DE7640968U1 - Gas spring - Google Patents

Description

STABILUS GMBH - KOBLENZ-NEUENDORF

PATTERN REGISTRATION

Gas spring

The innovation relates to a gas spring consisting of one Cylinder in which a piston connected to a piston rod slides and divides the cylinder interior into two working spaces, in which there is pressurized fluid, while at the piston rod outlet end of the cylinder ^ a integrally formed guide and seal for the piston rod is arranged.

The task of the innovation is to use the simplest possible means to create a gas spring that is simple in construction and easy to is to be installed and has a high level of functional reliability.

According to the innovation, this task is solved in that the guide and sealing unit made of elastic material is provided with a recess on the face facing the work area. Such, directed towards the work area Depressions cause the guiding and sealing unit in the area of the depression by the pressure medium present in the working space against both the piston rod and the inner wall of the cylinder is pressed. The assembly of such a one-piece guide and seal is very simple and, moreover, such a Piston rod guide do not cause any corrosion. According to features of the innovation, Liese can be recessed by a circumferential Be formed by a groove or it is formed by a groove, which creates two sealing lips running in the axial direction, whereby one sealing lip comes to rest on the piston rod and the other sealing lip on the inner wall of the cylinder. According to the innovation, it is also possible to create this recess by several evenly distributed over the face and in to form essentially cylindrical recesses running in the axial direction,

The attachment of the guide and Seal _r ~ ler selementes in the cylinder gas spring takes place in the simplest case by simply pressing and subsequently flanging the ends of the cylinder, being retained in the intended position under the pressure in the working chambers of the guiding and sealing unit. A further embodiment results in that, according to the innovation, the guide and sealing unit for fastening in the cylinder has a circumferential groove arranged on the outer surface, in which projections of the cylinder directed radially inward are arranged.

The innovation is described in more detail using the drawings. It shows:

Fig. 1 is a longitudinal section through a gas spring, the sealing and the guide unit is provided with a groove towards the work space;

Fig. 2 the sealing and guide unit with an in axial Fichtung running groove;

3 shows the sealing and guiding unit with cylindrical outer snares and

4 shows the fastening of the sealing and guide unit by means of a circumferential groove in the cylinder.

The gas spring according to FIG. 1 consists of the cylinder 1, in which a piston 3 connected to the piston rod 2 divides the interior of the cylinder 1, which is filled with pressurized fluid, into dip working spaces 4 and 5, at the end of the cylinder on the piston rod outlet side 1 the sealing and guiding unit 6 is arranged, which has the hollow groove 7 towards the working space 5. As a result of the pressure in the working space 5, the shape of the sealing and guide unit 6 presses the seal against the piston rod 2 on the one hand and against the inner wall of the cylinder 1 on the other. The sealing and guiding unit 6 is fixed in the predetermined position in the cylinder 1 by appropriate selection of the preload and the flanged end of the cylinder 1. This pretensioning of the seal is decisive for the amount of friction between the part 6 and the piston rod 2. Da

this sealing and guide unit 6 made of elastic material - preferably rubber - is no corrosion of the guide possible. Assembly is made easier by combining the guide and sealing unit into one component.

In FIG. 2, a filling and sealing unit 6 is shown which has a recess which is formed by a groove 8. As a result of this groove 8, the sealing lips 9 and 10 arise. The sealing lip 9 is counteracted by the internal pressure in the working space Piston rod pressed while the sealing lip 10 is pressed against the inner wall of the cylinder.

Another embodiment of the sealing and guiding unit is shown in FIG. 3. Here, the recess is evenly distributed over the face by several and axially Cylindrical recesses 11 running in the direction are formed.

In FIG. H , the guide and sealing unit 6 is provided with a circumferential groove 12 into which the flanged end of the cylinder 1 engages and thereby effects an axial fixation of the sealing and guide unit 6. Here, too, it is eezeiefc- that the groove 7 forms a sealing lip resting on the piston rod and a sealing lip resting on the inner wall of the cylinder 1.

22.12.1976
TIP-I Be / whm-

Claims (1)

PROTECTION CLAIMS 1. Gas spring, consisting of a cylinder in which a with a Piston rod connected piston slides and divides the cylinder interior into two working spaces, in which there are Pressurized fluid is located while at the piston rod outlet side At the end of the cylinder an integrally formed guide and seal for the piston rod is arranged, thereby characterized in that the guide and sealing unit (6) made of elastic material on the to the working space (5) facing face is provided with a recess. 2. Gas spring according to claim 1, characterized in that the recess is formed by a circumferential groove (7). 3. Gas spring according to claims 1 and 2, characterized in that the recess is formed by a groove (8) which two sealing lips (9, 10) running in the axial direction are produced, with one sealing lip (9) on the piston rod (2) and the other sealing lip (10) comes to rest against the inner wall of the cylinder (1). 4. Gas spring according to claims 1 and 2, characterized in that the recess by several evenly over the end face distributed and axially extending, substantially cylindrical recesses (11) is formed. 5. Gas spring according to claims 1 to H _3, characterized in that the guide and sealing unit (6) for fastening in the cylinder (1) has a circumferential groove (12) arranged on the outer surface, in which the radially inwardly directed projections of the Cylinder (1) are arranged, 22.12.1976
TIP-I Be / whm-