RU2079617C1 - Method of erection of three-dimensional cast-in-situ structures - Google Patents

Abstract

FIELD: construction; applicable in erection of cast-in-situ buildings and structures. SUBSTANCE: the essence of the invention consists in that trenches are excavated along the periphery of structure under inner partitions. Prior to concreting, reinforcing cage with matrixes of doors and windows secured to it is installed into trenches and located above the surface of trenches are reinforcing cage of ceiling, ceiling forms. After setting of concrete which fills the trenches, formed part of structure is removed from the ground and installed on the preliminarily prepared socle, or foundation which may be concreted in the ground similar to that of above surface part, but without removal from the ground. In this case, ground may be removed from the underground part of the structure and floor may be concreted. EFFECT: higher efficiency. 2 cl

Description

 This invention relates to the construction of monolithic structures: residential buildings, garages, underpasses, hangars, warehouses, tunnels, tanks, other technical and special structures; elements of large structures, for example, a bridge in the place of direct construction.

 But it is especially effective to use this invention in the stream construction of residential buildings, for example, a village, with the help of a highly mechanized integrated team, at a considerable distance from construction bases, offline.

 It is known that monolithic construction is faster, less labor-consuming and, at the same time, more high-quality and durable than brickwork or panel housing. Especially construction using volumetric formwork. Nevertheless, there is a large share of manual labor, which increases the construction time, especially during the installation of formwork and the reverse process of stripping. There are solutions that reduce these periods: “Volumetric-block formwork" 1604967 A2, "Volumetric formwork" 1629436 A2. In the latest copyright certificate, to accelerate the formwork process, the hinged rods connecting the formwork panels are arranged in pairs, which facilitates the process of disassembling this formwork.

 But all this is not able to radically solve this problem. The constant need for assembly and disassembly of formwork, as well as a limited number of panels limit the scale and speed of construction.

 The purpose of this invention is to accelerate the construction of monolithic structures, reduce the share of manual labor and, accordingly, increase the share of mechanized labor.

 This goal is achieved due to the fact that instead of shields, articulated rods and other devices necessary for the installation of volumetric formwork, narrow trenches are dug into the ground, using a bar, along the perimeter and inside the building, with a width equal to the wall thickness and a depth equal to the height of the external and internal walls of the building. In the dug formwork, welded from reinforcing steel, the frame of the structure, including internal walls and external, ceiling, is lowered. Matrices of windows and doors are built into the wall structure for displacing concrete mortar. The ceiling of the structure remains above the surface, and around it, a formwork is built around the perimeter, with a height equal to its thickness. And all this is poured with concrete mortar. After hardening, the resulting structure, using cranes, is removed from the ground and installed on a foundation prepared nearby.

 The foundation is made in a similar way. The bar breaks through it trenches around the perimeter and inside the building under the external and internal walls to the required depth. Along its perimeter, the formwork is built up to a height equal to the floor thickness, after which concrete is poured to the height of the built-in formwork. Thus, the basement of the building is obtained.

 As a foundation, you can use a building if you do not remove it from the soil, but remove the soil from it and pour the floor from the concrete mortar inside it. Naturally, window frames are not installed in the frame of such a building.

 The invention is disclosed by the example of the construction of a residential building.

 First, a site is planned for the foundation, the place where the building will be located, and next to the site is the formwork for the building itself. The construction of the foundation (basement) of the building and the building itself go in parallel to speed up the construction period.

 The foundation is made like this. The bar breaks trenches to the depth of the foundation along the perimeter of the building and inside it under the external and internal walls. The soil recovered is removed. Along the perimeter of the building, possibly a little more, with a protrusion from external walls up to 1 m, the formwork is built up to a height equal to the thickness of the floor. After this, concrete is poured to the height of the superstructured formwork. Thus, the foundation of the building and its floor are obtained.

 Nearby, formwork is made for the building itself.

 The bar breaks trenches under the walls located inside the building, and then along its perimeter under the external walls to a depth equal to the height of the walls. The extracted soil is removed from the area. In the formwork thus obtained, welded from reinforcing steel, the building frame, including the external and internal walls, the ceiling, is lowered. Matrices of windows and doors are built into the wall structure to displace concrete mortar. The ceiling of the structure remains above the surface and around it, around the perimeter, the formwork is built up, with a height equal to the thickness of the ceiling. All this is poured with concrete mortar. After its hardening, using cranes, the structure is removed from the soil and installed on the foundation (base) of the building and fastened with it.

 Instead of the foundation, you can use the building if you do not remove it from the soil, but remove the soil from it and pour the floor from the concrete mortar inside it. Naturally, window frames are not installed in the frame of such a building. A different building is installed on it, the same size with it, with the same arrangement of internal walls. The structures are fastened and, thus, a two-story (two-level) building is obtained, the lower floor of which is underground. A similar building, taken from the ground, can serve as the foundation for the construction of the second and subsequent floors of brick.

This invention can be most effectively used in the stream construction of structures (a residential village with related facilities) using a highly mechanized construction team, at a considerable distance from construction bases. Such a team may include: 1 ^o C2 wheeled bulldozer bar, 4 cranes with loading capacity of 10 ^o C20 t, 4 fuel trucks, trucks and dump trucks, several welding stations, other electrical equipment; relevant specialists, in addition, installers, carpenters, electricians, etc.

During the work of such a team according to the network schedule drawn up so that the available equipment is used as efficiently as possible (as busy as possible), the speed of stream construction can average, on average, several buildings per day (3 ^o C4), without finishing work.

Claims (2)

 1. The method of erection of volumetric monolithic structures, including the development of trenches around the perimeter of the structure, the width and depth of which is equal to the thickness and height of the walls, concreting in the trenches of the wall fence, characterized in that they further develop trenches for the internal partitions, and before the concreting, the reinforcing frame is installed in the trenches with matrixes of windows and doors fixed in it, and above the surface of the trenches, the ceiling reinforcing frame is placed and the ceiling formwork is built around the perimeter of the structure, and after the shutter concrete concrete the molded part of the structure is removed from the ground and installed on a pre-prepared base or foundation.  2. The method according to claim 1, characterized in that the molded part of the structure after removing it from the soil is installed on the same part of the structure made in the soil, but not extracted from it, from which the soil is removed, and then the concrete floor is poured.