KR102357268B1 - Water-proof Type Sealant - Google Patents

Abstract

The present invention relates to a waterproof sealant for a joint of a concrete structure, and more particularly, to a waterproof sealant for a joint of a concrete structure, in which a fabric layer is formed between foaming agent layers having elasticity to improve the waterproofness and durability. The waterproof sealant for a joint of a concrete structure according to the present invention is fitted and used to a joint of a concrete structure (1), and in the sealant (10), a fabric layer (12) made of any one among cloth, cotton wood, and non-woven fabric is alternately laminated with foaming agent layers (11) multiple times between the foaming agent layers (11) mainly composed of an EVA resin and a plurality of extension grooves (13) are formed in a vertical direction on both side surfaces.

Description

Joint waterproof sealant of concrete structure {Water-proof Type Sealant}

The present invention relates to a joint waterproofing sealing material for a concrete structure, and more particularly, to a joint waterproofing sealing material for a concrete structure with improved waterproofness and durability by forming a fabric layer between the foaming agent layers having elasticity.

In general, in concrete structures, cracks occur outside or inside the structure due to various factors such as drying shrinkage temperature change of concrete and water leakage.

The cracks generated in the concrete structure cause the corrosion of the reinforcing bars by accelerating the oxidation of the concrete by introducing moisture and air, thereby having a fatal impact on the lifespan and safety of the structure.

In addition, cracks occur in the concrete structure due to the material properties that shrink and expand according to temperature changes, and the shrinkage expansion rate increases in proportion to the length of the concrete structure, so that cracks increase.

On the other hand, the structure made of concrete as described above is repeatedly subjected to load over time, fatigue is accumulated, and cracks occur in structures such as wall surfaces, slab surfaces or floors due to the movement of the lower base.

Until now, repair and reinforcement methods for reinforcing cracks in concrete structures have been developed. Conventional methods for repairing cracks in concrete include an injection method in which inorganic or organic injection materials are injected into cracks with a width of 0.2 mm or more, a filling method that fills a crack with a width of 5 mm or more, and a fine crack with a width of 0.2 mm or less. There is a coating method in which the entire surface is covered without treatment individually, and an impregnation method in which an epoxy resin is applied to the concrete surface and impregnated in cracks.

At this time, in order to repair and reinforce cracks with a width of 5 mm or more, an injection device for injecting filler or reinforcing liquid into cracks has been generally developed. has been

In addition, epoxy resin or polyurethane has been used as a filler or reinforcing solution injected into the cracked area. has been disclosed.

As in the prior art, when reinforcing fluid is injected into cracks by high pressure, there is an advantage in that the working time is shortened, but in crack repair, the injection fluid does not reach deep and narrow cracks from the crack repair surface. there was

In addition, in the case of epoxy resin, it has excellent abrasion resistance and is suitable for painting, but it has poor weather resistance and is different from the elastic and thermal expansion coefficient of concrete. There was a problem of separation from the crack repair side with the concrete structure.

On the other hand, general elastic sealing materials are products developed with materials such as low-density expanded polyethylene foam due to leak repair that occurs frequently in expansion and contraction joints of structures. It is a joint material for construction and civil engineering that is constructed for shrinkage, expansion and waterproofing between new constructions such as hollows, box structures and/or tunnels.

Such an elastic sealing material should exhibit complete waterproofing effect at a hydrostatic pressure of about 50 ton/m2 and waterproof and stretchable functions even in extreme conditions of temperature change (-7℃ below zero). %, vertical shear rate of 100%, shear rate of 120%, and rotational rate of 100%, it absorbs structural deformation perfectly, and it expands and contracts even at temperature changes (-70℃) to prevent damage to the structure. .

However, although these elastic sealing materials exhibit a stretch function, their waterproofness is poor, and as time goes by, water leakage occurs in the expansion joint (joint) of the structure, and the elastic sealing material is torn or damaged due to insufficient force during the expansion and contraction action. There is a problem and there is a great need for improvement.

In order to solve the above problems, the present invention forms a fabric layer made of any one of cloth, mineral, and non-woven fabric between the foam layers to improve waterproofness as well as durability. An object of the present invention is to provide a waterproof sealant for joints of concrete structures that can prevent tearing due to vertical, shear, and rotational behaviors occurring in the structure.

The joint waterproof sealing material of the concrete structure of the present invention is a joint waterproof sealing material used by sandwiching the joint portion of the concrete structure (1),

In the sealing material 10, between the foaming agent layers 11 having an EVA resin as a main component, a fabric layer 12, which is any one of cloth, cotton, and nonwoven fabric, is alternately laminated with the foaming agent layer 11 a plurality of times, and both sides It is characterized in that a plurality of expansion and contraction grooves 13 are formed in the vertical direction.

The present invention provides a fabric layer of any one of cloth, cotton wood, and non-woven fabric between the foaming agent layers, which provide flexibility and elasticity, but are weak in durability and can be easily torn by the action of vertical, shear, and rotational behaviors generated in the structure. As the durability of the sealing material is improved by forming make it possible to prevent

In addition, it is possible to flexibly respond to vertical behavior or shear and rotation behavior by the expansion and contraction grooves formed on both sides of the sealing material, and the application of the water-repellent material used as an adhesive is easy, so the construction of the sealing material is easy and there is an effect that can improve the adhesion.

1 is a perspective view of a joint waterproof sealing material of a concrete structure according to the present invention;
Figure 2 is a front view of the joint waterproof sealing material of the concrete structure according to the present invention;
Figure 3 is a construction state diagram of the joint waterproof sealing material of the concrete structure according to the present invention

The joint waterproof sealing material of the concrete structure of the present invention is a joint waterproof sealing material used by sandwiching the joint portion of the concrete structure (1),

In the sealing material 10, between the foaming agent layers 11 having an EVA resin as a main component, a fabric layer 12, which is any one of cloth, cotton, and nonwoven fabric, is alternately laminated with the foaming agent layer 11 a plurality of times, and both sides It is characterized in that a plurality of expansion and contraction grooves 13 are formed in the vertical direction.

The fabric layer 12 is characterized in that it is a waterproof material.

It is characterized in that the urethane foaming water repellent agent is injected into the expansion and contraction groove 13 to be constructed at the joint site.

In the expansion and contraction groove 13, 3 to 5 parts by weight of acrylic resin, 5 to 10 parts by weight of white cement, 15 to 20 parts by weight of Portland cement, 25 to 30 parts by weight of liquid EVA resin, 1 to 3 parts by weight of water-soluble adhesive, and quick setting agent 3 to 5 parts by weight, 3 to 5 parts by weight of the finishing agent, 3 to 5 parts by weight of the water-repellent agent, and the remainder of the elastic coating material are injected, characterized in that the joint part is constructed.

The blending water is characterized in that the nano-bubble water.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

The joint waterproof sealing material 10 of the concrete structure of the present invention is inserted into the joint portion of the concrete structure 1 such as a bridge, an underground parking lot, a slab of a building, etc.

The encapsulant 10 is formed in a rectangular box shape, and the main component is made of ethylene vinyl acetate (EVA) resin, which has flexibility and elasticity, and facilitates horizontal and vertical behavior and shear or rotation behavior occurring in the structure 1 . make it acceptable

1 and 2, the sealing material 10 is a fabric between the foaming agent layer 11 containing EVA resin as a main component and the foaming agent layer 11 to improve the durability of the sealing material 10. A layer 12 is formed.

The fabric layer 12 is made of any one of cloth, cotton, and non-woven fabric, and is alternately laminated with the foaming agent layer 11 a plurality of times and is formed in a plurality of layers between the foaming agent layers 11 .

The fabric layer 12 is formed between the foaming agent layers 11 to increase the durability of the sealing material 10 to provide flexibility and elasticity, but the foaming agent layer 11 having weak durability is generated in the structure 1 vertically or It is possible to prevent the foaming layer from being easily torn or damaged due to lack of a portion receiving force by horizontal, shear, or rotational behavior, and the fabric layer 12 is made of a waterproof material, so that the waterproofing power of the sealing material 10 is prevent this from deteriorating.

As shown in FIG. 3 , the sealing material 10 is applied with an adhesive for adhering the sealing material 10 to the structure 1 when the sealing material 10 is constructed at the joint portion of the structure and the structure (1) A plurality of expansion and contraction grooves 13 in which the sealing material 10 can flexibly respond to vertical behavior or shear and rotation behavior occurring in the vertical direction are formed.

In order to fix the sealing material 10 to the joint portion of the structure 1, a urethane foaming water repellent agent or a coat waterproofing agent is applied (filled) with an adhesive and used in the expansion and contraction grooves 13.

The urethane foaming index agent absorbs water as soon as it meets water and expands at a high speed to form a foam, effectively blocking water leakage from the structure (1), and has high adhesion to the concrete structure (1). It is possible to increase the workability of the sealing material 10 in the joint portion of the.

The coat waterproofing agent is 3 to 5 parts by weight of acrylic resin, 5 to 10 parts by weight of white cement, 15 to 20 parts by weight of Portland cement, 25 to 30 parts by weight of liquid EVA resin, 1 to 3 parts by weight of water-soluble adhesive, 3 to 5 parts by weight of quick-setting agent. It is composed of parts by weight, 3 to 5 parts by weight of the finishing agent, and the balance water.

The acrylic resin has adhesive properties and waterproof properties, and at the same time maintains binder properties and mechanical properties, so that injection is smooth and curing proceeds quickly, and it is possible to reduce the permeability of moisture into the external structure.

The acrylic resin is preferably selected from among methyl acrylate, ethyl acrylate, isobutyl acrylate, methyl methacrylate, ethyl methacrylate and acrylonitrile.

The acrylic resin is used in 3 to 5 parts by weight, and when used in less than 3 parts by weight, the adhesive strength and waterproof effect are insignificant, and when used in 5 parts by weight or more, the manufacturing cost increases, so it is preferable to use in 3 to 5 parts by weight.

The back cement acts as a coagulant when mixed with water to improve the strength and adhesion of the coat waterproofing agent to improve adhesion with concrete structures. When used, there is a problem that the curing effect is reduced, and when using more than 10 parts by weight, the curing speed is too fast, so it is preferable to use 5 to 10 parts by weight of back cement.

The Portland cement forms a gel by hydration reaction when mixed with water and improves physical performance such as strength enhancement and adhesion of the coat waterproofing agent to increase the adhesion between the sealing material and the concrete structure. The Portland cement is 15 weight When using less than 20 parts by weight, the physical performance is insufficient, and when using more than 20 parts by weight, hardening occurs in the process of mixing with water, resulting in a problem that the workability for injection or application is greatly reduced. It is preferable to use it as a part.

The EVA resin is used to improve the elasticity, adhesion, and waterproofness of the waterproof layer. Liquid EVA resin is used, and when used together with the acrylic resin, coating film properties, elasticity and waterproof performance can be improved.

The liquid EVA resin uses 25-30 parts by weight, and when used in less than 25 parts by weight, it is difficult to obtain strength, adhesion and waterproof effects, and when used in more than 30 parts by weight, the manufacturing cost of the coat waterproofing agent increases, It is preferable to use the

The water-soluble adhesive serves to bond the coat waterproofing materials such as acrylic resin, white cement, and Portland cement to each other, and a water-soluble powder is used. It is preferable to use 1 to 3 parts by weight because the adhesive strength is strong and workability is poor.

The quick-setting material is used to bind cement and accelerate hardening by speeding the setting time of cement. When the amount of the quick-setting material is used in less than 3 parts by weight, it is difficult to obtain a curing promoting effect, and when used in more than 5 parts by weight, it is difficult to achieve rapid hardening. There is a problem that workability is reduced, it is preferable to use 3 to 5 parts by weight.

The finisher is used to improve strength by filling the pores of the cement when mixed with cement, and at the same time fill the pores of the cement to increase waterproofness during hardening. .

When using less than 3 parts by weight of the finished agent, it is difficult to obtain the effect of filling the voids of the cement, and when used in more than 5 parts by weight, there is a problem that it becomes difficult to apply to the expansion and contraction grooves due to reduced fluidity. It is preferable to use

Nanobubble water is used as a mixing water for mixing the materials of the coat waterproofing agent at a concentration that can be applied (filled) to the expansion and contraction grooves 13 .

In general, bubbles that can be easily seen in the surroundings are called macro bubbles, and the bubbles are classified into three types according to their size: macro, micro, and nano. A macro bubble with a size of 50 μm or more, a micro bubble with a size of 10 to 50 μm, and a size of 0.2 μm (=200 nm) or less are generally called nano bubbles. The used nanobubble water is used.

The nano-bubble water affects the strength improvement of the coat waterproofing agent when used as a compounding water of the coat waterproofing agent by the individual concentration of the nano-sized bubbles, so that the sealing material 10 withstands water pressure well after construction on the joint site, and the coating waterproofing agent expands and contracts It is evenly and easily distributed in the grooves 13 so that adhesion can be improved.

Since the nanobubble water can be easily purchased in the vicinity due to the development of technology and many studies, a detailed description of the nanobubble water will be omitted.

The coat waterproofing agent is applied to the expansion and contraction grooves 13 of the sealing material 10 to improve the waterproofing power and adhesiveness of the sealing material, thereby reducing the permeability of moisture and increasing the bonding strength with the concrete structure 1 to prevent cracks or voids in rain. Prevents leakage in the joint area due to occurrence.

As described above, in this specification and drawings, preferred embodiments of the present invention have been posted, and although specific terms are used, these are only used in a general sense to easily explain the technical content of the present invention and help the understanding of the present invention, It is not intended to limit the scope of the present invention. It will be apparent to those of ordinary skill in the art to which the present invention pertains that other modifications based on the technical spirit of the present invention can be implemented in addition to the embodiments disclosed herein.

1 - structure
10-Sealing material
11 - Foaming agent layer
12 - fabric layer
13-New Home

Claims (5)

In the joint waterproof sealing material used by sandwiching the joint portion of the concrete structure (1),
In the sealing material 10, between the foaming agent layers 11 having an EVA resin as a main component, a fabric layer 12, which is any one of cloth, cotton, and non-woven fabric, is alternately laminated with the foaming agent layer 11 a plurality of times, and both sides A plurality of expansion and contraction grooves 13 are formed in the vertical direction,
In the expansion and contraction groove 13, 3 to 5 parts by weight of acrylic resin, 5 to 10 parts by weight of white cement, 15 to 20 parts by weight of Portland cement, 25 to 30 parts by weight of liquid EVA resin, 1 to 3 parts by weight of water-soluble adhesive, and quick setting agent A joint waterproof sealant for a concrete structure, characterized in that it is applied to the joint area by applying a coat waterproofing agent composed of 3 to 5 parts by weight, 3 to 5 parts by weight of the finishing agent, and the remainder of the mixing water. The method according to claim 1,
The fabric layer 12 is a joint waterproof sealing material of a concrete structure, characterized in that the waterproof material. The method according to claim 1,
The joint waterproof sealing material of a concrete structure, characterized in that the urethane foaming water repellent agent is applied to the expansion and contraction grooves 13 and constructed on the joint part. delete The method according to claim 1,
The compounding water is a joint waterproof sealant of a concrete structure, characterized in that nanobubble water

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