KR100491405B1 - Several layer waterproof construction method - Google Patents

Abstract

The present invention is to form a multi-layer synthetic resin waterproofing agent on the construction surface, such as the surface of the concrete, by inserting the carbon fiber between the waterproofing agent to suppress the crack of the construction surface, increase the compressive strength and tensile strength to improve durability, bending The present invention relates to a multi-layer composite waterproof construction method for facilitating the construction of a severe and complicated structure. A waterproofing agent for applying a certain thickness of a synthetic resin waterproofing agent having a permeable waterproofing function such as an epoxy-based primer on the construction surface. When the primer is applied to the construction surface in the coating process and the waterproofing agent coating process, the first ultra-light mortar having a watertight waterproof function on the upper part of the primer and a mixture of cement and lightweight aggregate at a predetermined ratio is 1.0 to 2.0 [mm] thick. The first ultralight mortar coating step to be applied in a first step; and the first ultralight mortar in the first ultralight mortar step When the coating is applied, the carbon fiber lamination step of laminating the carbon fiber for suppressing the crack of the construction surface on the first ultra-light mortar, and when the carbon fiber is laminated in the carbon fiber lamination step, the first on the carbon fiber When the second ultra-light mortar is applied in the second ultra-light mortar coating step of applying the second ultra-light mortar of the same component as the first ultra-light mortar to a thickness of 1.0 ~ 2.0 [mm] and the second ultra-light mortar coating process, In order to smooth the surface exposed to the outside on the second ultra-light mortar top, characterized in that the surface coating step of applying a surface coating agent such as silstone top coat to a thickness of 0.0 ~ 0.1 [mm].

Description

{Several layer waterproof construction method}

The present invention relates to a waterproof construction method, and more specifically, to a multi-layered synthetic resin-based waterproofing agent on the construction surface such as the surface of the concrete, by inserting the carbon fiber between the waterproofing agent to improve the compressive strength, tensile strength of the construction surface The present invention relates to a multi-layer composite waterproof construction method for increasing durability to improve durability and facilitating construction in places with severe bending and complex structures.

In general, concrete structures must be waterproofed to prevent water intrusion (water or water permeation), and in order to perform the countermeasure, appropriate waterproofing agents such as inorganic cement type (powder type) and organic polymer type (liquid type) are used. do.

Currently, various methods such as cement Malta waterproofing, sheet waterproofing, epoxy waterproofing, etc. are used as the waterproofing method of the structure, and the cement mortar waterproofing method is the most inexpensive. It is the method used.

Conventional cement mortar waterproofing is applied to the floors and walls of underground structures such as water tanks, basements, joints, etc. by mixing a waterproofing agent with cement and mortar.

However, the waterproofing effect of the cement mortar is surely increased initially, but thereafter, there is a problem that cracking occurs during the curing process due to the characteristics of the cement mortar, and it is easily broken by excitation or external impact, and the tensile strength is relatively When there is a small crack in the structure there is a problem that the waterproof layer is also broken together.

In particular, concrete structures are gradually aged by atmospheric carbon dioxide, acid rain, wind, ultraviolet rays, etc., and uniformity occurs, and insulation, water resistance, etc. deteriorate. Done.

However, the repair of the conventional concrete structure mainly uses a method of scraping away the corroded portion and re-attaching concrete or mortar to it, so that the compressive strength and tensile strength of the repair portion are low, causing cracks to occur or lift up in a short period of time. There is a problem that this occurs.

The present invention has been made in view of the above-described problems, the object is to apply a waterproofing agent such as a primer (Primer), the main component of the epoxy (Epoxy) on the construction surface, such as the surface of the concrete, the carbon on the upper After laminating the super lightweight mortar of the two-layer structure in which the fibers are inserted, it is finally coated with a surface coating agent such as a silicide top coat to smooth the surface exposed to the outside to form a waterproof layer having a multi-layer structure, thereby preventing cracks in the construction surface. It is to suppress, increase the compressive strength and tensile strength to improve the durability, and to improve the workability of severe bends and complex structures.

The configuration of the present invention for achieving the above object is made as follows.

A waterproofing agent applying step of applying a synthetic resin waterproofing agent having a permeable waterproofing function such as a plymer mainly composed of epoxy on the construction surface to a predetermined thickness;

When the primer is coated on the construction surface in the waterproofing agent coating process, the first ultralight mortar, which has a watertight waterproof function on the upper part of the primer, is mixed with cement and lightweight aggregate at a predetermined ratio, has a thickness of 1.0 to 2.0 [mm]. A first ultralight mortar coating process;

A carbon fiber lamination step of laminating carbon fibers for suppressing cracks in the construction surface when the first ultralight mortar is coated in the first ultralight mortar process;

When the carbon fiber is laminated in the carbon fiber lamination process, the second ultra-light mortar coating process of applying a second ultra-light mortar of the same component as the first ultra-light mortar with a thickness of 1.0 ~ 2. 0 [mm] on the carbon fiber and;

When the second ultra-light mortar is applied in the second ultra-light mortar coating process, a surface coating agent such as a siliston top coat or the like is coated on the second super-light mortar to smooth the surface exposed to the outside. It is characterized by consisting of a surface coating step of applying a thickness [mm].

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

1 is a flow chart illustrating a multi-layer composite waterproof construction method according to an embodiment of the present invention.

2 is a cross-sectional view showing a waterproof layer according to the multi-layer composite waterproof construction method of the present invention.

1 to 2, the multilayer waterproof construction method according to an embodiment of the present invention is a waterproofing agent coating step (S), the first ultra-light mortar coating step (M1), carbon fiber lamination step (I), It consists of a secondary ultra-light mortar coating process (M2), and a surface coating process (E).

Waterproofing agent application process (S)

A synthetic resin-based waterproofing agent having a permeable waterproofing function, namely, a plymer 2 containing epoxy as a main component, is applied to a construction surface 1 such as concrete at a predetermined thickness.

First Ultra-light Mortar Coating Process (M1)

When the primer 2 is applied, the first ultralight mortar 3 having a watertight waterproof function within a predetermined time is first applied to the upper portion of the primer with a thickness of about 1.0 to 2.0 [mm].

The first ultra-light mortar (3) is a cement and light aggregate is mixed in a volume ratio of 1: 3, the lightweight aggregate is preferably used, such as expandable clay, fly ash, artificial aggregate.

Carbon Fiber Lamination Process (I)

When the first ultra-light mortar (3) is applied, the carbon fiber (4) is laminated on the upper portion of the first ultra-light mortar (3) at a predetermined interval within a predetermined time, the carbon fiber is a construction surface (1) such as concrete Cracks can be suppressed.

Second Ultra-light Mortar Coating Process (M2)

When the carbon fiber 4 is applied to the upper portion of the first ultra-light mortar (3), the second ultra-light mortar (5) having a watertight waterproof function within a predetermined time, the same thickness as the first ultra-light mortar (3), that is about Apply 2nd thickness with 1.0 ~ 2.0 [mm] thickness.

The second ultralight mortar (5) is preferably used mortar of the same components as the first ultralight mortar (3) used in the primary coating.

Surface Coating Process (E)

When the second ultra-light mortar (5) is applied in the above, in order to smooth the surface of the external exposed surface within a predetermined time, the surface coating agent, that is, the silicetop top coat (6) to the thickness of about 0.08 ~ 0.1 [mm] to finish .

Therefore, the surface exposed to the outside is smoothed by the silithone top coat 6 which is finished, so that dust generated from the outside is not easily adhered to the surface.

Looking at the operation and effects of the present invention as described above are as follows.

When constructing the construction surface according to the multi-layer composite waterproof construction method of the present invention, as shown in Figure 2, the plasticizer-based waterproofing agent having a waterproofing function permeable to the upper surface of the construction surface 1, such as concrete, and the above (2) Carbon fibers (4) for suppressing cracking of mortar between the first and second ultralight mortars 3 and 5 having a watertight waterproof function on the upper part and the first and second ultralight mortars 3 and 5 And, the second ultra-light mortar (5) on top of the surface coating agent for coating the surface to be exposed to the outside sillystone coat (6) is sequentially applied to form a multi-layer composite waterproof layer.

Therefore, the waterproof layer constructed on the construction surface 1 as described above is made of a multi-layer, so that the compressive strength, tensile strength, etc. is increased, durability is improved, it is convenient to work, and the light weight mortar (3, 5) is small Because of the use, it is easy to install in places with severe bends and complex structures or places such as ceilings and walls.

In addition, the primer 2 formed on the construction surface 1 and the ultra-light mortars 3 and 5 have a permeable waterproof and a watertight waterproof function, so that water, moisture, and the like penetrated from the outside are double-blocked, By inserting the carbon fiber 4 between the ultra-light mortar (3, 5) to prevent the crack of the construction surface to improve the waterproof effect.

In addition, the surface exposed to the outside is treated with a silstone top coat or the like to smooth the surface so that dust generated from the outside is not easily adhered to the surface.

As described above, the present invention improves durability by increasing the compressive strength and tensile strength of the construction surface by forming a plurality of waterproofing agents having a permeability, watertightness waterproofing function, and a crack suppression function in a multi-layered and composite construction surface such as concrete. It extends the waterproofing period of concrete structures, which are newly constructed and repaired, and improves the waterproofing effect of concrete structures by suppressing cracks in construction surfaces.

In addition, the ultra-light mortar is used to form a multi-layered and composite layer, so that it is severely curved, improves the workability of a complicated structure or a place such as a ceiling or a wall, and the surface exposed to the outside smooths out dust generated from the outside. Since it is not easily adhered to the surface, it is possible to keep the exterior of the building, the roof, etc. clean.

1 is a flow chart illustrating a multi-layer composite waterproof construction method according to an embodiment of the present invention.

2 is a cross-sectional view showing a waterproof layer according to the multilayer composite waterproof construction method of the present invention.

* Description of the symbols for the main parts of the drawings *

1: Construction surface 2: Plymer

3: first ultra-light mortar 4: carbon fiber

5: second ultra-light mortar 6: sillystone top coat

Claims (1)

A waterproofing agent coating step of applying a synthetic waterproofing waterproofing agent having a permeable waterproofing function such as a primer mainly containing epoxy on the construction surface; When the primer is applied to the construction surface in the waterproofing agent applying process, it has a watertight waterproof function on the top of the primer, and the first ultra-lightweight to apply the first ultra-light mortar mixed with cement and lightweight aggregate to a thickness of 1.0 to 2.0 [mm]. Mortar coating process; A carbon fiber lamination step of laminating carbon fibers for suppressing cracks in the construction surface when the first ultralight mortar is coated in the first ultralight mortar process; When the carbon fiber is laminated in the carbon fiber lamination process, the second ultra-light mortar coating process of applying a second ultra-light mortar of the same component as the first ultra-light mortar with a thickness of 1.0 ~ 2. 0 [mm] on the carbon fiber and; When the second ultra-light mortar is applied in the second ultra-light mortar coating process, a surface coating agent such as a silice top coat for smoothing the surface exposed to the outside on the second ultra-light mortar 0. 08 ~ 0.1 Multi-layer composite waterproof construction method comprising a surface coating step of applying a thickness [mm]