Patent Number: 046769463
Section: claims

1. A thermal insulating blanket having an inner surface positionable adjacent an object to be insulated and an opposing outer surface, said blanket being resistant to tearing if a high force liquid stream strikes said outer surface and adapted to be dissipated into small pieces if torn by said stream, said blanket comprising: a central filler layer of thermal insulating fibers;  a solid waterproof sheet covering one surface of said filler layer adjacent the outer surface of said blanket to prevent tearing of said filler layer when a high force liquid stream strikes the outer surface of said blanket;  a wire mesh casing surrounding said filler layer and waterproof sheet;  clips spaced about the perimeter of said blanket for securing the edges of said mesh casing together and passing through the edges of said waterproof sheet for retaining said waterproof sheet in position;  said casing having of from about 40 to about 76 spaced apertures per square inch, said casing being adapted to dissipate high force liquid streams which may strike said outer surface to prevent tearing of said waterproof sheet and filler layer and, in the event said filler layer is torn, said casing serving to cut up said filler layer as it passes through said casing.  two filler layers of insulating fibers and a wire mesh septum disposed in substantially parallel relationship between said filler layers for increasing the strength of said blanket and for cutting up said filler layers as they pass through said spetum when torn by a high force liquid stream;  a solid waterproof sheet covering one surface of said filler layers adjacent the outer surface of said blanket to prevent tearing of said filler layer when a high force liquid stream strikes the outer surface of said blanket;  a wire mesh casing surrounding said filler layers and waterproof sheet;  clips spaced about the perimeter of said blanket for securing the edges of said mesh casing together and passing through the edges of said waterproof sheet for retaining said waterproof sheet in position;  said casing being adapted to dissipate high force liquid streams which may strike said outer surface to prevent tearing of said waterproof sheet and filler layers and, in the event said filler layers ared torn, said casing serving to cut up said filler layers as they pass through said casing.  a flexible central filler layer of thermal insulating fibers selected from the group consisting of glass fiber wool, ceramic fiber wool, and combinations thereof;  a flexible waterproof solid sheet comprising a wire mesh embedded in silicone rubber, said sheet covering one surface of said filler layer adjacent the outer surface of said blanket to prevent tearing of said filler layer when a high force liquid stream strikes the outer surface of said blanket;  a flexible knitted wire mesh casing surrounding said filler layer and waterproof sheet;  metal clips spaced about the perimeter of said blanket for securing the edges of said mesh casing together and passing through the edges of said waterproof sheet for retaining said waterproof sheet in position;  said casing having of from about 48 to about 76 spaced aperture per square inch and said wire being of from about 0.005 to about 0.015 inches in diameter such that said casing is adapted to dissipate high force liquid streams which may strike said outer surface and to cut up said filler layer as it passes through said apertures if said filler layer is torn by a high force liquid stream. 2. The blanket of claim 1 wherein said waterproof sheet comprises a solid sheet of silicone rubber. 3. The blanket of claim 2 wherein said waterproof sheet comprises a wire mesh embeddded in silicone rubber. 4. The blanket of claim 1 wherein said wire has a dimaeter of from about 0.005 to about 0.015 inches. 5. The blanket of claim 4 wherein said casing is knitted wire mesh having of from about 48 to about 76 apertures per square inch and said wire is of from about 0.006 to about 0.011 inches in diameter. 6. The blanket of claim 5 wherein said casing has about 48 apertures per square inch and said wire is about 0.011 inches in diameter. 7. The blanket of claim 1 wherein said casing cuts said filler layer into pieces no greater than about 0.5 inches in diameter. 8. The blanket of claim 7 wherein said fibers are selected from the group consisting of glass fibers, ceramic fibers, and combinations thereof. 9. A thermal insulating blanket having an inner surface positionable adjacent an object to be insulated and an opposing outer surface, said blanket being resistant to tearing if a high force liquid stream strikes said outer surface and adapted to be dissipated into small pieces if torn by said stream, said blanket comprising: 10. The blanket of claim 9, further comprising at least one metal lacing anchor extending through said mesh casing, filler layer and waterproof sheet to further strengthen said blanket. 11. The blanket of claim 9, wherein said wire mesh septum is secured along its edges to said wire mesh casing. 12. The blanket of claim 9 wherein said casing and septum are knitted wire mesh having of from about 40 to about 100 spaced apertures per square inch and said wire has a diameter of from about 0.005 to about 0.015 inches. 13. The blanket of claim 12 wherein said casing and septum have from about 40 to about 60 spaced apertures per square inch. 14. The blanket of claim 13 wherein said wire has a diameter of about 0.011 inches. 15. A thermal insulating blanket having an inner surface positionable adjacent an object to be insulated and an opposing outer surface, said blanket being resistant to tearing if a high force liquid stream strikes said outer surface and adapted to be dissipated into small piece if torn by said stream, said blanket comprising: 16. The blanket of claim 15 wherein said casing has about 48 to about 60 apertures per square inch and said wire is about 0.011 inches in diameter and is made from a metal selected from the group consisting of stainless stell and Inconel. 17. The blanket of claim 16 wherein said metal is Inconel. 18. A process for thermally insulating pipes and equipemnt in the containment building of a nuclear power station with insulation which resists damage if stuck by a high-force liquid stream during a loss of coolant accident and which if torn is dissipated into small pieces which will not clog the circulating pump, said process comprising the step of applying to the pipes and equipment insulating blankets, each of said blankes having an inner surface positioned adjacent the pipes and equipment and an opposing outer surface, each of said blankets comprising a filler layer of thermal insulating fibers and a wire mesh casing covering at least one surface of said filler layer to form said outer surface of said blanket, said casing being adapted to dissipate high force liquid streams which may strike said outer surface of said blanket and to cut up said filler layer as it passes through said casing into small pieces which will not clog a circulating pump if said filler layer is torn by a high force liquid stream. 19. The process of claim 18 further including a waterproof sheet positioned between said filler layer and said outer surface. 20. The process of claim 19 wherein said mesh casing forms a continuous envelope having edges attached by clips which also pass through said waterproof sheet. 21. The process of claim 20 wherein said casing comprises knitted mesh having of from about 40 to about 100 spaced apertures per squares inch and said wire has a diameter of from about 0.005 to about 0.015 inches. 22. The process of claim 21 wherein said casing comprises knitted mesh having of from about 48 to about 76 spaced apertures per square inch and said wire has a diameter of from about 0.006 to about 0.011 inches. 23. The process of claim 20 wherein said waterproof sheet comprises a wire mesh embedded in silicone rubber and said casing comprises Inconel knitted mesh of about 0.011 inch diameter wire and having about 40 to about 60 apertures per square inch.