GPW5013NC-00-A
2-Jaw Angular Grippers
Series GPW5000
"The Universal One"
- Highest performance with the smallest dimensions
Features a one-of-a-kind ratio of net mass to gripper finger length and gripping moment. The performance of your machine is increased as a result. - Versatile applicability
Thanks to standard functionality such as IP64 and corrosion protection, you are able to use these grippers in almost any of your applications. Even the toughest environments are no problem. - Robust and process-reliable
Thanks to a maintenance-free design up to 30 million cycles and the most solid force transmission possible, process assurance is maximized.
Equipment/Options
- 30 million maintenance-free cycles (max.)
- Spring closing C
- IP64
- Protected against corrosion
- Magnetic field sensor
- Inductive sensor
- Purged air
- Temperature-resistant
Technical Data
Stroke per jaw (+/-) | +15/-2 [°] |
Gripping moment in closing max. | 130 [Nm] |
Gripping moment secured by spring min. | 39.5 [Nm] |
Gripping force in closing at 0° | 4200 [N] |
Closing time | 0.08 [s] |
Opening time | 0.12 [s] |
Dead weight of mounted gripper finger max. | 2.4 [kg] |
Length of the gripper fingers max. | 185 [mm] |
Repetition accuracy +/- | 0.01 [mm] |
Operating pressure | 4 ... 8 [bar] |
Nominal operating pressure | 6 [bar] |
Operating temperature | -10 ... +90 [°C] |
Air volume per cycle | 160 [cm³] |
Protection to IEC 60529 | IP64 |
Weight | 3 [kg] |
Accessory
Benefits in detail
- Positively driven lever mechanism
synchronized the movement of the gripper jaws - Gripper jaw
Gripper fingers mounted using removable centering sleeves - Removable centering sleeves
quick and economical positioning of the gripper fingers - Integrated gripping force safety device
Spring built into cylinder chamber as an energy store - Drive
Double-acting pneumatic rotor cylinder - Mounting and positioning
Alternatively, on several sides for customized mounting - Sensing slot
mounting and positioning of magnetic field sensors - Dual lip seal
IP64 Prevents grease from being squeezed out, increasing service life