Cantilevered ceiling system
The cantilevered ceiling system has a horizontally extending support beam which supports at least two panels. The panels, when positioned substantially horizontally, are securely maintained to the beam by a gravity operated lock.
The present invention is directed to interior building systems, and, more particularly, to a cantilevered ceiling system.
BACKGROUND OF THE INVENTIONConventional grid suspension ceiling systems found in offices, retail stores and similar commercial settings typically include suspended grid frameworks which support ceiling tiles. A conventional ceiling grid framework includes main grid elements running the length of the ceiling with cross grid elements therebetween. The main and cross elements form the ceiling into a grid of polygonal openings into which functional devices, such as ceiling tiles, can be inserted and supported.
Though the grid framework and ceiling tile system provides a visual barrier between the living or working space and the infrastructure systems mounted overhead, designers, architects and building owners often object to the use of these systems for several reasons, including the lack of aesthetic versatility afforded by the grid framework and the number of suspension points required to support the grid framework. For example, from an aesthetic standpoint, designers, architects and building owners desire unique ceiling systems which to have little or no visible suspension hardware. Many known techniques for minimizing the visibility of the suspension hardware, including the technique of moving the grid and grid suspension hardware from the sides of the ceiling panel to the back, i.e. the interior, of the panel, typically require additional parts, additional manufacturing processes or complex field installation.
As a result, there is an increasing demand for versatile, suspension point-minimizing ceiling systems which provide architects and designers with the ability to create unique structures with dramatic visual effects, as well as the conventional functions of known grid framework and ceiling tile systems.
SUMMARY OF THE INVENTIONThe present invention is a cantilevered ceiling system comprising a support member and at least two panels. The panels are securely maintained to the support member by a gravity-operated lock. The support member has two opposing edges which are substantially parallel to one another. Each edge includes a panel receiving channel.
The panel receiving channel has an upright surface which integrally connects the second and third surfaces to one another. The second and third surfaces extend in a direction generally transverse to the upright surface and provide the supporting surfaces for the gravity-operated lock.
The improved suspended cantilevered ceiling system has several advantages including: the ability to support a panel substantially horizontally via single-side contact of the panel and support beam; the ability to positively lock the panels to the support structure without the use of any tools or extraneous fastening elements; the ability to positively lock the panels to the support structure without providing routing or kerfing in the panel; the reduction of the negative visual impact of the supporting hardware; and the reduction and relocation of suspension points which provides designers, architects and building owners with greater versatility in the ceiling environment, including the ability to provide unique visuals in the ceiling environment which are not available in the current marketplace.
Other features and advantages of the present invention will be apparent from the following more detailed description of the preferred embodiment, taken in conjunction with the accompanying drawings which illustrate, by way of example, the principles of the invention.
Reference is now made to the drawings wherein similar components bear the same reference numerals throughout the several views. Herein, the terms “upper,” “lower,” “vertical,” “upright” and “horizontal” are used to refer to the normal position of the components in use, forming part of the suspended ceiling system.
Referring to the drawings,
The support beam 12 is suspended from any overhead ceiling structure (not shown) such as the primary deck of the building interior or a secondary support structure which is supported by the primary deck. The support beam 12 is attached to the overhead ceiling structure by suspension hardware 24 and the support beam 12 is suspended in a substantially horizontal plane. The support beam 12 can be constructed of various materials including, but not limited to metal, wood, plastic or combinations thereof.
As best shown in
The panel receiving channel 26 of edge 22 has a first surface 28 extending generally upright. Integrally extending from the top and bottom edges of the first surface 28 are second and third surfaces 30, 32, which extend in a direction generally transverse to the first upright surface 28. The second surface 30 is positioned above the third surface 32 in substantial parallel relation. It should be noted that the return 32′ extending into channel 26 is considered to form a portion of the third surface 32, and, in the embodiment shown herein, forms the portion that is in substantial parallel relation with the second surface 30.
The types of panels 14 which are usable in this system can be constructed of various materials, including, but not limited to, mineral fiber, fiberglass, metal, wood, plastic or combinations thereof. The panel 14 is readily assembled and interlocked to the support beam 12 without the use of any tools or extraneous fastening elements, such as bolts and screws. As shown in
Unlike conventional grid suspension ceiling systems which require the panel to be supported by a support member on at least two opposing sides of a panel, only one side of the panel is required to be directly supported by the support beam. In other words, the side of the panel opposite the support-beam-engaging side of the panel is free, in that it is not in direct physical contact with a supporting member. This single-sided panel support capability is at least in part due to the fact that each panel counter-balances the weight of an opposing panel. The counter-balancing of weight further allows the suspension points to be moved to the interior of the system, and specifically along the longitudinal centerline of the system. In turn, this reduces the number of accompanying suspension points to the overhead ceiling structure and consolidates the support beam visual to one centrally located area.
The description of the example embodiments of the present invention is given above for the understanding of the present invention. It will be understood that the invention is not limited to the particular embodiments described herein, but is capable of various modifications, rearrangements and substitutions which will now become apparent to those skilled in the art without departing from the scope of the invention.
For example,
As shown, the panel 114 is inserted into panel receiving channel 126 at an angle. Panel 114 is then rotated downwardly until the top and bottom surfaces of the panel rest on the second and third channel surfaces of the channel in order to achieve the gravity lock. When the panel is locked in position, the protrusion 101 will be in mating relation with the routing detail 120 of the panel. Thus, in addition to the vertical locking provided by the gravity lock, the engagement of the protrusion with the panel routing detail will effectively provide horizontal locking of the panel to the beam. The combination of vertical and horizontal locking is often desired in geographic areas of seismic activity.
Also, as best illustrated in
Other modifications include the formation of a box 40 in the lower surface of the beam (
Also, as shown in
Additionally, as shown in
Claims
1. A cantilevered ceiling system comprising: a support beam and at least two panels, the panels being securely maintained to the beam by a gravity operated lock.
2. The cantilevered ceiling system of claim 1, wherein the support beam and the at least two panels are positioned substantially horizontally.
3. The cantilevered ceiling system of claim 1, wherein the support beam has two opposing edges, the edges each having a panel receiving channel.
4. The cantilevered ceiling system of claim 3, wherein the panel receiving channel has an upright surface which integrally connects a second surface to a third surface, the second and third surfaces extending in a direction transverse to the upright surface.
5. The cantilevered ceiling system of claim 4, wherein the second and third surfaces engage the panel and provide, in combination, the gravity operated lock.
6. The cantilevered ceiling system of claim 1, wherein all suspension points to an overhead support structure are positioned along the longitudinal centerline of the system.
7. The cantilevered ceiling system of claim 1, wherein the support beam visual is consolidated to one centrally located area.
8. A cantilevered ceiling system comprising: a support beam and at least two panels of rectilinear configuration, wherein each of the at least two panels has only one side of the panel in contact with the support beam, and wherein the panel is positioned substantially horizontally.
Type: Application
Filed: Jan 25, 2008
Publication Date: Jul 30, 2009
Inventors: James R. Waters (Lancaster, PA), Joseph R. Woelfling (Palmyra, PA), Eric Krantz-Lilienthal (Lancaster, PA)
Application Number: 12/011,288