RU2026941C1 - Method of the building erection by means of hoisting - Google Patents

Abstract

FIELD: building engineering. SUBSTANCE: method lies in the following: load-bearing walls are erected for the height of a floor, a slab of the lower floor ceiling is made, inventorial columns are installed and the mentioned above slab is hoisted on them up to the rated mark. After the ceiling slab is connected with the load-bearing walls, the latters are built up by one floor. Inventorial supports with carrying capability exceeding the load from the freshly molded slab are brought into contact with the ceiling slab on the columns. On the fixed ceiling the ceiling slab of the next floor is formed. After that the process is repeated with the alternate erection of the load-bearing wall on the floor and hoisting of one ceiling slab. EFFECT: lowered cost of civil engineering and installation works. 1 dwg

Description

 The invention relates to construction, in particular to the construction of buildings by the method of raising floors, and can be used in the construction and overhaul of frameless buildings with load-bearing walls.

 A known method of mounting the floor panel during the overhaul of the building, installed in the previously formed in the walls of the grooves by its vertical movement and institution in the grooves. The overlap panel is made integral along the length of articulated parts, the free ends of which are inserted into the furrows in the position of the components at an angle to each other.

 The use of composite products with a hinged joint instead of simple static structures (floor slabs of beam type) leads to a significant increase in their cost. In addition, in the field of overhaul, a variety of options for the distances between the bearing walls will require an extensive range of types of plates, which, with correspondingly small runs of these plates, will dramatically increase their cost.

 There is also known a method of mounting a frame building, including the installation of columns of several floors, the manufacture of floor slabs of the first, second floors and roofing slabs, raising the latter at the height of the floor and concreting on the upper surface of the slab of the second floor of the floor slab of the third floor. After that, the package of slabs is raised to the mark of the second floor, then on the upper surface of the package the concrete slab of the fourth floor is concreted, the floor slabs of the second, third and fourth floors are raised to the mark of the next floor, the concrete slab of the next floor is concreted on the upper surface, the package of floor slabs and roofing slab are raised to the mark of the next floor, after which the process is repeated.

 The specified method is closest to the claimed. However, it is not applicable for the construction of frameless buildings, in particular residential buildings, in which the use of vertical supporting structures in the form of columns worsens the planning parameters of the dwelling and, in addition, is associated with a relative increase in the specific consumption of steel reinforcement. The combination of floor slabs in a package for joint lifting is connected here with the need to absorb the load from a freshly formed slab, when this load is greater than the bearing capacity of one slab. The rise of the package in comparison with the rise of one slab requires, in turn, an increase in the power of the lifting mechanisms and leads to an increase in the cost of construction and installation works.

 The objective of the invention is to provide an economical and simple way to erect a building that combines the advantages of lifting monolithic ceilings made at the site with almost simultaneous erection of load-bearing walls, which will allow us to abandon load-bearing columns and use the lift method in the construction and overhaul of frameless buildings with load-bearing walls.

 The technical result of the invention is the convergence of the zones of production of walls and the installation of ceilings to a minimum distance - within the height of the floor.

 The specified technical result is achieved by the fact that according to the method of erecting the building by the lifting method, which includes installing columns, manufacturing a floor slab and raising it in columns to a design elevation, concreting on it a floor slab of the next floor and lifting this slab on columns, the latter are performed by inventory and installed on temporary supports, before raising the floor slab, load-bearing walls are erected on the floor, and after removing the floor slab to the design mark, connect it to the load-bearing walls, increase the last dnie height on the floor, under the floor slab is fed to the columns inventory support with load-bearing capacity exceeding svezheotformovannoy load from one slab, and after forming the next floor slab process is repeated.

 The achievement of the above technical result is promoted in the claimed method by a new sequence of operations and the devices used to ensure the rise of floor slabs along the inventory columns with simultaneous floor-by-floor construction of load-bearing walls. This allows you to extend the scope of construction by lifting to frameless buildings, reduce the cost of construction by dividing large complexes of construction and installation works into similar short stages and, ultimately, minimize the number and capacity of the technological equipment used.

 Due to the convergence of the zones of production of walls and the installation of ceilings, the organization of control over construction operations and geometric control is forgiven, it becomes possible to carry load-bearing walls from various building materials - monolithic concrete, brick, various blocks.

 Patent studies have shown that currently unknown technical solutions for a similar purpose, possessing in full a combination of features identical to the claimed method.

 The invention is illustrated in the drawing, which schematically shows the process of building a building.

 On temporary supports 1 install inventory columns 2 and on stationary foundations 3 erect load-bearing walls 4 of the lower floor (monolithic, brick, prefabricated). On the prepared base, the floor slab 5 of the first floor is concreted with gaps relative to the walls 4, it is lifted by elevators 6 to the design elevation and the concrete sections 7 are concreted. After that the load-bearing walls 4 are increased on one floor, on columns 2, inventory supports 8 are brought under the ceiling 5, bearing the ability of which exceeds the load from a freshly formed floor, and on the floor slab of the first floor, the floor of the next floor is formed.

 After a set of concrete molded slabs of the proper strength, the process is repeated.

Claims (1)

 METHOD OF BUILDING A BUILDING BY THE LIFTING METHOD, including installing columns, making a floor slab and lifting it along the columns to the design elevation, concreting the next floor slab on it and lifting this slab along the columns, characterized in that the columns are inventoried and installed on temporary supports before lifting floor slabs erect load-bearing walls on the floor, and after removing the floor slab to the design elevation, connect it to the load-bearing walls, build the latter on the floor, letting down the columns under the floor slab inventory support with load-bearing capacity exceeding svezheotformovannoy load from one slab, and after this molding process is repeated slabs.

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