Large capacity SGMVV type servo motor.
Rated output: 37KW.
Voltage: three phase AC200V.
Serial encoder: 20 bit delta.
Rated speed: 1500r/min.
The main mechanical structure: support mounting type, straight shaft (without keyway and screw).
Optional parts: keep the brake (DC24V), with dust.
The use of small, low inertia servo motor, also can give full play to the strength of the mechanical properties.
The new model SGMVV with a rated output of 22~55KW, the amount of passenger speed 800r/min and 1500r/min products.
After the motor is installed, the phase is started to run immediately.
Even if the servo is not adjusted, as long as the moment of inertia is within the allowable range,
Even if the load changes, it can be driven stably, and the vibration will not happen.
Servo motor SGMSH type.
Rated speed: 3000r\/min.
Power: 5.0kw.
Power supply voltage: three phase AC200V.
Serial encoder: 17 bit relative value.
Design sequence: A.
Key: straight shaft end uranium belt with screw.
Optional parts: with DC24V brake.
Ultra high power response series: the need for small inertia, high torque Yaskawa SGMVV-3GADBKG.
Online automatic adjustment, automatic measurement of mechanical properties, set the required servo gain
SGMVV-3GADBKG
Even if the initial contact, can also be completed in a short time the best set.
Automatic identification of the motor, servo drive automatic identification of servo motor power, specifications, automatic setting motor parameters.
Standard for regenerative resistance connection terminals Yaskawa SGMVV-3GADBKG.
Connecting terminal equipped with external regenerative resistance,
Convenient connection regenerative resistorSigma -V series servo motor SGMSV.
Rated output: 2.5kw.
Power supply voltage: AC200V.
Serial encoder: 20 bit absolute value type (standard).
Design sequence: standard.
Shaft end: straight shaft, without keyway (standard).
Optional: with hold brake (DC90V).
Super power rate Yaskawa SGMVV-3GADBKG.
Variety is complete (1.0kW ~ 7.0kW, with hold brake).
Equipped with a high resolution serial encoder (20 bit).
Standard using IP67 (7.0kw for IP22).
Use example:
Placement machine.
Punch printed circuit board.
Machine tool feeding device SGMVV-3GADBKG Yaskawa.
Rating and specifications:
Rated time: continuous.
Vibration level: V15.
Insulation resistance: DC500V, 10M, or above.
Using ambient temperature: 0 ~ 40 degrees C SGMVV-3GADBKG Yaskawa.
Excitation mode: permanent magnet type.
Installation method: flange type.
Heat resistance grade: F.
Insulation withstand voltage: AC1500V 1 minutes (200V), AC1800V 1 minutes (400V).
Protection mode: fully enclosed self cooling type IP67 (except shaft through part) SGMVV-3GADBKG Yaskawa.
The use of environmental humidity: 20 ~ 80% (not dew).
Connection mode: direct connection.
Rotation direction: clockwise direction (CCW) rotation at the load side under the direction of rotationSecurity module.
Maximum applicable motor capacity: 3.0kw.
Power supply voltage: three phase AC400V.
Interface: analog voltage, pulse sequence type (linear servo motor).
Design sequence: A.
Hardware specification: base mounting type (standard).
Matching (software): no matching (standard).
Matching (parameters): no matching (standard).
Optional module: security module.
European EC standards: Based on the integration of mechanical instructions standard ISO13849-1 EN,
Security module with individual standard 61800-5-2 IEC specified security function.
Through the combination of the SGDV servo unit, the best safety design of the mechanical system is realized.
Suitable for AC servo drive, with the following safety features specified in the international standard IEC61800-5-2 (Japan''s first).
Can easily achieve the best security design of mechanical sysstems SGMVV-3GADBKG.
Torque Off Safe (STO)
Stop Safe 1 (SS1)
Stop Safe 2 (SS2)
Limited Speed Safely (SLS)
Equipped with 2 security functions, can be set (distribution) security functions.
In addition, the monitoring time and other itemms can be changed through the parameter Yaskawa SGMVV-3GADBKG.
With the use of the servo unit with a security module, so that the system can be simplified and miniaturized.