The present invention relates to a chair.
DE 10 2013 005 861 A1 discloses a chair which includes a subframe, a seat element, a back element, a spring mechanism and an adjustment device, the spring mechanism including a leaf spring which is clamped on one side in the subframe and a support which is movable on a track between the leaf spring and the subframe and the adjustment device including an adjustment member and a transmission mechanism.
Modern office premises are often increasingly utilized in such a manner that individual employees do not have a fixed workstation, but work at different workstations over the year depending on operational requirements. As a result, comparatively often the employees have to adjust a chair that is available at the respective workstation to their individual requirements. The operation is time-consuming and is consequently often ignored such that an individual employee may possibly sit on an insufficiently adjusted chair for extended periods and, as a result, may suffer from health problems in the long term.
It is the object of the present invention to propose a chair which is rapidly adjustable to individual requirements by different users.
Corresponding to the present invention, a movement of the adjustment member is translated into a movement of the support at a transmission ratio of between 1:0.5 and 1:4. As a result, it is possible for a user to perform an adjustment of the chair with minimal time expended. It is consequently possible for even a very light user to convert a chair that has been adjusted to a very heavy user optimally to his requirements in a short time.
It is provided that the track is realized as a curved surface which is adapted in such a manner to a curved progression of the respectively associated leaf spring that a movement space, realized between the track and a bottom surface of the leaf spring, permits movement of the support, unobstructed by the leaf spring, between a basic position of the support and an end position of the support, insofar as the rear swing arm is free of a load produced by a user leaning back against the back element and that a distance measured in each case in the radial direction between the track and the associated leaf spring is constant in the entire movement space. As a result of providing a space of this type for the support, the friction forces, which the support has to overcome when it moves between its different positions, can be reduced to a minimum, such that the support is able to be slid into all positions with little effort required and, when the back element is loaded, the leaf spring is placed without any considerable delay onto the support such that the support force preselected by the respective position of the support is available virtually immediately.
It is additionally provided to realize the adjustment member as a shaft or linear guide mechanism and to provide the chair with a drive for moving the adjustment member, the transmission mechanism including a rod assembly and/or a Bowden cable and/or a gear unit, wherein the transmission mechanism is connected to the support and wherein the transmission mechanism is connected to the adjustment member. As a result, a rotational movement initiated in the adjustment member or a sliding movement initiated in the adjustment member can be converted in a technically simple manner into a movement of the support.
It is provided to realize the drive as a manual drive and to provide it with a slider or a rotary knob by means of which the adjustment member can be acted upon to adjust the support.
It is also provided to realize the drive as an electric drive and to provide the drive with an electric linear drive or with an electric rotary drive. As a result, a motor-driven adjustment of the position of the support is possible such that a manual rotary movement or sliding movement to adjust the support is not required.
In addition, it is provided to fit the electric drive with an energy storage mechanism for electric energy, wherein the electric drive includes an actuating device and/or a receiver for radio signals and wherein the chair includes, in particular, an electric generator, wherein the generator generates, in particular, energy from a relative movement which occurs between individual components of the chair when the chair is used, and feeds it into the energy storage mechanism. As a result, the chair can be made into a stand-alone device which can be conveniently adjusted by means of an actuating device, such as, for example, an electric button that is arranged within visual range, or in a remote-controlled manner, e.g. by means of a smartphone. As a result of fitting the chair with a generator, the chair, with its electric drive, is made into an item of furniture which is energy self-sufficient and which does not require any service with regard to replacing or charging its energy storage mechanism and consequently, in spite of the electric drive, does not give rise to any follow-up costs.
It is also provided that the spring mechanism includes the mentioned first leaf spring and a second leaf spring, wherein the second leaf spring supports the back element in a normal position of the chair in which the back element is free of loads produced by a sitting person, and wherein the first leaf spring, in addition to the second leaf spring, supports the back element in an operating position in which the back element is loaded by a person sitting and leaning back. As a result, it is possible to hold the back element reliably in its non-loaded position such that too strong a deformation of the first leaf spring in this position is reliably avoided and consequently a low-friction movement of the support under the first leaf spring is ensured.
In this connection, it is provided to form a spring assembly by means of the first leaf spring and the second leaf spring and to connect both of these together at a connection point, in particular, in a region in which they are fastened to the subframe, the first leaf spring comprising a tapering adjacent to the connection point. As a result, the assembly of the chair is made easier and, in addition, the shaping of the first leaf spring has a positive effect on the desired support behaviour—as has been ascertained in tests.
It is also provided to support the mentioned first leaf spring by the mentioned first support and the second leaf spring by a second support, wherein the first support is slidable under the first leaf spring and wherein the second support is either fixed under the second leaf spring or is slidable under the second leaf spring independently of the first support. As a result of the support associated with the second leaf spring, the force, at which the second leaf spring supports the back element, is able to be chosen corresponding to requirements. Where the second support is adjustable, it is possible to adapt the force at which the second leaf spring supports the back element. This is, for example, advantageous when a weight of the back element is subsequently increased, for example, as a result of attaching a headrest.
It is also provided that that the mentioned first support is adjustable by the mentioned first adjustment device and that the mentioned second support is adjustable by means of a second adjustment device. In this way, adjustment of the second support can also be carried out in a convenient manner.
It is moreover provided that the transmission mechanism comprises a pivot lever which is driven directly or indirectly by the adjustment member, that the transmission mechanism comprises a rolling-contact wheel of a toothing, which is driven directly or indirectly by the pivot lever, and that the support comprises a toothed rod, wherein the rolling-contact wheel engages with its toothing in the toothed rod of the support, and that the subframe comprises a toothed rod, wherein the rolling-contact wheel engages with its toothing in the toothed rod of the subframe. Such a transmission mechanism can be of a compact design, such that it can be easily installed in the region of a carrier of a subframe of a chair.
In addition, it is provided that the transmission mechanism comprises a connecting rod, wherein the pivot lever is connected to a first end of the connecting rod for rotation about a first rotational axis, wherein the rolling-contact wheel is connected to a second end of the connecting rod for rotation about a second rotational axis, wherein the rolling-contact wheel is pulled or pushed by the connecting rod over the toothed rod of the subframe during a rotation movement of the pivot lever and, in the process, the support located between the leaf spring and the rolling-contact wheel is entrained and moved by the rotating and moving rolling-contact wheel. Through the use of a connecting rod as an intermediate member of the transmission mechanism, the pivoting movement of the pivot lever can be converted with minimal structural complexity into a linear movement.
Through a parallel arrangement of the pivot axis of the pivot lever and of the first rotational axis of the connecting rod and the second rotational axis of the connecting rod, the structure of the transmission mechanism is kept simple and smooth-running.
It is also provided that the transmission mechanism comprises a Bowden cable or a gear unit, wherein the Bowden cable or the gear unit is connected to the adjustment member and to the pivot lever, wherein the Bowden cable or the gear unit is secured on the pivot lever eccentrically with respect to the pivot axis of the pivot lever with an eccentricity. Through the choice of the eccentricity, the transmission ratio can be easily changed and adapted to different design forms of a chair.
Finally, it is also provided that the transmission mechanism comprises a rolling-contact wheel with a toothing, wherein the rolling-contact wheel is directly or indirectly connected to the adjustment member and is pulled or pushed by means of the latter over a toothed rod of the subframe, wherein the rolling-contact wheel engages with its toothing in a toothed rod of the support and thereby entrains and moves the support located between the leaf spring and the rolling-contact wheel. Such a transmission mechanism can be of a compact design, such that it can be easily installed in the region of a carrier of a subframe of a chair.
A transmission ratio in the sense of the present invention is to be understood as both a conversion of the speed of the drive into a faster speed of the support and a conversion of the speed of the drive into an identical speed of the support, and also as a conversion of the speed of the drive into a slower speed of the support.
Further details of the present invention are described in the drawing by way of schematically shown exemplary embodiments.
The carrier 2b includes a leaf spring 9 and a leaf spring 10, which is hidden by the leaf spring 9 in the view in
By means of the adjustment device 6, the support 13, which is in a centre position P3 shown by way of continuous lines, is movable as an option into the named extreme position P1, in which the support 13 causes the leaf springs 9 to provide the back element 4 with only a small amount of support, into the named extreme position P2 in which the support 13 causes the leaf springs 9 to provide the back element 4 with a large amount of support, and into all positions lying in between that are not marked in any more detail. In this connection, the centre position P3 of the supports 13, 14 shown in
The adjustment device 6 is realized as a mechanical adjustment device 101 and includes an adjustment member 102 and a transmission mechanism 103. The adjustment member 102 is realized as a shaft 104 which is rotatable about a rotational axis d104, and the transmission mechanism 103 is realized as a Bowden cable 105. In this connection, the Bowden cable 105 includes a wire cable 106 and two sleeves 107, 108. The wire cable 106 is fixed on the support 13 and is run between the track 15 and the leaf spring 9 through a through-bore 17a of the front stop 17. In addition, the wire cable 106 extends through the first sleeve 107 which is laid between the front stop 17 and a first holder 19 by way of a through-bore 19a. The wire cable 106 then leaves the first sleeve 108, runs through the through-bore 19a and wraps around the shaft 104 that forms the adjustment member 102 in order then to enter through a through-bore 20a of a second holder 20 into the second sleeve 108 which is laid between the second holder 20 and the rear stop 18. The wire cable 106 then leaves the second sleeve 108 through a through bore 18a realized in the rear stop 18 and runs between the track 15 and the leaf spring 9 to the support 13 on which it is fixed. The two holders 19 and 20 are fixed on the base element 2a.
A drive 21 for the adjustment device 101 is formed by a rotary knob 22 which is connected to the adjustment member 102 that is realized as the shaft 104. As a result of rotating the rotary knob 22 to the left about the rotational axis d104, the support 13 is pulled by the wire cable 106 out of its position P3 in the direction of the position P1 or P3. As a result of rotating the rotary knob 22 to the right about the rotational axis d104, the support 13 is pulled by the wire cable 106 out of its position P3 in the direction of the position P2. Here, a diameter of the shaft 104, over which the wire cable 106 is guided, is chosen such that about 1.5 revolutions of the shaft 104 are sufficient to move the support 13 from the position P1 to the position P2. To this extent, there is here a transmission ratio of about 1:0.7.
In a non-loaded position S4.1 (see
The first realization variant shown in
According to a further realization variant, it is also provided—as marked in
As can be seen from the representation in
The adjustment device 301 includes an adjustment member 302 and a transmission mechanism 303. The adjustment mechanism 302 is realized as a linear guide 304 and the transmission mechanism 303 is realized as a Bowden cable 305. In this connection, the Bowden cable 305 includes a wire cable 306 and two sleeves 307, 308. The wire cable 306 is fixed on the support 213 and is run between the track 215 and the leaf spring 209 through a through-bore 217a of the front stop 217. In addition, the wire cable 306 extends through the first sleeve 307 which is laid between the front stop 217 and a linear guide housing 229. The wire cable 306 leaves the first sleeve 308 and runs through an inlet bore 229a into the linear guide housing 229 and is guided by the linear guide 304 forming the adjustment member 302 in order then to enter through an outlet bore 229b of the linear guide housing 229 into the second sleeve 308 which is laid between the second holder 220 and the rear stop 218. The wire cable 306 then leaves the second sleeve 308 through a through-bore 218a realized in the rear stop 218 and runs between the track 215 and the leaf spring 209 to the support 213 on which it is fixed.
A drive 221 for the adjustment device 301 is formed by a slider 228 which is guided in the linear guide 304 forming the adjustment member 302 and is fixedly connected to the wire cable 306. As a result of sliding the slider 228 to the left, the support 213 is pulled by the wire cable 306 to the right out of its position P203 in the direction of the position or end position P202. As a result of sliding the slider 228 to the right, the support 213 is pulled to the left by the wire cable 306 out of its position P203 in the direction of the position or normal position P201.
In the top view, the second realization variant of the chair shown in
The adjustment device 501 includes an adjustment member 502 and a transmission mechanism 503. The adjustment mechanism 502 is realized as a linear guide 504 and the transmission mechanism 503 is realized as a Bowden cable 505. In this connection, the Bowden cable 505 includes a wire cable 506 and two sleeves 507, 508. The wire cable 506 is fixed on the support 413 and is run between the track 415 and the leaf spring 409 through a through-bore 417a of the front stop 417. In addition, the wire cable 506 extends through the first sleeve 507 which is laid between the front stop 417 and a linear guide housing 429 by way of an inlet bore 429a. The wire cable 506 then leaves the first sleeve 508, runs through the inlet bore 429a into the linear guide housing 429 and is guided by the linear guide 504 forming the adjustment member 502 in order then to enter through an outlet bore 429b of the linear guide housing 429 into the second sleeve 508 which is laid between the linear guide housing 429 and the rear stop 418. The wire cable 506 then leaves the second sleeve 508 through a through-bore 418a realized in the rear stop 418 and runs between the track 415 and the leaf spring 409 to the support 413 on which it is fixed.
A drive 421 for the adjustment device 501 is formed by an electric drive 430 which is guided in the linear guide 504 forming the adjustment member 502. To this end, the electric drive 430 is realized with part of its housing 431 as a slider 432. The electric drive 430 includes a toothed wheel 433 which it drives by way of its motor shaft 434. The linear guide housing 429 includes a toothed rod 429c in which the electric drive 430 engages by way of its toothed wheel 433. In dependence on a direction of rotation of the toothed wheel 433, the electric drive 430, which is guided in the linear guide 504, can be moved to the left or the right in the linear guide 504. As a result of moving the electric drive 430 to the left, the support 413 is pulled to the right by the wire cable 506 out of its position P403 in the direction of the position or end position P402. As a result of moving the electric drive 430 to the right, the support 413 is pulled by the wire cable 506 to the left out of its position P403 in the direction of the position or normal position P401. Two keys T401-1 and T401-2 are arranged on the carrier 402b of the chair 401. The keys are arranged in a power circuit between a rechargeable energy storage mechanism 435 and the electric drive 430. As a result of actuating the key T401-1, the support 413 is moved forward and as a result of actuating the key T401-2, the support is moved rearward. In this connection, the two keys form an actuating device BTE401. As an option, the chair 401 also includes an electric generator 436 which generates electric energy as a result of a relative movement between the lug 425 (see
Along with the first leaf springs 409, 410, the spring mechanism 405 includes second leaf springs 459 and 460. The first leaf spring 410 and the second leaf spring 459 form a spring assembly 461. The first leaf spring 410 and the second leaf spring 459 form a further spring assembly 462. An own support 463 or 464 is assigned in each case to the second leaf springs 459 and 460. In this connection, the second leaf springs 459, 460 serve for the purpose of supporting the back element 404 (see
In
As shown in
It is obviously possible to combine each of the three designs of the chair shown in
In
The chair 601 comprises an only partially indicated subframe 602. Analogously to the realization variant shown in
The adjustment member 651 comprises a linear guide 651a and a slider 651b. The transmission mechanism 652 comprises a Bowden cable 653, a pivot lever 654, a connecting rod 655 and a rolling-contact wheel 656 with a toothing 656a. The pivot lever 654 is mounted pivotably on the carrier 602b of the subframe 602 about a pivot axis L654 and can be pivoted about a pivot angle α of over 90° by the adjustment member 651 by means of the Bowden cable 653, which is connected to the adjustment member 651 and to the pivot lever 654. Here, the Bowden cable 653, which can be actuated by hand by means of the slider 651b serving as drive 621, engages, eccentrically to the pivot axis L654, in a point of engagement P653 on the pivot lever 654 and is guided on the pivot lever 654 on a track B653 extending in a circle about the pivot axis L654. A free end E654 of the pivot lever 654 is connected to a first end 655-1 of the connecting rod 655 for rotation about a rotational axis D655-1. From a relationship in which there is a first distance a (see
At a second end 655-2 of the connecting rod 655, the rolling-contact wheel 656 with its toothing 656a is arranged rotatably about a rotational axis D655-2. The rolling-contact wheel 656 is freely rotatable about the rotational axis D655-2 with respect to the connecting rod 655. The rolling-contact wheel 656 lies on a toothed rod 657, which is formed on the carrier 602b of the subframe 602. During a pivoting movement of the pivot lever 654 to the left about the pivot axis L654, the rolling-contact wheel 656 is pulled by the connecting rod 655 over the toothed rod 657 and in this case rolls along the latter. Lying opposite the toothed rod 657 is the support 613, which comprises a toothed rod 613a in which the rolling-contact wheel 656 likewise engages with its toothing 656a. If the rear swing arm 608 of the chair 601 is unloaded, the support 613 can be freely moved by the leaf spring 609 below the latter. Here, the rolling-contact wheel 656 interacts with the support 613 and the toothed rod 613a thereof in such a way that the rolling-contact wheel 656, e.g. in a movement perpendicular to the course and in the direction of the pivot axis L654 of the pivot lever 654, entrains the support 613 in the direction of the pivot axis L654 and at the same time as far as the pivot axis L654. Accordingly, the support 613 moves twice as fast and twice as far as the connecting rod 655. Thus, there is a second transmission ratio UE602 of 1:2, and a total transmission ratio of 1:4 is therefore obtained. If the rolling-contact wheel 656 is moved away from the pivot axis L654 from its position S602, which it occupies when the support 613 stands in the position P602, by means of a clockwise rotation of the pivot lever 654 about the pivot axis L654, the support 613 is also moved away from the pivot axis L654 and conveyed away, such that it is again in the position P601 at the end of the pivoting movement. The rolling-contact wheel 656 is then in a position S601 (see
Number | Date | Country | Kind |
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10 2016 104 636.1 | Mar 2016 | DE | national |
This application is a continuation of International Application No. PCT/EP2017/056004 filed Mar. 14, 2017, which designated the United States, and claims the benefit under 35 USC § 119(a)-(d) of German Application No. 10 2016 104 636.1 filed Mar. 14, 2016, 2015, the entireties of which are incorporated herein by reference.
Number | Date | Country | |
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Parent | PCT/EP2017/056004 | Mar 2017 | US |
Child | 16129934 | US |