RU2194825C2 - Joint of girdless reinforced concrete floor with column - Google Patents

Abstract

FIELD: construction industry, erection of supporting constructions of girdless prefabricated reinforced concrete floors. SUBSTANCE: plates are made fast to reinforcing cage of floor slab in direction from column to floor slab, in opposition to each facet of column in symmetry with axes of column. Plates have length not less than 2h+2a, where h is thickness of floor slab; a is thickness of protective concrete layer of column, and stand edgewise. One end of each plate has rectangular form and is installed behind facet of column at distance not less than 2a, its other end is mitered and is placed perpendicular to side surface of press-through prism of slab. According to another version V-shaped anchors are installed in pairs at angle of 90 degrees one to another, opposite to each facet of column on reinforcing cage of column. In points of bend each pair of anchors is linked with the use of transverse reinforcement which length is determined from dependence L=b-2d, where b is side of column; d is diameter of transverse reinforcement. EFFECT: enhanced carrying capacity of joint of girdless reinforced concrete floor with column not requiring great expenditures for erection. 4 cl, 6 dwg

Description

 The invention relates to the field of construction, namely to the construction of prefabricated reinforced concrete floors, and can be used in structures of supporting structures of beam-free floors.

 Known bezel-less overlapping according to the author's certificate of the USSR 1606629, class. E 04 B 5/43, 1990, containing over-column plates with a central hole for placement on columns, inter-column and middle plates having overlapping platforms for successively supporting the plates on one another at the abutting lateral faces of each plate, supporting platforms for the over-column plates are made in in the form of tables located in the middle of the side faces, the length of which is determined from the condition L <2b + a, where b is the thickness of the column plate, and a is the size of the hole in the column column for each face.

 The main disadvantage of this overlap is the limited bearing capacity of the node of the pair of columns with the slab.

 Known closer butt connection of the capitals of bezel-free reinforced concrete floors with the column according to the copyright certificate of the USSR 876907, cl. E 04 B 5/43, 1981, adopted by the applicant for the prototype. It contains the central part of the slab with an opening widening downward and reinforcing outlets of the column and slab; a reinforcing cage is protruded from the plane of the capital in the form of a truncated pyramid or a truncated cone and attached to the outlets of the reinforcement of the column and capitals; the joint zone is made profiled with alternating grooves and ridges, and the joint cavity is monolithic.

 The disadvantages of this butt joint are the high labor costs and material consumption of the node connecting the columns with the slab.

 An object of the invention is to increase the bearing capacity of the connection node of the floor slab with the column, which does not require large expenditures in the production of works.

The problem is solved in that in the proposed technical solution opposite each face of the column symmetrically with respect to the axis of the column, plates are fixed on the reinforcing cage of the lower and upper mesh of the floor slab in the direction from the column to the floor slab, the plates are made at least 2h + 2a in length, where h - the thickness of the slab, and - the thickness of the protective layer of concrete of the column, and installed on the edge, and one end of each plate is made in a rectangular shape and installed behind the edge of the column at a distance of at least 2A, and the other has a bevel angle of 45 ^o, disposed perpendicular to the side surface of the prism plate punching, each plate is disposed between the upper and lower grids reinforcing cage floor plate and rigidly connected to the rods of the longitudinal reinforcement of the upper and lower mesh reinforcing cage floor plate, each plate has openings for passes of reinforcement of the transverse direction.

In addition, opposite each face of the column on the reinforcement cage of the column, V-shaped anchors are rigidly mounted in pairs at an angle of 90 ^{o to} each other, and at the bend points each pair of anchors is connected by transverse reinforcement, the length of which is determined from the dependence L = b-2d, where b is the side of the column, d is the diameter of the transverse reinforcement.

 In addition, the V-shaped anchors are made with hooks that are bent towards the reinforcing cage of the column.

 In addition, each V-shaped anchor is directed upward, the distance between the "mustache" is 3.4h, and the horizontal "extension" of each "mustache" behind the reinforcing cage of the column is at least 2h.

In FIG. 1 shows a connection of a column with a floor slab using plates, plan view;
figure 2 is a section aa in figure 1;
in FIG. 3 - connection of the column with the slab using V-shaped anchors with a straight "mustache", plan view;
figure 4 is a section bB in figure 3;
figure 5 - V-shaped anchor with hooks;
figure 6 - connection of the reinforcing cages of the column and floor slabs by means of V-shaped anchors, a perspective view.

The butt joint of a bezel-free reinforced concrete floor with a column includes a column 1 and a floor slab 2, inside of which reinforcing cages are placed, respectively 3 - a reinforcing cage of a column and 4 - a reinforcing cage of a floor slab. The reinforcing frame 4 of the floor slab consists of the upper 5 and lower 6 grids. Opposite each face of column 1, symmetrically relative to the axis of the columns on the reinforcing cage 4 of the lower 6 and upper 5 grids of the floor slab 2, plates 7 are rigidly fixed in the direction from the column 1 to the floor slab 2. All plates 7, and there are eight, two of them opposite each face the columns are made with a length of at least 2h + 2a, where h is the thickness of the floor slab, and is the thickness of the protective layer of concrete columns, and installed on the edge. Moreover, one end of each plate 7 is made of a rectangular shape and is installed beyond the edge of the column 1 at a distance of at least 2a, and the other has a bevel at an angle of 45 ^o located perpendicular to the side surface of the prism of forcing the floor slab. Each plate 7 is placed between the upper 5 and lower 6 grids of the reinforcing cage 4 of the floor slab and is rigidly connected to them, and also has openings 8 for passing reinforcement of the grids 5 and 6 of the transverse direction.

Instead of plates 7, V-shaped anchors 9 can be installed as part of the butt joint. They are also rigidly installed opposite each face of column 1 on the bottom grid 6 of the floor slab, but in pairs at an angle of 90 ^{° to} each other. Moreover, at the places of bending, each pair of V-shaped anchors 9 is connected by transverse reinforcement 10, the length of which is determined from the dependence L = b-2d, where b is the side of the column, d is the diameter of the transverse reinforcement. V-shaped anchors 9 can be made with a "mustache" 11 both straight and with hooks 12, which are bent towards the column 1. Moreover, each V-shaped anchor 9 in the connection is directed upward 13 and the distance between the inclined sections of the "mustache""11 is 3.4h, and the horizontal" extension "of each" mustache "behind the reinforcing cage 3 of column 1 is at least 2h.

где К - поправочный коэффициент, учитывающий класс бетона и арматуры.The cross-sectional area of the plate 8 or the diameter of the reinforcement of the V-shaped anchor 11 is determined by the formula
F <F _SW = ΣR _SW • A _SW ;
where F is the forcing force, t;
ΣR _SW - design resistance of the reinforcement of the anchors, or plates;
A _SW is the cross-sectional area of anchors or plates,

where K is the correction factor taking into account the class of concrete and reinforcement.

 Installation of the butt joint is as follows.

 The bottom grid 6 of the reinforcing cage 4 of the floor slab is laid on the formwork brought under the overlap, the reinforcing cage 3 of the column 1 is already brought out above the formwork. Then, the prepared plates 7 are welded to the rods of the longitudinal reinforcement of the lower mesh 6 of the reinforcing cage 4. Then, the upper mesh 5 of the reinforcing cage 4 of the slab is installed, passing the transverse reinforcement 5 through the holes 8, and welded to the plates 7. The connection is ready for filling with concrete.

In the case of using V-shaped anchors 9 after installing the lower mesh 6 of the reinforcing cage 4, the V-shaped anchors 9 are set in pairs at an angle of 90 ^{o to} each other, each pair is rigidly fixed to the lower mesh 6 of the reinforcing cage 4. In addition, paired V-shaped anchor 9 in the places of bending are welded together by transverse reinforcement 10. Then, the upper mesh 5 of the reinforcing frame 4 of the floor slab 2 is also installed, and the finished connection is poured with concrete.

 The proposed butt joint of a bezel-free reinforced concrete floor with a column has a high reliability of pairing the column with a floor slab, does not require large material costs during the work.

Claims (4)

1. A butt joint of a bezel-free reinforced concrete floor with a column containing a column and a floor slab, reinforcing cages of a column and a floor slab, characterized in that opposite each axis of the column 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 moreover, each plate has openings for the passage of reinforcement of the transverse direction, the plates are made with a length of at least 2h + 2a, where h is the thickness of the slab, and the thickness is protective a column layer of concrete, and installed on an edge, wherein one end of each plate is formed of a rectangular shape and installed beyond the column at least 2a, and the other has a bevel angle of 45 ^o, disposed perpendicular side surface of the prism plate punching. 2. A butt joint of a bezel-free reinforced concrete floor with a column containing a column and a floor slab, column reinforcing cages and floor slabs, characterized in that opposite each column face, the V-shaped anchors are rigidly mounted in pairs at an angle of 90 ^{° to} each other, moreover, in the places of bending, each pair of anchors is connected by transverse reinforcement, the length of which is determined from the dependence L = b-2d, where b is the side of the column, d is the diameter of the transverse reinforcement.  3. The butt joint according to claim 2, characterized in that the V-shaped anchors are made with hooks that are bent towards the reinforcement cage of the column.  4. The butt joint according to claim 2, characterized in that each V-shaped anchor is directed upward, the distance between the "mustache" is 3.4h, and the horizontal "extension" of each "mustache" behind the reinforcing cage of the column is at least 2h.

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