The present invention is directed to a cylinder unit with bottom having a seal accommodated in an annular groove.
A vibration damper, the outer cylinder of which has a separate bottom connected to the cylinder via a positive engagement connection, is known from DE 10 2014 202 201 A1, the content of which is incorporated herein in its entirety by reference. To ensure sufficient tightness, a sealing ring is used which is accommodated in an annular groove of the bottom. A groove base and groove side surfaces are both formed by the bottom. Basically, this principle of construction has high loadability and tightness. A disadvantage consists in the comparatively short service life of the tool used for the bottom.
DE 10 2007 024 336 A1 describes a vibration damper with a welded-in bottom. The bottom forms a pressure-tight joint with the cylinder. In order to prevent dirt from entering, the bottom is outfitted with a disk-shaped component part which, together with an end region of the cylinder, forms a collecting space for dirt. A seal bounds the collecting space and is held by the disk-shaped component part. The seal need only perform a sealing function to prevent particles from penetrating for the time period during which welding is carried out. After the welding, the sealing function is no longer required. Therefore, the collecting space can also be provided with a through-opening which connects the collecting space to a gas space. In view of the merely limited demand for the sealing function, an annular groove in which the seal is accommodated is also not so meticulously constructed. Both the groove base and the groove side surfaces are formed by the disk-shaped component part.
An object of the present invention is to overcome the production problem known from the prior art relating to the annular groove.
This object is met in that the bottom forms a first groove side surface of the annular groove and the disk element forms a second groove side surface of the annular groove.
The bottom is effectively divided into an outer bottom and an inner bottom such that there are, in each instance, open groove areas of the annular groove which can be produced very simply without radial offsets.
Advantageously, the disk element forms a groove base of the annular groove. The disk element has a lower material strength than the bottom or outer bottom. Consequently, there is less shaping effort for the thinner part than for the inner bottom. Further, a rather flat geometry is preferred on the outer side in order to facilitate welding of an annular eye to the bottom.
In designing the annular groove, it was determined that the preloading on the sealing ring is improved when the annular groove has a trapezoidal cross section.
For the purpose of a minimum possible material thickness of the disk element, it is provided that the disk element is connected over its entire surface area to the bottom radially inside a groove base of the annular groove. The outer bottom serves as supporting element for the disk element.
In a further advantageous configuration, the disk element is adapted to a conical inner profile of the bottom. This achieves several advantages. For one, the disk element is centered very easily relative to the outer bottom during assembly. On the other hand, a trapezoidal annular groove cross section can be achieved very simply in combination with the disk element through the conical inner profile which forms the groove side surface at the edges.
For the sake of a simple production of a constructional unit of outer bottom with inner bottom, the disk element comprises a weldable material and is at least spot welded to the bottom. The weld does not experience high loading, since an operating pressure inside of the cylinder unit brings about a hold-together force in the assembled state of the bottom. The welding need merely ensure that the outer bottom and inner bottom are held together for the duration of assembly.
Alternatively, the disk element can also be made of a plastic and connected to the bottom by spot fusion.
A further connection possibility is achieved in that the disk element has a through-opening which receives a solder volume for joining to the bottom.
The disk element preferably forms a constructional unit with the bottom via a positive engagement connection. A small thickness of the disk element favors the workability of the positive engagement connection.
In a cylinder unit which is constructed as a vibration damper with a bottom valve, it is possible to also fix the disk element to the bottom by fixing the bottom valve in the vibration damper. To this end, the bottom valve can be, e.g., beaded radially to the cylinder, or the bottom valve is held in connection with a piston rod guide inside a clamping chain via an inner compression tube.
The invention will be described in more detail referring to the following description of the figures in which:
The cylinder 3 is sealed by an annular seal 7 which is accommodated in an annular groove 9 (
As is shown by
The disk element 11 is connected over the entire surface area to bottom 5 radially inside of the groove base 17 so that there is a large contact surface and, therefore, supporting surface 19 available on the bottom 5.
As is further shown in
In many cases, the bottom is made of a metal material, e.g., steel. In one embodiment, the disk element likewise comprises a weldable material and is at least spot welded to the bottom. A weld nugget 29 is shown symbolically to facilitate understanding. The weld joint need only satisfy very minimal holding force requirements. It is most important that the weld joint withstands the assembly process from the joining of the two bottom parts to the installation of the bottom in cylinder 3.
Alternatively, the disk element 11 can be made of a plastic and is partially fused for the joining step so as to be glued to the bottom 5. In principle, the disk element 11 can also be glued to the bottom.
In
In the construction according to
During assembly of the cylinder unit 1, the constructional unit comprising bottom 5 and disk element 11 is produced beforehand. The annular seal 7 is inserted into the annular groove 9 subsequently. This constructional unit is inserted into the cylinder 3 via the end of the cylinder 3 closest to the end position of the bottom 5 and fixes bottom 5 via a plurality of bead portions 41 or also via a circumferential bead. The type and shape of positive engagement connection between the bottom and the cylinder is of secondary importance for this invention (
Subsequently, a pressure tube 43 with a bottom valve 45 already fixed at the end side is guided into the cylinder 3 until an underside of a bottom valve body 47 comes in abutting contact at least partially with an upper side of the disk element 11. In the further course of production, the pressure tube 43 is fixed relative to the cylinder 3 in that, e.g., a piston rod guide, not shown, as part of a vibration damper is placed on an end face oriented to the other end of the pressure tube, and the outer cylinder is in turn connected to the piston rod guide so as to be free from play axially. The disk element 11 is also accordingly fixed to the bottom 5 via the fixing of the bottom valve without still requiring fastening between the bottom 5 and the disk element 11.
Thus, while there have shown and described and pointed out fundamental novel features of the invention as applied to a preferred embodiment thereof, it will be understood that various omissions and substitutions and changes in the form and details of the devices illustrated, and in their operation, may be made by those skilled in the art without departing from the spirit of the invention. For example, it is expressly intended that all combinations of those elements and/or method steps which perform substantially the same function in substantially the same way to achieve the same results are within the scope of the invention. Moreover, it should be recognized that structures and/or elements and/or method steps shown and/or described in connection with any disclosed form or embodiment of the invention may be incorporated in any other disclosed or described or suggested form or embodiment as a general matter of design choice. It is the intention, therefore, to be limited only as indicated by the scope of the claims appended hereto.
Number | Date | Country | Kind |
---|---|---|---|
10 2018 204 423.6 | Mar 2018 | DE | national |