Grip G-GZ050 Alternatives & Competitors
Ranked Nr. 195 of 236 Grippers
Top 10 G-GZ050 Alternatives
- Elephant Robotics Pneumatic Gripper Pro with Air Compressor
- Elephant Robotics Pneumatic Gripper Pro without Air Compressor
- SCHUNK GAP
- Grip G-GZ125
- Grip G-GZ100
- Grip G-GZ080
- Grip G-GZ063
- Grip GP063-I2
- Grip GP080-I2
- Grip GP063-I1
- Grip GP050-I2
Elephant Robotics Pneumatic Gripper Pro with Air Compressor
Payload 1kg | Angular | ParallelElephant Robotics' Pneumatic Gripper Pro with Air Compressor is an efficient and reliable solution for industrial automation processes that require precise gripping of objects. Driven by gas and working with a solenoid valve, this gripper is easy to control and offers excellent grip force.
The fingertip of the gripper can be customized and exchanged for users' secondary development, adding flexibility and versatility to its gripping capabilities. The gripper comes with an air compressor, making it a complete and convenient solution for industrial automation processes.
Elephant Robotics Pneumatic Gripper Pro without Air Compressor
Payload 1kg | Angular | ParallelElephant Robotics' Pneumatic Gripper Pro without Air Compressor is an innovative gripping solution that is designed to meet the needs of various industrial applications. Driven by gas and working with a solenoid valve, the gripper is convenient to control and operate.
The fingertip of the gripper can be easily exchanged for users' secondary development, providing a customizable and flexible gripping solution. The gripper's compact size and ease of use make it an ideal choice for industries that require efficient and precise gripping of objects. With Elephant Robotics' Pneumatic Gripper Pro without Air Compressor, users can enjoy reliable and customizable gripping solutions that meet their specific needs.
SCHUNK GAP
Angular | Parallel2-finger angular parallel gripper with gripper finger actuation of up to 90° per jaw.
Grip G-GZ125
AngularThe Angular Gripper with pivoting jaw movement. The double-acting cylinder is actuated by compressed air which actuates the movements. An eccentric mechanism ensures a long service life and a constant gripping torque. In contrast to the Parallel Gripper, the gripping force safety device can only be designed as a closing -GS- version.
Grip G-GZ100
AngularThe Angular Gripper with pivoting jaw movement. The double-acting cylinder is actuated by compressed air which actuates the movements. An eccentric mechanism ensures a long service life and a constant gripping torque. In contrast to the Parallel Gripper, the gripping force safety device can only be designed as a closing -GS- version.
Grip G-GZ080
AngularThe Angular Gripper with pivoting jaw movement. The double-acting cylinder is actuated by compressed air which actuates the movements. An eccentric mechanism ensures a long service life and a constant gripping torque. In contrast to the Parallel Gripper, the gripping force safety device can only be designed as a closing -GS- version.
Grip G-GZ063
AngularThe Angular Gripper with pivoting jaw movement. The double-acting cylinder is actuated by compressed air which actuates the movements. An eccentric mechanism ensures a long service life and a constant gripping torque. In contrast to the Parallel Gripper, the gripping force safety device can only be designed as a closing -GS- version.
Grip GP063-I2
Payload 5kg | ParallelParallel Gripper with linear jaw movement. The double-acting cylinder is actuated by compressed air which actuates the movements. The vertical movement is converted into opposing horizontal movement via two angularly arranged springs.
Grip GP080-I2
Payload 7.5kg | ParallelParallel Gripper with linear jaw movement. The double-acting cylinder is actuated by compressed air which actuates the movements. The vertical movement is converted into opposing horizontal movement via two angularly arranged springs.
Grip GP063-I1
Payload 10kg | ParallelParallel Gripper with linear jaw movement. The double-acting cylinder is actuated by compressed air which actuates the movements. The vertical movement is converted into opposing horizontal movement via two angularly arranged springs.