KR200372352Y1 - The shrinkage joint for crack in concrete construction - Google Patents

Abstract

In the present invention, in the process of curing a long concrete structure, there are deformations such as temperature change, dry shrinkage, external force, etc. due to hydration heat or outside temperature, and if deformation is constrained, cracks are generated. Therefore, if the section defects are provided at predetermined intervals for the purpose of concentrating the crack in a specific place in advance, the crack can be forcibly generated. In addition, when installing the crack-induced joints, it is possible to make the installation simple and economical in consideration of the construction properties and effects by using the joints and the joint fixing device for the contraction joints of the contraction joints.

That is, the crack-inducing spacing plate 60 and the connection fixing device 50 having the shape of the grooves are attached to the horizontal reinforcing bar 31 at regular intervals at the crack-inducing position of the concrete structure, and then the crack-inducing spacing plate (60). Shrink joint that induces crack in the structure by connecting).

Description

The shrinkage joint for crack in concrete construction

The present invention is a shrinkage joint to induce the shrinkage joint material and the joint material of the concrete structure, more specifically, the length of the shrinkage caused by the drying shrinkage during the curing process of the long concrete structure and the temperature shrinkage after completion, that is, The present invention relates to a crack inducing spacer (60) and a connection fixing device (50) for forming a crack groove and crack in a concrete structure when forming a crack-induced joint. Appropriate measures should be taken to control the presence and failure of cracks and locations, and to ensure necessary functions such as resistance to the working load of the structure and durability against environmental conditions. Therefore, the crack countermeasures and measures for the mass concrete cannot be coped with by the construction stage alone, and it is necessary to take sufficient consideration for the crack control during the design stage. In order to reliably induce cracks in the scheduled location by shrinkage joint method which makes section reduction part at intervals and induces crack in the part to prevent the occurrence of crack in other part and at the same time, it is easy to follow up at the crack part. Like the iron plate 61 of the crack-induced shrinkage joint is proposed to form the basis of about 4 ~ 9m, but the iron plate 61 is perpendicular to the reinforcement bar 31 is only shown in the specification as shown in Figure 2 Conventional installation is inconvenient, such as welding or fixing using L-shaped steel. Alternatively, there are various methods of crack control including limiting the location and width of cracks, including design, material selection, and construction methods. The control method is a situation in which the construction method is complicated and excessive installation cost is not practically applied, and the method by the material and the construction method only forms the shrink joint joint 40, or the crack inducing joint is designed on the drawing. Since it is not reviewed during the construction process such as missing, the cracks occur in the mass concrete structure and leak or leak repair is repeated. In general, such a repair method is a surface treatment, filling, and injection method using a resin material such as epoxy and polyester, and enormous repair costs are required.

The purpose of the present invention is to propose a shrink joint material that reliably forms a cross-sectional defect in the concrete of a shrink joint which cannot be induced only by the joint 40 by constructing a crack-induced shrink joint device that induces cracks at a cracking point reliably. The purpose of the present invention is to provide a crack-induced shrinkage joint device for a concrete structure that is easy to install and economically prevents damage to the required function and quality of the structure.

1 is a view showing a structure for explaining the shrinkage joint device of the present invention, (A) is a simplified perspective view of the retaining wall structure (B) the box structure. 3 is a cross-sectional view showing an example cited in the reinforced concrete standard specification. Fig. 3 is a partially omitted perspective view showing a shrinkage joint device for a concrete structure to which the technique of the present invention is applied. Partial omitted state perspective view of the gap joint connection adjusting device of the shrinkage joint device. Figure 5 is a perspective view taken along the AA line of the shrinkage joint device for a concrete structure applied to Figure 3. Figure 6 is a concrete structure applied to the technology of the present invention * Sectional plan view showing the construction of the structure by using the contraction joint. * Explanation of symbols used in the main part of the drawings. * 30: Structure 35: Contraction joint Device (50,60) 50: Connection fixing device 60: Crack induction spacer

Hereinafter, with reference to the accompanying drawings will be described the configuration, operation and effects of the present invention for achieving the above object. Figure 3 is a part omitted state showing a shrink joint device for a concrete structure applied technology of the present invention 4 is a partially omitted perspective view of the gap plate connection adjusting device of the shrink joint device for concrete structures to which the technique of the present invention is applied, and FIG. 5 is taken along the line AA of the shrink joint device for concrete structures applied to FIG. Sectional view, Figure 6 is a planar cross-sectional view of the construction completed state of the construction of the shrinkage joint device for a concrete structure applied technology of the present invention, Figure 2 shows an example of the conventional joint joint induction "concrete standard specification of the Ministry of Construction and Transportation" It will be described together with the presented planar cross-sectional view. It is fixed in a direction perpendicular to the longitudinal direction of the structure 30 which is constructed by pouring concrete. A shrink joint device 35 is a shrink joint device 35 in which cracks are reliably induced at a predetermined point of crack through each L to prevent the concrete from being damaged by cracks and ruptures. 35 is composed of a connecting fixing device 50 and a spacer plate 60 formed by injection or extrusion using a synthetic resin. The connecting fixing device 50 is horizontal with the vertical rebar assembled in the concrete as shown in FIG. It is a device for fixing the spacer plate 60 by connecting with the horizontal reinforcement steel bars. The spacer plate 60 is made of synthetic resin or steel plate to induce cracks in the concrete. It's the same. The connection fixing device 50 can be installed on all horizontal reinforcement 31 of the concrete structure, but when the horizontal reinforcement 31 is narrow, it can be installed by widening the interval. I. The spacer plate 60 is fixed in the groove of the connection fixing device 50 by adjusting the width of the spacer plate according to the width W of the structure. The material of the spacer plate 60 may be freely changed depending on the type of the structure 30 or the cross-sectional area of the structure 30 such as a metal material or a synthetic resin having sufficient rigidity. In the drawing, reference numeral 100 denotes an index plate and connects both ends of the index plate, which is a conventional construction method, to the stirrup reinforcing bars. Chamfer 40 is installed by the wooden or plastic facet of the existing construction method. After the installation of the shrink fitting device 35 as shown in the "a", "b", when the curing is completed by pouring the concrete 30, the construction of the crack-induced shrinkage joint is completed by the connecting spacer in the concrete.

As described above, the present invention improves the contraction joint device so that the application of crack inducing joints can be easily and economically installed in the construction of different concrete structures, thereby causing problems of concrete structure cracking without compromising the strength and function of the concrete structure. Various effects can be obtained.

Claims (1)

It causes cracks from deformation such as temperature change, dry shrinkage, external force, etc. by the heat of hydration or the outside temperature of the concrete curing process by interposing a predetermined length (L) in a direction perpendicular to the longitudinal direction of the structure 30 constructed by pouring concrete. A shrinkage joint device (35) for providing cross-sectional defects at predetermined intervals for the purpose of concentrating cracks in a predetermined place from a factor; When the shrinkage coupling device 35 is installed in the structure 30, the crack-inducing spacer 60 such as a synthetic resin and an iron plate forming a cross section defect can be installed as a fixing means in the structure 30. Insert the spacer 50 into the coupling fixing device groove 52 by inserting the coupling fixing device 50 into the coupling fixing device groove 51 by the coupling fixing device 50 having the same shape as the connecting fixing device 50. Shrink joint device 35 for a concrete structure consisting of a gap plate 60 and a connection fixing device 50 to fix the plate 60 to form a cross-sectional defects in the structure (30).