The Power Clamping Screws are equipped with a wedge system as force amplifier. This innovative system allows for highest clamping forces with low actuation torques and simple manual operation. The robust design of all parts, the self-locking mechanism as well as a high overload capability guarantee maximum operational safety. The clamping screws have various application possibilities, mainly in presses, punches and machine tools, as well as in jigs, fixtures and similar devices.
The wedge Clamping Systems of the SC clamping screw is self-locking in each clamping position due to its geometry and offers a clamping stroke of up to 3 mm. This way, depending on the actuation torque, very high clamping forces up to the nominal clamping force can be achieved.
The release procedure is carried out in reverse order. By turning the operating hexagon to the left up to the fixed back stop (Fig. Al), the wedge slide moves back and the clamping mechanism is released. Coil springs push the pressure piece and the wedges back into the starting position.
to ensure the required clamping force is achieved and to protect the internal mechanism from damage, we recommend the use of a torque wrench for applying the actuation torque. Under certain conditions, clamping is also acceptable with a standard wrench or socket wrench.
the clamping screws are lubricated for life and maintenance free under normal operating conditions. A high temperature version of up to 400°C is possible.
After approximately two turns of the actuation hexagon the travel of the thrust piece will be blocked by an internal fixed stop and the torque wrench will disengage although the required clamping force has not been generated; the clamping operation has to be repeated. The clamping stroke state is indicated by the operating path "s". The maximum clamping position is reached when the lower cylindrical portion of the actuation hexagon is even with the top of the housing (Fig. A2).
Code Number | Out Dia - M | Total Len. - L | Piston Dia. - A | Len. | Spanner Size | Stroke | Input Torque KgM | Output Force in Ton | Weight in Kg. | |
---|---|---|---|---|---|---|---|---|---|---|
L 1 | SW - 1 | SW - 2 | S | |||||||
PS M030 0100 | M 030 x 2 | 60 | 15 | 41 | 7 | 24 | 0.9 | 4 | 8 | 0.35 |
PS M040 0100 | M 040 x 3 | 80 | 20 | 55 | 10 | 36 | 1.1 | 6 | 12 | 0.81 |
PS M060 0100 | M 060 x 3 | 120 | 30 | 85 | 14 | 55 | 1.5 | 8 | 15 | 2.70 |
PS M080 0100 | M 080 x 4 | 160 | 40 | 110 | 19 | 65 | 2.3 | 10 | 25 | 6.40 |
PS M100 0100 | M 100 x 6 | 200 | 50 | 140 | 19 | 65 | 2.6 | 12 | 35 | 12.5 |
PS M120 0100 | M 120 x 6 | 240 | 60 | 170 | 22 | 80 | 3.4 | 15 | 60 | 21.7 |
PS M160 0100 | M 160 x 8 | 320 | 80 | 225 | 22 | 80 | 4.6 | 18 | 80 | 51.5 |
PS M200 0100 | M 200 x 10 | 400 | 100 | 280 | 22 | 80 | 5.7 | 20 | 100 | 100.5 |