KR20150075391A - Polyurethane Waterproofing Structure and Construction Method Using Thereof - Google Patents

Abstract

The present invention relates to a polyurethane film waterproofing structure and a construction method thereof. More specifically, the present invention relates to a polyurethane film waterproofing structure which implements excellent waterproofing performance with a simple structure, and an easy construction method using a polyester-based long fiber non-woven fabric which has excellent elongation properties, tear strength, and wear resistance in a polyurethane waterproofing construction process; has excellent bearing power between fibers as a reinforcing agent; and to a construction method thereof. The polyurethane film waterproofing structure comprises: a urethane primer layer; a polyurethane resin layer; a non-woven fabric sheet layer; and a connection layer.

Description

TECHNICAL FIELD [0001] The present invention relates to a waterproof structure for a polyurethane film,

More particularly, the present invention relates to a waterproof structure for a polyurethane film which can realize a waterproof performance with a simple structure and an easy construction method, and a method of constructing the waterproof structure.

Waterproofing works to form impermeable waterproof layer on the surface of the structure in order to prevent moisture from penetrating into the interior of the building, such as the roof, floor, underground parking lot, and joints of buildings. Depending on the part to be waterproofed and depending on the base material such as reinforced concrete and lightweight concrete, there is a slight difference in the structure and the construction method depending on the base state or the waterproof material. The most commonly used methods are asphalt waterproofing, sheet waterproofing, and film waterproofing. Recently, a complex waterproofing method suitable for the situation such as a combination of these and lamination has been applied.

The asphalt waterproofing method has been used for the longest time. However, since the asphalt sheet has been used recently because of the inconvenience during construction, the self-cracking of the waterproofing coating film still occurs due to the temperature difference.

The sheet waterproofing method is a method in which a synthetic rubber or the like is formed into a sheet having a certain thickness and width and adhered to a waterproof surface at a construction site to form a waterproof layer. Although this method is easy to implement necessary physical properties through various laminated structures in the production of sheets, it is convenient for construction, but it is difficult to construct complex parts, and it is difficult to achieve complete watertightness in the seam between seats, There is a problem that this is done manually.

On the other hand, there are several kinds of coating waterproofing methods depending on the type of materials, such as urethane waterproofing method. The urethane waterproofing method is a method of arranging the floor to be applied, applying the primer thereto, sufficiently penetrating the floor, drying the floor, applying liquid urethane resin to the floor surface, and forming a urethane coating film to waterproof the floor. This urethane waterproofing method is advantageous in that it can be adhered relatively easily to the lower surface of the concrete and has excellent elasticity so that waterproof performance can be maintained to some extent even against cracks in the floor. In addition, it is relatively easy to install in a narrow or complex area, it is possible to construct seamlessly, and it is relatively easy to repair.

However, it is difficult to fundamentally solve the cracks in the floor due to the close contact with the floor surface, and when the severe temperature change, water evaporation of the concrete, and cracking of the floor concrete occur largely, the swelling phenomenon may occur as in the sheet construction method. There is a problem that the coated urethane coating is damaged and continuously exposed. Particularly in places such as parking lots, there is a problem that the lifetime of the urethane coating is short due to repetitive loading, resulting in short waterproof life. In addition, since the coating liquid is applied in a liquid state in a work process and flowability is good, the thickness of the coating film may be uneven due to the curvature of the bottom surface, and the thickness of the coating film should be sufficiently formed.

Usually, a urethane waterproofing agent is applied on the primer and repeatedly applied to form a required thickness. In this case, a urethane waterproofing agent is first applied, a nonwoven fabric, glass fiber, etc. are laminated thereon and then a urethane waterproofing agent is applied It is also said. The nonwoven fabric and the like are used for the purpose of forming a thickness of a urethane waterproofing agent and a reinforcing material.

At present, the urethane waterproof layer or the reinforcing material layer can be used only when the requirement criteria are provided, and when they are used in a laminated manner, there is no criteria for collectively evaluating the laminated layers, It is used not without any sanction even though there may be a problem of peeling.

The main object of the present invention is to provide a waterproofing material which is excellent in stretchability, tear strength and abrasion resistance in a polyurethane waterproofing construction process, and is made of a polyester-based long-fiber nonwoven fabric having excellent fiber- And a method for constructing the polyurethane coating film waterproof structure.

In order to accomplish the above object, one embodiment of the present invention provides a urethane primer layer comprising: a urethane primer layer formed by applying a urethane primer on a base; A polyurethane resin layer formed by applying a polyurethane resin on the urethane primer layer; A nonwoven fabric sheet layer formed integrally with the polyurethane resin layer by impregnating the polyurethane resin of the polyurethane numerical layer with a polyester based long-fiber nonwoven fabric; And a joint layer formed at a joint portion between the nonwoven fabric sheet layers to improve watertightness between the nonwoven fabric sheet layer and the adjacent nonwoven fabric sheet layer.

In a preferred embodiment of the present invention, the polyester-based long-fiber nonwoven fabric may be characterized by having a tensile strength of 40 kgf / 5 cm or more (based on KS K 0520) and an elongation of 30% or more (based on KS K 0520).

In a preferred embodiment of the present invention, the thickness of the polyurethane resin layer is 1,000 to 2,000 mu m.

In a preferred embodiment of the present invention, the thickness of the nonwoven fabric sheet layer is 100 to 1,000 mu m.

In a preferred embodiment of the present invention, the joint layer comprises a urethane sealant filled between a nonwoven sheet layer and an adjacent nonwoven sheet layer, and a urethane film layer on which the thermoplastic urethane film is adhered .

In a preferred embodiment of the present invention, the composite waterproof structure further includes a cover layer formed by applying a polyurethane resin on the nonwoven fabric sheet layer and the jointing layer to improve the hermeticity and waterproofing efficiency .

In a preferred embodiment of the present invention, the thickness of the cover layer is 800 to 2,000 mu m.

Another embodiment of the present invention is directed to a method of forming a urethane primer comprising: (a) applying a urethane primer on a base to form a urethane primer layer; (b) applying a polyurethane resin on the urethane primer layer to form a polyurethane resin layer; (c) impregnating the polyurethane resin of the polyurethane resin layer with a nonwoven fabric sheet to form a nonwoven fabric sheet layer integrally formed with the polyurethane resin layer; And (d) forming a joint layer between the nonwoven fabric sheet layer and the adjacent nonwoven fabric sheet layer to improve the water tightness between the nonwoven fabric sheet layer and the adjacent nonwoven fabric sheet layer. .

In another preferred embodiment of the present invention, after the step (d), the step further comprises the step of applying a polyurethane resin on the nonwoven fabric sheet layer and the jointing layer to form a cover layer.

In another preferred embodiment of the present invention, in the step (d), the joint layer is formed by filling a urethane sealant between the nonwoven fabric sheet layer and the adjacent nonwoven fabric sheet layer, and then attaching a thermoplastic urethane film to the upper portion of the urethane sealer .

According to the present invention, the polyester-based waterproof layer is impregnated with the polyester-based long-fiber nonwoven fabric to form an integrated waterproof structure, so that the compatibility with the polyurethane waterproof layer is not good and the problem of peeling or tearing away from each other due to external force can be solved, It is excellent in adhesion strength and elongation and excellent in correspondence to the behavior of the base. It can not only ensure the uniform thickness of the waterproof layer but also the material of each layer is made of the same material, Performance can be realized.

1 is a schematic cross-sectional view of a waterproof polyurethane coating structure according to an embodiment of the present invention.
2 is a schematic cross-sectional view of a waterproof polyurethane coating structure according to another embodiment of the present invention.

Unless otherwise defined, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. In general, the nomenclature used herein is well known and commonly used in the art.

Throughout this specification, when an element is referred to as "including " an element, it is understood that the element may include other elements as well, without departing from the other elements unless specifically stated otherwise.

Throughout the present specification, the term "base surface" is a concept including the surface of a structure requiring formation of a waterproof layer such as a parking lot, a building, and the like. The structure and construction method include not only construction of a new waterproof layer, but also reinforcement of existing waterproof layer.

In one aspect, the present invention relates to a urethane primer layer formed by applying a urethane primer on a base surface; A polyurethane resin layer formed by applying a polyurethane resin on the urethane primer layer; A nonwoven fabric sheet layer formed integrally with the polyurethane resin layer by impregnating the polyurethane resin of the polyurethane numerical layer with a polyester based long-fiber nonwoven fabric; And a joint layer formed at a joint portion between the nonwoven fabric sheet layers to improve watertightness between the nonwoven fabric sheet layer and the adjacent nonwoven fabric sheet layer.

According to another aspect of the present invention, there is provided a process for producing a urethane primer, comprising the steps of: (a) applying a urethane primer on a substrate to form a urethane primer layer; (b) applying a polyurethane resin on the urethane primer layer to form a polyurethane resin layer; (c) impregnating the polyurethane resin of the polyurethane resin layer with a nonwoven fabric sheet to form a nonwoven fabric sheet layer integrally formed with the polyurethane resin layer; And (d) forming a joint layer between the nonwoven fabric sheet layer and the adjacent nonwoven fabric sheet layer to improve watertightness between the nonwoven fabric sheet layer and the adjacent nonwoven fabric sheet layer. .

The present invention intends to improve the polyurethane waterproofing method and improve the polyurethane film waterproofing structure. Although polyurethane coating waterproofing method has many advantages as mentioned above, it is difficult to fundamentally solve the cracks of the lower limb because it is a method in which the entire surface is closely adhered to the base surface, and a severe temperature change, moisture evaporation, If it occurs largely, the swelling phenomenon may occur as in the case of the sheet construction method, and the applied urethane coating film is damaged, and there is a problem that it is continuously exposed. These problems are caused by insufficient compatibility between layers, adhesion and elongation.

Accordingly, the present invention provides a polyurethane waterproofing layer (polyurethane resin layer) that is excellent in stretchability, tearing strength and abrasion resistance in a polyurethane waterproofing construction process, and is formed by impregnating polyester nonwoven fabric having excellent fiber- , And to compensate for the disadvantages of the liquid polyurethane coating film so that a complete waterproof performance is exhibited.

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

FIG. 1 is a schematic cross-sectional view of a waterproof polyurethane coating structure according to an embodiment of the present invention, and FIG. 2 is a schematic cross-sectional view of a waterproof polyurethane coating structure according to another embodiment of the present invention.

1, the composite waterproof structure according to the present invention includes a urethane primer layer 10, a polyurethane resin layer 20, a nonwoven sheet layer 30, and a joint layer 40.

A basic urethane primer is first applied to form a urethane primer layer 10 and then a liquid polyurethane resin is coated on the urethane primer layer 10 to form a urethane primer layer 10, Thereby forming a stratum 20 layer. At this time, before the polyurethane resin of the polyurethane resin layer is cured, a polyester-based long-fiber nonwoven fabric is embedded and impregnated, and the polyurethane resin is cured to form a nonwoven fabric sheet layer 30 integrated with the polyurethane resin layer. The joint portion between the nonwoven fabric sheet layer 30 and the neighboring nonwoven fabric sheet layer 30 may form a joint layer 40 to increase water tightness.

The urethane primer layer (10) has a function of applying a urethane primer to the base surface to strengthen the adhesion of the base surface (1) and the polyurethane resin layer simultaneously with the primary waterproof function. At this time, the urethane primer can be used without limitation as long as it is a conventional urethane primer. The thickness can be thinly applied by using a brush, roller, spray or the like as usual.

On the urethane primer layer, a polyurethane resin layer 20 and a nonwoven fabric sheet layer 30 are formed as described above. The polyurethane resin layer 20 is formed by applying a liquid polyurethane resin on a urethane primer layer. The application method can be used by a known method such as brush, roller, spray, etc., and the application process may be repeated one or more times as needed. This is to adjust the film thickness according to the characteristics of the construction site.

If the thickness of the polyurethane resin layer 20 is less than 1,000 탆, the polyester-based long-fiber nonwoven fabric may not be completely impregnated and the durability may be lowered. If the thickness is less than 2,000 탆 , It is not preferable from the viewpoint of cost.

The nonwoven fabric sheet layer 30 is formed by partially or completely impregnating the polyester-based long-fiber nonwoven fabric in the polyurethane resin layer before being cured. The nonwoven fabric sheet layer 30 can be integrated with the polyurethane resin layer 20 without any heterogeneity, The polyester-based long-fiber nonwoven fabric has excellent extensibility, tear strength and abrasion resistance, and can act as a reinforcing material for the polyurethane waterproof layer.

If the thickness of the nonwoven fabric sheet layer is less than 100 탆, the stretchability, tensile strength, and abrasion resistance of the nonwoven fabric sheet layer may deteriorate, and if the thickness of the nonwoven fabric layer layer exceeds 30 탆 There is no decrease in physical properties, but a problem that a polyurethane resin is consumed to impregnate the nonwoven fabric sheet layer may occur.

The polyester based long-fiber nonwoven fabric may be prepared by spinning and stretching one or more polyester polymers to form first and / or second polyester filament fibers having different thicknesses (cross-sectional outer diameter) or the same thickness, Thereby forming a filament fiber mixture in which the first and / or second polyester filament fibers are mixed to a predetermined content range. The formed filament fiber mixture is formed by laminating the filament fiber mixture in the form of a web by an open method according to a conventional manufacturing process of a nonwoven fabric and then thermally adhering the laminated filament fibers to each other in a web form to form a polyester- Can be produced.

The polyester-based long-fiber nonwoven fabric according to the present invention has a tensile strength of 40 kgf / 5 cm or more (measured on KS K 0520), an elongation of 30% or more (measured on KS K 0520) Is satisfied. If it is out of the above range, the durability of the waterproof structure is remarkably deteriorated due to the stretchability and the tensile strength deterioration.

The polyester-based long-fiber nonwoven fabric of the present invention is preferably 30 to 70% by weight of the first polyester filament fiber having an outer diameter of 70 to 120 탆 in cross-section calculated by the following formula (1) from the viewpoint of improvement in impregnability; And 30 to 70 wt% of a second polyester filament mixed with the first polyester filament fiber and a single layer and having a cross-sectional outer diameter smaller than the first polyester filament fiber by 15 to 55 mu m have.

[Equation 1]

Outer diameter of cross section of filament fiber =? X diameter of cross section of filament fiber (D)

The polyester-based long-fiber nonwoven fabric of the present invention may preferably be a polyester filament fiber having an outer diameter of 5 to 120 탆, which is calculated by the above-mentioned formula (1), from the viewpoint of improving the adhesive strength.

Here, the diameter (D) of the cross section of the filament fiber may be referred to as the diameter of the circular filament when the filament fiber has a circular cross section, and the filament fiber may have a cross section that is not a circular shape such as an ellipse or a polygon Can be referred to as the average value of the diameter of the cross section measured in various directions .

These polyester-based long-fiber nonwoven fabrics have a structure in which filament fibers are irregularly mixed, and spaces having small pores and spaces having relatively large pores are irregularly arranged on the nonwoven fabric. Therefore, It is excellent in impregnation property and air permeability and is well discharged of carbon dioxide (CO ₂ ) gas generated in the reaction of urethane resin.

As described above, when a polyester-based long-fiber nonwoven fabric having a certain size is impregnated into a polyurethane resin layer to form a nonwoven fabric sheet layer, a joint portion is formed between the nonwoven fabric sheet layer and the adjacent nonwoven fabric sheet layer, The watertightness is weak and it is difficult to achieve the complete watertightness. Accordingly, in the present invention, a joint layer 40 made of a homogeneous material and a polyurethane resin layer is formed at a joint portion between the nonwoven fabric sheet layers to improve the water tightness of the waterproof structure.

The joint layer 40 is formed by filling a urethane sealant 41 between the nonwoven fabric sheet layer 30 and the adjacent nonwoven fabric sheet layer 30 and by forming a urethane film layer 42 having a thermoplastic urethane film on the upper surface of the filled urethane sealer ).

The urethane sealant 41 allows the thermoplastic urethane film to be more firmly adhered, and any ordinary urethane sealant can be used without limitation. The thickness can be filled by using a spatula, a rubber spatula or the like as usual.

On the other hand, thermoplastic polyurethane refers to a linear polymer as a rubber elastic elastomer having a urethane bond in a molecular structure, which is an addition-reacted compound of an isocyanate and a polyol. It has high elasticity, mechanical stiffness, abrasion resistance, oil resistance, chemical resistance and cold resistance due to elasticity in the middle area between rubber and plastic. It is also easy to blend with other resins, so that they can be mixed with some other resins in the form of pellets, and a general thermoplastic resin molding machine can be used. Since it has such a property as an elastomer, it is not stained or cracked by any external force, and its usability or adhesiveness with a urethane sealant is very excellent. Therefore, even if a severe temperature change of the base surface, water evaporation, This change can be accommodated.

The thermoplastic urethane film in the present invention may include not only a 100% pure thermoplastic urethane film but also a film obtained by partially mixing other polyethylene or the like in the form of a pellet and the like, but it does not impair the compatibility with the polyurethane resin layer And it is possible to use the copolymer in a range that does not significantly deteriorate the elongation of the thermoplastic urethane film, and the use of the copolymer in such a range is within the technical scope of the present invention.

In addition, the thermoplastic urethane film in the present invention has an elongation of 450% or more, a tensile strength of 4 N / mm ² or more, and a Shore A hardness of 80 to 90 in an experiment based on KSF 3211. Since the thermoplastic urethane film usually satisfies the above conditions, the technical idea of the present invention is not ambiguous even though it does not limit the more specific characteristics.

2, the cover layer 50 is formed by coating a polyurethane resin of the same material on the nonwoven fabric sheet layer 30 and the joint layer 40 to improve the hermeticity and the waterproof efficiency, As shown in FIG. When the thickness of the cover layer is less than 800 탆, there is a problem that the hiding power of the lower layers is lowered. When the cover layer thickness is more than 2,000 탆, there is no problem in terms of physical properties, It is not economical.

The waterproof structure and construction method according to the present invention are simple in structure, easy in construction method, easy to construct a narrow or complex part, and have excellent durability and ease of maintenance.

Hereinafter, the present invention will be described in detail with reference to Examples, but the present invention is not limited by these Examples.

[Example 1-1]

0.3 kg / m ² of a urethane primer (KOLON, KUT-11) was applied on a concrete flat plate (100 cm × 100 cm × 7 cm) with a brush to form a urethane primer layer. After 2 hours, a polyurethane resin (manufactured by Kolon Industries KUT-80NT & KUT-82NT, liquid type) was coated with ² kg / m ² by roller, brush or the like. A polyester-based long-fiber nonwoven fabric (SPB L2200NW, manufactured by Kolon Industries, Ltd.) having a size of 50 cm x 50 cm x 0.6 cm was placed on the polyurethane resin before curing the polyurethane resin in the polyurethane resin layer, To form a polyurethane resin layer having a thickness of 1500 mu m and a nonwoven fabric sheet layer having a thickness of 600 mu m. At this time, the polyester based long-fiber nonwoven fabric has a tensile strength of 51 kgf / 5 cm (KS K 0520 measurement standard) and an elongation percentage of 39% (KS K 0520 measurement standard).

[Example 1-2]

A polyurethane waterproofing structure was formed in the same manner as in Example 1-1 except that a urethane sealant (KUR-300/303, manufactured by Kolon Industries, Ltd.) was injected between the nonwoven fabric sheet layer and the adjacent nonwoven fabric sheet layer, A thermoplastic urethane film (APEL, Astromer Film) was attached to seal the joint between the nonwoven fabric sheet layers to form a polyurethane waterproof structure.

[Examples 2-1 to 5-1]

A polyurethane waterproofing structure was formed in the same manner as in Example 1-1 except that the polyurethane waterproofing structure was formed to have a thickness of the polyurethane resin layer and the nonwoven fabric sheet layer shown in Table 1, respectively.

[Examples 2-2 to 5-2]

A polyurethane waterproof structure was formed in the same manner as in Example 1-2, and polyurethane waterproof structures were formed at the thicknesses of the respective layers shown in Table 1, respectively.

Polyurethane resin layer thickness (占 퐉) Nonwoven sheet layer thickness (탆) Urethane sealant thickness (탆) Thickness of thermoplastic urethane film (탆) Example 1-1 1500 600 - - Examples 1-2 1500 600 100 100 Example 2-1 1500 500 - - Example 2-2 1500 500 100 100 Example 3-1 1500 400 - - Example 3-2 1500 400 100 100 Example 4-1 1500 300 - - Example 4-2 1500 300 100 100 Example 5-1 1500 200 - - Example 5-2 1500 200 100 100

[Comparative Example 1-1]

0.3 kg / m ² of a urethane primer (KUT-11, manufactured by KOLON INDUSTRIES CO., LTD.) Was applied on a concrete flat plate (100 cm × 100 cm × 7 cm) with a brush to form a urethane primer layer. After 2 hours, (KUT-80NT & KUT-82NT, liquid type) (KOLON INDUSTRIAL CO., LTD.) Of 2 kg / m ² was applied with a brush to form a polyurethane resin layer having a thickness of 500 탆. Before the polyurethane resin of the polyurethane resin layer was cured, a 50 cm x 50 cm x 0.01 cm thermoplastic urethane film (APEL, Astromer Film) was laminated to form a urethane film layer having a thickness of 100 탆. On the urethane film layer, a polyethylene terephthalate film (Astroll, Kolon Industries, Ltd.) was laminated again to form a PET film layer having a thickness of 200 占 퐉.

[Comparative Example 1-2]

A waterproof structure was formed in the same manner as in Comparative Example 1-1 except that a thermoplastic urethane film (Astel Film Co., Ltd.) was attached between the PET film layer and the adjacent PET film layer to form a urethane film layer having a thickness of 100 탆 . A polyethylene terephthalate (PET) film (Astroll) was attached to the urethane film layer to form a PET film layer having a thickness of 200 탆. A polyurethane resin (manufactured by Kolon Industries, ), KUT-80NT & KUT-82NT (liquid type)) to form a polyurethane resin layer having a thickness of 1500 탆.

[Comparative Examples 2-1 to 5-1]

A polyurethane waterproof structure was formed in the same manner as in Comparative Example 1-1, and a waterproof structure was formed by the thickness of each layer described in Table 2, respectively.

[Comparative Examples 2-2 to 5-2]

A polyurethane waterproof structure was formed in the same manner as in Comparative Example 1-2, and a waterproof structure was formed by the thickness of each layer shown in Table 2, respectively.

Polyurethane resin layer thickness
(탆) Urethane film layer thickness
(탆) PET film layer thickness
(탆) Urethane film layer thickness
(탆) PET film layer thickness
(탆) Polyurethane resin layer thickness (占 퐉) Comparative Example 1-1 500 100 200 - - 1500 Comparative Example 1-2 500 100 200 100 200 1500 Comparative Example 2-1 500 150 150 - - 1500 Comparative Example 2-2 500 150 150 150 150 1500 Comparative Example 3-1 500 200 100 - - 1500 Comparative Example 3-2 500 200 100 200 100 1500 Comparative Example 4-1 500 250 50 - - 1500 Comparative Example 4-2 500 250 50 250 50 1500 Comparative Example 5-1 500 50 250 - - 1500 Comparative Example 5-2 500 50 250 50 250 1500

The waterproof structure formed by the above Examples and Comparative Examples was measured by the following method, and the results are shown in Table 3 below.

(1) Adhesive strength (N / mm ² ) measurement

The adhesive strength was measured using a Dolley tester (Elcomater F106) according to ASTM D4541.

(2) Elongation percentage (%) measurement

The extensibility was measured using a universal material tester (UTM Instron 5965) according to KS F 3211 standard.

(3) Workability measurement

In case of bubble or floating phenomenon in the waterproof structure, it was judged to be 'bad' when it was observed with the naked eye according to KS M 5000 standard. In case of no bubble or floating phenomenon, it was judged as 'good'.

Adhesion strength (N / mm ² ) Elongation (%) Workability Example 1-1 1.81 125 Good Examples 1-2 2.07 510 Good Example 2-1 1.78 123 Good Example 2-2 2.04 485 Good Example 3-1 1.75 124 Good Example 3-2 2.01 465 Good Example 4-1 1.74 115 Good Example 4-2 1.98 474 Good Example 5-1 1.69 121 Good Example 5-2 1.97 466 Good Comparative Example 1-1 1.47 70 Bad Comparative Example 1-2 1.51 74 Bad Comparative Example 2-1 1.51 85 Bad Comparative Example 2-2 1.54 89 Bad Comparative Example 3-1 1.50 88 Bad Comparative Example 3-2 1.54 89 Bad Comparative Example 4-1 1.49 95 Bad Comparative Example 4-2 1.52 96 Bad Comparative Example 5-1 1.52 50 Bad Comparative Example 5-2 1.56 54 Bad

As shown in Table 1, Examples 1 to 5 are superior to Comparative Examples 1 to 5 in adhesive strength, elongation, and workability.

Therefore, the polyurethane coating waterproofing structures of Examples 1 to 5 are formed by forming one integrated waterproof layer, excellent in adhesion strength and elongation, excellent in correspondence to the behavior of the base, and capable of ensuring a uniform thickness of the waterproof layer And at the same time, it is possible to improve the waterproof performance by completely sealing the weak portion.

Having described specific portions of the invention in detail, those skilled in the art will appreciate that these specific embodiments are merely preferred embodiments and that the scope of the invention is not limited thereby will be. It is therefore intended that the scope of the invention be defined by the claims appended hereto and their equivalents.

1:
10: Urethane primer layer
20: polyurethane resin layer
30: nonwoven fabric sheet layer
40: joint layer
41: urethane sealant
42: Thermoplastic urethane film
50: Cover layer

Claims (5)

A urethane primer layer comprising a urethane primer and formed on a substrate;
A polyurethane resin layer containing a polyurethane resin and formed on the urethane primer layer;
A nonwoven fabric sheet layer in which a plurality of polyester based long-fiber nonwoven fabric sheets are partially or entirely impregnated in the polyurethane resin layer; And
And a cover layer formed by applying a polyurethane resin on the nonwoven fabric sheet layer.
The nonwoven fabric sheet according to claim 1, further comprising a urethane sealant filled between the respective nonwoven fabric sheets to improve the watertightness at the joints between the nonwoven fabric sheets forming the nonwoven fabric sheet layer, Further comprising a joint layer formed of a thermoplastic urethane film,
Wherein the cover layer is formed by applying a polyurethane resin on the nonwoven fabric sheet layer and the jointing layer.
The polyurethane coating film waterproof structure according to claim 1 or 2, wherein the cover layer has a thickness of 800 to 2,000 mu m.
(a) applying and curing a urethane primer on a substrate to form a urethane primer layer;
(b) applying a polyurethane resin on the urethane primer layer, partially or wholly impregnating the nonwoven fabric sheet with the applied polyurethane resin, and then curing the polyurethane resin to form a polyurethane resin layer and a nonwoven fabric sheet layer step;
(d) applying a polyurethane resin on the nonwoven fabric sheet layer to form a cover layer.
5. The method of claim 4, wherein after step (b) and before step (d)
(c) a joint layer for improving watertightness is formed in a joint portion between the nonwoven fabric sheets forming the nonwoven fabric sheet layer, wherein the jointing layer is formed by filling a urethane sealant between the respective nonwoven fabric sheets forming the nonwoven fabric sheet layer Next, the method further comprises forming a thermoplastic urethane film on the upper portion of the urethane sealant and the upper edge of the nonwoven fabric sheet,
Wherein the step (d) comprises coating a polyurethane resin on the nonwoven fabric sheet layer and the jointing layer to form a cover layer.

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