DE102018201137A1 - Arrangement for wheel-side fixing of a vibration damper on a motor vehicle - Google Patents

Abstract

An arrangement for wheel-side fixing of a vibration damper on a motor vehicle, comprising a recess (4) for receiving a portion (2) of a container tube (3) of a vibration damper (1) and a fastening device for axially fixing the portion (2) of the container tube (3) in the recess (4). At the portion (2) of the container tube (3) of the vibration damper (1) as a fastening means a ring (20, 20 ', 20 ") is arranged, by means of which the container tube (3) positively and / or non-positively in the recess (4) is determinable.

Description

The invention relates to an arrangement for wheel-side fixing of a vibration damper on a motor vehicle, comprising a recess for receiving a portion of a container tube of a vibration damper and a fastening device for axially fixing the portion of the container tube in the recess.

A commonly used in vehicle assembly of the type mentioned is in 5 exemplified. In this, the container tube of the vibration damper in the receptacle, which may be cast as a sleeve to a wheel, for example, held clamped. The receptacle is provided with a longitudinal slot and is clamped by a longitudinal slot bridging screw to produce the necessary clamping forces for fixing the container tube.

Based on this, the present invention seeks to simplify the wheel-side determination of the vibration damper manufacturing and assembly technology. It should be noted that the tensile and compressive forces occurring on the vibration damper must be reliably supported without play.

This object is achieved by an arrangement according to claim 1. This is characterized in particular by the fact that a ring is arranged at the portion of the container tube of the vibration damper as a fastening device, by means of which the container tube is positively and / or non-positively fixed in the recess. This reduces both the processing costs in the production of the recording and the effort during assembly.

Due to the elimination of the longitudinal slot and a casting nozzle required for the screw connection, the recording can be carried out slimmer and with less weight. In addition, eliminates the clamping screw. This reduces the unsprung mass on the vehicle.

In addition, can be reduced by the inventive solution, the insertion length of the container tube into the receptacle compared to a required clamping length for the known clamping connection. This favors a more compact design and has a positive impact on a reduced weight. Further advantageously, the number of items can be reduced, which has a positive effect on the weight and the production costs.

Advantageous embodiments of the invention are the subject of further claims. According to an advantageous development, the recess has a cone tapering in an insertion direction, and the ring has a countercone corresponding thereto, which cooperate in such a way that the vibration damper can be fixed in the recess in a self-clamping manner. In this way, a particularly simple but effective determination is achieved. The longer the cone and counter-cone is formed, the greater is an achievable axial holding force, in particular in the pulling direction, that is, in a direction opposite to the insertion direction.

In a further embodiment of the invention, the cone and / or the counter-cone have a gradient ratio of 1: 5 to 1:10. It has been found that this advantageously a particularly good clamping effect and that is achievable by a self-locking.

In a further advantageous embodiment, the ring has a radially widened seat adjacent to the counter-cone, which can be supported axially on a support region of the receptacle. As a result, attacking forces can be absorbed and transferred to a wheel carrier, in particular in the printing direction, that is to say in the insertion direction.

Preferably, the ring has one or more radial projections, wherein the radial projections are radially displaceable against a spring force, the vibration damper is supported at least in the pulling direction of the vibration damper on the ring, and the recess forms on its inner circumference one or more undercuts with a wedge surface which with engage the one or more radial projections and support the or the radial projections of the ring in the pulling direction of the vibration damper.

In one embodiment variant, the ring has radial teeth as radial projections. These allow a particularly simple manner locking with the or the wedge surfaces of the at least one undercut. When inserted into the recesses, the teeth radially spring slightly until they have passed under the undercut to hook there with the or the wedge surfaces.

The ring may for example be made of sheet metal, wherein the teeth are formed by partially punched tabs. Such a fastener can be produced inexpensively with special little effort.

In a further embodiment, the ring is arranged on the vibration damper radially compressible against a spring force. In addition, this ring has one or more wedge surfaces for engagement with the wedge surface of the undercut or the Wedge surfaces of the undercuts. When inserted into the recesses, the ring springs radially until its tapered radial projection passes under the undercut or undercuts.

The ring may for this purpose have a circumferential wedge surface and / or be provided in the axial direction with a continuous slot. Over the slot, the connection can be solved very easily again.

According to a further advantageous embodiment of the invention, an annular groove are provided on the vibration damper and the ring in the annular groove in the tension and compression direction of the vibration damper axially fixed. However, it is possible to fix the ring in other ways on the vibration damper in the tensile and compressive direction.

According to a further advantageous embodiment of the ring and the container tube are provided together with a surface protection. This has been applied after attachment of the ring on the container tube.

Furthermore, the vibration damper may be supported in the recess at a location spaced from the ring in the compression direction of the vibration damper.

According to a further advantageous embodiment of the invention, the vibration damper is guided in the recess with an outer peripheral portion on an inner circumferential surface of the recess in the tension and compression direction of the vibration damper. This ensures a stable dissipation of transverse forces, so that the ring remains securely in position.

The receptacle can in principle be provided on each suitable for wheel-side support of a vibration damper component of a suspension.

In one embodiment, a wheel carrier is provided with a recess for receiving a portion of a container tube of a vibration damper, wherein the recess forms on its inner circumference one or more undercuts having at least one wedge surface, and the at least one wedge surface is inclined so as to engage with a radial projection the vibration damper arranged ring engage and support the at least one radial projection of the ring in the pulling direction of the vibration damper.

In a further embodiment, a wheel carrier is provided with a recess for receiving a portion of a container tube of a vibration damper, wherein the recess has a cone tapering in an insertion direction, in order to engage with a counter-cone of a ring arranged on the vibration damper.

The wheel carrier may for example be designed as a light metal or cast iron component.

• 1 ein Ausführungsbeispiel für eine Anordnung zur radseitigen Festlegung eines Schwingungsdämpfers an einem Kraftfahrzeug nach der Erfindung,
• 2 eine Schnittansicht des Ausführungsbeispiels gemäß 1,
• 3 ein zweites Ausführungsbeispiel mit modifizierter Abstützung in der Ausnehmung, in
• 4 ein drittes Ausführungsbeispiel mit Konus und Gegenkonus zur Selbsthemmung, und in
• 5 ein Beispiel für eine herkömmliche Anordnung zur radseitigen Festlegung eines Schwingungsdämpfers an einem Kraftfahrzeug.

The invention will be explained in more detail with reference to embodiments shown in the drawing. The drawing shows in:

• 1 An embodiment of an arrangement for wheel-side fixing of a vibration damper on a motor vehicle according to the invention,
• 2 a sectional view of the embodiment according to 1 .
• 3 a second embodiment with modified support in the recess, in
• 4 a third embodiment with cone and counter cone for self-locking, and in
• 5 an example of a conventional arrangement for wheel-side fixing of a vibration damper on a motor vehicle.

That in the 1 and 2 illustrated embodiment shows an arrangement for wheel-side determination of a vibration damper 1 on a motor vehicle. This is a section 2 a container tube 3 of the vibration damper 1 axially in a recess 4 inserted, which is located on a component of a suspension of the motor vehicle. In the illustrated embodiment, this component is a wheel carrier 5 , However, the wheel-side connection of the vibration damper 1 also take place on another component of a suspension.

The recess 4 can be as axially open or as axially closed sleeve 6 be executed. It is essentially cylindrical. In one embodiment, the recess 4 in one piece in a wheel carrier 5 integrated, which is preferably designed as a casting.

In contrast to conventional clamp connections such as in 5 is shown, the recess according to the invention 4 without longitudinal slot. In addition, the associated sleeve 6 in the area 6a opposite to their connection 6b to the remaining wheel carrier 5 or the like have a constant wall thickness.

The recess 4 forms on its inner circumference one or more undercuts 7 with a wedge surface 8th out, like this in 2 to recognize. The wedge surface 8th closes with a transverse plane e on which the longitudinal axis A of the vibration damper 1 is perpendicular, an angle α in the range of preferably 15 to 45 ° and more preferably in the range of 20 to 40 °.

The undercut 7 can by several local undercuts, each with its own wedge surface 8th or by a circumferential annular groove 9 are formed, which as a wedge surface 8th has formed edge.

2 shows an example of an annular groove 9 , which in an inner peripheral wall 10 the recess 4 is stabbed. The insertion side of the vibration damper 1 nearest flank of the annular groove 9 serves as a wedge surface 8th of the type explained above. An opposite flank 11 the ring groove 9 can be at a steeper angle than the wedge surface 8th to the transverse plane e be employed. Both flanks of the ring groove 9 when viewing the groove cross-section an angle in the range of 80 to 100 ° with each other. Apart from the wedge surface 8th can the ring groove 9 but also have a different cross-sectional shape.

To determine the vibration damper 1 in the recess 4 is a ring 20 intended. This ring 20 is the one in the recess 4 introduced section 2 of the container tube 3 of the vibration damper 1 arranged. The ring 20 has one or more radial projections 21 on, which are radially displaceable against a spring force.

The vibration damper 1 is at least in the direction of pull Z of the vibration damper 1 on the ring 20 supported. This can for example via a on the container tube 3 provided abutment shoulder or annular groove 12 respectively. However, it is also possible the ring 20 fix in a different manner to the vibration damper, for example, to be welded, soldered, glued or pressed.

The at least one radial projection 21 of the ring 20 is in the installed state with the or the corresponding wedge surfaces 8th the recess 4 engaged with the radial projection (s) 21 of the ring 20 in the pulling direction Z of the vibration damper 1 support.

When assembling the above-described arrangement, the ring is first 20 on the container tube 3 of the vibration damper 1 arranged. Subsequently, both together in the recess 4 introduced. This will be the radial projections 21 resiliently pressed radially inwards. In the further course, these get under the undercut 7 or the undercuts 7 where they rebound radially and with the wedge surfaces 8th engage. Due to the spring force is in this case an axial direction A backlash-free fixing of the vibration damper 1 in the recess 4 achieved.

Will be the ring first 20 on the container tube 3 fixed, both can be provided together with a surface protection. This allows a high quality of such a coating.

It also prevents the surface protection of the container tube 3 by an assembly-related relative movement between the ring 20 and the container tube 3 is damaged.

However, it is also possible in principle, first the ring 20 into the recess 4 use while the undercut or undercuts 7 to overcome and then the container tube 3 introduce.

Optionally, the ring 20 to facilitate assembly and disassembly a continuous slot in the axial direction A exhibit.

About the ring 20 are mainly tensile forces in the axial direction A supported. To support compressive forces of the vibration damper 1 in the recess 4 at a location spaced from the ring 13 be supported, in the printing direction D of the vibration damper 1 for example through a floor 14 the recess 4 or a shoulder on the inner peripheral wall 10 ,

In addition, the vibration damper 1 in the recess 4 with an outer peripheral portion on the inner circumferential surface 10 the recess 4 in tension and compression direction Z and D of the vibration damper 1 be guided.

In one embodiment, the ring 20 as radial projections 21 having radially issued teeth. In addition, the sheet metal 20 be made, with its teeth are easily formed by partially punched tabs. The tabs are thus integral with the rest of the ring 20 educated.

3 shows a possible modification of the determination in the pulling direction. In this case, the ring is 20 ' on the vibration damper 1 arranged radially compressible against a spring force, so it can be radially compressed slightly in the mounted state. For this purpose, the ring 20 ' be designed with a continuous slot in the axial direction.

At the ring 20 ' There are one or more wedge surfaces 22 ' for engagement with corresponding wedge surfaces 8th at one or more undercuts 7 the recess 4 '.

The wedge surfaces can be attached to separate radial projections 21 ' of the ring 20 ' be provided. However, it is also possible the ring 20 ' with a circumferential radial projection 21 ' perform at the one or more wedge surfaces 22 ' are provided.

4 shows another possible modification of the determination in the pulling direction. In this case, the recess points 4 a cone tapering inwardly from an upper insertion opening 15 on. In contrast, the ring points 20 " a corresponding counter-cone 23 on. By inserting the container tube 3 together with the ring 20 " become the Koni 15 . 23 engaged with each other, so that a clamping action is created, which is the container tube 3 in the recess 4 sets. The ring 20 " points to the countercone 23 subsequent radially expanded seat 24 on, which is axially on a support area 16 the recording 4 supported.

The ring 20 " with the seat 24 is arranged on the container tube, that a simultaneous support over the seat 24 on the support surface 16 and over the lower end of the container tube 3 on the ground 14 he follows. As a result, a larger support surface is charged, which reduces the local forces and thus the seat 24 and the ground 14 may have a reduced wall thickness.

It can be seen that the cone 15 and the counter-cone 23 have a slope ratio between 1: 5 and 1:10. This makes a good compromise between optimal clamping action and dimensioning of the Koni 15 . 23 reached.

The invention has been explained in more detail above with reference to exemplary embodiments and further modifications. Technical individual features, which were explained above in the context of further individual features, can be implemented both independently of these and in combination with other individual features, even if this is not expressly described, as long as this is technically possible. The invention is expressly not limited to the described embodiments and modifications, but includes all embodiments defined by the claims.

LIST OF REFERENCE NUMBERS

1

vibration

2

Section of the container tube

3

container tube

4

recess

5

wheel carrier

6

shell

6a

Area opposite to connection to the rest of the wheel carrier

6b

Connection to the rest of the wheel carrier

7

Undercut or undercuts

8th

Wedge surface or wedge surfaces

9

ring groove

10

Inner peripheral wall of the recess

11

flank

12

ring groove

13

location spaced from the ring

14

ground

15

cone

16

support area

20, 20 ', 20 "

ring

21.21 '

radial projection

22 '

wedge surface

23

counter-cone

24

Seat

A

axially

D

print direction

e

Transverse plane, perpendicular to the axial direction A.

Z

tensile direction

α

wedge angle

Claims (15)

Arrangement for wheel-side fixing of a vibration damper to a motor vehicle, comprising a recess (4) for receiving a portion (2) of a container tube (3) of a vibration damper (1) and a fastening device for axially fixing the portion (2) of the container tube (3) in the recess (4), characterized in that at the portion (2) of the container tube (3) of the vibration damper (1) as a fastening means a ring (20, 20 ', 20 ") is arranged, by means of which the container tube (3) form fit and / or non-positively in the recess (4) can be fixed. Arrangement according to Claim 1 , characterized in that the recess (4) is in an insertion tapered cone (15), and the ring (20 ") has a corresponding counter-cone (23), which cooperate so that the vibration damper (1) is self-locking in the recess (4) can be fixed. Arrangement according to Claim 1 or 2 , characterized in that the cone (15) and / or the counter-cone (23) have a pitch ratio of 1: 5 to 1:10. Arrangement according to one of the preceding claims, characterized in that the ring (20 '') has a radially widened seat (24) adjoining the counter-cone (23), which can be supported axially on a support region (16) of the receptacle (4). Arrangement according to Claim 1 characterized in that the ring (20, 20 ') has one or more radial projections (21, 21'), the radial projection (21, 21 ') being radially displaceable against a spring force, the vibration damper (1) at least in the pulling direction (Z) of the vibration damper (1) on the ring (20, 20 ') is supported, and the recess (4) on its inner circumference one or more undercuts (7) with one or more wedge surfaces (8) formed, which with the or the radial projections (21, 21 ') are engaged and the one or more radial projections (21, 21') of the ring (20, 20 ') in the pulling direction (Z) of the vibration damper (1) are supported. Arrangement according to Claim 5 , characterized in that the ring (20) as radial projections (21) has radially issued teeth. Arrangement according to Claim 6 , characterized in that the ring (20) consists of sheet metal and / or its teeth are formed by partially punched tabs. Arrangement according to Claim 5 , characterized in that the ring (20 ') on the vibration damper (1) is arranged radially compressible against a spring force and one or more wedge surfaces (22') for engagement with the wedge surface (8) of the undercut (7) or the wedge surfaces ( 8) of the undercuts (7). Arrangement according to one of Claims 5 to 8th , characterized in that the ring (20 ') has a circumferential wedge surface (8) and / or has a continuous slot in the axial direction. Arrangement according to one of Claims 5 to 9 , characterized in that on the vibration damper (1) an annular groove (12) is provided and the ring (20, 20 ') axially fixed in the annular groove (12) in the tension and compression direction (Z, D) of the vibration damper (1) is. Arrangement according to one of the preceding claims, characterized in that the vibration damper (1) in the recess (4) at one of the ring (20, 20 ') spaced location (13) in the pressure direction (D) of the vibration damper (1) is supported , Arrangement according to one of the preceding claims, characterized in that the vibration damper (1) in the recess (4) with an outer peripheral portion on an inner circumferential surface (10) of the recess (4) in the tension and compression direction (Z, D) of the vibration damper (1 ) is guided. Arrangement according to one of the preceding claims, characterized in that the ring (29, 20 ') and the container tube (3) are provided together with a surface protection. Wheel carrier (5) with a recess (4) for receiving a portion (2) of a container tube (3) of a vibration damper (1), characterized in that the recess (4) on its inner circumference one or more undercuts (7) with at least one Wedge surface (8) is formed and the at least one wedge surface (8) is inclined so as to engage with a radial projection (21, 21 ') arranged on the vibration damper (1) ring (20, 20') and the at least a radial projection (21, 21 ') of the ring (20, 20') in the pulling direction (Z) of the vibration damper (1) are supported. Wheel carrier (5) with a recess (4) for receiving a portion (2) of a container tube (3) of a vibration damper (1), characterized in that the recess (4) has a cone tapering in an insertion direction (15) with a counter-cone (23) of a on the vibration damper (1) arranged ring (20 ") to engage.

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