DE6925093U - CONTINUOUS SPEED SHIFTING COUPLING - Google Patents

Description

Constant velocity universal joint coupling

The innovation relates to a constant velocity sliding joint coupling, in particular for the drive in roll stands, one joint half of which has axially extending recesses evenly distributed over its circumference, each with two circumferentially overlapping raceways that lie on a common cylinder jacket, and the other joint half of one Star is formed with axles extending radially from a hub, on each of which a geleak body ^; is rotatably and displaceably mounted in the form of a central spherical section, which is received in the recess assigned to it with running play.

There are constant velocity universal joint clutches of these Kind has become known, one half of which has axially extending arms evenly distributed over the circumference, their side faces in each case, with the opposite side faces of the adjacent arms on "the jacket a cylinder parallel to the axis of the joint half lie. The arms are not supported at their free ends and are therefore in operation by the joint bodies

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transferred circumferential forces spread. The occurring Deformations limit there., Transmittable with the coupling Torque.

In other known constant velocity sliding joint couplings, those are intended for receiving the joint body Recesses in the form of a continuous cylinder jacket carved out of one half of the joint (German utility model 1 888 833, French patent specification 1 268 690). These known couplings have a very large outer diameter and a large weight.

The innovation! Is based on the task of a synchronized sliding joint coupling of the type mentioned to create, with which a higher torque can be transmitted can.

To solve this problem, according to the! d'jß each recess radially outwards through a flattened bridge of the one connecting the two raceways Joint half is limited.

With the invention, in particular, the advantage can be achieved that the strength of the recesses having Half of the joint is significantly increased compared to the coupling with the free-floating arms, so that with otherwise the same design a much higher torque can be transmitted.

The outer diameter is opposite to an otherwise identically designed coupling with a "closed joint half" significantly reduced. This also reduces the weight and thus the cost of materials.

According to a further development of the innovation, every career provided with a bonded or cast-in lining made of storage material.

The innovation and advantageous details of the innovation are illustrated in the following with the aid of schematic drawings an exemplary embodiment explained in more detail. Show it

Pig. 1 shows a longitudinal section through a constant velocity sliding joint coupling after the innovation and

Fig. 2 is a cross section along the line II-II in Pig.

The constant velocity universal joint coupling according to the Pig. 1

three and 2 has a joint half 1 with 7 on the inner circumference, respectively recesses 2 offset by 120 and a joint half 3, which are also offset by 120 ° from a hub 4 and three, .sich is formed radially in'die recesses 2 extending axles 5, on which the joint body 6 rotatable and longitudinally displaceable are stored. In each case a pair of opposite side surfaces 7 of a recess 2 lie on a common, parallel to the joint half 1 extending cylinder jacket. The side surfaces 7 of each recess 2 are each through a bridge 8 flattening the cylinder jacket. The bridges 8 form together with the between the recesses lying intermediate pieces "a cylindrical outer contour of the joint half 1.

The joint bodies 6 are curved spherically with the same radius as the cylinder jacket and are each received between two side surfaces 7. Because of this arrangement, the the two joint halves 1 and 3 are angularly movable and axially displaceable relative to one another.

At the free end of the joint half 1 is a ring 9 concentric with the joint half 1 on this by means of screws 10 attached. The ring 9 is turned off on its side facing away from the joint bodies 6 to a cylindrical Support surface 12 for the outer end of a rolling diaphragm 13 to form, attached to the hub 4 with its inner end is. One end of a cup-shaped cover plate 16 is attached to the ring 9 by means of screws 15, which acts as a dust protection for the outer end of the rolling diaphragm 13 is used.

From Fig. 2 it can be seen that serving as a raceway for the joint body 6 opposite side surfaces Linings 17 can be formed from stock material. These linings can be glued on or when pouring the Joint half 1 be cast. The raceways can, however, also be ground directly into the recesses.

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Claims (2)

Protection claims 1. Constant velocity joint coupling in particular for the drive in roll stands, one half of which is evenly distributed over its circumference, axially extending Has recesses each with two circumferentially opposite raceways on one common cylinder jacket lie, and the other joint half of a star with a hub radially extending axes is formed, on each of which a joint body in the form of a central spherical section rotatable and is displaceably mounted, which is received in the recess assigned to it with running play, thereby characterized in that each recess (2) radially outward by a connecting the two raceways Bridge (8) is limited with a significantly larger radius of curvature compared to the raceways. 2. constant velocity sliding joint coupling according to claim 1, characterized characterized in that each track (7) with a glued or cast lining (17) is provided from stock material. O UU (6.69) Dwt · * · * room «·«, «eorou 174