Magnetic and circular magnetic chuck
PERMANENT MAGNETIC CHUCKING PLATES, ROUND
High magnetic strength: permanent magnetic chucks retain their magnetic attraction force for extremely long periods of time.
BRAILLON magnetic chucks are robust and durable, as only individual components of the highest quality are used in their manufacture.
Maintenance-free: permanent magnetic chucks do not require any special maintenance.
They are used for grinding, milling and erosion.
ELECTROMAGNETIC CHUCKING PLATES
Electromagnetic chucking plates are an interesting solution for a wide range of applications.
The magnetic field is created by the flow of current in the coil. When direct current is introduced, a magnetic field is generated around the inductor. These electromagnetic chucking plates become hot when the power is continuously supplied.
Easy to use: electromagnet clamping plates are simply activated and deactivated at the push of a button. If there is no current flowing through the coil, there is no magnetic field and the holding force is no longer present. This should be kept in mind when using them.
Electric clamping plates are used for grinding and measuring, and to some extent for eroding.
ELECTRO-PERMANENT MAGNETIC CHUCK
BRAILLON MAGNETICS, inventor of electro-permanent technology, offers a range of reliable, completely waterproof magnetic chucks with high holding forces for milling and all grinding operations. BRAILLON magnetic chucks are of high quality and reliability and guarantee an extremely long service life. The perfect solution for your precision work on your CNC machine.
The electro-permanent technology consists of selectively modifying the magnetic state of the magnetic chuck by means of a short electrical impulse. After the impulse, the magnetic chuck maintains its state, either magnetized or demagnetized, even in the event of a power failure. This means total safety for the operators.
All BRAILLON MAGNETICS electro-permanent magnetic chucks for grinding operations have been designed with full active demagnetization.