RU2676297C1 - Method of installation and verification of elements of metallic framework for buildings and structures - Google Patents

Abstract

FIELD: construction.SUBSTANCE: invention relates to the field of construction, in particular to methods for installing floors of buildings and structures. In the method for mounting a metal frame of buildings and structures, which consists of columns and metal slabs having guide projections in the upper and lower positions in the same amount as the columns, the floor slabs are made with two holes, at a distance of ¼ from the edge of the plate, for centering with two lasers the zenith of the range finder instruments. Instruments are installed in the basement, in the design position +0,000. With the help of lanyards installed between all the columns, the slab is installed in the design position, while adjusting its position in the direction of the three axles and the swivel axes, two horizontal levels installed on the surface of the slab are the final test to bring it to the design position.EFFECT: technical result of the invention is to simplify the installation of the frame and bring the slabs to the design position.1 cl, 2 dwg

Description

The invention relates to the field of construction, in particular to methods of installation of floors of buildings and structures.

The known method, the metal frame of the building (RF patent №2183708, CL EV 1/24, EV 1/38, 2000), in which the skeleton of the building includes columns I-section, having at the level of the floor support protrusions located on the outer side of the shelves of the I-columns of columns . The beams of two metal elements are supported on the supporting protrusions of the column, the overlap is located on the beams. The method of mounting the metal frame, including the installation of metal columns that have an I-section, supporting elements-beams, which are fixed by means of hinges to the column, then metal elements forming the supporting element-beam, hang on the support lugs, then the cavity between the metal elements of the beam is filled with monolithic reinforced concrete, forming the internal element of the beam, then carry out the laying on them of floor slabs.

A significant disadvantage of the known solution, taken as an analogue, is the complexity of installation, and this leads to an increase in labor costs in the construction of the building frame.

Selected as a prototype of the claimed invention is a method, a metal frame of a building and a method of its construction (see RF patent №2528709, CL Е04В 1/24, 2014), in which the frame includes columns of I-section, connected with them supporting elements for the installation of slabs on them. The supporting element is made in the form of a metal corner of an L-shaped profile with holes on a vertical shelf, which are made coaxial with holes on the inner shelf of I-columns of the column for fasteners for fastening the corner to the column. The slab is made with a cutout under its installation on the corner. Multilayer building panels are installed between the columns, which are attached to the outer shelf of the I-columns of the column, by means of corners.

The disadvantage of this method is the duration of the execution of a large number of actions during installation. After installation of the column in a vertical position and installation of the corners in the working position, fixing them with fasteners, it is necessary to use welding to fasten the column with the angle. Next, overlap plates are placed on the horizontal shelf of the corner, and the gaps between the plates and the corner are filled with cement mortar. The process of welding and filling the joints with a solution complicates and slows down the installation.

The task of the claimed invention is to reduce the time of installation, simplifying the processes of installation and alignment of floor slabs and columns.

от края плиты, для центрирования двумя лазерами зенит приборов-дальномеров, которые установлены в подвале, в проектном положении +0,000; с помощью талрепов, установленных между всеми колоннами, плиту перекрытия устанавливают в проектное положение, при этом регулируя ее положение в направлении трех осей и по поворотным осям, два горизонтальных уровня, установленных на поверхности плиты перекрытия, являются финальной проверкой приведения ее в проектное положение.The task is solved by the fact that in the proposed method of mounting and alignment of the metal frame elements of buildings and structures, the frame elements, columns and floor slabs are made with a high degree of factory readiness, floor slabs have guides in the upper and lower positions in the same quantity as the columns , the holes in the guides and columns are connected and fixed by bolts, according to the invention, the floor slabs have two holes, at a distance

from the edge of the plate, for centering the zenith of the rangefinder devices installed in the basement with two lasers, in the design position +0,000; using lanyards installed between all columns, the floor plate is installed in the design position, while adjusting its position in the direction of the three axes and along the pivot axes, two horizontal levels installed on the floor plate surface are the final test of bringing it to the design position.

The technical result is achieved due to the fact that the mounted frame elements have a high degree of factory readiness, and the method of installation and alignment is the most convenient, simple to perform.

The drawing shows a general view of the phased installation of the frame and the installation of a metal floor plate in the design position, where in FIG. 1 shows the bolting of slabs with columns; FIG. 2 - elements used to install the plate in the design position.

Bolting slabs with columns includes installed metal plate 1, mounted metal floor plate 2, guides 3 for the lower and upper parts of columns, metal columns 4, matching holes 5 in columns and plates 1, 2, bolts 6. To the elements used to install a metal floor slab in the design position, include lanyards 8, holes in the metal floor slab 9 for centering, the zenith device rangefinder 10, laser 11.

от края) центрируют по двум лазерам 11 зенит приборов-дальномеров 10. На отверстия в металлической плите перекрытия 9 накладывают палеты с разметкой - трафареты, которые крепят к монтируемой металлической плите перекрытия 2 фиксаторами. Зенит приборы 10 установлены в подвале, в проектном положении с отметкой +0,000. Затем устанавливают талрепы 8 между всеми металлическими колоннами 4, но в разном положении, ими регулируют положение верхней монтируемой металлической плиты перекрытия 2, приводя ее в проектное положение. Монтируемую металлическую плиту перекрытия 2 можно двигать в направлении трех осей и по поворотным осям соответствующими талрепами 8. Финальной проверкой приведения монтируемой плиты в проектное положение является установка двух горизонтальных уровней на поверхности монтируемой металлической плиты перекрытия 2. На монтаж монтируемой металлической плиты перекрытия 2 и ее выверку достаточно шестнадцати минут.The method is as follows. In each metal slab 1, 2, at a distance of 6 meters, there are guides 3 for the lower and upper parts of the columns with holes for the bolts 5; for fixing the mounted metal floor plate 2 with metal columns 4 by means of bolts 6. The supply of mounted metal floor plates 2, on which metal columns 4 lie, is carried out with the help of cranes, and the assembly is carried out manually. Metal columns 4 put on guides 3 already installed metal floor plate 1 and fix bolts 6, manually, this is the initial weak fixation. Then the crane delivers the mounted metal slab 2, the guides 3 are inserted into the column 4, followed by fixing them with bolts 6 (Fig. 1). After weak fixation of metal columns 4 with two metal floor plates 1, 2 holes in the metal floor plate 9 in the mounted metal floor plate 2 (which are made in the factory, two holes in the metal floor plate 9 at a distance

from the edge) center the zenith of the rangefinder devices 10 along two lasers 10. The holes in the metal slab 9 impose pallets with markings - stencils that are attached to the mounted metal slab 2 with clips. Zenith devices 10 are installed in the basement, in the design position with a mark of +0,000. Then install the lanyards 8 between all metal columns 4, but in a different position, they regulate the position of the upper mounted metal floor plate 2, leading it to the design position. The mounted metal slab 2 can be moved in the direction of the three axes and along the rotary axes with the corresponding lanyards 8. The final test of bringing the mounted plate to the design position is to install two horizontal levels on the surface of the mounted metal floor plate 2. To mount the mounted metal floor plate 2 and its alignment 16 minutes is enough.

The use of the claimed invention allows to erect the frame of a multi-storey building in record time, as well as to simplify the process of mounting the frame and bringing into the design position of floor slabs.

Claims (1)

The method of mounting the metal frame of buildings and structures, including columns and floor slabs, made with a high degree of factory readiness, floor slabs have guides in the upper and lower positions in the same quantity as the columns, the holes in the guides and columns are connected and fixed with bolts , characterized in that the slabs perform with two holes located at a distance

from the edge of the plate for centering with two lasers the zenith of rangefinder instruments, which are installed in the basement in the design position +0,000; with the help of lanyards installed between all columns, the floor slab is installed in the design position, while adjusting its position in the direction of the three axes and along the rotary axes; two horizontal levels installed on the surface of the floor slab are the final test of bringing it to the design position.

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