DE102006050070B4 - Elastic bearing for a motor vehicle assembly, method for producing an elastic bearing, Arrangement for adjusting the bearing characteristic of an elastic bearing - Google Patents

Abstract

Elastic bearing (1) for a motor vehicle assembly, such as a motor vehicle engine and / or a motor vehicle transmission, with an axial connection part for fixed attachment of the bearing to the unit, a housing (11) which can be mounted on a body part and at least partially radially surrounds the connection part first elastic and / or damping functional unit, such as an elastomer stop for limiting the relative movement between the body part and the unit, and a second elastic and / or damping functional unit, such as a suspension spring (13) for acoustic insulation and / or for radial support of the connecting part the housing (11) or a hydraulic or pneumatic bearing, characterized in that the first and second functional unit structurally separate, separately in the housing (11) mountable components, of which in the mounted state at least one for mutual clamping within the housing (11 ) at least section is elastically deformed.

Description

The invention relates to an elastic bearing for a vibration-exposed motor vehicle unit, such as a transmission, a motor, or the like.

Known, so-called elastic pendulum bearings for supporting a motor vehicle engine, such as a motor on the body usually have a connecting rod with a mounting hole for fixed connection of the motor vehicle assembly to the camp. The axially extending connecting rod is normally surrounded by a metal bearing housing which is to be fixedly mounted on a body part, and defines the axial and radial direction of the bearing. A between the mounting rod and the housing between vulcanized suspension spring serves to absorb vibrations that are either generated by the motor vehicle part itself or initiated by the engine in the motor vehicle. The suspension spring is intended primarily to acoustically isolate the respective motor vehicle part from the body and thus from the passenger compartment. It is also known to provide within the elastic bearing spring stops which limit a deflection of the connecting rod relative to the housing. The bearing has both a spring stop, with the relative movements of the unit relative to the body part in the axial direction, especially in the direction of travel, are limited, as well as another spring stop for deflections in the radial direction.

In the known self-aligning bearing, the elastic functional units, suspension spring and spring stop, are manufactured together with the connecting rod as a unit, inserted into the bearing housing and fastened via bendable tabs. By bending over the tabs disadvantageously the adjacent elastomeric material is heavily loaded on train, where the elastomer is susceptible to failure during normal operation of the bearing. In addition, due to the resilience of the deformed elastomeric material, the bent tabs tend to be forced back to the home position. This so-called waving of the tabs affects a secure attachment of the assembly within the housing. In order to produce sufficient fastening forces through the tabs, it is necessary to bend the tabs beyond their actual stationary gripping position, which implies a further even greater stress on the adjacent elastomeric material and also requires a complex assembly process. Should the environment of the bearing be damp, which is often the case with engine mounts, undesirable squeaking and hissing noises at a vibration load can occur, especially in the area of the tabs, which has a disturbing effect on the desired acoustic insulation.

An engine mount is off JP H07-83 280 A known.

It is an object of the invention to overcome the disadvantages of the prior art, in particular to provide an elastic bearing, in particular self-aligning bearings, in which under ensuring a simple, functionally reliable mounting an unfavorable to the life preload, such as tensile stress, the elastic functional units is prevented ,

This object is solved by the features of claim 1.

Thereafter, the first and the second functional unit are structurally separate, separately mountable in the housing components, of which in the mounted state, at least one of the mutual bracing within the housing is at least partially elastically deformed. With the measure according to the invention, it is possible to assemble the elastic bearing, in particular the self-aligning bearing, so that the functional units, in particular their elastic parts, are not loaded during installation on harmful tension, whereby premature wear is avoided. The mutual clamping in particular pressure of the two functional units by means of a Montagevorkomprimierung allows the elastic bearing according to the invention that both functional units safely, especially stationary, are arranged in the housing, with harmful tensile stresses within the elastomeric body only at very high operating loads or not be caused. Moreover, it is possible with the inventive measure to design the elastic bearing not only for a limited stress area, but the bearing of the invention is adapted to be adapted to the respective expected load conditions individually. Thus, the respective removable functional unit can be varied by different choice of geometry of the elastomer body or different hardness with the help of different materials depending on the purpose of the camp, but be installed in the same housing structure. It is clear that as a functional unit and hydraulic or pneumatic bearing elements can be used.

In a preferred embodiment, the first and second functional unit in the assembled state form a contiguous assembly with a continuous, outer dimension bounded in the radial direction. The outer dimension is substantially complementary in shape to the radially limited inner dimension of the housing. In this case, the assembly may have a closed, annular outer shape, which is adapted to an annular inner shape of the housing.

Preferably, the housing is cylindrical on the inside and has an axial, in particular circular mounting opening. Through the mounting opening, the second functional unit is axially insertable upon compression of at least one elastic subsection of the first functional unit inserted in the housing.

In a preferred embodiment of the invention, the second functional unit is formed with a suspension spring, wherein in addition to the suspension spring also other elastic functional units, such as spring stops, hydraulic or pneumatic springs, can be used for the second functional unit. The suspension spring preferably defines a Hauptabstützrichtungsbereich, in particular a Hauptabstützrichtung. The Hauptabstützrichtungsbereich is aligned in the expected main direction of movement of the unit, namely in the radial direction away from the axial connection part. The suspension spring absorbs load forces, which are introduced radially into the connection part, and mainly isolates the unit from the body of the motor vehicle.

Preferably, the second functional unit comprises a connected to the connecting part, in particular vulcanized to the connecting part, elastomeric body, which is supported radially on the outside of a rigid, the elastomeric body radially surrounding outer jacket. In this way, an elastic functional unit can be formed, which consists of the over-molded around the connecting part suspension spring. It should be understood, however, that instead of directly vulcanizing the elastomeric body, the suspension spring may be bonded to an intermediate member, such as a sleeve, which may eventually be secured to the connector by conventional mechanical means, such as crimping or riveting.

The outer sheath, which is to be regarded as a separate component relative to the housing, can be used in a substantially complementary to the outer dimension of the outer shell interior of the housing in particular to form a positive connection with a portion of the first functional unit and the housing. The outer jacket is partially, but mostly, cylindrical. Also, the interior is correspondingly partially cylindrical, so that the outer shell of the suspension spring can be positively received in the interior. For a good positive connection between the outer casing and the housing, the outer casing may have on its outer side an elastomer layer, in particular for engagement with a housing inner wall bounded in the radial direction. Thus, the second functional unit is stationary, in particular non-slip, fixable within the housing.

In a preferred embodiment, the elastomeric body of the suspension spring is at least formed by a radially extending arm, preferably at least two radially extending arms, which are aligned so that they define the radial Hauptabstützrichtung of the bearing.

In a preferred embodiment of the invention, the first functional unit rigid support base for holding a functional unit element, such as a spring stopper pad on. On the support body and an elastically deformable clamping body is mounted, which is elastically deformed for bracing the first and second functional unit in the mounted state in the housing in particular between the support base and the housing. The clamping body mounted in the housing generates radially acting clamping forces acting on the functional units.

Furthermore, preferably, the first functional unit has a spring stop and / or a pair of spring stops, the / a relative movement between the unit and the body part in the axial direction, in particular in the direction of travel of the vehicle, limited / limit.

In a preferred embodiment, the spring stops are rigidly connected together by the flat, rigid support base. At one of the second functional unit facing the support side of the support base sits the second functional unit, in particular a form side of the support base form complementary outer side of the outer shell of the suspension spring such that both the first functional unit and the second functional unit in the mounted state in the radial direction are substantially immovable. In particular, on a side facing away from the second functional unit of the support base, a partially curved, in particular cylindrical, elastically deformable clamping body are arranged, which corresponds substantially to the curvature, in particular the cylindricity, of the housing section associated with the assembled state.

For example, the two spring stops may be held by a support base formed as a U-shaped carrier. The U-shaped support is so used in a mounting position on the housing that it is fixed in the axial direction and in particular only in a radial direction away from the installation point in the housing, especially when the suspension spring of the second functional unit already in the axial direction dismantled.

Preferably, two U-legs of the U-shaped carrier, on each of which a spring stops forming elastomeric body is mounted, surround the housing by the U-legs axially offset from the housing, in particular with a clearance fit, project past the housing radially outward.

In a further development of the invention, a third elastic functional unit is formed by a second elastic spring stop which is detachably connected or slid between the connecting part and the housing. The further spring stop limits a relative movement between the unit and the body part in the radial direction. To set the spring stop amplitude or spring stop spring action different shapes or different materials can be used for the spring stop. In order to ensure the safe, non-destructive and tool-free interchangeability of the elastic spring stop, this has a recess with at least one undercut, with a precomplementary to the recess projection of the installation point, in particular of the connecting part, preferably snappingly engages.

Preferably, a flange for mounting the bearing is attached to the body part on the outside of the housing. For example, the housing may be a cylindrical sleeve which is open on both sides, wherein the mounting opening of the housing is slightly larger than the opposite opening.

In a preferred embodiment of the invention, the first and the second functional unit within the housing in each case at a mounting location used separately and fixedly mounted and for setting the storage characteristics of the installation point in particular nondestructive separable and removable through a mounting opening of the housing. The storage characteristic may be, in particular, an oscillation ability, a vibration amplitude or the like. The installation point, in particular of the housing, on which another first or second functional unit of similar or identical construction can be used, remains unchanged.

Furthermore, the invention relates to an arrangement for adjusting the bearing characteristic, such as the vibration ability, the vibration amplitude, etc., of an elastic bearing, which may be formed as the bearing according to the invention. The assembly has a set of interchangeable functional units, such as a suspension spring and / or a spring stop, for example at least one substantially radial spring stop and at least one substantially axial spring stop, and / or a pneumatic or hydraulic bearing unit. The exchangeable functional units are non-destructively mounted and dismounted at the respective installation location in the housing of the bearing.

Furthermore, the invention relates to a method for producing an elastic bearing, which is designed in particular as the elastic bearing according to the invention. In the method, a rigid housing for mounting to a housing part is manufactured. In addition, a connecting part is made for firmly binding the bearing, and a first functional unit and a second functional unit are manufactured separately from one another, wherein the connecting part is connected to the second functional unit prior to assembly, in particular insoluble. First, the first functional unit is inserted into the housing, and then the second functional unit with the connecting part by at least partially elastic deformation, in particular compression, the first functional unit inserted into the housing such that holding forces between the housing and both functional units are generated.

Furthermore, the application relates to a method for adjusting the storage characteristic, such as the vibration ability, the vibration amplitude, etc., of an elastic bearing, which is designed in particular as the elastic bearing according to the invention. According to the method, the at least one inserted into a housing of the bearing at a mounting location and there fixedly mounted, in particular elastically tensioned functional unit of the respective installation site is solved in particular non-destructive. Subsequently, the at least one functional unit is completely removed from the housing via a mounting opening of the housing. Finally, a different type of functional unit similar or identical structure is inserted into the housing and fixedly mounted and in particular elastically braced.

Preferably, the detachment and / or mounting of the at least one functional unit is achieved without the use of an additional tool. The storage characteristic of the bearing can be adjusted by changing the shape and / or the material to the respective functional unit.

Further advantages, features and characteristics of the invention will become apparent from the following description of a preferred embodiment with reference to the accompanying drawings, in which:

1 an exploded perspective view of an elastic bearing according to the invention;

2 a cross-sectional view of the elastic bearing according to the invention 1 ; and

3 a cross-sectional view of the elastic bearing along the section line III-III after 2 ,

In the exploded view according to 1 as well as in the sectional views in 2 and 3 is the elastic pendulum bearing according to the invention with the reference numeral 1 Mistake. The elastic bearing according to the invention 1 includes a mounting flange 3 for fixing the bearing 1 on a body part, not shown. The mounting flange 3 is pressed from a sheet metal part and includes several openings 5 for mounting bolts 7 ,

At a partially cylindrical section 9 of the mounting flange 3 is a sleeve-shaped housing 11 of the camp 1 attached, the housing 11 from one to the mounting flange 3 welded clamp arm 13 at the part-cylindrical section 9 of the mounting flange 3 is held.

In the case 11 are according to the invention more, in the embodiment shown three, elastic functional units in the form of an acoustically insulating suspension spring 15 with a radial direction of action, a spring stop pair 17 with axial effective direction and an elastic spring stop 19 housed with radial direction of action.

The housing 11 may be closed on one side, with at least one side being circular open, as in FIG 1 is shown. From the open mounting side, the functional units are in the housing 11 used.

The suspension spring 15 consists of a rigid outer jacket 21 , which consists of a part-cylindrical sleeve, in particular made of metal, of a thin elastomer layer 57 completely overmoulded. The elastomer layer has ribbing on the outside to frictionally engage the inner wall of the housing 11 to increase. Spring arms are supported on the outer jacket 23 . 25 an elastomeric body, which is a connecting rod 27 wear, in turn, the motor vehicle part, not shown, such as a motor vehicle transmission or a motor vehicle engine, via mounting holes 29 is appropriate. The spring arms 23 . 25 extend from the axially aligned mounting rod 27 radially at an angle about 100 ° to each other out to the inside of the dimensionally stable outer shell 21 where they are to vulcanize.

The connecting rod 27 has the cross-sectional shape of an isosceles, in particular equilateral, triangle, wherein the spring arms 23 . 25 essentially perpendicular from two sides of the connecting rod 27 extend radially. Between the two spring arms 23 . 25 is one piece with the spring arms 23 . 25 vulcanised stop lug 31 appropriate.

On an opposite, still blank side of the connecting rod 27 is the radial spring stop 19 hanged. For this purpose, the spring stop 19 a recess that is shaped with an undercut. The free, with the spring stop 19 to be occupied side of the connecting rod 27 comprises a recess complementary to the recess with a corresponding undercut, so that the spring stop 19 positive and / or non-positive with the connecting rod 27 can be connected. On the opposite side of the recess is the spring stop 19 provided with an elastomeric material such that a part-cylindrical outer surface is formed, which is substantially complementary in shape to the opposite inner wall portion of the housing 11 is. When mounted, the spring stop is located 19 at a defined distance to the opposite inner wall portion of the housing 11 ,

To replace the radial spring stop 19 only has the spring stop 19 be deformed so that the Einknüpfkraft between the projection and the recess is overcome and the spring stop 19 can be removed from the housing via the mounting hole.

On the inside of the outer jacket 21 can have additional, non-exchangeable stops 33 . 35 and 37 be vulcanized. The outside of the outer jacket 21 has a corrugated elastomeric layer for engagement with an inner wall of the housing 11 on.

The outer jacket 21 has a flattening at a lower side in the mounting position 39 to a part-cylindrical space inside the housing 11 for accommodating the double spring stop 17 provide.

The double spring stop 17 includes a U-shaped carrier 41 whose two U-legs 43 . 45 much shorter than a connection base 47 are. On the outsides of the U-thighs 43 . 45 is each a spring stop pillow 49 . 51 vulcanized. At the housing 11 facing side of the connection base 47 is an elastically deformable clamping body 52 formed, which conform to the cylindrical shape of the housing 11 is adapted. The cross-sectional shape of the connection base 47 and the attached clamping body 52 is formed slightly larger than the part-cylindrical space, so that for mounting the suspension spring 15 the clamping body 52 is to compress, causing tension forces between the suspension spring 15 and the double spring stop 17 be generated. The suspension spring 15 facing side of the connection base 47 is essentially the same as the flattening 39 of the outer jacket 21 formed so that the of the suspension spring 15 facing side of the connection base 47 positive fit on the flattening 39 of the outer jacket 21 can sit.

In the assembled state of the double spring stopper 17 protrude the U-thighs 43 . 45 at the circular, opposite edges of the housing 11 with an axial clearance fit radially outward to the sleeve-like housing 11 to embrace. In the inserted state, in the 2 and 3 is shown, is the position of the double spring stop 17 fixed in the axial direction, with freedom of movement is still allowed in the radial direction.

Subsequently, the suspension spring 15 through the mounting hole 55 inserted in the axial direction, so that the outer jacket 21 the suspension spring in the region of the flattening 39 on the connection base 47 of the double spring stop 17 rests. When mounting, namely insertion of the suspension spring 15 becomes the clamping body 52 of the double spring stop 17 compressed. The common cylindrical outer shape of the suspension spring 5 and the double spring stop 17 passing through the cylindrical part of the outer jacket with the corrugated elastomer layer and the clamping body 52 is defined, is slightly larger than the internal dimension of the housing when unmounted 11 , In the installed state, like the 2 can be removed, the suspension spring sits 15 due to the elastically deformed clamping body 52 generated pressing force firmly in the housing 11 , The suspension spring, which can absorb elongated radial loads, thus can not move axially out of the housing.

Before the suspension spring 15 in the case 11 is housed, the desired radial spring stop 19 at the connecting rod 27 be linked.

According to the invention, multiple or identically constructed elastic functional units, such as different double spring stops 17 , different suspension springs 15 and different radial spring stops 19 for one and the same housing 11 used and combined with each other to adjust the elastic bearing to the specific application situation individually.

The features disclosed in the foregoing description, the figures and the claims may be of importance both individually and in any combination for the realization of the invention in the various embodiments.

LIST OF REFERENCE NUMBERS

1

elastic bearing

3

mounting flange

5

openings

7

mounting bolts

9

Partial cylindrical section

11

casing

13

clamping arm

15

suspension spring

17

Spring stop pair

19

spring stop

21

outer sheath

23, 25

spring arms

27

connecting rod

29

mounting holes

31

stop lug

33, 35, 37

attacks

39

flattening

41

carrier

43, 45

U-leg

47

connecting base

49, 51

Spring stopper pillow

52

tensioning body

55

mounting hole

57

elastomer layer

Claims (21)

Elastic bearing ( 1 ) for a motor vehicle assembly, such as a motor vehicle engine and / or a motor vehicle transmission, with an axial connection part for firmly connecting the bearing to the unit, a housing which can be mounted on a body part (US Pat. 11 ), which at least partially surrounds the connecting part radially, a first elastic and / or damping functional unit, such as an elastomer stop for limiting the relative movement between the body part and the unit, and a second elastic and / or damping functional unit, such as a suspension spring ( 13 ) for acoustically insulating and / or for radially supporting the connection part to the housing ( 11 ) or a hydraulic or pneumatic bearing, characterized in that the first and second functional unit structurally separate, separately in the housing ( 11 ) are mountable components, of which in the mounted state at least one for mutual clamping within the housing ( 11 ) is elastically deformed at least in sections. Elastic bearing ( 1 ) according to claim 1, characterized in that the first and the second functional unit in the mounted state form a contiguous assembly with a radially limited, continuous outer dimension substantially complementary in shape to the radially limited inner wall dimension of the housing. 11 ). Elastic bearing ( 1 ) according to claim 2, characterized in that the assembly has a closed, annular outer shape. Elastic bearing ( 1 ) according to one of claims 1 to 3, characterized in that the housing ( 11 ) is cylindrical on the inside and an axial mounting opening ( 55 ), by means of which the second functional unit is axially insertable in at least partial deformation of the first functional unit. Elastic bearing ( 1 ) according to one of claims 1 to 4, characterized in that for the second functional unit a suspension spring ( 15 ) is provided which defines at least one Abstützrichtungsbereich extending radially from the axial connection part. Elastic bearing ( 1 ) according to one of claims 1 to 5, characterized in that the second functional unit has an elastomeric body connected to the connecting part, which adjoins a rigid, the elastomeric body surrounding outer shell ( 21 ) is supported, which in a to the outer dimension of the outer shell ( 21 ) in the substantially form-complementary interior of the housing ( 11 ) can be used. Elastic bearing ( 1 ) according to claim 6, characterized in that the outer jacket ( 21 ) is cylindrical in sections and an interior of the housing ( 11 ) has a cylindricity corresponding thereto. Elastic bearing ( 1 ) according to claim 6 or 7, characterized in that the outer jacket ( 21 ) on the outside with an elastomer layer ( 57 ) is provided for engagement with a radial housing inner wall. Elastic bearing according to one of claims 6 to 8, characterized in that the elastomeric body has at least one radially extending arm which defines a support direction. Elastic bearing ( 1 ) according to one of claims 1 to 9, characterized in that the first functional unit has a supporting base ( 47 ) for holding a functional unit element, such as a spring stop, and an elastically deformable clamping body ( 52 ), for clamping the first and second functional unit in the housing ( 11 ) mounted state is elastically deformed. Elastic bearing ( 1 ) according to one of claims 1 to 10, characterized in that the first functional unit is a spring stop ( 17 ) and / or a pair of spring stops which limits a relative movement between the unit and the body part in the axial direction. Elastic bearing ( 1 ) according to claim 11, characterized in that the spring stops by a flat support base ( 47 ) are rigidly connected to each other, on which the second functional unit is seated in such a way that both the suspension spring ( 15 ) as well as the spring stop pair are immovable in the mounted state in the radial direction, wherein on a side facing away from the second functional unit of the support base ( 47 ) a sectionally cylindrical, elastically deformable clamping body ( 52 ), which essentially corresponds to a cylindricity of the housing section assigned in the mounted state. Elastic bearing ( 1 ) according to claim 12, characterized in that the two spring stops ( 17 ) on a U-shaped support ( 41 ) are held in such a manner in a mounting position on the housing ( 11 ) is insertable so that it is fixed in the axial direction and in a radial direction away from the installation point. Elastic bearing ( 1 ) according to claim 12 or 13, characterized in that two U-legs ( 43 . 45 ) of a U-shaped carrier ( 41 ), on each of which the spring stop ( 17 ) is mounted elastomeric body, for holding the assembly in the axial direction of the housing ( 11 ) in the radial direction on the housing ( 11 ) embrace past outward. Elastic bearing ( 1 ) according to one of claims 1 to 14, characterized in that a further elastic spring stop ( 19 ) as a third functional unit at its installation point between the connecting part and the housing ( 11 ) is detachably connected or slid and limited relative movement between the unit and the body part in the radial direction. Elastic bearing ( 1 ) according to claim 15, characterized in that the further elastic spring stop ( 19 ) has a recess with at least one undercut, in which engages a recess complementary to the recess projection of the installation site. Elastic bearing ( 1 ) according to one of claims 1 to 16, characterized in that on the outside of the housing ( 11 ) a flange ( 3 ) for mounting the bearing ( 1 ) is attached to the body part. Elastic bearing ( 1 ) according to one of claims 4 to 17, characterized in that the housing ( 11 ) is a cylindrical sleeve which is open on both sides, wherein the mounting opening ( 55 ) of the housing ( 11 ) is larger than the opposite opening. Elastic bearing ( 1 ) according to one of claims 4 to 18, characterized in that the first and the second functional unit within the housing ( 11 ) can be used separately at a place of installation and mounted in a fixed position and for setting the bearing characteristic, such as oscillation capability, oscillation amplitude, etc., separable from the installation site and via a mounting opening ( 55 ) of the housing ( 11 ), wherein the installation location for insertion of another first or second functional unit of similar or identical construction remains unchanged. Arrangement for adjusting the bearing characteristic, such as vibration capability, oscillation amplitude, of an elastic bearing ( 1 ) formed according to one of claims 1 to 19, comprising a set of exchangeable functional units, such as a suspension spring ( 15 ) and / or a spring stop ( 17 . 19 ), which are non-destructive at the respective installation point in the housing ( 11 ) of the warehouse ( 1 ) can be mounted and dismounted. Method for producing an elastic bearing, in which: a rigid housing ( 11 ) is made for mounting to a housing part, a connection part for firm tethering of the bearing is made, a first functional unit and a second functional unit is made separately from each other, wherein the connecting part is connected to the second functional unit prior to assembly, characterized in that the first first functional unit in the housing ( 11 ) is used and then the second functional unit with the connecting part by at least partially elastic deformation of the first functional unit in the housing ( 11 ) is used such that holding forces between the housing ( 11 ) and the functional units are generated.

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