RU2111326C1 - Large-panel earthquake-proof building - Google Patents

Abstract

FIELD: construction. SUBSTANCE: large-panel earthquake-proof building has pillars installed in the corners and in the points of intersection of longitudinal and cross walls. Wall panels are installed between the pillars, with floor slabs resting on the upper edges of the wall panels. The panels of the external walls have a bevel to accommodate the chord with a widening. The building features earthquake-proofness, stability in extreme conditions. EFFECT: enhanced safety for people. 14 dwg

Description

 The invention relates to the construction, namely the construction of large-panel buildings of earthquake-resistant construction.

 Known panel building of large panels of the same type, connected by embedded parts [1]. Its disadvantage is the low strength and fragility of the joints of walls and floors.

 Also known is a panel building of earthquake-resistant construction with cutouts for ties and embedded parts [2]. Its disadvantage is the low strength of the connections of wall panels to each other and to floor slabs, because point bonds are poorly protected from stress concentration, and intersections of elements have insufficient rigidity due to this.

 The purpose of the invention is to increase the earthquake resistance of the building and its survivability, i.e., the ability to maintain stability even after the acquisition of damage that cannot be restored. The goal is achieved in that in a large-panel earthquake-resistant building, columns with a corner, tee and cross-shaped cross section are installed respectively in the corners of the building and at the intersection of the longitudinal and transverse walls between which the wall panels are located. At the same time, floor slabs are supported not only on wall panels, but also on the console of columns. Columns can have cutouts for connections and have a length equal to one, two or more floors, and the location of the welded joint between tiers can coincide with the level of overlappings or be between them. Wall panels have cutouts for connections and can be load-bearing and participate in the work of the building's supporting system (in this case, they are connected to the columns and together by strong bonds, for example, octagon-shaped dowels) or walling, light, hanging on the columns. Floor slabs have cutouts in the corners that allow bearing on the console columns. Along the faces along the entire contour of the slab, there are reinforcing outlets for interconnecting to form a single overlap disk and to ensure their embedment in the panels of the outer walls, bevels are made along the lower and upper faces of the latter, providing a belt with a broadening in which reinforcing outlets are not only monolithic floors, but also wall panels and columns. The floor slabs at the points of support on the console of the columns, as well as the console of the columns, have a tubular mortgage for the passage of the anchor bolt intended for their fastening, and the bearing can be performed with the console of the column protruding from below or be located in the same plane.

 Possible monolithic execution of columns, performed after installation of wall panels. In this case, the columns, walls and ceilings (in junction with the columns) are connected by monoling in the columns of the reinforcement outlets.

 Columns with an angular and other cross-section, their connection with wall panels due to connections ensure the joint operation of the transverse and longitudinal walls of the building, which in ordinary panel buildings is manifested to a much lesser extent. In addition, curly, rod connections and bolted connections provide greater survivability of the building, i.e. its ability to maintain an unchanged position even after significant partial destruction of a large number of bonds and elements.

 The design is illustrated by drawings, where in FIG. 1 shows a fragment of a building in a perspective view; in FIG. 2 - column with an angular cross section; in FIG. 3 - column with tee cross-section; in FIG. 4 - with a cross-shaped cross section; in FIG. 5 - interfacing slabs with columns and wall panels (top view); in FIG. 6 is a side view of the mating of the wall panel with the column; in FIG. 7 - wall panel (end view); in FIG. 8 - conjugation of the floor slab with the protruding console of the column; in FIG. 9 - the same, with the console sunk into the slab; in FIG. 10 is a plan view of a column with a console; in FIG. 11 - connection of wall panels with columns (communication); in FIG. 12 - communication design; in FIG. 13 - a node for interconnecting wall panels and with a floor slab; in FIG. 14 - fastening between themselves wall panels with a floor slab.

 In the figures - columns with corner 1, tee 2 and cross-shaped 3 cross section, wall panels 4, belts with broadening 5, ties 6, mortgages 7, mortar anchors 8, grouting joints 9, floor slabs 10, releases of reinforcement of floor slabs 11, columns 12, wall panels 13, console columns 14, tubular mortgage 15, anchor bolt 16, bevel 17 in wall panels 4.

 In the statics of columns 1, 2 and 3, wall panels 4 and floor slabs 10 are held, and panels 4 are attached to columns 1, 2, 3 using mortgages 6, 7, 8 and reinforcement outlets 12, and to ceilings with outlets 13. Floor slabs 10 are supported on the console of 14 columns 1, 2, 3 and connected to the consoles by a bolt 16, passed through a tubular mortgage 15 in the slabs.

 During the earthquake, the compatibility of the work of all the load-bearing elements of the building-columns 1, 2, 3, wall panels 4 and floor slabs 10 is ensured due to their interconnections between the embedded elements 6, 7, 8, reinforcing outlets 11, 12, 13 and bolts 16. An important part that ensures the safety of the entire structure is belt 5, which, due to widening, ensures the reliability of the mating of the floor disk, consisting of plates 10 and panels of the external walls 4. To give the belt 5, concreted in place, broadening along the upper and lower faces of the wall panels 4 devices Bevel 17.

 Thus, the design of a panel building is able to withstand seismic effects, has survivability, is able to maintain stability even with partial destruction of communications and is safe for people in the building at the time of the earthquake.

Claims (1)

 A large-panel earthquake-resistant building, including floor slabs, supported on the upper faces of wall panels of longitudinal and transverse walls, having cutouts for ties, embedded parts for connecting wall panels, floor slabs and ties between themselves and a belt, characterized in that in the corners of buildings and in places at the intersection of the longitudinal and transverse walls, columns were installed with a corner, tee and cross-shaped cross section, cutouts for ties, mortgages for connecting with the latter for welding and consoles for supporting floor slabs which have reinforcing outlets along the contour for connecting them into a single overlap disk, cutouts at the installation sites of the columns for passing the anchor bolt, and in the panels of the outer walls along the lower and upper faces there are bevels for belts with broadening, in which the reinforcing outlets of the columns, wall panels and floor slabs.

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