SU1048093A1 - Method of erecting multistorey building by floor-rising technique - Google Patents

Abstract

METHOD OF CONSTRUCTION OF A MULTILEVEL BUILDING BY THE METHOD OF LIFTING THE FLOOR, including building a foundation, erecting a mine, installing a head on it with lifting equipment, manufacturing a package of floor slabs, installing elevators in the basement, creating a floor structure at the level of the first floor, lifting it to a predetermined elevation by lifting equipment installed on the shaft top, followed by fixing on the shaft, characterized in that, in order to reduce the labor intensity of installation, after erection of the shaft, vertical guides are installed on it, the split ring covering the shaft is mounted on the ground floor level mark, connected to the horizontal platform, and the spatial structure of the raised floor is assembled on the platform and lifted together with the ring with successive stops on the marks the second and third floors for the production of finishing works and the installation of engineering communications, temporarily fix the floor (L on the mine, disconnect the platform from ltsa and lower it, thus lifting the floor with the projected mark manufac m together with the ring, and after fixing it on the ring shaft is lowered to lift the next floor. 5 4 CX) oh her

Description

The invention relates to the construction industry and can be applied in the construction of multi-storey residential and civil buildings with a bearing central shaft by the method of lifting floors. The most preferred is the use of the invention in the construction of multi-storey tower-type buildings with suspended floors.

A well-known method of erecting a multi-storey building is by raising floors and floors with a supporting shaft with a rigid reinforcement cage and openings, including installation of building columns and a rigid reinforcement frame of the mine, making a package of floor slabs and bridges, installing elevators with cargo steps on columns and a building mine with floor-by-floor by raising the floor slabs and installing them in the design position and concreting the mine, simultaneously with the installation of the columns of the building and the rigid reinforcement cage of the mine, install additional body racks, floor slabs are interconnected by horizontal ties, and on racks, frame movement for lifts with traces 1 is established.

The disadvantage of this method is its laboriousness, due to the presence and installation of additional coloins, racks, and connections. In addition, all finishing and sanitary works for building the building must be performed at the elevations of the floors, which is associated with the cost of labor and means of delivery of materials and products to the height. This leads to a longer construction time.

There is also known a method of erecting a building by raising floors, including the erection of a mine, the installation of floor slabs at the elevation of the first floor, the placement of fully completed residential blocks on them, their elevation to the design elevation, and the fixing of the floor slabs at the mine 2.

The disadvantage of this method is the need to perform additional work on the production of residential blocks, as well as increased material consumption, due to the need to perform floor slabs, floor slabs and ceiling blocks. In the building, the floors actually have a three-layer structure, which leads to an unjustified increase in their mass.

The closest in technical essence and the achieved result to the invention is the method of erection of a multi-storey building by the method of lifting floors, including the construction of the foundation, the erection of a shaft, the installation of a head on it with lifting equipment, the manufacture of a package of floor slabs, the installation of elevators in the basement the floor of the spatial structure of the floor rise

it is at a given mark by means of lifting equipment installed on the top of the mine, followed by fixing it on the mine 3.

The disadvantage of this method is the need to install inventory columns, making holes in the floor slabs for their passage, carefully synchronizing the work of a large number of lifts, which leads to an increase in the labor intensity of installation.

The purpose of the invention is to reduce the labor intensity of installation, reduction of installation equipment.

The goal is achieved in that according to the method of erection of a multi-storey building by the method of lifting floors, including the installation of the foundation, the erection of a shaft, the installation of a head on it with lifting equipment, the manufacture of a package of floor slabs, the installation of elevators in the basement, the formation of

from the level of the first floor of the spatial structure of the floor, lifting it to a predetermined elevation by means of lifting equipment installed on the top of the mine, followed by fixing it on the mine, after the latter has been erected on it

0, vertical guides are installed, a split ring covering the shaft is mounted on the floor level of the first floor, connected to the horizontal platform, and the spatial structure of the raised floor is assembled on a plate and lifted together with the ring with successive stops on the second and third floors for the production of finishing works and installation of engineering communications, temporarily fix the floor of the mine, disconnect the platform from the ring and lower it, while raising the floor to the design elevation one place with a ring, and after fixing it on the shaft, lower the ring to lift the next floor.

5 With this method of erecting a building, hydraulic lifts located in the basement are used for lifting, equipping and finishing floors on the first to third floors, and for raising the floor to the design level

0 use mechanisms attached to the end of the shaft. Thanks to the movable split ring on the shaft, which moves along the rails, the floor is quickly raised to the design mark, fixed, lowered, dismounted and then used. To ensure cyclical operation, two rings are used predominantly.

On the other hand, the use of a platform connected to the ring for the manufacture of a floor at the elevations of the first to third floors allows you to quickly produce a floor in the form of a closed box-like structure having high spatial rigidity and stability, to finish it with a movable ring and lifts on the platform to carry out lifting. At the elevations of the first to third floors, it is possible to perform construction and installation works with a high degree of mechanization and automation of the production cycle and to ensure safety by increasing the number of works performed at the elevations of the first floors of the building. In this case, for the first time, it becomes possible to install the floor structures entirely from precast concrete, thereby eliminating the adverse effect of atmospheric conditions on the production of concrete work.

FIG. 1 shows a building at the stage of installing the ring and lifts, a cross-section; in fig. 2 - the same, at a stage of installation of a platform and the last floor with a covering; in fig. 3 - scheme of lifting floors to the design mark; in fig. 4 - a fragment of a ring with a platform.

The method of erection of the building is as follows.

After the installation of foundation 1, for example, from the assembly-monolithic slabs, erection of the sucker 2 is carried out by known methods, mainly, for example, from modular bulk blocks with openings 3, a temporary tip 4 is placed on it, on which the lifting mechanisms 5 with 6 g are placed. Then, in the basement 7, hydraulic lifts 8 are installed with brushes 9 and inventory racks 10. A movable separating ring 11 is mounted on the bottom section of Schachta 2 on the floor level of the first floor, moving along the rails 12. The ring is connected to the horizon The ntal cantilever platform 13 supported by the pillars 10 and then the slab 14 of the last floor is mounted on it, the outer and inner walls 15 are rigidly connected to it, laid on them and the ceiling plate 16 is rigidly fixed with the help of lifts 8 lift with successive stops at the marks of the second and third floors, where floor equipment is manufactured by sanitary equipment and engineering communications, a table is installed, flooring, full finishing and glazing are carried out. On these marks

equip specialized posts for the implementation of these works with the provision of increased mechanization and automation of the production process. The floor is temporarily fixed on the platform with the help of console anchoring devices 17 with struts, and platform 13 is lowered onto the level of the first floor where the next floor is mounted using the new ring 11. Then the finished floor is fixed using lifting mechanisms 5 and b g on the ring 11, along the guides 12 they are raised to the design mark, where it is fixed, fixed on the drill. The ring 11 is lowered, dismantled, and then used to lift the next floor.

Thus, with the proposed method, the cycle of installation of the floor at the level of the first floor is carried out, bringing it to full readiness at the level of the second - third floors. Moreover, since the installation of the walls of the 15th floor on the platform is carried out at the position of the previous floor on the third floor level, it is possible to use efficiently mechanisms, including truck cranes, lift trucks, small-scale mechanization tools. Delivery of the necessary finishing materials is carried out both outside and through openings 3 in Schachte 2.

On the other hand, the presence of a movable ring 11 moved along guides 12 makes it possible, firstly, to accelerate the rise of finished floors to the design elevation, since there is no need for arranging peripheral columns, jack systems, inventory racks, etc., secondly, reduce the laboriousness of installation, since all labor-intensive work is concentrated on the first to third floors, where the movable ring is delivered after the floor has been lifted with the help of stage 6. Platform 13 is used only within the first to third floors, and ring 11 is all shchatah 2. In the proposed method, 11 full-readiness floors supported on the ring have the possibility of a quick independent rise to the design marks, regardless of the work on installation and finishing of the next floors on the mark of the first - third floors. Since all the work on the device of the floors is done below, the connection of the finished floor to the communications housed in the shaft 2 is carried out through the openings 3.

The proposed method allows to reduce the construction time and reduce the complexity of the work.

Claims (1)

METHOD OF CONSTRUCTION OF A MULTI-STOREY BUILDING BY THE METHOD OF LIFTING FLOORS, including foundation, shaft construction, installation of a head with lifting equipment on it, production of a package of floor slabs, installation of elevators in the basement, formation of the spatial structure of the floor at the level of the first floor, lifting it to a predetermined level by means of lifting equipment installed on the head of the mine, followed by fixing on the mine, characterized in that, in order to reduce the complexity of installation, installation equipment, after the shaft is erected, vertical guides are installed on it, a detachable ring enclosing the shaft is mounted on the floor level of the first floor, connected to the horizontal platform, and the spatial structure of the raised floor is assembled on the platform and raised together with the ring with successive stops at the marks of the second and the third floor for finishing work and installation of engineering g communications, temporarily fix the floor “at the mine, disconnect the platform from the ring and lower it t of it, while raising the floor to the design elevation is carried out together with the ring, and after fixing it to the shaft, lower the ring to raise the next floor. ♦ SU „, 1048093