A chair, such as a swivel chair for the office, has an armrest that is made up of an armrest carrier, which includes a carrier and a sleeve sliding thereon and attached to the seat at the bottom by a seat flange which can be displaced transversely to the seat direction, and of an arm support, which can be displaced longitudinally via a guide and can be rotated via a rotary part mounted in a rotary bearing. The guide is arranged parallel, but eccentrically in relation, to the axis of symmetry of the arm support. Since the rotatability of the arm support is at least 1800, it is possible to set different clear distances between the two arm supports of the chair.

TECHNICAL FIELD

The invention relates to the field of seating furniture, in particular to a three-dimensionally adjustable armrest for an office chair.

PRIOR ART

Different technical solutions for chairs which allow the user to change the position of the arm support are known.

For example, EP 0 809 957 A3 discloses a chair in the case of which the arm support can be adjusted three-dimensionally, that is to say in respect of height, in a horizontal plane and in respect of rotation. The arm support here is fastened on an attachment plate, fitted at the top end of the carrier, and can be rotated about a pin and displaced longitudinally via a sliding body. The axis of rotation of the arm support is located centrally in the arm support and eccentrically in relation to the centre axis of the carrier. This design only allows the clear distance between the arm supports of the chair to be changed to a limited extent. In design terms, the known solution involves high outlay to produce and install and is not particularly stable.

U.S. Pat. No. 6,076,891 discloses the armrest of a chair in the case of which the arm support is mounted in a pivotable manner on a horizontal arm which, for its part, is mounted in a pivotable manner on a vertical, height-adjustable carrier. Although this design provides considerable scope for movement for the arm support in a horizontal plane, it is of complex design, is not very stable and also is not aesthetically acceptable to the user.

U.S. Pat. No. 5,752,683 discloses an armrest which specifically avoids the occurrence of carpal tunnel syndrome in individuals who spend long periods of time working with equipment such as typewriters, personal computers and the like. Provided for this purpose is a longitudinally extending, high-outlay arm support which can be displaced over a considerable distance in the forward and rearward directions and, at the front, has a special, swing-up supporting means for the ball of the thumb, and which is mounted in a pivotable manner on the vertical carrier. The known armrest is of extremely complex design and is not suitable for mass production.

U.S. Pat. No. 6,076,892 discloses an armrest which provides for a large number of movement possibilities for the arm support: heightwise, forwards and rearwards, laterally and in rotation. This known armrest also involves extremely high outlay and is far too expensive for mass production.

There is thus a real need for an armrest which, while being as adaptable as possible to the user's requirements, is nevertheless straightforward to produce and install and is thus suitable for use in reasonably priced mass-produced furniture. In particular, it should be possible for the clear distance between the arm supports to be easily varied, because the clear distance between the arm supports of an office chair is a critical, and in some cases country-specific, magnitude. Thus, for example, in accordance with EU standards, the maximum clear distance is 460-510 mm, while, in the Netherlands, the clear distance should be a minimum of 390-510 mm.

However, both in respect of production outlay and from the sales standpoint, the way in which these conflicting requirements should be tackled is problematic.

DESCRIPTION OF THE INVENTION

The object of the invention is thus to develop an armrest which makes it possible for the clear distance between the two arm supports to be adjusted in a straightforward manner without particular production or installation outlay being necessary for this purpose.

This object is achieved by the features of claim1and of the subclaims.

The invention is based on the idea of providing the arm support with a guide which slides on guide noses—blocks—which are fastened on a rotary part mounted in a rotatable manner on the backrest carrier, and in the process of arranging the guide eccentrically in relation to the point of rotation of the rotary part. This allows for a combination of a longitudinal movement and rotary movement of the arm support, in the case of which, on account of the eccentricity of the rotation, it is possible to set a variety of clear distances between the two arm supports.

METHODS OF IMPLEMENTING THE INVENTION

FIG. 1illustrates a carrier1on which a sleeve2is arranged for sliding action. The carrier1is connected to a seat flange3, which is fastened on the chair (not shown). The seat flange3has two slots and can be displaced transversely to the seat direction. The seat direction here is the direction from the backrest to the front edge of the chair. The height of the armrest can be adjusted by means of the sleeve2sliding on the carrier1. These technical measures are all known per se and will thus not be explained in any more detail.

The rotary bearing5is provided at the top end of the sleeve2. The rotary part4is mounted in a rotatable manner in said bearing5. The rotary part4has the guide noses6, which are connected integrally to the rotary part4. The rotary part4is screwed in the rotary bearing5by the central screw16.

Elastic latching protrusions15are accommodated in recesses of the rotary part4and correspond with notches on the inner circumference of the rotary bearing5. In the installed state, the rotary part4is thus fixed in position, during rotation, wherever the latching protrusions15end up in a notch.

In the installed state, the guide noses6engage from beneath in the two guides7in the guide housing12. A retaining plate8is provided on the other side of the guides7. This retaining plate is fastened on the guide noses6by means of the retaining screws9. The housing screws13are used to fasten the guide housing12on the carrying panel10, which bears the foamed-on pads11.

In the installed state, the underside of the guide housing12slides between the two guide noses6on the surface of the rotary part4. In this case, the arm support is displaced in the longitudinal or seat direction. In order for it also to be possible for this displacement to take place in fixed latching positions, the horizontal latching protrusions14are provided in a rotary part4, and notches are provided on the underside of the guide housing12. Fixed latching positions are thus produced whenever the expansible latching protrusions14end up in a notch on the underside of the guide housing12.

The details of the guide housing12are illustrated again more specifically in FIG.2. The two eccentrically located guides7in particular can better be seen. It is also possible to see the bores18, through which the housing screws13are screwed into the carrying panel10. The rotary bodies and crosspieces (not designated) form a skeleton for stabilizing the guide housing12. This comprises a plastic injection moulding, preferably made of PA/polyamide.

FIG. 3shows the pad11from above in various positions. As can be seen, the axis of rotation17, that is the centre axis of the rotary part4, is located eccentrically in relation to the axis of symmetry of the pad11which runs in the seat direction.

The pad11can be displaced longitudinally in direction B. This movement is made possible by the sliding movement in the guides7. It may also be rotated, however, about the axis17in accordance with the double arrow A. This rotation is made possible by the rotary part4. Finally, however, it is also possible for the carrier1to be moved in direction C by means of the seat flange3.

With all these movement possibilities, the result is not just a large number of adjustments for the arm support with the pad11; the eccentricity of the guides7also makes possible a large number of clear distances between the two arm supports of a chair.

The armrest according to the invention preferably consists of the following material:

The carrier1and seat flange3consist of injection-moulded plastic, the sleeve2, rotary part4and housing12consist of injection-moulded plastic, preferably PA, the retaining plate8is a punched part made of sheet metal, and the carrying panel10with pad11is PA with a PUR covering. The latching protrusions14and15consist of steel with resilient elements made of PUR.

LIST OF DESIGNATIONS