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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 |
High Performance Mechanical Gripper , Automatic Robot End Effector Gripper
sheet metal grippers are ideal for robotic part handling applications. grippers are lightweight for high transfer speeds when used in stamping press applications. Other grippers are enclosed for use in harsh welding environments. The internal mechanism prevents grippers from opening during loss of air. All grippers feature a light weight and compact size, modular openings, many grip styles, and multiple contact points.
| Name | Mechanical Gripper |
| Application | Robots /Sheet Metal Handling /Automotive Manufacturing/Aerospace/Press Shop Gripping Applications |
| Material | Aluminum Steel |
| Weight | 0.45 Kg |
| Clamping Force | 620 N (at 5 Bar) |
| Control Mode | Continuous Path Control |
| Drive Mode | Pneumatic/electric |
| 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 |
Mechanical grippers operate through mechanical motion and force transmission mechanisms such as linkages, cams, springs, or screws. The gripper typically consists of two or more jaws (fingers) that open and close to hold an object. The actuation can be achieved through various methods:
Pneumatic actuation – Using compressed air to drive the opening and closing of jaws.
Electric actuation – Using motors or servos for precise and programmable control.
Hydraulic actuation – Providing high force for handling heavy or large workpieces.
Pure mechanical linkage – Driven directly by cams, levers, or springs synchronized with the machine’s motion.
The design of the gripping jaws depends on the shape, size, and material of the object being handled, ensuring a secure and reliable hold during operation.
High Reliability and Durability – Suitable for continuous industrial use.
Simple Structure – Easy to maintain and cost-effective compared to more complex grippers.
Strong Gripping Force – Capable of handling heavy or rigid materials.
Versatile Design – Adaptable to a wide range of workpiece shapes and sizes.
Customizable Jaws – Designed according to specific application requirements.
Automotive industry – Handling stamped parts, body panels, and components.
Metalworking and machining – Loading/unloading CNC machines or presses.
Assembly lines – Picking and placing components with precision.
Packaging and logistics – Grasping, sorting, and stacking products.
Aerospace and electronics – Handling delicate or high-precision parts.
Improves automation efficiency and production throughput.
Reduces manual intervention and increases workplace safety.
Provides high precision, repeatability, and force control.
Offers flexibility for integration with robotic or fixed automation systems.
Ensures consistent quality and minimizes material damage during handling.
