A chair back according to embodiments of the present invention includes a rigid support member for reclinable attachment to a base, a flexible frame member having a flexible frame and a mesh, the mesh at least partially spanning the frame, and a seat attachment member moving in synchronization with
A chair back according to embodiments of the present invention includes a rigid support member for reclinable attachment to a base, a flexible frame member having a flexible frame and a mesh, the mesh at least partially spanning the frame, and a seat attachment member moving in synchronization with the rigid support member at a different rate than the rigid support member during reclining of the rigid support member, wherein a first portion of the flexible frame member is affixed to the rigid support member, wherein a second portion of the flexible frame member flexes freely, wherein the seat attachment member contacts at least part of the second portion of the flexible frame member, wherein the first portion moves with the rigid support member and the second portion moves with the seat attachment member such that a curvature of the second portion increases as the rigid support member reclines.
대표청구항▼
1. A chair with a chair back, the chair comprising: a chair base;a flexible frame member comprising a flexible frame and a mesh element, the mesh element at least partially spanning the flexible frame, and the flexible frame being comprised of an upper portion, an intermediate portion adapted to sup
1. A chair with a chair back, the chair comprising: a chair base;a flexible frame member comprising a flexible frame and a mesh element, the mesh element at least partially spanning the flexible frame, and the flexible frame being comprised of an upper portion, an intermediate portion adapted to support a lumbar region of a user, and a lower portion;a plurality of resilient seat attachment members directly and fixedly coupled to the lower portion of the flexible frame member and directly and fixedly coupled to a seat, the seat being coupled to the chair base such that during reclining of the chair back, the seat at least translates backward relative to a rigid support member pivot point, the backward translation causing seat attachment members and the lower portion of the flexible frame member to at least translate backward in synchronization with the seat, the seat attachment members being free from any contact with the intermediate portion and the upper portion of the flexible frame member; anda rigid support member affixed to the upper portion of the flexible frame member such that the intermediate portion of the flexible frame member is defined between where the rigid support member couples to the flexible frame member and where the seat attachment members couple to the flexible frame member outwardly of the rigid support member, the rigid support member being reclinably attached to the chair base at the rigid support member pivot point and independent of the seat attachment members, the rigid support member being free to reline about the rigid support member pivot point,the flexible frame member, the attachment members, and the rigid support member being configured such that during reclining of the chair back, the upper portion of the flexible frame member moves with the rigid support member and the lower portion of the flexible frame member moves with the seat attachment members and the seat such that a degree of curvature of the intermediate portion of the flexible frame member increases while remaining free from any contact with the rigid support member and the at least one seat attachment member during reclining of the chair back. 2. The chair back of claim 1, wherein the seat attachment members are formed integrally with the flexible frame member. 3. The chair back of claim 1, wherein the flexible frame is an outer frame, and wherein the mesh element is configured to contact a user's back. 4. The chair back of claim 1, wherein the intermediate portion of the flexible frame member dynamically adjusts to match increasing curvature of a user's lumbar back region during reclining. 5. The chair of claim 1, and further comprising: a linkage assembly coupled to the rigid support member and to the seat. 6. The chair of claim 1, and further comprising: a linkage assembly coupled to the rigid support member and to the seat, the linkage assembly configured to rotate the entire seat upwardly and toward the back with respect to the rigid support member pivot point during reclining of the chair back. 7. The chair of claim 1, wherein the lower portion of the flexible frame is coupled to at least one of the seat attachment members at a flexible frame contact position and the rigid support member is affixed to the flexible frame at a rigid support member contact position that is located behind the flexible frame contact position when the rigid support member is in both upright and reclined positions. 8. The chair of claim 1, wherein the seat attachment members comprise an attachment portion that is elongated in a forward and backward direction corresponding generally to a sitting direction. 9. The chair of claim 1, wherein the rigid support member comprises a rigid material selected from a group consisting of aluminum and glass-filled nylon, wherein the flexible frame comprises an outer frame comprising a flexible thermoplastic elastomer, wherein the seat attachment members comprise an acetal copolymer. 10. The chair of claim 1, wherein the rigid support member is affixed to the seat attachment members via the flexible frame at a rigid support member contact position that is located behind a flexible frame contact position when the rigid support member is in both upright and reclined positions. 11. The chair back of claim 1, wherein the at least one seat attachment members are directly coupled to a bottom portion of the flexible frame member, the bottom portion extending laterally between two side portions of the flexible frame member. 12. A chair comprising: a base;a seat pivotably coupled to the base such that, during reclining of the back about the base, the seat at least translates backward relative to a rigid support member pivot point;a back comprising a rigid support member and a flexible frame member, the back having an intermediate portion, the rigid support member pivotably coupled to the base at the rigid support member pivot point, the flexible frame member having an upper portion above the intermediate portion and a lower portion below the intermediate portion, wherein the upper portion is coupled to the rigid support member and the lower portion is coupled to the seat; anda linkage assembly coupled to the back and to the seat, the linkage assembly configured to rotate the entire seat upwardly and toward the back with respect to the rigid support member pivot point during reclining of the back about the base, the linkage assembly being separated from the rigid support member;wherein the lower portion of the flexible frame member travels at least toward the back in synchronization with the seat during its rotation and wherein the rigid support member is adapted to rotate simultaneously but at a different rate than the seat, and wherein the lower portion of the flexible frame member is coupled to the seat by a plurality of resilient seat attachment members spaced laterally outward from the rigid support member, each resilient seat attachment member fixedly coupled to the seat and fixedly coupled to the lower portion of the flexible frame member. 13. The chair of claim 12, wherein the seat attachment member is a spring. 14. The chair of claim 12, further comprising: a mesh element at least partially spanning the flexible frame member. 15. The chair of claim 12, further comprising: a polymer element at least partially spanning the flexible frame member. 16. The chair of claim 12, wherein the linkage assembly couples the back to the seat such that the seat rotates upwardly and toward the back at a different rate than the rigid support member during reclining of the rigid support member. 17. The chair of claim 12, wherein the rigid support member comprises a rigid material selected from a group consisting of aluminum and glass-filled nylon, and wherein the flexible frame member comprises an outer frame comprising a flexible thermoplastic elastomer. 18. A chair, comprising: a back comprising a rigid support member reclinably attached to a chair base at a rigid support member attachment point;a flexible frame member comprising a flexible frame and a mesh element, the mesh element at least partially spanning the flexible frame, the flexible frame member having an upper portion, an intermediate portion, and a lower portion, wherein the rigid support member is rigidly coupled to the upper portion;a plurality of resilient seat attachment members each rigidly coupled to a seat and each rigidly coupled to the lower portion of the flexible frame member laterally outward from the rigid support member, the seat attachment members each being free from contact with the intermediate portion of the back that is adapted to contact a user's lumbar region; anda linkage assembly coupled to the rigid support member and to the seat, the seat sliding upward and backward with respect to the rigid support member attachment point at a different rate than the rigid support member during reclining of the rigid support member, the resilient seat attachment members and the lower portion of the flexible frame member traveling at least backward in synchronization with the seat during reclining. 19. The chair of claim 18, wherein the seat attachment members are springs. 20. The chair of claim 18, wherein the seat attachment members are part of a core assembly. 21. The chair of claim 18, wherein a first portion of the flexible frame member is affixed to the rigid support member, wherein a second portion of the flexible frame member flexes freely with respect to the rigid support member, wherein at least one of the resilient seat attachment members is rigidly coupled to at least part of the second portion of the flexible frame member, wherein the first portion moves with the rigid support member such that a degree of curvature of the second portion increases as the rigid support member reclines. 22. A chair comprising: a base;a seat pivotally coupled to the base such that, during reclining, the seat at least translates backward relative to a rigid support member pivot point;a back having a frame member and an intermediate portion, the frame member fixedly coupled to a rigid support member above the intermediate portion, the rigid support member being directly pivotally coupled to the base at the rigid support member pivot point and independent of the seat; anda plurality of resilient seat attachment members each directly and rigidly coupled to the seat and directly and rigidly coupled to the back below the intermediate portion laterally outward from the rigid support member, the seat attachment members being free from contact with the intermediate portion of the back, which intermediate portion is adapted to contact a user's lumbar region, so that a portion of the frame member travels in synchronization with the seat and the resilient seat attachment member as they translate backward relative to the rigid support member pivot point and the seat and the resilient seat attachment member rotate about the base at a different rate than the rigid support member rotates about the base. 23. The chair of claim 22, wherein the resilient seat attachment members are directly coupled to a lower portion of the frame member of the back and wherein the lower portion of the frame member travels along with the seat as it rotates about the base at a different rate than the rigid support member rotates about the base. 24. The chair of claim 22, wherein the frame member is rigidly coupled to the rigid support member. 25. The chair of claim 22, wherein the rigid support member is pivotally coupled to the base at a first pivot point and the seat is pivotally coupled to the base at a second pivot point and at a third pivot point.
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이 특허에 인용된 특허 (185)
Lance Mark A. (Williamstown AUX), Adjustable and releasably connectable lumbar support assembly.
Dammermann,Arnold B.; DeKraker,Larry; Heidmann,Kurt R.; Peterson,Gordon J.; Roossien,Charles P.; Teppo,David S.; Knoblock, deceased,Glenn A., Back construction for seating unit.
Dammermann,Arnold B.; DeKraker,Larry; Heidmann,Kurt R.; Peterson,Gordon J.; Roossien,Charles P.; Teppo,David S.; Knoblock, deceased,Glenn A., Back construction for seating unit having inverted U-shaped frame.
Dammermann,Arnold B.; DeKraker,Larry; Heidmann,Kurt R.; Peterson,Gordon J.; Roossien,Charles P.; Teppo,David S.; Knoblock, deceased,Glenn A., Back construction for seating unit having spring bias.
Glenn A. Knoblock ; Arnold B. Dammermann ; Larry DeKraker ; Kevin A. Ekdahl ; Kurt R. Heidmann ; Gardner J. Klaasen, II ; James A. Perkins ; Gordon J. Peterson ; Edward H. Punches ; Charles , Back for seating unit.
Glenn A. Knoblock ; Arnold B. Dammermann ; Larry DeKraker ; Kevin A. Ekdahl ; Kurt R. Heidmann ; Gardner J. Klaasen, II ; James A. Perkins ; Gordon J. Peterson ; Edward H. Punches ; Charles , Back for seating unit.
Schmitz,Johann Burkhard; Plikat,Claudia; Neubert,Nicolai; Zwick,Carola E. M.; Zwick,Roland R. O.; Aerts,Chad D.; Aldrich,John F.; Hill,Christopher C.; Ramsdell,Shane M.; Slagh,James D.; VanDeRiet,Dou, Back support structure.
Koepke, Marcus C.; Coffield, Tim; Michael, Jay R.; Phillips, Matthew J.; Schroeder, Douglas A.; Schultz, Craig H.; Steffensen, Erik A., Chair back construction.
Davis, Keith L.; Koepke, Marcus C.; Krull, Jamie; Machael, Jay R.; Phillips, Matthew J.; Schroeder, Douglas A.; Schultz, Craig H.; Steffensen, Erik A.; Trego, Brian R.; Zillig, Eric M., Chair of modular construction.
Koepke, Marcus C.; Krull, Jamie; Machael, Jay R.; Coffield, Tim; Davis, Keith L.; Habboub, Amin K.; Phillips, Matthew J.; Schroeder, Douglas A.; Schultz, Craig H.; Steffensen, Erik A.; Trego, Brian R, Ergonomic chair.
Koepke, Marcus C.; Machael, Jay R.; Schultz, Craig H.; Schroeder, Douglas A.; Steffensen, Erik A.; Trego, Brian R.; Coffield, Tim; Burgess, Patrick; Mulka, George; Phillips, Matthew J., Ergonomic chair.
Glenn A. Knoblock ; Arnold B. Dammermann ; Larry DeKraker ; Kevin A. Ekdahl ; Kurt R. Heidmann ; Gardner J. Klaasen, II ; James A. Perkins ; Gordon J. Peterson ; Edward H. Punches ; Charles , Lumbar device.
Schmitz,Johann Burkhard; Plikat,Claudia; Neubert,Nicolai; Zwick,Carola E. M.; Zwick,Roland R. O.; Aldrich,John F.; VanDeRiet,Douglas M., Modular tilt housing for a seating structure.
Stumpf, William E.; Schoenfelder, Rodney C.; Chadwick, Donald; Keller, Carolyn; Coffield, Timothy P.; Sayers, Randy J.; Bruner, Jeffrey W.; Cammenga, Eric, Seating structure having a backrest with a bowed section.
Knoblock, Daryl; Dammermann, Arnold B.; DeKraker, Larry; Ekdahl, Kevin A.; Heidmann, Kurt R.; Klaasen, II, Gardner J.; Perkins, James A.; Peterson, Gordon J.; Punches, Edward H.; Roossien, Charles P., Seating unit including novel back construction.
Knoblock, Glenn A.; Dammermann, Arnold B.; DeKraker, Larry; Ekdahl, Kevin A.; Heidmann, Kurt R.; Klaasen, II, Gardner J.; Perkins, James A.; Peterson, Gordon J.; Punches, Edward H.; Roosien, Charles , Seating unit including novel back construction.
Robert J. Battey ; Glenn A. Knoblock ; Larry DeKraker ; Kurt R. Heidmann ; Michelle R. Johnson ; Robert M. Scheper, Seating unit with novel seat construction.
Schmitz,Johann Burkhard; Plikat,Claudia; Neubert,Nicolai; Zwick,Carola E. M.; Zwick,Roland R. O.; Aerts,Chad D.; Aldrich,John F., Support member for a seating structure.
Roericht Hans (Ulm DEX) Fleischmann Horst (Mnchen DEX) Biggel Franz (Wangen DEX) Schmitz Burkhard (Ulm DEX), Synchronous adjusting device for office chairs or the like.
Schmitz,Johann Burkhard; Plikat,Claudia; Neubert,Nicolai; Zwick,Carola E. M.; Zwick,Roland R. O.; Aldrich,John F.; Hill,Christopher C.; Slagh,James D.; VanDeRiet,Douglas M., Tilt chair and methods for the use thereof.
Stumpf William E. ; Schoenfelder Rodney C. ; Chadwick Donald ; Keller Carolyn ; Coffield Timothy P. ; Sayers Randy J. ; Bruner Jeffrey W. ; Miles George A. ; Cammenga Eric ; Crossman Philip, Tilt control mechanism for a chair.
Stumpf William E. ; Schoenfelder Rodney C. ; Chadwick Donald ; Keller Carolyn ; Coffield Timothy P. ; Sayers Randy J. ; Bruner Jeffrey W. ; Cammenga Eric, Woven fabric membrane for a seating surface.
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