DE7833766U1 - Gas spring with additional adjustment range - Google Patents

Description

STABILUS GMBH KOBLENZ-NEUENDORF Patent and utility model auxiliary application

Gas spring with additional adjustment range

The invention relates to a gas spring consisting of a cylinder in which a pressurized fluid filling is arranged and a displacement body moves into the cylinder interior and this displacement body iro cylinder is guided and sealed to the outside, the cylinder in the area of the cylinder base and the displacement body on its each end protruding from the cylinder carries a fastening element provided with a pivot point.

Such gas springs, whose extension force corresponds to the displacement cross-section times corresponds to the gas pressure in the cylinder interior known and are used for a wide variety of installation cases. To dampen the spring movement, it is also known to use the To provide displacement body with a damping piston, the damping devices wearing. Among other things, such gas springs are also used for adjusting a motor vehicle sunroof or for adjusting the roof used in the convertible. These gas springs are arranged in such a way that they do not completely cover the roof due to their stroke but a short distance of approx. 50 - 70 mm has to be operated by hand, as this distance is used to fine-tune the ventilation serves. The disadvantage of such installation cases is that the attachment must be made very expensive, since one of the both gas spring articulation points is to be connected to a part, which is to be arranged loosely on the body or on the sunroof is and also an additional guide for the gas spring is required.

The object of the present invention is to create a gas spring which avoids the disadvantages of the known constructions, is simple in construction, easy installation between

the parts to be adjusted to each other allowed and a good Guidance and proper functioning are guaranteed.

According to the invention, this object is achieved in that, in addition to the spring travel of the gas spring, an articulation point has a further adjustment range. A part for fastening the gas spring, which is loosely arranged on the body or the sunroof, is not required and the construction is simple in construction and also allows easy assembly. Thereby, a trouble-free installation between the mutually to verstji ^v ~ is also - sirloin parts ensured without an additional guidance is required for the gas spring.

Since, according to a further feature of the invention, the articulation point is arranged axially movable to a gas spring part, is except for a proper function and good guidance the gas spring further simplifies the structure.

According to the invention, the fastening element provided with the articulation point is axially movable connected to the displacement body, whereby a telescopic extension of the gas spring in the extended state of the displacement / · gerkörpers results. This telescopic extension is, as the invention shows, very simple in construction when the fastening element has a tubular extension in which the displacement body engages. A simple and Problem-free connection of the fastening element with the displacement body is obtained according to the invention in that the tubular extension has a stepped diameter Has bore and thus forms a stop for a snap ring arranged in a groove of the displacement body.

Further details of the invention emerge from the drawing and the following description.

The figure shows the gas spring according to the invention in longitudinal section.

The displacement body (2), which is designed as a piston rod, is located in the cylinder (1) of the gas spring by means of the piston rod guide (9) and sealed to the outside of the cylinder interior (10) by the seal (8). The displacement body (2) is firmly connected to the piston (3), which has a throttle cross-section (7) and one that is axially movable in the piston ring groove arranged piston ring (4), the KoI-benscl. ibe (6) the axial movement of the piston ring (4) on the one hand limited. The fastening element (11) provided with the articulation point (12) is connected to the cylinder base (13). At the end of the displacement body (2) protruding from the cylinder (1) there is the fastening element (14) with the Pivot point (15). This fastening element (14) has a tubular extension (16) and surrounds the extension with the Displacement body (2) which engages in the offset bore (17). Through the borehole (17), which is offset in diameter the stop (18) is formed, on which the snap ring (20) can come to rest.

Such gas springs are suitable for all installation cases where when the displacement body is fully extended, an additional adjustment path is required, this additional adjustment path is effective without an extension force. For example, such a gas spring with the articulation point is used for adjusting the sliding roof (12) of the fastening element (11) on a corresponding one and stored with the roof firmly connected bolts, while the articulation point (15) of the fastening element (14) engages a bolt attached to the sunroof. When opening of the sliding roof, a force is exerted on this which opposes the extension force originating from the displacement body (2) is directed. The displacement body (2) is pushed into the cylinder interior (10), whereby the piston ring (4) rests against the piston disk (5) and releases an additional cross-section to the throttle cross-section (7). To be there-

f- ,. pushing the displacement body (2) into the cylinder interior ai thus takes place without any significant damping effect. When closing '; | of the sunroof is done by extending the displacement body |; pers (2) a damped movement, because the piston ring (H) rests against the piston (3) and closes the passage cross-section, so that during this extension movement the throttle cross-section (7) in the piston (3) causes the damping effect. When the displacer is fully extended, the sunroof is not completely closed, because the desired fine adjustment of the ventilation should be able to operate the last 50 - 70 mm by hand, for example. For this fine adjustment, the fastening element (14) with its tubular extension (16) can be moved telescopically '' like on the displacement body (2). This adjustment is not limited to the above-specified dimensions, but can each desired very readily adapted v / ground where S i abgesetz- in the tubular extension (16) having a diameter \ th hole is provided and so the stopper (18) forms against

ί; which the snap ring (20) can come to rest. This travel limitation formed by the stop (18) and the snap ring (20) located in the groove (19) essentially serves to prevent the tubular extension (16) from accidentally sliding off the displacement body (2). This securing of the tubular extension (16) in the extension allows a simple assembly, since the snap ring g located in the groove (19) (20) is pressed when joining the parts by the located at the cylinder-side end of the tubular projection (16) oblique surface inwardly and when the displacement body (2) is pushed into the bore (17) after the stop (18) has been passed over, it jumps into its original position and the tubular extension (16) is secured against being pulled off the displacement body (2).

The invention is not limited to the illustrated embodiment, but can be modified to a large extent. For example, it is easily possible to also use the articulation point itself to be designed as an elongated hole. Both the fastening

element (11) and the fastening element (14) can be provided with an elongated hole running in the axial direction of the gas spring. Another variant would also be if the fastening element (11) is guided telescopically on the cylinder (1), thereby creating an additional adjustment range. The arrangement of such additional adjustment areas is not interlaced with gas springs, but shock absorbers can also be used or other pneumatic or hydropneumatic devices are provided with it. It is also possible to do this additional adjustment range to be cushioned by spring elements in one direction or in both directions.

Claims (5)

· Ι CLAIMS 1. Gas spring consisting of a cylinder, one under
Pressurized fluid filling is arranged and a displacement body moves into the cylinder interior and this displacement body is guided in the cylinder and sealed to the outside, the cylinder in the area of the cylinder base and the displacement body each carrying a fastening element provided with an articulation point at its end protruding from the cylinder,
characterized in that, in addition to the spring travel of the gas spring, an articulation point (12, 15) provides a further adjustment range
having. 2. Gas spring according to opposition 1, characterized in that the Anlenkpmkt (12, 15) is arranged axially movable to a gas spring part. 3. Gas spring according to claims 1 and 2, characterized in that the fastening ^{element (I 1} O) provided with the pivot point (15) is connected to the displacement body (2) so as to be axially movable. 4. Gas spring according to claims 1 to 3, characterized in that that the fastening element (14) has a tubular extension (16) in which the displacement body (2) engages. 5. Gas spring according to claims 1 to h, characterized in ₃ that the tubular extension (16) has a bore (17) with a stepped diameter and thus a stop (18) for one in a groove (19) of the displacement body (2) arranged snap ring (20) forms.