KR102045396B1 - Reinforcing structure and method for concrete expansion joint - Google Patents

Abstract

The present invention relates to a repair reinforcement structure and a repair reinforcement method for a concrete expansion joint and, more specifically, to a repair reinforcement structure for a concrete expansion joint and a repair reinforcement method using the same. The repair reinforcement structure comprises: a primer applied to the inside of a joint portion of concrete and an outer portion of an upper portion thereof; a backup material made of polyethylene, and inserted into the joint portion; a water-expandable sealing material insertedly filled in the joint portion in which the backup material is installed; a first epoxy sealing material applied to the outer portion of the upper portion of the joint portion of the concrete; an elastic sheet attached to an upper portion of the first epoxy sealing material; and a second epoxy sealing material applied to an upper portion of the elastic sheet and the upper portion of the first epoxy sealing material. Thus, the repair reinforcement structure for a concrete expansion joint and the repair reinforcement method using the same can dynamically cope with contraction and expansion between concrete structures in an expansion joint by using an epoxy sealing material and a water-expandable sealing material having resilience and improved elasticity after hardening, can allow the epoxy sealing material and the water-expandable sealing material to have further improved adhesion and binding power in terms of wettability by the primer applied to a base body, can allow a water-expandable water stop material and the water-expandable sealing material to increase watertightness on a bonding surface and continuously maintain a stable waterproof function, and can allow the elastic sheet having an elongation of 300% or more to be integrated with the base body by the epoxy sealing material to dynamically cope with contraction and expansion at low temperatures to prevent fracture, thereby ensuring perfect waterproofness and weather resistance.

Description

Reinforcing structure and method for concrete expansion joint

The present invention relates to a repair reinforcement structure and a repair reinforcement method of a concrete expansion joint, and in particular, the water expansion index material or water expansion sealing material is water-tightness at the joint surface while actively responding to the contraction and expansion between concrete structures in the expansion joint. The present invention relates to a reinforcing reinforcement structure of an expansion joint and a reinforcing reinforcing method using the same to increase and to maintain a stable waterproof function.

In general, a building such as a rooftop, an underground exterior wall, an underground parking lot slab, or a civil building is made of concrete, and an expansion joint is used for external force, temperature, or load such as earthquake or vehicle vibration in a concrete structure or a building structure of various civil works. It is a structure provided to absorb the deformation of the structure due to the change.

In other words, the concrete structure is cracked by volume change and repeated vibration due to temperature change, and if left without considering the crack, various deterioration of concrete such as peeling / falling / abnormal crack after cracking occurs As a result, the compressive strength of the concrete and the tensile strength of the reinforcing bar are reduced, resulting in a decrease in the lifespan of civil structures.

Therefore, in order to prevent cracking, the concrete structure is basically not continuously poured over about 20m, but is cut and poured, or the preformed concrete panels are joined to each other, and then the joints are reinforced and connected in the manner shown in FIG. Construction is necessary.

As illustrated in FIG. 1, the expansion joint member 10 is filled in the gap formed by cutting the concrete C therebetween for cracking, and then sequentially filling the backup material 20 and the urethane caulking 30 thereon.

On the other hand, after filling the expansion joint member 10, the backing material 20 and the urethane caulking 30 in sequence as described above, after applying the adhesive 40 along both sides of the gap after connecting the member to the asphalt sheet or coating waterproofing material Install 50.

In addition, after the reinforcing treatment by adhering the connecting member 50, the cap 60 made of stainless material is covered along the upper part of the installation length direction of the connecting member 50 or fixed with screws for durability and weather resistance. It should be constructed to have a sunscreen function.

The expansion joint is spaced apart from the smallest 20mm to 50mm between the concrete structures, as described above is waterproofed in various ways with the concrete structure.

Therefore, the expansion joint should basically secure the leakage preventing function as an additional function along with the function of absorbing the deformation between the two structures. The conventional expansion joint is simply filled with a backing material and finished with urethane caulking or silicone. After the waterproofing process, the waterproofing is maintained for a certain period of time, but after 3 ~ 4 years, the solid backing material does not properly respond to the contraction and expansion between the concrete structures. As it occurs, leakage progresses through this area, which causes the problem of causing severe damage and breakage of the concrete structure.

The present invention has been made to solve the above problems, the water expansion index material or water expansion sealing material increases the water-tightness at the joint surface, while actively responding to the contraction and expansion between the concrete structures in the expansion joint, stable waterproof function The purpose of the present invention is to provide a reinforcing reinforcement structure of the expansion joint and a reinforcing reinforcement method using the same.

The above object, according to the present invention, the primer 104 is applied to the inner and upper outer edge of the joint portion 102 of the concrete; A backup material (106) made of polyethylene inserted into the joint portion (102); A water-expandable sealing material 108 inserted and filled into the joint part 102 provided with the backup material 106; A first epoxy sealing material (110) applied to the outer edge of the joint portion (102) of the concrete; An elastic sheet 112 attached to an upper portion of the first epoxy sealing material 110; It is achieved by the reinforcement structure of the concrete expansion joint, characterized in that it comprises a second epoxy sealing material 114 is applied to the upper portion of the elastic sheet 112 and the first epoxy sealing material 110.

In addition, the primer 104, 25 to 55% by weight of water-soluble epoxy resin, 10 to 35% by weight of water, 25 to 45% by weight of cement, 2 to 7% by weight of gypsum, 1 to 3% by weight of dispersant, cellulose fibers 1 to Main body including 2 wt%, 25-50 wt% of polymer captan, 5-10 wt% of modified aliphatic polyamine, 10-15 wt% of silica sol, 10-25 wt% of acrylic resin, curing accelerator 10 It is preferable to mix the hardening | curing agent which consists of -35 weight% in the ratio of the said subject 3-4: 1 weight ratio of the said hardening | curing agents.

And, it is preferable to further include a glass fiber mesh net 116 having a mesh structure attached to the upper portion of the first epoxy sealing material 110.

On the other hand, the above object, the joint trimming step (S1) for cutting the boundary of the joint portion 102 construction site of the concrete to a depth of 2 ~ 3mm with a cutter, by grinding the surface of the degraded concrete with a grinder; Primer application step (S2) for applying the primer 104 to the inner and upper outer edge of the joint portion 102 of the concrete; A backup material installation step (S3) of inserting and installing a backup material (106) made of polyethylene into the joint portion (102); A water-expandable sealing material filling step (S4) for inserting and filling the water-expandable sealing material 108 into the inside of the joint portion 102 in which the backup material 106 is installed; A first epoxy sealing material applying step (S5) of applying the first epoxy sealing material 110 to the upper outer edge of the joint portion 102 of the concrete; An elastic sheet attaching step (S6) for attaching the elastic sheet 112 to the first epoxy sealing material 110; Reinforcement of the concrete expansion joint, characterized in that it comprises a second epoxy sealing material applying step (S7) for applying the second epoxy sealing material 114 to the upper portion of the elastic sheet 112 and the first epoxy sealing material (110). It is also achieved by the process.

In addition, after applying the first epoxy sealing material 110, after performing the glass fiber mesh net attaching step (SS1) for attaching the glass fiber mesh net 116 having a mesh structure on the first epoxy sealing material 110, the elasticity It is preferable to allow the sheet attaching step S6 to be carried out.

The present invention is to ensure strong adhesion, and has the effect of actively responding to the shrinkage and expansion between concrete structures in expansion joints using the epoxy sealing material and water-expandable sealing material having a recovery after curing and excellent elasticity, and the epoxy sealing material and The water-expandable sealing material has further increased adhesion and bonding strength even on the wet side by the primer applied to the mother body.

In addition, the water-expandable index material or water-expandable sealing material increases the watertightness at the joint surface, and can maintain a stable waterproofing function, and the elastic sheet with elongation of 300% or more is integrated with the mother body by the epoxy sealing material, so that even at low temperatures Elastic active response is possible to prevent breakage in advance, it has the effect of ensuring perfect waterproof and weather resistance.

1 is a view showing a waterproof structure of a conventional concrete expansion joint.
Figure 2 is a partially exploded perspective view showing a reinforcement structure of the concrete expansion joint according to the present invention.
Figure 3 is a cross-sectional view showing the reinforcement structure of the concrete expansion joint according to the present invention.
Figure 4 is a flow chart showing the time series of the reinforcement method of the concrete expansion joint according to the present invention.

The repair reinforcement structure and the concrete reinforcement method of the concrete expansion joint according to the present invention will be described with reference to Figures 2 to 4 attached, while the repair reinforcement structure of the concrete expansion joint while explaining the repair reinforcement method of the concrete expansion joint in parallel Is as follows.

As shown in FIG. 2, the joint arranging step of cutting the boundary of the construction portion 102 of the concrete having a groove structure to a depth of 2 to 3 mm with a cutter and polishing and removing the surface of the degraded concrete with a grinder (S1) ).

In the joint cleanup step (S1), the root cause of lowering the adhesive force of the primer 104 and the epoxy sealing material applied in a subsequent process using an air pump and a high pressure washer to remove other foreign matters or the like.

In addition, a primer applying step S2 of applying a primer 104 is performed on the upper outer edge portion and the inner surface of the groove of the concrete joint portion 102.

The primer 104 is reacted with the moisture of the mother even if it is installed in a wet mother and acts as a premature curing and strong adhesion, blocks the penetration of moisture generated under the adhered surface, and performs the subsequent process within a short time after application Make it possible.

As described above, when the primer 104 is applied to the upper outer edge portion of the joint portion 102 and the inside of the joint portion 102, the backup member 106 is connected to the joint portion 102 as shown in FIGS. 2 and 3. The backup material installation step (S3) is inserted into the installation.

The backup material 106 is typically made of polyethylene as the main raw material, and excellent in heat retention, cold storage, and heat insulation, and excellent in water and moisture resistance and moisture resistance.

In addition, the water-expandable sealing material filling step S4 for filling the water-expandable sealing material 108 in the upper portion of the backup material 106 is performed, and the water-expandable sealing material 108 is different from the water-based material generally used. Alternatively, it can be used in parallel with water-expandable rubber index material, and has excellent elasticity like elasticity after curing and exhibits primary index effect and expands upon contact with water to achieve complete index.

The water-expandable sealing material 108 is excellent in adhesion to the concrete surface, and when in contact with water expands to about 150%, thereby exhibiting an exponential effect.

As described above, after the water-expandable sealing material 108 is filled in the joint part 102, the first epoxy sealing material applying step (S5) of applying the first epoxy sealing material 110 to the upper outer edge of the joint part 102. Is carried out.

Then, as described above, the elastic sheet attaching step S6 for attaching the elastic sheet 112 to the upper portion of the first epoxy sealing material 110 applied to the outer edge portion of the joint part 102 is performed. By performing the second epoxy sealing material applying step (S7) of applying the second epoxy sealing material 114 on the upper portion of the epoxy sealing material 110 and the elastic sheet 112, the repair and reinforcement method of the concrete expansion joint is completed.

Here, the first epoxy sealing material 110 and the second epoxy sealing material 114 are used in the same material, only, the first epoxy sealing material 110 to explain the step by step of the reinforcement method of concrete expansion joints ), The second epoxy sealing material 114 is named.

Accordingly, the first and second epoxy sealing materials 110 and 114 are a multi-purpose, two-component, solvent-free epoxy filler and an adhesive. A high elasticity, high strength, structural adhesive epoxy, wherein the mother is in a dry or wet state. The elastic sheet can be installed even after the elastic sheet 112 is attached between the first epoxy sealing material 110 and the second epoxy sealing material 114 because of excellent adhesive strength and high strength, high elasticity, wear resistance, and impact resistance. Since the binding force for strongly binding the 112 is ensured, the breakage property during the contraction and expansion of the elastic sheet 112 and the elastic restoration is prevented in advance.

In addition, the elastic sheet 112 has an elongation of 300% or more to handle a very large or irregular joint portion 102 and ensures elastic performance even at low temperatures, and exhibits high adhesive strength even on a wet surface. .

On the other hand, the primer 104 is 25 to 55% by weight of water-soluble epoxy resin, 10 to 35% by weight of water, 25 to 45% by weight of cement, 2 to 7% by weight of gypsum, 1 to 3% by weight of dispersant, cellulose fiber 1 Main body including 2 wt%, 25-50 wt% polymer captan, 5-10 wt% modified aliphatic polyamine, 5-15 wt% anhydride curing agent, 10-15 wt% silica sol, acrylic resin A curing agent comprising 10 to 25% by weight and a curing accelerator 10 to 35% by weight is mixed in the ratio of the above-described subjects 3 to 4 by weight of the curing agent 1, and even when applied to a wet mother, it reacts with the mother's moisture early Hardening and strong adhesive force is applied, it prevents the penetration of moisture generated under the adhered surface, it is possible to carry out the subsequent process quickly after application.

The water-soluble epoxy resin in the main composition of the primer 104 is colorless, odorless, transparent and can be controlled by water to be environmentally friendly, and has excellent mechanical properties such as impact resistance, abrasion resistance, chemical resistance, water resistance, and content. It has excellent chemical performance such as emulsification, and has excellent adhesiveness and durability. In particular, there is an advantage that it is easy to work in a place where ventilation is not good due to almost no smell.

The water-soluble epoxy resin is preferably 25 to 55% by weight based on the main weight, when the water-soluble epoxy resin is less than 25% by weight based on the main weight, if the desired adhesion is difficult to obtain and more than 55% by weight based on the main weight, Less amount of cement, gypsum and cellulose makes it difficult to obtain the desired properties.

Water in the main composition of the primer 104 is to control the concentration of the main body as well as the concentration of the water-soluble epoxy resin, 10 to 35% by weight of the main weight of water is suitable to obtain the desired concentration.

In the main composition of the primer 104, the cement is cured through the hydration reaction with water and serves as an inorganic adhesive to the mother. When the 25 wt% or less is added to the main weight, the cement is reduced in hydration reaction and other additives increase. Desorption occurs due to a decrease in the adhesive strength of, and when more than 45% by weight of the main weight is added, the cement hardens and the dispersion does not occur due to the rapid working time, resulting in partial defects and an increase in manufacturing cost.

The gypsum in the main composition of the primer 104 is solidified while expanding the excess moisture present in the pores of the cement gel by chemical action due to the large amount of adsorption. Ethrinzat (C ₃ A · 3CaSO ₄ · 32H ₂ 0) is transferred to monosulfate, resulting in a decrease in strength, and the addition of more than 7 wt% of the binder delays the working time. This increases, whereby the initial strength is not expressed, and the curing agent expands, resulting in a decrease in strength.

The dispersing agent in the main composition of the primer 104 is a kind of admixture of concrete to disperse the particles of cement to make the chemical effect effective, and it is necessary to add a dispersing agent (fluidizing agent) in order to secure workability, and the dispersing agent is cement By adsorbing on the surface, a double electric charge layer is formed on the particle surface, and due to the charge layer, electrostatic mutual repulsion is generated between the particles and the aggregated cement particles are dispersed, and the repulsive action increases the fluidity of the cement paste.

The dispersing agent does not exhibit dispersibility when added to less than 1% by weight based on the main weight, the resistance to frost melting is lost, and when added more than 3% by weight, the curing is delayed, delaying the work time, causing a decrease in strength do.

Cellulose fibers in the main composition of the primer 104 is a cotton heat insulating material recycled product made from wood fibers such as pulp and newspaper, and has excellent adhesion to cement paste because the fiber surface area is superior to other fibers. In addition, since it has excellent adhesion with cement, it can reduce cracks such as plastic shrinkage cracking and dry shrinkage cracking.When it is added below 1% by weight, it does not act as a water retention and thickener, and when it is added above 2% by weight, the mixing time It becomes longer and loses dispersion due to high viscosity.

On the other hand, the curing agent of the primer 104, 25 to 50% by weight of polymer captan, 5 to 10% by weight of modified aliphatic polyamine, 10 to 15% by weight of silica sol (Silica Sol), 10 to 25% by weight of acrylic resin, curing accelerator It comprises 10 to 35% by weight.

The polymer captan in the curing agent composition of the primer 104 has a function of promoting the curing reaction of the epoxy resin and at the same time increasing the viscosity, and when the 3-fluoro-boromo-polymer captan system is used, the epoxy resin is below room temperature. Curing becomes possible at low temperature.

The polymer captan in the weight of the curing agent is added to 25 to 50% by weight, if less than 25% by weight can increase the curing temperature, if the content exceeds 55% by weight may be limited in the amount of the other curing agent components.

In addition, the modified aliphatic polyamine in the curing agent composition of the primer 104 promotes a curing reaction, increases acid resistance and alkali resistance, inhibits absorption of carbon dioxide in the air, and reduces the toxicity of the curing agent.

The modified aliphatic polyamine in the weight of the curing agent is added 5 to 30% by weight, the content is less than 5% by weight of the acid resistance and alkali resistance effect of the composition may be weak, if the content exceeds 10% by weight of the other curing agent components The amount of addition may be limited.

In addition, the silica sol in the curing agent composition of the primer 104 is used as a binder of colloids and paints in which fine particles of silicic acid (SiO ₂ · nH ₂ O) are dispersed in a dispersing material such as water. When 10 wt% or less is added, the dispersing force is improved to weaken the bonding force, and when 15 wt% or more is added, the dispersing force is lowered, resulting in a decrease in bending strain after curing and a decrease in compressive strength.

The acrylic resin in the curing agent composition of the primer 104, the bonding strength is improved by excellent adhesion, the impact resistance is improved by increasing the tensile strength, the ductility is improved, the compressive strength, compressive strain is increased, bending strength, bending at low temperature Strain is improved.

Addition of 10% by weight or less of the curing agent does not exhibit all the functions such as ductility, water retention, adhesive strength, and can not be expected to improve the performance than conventional concrete, the price only increases, the price is increased when added more than 25% by weight, viscosity As a result, the workability is lowered, the dispersing power is also lowered, and the ductility is poor at low temperatures.

The curing accelerator in the curing agent composition of the primer 104 may add 10 to 35% by weight of the curing accelerator relative to the weight of the curing agent, tri-n-butylamine, benzylmethylamine, 2,4,6-tris (dimethylaminomenyl ) Tertiary amines containing phenol, 2-methylimidazole, 2ethylimidazole, 2-ethyl-4-methylimidazole, imidazole containing 2-phenylimidazole You can choose.

As described above, the main agent and the curing agent may be stirred and mixed at a ratio of the main components 3 to 4: by weight of the curing agent 1 when used, and may be applied with a brush or a sprayer.

As described above, the present invention allows the epoxy sealing material and the water-expandable sealing material 108 to be applied to the concrete joint portion 102 to be strongly bonded regardless of the dry or wet matrix, and then excellent elastic force of the water-expanding sealing material 108. The over-exposure property is ensured, and the epoxy sealing material can also strongly bind the elastic sheet 112, so that the epoxy sealing material and the water-expandable sealing material 108 installed in the joint portion 102 are broken even in the contraction and expansion of the mother body. It is an invention that the durability can be ensured by preventing the phenomenon in advance.

In addition, as shown in FIG. 2, after the elastic sheet 112 is constructed, that is, the first epoxy sealing material 110 is applied, a glass fiber mesh net 116 having a mesh structure is attached thereto. After the glass fiber mesh net 116 attaching step (SS1) to be applied, the elastic sheet 112 is attached to the upper portion, the elastic sheet 112 is the first epoxy sealing material 110 and the second epoxy sealing material It is desirable to be able to bind more firmly to 114.

Although the glass fiber mesh net 116 is weakened in the adhesive force of the elastic sheet 112, the glass fiber mesh net 116 interposed into the bottom of the elastic sheet 112 is contracted by the elastic sheet 112, When expanding, it prevents the phenomenon of slipping from the first epoxy sealing material 110, thereby preventing the peeling phenomenon in advance.

As mentioned above, although the preferred embodiment of this invention was described in detail, this invention is not limited to the said embodiment, A various deformation | transformation by a person of ordinary skill in the art within the scope of the technical idea of this invention is carried out. This is possible.

102: joint part (concrete expansion joint)
104: primer 106: backup material
108: water-expandable sealing material 110: first epoxy sealing material
112: elastic sheet 114: second epoxy sealing material
116 glass fiber mesh

Claims (5)

Primer 104 applied to the inner and upper outer periphery of the joint portion 102 of the concrete, a backup material 106 made of polyethylene inserted into the joint portion 102 and the backup material 106 The water-expandable sealing material 108 inserted and filled into the inside of the installed joint part 102, the first epoxy sealing material 110 applied to the outer edge of the joint part 102 of the concrete, and the first epoxy sealing material 110. In the reinforcement structure of the concrete expansion joint including an elastic sheet 112 attached to the upper portion, and a second epoxy sealing member 114 applied to the upper portion of the elastic sheet 112 and the first epoxy sealing material 110 ,
The primer 104,
The main material includes 25 to 55% by weight of water-soluble epoxy resin, 10 to 35% by weight of water, 25 to 45% by weight of cement, 2 to 7% by weight of gypsum, 1 to 3% by weight of dispersant, and 1 to 2% by weight of cellulose fiber. ,
A curing agent comprising 25 to 50% by weight of polymer captan, 5 to 10% by weight of modified aliphatic polyamine, 10 to 15% by weight of silica sol, 10 to 25% by weight of acrylic resin, and 10 to 35% by weight of curing accelerator. ,
The main subject 3 to 4: Reinforcement structure of the concrete expansion joint, characterized in that consisting of a mixture of the ratio of 1 weight ratio of the curing agent.
delete The method of claim 1,
Repair reinforcement structure of the concrete expansion joint, characterized in that it further comprises a glass fiber mesh net 116 having a mesh structure attached to the upper portion of the first epoxy sealing material (110).
A joint arranging step (S1) of cutting the boundary of the construction site of the concrete joint part 102 to a depth of 2 to 3 mm with a cutter and polishing and removing the surface of the degraded concrete with a grinder;
25 to 55% by weight of water-soluble epoxy resin, 10 to 35% by weight of water, 25 to 45% by weight of cement, 2 to 7% by weight of plaster, 1 to 3% by weight of dispersant, on the inner and upper outer edges of the joint portion 102 of concrete, Main body including 1 to 2% by weight of cellulose fiber, 25 to 50% by weight of polymer captan, 5 to 10% by weight of modified aliphatic polyamine, 10 to 15% by weight of silica sol, 10 to 25% by weight of acrylic resin A primer coating step (S2) of applying a primer 104 mixed with a curing agent comprising 10 to 35 wt% of a curing accelerator in a ratio of 3 to 4: by weight of the curing agent 1;
A backup material installation step (S3) of inserting and installing a backup material (106) made of polyethylene into the joint portion (102);
A water-expandable sealing material filling step (S4) for inserting and filling the water-expandable sealing material 108 into the inside of the joint portion 102 in which the backup material 106 is installed;
A first epoxy sealing material applying step (S5) of applying the first epoxy sealing material 110 to the upper outer edge of the joint portion 102 of the concrete;
An elastic sheet attaching step (S6) for attaching the elastic sheet 112 to the first epoxy sealing material 110;
Reinforcement of the concrete expansion joint, characterized in that it comprises a second epoxy sealing material applying step (S7) for applying the second epoxy sealing material 114 to the upper portion of the elastic sheet 112 and the first epoxy sealing material (110). Method.
The method of claim 4, wherein
After applying the first epoxy sealing material 110, the glass fiber mesh net attaching step (SS1) for attaching the glass fiber mesh net 116 having a mesh structure on the first epoxy sealing material 110, and then attach the elastic sheet Reinforcement method of concrete expansion joint, characterized in that the step (S6) can be carried out.

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