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| Brand Name: | OEM |
| MOQ: | 1 |
| Price: | Negotiation |
| Payment Terms: | T/T, L/C, PayPal, Western Union, MoneyGram |
| Supply Ability: | 300 + Piece + per Months |
Pneumatic Robot Gripper , Pneumatic Automation Components With High Performance
We are pleased to announce the availability of a new feed gripper with extension capability for use in 2- and 3-axis transfer press lines as well as destacking applications. These new aluminum grippers weigh only 2.27 lbs. (1.013 Kilos), making them about 13 lbs. (6 Kilos) lighter than competitive products. This enables faster transfer movement speed with a max velocity of 22 SPM for improved productivity.
| Name | Press Gripper |
| Application | Robots /Sheet Metal Handling /Automotive Manufacturing/Aerospace/Press Shop Gripping Applications |
| Material | Aluminum Steel |
| Masse | 0.44 Kg |
| Clamping Force | 650.0 N (at 5 Bar) |
| Control Mode | Continuous Path Control |
| Drive Mode | Pneumatic |
| Brand | Brisk Or Oem |
| Air Ports | G 1 / 4 |
| Power Source | Compressed Air |
| Product Function | Gripper For Metal Sheet Stamping |
| Operating Pressure | Max. 6.0 Bar |
High Precision and Repeatability – Ensures consistent placement and alignment of parts.
Strong and Reliable Grip – Maintains firm holding force during high-speed press operations.
Compact and Lightweight Design – Suitable for robotic or multi-axis transfer systems.
Durable Construction – Typically made from hardened steel or aluminum alloys for long service life.
Customizable Gripping Jaws – Designed according to the shape, thickness, and material of the workpiece.
Press grippers commonly operate using pneumatic, mechanical, or servo-controlled systems:
Pneumatic grippers use compressed air to open and close gripping fingers.
Mechanical grippers rely on levers or cams synchronized with the press cycle.
Servo grippers allow precise force and position control for delicate operations.
The gripping mechanism is synchronized with the press stroke, ensuring the gripper picks up the workpiece after one forming step and transfers it to the next die station smoothly and safely.
Automotive manufacturing – Handling car body panels, brackets, and structural components.
Appliance and electronics industries – Transferring stamped sheet parts.
Aerospace and metal fabrication – Moving precision-formed components.
Progressive and transfer press lines – Automating multi-stage stamping operations.
Improves efficiency and production speed in press operations.
Reduces manual handling and enhances workplace safety.
Minimizes scratches, deformation, and damage to materials.
Enables high consistency and repeatability in part positioning.
Compatible with fully automated robotic press systems.
