Wire EDM
Magnetic chucks with parallel pole technology
Electro-permanent magnetic modules with high holding forces specifically for EDM applications
Description
Advantages – Your benefits
- Innovative "fine" and "active" pole pitch
Provision of the required clamping force for clamping of very small workpieces (up to 20 x 20 mm) - Stainless steel frame
Avoidance of oxidation and expensive cleaning due to contact with air and chemical liquids - Even permanent magnetic clamping force across the entire workpiece
Low deformation and vibration clamping of the workpieces - Low vibration clamping
Improved surfaces and significantly increased precision. - Deformation-free clamping
No deformation and internal forces in the workpiece due to the clamping force - State-of-the-art electropermanent technology for one-time energy supply for MAG/DEMAG process
Energy-efficient and reliable clamping of the workpieces - Clamping within a few seconds
Shortest possible setup times and a resulting increase in productivity - Control unit compatible with machine control system
Can also be used in automated applications - Mounting bores especially for EDM machines
The magnetic modules can be mounted directly on the machine table.
Options and special information
- Electro-permanent magnetic modules for wire EDM
MAGNOS MEF magnetic modules are specially designed for EDM applications. An innovative "fine" and "active" pole pitch allows very small workpieces to be clamped while maintaining the holding force required for machining. Due to the unfavorable influences during eroding – caused by the chemical liquids and contact with air – the magnetic modules are made of special stainless steel. This prevents oxidation as well as expensive cleaning work on the modules. - The MEF magnetic modules are self-sufficient and require only a short pulse for the MAG/DEMAG process due to innovative electro-permanent technology. Specially prepared positioning holes allow quick and easy mounting on EDM machines without the need to drill separate holes beforehand.