MFRS2
Magnetspannplatten mit Quadratpoltechnik
Elektropermanente Magnetspannplatten mit neuer ePaper-Statusanzeige für die eindeutige Anzeige des Spannzustandes
Beschreibung
Advantages – Your benefits
- New ePaper status display
Visual display of the clamping status for reliable clamping and maximum process reliability - 5-sided workpiece machining in one set-up
Higher accuracy by setting up once and at best accessibility of the machine spindle - 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 - Control unit compatible with machine control system
Can also be used in automated applications - The modular principle
Depending on the application or type of machine, the magnetic chucks can be combined or extended in accordance with the modular design principle - Clamping within a few seconds
Shortest possible setup times and a resulting increase in productivity - State-of-the-art electropermanent technology for one-time energy supply for MAG/DEMAG process
Energy-efficient and reliable clamping of the workpieces
Options and special information
- Magnetic chucks with new ePaper status display
MAGNOS MFRS has always stood for powerful clamping of ferromagnetic workpieces and is characterized by a deeply penetrating magnetic field – ideal for demanding milling applications. The new MFRS2 generation now has an ePaper status display that is unique on the market and clearly indicates to the machine operator whether the magnetic chuck is activated or deactivated. In combination with the MAGNOS app, in which the machining process can be simulated, all uncertainties are eliminated. As in the past, pole extensions can be used for clamping large workpieces from five sides without interfering contours. Moreover, depending on the application and machine tool, it is possible to combine several magnetic chucks with one another and expand them.