DE3939012A1 - Vehicle shock absorber - has operating cylinder with piston and piston rod, with chambers having inner and outer walls - Google Patents

Abstract

The shock absorber for vehicles has an operating cylinder (1) divided into two operating compartments (2, 3) by a piston (5) fixed to a piston rod (4). The operating cylinder is coaxially enclosed by at least one further compartment. The inner (8) and outer (9) walls of at least one chamber (6) are in one piece and joined by axial bridges. The wall of the operating cylinder is joined to the inner wall by lengthwise bridge pieces. Between the wall (11) of the operating cylinder (1) and the outer wall (9) is at least one bypass (7) running longitudinally. USE/ADVANTAGE - The shock absorber has at least one coaxial outer compartment.

Description

The invention relates to a vibration damper for motor vehicles with a working cylinder, one Dividing the working cylinder into two working rooms a piston rod attached piston, the Working cylinder of at least one other room is coaxially surrounded.

Hydraulic vibration dampers are already known (e.g. DE-PS 34 46 955), in which the working cylinder from a steel tube and the compensation space through a Working cylinder coaxially surrounding jacket pipe represents is. Usually these pipes are through Welding or soldering joined together so that appropriate post-processing is necessary, and that under certain circumstances delays due to the effect of heat stand, so that a corresponding Nachbear processing becomes necessary.

The object of the invention is a vibration damper with at least one coaxial, externally arranged space create, in the warping by welding and their Avoid post-processing and also a cost-effective production are made possible.

To solve this problem, the invention provides see that the inner and outer walls at least one Space formed in one piece and over axially extending Bridges are interconnected.  

It is advantageous in this embodiment that by one-piece execution post-processing by Welding or soldering can be avoided.

According to another essential feature, that the wall of the working cylinder with longitudinal webs the inner wall is connected and formed in one piece.

To produce an outside of the working cylinder arranged bypasses looks a particularly favorable Embodiment before that between the wall of the work cylinder and the outer wall at least one in longitudinal directional bypass is provided, all Walls are formed in one piece. It can be with advantage of between the inner and outer wall divide the space in the longitudinal direction in such a way that at least two separate chambers are formed. Before Part of this is that a chamber as a compensation room and another chamber can be provided as a bypass can. The size of the respective chamber can be such be designed so that a larger for the compensation room and a smaller chamber is provided for the bypass.

An essential embodiment provides that the Wan dung formed as extrusions or extrusions are. In a particularly favorable embodiment, the walls made of aluminum or an aluminum alloy.

According to a further essential embodiment, the Working cylinder inserted in the form of a steel tube. Here, the inner wall or the outer wall of the room be provided with longitudinal webs so that the steel tube on its outer surface can be easily centered.

A particularly favorable embodiment provides that at least one raised, plan on the outside wall extending area is provided, which for Flange-on of aggregates, such as externally controllable Valves, is provided. The advantage is that  raised area over the entire long side of the Outer wall, so that when attaching one or more Valves by creating an appropriate drilling pattern the mounting height of the valves is arbitrary can be.

Preferred embodiments are in the drawing shown schematically.

It shows

Fig. 1 shows a vibration damper in a side view in section,

Fig. 2 cut the vibration damper shown in Fig. 1 in top view,

Fig. 3 is a side view of the vibration damper shown in Fig. 1,

Fig. 4 shows a further variant of a shock absorber with a working cylinder of steel,

Fig. 5 shows another embodiment of a vibration damper, in which a bypass is provided in the compensation space.

The vibration damper shown in Fig. 1 consists essentially of the working cylinder 1 , in which a piston 5 via a piston rod 4 is axially movable th. The piston 5 divides the working cylinder 1 into the upper working space 2 and the lower working space 3rd Coaxially around the working cylinder 1 , the space 6 is provided, the wall through its inner wall 6 and its outer 9, the compensation chamber of the vibration damper bil det. The damping liquid passes through the bottom valve 15 from the lower work area 3 in the room 6 . A bypass 7 is provided between the space 6 and the working cylinder 1 , which bypasses the damping liquid from the upper working space 2 to the damping valve 16 . The bottom valve 15 and the device 17 Befestigungsvorrich seal the lower end of the working cylinder 1 and the outer wall 9 against each other and against the atmosphere. The piston rod guide 18 is inserted in a sealed manner in the upper region of the vibration damper.

In Fig. 2 it can be seen in plan view that the working cylinder 1 , the inner wall 8 and the outer wall 9 are formed in one piece and form the space 6 , the bypass 7 and the working space 2 and 3 respectively. The outer wall 9 and the inner wall 6 are connected to one another via the webs 10 , while the inner wall 8 is connected to the working cylinder 1 via longitudinal webs 12 . The raised area 14 extending over the entire length of the outer wall 9 is used to attach the damping tiles 16 .

In the Fig. 3 in view of the outer wall 9 and the raised portion 14 can be seen, the raised portion 14 is used for mounting the damping valve sixteenth Due to the design of the walls and the associated formation of the working cylinder as well as the space 6 or the bypass 7 , production from aluminum in the form of an extruded part is possible without problems. The sections which are subsequently cut to length are appropriately sealed in their end regions by the fastening device 17 or the piston rod guide 18 and thus form the housing of a vibration damper.

In FIG. 4, a further variant is shown, the space in between the inner wall and the outer wall 8 9 6 formed, while the working cylinder 1 was added as a steel pipe and inside webs over the longitudinal centered 12th Such an embodiment can also be produced in the extrusion process, while the working cylinder is manufactured in the conventional manner as a steel tube and is introduced and sealed into the extrusion.

FIG. 5 shows a further variant in which the wall 11 constitutes the working cylinder 1, while the outer wall 9 forms the space 6 together with the wall 11. The bypass 7 is formed as a longitudinal channel within the space 6 by a special geometry. In the area of the bypass 7 , the outer wall 9 is provided with the raised area 14 , so that after the insertion of the damping valve, the space 6 can be connected to the bypass 7 via the damping valve.

Reference symbol list

1 working cylinder
2 work rooms
3 work space
4 piston rod
5 pistons
6 room
7 bypass
8 inner wall
9 outer wall
10 bridges
11 wall of the working cylinder
12 longitudinal bars
13 steel tube
14 raised area
15 bottom valve
16 damping valve
17 fastening device
18 piston rod guide

Claims (8)

1. Vibration damper for motor vehicles with a working cylinder, a piston dividing the working cylinder into two working spaces and fastened to a piston rod, the working cylinder being coaxially surrounded by at least one further space, characterized in that the inner ( 6 ) and outer walls ( 9 ) at least one space ( 6 ) is formed in one piece and connected to one another via axially extending webs ( 10 ). 2. Vibration damper according to claim 1, characterized in that the wall ( 11 ) of the working cylinder ( 1 ) via longitudinal webs ( 12 ) with the inner wall and is formed in one piece. 3. Vibration damper according to claim 1, characterized in that between the wall ( 11 ) of the working cylinder ( 1 ) and the outer wall ( 9 ) at least one longitudinal bypass ( 7 ) is provided, all walls ( 8 , 9 , 11 ) are formed in one piece. 4. Vibration damper according to claim 1, characterized in that between the inner ( 8 ) and outer wall ( 9 ) arranged space ( 6 ) is divided in the longitudinal direction such that at least two separate chambers ( 6 , 7 ) are formed. 5. Vibration damper according to claim 1, characterized in that the walls ( 8 , 9 and / or 11 ) are designed as continuous cast or extruded parts. 6. Vibration damper according to claim 1, characterized in that the walls ( 8 , 9 and / or 11 ) are made of aluminum or an aluminum alloy. 7. Vibration damper according to claim 1, characterized in that the working cylinder ( 1 ) is inserted in the form of a steel tube ( 13 ). 8. Vibration damper according to claim 1, characterized in that on the outside on the outer wall ( 9 ) at least one raised, flat region ( 14 ) is provided, which is provided for flange mounting of units, such as externally controllable valves.