ELASTOMER COUPLING AND ASSOCIATED ROLL STABILIZER

Abstract

An elastomer coupling for an electromechanical actuator, having a drive part and a driven part, wherein either the drive part or the driven part has multiple radially outwardly extending webs arranged so as to be distributed about an axis of rotation, and the respective other part has radially inwardly extending webs arranged on the inner side of a tubular body, wherein a radially inwardly and a radially outwardly extending web engage into one another and form a pocket in which there is received an elastic molded body produced from an elastomer, wherein, in at least one pocket, there is received a spring element which generates a pretensioning force, which spring element is attached either to an inwardly extending or to an outwardly extending web and is spring-loaded against an adjacent web.

Claims

1. An elastomer coupling for an electromechanical actuator, comprising a drive part and a driven part, one of the drive part or the driven part has multiple webs that are arranged distributed about a rotational axis and extend radially outward and the other of the drive part or the driven part has webs that are arranged on an inner side of a tubular body and extend radially inward, radially inward extending ones of the webs and radially outward extending one of the webs engage with each other and form pockets in at least a respective one of which an elastic molded body produced from an elastomer is held, in at least one of the pockets, a spring element generating a pretensioning force is held that is attached to one of the radially inward or to one of the radially outward extending webs and is spring mounted against an adjacent one of the webs.

2. The elastomer coupling according to claim 1, wherein the spring element is spring-mounted against both of the adjacent webs.

3. The elastomer coupling according to claim 1, wherein the spring element is placed on one of the webs.

4. The elastomer coupling according to claim 3, wherein the web having the spring element has on a free end thereof a recess in which the spring element is held in a positive or non-positive locking connection.

5. The elastomer coupling according to claim 1, wherein the spring element has at least one convex curved part.

6. The elastomer coupling according to claim 1, wherein the spring element has a convex curved part and a concave curved part that transition continuously into each other.

7. The elastomer coupling according to claim 1, wherein the spring element, extends axially at least across one part of a length of the web on which it is arranged.

8. The elastomer coupling according to claim 1, wherein the spring element is produced from a spring steel material.

9. A roll stabilizer that is connectable to torsion bars of a split stabilizer and has an electromechanical actuator with a drive part and a driven part between which an elastomer coupling according to claim 1 is arranged.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0018] Additional advantages and details of the invention are explained below using embodiments with reference to the drawings. The drawings are schematic representations and show:

[0019] FIG. 1 a perspective view of a drive part with an outer star body of a conventional elastomer coupling,

[0020] FIG. 2 a perspective view of a driven part with an inner star body of a conventional elastomer coupling,

[0021] FIG. 3 a section view of the outer star body shown in FIG. 1,

[0022] FIG. 4 a section view of a first embodiment of an elastomer coupling according to the invention, and

[0023] FIG. 5 a section view of a second embodiment of an elastomer coupling according to the invention.

[0024] FIG. 4 is a section view of an elastomer coupling 7 whose basic construction corresponds to the conventional elastomer coupling shown in FIGS. 1 to 3. Therefore, detailed explanations for matching components will not be repeated.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0025] The elastomer coupling 7 comprises an outer star body 9 connected to a drive part and an inner star body 10 connected to a driven part. In the illustrated embodiment, the inner star body 10 has a total of five webs 11 that are distributed about the circumference and are each spaced apart from each other. However, modified designs are also conceivable in which, e.g., four or six webs distributed about the circumference are provided.

[0026] Between adjacent webs 11 of the inner star body 10, webs 12 of the outer star body 9 extend. Each web 12 has, on both sides, an elastic molded body 13, 14 produced from an elastomer by which a pocket 15 formed between a web 12 of the outer star body 9 and a web 11 of the inner star body 10 is filled up. The molded bodies 13, 14 are molded onto both sides of the webs 12. The molded bodies 13, 14 are made from an elastomer, for example, made from natural rubber, nitrile rubber, or HNBR, which exhibits a viscoelastic behavior. If the elastomer coupling 7 is loaded by a torsional moment generated from the outside, for example, driving over a roadway with unevenness, initially the elastic molded bodies 13, 14 are deformed until clearances are practically completely filled up in the pockets 15. Only for further increase in the torsional moment is this transmitted via the elastomer coupling 7.

[0027] Because the molded bodies 13, 14 can exhibit subsidence during the operating time, a web 16 of the outer star body 9 has a different construction than the webs 12. The web 16 has, on its free end, a recess 17 in which a spring element 18 is held. The spring element 18 has a symmetric shape with respect to an imaginary center line of the web 16 and has a U-shaped, bent middle section with which it is inserted into the recess 17 of the web 16 with a mirror-inverted form. Starting from the middle section, the spring element 18 has, on both sides, a convex curved part 19 that is spring mounted against the adjacent webs 11 of the inner star body 10. The free end 20 of the spring element 18 contacts the base 21 of the web 16. The spring element 18 generates a permanent pretensioning force between the inner star body 10 and the outer star body 9. If the elastomer coupling 7 is loaded during the operation by a torsional moment, the spring element 18 deforms elastically; when the torsional moment is no longer active, the spring element 18 moves back into its original position shown in FIG. 4. Even if the molded bodies 13, 14 settle during the service life, the spring element 18 guarantees that a pretensioning force is always present. In this way, undesired contacts between the webs 11, 12 are prevented, which otherwise could lead to acoustic emissions.

[0028] FIG. 5 is a section view and shows a second embodiment of an elastomer coupling 22 that is constructed basically like the elastomer coupling 7 shown in FIG. 4.

[0029] The elastomer coupling 22 has, in agreement with the preceding embodiment, the inner star body 10 with the webs 11 and the outer star body 9 with the webs 12 and the web 16.

[0030] On the web 16, a spring element 23 is placed that has a symmetric construction and has, starting from its middle section, a concave curved part 24 and a convex curved part 25 connecting continuously to the concave curved part. The outer curved parts 25 are spring mounted against the adjacent webs 11 of the inner star body 10. The spring element 23 shown in FIG. 5 can alternatively be used for the spring element 18 shown in FIG. 4. The two spring elements 18, 23 produced from a spring steel material extend in the axial direction along the web 16. The generated pretensioning can be influenced by a change of the shape, the thickness, and the length, as well as of the material being used.

LIST OF REFERENCE NUMBERS

[0031] 1 Drive part [0032] 2 Inner star body [0033] 3 Web [0034] 4 Molded body [0035] 5 Molded body [0036] 6 Driven part [0037] 7 Elastomer coupling [0038] 9 Outer star body [0039] 10 Inner star body [0040] 11 Web [0041] 12 Web [0042] 13 Molded body [0043] 14 Molded body [0044] 15 Pocket [0045] 16 Web [0046] 17 Recess [0047] 18 Spring element [0048] 19 Curved part [0049] 20 End [0050] 21 Foot [0051] 22 Elastomer coupling [0052] 23 Spring element [0053] 24 Curved part [0054] 25 Curved part