RU2696730C1 - Method of erection of large-panel buildings and structures - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction, namely, to construction of large-panel buildings for construction under normal conditions and earthquake-prone areas. Technical result is achieved due to availability of adjustment of tension of connecting element and squeezing of horizontal joint it becomes possible to account for friction forces in joints. Method of erection of large-panel buildings and structures consists in connection of reinforced concrete floor and bearing walls along vertical with the help of reinforcement rods and reduction of load-bearing walls as to height by reinforcement rods freely arranged in channels of panels of load-bearing walls with subsequent fixation of pre-stressed state. Wall panels of bearing walls are made with recesses from below of panels and coaxially vertically arranged channels, in which after mounting panels on top of one floor is inserted reinforcement rods with a screw profile, which reinforcement outlets are screwed in connecting couplings of lower floor, located in the recesses of panel, and the bearing walls reduction is performed by the floor by tensioning and fixing the voltage in the level of the ceiling of the floor plate and the bottom of panels using a jack and lock nuts with thrust in metal plate with central hole for reinforcement with subsequent connection of outlets of upper and lower panels by screw couplings and filling channels and recesses of panel with cement-sand solution with high mobility.

EFFECT: invention is aimed at reducing labour intensity of mounting walls of large-panel buildings, improving reliability and strength of joint of connected structures.

1 cl, 4 dwg

Description

The invention relates to the field of construction, and in particular to a method for the construction of large-panel buildings for public and civil purposes for construction under ordinary conditions and in earthquake-prone areas.

A known method of construction of large-panel earthquake-resistant buildings comprising squeezing the walls of buildings with steel ropes, characterized in that vertical channels with a diameter of 40-60 mm are drilled along the top of the walls along the building’s contour, then niches and inclined holes are made in the basement walls, then support ones are installed in the niches plates with a device for fixing ropes, ropes are pulled through vertical channels to the top of the building, pulled and fixed ropes / RF patent No. 2455440, class. Е04Н 9/02, published on July 10, 2012 /

The technical solution described above is the closest to the proposed technical solution.

The disadvantage of this method is the complexity of pulling the ropes in height through the entire building through narrow channels, the mouths of which are at the levels of horizontal joints, due to the inaccuracies of installation and the observance of the alignment of the panel openings. In addition, before the end of the construction of the building, there is no vertical wall connection between each other, which leads to a decrease in the joint strength and the threat of destruction during seismic impact.

The objective of the invention is to simplify installation work, creating vertical connections between wall panels within each floor during the construction of the building, ensuring the compression of horizontal joints and fixing the compression floor.

The technical problem is solved in such a way that in the method of erecting large-panel buildings and structures, including joining reinforced concrete floors and load-bearing walls vertically using reinforcing bars, and compressing the load-bearing walls in height by reinforcing rods freely placed in the channels of the panels of load-bearing walls, followed by fixing prestressed states, panels of load-bearing walls are made with recesses at the bottom of the panels and channels coaxially located vertically, into which, after mounting the panels on top of one insert reinforcing bars with a screw profile, the reinforcing outlets of which are screwed into the lower floor couplings located in the recesses of the panel, and the compression of the bearing walls is carried out floor by floor by tensioning and fixing the voltage at the level of the top of the floor slab and the bottom of the panels using a jack and locknuts with a stop in metal a plate with a central hole for the reinforcement, followed by connection of the outlets of the upper and lower panels with screw couplings, and filling the channels and recesses of the cement-sand panel high mobility solution.

The proposed method differs from the known one in that the load-bearing wall panels are made with recesses from the bottom of the panels and vertically aligned channels, into which, after the panels are mounted on top of one floor, reinforcing bars with a screw profile are inserted, the reinforcing outlets of which are screwed into the lower floor couplings located in the recesses of the panel, and the compression of the bearing walls is carried out by the floor by tensioning and fixing the voltage at the level of the top of the floor slab and the bottom of the panels with a jack and locknuts with emphasis into a metal plate with a central hole for the reinforcement, followed by connecting the outlet releases of the upper and lower panels with screw couplings, and filling the channels and recesses of the panel with high-mobility cement-sand mortar.

Technical effect - reducing the complexity of the assembly, increasing the strength of the joint under seismic loads, and progressive collapse, the ability to compress the horizontal joint of the external walls by adjusting the forces in the connecting elements, adjusting the natural frequencies of the building’s vibrations by changing the tension forces of the coupling elements.

The technical result from the use of the claimed technical solution is to reduce the complexity of the assembly, increase the reliability and strength of the connected structures due to the adjustment of the tension of the connecting element, and therefore the compression of the wall element and the joint, as a result of which it becomes possible to increase the friction forces in horizontal joints when seismic loads occur, as well as changes in the frequencies of natural oscillations of the building to remove them, if necessary, from the resonance zone.

The method of construction of large-panel buildings and structures is illustrated by drawings, where in FIG. 1 shows a connection diagram of the bearing walls of a panel building; FIG. 2 - section 1-1 of FIG. one; FIG. 3 - fragment 1 of FIG. 2; FIGS. 4 - 2-2 of FIG. 2.

Reinforcing bars with a screw profile 1, 2 are passed through vertical channels 3, 4 in the wall panels 5, 6 and connected to each other in the recess 11 of the upper wall panel 5 using the coupling 7. At the level of the top of the floor slab 10, put on the underlying reinforcing bar 2 through the hole is a metal plate 9. The plate 9 and the reinforcing bar 2 are fixed with a lock nut 8. The tension of the reinforcing bar 2 of the lower wall panel is carried out before the upper wall panel 5 is installed in the design position, the tension is fixed with the lock nut 8. Vertical channels 3, 4, as well as the recess 11 are filled with cement-sand paste of high mobility 12.

This technical solution is industrially applicable, since its purpose is indicated, it can be manufactured industrially and used for the construction of multi-storey panel houses.

The method of construction of large-panel buildings and structures is implemented as follows.

When erecting buildings, wall panels 6 and floor slabs are mounted 10. A reinforcing bar 2 with a screw profile is inserted into the seam between the floor slabs 10 and channel 4 and screwed into the coupling 7 of the previously mounted floor. Channel 4 and the seam between the floor slabs 10 are filled with high-mobility cement-sand paste. A steel plate 9 is put on the end of the rod 2 protruding above the floor 10 and the lock nut 8 is screwed on. The rod 2 is tensioned using a jack. The tension is fixed with the lock nut 8. Next, wall panels are installed above the located floor 5 and the floor slab 10. The rod end protruding above the floor 10 2 screw the sleeve 7. From above, a reinforcing bar is passed through the channel 3 and screwed into the sleeve 7. The channel 3 and the seam between the floor slabs 10 are filled with high-mobility cement-sand paste. Then, a steel plate 9 is put on the end of the rod 1 and the lock nut 8 is screwed on. The rod 1 is tensioned. The tension is fixed by the lock nut 8. The process is repeated.

Claims (1)

A method of erecting large-panel buildings and structures, including joining reinforced concrete floors and load-bearing walls vertically using reinforcing bars and squeezing the load-bearing walls in height by reinforcing bars, freely placed in the channels of the panels of load-bearing walls with subsequent fixation of the prestressed state, characterized in that the load-bearing wall panels They are made with recesses from the bottom of the panels and vertically aligned channels, into which, after the panels are mounted on top of one floor, reinforcing bars are inserted and with a screw profile, the reinforcing outlets of which are screwed into the couplings of the lower floor located in the recesses of the panel, and the compression of the bearing walls is carried out floor by floor by tensioning and fixing the voltage at the level of the top of the slab and the bottom of the panels with a jack and locknuts with an emphasis in a metal plate with the central hole for the reinforcement with the subsequent connection of the valve outlets of the upper and lower panels with screw couplings and filling the channels and recesses of the panel with a high cement-sand mortar awn.

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