RU102640U1 - Prefabricated Monolithic Overlapping of the Frame Building - Google Patents

Abstract

 Precast-monolithic overlapping of the frame building, including multi-hollow reinforced concrete floor slabs supported on columns and crossbars of the frame, the crossbars are made of prefabricated-monolithic in the form of spatial bodies with a prefabricated lower broadened part and a narrower upper monolithic part in the form of an extended polyhedron with a cross section in the form of a rectangle with the formation in conjunction with the prefabricated part of a single bearing profile of the T-section, characterized in that on multi-hollow reinforced concrete floor slabs made s releases interacting with vertical reinforcement located on the upper monolithic part of the crossbar.

Description

The utility model relates to the field of construction and can be used in the construction of residential, public and administrative buildings and structures.

Known prefabricated-monolithic overlapping of the frame building, including monolithically connected to the columns of the frame, prefabricated-monolithic crossbars, at least one of which is made with the lower part mainly in the form of a widened prefabricated shelf, forming, at least after the execution of the monolithic upper part of the crossbar or two lateral overhanging cantilever overhangs for supporting floor slabs on them with ends and / or side faces and an upper monolithic part containing in cross section a wall and an upper broadened shelf one or two reciprocal lower overhangs, monolithic to at least one floor slab supported on a crossbar, as well as floor slabs supported on a crossbar, while the assembled part mounted in the ceiling is pre-stressed mainly in the form of a lower flange of the crossbar with longitudinal and transverse outlets reinforcement, and the transverse reinforcement outlets are installed at least in the span of the crossbar and are made up of clamps or a system of rods monolithic in the lower assembly of the crossbar in the process during its manufacture and united by at least one reinforcing mesh on top, and brought out by peaks above the upper part of the floor slabs supported on the crossbar, at least in the area where the crossbar adjoins the column for at least one third of the crossbar span, (patent for invention RU No. 2285772, IPC Е04В 1/20, publ. 10.20. 2006)

Closest to the claimed technical solution is the overlap of a building, structure, characterized in that at least part of its area is made up of frame bolts supported by columns and hollow core slabs, and the bolts are prefabricated-monolithic in the form of spatial bodies with a base widened part and narrowed relatively narrowed relatively lower upper part in the form of an extended polyhedron with a cross section, mainly in the form of a rectangle or trapezoid with the formation in features with the assembly part of a single bearing profile with local broadening in the form of protrusions located along the length of the bolt with a step corresponding to the pitch of the voids of the floor slabs supported on the bolt, and the protrusions are made extended in the directions of the axis of voids, have a length of at least 1.3 thicknesses corresponding plates, and placed in the supporting and supporting zones of the voids of the plates. (Patent for invention RU No. 2198267, IPC ЕВВ 1/20, publ. 02/10/2003)

The disadvantages of this design are:

- lack of spatial rigidity and disk for buildings with seismicity of 7, 8 and 9 points;

- significant material and labor costs, terms of construction work.

The technical task of the utility model is to create a prefabricated-monolithic overlapping of a frame building for buildings with a seismicity of 7, 8 and 9 points of increased reliability and spatial rigidity and strength while reducing labor and material costs, construction time and providing the possibility of construction work in any weather conditions.

This task is achieved due to the fact that in the prefabricated monolithic overlapping of the frame building, including multi-hollow reinforced concrete floor slabs supported on columns and crossbars of the frame, the crossbars are made of prefabricated monolithic in the form of spatial bodies with a prefabricated lower widened part and a narrower upper monolithic part in in the form of an extended polyhedron with a cross-section in the form of a rectangle with the formation in conjunction with the prefabricated part of a single bearing profile of the T-section, while according to the utility model a hollow-core slab made of concrete slabs releases interacting with a vertical reinforcement, placed on top of a monolithic part pins. The columns are prefabricated, stacked on 2-3 floors.

The essence of the utility model is illustrated by drawings, where figure 1 shows the layout of the frame; figure 2 is a section aa; figure 3 - sealing joints between the plates.

The precast-monolithic overlapping of the frame building contains crossbars 2, 3 supported on columns 1 and multi-hollow reinforced concrete slabs 4 supported on crossbars. The crossbars 2 and 3 are made prefabricated-monolithic in the form of spatial bodies with a prefabricated lower broadened part 5 and monolithic narrowed relative to the lower upper part 6 in the form of an extended polyhedron with a cross-section in the shape of a rectangle, together with the prefabricated part 5 forming a single bearing T-profile. The upper monolithic part 6 of the crossbars, 2, 3 has a height of not less than the height of multi-hollow reinforced concrete slabs 4. Crossbars 2, 3 are interconnected by upper and lower nodal rods passing through the open sections of columns 1 (not shown in the drawings). On multi-hollow reinforced concrete floor slabs 4, anti-seismic outlets are made 7. Vertical reinforcement 8 is placed in the upper monolithic part of 6 crossbars 2, 3. To create a hard drive of the floor that accepts horizontal loads, anti-seismic outlets 7 of multi-hollow reinforced concrete slabs 4 are placed in vertical reinforcement 8 of the monolithic part 6 precast-monolithic crossbars 2, 3. Then fit the span and support armature 9 of the monolithic part of the precast-monolithic crossbar. Thus, in the level of prefabricated multi-hollow floor slabs, an anti-seismic belt is formed. After installation of all prefabricated reinforced concrete structures, concreting of the upper part of the crossbar is performed. The seams between multi-hollow reinforced concrete slabs 4 are sealed with concrete on a fine aggregate, thereby creating a hard drive that accepts horizontal loads, especially those that arise in areas with different wind and seismic loads.

The proposed technical solution will significantly increase the reliability and spatial rigidity and strength of the floor for buildings with a seismicity of 7, 8 and 9 points while reducing labor and material costs, reduce construction time, provide the ability to carry out construction work in any weather conditions.

Claims (1)

Precast-monolithic overlapping of the frame building, including multi-hollow reinforced concrete floor slabs supported on columns and crossbars of the frame, the crossbars are made of prefabricated-monolithic in the form of spatial bodies with a prefabricated lower broadened part and a narrower upper monolithic part in the form of an extended polyhedron with a cross section in the form of a rectangle with the formation in conjunction with the prefabricated part of a single bearing profile of the T-section, characterized in that on multi-hollow reinforced concrete floor slabs made s releases interacting with vertical reinforcement located on the upper monolithic part of the crossbar.