DE1301026B - Hydropneumatic lifting unit, especially for height-adjustable tables and chairs - Google Patents

Abstract

1123030 Seats REINHARD HORNLEIN K G 12 Nov 1965 [14 Nov 1964 23 Dec 1964 28 Jan 1965 23 Mar 1965 24 Mar 1965] 48147/65 Index F2S 31 [Also in Division B8] A lifting unit, Fig.1, for adjusting the vertical height of a table for chair comprises a cylinder 1 with chambers 2, 3, 4. Chamber 2 contains gas under pressure and is bounded by a floating piston 7. Chambers 3 and 4 contain oil and are separated by a fixed wall 9. A guide 10 with a rod 11 is slidingly arranged in chamber 4. Connection between the chambers 3, 4 is through ports 12, 13 controlled by a slide valve 15 operated manually by a bar 21. In the position shown the chamber 3 is isolated from chamber 4 so that the unit is locked hydraulically. When the valve 15 is moved down so as to connect ports 12, 13 the gas in chamber 2 expands forcing the piston 7 down and transferring oil from chamber 3 to chamber 4, oil also passing from above the guide 10 to below it through a port 22, which may be a throttle port. So that chamber 4 can accommodate the additional oil the rod 11 is forced downwards. The guide 10 may have one or more one-way valves which permit rapid passage of oil during lowering. The chambers 2 and 3 may be separated by a solid or hollow ball 27, Fig.2 (not shown) of resilient material. As shown in Fig. 7 the chambers 2 and 3 may surround the chamber 4 as an outer cylinder. The chambers 2 and 3 may be larger in diameter than the chamber 4, Fig. 8 (not shown). Other types of valve may replace the slide valve 15 to control passage of oil from chamber 3 to chamber 4.

Description

The invention relates to a hydropneumatic lifting unit, especially for height-adjustable tables and chairs, consisting of a cylinder with a Filling of hydraulic operating medium and a piston that is slidably guided in the cylinder with a Piston rod, which by the action of a, the operating medium by means of a slidably guided in the cylinder The elastic compensation spring acting on the partition wall and arranged in a compensation chamber can be pushed out of the cylinder and hydraulically can be blocked.

There is a lifting unit for tables with a height-adjustable table top known, which is made in the Hydraulic cylinders arranged on table feet with extendable footrests, one below the table top provided hydraulic cylinder as a drive unit and one upstream of the drive unit Shut-off valve. From the shut-off valve lead to the hydraulic cylinders provided in the table feet Lines for the hydraulic operating medium.

The cylindrical drive unit has a hydraulic chamber and a compensation chamber. Between A partition wall is slidably mounted in these chambers. There is a coil spring in the compensation chamber arranged, which acts on the hydraulic operating medium via the partition. The fixation a certain height of the table top is made via the shut-off valve.

The well-known lifting unit only works properly when the table top is not loaded. With one-sided loading When the shut-off valve is open, only those in the table feet are attached to the table top Hydraulic cylinders fed, which are located on the unloaded side of the table top. The table top is therefore tilted and stuck.

There is also a hydropneumatic lifting unit for a drawing table known as a frame of the drawing table and is therefore not interchangeable. This design is between There is no partition between the gas-filled compensation chamber and the hydraulic operating medium. The gas can thus diffuse into the hydraulic operating medium, so that over the between the Hydraulic chambers provided shut-off valve an exact fixation of the height of the drawing table not possible. By an annular cylindrical arrangement of the compensation chamber, which the hydraulic chamber encloses, in which the piston is immersed, the lifting unit has a relatively large cross-section.

There are chairs known in which the seat can be adjusted in height by hand and hydraulic blocking by closing a shut-off valve at the respective altitude is possible.

Other height-adjustable chairs are used to fix the seat at the desired height a mechanical brake that consists of a conical body that works together with locking balls. These braking devices are structurally complex and have not proven themselves because the required There is no security for the proper fixation of the desired height of the seat is.

Furthermore, hydropneumatic damping devices are known in which between the hydraulic chambers there is a constantly open overflow connection. The gas-filled compensation chamber this damping device is connected to the hydraulic one via an elastic partition Operating medium separated. The task of the compensation chamber is when the piston is vibrating the hydraulic operating medium tears off at the piston surface and thus foam formation to avoid.

The invention is based on the object of developing a hydropneumatic lifting unit that forms an exchangeable unit that can be installed in any position and in terms of dimensions is so small that it is easy to use in the various telescopic columns of the table and chair frames can be assembled and does not interfere with the frame construction line.

According to the invention, this object is achieved in a lifting unit of the type mentioned at the outset solved that in a known manner, the compensation chamber, the pressurized gas, the compensation spring forms, and which is separated from it by the partition wall, divided into two hydraulic chambers, Hydraulic chamber filled with the operating medium and accommodating the piston with the piston rod are arranged one above the other in the cylinder and that between the two hydraulic chambers as the only connection in a manner known per se, an overflow channel with a through one Rod sliding gate valve is provided.

The small dimensions and the slimness of the lifting unit according to the invention are on the one hand by using a gas spring and, on the other hand, by connecting the Compensation chamber and the hydraulic chambers in the longitudinal axis of the lifting unit guaranteed.

The gate valve, which is assigned to the overflow channel, is offset from the ends of the lifting unit. The gate valve is operated via a rod that is in an easily accessible place ends in an operating button, operating handle or the like.

The partition, which is movably mounted in the cylinder, allows the gas in the compensation chamber to diffuse into the hydraulic operating medium avoided. The lifting unit can be installed with a compensation chamber at the bottom or at the top will. In addition to the vertical installation position of the lifting unit, there are also horizontal or inclined Installation positions possible.

The lifting unit according to the invention can be installed in various chair and table frame constructions will. This makes production, storage and repair very economical.

In an advantageous embodiment of the invention, the hydraulic chambers are infiltrated by a Partition wall separated. In this design, the piston is in the one remote from the compensation chamber Hydraulic chamber arranged.

The gate valve can enclose the cylinder in the area of said partition and opposite it the cylinder have seals, one of which is inwardly with respect to the gate valve is offset.

In this design, the overflow channel between the hydraulic chambers can be through cylinder bores on both sides of the infiltrated partition and through a flow space between the said Seals are formed.

However, it is also possible to provide the overflow channel in the sunk-in partition wall and to him assign a gate valve.

An embodiment of the invention is shown in section in the drawing.

The cylinder 1 has the compensation chamber 2 and the hydraulic chambers 3, 4. The compensation chamber 2 is closed at the top by the plate 5, which is welded into the cylinder 1. the Plate 5 carries a threaded bolt 6 through which the cylinder 1 can be attached to parts that are with are connected to a table top. The compensation chamber 2 is with a gas that is under a certain Pressure is, filled and is closed at the bottom by a partition 7, which is slidable is mounted in the cylinder 1 and sealed against the cylinder wall by an O-ring is.

The hydraulic chambers 3 and 4 are connected to the operating medium, for. B. Oil filled. Between the two hy- ao In the hydraulic chambers 3, 4 there is a partition 9 which has been sunk into the cylinder 1.

In the hydraulic chamber 4, the piston 10, which is connected to a piston rod 11, is slidably arranged. The piston rod 11 can only be retracted into the hydraulic chamber 4 when the Overflow channel between the hydraulic chambers 3 and 4 is open, so that the retracted from the Space occupied by rod parts made free by oil flowing into the hydraulic chamber 3 will. This oil flowing into the hydraulic chamber 3 moves the partition? towards the Plate 5 closes and compresses the gas in the equalization chamber 2.

To achieve an overflow channel between the hydraulic chambers 3 and 4 are in the vicinity of the partition wall 9 bores 12, 13 are provided, which are connected to an annular flow space 14 a tubular gate valve 15 work together. The gate valve 15 has seals 16, 17 and 18 on. In the position shown in the drawing, because the seal 17 between the Bores 12 and 13 is located, no operating medium from the hydraulic chamber 3 into the hydraulic chamber 4 violate. So that an overflow channel through the bore 12, the flow space 14 and the like the bore 13 is formed, the gate valve 15 must counter the action of the spring 19 in the direction be moved to the stop 20. This movement can be achieved by hand via a rod 21 will. As soon as the connection between the hydraulic chambers 3 and 4 is established, the presses Partition wall? Operating medium from the hydraulic chamber 3 into the hydraulic chamber 4. So that the Hydraulic chamber 4 can accommodate the additional operating medium, the piston rod 11 is from the Hydraulic chamber 4 moved out. In the course of this movement, the operating medium also passes through the bore 22 of the piston 10. The bore 22 can be designed as a throttle bore so that the stroke movement is dampened. The piston 10 can also be equipped with one or more one-way valves be that a rapid passage of the operating medium through the piston 10 during the lowering movement allow the tabletop. These valves are closed during the lifting movement.

Stops 20 and 23, which are fixed to the cylinder, are assigned to the gate valve 15.

The stop 20 is designed so that it holds the lower part of the compression spring 24 and guides.

The compression spring 24 tries to press the gate valve 15 against the stop 23 so that the lifting movement is blocked. The actuation of the rod 21 and thus the triggering of the lifting movement can be done by hand in any way. It is Z. B. possible the upper end of the rod 21 to be provided with a button that is aligned with the upper edge of the table top. Farther it is possible to arrange a hand lever below the table top, which over the rod 21 on the Gate valve 15 acts. If the lifting unit shown is used for a height-adjustable table is, the lower end of the piston rod 11 is expediently attached to the base of the table.

The lifting unit can not only be used for height-adjustable tables and chairs, but can be used wherever two parts have to be moved relative to each other.

In the exemplary embodiment, the overflow channel is between the hydraulic chambers 3 and 4 formed by the bores 12, 13 and the flow space 14 of the gate valve 15. In modification With this construction it is also possible to provide the overflow duct in the partition wall 9. The channel can e.g. B. the partition 9 pass through. To block the lifting movement a shut-off valve must be provided in the channel. If a throttle screw is provided, there is the possibility of regulating the speed of the stroke movement by means of this throttle screw to undertake. In this case, a throttle bore in the piston 10 can be dispensed with. The piston 10 then needs to be equipped exclusively with holes that allow a rapid crossing of the Allow the operating medium from one side of the piston to the other.

It is also possible to arrange an angled hole in the partition wall 9, which is connected to the gate valve 15 cooperates.

Claims (10)

Patent claims: 1. Hydropneumatic lifting unit, especially for height-adjustable tables and Chairs, consisting of a cylinder with a filling of hydraulic operating medium and a piston slidably guided in the cylinder with a piston rod, which by the action one that acts on the operating medium by means of a partition wall that is slidably guided in the cylinder, in a compensation chamber arranged elastic compensation spring from the cylinder can be extended and locked hydraulically, characterized in that in per se known way the compensation chamber (2), the pressurized gas of which the compensation spring forms, and the one separated from it by the partition (7), in two hydraulic chambers (3, 4) subdivided, filled with the operating medium, receiving the piston (10) with the piston rod (11) Hydraulic space in the cylinder (1) are arranged adjacent one another and that between the two hydraulic chambers (3, 4) as the only connection in a manner known per se an overflow channel with a gate valve (15) which can be displaced by a rod (21) is provided is. 2. Lifting unit according to claim 1, characterized in that the hydraulic chambers (3, 4) are separated by a beaded partition (9), and that the piston (10) in the of the Compensation chamber (2) remote hydraulic chamber (4) is arranged. 3. Lifting unit according to claim 1 and 2, characterized in that the gate valve (15) encloses the cylinder (1) in the area of the partition (9) and opposite the cylinder (1) Has seals (16,17,18), the seal (17) being offset inward. 4. Lifting unit according to claim 1 to 3, characterized in that the flow space (14) is provided between the seals (16,17), and that the bores (12,13) in the Cylinder (1) are arranged on both sides of the partition (9). 5. Lifting unit according to claim 1 to 4, characterized in that the gate valve (15) can be moved between two end positions limited by stops (20, 23). 6. lifting unit according to claim 1 to 5, characterized in that the gate valve (15) can be moved against the stop (23) by means of a compression spring (24). 7. lifting unit according to claim 1 to 6, characterized in that the gate valve (15) can be moved by hand against the action of the compression spring (24) by means of a rod (21). 8. Lifting unit according to claim 7, characterized in that the upper end of the rod (21) is provided with a button which is arranged in the table top. 9. Lifting unit according to claim 1 and 2, characterized in that the overflow channel provided in the partition (9) and assigned a throttle valve. 10. Lifting unit according to claim 1, 2 and 9, characterized in that the overflow channel the partition (9) passes through. 1 sheet of drawings