CZ24395A3 - Connection of concrete building elements - Google Patents

Abstract

This concrete building elements joint contains a set of joining mandrels (2) consisting of rows of mutually parallel bars the central parts of which cross the contact areas of the joined building elements and concreting by both their end sections in the mutually joined building elements. The joining mandrels (2) are arranged in a brush system in at least one horizontal row, in particular into the group of mutually parallel rows of the joining mandrels (2) arranged one above the other. Part of the length of the set of joining mandrels (2) is concreted in the contact areas of the head of the bearing column (1) and the other sections of the length of the joining mandrels (2) are concreted in the ceiling construction, in particular in the ceiling plate (3) and/or in ceiling drawing dies (4).<IMAGE>

Description

(57)

The joint of the concrete building elements comprises a system of connecting mandrels (2), consisting of rows of mutually parallel bars intersecting the area of contact of the connected building elements with their central parts and concreted by their two end sections in the mutually connected building elements. The connecting mandrels (2) are arranged in the brush assembly in at least one horizontal row, in particular in a group of mutually parallel rows of connecting mandrels (2) arranged one above the other. The system of connecting mandrels (2) is concreted by part of its length in the contact surfaces of the head of the supporting column (1), from which protruding second sections of length of the connecting mandrels (2) are concreted in the ceiling structure, in particular in the ceiling slab (3) and / or in ceiling girders (4).

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BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to a joint of concrete building elements comprising shear load-bearing members in the area of contact between concrete elements.

BACKGROUND OF THE INVENTION

When installing a horizontal ceiling structure on point or line supports, consisting mainly of load-bearing columns or load-bearing walls of the building structure, it is necessary in particular to ensure a reliable transmission of shear forces from the horizontal load-bearing structure to the vertical load-bearing structure of the column. The most widespread solutions to this problem are beamed ceiling structures in which loads from the slab are transferred to the beams or beams having a sufficient cross-sectional area to transmit shear forces, supported in addition by a suitable shear reinforcement arrangement in the form of bending reinforcement bars. for vertical supporting columns, in particular by placing the ceiling beams directly on the head of the divided columns, on the brackets connected to the head columns or in the recesses formed in the supporting columns. The disadvantages of these joist ceiling constructions are commonly known and lie mainly in the large construction height of the ceiling construction, which reduces the usable height of the building structure floor and raises other problems with the technology distribution lines and the like.

The disadvantage of the high structural height of the joist ceiling structures is to eliminate the mushroom ceiling constructions where the ceiling plate is mounted on ceiling heads having the shape of pyramidal or truncated conical bodies whose smaller base is connected to the head of the supporting columns and whose larger base is the mounting of the ceiling slab, or is part of the ceiling slab.

From CZ-PS 144 928 a monolithic reinforced concrete ceiling is known, consisting of a monolithic reinforced concrete slab, mounted on prefabricated column heads, consisting of truncated conical or flat cylindrical heads with a thickness substantially corresponding to the thickness of the ceiling slab. These heads are connected with their central part to the head of the supporting columns and to increase their shear resistance they are prestressed by design modification, that the circumferential cylindrical surface of the heads is equipped with circumferential rebate, in which the wrapped circumferential prestressed reinforcement is placed. are fitted and wrapped by radial rods for shear stress transmission.

In a further refinement of this non-coating ceiling construction, the monolithic ceiling slab around the ceiling head is reinforced with helical reinforcement to provide a perfect connection of the monolithic ceiling board to the prefabricated and prestressed ceiling heads and to transfer the shear forces to the ceiling head. The disadvantage of this solution is the difficult production of prestressed ceiling heads, which are therefore expensive and increase the cost of constructing the ceiling structure.

SUMMARY OF THE INVENTION It is therefore an object of the invention to provide a connection of reinforced concrete building structures and elements, in particular a horizontal ceiling structure with vertical load-bearing elements, in which shear forces can be transferred between the two connected building elements and structures by simple fasteners which are not very demanding and costly.

SUMMARY OF THE INVENTION

This object is achieved by joining the concrete building elements according to the invention, which is characterized in that the shear load-bearing parts are a brush system of connecting mandrels formed by rows of mutually parallel bars intersecting their central portions with the joints of the connected building elements. connected building elements.

In a preferred embodiment of the joint according to the invention, the radial connecting mandrels in the brush assembly are arranged in at least one horizontal row, in particular in a group of mutually parallel rows of connecting mandrels arranged one above the other. The connecting pins of the brush assembly are anchored in the connected building elements in a position forming an angle of 30 ° to 60 ° with the vertical plane.

In yet another preferred embodiment of the joint according to the invention, the system of connecting mandrels is concreted with a part of its length in the contact surfaces of the head of the support column, from which protruding second sections of length of connecting mandrels are concreted in the ceiling structure, in particular

In another preferred embodiment of the invention, the support column is provided with a peripheral collar in its contact area in the form of a peripheral recess in the support column with a depth of 10 to 40 mm and a height corresponding to the thickness of the connected ceiling structure.

For the production of a column which is part of a joint according to the invention, it is advantageous to prefabricate a brush assembly of connecting mandrels consisting of steel mounting plates embedded in the bottom of the perimeter collar of the support column and provided with a set of openings through which connecting studs are attached to the steel plates and embedded in one part its length in supporting columns. In a preferred embodiment of the invention, the connecting mandrels are formed by stubs of prestressing steel ropes.

In an alternative preferred embodiment of the joint according to the invention, the connecting mandrels arranged in the radial brush assembly and protruding from the support column are interposed between the brush assembly of the connecting studs protruding from the joining surfaces of the ceiling structure to be connected.

The joint of the concrete building elements according to the invention is useful for joining and contacting any building elements, components and constructions where shear forces need to be transferred. Its advantages are most apparent in the connection of the supporting column with the ceiling plate, where this connection represents a significantly simpler, cheaper and easier to produce thin ceiling plate on the point support, which is sufficiently secured against piercing of the plate by the column.

BRIEF DESCRIPTION OF THE DRAWINGS

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a vertical cross-sectional view of a joint of a vertical precast column with a monolithic reinforced concrete slab, and FIG. 2 is a horizontal cross-sectional joint of a vertical precast column with a cutout of a monolithic reinforced concrete slab. Fig. 3 is a vertical sectional view of a vertical support column joint with a horizontal ceiling beam; Fig. 4 is a horizontal section view of a vertical support column joint with a ceiling beam or beam; and Fig. 5 a side view of a prefabricated connector mandrel assembly mounted on a common steel plate.

DETAILED DESCRIPTION OF THE INVENTION

In a first embodiment of the joint of two parts of the building structure according to the invention, one of these joined parts is a support column 1 and the other joined part is a monolithic ceiling plate 3, the shear forces from the ceiling plate 3 being transferred to the support column 1. 1 and 2 shows the joint area of the support column 1, formed in this example in the form of a continuous reinforced concrete prefabricated part, with a horizontal reinforced concrete monolithic ceiling slab 2 having the same thickness of 10 to 20 cm over its entire area. For the transmission of shear forces from the monolithic ceiling slab 2, only a small shear surface is available at the point of contact with the support column 1, so that for the transmission of these shear forces a special design must be created in the joint area. under the influence of self-weight and payload from the ceiling structure.

This construction consists in that the supporting column 1, which in this exemplary embodiment is a continuous prefabricated column, is provided at the level of connection to the ceiling plate 2 and in the area of its contact peripheral surfaces with a group of radial brush connecting pins 2 of the support column 1 extending radially and obliquely upwardly from the peripheral contact surfaces of the support column 1 intersecting the shear joint at the connection of the ceiling plate 2 to the support column 1. In an exemplary embodiment of the invention, each set of brush connecting pins 2 is arranged on Each side side of the support column 1 is formed by six horizontal rows of interconnecting mandrels 2 arranged one above the other, each row comprising five interconnecting mandrels 2. The interconnecting mandrels 2 are preferably formed, for example, by stubs of prestressing cables or rods, or a series of shear bars. Each of the connecting mandrels forms an angle of 45 ° with the longitudinal axis of the support column 1 and is arranged in a vertical plane that is parallel to the respective side surface of the support column 1 with a rectangular cross section.

In order to further improve the transmission of shear forces from the ceiling structure to the support column 1, the support column 1 is provided with a peripheral collar 5 in the joint area formed by a peripheral recess excavated in the circumferential surfaces of the support column 2 and having a depth of about 30 mm. construction.

When this joint is completed according to the invention, after the prefabricated continuous supporting columns 1 with concreting tie rods 2 have been assembled, formwork of the lower surface of the concrete support slab of ceiling structure 2 is formed ^at the lower edge of the perimeter collar 5. , which is provided in the vicinity of the supporting column 1 with dimensions of reinforcing bars and their arrangement for cooperation with systems of connecting mandrels 2 and for transfer of shear forces to these connecting mandrels 2 and into the space of the peripheral collar 5 of supporting column 1, in which the protruding ends of the connecting mandrel assembly 2 are cast after the concreting is completed. The connecting studs 2 are very easily maintained in the desired positions during the manufacture of the prefabricated support column 2, since it is sufficient to provide the formwork plate forming the bottom of the peripheral collar 5 apertures, the spacing of which and the inclination of their axes correspond to the spacing and positions of the connecting mandrels 2 in the brush assembly. An alternative embodiment of the board that remains part of the joint will be described in more detail in the explanation of the example in Fig. 5.

The joint according to the invention is applicable to different types of load-bearing structures, in particular vertical load-bearing structures with horizontal load-bearing structures, for example it can be applied to the beam-bearing connection 2 to the beam 4 or beam in monolithic or prefabricated design as shown in FIG. 4. in this example the continuous prefabricated vertical support column 2 of the same embodiment as the supporting column 2 ² Fig. 1 and 2 and the coupling according to the invention is in this example connected to the prefabricated ceiling girder 4, whose head protrudes from a similar brush system of connecting pins 2, that the assembly comprises thirty connecting mandrels 2 arranged in six rows one above the other and five connecting mandrels in each row, the connecting mandrels 2 being arranged parallel to the connecting mandrels 2 extending from the support column 1, i.e. extending from the head of the ceiling beam 4 diagonally down a are placed between the connecting mandrels 2 projecting from the lateral surfaces of the support column 1. After the prefabricated ceiling beam 4 has been attached to the support column 1, which in this example is also provided with a peripheral collar 5, the space between the front beam 4 and the walls 6.

Concreting the connecting pins 2 into the prefabricated support columns 1 or ceiling beams 4 is substantially facilitated by the mounting plate 7 shown in FIG. 5 and formed by a rectangular steel plate provided with a set of oblique holes 8 whose axes are inclined to the plane of the mounting plate 7 at the same angle In these inclined holes 8, the connecting mandrels 2 are inserted so that they pass through the holes 8 with their central part and each half of their length points from the mounting plate 7 to the opposite side. The connecting mandrels 2 can be fixed in their central part in the holes 8, for example by welding, and then the mounting plate 7 can be mounted in the formwork of the support column 1 so as to form the bottom of the peripheral collar 5 of the support column 1. the number of mounting plates 7 which hold the connecting mandrels 4 in the desired positions during concreting.

The joint according to the invention can be applied in a number of other specific cases where it is particularly the connection of prefabricated components with a monolithic structure or prefabricated components or monolithic structures to each other, if a reliable transmission of shear forces is required at the joint. By means of connecting arbors arranged in brush systems, it is possible, for example, to connect a concrete wall to a ceiling slab or other ceiling structure, where the connecting arbors along the whole of its upper joint can be used for shear connection of two protruding from a section or parallel wall elements and the like.

Claims (6)

PATENT N NIK CHK X CLAIMS 1. A concrete component assembly comprising, in the area of contact of the connected concrete elements, shear load-bearing components for transmitting shear forces, characterized in that the shear load-bearing components are a system of connecting mandrels (2) formed by rows of mutually parallel rods intersecting the contact area construction elements and concreted by their two end sections in interconnected construction elements. Joint according to claim 1, characterized in that the connecting mandrels (2) are arranged in the brush assembly in at least one horizontal row, in particular in a group of mutually parallel rows of connecting mandrels (2) arranged one above the other. Joint according to claims 1 and 2, characterized in that the connecting pins (2) are anchored in the connected building elements in a position forming an angle of 30 ° to 60 ° with the vertical plane. Joint according to one of Claims 1 to 3, characterized in that the system of connecting mandrels (2) is concreted by part of its length in the contact surfaces of the head of the support column (1), from which protruding second sections of length of connecting mandrels (2) are in the ceiling structure, in particular in the ceiling slab (3) and / or in the ceiling beams (4). Joint according to one of Claims 1 to 4, characterized in that the support column (1) is provided in its contact area with a peripheral collar (5) in the form of a peripheral recess in the support column (1) with a depth of 10 to 40 mm connected to the ceiling structure, whereby the systems of connecting mandrels (2) protrude from the bottom of the peripheral collar (5) of the supporting column (1). Connection according to claim 5, characterized in that the bottom of the peripheral collar (5) is formed by steel mounting plates (7) embedded in a recessed section of the perimeter of the support column (1) and provided with a set of oblique openings (8) through which (2), attached to steel plates and concreted with one part of its length in the supporting column (1). Joint according to claims 1 to 5, characterized in that the connecting mandrels (2) arranged in at least one radial brush assembly and protruding from the support column (1) are interposed between the brush assembly of the connecting mandrels (2) protruding from the connecting parts of the ceiling structure, in particular of prefabricated ceiling beams (4).