A chair back assembly includes a back shell member comprising a laterally extending top and bottom portions and a pair of longitudinally extending side portions extending between the top and bottom portions and cooperating therewith to define an open space therebetween, a cover having a first surfac
A chair back assembly includes a back shell member comprising a laterally extending top and bottom portions and a pair of longitudinally extending side portions extending between the top and bottom portions and cooperating therewith to define an open space therebetween, a cover having a first surface adapted to support a seated user and a second surface opposite the first surface, wherein the cover is positioned over the back shell member to cover at least a portion of the open space; and a back frame assembly operably supporting the back shell member and moveable between an upright position, and a reclined position, wherein the back frame assembly causes the back shell to flex in a fore-to-aft direction as the back frame assembly is moved between the upright and reclined positions independent of an external force being exerted on the back shell member.
대표청구항▼
1. A chair assembly, comprising: a base structure;a seat support structure pivotably coupled to the base structure for rotation about a first pivot point, wherein the seat support structure includes a seat support surface configured to support a seated user thereon;a back support structure pivotably
1. A chair assembly, comprising: a base structure;a seat support structure pivotably coupled to the base structure for rotation about a first pivot point, wherein the seat support structure includes a seat support surface configured to support a seated user thereon;a back support structure pivotably coupled to the base structure for rotation about a second pivot point, wherein the back support structure includes an upwardly extending portion adapted to move between an upright position and a reclined position;a back shell member including a back support surface that is generally forwardly facing and configured to support a back of a seated user, and having an upper portion pivotably coupled to the upwardly extending portion of the back support for rotation about a third pivot point and a lower portion, wherein the back shell member is covered by a mesh cover; anda back link pivotably coupled to the lower portion of the back support surface for rotation about a fourth pivot point and pivotably coupled to the seat support structure for rotation about a fifth pivot point, wherein the back support surface is moved forward by the back link relative to the upright portion of the back support structure as the back support structure is moved from the upright position to the reclined position. 2. The chair assembly of claim 1, wherein the back shell member is flexible along the length thereof in a fore-to-aft direction. 3. The chair assembly of claim 1, wherein the cover comprises an elastomeric material having a longitudinal direction compliance to lateral direction compliance ratio of at least 3:1. 4. The chair assembly of claim 1, further including: a ring member having a plurality of side portions and a plurality of corner portions interspaced with the side portions, wherein at least one of the side portions is secured to the first surface of the cover such that the at least one of the side portions is fixed for rotation with the cover along a longitudinal axis of the at least one of the side portions, and wherein at least one of the corner portions is secured to the first surface of the cover such that the at least one of the corner portions is free for rotation with the cover along a line tangential to the at least one of the corner portions, and wherein the ring member is secured to the back shell member. 5. The chair assembly of claim 1, wherein the cover is stretched over the back shell member. 6. The chair assembly of claim 1, wherein at least a portion of the back support surface and the back support structure define a distance therebetween that changes during movement of the back support structure from the upright position to the reclined position. 7. The chair assembly of claim 6, wherein the upwardly extending portion of the back support structure is substantially rigid, and wherein the portion of the back support surface that defines the distance is significantly less rigid than the back support structure. 8. The chair support of claim 1, wherein the back shell member includes a forwardly curved lower lumbar portion defining a curvature, and wherein the curvature is increased as the back support structure is moved from the upright position to the reclined position. 9. The chair support of claim 8, wherein the operable connection between the back support structure and the back support assembly comprises a pivotal connection of the back shell member to the upwardly extending portion of the back support structure. 10. A chair assembly, comprising: a base structure;a seat support structure operably coupled to the base structure, wherein the seat support structure includes a seat support surface configured to support a seated user thereon;a back support structure operably coupled to the base structure, wherein the back support structure is adapted to move between an upright position and a reclined position;a back shell member including a back support surface that is generally forwardly facing and configured to support a back of a seated user, and pivotably coupled to the back support for rotation about a first back support pivot point, wherein the back shell member is covered by a mesh cover; anda back link pivotably coupled to the back support surface for rotation about a second back support pivot point and operably coupled to the seat support structure, wherein a distance between the first back support pivot point and the second back support pivot point decreases as the back support structure moves from the upright position to the reclined position, and increases as the back support structure moves from the reclined position to the upright position. 11. The chair assembly of claim 10, wherein the back shell member is flexible along the length thereof in a fore-to-aft direction. 12. The chair assembly of claim 11, wherein the cover comprises an elastomeric material having a longitudinal direction compliance to lateral direction compliance of at least 3:1. 13. The chair assembly of claim 10, further including: a ring member having a plurality of side portions and a plurality of corner portions interspaced with the side portions, wherein at least one of the side portions is secured to the first surface of the cover such that the at least one of the side portions is fixed for rotation with the cover along a longitudinal axis of the at least one of the side portions, and wherein at least one of the corner portions is secured to the first surface of the cover such that the at least one of the corner portions is free for rotation with the cover along a line tangential to the at least one of the corner portions, and wherein the ring member is secured to the back shell member. 14. The chair assembly of claim 10, wherein the cover is stretched over the back shell member. 15. The chair assembly of claim 10, wherein the back link is pivotably coupled to the seat support structure about a seat support pivot point, and wherein the second back support pivot point does not move with respect to the seat support pivot point as the back support structure is moved from the upright position to the reclined position. 16. The chair assembly of claim 10, wherein the back support surface is moved forward by the back link relative to at least a portion of the back support structure as the back support structure is moved from the upright position to the reclined position. 17. The chair assembly of claim 10, further comprising: a control link having a first end operably coupled to the seat support structure, and a second end operably coupled to the back support structure, wherein the control link reclines the seat support structure at a slower rate of recline than a rate of recline of the back support structure as the back support structure is moved from the upright position to the reclined position. 18. A chair assembly, comprising: a base structure;a seat support structure pivotably coupled to the base structure for rotation about a first pivot point, wherein the seat support structure includes a seat support surface configured to support a seated user thereon;a back support structure pivotably coupled to the base structure for rotation about a second pivot point, wherein the back support structure is adapted to move between an upright position and a reclined position;a back support assembly including a flexible back shell member that is generally forwardly facing and configured to support a back of a seated user, and operably coupled to the back support, wherein the back shell member is covered by a mesh cover; anda back link operably coupled to the lower portion of the back support surface and operably coupled to the seat support structure, wherein the flexible back support assembly is flexed along a length thereof as the back support structure is moved from the upright position to the reclined position. 19. The chair assembly of claim 18, wherein the back shell member is flexible along the length thereof in a fore-to-aft direction. 20. The chair assembly of claim 18, wherein the cover comprises an elastomeric material having a longitudinal direction compliance to lateral direction compliance ratio of at least 3:1. 21. The chair assembly of claim 18, further including: a ring member having a plurality of side portions and a plurality of corner portions interspaced with the side portions, wherein at least one of the side portions is secured to the first surface of the cover such that the at least one of the side portions is fixed for rotation with the cover along a longitudinal axis of the at least one of the side portions, and wherein at least one of the corner portions is secured to the first surface of the cover such that the at least one of the corner portions is free for rotation with the cover along a line tangential to the at least one of the corner portions, and wherein the ring member is secured to the back shell member. 22. The chair assembly of claim 18, wherein the cover is stretched over the back shell member. 23. The chair assembly of claim 18, wherein the back support assembly is moved forward by the back link relative to at least a portion of the back support structure as the back support structure is moved from the upright position to the reclined position. 24. The chair support of claim 18, wherein the back shell member includes a forwardly curved lower lumbar portion defining a curvature, and wherein the curvature is reduced as the back support structure is moved from the upright position to the reclined position. 25. The chair support of claim 24, wherein the operable connection between the back support structure and the back support assembly comprises a pivotal connection of the back shell member to the back support structure. 26. The chair assembly of claim 18, wherein the seat support structure includes a forward portion and a rearward portion, and the back support structure includes a forward portion and a rearward portion, and wherein the first pivot point is located at the forward portion of the seat support structure, and the second pivot point is located at the forward portion of the back support structure. 27. The chair assembly of claim 18, wherein the back support structure is generally L-shaped, and wherein the back support structure includes a lower portion that extends forwards from an upwardly extending portion. 28. The chair assembly of claim 18, wherein a rate of recline of the seat support structure as the back support structure is moved from the upright position to the reclined position less than the rate of recline of the back support structure as the back support structure is moved from the upright position to the reclined position.
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