RU2003101973A - BEAM, BEAM SYSTEM AND BUILDING IN WHICH THEY ARE USED - Google Patents

Claims (20)

1. A beam system comprising an upper and lower belt extending in parallel in the longitudinal direction and a plurality of lattice elements located between the parallel belts; wherein each of the belts includes the upper wall of the belt, opposite parallel side walls, lower walls of the belt extending inward and parallel to the upper wall of the belt, and a pair of flanges extending downward from the lower walls of the belt, while the flanges form continuously extending longitudinally along the length a belt is an opening for accommodating lattice elements, said holes of the upper and lower belts being located opposite each other; and each of the lattice elements contains the upper wall of the lattice element, the width of which is equal to the width of the hole for accommodating the lattice element, opposite parallel side walls extending perpendicular to the upper wall of the lattice element and extending inward the lower walls of the lattice element, which form a groove extending in the longitudinal direction, moreover, each of the elements of the lattice has first and second ends located in the hole for placement of the lattice; and a saddle, including the upper wall of the saddle, opposite parallel side walls and extending outward plates parallel to the upper wall of the saddle, with the upper belt of the beam mounted on saddles inserted into the holes to accommodate the lattice elements at opposite ends of the beam to support the beam. 2. The beam system according to claim 1, characterized in that the inner surface of the upper wall of the belt abuts against the outer surface of the upper wall of the saddle when the belt is mounted on the saddle. 3. The beam system according to claim 1, characterized in that the elements of the lattice and belts intersect at an angle of 15 to 60 °. 4. The beam system according to claim 1, characterized in that the width of the upper element of the saddle is equal to the width of the hole to accommodate the elements of the lattice. 5. The beam system according to claim 1, characterized in that the ends of adjacent lattice elements abut against each other. 6. The beam system according to claim 1, characterized in that the lattice elements are attached to the upper and lower chords using mechanical fasteners selected from the group including screws, bolts, welding and rivets, or combinations thereof. 7. The beam system according to claim 1, characterized in that the side walls of the lattice elements abut against the flanges of the upper and lower zones. 8. The beam system according to claim 1, characterized in that the opposite parallel side walls of the belt are essentially perpendicular to the upper wall of the belt. 9. The beam system according to claim 1, characterized in that the flanges of the belt are essentially parallel to the opposite side walls of the belt. 10. The beam system according to claim 1, characterized in that the lattice elements are made essentially rectangular in cross section. 11. A beam containing upper and lower belts extending parallel in the longitudinal direction and a plurality of lattice elements located between the parallel belts; wherein each of the belts includes the upper wall of the belt, side walls, lower walls of the belt extending inward and parallel to the upper wall of the belt, and a pair of flanges extending downward from the lower walls of the belt parallel to the side walls, the flanges forming continuously extending longitudinally along the length of the belt an opening for accommodating lattice elements, said holes of the upper and lower chords being opposite each other; each of the lattice elements contains the upper wall of the lattice element, opposite parallel side walls extending perpendicular to the upper wall of the lattice element and extending inwardly the lower walls of the lattice element, each of the lattice elements having first and second ends located in the hole for accommodating the lattice elements , so that the elements of the lattice and the belt intersect at an angle of 15 to 60 °. 12. The beam according to claim 11, characterized in that the side walls of the belt are opposite and parallel to each other and essentially perpendicular to the upper wall of the belt. 13. The beam according to claim 11, characterized in that the width of the upper wall of the lattice element is equal to the width of the hole for accommodating the lattice elements. 14. The beam according to claim 11, characterized in that the upper belt is made to be installed with emphasis on the saddle, while the saddle has an upper saddle wall, opposite parallel side walls and outwardly extending support plates parallel to the upper wall of the saddle, with an opening for placement lattice elements of the upper beam girder adapted to insert saddles into it at opposite ends of the beam to support the beam. 15. The beam according to claim 11, characterized in that the lattice elements are essentially rectangular in cross section. 16. The beam according to claim 11, characterized in that the inwardly extending parts of the lattice elements form a groove extending in the longitudinal direction. 17. A building comprising a girder system including upper and lower belts extending in parallel in the longitudinal direction, and a plurality of lattice elements located between the parallel belts; wherein each of the belts includes the upper wall of the belt, opposite parallel side walls extending inwardly the lower walls of the belt parallel to the upper wall of the belt, and a pair of flanges extending downward from the lower walls of the belt, the flanges forming a hole continuously extending longitudinally along the length of the belt, the upper wall of the belt, the lower wall of the belt, parallel side walls and flanges are made as a whole, and the holes of the upper and lower zones are located opposite each other; and each of the lattice elements contains the upper wall of the lattice element, the width of which is equal to the width of the hole for accommodating the lattice elements, opposite parallel side walls extending perpendicular to the upper wall of the lattice element, and the lower walls of the lattice element with the formation of a groove extending in the longitudinal direction, each the elements of the lattice has first and second ends placed in the hole for accommodating the elements of the lattice; and a saddle that has an upper wall of the saddle, opposite parallel side walls and outwardly extending support plates parallel to the upper wall of the saddle, with the upper belt of the beam mounted on the saddle inserted into the hole to accommodate the lattice elements at opposite ends of the beam to support the beam. 18. The building according to 17, characterized in that the inner surface of the upper wall of the belt abuts against the outer surface of the upper wall of the saddle when the belt is mounted on the saddle, while the lattice and belt elements intersect at an angle of 15 to 60 °. 19. The building according to 17, characterized in that the width of the upper wall of the saddle is equal to the width of the hole for the placement of lattice elements and the ends of adjacent lattice elements abut against each other. 20. The building according to 17, characterized in that the lattice elements are fixed in the upper and lower zones by welding and the side walls of the lattice elements abut the flanges of the upper and lower zones.