Structural panel for use in buildings
A structural panel that may be suitable for use in building construction, the panel may have a core bonding to first and second skins, the core may be a first foam layer, a membrane, and a second foam layer, the membrane and at least one skin configured to be suitable to retain fasteners, the foam layers having low density, good shear strength and stiffness, the skins and the membrane having higher density and good strength.
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The present invention relates to modular building panels or structural insulated panels utilized to fabricate the walls, ceilings, floors, etc. of houses, room additions, porches, mudrooms, sheds, outbuildings, and the like.
BACKGROUNDThe use of modular building panels is a popular method for economically adding additional enclosed structures to a pre-existing structure. Examples of new structures include room additions and enclosed porches. In many cases these room additional enclosures are used for leisure activities such as reading, watching television, and visiting with guests.
Typically modular building panels cost less than conventional construction materials. Modular building panels may be quickly disposed in an edge to edge configuration to form walls, roofs, etc. The assembly time required to build a structure with modular building panels is typically much less than when building using conventional construction methods. The time and labor savings provides additional cost savings.
Structures built with modular building panels are often exposed to the wind, sun rain, hail, and even seismic activity. It is desirable that structures built with modular building panels be durable enough to withstand exposure to these elements.
It is a popular construction technique to design additions to houses that match the style of the existing structure, both internally and externally. It therefore may be desirable for aesthetic or practical reasons to attach other building construction materials to a modular building panel. For example, it may be desirable to attach conventional shingled roofing material or a drop ceiling to a modular building panel to make the addition look more like an integral part of the building, or to provide additional insulation or protection.
SUMMARYThe description pertains to a structural panel that includes five layers sandwiched together. The two outer layers and the central layer may be made from a harder material such as plywood, aluminum or steel. For example, the two outer layers may be made from aluminum and the inner layer may be made from plywood or other wood. The other two inner layers may be made from a lighter, rigid material, such as expanded polystyrene (EPS) foam or other suitable material. Typically, the structural panel also includes ends on two opposite sides designed to interlock with the ends of other structural panels. These interlocking ends may provide a strong mechanical joint that is resistant to water or is weatherproofed.
The description also pertains to a structural panel that includes seven layers sandwiched together. The two outer layers and the third and fifth layers may be made from a harder material. The other three inner layers (the two layers adjacent the outer layers and the central layer) may be made from a lighter, rigid material such as expanded polystyrene foam. The panel may thus be constructed of alternate layers of a harder material and a lighter, rigid material. The central layer may be made from a honeycomb-type product to provide additional rigidity, sound dampening, or other desired characteristics.
The description also pertains to a structural insulated panel (SIP). These panels are often constructed of a central foam core sheathed with a structural material such as drywall, plywood, or oriented strand board on each side. The other laminate substitutes for the structural material. The laminate may include a rigid foam core sheathed with a thin skin of harder material such as wood, aluminum or steel. The structural insulated panel can be given additional strength by connecting the laminates with ribs of wood, steel or aluminum through the central foam core.
BRIEF DESCRIPTION OF THE DRAWINGSThe invention may be more completely understood in consideration of the following detailed description of various embodiments of the invention in connection with the accompanying drawings in which:
The following detailed description should be read with reference to the drawings, in which like elements in different drawings are numbered identically. The drawings which are not necessarily to scale, depict selected embodiments and are not intended to limit the scope of the invention.
Male interlocking edge 112 may be configured to be received and held by the female interlocking edge of another structural panel. This feature may provide rapid weather-tight construction. Of course, the interlocking portions shown in
Foam layers 104 and 106 are so named for convenience of illustration and are not intended to be limited solely to foam materials. Foam layers 104 and 106 should be made from materials which exhibit good shear strength and stiffness for low density materials. It may also be desirable for these materials to have good compressive loading characteristics. Suitable materials may include foams such as expanded polystyrene (EPS) foam, closed-cell polyvinyl chloride (PVC) foams, polyurethane foams, polymethyl methacrylamide foams, acrylic foams, styrene acrylonitrile foams, expanded polyetherimide/polyether sulphone foams. Other suitable materials may include honeycomb cores made from cardboard, thermoplastic, nomex, aluminum or other suitable material, metal foams such as aluminum foam, low density woods such as balsa, and gypsum. Foam layers 104 and 106 may be made from the same material or made be made from different materials. Each foam layer may include one, two or more materials, if desired.
Skins 108 and 110 may be made from higher density, higher strength materials whose flexural stiffness is enhanced by joining them with a core material. Suitable materials may include metals such as steel or aluminum, wood products such as plywood, oriented strandboard or fiberboard, or polymers such as polyvinyl chloride (PVC). Of course other materials may be suitable. For example, another suitable material may be vinyl coated aluminum. Each skin may be made from a different material or group of materials. For example, in one embodiment, skin 108 is made from 0.019″ or 0.024″ aluminum sheet metal and skin 110 is made from plywood.
Membrane 102 may be made from a material selected to increase the flexural stiffness of structural panel 100, and may be selected to increase the fastener retention capability of structural panel 100, as discussed below. Suitable materials may include, for example, those used for skins 108 and 110.
Membrane 102 should be positioned so that a fastener such as a screw or a nail that is driven through one or either of skins 108 or 110 may be at least partially received by the membrane. Thus in one embodiment, membrane 102 may be positioned in the structural panel (during manufacturing) to receive a standard fastener driven through skin 108. In another embodiment, membrane 102 may be positioned to receive a fastener driven through either skin 108 or 110. In a third example embodiment, membrane 102 is positioned to receive a fastener driven only through skin 110.
Skins 108 and 110, foam layers 104 and 106, and membrane 102 may be bonded to each other with adhesive, melt bonding, or other suitable technique.
Second membrane 116 may add additional flexural stiffness to structural panel 200 compared with a structural panel 100 of similar thickness and materials. In structural panel 200, member 102 and second member 116 may be spaced apart from skins 108 and 110, respectively, so that a fastener may be adequately secured if driven into structural panel 200 through either skin. Thus structural panel 200 may be thicker than structural panel 100 and still retain fastener retention capabilities on both sides.
Many combinations of materials are contemplated. For example, in one embodiment, skins 108 and 110 are made from vinyl coated aluminum, membranes 102 and 116 are made from plywood, and foam layers 104, 106, and 118 are made from EPS foam. In another example embodiment, Skin 108 is made from epoxy coated steel, skin 110 and membranes 102 and 116 are made from oriented strand board, foam layers 104 and 106 are made from polyurethane foam, and foam layer 118 is made from a paper honycomb. The distance between skin 108 and membrane 102 and the distance between skin 110 and membrane 116 may be, for example, one inch. The distance between membrances 102 and 116 may be, for example, two inches.
Of course, structural panels having more than two membranes and three foam layers are contemplated. For example, one example structural panel has a core including five foam layers separated by four membranes.
Numerous advantages of the invention covered by this document have been set forth in the foregoing description. It will be understood, however, that this disclosure is, in many respects, only illustrative. Changes may be made in details, particularly in matters of shape, size, and arrangement of parts or order of steps without exceeding the scope of the invention. The invention's scope is, of course, defined in the language in which the appended claims are expressed.
Claims
1. A structural panel for use in building construction, comprising:
- a first skin having a first surface and a second surface;
- a first foam sheet having a first surface and a second surface;
- a first membrane having a first surface and a second surface for retaining a portion of a fastener;
- a second foam sheet having a first surface and a second surface; and
- a second skin having a first surface and a second surface,
- wherein the first foam sheet is fixed between the first skin and the membrane, the second foam sheet is fixed between the second skin and the member, and the membrane is fixed between the first skin and the second skin.
2. The structural panel of claim 1, further comprising a first interlocking edge and a second interlocking edge, the first interlocking edge configured to interlock with a second interlocking edge of a second structural panel, wherein the second interlocking edge of the second panel is similar to the second interlocking edge of the first panel.
3. The structural panel of claim 1, wherein the first foam sheet comprises expanded polystyrene (EPS) foam.
4. The structural panel of claim 1, wherein the first foam sheet comprises polyurethane foam.
5. The structural panel of claim 1, wherein the first skin comprises metal.
6. The structural panel of claim 5, wherein the first skin comprises steel.
7. The structural panel of claim 5, wherein the first skin comprises aluminum.
8. The structural panel of claim 1, wherein the first skin comprises wood.
9. The structural panel of claim 1, further comprising
- a second membrane fixed between the first membrane and the second foam sheet for retaining a portion of a fastener; and
- a third foam sheet fixed between the first membrane and the second membrane.
10. A structural panel for use in building construction, comprising:
- a first skin having a first surface and a second surface;
- a first interior layer having a first surface facing the first surface of the first skin, a second surface, and a hardness;
- a second interior layer having a first surface facing the second surface of the first interior layer, a second surface, and a hardness;
- a third interior layer having a first surface facing the second surface of the second interior layer, a second surface, and a hardness; and
- a second skin having a first surface facing the second surface of the third interior layer;
- wherein the hardness of the second interior layer is greater than the hardness of the first and third interior layers.
11. The structural panel of claim 10, wherein the hardness of the first and third interior layer is in a first range measurable by the durometer hardness measurement test, and wherein the hardness of the second interior layer is in a second range not coextensive with the first range.
12. The structural panel of claim 11, wherein the second range is measurable by the Brinell hardness test.
13. The structural panel of claim 11, wherein the second range is measurable by the Rockwell hardness test.
14. The structural panel of claim 10, further comprising a first interlocking edge and a second interlocking edge, the first interlocking edge configured to interlock with a second interlocking edge of a second structural panel of similar configuration to the structural panel.
15. The structural panel of claim 14, wherein the second interior layer comprises steel.
16. The structural panel of claim 14, wherein the second interior layer comprises aluminum.
17. The structural panel of claim 10, wherein the first skin comprises metal.
18. The structural panel of claim 17, wherein the first skin comprises steel.
19. The structural panel of claim 17, wherein the first skin comprises aluminum.
20. The structural panel of claim 10, wherein the first skin comprises wood.
21. The structural panel of claim 10, wherein the first interior layer comprises a foam sheet.
22. The structural panel of claim 21, wherein the foam sheet comprises an expanded polystyrene (EPS) foam.
23. The structural panel of claim 21, wherein the foam sheet comprises a polyurethane foam.
24. The structural panel of claim 10, wherein the second interior layer comprises metal.
25. The structural panel of claim 10, wherein the second interior layer comprises wood.
26. The structural panel of claim 10, wherein the first and second skins and the first, second, and third interior layers are fixed with respect to each other.
27. The structural panel of claim 26, further comprises an adhesive.
28. The structural panel of claim 10, further comprising:
- a fourth interior layer having a first surface facing the second surface of the third interior layer, a second surface, and a hardness;
- a fifth interior layer having a first surface facing the second surface of the fourth interior layer, a second surface facing the first surface of the third interior layer, and a hardness, the hardness of the fifth interior layer being greater than that of any of the first, third, and fourth interior layers.
29. The structural panel of claim 28, wherein the hardness of the fifth interior layer is substantially similar to the hardness of the second interior layer.
30. The structural panel of claim 28, further comprising a first rib having a first edge joined to the second surface of the second interior panel and a second edge joined to the first surface of the fifth interior panel, the rib having a hardness greater than any of that that of the first, third or fourth interior layers.
31. The structural panel of claim 30, wherein the rib extends from a first edge of the structural panel to a second edge of the structural panel opposite the first edge.
32. The structural panel of claim 27, further comprising a second rib having a first edge joined to the second surface of the second interior panel and a second edge joined to the first surface of the fifth interior panel, the rib having a hardness greater than any of that of the first, third or fourth interior layers, and substantially parallel to the first rib.
33. The structural panel of claim 10, further comprising:
- a building construction member facing the second surface of the first skin;
- a fastener connecting the building construction member and the first skin, the fastener penetrating the first skin and the second interior layer.
34. The structural panel of claim 33, wherein the building construction member is a piece of roofing material.
35. The structural panel of claim 33, wherein the fastener is a screw.
36. The structural panel of claim 33, wherein the fastener is a nail.
37. The structural panel of claim 33, wherein the building construction material is a ceiling panel.
38. The structural panel of claim 33, wherein the building construction member is a ceiling support member.
Type: Application
Filed: Feb 24, 2004
Publication Date: Sep 8, 2005
Applicant:
Inventor: Michael Palmersten (Woodbury, MN)
Application Number: 10/785,475