SU553335A1 - Prefab reinforced concrete frame of a multistory building - Google Patents

Description

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The invention relates to a ground construction, in particular to the construction of a precast concrete frame of a Mp-ethanol building.

The reinforced concrete frame of a multistory building is known, which includes columns, having consoles and supported directly on the basement of four corners, caisson plates, which include girders placed on their contour. Adjacent bolts of two plints are spaced apart by the thickness of columns 1.

The disadvantage of this frame is that the girders do not form a hard disk, since there is a shelf between them.

The structure of the precast reinforced bezigelny framework called fungoid is known.

Prefabricated reinforced concrete panels of floors and coverings are hexagonal in shape with ribs and edges pointing upwards. The panels are joined by folding out reinforcement from slabs 2.

The disadvantage of this frame is its lack of rigidity.

The closest technical solution to the invention is the precast reinforced concrete frame of a multi-storey building, including: columns 01 supported on them, floor slabs combined with them.

The plates of non-opening are connected to each other along the edges, and the columns of different floors are welded by reinforcement exposed at the ends of the columns 3.

The disadvantages of this reinforced concrete frame are the large dimensions of the floor slabs, which are equal to the pitch of the columns, which makes them difficult to manufacture and transport. In addition, complicate the installation of the building frame, since Titles are interconnected along edges.

The aim of the invention is to reduce the size of the overlap, increase the rigidity of the frame and simplify its installation.

This goal is achieved by the fact that the overlap plates are arranged diagonally along the axes of the building and are interconnected in the middle of the span at the corners, and between -the additional plates supported by them are exchanged. In addition, the crossbars are made diagonally across the slabs, and along the perimeter, the edges of the blade for oirani additional plates.

In addition, bolts with protrusions in the upper part of the ends for fitting on the ends of the slabs of overlapping slabs can be made along the diagonal of the extra half slabs, and the ribs and shelves of the slabs are absent.

FIG. 1 shows a precast reinforced concrete frame in plan (the first option); pas figs. 2 - plpta overlap with a column in plan; in fig. 3 is a section along A-A in FIG. 2; in fig. 4 is a section along BB in FIG. 2; in fig. 5 - precast reinforced concrete frame in plan (the second option); in fig. 6, node A of FIG. five; on with | zig. 7 is a section, but BB, in FIG. five; on fig. 8 - ceiling plate with a column (the second option); on fng. 9 is a section along the GGD of FIG. eight; on fng. 10 - additional slab (the second option); in fig. 11 is a section along the DD-D in FIG. ten.

Precast reinforced concrete frame of a multistory building composed of plates 1 unopened with columns 2 additional plats 3. In the first embodiment, bolts 4 diagonally 4 are made with plates 1 and columns 2, and around the perimeter of slabs 1 are 5 € shelves 6 , on which, when mounting the building, additional lnty 3 are supported.

In the other embodiment, girders 4 are made and diagonally have additional nlits 3, at the ends of girders 4 there are ledges with which they are supported on girders 4 of slabs 1 to be blocked.

Plates 1 in this case, the ribs 5 and 6 shelves do not have. Columns 2 can be made a height of one floor, or less. In the latter case, part of column 2 is completed during construction. In particular, in order to simplify manufacturing, the upper part of the column 2 may be completely absent.

During the installation of the building, the floor slabs are installed diagonally along the axes of the building and are joined in vershchnnakh by welding releases of reinforcement and monolithic joints. The resulting square holes are closed with additional plates.cn 3, supporting them in the first version on nolkn 6, or - in the second version i - on the crossbars 4 plates 1.

In the second embodiment of the building framework, the doubled spacing of columns 2 can be obtained, for which it is necessary to replace each second slab I with column 2 with an additional plate 3, connecting them at the vertices with each other.

In the proposed construction, the frame of the column 2 and the girders 4 in the transverse direction take a smaller load due to the fact that the vertical load is distributed on the longitudinal and transverse frame. The thickness of the overlap can be reduced by 200-300 mm due to the fact that crossbars 4 work together with nlitamn 1 n 3, the reinforcement of plates 1 and 3 participates in the work of grun 4, as in the case of the T-section. The stiffness of the overlap increases significantly, as it is a truss in which the bolts 4 are themselves n braces, and the plates 1 and 3 serve as spacers. As the calculations show, the height of the floor can be reduced from 3.6 m to 3.3 m, the weight of the ceiling can be

reduced by 14.7%, columns - by 8.3%, rgel - by 18.2%. Approximately in the same qualities, material consumption is reduced. The cubic capacity of a building is reduced by 8.3%, and its cost is about 10%.

Ф о р. М у л and inventions

Claims (3)

1. Prefab reinforced concrete frame of a multistory building, including columns and slabs supported on them, characterized in that, in order to reduce the size of the slabs, increase the stiffness of the frame and simplify its installation, the slabs are installed diagonally along the axes of the building and are interconnected by midway through the corners, and between them there are additional nlitas supported on them. 2. The frame according to item I, which is designed so that, in order to increase the strength of the frame, the arches are made diagonally over the slabs, and along the perimeter - ribs and shelves Lean additional plates. 3.Karkas on PP. 1 and 2, characterized in that along the diagonal of the additional plates, bolts are made with protrusions in the upper part of the ends for resting on the ends of the bolts slabs. Sources of information taken into account in the examination: 1. Multi-storey buildings with a prefabricated reinforced concrete frame, project Design Institute № 1 Gosstro of the USSR, NIIFR 1839-10, Leningrad, 1969, l. four. 2.Dmitriev, L. G. et al., Programming the calculation of spatial structures, Kiev, State. publishing house literature but building and architecture USSR. 1963, €. 101 - 102, fig. 38 3. Japanese Patent No. 45-11268, cl. 86СЗ, publ. 1970 (prototype). A- A RigZ Knot Rig 7