RU2121554C1 - Method of updating large-panel residential buildings - Google Patents

Abstract

FIELD: civil engineering; updating of residential buildings with building-on storeys. SUBSTANCE: method consists in preservation for period of carrying out construction work of existing roof structure and transmission of concentrated load of built-on storeys to walls by distributing it through preserved parapet blocks and longitudinal roof reinforced concrete beam over its middle axis. Metal posts of frame are secured to preserved members of roof through anchor bolts passed through them. Metal posts of frame are combined into rigid frame skeleton by cast-in-situ floors of built-in storeys and roof structure. Wall are made self-carrying by their resting on cast-in-situ floors of built-on storeys. Roof structure of existing building is disassembled before beginning of finishing work. EFFECT: provision of updating of residential building without moving away of inhabitants of underlying storeys. 3 dwg

Description

 The invention relates to construction, in particular, can be used in the reconstruction of residential and civil buildings with reinforced concrete floors, associated with the superstructure of additional floors.

 A known method of reconstructing a building, including supporting transverse wall panels, floor slabs supported on them, external three-layer wall panels and balcony slabs attached to the latter, the floor slabs being supported by the middle portion of the outer edge and the balcony slabs supporting the upper faces of the inner layer of the outer wall panels (Aut. St. USSR N 1413205, class E 04 B 1/02, 1988).

 The known method is time-consuming, and its implementation requires the resettlement of at least the upper floor of the house.

 There is a method of reconstruction of a large-panel residential building, including increasing the number of storeys, together with its broadening on each side by installing single-span frames on the outside of the existing building with transferring the load from the increase in the number of storeys to the pylons that are installed on pile foundations (Kutukov V.K. Reconstruction of the building. - M .: Higher School, 1988, p. 244-254).

 However, this method in its implementation requires preliminary disassembly of the roof, which necessitates the resettlement of at least the upper floor, the implementation of basic construction work in the dry season and the creation of additional pile foundations for pylons of floors to be built.

 There is also a method of reconstruction of a large-panel residential building according to the patent of the Russian Federation N 2043464, class. E 04 In 1/02, 09/10/95, adopted as a prototype of the proposed technical solution.

 The technical solution of the prototype includes the broadening of the building on each side by installing single-span frames from the outside with the transfer of the load from the increase in the number of storeys to the pylons installed on pile foundations. At the level of the floors of the existing building, the frames are connected by monolithic plates with the formation of an expandable part of the building. Monolithic walls are supported in the built-in floors, supported on frames, the stability of which is ensured by the installation of longitudinal walls. At the same time, a monolithic ceiling is arranged above the last floor of the existing building, exceeding the dimensions of the existing building, 1 m on each side.

 The implementation of the prototype method also requires almost complete resettlement of the reconstructed building and the implementation of pylons to its entire height, supported by additional pile foundations.

 The technical result of the invention is the ability to conduct the process of reconstruction of the building without resettlement of residents of the underlying floors.

 The solution to the problem is achieved by the fact that the method of reconstruction of a large-panel residential building involves increasing the number of floors by creating transverse rigid frames associated with monolithic ceilings and a longitudinal monolithic middle wall that ensures the stability of the frames.

 Rigid frames are formed in the superstructure of the building by supporting their racks on existing walls, passing them through the structures of the existing roofing, resting them on parapet blocks and middle longitudinal roofing reinforced concrete beams and connecting together the monolithic floors of the floors to be built and roofing, while the walls of the fence perform self-supporting with their support on the monolithic floors of the floors to be built. After the construction of the built-in part before the start of finishing work, the existing roofing is dismantled.

 In FIG. 1 shows a cross section of the superstructure of the building; in FIG. 2 - node pairing metal racks with parapet blocks in the extreme row; in FIG. 3 - node pairing metal racks with a longitudinal reinforced concrete roofing beam.

 The reconstruction process is carried out in the following order.

 In the roofing 1 of the existing building, holes are arranged for passing metal racks 2 along the extreme and 3 along the middle rows, resting them on existing parapet blocks 4 and longitudinal roof reinforced concrete beams 5. To fix them, pre-installed holes are installed with anchor bolts 6. Then, along the extreme in rows are mounted longitudinal metal beams 7 at the level of the bottom of the reinforced concrete floors of 8 built-up floors. On the middle row in the plane of the metal racks 3 perform a monolithic reinforced concrete longitudinal wall 9 to the height of one superstructure floor. After that, a monolithic reinforced concrete floor 8 is erected over the first superstructure floor with its support on beams 7 and wall 9. The construction of subsequent floors is carried out in the same order. Wall fencing 10 step by step rely on monolithic floors 8. Above the last floor, roofing 11 is made, after which the roofing 1 is dismantled.

 Thanks to the proposed method, it is possible to carry out the reconstruction process without resettling the underlying floors, since the roofing 1, which is maintained for the duration of the construction work, provides safety requirements and enables year-round work.

Claims (1)

 A method of reconstructing a large-panel residential building, including increasing the number of floors by creating transverse rigid frames associated with monolithic ceilings, and a longitudinal monolithic middle wall, which ensures the stability of the frames, characterized in that the rigid frames are formed in the superstructure of the building by supporting their racks on existing walls, bypassing them through the structures of the existing roofing, resting them on parapet blocks and middle longitudinal roofing reinforced concrete beams and linking together monolithic and ceilings of the built-in floors and roofing, while the walls of the fence are self-supporting with their support on the monolithic floors of the built-up floors, and after the construction of the built-in part, before the start of finishing work, the existing roofing is dismantled.

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