KR102093137B1 - Air vent sheet and construction method using it - Google Patents

Abstract

The present invention relates a degassing sheet with an air rod and a degassing method using the same and, more specifically, to a degassing sheet with an air rod, which comprises: an air rod which has a film-type tube structure made of a flexible material, and in which a number of through holes are formed through the outer circumferential surface to the inner circumferential surface; and degassing members which are integrally formed by being stacked on upper and lower portions of the air rod so that the air rod can be buried, and in which a plurality of pores are formed from a lower portion to the air rod so that moisture vaporized in a base surface or an expansion joint passes therethrough. Therefore, the expansion joint formed on the ground surface is used as a degassing path so that water vapor or gas discharged from the base surface is induced to the outside of a waterproof layer and then degassed, thereby securing a stable degassing path. Accordingly, the water vapor or gas is degassed stably, thereby suppressing the formation of an air pocket or the like in the waterproof layer formed by a subsequent process.

Description

Air vent sheet and construction method using it

The present invention relates to a degassing sheet having an air rod formed thereon and a degassing method using the same, in particular, elastic joints formed on the ground surface are used as degassers so that water vapor or gas emitted from the ground surface is degassed after being induced to the outside of the waterproof layer. By doing so, a stable degassing is secured, and accordingly, water vapor or gas is degassed stably, so that a degassing sheet having an air rod that suppresses the formation of an air pocket or the like in a waterproof layer formed by a subsequent process and a degassing method using the same will be.

In general, waterproof construction of buildings is one of the important processes in terms of user's habitability and comfort and safety of buildings. However, about 30% or more of the defects in construction work are related to leaks, and the cost lost due to leaks adds more than three times the initial construction cost. Most of the defects in the waterproof construction are caused by careless construction, so it is possible to prepare in advance.

As a conventional waterproofing method for preventing water leakage in a building, a sheet waterproofing or two-component urethane rubber-based waterproofing material to which a synthetic polymer-based roofing sheet such as rubber-based, vinyl chloride-based, or ethylene-vinyl acetate-based resin is adhered to a concrete surface is used. There are water-repellent coatings that are mixed and coated in the field.

At this time, the sheet waterproofing is an operation in which the sheets formed in a certain shape are connected in the field. Since waterproofing is possible, a certain film thickness is secured and a curing and curing period is unnecessary, thus shortening the construction period. There are many cases where leakage occurs in the joint (joint part).

In addition, since the coating film waterproofing is applied by bonding and stirring two liquids in the field, there is no bonding portion such as sheet waterproofing, so an integral waterproof layer can be formed, and it has the advantage of excellent adhesion to the concrete floor. It is very difficult to find an alternative because the air pocket of the waterproof layer, which occurs between the waterproof layer of the waterproof film and the concrete interface, occurs naturally due to the roof's own environment that receives direct sunlight.

In addition, in the prior art, by using a polyurea resin having a fast curing property on the top surface of the sheet as a waterproofing agent, the air permeability is secured as much as possible, except for the polyurea resin, the air gap is blocked when applied to form a waterproof layer on the top surface of the sheet. Since it is not properly secured, there was a problem in that the use of the material for forming the waterproof layer was extremely limited.

On the other hand, when the concrete or mortar constituting the ground surface is not completely dried, water vapor or gas that is functioned on the ground surface is released, and this water vapor or gas also causes an air pocket phenomenon that excites the waterproof layer from the ground surface, so that the waterproof layer is easily damaged. It became the cause to become.

The present invention has been devised in order to solve the above-mentioned problems, and when the base surface behaves due to external environmental factors, it corresponds to this behavior, and the expansion joint formed on the base surface to minimize its influence on the structure by the behavior An object of the present invention is to provide a degassing sheet formed with an air rod and a degassing method using the same, so that water vapor or gas emitted from the ground surface is guided to the outside of the waterproof layer to be used as the degasser.

The above object is made of a flexible (Flexible) film-like tube structure, a plurality of through holes (102a) to be penetrated to the inner diameter of the air rod 102 formed through the outer diameter; The air rod 102 is stacked to the upper and lower portions to be integrally formed so that the air rod 102 can be buried, and a plurality of pores to pass moisture vaporized from the base surface 104 or the expansion joint 104a ( This is achieved by the degassing sheet 110 on which the air rod 102 is formed, characterized in that it includes a degassing member 106 formed from the bottom to the air rod 102.

Here, the degassing member 106, asphalt or butyl 30 ~ 45% by weight, SBS rubber 10 ~ 20% by weight, SB LATEX 3 ~ 10% by weight, cellulose 10 ~ 15% by weight plasticizer 6 ~ 17% by weight, adhesion promotion Resin 5 ~ 12% by weight, flow prevention material 2 ~ 5% by weight, filler 10 ~ 20% by weight, PVB (polyvinyl butyral) 1 ~ 5% by weight, slaked lime 2 ~ 5% by weight, wet adhesive 3 ~ 8% by weight It includes upper and lower sheet portions 106a and 106b.

On the other hand, the above object is a primer coating step of arranging the base surface 104 and applying a primer to form a primer layer; A first attaching step of attaching a degassing sheet 110 on which an air rod 102 is formed on an upper surface of the elastic joint 104a formed on the base surface 104; A second attaching step of allowing the degassing sheet 110 attached by the first attaching step to stand and attach to the corner portion and side wall surface of the end of the base surface 104; The air rod 102 is characterized in that it comprises a deaeration forming step of forming a deaeration (not shown) at the end (A) of the deaeration sheet 110 attached to the side wall surface by the second attachment step It is achieved by a degassing method using the formed degassing sheet.

In the present invention, water vapor and gas discharged from the ground surface through a plurality of pores of the degassing sheet are guided through the air rod, and the air rod is connected to the degassing device formed at the end of the degassing sheet. By allowing the water vapor or gas to be deaerated through the air rod, the moisture and air pressure discharged from the base surface or concrete can be easily discharged to the outside, thereby improving the workability and uniform adhesion and uniformity. It has the effect of providing and forming a waterproof structure having degassing which can secure one degassing.

1 is a view showing a conventional surface formed with a joint.
2 is a view showing the structure of an air rod according to the present invention.
3 is a view showing a state in which the air rod of FIG. 2 is inserted and installed in the degassing sheet.
4 is a view showing a degassing method using a degassing sheet having an air rod according to the present invention.
Figure 5 is a cross-sectional view showing the structure of the degassing sheet construction according to the present invention.

When explaining the configuration of the present invention with reference to the accompanying Figures 1 to 5 as follows.

The degassing sheet 110 on which the air rod 102 according to the present invention is formed and the degassing method using the same are for discharging moisture and air pressure discharged from concrete to the outside by forming degassing, as shown in FIGS. 2 to 5 As described above, the concrete base surface 104 and the concrete sidewall surface 104b that may be formed to extend therefrom may be configured, and the concrete base surface 104 and the concrete sidewall surface 104b extending thereto may have the same configuration. Is done.

As shown in Fig. 1, the concrete slab or the concrete base surface 104 (hereinafter referred to as the base surface 104) exhibits the behavior caused by the contraction or elongation of the concrete structure according to the temperature change during the summer and winter seasons. The elastic joint 104a is formed so that the influence can be minimized.

The elastic joint 104a is formed with a predetermined width and depth, and is formed to extend in the horizontal or vertical direction of the base surface 104. In some cases, it is formed in both the horizontal and vertical directions as shown, and It may have the same structure.

The degassing sheet 110 in which the air rod 102 according to the present invention is formed is formed on the upper part of the elastic joint 104a, as shown in FIGS. 4 and 5, and water vapor is discharged from the elastic joint 104a. It collects gas and the like and serves to guide the degassing device formed on the sidewall surface 104b.

In the degassing sheet 110 on which the air rod 102 is formed, the tubular air rod 102 formed of a flexible material (for example, polyester, polyethylene film, etc.) as shown in FIG. 2 is degassed. It has a structure embedded inside the member 106.

Here, a plurality of through holes 102a are formed in the air rod 102 so that inner and outer diameters can communicate.

And, the degassing member 106 is stacked on the upper and lower portions of the air rod 102, as shown in Figure 3, so that the air rod 102 has a structure inserted inside the degassing member 106, this A plurality of pores are also formed on the lower surface of the degassing member 106, and these pores are formed to be connected to the air rod 102, and water, gas, etc. emitted from the expansion joint 104a are air rods 102 through the pores. It passes through the through hole (102a) and is guided to the inner diameter of the air rod (102).

Here, FIG. 2 shows that the air rod 102 according to the present invention is made of a structure of a tube, and is substantially structurally deformed to a flat state as shown in FIG. 3 when incorporated into the degassing member 106 It is manufactured after, and the present invention is not limited to this, and may also be manufactured after applying a structural deformation in a flat form to a structure of a circular tube, and after forming the air rod 102 into the structure of the flat tube from the beginning, The air rod 102 may be inserted between the lower seat portions 106a and 106b.

On the other hand, the degassing member 106, asphalt or butyl 30 ~ 45 wt%, SBS rubber 10 ~ 20 wt%, SB LATEX 3 ~ 10 wt%, cellulose 10 ~ 15 wt% plasticizer 6 ~ 17 wt%, adhesion promotion Resin 5 ~ 12% by weight, flow prevention material 2 ~ 5% by weight, filler 10 ~ 20% by weight, PVB (polyvinyl butyral) 1 ~ 5% by weight, slaked lime 2 ~ 5% by weight, wet adhesive 3 ~ 8% by weight It is composed of upper and lower sheet portions 106a and 106b.

Asphalt of the degassing member 106 composition has an penetration of 80 to 100, a softening point of 42 to 50 ° C, and a low boiling point of AP-3 is mainly used. When AP-5 is used, adhesive strength is excellent, but cold resistance is poor. Under low temperature, adhesion is not exerted and cracking occurs, so AP-3 is mainly used.

When the asphalt is added at 30% by weight or less, the initial adhesive strength decreases, the price increases, and when it is added at 45% by weight or more, the price decreases, but cracks occur at low temperatures.

Among the degassing member 106 composition, SBS rubber, which is a thermoplastic rubber, is a block copolymer obtained by polymerizing butadiene and styrene in an organic solvent, and has a linear and radial structure. In the linear structure, two surfaces of butadiene and styrene are polymerized to dissolve well in a high-temperature asphalt compound and disperse well, but the radial structure of butadiene and butadiene The four sides of styrene are polymerized so that they do not dissolve well in hot asphalt compounds and are difficult to disperse.

   In the present invention, the SBS rubber having the above-described structure was mixed in consideration of tensile strength, heat resistance, elasticity, and adhesive strength. In the present invention, considering the relationship between asphalt and other polymers, the addition amount is limited to 10% by weight to 20% by weight, thereby reducing cost and facilitating workability.

When the thermoplastic rubber SBS rubber is added at 10% by weight or less, it loses elasticity and breaks well, and the heat resistance is remarkably decreased. When the thermoplastic SBS rubber is added at 20% by weight or more, it is polymerized with butadiene in the SBS in the asphalt compound. Since there are fewer monomers, there is no great effect such as high elasticity, adhesion, and heat resistance, but rather only results in an increase in cost.

Among the degassing member 106 composition, SB LATEX may be used alone or in combination with a nano-particle-size acrylic latex or nano-emulsion latex or a general acrylic latex, and thus, into the cracks or voids of the base surface 104. It is possible to provide better adhesion by penetrating better, and since the particle size is small, adhesion and bonding strength are improved to improve adhesion for a long time, and adding oil while removing moisture improves the cold resistance and heat resistance of the product and elasticity. Is increased.

The above-mentioned SB LATEX has little improvement in heat resistance and cold resistance when adding 3% by weight or less based on the total weight of the adhesive layer composition. Addition amount of 3 to 10% by weight is preferred.

Cellulose among the degassing member 106 composition is the most existing organic compound in nature, also called fibrin, is the basic structure of plant cell walls, and accounts for more than 30% of all vegetable materials.

As a main component of pulp obtained by processing wood, as a raw material for paper and chemical fibers, it is a chain-shaped biopolymer with unique structural properties. It has a very strong tension and can be chemically modified in various ways to enhance structural bonding. As added, it significantly improves the mechanical strength of polymers such as tensile strength and tensile modulus, has low oxygen permeability, has excellent mechanical properties, and prevents shrinkage cracks due to plastic deformation by forming links between materials. Plays a role.

The cellulose is preferably added in an amount of 10 to 15% by weight relative to the total 100% by weight of the composition constituting the degassing member (106). When adding less than 10% by weight, the effect of preventing shrinkage cracking due to the linkage between the materials is negligible, and when adding more than 15% by weight, it becomes hard during the winter season and may cause damage.

As a plasticizer in the composition of the degassing member 106, the asphalt compound is added to maintain the viscosity of the gel at room temperature to have elasticity and flexibility permanently, and paraffin-based oil in process oil, At least one selected from Naphthenic Oil and Aromatic Oil, or any one of Glycol Oil or Mineral Sprit Oil together with the Process Oil It can be used by mixing, and other plasticizers having excellent compatibility with asphalt may be added.

The function of the plasticizer improves processability by imparting adhesion function, improving compatibility between polymers, and plasticizing in the compound to assist in having excellent properties by changing physical properties, and adding high elasticity synthetic rubber to break even at low temperatures. It does not exist and does not flow well even at high temperatures.

At this time, when the addition ratio of the plasticizer is 6% by weight or less, the adhesive strength decreases due to a decrease in viscosity control of the asphalt, and when it is 17% by weight or more, the heat resistance decreases, and there is a problem of flowing at high temperature (summer).

Among the adhesive layer composition, the adhesive resin is added with petrochemical resin, natural resin (rosin), natural resin processing (rosin ester), etc., and improves the bonding strength, adhesive strength, and heat resistance between polymers, thereby providing a separate adhesive and torch. It allows attachment without the need for a back.

The natural resin generally refers to rosin and is a resin that has been widely used before petrochemical resins were developed, and the petrochemical resin is an aromatic compound having a benzene core (benzene, toluene, xylene, phenol) and an aliphatic having a chain-like polymer. It is classified as a compound (methanol, formaldehyde, polyethylene, acrylonitrile), and in the present invention, a small amount of aromatic (C-5 / C-9) petrochemical resin is added to the aliphatic petrochemical resin (C-5).

It is preferable to contain the adhesive thickening paper (petrochemical resin) in an amount of 5 to 12% by weight based on the total weight of the degassing member 106 composition. If added at 5% by weight or less, the addition of a small amount of high-cost petrochemical resin has the effect of reducing the price, but the adhesion function loses the self-sufficiency function, and the degassing member 106 due to a decrease in bonding strength between other materials such as resin. The heat resistance is lowered, and when 12% by weight or more is added, the petrochemical resin causes a price increase due to the high cost, and hardens at low temperatures, causing inconvenience in construction, and is easily oxidized by ultraviolet rays, heat, and other environments to degas. Weather resistance of 106 is inferior.

In addition, the heat resistance may be lowered due to the increase in the content of the plasticizer, and in particular, in the present invention, a small amount of aromatic-added aliphatic (C-5 / C-9) is added to react with each other without being pushed even when primers are applied to the surface to be deposited. Therefore, it is a petrochemical resin added to realize strong adhesion, that is, strong adhesion.

Among the degassing member 106 composition, the flow-preventing material adds clay, sawdust, and the like, and when the flow-preventing material rises in temperature due to a low viscosity, a phenomenon in which a low-viscosity compound flows down occurs, and the raw material is used to prevent this. It is possible to obtain an effect of preventing viscosity and heat resistance by adding 1 or 2 types.

It is preferable to contain 2 to 5% by weight of the flow inhibitor based on the total weight. If 2% by weight or less is added, the compound flows at a high temperature due to a small amount. On the other hand, if it exceeds 5% by weight or more, the volume is lower than that of ordinary fillers and the adhesion function is lowered. Excellent, it absorbs all of the injected plasticizer and the adhesive layer becomes hard.

The filling material of the degassing member 106 composition is cheap, and calcium carbonate (caco ₃ ), which improves the bonding strength between various polymers, etc., is added at 10% by weight to 20% by weight.

When adding less than 10% by weight of the filler, the effect is insufficient, only the specific gravity is increased, and when more than 20% by weight is added, the price reduction effect occurs, but the adhesive strength decreases, the cold resistance decreases due to the increase in viscosity, and the product weight increases due to the high specific gravity. And it is difficult to install, a phenomenon occurs when installing a wall, the filler is added for the purpose of improving the adhesive strength by increasing the bonding force, the price reduction effect, and the polarization.

Among the degassing member 106 composition, polyvinyl butyral (PVB) is made of polyvinyl acetate to make most or all of the ester groups into hydroxyl groups to make polyvinyl alcohol to acetylate a part of the hydroxyl groups with butylaldehyde. Speak.

As an aromatic hydrocarbon system, it has excellent compatibility with asphalt (aromatic hydrocarbon system), PVB resin has excellent acid and alkali resistance, strong chemical properties in general hydrocarbon solvents, and the durability of the product is improved due to its excellent bonding strength in resin. , It has excellent adhesion to the surface to be adhered with strong adhesion, thereby enhancing the lifting and desorption of products.

In addition, it has excellent adhesion, toughness, and flexibility, so it is excellent in preventing leakage of vulnerable parts during product construction, and has excellent compatibility with phenolic resin, melamine resin, urea resin, alkyd resin, and natural resin, improving adhesion, and hydrophobic polymer PVA Is used for construction, metal dispersants, powder coatings, adhesion promoters for inks, etc., because of its excellent adhesion to polar molecules, it has excellent adhesion and adhesion, and is a film-shaped product. Silver is applied to tempered glass and applied to prevent breakage of glass. When adding 1% by weight or less, it does not exert the function of adhesion and bonding strength. This decreases.

In the composition of the degassing member 106, slaked lime is an insoluble ionic compound, which is combined with the polar molecules of asphalt to suppress the generation of asphaltenes, thereby preventing the hardening of asphalt by oxidation, preventing aging, and changing the polarity of some polymers in the asphalt compounds. To increase the adhesion of the asphalt interface to improve the durability of the product.

The slaked lime increases the viscosity of the asphalt compound and improves the stiffness of the mixture to increase the plastic deformation resistance, thereby improving heat resistance, improving the bonding strength between the compounds of the asphalt, maximizing the fatigue resistance due to repeated loads, and preventing water penetration. As a result, the peeling phenomenon on the adhered surface is significantly reduced. When 2 wt% or less is added, the function of insoluble ions of slaked lime is not exhibited, and when it is added at 5 wt% or more, the asphalt mixture becomes highly viscous and the adhesion function is deteriorated.

In the composition of the degassing member 106, a wet adhesive relates to the synthesis of an adhesive capable of exhibiting adhesion to an alkaline concrete surface containing a large amount of moisture, and the adhesive contains a functional group capable of reacting with moisture to contain a large amount of moisture. It relates to the synthesis of a pressure-sensitive adhesive that can improve the adhesion on an alkaline concrete surface, and by using a conjugated diene monomer in the synthetic composition of the pressure-sensitive adhesive and allowing the polymer structure to form a reticular structure, the pressure-sensitive adhesive flows down or behaves in the summer heat. I did not do it.

The wetting adhesive, 0.294 mol of one polyhydric alcohol among Glycerol, Sorbitol, Erythritol, and Manitol as alcohol in 1-Step, and one or two or more of Oxalic Acid, Malonic Acid, Adipic Acid, Fumanic Acid, 0.47mol, Polyethylen glycol, polypropylene glycol selected from 1, 0.0588mol, and one or more of 0.117mol added from Conjugated Diene acid such as Hexa-2,4-dienedioic Acid and Hexa-2,4-dienedioic Acid 100 ppm of sulfuric acid, 400 ppm of BHT, and THQ were added to purge nitrogen in a four-necked flask with a condenser and reacted for about 20 hours to about 210 ° C to terminate the reaction at an acid value of 10 mgKOH / g or less.

The above reactants were lowered to 50 ° C to add 0.0588 mol of acrylic acid, and 200 ppm of MHO and 200 ppm of THQ were added to react for 4 to 6 hours at 160 ° C to terminate the reaction at an acid value of 9 mgKOH / g.

A sulfuric acid catalyst is removed by using an exchange resin in the pressure-sensitive adhesive polyester acrylic oligomer thus reacted, and a weight ratio of 30% is added to a ketone and ethyl acetate solvent, and a weight ratio of 1% of BPO is added to 4 ~ 8 at around 100 ℃. It is obtained by terminating the reaction by polymerization over time.

As described above, among the wet adhesive polymerized, carboxyl group (COOH) absorbs and reacts on the surface of the adhered surface, thereby allowing adhesion on the wet adhered surface, and by adding the above wet adhesive, adhesion of the adhered surface even in the wet state It was made possible.

Among the existing wet adhesives, the water-soluble liquid type is a product made by mixing water and oil, and since the raw material itself has water, it is naturally mixed with and adheres to the water on the surface to be adhered, but the adhesion strength is poor, and a sheet-shaped product cannot be manufactured.

In addition, the form in which the filler absorbs moisture is a form that absorbs and adheres the moisture on the surface to be adhered by injecting a filler having excellent absorbency when mixing the raw materials. In this case, when mixing the raw materials, the plasticizer first penetrates the filler and only a small portion adheres to the surface. There is a problem in that the input content of the plasticizer is increased by absorbing and attaching the moisture of the water, so that it flows under high temperature.

Existing wetting adhesives have a low viscosity of raw materials, and when the size of the molecule is reduced, the type of adhesion is desorption phenomenon at high temperature, deterioration of adhesion strength, and so on.

As described above, when the wet adhesive according to the present invention is added in an amount of 3% by weight or less, the carboxyl group (COOH) in the moisture adhesive does not absorb all of the moisture on the adhered surface, and may not exert adhesive force due to the remaining moisture, 8% by weight In case of abnormal input, the price will rise due to excessive injection of expensive wet adhesive.

The degassing member 106 formed as described above is composed of the upper and lower sheet portions 106a and 106b, as described above, and the air rod between the upper and lower sheet portions 106a and 106b ( 102) has a structure that is flatly inserted as shown in FIG. 3, and a plurality of pores are formed in the lower sheet portion 106b as described above, such that water vapor or gas emitted from the expansion joint 104a is air rod 102. ) Is guided through the through hole 102a.

In addition, since the degassing member 106 according to the present invention is attached to the upper portion of the elastic joint 104a, the behavior of the base surface 104 rather than the waterproof layer formed on the top of the degassing member 106 when the base surface 104 moves It is bound to be most affected by.

Therefore, the degassing member 106 according to the present invention is excellent in elasticity and elasticity, so that the compliance with the behavior of the base surface 104 is superior to that of a waterproof sheet or the like that is normally distributed, and with the base surface 104 or the primer layer. Strong adhesion performance is ensured, and after the degassing member 106 is installed, the degassing function can be performed smoothly over a long period of time by maintaining no deformation.

In addition, as shown in FIG. 3, the mesh net 108 is stacked on at least one of the lower portion of the upper sheet portion 106a and the upper portion of the lower sheet portion 106b constituting the degassing member 106 of the present invention. It is preferable that the deformation of the degassing member 106 can be prevented.

Meanwhile, the degassing method using the degassing sheet 110 on which the air rod 102 according to the present invention is formed will be described with reference to FIGS. 4 and 5 attached.

First, a primer coating step of arranging the base surface 104 and applying a primer to form a primer layer is performed.

Then, a first attaching step of attaching the degassing sheet 110 on which the air rod 102 according to the present invention is formed as shown in FIG. 4 is performed on the upper surface of the elastic joint 104a of the base surface 104 on which the primer layer is formed. do.

In addition, the end of the degassing sheet 110 attached to the upper portion of the elastic joint 104a by the first attaching step is attached to be extended to the corner portion and the side wall surface 104b of the end of the base surface 104, As shown in FIG. 4, a second attaching step of attaching upright is performed.

Then, as shown in FIG. 4 by the second attaching step, a deaerator forming step of combining or forming a deaerator at the end position A of the deaeration sheet 110 attached to the side wall surface 104b is performed. do.

Here, the present invention is not limited to the structure of the deaerator, and a commonly used deaerator, deaeration device can be combined.

On the other hand, as shown in Figure 4, if the expansion joint 104a formed on the base surface 104 has a checkerboard-like structure, it is attached to the horizontal expansion joint 104a and the vertical expansion joint 104a. The degassing sheet 110 has a structure overlapping at an intersection.

At this time, by applying the urethane coating waterproofing material to the overlapping portion having the overlapping structure with the '+', a fine gap generated during the overlapping may be filled with the urethane coating waterproofing material, and the degassing sheet 110 may have a '+' shaped structure. It is formed of, and after the air rod 102 incorporated into the degassing sheet 110 is also molded into a '+' character, the '+'-shaped degassing sheet 110 is first attached to the overlapping portion, and then '-' The degassing sheet 110 may be constructed to be connected.

At this time, since the '+'-shaped air rod 102 and the '-'- shaped air rod 102 are made of a tube structure, it is preferable to have a structure that is inserted into one of the other.

In the above, specific preferred embodiments of the present invention have been illustrated and described. However, the present invention is not limited to the above-described embodiments, and any person having ordinary knowledge in the technical field to which the present invention pertains without departing from the gist of the present invention appended in the scope of the claims may have various modifications and equivalents. It will be possible. Therefore, the true technical protection scope of the present invention should be defined only by the appended claims.

102: air rod 102a: through
104: ground surface 104a: new joint
104b: Side wall
106: degassing member 106a: upper sheet portion
106b: lower seat portion 108: mesh net
110: degassing sheet

Claims (3)

It is made of a flexible (Flexible) film-like tube structure, a plurality of through holes (102a) is formed through the inner diameter of the air rod 102 through the outer diameter;
The air rod 102 is stacked to the upper and lower portions to be integrally formed so that the air rod 102 can be buried, and a plurality of pores are allowed to pass through the moisture vaporized in the base surface 104 or the expansion joint 104a. It includes a degassing member 106 formed from the bottom to the air rod 102,
The degassing member 106,
Asphalt or butyl 30 to 45% by weight, SBS rubber 10 to 20% by weight, SB LATEX 3 to 10% by weight, cellulose 10 to 15% by weight Plasticizer 6 to 17% by weight, adhesive paper 5 to 12% by weight, flow prevention material Upper and lower sheet parts 106a and 106b consisting of 2 to 5% by weight, 10 to 20% by weight of filler, 1 to 5% by weight of polyvinyl butyral (PVB), 2 to 5% by weight of slaked lime, and 3 to 8% by weight of wet adhesive Degassing sheet is formed with an air rod 102, characterized in that it comprises a.
delete A primer application step of arranging the base surface 104 and applying a primer to form a primer layer;
A first attaching step of attaching the degassing sheet 110 on which the air rod 102 according to claim 1 is formed on the upper surface of the elastic joint 104a formed on the base surface 104;
A second attaching step of allowing the degassing sheet 110 attached by the first attaching step to stand and attach to the corner portion and side wall surface 104b of the end of the base surface 104;
Degassing with an air rod (102) characterized in that it comprises a degassing forming step of forming a degassing at the end (A) of the degassing sheet (110) attached to the side wall surface (104b) by the second attaching step. Deaeration method using sheet.

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