DE102014202829A1 - Roll stabilizer for a motor vehicle - Google Patents

Abstract

A roll stabilizer for a motor vehicle having a divided anti-roll bar (2) between which two stabilizer parts (3), (4) an actuator (1) is effectively arranged, comprising a housing (5) and one in the housing (5) Motor, as well as a connected to the motor reduction gear (7) whose rotatably on the one stabilizer part (4) arranged output shaft (6) on the housing (5) via a rolling bearing is rotatably mounted, roll its rolling elements on raceways, wherein a biasing member (16) is provided for biasing the rolling bearing.

Description

The present invention relates to a roll stabilizer for a motor vehicle. Such roll stabilizers serve the purpose of counteracting a rolling of the vehicle body when cornering.

From the DE 10 2009 006 385 A1 For example, a roll stabilizer has become known according to the features of the preamble of claim 1. On the output shaft of the reduction gear of the roll stabilizer, an inner ring of a double-row angular contact ball bearing is arranged. A screwed onto the output shaft union nut sets the inner ring on the output shaft in axial directions characterized in that the inner ring is clamped axially on the one hand between a stop formed on the output shaft and on the other hand, a stop surface of the nut.

The position of the stopper on the output shaft must be tightly tolerated in the axial directions for the double row angular contact ball bearing to be properly adjusted.

Object of the present invention was to provide a roll stabilizer according to the features of the preamble of claim 1, which is easy to manufacture.

According to the invention this object is achieved by the roll stabilizer according to claim 1. The roll stabilizer according to the invention has a divided anti-roll bar, between the two of which formed as a torsion bar stabilizer parts an actuator is effectively arranged. The actuator has a housing in which a motor and a reduction gear connected to the motor are arranged. An output shaft of the reduction gear is rotatably disposed on the one stabilizer part and rotatably supported by a rolling bearing on the housing. Rolling elements of the rolling bearing roll on raceways. Characterized in that a biasing element is provided for biasing the roller bearing, it is ensured that the rolling bearing is arranged without play in the load-free state. Disturbing noises, such as those that can occur in a play-related roller bearing, are avoided. The output shaft may be formed in one piece, but also in several parts of several firmly interconnected parts. For example, in the case of a double row angular contact ball bearing, a radially inner ball groove may be integrally formed on the output shaft. Alternatively, an inner ring having the ball groove may be arranged on the output shaft.

According to a preferred embodiment of the invention, the rolling bearing is provided with an axially displaceably arranged bearing ring having a raceway for the rolling elements. In the axial direction of the anti-roll bar, the bearing ring is acted upon axially by the biasing element. Accordingly, a biasing force is exerted on the displaceably arranged bearing ring, which ensures a backlash of the bearing.

The biasing member advantageously has a screwed onto the output shaft nut and a spring element, which is arranged between the union nut and an inner ring formed by the bearing ring effectively. The spring element can be formed, for example, by a rubber ring arranged coaxially on the union nut or by a plate spring or by a corrugated spring. This spring element is supported on the one hand on the union nut and on the other hand spring-loaded against the inner ring. The spring element can also be formed of a plurality of distributed over the circumference of the union nut arranged isolated springs.

The rolling bearing is conveniently formed by a double-row angular contact ball bearing whose inner ring is provided with a ball groove for balls and axially displaceable on the output shaft for adjusting a bias of the angular contact ball bearing is arranged. The biasing force can be determined by a suitable selection of the spring element.

The union nut can be fixed properly on the output shaft, that on the output shaft a stop for the union nut is provided, against which the union nut can be screwed. This stop serves on the one hand to set the union nut on the output shaft and on the other hand serves a defined axial position of the union nut on the output shaft, so that a defined biasing force can be exerted on the spring element.

The union nut may have on its end face facing the stop a receiving space in which the spring element is arranged. This receiving space may be arranged annularly around the union nut, wherein the spring element may be arranged in the receiving space.

The union nut may be provided on its stop facing this stop with a first stop surface for abutment against the stop, wherein the receiving space is arranged radially outside the stop surface. This arrangement of the receiving space allows a structurally simple embodiment of the output shaft: The output shaft may be provided with a smaller diameter shell portion on which the union nut is screwed; the Union nut may be axially adjacent to this smaller portion provided with a larger diameter portion, on which the inner ring is arranged. On its axial side facing the smaller diameter section, the larger-diameter section may be provided with the abutment surface for the union nut. Characterized in that the receiving space is arranged radially outside the first stop surface, it is ensured that the arranged in this receiving space spring element can be properly sprung against the inner ring.

Conveniently, the union nut may be provided with a second stop surface for the inner ring. The receiving space may in this case be arranged radially between the first stop surface and the second stop surface. While the first stop surface is arranged for abutment against the stop of the output shaft, the second stop surface is provided for abutment of the inner ring, if the inner ring is pressed by overcoming the spring force of the spring element in the direction of the nut.

The invention will be explained in more detail with reference to an embodiment shown in two figures. Show it:

1 a roll stabilizer according to the invention in a schematic representation and

2 an enlarged detail of this roll stabilizer.

1 shows a schematic representation of a roll stabilizer with an actuator 1 that is connected to a shared anti-roll bar 2 connected. The stabilizer bar 2 has two stabilizer parts 3 . 4 on, which is a stabilizer part 3 stator side to a housing 5 of the actuator 1 is connected and where the stabilizer part 4 rotatably with an output shaft 6 (please refer 2 ) connected is.

2 shows in longitudinal section an enlarged detail of the actuator 1 , A not further shown reduction gear 7 of the actuator 1 is with the output shaft 6 Mistake. The output shaft 6 is about a double row angular contact ball bearing 8th in O-arrangement on the housing 5 of the actuator 1 rotatably mounted. The double row angular contact ball bearing 8th has one in the housing 5 absorbed outer ring 9 up, with two ball grooves 10 for the two rows of balls 11 is provided. The output shaft 6 has a shoulder 12 on, at the another ball groove 13 for the balls 11 of a series of bullets 11 is trained. On the output shaft 6 is an axially displaceable inner ring 14 arranged with another ball groove 15 for the balls 11 the other row of balls is provided.

For preloading the double-row angular contact ball bearing 8th is a biasing element 16 intended. This biasing element 16 includes a spring element 17 that against the inner ring 14 of angular contact ball bearing 8th is axially sprung. The biasing element 16 also has a union nut 18 on that on a smaller diameter section of the output shaft 6 is screwed on. The spring element 17 on the one hand on the nut 18 supported and on the other hand against the inner ring 14 axially spring-loaded.

Of the 2 It can be seen that between the smaller diameter portion and the larger diameter portion of the output shaft 6 at the larger diameter portion of a shoulder surface 19 is formed, which projects radially beyond the smaller diameter portion and the stop 20 for the union nut 18 is trained.

The union nut 18 is at her the angular contact ball bearing 8th facing end face with a first stop surface 21 for striking the stop 20 is provided.

The union nut 18 is on this front side with a ring around the union nut 18 around arranged recess 22 provided in the spring element 17 is arranged. The union nut 18 is on this front side with a second stop surface 23 provided for a striking of the inner ring 14 is provided, in the event that the inner ring 14 against a biasing force of the spring element 17 axially in the direction of the union nut 18 is deflected. The spring element 17 is radially between the first stop surface 21 and the second stop surface 23 arranged. In the exemplary embodiment, the two stop surfaces 21 . 23 Placed flush with each other, but also structurally related arrangements of these two abutment surfaces are conceivable, which are axially offset or arranged at an angle to each other. Of the 2 can be seen that the first stop surface 21 on the shoulder surface 19 is applied. In this way, on the one hand, the union nut properly fixed on the output shaft 6 , On the other hand, the axial position of the union nut 18 on the output shaft 6 clearly defined, so that the spring element with a defined biasing force against the inner ring 14 is sprung.

In the embodiment, the biasing element 16 with a cassette seal 24 provided one between the union nut 18 and the housing 5 properly sealed annular gap.

Another, not shown here variant provides that - unlike in the embodiment - the outer ring is made in two parts, wherein the spring element is axially spring-biased against the one outer ring member to bias the roller bearing. This variant can be provided with double-row angular contact ball bearings in X arrangement.

LIST OF REFERENCE NUMBERS

1

 actuator

2

 anti-roll bar

3

 stabilizer part

4

 stabilizer part

5

 casing

6

 output shaft

7

 Reduction gear

8th

 double-row angular contact ball bearings

9

 outer ring

10

 ball groove

11

 Bullet

12

 shoulder

13

 ball groove

14

 inner ring

15

 ball groove

16

 biasing member

17

 spring element

18

 Nut

19

 shoulder surface

20

 attack

21

 first stop surface

22

 annular recess

23

 second stop surface

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102009006385 A1 [0002]

Claims (9)

Roll stabilizer for a motor vehicle with a divided anti-roll bar ( 2 ), between the two designed as a torsion bar stabilizer parts ( 3 ) 4 ) an actuator ( 1 ), which is a housing ( 5 ) and one in the housing ( 5 ) arranged motor, and a connected to the motor reduction gear ( 7 ), on which one stabilizer part ( 4 ) rotatably mounted output shaft ( 6 ) on the housing ( 5 ) is rotatably supported via a roller bearing, which roll elements roll on raceways, characterized in that a biasing element ( 16 ) is provided for biasing the rolling bearing. Roll stabilizer according to claim 1, whose rolling bearing has a raceway provided with rolling elements, axially displaceably arranged, bearing ring of which in the axial direction of the anti-roll bar ( 2 ) effective biasing element ( 16 ) is acted upon axially. Roll stabilizer according to claim 2, whose biasing element ( 16 ) one on the output shaft ( 6 ) screwed union nut ( 18 ) and a spring element ( 17 ), which between the union nut ( 18 ) and formed by the bearing ring inner ring ( 14 ) is arranged effectively. Roll stabilizer according to claim 3, the rolling bearing by a double-row angular contact ball bearing ( 8th ) is formed, the inner ring ( 14 ) with a ball groove ( 15 ) for balls ( 11 ) and axially displaceable on the output shaft ( 6 ) for adjusting a preload of the angular contact ball bearing ( 8th ) is arranged. Roll stabilizer according to claim 3, whose output shaft ( 6 ) a stop ( 20 ) for the union nut ( 18 ) having. Roll stabilizer according to claim 5, the union nut ( 18 ) at her stop ( 20 ) facing end face has a receiving space in which the spring element ( 17 ) is arranged. Roll stabilizer according to claim 6, the receiving space annular around the union nut ( 18 ) is arranged around, wherein the spring element ( 17 ) is arranged in the receiving space. Roll stabilizer according to at least one of claims 6 to 7, whose union nut ( 18 ) at her stop ( 20 ) facing end face with a first stop surface ( 21 ) for striking the stop ( 20 ), wherein the receiving space radially outside the first stop surface ( 21 ) is arranged. Roll stabilizer according to at least one of claims 6 to 8, whose union nut ( 18 ) with a second stop surface ( 23 ) for the inner ring ( 14 ) is provided.

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