RU174824U1 - MULTI-STOREY RESIDENTIAL HOUSE - Google Patents

Abstract

The utility model relates to the field of housing construction and can be used in the construction of low-rise and multi-storey buildings for housing and civil purposes. The technical task of the utility model is to increase the manufacturability of the frame-panel system and ensure the speed of construction of buildings through the use of prefabricated reinforced concrete pilasters, as well as to increase the variability planning decisions of block sections and architectural and artistic expressiveness of buildings. The solution to this problem is ensured by that in a multi-storey residential building, including panels of external and internal walls and floor slabs, the dimensions of which are comparable to the size of the room, the columns of the internal incomplete frame, and floor slabs are supported by their corners on the said columns, at the extreme points of the frame of the floor slab one side of the sides rest on external wall panels, at the junction of the joints of the external wall panels, pilasters are placed, the width of which corresponds to the width of the columns, and the panels of the internal walls outline only the staircase and elevator unit and the cell, the pilasters are made of prefabricated reinforced concrete U-shaped in cross section, the embedded parts of which are connected by welding with the embedded parts of the panels of the external walls. Moreover, the floor slabs are made of various shapes depending on the grid of columns. Thus, the utility model will improve the manufacturability of the panel system houses and ensure the speed of construction of houses through the use of prefabricated reinforced concrete pilasters, increase the bearing capacity of the inner columns while maintaining their overall dimensions zmerov, which is crucial for high-rise buildings. 3 ill.

Description

The utility model relates to the field of housing and can be used in the construction of small and multi-storey houses for civil purposes.

There are various options for a multi-storey building made of panel elements, including bearing longitudinal and transverse wall panels connected to floor panels. However, these structural systems are very material intensive, and most importantly they limit the overall dimensions of the planned solutions of the indoor space. (RF patents No. 2160347, No. 2281365).

The projects of large-panel residential buildings that are implemented in Minsk and a number of other settlements of the Republic of Belarus are known. The structural diagram of such buildings is taken as a prototype and is a multi-storey residential building, including panels of external and internal walls and floor slabs, the dimensions of which are comparable to the size of the room, columns of the incomplete frame, and floor slabs rely at the extreme points on the mentioned columns the frame of the floor slab on one side of the sides rests on the panels of the outer walls, the pilasters at the junctions of the joints of the panels of the outer walls, and the panels of the inner walls are contoured only by stairs -lift assembly and stairwell (Patent of the Republic of Belarus No. 3283).

The advantage of this system is a significant reduction in the overall material consumption of the building by reducing the area of vertical load-bearing structures and the ability to provide flexible planning solutions for apartment block sections.

The disadvantage of this multi-storey residential building is a significant slowdown in the rate of construction of buildings due to the duration of the set of solid and concrete monolithic pilasters, the complexity of the device tile joints of columns with ceilings

The technical task of the utility model is to eliminate the above disadvantages and increase the manufacturability of the frame-panel system and ensure the speed of construction of buildings through the use of prefabricated reinforced concrete pilasters, as well as to increase the variability of planning decisions of block sections and architectural and artistic expressiveness of buildings.

The solution to this problem is provided due to the fact that in a multi-storey residential building, including panels of external and internal walls and floor slabs, the dimensions of which are comparable to the size of the room, the columns of the internal incomplete frame, and floor slabs rely with their corners on the mentioned columns at the extreme points of the frame floor slabs on one side of the sides rest on the panel of the outer walls, at the junction of the joints of the panels of the outer walls posted pilasters, the width of which corresponds to the width of the columns, and the panels of the inner ene delineate only the stair-lift and staircase assembly, pilasters made precast concrete U-shaped in cross section, inserts being connected by welding with embedded items exterior wall panels.

Moreover, floor slabs are made of various shapes depending on the grid of columns.

The inventive utility model of a multi-storey residential building is illustrated by drawings.

In FIG. 1 shows a frame diagram of one section of a multi-story frame-panel residential building.

In FIG. 2 shows the layout of floor slabs of various configurations.

In FIG. Figure 3 shows the pairing scheme of the precast concrete U-shaped pilasters with panels of the outer walls.

The multi-storey residential building has a combined frame-wall structural system with an incomplete frame, consisting of prefabricated reinforced concrete one-story internal columns 1 located along the internal axes of the building, panels of the outer walls 3, at the joints of which prefabricated reinforced concrete pilasters 5 of the U-shape in cross section are placed by welding , the cross-sectional width of which corresponds to the width of the columns 1, the cores of the staircase-elevator nodes 2, formed by the panels of the inner walls 4, as well as precast reinforced concrete slabs minutes different shape 6, 7, 8, 9 in plan.

Floor slabs 6, 7, 8, 9 in size for the room - prefabricated reinforced concrete, and have a different shape in plan, due to the grid of columns 1: triangular, quadrangular, pentagonal and trapezoidal.

The support of floor slabs 6-9 in the middle zone of the building is provided by a linear-point: either four (three) corners per column 1, or two (one) corners per column 1 and one side to the inner walls 4, or three corners to the columns 1 and one side on the inner walls 4.

Floor slabs 6-9, installed around the perimeter of the house, are supported pointwise at two angles on the inner columns 1 and one side on the panel of the outer walls 3 and precast reinforced concrete pilasters 5, floor slabs in the corners of the house and in the area of stairwells - point on the column 1 and on two sides on the panel of the outer and inner walls.

For the perception of additional vertical loads on the panel of the outer walls 3 from the free unsupported faces of the floor slabs 6, 7, 8, 9 at the joints of the panels of the outer walls on the inner side, prefabricated reinforced concrete pilasters 5 of the U-shaped cross-section are adjacent.

Precast reinforced concrete pilasters 5 are connected to the panels of the outer walls 3 in the middle part in height of precast reinforced concrete pilasters 5 at two levels: about 1/3 of the height of the pilasters 5 and along the upper edge of the pilasters 5. The connection is made by a weld 12 between the embedded parts 10 of the precast reinforced concrete pilasters 5 and embedded metal parts 10 of the exterior wall panels 3.

Prefabricated reinforced concrete frame products of a multi-storey residential building are produced in the form of large-sized elements at specialized efficiency plants, transported to the construction site and then the frame itself is directly installed.

Installation of the frame of a multi-storey residential building is carried out in the following sequence:

- installation of panels of the outer walls 3 and precast reinforced concrete pilasters 5,

- installation of columns 1 and panels of the inner walls 4;

- installation of floor slabs 6, 7, 8, 9.

The space formed by the internal cavity of the pilasters 5 of the U-shaped cross section and the inner side of the joined panels of the outer walls 3 from the side of the rooms is filled with a fine-grained mortar mixture 11.

The frame of a multi-storey residential building works as a single spatial structural system, perceiving vertical and horizontal (wind) loads. In this case, the role of the core of rigidity, ensuring the stability of the building, is performed by the staircase-elevator unit 2, enclosed in a contour of the panels of the inner walls 4.

A distinctive feature of the claimed structural system of the building is the variability of the vertical load-bearing elements - they are in the interior of the building - columns and panels of the internal walls of the staircase and elevator nodes, and around the perimeter of the building - prefabricated reinforced concrete pilasters and panels of the external walls.

Thus, the utility model will increase the manufacturability of the panel system of the house and ensure the speed of construction of houses through the use of prefabricated reinforced concrete pilasters, increase the bearing capacity of the inner columns while maintaining their overall dimensions, which is crucial for houses with high floors.

Claims (2)

1. A multi-storey residential building, including panels of the external and internal walls and floor slabs, the dimensions of which are comparable to the size of the room, the columns of the internal incomplete frame, the floor slabs are supported by their corners on the said columns, at the extreme points of the frame of the floor slab one side of the sides rest on external wall panels, at the junction of the joints of the external wall panels, pilasters are placed, the width of which corresponds to the width of the columns, and the panels of the internal walls outline only the staircase and elevator unit and stairs chnuyu cell, characterized in that the precast concrete Pilasters are made U-shaped in cross section, inserts being connected by welding with embedded items exterior wall panels. 2. A multi-storey residential building according to claim 1, characterized in that the floor slabs are made of various shapes depending on the grid of columns.

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