STRUCTURAL FLOORING PANEL AND FLOOR STRUCTURE INCORPORATING THE SAME
A structural flooring panel comprises an upper sheet, a lower sheet and a plurality of longitudinally extending ribs between the sheets. The ribs are laterally spaced to define at least one longitudinally extending, internal channel within the panel.
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This application is a Continuation of U.S. patent application Ser. No. 12/785,660 to Taraba, et al. filed on May 24, 2010, which claims the benefit of U.S. Provisional Application No. 61/180,713 to Taraba et al. filed on May 22, 2009, the contents of which are incorporated herein by reference in their entirety.
FIELD OF THE INVENTIONThe present invention relates generally to building structures and in particular, to a structural flooring panel and to a floor structure incorporating the same.
BACKGROUND OF THE INVENTIONIn residential homes and other building structures, floors are typically constructed by fastening one or more sheets of a wood-based material, such as plywood or oriented strand board (“OSB”), to laterally spaced, longitudinally extending lumber joists. The joists are oriented to provide increased strength and resist bending, as is known in the art.
Ducting for heating, ventilation, and air-conditioning is typically incorporated into the building structure once the floors have been constructed. This involves affixing one or more primary ventilation ducts to the underside of the joists, and running secondary ducts stemming from the primary ducts between joists.
Recently, structural building panels have become an increasingly common material for use in the construction of residential homes and other building structures due to their low cost, high strength, high energy efficiency, and ease of installation. Structural insulated panels (“SIPs”) are one form of structural building panel, and have a sandwich-type structure comprising two sheets typically of a wood-based material, such as plywood or OSB, adhesively bonded to opposite sides of an inner slab of foam insulation. Expanded polystyrene (“EPS”) is typically used for the foam insulation, with extruded polystyrene and polyurethane foam sometimes being used. When used during the construction of walls, the bonded sandwich structure of SIPs has been demonstrated to provide comparable strength to conventional walls comprising a lumber stud frame filled with fiberglass insulation. SIPs are typically fabricated as sheets of a standard size (e.g. 4 feet×8 feet), which can then be cut to size on-site as needed prior to installation.
Structural building panels for use as flooring panels have also been considered. For example, U.S. Pat. No. 6,279,287 to Meadows discloses a prefabricated building panel including first and second side panel members. A thermally insulating core is disposed between the side panel members. A first panel end surface includes a pair of spaced projections defining a channel-way. A second panel end surface includes a pair of spaced channels and a thermal barrier plug. Two adjacent building panels may be interconnected by engaging the pair of spaced projections at the first end of the first panel with the pair of spaced channels in the second end of the second panel while simultaneously engaging the thermally insulating plug at the second end of the second panel in the channel-way at the first end of the first panel.
U.S. Pat. No. 6,564,521 to Brown et al. discloses a structural sandwich panel wherein during fabrication, facing sheets are placed in position in a containment form assembly and a foam resin core material is injected between the facing sheets and allowed to cure. The resultant structural sandwich panel includes elongated recesses which form a joint for joining abutting structural sandwich panels together and cam-locks to secure adjoining structural sandwich panels together.
U.S. Pat. No. 6,599,621 to Porter discloses a generally flat structural panel for building construction including an inner insulating core such as plastic foam and a pair of opposed outer facings, or sheets, bonded to the insulating core. One of the outer facings is of gypsum composite, or gypsum fiberboard, while the other outer facing is of oriented strand board (OSB) impregnated with plastic, such as a polyisocyanurate or urethane resin. The gypsum fiberboard forms the panel's inner surface, while the plastic impregnated OSB forms the panel's outer surface. The panel's outer facings provide high tensile strength, with the gypsum fiberboard facing also affording high load bearing capacity as well as resistant to fire, the environment, and insects. The plastic impregnated OSB does not expand or contract with changes in humidity to maintain a planar configuration for the structural panel with a smooth, uniform surface for exterior finishing.
U.S. Patent Application Publication No. 2007/0125042 to Hughes et al. discloses a structural insulated laminated construction panel for building structures comprising a rigid core material layer, preferably an expanded polystyrene material, having opposed flat parallel surfaces.
As will be appreciated, the structural building panels described in the above references have a closed structure. As a result when a floor structure is constructed using these structural building panels, ducting for heating, ventilation, and air conditioning cannot be readily integrated into the floor structure. Consequently, all ducting must be affixed to the external surfaces of the flooring structure. This adds to the total quantity of material used in the construction of the building structure, and increases its overall cost. Additionally, ducts that are affixed to the external surfaces of the flooring structure can be bulky, and can reduce the overhead clearance in rooms. As will be appreciated, improvements in structural flooring panels are desired.
It is therefore an object of the present invention to provide a novel structural flooring panel and a novel floor structure incorporating the same.
SUMMARY OF THE INVENTIONAccordingly, in one aspect there is provided a structural flooring panel comprising an upper sheet; a lower sheet; and a plurality of longitudinally extending ribs between the sheets, the ribs being laterally spaced to define at least one longitudinally extending, internal channel within the panel.
In one embodiment, the ribs define a plurality of longitudinally extending, internal channels within the panel, with the internal channels being generally parallel. The internal channels also extend generally the length of the panel.
In one embodiment, at least one passage is provided through at least one of the ribs to bring adjacent internal channels into fluid communication. In another embodiment, at least one passage is provided through at least one of the upper and lower sheets, with the at least one passage being in fluid communication with an internal channel.
In one form, each of the ribs comprises a pair of rib sheets and insulation between the rib sheets. Each of the rib sheets is bonded to an opposite side of the insulation. The rib sheets of each rib are oriented so that the planes of their major surfaces are generally perpendicular to the planes of the major surfaces of the upper and lower sheets. In another form, each rib comprises a slab of insulation and a rib sheet bonded to one side of the slab of insulation.
According to another aspect, a floor structure is provided that comprises a plurality of abutting structural flooring panels as described above. The abutting structural flooring panels are arranged side-by-side and end-to-end. In one arrangement, the internal channels of the end-to-end structural flooring panels are axially aligned and in an alternative arrangement the internal channels of the end-to-end structural flooring panels are axially offset. The abutting structural flooring panels may also carry mating formations.
Embodiments will now be described more fully with reference to the accompanying drawings in which:
The following discussion relates a structural flooring panel for use in a building structure comprising two sheets separated by a plurality of laterally spaced, generally parallel ribs. The ribs are spaced so as to provide structural support for the structural flooring panel and to define longitudinally extending, internal channels within the structural flooring panel. A floor structure can be easily and quickly assembled using the structural flooring panels. Heated or cooled air can be forced through the internal channels within the structural flooring panels to provide a heated or cooled floor structure.
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Each rib 36 has a “sandwich” structure comprising two rib sheets 40, each of which is adhesively bonded to an opposite side of a slab of insulation 42. In this embodiment, the rib sheets 40 are formed of a wood-based material, such as OSB, plywood, fiberboard, particle-board etc. The insulation slab 42 is formed of suitable material, such as expanded polystyrene, honeycomb cardboard, extruded polystyrene, polyurethane foam, and the like. The planes of the major surfaces of the rib sheets 40 are perpendicular to the planes of the major surfaces of the upper and lower sheets 32, 34. This orientation of each rib 36 relative to the sheets 32 and 34 takes advantage of the high in-plane strength of the rib sheets 40, which stiffens the structural flooring panel 24 and contributes to its high bending strength.
Opposite sides of the upper and lower sheets 32 and 34 carry formations so that when the structural flooring panel 24 is brought side-to-side with another similar structural flooring panel, the formations on the upper and lower sheets of the abutting structural flooring panels mate. In particular, a longitudinally extending tongue 44 is provided on one side of the upper sheet 32 and a longitudinally extending groove 46 is provided in the opposite side of the upper sheet 32. The side of the lower sheet 34 beneath the tongue 44 is notched to define a lower lap member 48 while the side of the lower sheet 34 beneath the groove 46 is notched to define an upper lap member 50.
The end-to-end arrangement of the structural flooring panels 24 is typically chosen so that corresponding longitudinally extending, internal channels 38 of the structural flooring panels are axially aligned thereby to provide continuous internal channels 38 across the floor structure. However, it will be appreciated that the structural flooring panels 24 may be alternatively arranged in a non-aligned, axially offset or “staggered” pattern, provided internal channels 38 of the abutting structural flooring panels 24 are in fluid communication.
The longitudinally extending, internal channels 38 within the structural flooring panels 24 provide passageways for services. In the building structure 10 shown in
Structural flooring panels 24 may be fabricated in standard sizes. For example, in the embodiment shown, each structural flooring panel 24 has dimensions 4′×8′×10″ (width by length by thickness), however, structural flooring panels 24 may also be fabricated in other sizes such as 4′×16′, or 4′×20′, for example. It will be appreciated that as the fabricated length of a structural flooring panel 24 is increased, its strength can also be increased as desired by increasing the height of the ribs 36, by reducing the spacing of the ribs 36, and/or by increasing the width of each rib 36, and more specifically by increasing the thicknesses of the insulation slab 42 and/or the rib sheets 40. Additionally, the strength of the structural flooring panel 24 can be increased by strengthening either sheet 32 or 34, such as by increasing the thickness of the sheet 32 and/or sheet 34 or by using sheets 32, 34 formed of a stronger material.
As floor areas can be of any size and shape, structural flooring panels 24 can be readily cut to size on-site as needed to construct the floor structure. A structural flooring panel 24 may be cut vertically through its thickness without significant loss of structural integrity. Such cutting may however result in loss of the joining formations provided on the upper and lower sheets 32 and 34. In this event, further modifications can be made to a cut structural flooring panel 24 to enable joining with other structural flooring panels.
Structural flooring panel 24 can also be modified on-site to provide additional support for point or local loads imposed upon the structural flooring panel 24, as needed.
Although the internal channels of the structural flooring panels described above are used to channel heated forced air through the structural flooring panels, the internal channels of the structural flooring panels may be used to channel cooled air or ambient air through the structural flooring panels. In this case, a cooled forced air unit such as an air conditioner or an ambient forced air unit such as a blower may be used to provide the forced cooled air or forced ambient air to the structural flooring panels. Of course, one flooring structure may be provided with one type of forced air while another flooring structure may be provided with another type of forced air. Alternatively, some of the internal channels of a structural flooring panel may be provided with one type of forced air while other internal channels of the structural flooring panel may be provided with another type of forced air.
Rather than acting as ventilation ducts or in addition to acting as ventilation ducts, the internal channels of the structural flooring panels may also be used to accommodate conduits through which utilities such as plumbing and/or electrical wiring may be run. For example, the internal channels may accommodate plumbing for a sprinkler system and/or conduit for electric wiring. Alternatively or in conjunction with the sprinkler system piping and/or conduit, the internal channels may accommodate piping for a radiant hot water system and/or other desired services.
If desired, the upper sheet, lower sheet, and/or rib sheets may be made from a fire-proof material (e.g. “Blaze Guard”) or treated with a fire proof material so as to increase the resistance of the structural flooring panel to fire.
In the embodiments described above, the structural flooring panels are shown as comprising either cross-ducts, vents, or baffles and plugs, or none of these features. Those of skill in the art will appreciate that the structural flooring panels may comprise a combination of these features.
Although the structural flooring panels are described as comprising ribs having a “sandwich” structure, those of skill in the art will appreciate that the ribs may take other forms. For example, the ribs may comprise boards or joists formed of suitable material. If desired, the spacing between the ribs and/or the longitudinal orientations of the ribs may vary resulting in internal channels with different dimensions.
In the embodiments described above, the structural flooring panels comprise first and second sheets formed of the same material. Those of skill in the art however will appreciate that the first and second sheets may be formed of different materials.
Although specific joints between adjacent structural flooring panels are shown and described, those of skill in the art will appreciate that alternative joints between adjacent structural flooring panels may be employed.
While the structural flooring panels are described as being fabricated in sizes of 4′×8′×10″, 4′×16′ (×10″), or 4′×20′ (×10″), those of skill in the art will appreciate that the structural flooring panels may fabricated in virtually any shape or size.
Although embodiments have been described above with reference to the accompanying drawings, those of skill in the art will appreciate that variations and modifications may be made without departing from the spirit and scope thereof as defined by the appended claims.
Claims
1. A load-bearing structural flooring panel comprising:
- an upper, generally horizontal rectangular sheet;
- a lower, generally horizontal rectangular sheet spaced from said upper sheet;
- at least two longitudinally extending ribs between the sheets, the at least two ribs being laterally spaced and positioned adjacent lateral opposite side edges of the sheets; and
- at least one longitudinally extending intermediate rib between the sheets and laterally spaced from the ribs adjacent the opposite side edges of the sheets, wherein said longitudinally extending ribs and said at least one longitudinally extending intermediate rib define at least two longitudinally extending, internal service channels within the flooring panel, wherein opposite longitudinal ends of said flooring panel are open, and wherein each of said longitudinally extending ribs and said at least one longitudinally extending intermediate rib comprises a unitary slab of insulation and at least one high in-plane strength rib sheet bonded to a respective side of the slab of insulation, wherein upper and lower surfaces of said slab of insulation and at least one rib sheet abut said sheets and wherein the major surfaces of said at least one rib sheet are generally perpendicular to the major surfaces of said upper and lower sheets so that said longitudinally extending ribs and said at least one longitudinally extending intermediate rib provide said flooring panel with structural support and resistivity against vertical loads imposed thereon.
2. A load-bearing structural flooring panel according to claim 1, wherein said internal service channels are generally parallel.
3. A load-bearing structural flooring panel according to claim 2, wherein said internal service channels extend generally the length of said flooring panel.
4. A load-bearing structural flooring panel according to claim 3, further comprising a plurality of longitudinally extending, laterally spaced intermediate ribs and at least one passage through at least one of said intermediate ribs to bring adjacent internal service channels into fluid communication.
5. A load-bearing structural flooring panel according to claim 4, comprising at least one passage through a plurality of intermediate ribs.
6. A load-bearing structural flooring panel according to claim 5, wherein the passages provided through the intermediate ribs are staggered.
7. A load-bearing structural flooring panel according to claim 3, further comprising at least one passage through at least one of said upper and lower sheets, said at least one passage being in fluid communication with an internal service channel.
8. A load-bearing structural flooring panel according to claim 7, comprising passages through at least one of said upper and lower sheets, each passage being in fluid communication with a respective one of said internal service channels.
9. A load-bearing structural flooring panel according to claim 2, wherein each of said upper and lower sheets is formed of one of oriented strand board, plywood, fiberboard, particle-board, concrete sheet and magnesium-based sheet.
10. A load-bearing structural flooring panel according to claim 2, wherein each of said ribs comprises:
- a pair of rib sheets, each of the rib sheets being bonded to an opposite side of the slab of insulation.
11. A load-bearing structural flooring panel according to claim 2, wherein each of said ribs and at least one intermediate rib comprises:
- a pair of rib sheets, each of the rib sheets being bonded to an opposite side of the slab of insulation.
12. A load-bearing structural flooring panel according to claim 11, wherein each of said rib sheets is formed of one of oriented strand board, particle-board, plywood and fiberboard.
13. A load-bearing structural flooring panel according to claim 12, wherein said slab of insulation is formed of one of expanded polystyrene, honeycomb cardboard, extruded polystyrene and polyurethane.
14. A load-bearing structural flooring panel according to claim 1, wherein each rib sheet is formed of one of oriented strand board, particle-board, plywood and fiberboard.
15. A load-bearing structural flooring panel according to claim 14, wherein said slab of insulation is formed of one of expanded polystyrene, honeycomb cardboard, extruded polystyrene and polyurethane.
16. A floor structure comprising a plurality of abutting load-bearing structural flooring panels according to claim 1.
17. A floor structure according to claim 16, wherein said abutting load-bearing structural flooring panels are arranged side-by-side and end-to-end.
18. A floor structure according to claim 17, wherein the internal service channels of end-to-end load-bearing structural flooring panels are axially aligned.
19. A floor structure according to claim 17, wherein the internal service channels of end-to-end load-bearing structural flooring panels are axially offset.
20. A floor structure according to claim 17, wherein abutting loadbearing structural flooring panels carry mating formations.
21. A floor structure according to claim 20, wherein said mating formations are tongues and grooves.
Type: Application
Filed: Dec 1, 2015
Publication Date: Jun 9, 2016
Applicant: Thermapan Industries Inc. (Fort Erie)
Inventors: Jeffrey M. Taraba (Fort Erie), Emil M. Taraba (Fort Erie)
Application Number: 14/955,773