DE7235759U - Gas mechanics especially for chairs - Google Patents

Description

Gas mechanics «especially for chairs

The present innovation concerns a gas mechanics * in particular for chairs, with a first tube, a telescopically slidable push tube and one between the first tube and the thrust tube effective gas spring.

Through the J ^ itSiüxfi-jQfXeniegtaagsschrift 1 779 586, a gas mechanism is already known in which a gas spring between two concentrically nested tubes of a telescopic tube column of a chair is effective, the outer tube also being slidably guided in a stand tube and between this stand tube and the outer

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Drill a coil spring around the outer tube for suspension of the outer tube is provided against the standpipe.

However, this known gas mechanics has the disadvantage that the seat of the Sita furniture connected to the inner tube, is relatively difficult to rotate that, in addition, with frequent rotation of the seat of the chair with respect to the Legs result in considerable wear in the gas spring, and there it is relatively difficult and cumbersome to replace a defective gas spring. Furthermore, there is the disadvantage that To achieve a comfortable suspension, a relatively large number of precisely fitting Fuhrungon must be provided.

The innovation is therefore based on the task of specifying gas mechanics of the type mentioned at the beginning, which are simple in construction enables trouble-free operation as possible.

According to the innovation, this is a gas mechanics of the initially introduced mentioned type, exe is characterized by the fact that the gas spring via at least one axial bearing against the thrust tube and / or the first tube or a bracket held thereon supports.

Such gas mechanics are characterized by their particular simplicity There is also an extremely slight turn of the thrust tube against * he on the first pipe ^ is extremely unsusceptible to Malfunctions, enables a particularly long service life of the gas spring and does not require any special maintenance.

Preferably, the gas spring is in the form of a double-acting compressed air piston-cylinder arrangement with a pretensioned gas filling educated. This enables one without any particular exertion of force the operator achievable .Height adjustment about the seat of a chair with built-in gas mechanics "

The height adjustment is preferably carried out with the aid of a valve connected to the gas spring.

The first pipe is preferably designed as a standpipe and the push tube by means of at least two inside the standpipe attached guides guided directly axially displaceably in the standpipe. This achieves that the number of precisely fitting sliding fits can be reduced.

Preferably, the arrangement is made so that the Gas spring with one end against the thrust tube and with its other end against the thrust tube at least over a part of its length surrounding, on the standpipe resiliently supported spring cup. Here is supported the leather cup preferably itself from a spring opposite the standpipe. Such an arrangement will achieved in a simple manner an additional suspension about the seat of a chair.

The gas spring can be changed quickly and easily can be achieved in that at opposite ends of the: .gas spring through in the ends of the thrust tube and / or the standpipe or the spring cup openings formed protruding pin-like projections which can be rotated and releasably fixed in these openings. This opens up the possibility that everyone can change the gas spring without the use of tools.

In the following, the innovation will be explained in more detail with reference to the accompanying drawing, in which one according to the innovation trained gas mechanics is shown in longitudinal section, wherein in the lower part of the Pigur on the left and the right

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Side of the longitudinal center axis shows two different embodiments for the support and arrangement of the spring
are.

In the accompanying figure, a gas mechanism, generally designated 30, is shown, as it is in connection with a height =
adjustable chair is usable. This gas mechanics points
a generally cylindrical standpipe 1. At this
V / ground the standpipe, for example in the case of an office chair, which attaches the star-shaped legs that protrude essentially horizontally,. $ of which only one leg 31 is indicated. On the inside of the standpipe 1 are two, one || in the pipe Pressed annular guides 10 and 11 arranged, which i are held at a distance from one another by a spacer tube 12, it

f < The annular guides 10 and 11 point to their inner f>

pages specially trained and mutually aligned §

Bearing and guide surfaces 32 and 33, respectively. The upper ring-ffc

shaped guide 11 is with the help of clamping sleeves 13 on the §

Standpipe 1 attached. Both annular guides 10 and 11 f

can be provided with special Schmiar devices, I

in order to ensure easy sliding of the bonders in these guides axially |

to enable slidably guided thrust tube 15. j

At the upper end of the push tube, a schematically shown seat support 14 is welded, on which the not in detail
chair seat shown is attached.

The lower end of the thrust tube 15 is from one into the interior
of the standpipe 1 surround protruding spring cup 9,
the upper edge of which is folded over to form a flange 3 ^. By doing
lower end of the spring cup 9 is an annular plate 35 with
a central opening 36 fixed in that the outer,
downward edge of the spring cup is folded inward and that the side wall of the above the ring plate
Spring cup is bulged inwards.

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Between the end of the spring cup 9, which is closed by the ring plate 35, and the seat support 14, a gas spring 16 is arranged, which lies essentially in the interior of the push tube 15 and can be designed, for example, in the form of a double-acting compressed air piston cylinder unit with a pretensioned gas filling, the two chambers of the Eolben- Cylinder unit are connected by a valve not shown in detail. At the upwardly projecting end of the gas spring 16, a substantially cylindrical valve attachment 37 is formed, which protrudes through an opening 38 in the seat support 14 beyond the thrust tube 15. The valve attachment 3V is held releasably in the opening 38 with the aid of a snap ring 21 engaging in a groove 39 formed in the valve attachment. The valve not shown in detail for the gas spring can be actuated via a valve needle 18 and a co-operating double-armed actuating lever 19 which is pivotably articulated to one arm ¹ 40 on the seat support 14 about a horizontal axis 41st

The lower end of the gas spring 1S has a pin 42 which is formed in one piece therewith and which protrudes through two rings 43 and 44 parallel to one another, between which an axial bearing 17 is arranged, and through the central opening in the ring plate 35. The pin 42 has a shoulder 45 via which the pin and thus the gas spring 16 are supported on the upper ring 43. The pressure exerted by the gas spring 16 on the ring 43 is thus transmitted via the axial bearing 17 and the second ring 44 to the ring plate 35 and thus to the spring cup 9.

The end of the pin 42 protruding beyond the ring plate 35 is secured against an unintentional one with the aid of a snap ring 20 Withdrawal of the pin 42 into the spring cup 9 is secured.

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The spring cup 9 is guided axially displaceably in the standpipe 1 with the aid of a spring cup guide 5. The spring cup guide 5 consists essentially of a ring which surrounds the spring cup and which is provided with a radially projecting collar 46. This collar 46 is supported on its underside by corresponding brackets in the standpipe 1, which will be discussed further below, and it serves on its upper side as a spring seat for a helical spring 7 'which surrounds the spring cup 9 axially and is opposite with its other end a second spring seat 8 is supported. The second spring seat 8 is annular and is pressed by the helical spring 7 against the lower edge of the flange 34 formed at the upper end of the spring cup 9. At the same time, the spring seat 8 can serve as a guide for the upper end of the spring cup 9 when its outer circumference slides against the inner wall of the standpipe Λ.

In the rest position, i.e. in the unloaded state of the mechanics, the helical spring 7 presses the spring seat 8 and so that the upper end of the spring cup 9 so far upwards until the spring seat 8 against the underside of the lower Guide 10 comes to the facility.

For the holder of the spring cup guide 5 two embodiments are shown in the undersigned voltage. The two embodiments are to be completed in each case with the fact that the on the left or on the right side of the central longitudinal axis of the standpipe 1 shown embodiment each Weil designed as a mirror image with respect to this longitudinal axis is to be seen.

In the embodiment shown on the left side of the central longitudinal axis of the standpipe 1, there is a bracket

or the support for the spring cup guide 5 from one Support ring 2, which is welded to the inside of the standpipe 1. The support ring 2 has a radial against the central longitudinal axis of the standpipe 1 protruding integrating part 47, against the top of which the underside of the Federal 46 of the spring cup guide 5 rests.

At dea on the right side of the central longitudinal axis of the standpipe 1, a detachable mounting arrangement is shown. In this embodiment are two spring cup guides 5 and 55, which are arranged at a distance from one another along the spring cup 9, are provided, each consist of a ring with the inside against the outside of the spring cup 9, each of which consists of a Piece is provided with an annular collar 46 or 49 projecting radially away from the outside of a ring. The two spring cup guides 5 and 55 are held at a distance from one another by a spacer sleeve 6, the air around its inner circumference rests against the outer circumference of each spring cup guide 5 and 55 and the outer ends rest against the collar 46 and 49, respectively. The side of the collar facing away from the spacer sleeve 6 also serves as a spring seat for the helical spring 7

The side of the annular collar 49 facing away from the spring cup guide 55 rests against a support ring 3 which defines the outer circumference of the ring 48 and which in turn rests against an internal locking ring 4, which resiliently engages in a hat 50 the Inuenuinfang of the standpipe 1 is embedded.

The gas mechanics described works as follows:

A height adjustment of the seat support 14 and thus that of it Fixed seat can be obtained in that with the aid of the actuating lever 19, the valve needle 18 in the illustrated

Figure is printed downwards, whereby the not shown The valve of the gas spring 16 is opened. If the chair is relieved in this position, the seat rises, there the piston of the piston-cylinder unit by the overpressure, the prevails in the gas spring, is pushed upwards. If, on the other hand, the seat is loaded in this position by a "person, so the seat is lowered because the pressure in the gas spring is caused by the weight of the person sitting on the chair overcome and thus the piston in the piston-cylinder unit is pushed downwards. Once the desired height has been reached, the operating lever 19 is released, whereby the valve ■ needle IS due to a spring not shown in the in

the figure shown raised position printed and thus the valve of the gas spring 16 is closed. (In the figure shown in the drawing, the seat is in its the most lowered position, i.e. in the position in which the piston rod of the piston-cylinder unit (not shown) the gas spring has retracted the furthest into the piston-cylinder unit.)

If the seat is now loaded by a person, a first air suspension is created by compressing that in the gas spring 16 trapped air is achieved by pushing the push tube 15 downwards into the spring cup 9, a continuously increasing pressure in the gas spring 16 is generated. This pressure also exerts a pressure on the spring cup 9 acting, downwardly directed force, which is opposed to the force of the helical spring 7, which tries to to hold the spring cup 9 in the position shown in the figure. Exceeds when the seat of the chair is in loaded state of equilibrium is, the force acting on the spring cup 9, downward force of the helical spring 7, this helical spring 7 is compressed at the same time in that the spring cup 9 moves downwards

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and the fire seat 8 along with it. In this way will a double suspension of the seat is achieved on the one hand by gas suspension and on the other hand by mechanical suspension, which makes the user feel special comfortable suspension is created ». Me rotatability of the seat support 14 · and thus of the seat itself about the vertical The central longitudinal axis of the push tube 5 is not impaired in this construction, since the push tube 15 itself both ver ■ slidably and rotatably supported by the two guides 10 and 11 and since the gas spring 16 itself via the Axial bearing 17 together with the thrust tube 15 opposite the Spring cup 9 is freely rotatable »j.

The arrangement also ensures easy interchangeability ^ speed of the gas spring 16. If the clamping ring 21 and the snap ring 20 are released, the gas spring can, when the thrust tube 15 after is pulled up in the drawing from the standpipe 1, easily removed from the thrust tube and through a new gas spring to be replaced.

The present innovation was based on the exemplary embodiment described described in relation to use in a chair. Of course, gas mechanics can also be general can be used in all such devices in which a comfortable suspension under load is desired is. The device according to the innovation is particularly suitable for those suspensions for which it is additionally desired is to allow a length adjustment of the mutually resilient parts.

Furthermore, the innovation does not affect the training of the one shown Embodiment limited. Rather, can both the standpipe, the push pipe and the spring cup have different shapes and the coil spring

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ÄS22 sbeneos ¹ - ¹ * Äureh another spring, such as conical ring springs, or replaced by a spring cup that is sufficiently resilient in its longitudinal direction.

Claims (1)

Protection claims 1. Gas mechanics, especially for chairs, with a first tube, a telescopically displaceable push tube guided therein and a gas spring wired between the first tube and the push tube, characterized in that the gas spring (16) moves via at least one axial bearing (17) against the thrust tube (15) and / or the first tube (1) or a holder (9) held thereon is supported. 2. Gas mechanics according to claim 1, characterized in that the gas spring (16) in the form of a double-acting Compressed air Kolbep cylinder arrangement with pre-tensioned gas filling is trained. 5. Gas mechanics according to claim 2, characterized in that that the rest position of the piston can be changed with Eilf.j a valve connected to the gas spring (16). M-. Gas mechanics according to one of the preceding claims, characterized in that the first pipe is designed as a stand pipe (1) and that the push pipe (15) with the help of at least two inside the standpipe attached guides (10, 11) is axially displaceable in the standpipe. 5. Gas mechanics according to one of the preceding claims, characterized in that the gas spring (16) with their one end against the push tube (15) and with its other end against a standpipe (1) surrounding at least part of its length on the standpipe resiliently supported spring cup (9). 7235751 -U.7I 6. Gas mechanics according to claim 5i characterized net that the spring cup (9) via a spring (7) supported on the standpipe (1) = 7 · Gas mechanics according to claim 7 »marked thereby net that the spring from a surrounding the spring cup Coil spring (7). 8. Gas mechanics according to one of claims 5 to 7 »thereby characterized in that the spring cup (9) is held by at least one guide held in the standpipe (1) (5, 55) is slidably supported. 9. Gas mechanics according to claim 8, characterized in that net that the guides (5, 55) from in the standpipe (1) mounted guide rings exist. 10. Gas mechanics according to one of claims 8 or 9i characterized in that the guide rings (5, 55) have a radially projecting collar (46, 49). 11 «Gas mechanics according to one of claims 9 or 10, characterized characterized in that the guide rings (5 »55) with the help of ring supports formed on the standpipe (1) (4-7 »3) are centrically sealed. 12. Gaemechanik according to one of claims 8 to 11, characterized characterized in that at least two of the guides (5, 55) are spaced apart by a spacer sleeve (6) being held. $ 1. Gas mechanics according to one of the claims? to 12th by it characterized in that the helical spring (7) on one side against the edge (34) of the over the thrust tube (15) the turned-over end of the spring cup (9) and on the other hand against a guide (5) for the spring cup » 723575S-U.7 * 14. Gas mechanics according to one of the preceding claims, characterized in that on opposite ends of the gas spring (16) through openings (36 ) formed in the ends of the push tube (15) and / or the standpipe (1) or the spring cup (9) , 38) protruding peg-like projections (37, 42) are formed which can be rotated and releasably fixed in these openings. 72J57H-U. »