KR101101645B1 - Water-swellabe complex body for stoping water and mehtod for constructing joint part of cement structure - Google Patents

Abstract

The present invention is a center member formed with at least one hollow along the longitudinal direction and formed of a first elastic body, a second elastic body formed around the center member to surround the center member and having a water expansion function. It provides a water-expansion index composite comprising a water-expansion member made, and an adhesive layer formed on at least one surface of the water-expansion member in the longitudinal direction and made of an adhesive, and applied to the joint portion of the concrete structure. Also disclosed is a method of constructing a joint of a concrete structure using the water expansion index composite.

Description

WATER-SWELLABE COMPLEX BODY FOR STOPING WATER AND MEHTOD FOR CONSTRUCTING JOINT PART OF CEMENT STRUCTURE}

The present invention relates to the field of index materials that can be used for construction joints, expansion joints, and the like of construction and civil engineering structures, and more particularly, to joint parts of underground structures such as construction, civil engineering, and structures in contact with water. It's about an index material that blocks water flow.

In general, in the case of a water-expandable rubber index material, due to quality control requiring an expansion ratio of 300% or more (for KNHC specification), groundwater and rainwater after installation may cause it to expand in advance before pouring, resulting in severe changes in the form of length, etc. It is a reality that has not been secured. In addition, even if safely post-pouring, a slight swelling occurs by absorbing the moisture of the ready-mixed concrete, thereby resulting in the deterioration of the structure around the water repellent material. After the construction is completed, the construction site is cut and examined to confirm that the water-expandable rubber index material is easily separated from the structure. In order to install the water-expandable rubber index material, the surface of the pre-pouring site should be flat and fixed with nails. Otherwise, the index material will not be in close contact, resulting in double joints during subsequent casting. However, leakage problems are still occurring due to poor construction due to the minor circumference of the contractor and surrounding environment.

An object of the present invention is to provide a water expansion index composite that can be installed on the joint of a concrete structure, not only exert an excellent index effect, but also improve the structural stability of the structure and maximize the water tightness.

It is another object of the present invention to provide a method for constructing joints of a structure effectively and easily by using the above-described water expansion index composite.

The water expansion index composite according to an aspect of the present invention is formed in a periphery of the center member so as to surround the center member, the center member formed of at least one hollow body along the longitudinal direction and the first elastic body, A water-expanded member made of a second elastic body having an expansion function, and an adhesive layer formed on at least one surface of the water-expanded member along the longitudinal direction and made of an adhesive, and may be applied to the joint portion of the concrete structure.

The first elastic body may include a thermoplastic elastic body, and the first elastic body may include a vulcanized rubber.

Two hollows extending in parallel to each other may be formed in the central region of the central member, and the number of the hollows may vary depending on the working environment of the space in which the water expansion index composite is installed and the properties of the cement to be poured. .

The second elastic body includes a non-vulcanized rubber, and preferably butyl rubber may be used as the second elastic body. In addition, the second elastic body may include 100 parts by weight of butyl rubber, 30 to 60 parts by weight of hydrophilic polymer, 100 to 150 parts by weight of inorganic filler, and 1 to 50 parts by weight of other additives.

The adhesive layer may include an adhesive component such as ethylene vinyl acetate (EVA). Except for the region where the adhesive layer is formed, the surface of the water-expandable member may be formed with a coating layer for preventing contamination and delaying moisture penetration. In addition, it may further include a release tape attached to the adhesive layer.

According to an aspect of the present invention, there is provided a method of constructing a joint of a concrete structure, by preparing and hardening cement to prepare a first concrete structure, the aforementioned water expansion along the length direction of the joint region of the first concrete structure. Attaching a pressure-sensitive adhesive layer of the index composite to the joint region of the first concrete structure, and post-cast cement to immerse the water-expansion index composite on the first concrete structure to which the water-expansion index composite is attached. 2 manufacturing a concrete structure.

By using the water expansion index composite according to the present invention, it is possible to maximize the watertightness of the joint portion is installed.

In addition, the water expansion index composite is excellent in structural stability, it is possible to prevent insolvency of the constructed structure by the shape deformation.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the joint construction method of the water expansion index composite and a concrete structure using the same according to an embodiment of the present invention.

1 is a perspective view illustrating a water expansion index composite according to an embodiment. Referring to FIG. 1, the water expansion index composite 100 includes a body 100 extending along a length direction and an interior 120 formed of a composite structure. The water expansion index composite 100 may be disposed around the joint portion of the concrete structure through which water, such as groundwater and rainwater, may penetrate, thereby exerting an excellent index effect. In addition, the water-expansion index composite 100 may exhibit excellent structural stability due to less form deformation due to the effect of moisture in the ready-mixed concrete after exposure to water or post-pouring cement. This can further improve the structural stability of the concrete structure. In the present embodiment, the trunk portion 110 discloses a water expansion index composite 100 having a shape of a rectangular pillar including a substantially curved portion, but the three-dimensional shape of the trunk portion 110 is a joint portion of the concrete structure. It can be variously modified by structural or environmental factors.

2 is an enlarged perspective view illustrating an inner cross-section of the water expansion index composite according to an embodiment. Referring to FIG. 2, the water expansion index composite 200 includes a center member 210, a water expansion member 220, and an adhesive layer 230.

The center member 210 is a non-expansion member, which improves the structural stability of the water expansion index composite 200. The water-expansion index composite 200 includes a central member 210 to ensure the shape stability of the water-expansion index composite 200, even if exposed to the external water after the pre-pouring of cement after pre-pouring, the water-expansion index composite It is possible to prevent the occurrence of interlayer separation and cutting due to the structural deformation of the 200. In addition, since the water expansion index composite 200 includes the core member 210, the influence of moisture inside the ready-mixed concrete that may penetrate the water expansion index composite 200 during post-pouring of cement may be minimized.

The central member 210 extends along the length direction of the water expansion composite 200 and includes at least one hollow 212 therein. The hollow 212 extends in parallel along the longitudinal direction of the center member 210. In the present embodiment, the center member 210 includes two hollows 212, but alternatively, one hollow 212 or three or more hollows 212. The number of the hollow 212 may be set in various ways in consideration of the working environment, the properties of the cement. Since the central member 210 includes the hollow 212, structural stability of the hydroexpansion composite 200 may be secured despite the expansion and contraction of the hydroexpansion composite 200.

The center member 210 is an elastic body made of a thermoplastic resin or the like. In addition, vulcanized rubber or the like may be used as the material of the center member 210.

The water expansion member 220 is formed around the center member to surround the center member 210 and has a water expansion function capable of absorbing and expanding moisture. The water expandable member 220 is made of an elastic body and includes an unvulcanized rubber. For example, the water expandable member 220 includes butyl rubber. As an example, the water expanding member 220 may include 100 parts by weight of butyl rubber, 30 to 60 parts by weight of hydrophilic polymer, 100 to 150 parts by weight of inorganic filler, and 1 to 50 parts by weight of other additives.

The water expanding member 220 is very excellent in flexibility and adhesive properties. In particular, the water-expandable member 220 has a very good chemical adhesion property with concrete during post-pouring and hardening of cement, thereby remarkably fearing that the constructed concrete structure is insolvent due to the deformation of the water-expandable member 220. Can be reduced. In addition, the water expansion member 220 is limited to the expansion rate of 100 to 200% by water can reduce the water-tightness degradation due to excessive deformation. In addition, the range of the expansion rate can be kept constant for the influence of all kinds of moisture, such as groundwater, seawater, contaminated water. As a result, the water-expandable member 220 may improve the morphological stability of the constructed concrete structure by excellent integration with the cement.

An adhesive layer 230 is formed on one surface of the water expandable member 220. The water expansion index composite 200 may be firmly attached to the joint region of the concrete poured through the adhesive layer 230. The adhesive layer 230 may include ethylene vinyl acetate (EVA) resin or the like.

Although not shown, a release tape may be attached to the adhesive layer 230 of the hydroexpansion index composite 200. The release tape is removed during construction of the water expansion index composite 200.

On the other hand, except for one surface of the water-expandable member 220 in which the adhesive layer 230 is formed, a coating layer for preventing contamination and delaying moisture penetration may be further formed. In order to form the coating layer, for example, a coating agent such as an organic-inorganic bond sealant may be used. As the coating agent for forming the coating layer, various commercialized products may be used according to the intention of the operator and the working environment.

3 to 5 are cross-sectional views conceptually illustrating construction examples to which the water expansion index composites 100 and 200 are applied. In the method of constructing a joint of a concrete structure using the water expansion index composite (100, 200), the step of pre-pouring and hardening the cement to produce a first concrete structure, along the longitudinal direction of the joint region of the first concrete structure Attaching the pressure-sensitive adhesive layer 230 of the water expansion index composite (100, 200) to the joint region of the first concrete structure and on the first concrete structure to which the water expansion index composite (100, 200) is attached And after the cement is poured into the water-expansion index composite (100, 200) to produce a second concrete structure.

3 is a cross-sectional view conceptually illustrating a structure in which a water expansion index composite according to an embodiment of the present invention is installed at a joint part for wall construction. Referring to FIG. 3, after the cement for forming the bottom portion 310 is primarily poured and cured, the water-expansion index composite 320 according to the embodiment is attached to the joint on the hardened bottom surface 310. . Thereafter, in order to form the wall 330, cement is hardened after being poured so that the water expansion index composite 320 is embedded. The water expansion index composite 320 extends along the wall surface of the wall 330 to be manufactured.

4 is a cross-sectional view conceptually illustrating a structure in which a water expansion index composite according to an embodiment of the present invention is installed at a joint part for constructing a bottom mat slab structure. Referring to FIG. 4, after the first concrete floor 410 is formed through the first pouring on the foundation bottom 405, the water expansion index composite 420 is connected to the joint of the first concrete floor 410. Attach. Thereafter, the floor mat slab structure may be constructed by connecting the second concrete floor 430 through the second pouring. The water expansion index composite 420 extends along the junction of the first concrete floor 410 and the second concrete floor 420.

FIG. 5 is a cross-sectional view conceptually illustrating a structure in which the water expansion index composites 520 and 530 are installed in a tubular rib or anchor rib structure according to an embodiment of the present invention. Referring to Figure 5 can be constructed by attaching to the cement contact area of the pipe structure 510 before cementing (a). In addition, the anchor structure 540 may be constructed by attaching to the cement contact area of the anchor structure 540 before cementing (b). The attachment position and the number of uses of the water expansion index composites 520 and 530 may be appropriately adjusted according to the working environment or the intention of the operator.

In addition, the water-expansion index composites 520 and 530 may be installed on pre-casted concrete structures as well as concrete structures manufactured during construction through pre-pouring and hardening.

1 is a perspective view illustrating a water expansion index composite according to an embodiment.

2 is an enlarged perspective view illustrating an inner cross-section of the water expansion index composite according to an embodiment.

3 is a cross-sectional view conceptually illustrating a structure in which a water expansion index composite according to an embodiment of the present invention is installed at a joint part for wall construction.

4 is a cross-sectional view conceptually illustrating a structure in which a water expansion index composite according to an embodiment of the present invention is installed at a joint part for constructing a bottom mat slab structure.

5 is a cross-sectional view conceptually illustrating a structure in which the water expansion index composites 520 and 530 are installed according to an embodiment of the present invention for the construction of a tubular rib or an anchor rib structure.

Claims (11)

A central member having two hollows formed in a longitudinal direction and made of a first elastic body including vulcanized rubber; It is formed around the center member to surround the center member and has a water expansion function, and includes 100 parts by weight of butyl rubber and 30 to 60 parts by weight of hydrophilic polymer, and has an expansion ratio of 100 to 200% by moisture. A water expansion member made of a second elastic body that is limited; An adhesive layer formed on at least one surface of the water expanding member along a length direction and made of an adhesive; And It is formed on the surface of the water-expandable member except the area where the adhesive layer is formed, and includes a coating layer for preventing contamination and delaying moisture penetration, Index of water expansion applied to the joints of concrete structures. The method of claim 1, And the first elastic body is a thermoplastic elastic body. delete delete The method of claim 1, The second elastic body is a water expansion index composite, characterized in that it comprises a non-vulcanized rubber. delete delete The method of claim 1, The adhesive layer is a water expansion index composite, characterized in that containing ethylene vinyl acetate (EVA). delete The method of claim 1, A water expansion index composite further comprises a release tape attached to the adhesive layer. Pre-pouring and hardening cement to produce a first concrete structure; Attaching a pressure-sensitive adhesive layer of the water expansion index composite of claim 1 to a seam region of the first concrete structure along a longitudinal direction of the seam region of the first concrete structure; And And cementing the cement so that the water-expansion-index composite is recessed on the first concrete structure to which the water-expansion-index composite is attached to produce a second concrete structure.

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