RU1786231C - R c frame of buildings or structures - Google Patents

Abstract

Usage: the construction of reinforced concrete frames of buildings or structures, providing the expansion of architectural and planning solutions, reducing the range of elements of the frame while increasing the span of cells and increasing the rigidity of the frame. Summary of the invention: L-shaped half-frames are installed in the building plan in parallel and / or mutually perpendicularly, and the length of their crossbars is equal to the double width of the floor slabs, which are supported on the crossbars and / or adjacent floor slabs. The latter have protrusions and grooves on the side faces and can be made integral along the length. Paired floor slabs and parts of composite floor slabs are made with an angled protrusion and a cutout in the plan and are installed obliquely symmetrically. Floor slabs are arranged in plan in two mutually perpendicular directions in adjacent cells and / or in each cell. 3 s.p. f-ly, 20 ill.

Description

The invention relates to construction and can be used in the construction of prefabricated reinforced concrete frames of buildings or structures.

Known prefabricated frame of buildings, including a flat ceiling made of prefabricated reinforced concrete slabs, supported along the contour and contour elements 1.

The disadvantage of this design is the high complexity of installation and material consumption. This design does not allow to increase the span without increasing the size of the plates.

The closest in technical essence to the invention is a reinforced concrete frame of buildings or structures, including columns forming cells, and located in two mutually perpendicular directions and made rectangular in plan with projections and grooves along the side faces of the floor slab, one part which is supported by adjacent floor slabs 2.

The disadvantage of this solution is the impossibility of expanding architectural and planning solutions and increasing the span of cells, as well as a significant number of sizes of frame elements.

The aim of the invention is to expand the capabilities of architectural and planning solutions and reduce the range of elements of the frame while increasing the span of cells.

The goal is achieved in that the columns are equipped with rigidly and cantileverly attached bolts to them with the formation of

About Yu GO

different half-frames installed in the building plan parallel or mutually perpendicular, and the length of the crossbars is equal to the double width of the floor slabs, the other part of which is supported by the half-beams, and the floor slabs are located in two mutually perpendicular directions in adjacent cells and / or inside each cell .

In order to increase the rigidity of the carcass, each pair of adjacent floor slabs can be made with an angular cut and a ledge in the plan, which have a length and width equal to half the length of a third of the width of the floor slabs, and are arranged obliquely symmetrically in the plan, or each floor slab can to be made composite in length of two parts with an angular cutout, the length and width of which is equal to half the length and width of the floor slabs, and its component parts are arranged obliquely symmetrically, with the protrusions and grooves of the mating faces floor slabs and their components are made at the ends of the latter and their corner cutouts and over the entire width of the latter.

Figure 1 shows the cell frame in the plan; in FIG. 2, 3, 4, 5 - the same, options for placing floor slabs in a cell; figure 6 is a section aa in figure 1; in FIG. 7 - section BB in figure 1; not fig. 8 is a section bb in FIG. 2; in Fig.9 is a section GG in Fig.Z; in Fig. U - section DD in Fig.4; in FIG. 11 is a section EE in figure 4; in FIG. 12 - section FJ in figure 5; in Fig.13 - section II in Fig.5; in FIG. 14, 15, 16 - plan variants of a building frame or structure with different placement of the same or different cells; on Fig, 17 - floor slab or its component part with an angular cut; in FIG. 18-node I in FIG. 6, 10, 12; in FIG. 19 - node II in FIG. 7,8,9,11,12,13; on Fig-frame in the installation stage.

The reinforced concrete frame of buildings or structures contains prefabricated columns 1, forming cells 2 in the plan of the building or structure, and slabs 3 of overlapping 4 of the same size, arranged in two mutually perpendicular directions and made rectangular in plan with projections 5 and grooves 6 along them side gran m.

Each column 1 is equipped with beams rigidly and cantileverly attached to it to form L-shaped half-frames 8. Half-frames 8 are mounted parallel to or mutually perpendicular to the plan of a building or structure. The length of the crossbars 7 is equal to the double length of the slabs 3 floors 4.

Some plates 3 are supported on the crossbars 7 half-frames 8, and other plates - on the protrusions of 5 adjacent plates 3. Plates 3 floors 4

placed in plan in two mutually perpendicular directions in adjacent cells 2 or / and inside each cell 2. To increase the rigidity of the frame, each pair

adjacent plates 3 can be made with an angular cutout 9 and a protrusion 10 in the plan. Their length and width are respectively half the length and a third of the width of the plates 3. The plates 3 of each pair are placed in

0 plan is skew-symmetric. For the same purpose, each slab 3 of the floor 4 can be made integral along the length of two parts 11 with an angular cutout 12, the length and width of which are equal to half the length and

5 of the width of the plate 3, and its components 11 are located obliquely in plan. The protrusions 5 and grooves 6 of the joined faces of the paired plates 3 and their components 11 are made at the ends of the latter and their angular

0 cutouts 12 and the entire width of the corner cutouts 12.

The installation of the floor 4 of the building has the following sequence, depending on the span of the type of floor 4. First, L-shaped half frames 8 of the frame 2 are installed with a certain step. Then, the plates 3 of the floor 4 are laid on them and connected by welding embedded parts, and the seams between them monolithic. To increase the span to the protrusion 5 of the floor slab 4, lay the slabs 3. In this way, the building span is increased without increasing the size of the floor slabs 3. The design of the floor slab 4 4 does not

5 requires additional mounting hardware due to simple butt joints. The design of the slabs 3 of the ceiling 4 and their mutual combination make it possible to support the various spaces without span from 3.6 to 30 m.

0. The assembly of paired plates 3 with corner cutouts is carried out at a construction site on a stand on which one support is provided, which can be moved vertically with a screw or hydraulic jack with a stroke of 200 mm.

Assembly is carried out in the following sequence. The first plate 3 is laid on the stand with its end resting on a vertically movable support, with which the end of the plate 3 is lifted so that the second plate 3 can be brought in by its protrusion 5 on the opposite side of the plate 3 under the protrusion 5 on the end of the first plate 3 . Wherein

5, the protrusion of the end face of the second plate 3 is placed on the protrusion 5 of the plate 3. After joining the plates 3 along the entire longitudinal plane of the abutting faces, the plate 3 is unwrapped and then the end of the first plate 3 is lowered using the movable support to extend the protrusion 5 onto

the protrusion 5 of the second plate 3, after which the final assembly is ensured by welding. When assembling the composite plates 3, a steel insert 13 is installed along the axis of the assembled plate 3, which fills the groove formed during the assembly. The insert 13 is also fixed by welding. After welding is completed, the composite plate 3 is fed by a crane either to a storage site for reinforced concrete products, or mounted on a building column using a conventional technology onto a column 1 of the frame.

The invention allows to reduce the number of standard sizes, increase the span of a cell and the possibility of architectural and planning solutions of a building or structure.

Claims (4)

1. Reinforced concrete frame of buildings or structures, including columns forming cells, and located in two mutually perpendicular directions and made rectangular in plan with protrusions and grooves along the side faces of the floor slab, one part of which is supported on adjacent slabs floors, characterized in that, in order to expand the capabilities of architectural and planning solutions and reduce the range of elements of the frame while increasing the span of cells, 6 0 the columns are equipped with a bolt rigidly and cantileverly attached to them with the formation of L-shaped half-frames installed in the building plan parallel or mutually perpendicular, and the length of the crossbars is equal to the double width of the floor slabs, the other part of which is supported on the half-beam crossbars, and the floor slabs are arranged in two mutually perpendicular to the adjacent cells and / or within each cell. 2. The frame of buildings according to claim 1, with the exception that in order to increase the rigidity of the frame, each pair of adjacent 5 floor slabs is made with an angular cut and a ledge in the plan, which have a length and a width equal to respectively half the length and a third of the width of the floor slabs, and are arranged obliquely in plan. 3. The building frame according to claim 1, with the exception that, in order to increase the rigidity of the frame, each floor slab is made integral in length from two parts with an angular cut, the length and width of which is equal to half the length and width of the floor slabs, and its components are located obliquely symmetrically in the plan. 4. The building frame according to claims 2 and 3, characterized in that the protrusions and grooves of the mating faces of the paired floor slabs and their components are made at the ends of the latter and their corner cutouts and over the entire width of the latter. 0 5 0 / t  -I |} 1.8 t 77 / 7 /, Fig.Z N 7 rf iti t l “m IB 4 K-j F / J I7 Y / - / J r I Fi g. 4 r I AM t k Jr f- / gg 7 1 Fi g. 6 Jt Yuig. 9 / / g J Wigub  / Cabbage soup g. To J f J / / / 7 / Shchig. 19