DE2809203A1 - Gas spring with insertion protection - with braking device in form of dividing wall arranged between two gas chambers - Google Patents

Abstract

The gas spring has insertion protection during pressure loss. It consists of a cylinder, which has a high pressure gas filling. A piston rod is guided at one end of the cylinder and is sealed and forms the displacement body in the cylinder. A braking-or blocking device acts on the piston rod when there is pressure loss in the inside of the gas spring. This braking or blocking device is arranged between the gas chambers (13, 14) in the cylinder which are extremally sealed and under the filling pressure. Specif. the braking-or blocking device is formed by an axially movable dividing wall (6) between the gas chambers (13, 14) on both sides thus dividing wall (6) is under the action of spring elements.

Description

Gas spring with slide-in protection in the event of loss of pressure

The invention relates to a gas spring with a push-in safety device in the event of pressure loss, consisting of a cylinder which is under high pressure Has gas filling, with a piston rod guided at one end of the cylinder and is sealed and forms the displacement body immersed in the cylinder, while a spring acting on the piston rod in the event of a pressure loss in the interior of the gas Braking or blocking device is arranged.

The German Offenlegungsschrift 2 540 402 describes a gas spring known that a unilaterally acted upon by the internal pressure of the cylinder, movable Has partition and this partition is connected to a part which at Pressure loss in the gas spring acts as a blocking device. With this well-known In the construction, the movable partition is in equilibrium between the internal pressure the gas spring on the one hand and the other acting on this movable partition Disc springs, as long as there is no loss of gas in the gas spring and thus a pressure drop in the Interior of the gas spring is present. Such gas springs are very careful Adjustment of the disc springs to the internal pressure of the gas spring required, d. H., in the case of gas springs, which are used to counterbalance any height-adjustable objects installed, is not only the internal pressure of the gas spring on the respective, to be adjusted in height object, but there are also the To select disc springs accordingly, so that the function is guaranteed properly is. Thus, such gas springs cannot be in place in their extension force adjusted to the weight of the height-adjustable object to be balanced will.

Such, as a counterbalance for drawing boards, flaps or Hoods built-in gas springs have the task of maintaining a state of equilibrium a to allow easy lifting or lowering of these objects. The set height is locked mechanically. If there is a loss of pressure in the locked state Gas spring on, for example, would open the drawing board when loosening the mechanical Lock suddenly fall down, so that there is a risk of injury to the user given is.

The object of the present invention is to provide a mechanical brake or to create a locking device for gas springs, which in the event of gas loss in the interior the gas spring prevents the object supported by the gas spring from falling. This braking and locking device should be designed in such a way that it also works perfectly with differently set extension forces of the piston rod, without additional components being required or further components of the gas spring require a vote. The construction of the gas spring should also be very simple.

According to the invention this object is achieved in that the braking or Blocking device between two existing in the cylinder, to the outside and to each other sealed as well as under filling pressure gas spaces is arranged. So long these two gas chambers have the same internal pressure, is the braking or blocking device in equilibrium, d. That is, the counterbalancing gas spring will not braked or blocked. Only when one of the gas chambers evacuates another due to a drop in pressure Exerts force on the blocking device than the other gas space, becomes the mechanical one Brake or blocking operated and the falling of the in a simple manner prevented by the gas spring supported object. The tuning of the gas spring on the required extension force is very easy, because there is no need other components can be installed or changed. The gas spring is also simple under construction, because the arrangement of the braking or blocking device between the two Gas spaces is problem-free.

According to the invention, the braking or blocking device is thereby carried out an axially movable partition which is arranged between the gas chambers and which is under the action of spring elements on both sides.

As further features of the invention show, the braking or blocking device formed by sprags on both sides of the w Partition wall arranged are, the clamping bodies are formed by disc springs or resilient tongues exhibit. A very simple embodiment is also obtained according to the invention in that the clamping bodies are formed by leaf spring tongues.

According to a further feature of the invention, the piston rod has at its end located in the cylinder an axial bore into which for connection a radial bore opens into the two gas spaces. This connection of the two gas spaces can only be done when the piston rod is fully extended out of the cylinder, so that the distance between the radial bore and the end of the piston rod is at least as great it must be that when the piston rod is fully extended, the two gas chambers over this Bores are connectable. In this way you can adjust the gas spring on the extension force required to establish equilibrium Establish pressure equalization between the two gas spaces. Is in the process of hiring If the gas spring produces this pressure equalization, then a corresponding Stop prevents the piston rod from reaching this position again, in which through the two holes the two gas spaces unintentionally with one another get connected.

Further training opportunities and beneficial effects result from the description of the structure and the mode of operation of the following for example illustrated embodiments of the invention. It shows: Fig. 1 the Gas spring in longitudinal section, with the partition designed as a separating piston on both sides is acted upon by disc springs; Fig. 2 shows a detail of the gas spring, which shows the arrangement of clamps on both sides of the partition; Fig. 3 a Detail of the gas spring, with the clamping body being held by plate springs provided with tongues be formed; Fig. 4 shows the arrangement of clamping bodies with leaf spring tongues and Fig. 5 the clamping body corresponding to FIG. 4 in plan view.

The gas spring according to Fig. 1 consists of the cylinder 1, on one of which The end of the piston rod 2 is guided and sealed to the outside. To limit the Extension movement of the piston rod 2 are at the end located in the cylinder Lock nuts 3 fastened, which are attached to the stop when the piston rod 2 is fully extended 9 come to the plant. The piston rod 2 is in this fully extended position the gas space 13 under filling pressure with the gas space 14 via the one in the piston rod 2 located axial bore 4 and radial bore 5 in connection. Between that through the bead 12 in the cylinder 1 attached stop 9 and also in the cylinder 1 stop 10 fixed in the axial direction by the bead 11 is located the partition wall 6, which is opposite the cylinder inner wall through the seal 7 and opposite the piston rod 2 is sealed by the seal 8. On both sides of this partition the disc springs 15 are provided, which are located both on the partition wall 6 and Support on the stops 9 or 10.

The gas spring can be filled via the valve 22 arranged in the cylinder 1 or this valve is used to set the desired extension force gas can be released.

When filling the gas spring, the piston rod 2 is in the extended position, through the axial bore 4 and the radial bore 5 the Gas chambers 13 and 14 are connected to one another, since in this case the radial bore 5 opens into the gas space 14.

This makes it possible for the same filling pressure in space 13 and space 14 prevails. The filling of the gas spring can accordingly both via the gas space 13 as well as via the gas space 14, d. i.e., the arrangement of the valve 22 is not bound to the cylinder in the area of the gas space 13. The filling of the gas springs takes place with a pressure which is designed so that the gas springs take the internal pressure have sufficient to counterbalance the weight of the heaviest object, for which these gas springs are intended. On the other hand, it is the counterbalance To carry out for lighter objects, gas is used in the built-in position drained until the extension force of the piston rod 2 is to be compensated Weight corresponds. The piston rod 2 is also fully off in this discharge position the cylinder 1 extended and the axial bore 4 and the radial bore 5 associate the gas space 13 with the gas space 14. When installing this gas spring - for example in a column to adjust the height of a drawing board - is after the extension force setting a stop is attached which prevents the piston rod 2 from being fully extended Position, d. that is, when adjusting the height of the drawing board through the bores 4 and 5, the gas spaces 13 and 14 are not connected to one another can.

If gas should now escape into the open from gas space 13 or gas space 14, in each case the gas space provided with the higher pressure causes the partition 6 is shifted in the direction of the gas space, which has the lower pressure. Accepted, Via the gas space 14, gas escapes into the open air and the piston rod seal Partition 6 is pressed downwards in the direction of the stop 10. Be there the disc springs 15 located between the partition 6 and the stop 10 are compressed and thereby press the inner diameter against the piston rod 2. This ensures that when the mechanical blockage on the drawing board column is released the drawing board is prevented from falling down with certainty. The essentially Braking or blocking device consisting of the partition 6 and the disc springs 15 is designed in such a way that braking is very strong in the event of a pressure loss of approx. 10 bar or the piston rod 2 is blocked in the cylinder 1.

The embodiment according to FIG. 2 differs from that according to FIG. 1 essentially in that the plate spring 16 is in each case between the clamping body 17 and the partition 6 is arranged.

In the event of a pressure difference between the dividing wall 6 arranged on both sides Gas spaces, the partition moves in the direction of the gas space with the lower Pressure and causes the inclined surface of the partition wall facing the piston rod 6 presses the clamping body 17 against the piston rod 2 and thus a brake or

There is a blocking force between the piston rod 2 and the cylinder 1.

In FIG. 3 there is between the partition 6 and the stops 9 and 10 in each case a plate spring 19 provided with tongues 18 is arranged.

These tongues 18 lay down when the partition 6 is moved as a result Pressure difference between the gas spaces against the piston rod 2 and thereby form the braking or blocking device.

Instead of the disc springs, FIG. 4 shows an embodiment at between the partition 6 and the stops 9 and 10 each have a plate 21 is arranged, the bent out leaf spring tongues 20 auS shows. This board is shown in Fig. 5 in plan view. Here, too, these leaf spring tongues lay down 20 when the partition 6 moves in the direction of one of the stops 9 or 10 against the piston rod 2 and thereby brake the piston rod 2 with respect to the cylinder 1 or block it in cylinder 1.

The present invention can be readily modified by For example, the board shown in Figures 4 and 5 with the leaf spring tongues itself forms the stop for the partition 6, d. that is, through this board the Stops 9 and 10 shown in the figures are formed. The board 21 is in this case installed so that the bent ends of the leaf spring tongues 20 rest against the partition 6.

Claims (7)

P A T E N T A t! S P R Ü C H E Gas spring with slide-in protection included Pressure loss consisting of a cylinder which is under high pressure Has gas filling, with a piston rod guided at one end of the cylinder and is sealed and forms the displacement body immersed in the cylinder, while one acts on the piston rod in the event of a pressure loss in the interior of the gas spring Braking or blocking device is arranged, dad. gek. That the braking or blocking device between two in the cylinder (1) that are sealed to the outside and to one another as well as gas spaces (13, 14) under filling pressure. 2. Gas spring according to claim 1, dad. gek. That the braking or blocking device by an axially movable partition wall arranged between the gas spaces (13, 14) (6) is formed, which on both sides under the action of spring elements (15, 16, 19, 20). 3. Gas spring according to claims 1 and 2, dad. gek. that the partition (6) between two stops (9, 10) is arranged. 4. Gas spring according to claims 1 to 3, dad. gek. that the brake or Blocking device is formed by clamping bodies (17) and disc springs (16), which are arranged on both sides of the partition (6). 5. Gas spring according to claims 1 to 3, dad. gek. that the clamp body by plate springs (15) arranged on both sides of the partition (6). 6. Gas spring according to claims 1 to 3, dad. gek. that the clamp body are formed by resilient tongues (18) of a plate spring (19). 7. Gas spring according to claims 1 to 3, dad. gek. that the clamp body are formed by leaf spring tongues (20). 3. Gas spring according to claims 1 to 7, dad. gek. that the piston rod (2) has an axial bore (4) at its end located in the cylinder (1), in which opens a radial bore (5) to connect the two gas spaces (13, 14).