Flexible composite tubular assembly with high insulation properties and method for making same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B29D-022/00
B29D-023/00
B32B-001/08
출원번호
UP-0723693
(2007-03-21)
등록번호
US-7781040
(2010-09-13)
발명자
/ 주소
Coyle, William G.
출원인 / 주소
DeepFlex Inc.
대리인 / 주소
Osha • Liang LLP
인용정보
피인용 횟수 :
11인용 특허 :
5
초록▼
The present invention is directed to an improvement over the flexible composite tubing described in U.S. Pat. Nos. 6,491,779, 6,804,942, and 7,073,978, wherein said improvement provides for void space or otherwise insulating region along the length of the tubing. The present invention is additionall
The present invention is directed to an improvement over the flexible composite tubing described in U.S. Pat. Nos. 6,491,779, 6,804,942, and 7,073,978, wherein said improvement provides for void space or otherwise insulating region along the length of the tubing. The present invention is additionally directed to methods for implementing such improvement.
대표청구항▼
What is claimed: 1. An insulating composite tubular assembly comprising: a) a tubular core of fluid conducting flexible material having an external curved surface; b) a first set of a plurality of superimposed substantially coextensive strips of material, which first set is thin and flexible enough
What is claimed: 1. An insulating composite tubular assembly comprising: a) a tubular core of fluid conducting flexible material having an external curved surface; b) a first set of a plurality of superimposed substantially coextensive strips of material, which first set is thin and flexible enough to bend to substantially conform to the curved external surface of said core; c) a flexible first sheet substantially around said strips to confine said strips together in a superimposed relation; d) a second set of a plurality of superimposed substantially coextensive strips of material, which second set is thin and flexible enough to bend to substantially conform to the curved external surface of said core; e) a second flexible sheet separate from said first sheet substantially around said second set of strips to confine said strips in said second set together in a superimposed relation, which said second sheet is in at least partially non-bonding contact with said first sheet to provide limited sliding relative movement therebetween upon the flexing of said tubular core; and f) at least one void-generating layer comprising: i) at least one void-generating structural element disposed about the second flexible sheet; and ii) an insulating layer disposed about the at least one void-generating structural element such that one or more insulating voids are established between the second flexible sheet and the insulating layer. 2. The insulating composite tubular assembly of claim 1, wherein the insulating void is filled with an insulating material. 3. The insulating composite tubular assembly of claim 1, wherein the insulating voids account for a void volume per length of tubular assembly that ranges from about 40 cubic inches per foot of pipe to about 5000 cubic inches per foot of pipe. 4. The insulating composite tubular assembly of claim 1, wherein the at least one void-generating structural element is a coiled structure that elevates the insulating layer above the second flexible sheet, and wherein the insulating void is continuous in nature forming a continuous insulating void. 5. The insulating composite tubular assembly of claim 4, wherein the continuous insulating void is helically positioned about the tubular assembly. 6. The insulating composite tubular assembly of claim 1, further comprising a hoop reinforcement layer in contact with the insulating layer. 7. The insulating composite tubular assembly of claim 6, further comprising a membrane layer positioned about the hoop reinforcement layer. 8. The insulating composite tubular assembly of claim 7, further comprising one or more tensile reinforcement layers positioned around the membrane layer. 9. The insulating composite tubular assembly of claim 8, further comprising an external jacket layer positioned around the one or more tensile reinforcement layers. 10. A composite tubular assembly comprising: a) a tubular core of fluid conducting flexible material having an external curved surface; b) at least one set of a plurality of superimposed substantially coextensive strips of material, wherein said set is thin and flexible enough to bend to substantially conform to the curved external surface of said core; c) at least one flexible sheet substantially around each set of said strips to confine said strips together in a superimposed relation, wherein said sheet is in non-bonding contact with said core to provide limited relative sliding movement therebetween upon the flexing of said core; and d) at least one void-generating layer comprising: i) at least one void-generating structural element disposed about the at least one flexible sheet; and ii) an insulating layer disposed about the at least one void-generating structural elements such that one or more insulating voids are established between the at least one flexible sheet and the insulating layer. 11. The insulating composite tubular assembly of claim 10, wherein the insulating void is filled with an insulating material. 12. The insulating composite tubular assembly of claim 10, wherein the insulating voids account for a void volume per length of tubular assembly that ranges from about 40 cubic inches per foot of pipe to about 5000 cubic inches per foot of pipe. 13. The insulating composite tubular assembly of claim 10, wherein the at least one void-generating structural element is a coiled structure that elevates the insulating layer above the at least one flexible sheet, and wherein the insulating void is continuous in nature forming a continuous insulating void. 14. The insulating composite tubular assembly of claim 13, wherein the continuous insulating void is helically positioned about the tubular core. 15. The insulating composite tubular assembly of claim 10, further comprising a hoop reinforcement layer in contact with the insulating layer. 16. The insulating composite tubular assembly of claim 15, further comprising a membrane layer positioned about the hoop reinforcement layer. 17. The insulating composite tubular assembly of claim 16, further comprising one or more tensile reinforcement layers positioned around the membrane layer. 18. The insulating composite tubular assembly of claim 17, further comprising an external jacket layer positioned around the one or more tensile reinforcement layers. 19. A method of forming an insulated composite tubular assembly, said method comprising the steps of: (a) superimposing a first set of a plurality of thin flexible strips of material substantially coextensively with each other; (b) superimposing a second set of a plurality of thin flexible strips of material substantially coextensively with each other; (c) wrapping said first set and said second set at opposite helical angles on a fluid conducting tube of flexible material without bonding either of said sets to each other or to said tube so as to provide limited sliding relative movement of said strips relative to each other and to said tube; (d) disposing at least one void-generating structural element about the set of thin flexible strips with a flexible sheet interposed therebetween; and (e) disposing an insulating layer about the at least one void-generating structural element such that one or more insulating voids are established between the flexible sheet and the insulating layer. 20. The method of claim 19, wherein the method of forming said insulated composite tubular assembly involves a continuous and simultaneous implementation of the steps of which said method is comprised.
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이 특허에 인용된 특허 (5)
Bryant, Michael J., Composite tubular assembly and method of forming same.
Wolfe Donald H. (703,12303 Jasper Avenue Edmonton ; Alberta CAX T5N3K7) Budney David R. (Edmonton CAX), Method of manufacturing a flexible tubular structure.
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