DE102007032957C5 - Elastic bearing - Google Patents

Abstract

Elastic bearing (1) for supporting a transmission, an engine or another unit in a motor vehicle, with an inner part (2), a housing (6, 7) and at least one suspension spring elastically supporting the inner part (2) against the housing (6, 7). (3),wherein the housing (6, 7) or the inner part (2) and the housing (6, 7) are made of plastic material andwherein the housing (6, 7) can be immovably fastened to another component by means of detachable fastening means,wherein the housing (6, 7) has a base plate (6) and a mounting bracket (7), the mounting bracket (7) consisting of a non-flowing material, the mounting bracket (7) being arranged in such a way that the base plate (6) is at least partially between The fastening bracket (7) and the further component come to rest and that the fastening means acting on the fastening bracket (7) together with the fastening bracket (7) can be immovably fastened to the further component, characterized in that the base plate (6) has at least one bore (11) and the mounting bracket (7) has at least one pin (10) with a bore (8), the at least one pin (10) of the mounting bracket (7) engaging in the at least one bore (11) of the base plate (6) and passing through the The base plate (6) protrudes so far through that the pin (10) of the fastening bracket (7) is set back by a predetermined amount in relation to the surface facing the further component or is flush with this surface in order to close the fastening bracket (7) directly against the further component tense up

Description

The invention relates to an elastic bearing for supporting a transmission, an engine or another unit in a motor vehicle, having an inner part, a housing and at least one suspension spring which elastically supports the inner part against the housing, the housing or the inner part and the housing being made of plastic material are and the housing can be immovably fastened to another component by means of detachable fastening means.

Bearings of this type are known per se and are used on a large scale in the vehicle industry, especially for mounting engines and transmissions.

For power transmission, it is necessary in such bearings, the elastomeric suspension spring to attach at least one fixed part, such as the housing, for example, to vulcanize. The housing can then be attached to bodies or engines by being pressed into corresponding receptacles or by means of detachable connecting elements.

However, metallic materials in particular are used as the housing, but plastics are also being used to an increasing extent. The DE 10 2004 018 241 A1 shows a generic bearing in which the suspension spring is pressed into a bearing housing and the inner part is firmly attached to the suspension spring. Bearing housing and inner part can also consist of a plastic material.

The DE 10 2004 054 618 A1 also shows a generic bearing in which the elastomeric suspension spring is encapsulated by an outer part made of plastic.

When using plastics as the housing, there is the advantage that the elastomeric suspension springs can be vulcanized as individual parts in advance, so that several suspension springs can be produced simultaneously per vulcanization process due to the significantly smaller mold cavities. The more voluminous housing can then be injected around the suspension spring.

However, if bearings of this type are to be fastened to other components with detachable fastening means, for example screws, there is the disadvantage that the fastening is not permanently fixed due to the pressure-dependent flow and setting behavior of the plastics.

The DE 603 05 223 T2 relates to a hydroelastic mount to be interposed between a first vibrating element to be supported and a second supporting element to be isolated from the first element for connection of a power unit to a vehicle body. The mount has a body with a rigid upper part and a rigid lower part connected by a mass of elastomeric material. The support also has a skirt intended to be connected to the supporting element and which forms a housing for the body. The jacket has a lower part, the top of which has fastening holes, which in turn have rivet rings. The jacket also has a stop part which has holes. The rivet rings of the lower part of the casing coincide with the holes of the stop part. The rivet rings are less in height than the thickness of the lower part of the body. The rivet rings are connected by riveting or conical widening with the holes in the stop part as a transport and assembly lock.

The DE 695 02 682 T2 relates to a vibration-damping hydraulic mount for interposing between two rigid elements. An elastomeric body is received between two rigid fittings, the second fitting having a base plate. The base plate encloses the elastomer body together with the first fitting together with an arch. The arch has two lateral extensions, one on each side of the elastomeric body, each with a hole. Each of these lateral extensions covers a portion of the base plate, which has a hole in each area. The holes of the lateral extensions of the arch and the base plate overlap.

The invention is based on the object of creating a generic bearing that allows attachment by means of detachable connecting elements such as screws, even when using plastic as the housing, without impermissible settling of the housing occurring.

This object is achieved in that the bearing has a mounting bracket made of a non-flowing material and a base plate as the housing, the mounting bracket being arranged in such a way that the base plate comes to rest at least partially between the mounting bracket and another component and by the fasteners acting on the mounting bracket are immovably attached to the other component together with the mounting bracket.

With this arrangement, the bearing can also advantageously be produced by injecting the plastic parts onto the finished vulcanized elastomeric suspension spring. This prevents the plastic from flowing under the load of the screw connection This means that the surface pressure during attachment is not limited to the screwing surface but, depending on the design of the attachment bracket, can be distributed over large surfaces in such a way that settling of the plastic is either completely impossible or not critical.

In a further development of the invention, the base plate is designed on which at least one suspension spring is attached with a part of its surface, the fastening bracket being designed in such a way that the fastening bracket is adapted to the part of the surface of the at least one suspension spring that is not connected to the base plate and this encompasses and thereby the base plate can be clamped to the further component when it is detachably fastened to the further component, and the at least one suspension spring can be enclosed between the base plate and the fastening bracket with or without play.

In this arrangement, the mounting bracket replaces part of the housing, so that the production of the bearing requires even smaller mold volumes.

In a further development of the invention, the fastening bracket is made of metallic materials.

Metallic materials can be easily adapted to the shape of the bearing, for example by casting processes, and are particularly flow-resistant.

In the invention, the base plate has at least one bore and the mounting bracket has at least one pin with a bore, the at least one pin of the mounting bracket engaging in the at least one bore of the base plate and protruding through the base plate to such an extent that the pin of the mounting bracket is opposite the the surface facing the other component is set back by a predetermined amount or is flush with this surface.

This arrangement makes it possible to brace the mounting bracket through the hole in the pin so directly against the other component that the base plate can be attached to the other component under tension or without tension and play, depending on the extent of the recess, and the detachable connection can be maintained independently of the Flow behavior of the base plate is permanently fixed.

In a development of the invention, the fastening bracket and the base plate are connected to one another by means of a position lock, even if the bearing is not fastened to the other component.

This arrangement has the advantage that assembly is simplified since no part can be lost.

In a further development of the invention, the transport lock is formed in that the base plate has at least one pin which protrudes through a corresponding hole in the fastening bracket and can be deformed at the end protruding from the fastening bracket in such a way that it cannot slide back through the hole in the fastening bracket .

In this way, the transport lock can be easily implemented without great effort and without additional components.

An example of the invention is explained in more detail below with reference to the drawing.

• 1 eine perspektivische Ansicht eines erfindungsgemäßen Lagers und
• 2 einen Querschnitt durch das erfindungsgemäße Lager.

It shows

• 1 a perspective view of a bearing according to the invention and
• 2 a cross section through the bearing according to the invention.

This in 1 The elastic bearing 1 according to the invention shown has an inner part 2, an elastomeric suspension spring 3 with two legs 4 and 5 arranged in a V-shape, a base plate 6 and a fastening bracket 7. The mounting bracket 7 has two mounting holes 8 .

The elastomeric suspension spring 3 is firmly vulcanized both to the inner part 2 and to the base plate 6 of the bearing 1 , the elastomeric material of the suspension spring 3 enclosing the inner part 2 . The mounting bracket 7 engages around the elastomeric suspension spring 3 and can be screwed via the mounting holes 8 against a further component, not shown here. The inner part 2 and the base plate 6 are made of a thermoplastic material. The mounting bracket 7 is made from aluminum using a die-casting process.

In 2 the bearing 1 is drawn in a cross section. The mounting bracket 7 has pins 10 through which the mounting holes 8 are guided. The pins 10 are designed in such a way that they are inserted through corresponding openings 11 in the base plate 6 and end flush with the base plate 6 on their side facing the further component (not shown).

In this way it is ensured that no free-flowing material is arranged between the fastening bracket 7 and the further component (not shown) and the attachment of the bearing 1 to the further component (not shown) is permanently fixed. By adjusting the length of the pins 10, the preload can be adjusted with which the base plate 6 can be fastened to the other components that are not shown.

The suspension spring 3 enclosing the inner part 2 and the fastening bracket 7 are spaced apart from one another by a gap 12 such that the inner part 2 can swing on the suspension spring 3 within the gap 12 . If the vibration amplitudes become too great, the mounting bracket 7 acts as a stop.

reference list

1

Elastic bearing

2

inner part

3

suspension spring

4.5

V-shaped suspension spring legs 3

6

base plate

7

mounting bracket

8th

Fixing holes of the fixing bracket 7

10

Mounting bracket spigot 7

11

Openings in the base plate 6

12

Gap between mounting bracket 7 and suspension spring 3

Claims (5)

Elastic bearing (1) for supporting a transmission, an engine or another unit in a motor vehicle, having an inner part (2), a housing (6, 7) and at least one elastic bearing of the inner part (2) against the housing (6, 7). supporting suspension spring (3), wherein the housing (6, 7) or the inner part (2) and the housing (6, 7) are made of plastic material and the housing (6, 7) can be fastened immovably to another component by means of detachable fastening means is, the housing (6, 7) having a base plate (6) and a fastening bracket (7), the fastening bracket (7) consisting of a non-flowing material, the fastening bracket (7) being arranged in such a way that the base plate (6 ) comes to lie at least partially between the fastening bracket (7) and the further component and that the fastening means acting on the fastening bracket (7) together with the fastening bracket (7) can be immovably fastened to the further component, characterized in that the base plate (6) at least one bore (11) and the mounting bracket (7) has at least one pin (10) with a bore (8), the at least one pin (10) of the mounting bracket (7) being inserted into the at least one bore (11) of the base plate ( 6) engages and protrudes through the base plate (6) to such an extent that the pin (10) of the fastening bracket (7) is set back by a predetermined amount in relation to the surface facing the other component or is flush with this surface in order to secure the fastening bracket (7) to brace directly against the other component. Elastic bearing (1) according to claim 1 , characterized in that the base plate (6) is attached to the at least one suspension spring (3) with a part of its surface adhesively, the fastening bracket (7) being designed in such a way that the fastening bracket (7) is not connected to the base plate ( 6) the connected part of the surface is adapted to the at least one suspension spring (3) and encompasses it, and as a result the base plate (6) can be clamped to the other component when it is detachably fastened to the other component, and the at least one suspension spring (3) between the base plate (6) and mounting bracket (7) can be included with or without play (12). Elastic bearing (1) according to claim 1 or 2 , characterized in that the fastening bracket (7) is made of metallic materials. Elastic bearing (1) according to at least one of the preceding claims, characterized in that the fastening bracket (7) and the base plate (6) are connected to one another by means of a position lock, even if the bearing (1) is not fastened to the further component. Elastic bearing (1) according to claim 4 , characterized in that the position securing is formed in that the base plate (6) has at least one pin which protrudes through a corresponding hole in the mounting bracket (7) and is deformable at the end protruding from the mounting bracket (7) in such a way that it cannot slide back through the hole in the mounting bracket (7).

Images