DE1922277U - VALVE-LESS SHOCK PISTON. - Google Patents

Description

R 26 2 61 / 47a Gbm

Valveless damper piston

The innovation concerns a valveless damper piston for hydraulic and pneumatic shock absorbers as well as springs elements, which has two coaxially arranged flow chambers, which through a central channel with each other are connected and their tangential inlet channels the end faces of the damper piston with the respective flow chamber. The innovation is based on the task of creating a to create valveless damper pistons that allow fine adjustment of the required degree of damping is possible is. According to the innovation, the object set is achieved in that a hollow cylinder is axially adjustable in the central channel is mounted, the axial length of which is greater than the thickness of the partition separating the two flow chambers ,

In addition to the damping behavior of the flow chambers to influence the response speed., the axially adjustable insert between the two flow

chambers advantageously designed so that its outer diameter represents a multiple of the diameter of its central bore and also its axial length is greater than the thickness of the partition between the two flow chambers. With such an application, a large part of the damping medium is displaced from the center of the flow chambers, so that the remainder of the medium contained in the flow chamber is at a greater distance from Center is located, so is much more strongly influenced by the centrifugal force and moreover - faster with tangential inflow starts rotating because the mass to be accelerated is less than if the damping medium would fill the entire flow chamber.

Below is a preferred embodiment of the present Innovation explained in more detail with reference to the schematic drawing; show it:

1 shows a side view of a damper piston in section, FIG. 2 shows a section through FIG. 1 along the line I-I,

3 shows the side view of a damper piston with an adjustable hollow cylinder in section,

Fig. 4 shows a damper piston with adjustable cylinder in Cut.

In the damper piston 1 according to FIGS. 1 and 2, which is attached to a piston rod 13 is attached and on its cylindrical boundary surface has a sealing ring 14, the flow chambers 2 and 3 are arranged coaxially, through a central Channel M-, which can also be designed to be conical can, are connected to each other and have tangential inlet channels 5 and 6, which the flow chambers 2 and 3 with the Connect the respective end face 7 or 8 of the damper piston 1. It is generally sufficient to have one per flow chamber Provide a single tangential channel, but it can be useful e.g. for reasons of symmetrical loading of the damper piston be to arrange several inlet channels evenly distributed per flow chamber.

In order to be able to influence the damping behavior of the flow chambers, an axially adjustable hollow cylinder 9 is arranged in the embodiment according to FIG. 3 instead of the central channel h Extending can be designed differently.

Instead of the hollow cylinder 9, a cylinder 10 is provided in the exemplary embodiment according to FIG. 4, which has a central bore for connecting the two flow chambers 2 and 3 and, like the hollow cylinder 9, is axially adjustable. This ver

position can take place in both cases in a manner known per se, for example by means of a socket wrench or

others
a suitable device. The dimensions of the cylinder 10 are advantageously chosen so that its outside diameter is a multiple of the diameter of the bore 11. The axial length of the cylinder 10 and also of the already mentioned cylinder 9 is expediently chosen so that it is greater than the thickness of the partition 12 between the two flow chambers 2 and 3.

It goes without saying that instead of the axially adjustable cylinder 9 or 10, non-adjustable cylindrical parts can be provided, especially in the case of mass-produced damper pistons, which are detailed from the outset are matched to a desired special damping behavior.

Protection claims

Claims (2)

RA.304 7S1 -12.6-65 protection claims 1. Valveless damper piston for hydraulic and pneumatic shock absorbers and spring elements, the two being coaxial has arranged flow chambers which are connected to one another by a central channel and their tangential Inlet channels connect the end faces of the damper piston with the respective flow chamber, characterized in that that in the central channel (4) a hollow cylinder (9) axially is adjustably mounted, the axial length of which is greater than the thickness of the two flow chambers (2,3) separating Partition (12). 2. Damper piston according to claim 1, characterized in that the outer diameter of the hollow cylinder (10) is a multiple its inside diameter is. This document (öeschfeiöung un <J SchuKonapi.) I « 41 · tvlmti came in «, in the .veic'nl «on d« f v, ι. "!";-.>'I.:h submitted documents ob. Oils "ohlUch""Mleutun ^ <ks Abwsichu.vj Ht nH>"-> t ^ vsu ^ ha, ., Iiiy .., the documents are attached in the AmhoWen, Si "Mnow Je" tef "sit without Nae rtietirtchen tntawe"" geblhmnhel otng WKCbA. A" f Afthae w "" kn hiwwe vmh fc ^ kepten odar Hin " · η Oblichen e ^ htte"