NO324513B1 - Rocker mechanism for a chair, especially an office or work chair - Google Patents

Abstract

A rocker spring mechanism for a chair, the mechanism being arranged between a stem part (1) and a movable part (2) of the chair which can be tilted about a transverse rocker axis (AA) located in the stem part (1), the mechanism comprising a torsion spring (4 ) which produces an increasing tension force by increasing tilting of the moving part of the chair. The torsion spring (4) is substantially square-shaped and comprises two longitudinal side portions (4a, 4b) and two mutually directed front transverse portions (4c, 4d), the end portions (5) of the transverse portions resting against a abutment device (6, 7) on the back portion ( 2) of the chair, so that the torsion spring is tensioned depending on the tilting angle of the back part. The side parts (4a, 4b) are further rotatably and axially displaceably supported in the stem part (1) across the tilting axis (AA), so that the distance between the tilting axis and the transverse parts (4c, 4d) of the torsion spring (4) can be changed by displacing the spring, for thereby regulating the spring characteristic.

Description

The invention relates to a tilting spring mechanism for a chair, in particular an office or work chair, where the mechanism is arranged between a stem part and a movable part of the chair which can be tilted about a transverse tilting axis located in the stem part, the mechanism comprising a torsion spring that produces an increasing tension force by increasing tilting of the movable part of the chair, as the torsion spring is essentially square-shaped and comprises two longitudinal side parts and two opposite front cross parts.

A tilting spring mechanism of this type is known, for example, from Norwegian patent application no. 1992 0470. This known mechanism comprises a torsion spring arrangement which is connected between the foot or trunk part of the chair and the seat part of the chair, the seat part being tiltable about a transverse tilting axis and with increasing tilting angle causing increasing tension of the spring. The spring has side parts in the form of a so-called torsion shaft which are rotatably mounted in support parts which are attached to the seat part. Furthermore, the spring has front twisting parts which are connected to a tensioning device for regulating the pre-tension of the spring, and a rear coupling part which is connected to a rear-projecting, rotatably mounted middle part to which the back part of the chair is attached. The rear coupling part of the torsion spring is connected to the middle part via a joint connection, to achieve synchronized movement of the back part in relation to the seat part by tilting movement of the seat part.

As mentioned, the preload of the torsion spring can be regulated using the aforementioned tensioning device, but the spring characteristic is not adjustable.

GB 1 256 388 can be mentioned as another known technique.

The purpose of the present invention is to provide a tilting spring mechanism which enables both regulation of the spring's preload and regulation of the spring characteristic, while the mechanism has a simple and robust construction.

The above-mentioned purpose is achieved with a tilting spring mechanism of the type indicated at the outset which, according to the invention, is characterized by the fact that the end parts of the transverse parts rest against a mounting device on a back part of the chair, so that the torsion spring is tensioned depending on the tilting angle of the back part, and that the side parts are axially displaceably stored in the stem part of across the rocker axis, so that the distance between the rocker axis and the transverse parts of the torsion spring can be changed by shifting the spring, thereby regulating the spring characteristics.

An advantageous embodiment of the invention is characterized by the installation device for the end parts of the transverse parts having an installation part which is obliquely inclined in a direction away from the rocker axis, in order to cause increased pretension of the torsion spring by increasing the distance between the rocker axis and the front cross parts of the torsion spring.

In contrast to the known tilting spring mechanism discussed above, the mechanism according to the invention is designed for use in a chair which has a fixed seat part and a movable back part. The spring is displaceably mounted in the stem part of the chair to be able to regulate the spring characteristics, but is stationary in relation to the stem part and the seat when the back part is tilted. A progressive spring is thereby achieved, and a smooth or soft adjustment force due to movement of the user's center of gravity/weight on the chair.

The invention shall be described in more detail in the following by means of an embodiment with reference to the drawings, there

fig. 1 shows a perspective view of a tilting spring mechanism according to the invention, which is mounted in connection with a stem part of a chair,

fig. 2-4 respectively show a side view, a front view and a view seen from the underside of the rocker spring mechanism in fig. 1, and

fig. 5-8 show corresponding drawings as in fig. 1-4, but with the torsion spring in a different functional position.

As can be seen from the drawings, these only show elements of a chair in which a tilting spring mechanism according to the invention is mounted. This concerns an office or work chair in which the tilting spring mechanism is mounted to operate between a fixed stem part 1 and a movable back part 2 of the chair. A seat part (not shown) is assumed to be permanently mounted to the stem part 1.

The trunk part is provided in its central area with a hole 3 for mounting on a chair column (not shown) which can be height-adjustable in the usual way by means of a conventional gas spring.

Only the lower part 2 of the back part of the chair is shown. The actual back support part, not shown, will be rigidly attached to the back part 2 at its rear end. The back part is rotatably mounted about storage points in the trunk part 1, so that it can be tilted about a transverse tilting axis A-A under the influence of a torsion spring 4.

The torsion spring 4 is a mainly ring-shaped or square-shaped body which is formed from a rod of spring steel with a preferably round cross-section. The spring 4 comprises two longitudinal side parts 4a, 4b, two facing each other, front cross parts 4c, 4d, and a rear cross part 4e which connects the side parts 4a and 4b.

As shown, the end portions 5 of the front transverse parts 4c, 4d rest against a contact device on the back part 2 at its front end, so that the torsion spring 4 is tensioned depending on the tilt angle of the back part. In the embodiment shown, the installation device consists of two rod parts 6, 7 with round cross-sections that extend across the transverse parts 4c, 4d of the spring and are supported by an inclined plate part 8 of the back part 2. The installation device thus has an installation part that is obliquely sloping upwards in the away direction from the rocker axis and the front transverse parts 4c, 4d of the torsion springs.

As the support device consists of rod parts with a round cross-section, a stable contact point is constantly achieved between the rod parts and the cross parts of the spring, and thus a smooth relative readjustment movement and a smooth change of the spring tension when tilting the back part of the chair.

The side parts 4a, 4b of the torsion spring are rotatably and axially displaceable stored in respective channel parts 9 and 10 which are suitably attached to the underside of the stem part 1 and extend across the rocker axis A-A in a mainly horizontal plane. The rotatable support allows twisting of the side parts of the spring by varying tension of the spring when the chair is in use. As the spring's side parts are also axially displaceable, the distance between the rocker axis A-A and the spring's transverse parts 4c, 4d can be changed by displacing the spring in the channel parts 9, 10, thereby regulating the spring characteristic and setting the spring stiffness with a view to individual adaptation to the weight of the person in question user of the chair.

After the spring is properly adjusted relative to the rocker axis A-A, it will be stationary relative to the trunk portion when using the chair.

As can be seen from the drawings, the rocker spring mechanism in fig. 1-4 shown in a first functional position, while in fig. 5-8 are shown in a second functional position where the torsion spring is offset in the trunk part so that there is a greater distance between the chair's tilting axis A-A and the torsion spring's front transverse parts 4c, 4d. In order to achieve a desired adjustment of the displacement position of the torsion spring, an operating device is provided which, in the embodiment shown, comprises a maneuvering arm 11 which is rotatably supported in the stem part 1 and is operatively connected to the torsion spring 4 via a pivot joint 12 and a connecting rod connected to the spring 13, so that the spring is displaced by manual turning of the maneuver arm. The maneuvering arm is guided through suitable holes (not shown) in the channel part 9 and is axially fixed in this while being rotatable about the longitudinal axis. Furthermore, the maneuvering arm is connected to the pivot joint 12 via a threaded connection (not shown), so that the pivot joint can be turned between the two extreme positions shown in fig. 4 and 8. The aforementioned threaded connection has relatively coarse threads, so that the pivot joint can be turned between the extreme positions with relatively few revolutions of the maneuvering arm.

Claims (7)

1. Tilt spring mechanism for a chair, in particular an office or work chair, where the mechanism is arranged between a stem part (1) and a movable part (2) of the chair which can be tilted about a transverse tilt axis (A-A) located in the stem part (1) , the mechanism comprising a torsion spring (4) which produces an increasing tension force by increasing tilting of the movable part of the chair, the torsion spring (4) being essentially square-shaped and comprising two longitudinal side parts (4a, 4b) and two facing each other, front transverse parts (4c, 4d), characterized in that the end parts (5) of the transverse parts rest against a mounting device (6, 7) on a back part (2) of the chair, so that the torsion spring is tensioned depending on the tilt angle of the back part, and that the side parts (4a, 4b) is axially displaceably stored in the stem part (1) across the rocker axis (A-A), so that the distance between the rocker axis and the transverse parts (4c, 4d) of the torsion spring (4) can be changed by shifting the spring, thereby regulating the spring characteristic. 2. Rocker spring mechanism according to claim 1, characterized in that the contact device for the end parts (5) of the cross parts (4c, 4d) has a contact part (6, 7) which is inclined upwards in the direction away from the rocker axis (A-A), in order to cause increased pretension of the torsion spring (4) by increasing the distance between the rocker axis and the front transverse parts of the torsion spring. 3. Rocker spring mechanism according to claim 1 or 2, characterized in that the torsion spring (4) is formed by a rod with a round cross-section. 4. Rocker spring mechanism according to claim 2 or 3, characterized in that the installation device consists of two rod parts (6, 7) with round cross-sections which are placed under one of the respective end parts (5) of the cross parts (4c, 4d), and which are supported by an inclined surface (8) of the back part (2) and extends across the cross parts. 5. Rocker spring mechanism according to one of the preceding claims, characterized in that the torsion spring (4) is stored in the stem part (1) in a mainly horizontal plane, and is stationary in relation to the stem part when using the chair. 6. Tilting spring mechanism according to one of the preceding claims, characterized in that the seat part of the chair is fixedly mounted on the stem part (1). 7. Tilting mechanism according to one of the preceding claims, characterized in that it comprises an operating device for adjusting the displacement position of the torsion spring in the stem part, which device comprises a maneuvering arm (11) which is rotatably stored in the stem part (1) and via a threaded connection is connected to a swivel joint (12) which is operatively connected to the spring (4) and ensures displacement of the spring when the maneuvering arm is turned.