KR100624190B1 - A concrete structure crack guider - Google Patents

Abstract

 The present invention relates to a concrete structure crack generator, the purpose of the concrete structure such as the retaining wall to prevent cracking when shrinkage deformation due to the outside temperature, so that the crack is generated only in a predetermined place of the concrete structure.

Concrete structure crack generator according to the present invention is installed in a concrete structure, such as a retaining wall made of concrete reinforcement is installed in the longitudinal direction in the interior, one side is connected to each other and open to each other toward the other end of the heat retaining wall It is composed of a shrink induction part (11, 12) for inducing deformation and a crack induction part (13) extending from one side connection portion of the shrink induction part to induce a crack in the retaining wall, so that the crack induction parts face each other before and after the retaining wall. Each is installed. Reinforcing bar groove (13a) is further formed in the crack induction portion is fixed to the reinforcing bars inside the concrete structure in the vertical direction.

 Concrete, Retaining Wall, Concrete Structure, Crack Generator, Joint

Description

 A concrete structure crack guider

1 is a perspective view showing an installation state of a concrete structure crack generator according to the prior art.

2 is a perspective view of a concrete structure crack generator according to the present invention.

3 is an installation state diagram of a concrete structure crack generator according to the present invention.

<Description of Signs for Main Parts of Drawings>

2: retaining wall, 10: crack generator

11,12: shrinkage induction part, 13: crack induction part

13a: rebar hook groove, 13c: connector

20: connecting bracket,

The present invention relates to a concrete structure crack generator, and more particularly, to a concrete structure crack generator that induces shrinkage deformation of a concrete structure due to outdoor temperature, and the like, so that a crack can be generated only at a predetermined place.

In general, a concrete structure (retaining wall, pavement, etc.) is deformed by dry shrinkage or external force due to heat of hydration during concrete curing, temperature of outside air, or the like.

Therefore, the concrete structure, considering the shrinkage deformation during construction, causing cracks in a predetermined place to maintain the aesthetics of the structure and promote structural stability.

As a crack generator of a concrete structure according to the prior art, for example, as shown in Figure 1, a triangular joint 1 is used. The triangular joint 1 has a triangular cross section and has a long rod shape, and a plurality of triangular joints 1 are installed at one side of a concrete structure such as the retaining wall 2 at regular intervals along the length direction.

The triangular joint 1 according to the prior art is to be generated in the crack (2a) at a predetermined position of the concrete structure, such as the retaining wall (2) for the purpose of preventing cracks in the other section of the concrete structure, such as the retaining wall (2). do.

However, the concrete structure crack generator according to the prior art has the following problems.

Since the triangular joint 1 has a triangular cross section, the triangular joint 1 does not flexibly respond to the contraction of the concrete structure such as the retaining wall 2 and thus does not serve as the contraction joint of the concrete structure such as the retaining wall 2. That is, when the retaining wall 2 is contracted by an external temperature or the like, the triangular joint 1 is contracted to induce the contraction of the retaining wall 2, but in reality, the retaining wall 2 is weak because the contraction of the triangular joint 1 is weak. The crack 2b occurs anywhere unexpectedly.

And, although some cracks are caused by the triangular joint (1), this only reduces a few cross-sections at a predetermined interval in the concrete, so that almost no cracks are actually generated and many cracks are generated at the other part of the retaining wall (2). In particular, since the triangular joint 1 is installed only at the front portion of the retaining wall 2, cracks are generated in all parts of the retaining wall 2 at the rear portion of the retaining wall 2 where the triangular joint 1 is not provided. As it progresses toward the front portion of the retaining wall 2, the defects of the retaining wall 2 as well as the structural appearance of the retaining wall 2 are deteriorated.

In addition, the triangular joint 1 has a problem in that it does not often lead to cracking of the concrete because the binding force on the retaining wall 2 is weak and easily escapes from the retaining wall 2.

The present invention is to solve the above-mentioned conventional problems, to provide a concrete structure crack generator to prevent the crack of the concrete structure due to the shrinkage by inducing the shrinkage of the concrete structure when the concrete structure such as the retaining wall due to the outside temperature I want to do that.

In addition, another object of the present invention is to cause cracking only in a predetermined place of the concrete structure.

Another object of the present invention is to increase the binding force on the concrete structure so as not to be separated from the retaining wall.

Concrete structure crack generator according to the present invention for achieving the above object, which is installed in the concrete structure made of reinforced concrete reinforcement in the longitudinal direction therein, the crack is defined while smoothly inducing the shrinkage of the concrete structure It is characterized in that it is formed so that it can be generated only.

In addition, the concrete structure crack generator according to the present invention may be further formed with a reinforcing bar groove which is fixed to the reinforcing bars inside the concrete structure.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, the terms or words used in the present specification and claims are defined in the technical spirit of the present invention on the basis of the principle that the inventor can appropriately define the concept of the term in order to explain his invention in the best way. It must be interpreted to mean meanings and concepts.

As shown in Figures 2 and 3, the concrete structure crack generator 10 according to the present invention has a substantially Y-shaped cross-section and is made in the longitudinal direction in a concrete structure such as a retaining wall 2 (shown in Figure 3). It is installed along the longitudinal direction (contraction direction of the concrete structure), the specific shape is opened at a predetermined angle toward the end in a state in which one side is connected to each other, the first / second shrinkage induction part 11 to induce the contraction of the retaining wall (2), 12) and a crack guide portion 13 extending from the connection portion of the first and second shrinkage guide portions 11 and 12.

The crack generator 10 according to the present invention is installed to correspond to each other on both front and rear sides of the retaining wall 2 so that the crack inducing parts 13 face each other, so that the cracks are generated only between the crack inducing parts 13.

In addition, when the shrinkage deformation of the retaining wall 2 occurs, the first and second shrinkage induction parts 11 and 12 are contracted to induce the contraction of the retaining wall 2 such that the retaining wall 2 is not cracked due to shrinkage.

The crack generator 10 according to the present invention is fixed to the reinforcing bar (3) installed inside the retaining wall (2) in order to be attached to the concrete at the time of construction of the retaining wall (2) and to increase the binding force. For example, a plurality of reinforcing bar grooves 13a are formed in the crack induction part 13 along the longitudinal direction so that the reinforcing bar 3 is inserted into the reinforcing bar grooves 13a so that the crack generator 2 is not separated from the retaining wall 2. Do not. Reinforcing bar groove (13a) is formed in a rectangular shape so that the reinforcing bar (3) can be fixed regardless of the position of the reinforcing bar (3), the reinforcing bar groove (a) on one side of the reinforcing bar groove (13a) to be inserted Rebar insertion groove 13b narrower than 13a) is formed.

On the other hand, since the height of the retaining wall 2 may vary depending on the installation conditions, the crack generator 10 of one size cannot be adapted to all the retaining walls 2, and thus the cracks of all the retaining walls 2 regardless of the height of the retaining wall 2 will be different. The crack generators 10 are configured to be connected to each other along the longitudinal direction so that the generator 10 can be installed. In this case, the crack generator 10 does not have to be formed excessively long so as to match the height of the retaining wall 2, and there is no inconvenience in cutting. The vertical connection structure of the crack generator 10 is, for example, the connection hole 13c is formed at the upper and lower ends of the crack induction part 13, and the connection hole 13c of the crack generator 10 adjacent to each other is one connection. It is connected via the bracket 20.

In addition, the index sheet 30 may be further attached to the rear crack generator 10 for waterproofing the retaining wall 2.

The operation of the concrete structure crack generator according to the present invention configured as described above will be described.

When constructing the concrete structure such as the retaining wall (2), the reinforcing bar (3) is installed in the longitudinal and horizontal direction, and after the formwork is installed, the concrete is poured, in order to prevent deformation by shrinkage of the retaining wall (2) and to induce cracks. The crack generator 10 according to the present invention is installed, and the method includes inserting the reinforcing bar 3 into the reinforcing bar groove 13a of the crack induction part 13 of the crack generator 10 so that the reinforcing bar 3 becomes the crack generator ( By passing through 10), the crack generator 10 is installed so as not to be separated from the retaining wall 2.

As shown in FIG. 2, when the retaining wall 2 is completed, the crack generator 10 according to the present invention is installed at both front and rear sides of the retaining wall 2 so that the crack induction part 13 faces each other, thereby causing cracks in the retaining wall 2. If generated, cracks are generated through the crack induction part 13, so that cracks are not generated in the other section.

On the other hand, when a concrete structure such as the retaining wall 2 is thermally deformed (contracted) due to the outside air temperature, the shrinkage induction parts 11 and 12, which have been separated from each other, are contracted by the contraction of the retaining wall 2, thereby contracting the retaining wall 2. The retaining wall 2 naturally contracts with heat by inducing without constraining it.

Although the retaining wall 2 has been described as an example, the concrete structure crack generator 10 according to the present invention may be applied to all concrete structures including the retaining wall 2.

As described above, according to the concrete structure crack generator according to the present invention, since the shrinkage-induced portion shrinkage of the concrete structure such as the retaining wall due to heat is large, it does not restrain the shrinkage of the retaining wall. This does not occur.

In addition, since cracks are generated only through crack generators facing each other on the front and rear sides of the retaining wall, and cracks do not occur in the other sections of the retaining wall, structural stability of the retaining wall can be maintained and aesthetics can be maintained.

In addition, since the crack generator is fixed to the reinforcing steel bars inside the retaining wall, the phenomenon of deviating from the retaining wall does not occur, thereby improving the reliability of the product.

While the invention has been described and illustrated in connection with a preferred embodiment for illustrating the principles of the invention, the invention is not limited to the configuration and operation as such is shown and described. Rather, it will be apparent to those skilled in the art that many changes and modifications to the present invention are possible without departing from the spirit and scope of the appended claims. Accordingly, all such suitable changes and modifications and equivalents should be considered to be within the scope of the present invention.

Claims (4)

 In the crack generator of a concrete structure in which reinforcing bars are installed in the longitudinal direction and made of concrete, One side is connected to each other and the other side ends toward each other to induce thermal shrinkage of the concrete structure (11, 12) and the crack induction portion (13) extending from one side connection portion of the shrinkage induction to induce cracking of the concrete structure Consists of, concrete structure crack generators are installed on each of the front and rear sides of the concrete structure so that the crack induction parts face each other.  The concrete structure crack generator according to claim 1, wherein the crack inducing part further comprises reinforcing bar grooves (13a) which are secured to the reinforcing bars in the concrete structure along the vertical direction.  According to claim 1 or 2, wherein the upper and lower connecting holes 13c are formed in the crack induction portion, respectively, a structure in which a plurality of connecting via the connecting bracket 20 for connecting the adjacent connecting holes. Concrete structure crack generator.  4. The concrete structure crack generator according to claim 3, wherein an index sheet (30) is further attached to the crack generator.

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