In combination with zero point clamping systems.

For clamping medium to large parts while grinding, milling and eroding.

5-side processing is possible with the help of pole bars.

Suitable for clamping thin, small, medium-sized and large workpieces.

Predominantly for erosion and grinding activities. Suitable for thin parts.

Neodymium-iron-boron magnets, extremely high adhesion force

For small and medium-sized workpieces.

For workpieces that are difficult to clamp.

For clamping the profiled workpieces on a magnet with parallel pole pitch.

For workpieces that are difficult to clamp, e.g. ferrotic and hard metal with cobalt content. For extremely small and smallest workpieces.

For manual clamping chuck as an additional magnet for clamping small and sensitive workpieces. Also suitable for devices and as a retention magnet.

For clamping small to large workpieces for grinding and turning operations.

For flanging the round magnets or other clamping tools. For spindle heads as per DIN 55029, ISO 702/II, ASA b 5.9 D1.

For flanging the round magnets or other clamping tools. For supports as per DIN 228.

For clamping thin, plate-shaped workpieces with form and position tolerances from 0.01 to 0.02 mm.

Round electro-magnets are characterised by their large adhesion forces. For universal usage of pole shoes, radial grooves can be provided in the pole plate.

The round electro-magnet has a strong and low magnetic field due to the ring pole pitch.

For grinding of thin and plate-shaped workpieces.

For switching of direct current magnets.

For the power supply of protection magnets and magnetic clamps.

Used for supplying power to rotating round electro-magnets. For separate installation on the machine hollow spindle.

The magnetic plate is especially characterised due to large magnetic power, stable design and a long service life. The pole pitch forms “real” N and S poles.

Permanent electro-magnet systems with extremely narrow pole pitch.

The newly developed clamping system allows pulling the workpieces against the end stop using magnetisable end stops in a safe process.

Reinforced magnet system with demagnetisation cycle. Optimised system for high adhesion forces. Fully magnetic, saturated system due to flow concentration.

The clamping system with NdFeB high-energy magnets were optimised as per the latest magnet technology.

The clamping system with NdFeB high-energy magnets were optimised as per the latest magnet technology.

Optimised high-energy magnet system with low installation height.

As a support element for magnets. Can be used only in combination with the magnetic clamping plate SAV 243.77-55 and SAV 243.77-85.

As a support element for magnets. Can be used only in combination with the magnetic clamping plate SAV 243.78 and SAV 243.79.

This new model of round magnets uses new magnetic materials and develops an extremely high adhesion force.

Round magnets with ring pole pitch allows clamping of multiple workpieces outside the centre. The strong magnetic field is uniformly distributed across the pole plate.

For grinding of thin plates, wide rings with less thickness and minimum width of 40 mm

The shown carbon brush holders are used for power transmission to the collector ring in case of permanent, round electro-magnets. They are delivered in 3 sizes along with fastening bolts.

Collector rings are used in combination with carbon brush holders for supplying power to rotating permanent round electro-magnets.

Clamping towers, precision-milled

An interfering residual magnetisation may remain in steel and cast workpieces after processing.

For automatic demagnetisation on the assembly line with continuous plastic conveyor and a drive motor.

For demagnetisation of surface of large workpieces. Mobile usage.

The essential pressure can be built by turning the screw clockwise using an Allen key.

Angles are determined using the end dimensions according to the sine principle. A laterally installed fixing shear and the upper bearing shell halves are used for clamping.

Angles are determined using the end dimensions according to the sine principle. A laterally installed fixing shear and the upper bearing shells are used for clamping.

Angles are determined using the end dimensions according to the sine principle. A laterally installed fixing shear and the upper bearing shell halves are used for clamping.

For the grinding and measuring of precise workpieces in each angle position without re-clamping the parts.

Angles are determined using the end dimensions according to the sine principle. A laterally installed fixing shear and the upper bearing shells are used for clamping.

Angles are determined using the end dimensions according to the sine principle. The controllable magnet block is removable and can thus also be used without the sine table.

Angles are determined using the end dimensions according to the sine principle. The controllable magnet block is removable and can thus also be used without the sine table.

Owing to the extremely low installation height, these clamping magnets are preferably using in the handling area.

Owing to the permanent magnetic adhesion system that is effective in the power-less status of the device, these clamping magnets are preferably used when long adhesion times are required and an adhesion force is not required for a short time or occasionally.

Owing to the permanent magnetic adhesion system that is effective in the power-less status of the device, these clamping magnets are preferably used when long adhesion times are required and an adhesion force is not required for a short time or occasionally.

As a support plate for magnets with transverse pole pitch. Can be used only in combination with the magnetic clamping plate with the disc progression
in the same direction.

In combination with the magnetic clamping plate with the disc progression in the same direction for the processing of irregular
workpieces.

In combination with the magnetic clamping plate for the processing of irregular workpieces.

For profiling and processing of small workpieces such as stamps, etc. The clamping block MH 204 with finest pole pitch is recommended for clamping thin parts.

For parallel and angular grinding of small and medium-sized workpieces.

For workpieces that are difficult to clamp, e.g. ferrotic, hard metal with cobalt content, extremely small workpieces.

For workpieces that are difficult to clamp, e.g. ferrotic, hard metal with cobalt content, extremely small workpieces.

4 magnetic adhesion surfaces (top and bottom sides as well as 2 front surfaces) that can be switched on or off commonly.

2 magnetic contact surfaces that can be switched on or off commonly (large prism and opposite prism). Can be delivered individually (S) and in pairs (P).

2 magnetic contact surfaces that can be switched on or off commonly (large prism and opposite prism).

For precise setting of any angle between 0° and 45° on processing machines and for checking the parts as well as an extension of the setting range from 45° for sine tables.

Invaluable welding help for sheets, round and flat materials. For every desired angle.

Invaluable welding help for sheets, round and flat materials. For every desired angle.

As a welding and installation aid for framework processing at an angle of 45 degrees and 90 degrees.

As a welding aid for pipes, round material, flat and profile strips. For drilling fixtures as clamping aid.

For rational holding of welding parts at an angle of 90 degrees. Depending on the size, usage for small, lightweight parts to heavy sheets.

For devices, extracting devices, measurement tripods

Zylinderkurbelgehäuse

Motorbauteil für LKW 13l Hubraum Stahlguss

Zylinderkurbelgehäuse

Motorblock für PKW 3.2l Hubraum Stahlguss

Mechanische Spannvorrichtung für Nockenwelle

Hydraul. Spannvorrichtung für Getriebegehäuse OP10 / OP20

Hydraul. Spannvorrichtung für Gehängeaufnahme

Pneumatische Spannvorrichtung als Robotergreifer in Entgratzelle für Getriebegehäuse

Hydraulische Spannvorrichtung (OP20) mit Drehdurchführung (Anbindung zu BAZ)

Hydraulische Spannvorrichtung (OP30) mit Drehdurchführung (Anbindung zu BAZ)

Hydraulische Spannvorrichtung (OP40)

Hydraulische Spannvorrichtung (OP10/OP20)

Hydraulische Spannvorrichtung (OP20)

Hydraulische Spannvorrichtung (OP10)

Hydraulische Spannvorrichtung (OP10)

Hydraulische Spannvorrichtung (OP20)

Hydraulische 1-fach-Spannvorrichtung (OP10)

Hydraulische 1-fach-Spannvorrichtung (OP20)

Hydraulische 4-fach-Spannvorrichtung