초록 ▼

A three hundred mile per hour wind resistive building (10) is disclosed. The building includes wall panels (12), roof panels (14) and floor and foundation panels (16) formed of autoclaved cellular concrete. The panels are secured together by angle iron or steel strapping (18) and bolts which bolt th

A three hundred mile per hour wind resistive building (10) is disclosed. The building includes wall panels (12), roof panels (14) and floor and foundation panels (16) formed of autoclaved cellular concrete. The panels are secured together by angle iron or steel strapping (18) and bolts which bolt the angle iron or strapping directly between abutting panel portions.

대표청구항 ▼

I claim: 1. A method for constructing a building capable of resisting 300 mph winds, comprising the steps of: selecting the thickness of autoclaved cellular concrete panels to form the exterior walls, floor and roof of the building and the size and number of reinforcing bars within the panels, each

I claim: 1. A method for constructing a building capable of resisting 300 mph winds, comprising the steps of: selecting the thickness of autoclaved cellular concrete panels to form the exterior walls, floor and roof of the building and the size and number of reinforcing bars within the panels, each panel having an interior surface and each panel being initially unconnected to the other panels; selecting the sizes and strength of angle iron or bent steel plate to bolt the panels together; selecting the size and strength of strap bracing to bolt the panels together; selecting the diameter and strength of bolts to bolt the panels together to form the building using the angle iron or bent steel plate and strap bracing; and bolting the panels together with the angle iron or bent steel plate, strap bracing and bolts to form the building, the bolts passing through the entire thickness of the panels through bolt holes in the panels and the angle iron or bent steel contacting only the interior surfaces of the panels, the strap bracing secured between non-adjacent panels so that the strap bracing spans at least one panel therebetween, none of the angle iron or bent steel plate or strap bracing being imbedded in the panels, the bolt holes being the only penetration of the panels to secure the angle iron or bent steel and strap bracing to the panels, adjacent panels being glued to each other by a high strength adhesive, the panels carrying the entire load on the building with the building having no other framing and capable of resisting 300 mph winds. 2. A building capable of withstanding 300 mile per hour winds, comprising: a plurality of panels of autoclaved aerated concrete forming the walls, roof and floor of the building, the panels having an interior surface and each panel being initially unconnected to the other panels; a plurality of angle iron sections or bent steel plates; a plurality of strap bracing; a plurality of bolts securing the angle iron sections or bent steel plates and strap bracing and the panels together to form the walls, roof and floor of the building, each bolt passing through the panel in which it is secured through bolt holes in the panels, the angle iron or bent steel and strap bracing contacting only the interior surfaces of the panels, the strap bracing secured between non-adjacent panels so that the strap bracing spans at least one panel therebetween, the bolt holes being the only penetration of the panels to secure the angle iron or bent steel and strap bracing to the panels, adjacent panels being glued to each other by a high strength adhesive, none of the iron sections or bent steel plate and strap bracing being imbedded in the panels, the panels carrying the entire load on the building with the building having no other framing and capable of resisting 300 mph winds. 3. The building of claim 2 wherein at least one angle iron section or bent steel plate is bolted directly to a wall panel and a roof panel. 4. The building of claim 2 wherein at least one angle iron section or bent steel plate is bolted directly to a wall panel and a floor panel. 5. The building of claim 2 wherein at least one brace is bolted between two of said wall panels, said brace bolted directly to the wall panels and spanning at least two intervening wall panels. 6. The building of claim 2 wherein said panels each have an exterior surface, the exterior surface being countersunk to receive the head of a bolt or a nut, the building further having grouting to fill the countersink. 7. The building of claim 2 wherein at least one floor panel has an anchor bolt imbedded therein, at least one of said angle iron sections or bent steel plates fit around beneath a wall panel and along the inside lower surface of said wall panel. 8. The building of claim 2 wherein the building has a width, at least one of the angle iron sections or bent steel plates extending continuously the entire width of the building. 9. The building of claim 2 wherein the building has a height, at least one of the angle iron sections or bent steel plates extending continuously the entire height of the building. 10. The building of claim 2 wherein the panels each have reinforcing bar therein, the reinforcing bar being ¼ to ¾ inch in diameter and spaced 2, 4 or 6 inches apart from adjacent reinforcing bar. 11. The building of claim 2 wherein the panels are 8, 10 or 12 inches thick. 12. The building of claim 2 wherein the angle iron sections or bent steel plates are ¼, 5/15, ⅜, ½, or ¾ inch thick and 4 or 5 inches wide. 13. The building of claim 2 wherein the building has a roof angle, the angle iron sections or bent steel plates between wall and roof panels are bent at the angle of the roof. 14. The building of claim 2 wherein the panels form the exterior and interior walls of the building. 15. A building capable of withstanding 300 mile per hour winds, comprising: a plurality of panels of autoclaved aerated concrete forming the walls, roof and floor of the building, the panels having an interior surface and each panel being initially unconnected to the other panels; a plurality of angle iron sections or bent steel plates; a plurality of bolts securing the angle iron sections and the panels together to form the walls, roof and floor of the building, each bolt passing through the panel in which it is secured through bolt holes in the panels, the panels carrying the entire load on the building with the building having no other framing, at least one angle iron section or bent steel plate being bolted directly to a wall panel and a roof panel and at least one angle iron section or bent steel plate being bolted directly to a wall panel and a floor panel; at least one brace is bolted between two of said wall panels; said panels each having an exterior surface, the exterior surface being countersunk to receive the head of a bolt or a nut, the building further having grouting to fill the countersink, the building having a width, at least one of the angle iron sections or bent steel plates extending continuously the entire width of the building and the building having a height, at least one of the angle iron sections or bent steel plates extending continuously the entire height of the building; the angle iron or bent steel and strap bracing contacting only the interior surfaces of the panels, the strap bracing secured between non-adjacent wall panels so that the strap bracing spans at least one wall panel therebetween, adjacent panels being glued to each other by a high strength adhesive, none of the iron sections or bent steel plate and strap bracing being imbedded in the panels, the bolt holes being the only penetration of the panels to secure the angle iron or bent steel and strap bracing to the panels; wherein the panels each have reinforcing bar therein, the reinforcing bar being ¼ to ¾ inch in diameter and spaced 2, 4 or 6 inches apart from adjacent reinforcing bar, the panels being 8, 10 or 12 inches thick and the angle iron sections or bent steel plates are ¼, 5/15, ⅜, ½, or ¾ inch thick and 4 or 5 inches wide, the building having a roof angle, the angle iron sections or bent steel plates between wall and roof panels being bent at the angle of the roof. 16. The building of claim 2 wherein the roof of the building is sloped, the wall panels having different lengths to extend continuously from the floor panels to the roof panels as the roof slopes.