Servo Electric Gripper High Rigidity,Drop Lock,Drop Detection
RM-GB-11-40-2-1-H-ITG
Servo Clamping Jaws (RM-GB-11-40-2-1-H-ITG) is a high performance
product that demonstrates outstanding performance with efficient
control and powerful clamping force. It has outstanding advantages
such as high rigidity, high load, high precision, high reliability,
etc., and can adapt to various complex working environments; from
compact to heavy-duty type, it provides a variety of optional
strokes, with a wide range of specifications to meet different
needs; it can be adapted to a variety of collaborative robots and
industrial robots, to complete various types of assembly,
transport, palletising, etc., of items of different weights. The
RM-GB has a clamping stroke of 40mm, a guide length of 2, a side
exit position and a horizontal exit.
With a maximum payload of up to 7kg, which is 2-3 times its own
weight, and a maximum clamping force of 110N, the RM-GB is in a
class of its own. It can easily cope with both bulky, heavy heavy
items and delicate, lightweight miniature items. It has a service
life of up to 10 million cycles, even under extreme loads, without
failure and with first-class stability.
Specifications
Output Cable: Side Wiring
Outgoing Line Method: Horizontal Wiring
Max.speed (mm/s): 80
Repeat Positioning Accuracy (mm): ± 0.05
Backlash (mm): < 0.1 ( Single-Side)
Permissible Load Torque: MR: 8.0, MP: 5.9, MY: 5.9
Control Method Bus: Modbus RTU/ CANopen
Control Method Interface: I/O
Interface: Input 2 Points(NPN), Output 3 Points( NPN)
Rated Voltage (V): DC24± 10 %
Rated Current(A): 2
Weight (kg): 1.1
Usage Environment: 0~40℃, < 85%RH ( Without Condensation)
Protection Class IP: IP 40
1.The data is sourced from the actual test results in the 25℃
laboratory.Notes:
2.The drawings provided in this Catalogue are for the default
standard model. If you require other models with different motor
directions, outlet directions, or outlet methods, please contact
your local sales representative to obtain the drawings for the
optional models.