✓ Adaptation of existing gripping systems
✓ Safe component removal
✓ Suitable for all robot systems
This product sold by vendor
This gripper removes finished overloaded components and also
inserts materials such as bushings, sheets, or screws into molds.
Application | Robot Components |
---|---|
Country of origin | Germany |
Country of shipment | Germany |
Vendor | SP005-0113-AA |
About Vendor | The company develop and produce innovative gripper components, complete gripper and tailor-made, customized solutions. In addition they also engineer and manufacture intelligent feeding systems and sprue cutting stations. |
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This gripper is designed for removing a bumper from a die.
It is equipped with a filling end monitor that allows for monitoring the filling ends on the component,
ensuring a precise and safe removal process.
This gripper moves a component, such as a glass slide, from one cavity to another.
The gripper can centre itself on the individual cavities and has a separate stroke movement.
Our standard gripper construction kit, which is based on the well-known Channel Nut clamping profile 25/25 and includes
components that are compatible with systems using clamping diameters of 10, 14, 20, and 30mm.
We offer over 2500 different components that have been developed based on practical experience and our own gripper construction expertise.
The Gripper Conversion Set system is for customers that use suction cups, gripper arms, etc. from alternative brands.
The Gripper Starter Set is ideal for customers that want to delegate the challenging building of End Arm Tooling to experts.
These grippers are specially developed using the 3D printing process.
They have internal vacuum generation capabilities and can be customized to suit specific needs.
Customizable design: The grippers can be 3D printed to fit a wide range of objects
and are customizable to meet the specific requirements of your application.
Lightweight: The grippers are 3D printed using high-strength, lightweight materials,
making them easy to manipulate and reducing the load on the robotic arm.
Durable: The grippers are designed to withstand the rigors of industrial environments
and provide long-lasting performance.
Cost-effective: 3D printing technology allows for faster production and lower costs
compared to traditional manufacturing methods.
With their advanced design and 3D printing technology, the grippers offer a cost-effective
and customizable solution for robotic grasping and manipulation.
Other types of robots: Delta / Scara.
Finger Material: Silicone
Operating Pressure: -0.5 to 1.0 bar
Grip Force per Finger: 5 N
Durability: >10 Mio. Cycles: @1.0 bar, 0.5 Hz
Feed size: 5 mm – 120 mm
Weight: <600 g
Best for products of rectangular or cubic shape.
Other types of robots: Delta / Scara.
Finger Material: Silicone
Operating Pressure: -0.5 to 1.0 bar
Grip Force per Finger: 5 N
Durability: >10 Mio. Cycles: @1.0 bar, 0.5 Hz
Feed size: 5 mm – 120 mm
Weight: <300 g
Best for products of rectangular or cubic shape.
KUKA linear units are translational motion units Linear units can be used to extend a robot?s work envelope or alternatively to move workpieces or tools within the work envelopes of a number of robots. This allows applications such as the tending of more than one machine or fixture, order picking from rows of pallets, or work on very large components. Control of the linear unit is integrated as a mathematically coupled axis in the robot controller, dispensing with the need for an additional controller.
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