The present invention relates to translucent wall or ceiling panels and in particular to improvements to a perimeter frame of a panel and a system where the panel cooperates with a supporting grid network in a particular manner.
Translucent wall or ceiling panels are known and in most cases these translucent wall or ceiling panels include a top translucent membrane in opposed relationship to a finished translucent wall membrane. These panels include an outer perimeter frame used to support each panel individually to one side of a support grid network or in some cases the panels are directly connected with each other and supported at the periphery of the connected panels. Natural light or a powered light source to the top side of the ceiling panels can transmit light through the panels and provide light to the underside of the panels.
An issue associated with translucent wall or ceiling panels is that the membranes are tensioned across a perimeter frame and the size of the translucent wall or ceiling panels must be restricted to avoid frame bending or there must be a mechanism to oppose inwards bowing of the perimeter frame caused by the tension force of the translucent wall membranes.
One solution for inward bowing of ceiling panels which allows the ceilings panels to be of a considerable size is shown in U.S. Pat. No. 9,091,054 where a mechanical bolt arrangement is used to secure the ceiling panels to each other and effectively draw opposed perimeter frames into abutment. This system uses a perimeter frame which is not strong enough to avoid inward bowing of the frame caused by the tension exerted on the frame by the translucent membranes. To remedy the deflection of the perimeter frames, the perimeter frames engage each other using a bolt securement to bring the panels back to a square configuration.
A further design feature of translucent wall or ceiling panels is to provide sufficient light transmission to the lower edge of the panel adjacent the perimeter frame. In most cases it is desirable to provide the visual effect that the entire panel is effectively lit and any structure of the frame that extends into the interior of the panel should not be obviously apparent from the lower surface of the panel.
The present invention discloses a ceiling or wall panel which inherently limits the amount of inward bowing caused by the tensioned translucent membranes and provides a simple arrangement for correcting any inward bowing as well as allowing the panel to be secured below a ceiling grid system or to one side of a wall grid system. This structure can be used with a concealed ceiling grid, where the ceiling grid is above the lower surface of the ceiling panels and is hidden by the panels when the panels are placed in an in use position.
A ceiling or wall panel for securement to one side of a grid support network, according to the present invention, comprises a perimeter frame with a finished faced translucent membrane and an opposed translucent membrane. With said membrane secured across the perimeter frame in a tension state either side of the perimeter frame. The perimeter frame includes connected frame members, which each frame members having on an outside face thereof a stepped profile extending between secured membranes. Each frame member includes an outwardly stepped edge having the finished face membrane wrapped thereover with the opposed membrane secured across the perimeter frame and wrapped about a securing edge of the perimeter frame at a position inwardly of the outwardly stepped edge. Each frame member includes an inwardly projecting stiffening member joining said outward stepped edge and the securing edge and shaped to oppose inward bowing of the frame member caused by the tension state of the membranes across the perimeter frame.
According to an aspect of the invention, the frame member in cross section includes a first diagonal arm extending from the securing edge, a second diagonal arm extending from the outwardly stepped edge and the diagonal arms are joined adjacent a mid-portion between the membranes.
According to a further aspect of the invention, the diagonal arms are joined by a curved segment.
In yet a further aspect of the invention, the second diagonal arm extends at an angle between 30 and 60 degrees relative to the finished face member.
In yet a further aspect of the invention, the second diagonal arm is longer than the first diagonal arm and the diagonal arms are connected by a curved segment with a mid-portion of the curved segment located closer to the opposed membrane.
In yet a further aspect of the invention, the ceiling panel is of a rectangular shape with each side of the rectangular shape being less than 6 feet.
In yet a further aspect of the invention, the connected frame members are of an extruded aluminum or aluminum alloy material. Each outwardly stepped edge is less than one inch in width and is of a triangular shape with a lower edge of the triangular shape including a membrane wrap edge with a membrane securing cavity above said wrap edge and inwardly located relative to an outside edge of the panel. The triangular shape forms a lower portion of the stiffening member.
According to an aspect of the invention, the triangular shape merges with a mid-portion of the stiffening member, and the mid-portion in cross section including a lower triangular portion and an upper box portion which are aligned at an outside edge of the panel to form an inward wall of the stepped portion. The upper box portion including interior thereto securing slots having a stiffening member received therein and adapted to form part of a mechanical securement of one frame to an adjacent frame member to form a corner inaction of the ceiling panel.
In yet a further aspect of the invention, the mid-portion on an outside face of the panel includes securing slots extending inwardly from the stepped edge.
In a further aspect of the invention, each frame member above the upper box portion includes a top triangular hollow portion with an outside wall forming part of the stepped edge and including in the stepped edge portion, a membrane securing slot securing the opposed membrane across the perimeter frame.
In yet a further aspect of the invention, the top triangular hollow portion and the mid-portion have a curved surface that is part of a downwardly angled wall of the top triangular hollow portion and a curved wall of the mid-portion that joins with an upwardly angled wall of said stepped edge.
Preferred embodiments of the invention are shown in the drawings, wherein:
Four translucent wall or ceiling panels 2 are shown in
The grid support network 4 can also support non-translucent panels and the structure of this grid network is disclosed in our earlier U.S. Pat. No. 8,474,200. There are certain modifications of the grid system to support translucent panels and these modifications of the grid support network will be described in combination with the structure of the translucent panels.
In use, the area above the translucent panels can either be provided with artificial light for allowing light to be transmitted through the translucent panels or there may be a natural light source behind the panels that allows light to be transmitted through the panels. The translucent wall or ceiling panels typically have translucent membranes on opposite sides thereof with the top membrane separating any dust or material which may collect on the upper membrane from effectively being visible through the lower finished membrane. Double membranes also allow the panels to be removed and the user can conveniently clean the upper membrane of any accumulated material or dust.
In
Once the translucent panel 2a has been secured beneath the gird network as shown in
The curved segment 64 includes substantial structure to the outside of the ceiling panel which is of a box like configuration generally shown as 82. The box like configuration 82 acts as a stiffening member and also helps to define the securing slots 84 and 86 to opposite sides of the box like cavity. It can also be seen that the box like cavity 82 includes two guide tabs 88 and 90 that receive a securing bracket helpful in securing two framing members to one another at a corner junction.
The frame member 20 also includes a lower cavity 92 having a guide channel generally shown as 94 that receives a further bracket as part of a securing arrangement of a frame member to frame member connection. This lower cavity 92 serves to stiffen the frame member adjacent the securing cavity 28 used to secure the translucent membrane 24. Preferably the frame member 20 is made of an extruded aluminum or aluminum alloy and although designed to oppose bending of the frame member, the frame member remains relatively light weight.
Details of a frame member to frame member connection can be appreciated from a review of
A finished corner connection is shown in
The curved torsion spring cooperates with a vertically extending butterfly bracket 240 secured to a top surface of the grid support network 2 in a receiving slot 260. The grid network includes individual grid members 270 as shown in
With translucent ceiling or wall panels, it is desirable to keep the space above the upper translucent membrane effectively clear of securing structures. In this way the structures will not create shadows which may be visible through the lower finished translucent member. The butterfly clip also includes downwardly extending standoff legs 250 which can act as a controlled surface determining the exact position of the translucent panel below the grid member. The actual engagement of the arms of the torsion springs far suspension of the translucent panels to one side of the grid member is accomplished by the cooperation of the torsion springs and the securing slot 244. Preferably the butterfly clip 240 also includes a cutaway portion 252 to simplify the securement of the torsion arms in the securing slot 244. The butterfly clips 240 are typically provided adjacent a node of the grid network and spaced somewhat from the corner. As can be appreciated any bowing of the frame members 30 will occur at a mid-position as the corners of the panels cooperate with each other and prevent bowing. The panels are made in a jig used to maintain the desired shape of the perimeter frame during initial securement of the membranes.
It has been found that the translucent ceiling or wall panels where the sides of the panel have a length less than 6 feet that the frame members 30 can resist substantial bowing, although sonic bowing will occur at the midpoint in the length of the frame member. To overcome this tendency one or more kicker brackets 280 are secured to the side of the ceiling panel 2 as shown in
As shown in
The scope of the claims should not be limited by the preferred embodiments set forth in the examples, but should be given the broadest interpretation consistent with the description as a whole.
Number | Date | Country | Kind |
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2927168 | Apr 2016 | CA | national |
Number | Date | Country | |
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Parent | 16031447 | Jul 2018 | US |
Child | 16687894 | US | |
Parent | 15483532 | Apr 2017 | US |
Child | 16031447 | US |