FI123856B - Connecting device for attaching adjacent concrete element parts and method for joining a first and a second concrete element part - Google Patents

Abstract

The invention relates to a connecting device (1, 1a, 1b) for joining adjacent pre-cast concrete sections (2, 2a, 2b) and to a method for joining a first pre-cast concrete section (2a) and a second pre-cast concrete section (2b). The connecting device (1, 1a, 1b) comprises a cable loop (3, 3a, 3b), which has a loop section (5, 5a, 5b) that is to be anchored to a reinforcement rod (6), wherein the reinforcement rod (6) is situated in a spacing (7) that is formed between two or more adjacent pre-cast concrete sections (2, 2a, 2b). The loop section (5, 5a, 5b) is also configured to be anchored to concrete (8) to be cast in the spacing (7). The loop section (5, 5a, 5b) being provided with an anchoring element (9) for increasing the contact area between the loop section (5, 5a, 5b) and concrete (8).

Description

CONNECTING DEVICE FOR ADJUSTING CONCRETE ELEMENTS

FIXING AND METHOD OF COMBINING FIRST AND SECOND CONCRETE ELEMENTS

Field of the Invention

The invention relates to a connecting device for joining adjacent concrete element elements, such as reinforced concrete elements, as defined in the preamble of independent claim 1.

The invention further relates to a method for combining a first concrete element element, such as a reinforced concrete element, and a second concrete element element, such as a reinforced concrete element, as defined in the preamble of independent claim 2.

In particular, the invention relates, without excluding other applications, to coupling devices for connecting concrete element parts, such as reinforced concrete elements in the form of wall elements, and a method for correspondingly forming a first concrete element such as a first reinforced concrete element in the form of a first wall element and a second concrete element such as a second concrete element. The invention can further be used to connect a first concrete element part, such as a first reinforced concrete element in the form of a first wall element, to the column.

Such ballasts are normally used as described below when the first concrete element part 20 and the second concrete element part are combined.

The first concrete element part is provided with a first connecting device comprising a first wire loop having an anchoring head anchored to the first concrete element part and having a loop member for anchoring to the reinforcing bar or the like by arranging the reinforcing bar

Accordingly, the second concrete element part is provided with a second connecting device comprising: a second wire loop having an anchor end anchored to the second concrete element part between the concrete element part and another concrete element part.

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The first concrete element part is arranged adjacent to the second concrete element part so that said gap is formed between the first concrete element part and the second concrete element part. The iron reinforcing bar is disposed in said space so as to pierce the loop portion of the first coupler of the first concrete element part. The reinforcing bar is provided so as to pierce the loop portion of the second connecting element of the second concrete element part. The cable loop section is further configured to be anchored in concrete, which is cast between the two adjacent concrete element sections. Thereafter, the space between the first concrete element part and the second concrete element part is at least partially filled with concrete.

In such a connection, it would be desirable for the coupler to be able to transfer as much force as possible between the concrete element part and the concrete poured, such as shear force.

It is known that the transmission power of a ballast can be increased by using a plurality of wire loops in a single ballast. The transmission capacity is thus increased because the total surface area of the wire loop which is in contact with the cast concrete is larger compared to the situation where there is only one wire loop. However, more cable loops make the 15 ballast more complicated, which makes it harder to install.

It is known that the transmission power of the ballast can be increased by using a thicker wire in the wire loop. Also in this case, the transmission capacity is increased, for example, when the area of the wire loop that is in contact with the cast concrete is larger compared to the situation with a thinner wire loop. However, thicker ropes, such as thicker steel ropes, are expensive.

Purpose of the Invention

It is an object of the invention to provide a simple and inexpensive solution to increase the ability of the coupler co to apply a force, such as shear, to the concrete being cast.

Brief Description of the Invention o The ballast of the invention is characterized by the definitions of independent claim 1 ir.

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Correspondingly, the method of the invention is characterized by the assays of independent claim 2c.

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The invention is based on increasing the ability of the coupler to transfer force, such as shear force, to the concrete to be poured by providing the link portion of the cable link of the coupler with an anchoring element to increase the contact surface, i.e. the area , wherein the metal means is fixedly or removably attached to the loop portion of the cable loop of the ballast.

List of figures

In the following, the invention will be described in more detail with reference to the figures, of which Figure 1 shows the principle of connection between the first and second concrete element parts,

Figure 2 is a sectional view of the connection between the first and second concrete element parts,

And

Figures 3-5 are schematic drawings of a ballast.

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Detailed Description of the Invention

First of all, preferred and alternative embodiments of the connecting device 1, 1a, Ib for connecting adjacent concrete element parts 2, 2a, 2b, such as reinforced concrete elements, for example wall elements, and the connecting device 1, 1a, Ib are described.

The connecting device 1, 1a, Ib comprises a wire loop 3, 3a, 3b.

The wire loop 3, 3a, 3b may comprise a steel wire.

The cable loops 3, 3a, 3b have an anchoring head 4, 4a, 4b for anchoring the coupler 1, 1a, Ib to the concrete element part 2, 2a, 2b.

The wire loop 3, 3a, 3b has a loop member 5, 5a, 5 for banking to the reinforcing bar 6 or ay 25 by arranging the reinforcing bar through the loop member 5, 5a, 5b, whereby the reinforcing bar 6i Y is inserted between 7 or two prefabricated concrete , 2b when installing the concrete element parts 2, 2a, 2b.

The loop member 5, 5a, 5b is further configured to be anchored in said concrete 7 to be poured, which gap is formed between two or more adjacent concrete element parts 2, 2a, 2b.

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The link member 5, 5a, 5b is provided with an anchoring element 9 to enlarge its contact surface which is a link between the member 5, 5a, 5b and the concrete 7 to be poured between two adjacent concrete element members 2, 2a, 2b. The anchoring element 9 is an element originally spaced apart from the loop part 5, 5a, 5b, which is arranged, for example, to be removably or 5 fixedly attached to the loop part 5.5a, 5b.

The anchoring element 9 comprises a plate means 11, such as a metal plate, which plate means 11 is fixedly or detachably connected to the loop part 5, 5a, 5b of the wire loop 3, 3a, 3b of the connecting device 1, 1a, Ib. Such plate means 11 may be fixedly or removably connected to the loop member 5, 5a, 5b of the wire loop 3, 3a, 3b of the connecting device 1, 1a, 3b, such that the connecting member 5, 5a, 5b surrounds the plate member 10. Ib having an anchoring element 9 comprising a plate means 11.

The connecting device 1, 1a, Ib shown in the drawings also has a housing-like structure 13 for providing a pin-like insertion hole on the surface of the concrete element part 2, 2a, 2b.

Next, the method of joining the first concrete element part 2a, such as the reinforced concrete element 15, and the second concrete element element part 2b, such as the reinforced concrete element, and the preferred and alternative embodiments of the method will be described in more detail.

The method comprises the step of providing a first concrete element part 2a with a first connecting device 1a comprising a first wire loop 3a having a first anchoring head 4a anchored to the first concrete element element 2b and having a first loop part 5 7 formed between the first concrete element part 2a and the second concrete element element 2b.

The method comprises the step of providing a second concrete element part 2a with a second connecting device Ib comprising a second wire loop 3b having a second anchoring end 4b i Y anchored to the second concrete element part 2b and having a second loop part 5b for anchoring o to reinforcing bar 6 or the like. a second link part ir 5b, wherein the reinforcing bar 6 is disposed between 7 formed between the first concrete element part 2a and the second concrete element part 2b. c \ j

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The method comprises the step of providing a first concrete element element 2a adjacent to a second concrete element element 2b, such that said gap 7 is formed between the first concrete element element 2a and the second concrete element element 2b.

The method comprises the step of providing a reinforcing bar 6 between the first concrete element part 2a and the second concrete element part 2b between the first concrete element part 2a and the first link part 5a of the first connection element 1a of the first concrete element element 2a.

The method comprises the step of arranging the reinforcing bar 6 between the first concrete element part 2a and the second concrete element part 2b to pierce the second loop part 5b of the second coupling device Ib of the second concrete element part 2b.

The method comprises the step of at least partially filling the gap 7 between the first concrete element part 2a and the second concrete element part 2b with concrete 8, wherein the first cable link 3a and the second cable link 3b are further anchored in the concrete 8 to be poured into the first concrete element element 2a and second.

The method comprises the step of providing at least one of a first loop member 5a of a first linker 1a and a second link member 5a of a second linker Ib with an anchoring element 9 to increase its contact surface between a first link member 2a and a second concrete member between 2b, and / or to increase its contact surface 20, which is a second loop between the part 5b and the concrete 8 cast between the parts 7 between the first concrete element part 2a and the second concrete element part 2b. The anchoring element 9 is an element initially spaced apart from the first loop portion 5a and / or the second loop portion 5b, which is arranged, for example, to be detachably or permanently attached to the first loop portion 5a and / or the second loop portion 5b.

The method comprises the step of using a plate member 11, such as a metal plate, as an anchoring element 9, and a step of permanently or detachably attaching the plate member 11o to the first loop member 5a and / or the step of permanently or detachably attaching the sheet member ir 11 to the second link member 5b. The method may comprise the step of permanently or detachably engaging the plate member 11 within the first loop portion 5a such that the first loop portion 5a c 30 surrounds the plate member 11 and / or correspondingly or releasably engaging the plate member 11 5 into the second loop portion 5b 5b surrounds the disk means 11.

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It will be apparent to one skilled in the art that the disclosed method for joining a first concrete element part 2a, such as a reinforced concrete element, and a second concrete element element 2b, such as a reinforced concrete element, may also be used to connect three of the four concrete element elements.

It will be obvious to one skilled in the art that as technology advances, the basic idea of the invention can be implemented in many different ways. The invention and its embodiments are therefore not limited to the above examples, but may vary within the scope of the claims.

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Claims (2)

A coupling device (1, 1a, 1b) for joining adjacent concrete element parts (2, 2a, 2b), such as reinforced concrete elements, the coupling device (1, 1a, 1b) comprising a cable link (3, 3a, 3b) having a anchoring end (4, 4a, 4b) for anchoring the coupling device (1, 1a, 1b) in a concrete element (2, 2a, 2b), and having a link section (5, 5a, 5b) anchored in a reinforcing bar (6 ) or the like by arranging the reinforcing bar (6) to pierce the link section (5, 5a, 5b), wherein the reinforcing bar (6) is placed in a space (7) formed between two or more concrete element members (2, 2a, 2b), wherein the link section (5, 5a, 5b) is further configured to be anchored in concrete (8) molded in the intermediate space (7) between two or more concrete element parts (2, 2a, 2b), the link section (5, 5a, 5b) being provided with anchoring element (9) to enlarge the contact surface which is between the link section (5, 5a, 5b) and concrete g (8) molded in the intermediate space (7) between two or more concrete element parts (2, 2a, 2b), and wherein the anchoring element (9) comprises a disc element (11) such as a metal disc, characterized in that the disc element (11) is fixed fixed or detachable at link sections (5, 5a, 5b) of the wiring link (3, 3a, 3b) of the coupling device (1, 1a, 1b), and of the disk element (11) being fixed or detachable within link sections (5, 5a, 5b) of the cable link (3, 3a, 3b) of the coupling device (1, 1a, 1b) so that the link section (5, 5a, 5b) surrounds the disc element (11). A method of joining a first concrete element part (2a) such as a reinforced co concrete element and a second concrete element part (2b) as a reinforced concrete element comprising c steps, which in the first concrete element part (2a) is provided with a first coupling device (1a) comprising a first wire link (3a) having a first anchoring end (4a) anchored in the first concrete element portion (2a) and having a first link section (5a) for anchoring in a reinforcing bar (6) or equivalent between the first concrete element part (2a) and the second CM concrete element part (2b) by arranging the reinforcing bar (6) to push through the first o CM link section (5a), the reinforcing bar (6) being placed in the intermediate space (7) formed between the first the concrete element part (2a) and the second concrete element part (2b), the second concrete element part (2b) is provided with a second coupling device (1b) comprising a second cable link (3b) having a second anchor end (4b) anchored in the second concrete element member (2b) and having a second link section (5b) for anchoring in the reinforcing bar (6) or correspondingly between the first concrete element member (2a) and the second concrete element member (2b) by arranging the reinforcing bar (6) to push through the second wire link (3b), whereby the reinforcing bar (6) is placed in the intermediate space (7) formed between the first concrete element (2a) and the second concrete element (2b), the first concrete element (2a) ) is placed next to the second concrete element part (2b) such that a space (7) is formed between the first concrete element part (2a) and the second concrete element part (2b), a reinforcing bar (6) is arranged in the intermediate space (7) to push through the first concrete element part (2a) ) first coupling device (la) first link section (5a), the reinforcing bar (6) is arranged in the intermediate space (7) to push through the second concrete element part. (2b) second coupling device (Ib) second link section (5b), and the space (7) between the first concrete element part (2a) and the second concrete element part (2b) is at least partially filled with concrete (8) by means of which the first link section (5a) and the second link section (5b) is anchored in the concrete (8) cast in the space (7) between the first concrete element part (2a) and the second concrete element part (2b), the first link section (5a) of the first coupling device (1a) is provided with an anchoring element (9) to enlarge the contact surface which is between the first link section (5a) of the first co-coupling device (1a) and concrete (8) molded in the space c (j) (7) between the first concrete element part (2a) and the second concrete element part (2b), and Y is used as anchoring element (9) a disc element (11) such as a metal disc, characterized in that the disc element (11) is fixed or detachable to the first link section (5 a). s the first wiring link (3a) of the first coupling device (1a), and c \ j CD LO δ c \ j of the disk element (11) being fixed or detachable within the first link section (5a) of the first wiring link of the coupling device (1a) (3a) such that the first link section (5a) surrounds the disk element (11). co δ c \ j o X CC CL CVJ CD m δ c \ j