Fire and water resistant expansion joint system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
E04B-001/00
E04B-001/68
출원번호
US-0622574
(2009-11-20)
등록번호
US-8365495
(2013-02-05)
발명자
/ 주소
Witherspoon, Bill
출원인 / 주소
Emseal Joint Systems Ltd.
인용정보
피인용 횟수 :
49인용 특허 :
13
초록▼
A fire resistant and water resistant expansion joint system comprises a compressed lamination of fire retardant infused open celled foam, one coat of an elastomeric waterproofing or water resistant material on the lamination, and another coat of an intumescent material on an opposing surface of the
A fire resistant and water resistant expansion joint system comprises a compressed lamination of fire retardant infused open celled foam, one coat of an elastomeric waterproofing or water resistant material on the lamination, and another coat of an intumescent material on an opposing surface of the lamination, thereby providing fire resistance in one direction and water resistance in the opposite direction. The intumescent material may be further coated with a similar elastomeric material, thereby providing fire resistance in one direction and water resistance in both directions. In the alternative, the compressed lamination may comprise first and second opposing layers of intumescent material thereon each having a respective layer of elastomeric material to provide both water resistance and fire resistance in both directions.
대표청구항▼
1. A method of installing an expansion joint, comprising: providing a first substrate;providing a second substrate arranged to be coplanar with the first substrate and being spaced therefrom by a gap;compressing a water and fire resistant expansion joint system comprising a foam infused with a fire
1. A method of installing an expansion joint, comprising: providing a first substrate;providing a second substrate arranged to be coplanar with the first substrate and being spaced therefrom by a gap;compressing a water and fire resistant expansion joint system comprising a foam infused with a fire retardant material and having a water resistant layer and a fire resistant layer disposed thereon, where the ratio of fire retardant material infused into the open celled foam is in a range of about 3.5:1 to about 4:1 by weight;inserting the compressed expansion joint system into the gap between the first substrate and the second substrate; andallowing the compressed expansion joint system to decompress to fill the gap between the first substrate and the second substrate. 2. The method of claim 1, further comprising applying an adhesive to an edge of at least one of the first substrate and the second substrate to anchor the expansion joint system. 3. The method of installing an expansion joint according to claim 1, wherein the open celled foam has an infused foam density when compressed in a range of about 200 kg/m3 to about 700 kg/m3. 4. The method of claim 3, wherein the open celled foam has an infused foam density when compressed in a range of about 400 kg/m3 to about 450 kg/m3 such that the fire and water resistant expansion joint system passes UL 2079 testing. 5. A fire and water resistant expansion joint system, comprising: open celled foam;a fire retardant material infused into the open celled foam, where the ratio of fire retardant material infused into the open celled foam is in a range of about 3.5:1 to about 4:1 by weight;a layer of an elastomer adhesively disposed on a surface of the open celled foam; anda layer of an intumescent material disposed on a surface of the open celled foam opposing the layer of elastomer;wherein the layer of elastomer and the layer of intumescent material are configured to define a bellows profile to facilitate the compression of the fire and water resistant expansion joint system when installed between coplanar substrates. 6. The fire and water resistant expansion joint system of claim 5, wherein the open celled foam comprises a plurality of laminations of open celled foam. 7. The fire and water resistant expansion joint system of claim 5, wherein the open celled foam is polyurethane. 8. The fire and water resistant expansion joint system of claim 5, wherein the fire retardant material infused into the open celled foam is water-based aluminum tri-hydrate. 9. The fire and water resistant expansion joint system of claim 5, wherein the fire retardant material infused into the open celled foam is selected from the group consisting of metal oxides, metal hydroxides, aluminum oxides, antimony oxides and hydroxides, iron compounds, ferrocene, molybdenum trioxide, nitrogen-based compounds, and combinations of the foregoing materials. 10. The fire and water resistant expansion joint system of claim 5, wherein the elastomer adhesively disposed on the surface of the open celled foam comprises a silicone. 11. The fire and water resistant expansion joint system of claim 5, wherein the elastomer adhesively disposed on the surface of the open celled foam is selected from the group consisting of polysulfides, acrylics, polyurethanes, poly-epoxides, silyl-terminated polyethers, and combinations of one or more of the foregoing. 12. The fire and water resistant expansion joint system of claim 5, wherein the intumescent material disposed on the surface of the open celled foam comprises a fire barrier caulk. 13. The fire and water resistant expansion joint system of claim 5, wherein the open celled foam uncompressed has a density of about 130 kg/m3 to about 150 kg/m3. 14. The fire and water resistant expansion joint system of claim 5, further comprising a second layer of elastomer disposed on the layer of intumescent material. 15. The fire and water resistant expansion joint system of claim 5, wherein the open celled foam has an infused foam density when compressed in a range of about 200 kg/m3 to about 700 kg/m3. 16. The fire and water resistant expansion joint system of claim 15, wherein the open celled foam has an infused foam density when compressed in a range of about 400 kg/m3 to about 450 kg/m3 such that the fire and water resistant expansion joint system passes UL 2079 testing. 17. A fire and water resistant expansion joint system, comprising: open celled foam;a fire retardant material infused into the open celled foam, where the ratio of fire retardant material infused into the open celled foam is in a range of about 3.5:1 to about 4:1 by weight;a first layer of an intumescent material disposed on a first surface of the open celled foam;a first layer of an elastomer disposed on the first layer of intumescent material;a second layer of an intumescent material disposed on a second surface of the open celled foam; anda second layer of an elastomer disposed on the second layer of intumescent material;wherein the first and second layers of elastomer and the first and second layers of intumescent material are configured to define a bellows profile to facilitate the compression of the fire and water resistant expansion joint system when installed between coplanar substrates. 18. The fire and water resistant expansion joint system of claim 17, wherein the open celled foam comprises a plurality of laminations of open celled foam. 19. The fire and water resistant expansion joint system of claim 17, wherein the open celled foam is polyurethane. 20. The fire and water resistant expansion joint system of claim 17, wherein the fire retardant material infused into the open celled foam is water-based aluminum tri-hydrate. 21. The fire and water resistant expansion joint system of claim 17, wherein the fire retardant material infused into the open celled foam is selected from the group consisting of metal oxides, metal hydroxides, aluminum oxides, antimony oxides and hydroxides, iron compounds, ferrocene, molybdenum trioxide, nitrogen-based compounds, and combinations of the foregoing materials. 22. The fire and water resistant expansion joint system of claim 17, wherein the elastomer disposed on the intumescent material comprises a silicone. 23. The fire and water resistant expansion joint system of claim 17, wherein the intumescent material disposed on the surface of the open celled foam comprises a fire barrier caulk. 24. The fire and water resistant expansion joint system of claim 17, wherein the elastomer disposed on the intumescent material is selected from the group consisting of polysulfides, acrylics, polyurethanes, poly-epoxides, silyl-terminated polyethers, and combinations of one or more of the foregoing. 25. The fire and water resistant expansion joint system of claim 17, wherein the open celled foam has an uncompressed density in a range of about 130 kg/m3 to about 150 kg/m3. 26. The fire and water resistant expansion joint system of claim 17, wherein the open celled foam has an infused foam density when compressed in a range of about 200 kg/m3 to about 700 kg/m3. 27. The fire and water resistant expansion joint system of claim 26, wherein the open celled foam has an infused foam density when compressed in a range of about 400 kg/m3 to about 450 kg/m3 such that the fire and water resistant expansion joint system passes UL 2079 testing. 28. A fire and water resistant architectural expansion joint system, comprising: a first substrate;a second substrate arranged coplanar to the first substrate; andan expansion joint located in compression between the first substrate and the second substrate, the expansion joint comprising, open celled polyurethane foam having a fire retardant material infused therein, where the ratio of fire retardant material infused into the open celled foam is in a range of about 3.5:1 to about 4:1 by weight;at least one layer of an intumescent material disposed on at least one surface of the open celled polyurethane foam; andat least one layer of elastomer disposed on at least one of a surface of the open celled polyurethane foam and at least one layer of the intumescent material;wherein the expansion joint is compressed between the first substrate and the second substrate to accommodate movement therebetween. 29. The architectural joint system of claim 28, wherein the elastomer is selected from the group consisting of silicones, polysulfides, acrylics, polyurethanes, poly-epoxides, silyl-terminated polyethers, and combinations of one or more of the foregoing. 30. The architectural joint system of claim 28, wherein the intumescent material comprises a fire barrier caulk. 31. The architectural joint system of claim 28, wherein the fire retardant material infused into the open celled polyurethane foam is water-based aluminum tri-hydrate. 32. The architectural joint system of claim 28, wherein the fire retardant material infused into the open celled polyurethane foam is selected from the group consisting of metal oxides, metal hydroxides, aluminum oxides, antimony oxides and hydroxides, iron compounds, ferrocene, molybdenum trioxide, nitrogen-based compounds, and combinations of the foregoing materials. 33. The architectural joint system of claim 28, further comprising a bead of elastomer located at an interface of the expansion joint and at least one of the first substrate and the second substrate. 34. The architectural joint system of claim 28, wherein the open celled polyurethane foam comprises a plurality of laminations of open celled polyurethane foam. 35. The architectural joint system of claim 28, wherein the open celled foam has an infused foam density when compressed in a range of about 200 kg/m3 to about 700 kg/m3. 36. The architectural joint system of claim 35, wherein the open celled foam has an infused foam density when compressed in a range of about 400 kg/m3 to about 450 kg/m3 such that the fire and water resistant expansion joint system passes UL 2079 testing. 37. A fire and water resistant architectural expansion joint system, comprising: a first substrate;a second substrate arranged coplanar to the first substrate; andan expansion joint located in compression between the first substrate and the second substrate, the expansion joint comprising, open celled polyurethane foam having a fire retardant material comprising water-based aluminum tri-hydrate infused therein, where the ratio of water-based aluminum tri-hydrate infused into the open celled foam is in a range of about 3.5:1 to about 4:1 by weight;at least one layer of an intumescent material comprising a fire-resistant caulk disposed on at least one surface of the open celled polyurethane foam;at least one layer of a waterproofing elastomer comprising a silicone disposed on at least one of a surface of the open celled polyurethane foam and at least one layer of the intumescent material;wherein the expansion joint is compressed between the first substrate and the second substrate to accommodate movement therebetween; andat least one of a bead of the intumescent material and a bead of the elastomer located at an interface of the expansion joint and at least one of the first substrate and the second substrate. 38. The fire and water resistant architectural expansion joint system of claim 37, wherein the open celled foam has an infused foam density when compressed in a range of about 200 kg/m3 to about 700 kg/m3. 39. The fire and water resistant architectural expansion joint system of claim 38, wherein the open celled foam has an infused foam density when compressed in a range of about 400 kg/m3 to about 450 kg/m3 such that the fire and water resistant expansion joint system passes UL 2079 testing.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (13)
Bogdany John (Oglethorpe GA), Composite open-cell foam structure.
Schmid RenP. (Grundstrasse 2 CH-8165 Oberweningen CHX), Sealing device for concrete joints and process for the introducing of a sealing medium into sealing devices.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.