RU60565U1 - BUTT JOINT IN MONOLITHIC REINFORCED CONCRETE BEAMLESS FRAME - Google Patents

Abstract

The utility model relates to the field of construction and can be used in the construction of civil buildings with monolithic reinforced concrete frameless frame.

The objective of the utility model is to increase crack resistance, bearing capacity and durability.

To achieve a technical result, the overlap 2 at the point where it adjoins the column 1 is additionally reinforced with fiber, evenly distributed over the volume of the overlap section 7 filled with fiber concrete, the boundaries of which are at least equal to the thickness of the overlap 2 from the perimeter of the column 1, and are also installed plate 6 in the zone of fiber-reinforced concrete, rigidly connected with the reinforcing rods of the column 3.

In addition, the fiber is equipped with anchors in the form of either thickenings or bends at the ends. 2 ill.

Description

The utility model relates to construction and can be used in the construction of civil buildings with a monolithic reinforced concrete frameless frame.

A butt joint is known in a monolithic reinforced concrete beam-free frame, including a column, a ceiling, reinforcing cages of a column and a ceiling, the last of which contains a longitudinal bar reinforcement in the form of an upper and lower mesh, where the ceiling at the point where it adjoins the column is additionally reinforced with fiber uniformly distributed over the volume plot, the boundaries of which are remote from the perimeter of the column by an amount at least equal to the thickness of the overlap. (Patent RU No. 52036, E 04 B 5/43, 2005).

A disadvantage of the known butt joint is its low bearing capacity.

As a prototype, a butt joint of a bezel-free reinforced concrete floor to a column containing a column and a floor slab, reinforcing cages of a column and a floor slab, opposite each column face is symmetrically relative to the axis of the column on the reinforcing cage of the floor slab, the plates are rigidly fixed in the direction from the column to the floor slab, and the plates have holes for the passage of reinforcement and are mounted on the rib (Patent RU No. 2194825 C2, CL. E 04 B 5/43, 2002, prototype).

The disadvantage of the prototype is low crack resistance and low bearing capacity.

The objective of the utility model is to increase crack resistance, bearing capacity and durability.

The technical result is achieved by the fact that in the butt joint in a monolithic reinforced concrete beam-free frame including a column, a ceiling, reinforcing frames of a column and a ceiling, in the last of which plates mounted on an edge are rigidly fixed, according to a utility model, the ceiling at the point where it adjoins the column is additionally reinforced with fiber, evenly distributed over the volume of the area filled with fiber-reinforced concrete, the boundaries of which are remote from the perimeter of the column by an amount at least equal to the thickness of the ceiling And fiber-reinforced plates are installed in the zone and rigidly connected to reinforcing bars of the column.

In addition, the fiber is equipped with anchors in the form of either thickenings or bends at the ends for better adhesion to concrete.

Figure 1 shows the design of the junction of the column and the overlap, a top view; figure 2 is a section aa in figure 1.

A butt joint in a monolithic reinforced concrete beam-free frame contains a column 1 and an overlap 2. Reinforcing bars 3 are located in a column 1. The overlap 2 contains a longitudinal upper rod reinforcement 4, a longitudinal lower rod reinforcement 5, and rigidly fixed plates 6 located on the overlapping section with fiber reinforcement 7 When performing concrete work, the technological joint of column 1 and floor 2 is performed in the body of the floor.

Plate 6 is installed in the design position between the bottom 5 and top 4 of the longitudinal reinforcement and fixed to them by welding. To ensure reliable operation of concrete and fiber-reinforced concrete, laying in the formwork of fiber-reinforced concrete mixture in the section 7 of the abutment of the floor to the column is carried out simultaneously with the laying of the concrete mixture on the main part of the manufactured floor 2.

The use of fiber reinforcement in the butt joint of a beamless monolithic reinforced concrete slab with a column significantly reduces the intensity of the formation of inclined cracks and delays the appearance of oblique cracks arising from the action of shear forces.

The use of rigidly fixed plates can significantly increase the work of nodes for bending moments.

The advantage of the claimed utility model in comparison with the prototype is to increase the bearing capacity, crack resistance and durability.

Claims (2)

1. A butt joint in a monolithic reinforced concrete beam-free frame, including a column, a ceiling, reinforcing frames of a column and a ceiling, in the last of which plates mounted on a rib are rigidly fixed, characterized in that the ceiling at the point where it adjoins the column is additionally reinforced with a fiber evenly distributed by volume of the area filled with fiber-reinforced concrete, the boundaries of which are remote from the perimeter of the column by an amount at least equal to the thickness of the overlap, and the plates are installed in the zone of fiber-reinforced concrete tightly connected with the reinforcing rods of the column. 2. A butt joint in a monolithic reinforced concrete beamless frame according to claim 1, characterized in that the fiber is equipped with anchors in the form of either thickenings or bends at the ends.