A window assembly for partition walls. The window assembly includes a plurality of connector assemblies that are configured to be connected to a partition frame around an opening through the partition frame. Each connector assembly includes a base structure and at least one movable retainer that is
A window assembly for partition walls. The window assembly includes a plurality of connector assemblies that are configured to be connected to a partition frame around an opening through the partition frame. Each connector assembly includes a base structure and at least one movable retainer that is biased towards an engaged position. The window assembly also includes a subframe including two pairs of elongated subframe members having opposite ends that are rigidly interconnected to define a generally rectangular central opening. The subframe further defines oppositely facing inner and outer side faces. The subframe includes a connecting portion protruding away from the inner side face and engaging the movable retainer to connect the subframe to the connector assemblies. The window assembly further includes at least one sheet of light-transmitting material secured to the subframe and extending across the central opening.
대표청구항▼
1. A partition comprising: a partition frame including a pair of horizontally spaced apart upright partition frame members, and a pair of vertically spaced apart horizontal partition frame members that are connected to the vertical frame members to define a generally rectangular frame opening thereb
1. A partition comprising: a partition frame including a pair of horizontally spaced apart upright partition frame members, and a pair of vertically spaced apart horizontal partition frame members that are connected to the vertical frame members to define a generally rectangular frame opening therebetween;at least one connector assembly mounted to the partition frame adjacent the rectangular frame opening, the connector assembly including at least one movable retainer defining an engaged position, the movable retainer including a cam surface and a first retaining surface, and wherein the movable retainer is biased towards the engaged position;a window subassembly configured to be installed to the partition frame at the frame opening, the window subassembly including a generally rectangular subframe defining a central opening, and including a sheet of glass or polymer material connected to the subframe and extending across the central opening, the subassembly including a connecting portion that is configured to initially engage the cam surface of the movable retainer as the window subassembly is moved into an installed position and to move the movable retainer away from its engaged position, followed by movement of the movable retainer to its engaged position due to the bias when the window subassembly is in an installed position on the partition frame, the connecting portions of the window subassembly including a second retaining surface that engages the movable retainer when the movable retainer is in the engaged position and retains the window subassembly on the partition frame in its installed position. 2. The partition of claim 1, wherein: the connector assembly comprises a support bracket assembly including a base structure that is rigidly connected to the partition frame. 3. The partition of claim 2, wherein: the movable retainer has a base end that is rotatably connected to the base structure. 4. The partition of claim 3, wherein: the movable retainer includes a distal end portion having a tapered transverse extension, wherein the cam surface is formed on a first side of the transverse extension. 5. The partition of claim 2, including: a lock member that is configured to engage the movable retainer and retain the movable retainer in its engaged position. 6. The partition of claim 1, wherein: the sheet of material comprises glass. 7. The partition of claim 1, wherein: the sheet of material comprises a polymer. 8. The partition of claim 1, wherein: the sheet of material comprises a light-transmitting glass or polymer. 9. The partition of claim 8, wherein: the sheet of material defines first and second opposite side surfaces and includes a layer of opaque material on at least a portion of the first opposite side surface. 10. The partition of claim 9, wherein: the entire first opposite side surface is coated with a layer of paint. 11. A partition comprising: a partition frame including a pair of horizontally spaced apart upright partition frame members, and a pair of vertically spaced apart horizontal partition frame members that are connected to the vertical frame members to define a generally rectangular frame opening therebetween;at least one connector assembly adjacent the rectangular frame opening, the connector assembly including at least one movable retainer defining an engaged position, the movable retainer including a cam surface and a first retaining surface, and wherein the movable retainer is biased towards the engaged position;a window subassembly configured to be installed to the partition frame at the frame opening, the window subassembly including a generally rectangular subframe defining a central opening, and including a sheet of glass or polymer material connected to the subframe and extending across the central opening, the subassembly including a connecting portion that is configured to initially engage the cam surface of the movable retainer as the window subassembly is moved into an installed position and to move the movable retainer away from its engaged position, followed by movement of the movable retainer to its engaged position due to the bias when the window subassembly is in an installed position on the partition frame, the connecting portions of the window subassembly including a second retaining surface that engages the movable retainer when the movable retainer is in the engaged position and retains the window subassembly on the partition frame in its installed position;the connector assembly comprises a support bracket assembly including a base structure that is rigidly connected to the partition frame;the movable retainer has a base end that is rotatably connected to the base structure;the movable retainer includes a distal end portion having a tapered transverse extension, wherein the cam surface is formed on a first side of the transverse extension; and wherein:the second retaining surface is formed on a second side of the transverse extension. 12. The partition of claim 11, wherein: the second retaining surface generally faces the base end of the movable retainer, and the cam surface generally faces away from the base end of the movable retainer. 13. The partition of claim 12, wherein: the connecting portion comprises a connecting flange extending from the subframe in a first direction and having an inner side that faces the frame opening, and an outer side that faces away from the frame opening, wherein the second retaining surface is formed on a retaining structure that extends from the outer side of the connecting flange. 14. The partition of claim 13, wherein: the second retaining surface extends transverse to the first direction, and the retaining structure includes a sloped side surface that faces away from the retaining surface and defines an acute angle relative to the retaining surface to define a barb. 15. The partition of claim 14, wherein: the sloped side surface is configured to slidably engage the cam surface of the movable retainer as the subassembly is moved into the installed position. 16. A partition comprising: a partition frame including a pair of horizontally spaced apart upright partition frame members, and a pair of vertically spaced apart horizontal partition frame members that are connected to the vertical frame members to define a generally rectangular frame opening therebetween;at least one connector assembly adjacent the rectangular frame opening, the connector assembly including at least one movable retainer defining an engaged position, the movable retainer including a cam surface and a first retaining surface, and wherein the movable retainer is biased towards the engaged position;a window subassembly configured to be installed to the partition frame at the frame opening, the window subassembly including a generally rectangular subframe defining a central opening, and including a sheet of glass or polymer material connected to the subframe and extending across the central opening, the subassembly including a connecting portion that is configured to initially engage the cam surface of the movable retainer as the window subassembly is moved into an installed position and to move the movable retainer away from its engaged position, followed by movement of the movable retainer to its engaged position due to the bias when the window subassembly is in an installed position on the partition frame, the connecting portions of the window subassembly including a second retaining surface that engages the movable retainer when the movable retainer is in the engaged position and retains the window subassembly on the partition frame in its installed position;the connector assembly comprises a support bracket assembly including a base structure that is rigidly connected to the partition frame;a lock member that is configured to engage the movable retainer and retain the movable retainer in its engaged position;the lock member is pivotably connected to the base structure for movement between locked and unlocked positions;the base structure includes a sloped ramp surface; andthe lock member slidably engages the sloped ramp surface as the lock member is pivoted from its unlocked position to its locked position whereby a portion of the lock member is shifted towards the movable retainer and prevents movement of the movable retainer from its engaged position. 17. The partition of claim 16, wherein: the partition frame defines a first side face;the subframe includes a perimeter flange structure having a base wall and a pair of spaced apart inner and outer sidewalls defining a U-shaped channel that receives an edge of the sheet of light-transmitting material, and wherein the connecting portion comprises a connecting flange that extends from the inner sidewall of the perimeter flange structure. 18. The partition of claim 17, wherein: at least one of the horizontal partition frame members defines an outwardly facing vertical side surface adjacent the frame opening, and wherein the perimeter flange structure extends over at least a portion of the vertical side surface. 19. A partition comprising: a partition frame including a pair of horizontally spaced apart upright partition frame members, and a pair of vertically spaced apart horizontal partition frame members that are connected to the vertical frame members to define a generally rectangular frame opening therebetween;a plurality of connector assemblies around the rectangular frame opening, each connector assembly including a base structure directly connected to the partition frame and at least one movable retainer that is biased towards an engaged position;a subframe comprising two pairs of elongated subframe members having opposite ends that are rigidly interconnected to define a generally rectangular central opening, the subframe further defining oppositely facing inner and outer side faces, the subframe including a connecting portion protruding away from the inner side face and engaging the movable retainer to connect the subframe to the connector assemblies; andat least one sheet of light-transmitting material secured to the subframe and extending across the central opening. 20. A partition comprising: a partition frame including a pair of horizontally spaced apart upright partition frame members, and a pair of vertically spaced apart horizontal partition frame members that are connected to the vertical frame members to define a generally rectangular frame opening therebetween;a plurality of connector assemblies around the rectangular frame opening, each connector assembly including a base structure and at least one movable retainer that is biased towards an engaged position;a subframe comprising two pairs of elongated subframe members having opposite ends that are rigidly interconnected to define a generally rectangular central opening, the subframe further defining oppositely facing inner and outer side faces, the subframe including a connecting portion protruding away from the inner side face and engaging the movable retainer to connect the subframe to the connector assemblies;at least one sheet of light-transmitting material secured to the subframe and extending across the central opening;wherein the movable retainer includes a cam surface; andwherein the connecting portion includes an angled surface that is configured to slidably engage the cam surface and move the movable retainer away from its engaged position as the subframe is moved relative to the connector assemblies. 21. The partition of claim 20, wherein: the movable retainers include barbed end portions defining the cam surfaces and an adjacent first retaining surface; andthe connecting portion comprises a flange having a transverse extension forming the angled surface and an adjacent second retaining surface that engages the first retaining surface to connect the subframe to the connector assemblies. 22. The partition of claim 20, wherein: each connector assembly includes a lock member that releasably engages the movable retainers when in a locked configuration and prevents disengagement of the movable retainers from the connecting portion of the subframe. 23. The partition of claim 20, wherein: the movable retainers are pivotably connected to the base structures; and including:a spring rotatably biasing the movable retainers towards the engaged positions.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (142)
Wendt Alan C. (Barrington IL), Accessible partition assembly.
Mazzoni Renato J. (Tarentum PA) Bowser George H. (New Kensington PA) Lewchuk Richard R. (Allison Park PA), Add-on multiple glazing with hygroscopic material.
Halvorson ; Jr. Harold ; Juhlin Gary S. ; Lewis David M. ; Davies James H.,CAX ; Benoit Richard A. ; Luchetti Robert J. ; Greenberg Peter C., Clear wall panel system.
Daloz Joanny (4 Rue Gnral Charbonel 21120 Is Sur Tille FRX), Device for metering a powdered, granular or liquid product, and apparatus including a device of the kind.
Ball Douglas C. (Quebec OH CAX) Robbins Sherman M. (Strongsville OH) Fischer Michel J. (Quebec OH) Goldik Leon (Quebec OH) Staufenberg Donald J. (North Ridgeville OH) Mentessi Roland A. (North Royalt, Frame based office space dividing system.
Librande Charles J. (Shell Lake WI) Jensen Brian A. (Rice Lake WI) Bruchu Todd W. (Lake Elmo MN) Lynn Jeffrey M. (Marine on St. Croix MN), Method and apparatus for securing a screen to window frame.
Habraken Nicolaas John (Cambridge MA) Van Randen Age (Rotterdam NLX) De Vries Franciscus Jacobus Maria (Delft NLX) Van Vonderen Joannes Cornelis Gerardus Maria (Bergeyk NLX), Method and system for assembling a wall.
Ackerly Anne C. ; Battey David J. ; Churchill David P. ; Davies James H.,CAX ; Draudt Gregg R. ; Elsholz Michael D. ; Fink Roy W. ; Goodman Steven F. ; Gortsema Steven C. ; Greenberg Peter C. ; Hager, Overhead structures for wall system.
Logan Richard (Kingsville MI CAX) Schiedegger Charles E. (Metamora MI) Clark Michael (Columbiaville MI) Nurenberg Aundrea (Lapeer MI) Schiedegger Jeffery E. (Lapeer MI), Plastic window assembly.
Boschetti Giovanni (6911 Vezio CHX), Process for simple, rapid and economical transformation of a window with a wooden or metal frame or a single pane frame.
Burken, David J.; Brown, Matthew C.; Tjebkes, Jeffrey E.; Lolling, Chad C.; Simmons, Peter A.; Wilson, Tim B.; Hartman, Gordon K.; Meyer, Brian D.; Williams, Darren P.; Garrett, Thomas W.; Frantz, Mi, Simplified wall panel.
Beaudoin, Michel; Bourassa, Luc; L?vesque, Michel; Provencher, Pascal; Foucault, Pierre-Louis; Savard, Normand; Kidd, Douglas, Window framework and a method for mounting a glass pane in an aperture of a panel.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.