RU2747747C1 - Building frame - Google Patents

Abstract

FIELD: building.

SUBSTANCE: invention relates to a building frame. The building frame is comprised of a socket-type foundation, vertical columns, crossbeams and precast floor slabs. The frame is equipped with crowns with holes of square section. The crowns are connected with the foundation by means of an insert installed into the foundation socket and into the hole of the crown from one end thereof and with columns installed into the hole of the crown from another end thereof. In a standard floor the crowns are connected with the lower and upper ends of the columns adjacent in height installed in the hole of the crown.

EFFECT: reduced assembly complexity.

5 cl, 2 dwg

Description

The invention relates to construction and general-purpose building structures made of high-strength fiber-reinforced concrete lightweight load-bearing elements, for example, columns, crossbars, floors and enclosing elements, which can be used in the construction of low and medium-rise buildings in seismic zones and areas with difficult climatic conditions on subsidence, heaving soils, etc.

Known invention "The design of a multi-storey building" (RF Patent 2534681 author Zurabyan A.S. publication 10.12.2014) consisting of prefabricated columns installed on top of each other through joints with outlets of reinforcement of prefabricated columns, consisting of vertical branches forming L- or T-shaped sections, prefabricated girders installed on the floors between the columns, from floor slabs resting on girders, and self-supporting, hinged or load-bearing external walls, characterized in that the branches of T- and L-shaped columns in the upper part have recesses with a support for installing the girder equipped at the ends from above with outlets connected to the working reinforcement of the upper column branch.

The design of the branches of T- and L-shaped columns in the lower and upper parts along the edges are equipped with looped reinforcement outlets connected above each other, the contour of the slabs in the corners repeats the profile of the sections of the T- and L-shaped columns.

The disadvantages of this design include: high metal consumption and a complex frame structure; high labor intensity of reinforcement, welding and concrete work during the installation of the building frame.

Known invention "Precast-monolithic reinforced concrete frame of a building, structure" (RF Patent 2519082, published 10.06.2014, authors Lazarev I.A. and others) consisting of columns having concrete gaps in the overlap plane for a monolithic nodal connection, in which prefabricated monolithic load-bearing and tie beams with columns and overlap, consisting of floor slabs, supported directly on load-bearing beams, and tie beams. In the frame, the ligation of bent outlets of reinforcing ropes in monolithic girder-column nodes is used, and the girder-floor slab assembly is made with concrete dowels, limited by plugs with holes through which the reinforcement passes in transit, uniform for counter slabs, embedded in the dowels and plug holes, and to control the filling of the dowels with concrete, holes are provided above the plugs. The monolithic part of the crossbar is filled with concrete. Also, the lower protective layer of concrete was reduced to the permissible level (25-30 mm), and prefabricated consoles were used instead of monolithic ones to support the outer masonry.

The disadvantages of this design include: high material consumption and structural complexity of the frame, great labor intensity with the use of reinforcement, welding and concrete work during the installation of building frame elements.

The closest prototype is the well-known invention "Frame of a multi-storey building" (US 808607 A1, 1981) a building frame containing a glass-type foundation, vertical columns, crossbars and prefabricated floor slabs

The disadvantages of this design include: high material consumption and structural complexity of the frame, great labor intensity with the use of reinforcement, welding and concrete work during the installation of building frame elements.

The technical result of the invention is: improvement of the frame structure in order to increase its reliability, reduce material consumption and labor intensity in the manufacture and installation of building elements; reduction of reinforcement, welding and concrete works, as well as improvement of quality and reduction of construction time.

The reasons preventing the achievement of the technical result are the disadvantages of the analogue, which has a large metal consumption and a complex frame structure; high labor intensity of reinforcement, welding and concrete work during the installation of building elements.

The features of the prototype, which coincide with the essential features of the invention, are: glass-type foundation, vertical columns, crossbars and prefabricated floor slabs.

The technical objective of the invention is to improve the building frame, which will eliminate the disadvantages of the analogue.

The problem is solved by the fact that the building frame contains a glass-type foundation, vertical columns, crossbars and prefabricated floor slabs and, according to the invention, has crowns with square holes, for connection to the foundation by means of an insert installed in the foundation glass and in the opening of the crown with of one end of it and with columns installed in the crown hole from its other end or connected to the lower and upper ends of the columns adjacent in height, installed in the crown hole, figured protrusions are made along the outer contour on the rims, providing mating with the ledges of the crossbars and cutouts of the enclosing structures , in the mating planes of the rims and crossbars, grooves for the keys are made to fix the mating elements from displacement; the lower and upper parts of the columns are made of square cross-section to mate with the holes of the rims of the corresponding shape; floor slabs along the contour have shelves with a width of 120 mm for bearing on load-bearing beams; the enclosing structures are hung with curly cutouts on the curly ledges of the crowns; partitions are installed in the frame openings and fixed to the columns and floor slabs.

There is a causal relationship between the set of essential features of the invention and the achieved technical result, the building frame contains: a glass-type foundation, vertical columns, crossbars and prefabricated floor slabs and, additionally, the crowns have figured protrusions along the outer contour, ensuring interface with the ledges of the crossbars and cutouts of the enclosing structures and grooves, for dowels fixing mating elements from displacement; the columns are made of square cross-section to mate with the holes of the rims of the corresponding shape; crossbars are made of square or rectangular cross-section with figured protrusions at the ends, providing mating with rims and grooves, for dowels fixing mating elements from displacement; floor slabs along the contour have shelves 120 mm wide to support the load-bearing beams.

The proposed structure of the building frame will allow: to abandon the reinforcement, welding and concrete works at the construction site and to drastically reduce the construction time; ensure the reliability of the mating elements of the frame and improve the quality of the building installation; organize the production of high quality building structures in the factory and reduce the range of assembly elements.

The use of all essential features will make it possible to obtain the described technical result.

The invention is illustrated by graphic materials that do not cover the entire scope of this technical solution, but are only illustrative materials of a particular case of implementation:

FIG. 1 - Building frame.

FIG. 2 - Building frame - fragment.

The building frame contains: foundations 1, connected to crowns 2 through inserts 4, crowns 2 by projections 5 are conjugated with ledges 6 of crossbars 7 and secured with dowels 8 through grooves 9 of mating planes; the lower and upper parts of the columns 3 are made of square cross-section and are mated with the holes of the rims 2, and the crossbars 7 with projections 6 and grooves 9 for mating with the projections of the rims 2 and are fixed with dowels 8; floor slabs 10 along the contour have shelves 11 with a width of 120 mm to support the load-bearing girders 7; wall panels 12 and corner pylons 14 are hung on the projections 5 of the rims 2 and are fixed to the columns 3 and crossbars 7; partitions 13 are installed in the openings and fixed to the floor slab 10 and columns 3.

The installation of the frame is performed floor by floor according to a template or a conductor, with the fixation of columns, girders and crowns, on a high-strength plastic concrete mixture or mastic, and after reaching the required bond strength, proceed to the installation of the next floor.

The installation of the frame at the zero mark is carried out in the following order: on the prepared base, after marking, the foundations 1 are installed in the glass of which insert 4 is installed, the crown 2 is mounted on the insert 4. The crossbars 7 are supported on the projections 5 of the crowns 2, fixing them with dowels 8 from the vertical and transverse displacements, floor slabs 10 are mounted on the crossbars 7.

A typical floor is mounted in the following order: columns 3 are installed in holes 5 of crowns 2 and temporarily fixed in the design position; in the upper part of the columns 3, the crowns 2 are mounted, and then the crossbars 7 fixing them with dowels 8 from vertical and horizontal movements; floor slabs 10 are laid on the crossbars 7, and the wall panels 12 and corner pylons 14 are hung with shaped cutouts on the projections 5 of the crowns 2 and fixed to the columns 3 and crossbars 7; partitions 13 are mounted and fixed to the floor slab 10 and columns 3.

This method of installation of frame elements creates optimal conditions for fast and high-quality construction of the frame and guarantees reliability when operating a building in seismic zones and areas with difficult climatic conditions on subsiding, heaving soils, etc.

Claims (5)

1. A building frame containing a glass-type foundation, vertical columns, crossbars and prefabricated floor slabs, characterized in that the building frame is equipped with crowns having square holes connected to the foundation by means of an insert installed in the foundation glass and into the crown opening from one its end, and with columns installed in the opening of the crown from its other end, or connected to the lower and upper ends of the columns adjacent in height, installed in the opening of the crown. 2. The frame of the building according to claim 1, characterized in that the rims along the outer contour have shaped protrusions that ensure mating with the protrusions of the girders and cutouts of the enclosing structures, and grooves for the keys fixing the mating elements from displacement. 3. The frame of the building according to claim 1, characterized in that the columns are made of square cross-section to mate with the holes of the rims of the corresponding shape. 4. The frame of the building according to claim 1, characterized in that the crossbars are made of square or rectangular cross-section with figured protrusions at the ends, providing mating with crowns and grooves for dowels, fixing the mating elements from displacement. 5. The frame of the building according to claim 1, characterized in that the floor slabs along the contour have shelves 120 mm wide for bearing on the supporting beams.

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