DE102004006490B3 - Flexible bearing mounting for support of rotating shaft allows limited radial and axial mounting and has three equispaced resilient support blocks between inner and outer rings and has connecting members - Google Patents

Abstract

The three equispaced connecting members (16) are made of an elastic rubber material. They have an axially-projecting V- shaped cross-section and are bonded to the outer ring (12) and the inner ring (14). There are empty spaces (18) between the ends of the connecting members and the three support blocks (20). The blocks are shorter than the connecting members and are connected to the inner ring and to arcuate sliders (24) in contact with the inner surface of the outer ring. The bearing housing has upper (38) and lower (34) half-shells fastened together.

Description

The The invention relates to a Stütranordnung to axially and radially resilient support of a shaft bearing, in particular a center bearing in the drive train of a motor vehicle.

In DE 38 32 543 A1 (Column 1 lines 12-25) is assumed as the prior art, a central bearing with a purpose serving Stütranordnung having a radially outer support ring, a radially inner support ring and these two support rings interconnecting rubber elastic connecting body in the form of a folding membrane. In this case, a disadvantage of this presupposed support assembly is seen mainly in (Column 1 lines 26-31) that the existing rubber folding membrane due to axial stresses alternately kinked and prone to premature damage, with the result that the entire center bearing must be replaced frequently ,

As a remedy in DE 38 32 543 A1 a bearing is recommended in which the radially outer support ring is formed by a two-part housing and the rubber-elastic connecting body has at least three of the radially inner support ring star-like projecting bearing webs, which are set during radial assembly of the bearing under radial pretension. In order to limit radial deflections of the radially inner support ring, cam-like stops are formed on the radially inner support ring between the webs, which protrude radially outward, also components of the rubber-elastic connecting body are shorter than the prestressed webs. By these attacks should be achieved in the radial direction, a progressive identifier (spring characteristic).

A similar Stütranordnung also provided for a propeller shaft center or intermediate storage, are formed in the cam-like stops of cranks of the radially inner support ring and stop buffers attached thereto, is made of DE 81 12 477 U1 known.

Both out DE 38 32 543 A1 and DE 81 12 477 U1 known support arrangements with radial stops has in common that their radial spring characteristic depends strongly on the axial deflection of the two support rings with respect to each other. The preamble of the present claim 1 relates to the two support arrangements with radial stops mentioned above.

Of the Invention is based on the object, a support assembly of this genus in such a way that they have a long life, in general corresponding to that of a motor vehicle, even then if their attacks made of relatively soft Material exist to occur in all occurring during operation deflections of the Shaft bearing in the axial and / or radial direction Structure-borne sound transmission essentially exclude.

The Task is according to the invention with the features of claim 1. Advantageous developments emerge from the subclaims.

Thereby, that the attacks with sliding bodies are provided, which are almost frictionless on their assigned sliding surfaces in the axial direction and possibly in narrow limits in the circumferential direction can, are the stops as such unable axial relative movements of the two support rings with respect to each other in any way hinder. Therefore, there is a choice of materials for the attacks and in their design complete Freedom, next to the desired Spring characteristic of the stops on their ability to pay attention to the transfer of structure-borne noise to avoid or at least to limit amplitudes and frequencies that not disturbing be felt. In any case, the membrane connecting the connecting body between the two support rings forms, arranged by each in a free space of the membrane attacks and their slider of radial forces essentially relieved, so that the membrane - and thus the entire support assembly - a long Lifespan has.

embodiments The invention will be described below with reference to schematic drawings further details explained. In the drawings show:

1 a first support arrangement in axial view,

2 the axial section II-II in 1 .

3 a second support arrangement in axial view,

4 the axial section IV-IV in 3 .

5 a third support arrangement in axial view,

6 the axial section VI-VI in 5 .

7 a fourth support arrangement in axial view,

8th the axial section VIII-VIII in 7 .

9 a fifth support arrangement in axial view,

10 the axial section XX in 9 .

11 a sixth support arrangement in axial view,

12 the axial section XII-XII in 11 and

13 a slider out 11 and 12 taken individually in a view radially from the inside.

Each of the support arrangements shown is as a whole with 10 designated and provided for axially and radially resilient support of a commercial rolling bearing, not shown, which serves as a center bearing in the drive train of a motor vehicle. Each of the illustrated support arrangements 10 has a radially outer support ring 12 and a radially inner support ring 14 , Both support rings 12 and 14 are preferably made of steel and are connected together by a connecting body 16 made of rubber. The connecting body 16 has the shape of a folding membrane, but through several open spaces 18 interrupted and thus divided into just as many web-like sections. In all embodiments shown here, the connecting body 16 forming folding membrane three free spaces 18 and accordingly three web-like sections, each of which is about 60 °, relative to the at rest common axis A of the two support rings 12 and 14 , extends. In each of the three open spaces 18 is a stop 20 arranged in rubber, as well as the connecting body 16 to the radially inner support ring 14 vulcanized, but in contrast to the connecting body from the radially outer support ring 12 is disconnected. The arrangement may also be reversed such that the stops 20 with the outer support ring 12 are firmly connected, for example, by scorching, from the inner support body 14 but are separated.

The attacks 20 are designed differently in the individual embodiments. In the support assembly according to 1 and 2 they are made of solid rubber (or rubbery material). In the support arrangements according to 3 and 4 and according to 5 and 6 show the attacks 20 however, two rows of three or four paraxial channels 22 on. According to 3 and 4 the channels extend 22 completely through the stops 20 through, so from one end face to the other. According to 5 and 6 go the channels 22 but alternately from one or the other end of the attacks 20 from, expand with increasing distance from the relevant end face and end in front of the opposite end face; the channels 22 So here are blind holes, according to the longitudinal section 6 look like a club. In any case, have the paraxial channels 22 the effect of excluding the transmission of structure-borne sound in the radial direction almost completely even when the attacks 20 Made of not very soft rubber.

Each of the stops 20 ends at a radial distance from the outer support ring 12 and carries a firmly connected with him slider 24 , which consists for example of polyamide, possibly with inclusions of polytetrafluoroethylene. The sliding bodies 24 are fixed on their inner side with the associated stop 20 connected, for example, vulcanized, and have on its radially outer side a circular cylindrical curved peripheral surface 26 on.

In the support arrangements 10 according to 1 and 2 and according to 3 and 4 and according to 5 and 6 lies each of the sliding bodies 24 with its peripheral surface 26 in the illustrated mutually centered rest position of the two support rings 12 and 14 on a sliding surface 28 on the inside of the radially outer support ring 12 at. It can be between each of the peripheral surfaces 26 and the associated sliding surface 28 a bias prevail at the usual load on the inner support ring 14 , For example, by the weight of a stored shaft portion in it, if desired, but also in all occurring during operation dynamic loads, ensures that the system of each slider 24 at the associated sliding surface 28 preserved.

In the 7 and 8th illustrated support assembly 10 has compared to the support arrangements described so far the special feature that everyone on the inner support ring 14 fixed stop 20 including the corresponding slider 24 a at the radially outer support ring 12 fixed stop 30 including the corresponding slider 32 facing radially. The sliding bodies 32 are preferably made of the same or similar material as the slider 24 , The radially outer peripheral surface 26 each a radially inner stop 20 associated slider 24 again lies on a sliding surface 28 attached to the outer support ring 12 is assigned, this sliding surface 28 but not on the outer support ring 12 but on one of the sliding bodies 32 is formed, over one of the stops 30 with the outer support ring 12 are connected.

In each of the illustrated embodiments, the radially outer support ring 12 on a lower half of the housing 34 attached, for example with some welds 36 , The lower half of the housing 34 is according to 1 an upper half of the housing 38 assigned, which may for example be part of a floor assembly of a motor vehicle. The two housing halves 34 and 38 together form a bearing housing 40 by the screws indicated in the drawings only 42 is held together.

The Stütranordnung according to 9 and 10 corresponds to the in 1 and 2 shown with the exception that between the radially outer peripheral surface 26 every slider 24 and the associated, on the radially outer support ring 12 trained sliding surface 28 a radial game 44 is provided. In addition, this sliding surface 28 not from a metal surface of the radially outer support ring 12 formed but of a coating 45 this support ring 12 , which may consist of the same or similar material as the sliding body 24 ,

The Stütranordnung according to 11 to 13 is different from the one in 1 and 2 represented by the fact that the slider 24 two mutually bent legs 46 and a narrow web connecting them together 48 exhibit. The thigh 46 and the jetty 48 are in the associated stop 20 embedded, for example, vulcanized. To fix each of these in 11 to 13 shown slider 24 During vulcanization, a pair of pins are provided in the vulcanizing mold used for this purpose, after removing the finished Stütranordnung 10 in 11 indicated holes 50 leave behind. However, it is also possible to ensure that the vulcanization only in the attacks 20 Recesses for receiving a slider 24 arise, which then later in the associated stop 20 anchored. For this purpose, the in 13 shown slider 24 , provided its footbridge 48 is interrupted, for example, in a plane after the installation of the slider 24 the axis A of Stütranordnung 10 contains.

Claims (9)

Stütranordnung for resilient support of a shaft bearing, with - a radially outer support ring ( 12 ) housed in a bearing housing ( 40 ) is to be arranged, - a radially inner support ring ( 14 ), in which the shaft bearing can be installed, - a connecting body ( 16 ) made of rubber-elastic material, the inner support ring ( 14 ) Radially and axially elastically deflectable with the outer support ring ( 12 ), and - at least two cam-type stops ( 20 ) attached to one of the two support rings ( 12 . 14 ) and the other support ring ( 14 . 12 ), characterized in that - on one of the support rings ( 12 . 14 ) fixed stops ( 20 ) one sliding body each ( 24 ), - on the other of the two support rings ( 14 . 12 ) Sliding surfaces ( 28 ) are arranged, each one of the sliding body ( 24 ), and - the connecting body ( 16 ) is a folding membrane, in which for each of the attacks ( 20 ) together with associated slider ( 24 ) a free space interrupting the folding membrane ( 18 ), - the attacks ( 20 ), Sliding bodies ( 24 ) and sliding surfaces ( 28 ) are designed so that they the radial deflectability of the inner support ring ( 14 ) limit, the axial deflectability but do not hinder significantly even with the greatest possible radial deflection. Stütranordnung according to claim 1, characterized in that the stops ( 20 ) on one of the support rings ( 14 ) are vulcanized rubber body. Support arrangement according to claim 1 or 2, characterized in that the stops ( 20 ) axis-parallel channels ( 22 ) contain. Stütranordnung according to claim 3, characterized in that the channels ( 22 ) in the axial direction through the relevant stop ( 20 ) go through. Support arrangement according to claim 3, characterized in that the channels ( 22 ) of one end of each stop ( 20 ) and end before the opposite end face. Stütranordnung according to claim 5, characterized in that the channels ( 22 ) expand with increasing distance from the face from which they originate. An assembly according to any one of claims 1 to 6, characterized in that each of the inner support rings ( 14 ) fixed stop ( 20 ) together with associated slider ( 24 ) on the outer support ring ( 12 ) fixed stop ( 30 ) together with associated slider ( 32 ) is radially opposite, so that for each sliding body ( 24 ) the slider facing him ( 32 ) the associated sliding surface ( 28 ). Stütranordnung according to one of claims 1 to 7, characterized in that the stops ( 20 . 30 ) are biased in the radial direction. Stütranordnung according to any one of claims 1 to 8, characterized in that the outer support ring ( 10 ) on a housing half ( 34 ) of the bearing housing ( 40 ) is permanently attached.