Weather protection systems, for use in protecting structures and structural elements during severe weather events, are disclosed. Also disclosed are methods of assembling and installing weather protection systems. Weather protection systems of this invention provide fabric to cover a structural elem
Weather protection systems, for use in protecting structures and structural elements during severe weather events, are disclosed. Also disclosed are methods of assembling and installing weather protection systems. Weather protection systems of this invention provide fabric to cover a structural element; the fabric is connected to the structure via a clip. A clip of is invention may include features such as fastening points, anchor points, and engaging members; a clip may also introduce a desirable point of flexibility into a system of this invention. Other features of weather protection systems of this invention may include resin and straps.
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1. A weather protection system for a structural element of a building, wherein said structural element is a window, an entry door, a patio opening, a garage door, or a porch opening, said weather protection system comprising: (a) a fabric sized to fit said structural element, said fabric comprising
1. A weather protection system for a structural element of a building, wherein said structural element is a window, an entry door, a patio opening, a garage door, or a porch opening, said weather protection system comprising: (a) a fabric sized to fit said structural element, said fabric comprising one or more of the following characteristics: (1) an elongation of no more than 25%, (2) a minimum open area of not more than 10%; (3) a ball burst strength of at least 600 psi; (4) a tensile strength of at least 540 pounds for the warp fibers and at least 425 pounds for the weft fibers; (5) a diaphragm burst strength of at least 825 psi; (6) a tear strength of at least 200 pounds for the warp fibers and at least 170 pounds for the weft fibers; (7) an abrasion resistance of at least 95% strength retained; (8) a puncture resistance of at least 190 pounds; (9) air flow of not more than 230 cubic feet per minute; and/or (10) an ultra violet retention (measured using ASTM DG154) of not less than 90%;(b) a plurality of anchoring devices;(c) a plurality of fasteners; and(d) a plurality of clips, wherein each clip comprises a first plate, a second plate, a first anchor opening, a second anchor opening, and a plurality of fastening points, wherein said first plate is adapted to be connected to said second plate at said fastening points with said fasteners, and wherein said first anchor opening and said plurality of fastening points lie in a first plane and said second anchor opening lies in a second plane that is substantially perpendicular to said first plane. 2. The system of claim 1, further comprising a ceramic resin, wherein said ceramic resin is adapted to be applied to at least one said fastening point as a liquid. 3. The system of claim 2, wherein said clip further comprises a resin receptacle. 4. The system of claim 1, further comprising a plurality of straps sized to fit a secured span of said structural element wherein said straps are adapted to be placed between said fabric and said structural element. 5. The system of claim 1, wherein each of said clips further comprises super tough nylon. 6. The system of claim 1, wherein said fabric further comprises polypropylene yarn, said yarn comprising a denier in the range of 500 to 1000. 7. The system of claim 1, wherein said fasteners comprise mechanical fasteners. 8. The system of claim 7, wherein said fasteners comprise screws. 9. The system of claim 1, wherein said fabric further comprises the following characteristics: (1) an elongation of no more than 20%, (2) a minimum open area of not more than 5%; and (3) a ball burst strength of at least 600 psi. 10. The system of claim 1, wherein each of said clips further comprises an engaging member. 11. The system of claim 1, wherein the second anchor opening of the first plate comprises an annular protrusion and the second anchor opening of the second plate comprises a hole adapted to mate with the annular protrusion of the second anchor opening of the first plate. 12. The system of claim 1, wherein said first anchor opening is a stabilizing anchor point. 13. The system of claim 1, further comprising a ceramic resin, wherein said ceramic resin is adapted to be applied to at least one fastening point as a pre-dried patty. 14. The system of claim 1 wherein said fabric comprises polyethylene yarn. 15. A weather protection system for a structural element of a building, wherein said structural element is a window, an entry door, a patio opening, a garage door, or a porch opening, said weather protection system comprising: (a) a fabric sized to fit said structural element, said fabric comprising (i) polypropylene yarn with a denier in the range of 500 to 1000; (ii) an elongation of no more than 25%; (iii) a minimum open area of not more than 5%; and (iv) a ball burst strength of at least 600 psi;(b) a plurality of anchoring devices;(c) a plurality of mechanical fasteners;(d) a plurality of clips, wherein each clip comprises a first plate, a second plate, a first anchor opening, a second anchor opening, an engaging member, and a plurality of fastening points, wherein said first plate is adapted to be connected to said second plate at said fastening points with said mechanical fasteners, and wherein said first anchor opening and said plurality of fastening points lie in a first plane and said second anchor opening lies in a second plane that is substantially perpendicular to said first plane; and(e) a plurality of straps sized to fit a secured span of said structural element wherein said straps are adapted to be placed between said fabric and said structural element. 16. A method of assembling a weather protection system, the method comprising the steps: (a) identifying a structural element of a building, wherein said structural element is a window, an entry door, a patio opening, a garage door, or a porch opening;(b) providing fabric sized to substantially cover the structural element;(c) providing a plurality of clips, said clips comprising a first plate, a second plate, a first anchor opening, a second anchor opening, and a plurality of fastening points, wherein said first plate is adapted to be connected to said second plate at said fastening points with said fasteners, and wherein said first anchor opening and said plurality of fastening points lie in a first plane and said second anchor opening lies in a second plane that is substantially perpendicular to said first plane;(d) providing a plurality of fasteners; and(e) connecting said clips to the fabric using said fasteners. 17. The method of claim 16, further comprising the steps: (a) providing a liquid, ceramic resin; and(b) applying said resin to said clip. 18. A method of installing a weather protection system on a structure, the method comprising the steps: (a) identifying a structural element of a building, wherein said structural element is a window, an entry door, a patio opening, a garage door, or a porch opening;(b) providing fabric sized to substantially cover the structural element;(c) providing a plurality of clips, said clips comprising a first plate, a second plate, a first anchor opening, a second anchor opening, and a plurality of fastening points, wherein said first plate is adapted to be connected to said second plate at said fastening points with said fasteners, and wherein said first anchor opening and said plurality of fastening points lie in a first plane and said second anchor opening lies in a second plane that is substantially perpendicular to said first plane;(d) providing a plurality of fasteners;(e) connecting said clips to the fabric using said fasteners to create an assembled weather protection system;(f) designating a plurality of securing points around said structural element; and(g) connecting said assembled weather protection system to said structure. 19. The method of claim 18, further comprising the steps: (a) providing a liquid, ceramic resin; and(b) applying said resin to said clips. 20. The method of claim 18, wherein said structural element comprises a secured span, said method further comprising the steps: (a) providing a plurality of straps sized to fit said secured span; and(b) placing said plurality of straps between said fabric and said structural element; and(c) connecting said plurality of straps to said structure. 21. The method of claim 18, wherein said fabric provided in step (b) comprises (i) polypropylene yarn with a denier in the range of 500 to 1000; (ii) an elongation of no more than 25%; (iii) a minimum open area of not more than 5%; and (iv) a ball burst strength of at least 600 psi. 22. The method of claim 18, wherein said clips provided in step (c) further comprise super tough nylon. 23. The method of claim 18, wherein said fabric provided in step (b) comprises polypropylene yarn. 24. A method of installing a weather protection system on a structure, the method comprising the steps: (a) providing an assembled weather protection system for a structural element of a building, wherein the structural element comprises a secured span and is a window, an entry door, a patio opening, a garage door, or a porch opening, said weather protection system comprising (i) a fabric sized to substantially cover said structural element, (ii) a plurality of fasteners, and (iii) a plurality of clips connected to said fabric using said fasteners, said clips comprising a first plate, a second plate, a first anchor opening, a second anchor opening, and a plurality of fastening points, wherein said first plate is adapted to be connected to said second plate at said fastening points with said fasteners, and wherein said first anchor opening and said plurality of fastening points lie in a first plane and said second anchor opening lies in a second plane that is substantially perpendicular to said first plane;(b) designating a plurality of securing points around said structural element;(c) providing a plurality of straps sized to fit said secured span;(d) connecting said plurality of straps to said structure; and(e) connecting said assembled weather protection system to said structure such that said straps are between said structural element and said assembled weather protection system. 25. The method of claim 24, wherein said fabric of said assembled system provided in step (a) comprises (i) polypropylene yarn with a denier in the range of 500 to 1000; (ii) an elongation of no more than 25%; (iii) a minimum open area of not more than 5%; and (iv) a ball burst strength of at least 600 psi. 26. The method of claim 24, wherein said clips provided in step (c) further comprise super tough nylon. 27. The method of claim 24, wherein said fabric of said assembled system provided in step (a) comprises polyethylene yarn. 28. A weather protection system for a structural element of a building, wherein said structural element is a window, an entry door, a patio opening, a garage door, or a porch opening, said weather protection system comprising: (a) a fabric sized to fit said structural element, said fabric comprising (i) yarn selected from the group consisting of polypropylene yarn and polyethylene yarn; (ii) an elongation of no more than 25%; (iii) a minimum open area of not more than 5%; and (iv) a ball burst strength of at least 600 psi;(b) a plurality of anchoring devices;(c) a plurality of mechanical fasteners; and(d) a plurality of clips, wherein each clip comprises a first plate, a second plate, a first anchor opening, a second anchor opening, and a plurality of fastening points, wherein said first plate is adapted to be connected to said second plate at said fastening points with said mechanical fasteners, and wherein said first anchor opening and said plurality of fastening points lie in a first plane and said second anchor opening lies in a second plane that is substantially perpendicular to said first plane.
Robinson Michael D. (School Road Waimaukau ; Auckland NZX) Causton Barry J. (63 Waimaukau Station Road Waimaukau ; Auckland NZX), Clip for fabric structures.
Shipman David A. ; Shaw Benjamin G. ; Seiber Charles A. ; Minami Don S. ; McClanahan David D. ; Luchetti Robert J. ; Lada Christopher O. ; Hobson Phillip M. ; Eldon ; III James B. ; Draudt Gregg R., Connection system for partitions.
Vermeulen Arnoldus H. A. (Terheyden NLX), Greenhouse, provided with a profile frame for guiding a foil and also provided with a snap-on frame for the affixing the.
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