KR102289198B1 - Waterproofing and repair methods having moisture evaporation function - Google Patents

Abstract

The present invention relates to a waterproofing and repairing method having a water evaporation function, and while forming a waterproofing layer by applying a waterproofing material, a waterproof layer is not formed in a portion of a certain size, and a nano-type having superhydrophilicity in a portion where a waterproofing layer is not formed By coating the catalyst material with a certain thickness, it prevents rainwater from entering from the outside and has breathability, and allows moisture and moisture in the concrete structure to evaporate so that damage to the concrete structure can be prevented, and it is easier and more convenient. It is characterized by rapid construction, which greatly reduces construction cost and improves construction efficiency.

Description

Waterproofing and repair methods having moisture evaporation function

The present invention relates to a waterproofing and repairing method having a water evaporation function, and more particularly, not waterproofing a certain area around a drain hole or on a vertical concrete surface, but by applying a nano-catalyst material to this area. It relates to a waterproofing and repairing method with a water evaporation function that allows moisture to be evaporated through the surface on which the nano-catalyst material is applied while preventing moisture penetration and absorbed into the interior by cracks in concrete.

In general, in concrete structures such as roof slabs and roofs, microcracks are generated in concrete due to deterioration of concrete or volume change of water according to temperature change.

As the period elapses, the size of these cracks gradually expands due to the load or other histories of the structure itself, and rainwater seeps in through the enlarged cracks, causing water leakage into the structure.

To this end, a waterproofing construction is carried out in a concrete building to prevent moisture from being absorbed into the building. As a waterproofing method of a concrete structure, a penetrating waterproofing method and a coating-type waterproofing method are largely used.

The penetrative waterproofing method is a method of applying a waterproofing agent to the concrete surface to change the concrete itself to have waterproofness, while the coating-type waterproofing method forms several layers of impermeable waterproofing layers inside and outside the structure to prevent cracks or damage to the concrete structure. Other building construction defects are dealt with.

Rainwater or moisture flowing in through the cracks acts as a high-efficiency waterproofing material constructed to prevent moisture intrusion, but rather traps rainwater or moisture that has flowed into the interior, and the stored rainwater or moisture triggers deterioration.

In addition, the inflow of rainwater or moisture in a concrete building is caused by cracks in structures other than the floor, not the floor where the waterproofing is made, and as a result, an air layer is formed in the waterproofing layer, which in most cases causes the lifting of the waterproofing layer.

In order to prevent such an air layer from being generated, various degassing devices are provided on the waterproof layer forming surface so that the water vapor formed in the air layer can be discharged to the outside.

The anti-reflux degassing device with a plate structure that induces the formation of a uniform coating layer and can be installed on the upper part of the waterproofing layer according to Registered Patent No. 1176850 (2012.08.20.) removes the waterproof layer of the raised waterproofing layer and then makes a hole with a certain diameter to drain the water stored inside the concrete.

In particular, a separate deaeration device is installed in the hole, and then the deaeration device is installed so that the deaeration device is adhered and waterproof around the surface that is in close contact with the bottom surface of the deaeration device using waterproof silicone or the like.

However, in the degassing apparatus as in the prior art, a drilling operation for installation of the degassing apparatus in a concrete building must be made, and the load generated during the fastening process using fastening means such as bolts causes the concrete to be damaged by the stress applied to the concrete surface. There is also a problem that may cause cracks.

(Documentation) Registered Patent No. 1176850 (2012.08.20.)

Accordingly, the present invention is to solve the above problems, and the present invention does not waterproof a certain part of the waterproof layer formed by construction, but applies a nano-catalyst material to the part where waterproof construction is not made. It is a main purpose to provide a waterproofing and repairing method having a water evaporation function that allows moisture and moisture in a concrete structure to evaporate by making it breathable while preventing the inflow of rainwater.

In addition, another object of the present invention is to provide a waterproofing and repairing method having a water evaporation function having easier and faster workability because the construction is made by simply applying a nano-type catalyst material without applying any impact to the concrete structure.

In particular, according to the present invention, after removing the waterproofing layer in the area where the lifting occurs, a new waterproofing layer is formed and the repair is performed simply by applying a nano-catalyst material to only a portion of the waterproofing and repair having a water evaporation function that increases the efficiency of the repair. There is another purpose of providing a method.

In the waterproofing and repairing method having degassing and moisture evaporation functions according to the present invention for achieving the above object, a waterproofing layer is formed by coating a waterproof material, and a waterproofing layer is not formed in a certain size in some parts, and a waterproofing layer is not formed. is characterized in that the catalytic material of nanoparticles having superhydrophilicity is applied to a certain thickness.

The nano-based catalyst material having the superhydrophilicity is made to have a size of 1 to 3 nanometers.

The superhydrophilic nano-catalyst material is composed of a solution based on tungsten trioxide.

The superhydrophilic nano-catalyst material is applied to the stepped or bent surface having a height difference from the bottom surface on which the waterproof layer is not formed with respect to the bottom surface on which the waterproof layer is formed.

The nano-type catalyst material having the superhydrophilicity is applied in a predetermined size around the inlet of the drain hole.

The nano-based catalyst material having superhydrophilicity is made of a material having a catalyst function.

By the waterproofing and repairing method having a water evaporation function according to the above method, the superhydrophilic nano-catalyst material is applied with a certain thickness to a certain area so that the waterproofing layer is not formed in a certain size on a certain portion of the surface on which the waterproofing layer is constructed. By doing so, it prevents rainwater from flowing in from the outside and has ventilation, and moisture and moisture in the concrete structure can be evaporated to prevent further damage to the concrete structure.

In addition, the present invention allows construction to be carried out regardless of location without damaging the exterior, as well as construction at any location where rainwater can intrude, so that the concrete structure can be more safely maintained.

In particular, since the present invention provides easier and faster construction even for repair of the waterproofing layer due to cracks or lifting, there is an effect of significantly reducing construction costs and improving construction efficiency.

1 is a cross-sectional view illustrating a configuration in which a waterproofing film is formed by a waterproofing and repairing method having degassing and moisture evaporation functions of the present invention;
2 is a perspective view illustrating a configuration in which a waterproofing film is formed in a bent portion of a concrete structure by the waterproofing and repairing method having degassing and moisture evaporation functions of the present invention;
3 is a perspective view illustrating a configuration in which a waterproofing membrane is formed around a drain hole by the waterproofing and repairing method having degassing and moisture evaporation functions of the present invention;

Hereinafter, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily implement them.

The scope of the present invention should not be construed as being limited by the embodiments described herein.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the description of the embodiment, the same reference numerals are assigned to the same components, and in some cases, the descriptions of the same reference numerals will be omitted.

1 is a cross-sectional view illustrating a configuration in which a waterproofing membrane is formed by a waterproofing and repairing method having degassing and moisture evaporation functions of the present invention.

As illustrated, in the present invention, the waterproof layer 20 to be installed on the surface 10 of the concrete structure can be applied to any method currently used.

However, when the waterproofing layer 20 is formed, some are left blank without the waterproofing layer construction.

To this end, a plastic cover or the like of a certain size may be covered on the non-construction part of the waterproofing layer, and the outer periphery of the vinyl cover may be fixed by attaching an adhesive tape to the concrete surface 10 .

It is not limited to the above method for the formation of the waterproof layer non-construction portion, and the formation is possible by various other methods.

When the waterproofing layer construction is made, the waterproofing film 30 is formed by applying a superhydrophilic nano-catalyst material to a predetermined thickness on the non-waterproofing layer.

To this end, when the waterproof layer construction is completed, when the adhesive tape and the vinyl cover are removed from the part covering the waterproof layer non-construction part, the waterproof layer non-construction part is exposed. It is the most striking feature of the present invention to allow it to be applied.

In this case, the nano-based catalyst material used is to mix water or other various solutions with the super-hydrophilic nano-particle catalyst material so that it is applied to the non-construction area of the waterproofing layer over several aberrations as if painting a paint.

It is most preferable to use tungsten trioxide, which exhibits a catalytic function regardless of the influence of light, especially ultraviolet rays, as a catalyst material for nanoparticles applied to the non-construction part of the waterproofing layer.

The nano-based catalyst material is preferably such that the particles have a size of 1 to 3 nanometers.

In addition, since the nano-catalyst material of the present invention absorbs moisture or moisture into the interior of the concrete through a portion where waterproofing is not done on the floor surface forming the waterproofing layer, it is removed from the waterproofing layer 20 of the concrete floor as shown in FIG. 2 . It is preferable to be applied on a vertical surface that does not form the waterproof layer 20 that is vertically stepped or bent.

In particular, the superhydrophilic nano-catalyst material of the present invention is applied around the inlet of the drain pipe 11 as shown in FIG. 3 .

In other words, when it rains or snow melts, rainwater or melted snow is discharged through the drain hole, so there is more contact with water than anywhere else. It is preferable to apply it to the site.

On the other hand, the nano-based catalyst material having superhydrophilicity of the present invention is made as a material having a catalyst function.

As described above, the nano-catalyst material of the present invention is to have a function of removing water stored in the interior of the concrete structure to the outside together with waterproofing, since it basically allows moisture to be evaporated by breathability together with water repellency.

Tungsten trioxide is most suitable as a nano-catalyst material having such a superhydrophilic function and a catalytic function.

The effect of the waterproofing and repairing method having the degassing and water evaporation functions as described above will be described in more detail as follows.

In the waterproofing and repairing method having degassing and water evaporation functions according to the present invention, waterproofing construction to be performed on a concrete structure can be done through various construction methods currently used.

That is, it is ok to use any of the penetrative waterproofing methods and the coating-type waterproofing methods, which are currently the most commonly used waterproofing methods.

However, during waterproof construction, as described above, the waterproof layer 20 is not formed in a predetermined area around the stepped portion or the bent portion or the drain hole.

In this way, the waterproof layer non-construction portion is formed so that the nano-type catalyst material having superhydrophilicity is applied to the non-waterproof layer non-construction area to a predetermined thickness.

The nano-type catalyst material having superhydrophilicity is to have properties similar to paint, so that it is applied to the non-coated area of the waterproofing layer.

By applying it over a plurality of times during application, a waterproof membrane 30 of a certain thickness made of a nano-based catalyst material having superhydrophilicity is formed.

The waterproof membrane 30 formed by the nano-catalyst material having superhydrophilicity can be permanently attached to the concrete surface 10 due to the bonding force formed by the nano-scale electrical properties without being affected by the climate at all. There is no need to use a separate adhesive.

In addition, the super-hydrophilic property is not absorbed even when rainwater from the outside is in contact with the surface, and a water film is simply formed along the surface. Adhesion is prevented by the cleaning action of such as, and at the same time, deterioration due to these dusts or dust is prevented.

As such, the nano-catalyst material has super-hydrophilic properties, which basically prevents absorption of water such as rainwater that comes into contact with the surface, thereby exhibiting a waterproof function.

Therefore, rainwater or moisture from the outside is no longer absorbed into the inside of the concrete structure through the portion where the waterproofing film 30 is formed, and the rainwater or moisture that is already remaining inside the concrete structure is transferred to the outside temperature of the concrete structure. Since it is gradually evaporated due to the change, the moisture thus evaporated is discharged to the outside by an action such as osmotic pressure by the nano-unit bonding structure of the nano-based catalyst material having superhydrophilicity.

If the moisture is continuously discharged to the outside, the inside of the concrete structure can always maintain the humidity similar to the outside, so that it is possible to prevent the deformation of the concrete surface due to the external temperature change in advance.

In other words, the inside of the concrete structure is always maintained by the waterproofing membrane 30 of the present invention, although the moisture or water stored inside repeats expansion and contraction due to temperature changes, causing cracks and lifting in the concrete structure. Keeping it dry prevents surface damage such as cracking in concrete structures.

In particular, when the nanoparticles used in the waterproof membrane 30 of the present invention use tungsten trioxide, a material that catalyzes even in the presence or absence of light, it acts as a catalyst to improve air quality and is generated by the influence of ultraviolet rays. It makes it possible to significantly delay the deterioration phenomenon.

On the other hand, the waterproofing membrane 30 can maintain waterproofness longer than any existing waterproofing layer 20 and significantly extend the replacement cycle of the waterproofing layer 20, so that it is possible to maintain a safer concrete structure. .

In addition, nanomaterials such as tungsten trioxide absorb ultraviolet light and remove ultrafine dust containing first-class carcinogens or organic volatiles, or provide a chemical function that transforms them into other substances. effective.

In addition to the removal of these harmful substances, it also performs the function of destroying ozone in the air, which has an impact on improving air quality.

Therefore, by simply applying the superhydrophilic nano-catalyst material to the uncoated portion of the waterproofing layer among the concrete surfaces 10 forming the waterproofing layer 20, further absorption of rainwater or water into the interior of the concrete structure is prevented. At the same time, rainwater or moisture already absorbed inside the concrete structure can be evaporated to the outside, so it is possible to prevent the occurrence of cracks in the concrete structure in advance. This enables maintenance of a more stable and robust concrete structure.

As such, the present invention is not limited to the described embodiments, and it is apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention. Accordingly, it should be said that such modifications or variations shall fall within the scope of the claims of the present invention.

10: concrete surface
11: drain pipe
20: waterproof layer
30: waterproof membrane

Claims (6)

While forming a waterproof layer by applying a waterproof material, avoid forming a waterproof layer with a certain size in some parts, and apply a nano-catalyst material having superhydrophilicity to a certain thickness on a portion where a waterproof layer is not formed,
The superhydrophilic nano-catalyst material has a water evaporation function so that it is applied in a predetermined size around the entrance of the drain hole of the stepped or bent side having a height difference from the bottom surface on which the waterproof layer is not formed with respect to the bottom surface forming the waterproof layer A waterproofing and repair method with
The method according to claim 1,
The superhydrophilic nano-catalyst material is a waterproof and repair method having a water evaporation function consisting of a size of 1 to 3 nanometers.
The method according to any one of claims 1 to 2,
A waterproof and repair method having a water evaporation function so that the nano-catalyst material having the superhydrophilicity is made by mixing water with tungsten trioxide.
delete delete The method according to claim 1,
The superhydrophilic nano-catalyst material is a waterproof and repair method having a water evaporation function made of a material having a catalyst function.

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