The present invention generally relates to unitary extruded shell using same for assembling non-insulated and insulated slats for rolling doors.
While numerous insulated overhead doors have been proposed most of these only provide insulation between front and rear panels or walls of each slat. In accordance with your proposed design, the curved engaging ends, which couple or link one slat to the next adjoining slat are covered with a heat insulating material so that there is no heat transfer through the engaging or coupling ends themselves.
Prior to proceeding with a patent application, we have conducted a preliminary novelty search to see if that concept has been disclosed or suggested. Attached as Appendix B are numerous patents that relate to the subject matter. Your attention is particularly directed to the patents discussed below:
In U.S. Pat. No. 4,628,982 issued on Dec. 16, 1986 to Labelle for an Insulated Closure Panel, the front and rear walls of each slat is made of different materials, the outer wall 3 being made of metal while the inner wall 5 is made of plastic which is a thermally insulated material. The space between these two walls is filled with insulation 13. Since the wall 5 is made of a thermally insulating plastic material the portions thereof that form part of the engaging or linking ends are also resistant to heat transfer since the coupling ends are formed of a metal portion in contact with a plastic portion so that heat cannot be transmitted through the ends of the panels. A similar design is disclosed in U.S. Pat. No. 4,979,553 issued on Dec. 25, 1990 to Lowry, et al. for a Slat Assembly and Curtain for Rolling Door where the outer shell or skin of each slat 18 is made of metal while the inner skin or wall 48 of each slat is made of a plastic such as PVC. In some of these designs, such as the one shown in FIG. 3 of this patent, the entire inner space is also filled with a heat insulating material.
Similarly, in U.S. Pat. No. 4,601,953 issued on Jul. 22, 1986 to Haffer for a Rolling Shutter Bar, each slat is shown composed of metal outer skin 5 while the bulk of the slat itself is made of an extruded plastic hollow member. This design would, likewise, resist the heat transfer not only through the central portion or core of the slat but the linking edges as well.
U.S. Pat. No. 4,972,894 issued on Nov. 27, 1990 to Machill discloses a Roller Curtain. Referring to FIG. 1 of this patent, for example, a plastic PVC wall or skin 14 is disclosed on the inside of each panel while the outside skin or wall 12 is formed of metal. The space or cavity between the wall is filled with an insulation 16. A further sealing edge 38 is provided for providing an air seal and preventing heat loss through any spaces or clearances between the interlocking edges.
A further design addressing the same problem is U.S. Pat. No. 4,436,136 issued on Mar. 13, 1984 to Downey for an Insulated Slat. An insulation cover piece 18 made of plastic such as PVC is used in this design as in some of the previous designs.
In order to overcome and improve the prior art designs, the object of the present invention to provide a unitary extruded shell that can be used to assemble single or double walled slats used in rolling doors.
It is another object of the invention to provide a shell as in the previous object which is simple in construction and economical to manufacture.
It is still another object of the invention to produce double walled slats for rolling doors from a single profile extrusion.
It is yet another object of the invention to provide single or double walled slat using shells of the type mentioned in the previous objects.
It is still a further object of the invention to provide a rolling door slat as in the previous objects that uses a unitary shell construction or extrusion that can be formed into insulated or non-insulated rolling door slats.
It is still another object of the invention to provide a rolling door slat of the type under discussion that is effective to insulate the inside from the outside walls of a rolling door slat without filling the space between the inside and outside shells with insulation.
It is yet another object to provide a slat construction from a unitary extruded shell, as in the previous objects, that can be easily modified to enhance its resistance to ballistics.
In order to achieve the above and other objects it will become evident from the description that follows an elongate shell for a rolling door, said elongate shell comprising a planar portion defining a plane and longitudinal and transverse directions within said plane and having opposing first and second surfaces facing in opposing first and second normal directions and having parallel first and second longitudinal edges extending along said longitudinal direction of said planar portion, said elongate shell being formed along said first longitudinal edge with a first arcuate segment open in a direction of said first normal direction and formed along an opposing second longitudinal edge with a second arcuate segment also open in a direction of said first normal direction, said first and second arcuate segments being positioned on the same side of said planar portion and offset from said second surface in said second normal direction and configured and dimensioned to enable said second arcuate segment of a first shell to be received with clearance within a first arcuate segment of a second shell substantially identical to said first shell to form an articulated hinge, whereby two hingedly joined elongate shells can be pivoted relative to each other from a generally co-planar orientation of planar portions of associated coupled or linked shells within said plane in directions to either side of said co-planar orientation.
According to the invention, a rolling door slat comprises A rolling door slat comprising first and second substantially identical elongate shells, each shell comprising a planar portion defining a plane and longitudinal and transverse directions within said plane and having opposing first and second surfaces facing in opposing first and second normal directions and having parallel first and second longitudinal edges extending along said longitudinal direction of said planar portion, said elongate shell being formed along said first longitudinal edge with a first arcuate segment open in a direction of said first normal direction and formed along an opposing second longitudinal edge with a second arcuate segment also open in a direction of said first normal direction, said first and second arcuate segments being positioned on the same side of said planar portion and offset from said second surface in said second normal direction and configured and dimensioned to enable said second arcuate segment of a first shell to be received with clearance within a first arcuate segment of a second shell substantially identical to said first shell to form an articulated hinge, whereby two hingedly joined elongate shells can be pivoted relative to each other from a generally co-planar orientation of planar portions of associated coupled or linked shells within said plane in directions to either side of said co-planar orientation, said first and second shells being displaced from each other by 180° within planes parallel to said planes of respective planar portions and being joined to each other by linking a first arcuate segment of said first shell with a second arcuate segment of said second shell and a second arcuate segment of said first shell with a first arcuate segment of said second shell to create a substantially closed cavity between opposing planar portions of said first and second shells.
The method of forming a slat or a rolling door in accordance with the invention comprises the steps of forming two identical shells, each shell comprising a planar portion defining a plane and longitudinal and transverse directions within said plane and having opposing first and second surfaces facing in opposing first and second normal directions and having parallel first and second longitudinal edges extending along said longitudinal direction of said planar portion, said elongate shell being formed along said first longitudinal edge with a first arcuate segment open in a direction of said first normal direction and formed along an opposing second longitudinal edge with a second arcuate segment also open in a direction of said first normal direction, said first and second arcuate segments being positioned on the same side of said planar portion and offset from said second surface in said second normal direction and configured and dimensioned to enable said second arcuate segment of a first shell to be received with clearance within a first arcuate segment of a second shell identical to said first shell to form an articulated hinge, whereby two hingedly joined elongate shells can be pivoted relative to each other from a generally co-planar orientation of planar portions of associated coupled or linked shells within said plane in directions to either side of said co-planar orientation; displacing said first and second shells by 180° within planes parallel to said planes of respective planar portions and being joined to each other by linking a first arcuate segment of said first shell with a second arcuate segment of said second shell and a second arcuate segment of said first shell with a first arcuate segment of said second shell to create a substantially closed cavity between opposing planar portions of said first and second shells.
Those skilled in the art will appreciate the improvements and advantages that derive from the present invention upon reading the following detailed description, claims, and drawings, in which:
Referring now specifically to the figures, in which the identical or similar parts have been designated by the same reference numerals throughout, and first referring to
The slats in accordance with the present invention are formed of a unitary or singularly profiled extruded shell that can be used to assemble single and double-walled door slats that are either non-insulated or insulated and can be easily and inexpensively assembled to form single or double walled curtain assemblies.
An important feature of the invention is that all of the embodiments in accordance with the invention can be assembled or formed by using a single or unitary extrusion having a configuration or profile as shown in
Referring to
Along the lower edge E2 of the shell or skin 26 the second arcuate segment or portion 26c has a configuration that emulates a lower case letter “c.” Both arcuate portions 26b and 26c are generally in the shape of spirals. The spirals can, for example, be in the shape of an Archimedean spiral that extends approximately four quadrants or 360° for the arcuate portion 26b and approximately three quadrants or 270° for the arcuate portion 26c. Other known spirals can be used as long as these result in a freely rotatable hinge when the arcuate portions 26b, 26c are interlocked as shown in
Referring to
Referring to
It will be clear that interlocking the front and rear shells 26, 26′ as described creates a double-walled slat 22 and a generally longitudinal space or cavity 30 between the planar portions 26a, 26a′ as well as a longitudinal channel 32 at the top (as viewed in
One feature of the invention is the application of insulating tape 34 between the outer surface of a first arcuate portion 26b of the shell 26 and the inner surface of a second arcuate portion 26c of shell 26′ along the surfaces that would normally be in contact with each other. Normally it should be simpler and/or more convenient to apply the tape 34 to the outer surface of the arcuate portion 26b instead of applying it to the inner surface of the arcuate portion 26c, it is not critical as to where the insulating tape is initially applied as long as it is placed between the surfaces that would normally be in contact with each other to provide a thermal break or temperature barrier between the two juxtaposed arcuate portions.
The insulation 34 may also be in the form of an extruded plastic sheet 34a dimensioned to conform and fit between the two arcuate portions 26b, 26c.
Referring to
It is also an important feature of the invention that the slats, whether single walled or double walled, incorporate identical profiled shells or skins 26, 26′ that can be extruded as a continuous length profile. By suitably cutting the extruded profile into desired length pieces and orienting the shells relative to one another as described they can be formed into double walled slats or panel assemblies without the use of connectors or fasteners.
Referring to
Referring to
Referring to
In
It will be clear that if the exterior, outside or front shell 26 is exposed to the elements, the insulation 34 will prevent heat transfer from the interior or inside shell 26′ from flowing to the exterior or outside shell 26 through the arcuate segments or portions 26b, 26c forming the claws 28, 28′.
Referring to
The material from which the shells are extruded is not critical. However, for these applications, the shells may be formed of iron or steel sheet metal having a thickness selected within the range of 10-13 gauge. However, the shells can also be formed of a synthetic compound or elastomeric plastic materials. The planar portions 26a, 26a′ of the outside and inside shells 26, 26′ are preferably spaced from each other a distance selected to be within the range 0.6″-1.5″.
When the shells and slats are formed of iron or steel sheets the resistance of the slats to ballistics will be a function of the thickness or gage of the sheets used. However, especially when the weight of the rolling doors formed from the slats is a factor and is to be reduced or minimized, the described construction can be easily modified to enhance the resistance of the panels or slats to ballistics without materially increasing the weight. Referring to
The method of forming a slat for a rolling door in accordance with the invention is, therefore, to cut suitably dimensioned lengths of an extruded profile having a cross-section as shown and described, and forming two identical shells 26, 26′ with each shell comprising a planar portion 26a, 26a′ defining a plane and having parallel first and second longitudinal edges E1, E2 extending longitudinal direction of the planar portion. The elongate shell is formed along the first longitudinal edge with a first or upper arcuate segment or portion 26b and formed along an opposing second longitudinal edge E2 with a second arcuate segment or portion 26c. The first and second arcuate segments or portions 26b, 26c are positioned on the same side of the planar portion 26a of a respective shell and configured and dimensioned to enable the second arcuate segment of a first shell to be received with clearance within a first arcuate segment of a second shell identical to the first shell to form an articulated hinge. In this manner, two hingedly joined elongate shells can be pivoted relative to each other from a generally co-planar orientation of planar portions of associated coupled or linked shells. The exterior, outside or front and the interior, inside or rear shells are displaced by 180° about mutually orthogonal directions within a planar portion and are joined to each other by linking a first arcuate segment of the exterior shell with a second arcuate segment of an interior shell and a second arcuate segment of the first shell with a first arcuate segment of the interior shell after these have been aligned along associated axes to create a substantially closed cavity between opposing planar portions 26a, 26a′. As indicated, the two shells are formed by cutting sections or pieces from a single extrusion and therefore have the identical profiles described above. Advantageously, a thermal insulation layer is then applied between each linked pair of first and second arcuate segments so that these do not contact each other at the facing inner or outer surfaces, respectively.
It will be clear, therefore, that a single profiled extrusion can be easily and inexpensively formed into slats from a minimum number of parts into a curtain assembly for a rolling door that is both thermally insulated whether or not the interior space or cavity within each of the slats is filled with additional insulation, such as foam insulation.
The foregoing is considered as illustrative only of the principles of the invention. Further, since numerous modifications and changes will readily occur to those skilled in the art, it is not desired to limit the invention to the exact construction and operation shown and described, and accordingly, all suitable modifications and equivalents may be resorted to, falling within the scope of the invention.