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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 |
Magnetic Grippers for Robotics and Industrial Automation
Magnetic gripper for Industrial Automation
Magnetic gripper can handle a variety of material sizes and shapes including items with holes
Magnets do not change their magnetic state when power failure
Control unit could be integrated to the PLC system of robot
Less energy comsumption
Low-maintenance
Compact and powerful
| Name | Magnetic 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 |
Magnetic grippers function by generating a magnetic field that attracts and holds ferromagnetic materials. There are three main types based on their operating principle:
Permanent Magnet Grippers – Use fixed magnets to generate constant magnetic force. They are energy-efficient and maintain grip even during power loss but require a mechanical system to release parts.
Electromagnetic Grippers – Use electric current to create a magnetic field. The grip can be activated or deactivated instantly by controlling the current flow.
Electro-permanent Magnet Grippers – Combine both technologies, allowing strong holding power without continuous energy consumption and offering controllable magnetic release.
The choice of gripper depends on factors such as load weight, part geometry, required holding force, and cycle time.
Non-contact gripping mechanism – Reduces surface wear and deformation.
Fast pick-and-release operation – Ideal for high-speed automation.
High holding capacity – Capable of lifting heavy or large metal parts.
Energy-efficient design – Especially with electro-permanent systems.
Safe and reliable performance – Can maintain grip even during power interruptions (in permanent-magnet types).
Sheet metal handling – Transferring steel sheets between press stations.
Automotive manufacturing – Handling body panels, brackets, and structural parts.
Robotic welding and assembly – Positioning ferromagnetic components precisely.
Metal fabrication and storage – Loading and unloading steel plates or parts.
Packaging and palletizing – Lifting and stacking metal products efficiently.
Enables fast, clean, and damage-free material handling.
Reduces mechanical wear due to non-contact operation.
Offers high energy efficiency (especially electro-permanent types).
Provides strong, stable grip with minimal maintenance requirements.
Improves productivity and safety in automated metal-handling processes.
