DE1301674B - Hub fastening with a helical spring between shaft and hub, the spring having an angled anchoring part - Google Patents

Description

The invention relates to a hub attachment with a helical Spring between shaft and hub, the spring having an angled anchoring part has with the features that the spring is in contact in a known manner Windings are arranged and stored in round grooves, the radius of which is greater than the spring wire radius and that at the end opposite the anchoring part the spring in a known manner a stop screw on the shaft for tensioning and is provided for releasing the spring.

In a known design of a hub attachment are used for frictional engagement Connecting a hub with a shaft two interconnected coil springs, which can lie one on top of the other, or can be wound into one another can lie next to each other.

The springs connected in the middle or at one end, the cross-section of which can also decrease towards the free end, but are designed in this way and guided between the hub and the shaft that the individual turns in the Basic position have no contact with each other. It is therefore with this older one Proposal there is no control over the individual turns of the springs when clamping the parts, they are evenly connected to each other and to the other parts will.

According to another suggestion of a hub attachment, the Coils of the spring close together and there are both ends of the spring as anchoring parts educated. Here, however, the two parts are braced together continuously from one spring coil to the other, so that only at the end of the tensioning process the full effectiveness is achieved. This is a starting hub connection, which allows a connection under load, preventing the occurrence of shocks is.

The hub fastening stands out in comparison to these known designs according to the invention in that the spring, which in a known manner in is arranged touching turns and stored in round grooves of a socket whose radius is larger than the spring wire radius. Through this training will achieves that the turns of the spring are flowing during the manufacture of the hub attachment be widened over the entire winding length, and thus the merger of the Bring about parts. The hub connection is in the still-; stand manufactured. It is maintained for the duration of the operation. An otherwise familiar stop screw at the end of the spring opposite the anchoring part is used for loosening and tensioning the spring. The new training; education is in the effect of that Direction of rotation independent.

The spring is pressed against the wall of the part to be coupled, and if the stop screw continues to rotate, it is axially displaced another axial pressure is exerted on the axis of the spring and the shafts. So that will a power shot produced, which the spring coil stronger depending on the direction of rotation pushes against the outer or inner wall and a slip-free entrainment in both Direction of rotation guaranteed. The tension of the spring increases as it increases Power decrease in both directions of rotation. The new training is below Hand of the embodiments shown in the drawing explained in more detail. It shows F i g. 1 shows a first embodiment in axial section, FIG. 2 is a plan view on the spring and the bush with the stop screw, F i g. 3 is a plan view on the pen, F i g. 4 shows a second embodiment in axial section, FIG. 5 a Top view of the spring according to FIG. 4 and FIG. 6, a partial section in a larger one Scale.

In the embodiment according to FIGS. 1 to 3 and 6 is the Bore 1 about a pulley 2 on one end face with a radial groove 3 provided. This serves to accommodate the radially bent end 4 of a clock spring 9. The disk 2 is seated in the exemplary embodiment according to FIGS. 1 to 3 and 6 on a shaft 5, with a bushing 8 still inserted in the bore 1 of the disk 2 is. The socket 8 has thread-like round grooves 14 on the circumference to which a normal Thread 7 connects. The round grooves 14 have a slope of the spring 9 corresponding Slope, but a larger radius than the spring wire. On the thread 7 of the socket 8, a ring nut 10 or a flange nut 11 is screwed on and up to the stop 12 or 13 rotated onto the socket 8. With the ring nut 10 or the flange nut 11, the bush 8 is rotated into the clock spring 9. If after mounting the mother 10 or 11 is rotated further on the end face 12 or 13 of the socket 8, then a rotational movement of the clock spring 9 occurs continuously over all of them due to the friction Turns. Since the last turn of the spring 9 by the bent end 4 against rotation is secured, the clock spring 9 is expanded during this process and lies down firmly against the wall of the bore 1. The flanks 14 rise on the turns the spring 9 in the direction of the ring nut 10 or the flange nut 11. This is the frictional connection between the coil spring 9 and the wall of the bore 1 is brought about.

This wedging of the coil spring 9 is a rotational movement between the bush 8 and the disc 2 effectively prevented in both directions of rotation.

The hub fastening produced is loosened by loosening it the flange nut 10 or the ring nut 11, whereby the clock spring 9 is relaxed.

In the modification according to FIGS. 4 and 5 are used for the new hub attachment for fixing two plates 15 and 16 against each other. Here is a core 17 with thread-like Provided grooves 14 and has at one end 18 a threaded hole 19, the one Tensioning screw 20 receives. The core 17 carries the clock spring 9. To produce this When fastening the hub, the screw 20 is turned into the core 17 as far as the stop 21 and with this together in the clock spring 9, the last thread turn to one The locking hook 22 is bent open. The way of working is otherwise the same as that according to the embodiment in FIGS. 1 to 3 and 6.

The socket 8 has at least one further longitudinal slot 8 '(FIG. 2). The spring 9 can be flattened on the circumference.

Claims (3)

Claims: 1. Hub attachment with a helical spring between shaft and hub, whereby the spring has an angled anchoring part, d a -characterized in that the spring (9) in a known manner in itself contacting turns is arranged that the spring is mounted in round grooves (14) whose radius is greater than the spring wire radius and that on the anchoring part opposite end of the spring (9) in a known manner a stop screw (10, 11) on the shaft (5, 8 and 17) for tensioning and releasing the spring (9) is. 2. Hub attachment according to claim 1, characterized in that the spring (9) is flattened on the circumference. 3. hub attachment according to claim 1 and 2, characterized characterized in that the socket (8) has a plurality of longitudinal slots (8 ').