SU1760059A1 - Building - Google Patents

Abstract

Usage: construction of multi-storey buildings, providing increased stability and durability in the construction of buildings subject to dynamic effects. Additional bolts are placed along the longitudinal axis of the building of the second frame cells, and the main bolts along the longitudinal axis of the building. The diaphragms and sa rigidity are located in the cells along the contour of the building. Each with stiffness is made closed in plan in the form of a reinforced concrete slab with a variable cross section. A part of the latter with a smaller cross section supported on the slabs and rigidly attached to them with the formation of an expansion joint with respect to the floor structure, while a part with a large cross section is located between the slabs and the outer fence with a gap relative to the columns. The wall panels of the outer fence and the stiffening diaphragm are attached to the stiffness itself. All crossbars located in the cells along the contour of the building are connected to the columns. L-shaped rod clamps. The regiment of the latter and the girders are supported, respectively, on the upper face of the girders and the console of the outer columns through roller supports. 5 il. sl C

Description

The invention relates to the field of construction, namely, publications capable of withstanding the load from a shock wave of a nuclear explosion and the attendant seismic impact.

Known sprinkled with soil high-rise building 1.

Of the known devices, a multi-storey building closest to the claimed one includes a foundation slab rigidly connected to it and forming columns in the cell building plan with consoles for supporting transom mounted on the transverse axes of the building, diaphragm and rigidity plate floors, supported on bolts and attached to them, the outer fence and floor design. 2

The disadvantage of the device is the insufficient stability and strength of the building under the influence of dynamic loads.

The aim of the invention is to increase the stability and strength when exposed to buildings.

The essence of the invention is that the columns and girders are excluded from the impact of the shock wave and work only on vertical loads, which allows the use of serial columns with a horizontal equivalent load of up to 6 tons / mg. At the same time, the wall panels of the building work on bending like slabs and transmit a force effect on the rigidity, from which the influence is transmitted through the diaphragms to the foundation. In this case, the outer end part of the overlap

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moves together with the floor and the bolts along the supporting part of the colony in the longitudinal and transverse directions, thereby excluding the columns from the shock wave pattern.

FIG. 1 is a plan view of the building; in fig. 2 shows section A-A in FIG. one; in fig. 3 — interface of the wall panels of the columns and power structures; in fig. 4 shows a section BB in FIG. 3; in fig. 5 shows a section B-B in FIG. four.

A multi-storey building contains a foundation slab 1, rigidly connected to it and forming in the building plan cell columns 2 with consoles 3 for supporting the main girders 4 and additional gables (not shown) installed respectively along the transverse and longitudinal axis of the building, the slab of 5 sec. floor, supported on bolts 4 and attached to them. The outer fence of the building is made of a type of prefabricated wall panels 6 containing embedded parts 7 in contact with the latches 8. The bottom panels 9 are mounted on the foundation slab 1.

The upper and lower horizontal edges of the wall panels 6 are supported on the basis of 10 adjacent floors, located along the contour of the building and made closed in plan in the form of a reinforced concrete slab with a variable section. A part of the slab of stiffness 10c with a smaller cross section supported on the slab 5, rigidly attached to them and positioned to form a deformation seam 11 relative to the internal floor structure, having a device according to any standard design, i.e. equipped with standardly installed columns 12, and a part of pac 10 with a large cross section 13 is placed between the face 14 of the overlap plates 5 and the outer enclosure, forming an opening for the columns 2 and adjoins them through the fixings 7, a gap is formed between the columns 2 and the enclosure 15.

In the gap 16 of the opening between the column 2 and on the catfish installed strip 17, for example, of roofing material. Diaphragms 18 located at a distance of stiffness 10 along its perimeter are located at a distance, for example, 18 m or 24 m

The outer columns 2 in the stiffness zone 10 are insulated from wall panels 6 with a gap of 15, on the order of 2-3 cm, depending on the height of the structure, and are located at a distance of, for example, 6 m from each other.

The main and additional girders placed in the cells along the contour of the building are connected to the outer columns 2 by means of L-shaped core clamps 19 supported by crossbars 4 and a shelf of clamps 19 respectively on the console 3 outer columns 2 and the upper face of the crossbars 4 by means of Katkovy supports 20.

To protect the columns 2 from contacting the opposite end of the bars 4 between them and the columns 2, a gap 21 is provided.

The diaphragms 18 and along with the rigidity 10 are the protective frame of the construction.

Claims (1)

The invention of the multi-storey building, including the base plate, rigidly connected with it and forming cells in the building plan. 0 columns with brackets for supporting bolts mounted on the transverse axes of the building, diaphragm and rigidity, floor slabs supported on bolts and attached to them, external fencing and construction of the floor, characterized in that, in order to increase stability and strength when exposed to buildings exposed to dynamic effects, it is equipped with additional bolts installed on the longitudinal axis of the building in the end cages, and the diaphragms and rigidity are placed in the cells located along the contour of the building, and It is not closed in the form of a reinforced concrete slab with a variable cross section, a part of which with a smaller cross section supported on the floor slabs, rigidly attached to them and located with the formation of a deformation seam relative to the floor structure, but a part with reinforcement cross section is placed between the vertical edge of the floor slabs and the outer fence with the formation of a gap relative to the columns, while the outer fence 5 is made in the form of prefabricated wall panels, the lower of which are installed on the foundation slab, and all the panels and reinforcement diaphragms are attached to the rigidity itself, with the main and additional gels placed in the cells along the contour of the building connected to the outer columns by means of L-shaped rod clamps with bearing bolts and shelf clamps, respectively, on the console 5 outer columns and the upper edge of the crossbars by means of Katkov supports. / / Ј / i BUT VЈ Z FIG. 2 teJ g Fig4 Editor V. Savina FIG. five Compiled by L. Borovchenko Tehred M. MorgentalKorrektor O. Gusti T /