DE1200079B - Rotating wedge coupling - Google Patents

Description

Rotary Wedge Coupling The invention relates to a rotary wedge coupling with a switch-off lever connected to the rotary wedge and a frame-mounted, in the orbit of the switch-off lever pivotable stop at which the switch-off lever in the switched-off position on an approximately tangential contact surface of the The coupling half to which it is connected lies snugly.

The known designs of such rotary wedge couplings have the Disadvantage that the impact occurring when the clutch is stopped on the bearing pin of the rotating wedge is transmitted. These stresses lead to premature wear the force-transmitting surfaces and in particular the rotary wedge bearing and thus to premature uselessness of the entire coupling.

In order to eliminate this disadvantage, according to the invention, the cooperating Stop surfaces of the stop and the switch-off lever approximately parallel to the in the Switch-off position adjacent surfaces run and face them. This ensures that the shock that occurs when the clutch is stopped is not transferred to the bearing journal of the rotary wedge, but the switch-off lever between the parallel faces of the rotating wedge in the switched-off position Coupling half and the pivotable stop is clamped so to speak, so that the stop impact directly radially on the shaft, but not on the rotary wedge bearing is supported. The stress on the rotary wedge bearing avoided in this way is for the low wear of the coupling and its long service life are important.

The invention is explained using an exemplary embodiment. In the drawing shows A b b. 1 is a view of the rotary wedge coupling according to the invention, A b b. 2 shows a section through the coupling along the line II-II in A b b. 1.

A continuously rotating drive pulley 6 is mounted on the shaft 5 to be driven, namely on two collars 7 and 8 (A b b. 2) with bearing bushes 9. The collars are connected to the shaft 5 by tongue and groove 10. The collar ring 7 rests axially on a collar 11 of the shaft 5.

A coupling half 12 designed as a ratchet wheel is provided between the collar rings 7 and 8 and is connected to the drive disk 6 by tongue and groove 13. This ratchet wheel shows how A b b. 1 shows saw teeth 14, in which a rotary wedge 15 can engage, which is pivotable about a bearing pin 16, in such a way that it either rests force-transmitting with its end face 17 on a tooth flank 18 of the ratchet wheel or is pivoted into its disengaged position, as in A b b. 1 shown in dashed lines, its back surface 20 resting against a flattened portion 20 ′ of the shaft 5. In the section in which the rotary wedge 15 is arranged, the shaft 5 forms the other coupling half of the rotary wedge coupling consisting of the ratchet wheel 12, the rotary wedge 15 and the shaft 5 with a flat 20 '. At the free end of the journal 16, a switch-off lever 21 is provided, which is under the action of a spring 22 which tries to pivot the rotary wedge into the coupling position.

A stop 23 can be pivoted about a pin 28 which is fixedly mounted on a bearing block 27. This stop 23 can be pivoted into the orbit of the switch-off lever 21 and has a switch-off surface 24 (A b b. 1). This switch-off surface 24 is followed by a stop surface 25 serving to shut down the shaft 5 in the direction of travel of the clutch, with a circular arc surface 26 concentric to the coupling axis of rotation 19 lying between the surfaces 24 and 25. The stop surfaces 25 and 25 'run parallel to the contact surfaces 20' and 20 ".

The mode of operation is such that the rotary wedge 15 which is in engagement on the ratchet wheel 12 is switched off, ie is disengaged, when the switch-off lever 21 hits the switch-off surface 24 of the stop. While the shaft 5 continues to run due to its kinetic energy, the switch-off lever slides along with its edge touching the circular arc surface 26 and finally comes to rest with its stop surface 25 ' on the stop surface 25 of the stop 23 , whereby the shaft 5 is stopped.

Claims (2)

Claims: 1. Rotary wedge coupling with one connected to the rotary wedge Switch-off lever and a frame-mounted, into the orbit of the switch-off lever pivotable stop where the switch-off lever is in the switch-off position an approximately tangential contact surface of the coupling half, with which he is connected, fits snugly, characterized in that the interacting Stop surfaces (25, 25 ') of the stop (23) and the switch-off lever (21) approximately parallel to the surfaces (20 and 20 ') which lie against one another in the switched-off position and face them. 2. Coupling according to claim 1, characterized by one of the stop surface (25) on the stop (23) upstream in the coupling direction, concentric to the coupling axis of rotation (19) circular arc surface (26) which is preceded by a switch-off surface (24) so that the switch-off lever (21 ) when it hits the switch-off surface and with it the rotary wedge (15) are brought into the switch-off position, in which the back surface (20) of the rotary wedge comes to rest on the contact surface (20 ') and in this position the switch-off lever (23) the circular arc surface slides until its stop surface (25 ') comes to rest on the stop surface (25). Documents considered: German Patent No. 724 792; USA: Patent Nos. 946 702, 1481444, 1501422, 2014234.