SYNCHRONOUS MOTORS SINCE 1947 Solutions for Servoactuators Series MA Vues Servo Motors
Design of AC-Servo-Linearactuators Series MA Advantages of Servo-Linearactuators Servo-Linearactuators adds to Vues' portfolio of Linear Systems a palet of very compact direct drive components for short strokes in conjunction with very high thrust forces. The user is offered a bunch of benefits compared to conventional Systems with pneumatics or with hydraulics: Energy saving Lower installation and running costs by the use of less expensive (electrical) energy for the drive compared to pneumatic and hycdraulic systems. Higher flexibility The scope of control given in a servo system provides much better positioning, coming along with higher accuracy which is a vital requirement of flexible production cells. Advanced control of force Excellent control of forces, and linearity of force increase. This ensures a force build-up without delay, and avoids non-linear dependencies of thrust force and actuator positions. More powerful drive unit The overload capacity of a servo-system allows to compensate short time incidents (peak forces). Also the Servoactuator must not be designed with regard to peak force (as in pneumatic,) but only according to effective load of the application.
The Servo-Linearactuator forms a linear movement from the rotative movement of a servomotor. The shape of the actuator is orientated on the design of conventional pneumatic- and hydraulic cylinders and therefore often allows an easy replacement or retro fitting of existing systems. The customer is opened up an actuator solution with a stroke up to 350 mm within 3 motor sizes with effective thrust forces from 630 N to 24,400 N. The screw nut of this hollow shaft servomotor is integrated in the front side of the motor inside the rotor. The rotor position is detected by a feedback system which allows commutation and speed, and as well can be used as position feedback for the stroke movement. Via grease channel it is possible to connect an automatic lubrication unit, which is essential for a continuous operation with high durability. Acutators with resolvers as feedback system can be moved (in power-off mode) by turning a hex-tool on the rear motor side. Technical Characteristics Continuous forces from 1270 N 24,400 N Peak forces from 4550 N 30,000 N Large stroke length of 0 350 mm Linear speed up to 500 mm/s Various mountings Low operation costs compared to pneumatic and hydraulic cylinders Easy flexible linear positioning due to position controlled Servo system Low noise Highest lifetime Standard Version 330 or 560 VDC Bus 2-pole resolver Thermal switch and Thermal sensor KTY84-130 2 straight receptacles Front side mounting (IM B14) Screw pitch 5 mm/rev Options Trunnion mount Rear clevis Holding brake 24 VDC Internal screw support Screw pitch 10 mm/rev, others on request Screw with rod eye and bellow Feedbacksystem Endat, Hyperface, Biss, Single- and Multiturn Customized Pinout, flying leads Special versions with through-out screw, mechanical or electrical adaptions Special strokes up to 800 mm, depending on actuator size
Technical Data MA400 Actuator Series MA 404I 406I 408I Actuator data pitch p mm/rev 5 10 5 10 5 10 cont. force F Cont N 1270 630 2350 1180 3260 1630 cont. current I 0 A 0.71 1.3 1.8 peak force F max N 4550 2280 8000 4410 8000 5760 peak current I max A 2.7 2.7 4.8 5.3 4.8 6.9 force constant k F N/A 1680/840 * max. lin. speed v N mm/s 250/500 * dyn. load screw C dyn kn 17.9/12 * stroke H mm 70 110 150 rotor inertia J kgcm 2 3.04 3.51 3.87 weight m kg 5.4 6.4 7.3 Motor data ** G I G I G I stall torque M 0 Nm 1.1 1.1 2.1 2.1 2.9 2.9 max. speed n max U/min 3000 3000 3000 3000 3000 3000 back EMF k e V/krpm 50 90 50 90 50 90 torque constant k t Nm/A 0.83 1.48 0.83 1.48 0.83 1.48 winding Resistance R Ohm 16.3 47.3 5.0 15.4 3.0 9.84 winding Inductance L mh 24.1 76 12.0 36.3 7.4 25.6 MA500 Actuator Series MA 504I 506I 508I Actuator data pitch p mm/rev 5 10 5 10 5 10 cont. force F Cont0 N 4800 2400 6880 3440 9050 4520 cont. current I 0 A 2.7 3.9 5.1 peak force F max N 16000 8820 16000 13160 16000 16000 peak current I max A 9.6 10.5 9.6 15.7 9.6 19 force constant k F N/A 1680/840 * max. lin. speed v N mm/s 250/500 * dyn. load screw C dyn kn 20.4/16.8 * stroke H mm 110 155 200 inertia J kgcm 2 11.6 13.1 14.5 weight m kg 12.3 14 16 Motor data ** G I G I G I stall torque M 0 Nm 4.2 4.2 6.1 6.1 8 8 max. speed n max U/min 3000 3000 3000 3000 3000 3000 back EMF k e V/krpm 50 90 50 90 50 90 torque constant k t Nm/A 0.83 1.48 0.83 1.48 0.83 1.48 winding resistance R Ohm 1.84 5.2 0.82 2.8 0.7 1.65 winding inductance L mh 8.6 30 5.3 20 5.3 13.2 MA710 Actuator SeriesMA 714I 716I 718I Actuator data pitch p mm/rev 5 10 5 10 5 10 cont. force F Cont0 N 14500 7250 19000 9500 24400 12200 cont. current I 0 A 8.6 11.4 14.6 peak force F max N 30000 27000 30000 30000 30000 30000 peak current I max A 18 32 18 36 18 36 force constant k F N/A 1680/840 * max. lin. speed v N mm/s 208/416 * dyn. load screw C dyn kn 27/31 * stroke H mm 250 300 350 inertia J kgcm 2 35 47 59 weight m kg Motor data (560VDC) I I I stall torque M 0 Nm 12.8 16.8 21.6 max. speed n max U/min 2500 2500 2500 back EMF k e V/krpm 90 90 90 torque constant k t Nm/A 1.48 1.48 1.48 winding resistance R Ohm 0.68 0.41 0.3 winding inductance L mh 9.9 7.2 5.4 * for pitch 5/10 mm/rev ** Winding G=330 VDC; I = 560 VDC
Dimensions X R P V deep V1 4x90 C F U 1x45 A J 2xG1/8 deep 12 D N E Q T L K (K1) H G internal hexagon to move shaft 4 Brake Holding torqe A B C D E F G H J K K1* L M N P Q R S T U V V1 W X Y MA404 70 205 260 105 MA406 20x5 Ø12,5H7 M12x1,5 5 21 Ø60j6 7 110 15 245 300 2 120 7 30 74x74 23 27 94 Ø18H7 M6 25 Ø94 40 Ø80 2 Nm MA408 150 285 340 140 MA504 110 275 303 130 MA506 25x5 Ø17H7 M16x1,5 5 25 Ø80j6 8 155 19 320 348 3 155 12 30 97x97 28 27 126 Ø27H7 M8 20 Ø122 30 Ø95 5 Nm MA508 200 365 393 180 MA714 260 415 454 230 MA716 32x5 Ø20,5H7 M20x1,5 5 30 Ø120j6 11 310 27 465 504 3.5 255 11 38 135x135 33 62 164 Ø34H7 M10 20 Ø154 45 Ø136 12 Nm MA718 360 515 554 280 * Length with holding brake B S W Y M
Options Trunnion mount see table "Dimensions" Rod eye and bellow F min a F max a b F min F max b MA40 16 27 40 259 MA50 20 38 37 287 MA71 25 48 50 400 Rear Clevis a Si Sa c a c S i S a MA40 16 35 36 60 MA50 20 50 50 80 MA71 24 70 52 100
Flow Chart Actuators 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 M A 5 0 6 I - 0 R 0 8 - B 2 2 0-0 E 1 1 2 Motor type MA Linearactuator Standard MS WS Linearactuator, old style Linearactuator, watercooled, old style 3 5 Size 40X 50X 71X 6 Winding I Rated speed at bus voltage 560 VDC G Rated speed at bus voltage 330 VDC 7-8 Holding brake 0 without Holding brake 1 with Standard-Holding brake 9 10 Feedback system 00 without feedback R0 D0 H1 S2 2-pole resolver Biss-Multiturn Heidenhain EQN1125 Sick-Stegmann SKM36 11 Electrical connection 0 standard, receptacle straight 8 elbow receptacle, rotatable K flying leads T terminal box 12-13 Shaft / flange / protection 0 Standard, IM B14 mounting, screw with female thread 1 IM B14 mounting, screw with male thread B trunnion mount F special mounting 14 Thermal protection 0 thermal switch 2 thermal switch and KTY84-130 3 KTY84-130 4 PTC 5 Special 6 no thermal protection 15 Voltage 1 330 VDC 2 700 VDC 16 Nameplate 0 Standard Vues nameplate X individual nameplates 17-18 Index 0 Standard A with rod eye and bellow 19 Screw pitch E 5 mm/rev 1 10 mm/rev 20 Screw details 0 without screw support 1 with screw support 2 screw throughout, without support M A 5 0 6 I - 0 R 0 8 - B 2 2 0-0 E 1
Manufacturing: VUES BRNO s.r.o. Mostecka 26 65765 Brno Czech republic Vues Servo Motoren Sales: VSM Antriebstechnik GmbH - mail - 04/2010 VSM Antriebstechnik GmbH Wiesenstraße 6 64347 Griesheim Germany Phone +49 (0)6155 797421-0 Fax +49 (0)6155 797421-22 info@vues.biz www.vues.biz