DE2709514A1 - Shock absorbing pneumatic actuator - has piston with projecting rods of different diameters and pressure compensation hole through piston - Google Patents

Abstract

The pneumatic actuator with a permanent pressure filling operating as a shock absorber consists of a cylinder, and a piston with pressure compensation hole through it. Piston rods of different diameters project from either side of the piston. Alternately, only the smaller diameter rod projects from the piston, the larger piston rod being telescopic, and retained within the cylinder. The individual rod sections are sealed relative to each other. The interior of the rod is open to the outside. An integral gas volume in the cylinder on one side of the piston, may be brought to a higher or lower pressure, by changing the cylinder volume.

Description

Pneumatic actuator with permanent pressure filling.

It is known pneumatic actuating elements with permanent pressure filling to be used as so-called "gas springs" in many areas.

In the normal case, these are actuators due to their pressure filling a piston or a piston rod out of the cylinder push out.

The invention is based on the reversed task, namely instead a compression spring to achieve the characteristics of a tension spring.

Therefore, it is proposed according to the invention, such a pneumatic Actuating element with permanent pressure filling that usually consists of a cylinder and at least one piston with a pressure equalization bore is best designed in such a way that that there are piston rods on both sides of the piston, which are different Have pressure gauges. The two piston rods are at the two ends of the Cylinder led up. With such a construction of a pneumatic actuating element the pressure of the permanent filling on the piston can only change with the difference of the two piston rod surfaces, that is, the piston wira in the direction of the larger piston rod pressure gauge and thereby the piston rod with with a smaller diameter, so that they are a real characteristic of a tension spring having.

Because the lead out of the piston rod with a larger diameter sometimes is undesirable, it is further suggested the larger piston rod telescopic in several stages in the interior of the cylinder run and only the piston rod with the smaller diameter out of the cylinder lead out. Of course, the individual stages of the telescopic tubes be sealed against each other, so that sicn the necessary reduction of the attack surfaces the pressure filling results.

It is also useful to avoid undesirable side effects the interior of the telescopically collapsible piston rod, which naturally must be made hollow, to the outside, that is, to the surrounding haum of the cylinder to open. This compresses the interior space inside the telescope-like Piston rod avoided and the efficiency of the actuator improved.

particular importance konunt the possibility according to the invention that Gas volume enclosed in the cylinder through at least one of the piston sides To bring change of the cylinder volume to a higher or lower pressure.

This makes it possible to use the pneumatic actuator as a hoist to train.

Fig. 1 shows an example of an embodiment of a pneumatic actuating element where (1) denotes the cylinder, (2) denotes the piston rod with a smaller one Diameter and with (3) the piston rod with a larger diameter. Both piston rods (2) and (3) are firmly connected to the piston (4), which is fitted with a seal (5) is movable in the cylinder (1). The pressure compensation hole (6) allows this slow flow of the pressure charge from part of a cylinder through the piston in the other part.

Fig. 2 shows a corresponding actuating element wherein in the cylinder (1) only the small diameter piston (2) is led out. The larger piston diameter results from the minimal diameter of the telescopic parts namely the diameter of the part (7). The movable telescopic parts (8) and (9) are each displaceable on top of one another with seals (10) and (11). Also in this Case is the piston (4) with its seal (5) in the cylinder (1) and freely movable has a pressure compensation hole (6). In the FFig. 2 the piston (4) is out the position shown under the influence of the pressure filling in the direction of the telescopic Piston rod migrate because the pressure of the pressure filling on the side of the small piston rod predominates. It can also be clearly seen that the telescopic tube (7) faces outwards is open.

The pneumatic actuation element is of particular importance, For example, if mechanically as shown in Fig. 2, the volume of the cylinder and thus changing the pressure of the permanent pressure filling. This can be schematic and for example shown, take place in that a nut (11) in one The internal thread of the cylinder (12) is twisted. This becomes the volume of the cylinder (1) increases or decreases depending on the direction in which the nut is turned (11) adjusted.

There are of course a myriad of possibilities for the cylinder volume to be changed either by devices as shown in Fig. 2 or by auxiliary pistons which penetrate into the interior of the cylinder (1) or similar measures which can be adjusted as required.

The area of application for this new "gas tension spring" new ways that could not be solved with conventional gas springs up to now.

Claims (4)

Claims 1 Pneumatic actuation element with permanent pressure filling consisting of a cylinder and at least one piston with a pressure compensation bore characterized in that on both sides of the piston, piston rods different Diameter are led out. 2 Pneumatic actuating element according to claim 1, characterized in that that only uie piston rod with the smaller Jurcu knife is led out and the larger piston rod in the interior of the cylinder telescopically in several stages can be pushed together in sicn, the individual parts being sealed against one another are. 3) Pneumatic actuator according to claim 2, dadurcn gekennzeicallet, that aer the interior of the telescopically collapsible piston rod nahc outside is open. 4) Pneumatic actuator according to claim 1, 2 or 3 thereby marked that in the cylinder a closed volume of gas is at least one of the piston sides by changing the cylinder volume to a higher or lower pressure is brought.