RU2833982C1 - Method of reinforcing basement part of existing large-panel buildings - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction and can be used to reinforce and increase spatial rigidity of existing large-panel buildings. Method of reinforcing basement part of existing large-panel building characterized by the fact that in zones of vertical joints of wall panels of the basement part and in the area of the horizontal joint in the area of the basement wall panels conjugation with the wall panels of the first floor reinforcing carcasses are installed, connecting them with exposed reinforcement of existing frames of wall panels, then reinforcement is concreted to form a monolithic reinforced concrete frame.

EFFECT: increased spatial rigidity of basement part of existing large-panel buildings.

4 cl, 1 dwg

Description

The invention relates to the field of construction and can be used to strengthen and increase the spatial rigidity of existing large-panel buildings.

There is a technical solution for increasing the spatial rigidity (seismic resistance) of large-panel buildings without wall columns. This technical solution is implemented by installing additional support posts under reinforced concrete purlins to unload wall panels made of aerated concrete, while an external spatial frame with rigid frame units is built into the external walls made of aerated concrete within the thickness of the wall panels. The frame consists of metal posts resting on the existing foundation of the residential building, and horizontal strapping elements that unite the metal posts into a single frame system by means of a special structural metal element attached to the end of the reinforced concrete purlin using six HILTI bolts and made of a vertically located metal plate and a stiffening rib welded perpendicularly to it, which in turn is connected to the posts of the external frame from the outside. (IPC Patent E04G 23/00 RF No. 2664562, 2018).

The disadvantage of this technical solution is that when installing additional frame elements, the load on the foundation increases.

Also known is a technical solution for strengthening a large-panel building, including a steel reinforcement frame in the form of posts installed on the foundation along the vertical joints of the outer panels and connected by horizontal stiffening belts located along the horizontal joints of the panels and pulled together in the transverse direction of the building by solid steel ties. (Patent IPC E04G 23/00 RF No. 96100117, 1997)

The disadvantage of this technical solution is the metal consumption and increased labor intensity of implementation.

Also known is a device for strengthening a large-panel building by installing reinforcement elements in the form of frames made of beams supported by posts. The posts are placed along the vertical joints of the outer panels, and the beams are at the levels of the floors. The frames, placed at the opposite walls of the building, are connected along the beams by ties passed through the walls and partitions of the building under the floors. The upper edges of the beams are made with an outward slope, and the lower ones with a longitudinal groove. (IPC Patent E04G 23/02 SU No. 1819959, 1993).

The disadvantage of this technical solution is that the installation of additional frame elements may entail changes to the architectural planning solution of the building.

The proposed method is aimed at increasing the spatial rigidity of the basement part of existing large-panel buildings.

The result is achieved by the fact that in the areas where the wall panels of the basement part are connected to the wall panels of the floor above, additional reinforcement bars are laid, connected to the exposed extensions of the existing reinforcement of the basement wall panels, which makes it possible to significantly increase the strength of the connecting seams of the wall panels of the basement part.

The result is also achieved by the fact that monolithic concrete is laid in the areas where the wall panels of the basement meet the wall panels of the floor above, which ensures the creation of a rigid reinforced concrete frame at the level of the basement.

The result is also achieved by the fact that the construction of a monolithic reinforced concrete frame at the basement level ensures that the building perceives settlement as a single massif, and also eliminates the possibility of deformation of the joints of wall panels on the floors above in the event of uneven settlement.

The result is also achieved by the fact that the installation of a monolithic reinforced concrete frame at the basement level is carried out without stopping the operational cycle of the building.

The invention is explained in the drawing Fig. 1 - a method for strengthening the basement wall panels of an existing large-panel building.

The scheme for laying the basement part of a large-panel building includes a newly installed reinforcement frame 1, connected to the exposed outlets 2 of the existing reinforcement of the wall panel of the basement part 3 and monolithic concrete 4. The material of the wall panel is dismantled from the original boundaries of the wall panel of the basement part to the dismantling boundaries of the wall panel of the first floor.

Claims (4)

1. A method for strengthening the basement section of an existing large-panel building, characterized in that reinforcement frames are installed in the areas of vertical joints of the wall panels of the basement section and in the area of horizontal joints in the area of the junction of the wall panels of the basement section with the wall panels of the first floor, they are connected to the exposed reinforcement of the existing frames of the wall panels, and then the reinforcement is concreted to form a monolithic reinforced concrete frame. 2. The method according to paragraph 1, characterized in that the creation of a rigid monolithic reinforced concrete frame is carried out without stopping the operational cycle of the building. 3. The method according to item 1, characterized in that the creation of a rigid monolithic reinforced concrete frame at the level of the basement ensures that the building perceives settlements as a single mass. 4. The method according to paragraph 1, characterized in that the creation of a rigid monolithic reinforced concrete frame at the level of the basement section leads to an increase in the spatial rigidity of the building as a whole.