NO318693B1 - Device for automatically adjusting the rocking resistance of a chair seat - Google Patents

Description

The invention relates to a device for automatically regulating the tilting resistance of a chair seat alone or a chair body with seat and backrest. This regulation must take place in connection with a longitudinally movable chair seat (or vertically movable backrest), as the seat is attached tiltably to a foot column via a horizontal shaft arranged across the chair, where tilting resistance and suspension are determined by two springy elements, as one spring is compressed by tilting in one direction and the other spring is compressed by tilting in the opposite direction, and where the spring force is adjustable. An embodiment where the distance between the seat's rocker axis and spring element is changed is known, for example, from the patent applicant's NO patent no. 160 406.

There are previously known chairs, e.g. office chairs of the type specified above. In the case of these chairs, two springs are arranged between the seat and the chair frame, the spring force of which can be varied by means of screw devices for separate adjustment of each spring. If the chair often changes users, such a constant change of the spring force or the position of the springs becomes difficult to find out, time-consuming and cumbersome.

If the chair is used by several different people, i.e. people with different body sizes and weights, each person will have to adjust the springs separately and individually to obtain optimal sitting comfort. There has therefore been a desire to produce a setting or adjustment mechanism for the tilting resistance in a chair seat or chair body, where regulation can take place without the user having to think about or do anything about it. Tall people who need a deep chair seat place greater strain on the tilting resistance than short people, both because they are heavier and because they are longer and have larger weight arms. Small people who want to sit as short exert less strain on the rocker resistances both because they are light and because they get smaller weight arms.

The invention is intended to be used on chairs where the seat and possibly the back of the chair are adjustable to adapt the chair's dimensions to the size of different people. When the chair seat is moved back and forth in its longitudinal direction (or the backrest in its height direction), this moves both tilting resistances respectively away from and closer to the tilting point of the seat or the body of the chair. This means that people who are tall and prefer a deep seat/high backrest and adjust this, will automatically have greater (harder) tilt resistance both for forward tilt and for backward tilt. Likewise, a small person who wants a

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short seat/low backrest and this automatically sets smaller (softer) tilting resistances.

The purpose of the invention is thus to enable an automatic adaptation of the tilting resistance of such chairs with adjustable or longitudinally adjustable seat, and/or height-adjustable backrest.

With such adjustable chairs, it may still happen that some people want a setting outside this normal ratio, e.g. a tall person who is very light. It is therefore a further purpose of the invention to provide an opportunity for such a special setting, which e.g. soft rocking resistance even if the seat is set deep. Norinal relationship is to be understood as meaning that the chair's functions are arranged in such a way that they move simultaneously in a certain relationship to each other in order to provide good conditions for different body sizes.

In order for the special setting not to be a disadvantage for the next user of the chair, the invention is made so that when the seat depth is adjusted, the special settings automatically return to the normal relationship between the functions.

All these purposes are achieved by a device of the type mentioned at the outset, which is characterized by what appears in the patent claims.

With a device as defined in the patent claims, it is possible to automatically adjust the tilting resistance in a chair seat/chair body that has a forward and backward sliding seat/up and down movable backrest, where the adjustment of the tilting resistance can be designed manually or automatically and, if desired, also with a reset mechanism for the device to the normal condition. In this way, a device has been provided which simplifies the handling of the chair's adjustment possibilities, so that a user can adjust many functions at the same time with an operating movement and that the seat/backs move in a normal relationship in relation to each other so that the chair is suitable for different person sizes.

The connection element that is activated when the seat and/or backrest is adjusted can have many different designs. The essential thing in that connection is only that this connecting body during the adjustment affects the spring elements that control the tilting resistance of the chair, so that an automatic adjustment occurs.

In the following, the invention will be explained in more detail with the help of a number of exemplary embodiments which are shown in the drawing, which shows: Fig. 1 a schematic diagram illustrating a first embodiment of

the invention, placed on a chair seat, seen from below and from the side,

fig. 2 a perspective view of the device in fig. 1, where parts of

individual elements are cut away to show underlying parts,

fig. 3 a sectional view showing the end part design of two arms i

the device according to the invention,

fig. 4 a principle diagram corresponding to fig. 1, mén with the seat shown in a

anterior and a posterior position, and

fig. 5-10 the principle for other embodiments of the connecting element in a device according to the invention, seen in schematic side views, where the upper drawing illustrates the seat in the rear position, while the lower drawing illustrates the seat in the forward position.

In the design example in fig. 1 -4 the starting point is the applicant's NO patent no. 160,406 which describes a manually operated mechanism. For the sake of clarity, the following also includes a description of features that are also used in the manual regulation mechanism in the aforementioned patent. In this connection, it should be pointed out that other designs are also possible, e.g. the use of tilting bodies that interact via curved interfaces, different rotating bodies, etc.

Fig. 1, which is a purely schematic illustration, shall show the operation of the device according to the invention placed on the underside of a chair seat. The chair seat is supported on a pillar 1 via fittings 2 to which a support frame for a seat is attached. Under the seat at the front, a housing 10 is placed in which spring elements 13 and 14 are placed, which are separated by means of a separating plate 7 which is firmly connected to the fitting 2. The springs 13, 14 are mounted on arms 11,12 which can be guided back and forth in the longitudinal direction of the seat, as illustrated with dashed lines in the upper sketch, as the arms are rotatable around a swivel fitting 8. When displacing the bars which can be locked in a fitting

40, the springs 13<*>, 14 will be shifted back and forth in the longitudinal direction of the seat and thereby adjust the tilting resistance of the seat about the fitting 2.

Fig. 1 illustrates that the chair seat 6 can be pushed back and forth, e.g. between a position 6' in a forward position and a position 6" in a rear position. If the rod-like arms 11, 12 are attached to the seat and accompany it back and forth, the adjustment of the tilt resistance will automatically change when the seat is moved. They different options are illustrated in more detail in Fig. 2.

As mentioned above, the chair's underframe has a vertical column 1. Its upper part is articulated with two fittings or brackets 2, which are firmly connected to a plate 3. The plate 3 forms a sliding guide for two rails 4 which are firmly connected to the underside via lugs 5 of a seat 6. This describes the design with a movable seat, and it is this design that is used as the main illustration of the invention. The invention can also be used on chairs with a fixed seat but with backrests that move straight or at an angle up and backwards. The tilting resistors are displaced from the tilting point (under the seat) when the backrest is moved upwards.

The column's 1 separator plate 7 runs mainly perpendicular to the column's longitudinal axis. One turning block 8 is attached to the underside of the sliding plate, which can rotate about an axis 9 which runs perpendicular to the plate. Furthermore, it is for the plate. underside attached a U-shaped housing 10 in cross-section through which the partition plate 7 extends, the walls of the housing, i.e. the legs of the U-section are connected to the underside of the sliding plate and the roof of the housing, i.e. the bottom of its cross-section is thus located at a distance from the underside of the plate.

Attached to the turning block 8 are two rod-shaped arms 11, 12, which are arranged at a distance from each other in the direction of the axis 9, the arms running mainly parallel to the dividing plate, and on each side of this and through elongated slots 15 in the side walls of the housing, as well as.perpendicular to the rails 4. The arms can be slightly flexible. Alternatively, instead of a turning block which is produced in one piece, two coaxial turning blocks can be arranged which can rotate mutually about the axis 9, and which each carry their own arm 11 or 12.

The arms 11,12 also extend through each elastically yielding spring element 13,14 at the point where the arms pass past the partition plate 7 and through the housing 10. (The spring elements 13,14 with friction can be displaceable

in the lengthwise direction of the arms.)

The upper and lower end surfaces of the upper spring element, i.e. the spring element which is closest to the underside of the sliding plate, can come into contact with its underside or the upper surface of the partition plate 7.

The upper and lower end surfaces of the lower spring element can come into contact with the underside of the separating plate 7 or the upper side, i.e. the inside of the house. In this way, when the housing 10 moves, the plate 7 will exert a clamping effect against the spring elements and can therefore also be referred to as a clamping plate.

According to the invention, two brackets 20, 21 are attached to the underside of the plate 3 which run mainly perpendicular to the rails 4 and with spaces in the longitudinal direction of the rails. The surface of the brackets via which these are attached to the plate is indicated by the reference number 26. The part of each bracket facing away from the plate is designed as a fork whose two prongs 22, 23, 24, 25 are arranged at intervals counted in the direction perpendicular to the plate plane of the sliding plate.

Each of the tines is provided with a sawtooth-shaped end portion, the teeth running in a plane that runs perpendicular to the longitudinal direction of the tines and the tooth tips of the tines of the same fork facing away from each other in the direction mainly perpendicular to the plate plane of the sliding plate.

Fig. 3 is a section through the sawtooth-shaped end part of the fork tips 22 and 24 of respective brackets 20, 21. As can be seen from fig. 2 have the teeth 30, 31 respective obliquely extending flanks 27, 28 which face away from each other. These flanks extend in profile in a straight line from the tooth root to the tooth apex.

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The lower area of the sides of the teeth that face each other has an obliquely extending tooth flank portion which, however, close to the top of the tooth transitions into a tooth flank portion that extends perpendicularly to the plate plane of the sliding plate.

On the side of each end portion facing away from the tooth tip, each tooth has a bead 32, 33.

The tines 22, 23, 24, 25 are elastically bendable perpendicular to the plate plane of the sliding plate.

At the end parts of the tines, a mainly U- or H-shaped lowering plate or bridge 40 is fixed to the underside of the chair seat, the foot part of the bridge's legs 41, 42 facing upwards like the foot part of the house's legs.

The part of the bridge 40 which is located between the legs 41, 42 is on each side, counted in the direction perpendicular to the sliding plate, provided with a number of recesses 50-54 resp. 60-64 which are arranged at regular intervals. Between these recesses and on the side of the bridge facing the sliding plate, the bridge has a construction part 70 which projects towards the sliding plate. The sides of the abutment part which face away from each other in the direction perpendicular to the sliding plate are formed as abutment surfaces for the tines' bead 32, 33. At the middle part of the abutment surfaces, a depression with obliquely running sides is also formed in which the beads can be accommodated. Due to their springing, the tines with their beads seek to rest against the respective installation surfaces.

The device works in the following way:

When the chair seat 6 is pushed in one direction, it will take with it the bridge element 40 which is attached to the underside of the seat. The arms 11, 12 which are located in the middle recess of the recesses 50-54, resp. 60-64 and held in that recess, will accompany the setting mechanism 40 and the arms 11, 12 will be rotated about the pivot body 8. Thereby the spring elements 13, 14 will be displaced to page and change the tilt resistance. If a tilting resistor is clamped, the flexible rod will bend and remain in tension.

When tilting the chair seat in relation to the column of the chair in such a way that the front edge 75 of the seat is moved down, the upper spring element 14 is compressed in a known manner between the sliding plate and the clamping plate 7, while the lower spring element 13 is relieved. The relieved rocking resistance will then jump into place by straightening the springy rod. When tilting in the opposite direction, the lower spring element 13 will come into effect in a similar way. In this way, an automatic adjustment of the spring resistance and thus the tilting resistance of the seat is achieved in step with a displacement of the seat 6 back and forth.

If you want to deviate from the normal relationship, you can grab hold of the operating handles at the ends of the arms 11 and 12, raise or lower the arms to release them from the recess in which they are located and move the arm and thus the spring element forwards or backwards. In the drawing, only the simplest possible way of doing this is indicated, with separate movement of the two spring elements, but it is quite clear that the mechanism can be designed here so that this movement can be carried out synchronously and that the arms 11,12 can be connected together, as that you only have to operate one handle. The device can thus also be used for manual setting.

If the device is used for automatic setting of the tilting resistance, as explained above on a chair with a movable seat, the illustrated device also has a built-in mechanism for further "extreme" - setting of the suspension resistance in both directions. The normal setting takes place automatically in step with the displacement of the seat, as explained above. If the user of the chair wants a further displacement, e.g. forward in the direction towards the front edge 75 of the seat, he grasps the lever or arm 12, lifts the arm 12 out of the notch 52 and displaces the arm e.g. to notch 50. This will achieve an additional adjustment beyond what has been achieved with the automatic setting.

So that a "normal" person does not later have to readjust the tilting resistance to the normal position by moving the lever, a control mechanism has been designed in the embodiment shown which performs this automatically when the seat depth is adjusted. If the arm 12 is in the notch 50, i.e. in the stiffest position, the seat 6 must be pulled forward even more and the mechanism 40 will thereby be pushed forward in relation to the tines 22, 23 and the arms 11, 12 will lie against the sloping edge of the end part or the tooth 30, 31 and is lifted out of the recess 50. It will then be grasped by the upper straight edge of the tooth and held there while the bridge 40 is moved further. This position will be maintained while the tines 22, 23 slide on the bead 33 along the contact surface of the mechanism 40 until it reaches the notch in the middle of the bridge, where the tines will be lowered as the bead enters the notch. Thereby, the arm will be released and lie in the middle recess 52. The seat can then be pushed back and the setting mechanism is reset. A corresponding reset will also be possible from another side using the other pins 24, 25.

In fig. 4-10, a number of further embodiments of the invention are illustrated. In these figures, the principle structure according to the invention is mainly illustrated without going into detail, and it is not. further examples of reset devices and the like are shown.

Fig. 4 illustrates the principle which is described in detail in connection with fig. 1-3, as two views are shown here seen from above, with the chair seat 6 respectively in the front position and in the rear, retracted position. It can be seen from this figure that the distance from the column and the tipping point in joint 2 to the spring element, which distance is denoted by a, is greater with extended seat 6 than with retracted seat, where this distance is denoted b. This distance change contributes to a change in the tilting resistance . In this design, spring wires are used as arms.

The other figures 5-10 illustrate the invention in schematic side views.

In fig. 5 shows a design with a dividing plate 7 in a housing 10 and with spring elements 13 and 14, i.e. a similar structure as in the preceding figures. Here, however, the displacement of the spring elements is provided by placing a pin connection 11 a to the seat, which pin will pull the spring elements 13 and 14 with it when the seat is displaced. In this way, a similar effect is achieved as with the above-described designs. Fig. 6 illustrates a similar structure, but here the spring elements 13 and 14 are given a rolling design, where the rollers follow the seat back and forth and in this way change the tilting resistance. Fig. 7 illustrates an embodiment with compression of the spring elements 13 and 14. The housing 10 is here designed as a plate at the rear edge of the column part 1, where the rear part of the housing is displaceable, while the front part is fixed to the column 1. When shifting the the seat forwards, the springs will be compressed, so that the rocking resistance changes.

A variant of this embodiment is shown in fig. 8, where the spring elements 13, 14 are again arranged inside the house, but firmly attached to the partition plate 7. The other end of the spring element is attached to the floor or roof of the house. As the illustration in the drawing shows, moving the seat and thus the housing will cause a change in the tilting resistance by combining a change in the spring compression as well as an increase in the spring distance from the tipping point and a change in the spring path.

Fig. 9 illustrates a variant where a gas cylinder or possibly a hydraulic cylinder is used. In this embodiment, a displacement of the seat will provide a piston stroke in a cylinder 76, which will cause an inflation or a pressure reduction in the inflatable spring members 13, 14.

Finally, in fig. 10 illustrates an embodiment where the spring elements. 13 and 14 are connected and attached with a cord pull to the back part 78 of the chair. When the back part is displaced upwards, the cord 77 will tighten and tension the springs 13 and 14. A similar device can of course also be attached to the seat part.

With the chair mechanism according to the invention, an automatic setting of the torque that counteracts the tilting of the seat is achieved, depending on the seat's position in relation to the chair frame during adaptation of the chair to people of different heights, but where the relationship between the people's height and weight follows a standard or normal variation among the population.

If the chair is used by people whose height/weight ratio deviates from the normal, the counter torque can be changed so that the variation of this deviates from the normal variation.

If, after being used by a person whose height/weight ratio deviates from the normal, the chair is used by a person whose height/weight ratio is normal, the normal ratio will automatically be restored when the new user adjusts the seat depth more than half round.

Although the invention is described in connection with a movable seat, it can also be used in connection with a height-adjustable backrest. The mechanisms described would then be connected to a movable

. plate element which is controlled by the height adjustment. Several modifications will be possible here. As mentioned above, different types of tilting bodies and regulation mechanisms can also be used within the scope of the invention

Claims (19)

1. Device for automatic regulation of the tilting resistance of a chair seat (6), which is mounted tiltably on a foot column (1) via a horizontal shaft arranged across the chair, where tilting resistance and springing are determined by two springy elements (13, 14), with one spring being compressed by tilting in one direction and the other spring is compressed by tilting in the opposite direction, and where the spring force is adjustable, characterized in that the spring elements (13, 14) are connected to the seat/backrests by means of a connection element which directly affects their spring force when the seat and/or the backrests are adjusted. 2. Device according to claim 1, characterized in that the connecting element is a spring wire or arm connection between the spring elements (13, 14) and the displaceable part of the chair, for displacing the spring elements (13, 14). 3. Device according to claim 1, characterized in that the connecting element is a pin connection (lia) between the movable part of the chair and the spring elements (13, 14). 4. Device according to claim 1, characterized in that the spring elements (13,14) are designed as rollers, which are connected for displacement together with the displaceable part of the chair. in 5. Device according to claim 1, • characterized in that the spring elements (13, 14) are compression springs arranged between a fixed wall and a wall that can be moved with the seat. 6. Device according to claim 1, characterized in that the spring elements (13, 14) are springs which are attached at one end to an upper and a lower part of a housing (10) which can be moved with the seat part and are attached to the partition plate (7) at the other end. 7. Device according to claim 1, characterized in that the spring elements (13, 14) are fluid-fillable elements, where the degree of filling is regulated by a piston/cylinder device (76) which is affected by the moving part of the chair. 8. Device according to claim 1, characterized in that the spring elements (13, 14) are springs which are connected at one end to the frame of the chair and connected at the other end, and at this end are connected to a cord pull (77) which is affected by a displacement of the seat and/or back part ( 78) of the chair. 9. Device according to claim 1, characterized in that the spring elements are each attached to an arm (11, 12) which extends from a pivot body (8) on one side of the longitudinal axis of the seat, past the spring elements (13, 14) to a regulation area on the opposite side of the seat set, where the arms ends in an adjustment mechanism (40) where the arms are connected to the movable chair seat, respectively a backrest adjustment mechanism and are thereby automatically adjusted by displacement of the seat. 10. Device according to claim 1, 2 or 9 where the spring elements are tightened/relaxed, e.g. by being pushed to and from the tipping point in a certain normal ratio, but that this ratio can be deviated from, characterized by, that seat depth/backrest height- . the adjustment mechanism is designed with a setting that causes the special setting of the tilt resistor to return to the normal ratio. 11. Device according to claims 2 and 9, characterized in that the two arms on which the spring elements sit are springy, so that when the seat/backs are moved, the arms bend, stand in tension, and are released when the chair is tilted, as the spring elements thereby move to the correct place. 12. Device according to claims 2 and 9, where the chair seat is displaceable in the longitudinal direction of the seat, the seat being fixed displaceably on a fixed mounting plate (3) connected to the column of the chair, characterized in that the setting mechanism (40) is attached to the underside of the seat (6), the setting mechanism (40) having at least one catch for engaging the arms. 13. Device according to claim 2 or 9, characterized in that the setting mechanism (40) is designed as a U- or H-shaped bridge element attached to the underside of the seat (6), where the bridge part is designed with locking notches (50-54, 60-64) for locking the arms (11, 12) in a desired regulation position via the operating devices. 14. Device according to claims 9 and 12, characterized in that two brackets (20, 21) directed towards the setting mechanism (40) are attached to the mounting plate (3) which in the outer area are divided into two spikes (22, 23; 24, 25) as in the area near the bridge part (40) ) rests via a bead (32, 33) on a contact surface on the bridge part and on the opposite side is provided with sawtooth-shaped end parts (30, 31) in the area where the arms are located, and which have inclined contact surfaces for the arms (11, 12) as well as a upper arm support (27, 28) on the inside and that the contact surface in its central area has a recess corresponding to the bead (32, 33). 15. Device according to claim 11, characterized in that the tines (22, 23; 24, 25) lie under tension against the contact surfaces. 16. Device according to claim 9, characterized in that the arms (11, 12) are of a springy rod material. - 17. Device according to claim 9, characterized in that the turning block (8) is designed as two coaxial blocks that can be rotated about a common axis. 18. Device according to claim 9, where the spring elements (13, 14) are formed of an elastic block material, preferably of rubber or plastic, characterized in that the arms (11,12) are guided through the blocks. 19. Device according to claim 8, characterized in that the spring elements (13,14) are rotatable in relation to each other and interact over a curved contact surface which, when turned, displaces the elements, respectively. that the turning mechanism is designed with a thread pitch which results in mutual displacement.