SU1763597A1 - Ferroconcrete frame of building - Google Patents

Abstract

Usage: construction of a reinforced concrete frame of a building, reducing material consumption and labor intensity of mounting a building with temperature compartments by increasing the length of the latter. The essence of the invention: a part of the joints of columns with foundations, which are located on the estimated length of the compartments from the end columns, is provided with an elastic material, anti-adhesive linings and stops. The stops are located in the lower part of the gaps between the foundations and columns. The rest of the gaps are resilient material. Anti-adhesive pads are installed between the monolithing concrete and the edges of the columns parallel to the longitudinal axis of the building, with the formation of a hinged fastening of the columns in the longitudinal direction. 4 sludge.

Description

The invention relates to the field of construction and can be used in the construction of reinforced concrete frames of buildings for various purposes,

Building structures are known, where smaller columns are installed in the extreme axes, and more powerful columns of cross-section are concentrated in the central part of the building, which provide rigidity and stability of the frame in the longitudinal and transverse directions.

The disadvantage of this design is that different types of structures are used in the building, powerful columns block up the building volume and prevent flexible planning solutions, the flexibility of the frame columns with a smaller cross section with rigid fixation of the foundations depends only on the section of these columns and their reinforcement.

The closest in technical essence and the achieved result is the reinforced concrete frame of the building, which includes foundations with rectangular shaped glasses in plan, columns installed in the foundations glasses on the solution layer with gaps relative to the walls of the glasses, and the embedment concrete placed in the gaps.

The disadvantage of this solution is the increased consumption of materials and the complexity of the installation of the building in the presence of temperature compartments.

The aim of the invention is to reduce the consumption of materials and the complexity of the installation of a building with temperature compartments by increasing the length of the latter.

This goal is achieved by the fact that some of the joints of the columns with the foundations located on the calculated part of the length of the section are XJ O

CO SL

ABOUT

from the end columns of the frame, provided with an elastic material, anti-adhesive pads and stops, the latter of which are located in the lower part of the gaps parallel to the transverse center of the building, and the rest of the gaps are filled with elastic material, and anti-adhesive pads are installed between the embedding concrete and the faces of the columns parallel to the longitudinal axis of the building, with the formation of a hinged fastening of the columns in the longitudinal direction.

FIG. 1 shows the reinforced concrete frame of the building; in fig. 2 — node I in FIG. one; in fig. 3 shows section A-A in FIG. 2; in fig. A - section BB in FIG. 3

The reinforced concrete frame of the building contains foundations 1 with glasses 2 of rectangular shape in plan, columns 3 installed in glasses 2 foundations 1 on a layer of solution 4 with gaps 5, 6 relative to the walls of glasses 2, and cementing 7, placed in gaps 5, 6.

Part of the joints of the columns 3 with the foundations 1, which are located on the calculated part of the length of the compartments 8 from the end columns 3 of the frame, equipped with an elastic material 9, anti-adhesive pads 10 and stops 11.

The stops 11 are installed in the lower part of the gaps 5 arranged parallel to the transverse axis of the building, and the rest of the gaps 5 are filled with an elastic material 9.

Anti-adhesive pads 10 are installed between the monolithing concrete 7 and the edges of the columns 3, which are parallel to the longitudinal axis of the building, i.e., in the gaps 6. At the same time, articulated fasteners of the columns 3 with foundations 1 are formed in the longitudinal direction of the building.

The stops 11 ensure the stability of the columns 3 against the displacement of their end face and can be made in the form of a metal wedge,

concrete dowels made of high-strength concrete, etc. (with a height of no more than 1/10 of the depth) of the termination of the column 3.

The invention makes it possible to reduce the consumption of materials and the laboriousness of assembling a building by increasing the length of the temperature compartments, which, in turn, is ensured by tight coupling of the columns 3 with the foundations 1 in the transverse direction, the possibility of mounting the frame during zero-cycle works, using columns of the same size throughout the longitudinal p building, the same type of temporary mounting of columns 3 in the process of installation, the device of the same formwork of the glass part of the foundations 1 and the same size of the func Gifts 1.

Claims (1)

The invention The reinforced concrete frame of the building, including the foundations with rectangular shaped glasses in the plan, the columns installed in the foundations glasses on the mortar layer with gaps relative to the walls of the glasses, and monolithic concrete placed in the gaps, so as to reduce material consumption and the complexity of the installation of the building with temperature compartments by increasing the length of the latter, some of the joints of the columns with the foundations, located on the calculated part of the length of the compartments from the end columns of the frame, is equipped with elastic material, anti-adhesive pads and stops, the latter of which are placed in the lower part of the gaps parallel to the transverse axis of the building, and the rest of the gaps are filled with elastic material, and anti-adhesive pads are installed between the embedment concrete and the edges of the columns parallel to the longitudinal axis of the building, with the formation of hinge columns in the longitudinal direction. 4 j7 2 $ -g-т 85O / R I 7 oh ...: ffi croo 7 Fig.Z 6.7. Yu, 6.7 FIG. four