DE1775852U - DOUBLE JOINT MOUNTED ON ONE SIDE, IN PARTICULAR FOR PTO SHAFTS. - Google Patents

Description

"Double joint with bearings on one side, especially for cardan shafts The innovation relates to a double bearing on one side joint, especially the centering of the shaft ends Cardan shafts. Bs is known, then one end of the shaft with a joint ball provides # that in a cylindrical sleeve the other end of the shaft is held. It has also already been proposed that this joint ball be relocated from one that protrudes over the center of the ball and can be displaced in the end of the other drive shaft To enclose spherical cap * Here it is also known cushion this spherical cap in the axial direction of the drive shaft.

However, the known designs have the disadvantage that when used from steel bushings these knock out with a relatively short running time and then cause the shaft to run noisily. The hammering of the centering ball against the thin socket wall soon leads to the failure of the socket.

If you use a sprung spherical cap, you will achieve a significant improvement. Here, however, occurs The disadvantage is that the compression springs are relatively short Runtime can break, which is due to overstressing the springs.

In order to avoid these disadvantages, it is proposed according to the innovation, between the spherical shell, which is preferably made of plastic, and the shaft end to arrange a rubber spring stressed in shear. This version has the advantage that a great durability can be achieved. The manufacture of such centering devices is also possible simple and therefore cheap.

In practice, for. B. the spherical shell on their Rear side can be provided with a pin around which the rubber spring is arranged. On the outside, this rubber spring can advantageously be surrounded by a metal sleeve. These The spring can be vulcanized onto the spigot of the spherical shell so that it comes with this bearing represents a ready-to-install, replaceable element. The ring-shaped The rubber spring can also be pushed onto the pin of the ball socket on the inside Be provided sleeve.

Finally, you can replace the ring-shaped rubber spring with a metal one Subdivide the intermediate ring, creating a progressive characteristic curve for the spring will.

Several embodiments of double joints are shown in the drawing shown according to the innovation, namely Fig. 1a and 1b show an embodiment in two different positions of the joint and FIGS. 2 and 3 modifications of the joint.

The end 1 of a cardan shaft is provided in a manner known per se with a ball 2 which is received by a ball socket 3 made of plastic. This ball socket is located in a cylindrical bore 4 of the end 5 of a cardan shaft. Between this spherical shell 3 and the shaft end is according to Innovation arranged a rubber spring 6 subjected to shear stress, the eyes can be surrounded by a metal sleeve 7. the Ball socket 3 is equipped with a pin 8 that is inserted into the Enne: üe the rubber or 6 protrudes and together with this can be canized. Fig. 1b shows the position of the two waves in an axial direction, while in Fig. 1a it is shown how the rubber spring 6 deforms when the joint deflects.

In the embodiment according to FIG. 2, the rubber spring 6 is also in the inner bore provided with a metal sleeve 9, this sleeve being pushed onto the pin 8 is.

According to Fig. 3, the rubber spring consists of two concentric rings 6a and 6b assembled, with a metal intermediate ring between these rubber rings 10 is provided. This achieves a significantly steeper characteristic curve for the spring 6. Incidentally, the joint ball 2 is also in this embodiment Spherical shell, stored.

Claims (5)

Protection claims: 1. Double joint mounted on one side, in particular for cardan shafts, characterized in that between the preferably made of plastic manufactured spherical shell (3) and the shaft end (5) a rubber spring stressed in shear (6) is arranged. 2. Double joint according to claim 1, characterized in that the Ball socket (3) is provided with a pin (8) around which the rubber spring (6) is arranged is. 3. Double joint according to claim 1 and 2, characterized in that the rubber spring (6) is surrounded on the outside by a metal sleeve (7). 4. Double joint according to claim 1 to 3, characterized in that the ring-shaped rubber spring (6) inside with one on the pin (8) of the spherical shell (3) sliding sleeve (9) is provided. 5. Double joint according to claim 1 to 4, characterized in that the annular rubber spring is divided by a metal intermediate ring (10).