ELECTRO-PERMANENT MAGNETIC CHUCKS

ACCESSORIES

ELECTRO-PERMANENT MAGNETIC CHUCKS ACCESSORIES

WITH ELECTRIC DRIVE FOR MECHANICAL PROCESSING

Mobile and fixed pole extensions on the square pole clamping system enable the clamping of wavy and warped metal parts. They adapt to your workpiece and hold it securely. The individual contact points between the magnetic clamping plate and the workpiece can be defined individually. It is also possible to drill through and the machine the inner edges of magnetically clamped workpieces. Additional pole extensions can be setup and attached or interfering pole extensions removed in no time at all - so every workpiece has its own individual clamping device in no time at all. For five sided machining, the workpiece can be exposed with pole extensions. Our pole extensions are made of high quality special steel and have the best magnetic flux properties. Techinically perfect and durable.

Low-vibration machining and clamping of workpieces.
Protection of the magnetic chuck.
Flexibility in the clamping height.
Drilling and milling possible.
No vacuum adhesion between magnetic chuck and workpiece.
Problem-free releasing of the workpiece even with high-alloy/hardened materials.
DISCOVER COMPLETE RANGE
DOWNLOAD CATALOGUE

Complete Range FXL

Electro-permanent Magnetic chucks FXL Accessories

PVR

Fixed pole extensions round

Available Products PVR
PVQ

Fixed pole extensions square.

Available Products PVQ
MP

Mobile pole extensions square

Available Products MP
RMP

Mobile pole extensions round

Available Products RMP

Other FXL Solutions

FXL magnetic chucks electropermanent
FXL - Electropermanet Magnetic Chucks
FXL Unità di controllo
FXL - Control Technology

FAQs

TECHNICAL AND OPERATING
INFORMATIONS

What is a permanent magnetic chuck?

A permanent magnetic chuck uses the flow of permanent magnets to fix parts on which to execute mechanical workings. A mechanical system inside it generates the movement of the magnetic poles and directs the flow externally (ON) or internally (OFF). The switching process generally takes place by means of a lever which, connected to an eccentric shaft, allows the magnet assembly to move.

What is an electro-permanent magnetic chuck?

The permanent-electro system combines the advantages of permanent magnets and those of electromagnets.
An electromagnetic force applied for a minimum time is necessary to energize / orient the internal permanent magnets. Once magnetized, the product remains active with a permanent magnetic force. Similarly, an opposite electromagnetic force is required to deactivate the product. Unlike electromagnets, the product is FAILSAFE and does not heat up over time. Unlike permanent magnetic products there are no moving parts and the forces can be much higher.

How much force can an electro-permanent magnetic chuck generate?

The amount of magnetic flux induced in the workpiece is the factor that determines the clamping force. For optimal locking, the greatest possible magnetic flux must be induced in the workpiece. It means positioning the piece correctly on the north and south poles of the magnetic plane. The anchoring force is proportional to:

  • the square of the magnetic flux density present in the face in contact with the piece.
  • the area of ​​the piece in contact with the magnetic plane, up to the maximum point of its saturation
Density reductions in magnetic flux can occur when the flux encounters magnetic resistance (reluctance). Simple examples can be the air gaps, for air gap we mean the average contact distance between the work piece and the magnetic plane. The main factors that can affect the flow density and the anchoring force of a piece of any size are the following:
  • Contact surface, surface finish, chemical composition, thickness, temperature.
The choice of the correct magnetic equipment must take into account all the factors described.

Will my processing/working system be magnetized?

Usually a cutting tool is made of a magnetically hard material, which means that it is susceptible to magnetism. If the instrument is working inside the magnetic field, it will probably magnetize (even if slightly). Generally, a partially magnetized cutting tool has no performance problems.