DE2714029B1 - Hub fastening by means of a locking ring - Google Patents

Description

It is possible to increase the axial securing, the shaft 7 in known way to be provided with an entrance. The circlips 3 and 5 are designed according to DIN 471, but of course other expansion rings can also be used Find. It is important that the clamping force is in the direction of rotation when a force is transmitted is reinforced.

Claims (1)

Claim: hub fastening against axial and rotary movements, in particular of gears, control buttons, etc., by means of a detachable, radial resilient locking ring, characterized in that the axis or shaft (7) frictionally looping locking ring (3, 5) according to DIN 471 sheet 1 and with the flanks of its two stop lugs (15, 17) facing away from each other against a stop (23, 25) on the hub (1). State of the art Indirect expansion joints are used in precision equipment construction diverse application. A large number of different spreading agents are used to the position of shafts or axles in the frame or on the shafts Secure components against axial displacement. Compared to these axial locks the mounting in the direction of rotation still requires considerable effort requires in addition to the special design of the shafts or axles suitably shaped cavities in the push button to accommodate mostly complex spring elements. By DE-AS 17 72426 the rotary attachment according to the preamble of the claim has been simplified in that a locking washer in the push button has been embedded in accordance with DIN 6799 But here too the shaft or axle end must still be processed and trained accordingly. It is also not possible with this attachment to have multiple gears to be arranged in the middle of a longer shaft According to DIN 471, resilient circlips are required known that engage positively in grooves of shafts. This will be the shafts themselves or axially secured on these supported hubs. According to DE-PS 601 970 rotating parts (hubs) with a shaft Via a helical spring wound onto the shaft with ends in the hub due to friction secured against rotation with respect to the shaft also a fixation in the axial direction, however, is an exact axial securing not given in this known arrangement, since the spring ends with play in the Recesses of the hub lie. This play of the spring ends is required to achieve a to achieve sufficient frictional force between the spring and the shaft. An additional Reinforcement of the positive connection between the spring and the shaft would be only possible if the two ends of the spring are relative to each other in a radial direction could move. This would have at least one end of the spring with a lot of play in the hub Must be stored So is the friction craft between the spring and the shaft approximately constant, since one end of the spring is always in the closing direction in any direction of rotation and the other end is biased in the opening direction. Object and solution The invention is based on the object of providing a Manufacture hub fastening without additional machining of the shafts or axles. The solution according to the invention is the free one pointing in the direction of rotation End additionally pressed against the circumferential surface of the axle or shaft, so that the frictional connection is reinforced. Advantages The particular advantage of the hub fastening according to the invention is that hardened shafts or axles can also be used. With the The subject of the claim is a particularly simple and inexpensive attachment possible, which is particularly suitable for gears made of plastic Da when the force is transmitted in the direction of rotation, the clamping force is increased relatively high torques can also be transmitted. Explanation of the invention The invention is based on an exemplary embodiment explained in more detail in the figures. It shows F i g. 1 a diagrammatic representation, F i g. 2 is a plan view and FIG. 3 shows a section through the subject matter of the invention. In the exemplary embodiment, the force transmission member is the hub a gear, which is in particular a plastic injection-molded part. The hub can of course also be a control button or any power-transmitting rotary part. That Plastic gear 1 according to FIG. list by means of two retaining rings 3, 5 against Axial movement secured on a hardened shaft In the assembled state the locking ring 3 in a recess 9 of the gear. The free ends 11, 13 of the securing ring 3 wrapping around the shaft 7 in a non-positive manner have stop lugs 15, 17, which contain recesses 19, 21 for an assembly tool. These Stop lugs 15, 17 engage positively in a slot 27 and lie in the Idle state on the side flanks 23, 25 of this slot serving as stops 27 at. Takes place in accordance with FIG. 2 a power transmission in the direction of rotation 29, then can the side flank 25 lift very minimally from the stop nose 17, while the nose 15 is pressed by the side flank 25 against the circumferential surface 31 of the shaft 7. This creates the non-positive connection between the locking ring 3 and the shaft 7 reinforced, so that relatively high torques in the simplest way can be transferred. The F i g. 3 shows the assembly process, with the locking ring first 3 is placed on the shaft 7. The gear 1 is then placed on the shaft 7 and pushed in the direction of arrow 33 until the locking ring 3 is in the recess 9 comes to rest Finally, the second locking ring 5 is on the shaft 7 placed to secure the gear 1 against axial movement.