SU802474A1 - Device for reinforcing butt joints of panel buildings - Google Patents

Description

(54) DEVICE FOR STRENGTHENING JOINT CONNECTION OF LARGE PANEL BUILDINGS

Claims (2)

The invention relates to the construction and can be used to restore, strengthen and improve the seismic resistance of prefabricated structures, large-panel buildings. The closest to the invention is a method of strengthening buildings using prestressed steel walls, communication devices located along all longitudinal and transverse walls at the level of interfloor overlaps 1. The disadvantage of this method of reinforcement is that it does not completely solve the problem Since the connection between the panels is carried out only at the levels of the floors, which is not enough to give the building the necessary rigidity and seismic resistance. Moreover, the method requires significant metal consumption due to not the need for communication devices around the entire perimeter of the building, a large amount of welding work, and a large amount of labor involved in prestressing metal weights. The purpose of the invention is to increase the seismic resistance of a building by making it possible to perceive tensile and shear forces at the joints and reduce metal consumption. This is achieved by the fact that in the device for reinforcing joints of joints of large-panel buildings, including connecting elements between panels, the connecting elements are made in the form of polymer-soluble reinforced tongues connecting the panels to each other and having a depth less than the thickness of the protective layer of working panels. Polymer mortar can be made in the form of staples. FIG. 1 shows schematically the junction of panels reinforced with polymeric solution reinforced dowels; in fig. 2 is a section A-A of FIG. one; in fig. 3 - section BB of FIG. one; in fig. 4 is the same as the embodiment. The device for reinforcing the butt joints of large-panel buildings includes the dockable panels 1, keyways 2 filled with polymer solution and reinforced with rods 3. The reinforcement of the butt joints of the panels is performed as follows. On both sides of the panels 1 across the reinforced joint, in any desired place in the protective layer of concrete adjacent panels 1, keyways 2 are cut into which the reinforcing bar 3 is placed. The keyway 2 with the reinforcing rod 3 is filled with a synthetic hardening solution, for example, an epoxy resin-based polymer solution After curing, keyway is formed between two adjacent panels 1. If necessary, reducing the length of the tongue and increasing its reliability and durability is proposed to make the key reinforcement in ide caliper 4 (see. Fig. 4), the bent ends of which are inserted into specially drilled at the ends schponki holes 4-5 mm in diameter larger than the diameter of reinforcement brackets. The remaining structural details of the joint are the same as in the first embodiment. The depth of the keyways 2 is less than the thickness of the protective layer 5 of the working reinforcement 6 panels 1. The proposed device for reinforcing the butt joints of large-panel buildings can improve the seismic resistance and rigidity of the building by installing reinforced polymeric keyway between the panels at any part of the joint regardless of the location of the reinforcement in the panel , significantly reduce metal consumption, eliminate welding works and work on corrosion protection of steel bonds, reduce labor intensity and cost of production work Claim 1. Device for strengthening butt joints of large-panel buildings, including connecting elements between panels, characterized in that, in order to increase the seismic resistance of a building by providing the possibility of perceiving tensile and shear forces at the joints and reducing metal consumption, the elements are made in the form of polymer-mortar reinforced keys that connect the panels to each other and have a depth less than the thickness of the protective layer of the working reinforcement of the panels. 2. A device according to claim 1, characterized in that the polymer-soluble reinforced tongue is designed as a staple. Sources of information taken into account during the examination 1. M. Boyko. Diagnosis and methods for restoring the performance of buildings. M., stroiizdat, 1975, p. 273. FIG. g Fy