KR20160089443A - Piston-cylinder unit - Google Patents

Abstract

The present invention relates to a piston cylinder device with a pressure tube (1), in which a piston is arranged movably in the axial direction, the piston being sealed in a first end of the pressure tube (1) It comes out to the outside. Characterized in that the piston has a sleeve (7) telescopically movable towards the pressure tube (1) at a second end of the pressure tube (1) opposite the first end of the pressure tube (1) The sleeve surrounds the pressure tube 1 as part of its length and the sleeve end of the pressure tube 1 is closed and supports the connecting member 8. A threaded part having an external thread fixedly coupled to the second end in a direction coaxially away from the second end of the pressure tube 1 is extended and the sleeve 7 And an inner thread disposed on the inner wall of the inner tube. Into the cylindrical inner opening (10) of the sleeve (7), the end of the inner opening (10) of the sleeve (7) towards the pressure tube (1) and the end of the sleeve A threaded nut (9) is inserted in an axially spaced relation to the end of the inner opening (10) in a non-releasable manner. The threaded portion has a radially extending portion at its end on the back side of the pressure tube 1 and the extended portion has a radially extending portion extending from the pressure tube 1 to the sleeve 7 at a position farthest in the coaxial direction, And is in contact with the end face of the screw nut (9).

Description

PISTON-CYLINDER UNIT

The present invention relates to a piston cylinder device with a pressure tube, in which a piston is axially movably arranged, the piston is guided externally in a sealed manner at a first end of the pressure tube, The piston having a sleeve telescopically movable towards the pressure tube at a second end of the pressure tube opposite the first end of the pressure tube, the sleeve surrounding the pressure tube with a portion of its length, A threaded portion having an external thread fixedly coupled to the second end of the pressure tube in such a direction that the sleeve end is closed and supports the connecting member and is coaxially away from the second end of the pressure tube, threaded part extends into the male thread, and a female thread disposed on the inner wall of the sleeve into the male thread d) are engaged.

Piston cylinder devices of this type are used, for example, for the purpose of opening a lid, in particular a trunk lid of an automobile. By rotating the sleeve and pressure tube relatively by hand, the maximum length of the piston cylinder device can be enlarged or reduced as needed.

In the case of piston cylinder arrangements of this type, it is known to provide a thread on the inner wall of the sleeve on a male thread of the thread. Wherein the threaded portion has a coaxial bore through which a threaded bolt fixedly coupled to the pressure tube projects at a second end of the pressure tube and a nut is mounted on the free end of the threaded bolt, And the threaded portion is fixed to the second end of the pressure tube by the nut.

However, by relatively rotating the sleeve and the pressure tube, the sleeve may be released from the pressure tube, so that the reed can move in the closing direction due to its own weight and can cause damage to objects located within the lead area, Even those located within the lead area.

It is therefore an object of the present invention to provide a piston cylinder device of the type mentioned at the outset which avoids such disadvantages in a manner that is easily mountable in a simple structure.

The object is achieved in accordance with the invention by means of a threaded, threaded, threaded, threaded, or tubular threaded member, axially spaced into the cylindrical inner opening of the sleeve, with respect to the end of the inner opening of the sleeve facing the end of the inner opening of the sleeve, nut is non-releasably inserted, said threaded portion having a radial extension at its end, such as a pressure tube, said extension having a threaded nut, said threaded nut being at the position of the sleeve furthest coaxially away from said pressure tube, As shown in Fig.

According to such a forming example, the sleeve can be moved toward the extension of the piston cylinder device relative to the pressure tube only up to the stop of the radially extending portion. The situation where the sleeve is released from the pressure tube and thus the damage or damage caused by the freely falling and turning lid is prevented.

Subsequently, according to the forming example according to the invention, the conventional piston-cylinder device can be upgraded to a longer maximum adjustment length without having to be changed.

If the inner diameter of the sleeve approximately corresponds to the outer diameter of the pressure tube, the sleeve is stabilized and guided in its coaxial position in the pressure tube.

If the pressure tube is partially surrounded by the sleeve over the entire stroke of the sleeve, the situation is over the entire control path of the sleeve. At the same time, dust penetration into the sleeve is at least generally prevented.

The threaded portion with the male thread may be a threaded spindle in a simple form and may be fixedly connected to the second end of the pressure tube, for example by screwing, at the end of the threaded portion towards the pressure tube.

For this purpose, a coaxial threaded bolt may be arranged at the second end of the pressure tube, which is used for disposing the connecting member in an unextended piston cylinder device, and now a pressure tube A threaded spindle with a coaxial threaded bore can be fastened to the end of the threaded spindle.

The screw nut can be releasably secured in the inner opening of the sleeve by fixing means acting on the threaded nut through the wall of the sleeve outside the radial direction in its self-mounting position.

If the wall of the sleeve is a closed wall in the region of the threaded nut, then the threaded nut can not be unintentionally and inappropriately dislodged from the sleeve and can not be removed from the pressure tube.

For this purpose, the fastening means may be a material fastening means or a shape-fitting fastening means.

The fastening means of the material coupling scheme may be, for example, radial laser welding, which is done through the wall of the sleeve.

The fixing means in the shape-fitting manner may be, for example, a nut radially surrounding the surface of the cylindrical jacket of the threaded nut, the wall of the sleeve being inserted radially into the nut.

The radially extending portion of the threaded portion can be a stop plate in a simple and manufacturable manner, and the stop plate is fixed to the end of the threaded portion, such as a pressure tube.

For this purpose, the end of the threaded spindle, such as the pressure tube, may have axially projecting fins on which a stop plate with a coaxial bore is supported, and which is then withdrawn from the coaxial bore The end of the pin is riveted.

In order to be able to detect the stroke position of the sleeve relative to the pressure tube, a window may be formed in the wall of the sleeve extending along the axial movement path of the marking arranged on the thread, The position of the marking through the window and accordingly the stroke position may also be indicated.

In this case, the stop plate can form the marking in a simple manner.

One embodiment of the invention is shown in the drawings and described in more detail below.
Figure 1 shows an end region of a piston cylinder device in an extended position,
Figure 2 shows the end region of the piston cylinder device according to Figure 1 in the retracted position.

The illustrated piston cylinder device is provided for the purpose of lifting from a generally downwardly closed position to an open position to open the trunk lid of a vehicle which is pivotable about a horizontal axis. The piston cylinder device includes a pressure tube 1 of a pneumatic spring and a piston rod is guided out to the outside in a sealing manner at a first end of the pressure tube not shown, And the free end of the first connecting member supports the first connecting member. The first linking member may be a spherical head that can be fixed to a trunk lid or a vehicle body of an automobile.

The illustrated second end of the pressure tube (1) is closed and has a screw pin (2) projecting coaxially. On the screw pin 2, a screw spindle 3 having a screw bore 4 formed in a coaxial direction at one end thereof is fastened.

On the threaded spindle 3, a screw nut 9 made of, for example, plastic is fastened.

An end of the threaded spindle 3 facing the screw bore 4 is formed by a rivet pin 5 and a stop plate 6 having a coaxial bore is arranged on the rivet pin And subsequently the rivet pin 5 is riveted to the rivet head 16 so that the stop plate 6 is fixedly coupled to the threaded spindle 3.

The sleeve 7 made of plastic, for example, is axially open at one end thereof and closed at its other end, and has a third connecting member 8 formed of a spherical head. The inner opening 10 of the sleeve is formed in a stepped fashion, with the step 11 of larger diameter engaging outwardly. A ring-shaped shoulder (13) is formed at the junction which leads from the step (11) of a larger diameter to the step (12) of a smaller diameter. The diameter of the step 11 corresponds to the diameter of the threaded nut 9 on the cylindrical jacket surface.

The sleeve 7 is in the open position until the threaded spindle 3 and the threaded nut 9 come into contact with the ringed shoulder 13 which defines the mounting position of the threaded nut 9 in the axial direction, Is inserted into the step (11) with a larger diameter over the top (9).

The threaded nut 9 was then welded to the sleeve 7 by the radial direction laser action of the sleeve 7 in the region of the threaded nut 9.

The sleeve 7 has an elongated length so that the second end region of the pressure tube 1 always projects into a step 11 of a larger diameter of the inner opening 10 of the sleeve having the same diameter.

In the unillustrated installation state, the sleeve 7 is connected to the trunk lid or the vehicle body of the vehicle by the connecting member 8, and is thus protected from rotation. When the pressure tube 1 is manually rotated about its own longitudinal axis, the threaded spindle 3 in the threaded nut 9 is also rotated so that the sleeve 7 is pressed against the pressure tube 1 in the direction of rotation, Or the pressure tube 1, so that the overall length of the piston cylinder device is changed.

This length adjustment is achieved by contacting the stop plate 6 to the end face of the screw nut 9 on the back side of the pressure tube 1 in one direction and by moving the base 14 of the inner opening 10 in the other direction, By the impact of the stop plate 6. [

Such a base 14 is provided with a cavity 15 which is smaller than the stop plate 6 but which is larger in diameter than the rivet head 16 and which has an axial extension that is longer than the rivet head 16, The rivet head 16 can be freely locked into such a cavity 15.

1 Pressure tube
2 Screw pin
3 Screw spindle
4 screw bore
5 Rivet pin
6 stop plate
7 sleeve
8 connecting member
9 Screw nut
10 inner opening
11 large steps
12 small steps
13 Ring type shoulder
14 Base
15 joint
16 rivet heads

Claims (10)

1. A piston cylinder device having a pressure tube (1)
The piston is axially movably arranged in the pressure tube, and the piston is guided out to the outside in a sealing manner at a first end of the pressure tube (1), and the piston is connected to a first end (7) telescopically movable towards the pressure tube (1) at a second end of the pressure tube (1) facing the pressure tube (1), the sleeve having a length of the pressure tube (1) The sleeve end being closed to the pressure tube 1 being closed and supporting the connecting member 8 and being fixed to such a second end in a direction coaxially away from the second end of the pressure tube 1, A combined threaded part with an external thread extends and a piston cylinder chamber in which an inner thread disposed on the inner wall of the sleeve 7 engages into the male thread of the threaded portion In the tooth,
Into the cylindrical inner opening (10) of the sleeve (7), the end of the inner opening (10) of the sleeve (7) towards the pressure tube (1) and the end of the sleeve A threaded nut (9) is inserted in an axially spaced relation to the end of the inner opening (10) in a non-releasable manner and the threaded portion is provided with a radial extension Characterized in that the expansion section is in contact with the end face of the screw nut (9), which is in the position of the sleeve (7) farthest in the coaxial direction from the pressure tube (1)
Piston cylinder device. The method according to claim 1,
Characterized in that the inner diameter of the sleeve (7) substantially corresponds to the outer diameter of the pressure tube (1)
Piston cylinder device. 3. The method according to claim 1 or 2,
Characterized in that the pressure tube (1) is partly surrounded by the sleeve (7) over the entire stroke of the sleeve (7)
Piston cylinder device. 4. The method according to any one of claims 1 to 3,
Characterized in that said threaded part with a male thread is a threaded spindle (3)
Piston cylinder device. 5. The method of claim 4,
Characterized in that the threaded spindle (3) is fixedly connected to the second end of the pressure tube (1) at its end towards the pressure tube (1)
Piston cylinder device. 6. The method according to any one of claims 1 to 5,
The threaded nut 9 is inserted into the inner opening 10 of the sleeve 7 by a fixing means acting on the threaded nut 9 through the wall of the sleeve 7 in the radial direction, Is fixed so as not to be releasable in the housing
Piston cylinder device. The method according to claim 6,
Characterized in that the wall of the sleeve (7) is a closed wall in the region of the screw nut (9)
Piston cylinder device. 8. The method according to claim 6 or 7,
Characterized in that the fastening means are fastening means of a material coupling scheme or a shape-
Piston cylinder device. 9. The method according to any one of claims 1 to 8,
Characterized in that the radially extending portion of the threaded portion is a stop plate (6), and the stop plate is fixed to the end of the threaded portion on the back side of the pressure tube (1)
Piston cylinder device. 10. The method according to any one of claims 1 to 9,
Characterized in that a window is formed in the wall of the sleeve, the window extending along an axial movement path of a marking arranged on the threaded portion.
Piston cylinder device.

Images