Low emissivity products and methods for making same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B32B-031/00
E04D-003/35
출원번호
US-0447681
(2003-05-28)
§371/§102 date
20020926
(20020926)
발명자
/ 주소
Tanzer, Jay
Ritter, David C.
출원인 / 주소
Louisiana Pacific Corporation
대리인 / 주소
Marger Johnson &
인용정보
피인용 횟수 :
12인용 특허 :
4
초록▼
The method of this invention adheres a low emissivity radiant barrier material to an underlying lignocellulosic substrate within the primary manufacturing operation of the underlying lignocellulosic substrate. Thus, a radiant barrier covered substrate is formed by integrally joining the radiant barr
The method of this invention adheres a low emissivity radiant barrier material to an underlying lignocellulosic substrate within the primary manufacturing operation of the underlying lignocellulosic substrate. Thus, a radiant barrier covered substrate is formed by integrally joining the radiant barrier covering to a mat of lignocellulosic material during consolidation thereof with a first adhesive bonding material to form an underlying substrate. The integral joining operation can, for example, be accomplished by bonding the radiant barrier covering to a lignocellulosic mat in a product formation press. This is typically accomplished using a second adhesive bonding material for adhesion of the radiant barrier material to the lignocellulosic mat, and a first adhesive bonding material for consolidating the lignocellulosic mat to form a lignocellulosic substrate. More specifically, this invention is directed to a method whereby a low emissivity radiant barrier material is joined in situ to a mat of lignocellulosic particles using a second adhesive material, during the consolidation of the lignocellulosic particles and a first adhesive bonding material to form an underlying substrate, an integral laminated radiant barrier covered lignocellulosic product being produced.
대표청구항▼
1. A method for producing an integral laminated product which exhibits (a) a low level of emissivity and (b) a high level of moisture vapor permeability, and which enables trapped excess moisture to be transported from the product to the surrounding atmosphere while maintaining its effective radiant
1. A method for producing an integral laminated product which exhibits (a) a low level of emissivity and (b) a high level of moisture vapor permeability, and which enables trapped excess moisture to be transported from the product to the surrounding atmosphere while maintaining its effective radiant barrier properties, comprising the steps of:providing lignocellulosic material; treating said lignocellulosic material with a first adhesive bonding material; forming a mat comprising a plurality of layers of said treated lignocellulosic material; providing a radiant barrier material; treating said mat comprising said plurality of layers of lignocellulosic material and/or said radiant barrier material with a second adhesive bonding material; applying said radiant barrier material to an outer surface of said mat of treated lignocellulosic material to form a radiant barrier material covered mat of treated lignocellulosic material; and bonding together in situ said mat of lignocellulosic material with said first adhesive bonding material, and bonding said radiant barrier material to said mat of lignocellulosic material with said second adhesive material by curing said first adhesive bonding material and said second adhesive material, to form an integral laminated radiant barrier material covered lignocellulosic substrate;and introducing a plurality of apertures into said radiant barrier material prior to and/or subsequent to the formation of said radiant barrier material covered mat of treated lignocellulosic material. 2. The method of claim 1, wherein said lignocellulosic material comprises lignocellulosic particles.3. The method of claim 1, wherein said layers of lignocellulosic material comprise lignocellulosic veneers.4. The method of claim 1, wherein said second adhesive bonding material comprises at least one of an isocyanate polymer, an aldehyde resin, an aldehyde resin-latex copolymer, an isocyanate resin-latex copolymer, a polyolefin, a polyester, a vinyl acetate polymer, and a styrene-butadiene copolymer.5. The method of claim 1, wherein said first and/or second adhesive bonding material comprises a liquid or a powder.6. The method of claim 1, wherein said first adhesive bonding material and said second adhesive banding material each comprise the same adhesive bonding material.7. The method of claim 1, wherein said bonding step is conducted at a temperature of at least about 140 degrees C.8. The method, of claim 1, wherein said bonding step is conducted at a pressure of at least about 200 psi.9. The method of claim 1, wherein said first adhesive bonding material and said second adhesive bonding material each comprise a different adhesive bonding material.10. The method of claim 1, wherein the apertures are formed by the step of perforating said radiant barrier material covered product.11. The method of claim 1, wherein the apertures are shaped in a substantially non-circular pattern.12. The method of claim 1, which includes the step of minimizing the amount of said radiant barrier material which is removed from said product during forming of said apertures thereby maintaining said low level of emissivity of said product.13. The method of claim 1, wherein the amount of trapped excess moisture which passes from said underlying substrate of said product into the surrounding atmosphere in a given period of time is at least about 35% of the amount of the amount of trapped excess moisture which passes in the same period of time from the underlying substrate per se.14. The method of claim 1, wherein said apertures extend substantially completely through bath said radiant barrier material and said adhesive material thereby forming substantially completely open moisture vapor flow channels which create a high level of moisture vapor permeability through the radiant barrier material and the adhesive material thereby permitting a substantial amount of trapped excess moisture to pass from said underlying substrate into the surrounding atmosphere to avoid unwanted degradation of said underlying substrate, while maintaining said low level of emissivity of said product.15. The method of claim 1, wherein said radiant barrier material includes a plurality of preformed apertures.16. The method of claim 10, wherein perforations are formed by incising said radiant barrier material covered product.17. The method of claim 15, wherein further apertures are formed by perforating said radiant barrier material covered product.18. The method of claim 17, wherein the step of perforating said radiant barrier material covered product comprises incising said radiant barrier material covered product.19. A method for producing an integral laminated product which exhibits (a) a low level of emissivity and (b) a high level of moisture vapor permeability, and which enables trapped excess moisture to be transported from the product to the surrounding atmosphere while maintaining its effective radiant barrier properties, comprising the steps of:providing lignocellulosic material; treating said lignocellulosic material with a first adhesive bonding material; forming a mat comprising a plurality of layers of said lignocellulosic material; providing a radiant barrier material; treating said lignocellulosic material and/or said mat of said plurality of layers of lignocellulosic material and/or said radiant barrier material with a second adhesive bonding material; applying said radiant barrier material to an outer surface of said mat of lignocellulosic material to form a radiant barrier material covered mat of lignocellulosic material; and bonding together in situ said mat of lignocellulosic material with said first adhesive bonding material, and said radiant barrier material to said mat of lignocellulosic material with said second adhesive bonding material by curing said first adhesive bonding material and said second adhesive material, to form an integral laminated radiant barrier material covered lignocellulosic substrate; and introducing a plurality of apertures into said laminated radiant barrier material covered substrate to form said integral laminated product, said apertures extending substantially completely through both said radiant barrier material and said second adhesive material thereby forming substantially completely open moisture vapor flow channels which create a high level of moisture vapor permeability through the radiant barrier material and the second adhesive bonding material thereby permitting a substantial amount of trapped excess moisture to pass from said underlying substrate into the surrounding atmosphere to avoid unwanted degradation of said underlying substrate, while maintaining said low level of emissivity of said product.
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이 특허에 인용된 특허 (4)
Knudson Robert M. (Coquitlam CAX) Gnatowski Marek J. (Coquitlam CAX), Chemically treated wood particle board.
Bennett, John L.; Barker, Joel F.; Jordan, Rick D.; Schuman, Thomas L.; Ou, Nian; Swiacki, Neil C.; Flaherty, Kelly R., Panel for sheathing system and method.
Bennett, John L.; Barker, Joel F.; Jordan, Rick D.; Schuman, Thomas L.; Ou, Nian; Swiacki, Neil C.; Flaherty, Kelly R., Panel for sheathing system and method.
Bennett, John L.; Barker, Joel F.; Jordan, Rick D.; Schuman, Thomas L.; Ou, Nian; Swiacki, Neil C.; Flaherty, Kelly R., Panel for sheathing system and method.
Bennett, John L.; Barker, Joel F.; Jordan, Rick D.; Schuman, Thomas L.; Ou, Nian; Swiacki, Neil C.; Flaherty, Kelly R., Panel for sheathing system and method.
Bennett, John L.; Barker, Joel F.; Jordan, Rick D.; Schuman, Thomas L.; Ou, Nian; Swiacki, Neil C.; Flaherty, Kelly R., Panel for sheathing system and method.
Bennett, John L.; Barker, Joel F.; Jordan, Rick D.; Schuman, Thomas L.; Ou, Nian; Swiacki, Neil C.; Flaherty, Kelly R., Panel for sheathing system and method.
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