Proven power clamping nut

With the MCA power clamping nut from JAKOB Antriebstechnik, the user has at his disposal a long-proven, widely used and economical clamping element. Without additional installation effort, this clamping technology can ensure the highest clamping forces and maximum operational reliability – and is easy to operate manually. For this only a wrench SW 17 is required. Nevertheless, it is recommended to use a torque wrench to set exact, reproducible tightening torques. The special inner life, an integrated planetary gear mechanics, multiplies the manual tightening torque.

Their durability has been proven on a specially designed test bench. They were subjected to a continuous load of 10,000 load changes and were able to confirm all expectations.

The power clamping nut MCA is based on the predecessor model MC. Externally, the changed design and the reduced external dimensions are striking first. But also in the inner life a lot has changed. The bearing of the planetary gears is now accomplished by stable claws instead of bolts. This made room for significantly larger screw threads and increased the performance range by up to 100%. The material made of tempered steel and the surface coating that protects against corrosion guarantee a long service life of the clamping elements. The tightness of the drive mechanism and splash protection could also be increased. The MCA mechanical clamping nut is maintenance-free under normal operating conditions and can be used in special versions up to 400°C.

The power clamping nuts are used in all areas of mechanical engineering where large clamping forces are required. For example, the economic clamping of press and punching tools or workpiece clamping during machining. But also in steel and jig construction there are universal application areas.

The series MCA is available with clamping screws from M12 to M64 and with clamping forces up to 200 KN in the standard program.

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Motor Spindle Safety System MS³

The most common accidents involving the use of machine tools include spindle crashes. Common causes include programming errors, incorrectly defined tools, disregarded interference contours, or unintentional high-speed operation. The forces involved are so enormous that components of the motor spindle, ceramic spindle bearings, shafts, encoders, clamping system and the entire machine geometry can be affected or even completely destroyed. A case study from RWTH Aachen shows that repair costs after a crash in the amount of five-digit euro amounts are not uncommon. Collision avoidance systems for machine tools minimize damage and reduce downtime and repair costs in the event of a collision. Nevertheless, only very few machine tools have a spindle collision protection at all. This is usually based on compression elements that act like a car bumper and are completely destroyed in the event of a crash.

Although the spindle components remain intact, downtime still occurs. The motor spindle protection system MS³ from JAKOB Antriebstechnik GmbH detects collisions by means of several sensors and reports them electronically to the machine control. This can bring the feed axes of the machine tool to a halt with measures such as braking and reversing the drives. But beyond that, the motor spindle protection system can immediately interrupt the power flow at the interface between the spindle box and the motor spindle by means of 3D deflection in the event of a collision-induced overload, even before the electronic emergency stop, mechanically and energy-autonomously.

This effective combination of mechanical protection system and active electronic sensor monitoring makes the system superior to purely electronic collision avoidance systems and effectively protects the shock-sensitive components of the motor spindle from the high force peaks of the collision. The resulting kinetic energy of the crash intercepts a built-in shock absorber. The difference is made by a double flange system with built-in permanent magnets. They can guarantee the required high holding forces and rigidity. During the disengaging process, compression springs guide the motor spindle and then return it to its original position. The downtime is limited to the exchange of tools, additional external service is no longer needed. The system is energy self-sufficient, maintenance-free and adaptable to all common motor spindle geometries.

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