DE19501311A1 - Shock absorber with container tube - Google Patents

Abstract

The container tube (1) of a shock absorber has a bottom supported valve, and an operating cylinder. A fastening eyelet (4), or pin is fitted at one end of the container tube. The fastening end of the tube has a tapered section with several conical partial sections (2,3). Pref. the fastening eyelet, or pin, is directly coupled to the tapering section (3) of the tube. The dia. of the first tapering section (2) is so reduced that only space for the bottom valve function remains. The second partial section may enclose an angle of 65 deg. with the axis (5) of the container tube.

Description

The invention relates to a vibration damper with a container tube, a working cylinder and a Bo supported on the container tube denventil, an attachment eye or at one end of the container tube a mounting pin is attached.

Vibration dampers are already known (Reimpell, Fahrwerktechnik 1974, Page 42), in which the container tube is supported on a weld-in base and wherein a bottom valve is arranged on the inside of the container tube again the working cylinder is held so that between the working cylinder and a compensation space is created for the container tube. In this embodiment Weld-in floors are used, their wall thickness in contrast to the working cylinder and container tube has a thicker material. On this way the necessary section modulus in the axial direction achieved.

Vibration dampers are also known (e.g. DE-GM 92 08 620, GB- PS 704.671), each of which represents a single-tube shock absorber without a bottom valve  is posed. The tube ends are each drawn spherically, so that a smaller pipe inside diameter can be achieved by using a Ground is welded or the welding area is reduced accordingly, in order to keep the heat generated during welding as low as possible. The The problem of the support for a valve bottom has in these embodiments failed.

The object of the invention is a vibration damper with a container to design the pipe so that the container pipe does not have a separate base, the section modulus of the container tube not in the axial direction is reduced.

To solve this problem, the invention provides that the loading fastening end of the container tube by at least two conical extending portions is tapered.

It is advantageous in this training that by reshaping the pipe end Bottom can be omitted, the design of the pipe end in this way is formed that the section modulus is increased in the axial direction and stiffening of the pipe end can thus be achieved.

Another embodiment provides that the mounting eye or the loading Fixing pin connected directly to the tapered section of the container tube that is.  

According to a further advantageous embodiment, the first conical is blue Fende sub-area tapered in diameter so far that only for the functi enough space remains on the bottom valve.

According to a further feature, the second conical section runs approximately at an angle of 65 ° to the longitudinal axis of the container tube. Serves with advantage the inner wall of the second conical portion of the support of the bottom valve. The advantage here is that in the area of the bottom valve support due to the contour of the container tube an increase in rigidity and a Minimization of the bending moment has been achieved. It can be done easily support the working cylinder on the bottom valve.

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

It shows

Fig. 1 shows an assembly of the container tube and mounting eye in section

Fig. 2 as a detail the end region of a container tube together with the mounting eye, the bottom valve and the working cylinder, in section.

The vibration damper shown in Fig. 1 consists essentially of the container tube 1 , the mounting eye 4 , here also a fastening supply pin with thread is conceivable, the other parts of the vibration damper are not shown.

The end region of the container tube 1 is provided with a first conical region 2 and a second conical region 3 . The fastening eye 4 is welded to the retracted, open end of the container tube following this manufacturing operation.

The first conical section 2 preferably extends approximately at an angle of 15 ° to the longitudinal axis 5 of the container tube 1 . The second ko nically extending portion 3 extends approximately at an angle of 65 ° to the longitudinal axis 5 of the container tube 1 , so that a substantial increase in the resistance element in the axial direction is achieved by a triple gradation of the raw end of the container tube 1 .

In Fig. 2, an embodiment is shown in which the container tube 1 is again provided with the tapered portions 2 and 3 , wherein the bottom valve 7 is supported on the inner wall 6 of the tapered portion 3 . The bottom valve 7 carries the Arbeitszy cylinder 8th

Due to the corresponding contour in the conical portion 3 , on which the bottom valve rests, an increase in the rigidity and a minimization of the bending moment has been achieved, so that an increase in the fatigue strength can be expected at the same time.

Reference list
1 - tank pipe
2 - partial areas
3 - sub-areas
4 - mounting eye
5 - longitudinal axis
6 - inner wall
7 - bottom valve
8 - working cylinder

Claims (5)

1. Vibration damper with a container tube, a working cylinder and egg nem supported on the container tube bottom valve, wherein at one end of the container tube a fastening eye or a fastening pin is attached, characterized in that the fastening end of the container tube ( 1 ) by at least two tapered portions ( 2 and 3 ) is tapered. 2. Vibration damper according to claim 1,
characterized,
that the mounting eye ( 4 ) or the mounting pin is directly connected to the ver young portion ( 3 ) of the container tube ( 1 ). 3. Vibration damper according to claim 1, characterized in that the first conical portion ( 2 ) is tapered in diameter so far that there is only enough space for the function of the bottom valve. 4. Vibration damper according to claim 1, characterized in that the second tapered portion ( 3 ) extends approximately at an angle of 65 ° to the longitudinal axis ( 5 ) of the container tube ( 1 ). 5. Vibration damper according to claim 1, characterized in that the inner wall ( 6 ) of the second conical portion ( 3 ) from the support of the bottom valve ( 7 ) is used.