The present disclosure relates to movable wall systems operable to partition a large room into a smaller room. More particularly, the present disclosure relates to a movable wall panel system having a plurality of panels with seals.
Operable walls or partitions, also known as movable wall panel systems, find useful applications in a variety of venues such as classrooms, offices, convention facilities, hospitals or the like. In these venues, the operable partitions are often moved along overhead tracks from which the partitions are suspended. The partitions are movable along the tracks to separate or compartmentalize larger rooms or areas into smaller rooms or areas. The operable partitions are typically connected to trolleys that roll within the overhead track. The track is suspended from a support structure which is typically located above the ceiling of a room or area in which the operable partitions are installed.
Operable partitions are typically available in single panel, paired panel, and continuously hinged arrangements. Paired panel systems are hinged together in groups of two panels which are either top supported by an overhead track or floor supported. Continuously hinged panels are connected together in a train so that the panels extend as one complete unit.
The detailed description particularly refers to the accompanying figures in which:
For the purposes of promoting an understanding of the principles of the present disclosure, reference is now made to the embodiments illustrated in the drawings, which are described below. The embodiments disclosed below are not intended to be exhaustive or limit the present disclosure to the precise form disclosed in the following detailed description. Rather, the embodiments are chosen and described so that others skilled in the art may utilize their teachings. Therefore, no limitation of the scope of the present disclosure is thereby intended. The present system and method includes any alterations and further modifications of the illustrated devices and described methods and further applications of the principles of the present disclosure which would normally occur to one skilled in the art to which the present disclosure relates. Corresponding reference characters indicate corresponding parts throughout the several views.
The present disclosure relates to movable walls including self supported wall systems, operable partitions or demountable wall systems, for example, that may be erected in an environment such as in a room of a building.
In one embodiment, an overhead truss is used to support an overhead track in the ceiling of the room. Referring to
In one illustrated embodiment, panels 18 of the movable wall system 10 are suspended from the track 12 such that they are movable between a folded (stored) position and an extended (use) position. Referring to
Referring to
Returning to
Panel 24 also includes a seal 40 extending along a first end 42 of panel 18 from the top of the panel 18 to the bottom of the panel 18. A second seal 40 may also extend along a second end 44 of panel 18. As shown in
Referring to
When hinge portion 32A rotates (clockwise based on the arrangement shown in
As shown in
Panel 18A supports a pair of seals 40A1 and 40A2 which extend generally from the top of panel 18A to the bottom of panel 18A (see
Referring to
In the illustrated embodiment, seal 40A1 is generally positioned at the panel face 24A of panel 18A when panel face 24A of panel 18A is coplanar with panel face 24B of panel 18B. Since seal 40A1 is positioned behind the portion of first hinge portion 32A extending from panel 18A, the first end 64 of seal 40A1 may be continuous from the top of panel 18A to the bottom of panel 18A.
A portion 82 of first hinge portion 32A is coupled to panel 18A with a fastener 84 to provide a rigid coupling between first hinge portion 32A and panel 18A. As shown in
The moveable wall panel 18A and the moveable wall panel 18B each includes a mid-plane 45A and 45B, respectively, which is parallel to the panel face 24A and 24B, respectively. The respective the seals 40A1 and 40B1, hinge portions 32A and 32B, and panel faces 24A and 24B are all located on a first side of the mid-plane.
Referring to
Referring to
Bottom seal assembly 106 positions a drop seal 108 carried by the panel 100 relative to a floor 114 of environment 112, such as a room. In one embodiment, bottom seal assembly 106 is a manually actuated assembly whereby an operator through an actuation assembly cranks or otherwise actuates an input on panel 100 to raise or lower seal 108 relative to floor 114 of environment 112. An exemplary manually actuated assembly 400 is shown in
When suspended from an overhead track 12, panel 100 has a clearance distance 116 (see
Referring to
Referring to
As shown in
Referring to
Bracket 322 is coupled to a top portion of endless track 340. The rotation of rotatable members 342 in direction 344 causes supports 346 to be lowered in direction 331. In the illustrated embodiment, supports 346 are chains which are wound over rotatable members 342.
The lowering of supports 346 permits lower elongated member 308 to lower in direction 331 due to its connection to supports 346. This permits drop seal 108 to approach and contact floor 114 of environment 112. As lower elongated member 308 is lowered in direction 331, a gas spring 350 is also lowered in direction 331. As shown in
A second coupler 360 is coupled to a rear portion of cylinder 351 of gas spring 350. Second coupler 360 is an elongated rod 362 which passes through an opening in a lock plate 364. In the arrangement shown in
The rotation of rotatable members 342 in direction 344 is resisted by springs 370 (one shown in
Returning to
Referring to
As elongated rail 330 continues to move in direction 328, a raised portion 394 of elongated rail 330 passes into opening 385 of latch plate 386. This causes latch plate 386 to rotate in direction 396 against the bias of spring 392. In addition, the presence of raised portion 394 in opening 385 reduces the clearance between elongated rail 330 and latch plate 386. The spring 392 attempts to rotate latch plate 386 back in the opposite direction of direction 396 thereby locking latch plate 386 onto elongated rail 330. This prevents the movement of elongated rail 330 in direction 329.
To permit the movement of elongated rail 330 in direction 329, a latch 398 is raised which causes latch plate 386 to rotate in direction 396 against the bias of spring 392 thereby providing clearance between elongated rail 330 and latch plate 386.
Bottom drop seal assembly 302 by way of gas spring 350 provides a generally constant seal force with drop seal 108 against floor 114. Further, the seal force is greater than input force of the actuator assembly. In one embodiment, for a 50 pound input force, a seal force of about 120 pounds is achieved. In one embodiment, gas spring 350 compresses about ⅜ of an inch.
Referring to
Automatic top seal assembly 200 automatically positions top seal 104 in a sealed position with ceiling 110 without the need of an actuation from an operator in an operator space of environment 112. An exemplary operator space extends from a floor 114 of environment 112 up to a height of 4 to 6 feet. It is within this space that in prior art systems, an operator could actuate a crank which would be coupled to a top seal to raise the top seal. However, panel 100 may be anywhere from 8 feet tall to 85 feet tall. Automatic top seal assembly 200 advantageously is able to position top seal 104 without the need for an actuator spanning a distance from the operator space up to the top seal 104. Further, automatic top seal assembly 200 is operable independent of its distance above the operator space of environment 112.
Referring to
Referring to
A pin 240 is provided below carrier 222 to limit the movement of carrier 222 and hence first frame portion 212 in a downward direction. First frame portion 212 is biased in a downward direction by spring 250. Spring 250 is coupled to second frame portion 214 through a third rivet 252 received in opening 253 in second frame portion 214. Spring 250 is coupled to first frame portion 212 through an ear 254 on carrier 222 which is received in an opening 256 of spring 250.
Referring to
Referring to
As shown in
First assembly 402 further includes a gas spring 440 (see
Referring to
In one embodiment, automatic top seal assembly 200 automatically extends when panels are set-up. No tools are required. The top seals 104 will provide 7 to 28 pounds (“lbs”) of force to the track 12 depending on the coil spring 250 which is used. The top seals 104 are full width of the panel 100 and protrude no more than 3″ from the lead end of the panel 100 when retracted (see
In one embodiment, automatic bottom seal assembly 300 provides 120 lbs of force to the floor 114 regardless of the panels 100 clearance to the floor 114. No tools are required. The gas spring 350 used allows for loading to take place without damage to the drop seals 108 and maintaining the same force to the floor 114. The drop seal 108 may be retracted with the actuation of a latch 398 by hand. Automatic bottom seal assembly 300 applies force to the floor and may be locked at an infinite number of positions. This force is applied with the same input travel. Automatic bottom seal assembly 300 automates input force and resulting output force to the floor and track.
In one embodiment, manually actuated assembly 400 provides constant 120 lbs of force to the floor regardless of floor clearance.
In one embodiment, a movable wall panel system for suspension from an overhead track is provided. The moveable wall panel system comprising a first movable wall panel including a first end and a second end, spaced-apart from the first end, a panel face extending between the first end and the second end, a top portion which is adapted to be operatively coupled to the overhead track, and a bottom portion opposite the top portion and a second movable wall panel rotatably coupled to the first moveable wall panel, the second moveable wall panel including a first end and a second end, spaced-apart from the first end, a panel face extending between the first end and the second end, a top portion which is adapted to be operatively coupled to the overhead track, and a bottom portion opposite the top portion. The movable wall panel system further comprising a first seal supported by the first moveable wall panel and extending along the first end of the first moveable wall panel from the top portion of the first moveable wall panel to the bottom portion of the first moveable wall panel, the first seal being located at a first corner of the first moveable wall panel positioned between the first end of the first movable wall panel and the panel face the first movable wall panel; a second seal supported by the second moveable wall panel and extending along the second end of the second moveable wall panel from the top portion of the second moveable wall panel to the bottom portion of the second moveable wall panel, the second seal being located at a second corner of the second moveable wall panel positioned between the second end of the second movable wall panel and the panel face the second movable wall panel; and at least one hinge rotatably coupling the first moveable wall panel to the second moveable wall panel, the at least one hinge including a first hinge portion coupled to the first movable wall panel and a second hinge portion coupled to the second movable wall panel, wherein the first seal and the second seal cooperate to seal a gap between the first moveable wall panel and the second moveable wall panel when the panel face of the first moveable wall panel is generally coplanar with the panel face of the second movable wall panel.
In one example of the movable wall the first seal is coupled to the first moveable panel along the first end of the first moveable panel and rearward of the first corner of the first moveable panel and the second seal is coupled to the second moveable panel along the second end of the second moveable panel and rearward of the second corner of the second moveable panel.
In another example of the moveable wall a pivot axis of the at least one hinge is located forward of the first corner of the first moveable panel and forward of the second corner of the second moveable panel.
In a further example of the moveable wall, the first seal includes a first end which is spaced apart from the first corner of the first moveable panel when the first seal is spaced apart from the second seal and which is located at the first corner when the first moveable wall panel is generally coplanar with the panel face of the second movable wall panel.
In yet another example of the moveable wall, the first seal runs continuously from the top portion of the first moveable wall panel to the bottom portion of the first moveable wall panel.
In yet a further example of the moveable wall, the first seal includes a first end which is spaced apart from the first corner of the first moveable panel when the first seal is spaced apart from the second seal and which is located at the first corner when the first moveable wall panel is generally coplanar with the panel face of the second movable wall panel, the first end of the first seal being continuous from a first location positioned above the at least one hinge to a second location positioned below the at least one hinge.
In yet still another example of the movable wall, the first movable wall panel includes a mid-plane which is parallel to the panel face of the first movable wall panel, the first seal, the first hinge portion, and the panel face of the first movable wall panel all are located on a first side of the mid-plane.
In one embodiment, a movable wall panel system for suspension from an overhead track is provided. The movable wall panel system comprising a first movable wall panel including a first end and a second end, spaced-apart from the first end, a panel face extending between the first end and the second end, a top portion which is adapted to be operatively coupled to the overhead track, and a bottom portion opposite the top portion; a second movable wall panel rotatably coupled to the first moveable wall panel, the second moveable wall panel including a first end and a second end, spaced-apart from the first end, a panel face extending between the first end and the second end, a top portion which is adapted to be operatively coupled to the overhead track, and a bottom portion opposite the top portion; a first seal supported by the first moveable wall panel and extending along the first end of the first moveable wall panel from the top portion of the first moveable wall panel to the bottom portion of the first moveable wall panel; a second seal supported by the first moveable wall panel and extending along the second end of the second moveable wall panel from the top portion of the second moveable wall panel to the bottom portion of the second moveable wall panel; and at least one hinge rotatably coupling the first moveable wall panel to the second moveable wall panel, the at least one hinge including a first hinge portion coupled to the first movable wall panel at a first location rearward of a first corner of the first moveable wall panel positioned between the first end of the first movable wall panel and the panel face of the first movable wall panel and a second hinge portion coupled to the second movable wall panel at a second location rearward of a second corner of the second moveable wall panel positioned between the second end of the second movable wall panel and the panel face the second movable wall panel, wherein the first seal and the second seal cooperate to seal a gap between the first moveable wall panel and the second moveable wall panel when the panel face of the first moveable wall panel is generally coplanar with the panel face of the second movable wall panel, the first seal being coupled to the first moveable panel at a location between the first location and the first corner.
In one example of the movable wall, a pivot axis of the at least one hinge is located forward of the first corner of the first moveable panel and forward of the second corner of the second moveable panel.
In another example of the movable wall, the first seal includes a first end which is spaced apart from the first corner of the first moveable panel when the first seal is spaced apart from the second seal and which is located at the first corner when the first moveable wall panel is generally coplanar with the panel face of the second movable wall panel.
In a further example of the movable wall, the first seal runs continuously from the top portion of the first moveable wall panel to the bottom portion of the first moveable wall panel.
In yet another example of the movable wall, the first seal includes a first end which is spaced apart from the first corner of the first moveable panel when the first seal is spaced apart from the second seal and which is located at the first corner when the first moveable wall panel is generally coplanar with the panel face of the second movable wall panel, the first end of the first seal being continuous from a first location positioned above the at least one hinge to a second location positioned below the at least one hinge.
In yet still another example of the movable wall, the first movable wall panel includes a mid-plane which is parallel to the panel face of the first movable wall panel, the first seal, the first hinge portion, and the panel face of the first movable wall panel all are located on a first side of the mid-plane.
In one embodiment, a movable wall panel system for suspension from an overhead track is provided. The movable wall panel system comprising a first movable wall panel including a first end and a second end, spaced-apart from the first end, a panel face extending between the first end and the second end, a top portion which is adapted to be operatively coupled to the overhead track, and a bottom portion opposite the top portion; a second movable wall panel rotatably coupled to the first moveable wall panel, the second moveable wall panel including a first end and a second end, spaced-apart from the first end, a panel face extending between the first end and the second end, a top portion which is adapted to be operatively coupled to the overhead track, and a bottom portion opposite the top portion; at least one hinge rotatably coupling the first moveable wall panel to the second moveable wall panel, the at least one hinge including a first hinge portion coupled to the first movable wall panel and a second hinge portion coupled to the second movable wall panel; and means for sealing a gap between the first moveable wall panel and the second moveable wall panel when the panel face of the first moveable wall panel is generally coplanar with the panel face of the second movable wall panel.
In an example of the movable wall, the means includes a first seal positioned at a first corner of the first movable wall panel, the first seal, the first hinge portion and the panel face of the first movable wall panel are all located on a first side of a mid-plane of the first movable wall panel, the mid-plane of the first movable wall panel being parallel to the panel face of the first movable wall panel.
In one embodiment, a method of sealing a gap between two adjacent movable wall panels which are coupled together by at least one hinge is provided. The adjacent wall panels being located in an environment. The method comprising the steps of supporting a first seal with a first movable wall panel of the two adjacent movable wall panels, the first seal extending from above the at least one hinge to below the at least one hinge; supporting a second seal with a second movable wall panel of the two adjacent movable wall panels, the second seal extending from above the at least one hinge to below the at least one hinge; suspending the first wall movable panel and the second movable wall panel from an overhead track of the environment; and pivoting the first movable wall panel relative to the second movable wall panel such that a front panel face of the first movable wall panel is generally parallel to a front panel face of the second movable wall panel and the first seal contacts the second seal to seal the gap between the first movable wall panel and the second movable wall panel, the first seal being positioned at a first corner of the first movable wall panel and the second seal being positioned at a second corner of the second movable wall panel, the first corner being located between the front panel face of the first movable wall panel and a first end of the first movable wall panel, the first end being adjacent to the second movable wall panel, the second corner being located between the front panel face of the second movable wall panel and a second end of the second movable wall panel, the second end being adjacent to the first movable wall panel.
In one example, the method further comprises the steps of supporting a bottom seal with the first movable wall panel, the second seal being spaced apart from a floor portion of the environment; contacting the bottom seal to the floor portion of the environment; and applying a constant force between the bottom seal and the floor through a damper of the first movable wall panel.
In one embodiment, a movable wall panel system for sealing engagement relative to a ceiling portion of an environment and a floor portion of the environment is provided. The environment having an operator space positioned generally extending from the floor to a first height above the floor, the first height being spaced apart from the ceiling portion of the environment. The moveable wall panel system comprising a first movable wall panel including a first end and a second end, spaced-apart from the first end, a panel face extending between the first end and the second end, a top portion positioned proximate the ceiling portion of the environment and above the first height and a bottom portion positioned proximate the floor portion of the environment and below the first height; a top automatic seal assembly coupled to the top portion of the first moveable panel, the top automatic seal assembly including at least one seal which is moved between an unsealed configuration wherein the at least one seal is spaced apart from the ceiling portion of the environment and a sealed configuration wherein the at least one seal is sealed against the ceiling portion of the environment, the top automatic seal assembly being moved from the unsealed position to the sealed position absent an actuation of an actuator within the operator space.
In one example of the moveable wall panel system, the top automatic seal assembly includes a plurality of seal raiser assemblies, each of which raises the at least one seal.
In another example of the moveable wall panel system, the moveable wall panel system further comprises a bottom drop seal assembly coupled to the bottom portion of the first moveable panel, the bottom drop seal assembly including at least one seal which is moved between an unsealed configuration wherein the at least one seal is spaced apart from the floor portion of the environment and a sealed configuration wherein the at least one seal is sealed against the floor portion of the environment, the bottom drop seal assembly being moved from the unsealed position to the sealed position based on the actuation of the actuator within the operator space.
In a further example of the moveable wall panel system, the bottom drop seal assembly includes a damper which provides a constant force between the at least one seal of the bottom drop seal assembly and the floor when the bottom drop seal assembly is in the sealed position.
In yet another example of the moveable wall panel system, the damper is a gas spring.
In yet a further example of the moveable wall panel system, the bottom drop seal assembly is an automatic assembly.
In still another example of the moveable wall panel system, the bottom drop seal assembly is a manually actuated assembly.
In one embodiment, a movable wall panel system for sealing engagement relative to a floor portion of an environment is provided. The moveable wall panel system comprising a first movable wall panel including a first end and a second end, spaced-apart from the first end, a panel face extending between the first end and the second end, a top portion and a bottom portion positioned proximate the floor portion of the environment; a bottom drop seal assembly coupled to the bottom portion of the first moveable panel, the bottom drop seal assembly including at least one seal which is moved between an unsealed configuration wherein the at least one seal is spaced apart from the floor portion of the environment and a sealed configuration wherein the at least one seal is sealed against the floor portion of the environment, the bottom drop seal assembly including a damper which maintains a constant force between the moveable wall panel and the floor portion when the bottom seal drop assembly is in the sealed configuration.
In one example of the moveable wall panel system, the bottom drop seal assembly is a manually actuated assembly.
In another example of the moveable wall panel system, the bottom drop seal assembly is an automatic assembly.
In a further example of the moveable wall panel system, the bottom drop seal assembly first drops the at least one seal into contact with the floor portion of the environment through a first assembly followed by the application of the constant force due to the damper through a second assembly.
In yet another example of the moveable wall panel system, the damper is a gas spring.
In one embodiment, a method of sealing a gap between a moveable wall panel and a floor portion of the environment is provided. The method comprising the steps of supporting the moveable panel from an overhead track of the environment; positioning the moveable panel relative to the environment with a bottom seal of the moveable panel spaced apart from the floor portion of the environment; contacting the bottom seal to the floor; and applying a constant force between the bottom seal and the floor through a damper of the moveable panel.
In one example of the method of sealing a gap between a moveable wall panel and a floor portion of the environment, the step of applying the constant force between the bottom seal and the floor through the damper of the moveable panel includes the step of compressing the damper.
In another example of the method of sealing a gap between a moveable wall panel and a floor portion of the environment, the damper is a gas spring.
In one embodiment, a movable wall panel system for sealing engagement relative to a floor portion of an environment is provided. The moveable wall panel system comprising a first movable wall panel including a first end and a second end, spaced-apart from the first end, a panel face extending between the first end and the second end, a top portion and a bottom portion positioned proximate the floor portion of the environment; a bottom drop seal assembly coupled to the bottom portion of the first moveable panel, the bottom drop seal assembly including at least one seal which is moved between an unsealed configuration wherein the at least one seal is spaced apart from the floor portion of the environment and a sealed configuration wherein the at least one seal is sealed against the floor portion of the environment, the bottom drop seal assembly including means for maintaining a constant force between the moveable wall panel and the floor portion when the bottom seal drop assembly is in the sealed configuration independent of a separation distance between the floor portion and the at least one seal in the unsealed configuration.
While this disclosure has been described as having exemplary designs and embodiments, the present systems and methods may be further modified within the spirit and scope of this disclosure. This application is therefore intended to cover any variations, uses, or adaptations of the disclosure using its general principles. Further, this application is intended to cover such departures from the present disclosure as come within known or customary practice in the art to which this disclosure pertains.
This application is a divisional of U.S. Non-Provisional application Ser. No. 13/799,248, filed Mar. 13, 2013, which claims the benefit of U.S. Provisional Application Ser. No. 61/696,788, filed Sep. 4, 2012, docket MOD-0092-01-US-E, titled PANEL SEAL SYSTEMS and of U.S. Provisional Application Ser. No. 61/697,195, filed Sep. 5, 2012, docket MOD-0092-02-US-E, titled PANEL SEAL SYSTEMS, the disclosures of which are expressly incorporated by reference herein.
Number | Date | Country | |
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61696788 | Sep 2012 | US | |
61697195 | Sep 2012 | US |
Number | Date | Country | |
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Parent | 13799248 | Mar 2013 | US |
Child | 16226570 | US |