The invention relates to a seating arrangement according to the preamble of claim 1.
DE 44 33 663 A1 discloses a chair which has two seat panels arranged one above the other, the upper seat panel being supported in relation to the lower seat panel at the level of the lumbar vertebra by means of a flexurally elastic plate. Such a chair reacts very sensitively to shifting of the upper part of the body since the two seat panels act like a flat-spring assembly, the chair tends to tilt resiliently when an individual leans back in it. As a result of this design, the substructure of the chair is subjected to pronounced loading and has to be dimensioned correspondingly.
U.S. Pat. No. 6,986,549 B2 discloses a chair with a backrest which reacts to a force acting on it by changing its shape. This backrest is formed by two surfaces which are referred to as skins and have a multiplicity of articulations, mutually opposite articulations of the two skins being connected in each case by individual ribs. On account of its specific design, this backrest tries to adapt itself to every contour and only at its tip has a reaction force which counteracts deformation or movement. Without the ribs connecting them, the so-called skins, which form the surface of the backrest, rather than having any inherent stability, behave like a link chain comprising plates which are each connected by articulations. A chair backrest which is designed in such a way encourages a rounded-back posture and thus definitely does not result in a healthy posture.
EP 0 49 310 B1 discloses a seating arrangement for work purposes in which a single-piece seat shell, which forms a seat surface and a backrest, is articulated in a rotatable manner on a substructure and is guided, and supported resiliently, on the substructure by a rigid, curved supporting lever articulated in the region of the backrest. The disadvantage with such a seating arrangement for work purposes is the heavy mechanism which is necessary in order for the torque which is produced by the sitting individual via the rigid supporting lever to be intercepted at the substructure.
The object of the invention is to develop a seating arrangement in which a carrying arm both introduces into the substructure the forces and moments produced by a sitting individual and allows defined elastic adjustment of the opening angle between the seat surface and backrest when a seated individual leans back, the necessary opposing forces being produced, at least in part, in the carrying arm.
Taking the features of the preamble of claim 1 as the departure point, this object is achieved, for example and without limitation, by the characterizing features of claim 1. Advantageous and expedient developments are specified in the subclaims.
The seating arrangement according to the invention comprises a seat and a substructure, the seat having at least one carrying arm, which comprises at least one upper carrier and at least one lower carrier, of which the upwardly directed legs are connected to one another and the approximately horizontally running legs are connected to a substructure of the seating arrangement. In this case, between the connecting location of their upwardly directed legs and the articulation of the approximately horizontally running legs on the sub-structure, the carriers, which are located one above the other, are kept at a defined spacing apart from one another in at least one section by at least one mechanical linking member. As a result, in each position of the seating arrangement, opening up of the upper, first carrier and/or rotation of the upper, first carrier about the bearing of the latter on the substructure is counteracted by an opposing force which is produced in the first and second carriers and/or is transmitted via the first and/or second carrier. This makes it possible to provide a seating arrangement in which an individual sitting on the seating arrangement, as he/she leans back, experiences both a predeterminable inclination of the seat and synchronous opening of the seat surface and backrest of the seat. By virtue of the carrying arm being attached to the substructure, loading causes the upper carrier and the lower carrier to be displaced in opposite directions. This shearing movement of the carriers inevitably causes precise predeterminable elastic deformation of the carrying arms results in the seat surface and backrest executing a movement in which an angle of inclination γ of the backrest increases to a more pronounced extent than an angle of inclination β of the seat surface. Furthermore, the elastic deformation of the carrying arm counteracts a rotary movement of the carrying arm. The elastic deformation of the carrying arm takes place in the region of the at least one linking member and is brought about by the at least one linking member, which keeps the carriers at a defined spacing apart from one another along the contour of the carrying arm as far as the common, no longer displaceable end. The degree of elastic deformation is predetermined essentially by the shaping of the carriers, by the number of linking members and by the positioning of the linking members. Each linking member prevents the carriers from splaying apart and thus allows large forces to be transmitted via a small and loading-optimized component. The core of the invention is a seating arrangement which has the comfort of a highly developed office chair, but dispenses altogether with a mechanism, arranged between the substructure and the seat surface or backrest, for controlling the movement of the seat surface and backrest. Rather, the invention provides for cinematic synchronization in one or more components configured as a carrying arm. The carrying arm thus functions as a control member for controlling the opening and closing of the angle between the seat surface and the backrest and as a control member for controlling the inclination of the seat surface. The configuration of the carrying arm, in combination with the locations of attachment to the substructure and the arrangement of the linking members, provides for a seating arrangement having a defined cinematic motion. In particular, the seat and back have a defined repeatable motion relative to each other as the seating arrangement is moved between an upright position and a reclined position. The repeated cinematic motion is achieved through pivoting and bending of the carrying arm, which are controlled by the configuration of the carrying arm and the arrangement of the linking members. In this way, the seating arrangement behaves or moves in a defined, consistent way, and is not susceptible and does not react differently to point loads applied along different portions of the seat or back.
The invention makes provision for the first carrier and/or the second carrier to be formed in one piece. It is thus possible for the carriers to be produced easily and cost-effectively as castings or injection moldings.
Furthermore, the invention makes provision for the at least one linking member between the first and the second carriers to be arranged in a first transition region, in which the horizontal, first legs merge into the upwardly directed, second legs. The risk of deformation of the lower carrier is greatest in this region. Appropriate positioning of the linking member thus makes it possible for the carrier to be subjected to considerably higher loading.
The invention makes provision for at least two linking members to be arranged between the carriers of the carrying arm and for these linking members to be positioned in the first transition region. This makes it possible for the elastic deformation of the carrying arm, which is necessary for increasing an opening angle, to be kept to a low level in the individual sections of the carrying arm.
According to the invention, the first transition region extends over half the length of the seat surface and half the height of the backrest. Arranging linking members in this section also safeguards a carrier against increased loading.
The invention also provides for a linking member to be arranged in a second transition region, in which the upwardly directed, second legs are located opposite a cervical-vertebra region of an individual sitting on the seating arrangement. This makes it possible to realize a special head support, which is important, for example, if the seating arrangement according to the invention is used in vehicles and aircraft.
According to the invention, in the case of a seating arrangement with just one carrying arm, the carrying arm is to be arranged in a vertical plane which divides the seating arrangement in a mirror-symmetrical manner. It is thus possible to realize particularly lightweight and space-saving seating-arrangement designs.
In the case of two carrying arms being used for a seating arrangement, provision is also made for these carrying arms to be arranged in a mirror-symmetrical manner in relation to the vertical plane which divides the seating arrangement in a mirror-symmetrical manner. This largely ensures uniform loading of the carrying arms when the seating arrangement is in use.
The invention makes provision, in particular, for the linking member to be designed as a clamp. It is thus possible for the upper and lower carriers to be retained in a defined position in relation to one another by extremely straightforward means.
Integrally forming the clamps on the upper or lower carrier makes it possible to avoid additional components and assembly work.
The invention also makes provision for the entire carrying arm to be formed in one piece. Consequently, the production outlay can be further reduced and straightforward recycling of the carrying arm is possible.
Furthermore, the invention makes provision for the linking member to be fastened on the first and/or second carrier by means of a plug-in connection. This serves for efficient assembly and, in the case of a plug-in connection in relation to the two carriers, also allows linking members to be exchanged.
According to the invention, provision is made to arrange an elastic body in a tunnel which is formed between the first and the second carriers and the linking member or two linking members. The two carriers can be stabilized in relation to one another by this elastic body.
The invention makes provision for the upper carrier to be mounted in a rotatable or eccentrically rotatable manner, or counter to an elastic resistance, in the first bearing. Different bearing means and the specific design thereof make it possible to change the movement behavior of the seating arrangement in accordance with specific requirements.
According to the invention, provision is made for the lower carrier to be mounted in a rotatable or eccentrically rotatable manner, or counter to an elastic resistance, in the second bearing. Different bearing means and the specific design thereof likewise make it possible to change the movement behavior of the seating arrangement in accordance with specific requirements.
The invention also makes provision for the upper carrier of the carrying arm to be connected to the substructure via at least one lever or via a coupling mechanism. This makes it possible for a rotary movement and/or a lowering movement to be predetermined more precisely.
The invention provides a carrying arm which is formed by a left-hand upper carrier and a right-hand upper carrier and a lower carrier located between the two, the lower carrier being connected to the two upper carriers by mechanical linking members. Dividing the upper carrier in this way means that it is also possible for a seat which comprises just one carrying arm to bear a cover as a seat surface and backrest.
Furthermore, the invention makes provision for at least the upper carrier or at least the lower carrier to be additionally supported by a spring element or a spring mechanism against an inclining movement in a direction of rotation. This allows adaptation of spring behavior and of the opening behavior of the seat. A seat can thus be adapted to different requirements by straight forward means.
Provision is made, in particular, for a spring force of the spring mechanism to be adjusted in dependence on the weight to which the seat is subjected by an individual sitting in the upright position. The behavior of the seat can thus be optimally adapted automatically to very different individuals.
Furthermore, the invention provides for displacement of the approximately horizontal legs of the carriers of the carrying arm in opposite directions when the seat is subjected to loading and the carrying arm is rotated correspondingly. This makes it possible to use the desired elastic deformation of the carrying arm in the region of its linking members and to build up a force opposing the loading by the individual sitting on the seating arrangement.
In particular, provision is made for the parallel axes of rotation of the carriers to be arranged at a spacing apart from one another, the axis of rotation of the lower carrier being located above the axis of rotation of the upper carrier, and the axis of rotation of the lower carrier being offset laterally in relation to the axis of rotation of the upper carrier. This makes it possible to achieve the desired shearing movement of the carriers which, together with the linking members, controls the opening up of the carrying arm.
Further details of the invention are described in the drawing with reference to schematically illustrated exemplary embodiments.
In the drawing:
a, 1b: show perspective views of a first variant of a seating arrangement including a first variant of a carrying arm;
a: shows a side view of a second variant of a carrying arm;
b: shows a perspective view of the carrying arm which is shown in
a-3d: show four schematic views of a second variant of a carrying arm in four different positions which is similar to the first;
a: shows a side view of a third variant of a carrying arm;
b: shows a perspective view of the carrying arm which is shown in
a: shows a side view of a fourth variant of a carrying arm;
b: shows a perspective view of the carrying arm which is shown in
a: shows a side view of a fifth variant of the carrying arm;
b: shows a perspective view of the carrying arm which is shown in
a: shows a perspective view of a seat of a seventh variant of a seating arrangement;
b: shows a side view of the seating arrangement with the seat which is shown in
a illustrates a perspective view of a first variant of a seating arrangement 1. The seating arrangement 1 is designed as an office chair 2, although it should be understood that it would be suitable for any body support structure, including for example and without limitation, other seating structures such as benches, car seats, aircraft seats, etc. The seating arrangement 1 is essentially made up of a substructure 3 and a seat 4. The substructure 3 comprises castors 5 and a pneumatic damper 6, the seat 4 being fastened on the head plate 17 (see
b shows a further perspective view of the seating arrangement 1 which is known from
a illustrates the side view of a second variant of a carrying arm 7. The carrying arm 7 has an upper, first carrier 7a and a lower, second carrier 7b. The upper, first carrier 7a is mounted on a bearing 15 (not illustrated specifically) by way of a front, free end 7e. Legs 7c and 7d of the upper, first carrier 7a run at an initial opening angle α=100° in relation to one another, the carrying arm 7 being illustrated in a first position A. In various suitable embodiments, the initial opening angle can range from about α=85° to about α=110°. The legs 7f and 7g of the lower, second carrier 7b are arranged in an L-shaped manner corresponding to the legs 7c and 7d, the lower, second leg 7b being fastened in a rotatable manner on a bearing 16 (not illustrated specifically) by way of a free end 7a. The carrier 7 can be roughly subdivided into three sections I, II and III, the section I, corresponding to a front half of a seat surface 10 and a section III corresponding to an upper half of a backrest 11. The section II is located between sections I and III and is also referred to as the first transition region 19, in which the seat surface 10 merges into the backrest 11. Based on an individual seated on the seating arrangement 1, the first transition region 19 extends approximately from the lower dorsal vertebra to the thighs of the seated individual. In the transition region 19, eleven mechanical linking members 14 are arranged between the upper carrier 7a and the lower carrier 7b. These are configured as crosspieces 20a or film hinges 20b, the carriers 7a, 7b and the linking members 14 being integrally cast or injection molded in one piece, for example from plastic. Tunnels 21 are produced in each case between the carriers 7a and 7b and one or two linking members, these tunnels opening into and out of the plane of the drawing.
b shows a perspective view of the carrying arm 7 which is illustrated in
In one embodiment, the first carrier 7a has a cross sectional area of 1 inch2 and a moment of inertia of 0.005000 inch4 in the section II. In various exemplary and suitable embodiments, the cross sectional area can be from 0.3 inch2 to 4 inch2 and the moment of inertia can be from 0.000172 inch4 to 0.011442 inch4. Preferably, the cross-sectional area is at least 0.3 inch2 and the moment of inertia is at least 0.000172 inch4. In one embodiment, the linking members are spaced apart about 3 inch. In various exemplary embodiments, the linking members are spaced at least 0.5 inch, but preferably no more than 8 inch. In the section I the moment of inertia of the first carrier 7a increases in direction to the bearing 15 in comparison with the moment of inertia in the section II. In the section III the moment of inertia of the first carrier 7a is comparable with the moment of inertia of the carrier 7a in the section II. In all three sections I, II and III the second carrier 7b is dimensioned comparably to the corresponding section of the first carrier 7a. In various exemplary embodiments, the values for the moment of inertia and cross sectional areas differ from the values of the first carrier 7a by a factor from 0.5 to 1.5. Preferably the first and the second carrier 7a, 7b have a cross sectional area of the same shape. According to the embodiment of
The carriers can be made, for example and without limitation, of glass filled Nylon, unfilled Nylon, glass filled polypropylene, unfilled polypropylene, polycarbonate, polycarbonate/ABS blend, acetal, or combinations thereof. The linking members can be made of the same materials, or of various elastomeric materials, including without limitation, Hytrel, Nylon blended with elastomers, thermoplastic urethane or combinations thereof. The linking members can also be made of rigid materials, including various rigid plastics or metal.
a to 3d show schematic side views of a second variant of a carrying arm 7 of a seating arrangement 1 in different positions A, B, C, D and E.
In
In a manner analogous to
a and 5b show a side view and a perspective view of a fourth variant of a carrying arm 7 of the seating arrangement 1. The carrying arm 7 comprises an upper carrier 7a and a lower carrier 7b and, in comparison with the variants which are illustrated in
a and 6b show a side view and a perspective view of a fifth variant of a carrying arm 7 of a seating arrangement 1. As is known from the previous figures, the carrying arm is essentially made up of a first, upper carrier 7a, a second, lower carrier 7b and at least one mechanical linking member 14. The upper carrier 7a of the carrying arm 7, which is illustrated in
The first transition region 19 is arranged between lower dorsal vertebra and the thighs of an individual P seated on the seating arrangements. The second transition region 39 is located in the region of cervical vertebra of the individual P seated on the seating arrangement 1. Elastic bodies 41 in each case are arranged in tunnels 21 formed between the upper carrier 7a, the lower carrier 7b and in each case two link plates 40. The elastic bodies 41 counteract, between the mechanical linking members 14, undesired deformation of the upper carrier 7a and/or of the lower carrier 7b. The bearing 16, rather than being configured just as a rotary bearing 42 with an axis of rotation 43, also has a spring element 44, counter to which the lower carrier 7b can spring inward or translate, by way of a leg 7f, in an arrow direction x against a pin 45, which is fastened in a rotatable manner at the axis of rotation 43. The bearing 15 has an axis of rotation 46, about which the carrying arm 7 can be rotated to a limited extent. In order to influence the movement behavior, it is also possible to arrange a torsion spring T here, this torsion spring acting counter to the torque produced by the seated individual. In particular, an adjustable torsion spring makes it possible to realize precisely adjustment of the movement behavior of the seating arrangement.
Finally,
a illustrates a perspective view of a seat 4 of a seventh variant of a seating arrangement 1. The seat 4 has a carrying arm 100 which bears a body support structure, for example and without limitation a cover 53, which forms a seat surface 10 and a backrest 11. The carrying arm 100 comprises a left-hand upper carrier 101, a right-hand upper carrier 102 and a lower carrier 103, which is located between the upper carriers and is offset downward in an arrow direction y′ in relation to the same. The lower carrier 103 is connected to the left-hand upper carrier 101 by mechanical linking members 104 and is connected to the right-hand upper carrier 102 by further mechanical linking members 105. The upper carriers 101 and 102 are connected to one another by two transverse carriers 106 and 107. An upwardly directed, approximately vertical leg 103a of the lower carrier 103 is divided into two struts 103b, 103c and merges, by way of these struts, into upwardly directed legs 101a, 102a of the upper carriers 101, 102. The upper carriers 101 and 102 and the lower carrier 103 thus form the single-piece carrying arm 100.
b shows a side view of the seating arrangement 1 of which the seat 4 is already known from
In the case of eighth variant of the seating arrangement 1, which is illustrated in
Number | Date | Country | Kind |
---|---|---|---|
10 2006 014 109 | Mar 2006 | DE | national |
10 2006 020 006 | Apr 2006 | DE | national |
10 2006 020 007 | Apr 2006 | DE | national |
10 2006 034 307 | Jul 2006 | DE | national |
10 2006 035 553 | Jul 2006 | DE | national |
10 2006 039 606 | Aug 2006 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/IB2007/000721 | 3/22/2007 | WO | 00 | 9/18/2008 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2007/110729 | 10/4/2007 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
946225 | Irwin | Jan 1910 | A |
2771122 | Straub | Nov 1956 | A |
3041109 | Eames et al. | Jun 1962 | A |
3120407 | Propst | Feb 1964 | A |
3230011 | Propst | Jan 1966 | A |
3300251 | Helms | Jan 1967 | A |
3565482 | Blodee | Feb 1971 | A |
3586370 | Barecki et al. | Jun 1971 | A |
3640576 | Morrison et al. | Feb 1972 | A |
3669496 | Chisholm | Jun 1972 | A |
3844612 | Borggren | Oct 1974 | A |
3877750 | Scholpp | Apr 1975 | A |
D235298 | Schuyler | Jun 1975 | S |
4036527 | Faul | Jul 1977 | A |
4062590 | Polsky et al. | Dec 1977 | A |
4230365 | Messinger | Oct 1980 | A |
4522444 | Pollock | Jun 1985 | A |
4529247 | Stumpf et al. | Jul 1985 | A |
4585272 | Ballarini | Apr 1986 | A |
4592126 | Bottemiller | Jun 1986 | A |
4889385 | Chadwick et al. | Dec 1989 | A |
4913493 | Heidmann | Apr 1990 | A |
4988145 | Engel | Jan 1991 | A |
5015038 | Mrotz, III | May 1991 | A |
5029942 | Rink | Jul 1991 | A |
D320034 | Brooks et al. | Sep 1991 | S |
5102196 | Kaneda et al. | Apr 1992 | A |
5114210 | Naess | May 1992 | A |
5240308 | Goldstein | Aug 1993 | A |
5320410 | Faiks et al. | Jun 1994 | A |
5328245 | Marks | Jul 1994 | A |
5352022 | Knoblock | Oct 1994 | A |
5518294 | Ligon, Sr. et al. | May 1996 | A |
D377431 | Stumpf et al. | Jan 1997 | S |
5649743 | Skalka | Jul 1997 | A |
5660439 | Unwala | Aug 1997 | A |
5664835 | Desanta | Sep 1997 | A |
D386023 | Stumpf et al. | Nov 1997 | S |
D390026 | Biecher | Feb 1998 | S |
5842264 | Roossien et al. | Dec 1998 | A |
5918935 | Stulik et al. | Jul 1999 | A |
5954399 | Hong | Sep 1999 | A |
5975634 | Knoblock et al. | Nov 1999 | A |
6015187 | Roslund, Jr. et al. | Jan 2000 | A |
6059368 | Stumpf et al. | May 2000 | A |
D436259 | Nagamitsu | Jan 2001 | S |
D436260 | Nagamitsu | Jan 2001 | S |
D437132 | Nagamitsu | Feb 2001 | S |
6193318 | Becker et al. | Feb 2001 | B1 |
D441977 | Vaaler | May 2001 | S |
D442383 | Bell | May 2001 | S |
6234573 | Röder et al. | May 2001 | B1 |
D444309 | Nagamitsu | Jul 2001 | S |
6257665 | Nagamitsu et al. | Jul 2001 | B1 |
D465347 | Bell | Nov 2002 | S |
6505890 | Riley et al. | Jan 2003 | B2 |
D469618 | Nagamitsu | Feb 2003 | S |
D469970 | Molteni | Feb 2003 | S |
6513874 | Sander et al. | Feb 2003 | B1 |
6572190 | Koepke et al. | Jun 2003 | B2 |
6582190 | Jinnai | Jun 2003 | B2 |
D476493 | Nagamitsu | Jul 2003 | S |
D476820 | Nagamitsu | Jul 2003 | S |
6609754 | Rajasingham | Aug 2003 | B2 |
D481560 | Vidmar et al. | Nov 2003 | S |
D482542 | Pluer | Nov 2003 | S |
D487359 | Giugiaro | Mar 2004 | S |
D489542 | Giugiaro | May 2004 | S |
6749261 | Peterson et al. | Jun 2004 | B2 |
6820933 | Fereira Da Silva | Nov 2004 | B2 |
6896328 | Goodworth | May 2005 | B2 |
D509969 | Loew et al. | Sep 2005 | S |
D511629 | Caldwell | Nov 2005 | S |
D512578 | Igarashi | Dec 2005 | S |
D512579 | Igarashi | Dec 2005 | S |
D513910 | Gehry | Jan 2006 | S |
6986549 | Kniese | Jan 2006 | B2 |
6991291 | Knoblock et al. | Jan 2006 | B2 |
D514345 | Igarashi | Feb 2006 | S |
D514838 | Igarashi | Feb 2006 | S |
D526495 | Albin | Aug 2006 | S |
7097249 | Igarashi et al. | Aug 2006 | B2 |
D527920 | Giugiaro | Sep 2006 | S |
D528810 | Giugiaro | Sep 2006 | S |
D528811 | Giugiaro | Sep 2006 | S |
D528812 | Giugiaro | Sep 2006 | S |
D540557 | Doughty | Apr 2007 | S |
D542549 | Hara | May 2007 | S |
D542580 | Loew et al. | May 2007 | S |
D543039 | Hara | May 2007 | S |
D543040 | Hara | May 2007 | S |
D543041 | Hara | May 2007 | S |
D543042 | Hara | May 2007 | S |
D543369 | Hara | May 2007 | S |
D543371 | Wang | May 2007 | S |
D543385 | Loew et al. | May 2007 | S |
D543397 | Loew et al. | May 2007 | S |
D543736 | Shields | Jun 2007 | S |
7226127 | Yevko et al. | Jun 2007 | B1 |
7243993 | Igarashi et al. | Jul 2007 | B2 |
7252336 | Frisina | Aug 2007 | B2 |
D550471 | Igarashi | Sep 2007 | S |
D550977 | Igarashi | Sep 2007 | S |
D552368 | Scheper et al. | Oct 2007 | S |
D552882 | Saotome | Oct 2007 | S |
D554384 | Scheper et al. | Nov 2007 | S |
D555924 | Igarashi | Nov 2007 | S |
D557921 | Kane | Dec 2007 | S |
D559000 | Vanderminden, Sr. | Jan 2008 | S |
7320503 | Eysing | Jan 2008 | B2 |
D572915 | Doughty | Jul 2008 | S |
D573816 | Muller | Jul 2008 | S |
7455365 | Caruso et al. | Nov 2008 | B2 |
7648201 | Eysing | Jan 2010 | B2 |
20030189367 | Erker | Oct 2003 | A1 |
20040032156 | Stipek | Feb 2004 | A1 |
20060181126 | Eysing | Aug 2006 | A1 |
20060238009 | Igarashi et al. | Oct 2006 | A1 |
20060244295 | Igarashi et al. | Nov 2006 | A1 |
20080264425 | Mundell | Oct 2008 | A1 |
20090042014 | Synnestvedt et al. | Feb 2009 | A1 |
Number | Date | Country |
---|---|---|
6563380 | Jan 1983 | AU |
4433663 | Sep 1996 | DE |
19916411 | Nov 2000 | DE |
049310 | Mar 1985 | EP |
00250109 | Dec 1987 | EP |
860355 | Aug 1998 | EP |
1040999 | Oct 2000 | EP |
1316651 | Jun 2003 | EP |
2715124 | Jul 1995 | FR |
D1284784 | Oct 2006 | JP |
88528 | Mar 1996 | LU |
WO 2007110737 | Oct 2007 | WO |
WO 2009039231 | Mar 2009 | WO |
Entry |
---|
Office Action from co-pending U.S. Appl. No. 12/284,159, dated Jun. 10, 2010, 10 pages. |
Office Action from co-pending U.S. Appl. No. 12/225,335, dated Sep. 21, 2010, 7 pages. |
International Search Report for International Application No. PCT/US2008/076768, dated Mar. 10, 2009, 3 pages. |
Written Opinion of the International Searching Authority for International Application No. PCT/US2008/076768, dated Mar. 10, 2009, 7 pages. |
Faraday, “Exploring Biomimetrics for Products & Packaging,” Sep. 27, 2007, 3 pages. |
Herman Miller for Business, “Eames Aluminum Group & Soft Pad Chairs,” [online][retrieved from internet: URL http://www.hermanmiller.com/CDA/SSA/Product/1,1592,a10-c440-p39,00.html], [retrieved—date unknown], 2 pages. |
International Search Report in International Application No. PCT/IB07/00721, dated Sep. 5, 2008, 3 pages. |
International Search Report in International Application No. PCT/IB07/00745, dated Jul. 17, 2008, 2 pages. |
Md, Magazine of Design, 5 pages, Oct. 2006. |
Okamura Corporation, “Baron Ergonomic Mesh Chair,” copyright 2005, [online][retrieved from internet: URL: http://www.okamura.co.jp/english/product/office/baron/index.html], [retrieved on Mar. 31, 2008], 1 page. |
U.S. Appl. No. 29/291,968, filed Sep. 21, 2007, Schmitz et al. as filed, 50 pages. |
United States Patent and Trademark Office, Trademark, Principal Register, Reg. No. 3,105,591, registered Jun. 20, 2006, 1 page. |
U.S. Appl. No. 12/284,159, filed Sep. 18, 2008 , Schmitz et al. as filed, 125 pages. |
U.S. Appl. No. 12/225,335, filed Mar. 22, 2007 , Schmitz et al. as filed, 53 pages. |
Written Opinion in International Application No. PCT/IB07/00721, filed Sep. 5, 2008, 6 pages. |
Written Opinion in International Application No. PCT/IB07/00745, dated Jul. 17, 2008, 4 pages. |
International Search Report in International Application No. PCT/US08/76768, dated Mar. 10, 2009, 1 page. |
Number | Date | Country | |
---|---|---|---|
20100289308 A1 | Nov 2010 | US |