SU973745A1 - Connection assembly of units of a building - Google Patents

Description

one

The invention relates to the construction and can be used in the construction of buildings.

A well-known assembly including prefabricated three-layer reinforced concrete slabs laid on a grillage with an effective heater. The composite slab consists of a lower reinforced concrete slab and an upper ribbed of expanded clay concrete interconnected by welding. Mineral wool insulation was laid between the plates. “The support of the inner wall panels on the grillage is made in the form of a platform joint through the ends of reinforced concrete slabs. The outer wall panels are supported on the grillage through reinforced concrete slabs and the precast concrete panel of the basement screen. The bottom of this node is the multiple occupancy of the precast slabs — the lower and upper parts of the slab are made in different production cycles and from different heavy and light concrete. The assembly of the slab with the laying of insulation requires additional labor costs and production space (a stand for assembly is required).

The closest technical solution to the invention is the node connecting the building elements, including supporting wall panels mounted along the axis of the building, and three-layer floor slabs with bearing ribs C 2.

The disadvantage of this assembly is the need to manufacture special 5 elongated wall panels that are different in height from the panels of the typical floor. Since in places of support the internal load-bearing wall panels of the floor slab do not join

Claims (2)

20 directly with each other, it is difficult to ensure in these nodes the strength of the joint of the structures, which reduces the stiffness of the disk overlap. The heat-shielding qualities of the overlapping in places supported by wall panels on the grillage also deteriorate. The purpose of the invention is to increase the strength of the joint construction. The goal is achieved by the fact that in the node connecting the building elements, including the supporting wall panels installed along the building axis and the three-layer floor slabs with the supporting ribs, the floor slab is displaced beyond the center axis, and the wall panel is supported the edge, and the thickness of the edge has a thickness not less than the thickness of the wall panel. In addition, the edges are shifted beyond the center axis by an amount equal to half the offset edge. Fig. 1 shows a fragment of a plaque on the floor slab layout; in fig. 2 - section A-A in FIG. 1, in FIG. 3 - section B in fig „1о. Slabs 1 are made of two layers of lightweight concrete (expanded clay concrete) and an effective insulation between them (mineral-rich or polystyrene foam plates). The lower concrete layer of the slab is usually thicker than the upper one and acts as a carrier. Concrete layers are interconnected during the formation of concrete ribs around the perimeter of the panel. The supporting supporting ribs 2 in the slabs are thicker than other ribs 3. On the edge 2, internal supporting wall panels are installed The width of the support edges 2 accept at least the thickness of the new panels. In the process of mounting, plate 1 is laid on a solution onto a reinforced concrete grillage 5 so that the side faces of the supporting ribs 2 are displaced beyond the centering axes half the thickness of the rib 2, i.e. 100-125 mm, which ensures reliable support of the wall panels on them and transferring the load from them to the grillage 5 through edge 2, the slabs 1 of the ceiling are supported on the grillage 5, as a rule, to the bridge. With such laying of plates, it turns out that all of them in the longitudinal direction are shifted on the grillage from the transverse axes, although their structural dimensions in this direction are equal to the modular size between the transverse split axles, taking into account the necessary gaps. 9 4 in the transverse direction, two sizes of plates are obtained along the length: elongated with a supporting bearing rib for supporting the longitudinal inner bearing panels and shortened without broadened longitudinal ribs. wall exterior panels 6 of the first floor with panels of typical floors in the basement hinged screen 7, the height of the supporting part is increased and taken to be equal to the thickness of the three-layer panel overlap 1, B out Natural solutions either install an elongated outer wall panel — or additionally install a special base unit under a typical wall panel. The basement screens 7 are made of lightweight concrete (expanded clay concrete), which provides the best heat-shielding qualities of the ceiling in the level of the slabs. It is also possible to manufacture from a lightweight concrete only the supporting part of the basement screen, and the vertical part of the screen is the shape of the RTS from heavy concrete, in the case of special requirements to this part of the screen for strength and durability. Plates 1 overlap and plinth screens 7 by welding the inserts are interconnected The joints between the plates and between the plates and the socle screens are monolithed with cement mortar to the height of the lower carrier part of the plate, then installed from an effective insulation (mineral wool, expanded polystyrene) a layer of insulation in the plates, and the top of the joint is sealed with a solution to the level of the surface of the plates. Welding of embedded parts and monolithing of joints provide a reliable hardness disk at the level of the basement slab. The invention allows to simplify the installation of the ceiling and improve the strength of the joints of the construction of the basement part of the building. By supporting the internal HecyatHX wall panels directly onto the edges of the integrated slabs, it is possible to reduce the range of wall panels and use the same panels on the ground floor as on typical floors. Claim 1, Assembly of elements of the building, including bearing wall panels installed along the building axis and three-layer floor slabs with non-existent ribs, characterized in that, in order to increase the strength of the joint, the floor slab is shifted beyond the center axis, and the wall panel it is supported on re ro, and the thickness of the rib is not thicker than the thickness of the wall panel. 2. The node according to claim 1, that is, with the fact that the ribs are shifted beyond the center axis by an amount equal to half of the shifted edge. Sources of information taken into account in the examination of 1C, Pikhovkin V.A. and Shklirov N.L. Design features of residential buildings for construction in Norilskieg Housing construction, 1978, No. 9, p. -6, fig. but. 2, Pikhovkin V.A. and Shklv ditch N, D. Design features of residential buildings for construction in Norilsk, Housing, 1978, If 9t, k-6f fig. B. O 0 | p O  M5 7 fpue.1