DE19729290C2 - Hydraulically damping rubber bearing - Google Patents

Description

The invention relates to a hydraulically damping rubber bearing, best starting from an inner tube, one concentric or eccentric thereof with Ab stood arranged outer tube and inserted rubber part, in which at least two hydraulically connected damping agent-filled Chambers are arranged, in each of which a stop body is arranged, the stopper body having a flow connection Element are connected to each other, the element has a radial open groove on the outside and is so on the inside of the outer tube orders that the groove together with the inside of the outer tube the Strö connection forms.

Such rubber bearings are already known (e.g. DE 36 17 787 C2), in which the chambers are provided with stop bodies and where the flow connection between the two chambers arranged in a rigid element is not. Since the rigid element is arranged to run over the entire circumference net, it is necessary to mount this element in the outer tube of a part development. The element must therefore be formed in two parts. Because the element  is arranged over the entire circumference of the outer part and on both Ste gene of the rubber part must be held in a disadvantageous manner with radial bela conditions of the warehouse on the one hand with a lack of durability and on the other hand, with an overflow of the damping means between the web of the rubber part and the element.

Such rubber bearings are also known (e.g. EP 0.656.487 A1), at which arranged a flow connection between the two chambers is. The element having the flow connection is an opening one Component formed, the flow connection in the put together ren end portion of the element is arranged. The flow connection leaves thus only form up to straight into the respective chamber, so that longer channel lengths due to the design of the stop body are executable. The flow connection runs on the inner wall element.

In addition, rubber bearings are known (z. B. DE-PS 27 55 117) on a outer bearing sleeve and one held by an elastomer body inside NEN inner part, the elastomer body above and below the Has inner part recesses as suspension space. The possibility of one hydraulic damping by damping means is in this embodiment not provided. The metallic inner part is on one of the recesses towards the adjacent outside with a longitudinal direction provided in which an elastic stop body is inserted.

Furthermore, hydraulically damping rubber bearings are known (e.g. DE-PS 38 18 287), where outside the damping agent-filled chamber stop body  are provided. This stop body require a corre spond appropriate space requirement, which is not available in all installation situations, so that in such cases use other design solutions must become.

The object of the invention is to provide a hydraulically damping rubber mount create an inexpensive stop body and a manufacturing technically simple flow connection is provided and in addition the friction or the friction noise between the stop body and against if necessary, an existing counterstop can be minimized.

To solve this problem, the invention provides that the element is formed in one piece and rigid, the element over its axial length has an opening whose clear width is larger than the diameter of the Inner tube is.

It is advantageous here that the stop body together with the element the vulcanization of the rubber part on the inner tube as a complete unit can be assigned to the further assembly process.

According to another essential feature, it is provided that the stop body are fixed in the outer area on the inside of the element. in this connection is advantageous that the friction diameter is small and thus the friction or the friction noise between the stop body and the correspond the associated stop can be minimized.  

According to a manufacturing technology simple embodiment it is provided that the element has projections in the region of the opening, that of the support serve on the rubber part. The advantage here is that the projections on Support the rubber part so that the element is pretensioned on the outer tube is present, so that an exact cross section of the flow connection is retained.

A captive unit can be achieved in that the stop body and the element are integrally formed.

Another embodiment provides that the stop body is larger Have hardness than the rubber part. The advantage here is that by the under different material pairing high radial forces from the stop body permanent can be recorded in cash.

In a further advantageous embodiment, the stop body and / or the Element made of plastic and / or hard rubber and / or metal.

Another embodiment provides that the inner part with elastic front jumps is provided, which work together with the stop bodies. The elastic projections can be used together with the rubber part apply directly to the inner tube in one operation. It's just one Appropriate design of the vulcanizing mold is necessary around the projections to be able to manufacture.

A further embodiment provides that the stop body with an increase hung and / or depressions provided surface. It is advantageous here that both through the choice of plastic material and the surface  the friction can be minimized. To make up and down lead, there are harmoniously corrugated surfaces with closed pockets on (similar to golf ball surface), so that when the rubber part comes into contact with a Damp plastic stopper in these ridges or depressions tion fluid can be included, so that this way via a hy drostatic effect the friction is also minimized.

Preferred embodiments of the invention are shown in the drawings represented mathematically.

It shows:

Fig. 1 and 2, a hydraulically damping rubber bearing in section with au two refracting external stop elements made of plastic

Fig. 3 two stop body as a single part

Fig. 4-6 a further embodiment of a rubber bearing.

The hydraulically damping rubber bearing shown in FIGS. 1 and 2 consists of an inner tube 1 and an outer tube 2 arranged concentrically at a distance therefrom, the rubber part 3 inserted therebetween having chambers 4 and 5 filled with damping means. This filled with damping Kam Kam 4 and 5 are hydraulically connected to each other, the rubber part 3 is permanently attached to the inner tube 1 and firmly connected to the outer tube 2 .

The chamber 4 , like the chamber 5 , each have a stop body 6 and 7 , which is arranged directly on the outer tube 2 , the stop body 6 and 7 being connected to one another via an element 8 . The stop body 6 and 7 are integrally formed with the element and designed in wesentli Chen U-shaped, so that after vulcanization of the rubber part 3 on the inner tube 1 , the stop body 6 and 7 together with the element 8 in the loading area of the chambers 4 and 5 can be inserted sideways before the outer tube 2 is mounted.

To form a helical flow connection 9 both in the impact bodies 6 and 7 and in the element 8, a groove is arranged on the outer surface, which together with the inner wall of the outer tube 2 limits the flow connection 9 . Not only can annular flow connections 9 be made here, but also meandering grooves, so that the length of the flow connection 9 can be varied, depending on the geometry of the groove on the outer surface of the stop bodies 6 and 7 or the element 8 .

The stop body 6 and 7 are made of plastic or a similar material with a greater hardness than the projections 10 , so that depending on the choice of material pairing, a corresponding damping characteristic can be achieved. In this embodiment, the projections 10 are formed together with the vulcanization of the rubber part 3 and have the same surface material quality as the rubber part 3 .

2, right half of the figure , a bypass connection 11 is provided parallel to the flow connection 9 , a check valve 12 in the form of a rubber lip allowing the damping means to pass only from a certain excess pressure. The rubber lip can be formed symmetrically or asymmetrically, so that the check valve can be effective in both flow directions or single Lich in a single flow direction.

To reduce friction noise or additional damping properties, the surface of the stop body 6 or 7 or the projections 10 is provided with increases and / or depressions, so that damping agent can be stored here.

In Fig. 3, a component is shown as an individual part, which combines the two impact bodies 6 and 7 and the flow connection 9 into a single component. The element 8 containing the flow connection 9 has the stop bodies 6 and 7 at both ends, the stop bodies 6 and 7 being diametrically opposite.

In FIGS. 4-6, an embodiment is shown which has, in contrast to Fig. 2 and 3, an element 8, which is provided with projections 13. The projections 13 are supported on the rubber part 3 , so that a bias is generated which acts in the direction of a radial increase in the outer diameter of the elements 8 . By this bias, the flow connection 9 remains dimensionally stable, in which a contact force constantly acts in the direction of the inner wall of the outer tube 2 . The rubber part 3 can also be provided with a reinforcement 15 on which the projections 13 are supported .

From Figs. 3 and 5 it can be seen that the element 8 is substantially U-shaped, with the inside width of opening 14 is larger than the outer diameter of the inner tube 1, if appropriate also arranged on the inner tube stops, so that the mounting of the one-piece rigid element 8 , before inserting the assembly into the outer tube 2 , can easily be done by streaking. Since the flow connection 9 is provided on the outside of the element 8, the entire circumferential length can take advantage of the 8 th elemene.

LIST OF REFERENCE NUMBERS

1

inner tube

2

outer tube

3

rubber part

4

chamber

5

chamber

6

stop body

7

stop body

8th

element

9

flow connection

10

projections

11

Bypass

12

check valve

13

projections

14

opening

15

reinforcement

Claims (8)

1. Hydraulically damping rubber bearing, consisting of an inner tube, egg nem concentrically or eccentrically spaced outer tube and interposed rubber part, in which at least two hydraulically connected damping agent-filled chambers are arranged, in each of which a stop body is arranged, the stop body over an element having a flow connection are connected with each other, the element has a radially open groove and is arranged on the inside of the outer tube such that the groove forms the flow connection together with the inside of the outer tube, characterized in that the element ( 8 ) is made in one piece and rigid, the element ( 8 ) having an opening ( 14 ) over its axial length, the clear width of which is greater than the diameter of the inner tube ( 1 ). 2. Rubber bearing according to claim 1, characterized in that the stop body ( 6 , 7 ) in the outer region on the inside of the element ( 8 ) are fixed. 3. Rubber bearing according to claim 1, characterized in that the element ( 8 ) in the region of the opening ( 14 ) has projections ( 13 ) which serve to support the rubber part ( 3 ). 4. Rubber bearing according to claim 1, characterized in that the stop body ( 6 , 7 ) and the element ( 8 ) are integrally formed. 5. Rubber bearing according to claim 1, characterized in that the stop body ( 6 , 7 ) has a greater hardness than the rubber part ( 3 ). 6. Rubber bearing according to claim 1, characterized in that the stop body ( 6 , 7 ) and / or the element ( 8 ) are made of plastic and / or hard rubber and / or metal. 7. Rubber bearing according to claim 1, characterized in that the inner tube ( 1 ) is provided with elastic projections ( 10 ) which cooperate with the stop bodies ( 6 , 7 ). 8. Rubber bearing according to claim 1, characterized in that the stop body ( 6 , 7 ) has a surface provided with elevations and / or depressions.