DE431242C - Driver coupling for eccentric presses u. like - Google Patents

Description

Driver coupling for eccentric presses and the like. or crank presses and the like known to couple shafts by resilient drivers, which are each controlled by a thrust surface of a rotatable ring, which is resilient is mounted on one shaft. The thrust surface is due to radial Position of the driver on the inner cylinder surface facing the shaft of the Ring.

The invention described below assigns the thrust surface as one end face of the ring, so that the one controlled by it serves as a driver Coupling element is to be guided axially instead of radially. The axial guide has opposite the radial one is known to have the advantage that one of the coupling halves is not the other .to enclose.

It is true that it has already been proposed "order, a sloping face to move in a circular path so that they are every time you complete one revolution an axially displaceable coupling element disengages. According to this proposal, however, must furthermore the end face can be turned further by hand in order to re-engage the clutch, while the new arrangement when a stop is disengaged, so does its arrangement is known, the coupling element engages automatically.

The invention is illustrated by the drawing. Fig. I shows a longitudinal section in the uncoupled state, Fig.2 a cross section according to AB in Fig. I; Fig. 3 is a bottom view of Fig. I with the housing partially removed, Fig. D. a same view with the coupled state; Figures 5 and 6 are diagrams of individual parts; Fig. 7 shows an undercut according to CD in Fig. R. The drive pulley i, which can be designed as a flywheel, sits loosely on the shaft 2. In a longitudinal groove 3 of the shaft 2 there is a slider 4 which, by engaging with a driving pin 5 of the hub of the wheel i, connects it to the Coupling shaft 2. The ends of the parts d., 5 facing one another can be offset for this purpose in the manner shown in FIGS. 3, d., 6, so that they are supported against one another with one shoulder 6 each. Instead of just one bolt 5, several can be present. The slider .4 has an inclined plane 7 which fits on an inclined plane 8 of a ring 9. This is rotatably seated in a housing io carried by the shaft 2, namely in a recess of an end face of the same, in which it is secured by holder ii. A tension spring 12 is fastened on the one hand to a peg 13 of the ring 9 and, on the other hand, to a peg 14 of the shaft 2. The ring 9 has a thumb 15 which cooperates with a stop 16. This belongs to a pedal rod that is not shown any further.

The slider q., Which is guided in the groove 3 of the shaft 2, is seated at the same time in a groove 17 of the housing io (Fig. 1, 7) and is under the effect a compression spring 18 which lies in a recess i9 of the slider and which rests against a rib 2o of the housing io (Fig. i). The housing io has a sector-shaped shape Recess 21 into which the thumb 15 of the ring 9 protrudes. At one end of this A stop 22 for the thumb 15 is located in the recess.

When the device is in the uncoupled state, the springs 12, 18 are tensioned.

If the stop 16 is made by means of the pedal rod (not shown) moved in the direction of arrow a (Fig. i, 2, 5) and held in this position, so the ring g rotates under the action of the tension spring 12 in the direction of the arrow b (Fig. 2, 3, 5) until the thumb 15 hits the stop 22 of the housing io. The position in which the ring 9 arrives is indicated in Fig. 2 by dotted lines and indicated in Fig. 4 with full lines. The inclined plane 8 of the ring 9 slides in the direction of arrow b past the inclined plane 7 of the slider, «-elche remains permanently in contact with 8 under the action of the spring i8, so that d. in the Direction of arrow c (Fig. 1, 3, 5) is moved and thereby in the path of movement of the driving pin 5 comes. The arrow b indicates at the same time, as Fig. 6 indicates, the Direction of rotation of the wheel i and therefore of the bolt 5. This runs around in a circle the axis of the shaft 2 as long as the wheel i is driven. The bolt 5 takes as soon as its shoulder 6 against the same shoulder of the slider d. meets this with. The slider in turn takes the shaft 2 and the housing i o with it, as shown in Fig. 7 follows. The shaft 2 thus carries out the desired rotation, i. H. the machine is working, as long as the parts d., 5 interlock. On the rotation of the shaft 2 and the housing io participates in the ring 9, which with its thumb 15 on the stop 22 of the housing io is and of the slider acting on the inclined plane 8 .l. taken away will.

If the machine is to be stopped, the pedal rod is used free, so that the stop 16 comes into the movement path of the thumb 15. The attack 16 holds the thumb 15 as soon as it hits against him, and thus the ring 9 in the by the position shown in Fig. 1, 2, 3, 5, while the shaft: 2 and the housing By virtue of their living power, let them run a little further, so that the inclined plane 7 of the slider d. slides back up on inclined plane 8 while tensioning spring i8, until shaft 2 and housing also remain in the position shown. this will supported by the eccentricity of part of the shown in Fig. i and 7 Housing ok As a result of the further running of the shaft 2 with respect to the rings 9 is also the spring 12 is tensioned again so that the device is ready for coupling again. -The Spring 12 can be located inside the housing and then appropriately engages the the end face of the ring 9 facing the wheel i.

Claims (1)

PATrN T-AN SPrucH. Driver coupling for eccentric presses and the like, in which a resilient coupling member by means of a thrust surface by means of a stop influenced, controlled on the press shaft rotatable and resiliently mounted ring is, characterized in that the thrust surface has a known inclined face (8; of the ring (9) and accordingly the coupling member (.4) axially displaceable is arranged.