RU96138U1 - JOINT ASSEMBLY OF BARS AND COLUMNS - Google Patents

Abstract

 1. The junction of the crossbars and columns, including crossbars containing hollow beams with protrusions, and a column having exposed reinforcement at the points of connection with the crossbars, characterized in that the crossbars contain spatial frames, and the connection of the crossbars with the column is performed using additional fittings passing through the spatial frames of the crossbars, while the beams are filled with concrete in places where additional reinforcement passes, in addition, all joints are made not welded. ! 2. The junction of the crossbar and the column according to claim 1, characterized in that the hollow beams of the crossbars have an inner surface with notches.

Description

The utility model relates to the field of construction, in particular to the junction of the plates, namely the crossbars and columns.

It is known a node for connecting a reinforced concrete column of a building with a crossbar, including a support console, a embedded part in the column and a embedded part at the end section of the crossbar, moreover, it contains one or more sets of supporting consoles and equipped with anchors for embedded parts in the reinforced concrete column and embedded parts at the end section of the crossbar, each of which is connected by means of one or more connecting rods, and each embedded part of a reinforced concrete column forms a nest with a through hole in the center, a groove in the upper part and the protrusion in the lower part for fixing the support console, made in the form of a detachable support table of a U-shaped box-section with an aperture on the rear wall for said connecting pin, a spike in the upper part, and a screw clamp on the rear wall to provide contact mating on the upper and lower vertical surfaces when securing the support table, while the embedded part at the end section of the crossbar includes a support plate with a transverse vertical rib installed with It eats through hole for mounting purposes, having a slot for installation of the connecting pin connecting by means of fastening elements in a unit column mortgage item with the reference table and bolt. (RF patent No. 48335, IPC E04B 1/38, publication date: 10/10/2005)

The closest in technical essence and the achieved effect is the unit of connection of plates for reinforced concrete prefabricated monolithic floors using prefabricated monolithic crossbars, in which the connection is made after installing the plates on metal beams, forming together with the plates a permanent formwork, the gaps between the metal beams and plates are reinforced and monolithic, forming dowels, moreover, as a metal beam, a composite beam is used, the basis of which is a metal strip of rolled steel with unequal corners rigidly fixed along its edges, which are positioned so that the large sides of the corners serve as consoles for plates, while the larger sides extend beyond the metal strip of rolled steel, and the smaller sides of the corners are perpendicular to it, the corners are located symmetrically with respect to the symmetry axis of the composite metal beams, which coincides with the axis of symmetry of the precast monolithic crossbar, mutually perpendicular knitted frames are laid in the gaps between the metal beams and plates of unequal width along the entire length of the crossbar, with narrower frames located between the corners along the height of the crossbar, and wider above the corners closer to the edges of the plates, but so that they form a symmetrical figure relative to the axis of the crossbar, between the plates across the crossbar there is a supporting frame of wire, the free ends of which abut against the smaller sides of unequal corners. (RF patent No. 2352729, IPC E04B 1/61, publication date: 04/20/2009).

A disadvantage of the known technical solutions is the relatively large weight of the structure, as well as high material consumption.

The task to which the claimed technical solution is directed is to reduce the load on the foundation base and, as a consequence, the cost of construction.

The technical result is to reduce the consumption of materials and, as a result, reduce the complexity and improve the quality of the connection node.

The technical result is achieved by the fact that the junction of the crossbars and the column, including the crossbars containing hollow beams with protrusions, and the column having bare reinforcement at the points of connection with the crossbar, has crossbars containing spatial frames, and the connection of the crossbars with the column is made using additional fittings passing through the spatial frames of the crossbars, while the beams are filled with concrete in places where additional reinforcement passes, in addition, all joints are made not welded. Hollow beams of crossbars have an internal surface with notches.

The essence of the utility model is illustrated by drawings, which show:

figure 1 - the junction of the precast-monolithic frame, including the crossbar and columns, top view;

figure 2 - the junction of the precast-monolithic frame in the context, including the crossbar and columns, front view;

nor figure 3 - additional reinforcement, bolt and plate, in the context.

The claimed technical solution can be implemented in the design of the junction of the crossbars and the column, including the crossbars 2, containing beams 3 and spatial frames 6, the column 4, with bare reinforcement 5, additional reinforcement 7. Also shown in the figures are floor slabs 1.

The junction of the crossbar and the column is arranged as follows.

Column 4 contains sections with exposed reinforcement 5, which are used for connection with crossbars 2. Crossbars 2 are made of hollow beams 3 with protrusions, and spatial frames 6 are mounted in hollow beams 3, which have notches on the inner surface. 6. Connection of crossbars 2 to the column 4 is carried out by means of additional reinforcement 7. Floor slabs 1 are located on crossbars 2.

During construction, hollow beams 3, crossbars 2 are installed spatial frames 6, then through the spatial frames 6 and the exposed reinforcement 5 of the column 4 pass additional reinforcement 7, the junction of the additional reinforcement 7 with the spatial framework 6 is poured with concrete. Floor slabs 1 are installed on the crossbars 2. All connections are made not welded.

The proposed utility model reduces the consumption of reinforcement and the weight of the joint as a whole due to the use of a spatial frame and, as a result, the weight of the supporting structures of the building is reduced, which entails a reduction in the load on the foundation foundation, and also reduces the cost of construction and increases the earthquake resistance of the building.

Also, in the proposed utility model, the continuity and rigidity of the coupling of the crossbar with the column is achieved by reducing the transit bending moment due to its redistribution to the reference bending moment, which occurs when additional reinforcement is introduced into the structure, the length and diameter of which are calculated for a particular building.

All structural elements of the assembly can be produced in the factory, which ensures their high quality.

Claims (2)

1. The junction of the crossbars and columns, including crossbars containing hollow beams with protrusions, and a column having exposed reinforcement at the points of connection with the crossbars, characterized in that the crossbars contain spatial frames, and the connection of the crossbars with the column is performed using additional fittings passing through the spatial frames of the crossbars, while the beams are filled with concrete in places where additional reinforcement passes, in addition, all joints are made not welded. 2. The junction of the crossbar and the column according to claim 1, characterized in that the hollow beams of the crossbars have an inner surface with notches.