IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0289511
(2005-11-30)
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등록번호 |
US-8245619
(2012-08-21)
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발명자
/ 주소 |
|
출원인 / 주소 |
- Life Shield Engineered Systems, LLC
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대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
6 인용 특허 :
104 |
초록
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A blast-resistant panel may include a layer of a pre-cured elastomeric material having a predetermined thickness, a body portion, and a plurality of flanges, each of the plurality of flanges having a substantially equal width and depending away from a same side and at approximately equivalent right
A blast-resistant panel may include a layer of a pre-cured elastomeric material having a predetermined thickness, a body portion, and a plurality of flanges, each of the plurality of flanges having a substantially equal width and depending away from a same side and at approximately equivalent right angles to the body portion. The blast-resistant panel may also include a plurality of fastener elements for securing the cured elastomeric material layer to a surface of a structure through the plurality of flanges of cured elastomeric material.
대표청구항
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1. A blast-resistant panel system comprising: a layer of a pre-cured, flexible elastomeric material having a body portion and a plurality of flanges made only of the pre-cured, flexible elastomeric material, the layer of the pre-cured, flexible elastomeric material having only a single layer of a su
1. A blast-resistant panel system comprising: a layer of a pre-cured, flexible elastomeric material having a body portion and a plurality of flanges made only of the pre-cured, flexible elastomeric material, the layer of the pre-cured, flexible elastomeric material having only a single layer of a substantially uniform predetermined thickness, and each of the plurality of flanges depending away from a same side of the body portion, where the body portion has a length substantially equal to a height of a wall in a structure, the pre-cured, single layer of flexible elastomeric material having substantially entirely exposed front and back sides; anda plurality of fastener elements for securing the pre-cured, flexible elastomeric material layer against the wall of the structure through the plurality of flanges and into a ceiling and a floor near the wall of the structure and anchoring the plurality of fastener elements in the ceiling and floor near the wall, the front and back sides of the flexible elastomeric material layer remaining substantially entirely exposed until the flexible elastomeric material layer is secured against the wall. 2. The system of claim 1, wherein the elastomeric material is selected from the group consisting of polyurea, polysiloxane, polyurethane, and a polyurea/polyurethane hybrid. 3. The system of claim 2 wherein the elastomeric material has a percent elongation at break in a range of about 100-800%. 4. The system of claim 1, wherein the elastomeric material is a polyurea material. 5. The system of claim 1 wherein the pre-cured, flexible layer of the predetermined thickness of elastomeric material is formed by spraying an uncured layer of the elastomeric material to the predetermined thickness. 6. The system of claim 1 further comprises a fabric reinforcement layer associated with the elastomeric material including the body portion and at least two opposing flanges. 7. The system of claim 1 wherein the plurality of fastener elements comprises at least one of a plurality of lengths of U-channel, a plurality of lengths of Z-channel, a plurality of lengths of continuous fastening strips, a plurality of lengths of non-continuous fastening strips, and a plurality of washers; at least one of a plurality of nails, a plurality of screws, a plurality of concrete nails and a plurality of concrete screws; and a glue or an epoxy. 8. The system of claim 1, wherein the panel includes one or more perforations to facilitate bending of the flanges. 9. The system of claim 1, wherein the flanges are bent using a heat source. 10. The system of claim 1, wherein at least two panels are placed adjacently to one another with either a first panel partially overlapping a portion of a second panel or with the first panel abutting an edge portion of the second panel. 11. The system of claim 10, wherein a tape secures adjacent panels. 12. The system of claim 1, wherein framing and a finishing panel is secured over the panel. 13. The system of claim 1, further comprising a door having associated therewith a blast-resistant panel. 14. The system of claim 1, further comprising a clear polyurea layer covering one or more windows and integrated with one or more blast-resistant panels. 15. The system of claim 1, wherein the body portion has a width of at least eighteen inches. 16. A blast-resistant panel comprising: a layer of a pre-cured, flexible elastomeric material having a body portion and a plurality of flanges made only of the pre-cured elastomeric material, each of the plurality of flanges depending away from a same side of the body portion, where the body portion has a length substantially equal to a height of a wall in a structure, and the layer of the pre-cured, flexible elastomeric material having only a single layer of a substantially uniform predetermined thickness, the pre-cured, single layer of flexible elastomeric material having substantially entirely exposed front and back sides;at least one fabric layer, the fabric layer being secured within the layer of pre-cured, flexible elastomeric material and the fabric layer configured to allow deformation and elongation of the layer of pre-cured, flexible elastomeric material; anda plurality of fastener elements for securing the blast-resistant panel to a surface of a structure, the front and back sides of the flexible elastomeric material layer remaining substantially entirely exposed until the blast-resistant panel is secured to the surface of the structure. 17. The panel of claim 16, wherein the at least one fabric layer has a length equal to a length of the pre-cured, flexible elastomeric material at a percentage elongation. 18. The panel of claim 16, wherein the elastomeric material is selected from the group consisting of polyurea, polysiloxane, polyurethane, and a polyurea/polyurethane hybrid. 19. The panel of claim 16, wherein the elastomeric material is a polyurea material. 20. The panel of claim 18, wherein the elastomeric material has a percent elongation at break in a range of about 100-800%. 21. The panel of claim 16, wherein the pre-cured, flexible layer of the predetermined thickness of elastomeric material is formed by spraying an uncured layer of the elastomeric material to the predetermined thickness. 22. The panel of claim 16, wherein the fabric layer associated with the elastomeric material is within the body portion and at least two opposing flanges of the pre-cured, single layer of flexible elastomeric material. 23. The system of claim 16, wherein the plurality of fastener elements comprises at least one of a plurality of lengths of U-channel, a plurality of lengths of Z-channel, a plurality of lengths of continuous fastening strips, a plurality of lengths of non-continuous fastening strips, and a plurality of washers; at least one of a plurality of nails, a plurality of screws, a plurality of concrete nails and a plurality of concrete screws; and a glue or an epoxy. 24. The panel of claim 16, wherein the panel includes one or more perforations to facilitate bending of the flanges. 25. The panel of claim 16, wherein the flanges are bent using a heat source. 26. The panel of claim 16, further comprising at least two panels placed adjacently to one another with either a first panel partially overlapping a portion of a second panel or with the first panel abutting an edge portion of the second panel. 27. The panel of claim 26, wherein a tape secures adjacent panels. 28. The panel of claim 16, wherein framing and a finishing panel is secured over the panel. 29. The panel of claim 16, further comprising a door having associated therewith a blast-resistant panel. 30. The panel of claim 16, further comprising a clear polyurea layer covering one or more windows and integrated with one or more blast-resistant panels. 31. A blast-resistant panel comprising: a layer of a pre-cured, flexible elastomeric material having a body portion and a plurality of flanges constructed using only the pre-cured, flexible elastomeric material, each of the plurality of flanges depending away from a same side of the body portion, where the body portion has a length substantially equal to a height of a wall in a structure and a width of at least eighteen inches, and the pre-cured, flexible elastomeric material having only a single layer of a predetermined thickness in the range of about 100 mil to about 250 mil, the pre-cured, single layer of flexible elastomeric material having substantially entirely exposed front and back sides;at least one fabric layer, the fabric layer being secured within the layer of pre-cured, flexible elastomeric material and the fabric layer configured to allow deformation and elongation of the layer of pre-cured, flexible elastomeric material; anda plurality of fastener elements for securing the blast-resistant panel to a surface of a structure, the front and back sides of the flexible elastomeric material layer remaining substantially entirely exposed until the blast-resistant panel is secured to the surface of the structure. 32. The panel of claim 31, wherein the at least one fabric layer has a length equal to a length of the pre-cured, flexible elastomeric material at a percentage elongation. 33. A blast-resistant panel layer system comprising: a continuous blast-resistant layer made only of a single layer of a pre-cured, flexible elastomeric material having a substantially uniform predetermined thickness, the blast-resistant layer having substantially entirely exposed front and back sides; anda plurality of fastener elements for securing at least one panel from the blast-resistant layer of the pre-cured, flexible elastomeric material layer against a wall of a structure through a plurality of flanges formed from top and bottom sections of the panel and into a ceiling and a floor near the wall of the structure and anchoring the plurality of fastener elements in the ceiling and floor near the wall, the front and back sides of the blast-resistant layer remaining substantially entirely exposed until the pre-cured flexible elastomeric material layer is secured against the wall. 34. The blast-resistant panel layer system of claim 33, wherein the continuous blast-resistant layer of the pre-cured, flexible elastomeric material has a width of at least eighteen inches. 35. The blast-resistant panel layer system of claim 33, wherein the continuous blast-resistant layer of the pre-cured, flexible elastomeric material includes perforations across a width of the continuous blast-resistant layer. 36. The blast-resistant panel layer system of claim 33 further includes a plastic sheeting applied to one side of the continuous blast-resistant layer of the pre-cured, flexible elastomeric material. 37. The blast-resistant panel layer system of claim 33 wherein the plurality of fastener elements includes an adhesive. 38. The blast-resistant panel layer system of claim 37 wherein the plurality of fastener elements further comprises at least one of a plurality of lengths of U-channel, a plurality of lengths of Z-channel, a plurality of lengths of continuous fastening strips, a plurality of lengths of non-continuous fastening strips, and a plurality of washers; and at least one of a plurality of nails, a plurality of screws, a plurality of concrete nails and a plurality of concrete screws. 39. The blast-resistant panel layer system of claim 33 wherein the plurality of flanges also includes at least one flange formed from a side section of the panel of the blast-resistant layer of the pre-cured, flexible elastomeric material layer. 40. A blast-resistant panel layer comprising: a continuous blast-resistant layer constructed only of a single layer of a pre-cured, flexible elastomeric material, the blast-resistant layer having substantially entirely exposed front and back sides, the front and back sides of the blast-resistant layer remaining substantially entirely exposed until the blast-resistant layer of the pre-cured flexible elastomeric material layer is secured against a wall in a structure; andat least one fabric layer secured within the continuous blast-resistant layer of pre-cured, flexible elastomeric material such that the blast-resistant panel has a substantially uniform predetermined thickness, and the at least one fabric layer configured to allow deformation and elongation of the layer of pre-cured, flexible elastomeric material. 41. The blast-resistant panel layer of claim 40, wherein the continuous blast-resistant layer of the pre-cured, flexible elastomeric material has a width of at least eighteen inches. 42. The blast-resistant panel layer of claim 40, wherein the continuous blast-resistant layer of the pre-cured, flexible elastomeric material includes perforations across a width of the continuous blast-resistant layer. 43. The blast-resistant panel layer of claim 40 further includes a plastic sheeting applied to one side of the continuous blast-resistant layer of the pre-cured, flexible elastomeric material. 44. A blast-resistant panel layer system comprising: a continuous blast-resistant layer made only of a single layer of a pre-cured, flexible elastomeric material, the blast-resistant layer having substantially entirely exposed front and back sides;at least one fabric layer secured within the continuous blast-resistant layer of pre-cured, flexible elastomeric material such that the continuous blast-resistant layer of a pre-cured, flexible elastomeric material and the at least one fabric layer secured within the continuous blast-resistant layer of pre-cured, flexible elastomeric material together have a substantially uniform predetermined thickness, and the at least one fabric layer configured to allow deformation and elongation of the layer of pre-cured, flexible elastomeric material; anda plurality of fastener elements for securing at least one panel from the blast-resistant layer of the pre-cured, flexible elastomeric material layer against a wall of a structure through a plurality of flanges formed from top and bottom sections of the panel and into a ceiling and a floor near the wall of the structure and anchoring the plurality of fastener elements in the ceiling and floor near the wall, the front and back sides of the blast-resistant layer remaining substantially entirely exposed until the blast-resistant layer of the pre-cured flexible elastomeric material layer is secured against the wall. 45. The blast-resistant panel layer system of claim 44, wherein the continuous blast-resistant layer of the pre-cured, flexible elastomeric material has a width of at least eighteen inches. 46. The blast-resistant panel layer system of claim 44, wherein the continuous blast-resistant layer of the pre-cured, flexible elastomeric material includes perforations across a width of the continuous blast-resistant layer. 47. The blast-resistant panel layer system of claim 44 further includes a plastic sheeting applied to one side of the continuous blast-resistant layer of the pre-cured, flexible elastomeric material. 48. The blast-resistant panel layer system of claim 44 wherein the plurality of flanges also includes at least one flange formed from a side section of the panel of the blast-resistant layer of the pre-cured, flexible elastomeric material layer. 49. The blast-resistant panel layer system of claim 44, wherein the elastomeric material is selected from the group consisting of polyurea, polysiloxane, polyurethane, and a polyurea/polyurethane hybrid.
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