 24 250: - - 45 48 70 72 0 05 00: - - 6 62 90 92 32 33 250: - - 46 48 72 76 09 3 46

G 3 0 B Triple Reduction Right Angle nits orizontal Q W SERIES G DIENSIONS ORIZONTAL RIGT ANGLE SAFTS TRIPLE REDCTION B N W3 Tapped hole dimn V5 5 Tapped hole dimn V4 3 W W2 D E E Y F G F or shaft/sleeve tolerance refer to shaft options tables pages 4 to 6 Y T Rø holes for Sø bolts K K2 J (Opposite side of case) Z Z ollow Shaft Option øv Input Shaft øv Output Shaft ød 2 L2 ød L Output Bore nit B D E E F G J K K2 N Q R S T G4 720 230 250 370 77 265 300 50 70 285 820 295 360 8.5 6 x x 60* m6 G5 760 230 250 370 77 265 300 50 30 285 820 255 370 8.5 6 x m6 x 60* G6 940 300 335 55 225 330 380 90 225 385 060 370 460 28 6 X m24 X 80* G7 995 300 335 55 225 330 380 90 70 385 060 35 480 28 6 x m24 x 80* G8 220 385 420 70 290 440 500 250 53 520 350 240 338 600 33 6 x m30 x 00* G9 285 385 420 70 290 440 500 250 220 500 374 407 650 33 6 x m30 x 00* G2 630 465 507 750 340 530 600 300 225 695 480 655 465 700 39 6 x m36 x 00* G22 670 465 507 750 340 530 600 300 245 745 490 75 485 730 39 6 x m36 x 00* 25 684 55 25 684 55 30 898 70 30 898 70 37 036 90 40 70 90 50 380 20 50 440 20 nit G4 G5 G6 G7 G8 G9 G2 00 G22 00 Input Shaft Output Shaft Output Bore V V4 W W2 Y Z V V5 W W3 Y Z D D2 L L2 38 2 k6 x 32 00 90 0 4 0 30 x63 80 70 28 6 95 00 80 255 38 2 00 90 0 4 30 30 k6 x32 x63 90 80 32 37 0 5 80 260 50 6 45 42 40 30 4 53.5 k6 x 36 x8 230 220 36 53 25 30 230 325 50 6 70 42 k6 x 36 40 30 4 53.5 x8 250 240 40 79 45 50 230 340 75 20 90 42 x 43 60 50 20 79.5 x8 300 290 45 200 60 70 300 40 75 20 20 42 x 43 60 50 20 79.5 x8 350 340 50 22 70 80 300 430 24 x 52 20 200 28 06 220 42 x8 350 340 50 23 20 220 350 500 24 x 52 20 200 28 06 240 42 x8 380 340 56 252 230 240 350 55 47

DIENSIONS VERTICAL RIGT ANGLE SAFTS TRIPLE REDCTION G 3 0 R Triple Reduction Right Angle nits Vertical or shaft tolerance refer to shaft options tables pages 4 and 5 W 5 W3 Y Z Tapped hole dimn V5 Q øv P 2 F F Input Shaft Y Z F Pump øv Output Shaft T G2 G2 Agitator nit B N W Note Agitator unit has a drywell and grease lubricated lower bearings øg3 W W Q2 Tapped hole dimn V4 3 W2 G D D * Tower nit øg3 Q2 R K J nit B D F F G G2 (min) No Fan With Fan G3 J K N P2 Q Q2 R T G4 720 230 77 390 390 35 55 230 300 50 260 750 820 295 236 360 475 G5 760 230 77 390 390 35 55 260 300 50 220 750 820 255 236 370 495 G6 940 300 225 55 506 75 205 300 380 90 325 970 060 370 285 460 595 G7 995 300 225 55 506 75 205 340 380 90 270 970 060 35 285 480 65 G8 220 385 290 700 656 205 245 370 500 250 28 26 240 338 345 600 760 G9 285 385 290 700 656 205 245 400 500 250 350 260 374 407 345 650 85 G2 630 465 340 750 790 255 35 500 600 300 395 55 655 465 400 700 925 G22 670 465 340 750 790 265 35 * 600 300 45 575 75 485 400 730 * 4 x Ø24 4 x Ø24 4 x Ø33 4 x Ø33 4 x Ø40 4 x Ø40 4 x Ø48 4 x Ø48 30 30 45 45 55 55 70 70 nit G4 38 k6 G5 38 k6 G6 50 k6 G7 50 k6 G8 75 G9 75 G2 00 G22 00 Input Shaft Output Shaft V V4 W W2 Y Z V V5 W W3 Y Z 2 x 32 00 90 0 4 0 30 x63 2 x32 00 90 0 4 30 30 x63 6 x 36 40 30 4 53.5 45 42 x8 6 x 36 40 30 4 53.5 70 42 x8 20 x 43 60 50 20 79.5 90 42 x8 20 60 50 20 79.5 20 42 x 43 x8 24 x 52 20 200 28 06 220 42 x8 24 x 52 20 200 28 06 240 42 x8 80 70 28 6 90 80 32 37 230 220 36 53 250 240 40 79 300 290 45 200 350 340 50 22 350 340 50 23 380 340 56 252 48 * = Contact Application Engineering

DIENSIONS ORIZONTAL RIGT ANGLE SAFTS QADRPLE REDCTION G 4 0 B Quadruple Reduction Right Angle nits orizontal Q W B N W3 Tapped hole dimn V5 5 Tapped hole dimn V4 3 W W2 D E E Y F G F or shaft/sleeve tolerance refer to shaft options tables pages 4 to 6 Y T Rø holes for Sø bolts K K2 J (Opposite side of case) Z Z ollow Shaft Option øv Input Shaft øv Output Shaft ød 2 L2 ød L Output Bore nit B D E E F G J K K2 N Q R S T G6 965 300 335 55 225 330 380 90 225 385 060 370 460 28 6 X X 80* m24 G7 020 300 335 55 225 330 380 90 70 385 060 35 480 28 6 x m24 x 80* G8 265 385 420 70 290 440 500 250 53 520 350 240 338 600 33 6 x m30 x 00* G9 330 385 420 70 290 440 500 250 220 500 374 407 650 33 6 x m30 x 00* G2 660 465 507 750 340 530 600 300 225 695 480 655 465 700 39 6 x m36 x 00* G22 700 465 507 750 340 530 600 300 245 745 490 75 485 730 39 6 x m36 x 00* 30 898 70 30 898 70 37 036 90 40 70 90 50 380 20 50 440 20 nit G6 G7 G8 G9 G2 G22 Input Shaft Output Shaft Output Bore V V4 W W2 Y Z V V5 W W3 Y Z D D2 L L2 38 k6 38 k6 50 k6 50 k6 75 75 2 x 32 00 90 0 4 45 2 x 32 00 90 0 4 70 6 x 36 40 30 4 53.5 90 6 20 x 36 40 30 4 53.5 20 x 43 60 50 20 79.5 220 20 x 43 60 50 20 79.5 240 42 x8 42 x8 42 x8 42 x8 42 x8 42 x8 230 220 36 53 25 30 230 325 250 240 40 79 45 50 230 340 300 290 45 200 60 70 300 40 350 340 50 22 70 80 300 430 350 340 50 23 20 220 350 500 380 340 56 252 230 240 350 55 49

DIENSIONS VERTICAL RIGT ANGLE SAFTS QADRPLE REDCTION G 4 0 R Quadruple Reduction Right Angle nits Vertical or shaft tolerance refer to shaft options tables pages 4 and 5 W 5 W3 Y Z Tapped hole dimn V5 Q øv P 2 F F Input Shaft Y Z F eavy Duty Agitator nit Pump øv Output Shaft B T G2 G2 N W Note Agitator unit has a drywell and grease lubricated lower bearings øg3 W W Q2 Tapped hole dimn V4 3 W2 G D D * eavy Duty Tower nit øg3 Q2 R K J nit B D F F G G2 (min) G3 J K N P2 Q Q2 R T G6 965 300 225 55 506 75 300 380 90 325 970 060 370 285 460 595 G7 020 300 225 55 506 75 340 380 90 270 970 060 35 285 480 65 G8 265 385 290 700 656 205 370 500 250 28 26 240 338 345 600 760 G9 330 385 290 700 656 205 400 500 250 350 260 374 407 345 650 85 G2 660 465 340 750 790 255 500 600 300 395 55 655 465 400 700 925 G22 700 465 340 750 790 265 * 600 300 45 575 75 485 400 730 * 4 x Ø33 4 x Ø33 4 x Ø40 4 x Ø40 4 x Ø48 4 x Ø48 45 45 55 55 70 70 nit G6 G7 G8 G9 G2 G22 Input Shaft Output Shaft V V4 W W2 Y Z V V5 W W3 Y Z 38 k6 38 k6 50 50 75 75 2 x 32 2 x 32 6 x 36 6 x 36 20 x 43 20 x 43 00 90 0 4 00 90 0 4 40 30 4 53.5 40 30 4 53.5 60 50 20 79.5 60 50 20 79.5 45 70 90 20 220 240 42 x8 42 x8 42 x8 42 x8 42 x8 42 x8 230 220 36 53 250 240 40 79 300 290 45 200 350 340 50 22 350 340 50 23 380 340 56 252 * = Contact Application Engineering 50

G 3 0 B Triple Reduction J Type Right Angle nits orizontal W W 2 3 SERIES G DIENSIONS ORIZONTAL J TYPE RIGT ANGLE SAFTS TRIPLE REDCTION Only available for ratios: G4, G6, G8 nits - Ratios 22 to 63 G5, G7, G9, G22 nits - Ratios 28 to 80 G2 nits - Ratios 25 to 7 Q Tapped hole dimn V4 B A N P Y øv Z Input Shaft ød 2 F G F ød W W3 5 Y øv Output Shaft Tapped hole dimn V5. For shaft/sleeve Tolerance refer to shaft options tables pages 4 to 6 Z T Rø holes for Sø bolts K ollow Shaft Option K2 J (Opposite side of case) L L2 D E E Output Bore * aximum bolt length nit A B D E E F G J K K2 N P Q R S T G4 325 554 230 250 370 77 265 300 50 70 285 820 295 395 360 8.5 6 x x 60* m6 G5 365 594 230 250 370 77 265 300 50 30 285 820 255 395 370 8.5 6 x x 60* m6 G6 430 728 300 335 55 225 330 380 90 225 385 060 370 50 460 28 6 X m24 X 80* G7 485 783 300 335 55 225 330 380 90 70 385 060 35 50 480 28 6 x m24 x 80* G8 570 953 385 420 70 290 440 500 250 53 520 350 240 338 650 600 33 6 x m30 x 00* G9 635 08 385 420 70 290 440 500 250 220 500 374 407 650 650 33 6 x m30 x 00* G2 765 240 465 507 750 340 530 600 300 225 695 480 655 465 865 700 39 6 x m36 x 00* G22 805 280 465 507 750 340 530 600 300 245 745 490 75 485 865 730 39 6 x m36 x 00* 25 684 55 25 684 55 30 898 70 30 898 70 37 036 90 40 70 90 50 380 20 50 440 20 nit G4 G5 G6 G7 G8 G9 G2 00 G22 00 Input Shaft Output Shaft Output Bore V V4 W W2 Y Z V V5 W W3 Y Z D D2 L L2 38 2 k6 x 32 00 90 0 4 0 30 x63 80 70 28 6 95 00 80 255 38 k6 2 x32 00 90 0 4 30 30 x63 90 80 32 37 0 5 80 260 50 6 45 42 k6 40 30 4 53.5 x 36 x8 230 220 36 53 25 30 230 325 50 k6 6 x 36 40 30 4 53.5 70 42 x8 250 240 40 79 45 50 230 340 75 20 x 43 60 50 20 79.5 90 42 x8 300 290 45 200 60 70 300 40 75 20 x 43 60 50 20 79.5 20 42 x8 350 340 50 22 70 80 300 430 24 x 52 20 200 28 06 220 42 x8 350 340 50 23 20 220 350 500 24 x 52 20 200 28 06 240 42 x8 380 340 56 252 230 240 350 55 5

G 3 0 R Triple Reduction J Type Right Angle nits Vertical Only available for ratios: G4, G6, G8 nits - Ratios 22 to 63 G5, G7, G9, G22 nits - Ratios 28 to 80 G2 nits - Ratios 25 to 7 W SERIES G DIENSIONS VERTICAL J TYPE RIGT ANGLE SAFTS TRIPLE REDCTION W 3 5 Tapped hole dimn V5 P F W P2 W3 3 G2 G2 T W Q2 G B N D F F Q Y Y Note eavy Duty Agitator nit Agitator unit has a drywell and grease lubricated lower bearings Pump * øv Input Shaft eavy Duty Tower nit Z øg3 øv Output Shaft Z D øg3 W Q2. For shaft/sleeve Tolerance refer to shaft options tables pages 4 to 6 R Tapped hole dimn V4 A K J nit A B D F F G G2 (min) G3 J K N P P2 Q Q2 R T G4 325 554 230 77 390 390 35 230 300 50 260 750 820 295 395 236 360 475 G5 365 594 230 77 390 390 35 260 300 50 220 750 820 255 395 236 370 495 G6 430 728 300 225 55 506 75 300 380 90 325 970 060 370 50 285 460 595 G7 485 783 300 225 55 506 75 340 380 90 270 970 060 35 50 285 480 65 G8 570 953 385 290 700 656 205 370 500 250 28 26 240 338 650 345 600 760 G9 635 08 385 290 700 656 205 400 500 250 350 260 374 407 650 345 650 85 G2 765 240 465 340 750 790 255 500 600 300 395 55 655 465 865 400 700 925 G22 805 280 465 340 750 790 265 * 600 300 45 575 75 485 865 400 730 * 4 x Ø24 4 x Ø24 4 x Ø33 4 x Ø33 4 x Ø40 4 x Ø40 4 x Ø48 4 x Ø48 30 30 45 45 55 55 70 70 nit G4 38 k6 G5 38 k6 G6 50 G7 50 G8 75 G9 75 G2 00 G22 00 Input Shaft Output Shaft V V4 W W2 Y Z V V5 W W3 Y Z 2 x 32 00 90 0 4 0 30 x63 2 x 32 00 90 0 4 30 30 6 x63 6 40 30 4 53.5 45 42 x 36 6 x8 6 70 42 40 30 4 53.5 x 36 6 x8 20 60 50 20 79.5 90 42 x 43 6 x8 20 60 50 20 79.5 20 42 x 43 6 x8 24 x 52 20 200 29 06 220 42 6 x8 24 x 52 20 200 28 06 240 42 6 x8 80 70 28 6 90 80 32 37 230 220 36 53 250 240 40 79 300 290 45 200 350 340 50 22 350 340 50 23 380 340 56 252 * = Contact Application Engineering 52

FAN COOLING DIENSIONS RIGT ANGLE SAFTS Right Angle Shaft nits with echanical Fans B B F2 F3 F W3 F nit Triple Reduction Only B B F F2 F3 W3 (useable shaft extension) G4 720 670 387 40 480 70 G5 760 70 387 40 480 70 G6 940 860 507 80 620 00 G7 995 95 507 80 620 00 G8 220 33 625 230 790 05 G9 285 98 625 230 790 05 G2 630 496 762 297 955 55 G22 670 536 762 297 955 55 53

WORKING PRINCIPLE OLLOW OTPT SAFT WIT SRINK DISC locking collar and tapered inner ring are pulled together, exerting radial forces on the inner ring, thus creating a positive friction connection between hollow shaft and driven shaft. As the tapered surfaces of locking collar and inner ring are lubricated with olykote 32R or similar and the taper angle is not When the shrink disc is clamped in position the high contact pressures between tapered surfaces and screw heads and their seatings ensure hermetic sealing and eliminate the possibility of fretting corrosion. nit Size 4 5 6 7 8 9 2 22 CSTOERS SAFT SRINK DISC ød ød2 ød3 ød4 I I I2 K Type B ød øg 95 h6 0 h6 25 h6 45 h6 60 h6 70 g6 20 g6 230 g6 00 h6 5 h6 30 h6 50 h6 70 g6 80 g6 220 g6 240 g6 94.5 5 43 55 50 09.5 30 48 60 60 24.5 47 530 70 70 44.5 67 545 90 90 59.5 85 685 90 90 69.5 95 705 05 05 209.5 225 820 30 05 229.5 235 835 45 05 24 x50 24 x50 24 x50 30 x60 30 x60 30 x60 30 x60 30 x60 Torque Ta (Nm) SD 20-8-95 22 20 97 53 2 2 SD 40-8-0 22 40 230 58 4 93 SD 60-8-25 28 60 290 68 6 295 SD 80-8-45 28 80 320 85 6 295 SD 200-8-60 30 200 340 85 6 295 SD 220-8-70 30 220 370 03 20 570 SD 260-8-20 30 260 430 9 20 570 SD 280-8-230 30 280 460 32 20 570 OLLOW SAFT END PLATE nit Size ød ød2 ød3 L L L2 L3 C C ød5 ød6 øk P Circlip crs 4 95 00 96 45 80 255 276 20 0.0 9.8 99.75 99.5 78 26 55 2 D300-000 5 0 5 420 80 260 276 20 0.0 4.75 9.8 4.50 90 26 65 2 D300-50 6 25 30 26 533 230 325 348 25 2.0.8 29.75 29.50 03 26 70 6 D300-300 7 45 50 47 548 230 340 348 25 2.0.8 49.75 49.50 20 33 85 6 D300-500 8 60 70 62 688 300 40 442 25 2.0.8 69.75 69.5 35 33 00 6 D300-700 9 70 80 72 708 300 430 442 25 2.0.8 84.75 84.50 50 33 0 6 D300-850 2 20 220 22 824 350 500 50 28 4.0 3.8 29.75 29.50 70 33 30 20 D300-2200 22 230 240 232 839 350 55 535 28 4.0 239.75 3.8 239.50 90 33 50 20 D300-2400 Customers Shaft 3.2 3.2 l ød 4 min 5x5 o ollow Shaft and Shrink Disc L ø 2 d l2 30 o 3 rad (max) L3 L2 ød 3 B ød l K Tapped hole End Plate (If required) C C Circlip L ød 2 ød 3 bush ød ød øg Recess for end plate Screws (tightened to torque Ta) ød 5 ø 6 d øk hole Two tappings at 80 o 54

KEYED SLEEVES Customers Shaft l 3.2 3.2 n Column 0 Entry etric K l4 l3 Chamfer 5 x 5 Inch W O d4 min 4 rad (max) O d O d -0.3-0.5 O d K Tapped hole Consult Application Engineering for dimensions of Inch sleeves l l2 ollow Shaft End Plate (If required) C L L C Circlip e O D O D O d6 e O d5 O K hole Two tappings P at 80 NIT SIZE 4 5 6 7 8 9 2 22 Ød Ød4 l l l2 95 h6 0 h6 25 h6 45 h6 60 h6 80 g6 20 g6 230 g6 CSTOERS SAFT l3 (min) l4 m n k 5 335 95 80 280 20 25 (p9) 86.0 85.8 24 x 50 30 335 05 90 280 20 47 430 20 00 360 25 67 430 30 0 360 25 92 570 45 25 520 25 207 570 55 35 520 25 225 670 65 45 60 30 250 670 75 55 60 30 28 (p9) 32 (p9) 36 (p9) 40 (p9) 45 (p9) 50 (p9) 50 (p9) 00.0 99.8 4.0 3.8 33.0 32.7 52.0 5.6 65.0 64.7 93.0 92.7 23.0 22.7 24 x 50 24 x 50 30 x 60 30 x 60 30 x 60 30 x 60 30 x 60 Key Section (not supplied) 25 x 4 28 x 6 32 x 8 36 x 20 40 x 22 45 x 25 50 x 28 50 x 28 NIT SIZE 4 5 6 7 8 9 2 22 OLLOW SAFT END PLATE ØD e L C C Ød5 Ød6 ØK 95 7 0 7 25 7 45 7 60 7 80 7 20 7 230 7 20 80 20 20 80 20 22 230 25 22 230 25 22 300 25 22 300 25 26 350 28 26 350 28 0.0 9.8 0.0 9.8 2.0.8 2.0.8 2.0.8 2.0.8 4.0 3.8 4.0 3.8 99.75 99.50 4.75 4.50 29.75 29.50 49.75 49.50 69.75 69.50 84.75 84.50 29.75 29.50 239.75 239.50 crs P Circlip 78 26 55 2 D300-000 90 26 65 2 D300-50 03 26 70 6 D300-300 20 33 85 6 D300-500 35 33 00 6 D300-700 50 33 0 6 D300-850 70 33 30 20 D300-2200 90 33 50 20 D300-2400 55

COOLING COIL CONNECTIONS The protruding cooling coil pipe can be connected to customers pipe work via a suitable straight coupling. Connections are therefore interchangeable. For best performance, the water supply should be at 0 o C / 2 o rate of 5 litres / minute. C B A SIZE OF NIT A B C Gear Case C 4 30 20 63 5 270 20 63 6 370 50 220 7 35 50 220 8 35 200 285 9 385 200 285 2 400 200 355 22 420 200 355 A ø2m m 50mm 56

BACKSTOPS They are located on the helical pinion shaft and have adequate capacities to deal with full rated torques. All backstops are centrifugal lift off type. Changing the direction of locking rotation is a simple operation. Parallel Shaft nits Column 6 entry, shaft rotation shown 3 Stage 2 A 4 Stage 2 A øc 2 øc 2 A A 2 2 2 2 B B B B øc Right Angle Shaft nits Column 6 entry, shaft rotation shown For right angle units, if backstop position is required at opposite side of unit to outputshaft, column 6 entry must be 3 or 4 (see page 4) A A 3 Stage 4 Stage øc B 2 B 2 øc 2 øc A A 2 4 3 4 3 4 4 B 3 B 3 øc øc A B øc Backstop G4 325 G5 365 G6 430 G7 485 G8 570 G9 635 G2 765 G22 805 275 75 85-40 340 20 20-50 433 290 70-63 500 30 200-63 57 Note: Torque limiting backstops with control- all Series G units (for details consult our Application Engineers).

TORQE AR Torque arms are available for all shaft mounted units with parallel or right angle shafts. They are supplied as optional extras and are secured to gear cases as shown below. mounting as indicated. tion. Reference must be made to our Application Engineers, with details, where units are required to operate in an inclined position. The torque arm must be flexibly mounted to the chassis structure Each pair of disc springs to be compressed mm on assembly SAFT ONTED NITS FOR IG INERTIA DRIVE When used on Traverse drives with high inertia driven loads, eg crane drives (slewing, long travel and cross travel) bogie drives and selected high inertia load roller table drives, it is recommended that details. G D E ø unit adjacent to the driven machine. øf C B B A SIZE OF NIT A B B E C D F G Disc Spring Ref X IN AX 4 490 5 530 35 55 95 95 40 60 30 207 80 x 4 x 4. 4 6 645 7 700 67 65 253 25 50 75 36 262 00 x 5 x 6. 52 8 845 9 90 222 80 328 50 70 05 48 336 25 x 7 x 6.7 72 2 & 22 Contact our Application Engineers 58

OTORISED SERIES G 59

OTORISED DIENSIONS Parallel Shaft nits øp LB C F A Double Reduction nit G420 G520 G620 G720 IEC otors otor Column 3 Entry A C F LB (max) ØP 200 D 325 428 229 65 400 225 E 325 458 229 786 450 250 F 325 458 275 839 550 280 G 325 458 275 95 550 200 D 365 428 229 65 400 225 E 365 458 229 786 450 250 F 365 458 275 839 550 280 G 365 458 275 95 550 250 F 430 53 298 839 550 280 G 430 53 298 95 550 35 430 543 330 028 660 250 F 485 53 298 839 550 280 G 485 53 298 95 550 35 485 543 330 028 660 Triple and Quadruple Reduction NEA otors otor Column LB 3 Entry C F (max) ØP 324TC/326TC R 445 229 657 339.7 364TC/365TC S 460.9 229 785 339.7 404TC/405TC T 495.8 229 839 352.4 324TC/326TC R 445 229 657 339.7 364TC/365TC S 460.9 229 785 339.7 404TC/405TC T 495.8 229 839 352.4 364TC/365TC S 55.9 383 785 339.7 404TC/405TC T 550.8 383 839 352.4 444TC/445TC 582.6 383 95 352.4 364TC/365TC S 55.9 383 785 339.7 404TC/405TC T 550.8 383 839 352.4 444TC/445TC 582.6 383 95 352.4 nit G430 / G440 G530 / G540 G540 G630 / G640 G730 / G740 G740 G830 / G840 G930 / G940 IEC otors otor Column 3 Entry A C F LB (max) ØP 32 A 435 358 70 420 300 60 B 435 388 75 540 350 80 C 435 388 75 598 350 200 D 435 388 200 65 400 225 E 435 48 225 786 450 250 F 435 48 275 839 550 32 A 475 358 70 420 300 60 B 475 388 75 540 350 80 C 475 388 75 598 350 200 D 475 388 200 65 400 225 E 475 48 225 786 450 250 F 475 48 275 839 550 32 A 570 423 70 420 300 60 B 570 453 75 540 350 80 C 570 453 75 598 350 200 D 570 453 200 65 400 225 E 570 483 225 786 450 250 F 570 483 275 839 550 280 G 570 483 275 95 550 35 570 53 330 028 660 32 A 625 423 70 420 300 60 B 625 453 75 540 350 80 C 625 453 75 598 350 200 D 625 453 200 65 400 225 E 625 483 225 786 450 250 F 625 483 275 839 550 280 G 625 483 275 95 550 35 625 53 330 028 660 80 C 755 553 98 598 350 200 D 755 553 200 65 400 225 E 755 583 225 786 450 250 F 755 583 275 839 550 280 G 755 583 275 95 550 35 755 63 330 028 660 80 C 820 553 98 598 350 200 D 820 553 200 65 400 225 E 820 583 225 786 450 250 F 820 583 275 839 550 280 G 820 583 275 95 550 35 820 63 330 028 660 NEA otors otor Column 3 Entry C F LB (max) ØP 254TC/256TC P 373.2 70 546 254 284TC/286TC Q 389. 70 605 285.8 324TC/326TC R 405 70 657 339.7 364TC/365TC S 420.9 70 785 339.7 404TC/405TC T 455.8 77 839 352.4 254TC/256TC P 373.2 70 546 254 284TC/286TC Q 389. 70 605 285.8 324TC/326TC R 405 70 657 339.7 364TC/365TC S 420.9 70 785 339.7 404TC/405TC T 455.8 77 839 352.4 254TC/256TC P 438.2 70 546 254 284TC/286TC Q 454. 70 605 285.8 324TC/326TC R 470 70 657 339.7 364TC/365TC S 485.9 70 785 339.7 404TC/405TC T 520.8 77 839 352.4 444TC/445TC 552.6 23 95 425.5 254TC/256TC P 438.2 70 546 254 284TC/286TC Q 454. 70 605 285.8 324TC/326TC R 470 70 657 339.7 364TC/365TC S 485.9 70 785 339.7 404TC/405TC T 520.8 77 839 352.4 444TC/445TC 552.6 23 95 425.5 254TC/256TC P 538.2 98 546 254 284TC/286TC Q 554. 98 605 285.8 324TC/326TC R 570 98 657 339.7 364TC/365TC S 585.9 98 785 339.7 404TC/405TC T 620.8 98 839 352.4 444TC/445TC 652.6 23 95 425.5 254TC/256TC P 538.2 98 546 254 284TC/286TC Q 554. 98 605 285.8 324TC/326TC R 570 98 657 339.7 364TC/365TC S 585.9 98 785 339.7 404TC/405TC T 620.8 98 839 352.4 444TC/445TC 652.6 23 95 425.5 60

OTORISED DIENSIONS Right Angle Shaft nits øp LB Triple Reduction nit G430 G530 G630 G730 G830 G930 Quadruple Reduction IEC otors otor Column 3 Entry C LB (max) ØP 32 A 803 420 300 60 B 833 540 350 80 C 833 598 350 200 D 833 65 400 225 E 863 786 450 250 F 863 839 550 280 G 863 95 550 32 A 843 420 300 60 B 873 540 350 80 C 873 598 350 200 D 873 65 400 225 E 903 786 450 250 F 903 839 550 280 G 903 95 550 200 D 053 65 400 225 E 083 786 450 250 F 083 839 550 280 G 083 95 550 35 3 028 660 200 D 08 65 400 225 E 38 786 450 250 F 38 839 550 280 G 38 95 550 35 68 028 660 225 E 363 786 450 250 F 363 839 550 280 G 363 95 550 35 393 028 660 225 E 428 786 450 250 F 428 839 550 280 G 428 95 550 35 458 028 660 C NEA otors otor Column 3 Entry C LB (max) ØP 254TC/256TC P 88.3 546 254 284TC/286TC Q 834. 605 285.8 324TC/326TC R 850 657 339.7 364TC/365TC S 865.9 785 339.7 404TC/405TC T 900.8 839 352.4 254TC/256TC P 858.3 546 254 284TC/286TC Q 874. 605 285.8 324TC/326TC R 890 657 339.7 364TC/365TC S 905.9 785 339.7 404TC/405TC T 940.8 839 352.4 324TC/326TC R 070 657 339.7 364TC/365TC S 085.9 785 339.7 404TC/405TC T 20.8 839 352.4 444TC/445TC 52.6 95 425.5 324TC/326TC R 25.9 657 339.7 364TC/365TC S 40.9 785 339.7 404TC/405TC T 75.8 839 352.4 444TC/445TC 207.6 95 425.5 364TC/365TC S 365.9 785 339.7 404TC/405TC T 400.8 839 352.4 444TC/445TC 432.6 95 425.5 364TC/365TC S 430.9 785 339.7 404TC/405TC T 465.8 839 352.4 444TC/445TC 497.6 95 425.5 nit G640 G740 G840 G940 IEC otors otor Column 3 Entry C LB (max) ØP 32 A 048 420 300 60 B 078 540 350 80 C 078 598 350 200 D 078 65 400 225 E 08 786 450 250 F 08 839 550 32 A 3 420 300 60 B 33 540 350 80 C 33 598 350 200 D 33 65 400 225 E 63 786 450 250 F 63 839 550 60 B 378 540 350 80 C 378 598 350 200 D 378 65 400 225 E 408 786 450 250 F 408 839 550 280 G 408 95 550 35 438 028 660 60 B 443 540 350 80 C 443 598 350 200 D 443 65 400 225 E 473 786 450 250 F 473 839 550 280 G 473 95 550 35 503 028 660 NEA otors otor Column 3 Entry C LB (max) ØP 254TC/256TC P 063.3 546 254 284TC/286TC Q 079. 605 285.8 324TC/326TC R 095 657 339.7 364TC/365TC S 0.9 785 339.7 404TC/405TC T 45.8 839 352.4 254TC/256TC P 8.3 546 254 284TC/286TC Q 34. 605 285.8 324TC/326TC R 50 657 339.7 364TC/365TC S 65.9 785 339.7 404TC/405TC T 200.8 839 352.4 254TC/256TC P 363.3 546 254 284TC/286TC Q 379. 605 285.8 324TC/326TC R 396 657 339.7 364TC/365TC S 40.9 785 339.7 404TC/405TC T 445.8 839 352.4 444TC/445TC 477.6 95 425.5 254TC/256TC P 428.8 546 254 284TC/286TC Q 444. 605 285.8 324TC/326TC R 46 657 339.7 364TC/365TC S 475.9 785 339.7 404TC/405TC T 50.8 839 352.4 444TC/445TC 542.6 95 425.5 6

SIPPING SPECIFICATION NIT ASS (KG) Gear nit Parallel Shat Right Angle Shaft No of Reductions 2 Stage 3 Stage 4 Stage 3 Stage 4 Stage Output Shaft 4 5 6 7 8 9 2 22 Standard 360 45 790 905 530 875 350 3640 Shaft ount 340 385 755 855 435 755 2950 3370 Agitator 400 455 840 980 630 995 3350 - Standard 375 430 805 920 550 895 3200 3690 Shaft ount 355 400 770 870 455 775 3000 3420 Agitator 45 470 855 995 650 205 3400 - Standard 385 440 820 935 580 925 3250 3740 Shaft ount 365 405 785 885 485 805 3050 3470 Agitator 425 480 870 00 680 2045 3450 - Standard 395 450 840 940 640 985 3350 3840 Shaft ount 375 420 805 890 545 865 350 3570 Agitator 435 490 890 05 740 205 3550 - Standard - - 840 940 620 965 3300 3790 Shaft ount - - 805 705 525 845 300 3520 Agitator - - 890 890 720 2085 3500 - ass excludes: lubricant, cooling fans or coil. NIT VOLE (m 3 ) Gear nit No of Reductions Output Shaft Parallel Shaft Right Angle Shaft 2 Stage 3 Stage 4 Stage 3 Stage 4 Stage 4 5 6 7 8 9 2 22 Standard 0.275 0.279 0.579 0.593.22.296 2.08 2.2 Shaft ount 0.202 0.202 0.48 0.48 0.8 0.895.76.84 Agitator 0.309 0.36 0.636 0.649.233.42 2.35 - Standard 0.259 0.263 0.558 0.572.08.25 2.06 2.2 Shaft ount 0.85 0.85 0.397 0.397 0.769 0.849.72.80 Agitator 0.293 0.30 0.66 0.629.93.377 2.32 - Standard 0.259 0.263 0.558 0.572.08.25 2.06 2.7 Shaft ount 0.85 0.85 0.397 0.397 0.769 0.849.72.80 Agitator 0.293 0.30 0.66 0.629.93.377 2.32 - Standard 0.262 0.266 0.57 0.586.6.28 2.2 2.8 Shaft ount 0.22 0.24 0.462 0.474 0.89 0.994.73.82 Agitator 0.304 0.34 0.645 0.66.26.44.47 - Standard - - 0.58 0.598.48.34 2.5 2.2 Shaft ount - - 0.47 0.483 0.96.02.76.84 Agitator - - 0.657 0.673.296.478 2.5-62

NOTES 63

IPORTANT Product Safety Information General - The following information is important in ensuring safety. It must be brought to the attention of personnel involved in the selection of the equipment, those responsible for the design of the machinery in which it is to be incorporated and those involved in its installation, use and maintenance. The equipment will operate safely provided it is selected, installed, used and maintained properly. As with any power transmission equipment proper precautions must be taken as indicated in the following paragraphs, to ensure safety. Potential azards - these are not necessarily listed in any order of severity as the degree of danger varies in individual circumstances. It is important therefore that the list is studied in its entirety:- ) Fire/Explosion (a) Oil mists and vapour are generated within gear units. It is therefore dangerous to use naked lights in the proximity of gearbox o C), certain materials (rubber, plastics, etc.) may decompose and produce fumes. Care should be taken to avoid exposure to the fumes, and the remains of burned or overheated plastic/rubber materials should be handled with rubber gloves. 2) Guards - Rotating shafts and couplings must be guarded to eliminate the possibility of physical contact or entanglement of clothing. It 3) Noise - igh speed gearboxes and gearbox driven machinery may produce noise levels which are damaging to the hearing with prolonged exposure. Ear defenders should be provided for personnel in these circumstances. Reference should be made to the Department of Employment Code of Practice for reducing exposure of employed persons to noise. 4) Lifting - Where provided (on larger units) only the lifting points or eyebolts must be used for lifting operations (see maintenance manual or general arrangement drawing for lifting point positions). Failure to use the lifting points provided may result in personal injury and/or damage to the product or surrounding equipment. Keep clear of raised equipment. 5) Lubricants and Lubrication lubricants. (b) The lubrication status of the equipment must be checked before commissioning. Read and carry out all instructions on the lubricant plate and in the installation and maintenance literature. eed all warning tags. Failure to do so could result in mechanical damage and in extreme cases risk of injury to personnel. associated equipment, in order to prevent the machinery being started. 7) Installation, aintenance and Storage (a) In the event that equipment is to be held in storage, for a period exceeding 6 months, prior to installation or commissioning, application engineering must be consulted regarding special preservation requirements. nless otherwise agreed, equipment must be stored in a building protected from extremes of temperature and humidity to prevent deterioration. The rotating components (gears and shafts) must be turned a few revolutions once a month (to prevent bearings brinelling). (b) External gearbox components may be supplied with preservative materials applied, in the form of a "waxed" tape overwrap or wax white spirit as a solvent. Preservatives applied to the internal parts of the gear units do not require removal prior to operation. personnel. (d) Before working on a gearbox or associated equipment, ensure that the load has been removed from the system to eliminate the possibility of any movement of the machinery and isolate power supply. Where necessary, provide mechanical means to ensure the machinery cannot move or rotate. Ensure removal of such devices after work is complete. (e) Ensure the proper maintenance of gearboxes in operation. se only the correct tools and approved spare parts for repair and maintenance. Consult the aintenance anual before dismantling or performing maintenance work. 8) ot Surfaces and Lubricants equipment to cool before servicing or performing adjustments. 9) Selection and Design (a) Where gear units provide a backstop facility, ensure that back-up systems are provided if failure of the backstop device would endanger personnel or result in damage. (b) The driving and driven equipment must be correctly selected to ensure that the complete machinery installation will perform satisfactorily, avoiding system critical speeds, system torsional vibration, etc. (c) The equipment must not be operated in an environment or at speeds, powers, torques or with external loads beyond those for which it was designed. (d) As improvements in design are being made continually the contents of this catalogue are not to be regarded as binding in detail, and drawings and capacities are subject to alterations without notice. the gear units.

CONTACT S ASTRALIA DENARK SWEDEN & NORWAY NITED KINGDO Radicon Transmission (Australia) PTY Ltd Australia Tel: +6 42 822 35 EROPE Benzler TBA BV Jachthavenweg 2 NL-5928 NT Venlo Austria Tel: +43 7 229 68 9 Fax: +43 7 229 68 84 Germany Tel: 0800 350 40 00 Fax: 0800 350 40 0 Italy Tel: +39 02 824 35 Netherlands & the rest of Europe Tel: +3 77 324 59 00 Fax: +3 77 324 59 0 Benzler Transmission A/S Dalager DK-2605 Brøndby, Denmark Tel: +45 36 34 03 00 Fax: +45 36 77 02 42 FINLAND Oy Benzler AB Vanha Talvitie 3C FI-00580 elsingfors, Finland Tel: +358 9 340 76 Fax: +358 0 296 2072 INDIA Elecon. Engineering Company Ltd. Anand Sojitra Road Vallabh Vidyanagar 38820 Gujarat India AB Benzlers Porfyrgatan 254 68 elsingborg Sweden Tel: +46 42 8 68 00 Fax: +46 42 2 88 03 TAILAND Radicon Transmission (Thailand) Ltd 700/43 oo 6 Amata Nakorn Industrial Estate Tumbol Klongtumru uang, Chonburi 20000 Thailand Tel: +66 3845 9044 Fax: +66 382 3655 Radicon Transmission K Ltd nit J3 Lowfields Business Park, Lowfields Way, Elland West Yorkshire, X5 9DA Tel: +44 484 465 800 Fax: +44 484 465 80 SA Radicon SA Transmission Ltd 599 Lunt Avenue Elk Grove Village Chicago Illinois 60007 SA Tel: + 847 593 990 Fax: + 847 593 9950 Tel: +9 2692 23653 Fax: +9 2692 227484 www.benzlers.com www.radicon.com

Benzlers Denmark +45 36 340300 Finland +358 9 34076 Germany +49 800 3504000 Italy +39 02 824 35 Sweden +46 42 86800 The Netherlands +3 77 3245900 www.benzlers.com Radicon Thailand +66 38459044 nited Kingdom +44 484 465800 SA + 847 593990 www.radicon.com