SPINDASYN Hollow shaft motors. With integrated heavy duty bearing.
Hollow shaft motors with integrated axial bearing for high forces: SPINDASYN For applications requiring high forces and extremely accurate linear positioning, SPINDASYN hollow shaft motors from AMK are the perfect choice: SPINDASYN is a preassembled turnkey solution. Each unit consists of a powerful servo motor with an axial bearing and an integrated multiturn absolute encoder. Various adapter flanges are available for connecting to different screwnut systems. To meet the requirements of customer specific applications, there is a variety of motors and bearings in the SPINDASYN modular kits according to screw lead and other parameters. In the end, the customer receives a mechatronic system that is perfectly suited for the speeds and forces in the application. Various motor designs with blind hollow shafts or hollow throughshafts are available so that process costs can be optimized. Motors with a blind hollow shaft are excellent candidates for applications where only short strokes are required. Unlimited stroke lengths are possible in motors with hollow throughshafts. Motors with hollow throughshafts also allows power or compressed air to be fed along the moving axis. SPINDASYN motors are available in convection or liquidcooled models. In particular, the liquidcooled models can be used to realize solutions with extreme short cycle times as they are possible with hydraulic or pneumatic systems. The excellent dynamic performance of the position controller allows for highly precise and reproducible processes. The entire system of SKT motors and screwnut systems is an economically superior alternative to hydraulic and linear motors in applications with high forces and varying speeds. SKT solutions can greatly reduce your design and operational costs.
Our expertise an advantage. Flexibility via modular concept The modular design of SPINDASYN linear drives with respect to performance, screw diameter and axial force allows them to be specifically adapted to various applications. There is the choice from models with hollow throughshafts or blind hollow shafts, so that there is the option of limiting the strokes or not. Energy efficiency Compared to hydraulic systems and linear direct drives, SPINDASYN offers significantly higher efficiencies. Thus the customer achieves a better overall energy efficiency. Extremely compact design Since SPINDASYN includes an integrated screw, an entire linear drive with minimal dimensions can be designed. All of the functional elements such as the servo motor, bearing, DIN fitting for screw nuts, holding brake and encoder system are concentrated together as a compact unit within a single enclosure. High stiff The integrated bearing eliminates the need for shaft couplings and significantly reduces the number of bearing points required. With the stiff enclosure and the amply dimensioned powertrain components, the entire system provides extreme stiff. High dynamic performance Since the design is extremely compact, the moment of inertia is also very low. The servo motor offers high power and acceleration ratings as well as high overload capacity. Of special note, the torsionally stiff connection to the screw nut allows very dynamic controller settings to be used. Reduced design complexity The readytoinstall unit consists of a servo motor, heavy duty bearing and multiturn absolute encoder and can be connected directly to a screw nut. IP54 protection rating With IP54 protection rating, these motors are also suitable for harsh environments.
Installation at any location Fitted with sealed bearings, SPINDASYN units can be installed in any location. According to customer application, the bearings can also be relubricated. Maintenancefree operation Since SPINDASYN uses hightorque motors with sealed enclosures, they are practically maintenancefree and offer high availability. The integrated temperature sensors protect the motors against thermal overloading. Depending on the lifetime lubricated angular contact ball bearings and tapered roller bearings may have to be relubricated. Heavy duty applications and high speeds SPINDASYN hollow shaft motors are an efficient alternative to existing hydraulic solutions or linear drives in applications where high loads have to be moved at various different speeds. Highest power density through liquid cooling (optional) Liquidcooled motors are compact in design and offer higher dynamic performance through less moving mass. Since the motors weigh less and are smaller in size, they are also easier to install. At a glance, this means: } Highest productivity } Outstanding process control } High precision } Very high efficiency } Low energy consumption High performance and productivity for: } } } } } } } } } Injection moulding machines Blow moulding machines Extruders Presses Tube bending machines Punches Fitting and joining presses Injecting/dosing Pumps 5
Functionality and applications. Horizontal configuration, hollow throughshaft, no limiting of strokes Antitwist protection In linear movements, the motor torque is applied to the screw in the opposite direction. This torque has to be braced by a linear guidance. Companion structure Radial loads or overturning torques reduce the life of the screwnut systems. The companion structure, makes sure that the motor and screwnut system are flush with each other and that no radial forces are present. Vertical configuration, e.g., stroke unit, press Screwnut system SKT motors are suitable for screwnut systems such as roller or ball screws. As a rule of thumb, roller screws can support larger forces with smaller diameters while ball screws offer better dynamic performance and are more costeffective. One motor on a stationary screw Multiple motors on a stationary screw, e.g., format adjustments
Connecting flange to central lubrication The optional flange with stationary lubrication bore can be easily connected to a central lubrication system. In this solution, the screw nut is continuously lubricated. A stop of the machine for relubrication is not necessary. Direction of force The SPINDASYN hollow shaft motors are designed for very high axial loads. In versions with normal duty bearings, the motor hollow shaft is designed to withstand both pulling and pushing forces. With heavy duty bearings, the specified direction of force must be observed. There are heavy duty bearings for both force directions and heavy duty bearings the force can only be applied in direction D or Z as specified. The direction of force can be found in the product code on page 11. pulling Direction of force onto motor hollow shaft D = pushing, Z = pulling, B = both directions ball bearing, R = both directions roller bearing Both directions pushing The direction of force is relative to the motor hollow shaft (threaded screw). Note that the forces are applied to the hollowshaft flange in the opposite direction. Designing bearings for SKT motors For the dimensioning of the motor, a bearing life characteristic is provided for each motor type. As the example shows, the bearing life can be calculated for a specific application. Example for an electrical press: Pressing force: Stroke: Press stroke: Screw lead: Cycle time: Fp = 25 kn Sv =.5 m Sp =.1 m h = 2 mm t = 2 s Number of revolutions over press stroke: A = Sp/h A =.1 m/.2 m A = 5 revolutions From diagram: L1 = 38 million revolutions for 25 kn Number of cycles: Z = L1/A Z = 38 million/5 Z = 76 million cycles Service life: L1h = t * Z L1h = 2 s * 76 million L1h = 152 million s L1h = 42222h 1 8 6 4 2 Service life [million revolutions] Axial force [kn] F max_stat [kn] 1 2 3 4 5 Life of Abearing (L1) for various axial forces Fa in [kn]
SPINDASYN hollow shaft motor in connection with screwnut systems. The SKT principle of rotating nuts. The screw nut is directly connected to the hollow shaft of the motor. The direction of rotation of the screw nuts is converted to the linear movement of the screw. Here, the screw only moves linearly and does not rotate. The direct drive of the screw nut offers many advantages, especially compared to systems with rotating screws. Thus, higher speeds of movement are possible with the direct drive and the torsionally stiff connection to the screw nut allows for better dynamic performance. With the SKT series, the dynamic performance, torsional stiff and precision no longer suffer the negative effects from mechanical transmission elements such as belt drives or couplings. The motor bearings take up the high forces directly so that heavy duty applications are possible. Hence, machine design becomes much simpler. The SKT series also allows for completely new solutions to be developed, such as multiple SKT motors on a stationary screw. Interface between hollowshaft flange and screw nut. The screw nut is fastened to the hollowshaft flange using a matching adapter (to be ordered separately). An exception to this is the SKT7 motor where the hollowshaft flange is designed to fit a DIN 6951 flange nut. The dimensions for choosing screw nuts are shown in the following overview. Screwnut system Adapter Motor L3 Height of thread Flange A (Spindle adapter SKT1/13) Flange B (Rotor shaft SKT7) 9 9 3 8x G1 6x G1 Ø D1 g6 Ø D2 Ø D4 Ø D5 H7 Ø D6 Bleeder hole 2x Ø D8 must not be complete closed L1 Ø D3 L2 Adjustment depth Ø D7 Ø D7 Motor type Normal duty applications Standard Adaptor No. J * [kgcm^2] Screw ø Flange D1=D5 SKT7 * 32 B* 5 L1 min. 2 max. 49 D2 D3 D4 D6 L2 D7 G1 L3 max. 95 9.5 95 5 5 65 M8 2 SKT1 AN11 13 63 A 95 max. 21 13.5 14 65 22 115 M12 2 SKT13 AN131 616 1 A 15 max. 54 17.5 212 15 55 176 M16 2 Heavy duty applications SKT1 AS11 14 63 A 95 max. 24 13.5 14 65 25 115 M12 25 SKT13 AS131 766 1 A 15 max. 74 17.5 212 15 75 186 M16 25 * SKT7 hollowshaft flange fits DIN6951 flange nut, no adapter required 8
Overview: Adapting the speed and axial force via screw lead. Axial forces SKT7 and SKT1 normal duty 7 6 5 4 3 2 1 Axial force [kn] Lead 3 mm Lead 5 mm Lead 1 mm Lead 15 mm Lead 2 mm Lead 25 mm Torque 1 2 3 4 5 6 7 8 9 1 11 12 13 F = M 2 π h F = Axial force [kn] M = Torque h = Screw lead SKT7 and SKT1 > 48 kn only SKT1 Axial forces SKT1 heavy duty, SKT13 normal and heavy duty 6 5 4 3 2 1 Axial force [kn] Lead 5 mm Lead 1 mm Torque Lead 2 mm Lead 4 mm Lead 7 mm 5 1 15 2 25 3 35 4 45 5 55 6 65 F = M 2 π h F = Axial force [kn] M = Torque h = Screw lead SKT1 heavy duty and SKT13 > of 135 216 kn SKT1 heavy duty and SKT13 heavy duty > 216kN only SKT13 heavy duty Linear speeds for various leads 5, 4,5 4, 3,5 3, 2,5 2, 1,5 1,,5, Linear speed [m/s] Speed [rpm] Lead 7 mm Lead 5 mm Lead 2 mm Lead 15 mm Lead 1 mm Lead 5 mm 5 1 15 2 25 3 35 4 V = n h 6 1 V = Linear speed [m/s] n = Speed [rpm] h = Screw lead 9
Modular design of SPINDASYN hollow shaft motors. The SPINDASYN series is a modular system. First a motor can be choosen from the various sizes available. Next, the SPINDASYN motor can be modified for the specific forces, travel distances or cycle times for a specific application by choosing from the various motor elements: The motor bearings can be selected for dynamic or heavy duty applications. The active component of the motor can be fitted with convection or liquidcooling. Since liquidcooled motors allows for higher power densities, they are a good choice to achieve faster cycle times, for instance. A hollow throughshaft at the end of the motor provides sufficient room for screw strokes of unlimited length as well as for a multiturn absolute encoder. Options: A customized SPINDASYN configuration Bearing side of motor Active component of motor Motor end Bearing side of motor Active component of motor Motor end Normal duty bearing Lubricatedforlife, normal duty bearing with continuous lubrication depending on application Good acceleration characteristics Support of high axial loads For pushing and pulling forces Seals on both sides of the bearing offer good protection against dirt High stiff and low friction For dynamic applications for sizes SKT7, SKT1, and SKT13 Heavy duty bearing For highest forces in sizes SKT1 and SKT13 Lubricatedforlife heavy duty bearing with continuous lubrication depending on application Support of highest axial loads Especially suited for heavy duty screws Static forces of up to 57 kn Dynamic forces of up to 21 kn High stiff and low friction Convectioncooled Various overall lengths for each size Highly dynamic High maximum torque Smooth surface Liquidcooled Various overall lengths for each size Highly dynamic High maximum torque Smooth surface at the end Increase in continuous torque for shorter cycle times Cooling circuit made of stainless steel to protect against corrosion Hollow throughshaft No limits in screw stroke Compact overall lengths Multiturn absolute encoder Optional hollow shaft brake Blind hollow shaft Closed end of motor Bleeding of trapped air via front end bell Multiturn absolute encoder Optional holding brake 1
Type code SKT 7 x 2 Q B O xxxx D B 1 F O W S R 13 Z D Direction of axial force (B = both directions; Z = pulling; D = pushing; R = both directions) D = hollow throughshaft; S = blind hollow shaft (hollow shaft closed on one side) No load speed Cooling type: O = convection; W = liquid Holding brake: B = with brake, O = without brake Encoder type: Q = inductive multiturn absolute encoder; F = optic multiturn absolute encoder Number of poles Approximate continuous stall torque in Nm Motor frame size Torque motor SPINDASYN series SKT hollow shaft motors SKT motor type Convection cooled Liquid cooled Blind hollow shaft Hollow throughshaft Ø Hollow shaft Force direction B = both sides Z = pulling D = pushing R = both sides Bearing axial forces Stall data Rated data Maximum data Fmax stat [kn] Fmax dyn [kn] Mo lo MN PN [kw] IN nn [rpm] kt [Nm/A] Mmax Imax Mechanical data nmax [rpm] J * L * [kgcm 2 ] m * [kg] SKT7172xxO35 O D 35 B 48 18 17 11.3 11,3 2.8 7,2 2,5 1.5 65 5 3,5 64 27 22 SKT7282xxO26 O S D 35 B 48 18 32 15.2 19 4 9 2, 2.1 13 75 4, 9 33 28 SKT742xxO2 O S D 35 B 48 18 42 15.2 29 3 1,5 1, 2.76 21 1 2, 118 39 34 Normal duty applications SKT7552xxW4 W S D 35 B 48 18 6 4.2 45 12 3 2,5 1.49 116 99 5, 9 327 34 SKT1542xxO14 O D 65 B 61 23 64 16 42 4.5 1,5 1, 4 194 67 2, 425 316 48 SKT1952xxO14 O S D 65 B 61 23 9 23.4 73 6.1 19 8 3.85 36 15 3, 494 436 67 SKT112xxW3 W S D 65 B 61 23 95 54.3 66 11 38 1,5 1.75 16 132 3, 425 316 48 SKT11452xxW2 W S D 65 B 61 23 16 66.6 12 18 5 1,5 2.4 31 2 2,5 569 436 65 SKT1322xxW26 W D 15 B 135 7 36 145.8 24 45 13 1,8 2.3 64 33 3,3 1,822 52 16 Heavy duty applications SKT112xxW3 W D 65 D, Z 216 85 95 54.3 66 11 38 1,5 1.75 16 132 3, 458 357 55 SKT11452xxW2 W S D 65 D, Z 216 85 16 66.6 12 18 5 1,5 2.4 31 2 2,5 61 477 71 SKT1322xxW26 W D 15 push 57 R 15 pull 38 21 36 145.8 24 45 13 1,8 2.3 64 33 3,3 2,399 6 191 SKT13652xxW12 W D 15 push 57 R 21 66 18.7 6 63 13 1, 4.6 1,28 33 1,5 3,366 78 24 15 pull 38 * Variants with hollow throughshaft 11
SKT 7 Normal duty applications SKT7 convectioncooled with hollow throughshaft or blind hollow shaft Features Torque motor with broad, linear currenttorque characteristic Speeds optimized for screwnut systems Antibacklash bearing Very stiff radial coupling between hollow shaft of motor and nut Very high axial stiff Customized flanges available Lubricatedforlife, sealed bearing Suitable for radial and axial loads Optional lubrication of screw nut on stationary component Force can be applied in both directions Optional brake for vertical axes Applications Normal duty Short movements or unlimited stroke length Equipment Standard Option Brake 18 Nm Encoder Q, multiturn, inductive F, multiturn, optical Characteristic curves Connecting cable: Nominal crosssection of copper conductor 1.5 mm 2 Power connector, size 1 8 14 12 6 1 4 2 Torque Speed [1/min] 8 6 4 2 Torque Speed [1/min] 5 1 15 2 25 3 35 4 5 1 15 2 25 3 SKT7172xxO35 SKT7282xxO26 2 15 1 5 Torque 5 SKT742xxO2 Speed [1/min] 1 15 2 25 1 8 6 4 2 Service life [million revolutions] Axial force [kn] 1 2 3 4 5 Bearing life (L1) characteristic 12 Maximum torque Thermal continuous torque
Technical data Motor type Blind hollow shaft Hollow throughshaft Bearing axial forces Fmax stat [kn] Fmax dyn [kn] Stall data Mo lo MN PN [kw] Rated data IN nn [rpm] kt [Nm/ A] Maximum data Mmax Imax nmax [rpm] J [kgcm 2 ] Ls L Mechanical data L1 L2 LBR L1BR L2BR m mbr [kg] [kg] SKT7172xxO35 D 48 18 17 11.3 11.3 2.8 7.2 2,5 1.5 65 5 3,5 64 27 8 1 315 125 47 22 27 SKT7282xxO26 S 77 21 348 96 68 393 141 68 29 31 48 18 32 15.2 19 4 9 2, 2.1 13 75 4, D 9 33 8 1 375 125 47 28 33 SKT742xxO2 S 99 27 48 96 68 453 141 68 35 37 48 18 42 15.2 29 3 1.5 1, 2.76 21 1 2, D 118 39 8 1 435 125 47 34 39 Dimensions Motors with hollow throughshaft L/LBR L1/L1BR 4 L2/L2BR 71 4x ø14 4,4 ø 18 j6 ø 5 H7 4 L/LBR L1/L1BR L2/L2BR 24 24 4x ø14 4,4 15,4 6xM8 ø 35 ø 18 j6 ø 5H7 183,5 6x M8 ø 35 225 57 ø 65 19 ø 225 Motors with blind hollow shaft 52 Ls ø 65 19 ø 225 Flange connection to screw nut, see page 8 Legend on page 31 All dimensions in mm. 13
SKT 7 Normal duty applications SKT7 liquidcooled with hollow throughshaft or blind hollow shaft Features Torque motor with broad, linear currenttorque characteristic Speeds optimized for screwnut systems Antibacklash bearing Very stiff radial coupling between hollow shaft of motor and nut Very high axial stiff Customized flanges available Lubricatedforlife, sealed bearing Suitable for radial and axial loads Optional lubrication of screw nut on stationary component Force can be applied in both directions Optional brake for vertical axes Applications Normal duty Short movements or unlimited stroke length Equipment Standard Brake Option 18/5* Nm * Brake for hollow throughshaft Encoder Q, multiturn, inductive F, multiturn, optical Connecting cable: Nominal crosssection of copper conductor 1 mm 2 Power connector, size 1.5 Characteristic curves 12 1 1 8 6 4 2 Torque Speed [1/min] 8 6 4 2 Service life [million revolutions] Axial force [kn] 5 1 15 2 25 3 35 4 1 2 3 4 5 SKT7552xxW4 Bearing life (L1) characteristic 14 Maximum torque Thermal continuous torque
Technical data Motor type Blind hollow shaft Hollow throughshaft Bearing axial forces Stall data Rated data Maximum data Fmax stat [kn] Fmax dyn [kn] Mo lo MN PN [kw] IN nn kt Mmax [rpm] [Nm/A] Imax nmax [rpm] J [kgcm 2 ] Ls Mechanical data L L1 L2 LBR L1BR L2BR m [kg] mbr [kg] SKT7552xxW4 S 75 21 362 5 27 393 81 58 34 36 48 18 6 4.2 45 12 3 2,5 1.49 116 99 5, D 9 327 86 8 367 126 48 34 38 Dimensions Motors with hollow throughshaft L/LBR L1/L1BR L2/L2BR 71 4 4x ø14 4,4 L/LBR L1/L1BR 24 4 L2/L2BR 24 4x ø14 ø 18 j6 6x M8 ø 35 ø 18 j6 243 6xM8 ø 35 ø 5 H7 57 ø 65 19 ø 225 Motors with blind hollow shaft ø 5 H7 4,4 215 52 Ls ø 65 19 ø 225 Flange connection to screw nut, see page 8 Legend on page 31 All dimensions in mm. 15
SKT 1 Normal duty applications SKT1 convectioncooled with hollow throughshaft or blind hollow shaft Features Torque motor with broad, linear currenttorque characteristic Speeds optimized for screwnut systems Antibacklash bearing Very stiff radial coupling between hollow shaft of motor and nut Very high axial stiff Customized flanges available Sealed bearing with possibility for continuous lubrication Ball bearing for medium duty and high speeds Optional lubrication of screw nut on stationary component Force can be applied in both directions Optional brake for vertical axes Applications Normal and medium duty Short movements or unlimited stroke length Equipment Standard Option Brake 12 Nm Encoder Q, multiturn, inductive F, multiturn, optical Characteristic curves Connecting cable: Nominal crosssection of copper conductor 4 mm 2 Power connector, size 1.5 2 4 15 3 1 5 Torque 2 1 Torque Speed [1/min] Speed [1/min] 2 4 6 8 1 12 14 2 4 6 8 1 12 14 16 SKT1542xxO14 SKT1952xxO14 1 8 6 4 2 Service life [million revolutions] Axial force [kn] 1 2 3 4 5 6 7 Bearing life (L1) characteristic 16 Maximum torque Thermal continuous torque
Technical data Motor type Blind hollow shaft Hollow throughshaft Bearing axial forces Fmax stat [kn] Fmax dyn [kn] Stall data Mo lo MN PN [kw] Rated data IN nn [rpm] Maximum data kt Mmax Imax [Nm/A] Mechanical data nmax J Ls L LA L1 L2 LBR [rpm] [kgcm 2 ] LABR Dimensions LA/LABR L/LBR L1/L1BR L2/L2BR 93 4 4x ø14 LA/LABR L/LBR L1/L1BR L2/L2BR 24 24 4 4x ø14 12xM12 ø 65 L1BR L2BR m mbr [kg] [kg] SKT1542xxO14 D 61 23 64 16 42 4.5 1,5 1, 4 194 67 2, 425 316 361 65 7 42 447 151 93 48 65 SKT1952xxO14 S 49 37 46 55 16 69 521 566 167 13 67 76 61 23 9 23.4 73 6.1 19 8 3.85 36 15 3, D 494 436 481 65 7 522 567 151 93 67 84 Motors with hollow throughshaft ø 2 j6 266,5 12xM12 * Flange connection ø 65 ø 115 215 ø 26 Motors with blind hollow shaft ø 2 j6 254,5 * Flange connection Ls ø 115 215 ø 26 * Flange connection to screw nut, see page 8 Legend on page 31 All dimensions in mm. 17
SKT 1 Normal duty applications SKT1 liquidcooled with hollow throughshaft or blind hollow shaft Features Torque motor with broad, linear currenttorque characteristic Speeds optimized for screwnut systems Antibacklash bearing Highly stiff radial coupling between hollow shaft of motor and nut Very high axial stiff Customized flanges available Sealed bearing with possibility for continuous lubrication Ball bearing for medium duty and high speeds Optional lubrication of screw nut on stationary component Force can be applied in both directions Optional brake for vertical axes Applications Normal and medium duty Short movements or unlimited stroke length Equipment Standard Option Brake 12 Nm Encoder Q, multiturn, inductive F, multiturn, optical Characteristic curves Connecting cable: Nominal crosssection of copper conductor 16 mm 2 Power connector, size 1.5 2 3 15 25 2 1 5 Torque 15 1 5 Torque Speed [1/min] Speed [1/min] 5 1 15 2 25 3 5 1 15 2 25 3 SKT112xxW3 SKT11452xxW2 1 8 6 4 2 Service life [million revolutions] Axial force [kn] 1 2 3 4 5 6 7 Bearing life (L1) characteristic 18 Maximum torque Thermal continuous torque
Technical data Motor type Blind hollow shaft Hollow throughshaft Bearing axial forces Fmax_stat [kn] Fmax_dyn [kn] Stall data Mo lo Rated data MN PN IN [kw] nn [rpm] kt [Nm/ A] Maximum data Mmax Imax Mechanical data nmax J Ls L LA L1 L2 LBR LABR L1BR [rpm] [kgcm 2 ] L2BR m [kg] mbr [kg] SKT112xxW3 SKT11452xxW2 S 34 25 334 379 56 48 42 465 117 19 48 57 61 23 95 54.3 66 11 38 1,5 1.75 16 132 3, D 425 316 361 65 7 42 457 151 93 48 65 S 49 37 454 499 56 48 54 585 117 19 64 74 61 23 16 66.6 12 18 5 1,5 2.4 31 2 2,5 D 569 436 481 65 7 522 567 151 93 65 82 Dimensions Motors with hollow throughshaft LA/LABR L/LBR L1/L1BR L2/L2BR 42 51 4 4x ø14 ø 2 j6 271 12xM12 * Flange connection ø 65 ø 115 215 ø 26 Motors with blind hollow shaft LA/LABR L/LBR L1/L1BR 4 4x ø14 ø 2 j6 271 12XM12 * Flange connection Ls ø 65 ø 115 215 ø 26 * Flange connection to screw nut, see page 8 Legend on page 31 All dimensions in mm. 19
SKT 13 Normal duty applications SKT13 liquidcooled with hollow throughshaft Features Torque motor with broad, linear currenttorque characteristic Speeds optimized for screwnut systems Antibacklash bearing Highly stiff radial coupling between hollow shaft of motor and nut Very high axial stiff Customized flanges available Sealed bearing with possibility for continuous lubrication Ball bearing for medium duty and high speeds Optional lubrication of screw nut on stationary component Force can be applied in both directions Optional brake for vertical loads Applications Normal and medium duty Short movements or unlimited stroke length Equipment Standard Option Brake 25 Nm Encoder Q, multiturn, inductive F, multiturn, optical Connecting cable: Nominal crosssection of copper conductor 35 mm 2 Characteristic curves 1 1 8 6 4 Torque 2 Speed [1/min] 5 1 15 2 25 SKT1322xxW26 8 6 4 2 Service life [million revolutions] Axial force [kn] 2 4 6 8 1 12 14 16 Bearing life (L1) characteristic 2 Maximum torque Thermal continuous torque
Technical data Motor type Hollow throughshaft Bearing axial forces Fmax stat [kn] Fmax dyn [kn] Stall data Mo lo MN PN [kw] Rated data IN nn [rpm] Maximum data kt Mmax Imax [Nm/A] nmax [rpm] Mechanical data J L LA L1 L2 [kgcm 2 ] LBR LABR L1BR L2BR m mbr [kg] [kg] SKT1322xxW26 D 135 7 36 145.8 24 45 13 1,8 2.3 64 33 3,3 1,822 52 56 85 27 63 67 195 137 16 18 Dimensions Motors with hollow throughshaft LA/LABR 5 L/LBR L1/L1BR L2/L2BR 47 8x ø18 8xM16 ø 25j6 49 * Flange connection ø 15 22 122 ø 176 31 ø 32 * Flange connection to screw nut, see page 8 Legend on page 31 All dimensions in mm. 21
SKT 1 Heavy duty applications SKT1 liquidcooled with hollow throughshaft or blind hollow shaft Features Torque motor with broad, linear currenttorque characteristic Speeds optimized for screwnut systems Antibacklash bearing Highly stiff radial coupling between hollow shaft of motor and nut Very high axial stiff Customized flanges available Sealed bearing with possibility for continuous lubrication Roller bearing for heavy duty and medium speeds Optional lubrication of screw nut on stationary component Direction of force: pushing or pulling Optional brake for vertical axes Applications Heavy duty Short movements or unlimited stroke length Equipment Standard Option Brake 25 Nm Encoder Q, multiturn, inductive F, multiturn, optical Characteristic curves Connecting cable: Nominal crosssection of copper conductor 16 mm 2 Power connector, size 1.5 2 3 15 25 2 1 5 Torque 15 1 5 Torque Speed [1/min] Speed [1/min] 5 1 15 2 25 3 5 1 15 2 25 3 SKT112xxW3 SKT11452xxW2 1 8 6 4 2 Service life [million revolutions] Axial force [kn] 5 1 15 2 25 Bearing life (L1) characteristic 22 Maximum torque Thermal continuous torque
Technical data Motor type Blind hollow shaft Hollow throughshaft Bearing axial forces Fmax stat [kn] Fmax dyn [kn] Stall data Mo lo Rated data MN PN IN nn kt [kw] [rpm] [Nm/A] Maximum data Mmax Imax nmax [rpm] Mechanical data J Ls L LA L1 L2 LBR [kgcm 2 ] LABR L1BR L2BR m mbr [kg] [kg] SKT112xxW3 D 216 85 95 54.3 66 11 38 1,5 1.75 16 132 3, 458 357 42 65 7 443 488 151 49 55 7 SKT11452xxW2 S 499 45 495 54 56 48 557 62 117 68 7 79 216 85 16 66.6 12 18 5 1,5 2.4 31 2 2,5 D 61 477 522 65 7 563 68 151 67 71 88 Dimensions Motors with hollow throughshaft LA/LABR L/LBR L1/L1BR 4 L2/L2BR 42 51 4x ø14 ø 2 j6 271,5 12xM12 * Flange connection ø 65 ø 115 215 ø 26 Motors with blind hollow shaft LA/LABR L/LBR L1/L1BR 4 4x ø14 ø 2 j6 ø 65 12xM12 * Flange connection Ls ø 115 215 ø 26 * Flange connection to screw nut, see page 8 Legend on page 31 All dimensions in mm. 23
SKT 13 Heavy duty applications SKT13 liquidcooled with hollow throughshaft Features Torque motor with broad, linear currenttorque characteristic Speeds optimized for screwnut systems Antibacklash bearing Highly stiff radial coupling between hollow shaft of motor and nut Very high axial stiff Customized flanges available Sealed bearing with possibility for continuous lubrication Roller bearing for heavy duty and medium speeds Optional lubrication of screw nut on stationary component Direction of force: 38 kn pulling or 57 kn pushing Optional brake for vertical axes Applications Heavy duty Short movements or unlimited stroke length Equipment Standard Option Brake 25 Nm Encoder Q, multiturn, inductive F, multiturn, optical Characteristic curves Connecting cable: Nominal crosssection of copper conductor 35 mm 2 1 15 8 6 4 Torque 2 5 Speed [1/min] 1 15 2 25 125 1 75 5 25 Torque Speed [1/min] 2 4 6 8 1 12 14 SKT1322xxW26 SKT13652xxW12 1 8 6 4 2 Service life [million revolutions] Axial force [kn] 1 2 3 4 5 5 Bearing life (L1) characteristic 24 Maximum torque Thermal continuous torque
Technical data Motor type Hollow throughshaft Bearing axial forces Fmax stat [kn] Fmax dyn [kn] Stall data Mo lo MN Rated data PN [kw] IN nn [rpm] Maximum data kt Mmax Imax [Nm/A] nmax [rpm] Mechanical data J L LA L1 L2 LBR [kgcm 2 ] LABR L1BR L2BR m [kg] mbr [kg] SKT1322xxW26 D 57 D 38 Z 21 36 145.8 24 45 13 1,8 2.3 64 33 3,3 2,399 6 65 85 27 71 76 195 137 191 211 SKT13652xxW12 D 57 D 38 Z 21 66 18.7 6 63 13 1, 4.6 128 33 1,5 3,366 78 83 85 27 89 94 195 137 24 26 Dimensions Motors with hollow throughshaft LA/LABR 5 L/LBR L1/L1BR L2/L2BR 47 8x ø18 8xM16 ø 25j6 49 * Flange connection ø 15 22 122 ø 176 186 31 ø 32 * Flange connection to screw nut, see page 8 Legend on page 31 All dimensions in mm. 25
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Position encoder Encoder overview The motors can be equipped with various different position encoders. Type Technical data Max. speed [1/min] F Optical absolute encoder EnDAT 2.1. multiturn 512 periods/revolution 13bit resolution/revolution Multiturn resolution 496 revolutions ± 25 system accuracy 12, Q Inductive absolute encoder EnDAT 2.1, multiturn Hollow throughshaft: 18bit/16 periods/revolution Hollow shaft with blind hole: 19bit/32 periods/revolution Multiturn resolution 496 revolutions ± 48 /28 system accuracy 12, Connector pin assignment on motor side PIN Motor connector Signal Q/ F encoder Meaning 1 G2N Channel 2 not inverted 2 G2I Channel 2 inverted 3 G1N Channel 1 not inverted 4 G1I Channel 1 inverted 5 5P Supply 5 VDC, max. 25 ma 1 9 8 2 1 12 7 3 11 6 4 5 6 GND Reference for supply 7 CLK+ EnDat encoder interface 8 CLK EnDat encoder interface 9 DAT+ EnDat encoder interface 1 DAT EnDat encoder interface 11 5P Supply 5 VDC, max. 25 ma 12 GND Reference for supply Shield Connector housing 27
Encoder cable Prefabricated cables are available to connect the position encoder with KE/KW servo controllers. These are shielded multi paired conductor cables. Any length can be chosen in steps of 1 m up to 1 m. Motor side 5,7 5,7 Shield on Shield connector connector housing housing Drive side Control lead Shield on connector housing 15pin DSubconnector A Properties Sheath: PUR, conductors TPE Cable trailing properties: min. bending radius 1 mm max. speed 1 m/s max. acceleration 4 m/s 2 5 million bending cycles 71,4 71,4 12pin Signalangular 12pin Signalangular assignment assignment Shield Shield on connector connector housing housing length + 2 mm Control Control lead lead (ø 8,4) Shield Shield on connector connector housing housing A DSubconnector 15pin 15pin DSubconnector A A or 9pinDSubconnector 54 54 12pin 12pin Signal Signal assignment assignment (ø 8,4) (ø 8,4) length length + 2 + 2 mm mm A A DSubconnector or or 9pin 9pin DSubconnector Connector pin assignment on drive side Connector pin assignment on motor side Signal Pin assignments on drive side F encoder Q encoder KWR3 & KWR6 KWR6 KWZ PIN Dsub 15 PIN Dsub 15 PIN Dsub 9 1 G2N 6 1 2 3 4 5 6 7 8 9 1 11 12 13 14 15 15pin connector 2 G2I 5 3 G1N 4 4 G1I 3 5 5P 13 13 1 6 GND 8 8 8 7 CLK+ 12 12 3 1 2 3 4 5 6 7 8 9 9pin connector 8 CLK 11 11 4 9 DAT+ 1 1 5 1 DAT 9 9 6 11 5P 7 7 9 12 GND 14 14 2 Shield Plug casing Encoder cable order designation AGGD15FQ.25xxxM F/Q = Encoder Q.25 = Conductor crosssection (supply =.5 mm 2 ) xxxm = Variable order length, max. 1 m D9 D15 W G AG = Dsub 9pin for KWZ = Dsub 15pin for KWR3 & KWR6 = 9 degree plug on motor side = Straight plug on motor side = Encoder cable 28
(ø±,4) (ø±,4) Power connection Power connector and cable Prefabricated cables with power connectors and various cable crosssections are available for the power supply, temperature sensor and brake. The cable sheathing is removed from the ends of the wires on the drive side. The cables are available in any length measured in complete meters. Properties: Sheath: PUR, conductors TPE Cable trailing properties: min. bending radius: 12 x outer diameter of cable Pin assignments: Power connectors and power cables size 1 for SKT7 PIN Meaning A Temperature sensor B Temperature sensor C Brake + D Brake V Power cable Shield on connector housing Power connector 4+4pole size 1 Cable 4x1,5+2x(2x,34) 4x2,5+2x(2x,75) 4x 4+(2x,75)+(2x1,) ~2 1 Motor phase u 3 Motor phase w 4 Motor phase v Cable assignment length + 2mm 22±1 Protective conductor Pin assignments: Power connectors and power cables size 1.5 for SKT7_W and SKT1 PIN Meaning u Motor phase u v Motor phase v w Motor phase w 1 Temperature sensor 2 Temperature sensor + Brake +24 V Brake V Protective conductor Power cable Shield on connector housing Power connector 4+4pole size 1,5 Cable assignment Cable 4x6+(2x,75)+(2x1,) 4x1+(2x,75)+(2x1,) length + 2mm ~2 22±1 Power cable order designation AMGAQ1.5xxxMS S = Suitability for trailing xxxm = Variable order length Q1.5 = Conductor crosssection 1.5 mm 2 Q2.5 = Conductor crosssection 2.5 mm 2 Q4 = Conductor crosssection 4. mm 2 Q6 = Conductor crosssection 6. mm 2 Q1 = Conductor crosssection 1. mm 2 Q16 = Conductor crosssection 16. mm 2 A = Stripped G = Straight plug AM = Motor cable Connector } Size 1 } Connector Size 1.5 Legend on page 31 all dimensions in mm. 29
Power connection SKT13 Terminal board assignments SKT13 Break Break + TH/KTY + TH/KTY U V W Holding Brake The motors can be optionally equipped with a holding brake. The brake is not suitable as an operational brake. The brakes are disengaged using 24 VDC (unfiltered). Note: The maximum speed of the motor is limited by the maximum speed of the brake. Series Blind hollow shaft Hollow throughshaft M BR U BR [V] Holding brake for SPINDASYN motors I br J BR [kgcm 2 ] n maxbr [rpm] T on [ms] T off [ms] SKT7 SKT1 S 18.8.5 24 D 5 1.15 1.1 S 2.3 2.4 12 24 D 1.3 6 6, 3 7 6, 3 7 SKT13 D 25 24 2.9 13 3, 25 25 3 Legend on page 31 all dimensions in mm.
Abbreviations General technical data Characters Unit Explanation F max_stat kn Maximum force, static F max_dyn kn Maximum force, dynamic M O Nm Continuous stall torque I O A Continuous stall current M N Nm Rated torque P N kw Rated power I N A Rated current n N rpm Rated speed k T Nm/A Torque constant (M = I * k T ) M max Nm Maximum torque I max A Maximum current n max rpm Maximum speed J kgcm 2 Motor moment of inertia L mm Motor length Ls mm Length of blind hole LA/LA BR mm Motor length with adapter L1 L2 mm mm Distance from connector to end of motor Distance from encoder connector to end of motor (with hollow throughshafts, right side of connector casing to end of motor) L BR mm Length of motor with brake L1 BR L2 BR mm mm m kg Motor mass Distance from power connector to end of motor with brake Distance from encoder connector to end of motor with brake (for hollow throughshaft, right side of connector casing to end of motor) m BR kg Motor mass with brake M BR Nm min. static braking torque U BR V Brake voltage Protection class: IP54. Higher protection classes available on request. Rated data: Relative to temperature rise of 8 K in windings. The motor is tested for this using a thermally insulated flange. Dissipation losses in screwnut system may require verification in application. Insulating material class/heat class: F in acc. with DIN VDE 53. Thermal protection: PTC thermistor, cold resistance approx. 15 8 Ω. Motor bearing, Aside: Lubricatedforlife angular contact ball bearings and tapered roller bearings, must be greased occasionally depending on the application. Motor bearing, Bside: Lubricatedforlife, sealed bearing. Balance quality grade: G 2.5 in accordance with VDI 256. Vibration severity grade: N in acc. with DIN ISO 2373. Painting: RAL 95, flat black. Cooling: Convection cooling or liquid cooling Ambient conditions Ambient temperature: +5 to +4 C. At higher ambient temperatures of up to maximum 6 C, the rated data must be reduced by 1 % per 1 K temperature increase. Elevation of installation site: Up to 1 m above sea level. When operated at sites with elevations higher than 1 m, the ambient temperatures given in DIN VDE 53 Table 4 apply. Humidity: Maximum 85 % relative humidity, no condensation. I BR A Brake current J BR kgcm 2 Brake moment of inertia n maxbr rpm Maximum brake speed T on ms Time for brake to engage T off ms Time for brake to disengage 31
Control your Motion. AMKAMAC Control Technology AMKASYN Servo inverter DYNASYN Servo motors AMKASMART Inverterintegrated motors SPINDASYN Hollow shaft motors TORGSystem Gear motors AMKAVERT Frequency inverter AXIS & Stuifmeel BV Coenecoop 61862 2741 PV Waddinxveen Netherlands Tel: +31 () 182 64 7 7 www.axisstuifmeel.nl info@axisstuifmeel.nl Official AMK distributor for the Benelux Pictures: AMK Subject to change without notice! 1FA11