This patent application claims priority of German Patent Application No. 10 2007 038 829.4, filed on Aug. 16, 2007, which application is incorporated herein by reference.
The present invention relates to a device for supporting a human body. In particular, the present invention relates to a device for supporting a human body with at least one support element and at least one longitudinal bar, whereby each of the at least one support element is connected to one or two longitudinal bars and the at least one support element is positionable in height and depth.
Furthermore, the present invention relates to a working system in a production line comprising of at least one device for supporting a human body.
Variable devices for supported sitting or standing positions with positioning elements which can be adjusted to accommodate different human body sizes and weight, or to accommodate different sitting and standing positions respectively, as well as to support different body parts, for instance to support stand-sit positions, are known. A standing seat for a public transportation vehicle is disclosed in German Patent DE 198 50 438 C2. The standing seat comprises a support element with a mechanism for height positioning. The support element is laterally arranged above an axis to a pillar which is fixed to the vehicle floor. This standing seat is not positionable in depth. It is not suitable for the use in a multifunctional working system.
Furniture for sitting in the residential domain with preferably upholstered support elements is disclosed in German Utility Model DE 80 01 181, whereby the support elements are attached to bars which are arranged to each other with a fixed angle to form an about isosceles triangle. This furniture for sitting does not show positionable support elements. The furniture only offers support for the fundament and the back of a user.
A seat for working in a standing position with a horseshoe shaped foot element is disclosed in European Patent EP 0 531 208 B1. The horseshoe shaped foot element is open towards the front relative to the seat. This standing seat is in fact positionable in height and depth, but offers only a support for the fundament of a user. The feet of the user touch the ground while using the standing seat. It is also not suitable for use in a multifunctional working system, especially not in a production line.
An ergonomic seat is disclosed in German Utility Model DE 297 21 944 U1, whereby the body's center of gravity is lowered only insignificantly. The seat includes support elements, but there are no bars connected to the support elements and also no floor element, so that this seat is neither positionable in height nor in depth, though it offers some options for the use by people with different sizes. The seat does not offer any support for the knees or the head. It is also not suitable for the use in a multifunctional working system, especially not in a production line.
A workplace seat with a saddle-seat, a longitudinal bar, a floor element and a ball-and-socket joint is disclosed in German Utility Model DE 75 31 129. The workplace seat is positionable in height and depth by means of the ball-and-socket joint. However, it merely offers support for the fundament of a user and is thus only partly suitable for a working system, by no means, however, in a multifunctional working system as, for example, in a production line. A reclining support against which a worker's fundament can be leaned while the worker is in a standing position is disclosed in published German Patent Application DE 1 149 147. This reclining support is positionable in height, but not positionable in depth, and it only offers a support for the fundament. In addition, it does not allow the support of a human body in a plurality of positions.
A lumbar support with support elements fixedly positioned relative to each other is disclosed in French Patent Specification FR 2 569 964. The position of the lumbar support can be altered within a relatively small range along two bars to which the support elements are mounted. This lumbar support is thus positionable in height and depth to a limited degree; however, it only offers support for the fundament of a user. It is suitable as a lumbar support and as a support in seating or standing position in public transport.
One disadvantage of the described devices is that they offer no comprehensively integrated solution for the support of diverse different body parts, and that they therefore offer no workplace seat, no knee seat, no support in a standing position, no supported-standing seat and no foot support.
A further disadvantage is that the devices are positionable in height and depth only to a limited extent, if at all, so that they neither satisfy the present ergonomic requirements for a plurality of body positions nor are they suited for the use in a multifunctional work system or a production line.
It is therefore an object of the present invention to provide a device for supporting a human body which is variably positionable to fit a plurality of anatomic and ergonomic requirements.
The above object is solved by a device for supporting a human body, which comprises features and elements of the appended claims.
Advantageous embodiments of the invention are defined in the dependent claims and the following description.
It is a further object of the invention to provide a device for supporting a human body which is used in a working system.
This objective is solved by a working system in a production line which comprises features and elements of the appended claims.
The device for supporting a human body according to the present invention comprises at least one support element and at least one longitudinal bar. The support elements are usually arranged horizontally lengthwise, so that for instance any part of the human body of a user, such as feet, lower legs, knees, thighs, fundament, abdomen, chest, lower back (lumbar), middle back, upper back (nape of the neck), neck and/or head, can rest on or lean against the respective support element. For the simultaneous support of several parts of a human body more support elements are required accordingly.
Each of the support elements is connected to one or two of the longitudinal bars. The support element located furthest from a floor on which the device for supporting a human body stands is connected to a downwards running longitudinal bar. Above this particular support element no further longitudinal bar is required. The support element located opposite to the floor on which the device for supporting a human body stands is connected to at least one longitudinal bar. The other support elements are usually connected to two longitudinal bars, of which one longitudinal bar points downwards with regard to the respective support element and the other longitudinal bar points upwards with regard to the respective support element. In case two support elements are to be positioned relatively far apart from each other, at least an additional longitudinal bar can be arranged between and connected to the two longitudinal bars already carrying the support elements.
According to the described embodiments, all of the longitudinal bars run along one single side or end of the support elements, so that the opposite ends of the support elements are free and unsupported ends not connected to any other elements of the device. This embodiment, described below, is not to be considered as a limitation the invention. Advantages of the single side-free and unsupported support elements are an improved ability to rotate the support elements around their own respective first longitudinal axis and around the longitudinal bars, as well as small material consumption. Another advantage is the ergonomically optimal use with regard to the accessibility, for example if the device for supporting a human body is used as knee seat.
The support elements are positionable in height and depth so that the device according to the invention enables changes between various different body positions, multifunctional positioning options, as well as settings for inter-individual body differences, such as body size and weight.
A single support element comprises a support bar which is eccentrically arranged with respect to the cross-sectional area of the support element and this support bar connects the support element directly to one of the longitudinal bars. The support bar thereby extends at least partly along the first longitudinal axis of the support element through the support element. This enables an eccentric rotation around the first longitudinal axis of the support element. In addition to the previously mentioned positioning options, this characteristic offers further options, especially if each of the at least one support elements is cushioned for body support. Even if several or all of the cushion's lateral surface areas are equally shaped, the position of such a surface area can vary by eccentrically rotating the respective support element around its support bar, and it can thus be positioned according to the requirements of the user.
Over and above that, the cushion's lateral surface areas can also be shaped differently. For example, the shape of one lateral surface area may be a flat surface, which for instance is suitable as a footrest or as a fundament support. The shape of another lateral surface area of the same cushion may be concave, so that this surface area is suited to rest the knees, also the fundament, the lumbar, etc. The shape of a third lateral surface area may be convex for example, so that this surface area is suited to rest the head. For economical reasons, all cushions are usually of the same shape, so that they are suited to support any of the mentioned body parts.
It may be of additional advantage that a foot support is removable and attachable to at least one lateral surface area of the cushion of the support element which is located opposite to the floor on which the device for supporting a human body stands. The foot support, for example a step board with brackets to be fixed onto the cushion, protects the cushion from soiling and abrasions. The foot support should be mountable to each of the lateral surface areas, which is ensured if the lateral surface areas are shaped equally, and, depending on body or leg length of the respective user, a desired position for the foot support can be adjusted by selecting a matching lateral surface area through eccentric rotation of the cushion around its support bar of the support element located opposite to the floor on which the device for supporting a human body stands.
The device for supporting a human body according to the invention may comprise a floor element to support the device on its foundation or floor. However, further embodiments are conceivable, where the device is instead, or additionally, mounted to a ceiling or to walls.
For user friendly options, the floor element may be rotatable, preferably in a continuous adjustable manner. The floor element should be centrically rotatable, to ensure that during and before or after a rotation the part of the floor element which moves during the rotation overlaps with the lower part of the floor element which is located opposite to the floor on which the device for supporting a human body stands and which is stationary during the rotation. The floor element should be securable by using stop elements which are well known in the prior art, so that it is immobile in a fixedly secured position, to ensure that a user can work from the device without undesired alterations of the position of the device.
For miscellaneous use, the floor element of the device for supporting a human body may comprise an element for floor guidance, for example a roller ring of an office or work chair according to the prior art. Alternatively, or in addition, the floor guidance element may interact with a translation element located on the floor. The translation element may, for example, be familiar guide rails, and the floor guidance element may be wheels or castors according to the prior art which are navigable (mobile, wheeled, passable) on those guide rails. Such an embodiment is suitable for production line work. Typically, the translation of the floor element should be positionable, preferably in a continuous adjustable manner.
The floor element may comprise an anti-slipping element, for instance of rubber.
With respect to the construction of the device, the longitudinal bar opposite to the floor on which the device for supporting a human body stands is connected to the floor element, and all longitudinal bars are longitudinally arranged in series, so that all of the support elements are connected to the longitudinal bars with one of their ends of the support elements. If an embodiment comprises more than one longitudinal bar, different ends of the support elements may be mounted to the respective longitudinal bars, for example, the longitudinal bars can be alternately connected to the right or the left end of the support elements. The support elements are usually positionable in height as well as in depth through altering the position of the longitudinal bars, preferably in a continuous manner. In addition, each of the support elements is positionable in height and depth independently of the other support elements, by means of an eccentric rotation of the support element around its respective support bar.
The angle between two successive longitudinal bars is usually positioned by means of a joint, whereby the joint connects the two successive longitudinal bars. The angle between the floor element and the respective longitudinal bar is positioned accordingly, whereby the joint connects the floor element with the respective longitudinal bar.
For skewed user positions, for example, where the user has to lean forward to the right or left, it may be advantageous if at least one of the support elements is rotatable around a second longitudinal axis defined by the longitudinal bar to which the respective support element is connected.
It may be of additional advantage to use longitudinal bars of different length, for example shorter longitudinal bars for the head and longer longitudinal bars for the trunk.
Positioning elements, known from prior art, may be arranged at various positions of the device in order to effect the desired position of the device. Thus the angle between two successive longitudinal bars can be positioned by means of the positioning elements at the joints. The angle between the floor element and its respective longitudinal bar may be positioned accordingly by means of a positioning element at the joint of this longitudinal bar. Positioning elements at the ends of the support elements may adjust the eccentric rotation of the support elements around their respective support bars. Furthermore, the rotation of the floor element may be adjustable by means of a positioning element at the floor element. The positioning elements may be operated manually or automatically.
The multitude of positioning elements may turn manual positioning into a laborious process. Centrally controlled positioning is therefore desirable, whereby each of the support elements, each of longitudinal bars and the floor element are positionable individually but centrally by a positioning module. The device according to the invention may comprise an mechanical/electronic positioning module with which the body proportions and the weight of the user are determined and stored by means of Radio Frequency Identification technology or other identification technologies known from the prior art. The actual position of the device is sensed and actuators are used to place the device into the requested position. Such a mechanical/electronic positioning module may in addition comprise a transponder, which reads and stores the body proportions and the weight of the user as well as the individually ideal and requested positions of the support elements from an electronic chip.
All parts of the device can be manufactured of any standard components, or rather are standard components; in other words, standardized assembly parts which are not subject to any national or international norms.
The device for supporting a human body according to the invention can be used in a working system, especially a working system in a production line. Apart from the use in industrial working systems and office domains, it is also conceivable to use the device in wellness and/or home domains and other private and business domains where a support of the human body in different positions may be required.
There are numerous ways of advantageously developing and improving the teachings of the present invention. Here, reference is made on the one hand to the claims and on the other hand to the subsequent explanation of a preferred exemplary embodiment of the invention with reference to the drawings. In conjunction with the description of the preferred exemplary embodiment of the invention with reference to the drawings, generally preferred embodiments and improvements to the teachings will also be explained.
In the drawings:
In this embodiment, the lower and upper longitudinal bars 13 are shorter than the middle longitudinal bar 13.
Floor element 2 in this and following embodiments is of circular shape; however, other morphologies are possible, for example, a rectangle, a polygon, an eclipse, etc. The following descriptions refer to circular floor elements 2 only, which, however, should not be understood as a limitation of the invention.
A three-dimensional coordinate system is shown. The depth of the respective support element 10 and longitudinal bar 13 can be adjusted along the x-axis by means of the above described elements. The height of the respective support element 10 and longitudinal bar 13 can be adjusted along the z-axis by means of the above described elements. Floor element 2 is rotatable within an x/y-plane. Consequently, depending on the rotation of floor element 2, device 1 is positionable in x- and y-directions and support elements 10 and longitudinal bars 13 are positionable in x-, y- and z-directions.
Positioning elements 16 are attached to the ends of support elements 10 opposite to longitudinal bars 13, to floor element 2 and to joints 15 of longitudinal bars 13 for their positioning.
First longitudinal axes 12 form the rotation axes of support elements 10 and run through support bars 11, which are hidden by cushions 20. In addition, first longitudinal axes 12 run through the eccentrically arranged support bars 11 in cross-sectional area 50 (see
The user data typically varies for different users 30. Reading the stored user data, mechanical/electronic positioning module 25 calculates then the required positioning for the respective device 1 while considering the requested use of the respective device 1. Finally, mechanical/electronic positioning module 25 sends the data for positioning the respective device 1 via connection 28 to the respective device 1 according to which motor positioning follows automatically.
Finally, it should be noted, in particular, that the previously described exemplary embodiments, only serve to describe the teachings claimed, and are not limiting to the exemplary embodiments. It is conceivable however, that variations and modifications of the invention can be made without departing from the scope of protection of the appended claims.
Number | Date | Country | Kind |
---|---|---|---|
10 2007 038 829 | Aug 2007 | DE | national |
Number | Name | Date | Kind |
---|---|---|---|
1065022 | Bell | Jun 1913 | A |
1217246 | Wallace | Feb 1917 | A |
3477673 | Bereday | Nov 1969 | A |
3663055 | Gale | May 1972 | A |
3754787 | Garber | Aug 1973 | A |
4138156 | Bonner | Feb 1979 | A |
4589699 | Dungan | May 1986 | A |
4603444 | Suits | Aug 1986 | A |
4765684 | Kvalheim et al. | Aug 1988 | A |
4793655 | Kvalheim et al. | Dec 1988 | A |
4832407 | Serber | May 1989 | A |
5149174 | Charash | Sep 1992 | A |
5199763 | Wilder et al. | Apr 1993 | A |
5255957 | Opsvik et al. | Oct 1993 | A |
5295728 | Schaevitz | Mar 1994 | A |
5401078 | Riach | Mar 1995 | A |
5542746 | Bujaryn | Aug 1996 | A |
5667278 | Li | Sep 1997 | A |
5971485 | Clark | Oct 1999 | A |
6698831 | Lloyd | Mar 2004 | B2 |
6959962 | Dixon | Nov 2005 | B2 |
7093900 | Schon | Aug 2006 | B1 |
7144080 | Lloyd | Dec 2006 | B2 |
7261368 | Clausnitzer | Aug 2007 | B1 |
7273252 | Iijima et al. | Sep 2007 | B2 |
7367623 | Tholkes et al. | May 2008 | B2 |
20020067060 | Lloyd | Jun 2002 | A1 |
20050035644 | Lloyd | Feb 2005 | A1 |
20060255635 | Iijima et al. | Nov 2006 | A1 |
20070007400 | James | Jan 2007 | A1 |
20070052275 | Ghilzai | Mar 2007 | A1 |
20070085405 | Grotner | Apr 2007 | A1 |
20080143164 | Ghilzai | Jun 2008 | A1 |
20090167072 | Cochran | Jul 2009 | A1 |
Number | Date | Country |
---|---|---|
1149147 | May 1963 | DE |
7531129 | Mar 1976 | DE |
8001181 | Jun 1980 | DE |
3308336 | Sep 1984 | DE |
3630634 | Mar 1988 | DE |
4118013 | Dec 1992 | DE |
9303518 | Aug 1993 | DE |
29516939 | Feb 1996 | DE |
29721944 | May 1998 | DE |
19850438 | May 2000 | DE |
19910615 | Jun 2000 | DE |
252274 | Jan 1988 | EP |
0531208 | Mar 1993 | EP |
2552987 | Apr 1985 | FR |
2569964 | Mar 1986 | FR |
2442873 | Apr 2008 | GB |
08131295 | May 1998 | JP |
11155692 | Jun 1999 | JP |
WO 8804903 | Jul 1988 | WO |
Number | Date | Country | |
---|---|---|---|
20090058151 A1 | Mar 2009 | US |