SU685774A1 - Prefabricated reinforced-concrete framework of multistorey building - Google Patents

Description

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The invention relates to ground construction and can be used in the construction of buildings from prefabricated blocks.

The known structure of the precast concrete frame of a multi-storey building, which includes factory-made blocks consisting of supporting columns, made monolithically with the floor slabs, connecting along the edges 1. The disadvantage of this framework is that the distance between the columns does not exceed the size of the plate.

Known flat bezapitelny design of the building frame, including columns, column and inter-column plates, plate-insert. The slabs are interconnected along the edges 2. The disadvantage of this building frame is that the distance between the columns does not exceed the double size of the slab side.

The closest technical solution to the invention is the precast reinforced concrete frame of a multistory building, including the columns to which the slabs supported on them are installed diagonally along the axes of the building and interconnected in the middle of the span at the corners. Additional plates 3 resting on them are placed between the slabs. The disadvantage of this framework is that the pitch of its columns does not exceed the diagonal of the slabs.

The aim of the invention is to increase the span of the building without increasing the size of the floor slabs.

This goal is achieved by the fact that in the frame of a multi-storey building containing columns with slabs resting on them, installed diagonals along the axes of the building, 5 and additional slabs, between the slabs of the building axes along the corners of the building are placed interstitial plates slabs, and additional slabs 0 are installed between the slabs and the annular slabs and are supported on them.

To increase the strength of the frame diagonally the annular plates 5 can be made bolts, and along the perimeter - ribs with shelves for supporting additional plates.

FIG. 1 shows a frame with plates, apart in one direction of the scientific research institute, a plan; in fig. 2 - frame with plates, separated in two directions, not x, plan; Fig. 3 shows a slab with ribs resting on the column; in fig. 4 - annular slab with crossbars.

The precast reinforced concrete frame of a multi-storey building consists of slabs 1, supported on columns 2, annular plates 3, and additional plates 4 supported on edges 5 with shelves made around the perimeter of plates 1 and 3.

The following embodiments of the frame are possible.

The slabs 1 of the ceiling have located, diagonally, crossbars 6 with bushes, and along the perimeter ribs 5 with shelves on which additional plates 4 rest upon the installation of the building,

Diagonal m of the annular plates 3 are made with a bolt, b with protrusions for resting on the crossbars of 6 slabs, and along their perimeter there are ribs 5 with shelves for resting additional plates.

On the diagonal of m additional plates, the ribs 5 are made with protrusions at the ends (they are not cracked in the figures), with which they are supported on interlocking ledges of crossbars of slabs and overlapping plates. Plates 1 and 3 in this case do not have edges 5 with shelves.

In the first two variants, additional plates 4 can be made with edges diagonally m, and the edges do not reach the end of the plates 4.

In the case of building a building, the woodworking plates 1 supported on columns 2 and annular plates 3 are installed with diagrams along the axes of the building and are joined by welding the outlets of the reinforcement and monolithing the joints. The resulting free space is covered with additional plates 4, resting their sides on the shelves of the overlapping plates and the annular plates or the protrusions of the ribs on the ledges of the transom, b plates 1 and 3.

The proposed building frame allows to reduce the dimensions of interfloor overlappings compared to the currently used structures with separate production and installation of columns, beams and floor slabs up to 20% and, consequently, material consumption, and by reducing the number of elements and reducing their number. work on the construction of the frame by 10-15%.

Claims (3)

Claims 1. Precast reinforced concrete frame multi-storey building, including columns, slabs, supported on them and installed diagonally along the axes of the building, and additional plates, characterized in that 0 to increase the span of the building without increasing the size of the slabs, between the slabs along the axes of the building are placed intercolumnar slabs connected in the corners between themselves and with 5 slabs, and additional slabs mounted between the slabs and annular slabs and supported on them, 2. Precast reinforced concrete frame 0 according to claim. 1, characterized by by the fact that, in order to increase its strength, crossbars are made along the diagonal of the annular plates, and along the perimeter there are ribs with shelves for supporting additional plates. Sources of information taken into account in the examination 0 1. Japan patent 45-11268, cl. 86 C 3, published. 1970. 2. Dorfman A.E., et al. Designing of beamless non-capillary ceilings, M., stroiizdat, 1975, 45 seconds, 13-18. 3. USSR author's certificate number 553335, cl. E 04 B 1/02, 1974. fuz.l ig.2 Rygl  Fy