RU2000120726A - STEEL CONCRETE FRAME OF A MULTI-STOREY BUILDING - Google Patents

Claims (9)

1. The steel-concrete frame of a multi-storey building, including steel box-shaped columns, steel inner beams and steel connecting elements in the form of a rectangular prism, combining columns and beams in each ceiling into a single spatial structure by means of flat connecting elements with bolts, as well as means for reinforcing beams and columns, concrete filling columns, beams and connecting elements, characterized in that in the ceilings with the ends to the steel beams, precast slabs are combined in groups Monolithic reinforced concrete tightening was performed between each group along lateral faces between the plates along the lateral faces, between the groups of plates along the length of the beams of the carcass, not exceeding half the span length, and at the ends of the plates combined with the beams with monolithic concrete to fill them into a single steel concrete flat structure through releases from the top of the reinforcement from the interplate seams at the ends of the slabs and the beams placed in the monolithic concrete, filling the beams at the bottom of the slab and the beam are tightened together by means of the lower longitudinal reinforcement of the monolithic rigidly attached to steel beams and / or to connecting elements, wherein the connecting elements are made with a height not exceeding the thickness of the floor disks, with a horizontal side along the axis of the beams equal to the column width, and in the perpendicular direction, the connecting element is made with a side smaller than the column width, and the means of reinforcing the beams in the nodes of their interface with the connecting elements are placed along the outer faces of the connecting elements without crossing their walls.  2. The building frame according to claim 1, characterized in that the steel connecting element in the interface nodes of the steel beams and columns is made integral with the column of the lower floor.  3. The building frame according to paragraphs. 1 and 2, characterized in that the prefabricated slabs are made flat of cellular concrete and equipped with working fittings.  4. The building frame according to paragraphs. 1-3, characterized in that in prefabricated cellular concrete slabs, cylindrical nests are made at the ends, in which concrete keys are formed, which are formed when laying concrete to fill the frame beams.  5. The frame of the building according to paragraphs. 1-3, characterized in that in the prefabricated cellular concrete slabs at the ends there are vertical wedge-shaped grooves in which concrete keys are formed, which are formed when laying concrete to fill the frame beams.  6. The building frame according to paragraphs. 1-3, characterized in that the prefabricated slabs are made with smooth ends and supported at the ends on the lower shelves of the steel beams of the frame, and concrete filling with reinforcing means are placed above the lower shelf of the steel beams between the ends of the prefabricated plates.  7. The frame of the building according to paragraphs. 1-6, characterized in that the steel beams are made integral and include a beam of a closed box-shaped rectangular profile and a lower shelf attached to it from below by welding.  8. The building frame according to paragraphs. 1-7, characterized in that the working reinforcement of monolithic reinforced concrete puffs is made in the form of a spatial reinforcing cage, the lower longitudinal rods of which are provided at the ends with steel plates welded to them with holes for fastening to the lower shelves of steel beams.  9. The building frame according to paragraphs. 1-. 8, characterized in that the means of reinforcing the beams is made in the form of a U-shaped reinforcing cage turned downward, the working longitudinal reinforcement of which is placed according to the diagram of moments in the span, lower above the lower shelf of the steel beam and on top in the nodes of the beam to the columns.