Ventilated structural panels and method of construction with ventilated structural panels
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
E04B-001/10
E04F-017/04
E04C-002/52
E04C-002/34
B32B-021/00
B32B-003/22
B32B-003/20
B32B-003/12
B32B-003/24
출원번호
US-0539919
(2012-07-02)
등록번호
US-8615945
(2013-12-31)
발명자
/ 주소
Walker, James
출원인 / 주소
Walker, James
대리인 / 주소
Davis & Bujold, PLLC
인용정보
피인용 횟수 :
5인용 특허 :
102
초록▼
A multi-plenum structural panel comprising a top sheet, a middle sheet, and a bottom sheet, all three sheets being parallel in plane; a first plurality of spacing structural elements, fixedly attaching the top sheet to the middle sheet, and a second plurality of spacing structural elements fixedly a
A multi-plenum structural panel comprising a top sheet, a middle sheet, and a bottom sheet, all three sheets being parallel in plane; a first plurality of spacing structural elements, fixedly attaching the top sheet to the middle sheet, and a second plurality of spacing structural elements fixedly attaching the middle sheet to the bottom sheet, such that the yield strength of the combined panel is greater than the combined individual yield strengths of the top, the middle, and the bottom sheets; an upper plenum defined by a spacing between the top sheet and the middle sheet; a lower plenum defined by a spacing between the middle sheet and the bottom sheet; a plurality of unobstructed pathways are created in each plenum for air to move from at least one edge of the panel to at least one of an opposite and an adjacent edge of the panel.
대표청구항▼
1. A multi-plenum structural panel comprising: a top sheet, a middle sheet, and a bottom sheet, each sheet having a first horizontal edge and a second horizontal edge, and a first vertical edge and a second vertical edge, all three sheets being parallel in plane, and all three sheets having at least
1. A multi-plenum structural panel comprising: a top sheet, a middle sheet, and a bottom sheet, each sheet having a first horizontal edge and a second horizontal edge, and a first vertical edge and a second vertical edge, all three sheets being parallel in plane, and all three sheets having at least one of both vertical edges and both horizontal edges aligned along a same plane;a first plurality of spacing structural elements, fixedly attaching the top sheet to the middle sheet, and a second plurality of spacing structural elements fixedly attaching the middle sheet to the bottom sheet, such that a yield strength of the combined multi-plenum structural panel is greater than a combined individual yield strengths of the top, the middle, and the bottom sheets;an upper plenum defined by a first spacing between the top sheet and the middle sheet;a lower plenum defined by a second spacing between the middle sheet and the bottom sheet;the first and second plurality of spacing structural elements being attached such that a plurality of unobstructed intersecting coplanar orthogonal pathways are created in both the upper plenum and the lower plenum for air to move from a horizontal edge of the multi-plenum structural panel to an opposite horizontal edge of the multi-plenum structural panel, and from a vertical edge of the multi-plenum structural panel to an opposite vertical edge of the multi-plenum structural panel; andwherein the top, the middle, and the bottom sheets are each between 0.125 inches and 1.0 inches in thickness, not including the thickness of any integral spacing structural elements. 2. The multi-plenum structural panel in claim 1 wherein each of the pluralities of spacing structural elements are formed integrally with and of unitary construction with each of the top and the middle sheets. 3. The multi-plenum structural panel in claim 1, wherein the top, the middle, and the bottom sheets are between 3.5 and 4.5 feet by between 7.5 and 8.5 feet in planar dimensions. 4. The multi-plenum structural panel in claim 1, wherein the top, the middle, and the bottom sheet are made of one of plywood, Oriented Strand Board, and medium-density fiberboard. 5. The multi-plenum structural panel in claim 1, wherein each of the pluralities of spacing structural elements are comprised of blocks. 6. The multi-plenum structural panel in claim 5, wherein strips are affixed along at least one edge of the panel in each of the upper and the lower plenums. 7. The multi-plenum structural panel in claim 5, wherein one or more edges of the top sheet, the middle sheet, and the bottom sheet are formed in one of a tongue and groove pattern and a lap joint pattern; and whereby the mass of one of an interior and exterior wall is supported with the multi-plenum structural panel. 8. The multi-plenum structural panel in claim 5, wherein the blocks are made of wood, and a majority of the blocks are between 2.5 and 4.5 inches in length and width, and between 1 and 2.5 inches in height. 9. The multi-plenum structural panel in claim 5, wherein between 6 and 12 blocks are attached to the middle sheet for each 2 square feet of the middle sheet for each of the upper and the lower plenum. 10. The multi-plenum structural panel in claim 5, wherein at least three unobstructed pathways are formed in each of the upper and the lower plenum for every 24 linear inches along each edge of the panel. 11. The multi-plenum structural panel in claim 5, wherein one or more registers are attached to a top surface of the top sheet and provide a fluid connection from an exterior of the panel to one of the upper plenum and the lower plenum. 12. The multi-plenum structural panel in claim 11, wherein a plenum tap provides a fluid connection for the one or more registers from the exterior of the panel to the lower plenum, while being sealed to the upper plenum. 13. The multi-plenum structural panel in claim 11, wherein the one or more registers can selectively connect in a fluid tight manner, to either the upper plenum or the lower plenum, or to both the upper plenum and the lower plenum and whereby one of an air heater and an air conditioner is connected in a fluid tight connection with the at least one of the upper and the lower plenums. 14. A method of constructing a building including one or more multi-plenum structural panels according to claim 1, the method comprising the steps of: supporting the mass of one of an interior and exterior wall with the multi-plenum structural panel; andconnecting one of an air heater and an air conditioner in a fluid tight connection with at least one of the upper and the lower plenums. 15. The method of claim 14 further comprising the steps of in a fluid tight connection, attaching a supply air trunk to one of the upper and the lower plenum and attaching a return air trunk to another of the upper and the lower plenum. 16. The method of claim 14 further comprising the steps connecting the each of the supply and the return air trunk to the respective plenums via a plurality of mating holes, and connecting one of the supply air trunk and the return air trunk to the upper plenum via plenum tubes. 17. The method of claim 14 further comprising the step of applying one of a sealant and an insulation blanket to one or more interior and exterior surfaces of the multi-plenum structural panel. 18. The method of claim 14 further comprising the step of attaching the multi-plenum structural panel to a plurality of joists, the joists spaced between 36 and 60 inches apart, off center. 19. The method of claim 14 further comprising the steps of connecting a plurality of multi-plenum structural panels together, parallel in plane, where a fluid tight connection is made between the respective upper plenums of the multi-plenum structural panels and a fluid tight connection is made between the respective lower plenums of the multi-plenum structural panels. 20. The method of claim 19 further comprising the steps of connecting the plurality of multi-plenum structural panels together with one of a tongue and groove connection, a lap joint connection, and a clip connection of adjacent sheet edges of adjacent multi-plenum structural panels.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (102)
Elzey,Dana M.; Wadley,Haydn N. G., Active energy absorbing cellular metals and method of manufacturing and using the same.
Van Loghem Johannes J. (Russell Rd. Rotorua NZX) La Grouw Johannes (Russell Rd. Rotorua NZX), Building planks and/or methods and/or apparatus for making the same.
Clement Pierre (95 ; rue de la Sante 75013 Paris FRX) Clement Bruno (71 ; avenue de Choisy 75013 Paris FRX) Clement Christelle (8 ; rue Dancourt 75018 Paris FRX) Clement Martine (95 ; rue de la Sante, Dynamic-insulation wall element for renewing air in buildings in order to make them more comfortable and cheaper.
Crowley John S. (Portland ME) Parent Michel R. (Versailles FRX) Morse-Fortier Leonard J. (Lexington MA) Dentz Jordan L. (New York NY) Sharon Andre (Newton MA) Sharma Vikas (Cambridge MA), Roof panel design and single beam roof assembly.
Sax Hilary H. (8568 Burton Way ; #311 Los Angeles CA 90048) Timbrook Robert L. (883 Linda Flora Dr. Los Angeles CA 90049), Structural building panel and panel system.
Lockshaw James J. (18341 Jamboree Rd. Irvine CA 92715-1073) Kelly Stephen (18341 Jamboree Rd. Irvine CA 92715-1073) Walker Randall (18341 Jamboree Rd. Irvine CA 92715-1073) Kaiser ; Jr. John (18341 J, Structural element with intermediate ribbing support.
Lockshaw James J. (Huntington Beach CA) Kelly Stephen (Yorba Linda CA) Walker Randall (Santa Ana CA) Kaiser ; Jr. John (Huntington Beach CA), Three structure structural element with interlocking ribbing.
Wilson Allan L. (Marietta GA) McLaughlin Andy I. (Meridian MS) Todd William E. (Marietta GA) Jadlocki Ronald (La Grange GA) Addison Russell D. (La Grange GA) Lagod Timothy L. (Marietta GA), Vented insulation panel with foamed spacer members.
Gonidec Patrick,FRX ; Le Docte Thierry Jacques Albert,FRX ; Vauchel Guy Bernard,FRX, Ventilated honeycomb cell sandwich panel and ventilation process for such a panel.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.