The United States of America as represented by the Secretary of the Navy
대리인 / 주소
Monsey, Christopher A.
인용정보
피인용 횟수 :
0인용 특허 :
36
초록▼
An apparatus being a lined fabric material is disclosed. One embodiment of the lined fabric is used as an augmentation sleeve for use with a non lethal, explosive device and includes a lined material having a liner material in between a first fabric and a second fabric, where at least said first fab
An apparatus being a lined fabric material is disclosed. One embodiment of the lined fabric is used as an augmentation sleeve for use with a non lethal, explosive device and includes a lined material having a liner material in between a first fabric and a second fabric, where at least said first fabric is likely to rupture when an explosive force being substantially applied to a liner material in said lined fabric. A liner material is a material that reduces the likelihood of injury when expelled from the lined fabric and contacts a person. The fabric material has some properties of flexible light weight material properties and also has the properties of substantially rigid materials.
대표청구항▼
1. An augmentation device comprising: a kinetic force apparatus adapted to produce a first effect comprising a first kinetic force above a second kinetic force, said kinetic force apparatus comprises an explosive device that generates said first effect comprising a gas vented in a plurality of direc
1. An augmentation device comprising: a kinetic force apparatus adapted to produce a first effect comprising a first kinetic force above a second kinetic force, said kinetic force apparatus comprises an explosive device that generates said first effect comprising a gas vented in a plurality of directions away from said kinetic force apparatus;an augmentation apparatus adapted to produce a second effect, said augmentation apparatus comprising an enclosing structure comprising a first flexible layer, a second flexible layer, said enclosing structure having a fastener, an opening in said enclosing structure formed with a wall structure, wherein said enclosing structure further comprises a moveable cover adapted to selectively couple said moveable cover with a section of said wall structure, said enclosing structure is adapted to receive and selectively retain and release said kinetic force apparatus such that said enclosing structure conforms to at least one side of said kinetic force apparatus and in physical contact with at least one side of said kinetic force apparatus,said enclosing structure further comprises a plurality of cells formed into the first and second layers, wherein said plurality of cells are adapted to retain a plurality of third layers respectively within each of said cells in a first position relative to said kinetic force apparatus when a force up to at least said second kinetic force impinges upon said first and second layers,wherein, said first layer, said second layer, and said plurality of cells are adapted to release said plurality of third layers when said first kinetic force impinges upon said first and second layers when said kinetic force apparatus is detonated and substantially tears at least said first layer, where said first kinetic force is greater than a tensile strength of said first and second layers,wherein said first and second layers have a respective first and second material property adapted to provide substantial resistance to abrasion and loss of integrity, andwherein said third layer comprises a material and shape selected such that said third layer substantially retains structural integrity and absorbs said first kinetic force and retains a level of kinetic energy above a second kinetic force sufficient to substantially produce an impact or damage event within a predetermined radius from said kinetic force apparatus when said kinetic force apparatus is detonated. 2. The augmentation device of claim 1, wherein said kinetic force apparatus is adapted to produce said first effect without producing fragmentation objects from said kinetic force apparatus. 3. The augmentation device of claim 1, wherein said kinetic force apparatus is adapted to produce said first effect in addition to producing fragmentation objects from said kinetic force apparatus. 4. The augmentation device as in claim 1, wherein said third layer includes a means for injury reduction. 5. The augmentation device as in claim 4, wherein said means for injury reduction of said third layer comprises a section of said third layer having at least one rounded edge. 6. The augmentation device as in claim 4, wherein said means for injury reduction of said third layer comprises said section of said third layer having an at least slightly flexible material. 7. The augmentation device as in claim 4, wherein said means for injury reduction of said third layer comprises said section of said third layer substantially from rubber. 8. The augmentation device as in claim 6 wherein said flexible material comprises magnesium impregnated rubber formed with at least one rounded edge. 9. The augmentation device as in claim 1, wherein said third layer comprises a metal plate. 10. The augmentation device as in claim 9, wherein said metal plate comprises steel. 11. An augmentation device as in claim 4, wherein said means for injury reduction of said third layer comprises flexible material having a density substantially equivalent or greater than 1×103 kg/m3. 12. An augmentation device comprising: a kinetic force apparatus adapted to produce a first effect comprising a first kinetic force above a second kinetic force, said kinetic force apparatus comprises an explosive device that generates said first effect comprising a gas vented in a plurality of directions away from said kinetic force apparatus;an augmentation apparatus adapted to produce a second effect, said augmentation apparatus comprising an enclosing structure comprising a first flexible layer, a second flexible layer, said enclosing structure having a fastener, an opening in said enclosing structure formed with a wall structure, wherein said enclosing structure further comprises a moveable cover adapted to selectively couple said moveable cover with a section of said wall structure, said enclosing structure is adapted to receive and selectively retain and release said kinetic force apparatus such that said enclosing structure conforms to at least one side of said kinetic force apparatus and in physical contact with at least one side of said kinetic force apparatus;said enclosing structure further comprises a plurality of cells formed into the first and second layers, wherein said plurality of cells are adapted to retain a plurality of third layers respectively within each of said cells in a first position relative to said kinetic force apparatus when a force up to at least said second kinetic force impinges upon said first and second layers,wherein, said first layer, said second layer, and said plurality of cells are adapted to release said plurality of third layers when said first kinetic force impinges upon said first and second layers when said kinetic force apparatus is detonated and thereby substantially consumes at least said first layer, where said first kinetic force is greater than a tensile strength of said first and second layers,wherein said first and second layers have a respective first and second material property adapted to provide substantial resistance to abrasion and loss of integrity, andwherein said third layer comprises a material and shape selected such that said third layer substantially retains structural integrity and absorbs said first kinetic force and retains a level of kinetic energy above a second kinetic force sufficient to substantially produce an impact or damage event within a predetermined radius from said kinetic force apparatus when said kinetic force apparatus is detonated. 13. The augmentation device of claim 12, wherein said kinetic force apparatus is adapted to produce said first effect without producing fragmentation objects from said kinetic force apparatus. 14. The augmentation device of claim 12, wherein said kinetic force apparatus is adapted to produce said first effect in addition to producing fragmentation objects from said kinetic force apparatus. 15. The augmentation device as in claim 12, wherein said third layer includes a means for injury reduction. 16. The augmentation device as in claim 15, wherein said means for injury reduction comprises at least one section of said third layer having at least one rounded edge. 17. The augmentation device as in claim 15, wherein said means for injury reduction comprises said third layer including a flexible material adapted to deform and thereby dissipate kinetic force upon impact having a density substantially equivalent to or greater than 1×103 kg/m3. 18. The augmentation device as in claim 16, wherein said means for injury reduction comprises forming said third layer substantially from rubber. 19. The augmentation device as in claim 17, wherein said flexible material comprises magnesium impregnated rubber formed with at least one rounded edge. 20. The augmentation device as in claim 12, wherein said third layer comprises a metal plate. 21. The augmentation device as in claim 20, wherein said metal plate comprises steel. 22. An augmentation device as in claim 15, wherein said means for injury reduction comprises said third layer having a somewhat flexible material having a density substantially equivalent to or greater than 1×103 kg/m3. 23. An augmentation device comprising: a kinetic force apparatus comprising an explosive device operable to generate a first effect, said first effect comprising an explosively generated gas wave directed away from said kinetic force apparatus;an augmentation apparatus adapted to produce a second effect, said augmentation apparatus comprising an enclosing structure comprising a first flexible layer, a second flexible layer, said enclosing structure having a fastener, an opening in said enclosing structure formed with a wall structure, wherein said enclosing structure further comprises a moveable cover adapted to selectively couple said moveable cover with a section of said wall structure, said enclosing structure is adapted to receive and selectively retain and release said kinetic force apparatus such that said enclosing structure conforms to at least one side of a kinetic force apparatus and being adapted to being in physical contact with at least one side of said kinetic force apparatus, said augmentation apparatus being adapted to receive said first effect produced by the kinetic force apparatus comprising said first kinetic force above a second kinetic force,said enclosing structure further comprises a plurality of cells formed into the first and second layers, wherein said plurality of cells are adapted to retain a plurality of third layers respectively within each of said cells in a first position relative to said kinetic force apparatus when a force up to at least said second kinetic force impinges upon said first and second layers,wherein, said first layer, said second layer, and said plurality of cells are adapted to release said plurality of third layers when said first kinetic force impinges upon said first and second layers when said kinetic force apparatus is detonated and substantially tears at least said first layer, where said first kinetic force is greater than a tensile strength of said first and second layers,wherein said first and second layers have a respective first and second material property adapted to provide substantial resistance to abrasion and loss of integrity, andwherein said third layer comprises a material and shape selected such that said third layer substantially retains structural integrity and absorbs said first kinetic force and retains a level of kinetic energy above a second kinetic force sufficient to substantially produce an impact or damage event within a predetermined radius from said kinetic force apparatus when said kinetic force apparatus is detonated. 24. The augmentation device as in claim 23, wherein said third layer comprises a means adapted to reduce injury from impact of said third layer. 25. The augmentation device as in claim 24, wherein said means adapted to reduce injury comprises said third layer being substantially shaped to reduce a likelihood of injury from an impact by said third layer when it is ejected from said augmentation device from said first force. 26. The augmentation device as in claim 25, wherein said means adapted to reduce injury further comprises said third layer being substantially shaped to reduce a likelihood of injury from said impact by said third layer. 27. The augmentation device as in claim 26, wherein said third layer is formed with at least one rounded corner. 28. The augmentation device as in claim 27, wherein said means adapted to reduce injury further comprises said third layer substantially comprising a material formed to reduce a likelihood of injury from said impact. 29. The augmentation device as in claim 28, wherein said means adapted to reduce injury wherein said third layer being substantially formed of hardened rubber. 30. The augmentation device as in claim 23, wherein said at least one of said cells further comprises a marking substance section adapted for marking a person within range of said augmentation device when said force is applied against said marking substance section. 31. A trespass reduction system for a motor vessel utilizing augmentation devices used in conjunction with an associated source of kinetic energy to reduce an entry of an unwanted guest, comprising: a plurality of kinetic force apparatuses;a plurality of augmentation devices, each augmentation device comprising an enclosing structure with a movable cover and the enclosing structure is conformed to selectively retain and release and substantially encapsulate said associated kinetic force apparatus, the augmentation device having a first side and a second side, the first side of said augmentation device comprising a first lined flexible material, the second side of said augmentation device comprising a second lined flexible material, said first side of said augmentation device being substantially away from a side of a vessel, said second side of said augmentation device being substantially close to said side of said vessel,said first lined flexible material comprises a plurality of cells formed into the first and second layers, wherein said plurality of cells are adapted to retain a plurality of third layers respectively within each of said cells when a force up to at least a second kinetic force impinges upon said first and second layers,wherein said first layer, said second layer, and said plurality of cells are adapted to release said plurality of third layers when a kinetic force impinges upon said first and second layers when said kinetic force apparatus is detonated and substantially tears at least said first layer, where said first kinetic force is greater than a tensile strength of said first and second layers, said first kinetic force being greater than said second kinetic force,wherein said third layer comprises a material and shape selected such that said third layer substantially retains structural integrity and absorbs said first kinetic force and retains a level of kinetic energy above said second kinetic force sufficient to substantially produce an impact or damage event within a predetermined radius from said kinetic force apparatus when said kinetic force apparatus is detonated; anda trigger system coupled to each of said plurality of kinetic force apparatuses. 32. The trespass reduction system of claim 31, wherein said trigger system is a manual trigger. 33. The trespass reduction system of claim 31, wherein said trigger system is an automatic trigger. 34. An intruder deterrent system, comprising: at least one kinetic force apparatus;at least one augmentation devices, said augmentation device comprising an enclosing structure with a movable cover and the enclosing structure is conformed to selectively retain and release and substantially encapsulate said associated kinetic force apparatus, the augmentation device having a first side and a second side, the first side of said augmentation device comprising a first lined flexible material, the second side of said augmentation device comprising a second lined flexible material,said first side of said augmentation device being adapted to face towards intended targets, said second side of said augmentation device being adapted to face towards non-targets,said first lined flexible material comprises a plurality of cells formed into a first and second layer, wherein said plurality of cells are adapted to retain a plurality of third layers respectively within each of said cells when a force up to at least said a kinetic force impinges upon said first and second layers,wherein said first layer, said second layer, and said plurality of cells are adapted to release said plurality of third layers when said a kinetic force impinges upon said first and second layers when said kinetic force apparatus is detonated and substantially tears at least said first layer, where said first kinetic force is greater than a tensile strength of said first and second layers, said first kinetic force being greater than said second kinetic force,wherein said third layer comprises a material and shape selected such that said third layer substantially retains structural integrity and absorbs said first kinetic force and retains a level of kinetic energy above said second kinetic force sufficient to substantially produce an impact or damage event within a predetermined radius from said kinetic force apparatus when said kinetic force apparatus is detonated; anda trigger system coupled to said kinetic force apparatus. 35. The intruder deterrent system of claim 34, further comprising: said second lined flexible material comprises a second plurality of cells formed into a fourth and fifth layer, wherein said second plurality of cells are adapted to retain a plurality of sixth layers respectively within each of said cells when a force up to at least said a second kinetic force impinges upon said fourth and fifth layers,wherein said fourth layer, said fifth layer, and said second plurality of cells are adapted to substantially retain said second plurality of cells when said kinetic force impinges upon said fourth and fifth layers when said kinetic force apparatus is detonated. 36. The trespass reduction system of claim 34, wherein said trigger system is a manual trigger. 37. The trespass reduction system of claim 34, wherein said trigger system is an automatic trigger. 38. An augmentation device as in claim 1, wherein said kinetic force apparatus further comprises a plurality of apertures adapted to vent said gas, said plurality of cells comprise a first plurality of cells, wherein said first plurality of cells are formed in said enclosing structure to permit said first plurality of cells to be aligned over said apertures when said kinetic force apparatus is inserted into said enclosing structure. 39. An augmentation device as in claim 12, wherein said kinetic force apparatus further comprises a plurality of apertures adapted to vent said gas, said plurality of cells comprise a first plurality of cells, wherein said first plurality of cells are formed in said enclosing structure to permit said first plurality of cells to be aligned over said apertures when said kinetic force apparatus is inserted into said enclosing structure. 40. An augmentation device as in claim 23, wherein said kinetic force apparatus further comprises a plurality of apertures adapted to vent said gas, said plurality of cells comprise a first plurality of cells, wherein said first plurality of cells are formed in said enclosing structure to permit said first plurality of cells to be aligned over said apertures when said kinetic force apparatus is inserted into said enclosing structure. 41. An augmentation device as in claim 1, wherein said first and second flexible layers are formed from a material that does not substantially absorb said first kinetic force from said explosive device thereby permitting substantially all of said first kinetic force to be received by said third layer.
Harpell Gary A. (Morristown NJ) Prevorsek Dusan C. (Morristown NJ) Gerlach Max W. (Hackettstown NJ), Flexible composites having rigid isolated panels and articles fabricated from same.
Manole, Leon R.; Gilman, Stewart; Stoddard, Kevin; Logsdon, Ernest; Nicolich, Mark, Land mine, and hand thrown, weapon which dispenses marking chemicals.
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