RU2185485C1 - Method for erection of building external wall - Google Patents

Abstract

FIELD: civil engineering, applicable in built-up multistoried domestic and public buildings. SUBSTANCE: method consists in erection of a lightened masonry of small- piece materials and an inner wall connected to each other, arrangement on top of the storeyed masonry of temporary screens and a reinforced-concrete frame with slots in the middle part on them for admission of the warmth-keeping jacket, fixing of the frame and its attachment to the floor, erection of the next storey and removal of the screens with filling of the formed gaps with sealant. At erection of the inner wall of small-piece materials the frame after its fixing and before attachment to the floor is joined to the reinforced-concrete columns preliminarily fastened to the end faces of the inner transverse walls in an invariable stiffener angle. EFFECT: enhanced stiffness of the multistoried building. 4 dwg

Description

 The invention relates to construction and can be used in prefabricated multi-storey residential and public buildings.

 The closest technical solution to the proposed one is the method of building the outer wall of the building, including the construction of lightweight masonry from small pieces of materials and the inner wall with their connection to each other, placement on top of the masonry of temporary beacons and on them a reinforced concrete frame with slots in the middle part for the passage of insulation, fixing framework and its fastening to the ceiling, the erection of the next floor masonry and the removal of beacons with filling the formed gaps with sealant (see patent RU N2095533, class E 04 H 9/02, 1995).

 The disadvantage of this solution for multi-storey prefabricated buildings, the outer walls of which are made with an inner wall of small-piece materials, is their reduced rigidity in the longitudinal direction. This is due to the fact that the walls of small-piece materials, unlike panel ones, do not create stiffness diaphragms along the longitudinal external walls of the building.

 The purpose of the proposal is to increase the rigidity of a multi-story building.

 This goal is achieved by the fact that in the method of erecting the outer wall of the building, including the erection of lightweight masonry from small pieces of materials and the inner wall with their connection to each other, placement on top of the floor masonry of temporary beacons and on them a reinforced concrete frame with slots in the middle part for passing insulation, fixing frames and its fastening to the ceiling, the erection of the next floor masonry and the removal of beacons with filling the formed gaps with sealant, when the inner wall is made of small-sized materials ACU after fixation and attachment to an overlap connected to the pre-fixed to the ends of the internal transverse walls in reinforced concrete columns rigid unchangeable angle.

 As an example, we consider the method of erecting a multi-storey large-panel building with three-layer non-supporting (curtain) external walls, with an internal wall made of small-piece materials.

 In FIG. 1 shows a fragment of the floor plan of the building; figure 2 is a fragment of a cross section of a building during installation; figure 3 is a fragment of a cross section of a building; figure 4 is a section 3-3 in figure 1.

 On the floor 1 of the typical floor with reinforced concrete frames of the L-shaped section 2, made with vertical 3 and horizontal 4 sections and having in the middle part of the slot for the passage of insulation 5, internal transverse and longitudinal walls 6 are erected, and the ends of the transverse walls are rigidly prefabricated prefabricated reinforced concrete columns 7 are fastened with undercut in the upper part to form supporting platforms 8. Next, on the frame 2, the inner wall 9 of small pieces, for example wall stones or irpicha, and the outer layer of lightweight masonry in 1/2 of the front brick 10 with the connection of both layers with metal ties 11 and laying between them, if necessary, insulation 5. Then, temporary beacons 12 are laid on top of the outer brickwork and installed on them with a horizontal section 4, and on the supporting sites of 8 columns 7, the vertical section 3 of the frame 2. After fixing the position on the beacons 12, the frame 2 is welded along the upper and lower faces of the vertical section 3 to the columns 7 by means of metal plates 13. unchanging joints capable of perceiving bending moments from external forces. After that, an overlapping 1 is installed on the internal transverse and longitudinal walls 6 above the typical floor, to which the frame 2 is welded using metal plates 14. Then, temporary beacons 12 are removed and the formed gap is sealed. Further on the next floor all the operations described above are repeated. As a result, after the walls are erected on all floors along the longitudinal sides of the building, multistory rigid frame structures are formed from the systems of rigid joints of the frames 2 and columns 7, which absorb external forces on the building, acting in the longitudinal plane.

 The proposed technical solution, which makes it possible to perform rigid multi-storey frame structures in the plane of longitudinal external walls, makes it possible to compensate for the decrease in the longitudinal stiffness of a multi-storey, mainly large-panel building, which is caused by the replacement of three-layer panel external walls with concrete layers with external walls with layers of small-sized materials.

Claims (1)

 The method of erecting the outer wall of the building, including the erection of lightweight masonry from small-sized materials and the inner wall with their connection to each other, placing on top of the masonry of temporary beacons and on them a reinforced concrete frame with slots in the middle part for the passage of insulation, fixing the frame and attaching it to the ceiling, erection of masonry on the next floor and removal of beacons with filling the formed gaps with sealant, characterized in that when the inner wall is made of small-sized materials, the frame after its fi sation and to connect the fastening to overlap with the pre-fixed to the ends of the internal transverse walls in reinforced concrete columns rigid unchangeable angle.

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