DE4232136A1 - Shock absorber esp. shock strut with inner pipe for axially movable piston rod of piston - has equalising chamber with wider parts, and components such as steering lever, spring plate and or wheel supports. - Google Patents

Abstract

The container pipe (3) has a non-circular cross section and is produced in one casting process together with its components (15,17,19,21) such as steering lever, spring plate or and wheel holder. The container pipe forms, with the inner pipe (9), an equalising compartment (13) which may have extra wider parts (11). Inside the container pipe is a cartridge-type shock absorber fixed by a screw connection and positioned by means of an axial and a radial guide surface. USE/ADVANTAGE - The components form part of the shock absorber so that no welded seams are needed and the container pipe can be of any shape and wall thickness.

Description

The invention relates to a vibration damper according to the Preamble of claim 1.

From German utility model G 90 00 906 it is known that the container tube of a vibration damper local on has expansions that ver the volume of the compensation space should enlarge. It can also be seen from the utility model men that attachments such as the spring plate or the wheel carrier are separate parts that are welded to the container tube. So it is also known that the container tube when The welding process warps when the container tube is not welded all around.

The container tubes manufactured using a forming process necessarily have an essentially constant wall thickness ke. For the attachments that means that their wall thickness on the maximum load in the connection area to the container pipe must be coordinated. This results in an oversize tion of the attachments, which result in an increased weight of the entire vibration damper.

The object of the present invention is a vibration to realize dampers that connect between the Attachments while eliminating the disadvantages of a welded joint tion enables a dimensioning of the Wall thicknesses of the attachments and a high degree allows free design of the container tube.

According to the invention, the object is characterized by the Part of claim 1 solved.

The use of a casting process to make the container terrohres enables the construction of different walls strengthen within the container tube. It results from this Material savings, the considerable weight advantages bring. With the elimination of the welded connections, there is no need the previous leveling work on the container tube. At  the use of aluminum as a casting material can be advantageous the effort for corrosion protection is noticeably be reduced.

In a further embodiment of the invention, the container tube has a cross-section deviating from the circular shape. It enables the installation of the container tube even in tight spaces and unfavorable installation conditions. In the very last conse quenz would be placed on the container tube the condition that take up a straight inner tube of a vibration damper can, the outer contour of the container the installation space is to be adjusted. Are conceivable, for. B. also with container pipes curved central axis.

According to an advantageous subclaim, the cross exists cut from an oval section to which an approximation wise triangular section that essentially of two identical oriented arches Wall areas exist that have a different crumb possess radius. The cross section resembles a wing chenprofil and offers a good use of space the advantage that the air circulating in the wheel arch is targeted can be directed. For example, the water flags education when driving in the rain can be reduced. There is also the possibility of a targeted airflow to the brakes to lead.

In a further advantageous embodiment are stiffening ribs pen on the inner and / or outer wall of the container tube Mistake. As a favorable side effect, the enlarged heat dissipation can be improved.

In an advantageous embodiment, the container forms tube with the inner tube the compensation space, the additional Can have extensions. A common cylinder tube ent falls because the container tube is also a cylinder tube.  

In an alternative embodiment, within the Container tube a vibration damper in cartridge design provided, which is fastened by means of a screw connection is and by radial and axial guide surfaces within the container tube is positioned. It is quite usual that the specification for a vibration damper Interchangeability of the same calls. With this advantageous variant, this requirement can be met.

According to the local extensions and / or Stiffening ribs attached to the container tube so that the moment of resistance for the occurring load cases is as large as possible. This measure is being used of the available installation space.

According to an advantageous subclaim, the container Pipe made of two castings that are liquid-tight with each other are connected. The division of the container tube facilitates significantly the design of the mold, especially for the Die casting process.

The container is a continuation of the inventive concept tube from an upper and a lower container part, which in the Area of the spring plate are connected, the upper Container part, the piston rod guide and a holder for an additional spring. Advantageously, one there is no need for a separate piston rod guide. The division in loading range of the spring plate enables a solid seal a large pitch circle.

The invention is illustrated by the following description of the figures explained in more detail with their advantages.

It shows:

Fig. 1 a / b shock absorber in suspension design with steering lever, wheel carrier and steering lever

Fig. 2a / b / c strut with two compensation spaces and wheel connection

Fig. 3a / b strut with two-part container tube

Fig. 4 container tube with vibration damper cartridge

Figure 5a-e. Cross-section of variants for a container tube.

FIGS. 1a and 1b show a damper 1 in strut embodiment is composed of a container tube 3, the geneva EADERSHIP to the piston rod-outlet side by a piston rod 5, and is completed at the opposite end by a bottom 7 to a closed container. An inner tube 9 is mounted concentrically within the spring strut, forming an equalizing space 11 with the container tube 3 . In Fig. 1a you can see an extension 13 of the container tube 3 , the volume of the compensation mes 11 significantly increased. Furthermore, the container terrohr 3 includes a spring plate 15 and a steering lever 17 , all of which are integrally cast with the container tube 3 . In addition Lich, the container tube 3 has a molded axle support 19 with an eye connection 21st The entire container is closed by a screw cap 23 , which allows the vibration damper 1 to be removed at any time. The function of a vibration damper 1 is well known, so that a functional description can be dispensed with.

As can be seen from the figure, the wall thickness of the container tube 3 was adapted to the loads occurring in the respective areas. For example, the wall thickness in the connection area 25 of the axle support 19 to the container tube 3 is made slightly reinforced. The same procedure was followed for the bearing bush 29 in the cylindrical part 27 of the axle support 19 .

As a casting process for a vibration damper 1 of the type described is suitable, among other things, the mold process, but the die casting process is particularly interesting for large-scale production. No great demands are placed on the surface quality, so that post-processing of the cast container tube 3 is very small.

FIGS. 2a to c illustrate that there are 3 diverse possibilities for the design of the container tube. This strut has two extensions 13 a / b of the container tube 3 , both of which are used to increase the usable oil volume. The extension 13 a of the container tube 3 on the wheel carrier 31 also takes on the function of increasing the section modulus. It is also worth mentioning that the second compensation space 11 b for the container tube 3 also means an increase in the load capacity. The second compensation space 11 b can be placed at any point on the container tube 3 . Again, a larger wall thickness is provided in the force introduction area 33 of the wheel carrier 31 into the container tube 3 than in the rest of the container tube 3 .

The vibration damper 1 according to FIGS . 3a and 3b clarifies that the container tube main axis does not have to be congruent with the longitudinal axis of the inner tube 9 . Another interesting feature can be seen in the fact that the piston rod guide 5 is part of the container tube 3 , which is divided into two in this variant. The lower part of the container tube 3 a contains a hinge eye 21 , as well as a container tube length section with an extension 13 and the spring plate 15 . The upper part 3 b includes a further Län gene section, which is integrally formed with a piston rod guide 5 . Also in one piece with the piston rod guide 5 is a bracket 35 for an additional spring 37 out. The two container tube parts 3 a / b are connected to one another by screws 39 . A seal 41 prevents the undesirable loss of damping medium.

In Fig. 4, a vibration damper 1 is shown, the container tube 3 receives a vibration damper 1 in cartridge execution. The container tube 3 in turn has all attachment parts 15/17/19 and in the area of the spring plate 15 a threaded connection 43 with the cartridge 45 , which has a flange 47 with a corresponding counter thread. Tool surfaces 49 on the flange 47 allow a problem-free assembly. Radial 51 and an axial 53 guide surfaces for the cartridge 45 are provided in the lower section of the container tube 3 .

FIGS. 5a-5d provide an impression of the Ge staltungsvielfalt a molded container tube 3. Differences arise primarily from the requirements that are placed on the container tube 3 . An execution accordingly Fig. 5a can be produced very easily. To stiffen the container tube 3 stiffening ribs 55 are vorgese hen, which run inside the container tube 3 . Fig. 5b corresponds according to the oval cross section of the embodiment Fig. 5a. Alternatively or in addition to the internal stiffening ribs 55 already described, external ones can also be provided ( FIG. 5c).

To influence the air flow behavior in a wheel case, the cross section was developed in Fig. 5d and 5e starting from an oval 57, the Luftanströmrich device should run from the right to the large transverse axis. The oval cross-sectional part 57 is followed by an essentially triangular cross-sectional portion 59 . The idea behind this measure is to reduce the drag coefficient and the projected area.

The embodiment according to FIG. 5e also has an oval cross-sectional part 57 to which two curved wall regions 61 a / b adjoin, which have different radii of curvature R1 / R2 with the same orientation. The overall cross-section of the container tube 3 , similar to the wing surface, is intended on the one hand to reduce the formation of water mist in the wheel arch and on the other hand to improve the air flow for the brakes.

The versions of the container tubes of Fig. 5 can be in a vibration damper 1 according to FIGS. 1 to 3 as well as use in the cartridges solution.

Claims (9)

1. Vibration damper, in particular a shock absorber, comprising an inner tube in which a piston is axially movably arranged on a piston rod, a compensation space for the inner tube, which has local extensions, add-on parts on the container tube such as steering levers, spring plates and / or wheel carriers, thereby characterized in that the container tube ( 3 ) is produced in a casting process, the attachment parts le ( 15 , 17 , 19 , 21 , 31 ) being made in one piece with the container tube ( 3 ). 2. Vibration damper according to claim 1, characterized in that the container tube ( 3 ) has a cross-section deviating from the circular shape. 3. Vibration damper according to claim 2, characterized in that the cross section consists of an oval Teilbe rich ( 57 ) to which there is an approximately triangular sub-region ( 59 ), which essentially consist of two identically oriented arcuate Wandungsbe range ( 61 a, 61 b), which have a different radius of curvature R1, R2. 4. Vibration damper according to one of claims 1 to 3, characterized in that the container tube ( 3 ) with Ver stiffening ribs ( 55 ) is provided on the inner and / or outer wall. 5. Vibration damper according to claim 1, characterized in that the container tube ( 3 ) with the inner tube ( 9 ) forms the compensation space ( 13 , 13 a, 13 b), which may have additional extensions ( 11 ). 6. Vibration damper according to one of claims 1 to 4, characterized in that a vibration damper ( 1 ) in cartridge design is provided within the container tube ( 3 ), which is fastened by means of a screw connection and by an axial and radial guide surfaces ( 51 , 53 ) within the container tube ( 3 ) is positioned. 7. Vibration damper according to one of the preceding claims, characterized in that the local extensions ( 11 ) and / or stiffening ribs ( 55 ) are attached to the container tube ( 3 ) in such a way that the resistance moment for the occurring load cases is as large as possible. 8. Vibration damper according to claim 1, characterized in that the container tube ( 3 ) consists of two Gußtei len ( 3 a, 3 b) which are connected to each other in a liquid-tight manner. 9. Vibration damper according to claim 8, characterized in that the container tube ( 3 ) consists of an upper and a lower container part ( 3 a, 3 b) which are connected in the region of the spring plate ( 15 ), the upper container part ( 3 b ) the piston rod guide ( 5 ) and a receptacle ( 35 ) for an additional spring ( 37 ).