Static structures (e.g. – buildings) – Sheetlike element assembled parallel to existing wall,... – Element spaced from wall – ceiling – or floor and held by...
Reexamination Certificate
1999-09-10
2004-01-06
Strimbu, Gregory J. (Department: 3634)
Static structures (e.g., buildings)
Sheetlike element assembled parallel to existing wall,...
Element spaced from wall, ceiling, or floor and held by...
C052S506080, C052S245000
Reexamination Certificate
active
06672025
ABSTRACT:
CROSS-REFERENCE TO RELATED APPLICATION
This application corresponds to and claims priority to European Application No. 98203023.1, filed Sep. 11, 1998, and to European Application No. 98204279.8, filed Dec. 17, 1998. These European applications are hereby incorporated by reference as though fully set forth herein.
BACKGROUND OF THE INVENTION
a. Field of the Invention
This invention relates to a longitudinally curved panel with upstanding flanges on its lateral sides, particularly a curved architectural ceiling or wall panel. This invention also relates to a bracket for mounting the panel.
b. Background Arts
Architects often design buildings with arched ceilings to enhance the buildings' appearance. For entrance halls of conference centers, hospitals, government buildings, universities and the like, arched or multiple-curved ceilings are often specified. These ceilings can be constructed from a plurality of longitudinally curved ceiling panels, the upstanding lateral side flanges of which are connected to a supporting structure.
In making a curved, relatively thin, sheet metal ceiling panel which is longitudinally concave and/or convex, is relatively long longitudinally, and has upstanding lateral side flanges, the problem has been to combine strength, particularly for lengthwise or longitudinal stability, with cross-sectional uniformity.
In order to curve an aluminum panel with upstanding lateral side flanges to a longitudinally concave or convex configuration, an apparatus as described in EP 0 403 131 can be used. Alternatively, a modified conventional roll-form machine can be used to bend upwardly the lateral sides of a flat panel simultaneously with longitudinal curving of the panel. Other conventional metal-forming machines can also be modified to be used in this way.
Generally, aluminum panels of small lateral widths, e.g. up to 100 mm, can be curved longitudinally after their lateral sides have been bent upwardly, without damaging the panels permanently. Such longitudinally curved ceiling panels can be obtained, using an apparatus as described in EP 0 403 131. For wider panels which usually have higher lateral side flanges, it is generally necessary to provide stress-reduction features in their upstanding lateral side flanges; otherwise, the panels will be damaged when curved longitudinally. Also, the accuracy of the cross-sectional panel shape is important to allow subsequent mounting thereof on a supporting structure. An example of a conventional stress-reduction feature is a plurality of parallel slits, cut in each of the lateral sides of a metal panel, from the free edge thereof, prior to bending and curving the panel as described in DE 295 14 994 (U1). However, the upstanding lateral side flanges of the resulting longitudinally curved panel are weakened substantially by having been slit and therefore are not able to resist sufficiently deformation during transport and installation of the panel. To strengthen the slit upstanding lateral side flanges, curved flat bars or ribs or narrow sheets have been additionally fixed (e.g. by welding, gluing or riveting) to them. Although this has somewhat reduced undesirable deformation during transport and handling, the additional labor and materials costs have been considerable. Moreover, there has continued to be a need for a more uniform longitudinal curvature of the exposed panel surface, without distortions caused by the incremental nature of the slits.
BRIEF SUMMARY OF THE INVENTION
In accordance with this invention, the upstanding lateral side flanges of a longitudinally curved, building panel are provided with a plurality of stress-reduction apertures, preferably with a generally V-shape, that are advantageously relatively small and that are advantageously distributed substantially uniformly over the surface of each flange. The apertures of this invention can be advantageously punched in the lateral margins of a structural metal sheet prior to bending upwardly its lateral sides to provide it with the desired cross-sectional shape, as well as prior to providing it with the desired longitudinally-extending curved configuration. The upstanding lateral side flanges of the resulting longitudinally curved building panel are not weakened by providing them with the apertures, and therefore, they do not deform during transport and installation of the panel.
Also in accordance with this invention, a mounting bracket is provided for suspending a pair of adjacent longitudinally curved building panels of this invention from a supporting structure; the mounting bracket comprising: a pair of parallel legs; means for attaching the legs to the supporting structure; and means for clamping the side-by-side pair of flanges of the building panels together.
Further in accordance with this invention, a method is provided for making longitudinally curved building panel, comprising the steps of: providing a flat length of a structural sheet metal; punching the plurality of stress-reduction apertures in each lateral margin of the length of sheet metal; bending the length of sheet metal into a transversely profiled cross-section having two upstanding lateral side flanges incorporating the lateral margins; and longitudinally curving the transversely profiled length of sheet metal.
Still further in accordance with this invention, at least one of the upstanding lateral side flanges of the curved building panel has a bead on it which can be inwardly or outwardly turned. Advantageously, at least one lateral side flange of the curved building panel has an outwardly turned bead on it. These beads can be engaged in well-known support stringers to retain the ceiling panel in place.
Further aspects of this invention will be apparent from the detailed description below of particular embodiments and the drawings thereof.
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Dieduksman Andre
Yuan Huang Hong
Dorsey & Whitney LLP
Hunter Douglas Industries BV
Strimbu Gregory J.
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