Pipe insulation product with charge dissipater
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F16L-009/14
B32B-017/02
출원번호
US-0855856
(2010-08-13)
등록번호
US-8104519
(2012-01-31)
발명자
/ 주소
Shumate, Monroe William
Bristol, Derek Cooper
출원인 / 주소
Johns Manville
대리인 / 주소
Touslee, Robert D.
인용정보
피인용 횟수 :
0인용 특허 :
15
초록▼
A pipe insulation product including a core of insulating material and a roughly rectangular laminate. The core may include an outer surface; an inner surface; and a wall extending between the outer and inner surfaces. The laminate may include a foil or metallized polymeric film sheet layer, a scrim,
A pipe insulation product including a core of insulating material and a roughly rectangular laminate. The core may include an outer surface; an inner surface; and a wall extending between the outer and inner surfaces. The laminate may include a foil or metallized polymeric film sheet layer, a scrim, a porous media sheet layer, and a polymeric film sheet layer bonded together via an adhesive. The polymeric film sheet layer may also include a closure flap that adhesively couples opposite ends of the laminate together to form a cylindrical tube with the core enclosed therein. A charge dissipator may be applied to the polymeric film sheet layer in an amount sufficient to reduce generation of a static charge on the laminate's exterior surface without affecting the closure flap's ability to adhesively couple the opposite ends of the laminate.
대표청구항▼
1. A pipe insulation product comprising: a tubular core of insulating material, the tubular core comprising: a length and a longitudinal axis;a substantially cylindrical outer surface;a substantially cylindrical inner surface; anda wall extending between the cylindrical outer surface and the cylindr
1. A pipe insulation product comprising: a tubular core of insulating material, the tubular core comprising: a length and a longitudinal axis;a substantially cylindrical outer surface;a substantially cylindrical inner surface; anda wall extending between the cylindrical outer surface and the cylindrical inner surface, the wall of the tubular core having a radially extending thickness, the wall of the tubular core having a slit extending completely there through, the slit extending parallel to the longitudinal axis of the tubular core for the length of the tubular core;a laminate that is roughly rectangular in shape and that is coextensive with and bonded to the substantially cylindrical outer surface of the tubular core and flexible so that the tubular core and laminate can be opened, placed about a pipe, and closed without degrading the laminate, the laminate comprising: a foil or metallized polymeric film sheet layer forming an inner layer of the laminate, wherein the foil or metallized polymeric film sheet layer is bonded to the substantially cylindrical outer surface of the tubular core, and wherein the foil or metallized polymeric film sheet layer provides a fluid vapor barrier to minimize fluid vapor transmission through the laminate;a scrim comprising a mesh of a plurality of fibers;a porous media sheet layer, wherein at least one of the scrim and porous media sheet layer provide reinforcement for the laminate;a polymeric film sheet layer forming an outer exposed layer of the laminate; andan adhesive, wherein: the adhesive bonds the foil or metallized polymeric film sheet layer, the scrim, the porous media sheet layer, and the polymeric film sheet layer together to form the laminate, andthe laminate comprises a closure flap configured to adhesively couple opposite sides of the laminate so that the laminate forms a substantially cylindrical shape with at least a portion of the tubular core enclosed therein; anda charge dissipator applied to the polymeric film sheet layer in an amount sufficient to reduce a static charge on the exterior surface of the laminate without affecting the closure flap's ability to adhesively couple the opposite ends of the laminate, wherein the charge dissipator provides increased resistance to shipping damage during transportation of the pipe insulation product. 2. The pipe insulation product of claim 1, wherein the charge dissipator provides increased resistance to shipping damage by reducing friction between the pipe insulation product and one or more surrounding objects during transportation of the pipe insulation product. 3. The pipe insulation product of claim 1, wherein the charge dissipator reduces a static charge by reducing the generation of a static charge on the exterior surface of the laminate. 4. The pipe insulation product of claim 3, wherein the charge dissipator comprises one or more compounds selected from the group consisting of: a quaternary ammonium cation;an alkylphenol;a glycol;glycol esters;water; andionized air. 5. The pipe insulation product of claim 1, wherein the shipping damage comprises one or more types of damage selected from the group consisting of: scuffing; andparticle accumulation on outer surface of the laminate due to static charge on the laminate's outer surface. 6. The pipe insulation product of claim 1, wherein the polymeric film sheet layer comprises the charge dissipator. 7. The pipe insulation product of claim 1, wherein the charge dissipator is applied topically to the polymeric film sheet layer. 8. The pipe insulation product of claim 1, wherein the polymeric film sheet layer is selected from the group consisting of: polypropylene;polyethylene;polyvinyl chloride;vinyl;saran;polyethylene terephthalate; andthermoplastic polyolefin. 9. The pipe insulation product of claim 1, wherein the pipe insulation is transported via a transportation vehicle for eventual installation, and wherein the pipe insulation product is transported in close proximity to one or more products so that friction occurs between the pipe insulation product and the one or more products. 10. The pipe insulation product of claim 1, wherein: a charge dissipator is applied to the polymeric film sheet layer when the laminate is manufactured to remove a static charge generated during the manufacture of the polymeric film sheet layer or the laminate, andthe charge dissipator comprises a water spray or an air ionizer. 11. A method for producing a roughly rectangular laminate jacket for a pipe insulation product, the method comprising: providing a foil or metallized polymeric sheet material, the foil or metallized polymeric sheet material forming an inner layer of the laminate that provides a fluid vapor barrier to minimize fluid vapor transmission through the laminate, the foil or metallized polymeric sheet material comprising: a length,a width,a first face, anda second face, wherein the length and width form an area that define the first face and the second face;providing a scrim comprising a mesh of a plurality of fibers, wherein the scrim is substantially coextensive with the second face;providing a porous media sheet material, wherein the porous media is substantially coextensive with the second face, and wherein at least one of the scrim and porous media sheet layer provide reinforcement for the laminate;providing a polymeric sheet material, wherein the polymeric sheet material is coextensive with the second face and the polymeric sheet material forms an outer exposed layer of the laminate;bonding, via an adhesive material, the foil or metallized polymeric sheet material, the scrim, the porous media sheet material, and the polymeric sheet material together to form the laminate jacket, wherein the laminate jacket comprises a closure flap configured to adhesively couple opposite sides of the laminate jacket so that the laminate jacket forms a hollow cylindrical shape; andapplying a charge dissipator to the polymeric film sheet material in an amount sufficient to reduce a static charge on the exterior surface of the laminate jacket without affecting the closure flap's ability to adhesively couple the opposite ends of the laminate jacket, wherein the charge dissipator provides increased resistance to shipping damage during transportation of the pipe insulation product. 12. The method for producing a laminate jacket as in claim 11, the method further comprising: positioning a tubular core of insulating material directly adjacent the first face of the foil or metallized polymeric sheet material, wherein the tubular core comprises: a length and a longitudinal axis;a substantially cylindrical outer surface, the substantially cylindrical outer surface comprising a surface area that is roughly equivalent to the area of the first face;a substantially cylindrical inner surface; anda wall extending between the cylindrical outer surface and the cylindrical inner surface; the wall comprising: a radially extending thickness; anda slit extending from the cylindrical outer surface to the cylindrical inner surface and extending parallel to the longitudinal axis of the tubular core for the length of the tubular core; andbonding, via an adhesive material, the tubular core of insulating material with the first face of the foil or metallized polymeric sheet material to form the pipe insulation product, wherein the pipe insulation product is flexible so that the tubular core and laminate jacket can be opened, placed about a pipe, and closed without degrading the laminate jacket. 13. The method for producing a laminate jacket as in claim 11, wherein the charge dissipator is applied to the polymeric film sheet material so that the charge dissipator is incorporated into the polymeric film sheet material. 14. The method for producing a laminate jacket as in claim 11, wherein the charge dissipator is applied topically to the polymeric film sheet material. 15. The method for producing a laminate jacket as in claim 11, wherein the charge dissipator reduces a static charge by reducing the generation of a static charge on the exterior surface of the laminate. 16. The method for producing a laminate jacket as in claim 11, wherein the charge dissipator provides increased resistance to shipping damage by reducing friction between the pipe insulation product and one or more surrounding objects during transportation of the pipe insulation product. 17. A pipe insulation product comprising: a tubular core of insulating material, the tubular core comprising: a length and a longitudinal axis;a substantially cylindrical outer surface;a substantially cylindrical inner surface; anda wall extending between the cylindrical outer surface and the cylindrical inner surface, the wall of the tubular core having a radially extending thickness, the wall of the tubular core having a slit extending completely there through, the slit extending parallel to the longitudinal axis of the tubular core for the length of the tubular core;a laminate that is coextensive with and bonded to the substantially cylindrical outer surface of the tubular core and flexible so that the tubular core and laminate can be opened, placed about a pipe, and closed without degrading the laminate, the laminate comprising: a foil or metallized polymeric film sheet layer, wherein the foil or metallized polymeric film sheet layer provides a fluid vapor barrier to minimize fluid vapor transmission through the laminate;a porous media layer that provides reinforcement for the laminate;a polymeric film sheet layer forming an outer exposed layer of the laminate; andan adhesive, wherein the adhesive bonds the foil or metallized polymeric film sheet layer, the porous media layer, and the polymeric film sheet layer together,wherein either or both the porous media layer and the foil or metallized polymeric film sheet layer: is an electrically conductive material; andis configured to dissipate a charge that is generated on the surface of the laminate. 18. The pipe insulation product of claim 17, wherein: the porous media layer comprises a porous media and a scrim comprising a mesh of a plurality of fibers;the scrim is an electrically conductive material; andthe scrim is positioned directly adjacent to the polymeric film sheet layer to dissipate the charge from the laminate's outer surface. 19. The pipe insulation product of claim 17, wherein the foil or metallized polymeric film sheet layer is positioned directly adjacent to the polymeric film sheet layer to dissipate the charge from the laminate's outer surface. 20. The pipe insulation product of claim 17, wherein either or both the porous media layer and the foil or metallized polymeric film sheet is an electrically conductive material by including an electrically conductive additive in the adhesive.
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이 특허에 인용된 특허 (15)
Haskell Malcolm W. (Delran NJ), Anti-static composition and method for applying same.
Hepner Jack J. (Newark OH) Hite Richard S. (Toledo OH), Pipe having insulating material and cover and having two strips of self-sealing adhesive material.
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