RU2578085C2 - Connector for connection of adjacent prefabricated reinforced concrete elements and method for connection of first and second prefabricated reinforced concrete elements - Google Patents

Abstract

FIELD: building.

SUBSTANCE: invention relates to connector for connection of adjacent precast concrete elements, as well as to a method of connection of first prefabricated concrete element with second collecting concrete element. Connector for connection of adjacent precast concrete elements comprises cable loop with anchor end for attachment of connector in collecting concrete element and loop section for attachment to reinforcement rod or similar element by passing reinforcement rod through loop section. Reinforcement bar is located in gap between two or more adjacent assembled by concrete elements. Loop section may be locked in concrete, grit in gap between two adjacent assembled by concrete elements. Loop sections are equipped with a binding element to increase contact area of loop section with concrete. Connecting element contains plate device, such as a metal plate, which is rigidly or detachably attached to loopback section of rope loop of connecting device. Loop section covers plate device. Also described is a method of connecting prefabricated concrete element with second collecting concrete element.

EFFECT: technical result consists in increase of capacity of connecting device to transfer crosswise force in filled in gap between connecting elements concrete.

6 cl, 9 dwg

Description

FIELD OF THE INVENTION

The present invention relates to a connecting device for connecting adjacent precast concrete elements, for example reinforced concrete elements, as defined in the preamble of claim 1.

The invention also relates to a method for joining a first precast concrete element, for example a reinforced concrete element, with a second precast concrete element, for example a reinforced concrete element, as defined in the preamble of the independent claim 4 of the claims.

However, not excluding other fields of application, the invention relates in particular to connecting devices for connecting precast concrete elements, for example reinforced concrete elements in the form of wall blocks, and, accordingly, to a method for connecting a first precast concrete element, for example, a first reinforced concrete element in the form of a first wall block and a second precast concrete element, for example a second reinforced concrete element in the form of a second wall block. The invention can also be used to connect a first precast concrete element, for example, a first reinforced concrete element in the form of a first wall block with a column.

State of the art

Such connecting devices are typically used in the following manner when connecting the first precast concrete element to the second precast concrete element.

The first precast concrete element is equipped with a first connecting device, which is a first cable loop, which contains an anchor end fixed to the first precast concrete element, and a loop section for fastening to the reinforcing bar or similar element by passing the reinforcing bar through the loop, while the reinforcing bar is located in the gap that is created between the first precast concrete element and the second precast concrete element.

The second precast concrete element is accordingly equipped with a second connecting device, which is a second cable loop, which contains an anchor end fixed to the second precast concrete element, and a loop section for fastening to the reinforcing bar or similar element by passing the reinforcing bar through the loop, this reinforcing bar is placed in the gap that is created between the first precast concrete element and the second precast concrete element.

The first precast concrete element is positioned adjacent to the second precast concrete element such that a gap is formed between the first precast concrete element and the second precast concrete element. The reinforcing bar is placed in the specified interval, so that it passes through the loop section of the first connecting device of the first precast concrete element. The reinforcing bar is placed in the specified interval, so that it passes through the loop section of the second connecting device of the second precast concrete element. The loop section of the cable is also made with the possibility of its fastening in concrete, which should be poured in the gap between two adjacent precast concrete elements. After pouring, the gap between the first precast concrete element and the second precast concrete element is at least partially filled with concrete.

With such a connection, it would be preferable that the connecting device could transmit the greatest possible transverse force between the precast concrete element and the concrete that is poured into the gap.

A technique is known in the art for increasing the ability of a connecting device to transmit force by using several cable loops connected to one connecting device. An increase in the ability to transmit forces is thus obtained due to the fact that the total surface area of the cable loops that are in contact with concrete poured into the gap is larger compared to the situation when there is only one cable loop. However, several cable loops make the connecting device more complex, and its installation becomes more difficult.

Also known is a method of increasing the ability of the connecting device to transmit force by using a thicker cable in the cable loop. Also in this case, the ability to transmit forces increases, for example, when the surface area of the cable loop that is in contact with concrete poured into the gap is larger compared to the situation when there is a thinner cable. However, thicker cables, such as steel wire cables, are expensive.

Disclosure of invention

The objective of the invention is to provide a simple and inexpensive solution to increase the ability of the connecting device to transmit forces, such as lateral force in concrete poured into the gap.

A connector device according to the present invention is described in the independent claim, claim 1.

Preferred embodiments of the connecting device are defined in the dependent claims, claims 2 and 3.

Corresponding to the invention, the method, respectively, is characterized in the independent claim, claim 4.

Preferred embodiments of the method are defined in the dependent claims, claims 5 and 6.

The basis of the invention is the idea of increasing the ability of the connecting device to transmit forces, such as shear forces in concrete poured into the gap, by using the loop section of the cable loop of the connecting device with a connecting element to increase the contact area, i.e. the surface area between the loop section and the concrete to be poured between the two adjacent concrete elements.

The connecting element may, for example, be a spiral device, for example a metal spring or a metal wire coiled in a spiral shape, the spiral device being located at least partially around the loop portion of the cable loop of the connecting device.

The connecting element may, for example, be a plate device, for example a metal plate, wherein the plate device is permanently or removably attached to the loop portion of the cable loop of the connecting device.

The connecting element may, for example, be a tubular device, for example a metal tube, wherein the tubular device is located at least partially around the loop section of the cable loop of the connecting device, while the tubular device is tightly or removably attached to the loop section of the cable loop of the connecting device.

Brief Description of the Drawings

Embodiments of the present invention will be described in more detail below with reference to the accompanying drawings, in which:

figure 1 depicts the principle of connection of the first and second precast concrete elements,

figure 2 in section shows the connection of the first and second precast concrete elements,

FIGS. 3-5 schematically depict a connecting device in its first embodiment,

6-8 schematically depict a connecting device in its second embodiment, and

Fig.9 schematically depicts a connecting device in its third embodiment.

The implementation of the invention

First, a connecting device 1, 1a, 1b for connecting precast concrete elements 2, 2a, 2b, for example reinforced concrete elements, for example wall blocks, as well as preferred and other possible embodiments of the connecting device 1, 1a, 1b, will be described in more detail.

The connecting device 1, 1a, 1b is a cable loop 3, 3a, 3b.

The cable loop 3, 3a, 3b may consist of a steel wire rope.

The cable loop 3, 3a, 3b comprises an anchor end 4, 4a, 4b for fastening the connecting device 1, 1a, 1b to the precast concrete element 2, 2a, 2b.

The cable loop 3, 3a, 3b contains a loop section 5, 5a, 5b, which must be attached to the reinforcing bar 6 or a similar element by passing the reinforcing bar through the loop section 5, 5a, 5b, while the reinforcing bar 6 is located in the gap 7, which is formed between two or more adjacent precast concrete elements 2, 2a, 2b during the installation of concrete elements 2, 2a, 2b.

The loop section 5, 5a, 5b is also designed to fasten in concrete 8, which should be poured into the gap 7, which is formed between two or more adjacent precast concrete elements 2, 2a, 2b.

The loop section 5, 5a, 5b is equipped with a connecting element 9 to increase the contact area of the loop section 5, 5a, 5b with concrete 8, which should be poured into the gap 7, which is formed between two adjacent precast concrete elements 2, 2a, 2b. The connecting element 9 is an element that is initially disconnected from the loop section 5, 5a, 5b, but which, however, is fixed on the loop section 5, 5a, 5b tightly or removably.

The connecting element 9 may be a spiral device 10, for example, a metal spring or a metal wire rolled in a spiral shape, said spiral device 10 being at least partially located around the loop portion 5, 5a, 5b of the cable loop 3, 3a, 3b of the connecting device 1 1a, 1b. Such a spiral device 10 can be obtained by winding a metal wire around the loop portion 5, 5a, 5b of the cable loop 3, 3a, 3b of the connecting device 1, 1a, 1b. Such a spiral device 10 can be attached around the circumference to the loop portion 5, 5a, 5b of the cable loop 3, 3a, 3b of the connecting device 1, 1a, 1b, either in a fixed or removable manner. Figure 3-5 shows the connecting device 1, 1A, 1b, containing the connecting element 9, which is a spiral device 10.

The connecting element 9 may be a plate device 11, for example a metal plate, and the plate device 11 is attached to the loop portion 5, 5a, 5b of the cable loop 3, 3a, 3b of the connecting device 1, 1a, 1b tightly or removably. Such a plate device 11 can be tightly or removably attached to the inner side of the loop section 5, 5a, 5b of the cable loop 3, 3a, 3b of the connecting device 1, 1a, 1b, so that the loop section 5, 5a, 5b covers the plate device 11. 6-8 depict a connecting device 1, 1a, 1b containing a connecting element 9, which is a plate device 11.

The connecting element 9 may be a tubular device 12, for example a metal tube, and the tubular device 12 is located at least partially around the loop portion 5, 5a, 5b of the cable loop 3, 3a, 3b of the connecting device 1, 1a, 1b, while the tubular device 12 is connected to the loop portion 5, 5a, 5b of the cable loop 3, 3a, 3b of the connecting device 1, 1a, 1b tightly or removably. Fig.9 depicts a connecting device 1, 1A, 1b, containing a connecting element 9, which is a tubular device 12.

The connecting device 1, 1a, 1b shown in the drawings also comprises a duct part 13 for immersing into the surface of the precast concrete element 2, 2a, 2b like a dowel.

The method for joining the first precast concrete element 2a, for example the reinforced concrete element, with the second precast concrete element 2b, for example the reinforced concrete element, as well as preferred and other possible embodiments of the method will be described in more detail below.

The method comprises the step of preparing a first precast concrete element 2a with a first connecting device 1a, which comprises a first cable loop 3a, which has a first anchor end 4a fixed in the first precast concrete element 2a, and a first loop section 5a, which is intended for fastening to the reinforcing bar 6 or a similar element by passing the reinforcing bar 6 through the loop section 5a, while the reinforcing bar 6 is placed in the gap 7, which is created between the first precast concrete the second element 2a and the second precast concrete element 2b.

The method also comprises the step of preparing a second precast concrete element 2b with a second connecting device 1b, which comprises a second cable loop 3b, which has a second anchor end 4b fixed in the second precast concrete element 2b, and a second loop section 5b, which is intended for fastening to the reinforcing bar 6 or a similar element by passing the reinforcing bar 6 through the loop portion 5b, while the reinforcing bar 6 is placed in the gap 7, which is created between the first precast a ton element 2a and a second precast concrete element 2b.

The method comprises a step in which the first precast concrete element 2a is arranged adjacent to the second precast concrete element 2b, so that a gap 7 is formed between the first precast concrete element 2a and the second precast concrete element 2b.

The method comprises a step in which a reinforcing bar 6 is placed between the first precast concrete element 2a and the second precast concrete element 2b in the gap 7 so that said bar passes through the first loop section 5a of the first connecting device 1a of the first precast concrete element 2a.

The method comprises the step of placing a reinforcing bar 6 between the first precast concrete element 2a and the second precast concrete element 2b in the gap 7 so that said bar passes through the second loop section 5b of the second connecting device 1b of the second precast concrete element 2b.

The method comprises a step in which the gap 7 between the first precast concrete element 2a and the second precast concrete element 2b is at least partially filled with concrete 8, while the first cable loop 3a and the second cable loop 3b are also fixed in concrete 8, poured into the gap 7 between the first precast concrete element 2a and the second precast concrete element 2b.

The method comprises a step in which at least one of the loop sections - the first loop section 5a of the first connecting device 1a and the second loop section 5b of the second connecting device 2b is equipped with a connecting element 9 to increase the contact area of the first loop section 5a with concrete 8, poured into the gap 7 between the first precast concrete element 2a and the second precast concrete element 2b, and / or to increase the contact area of the second loop section 5b with concrete 8, poured into the gap 7 between the first precast concrete th element 2a and a second prefabricated concrete elements 2b. The connecting element 9 is an element that is initially disconnected from the first loop section 5a and / or the second loop section 5b, but which, however, is fixed on the first loop section 5a and / or on the second loop section 5b tightly or removably.

The method may comprise a step in which a spiral device 10 is used as a connecting element 9, for example, a metal spring or a metal wire coiled in a spiral shape, as well as a stage in which said spiral device 10 is at least partially arranged around the first loop portion 5a, and / or a step in which the spiral device 10 is at least partially arranged around the second loop portion 5b. The method may include a step in which the spiral device 10 is at least partially, tightly or removably attached around the circumference to the first loop portion 5a, and / or a stage in which the spiral device 10 is at least partially, tightly or removably attached around the circumference to the second loop portion 5b.

The method may include a stage in which a plate device 11, for example a metal plate, is used as the connecting element 9, as well as a stage in which said plate device 11 is fixedly or removably attached to the first hinge section 5a, and / or a stage in which said the plate fixture 11 is attached to the second loop portion 5b tightly or removably. The method may include a step on which the plate device 11 is tightly or removably attached to the inner side of the first hinge section 5a, so that the first loop section covers the plate device 11, and / or, respectively, the stage on which the plate device 11 is fixed or removable attached to the inner side of the second loop section 5b, so that the second loop section covers the plate device 11

The method may include a stage in which tubular device 12, for example a metal tube, is used as the connecting element 9, as well as a stage where tubular device 12 is positioned at least partially around the first loop portion 5a, and a stage in which the tubular device 12 is tightly or removably attached to the first loop section 5a, and / or the stage at which the tubular device 12 is positioned at least partially around the second loop section 5b, and the stage at which the tubular device 12 Blenheim firmly or detachably fastened to the second portion of the loop 5b.

It will be apparent to those skilled in the art that the method of joining a first precast concrete element 2a, for example a reinforced concrete element, and a second precast concrete element 2b, for example a reinforced concrete element, can also be used to interconnect three or four precast concrete elements .

Specialists in this field should be clear that with the development of technology the main idea of the invention can be implemented in various ways. Therefore, the invention and its embodiments are not limited to the examples given, which may be modified within the scope of the invention, which is defined by the claims.

Claims (6)

1. A connecting device (1, 1a, 1b) for connecting adjacent precast concrete elements (2, 2a, 2b), such as reinforced concrete elements, containing a cable loop (3, 3a, 3b) having an anchor end (4, 4a, 4b) for fixing the connecting device (1, 1a, 1b) in the precast concrete element (2, 2a, 2b) and the loop section (5, 5a, 5b) for fastening to the reinforcing bar (6) or a similar element by passing the reinforcing bar ( 6) through the loop section (5, 5a, 5b), and the reinforcing bar (6) is located in the gap (7) formed between two or more adjacent precast concrete elements (2, 2a, 2b), while the loop section (5, 5a, 5b) is made with the possibility of fixing in concrete (8), poured into the gap (7) between two adjacent precast concrete elements (2, 2a , 2b), characterized in that the loop sections (5, 5a, 5b) are provided with a connecting element (9) to increase the contact area of the loop section (5, 5a, 5b) with concrete (8) poured into the gap (7) between two adjacent precast concrete elements (2, 2a, 2b), while the connecting element (9) contains a plate device (11), It’s like a metal plate, and the plate device (11) is rigidly or removably attached to the loop section (5, 5a, 5b) of the cable loop (3, 3a, 3b) of the connecting device (1, 1a, 1b), while the plate device ( 11) is rigidly or removably attached to the inner side of the loop section (5, 5a, 5b) of the cable loop (3, 3a, 3b) of the connecting device (1, 1a, 1b), so that the loop section (5, 5a, 5b) covers lamellar fixture (11). 2. The connecting device according to claim 1, characterized in that the connecting element (9) is a spiral device (10), such as a metal spring or metal wire rolled in a spiral shape, and the spiral device (10) is located at least partially around the loop section (5, 5a, 5b) of the cable loop (3, 3a, 3b) of the connecting device (1, 1a, 1b). 3. The connecting device according to claim 1 or 2, characterized in that the connecting element (9) is a tubular device (12), such as a metal tube, and the tubular device (12) is located at least partially around the loop section (5, 5a, 5b) of the cable loop (3, 3a, 3b) of the connecting device (1, 1a, 1b), while the tubular device (12) is rigidly or removably attached to the loop section (5, 5a, 5b) of the cable loop (3, 3a, 3b) of the connecting device (1, 1a, 1b). 4. A method of connecting a first precast concrete element (2a), such as a reinforced concrete element, with a second precast concrete element (2b), such as a reinforced concrete element, comprising the steps of:
supplying the first precast concrete element (2a) with a first connecting device (1a), which comprises a first cable loop (3a) having a first anchor end (4a) fixed in the first precast concrete element (2a), and a first loop section (5a), designed to be attached to the reinforcing bar (6) or a similar element by passing the reinforcing bar (6) through the loop section (5a), while the reinforcing bar (6) is placed in the gap (7) formed between the first precast concrete element (2a) and second precast concrete ale entom (2b),
supplying the second precast concrete element (2b) with a second connecting device (1b), which comprises a second cable loop (3b) having a second anchor end (4b) fixed in the second precast concrete element (2b), and a second loop section (5b), designed to be attached to the reinforcing bar (6) or a similar element by passing the reinforcing bar (6) through the loop section (5b), while the reinforcing bar (6) is placed in the gap (7) formed between the first precast concrete element (2a) and second precast concrete element volume (2b),
the first precast concrete element (2a) is positioned close to the second precast concrete element (2b) so that a gap (7) is formed between the first precast concrete element (2a) and the second precast concrete element (2b),
in the interval (7) place the reinforcing bar (6), so that the specified rod passed through the first loop section (5A) of the first connecting device (1a) of the first precast concrete element (2a),
in the interval (7) place the reinforcing bar (6), so that the specified rod passed through the second loop section (5b) of the second connecting device (1b) of the second precast concrete element (2b),
the gap (7) between the first precast concrete element (2a) and the second precast concrete element (2b) is at least partially filled with concrete (8), while the first cable loop (3a) and the second cable loop (3b) are fixed in concrete (8 ), poured into the gap (7) between the first precast concrete element (2a) and the second precast concrete element (2b),
characterized in that
the first loop section (5a) of the first connecting device (1a) is provided with a connecting element (9) to increase the contact area of the first loop section (5a) with concrete (8) poured into the gap (7) between the first precast concrete element (2a) and the second precast concrete element (2b),
use, as a bonding element (9), a plate device (11), such as a metal plate,
attach the plate device (11) rigidly or removably to the first loop portion (5a) of the first cable loop (3a) of the first connecting device (1a), and
attach the plate device (11) rigidly or removably to the inner side of the first loop section (5a) of the first cable loop (3a) of the first connecting device (1a) so that the first loop section (5a) covers the plate device (11). 5. The method according to claim 4, characterized in that as the connecting element (9) use a spiral device (10), such as a metal spring or metal wire, rolled in a spiral shape, while the spiral device (10) have at least partially around the first loop portion (5a) of the first cable loop (3a) of the first connecting device (1a). 6. The method according to claim 4 or 5, characterized in that the tubular device (12), such as a metal tube, is used as the connecting element (9), the tubular device (12) being positioned at least partially around the first loop section (5a) ) the first cable loop (3a) of the first connecting device (1a), and attach the tubular device (12) rigidly or removably to the first loop section (5a).

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