RU2052052C1 - Method for installing floors in many-storied blocks of flats by lifting - Google Patents

Abstract

FIELD: civil engineering. SUBSTANCE: columns and other vertical members are made of monolithic reinforced concrete and are concreting along with joints after lifting and installation of floor plates. Rods of reinforcement grids are not interrupted in joints of floor plates and columns. EFFECT: enhanced reliability, strength joints, decreased material consumption. 3 dwg

Description

 The invention relates to the construction of prefabricated monolithic buildings and structures by lifting floors, coatings, etc.

A known method of erecting buildings and structures by the lifting method, which consists in the fact that at the ground level prefabricated or assembled prefabricated elements of building structures, which are then lifted along the guide supports and without horizontal movement are fixed at design marks [1]
A known method of installation, including the installation of columns, the manufacture of a package of floor slabs with their subsequent elevation to design elevations, in which, in order to ensure the construction of buildings with increased resistance to the effect of horizontal loads of floor slabs, parts of the upper floors of each section are made with holes, and after installation of a package of slabs the overlap of each section to design elevations through the formed openings concreted the remaining vertical parts of the upper floors of the section and connect them to the shaft and the extreme lonnami section, then dismantle the column bottom floor section [2]
Closest to the invention in technical essence is a method of building multi-storey buildings using the method of raising floors, in which floor slabs are made with holes for columns and under temporary racks, the latter being placed outside the holes for columns that are concreted after lifting the floor slabs to design marks through the holes [3]
The disadvantages of the known methods is that it is necessary to interrupt the reinforcing rods of the nets or floors in the places where the design columns pass, weaken the floor slabs at the joints with the columns, install special steel collars, use welding collars with reinforcing rods of the nets of floor slabs and embedded parts of the columns. In the case of columns "on the floor" [2], rigid joints of columns and floor slabs are provided by welding embedded elements of floor slabs and columns, and floor slabs can be made without holes for design columns. Such solutions of joints of floor slabs with columns are unreliable under conditions of high intensity seismic effects.

 The aim of the invention is to increase the reliability of the connection of the floor slab with the supporting design columns, as well as with other supporting vertical elements (walls, diaphragms and stiffeners) of buildings.

 This goal is achieved in that the columns and other vertical elements are made of cast reinforced concrete and concreted with joints after lifting and installing floor slabs in the design position, while the rods of reinforcing meshes of floor slabs do not interrupt at the joints with columns and other vertical reinforced concrete elements.

 In FIG. 1 shows the technological scheme of installation; in FIG. 2 diagram of the junction of the floor slab with the column (can be performed with a capital, which allows the use of such overlappings at high loads).

 The method of installation of floors by lifting is carried out in the following sequence (Fig. 1).

 On the prepared base 1, a floor slab or a package of slabs 2 with holes 3 for columns 9 and for temporary inventory racks 4 is made, and the size of the holes for temporary racks should not exceed the cell sizes of the reinforcing meshes of the floor slab, and at the locations of the openings of the columns, the reinforcement of the slabs is not interrupted , but only bare.

 Mounted and unfastened with the help of connections 8 temporary inventory racks 4 and lifting equipment 5 on them.

 Using rods 6, a package of plates rises to the design elevation of the first floor and is fixed at this level using temporary clamps 7.

 Reinforcing frames and nets of columns are installed on the first floor (Fig. 2), formwork 8 is mounted and all columns with joints are monolithic to the level of the top of the lower floor slab, leaving the reinforcement outlets higher by analogy with buildings made of reinforced concrete.

 The remaining floor slabs rise to the design level of the second floor, and then the process repeats.

 After mounting and mounting the joints, lifting equipment and temporary racks are dismantled.

 For low buildings (2-3 floors), temporary racks and lifting equipment can be installed once with the full height of the building, and for tall buildings it is possible to move lifting equipment with temporary racks to new marks with their support on concreted, lower, vertical bearing elements. Floor slabs can be made both in a package, and each separately on mounted floor slabs with their subsequent rise one at a higher mark. This ensures the implementation of rigid monolithic joints of floor slabs with vertical load-bearing elements.

 The exclusion of welding work, as well as the absence of special embedded parts, collars and the need for assembly cranes, allows us to recommend this method of building buildings from precast-monolithic reinforced concrete of an original form in plan with a different angle of inclination of floor slabs and coatings.

The economic efficiency of the invention is achieved due to
joint hardening, which is especially important for buildings in seismic areas;
simplifying the design of the junction of the plate with the column;
reducing the material consumption of metal structures of the joint in the absence of embedded parts and collars.

Claims (1)

 METHOD FOR INSTALLING OVERLAPPING OF MULTI-STOREY BUILDINGS BY THE LIFTING METHOD, including the manufacture of floor slabs with openings for columns and temporary racks, the alternate rise of the last floor slabs to the floor height, the installation of formwork under the columns, the passage of the reinforcing bars of the columns through the openings of the floor slabs, and the concrete joining of the columns with concrete floor and the subsequent dismantling of temporary racks, characterized in that the holes in the slab under the temporary racks perform a size not exceeding the size of the cells of the reinforcing meshes of overlapping, and they are arranged symmetrically to the axis of the columns, and the holes for the columns include several cells of reinforcing meshes whose rods do not interrupt within the columns.

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