A structural insulated panel is composed of a structural member in a corrugated form and a cohering, insulating filler material. The structural member has a plurality of front surfaces spaced laterally apart from each other and a plurality of back surfaces spaced laterally apart from each other and
A structural insulated panel is composed of a structural member in a corrugated form and a cohering, insulating filler material. The structural member has a plurality of front surfaces spaced laterally apart from each other and a plurality of back surfaces spaced laterally apart from each other and spaced apart in depth from the front surfaces. The structural member has a plurality of chord panels which span between corresponding edges of respective pairs of the front surfaces and the back surfaces. Chase channels are formed between adjacent pairs of the cord panels and one of the front surfaces or one of the back surfaces. Each chord panel defines a plurality of apertures. The filler material fills the chase channels, binds to the front surfaces, back surfaces, and chord panels, and extends through the apertures in each of the cord panels to structurally connect the filler material in adjacent chase channels.
대표청구항▼
1. A structural insulated panel comprising a structural member made of a fiber-based, flexible, sheet material in a corrugated form further comprising a plurality of front surfaces spaced laterally apart from each adjacent front surface;a plurality of back surfaces spaced laterally apart from each a
1. A structural insulated panel comprising a structural member made of a fiber-based, flexible, sheet material in a corrugated form further comprising a plurality of front surfaces spaced laterally apart from each adjacent front surface;a plurality of back surfaces spaced laterally apart from each adjacent back surface and spaced apart in depth from the plurality of front surfaces; anda plurality of chord panels each of which spans between corresponding edges of respective pairs of one of the front surfaces and one of the back surfaces, whereina plurality of chase channels is formed between adjacent pairs of the chord panels and a respective one of the front surfaces or a respective one of the back surfaces; andeach of the chord panels defines a plurality of apertures along a length of the chord panels configured to substantially equalize a filling pressure within and between the chase channels;a front skin panel made of the fiber-based, flexible, sheet material provided directly upon the plurality of front surfaces;a back skin panel made of the fiber-based, flexible, sheet material provided directly upon the plurality of rear surfaces; anda cohering, insulating filler material that substantially fills the chase channels, adheres to the front surfaces, back surfaces, front skin panel, back skin panel, and chord panels, and extends through the apertures in each of the chord panels, structurally connecting the cohering, insulating filler material in adjacent chase channels to thereby form a monolithic structural bond between the chase channels, the front surfaces and the front skin panel, and the rear surfaces and the rear skin panel;wherein the structural insulated panel thus configured is load bearing and exhibits structural rigidity. 2. The structural insulated panel of claim 1, wherein a plurality of recesses is defined within the front surfaces and the adjacent chord panels; andthe structural member further comprises a cross member defining a channel that fits within the plurality of recesses and extends between lateral sides of the structural insulated panel. 3. The structural insulated panel of claim 2, wherein the cross member further defines a plurality of notches configured to interface with the chord panels. 4. The structural insulated panel of claim 1, wherein a plurality of voids is defined within each of the chord panels adjacent corresponding intersections with the front surfaces; andthe structural member further comprises a cross member defining a channel that fits within the plurality of voids and extends between lateral sides of the structural insulated panel. 5. The structural insulated panel of claim 4, wherein the cross member further defines a plurality of notches configured to interface with the chord panels. 6. The structural insulated panel of claim 1 further comprising an end plate affixed along a top of the structural member, along a bottom of the structural member, or both. 7. The structural insulated panel of claim 6, wherein a top edge or a bottom edge of one or more of the chord panels extends as a tab;the end plate defines a notch configured to interface with the tab; andthe tab extends into the notch when the end plate is affixed to the structural member. 8. The structural insulated panel of claim 6, wherein the end plate comprises a framing member. 9. The structural insulated panel of claim 8, wherein one or more of the plurality of front surfaces, the plurality of back surfaces, or both, extends beyond a length of an adjacent chord panel to form a framing extension that interfaces with the framing member. 10. The structural insulated panel of claim 6, wherein the end plate further comprises a plurality of apertures through which the cohering, insulating filler material at least partially extends to engage the end plate. 11. The structural insulated panel of claim 1, wherein each of the front and rear skin panels are congruent in area to an area defined by a perimeter of the structural member on a front side and a back side, respectively. 12. The structural insulated panel of claim 1, wherein the front surfaces and back surfaces further comprise a plurality of holes, respectively, through which the cohesive, insulating filler material extends to engage and adhere to the front skin panel and back skin panel, respectively. 13. A method for constructing a structural insulated panel comprising forming a fiber-based, flexible, sheet material into a structural member having a corrugated configuration defining a plurality of front surfaces spaced laterally apart from each adjacent front surface;a plurality of back surfaces spaced laterally apart from each adjacent back surface and spaced apart in depth from the plurality of front surfaces;a plurality of chord panels each of which spans between corresponding edges of respective pairs of one of the front surfaces and one of the back surfaces; anda plurality of chase channels composed of adjacent pairs of the chord panels and a respective one of the front surfaces and a respective one of the back surfaces;forming a plurality of apertures within each of the plurality of chord panels;placing a front skin panel made of the fiber-based, flexible, sheet material directly upon the plurality of front surfaces;placing a back skin panel made of the fiber-based, flexible, sheet material directly upon the plurality of rear surfaces; andfilling the plurality of chase channels with a cohering, insulating filler material such that the cohering, insulating filler material extends through the apertures in each of the chord panels to substantially equalize a filling pressure within and between the chase channels,structurally connects the cohering, insulating filler material in adjacent chase channels, andadheres to the front surfaces, back surfaces, front skin panel, back skin panel, and chord panels to thereby form a monolithic structural bond between the chase channels, the front surfaces and the front skin panel, and the rear surfaces and the rear skin panel;wherein the structural insulated panel thus formed is load bearing and exhibits structural rigidity. 14. The method of claim 13 further comprising defining a plurality of recesses within the front surfaces and the adjacent chord panels; andfitting a cross member defining a channel within the plurality of recesses to extend between lateral sides of the structural insulated panel. 15. The method of claim 14 further comprising defining a plurality of notches within the cross member configured to interface with the chord panels; andsliding the cross member into the plurality of recesses such that each notch interfaces with a corresponding chord panel. 16. The method of claim 13 further comprising defining a plurality of voids within each of the chord panels adjacent to corresponding intersections with the front surfaces; andfitting a cross member defining a channel within the plurality of voids to extend between lateral sides of the structural insulated panel. 17. The method of claim 16 further comprising defining a plurality of notches within the cross member further configured to interface with the chord panels;sliding the cross member through the plurality of voids; andfitting each of the notches with a corresponding chord panel. 18. The method of claim 13 further comprising affixing an end plate along a top of the structural member, along a bottom of the structural member, or both. 19. The method of claim 18 further comprising defining a top or bottom edge of one or more of the chord panels to extend as a tab;defining the end plate as a notch configured to interface with the tab; andextending the tab into the notch when the end plate is affixed to the structural member. 20. The method of claim 13 further comprising forming one or more of the plurality of front surfaces, one or more of the plurality of back surfaces, or both, to extend beyond a length of an adjacent chord panel to form a framing extension for interfacing with a framing member. 21. The method of claim 13, whereineach of the front and rear skin panels are congruent in area to an area defined by a perimeter of the structural member on a front side and a back side, respectively. 22. The method of claim 21 further comprising providing graphic patterns on the front skin panel, the back skin panel, or both.
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