RU54995U1 - RECONSTRUCTED MULTI-STOREY BUILDING - Google Patents

Abstract

The utility model relates to the field of construction and relates to the structural implementation of the reconstructed multi-story building. The technical task of the utility model is the creation of such a reconstructed multi-story building, which allows you to save the roof of the base building, while saving the total height of the reconstructed building, because horizontal load-bearing elements in the form of polygonal trusses can be placed in the attic of the base building; It does not limit the freedom of layout of apartments of the superstructure and provides the ability to compensate for the shrinkage of the superstructure relative to the base building. The reconstructed building contains a base building, a superstructure and horizontal load-bearing elements in the form of polygonal trusses with a span over the width of the base building with upper and lower belts and racks connecting them. The upper belt of each farm is installed directly above the roof of the base building. The lower belt of each farm is located above the ceiling of the last floor of the base building and is connected to the outer pylons through openings formed in the outer longitudinal walls of the base building, while their size provides the ability to compensate for the shrinkage of the superstructure relative to the base building. The racks are installed in openings formed in the roof of the base building.

Description

The utility model relates to the field of construction and relates to the structural implementation of the reconstructed multi-story building.

A reconstructed building is known that contains a base building with external and internal walls, ceilings, an attic and a roof, a superstructure with external and internal monolithic beams-walls, located on external pylons installed on pile grillages independent of the base building, and horizontal load-bearing elements (see Patent for utility model of the Russian Federation No. 24225, E 04 G 23/00, 02.22.2002).

The disadvantages of the known solution include the need to disassemble the roof of the base building, which is unacceptable in conditions when the building is being reconstructed without resettling residents, in addition, the presence of transverse beam walls in the structure of the superstructure limits the freedom of internal layout of the superstructure apartments.

The closest technical solution of the claimed utility model is a reconstructed building containing a base building with longitudinal and transverse external and internal walls, ceilings, an attic and a roof, horizontal load-bearing elements made in the form of polygonal trusses span more than the width of the base building with upper and lower belts and connecting racks and placed across the base building with the ends resting on the external pylons mounted on pile growths independent of the base building erkah and superstructure (see. patent RF №2036291, E 04 G 23/00, 27.05.1995).

The disadvantages of the known solutions also include the need to disassemble the roof of the base building, which is unacceptable in conditions where the building is being reconstructed without resettling residents and, in addition, requires

waterproofing carpet to protect the attic floor. Supporting a reinforced concrete monolithic safety slab on the walls of the base building is not a good solution, since the base building is not designed for additional dynamic loads that may occur during the installation of overlying structures of the superstructure.

The technical task of the proposed utility model is the creation of such a reconstructed multi-story building, which allows you to save the roof structure of the base building, while saving the total height of the reconstructed building, because horizontal load-bearing elements in the form of polygonal trusses can be placed in the attic of the base building; It does not limit the freedom of layout of apartments of the superstructure and provides the ability to compensate for the shrinkage of the superstructure relative to the base building.

This is achieved by the fact that in a reconstructed multi-storey building containing a base building with longitudinal and transverse external and internal walls, ceilings, an attic and a roof, horizontal load-bearing elements made in the form of polygonal trusses span more than the width of the base building with upper and lower belts and connecting their racks and placed across the base building with the ends resting on the outer pylons installed on pile grillages, independent from the base building, and the superstructure, the upper belt The farm house is installed directly above the roof of the base building, and the lower belt is located above the ceiling of the last floor of the base building and combined with the external pylons through openings formed in the outer longitudinal walls of the base building, while the openings are sized to compensate for the shrinkage of the superstructure relative to the base building and the racks are installed in the openings formed in the roof of the base building.

Distinctive features of the proposed solution from the known one are that the upper belt of each farm is installed directly above the roof of the base building, and the lower belt is located above the ceiling of the last floor of the base building and is connected to the outer pylons through openings formed in the outer longitudinal walls of the base building, this holes are made

the size that provides the ability to compensate for the shrinkage of the superstructure relative to the base building, and the racks are installed in the holes formed in the roof of the base building.

Figure 1 shows a cross section of a reconstructed multi-story building.

The reconstructed multi-storey building contains the base building 1 with external 2 and internal walls, ceilings 3, attic 4, roof 5 and foundations 6, a superstructure 7 based on external pylons 8 mounted on grilles 9 independent from the basic building, and horizontal load-bearing elements, located across the building.

The horizontal load-bearing elements are made in the form of polygonal trusses with a span greater than the width of the base building 1 with the upper 10 and lower 11 strips and the racks connecting them 12. The top 10 belt of each truss is installed directly above the roof 5 of the base building 1. The lower belt 11 of each truss is located by overlapping the last floor of the base building 1 in its attic room 4 and connected to the outer pylons 8 through openings 13 formed in the outer 2 longitudinal walls of the base building 1, the openings being made in a size that ensures the ability to compensate for the shrinkage of the superstructure 7 relative to the base building 1, and the racks 12 are installed in the holes 14 formed in the roof 5 of the base building 1.

Reconstruction works are carried out in the following sequence:

On the longitudinal sides of the base building 1 at a distance of not less than 1 m from its strip foundation, point foundations are installed under the pylons 8, preferably from injection piles, and monolithic reinforced concrete grillages are installed on them. Pylons are made of monolithic or precast concrete to the height of the base building 1, which with balcony slabs and fences 15 constitute a single structurally stable system with vertical, horizontal, and, if necessary, and diagonally arranged elements. In the roof 5 and in the outer longitudinal walls of the base building 1, holes are made, the dimensions of which provide

the possibility of compensating for the shrinkage of the superstructure 7 relative to the base building 1. During operation, the openings are protected from rain by temporary tents.

Then install reinforcing cages for the upper 10 and lower 11 belts of polygonal trusses and racks 12, inventory formwork for them and concreting trusses. It is possible to make polygonal trusses from rolled metal profiles with their obligatory subsequent fire-retardant coating or plastering.

A monolithic or prefabricated reinforced concrete floor 16 is installed above the upper girdle 10 of the trusses, which is the basis for the subsequent construction of a superstructure of any design.

Claims (1)

A reconstructed multi-storey building containing a base building with longitudinal and transverse external and internal walls, ceilings, an attic and a roof, horizontal load-bearing elements made in the form of polygonal trusses span more than the width of the base building with upper and lower belts and racks connecting them and placed across the base buildings supported at the ends by external pylons installed on pile grillages independent of the base building, and an add-on, characterized in that the upper zone of each from the trusses is installed directly above the roof of the base building, and the lower belt is located above the ceiling of the last floor of the base building and is connected to the external pylons through openings formed in the outer longitudinal walls of the base building, while the holes are made in size to compensate for the shrinkage of the superstructure relative to the base building, and the racks are mounted in openings formed in the roof of the base building.