RU2351723C1 - Multistory building - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention is related to the field of construction and may be used in erection of multistory residential, public and industrial buildings. Multistory building consists of external multi-layer wall, of internal layers made of different materials and resting on slabs of every floor, and of external layer made of reinforced concrete panels, which is separated from them by air gap communicating to atmosphere of external layer. Upper ends of panels are fixed by means of metal links to slab panels, and lower ends of panels are installed on slabs by means of metal links in points of their resting on internal bearing structures. Building is provided with additional links in the form of suspensions that connect slabs in spans to lower ends of panels, at that slab does not rest on upper ends of panels.

EFFECT: elimination of negative effect of heat and moisture deformations of external layer panels onto slabs and internal layers of external walls.

2 cl, 9 dwg

Description

The invention relates to the field of construction and can be used in the construction of multi-storey residential, public and industrial buildings.

It is known from US patent No. 4666940, class. EV 2/28, 1987, a multi-storey building containing a multilayer wall of outer and inner reinforced concrete layers separated by an air gap, connected to each other by means of bent reinforcement frames, and an intermediate insulation layer placed between them in contact with the inner surface of the outer reinforced concrete layer.

A disadvantage of the known multi-storey building is the placement of an air gap between the intermediate insulation layer and the inner layer, as a result of which water vapor accumulates and condenses in the insulation, which leads to a decrease in the heat-shielding qualities of the outer multilayer wall and its dampening. In addition, a bent reinforcing cage passing through the entire height of the wall through the insulation layer and the air gap must be made of stainless steel, which leads to an increase in material consumption and construction cost.

It is also known from the patent of the Russian Federation No. 2122082, class. ⁷ EV 2/28, 1997, a multi-storey building containing an external multilayer wall of an external, separated by an air gap, predominantly made of prefabricated reinforced concrete panels, attached by metal ties to the supporting structures, and the inner layers, between which an intermediate insulation layer is placed.

The disadvantages of this multi-storey building are the high cost and the complexity of erecting a multilayer outer wall, since the insulation has to be laid in a narrow cavity between the mounted outer layer and the inner layers. In addition to the complexity of this process, it cannot be controlled, which leads to a decrease in the quality of the external wall being constructed in terms of its thermal protection.

The closest in its technical essence solution to the proposed multi-storey building is the well-known from the patent of the Russian Federation No. 2204664, class. ⁷ Е04В 2/28, 2002, a multi-storey building containing an external multi-layer wall of floor-mounted internal layers of various materials supported by overlapping, and an external layer separated from them by an air gap communicating with the atmosphere, mainly from floor-bearing reinforced concrete panels, upper and the lower ends of which are fixed by means of metal bonds on the internal load-bearing structures of the building with gaps between their adjacent ends.

The disadvantage of the proposed multi-storey building is the occurrence due to changes in weather conditions in the floor-and-floor reinforced concrete panels of the outer layer of heat and moisture deformations, which are transmitted to the overlying overlap resting on them and the inner layers of the upper outer walls, which causes additional significant deformations and stresses in them, leading to cracking and other defects.

The aim of the invention is to eliminate the negative impact of moisture and moisture deformations of floor-bearing panels of the outer layer on the floors and inner layers of the outer walls.

The goal is achieved in that a multi-storey building containing an external multilayer wall of floor layers of various materials supported on floors and separated by an air gap communicating with the atmosphere, the outer layer, mainly from reinforced concrete panels, the height of which is equal to the height of the floor, and their width is the length of the spans of the overlap and / or the distances between the window openings of adjacent structural cells, and the upper ends of the panels are fixed by means of metal ties with the panels coverings, and the lower ends of the panels are installed by metallic bonds to overlap in areas bearing on their internal bearing structure is provided with additional links in the form of suspensions, in spans connecting overlapping with the lower ends of the panels, the overlap does not rest on the upper ends of the panels.

In addition, in a multi-storey building, reinforced concrete panels can be made ribbed with cladding screens attached to the latter, while the slab parts of these panels can adjoin the inner layer, and the air gap can be located between the standard parts and cladding screens.

The proposed multi-storey building is illustrated by the following drawings: where in Fig.1 is a schematic perspective view of a fragment of a multi-storey building; figure 2 is a fragment of the facade of a multi-storey building; figure 3 is a section along aa in figure 2; figure 4 is a section along bb in figure 3; figure 5 is a section along CC in figure 3; in Fig.6 - node D in Fig.3; Fig.7 is a view along arrow G in Fig.6; in Fig.8 - node E - in Fig.4 and Fig.9 - node F in Fig.5.

A multi-storey building contains a supporting structure formed from internal vertical supporting structures formed on the foundation (not shown conventionally in the drawings), for example, in the form of vertical internal transverse walls 1, floor ceilings 2 supported on them, multi-layer external walls 3, an attic and a roof (conventionally in the drawings not shown). The multilayer outer wall 3 contains an outer layer formed from prefabricated architecturally designed floor-bearing reinforced concrete panels 4 installed in the design position and attached above and below to the ceilings 2 by the upper 5, lower 6 and additional 7 in the form of pendants with metal ties located in the spans floors 2. The height of the above panels 4 is equal to the height of the floor, and their width is the length of the spans of the floors 2 and / or the distances between the window openings 8 of adjacent structural cells. The upper and lower ends of the above panels 4 are parallel and are located in the design position at an acute angle in a vertical plane. The above panels 4 by means of the upper 5 metal ties, consisting of reinforcing outlets 9 on these panels 4, connecting metal plates 10 and embedded parts 11 in the ceilings 2, are attached to the latter from above. Each of the above panel 4 is connected by means of the lower 6 and additional 7 in the form of pendants of metal ties with embedded parts of the ceiling 2 of the previous floor or basement. The lower 6 metal bonds located at the vertical ends of each of the above panels 4 are made in the form of vertically arranged metal plates 12, supported with horizontal edges offset downward relative to the lower end of the same panel 4, on the embedded parts 13 of the overlapping 2 of the previous floor. Each additional 7 connection in the form of a suspension is made in the form of a threaded connection, consisting of a threaded sleeve 14 fixed in the overlap 2, fixed on the aforementioned panel 4 of the embedded console 15 with the hole 16 and the studs 17 connecting them. The upper end of the stud 17 passes through the hole 16 and rests to the console 15 by means of the adjusting nut 18 through the support washer 19, while the lower end of the stud 17 is screwed into the sleeve 14. The diameter of the hole 16 exceeds the diameter of the stud 17 passed through it by 1.3-1.6 times.

Between the above panels 4 on the facade of a multi-storey building there are horizontal and vertical spaces 20. The above panels 4 are separated from the inner 21 enclosing and insulating 22 layers resting on the ceiling 2 by an air gap 23 of 25-120 mm, the latter being communicated through the air through intervals of 20 with the atmosphere. The inner 21 enclosing and insulating 22 layers are respectively made of different materials: brick, cellular concrete and other blocks, heat-insulating materials. The joints between the inner 21 enclosing and insulating 22 layers and the inner transverse bearing walls 1 are sealed with cement mortar or polyurethane foam (not shown conditionally in the drawings).

The proposed scheme for attaching the above panels 4 using the upper 5, lower 6 and additional 7 in the form of suspensions of metal bonds eliminates the transfer of their moisture and moisture deformations to floors 2 and internal 21 of the enclosing and insulating 22 layers of the outer wall and the occurrence of cracks and other defects in them.

The multi-story building is erected as follows. On the structure of the underground part of the building (not conditionally anointed in the drawings), internal load-bearing structures are mounted, for example, internal transverse walls 1 and ceilings 2 supported on them, an attic and a roof, and in two stages a multi-layer external wall 3 is built. The first of them is installed using the installation crane architecturally designed floor-bearing reinforced concrete panels 4, which are supported by metal plates 12 on embedded parts 13 of overlap 2, and then put on reinforcing outlets 9 connecting metal plates 1 0 and weld the upper 5 and lower 6 bonds. After that, an additional 7 connection is established in the form of an additional suspension. At the second stage, inside the building, on each floor, the inner 21 enclosing and insulating 22 layers are separated by an air gap 23. The joints between the inner 21 enclosing and insulating 22 layers are sealed with cement mortar or polyurethane foam.

The above operations are repeated on each floor for all structural cells of the building.

Claims (2)

1. A multi-storey building containing an external multilayer wall made of floor-standing inner layers of various materials and separated from them by an air gap communicating with the atmosphere, the outer layer, mainly of reinforced concrete panels, the height of which is equal to the height of the floor, and their width is the length of the spans overlapping and / or distances between window openings of adjacent structural cells, with the upper ends of the panels fixed by metal ties with the floor panels, and the lower ends of the panels set Lena by metallic bonds to overlap in areas bearing on their internal bearing structure, characterized in that it is provided with additional links in the form of suspensions, in spans connecting overlapping with the lower ends of the panels, the overlap does not rest on the upper ends of the panels. 2. The building according to claim 1, characterized in that the reinforced concrete panels are ribbed with claddings attached to the latter, while the plate parts of these panels are adjacent to the inner layer, and the air gap is located between the plate parts and the cladding screens.

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