Back construction for seating unit having spring bias
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A47C-003/025
A47C-003/02
출원번호
US-0047824
(2005-02-01)
발명자
/ 주소
Dammermann,Arnold B.
DeKraker,Larry
Heidmann,Kurt R.
Peterson,Gordon J.
Roossien,Charles P.
Teppo,David S.
Knoblock, deceased,Glenn A.
출원인 / 주소
Steelcase Development Corporation
대리인 / 주소
Price, Heneveld, Cooper, DeWitt &
인용정보
피인용 횟수 :
61인용 특허 :
112
초록▼
A back construction includes a back shell having stiff thoracic and pelvic regions connected by a flexible lumbar region in a manner adapted to ergonomically support a seated user. The back shell includes springs that press on a rear surface of the back shell to bias the flexible lumbar region forwa
A back construction includes a back shell having stiff thoracic and pelvic regions connected by a flexible lumbar region in a manner adapted to ergonomically support a seated user. The back shell includes springs that press on a rear surface of the back shell to bias the flexible lumbar region forwardly so as to support a seated user, thus biasing the lumbar region of the back shell forwardly in a manner distributing stress applied to the lumbar region by the seated user.
대표청구항▼
What is claimed is: 1. A seating unit comprising: a base assembly; a seat on the base assembly; a back support operably interconnected to the base assembly for movement between an upright position and a reclined position, the back support including a back frame and a back shell; the back frame havi
What is claimed is: 1. A seating unit comprising: a base assembly; a seat on the base assembly; a back support operably interconnected to the base assembly for movement between an upright position and a reclined position, the back support including a back frame and a back shell; the back frame having a first attachment coupling an upper area of the back shell to the back frame, and a plurality of pivotal second attachments for pivotally coupling the lower area of the back shell to the back frame; the back shell having front and rear surfaces and comprising a resiliently flexible polymeric sheet shaped to and adapted to support a back of a seated user, the back shell having a semi-rigid lower area, a flexible area disposed above the lower area, and a semi-rigid upper area disposed above the area; and a force-generating mechanism pressing on the rear surface of the back shell so as to bias the flexible area of the back shell forwardly so as to support a seated user. 2. The seating unit defined in claim 1, wherein the back shell includes edge strips in the flexible area and horizontal slots starting inboard of the edge strips and extending horizontally in the flexible central area. 3. The seating unit defined in claim 2, wherein the first attachment includes at least one top pivot. 4. The seating unit defined in claim 1, wherein the force-generating mechanism provides a non-adjustable force. 5. The seating unit defined in claim 1, wherein the force-generating mechanism includes a transverse leaf spring extending horizontally across the back frame. 6. The seating unit defined in claim 1, wherein the force-generating mechanism includes a coil spring pressing on a rear surface of the flexible area. 7. The seating unit defined in claim 1, wherein the seat is operably connected to the back frame and movably supported on the base assembly for forward movement upon recline of the back frame toward the reclined position. 8. The seating unit defined in claim 1, wherein the back frame is located separate from and spaced rearwardly from the back shell in a position external to the back shell. 9. The seating unit defined in claim 1, wherein the back frame has an inverted U shape. 10. The seating unit defined in claim 1, wherein the back frame is spaced rearwardly from the back shell and defines an open area through which flexure of the back shell is visible. 11. The seating unit defined in claim 1, wherein the back shell has a multi-curved shape such that in a vertical cross section the flexible area forms a forwardly protruding convex shape and in a horizontal cross section the flexible area forms a rearwardly protruding concave shape. 12. The seating unit defined in claim 1, wherein the force-generating mechanism includes at least two different energy sources biasing the flexible area forwardly. 13. The seating unit defined in claim 1, wherein the force-generating mechanism includes only a single energy source biasing the flexible area forwardly. 14. The seating unit defined in claim 1, wherein the back shell includes forwardly extending flanges on each side that are connected to the back frame. 15. The seating unit defined in claim 14, wherein the back shell includes a belt bracket attached along its lower edge and that includes the forwardly extending flanges. 16. The seating unit defined in claim 1, wherein the back support includes at least one cushion on a front face of the back shell. 17. A back construction for a seating unit comprising: a unitary back frame; a compliant back including a back shell formed from a resiliently flexible polymeric sheet having a flexible forwardly-protruding lumbar support section that can be flexed to a plurality of different shapes, said back shell further having a shape that is generally concave when viewed in a horizontal section and generally convex when viewed in a vertical section, said lumbar support section including a plurality of vertically spaced apart slots extending generally horizontally across a portion of the lumbar support section and terminating prior to the perimeter edge of said sheet; at least two connections pivotally connecting the compliant back to the back frame; and a force-generating mechanism pressing on a rear surface of the back shell and constructed to provide a biasing force that biases the lumbar support section forward to provide support for a seated user's back. 18. The back construction defined in claim 17, wherein the horizontal slots start inboard of the edge strips and extend horizontally completely across a flexible central area of the lumbar support section. 19. The back construction defined in claim 17, wherein the force-generating mechanism includes a transverse leaf spring extending horizontally across the back frame. 20. The back construction defined in claim 17, wherein the force-generating mechanism includes a coil spring pressing on a rear surface of a flexible central area of the lumbar support section. 21. The back construction defined in claim 17, wherein the back shell includes forwardly extending flanges on each side that are connected to the back frame. 22. The back construction defined in claim 17, wherein the back frame is located separate from and spaced rearwardly from the back shell in a position external to the back shell. 23. The back construction defined in claim 17, wherein the back frame has an inverted "U" shape. 24. The back construction defined in claim 17, wherein the back frame is spaced rearwardly from the back shell and defines an open area through which flexure of the back shell is visible. 25. The back construction defined in claim 17, wherein the force-generating mechanism includes at least two different energy sources biasing the flexible central area forwardly. 26. A seating unit including the back construction defined in claim 17, and including a base assembly and a seat operably connected to the back frame and movably supported on the base assembly for forward movement upon recline of the back frame toward a reclined position. 27. A seating unit, comprising: a seat; a back frame; a back shell attached to said back frame and having relatively rigid upper and lower areas interconnected by a relatively flexible central area, and including at least one top and one bottom pivotal connection, said at least one top connection proximate said rigid upper area and said at least one bottom connection proximate said rigid lower area, said back shell further having a shape that is generally concave when viewed in a horizontal section and generally convex when viewed in a vertical section; and an active energy mechanism biasing said back shell toward a more convex shape when viewed in a vertical section, said energy mechanism being positioned rearward of the back shell and adapted to press on a rear surface of the back shell, wherein when said back shell is assembled into said seating unit, said pivotal connections allow controlled flexure of said back shell such that said rigid upper and lower areas rotate in opposite directions about their respective pivotal connections as said back shell is flexed. 28. The seating unit defined in claim 27, wherein the back shell includes edge strips and a plurality of horizontal slots starting inboard of the edge strips and extending horizontally across the flexible central area. 29. The seating unit defined in claim 27, wherein the active energy mechanism comprises a force-generating mechanism that includes a transverse leaf spring extending horizontally across the back frame. 30. The seating unit defined in claim 27, wherein the active energy mechanism comprises a force-generating mechanism that includes a coil spring pressing on a rear surface of the flexible central area. 31. The seating unit defined in claim 27, including a base assembly, the seat being operably connected to the back frame and movably supported on the base assembly for forward movement upon recline of the back frame toward a reclined position. 32. The seating unit defined in claim 27, wherein the back frame is located separate from and spaced rearwardly from the back shell in a position external to the back shell. 33. The seating unit defined in claim 27, wherein the back frame has an inverted "U" shape. 34. The seating unit defined in claim 27, wherein the back frame is spaced rearwardly from the back shell and defines an open area though which flexure of the back shell is visible. 35. The seating unit defined in claim 27, wherein the active energy mechanism comprises a force-generating mechanism that includes at least two different energy sources biasing the flexible central area forwardly. 36. The seating unit defined in claim 27 wherein the back shell includes forwardly extending flanges on each side that are connected to the back frame.
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