DE4010982A1 - Upper mounting for suspension strut - incorporates angled bellows mounting using sprung lower plate - Google Patents

Abstract

The upper end of the suspension strut is attached to the vehicle by an angled fitting including a bellows type elastic diaphragm. The bottom of an elastic sandwich which is fitted to the body of the suspension strut. The elastic filling allows some flexing of the bellows mounting and prevents undue wear. The bottom plate (11) of the mounting is rigidly attached to the body (9) of the suspension strut, at an angle to the strut. As the suspension is put under strain the elastic filling flexes and reduces the strain on the bellows, which contains the pneumatic cushion. USE/ADVANTAGE - Longer life suspension mounting, simple mounting.

Description

The invention relates to a shock absorber, especially for motor vehicles, the type mentioned in the preamble of claim 1, as is known for example from EP-OS 02 10 553, Fig. 4.

A strut assembly for motor vehicles, the telescopic shock damper in its upper area with its piston rod the vehicle body or the like. Movable and in its lower Be rigid area over his container tube on a wheel carrier is known to be generally one from the wheel riot force generated bending moment, by which the piston rod of the telescopic shock absorber depending on its length and your Cross section more or less stressed on bending becomes. On the piston rod guide and on the piston itself thereby effective transverse forces, which corresponding clamping and Frictional forces in the shock absorber cause the response the shock absorber and the suspension on smaller bumps complications or even prevent, which makes the Fahrkom continues to deteriorate because the road bumps are then unsprung or transmitted undamped to the vehicle body.

To remedy these shortcomings, it is common to use the spring of the To position the strut so inclined that the spring axis runs obliquely to the damper's longitudinal axis, which makes the disturbing  Shear force compensating spring force is generated. The Weird position is determined by a corresponding inclination of the with the Piston rod connected upper spring plate reached on the the spring is supported at one end or on the one in use a bellows air spring, the bellows is attached at one end.

In known arrangements, the lower end of the beveled put spring during compression and rebound relative to the upper End of the spring moved transversely. This cross shift must be compensated for by the bellows, which ver is formed. An additional deformation of the bellows at an angle or deteriorate transversely to its structural direction of loading not only affects its own spring behavior, but also affects it also increases the lifespan of the bellows.

The invention is therefore based on the object of a shock absorber the type mentioned in the preamble of claim 1 fen, which is characterized both by good natural spring behavior and characterized by a comparatively long service life.

This object is achieved by the features of the patent claim 1 solved. An advantageous embodiment and further education of the invention is specified in the dependent claim.

According to the invention, the bellows on the container tube of the Telescopic shock absorber carried by a lower spring plate, which is not rigid, but so resilient on the container Terrohr the telescopic shock absorber is attached that the original existing parallelism and concentricity between the upper and lower spring plate at least when compressing and rebounding remains approximately the same.

Based on an embodiment shown in the drawing the invention is explained in more detail below.  

Show in the drawing

Fig. 1 shows a partial longitudinal section through the bearing, the air spring top end of a suspension strut,

Fig. 2 is a view into the interior of the air spring in Rich direction of the arrow II and

Fig. 3 an effective triangle of forces on the strut.

The shock absorber 1 that can be used, for example, for the suspension of the steerable front wheels of a motor vehicle contains a telescopic shock absorber 2 , the piston rod of which is numbered 6 and the container tube receiving the damper tube is numbered 9 . The end of the telescopic shock absorber on the piston rod side is enclosed by a bellows air spring 3 , which is supported at one end by a cup-shaped upper spring plate 5 on the piston rod 6 and at the other end by a cup-shaped lower spring plate 7 on the container tube 9 . The two cup-shaped spring plates are connected to one another by a bellows 4 which seals the air spring to the outside in a gas-tight manner.

The upper spring plate 5 fastened to the piston rod 6 is arranged at an incline such that the spring axis B of the bellows-air spring 3 extends obliquely to the longitudinal axis A of the damper.

The lower spring plate 7 is spatially oriented such that it is at least approximately parallel and concentric to the upper spring plate 5 at normal vehicle load, that is, in the so-called construction position.

If the lower spring plate 7 were rigid in the usual way, for example by welding to the container tube 9 , then a certain lateral offset of the lower spring plate 7 relative to the upper spring plate 5 would inevitably occur during compression, which would result in a corresponding transverse deformation of the rolling bellows. In Fig. 1 a corresponding deflection is indicated by dotted lines, the spring-loaded container tube with 9 ', the deflected with this lower spring plate with 7 ' and the then assumed spatial position of the lower end of the bellows with 4 '.

The lower spring plate 7 is now not rigid, but is attached to the container tube 9 with the interposition of a rubber-elastic thrust spring arrangement 8 , which is arranged and dimensioned such that the lower spring plate 7 is moved proportionally to the spring deflection of the damper transversely to the container tube 9 . In a fancy way can be ensured by appropriate dimensioning of the rubber-elastic shear spring arrangement that the lower spring plate 7 is always approximately concentric and parallel to the upper spring plate 5 over the entire spring travel and thus the rolling bellows 4 remains in its design direction of loading.

The rubber-elastic thrust spring assembly 8 contains an upper fastening plate numbered 10 , a lower fastening plate 11 arranged at a parallel distance therefrom and, between these two fastening plates, approximately plate-shaped element 13 made of rubber-elastic material, which is vulcanized onto both fastening plates.

While the lower fastening plate 11 is welded to the container tube 9 , the upper fastening plate 10 is connected to the lower spring plate 7 by a weld seam running around its outer edge area. It is important that these welds are airtight or gas-tight.

Both in the lower spring plate 7 and in the upper fastening supply plate 10 and the rubber-elastic element 13 of the thrust spring arrangement 8 , mutually corresponding slot-like recesses are arranged, each of which is penetrated with play by the container tube 9 and whose longitudinal axis C in the direction of relative to the container tube 9th From soft movement of the lower spring plate 7 takes place.

The hidden in the non-cut part of Fig. 1 long holes 12, 14 of the upper mounting plate 10 and the lower spring plate 7 of Fig. 2 are clearly visible in the detail display.

As already stated above, the connection between the container tube 9 and the lower fastening plate 11 on the one hand and between the upper fastening plate 10 and the lower spring plate 7 on the other hand must be gas-tight in order to ensure that the gaseous pressure medium air of the bellows air spring 3 cannot escape to the outside through these connection points.

Claims (2)

1.Spring ( 1 ), in particular for motor vehicles, with a telescopic shock absorber ( 2 ) and a roll bellows air spring ( 3 ) enclosing it with a spring axis ( B ) deviating from the longitudinal damper axis ( A ), the roll bellows ( 4 ) at one end of an upper spring plate ( 5 ) is attached, which on its side - at an angle to the longitudinal axis of the damper ( A ) - is attached to the damper piston rod ( 6 ), characterized in that the bellows ( 4 ) at the other end is at least approximately parallel and concentric to a vehicle under normal load (construction position) Upper spring plate ( 5 ) aligned lower spring plate ( 7 ) is fixed and that the lower spring plate ( 7 ) in turn with the interposition of a rubber-elastic thrust spring arrangement ( 8 ) so resiliently attached to the container tube ( 9 ) of the telescopic shock absorber ( 2 ) that the parallelism and concentricity between the upper and lower spring plates ( 5 , 7 ) also when inserting and exiting which is at least approximately preserved. 2. A strut according to claim 1, characterized in that the thrust spring arrangement ( 8 ) has a lower fastening plate ( 11 ), an upper fastening plate ( 10 ) arranged at a parallel distance therefrom, and an approximately plate-shaped element vulcanized between the two fastening plates ( 10 , 11 ) ( 13 ) made of rubber-elastic material, which are pierced by the container tube ( 9 ),
that the lower fastening plate ( 11 ) with the container tube ( 9 ) and the upper fastening plate ( 10 ) - in their outer edge region - with the lower spring plate ( 7 ) are each gas-tight,
and that in the lower spring plate ( 7 ), in the upper fastening supply plate ( 10 ) and in the rubber-elastic element ( 13 ) each one of the container tube ( 9 ) with play penetrated slot-like recess ( 14 , 12 ) is arranged, the longitudinal axis ( C ) in Evasion direction of the container tube ( 9 ) runs.