DE1866121U - GUIDE ELEMENT FOR PISTON-CYLINDER ARRANGEMENTS. - Google Patents

Description

RÄ.733 710 * 11 «! /}

Aktiebolaget Volvo in Gothenburg (Sweden)

Guide element for piston-cylinder arrangements

Piston guide devices in cylinders with a resilient guide element have already been proposed, that consists of a central annular flange and a number of sliding blocks firmly connected to it with a common There is a cylindrical sliding surface which, with elastic deformation of the flange, moves at a small angle to the normal position can be adjusted so that a load-bearing oil film is formed between the sliding surfaces that can move against one another can.

Such guide elements are relatively expensive to manufacture and often do not guarantee the necessary Elasticity required for the formation of a uniform oil film between the moving parts in a piston-cylinder arrangement necessary is.

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The present innovation aims to improve the type of construction mentioned, which results in greater elasticity of the guide elements and thus also better adjustability ₊ and at the same time cheaper manufacturing processes can be used.

According to the innovation, this is achieved in that the flange and the sliding blocks have different diameters -. ^ .- " lie.

& An example of the innovation is shown in the drawing,

Fig. 1 shows an axial longitudinal section of a piston-cylinder device with the guide elements according to the innovation. Fig. 2 is a perspective view of a cutaway Guide element with inner sliding surface;

FIG. 3 is a perspective view of a guide element with an outer sliding surface.

In the cylinder 1 filled with liquid, for example oil, a hollow piston rod 2 is axially movable. - At the upper end of the cylinder 1 a bushing is used, which consists of the two flange holders 3 and Ί, which are clamped in the cylinder by means of a union nut 5. In the groove between the two holders 3 and h , the elastic guide element is inserted, which consists of the flange 6 and several sliding blocks 7, which guide the piston rod 2, ν. Fixed sealing rings 8 and 9 are arranged in the flange holders.

Another sealing ring 10 rests on the piston rod 2. ■ ^ ^le se rings together form a seal against the fluid pressure in the cylinder 1.. ■

Ata lower end of the piston rod 2, a piston is attached, which consists of the piston holder 11, which means the internally threaded ring nut 12 is screwed tightly against the piston rod 2. Between the holder 11 and the ring nut 12 are left with a groove in which the lower guide element from the flange 13 and a plurality of sliding blocks 14 is supported. Flange and sliding blocks are formed in one piece.

The design of the guide element 6, 7 is shown in FIG. evident. It consists of several sliding blocks 7 with a radially rectangular cross-section and a common inner one cylindrical sliding surface and the flange 6, which lies on the outside of the sliding blocks and is also made in one piece with them.

As can be seen from Fig. 3, the guide element of the piston is basically the same. The sliding blocks however, have a common outer cylindrical sliding surface, while the flange 13 is arranged on the inside of the sliding blocks is.

The device works as follows:

Since the sliding blocks 7 or 14 are only connected to one another via the flange 6 or 13, which has a slight transverse

cut, the blocks can easily move with elastic deformation of the flange according to the cylinder or. Adjust the piston rod sliding surface. this makes possible the formation of a supporting liquid film which largely prevents metallic contact with the sliding surfaces. In particular, the flange parts located between the sliding blocks are resilient and enable elastic Adjustment of the blocks. The smaller the cross section of the flange and the greater the distance between the individual Blocks 7 and 14, the greater the elastic adjustability of the blocks. Calculations and practical experiments have shown that the desired elasticity is readily available. However, it is only very much small angular deviations, since the supporting film is only very thin.

The innovation enables, among other things, a simple and inexpensive production of the guide elements. The blank can For example, be a homogeneous ring in which the axial spaces by drawing broaching or, if necessary, milling can be formed, at the same time the advantage is gained that the cross-section of the sliding blocks cohesive flange can be very small, so that there is great elasticity and adjustability.

Claims (9)

P.A. 733 710 * 11/16/62 - 5 claims for protection 1. Guide element for piston-cylinder assemblies, which consists of a circular flange with a small cross-section and several separate sliding blocks firmly connected to it with a common cylindrical sliding surface, consists, characterized in that the flange (6,13) and the sliding blocks (7, 14) on different sized diameters lie. 2. Device according to claim 1, characterized in that the sliding blocks (7, 14) viewed min radial direction have a rectangular cross-section and are separated from one another by axial spaces. 3. Device according to claims 1 and 2, characterized in that that the flange (6, 13) is arranged on the axially middle part of the sliding blocks (7, 14). 4. Device according to claims 1-3, characterized in that de © radial cross section of the sliding blocks (7,14) decreases in the axial direction from the flanges to the ends. 5. Device according to claims 1-4-, characterized in that that the sliding surfaces of the sliding blocks (7, 14) are rounded at the axial end edges. 6. Device according to claims 1-5, characterized in that the flange is limited _{in the axial direction by plane-parallel 5 surfaces.} 7 .. Device according to claims 1 - 6, characterized in that that the outer or inner surface of an outer (6) or inner flange, which is free in the radial direction (13) is arched. 8. Device according to claims 1-7, characterized in that the flange in an annular courage is movably mounted between two holders (3, 4). 9. The device according to claim 8, characterized in that the groove in the axial direction by two plane-parallel radial planes is limited and that the groove bottom has a cylindrical surface.