CS244556B1 - Power-controlled clutch - Google Patents

Description

The object of the invention is a power-controlled jaw balancing chuck.

The prior art stapler solutions alleviate the adverse effect of the centrifugal forces of the jaws at high speeds, either by increasing the caudic clamping forces or by using a counterweight. The increase of the caudic clamping forces causes considerable problems when machining thin-walled workpieces at high speeds. In balancing with a counterweight, by means of a lever, the chuck body is retracted by the centrifugal force of the counterweight and counterweight. At the point of contact of the lever and the body of the inverter, considerable high specific pressures occur, which limit the maximum permissible speed of the inverter.

The above drawbacks are alleviated by the power-actuated structure of the invention, wherein the liner is connected to the body and its contact surface has a radius of curvature and the contact surface of the lever has a radius of curvature, the ratio of radii of curvature at the contact point being 0.5 to 1. , fifth

The chuck according to the invention makes it possible to maintain constant clamping forces at high speeds, which also enables the clamping of thin-walled workpieces.

The accompanying drawings show an example of the construction of a power-controlled chuck where, in FIG. 1 is an axial section of the chuck and FIG. 2 shows a lever and an insert.

The power-operated chuck consists of the following main parts: body 10, jaw 20, lever 30, insert 40, counterweight 50, jaw control body 60.

The jaw actuator body 60 is guided in the body 10 and engages the jaws 20 which are radially guided in the body 10. The jaw actuator body 60 is connected to the draw tube 75 in a conventional manner. The body 10 is connected to the spindle 70 by screws 66. The counterweight 50 has a radial guide 11 formed in the body 10. An axial recess 12 is formed in the body 10 for receiving the lever 30 and the insert 40. The insert 40 is firmly connected to the body 10 by screws 42. the blind hole 51 for the lever 30 is formed in the counterweight 50. The body 10 and the counterweight 50 are not divided. The insert 40 has a contact surface 41 having a radius of curvature RV and the surface of the insert 40 is hardened.

The lever 30 has a contact surface 31 having a radius of curvature Rp and the surface of the lever 30 is hardened. The ratio of the radii of curvature RV / / Rp is 1.1. A safety recess 13 is formed in the body 10, to which the safety protrusion 21 at the jaw 20 corresponds in shape and dimension. At the jaw 20 a recess 22 for the lever 30 is formed. A flexible lever positioning member 80 is attached to the jaw 20. plateau area 23.

The power-controlled de-energizer according to the invention makes it possible to increase the maximum permissible speed of the de-energizer. A further advantage is that the clamping force of the jaws at the speed remains at the level of the critical clamping force over the entire speed range.

Claims (3)

A power-operated chuck comprising a body, a jaw radially guided in the body, a jaw control body engaged with at least one jaw, the jaw being engaged with the counterweight, by means of a lever and an insert, characterized in that the insert (40) ) is connected to the body (10) and its contact surface (41) has a radius of curvature Rv and the contact surface (31) of the lever (30) has a radius of curvature Rp, the ratio of the radii of curvature at their contact is 0.5 to 1.5 . Power-operated stage chuck 1, characterized in that the body (10) is in one piece and the jaw (20) has a radial recess (22) with a bearing surface (23) for the lever (30). 3. A power controlled chuck according to claim 1, wherein the lever (30) engages a resilient positioning member (80) disposed in the jaw (20).