ITBO970435A1 - COMPRESSED AIR COLUMN, CUSHIONED AND SWIVEL, ESPECIALLY FOR OFFICE CHAIRS. - Google Patents

Description

'DESCRIPTION of the industrial invention, entitled:

"Compressed air column, cushioned and swiveling, particularly for office chairs"

TEXT OF THE DESCRIPTION

The invention relates to a cushioned and rotatable compressed air column, particularly for office chairs. In particular, the column is of the type which comprises a cylinder closed at one end and in which a piston integral with a rod slides in a lateral seal, which exits sideways and coaxially from the other end of said cylinder, being the opposite ends of the same cylinder and the stem, designed for connection to the base and / or to the seat of the chair. From the end of the stem comes a command that can be operated by the user and which is connected to a slide valve located in said piston, which controls the passage of a fluid between two lower and upper pressure chambers of the column, defined by the opposite faces of the same. piston, in order to allow the height adjustment of the column itself to the extent required by the person sitting. Columns of this type are described for example in European patents EP-0357595 and EP-0462997. Columns of the above type are also known, which operate exclusively with air or gas and with a limited pressure, on the order of about 6-7 Bar. These columns are turned with the stem upwards and are characterized by presenting a extension of the rod itself inside the cylinder, beyond the piston, which cooperates with guide means placed coaxially in the lower and internal part of the piston itself and such that the air pressure in the lower chamber also acts on the lower end of this extension of the rod, so that the entire lower surface of the piston is affected by the air pressure which in this way can be contained to the minimum values mentioned above. A column of this type is described in Italian patent No. 1,262,248. This column has the following drawback. When the stem of the column is in the position of maximum extension, the upper pressure chamber of the column itself has an almost non-existent volume. When the user sits down on the chair and suddenly unloads his weight on the stem of the column, the stem itself descends cushioned by the compression of the air in the lower chamber and creates in said upper chamber a depression of such high value that in the long run deforms the upper seal (s) and affects the operation of the entire column. A first object of the invention is to provide a low pressure compressed air column with limited overall dimensions and without the aforementioned drawbacks. A further object of the invention is to provide a column with the aforementioned characteristics, which is of relatively simplified construction, low cost and high technological reliability. The column according to the invention is substantially characterized by comprising a cylinder and piston assembly of a known type, with the piston integral with the end of the rod inside the cylinder, usually facing upwards with the rod itself and internally equipped with limit-stroke means. which stop the extension of the stem within limits such that the volume and length of the upper chamber do not fall below the minimum predetermined values, so as to allow the achievement of the following two objectives: - even when 10 stem is at its maximum extension stroke, the upper chamber of the column has such a volume and contains a quantity of compressed air such as to avoid the aforementioned cavitation phenomena; - even when the rod is at the maximum extension stroke, the rod itself remains guided inside the cylinder, on one side through the piston and on the other through the upper closing bush of the cylinder itself, with a length of such as to ensure the maintenance of the necessary qualities of resistance to bending for the entire column. The lower end of the cylinder of the column can be tapered for a length useful for connection with the base of the chair, or the cylinder can have a constant diameter along the entire length and can be covered with a mantle of any suitable material, which is conicized. in the lower end for connection to the base of the chair. Major characteristics of the invention, and the resulting advantages, will become clearer from the following description of a preferred embodiment thereof, illustrated purely by way of non-limiting example, in the figures of the two attached drawing tables, in which:

- fig. 1 shows the column in axial section and with the stem at the end of the extension stroke;

- fig. 2 shows an upper section of the column in axial section and in an intermediate working position;

- fig. 3 is an axially sectioned view of the piston of the column, with the adjoining slide valve in the open position for the passage of compressed air between the two internal chambers of the same column;

- fig. 4 is a bottom plan view of the central part of the closing bottom of the cylinder of the column;

- fig. 5 illustrates an embodiment variant for fixing the piston to the stem of the column;

- fig. 6 is an axially sectioned view of an upper portion of the column, with an executive variant of the means that limit the extension stroke of the stem of the column itself.

From figure 1 it can be seen that the column C comprises a cylindrical body or cylinder 1, made of steel, with a round section, in which a piston 3 made for example of a suitable material is axially movable and with lateral sealing by means of the gasket 2. anti-friction plastic and equipped with an axial and upper tang 103 which is engaged as a lateral seal by means of the gasket 4 and is fixed with suitable means (see below), to the lower end of a tubular stem 5 of steel, which slides guided in a bush 6, for example of a suitable anti-friction plastic material, which closes the upper end of said cylinder 1. At least a special gasket 7 ensures the sealing connection of the bush 6 with the rod 5 and with the cylinder 1.

The piston shank 103 is axially fixed to the rod 5 by means of an elastic ring 8 which lodges in an annular recess of the shank itself and which snap-engages a similar annular recess provided on the internal lateral surface of the rod. According to a different embodiment illustrated in Figure 5, the shank 103 can be provided with an annular recess 9 in which a part of the rod 5 is edged with a rolling operation, as indicated with 205. It is understood that the piston 3 can be fixed to the stem 5 in any other way, even different from those indicated. The cylinder 1 is closed at the bottom by a bottom 10 for example of a suitable plastic material, externally equipped with an annular sealing gasket, held for example in place by a metal washer 12, inserted by pressure on a tapered part of the same bottom, on which it remains due to a suitable anti-slip profile of its internal edge. Thanks to the aforementioned tapered and scaled conformation, the bottom 10 is devoid of undercuts, can be made with a mold of limited cost and is free from imperfections. The bottom 10 is equipped on the internal face with a seat in which a ring 13 of an elastomeric material suitable to act as a shock absorber for the lower end of stroke of the piston 3 is housed and partially protrudes. The same bottom 10 is equipped in the center with a threaded and through hole 14, with a small groove 15 along the generatrix {see also fig. 4), in which a screw 16 is screwed with a gasket 116 which seals said hole and said groove 15. By loosening the screw 16 and inserting the bottom in an inflation unit (not shown), it is possible to introduce compressed air in the internal chambers of the column (see below), until the predetermined pressure is reached, after which said screw 16 is fully closed by means of an automatic screwer suitably arranged in said inflation unit. For assembly on the chair, the column is equipped with opposite conical ends which are inserted in corresponding conical seats of the base and seat of the chair itself. The rod 5 is provided with a conical end 105 and the cylinder 1 can be characterized by having a lower conical end itself, which however would limit the stroke of the piston 3. To avoid this limitation, the cylinder 1 can be provided with a constant diameter for the whole length and which is circumscribed by a tubular skirt 1 'which is conicized at the bottom as indicated by 101' and which with the ends is fixed with the edges 201 'and 301' respectively to the bush 6 and to the bottom 10, in the first case directly and in the second case with the interposition of a metal washer 17. From figures 1 and 3 it can be seen that in the stem 5 a control rod 18 is axially movable, preferably made of a suitable plastic material, which protrudes from 'upper and open end of the same stem with the portion 118 adapted to be connected to the operating lever or to other known means associated with the seat of the chair, and that with the lower end a operates on a slide valve located axially in the piston 3 and in the relative tang 103, which is normally closed by the air pressure of the lower chamber A of the column and which, when pushed down and opened by said rod 18, communicates the said chamber A with the upper chamber B, to allow the axial excursion of the assembly 3-5 and the necessary height adjustment of the column. In the example illustrated in the drawings, the slide valve provides that the assembly 3, 103 is axially provided with a hole divided into three sections of increasing diameter downwards, as indicated by 19, 20 and 21. In the section of the intermediate hole 20 an OR 22, a bushing 23 of plastic material, whose internal diameter is substantially the same as that of the hole 19, and then a second OR 24 are inserted in order and the whole is locked in place by a metal washer 25 which with its outer edge having an anti-slip profile, it is forced by pressure into the portion of the hole 21, until it reaches the bottom of the latter. The internal diameter of the washer 25 is substantially equal to or slightly greater than the diameter of the said portion of the hole 19. The internal diameter of the OR 22 and 24 is suitably smaller than the diameter of the same portion of the hole 19. The bush 23 is externally provided with a recess intermediate annular which forms with the portion of hole 20 an annular chamber 26 which is in constant communication with the upper chamber B of the column by means of at least one suitable hole 27 arranged radially on a base bulge of the shank 103 of the piston 3. At the ends of the same chamber 26, there are also open holes 28 provided on the bushing 23 which can be inserted in its seat in any orientation. The portion of the hole 19 and the assembly 22-25 are crossed with the possibility of axial displacement by a cylindrical drawer 29, preferably made of steel, which cooperates in lateral sealing with the ORs 22, 24, which protrudes for a portion in the axial cavity of the stem 5, at atmospheric pressure, and which with the other end is abutting into the pressure chamber A of the column, and is equipped with a head 30, for example a filler, which normally rests against the washer 25. chamber A in fact keeps the drawer 29 normally pushed upwards. In this condition, as shown in Figure 1, the portion of the drawer 29 which protrudes from the top of the tang 103 of the piston 3, keeps the control rod 18 raised and suitably protruding from the stem 5. The drawer 29 is equipped with an annular recess intermediate 31 which, when the same drawer is at rest, is placed between the ORs 22 and 24 and prevents communication between the chambers A and B since the OR 24 co-operates in tightness with the drawer itself. Vice versa, by pushing the control rod 18 downwards, this pushes the drawer 29 downwards and carries the annular recess 31 astride the OR 24 which fails in its sealing function. In this case, the chambers A and B of the column communicate with each other through the hole 28, the chamber 26 and the hole 27, as clearly shown in Figure 3. What most characterizes the column according to the invention is represented by the fact that in same means are provided that stop the stroke of the piston 3 in the extension phase of the rod 5, to a point such that the rod remains guided inside the cylinder 1, with a length equal for example to about 1/3 of the length of the same stem or in any case of such length that the entire telescopic system retains the qualities of resistance to bending necessary for the use for which it is intended. In the same condition of maximum extension of the stem, the chamber with the smallest section B of the column must keep a minimum pre-established volume and such as to avoid the cavitation phenomena found in known columns. For this purpose, a spacer bush 32 is inserted in the upper part of the cylinder 1, for example of suitable plastic material, provided on the lower end with a ribbed and profiled edge 132 so as to house a ring 33 of a suitable elastomeric material, useful as upper end stroke damper of the piston 3. The upper end of the bushing 32 rests on a metal washer 34 which is kept away from the gasket 7 by an elastic ring 35 mounted in a special annular recess 36 obtained on the internal side surface of the cylinder. The bushing 32 has such an external diameter that it must be mounted with slight forcing in the cylinder 1, so as to remain in the high position. The flattened end 132 of the bush 32 has an internal lateral surface with a diameter greater than the external diameter of the stem 5 and / or equipped with equidistant recesses, so that the annular chamber B 'defined by the bush itself and by the stem, is in free communication. with chamber B and is at its same pressure. From figures 1 and 2 it is evident how, by compressing the stem 5 with the weight of a person, chamber A decreases in volume and cushions the seat, while chamber B, initially at zero volume, increases proportionally in volume, without creating problems. cavitation since in connection with the compensation or residual chamber B 'which initially has the same pressure as the chambers A and B. It is understood that according to a construction variant, not shown, chamber B' can be positioned differently between the bushing 32 and the cylinder 1. In this case the bush 32 will be equipped at least on the lower end with suitable radial holes, similarly to the bush 23 of the slide valve existing on the piston 3. Other means can be used instead of the elastic ring 35, such as for example an annular deformation towards the inside of the cylinder 1, made with an external rolling of the same cylinder. Figure 6 shows that according to an embodiment variant of the invention, an annular deformation 37 towards the inside of the cylinder 1, made for example by rolling, can be used to eliminate the bush 32, since this internal projection 37, preferably in combination with a metal ring 38 supported or wedged against or in the same projection 37 and in combination with a ring of elastomeric material 39, would provide the stop which stops the extension stroke of the rod 5 by the extent necessary to maintain the residual or compensation chamber B '. In this case, lacking the bushing 32, the chamber B 'would have a larger volume than that of the same chamber B' of the solution of figures 1 and 2, so that the chamber B 'of figure 6 could be shorter than that of the chamber B 'of figure 1. The described column can also be used upside down and the control rod 18 can be operated by means of a pedal lever placed in the base of the chair. It is understood that the description refers to a preferred embodiment of the invention, to which numerous variations and modifications, especially constructive ones, can be made, all without abandoning the guiding principle of the invention, as described above, as illustrated and as claimed below. In the claims, the references shown in brackets are purely indicative and do not limit the scope of protection of the claims themselves.

Claims (10)

CLAIMS 1) Compressed air column, cushioned and swiveling, particularly for office chairs, of the type that includes a cylinder (l) closed at one end, prepared for example for connection to the base of the chair and in which a piston slides sideways (3) integral with a rod (5) which slides axially guided and with lateral sealing through a bushing (6) which with sealing means (7) closes the other end of said cylinder and the external end of the rod itself being predisposed for the connection to the seat of the chair and from this end a control rod (18) protruding which axially crosses the same stem and which acts on a slide valve (29) mounted in the said piston to intercept a connecting channel between the two opposing pressure chambers (A - B) of the column, engaged by a fluid, preferably by compressed air at the right pressure value, since said drawer is normally in a position such as to close cause said ducting due to the effect of the pressure differential acting on its ends, while when it is operated by said control rod, the same drawer puts in communication the said pressure chambers (A-B) to allow the variation in height of the column which it is characterized by being equipped with means for stopping the extension of the rod so that at the end of the maximum extension stroke this remains guided in the cylinder with a length of such a length as to ensure that the column maintains the necessary qualities of resistance to bending , and to ensure that beyond said stop means there is a residual pressure or compensation chamber (B ') which is in constant connection with the pressure chamber of smaller section (B) of the column, which is therefore at the same pressure and that it has a volume such that, when the column is suddenly stressed in compression by the weight of the user who sits down, the chamber of greater section (A) decreases in volume to cushion the seat, while the smaller section chamber (B) proportionally increases in volume, without creating cavitation phenomena and compromising the function of said means (7) which ensure the seal between the sheath and stem, since this chamber draws air under pressure from said residual or compensation chamber (B '). 2) Column according to claim 1), in which said means for extending the rod (5) are constituted by a bushing (32) preferably of plastic material, which is preferably inserted with slight forcing into the upper end of the cylinder (1), which has at least one thickened end (132) facing the piston (3) and which carries at least one ring (33) of an elastomeric material useful as a stop damper for said piston, while the other end of said bush rests against axial locking means, which prevent it from contacting the seal (7) between cylinder and rod, since said bush is characterized by having walls of such thickness as to only partially engage the portion of the chamber in which it houses, in order to allow the formation of said residual or compensation chamber (B ') which, through special games with the cylinder and / or with the rod, is in constant communication with the lower section chamber (B) of the column. 3) Column according to claim 2), in which the axial locking means of the spacer bush (32) consist of a metal washer (34) against which the upper end of the same bush rests and comprise an elastic ring (35) against which the washer rests and which lodges in an annular recess (36) obtained on the internal lateral surface of the cylinder (1). 4) Column according to claim 2), in which the axial locking means of the spacer bush (32) comprise an annular projection obtained on the internal surface of the cylinder (1) with an external rolling process of the cylinder itself. 5) Column according to claim 1), in which the means for extending the rod (5) for extending the stroke comprise an annular projection (37) inserted or obtained as a piece inside the cylinder (1), for example by means of an external rolling and with which projection the piston (3) cooperates in abutment, preferably with the interposition of a ring of elastomeric material (39) and of a preferably metallic washer (38) and with an internal diameter smaller than the external diameter of the rod ( 5) of the column. 6) Column according to claim 1), in which the free ends of the cylinder (1) and of the stem (5) are tapered for coupling to corresponding conical seats of the seat and of the base of the chair. 7) Column according to claim 1), in which the free end (105) of the stem (5) is tapered for coupling with a conical seat of the chair seat, while the cylinder (1) has a constant internal diameter for the entire length and is covered by a tubular shell (1 ') whose ends are crimped to the head bushing (6) and to the bottom (10) closing the ends of the cylinder itself, being the lower end (101') of this mantle suitably conicized for coupling with a conical seat of the base of the chair. 8) Column according to claim 1), in which the bottom (10) for closing the bottom of the cylinder (1) is made of suitable plastic material and has an external graduated conformation, with four sections of increasing diameter downwards, which starting from the one with the greatest diameter, the following are respectively involved: the first, by the tubular shell (1 ') whose lower end (301') is edged on the bottom of the same bottom; the second, from the lower end of the cylinder (1); the third, by a gasket (11) which ensures the seal between the bottom and the cylinder; the fourth, by a metal washer (12) which, with its internal anti-slip profile edge, is forced by pressure on this fourth section of smaller diameter. 9) Column according to claim 8), in which the bottom (10) is equipped inside the sheath with a central seat with a pad (13) of elastomeric material, useful as a damper for the retraction limit stop of the column stem, being the same bottom equipped with an axial hole (14, 15) in which means of any suitable type (16, 116) are screwed which allow the air at the necessary pressure to be introduced into the internal chambers (A-B-B ') of the column. 10) Column according to claim 1), in which the piston (3) is of a suitable anti-friction plastic material and is equipped with an axial shank (103) fixed with axial locking means (8, 205) and with lateral sealing means (4), at one end of the stem (5), under which said shank has an annular bulge in which at least one hole (27) is radially open which with the other end is open in the intermediate part of the intermediate section ( 20) of the axial cavity of the piston and of the aforementioned shank and which is formed by three sections of diameter progressively increasing towards the chamber of greater section (A) of the column, a plastic bushing (23) being mounted in said intermediate section at the ends of the ORs (22, 24) and the whole being axially locked by a metal washer (25) which, with its own anti-slip profile outer edge, is forced under pressure in the portion of greater diameter (21) of said axial piston cavity, being or said bush provided at a short distance from the ends, with holes (28) open in an intermediate and external annular recess of the same bush, which defines with the cavity hosting the same bush, an annular chamber (26) communicating with said radial hole (27), it being provided that the axial cavity of the piston and of the shank is crossed by a cylindrical and preferably metallic drawer (29), which cooperates in a sealed manner with the aforementioned ORs (22, 24), and with an end section protrudes inside the stem of the column and is in contact with the control rod (18) and which with the other end is abut in the chamber with the greatest section of the column and is equipped with a head (30) which normally rests against said washer 25 and said drawer being equipped with an annular recess (31) which is normally included between said ORs (22, 24) so as to prevent communication between the pressure chambers (A-B) of the column itself, while when the drawer is pushed towards the low through said control rod, its recess (31) partly exits from the sealing area of said ORs, and allows the connection between the pressure chambers of the column which in this way can be varied in height. Il) Compressed air column, cushioned and swiveling, particularly for office chairs, usable both with the stem oriented upwards and downwards, made in particular, in whole or substantially, as described, as illustrated in the attached drawings and for the purposes shown above.