KR101273356B1 - Method and structure for complex sheet waterproof using insulation non-woven fabric - Google Patents

Abstract

The present invention is tailored to the national policy aiming at low carbon green growth, and in particular, it is possible to secure both waterproof and insulation functions through a single construction on a construction surface such as a building, thereby reducing air and reducing construction costs. The present invention relates to a composite sheet structure using an insulating non-woven fabric and a composite sheet waterproofing method using the same, which are excellent in durability of the composite sheet structure and thus prevent deformation and damage caused by external conditions such as heat or impact after construction. The composite sheet structure using the insulating nonwoven fabric of the nonwoven fabric sheet layer having a heat insulating function, the nonwoven fabric sheet layer is coated on the nonwoven fabric sheet layer, the inorganic coating waterproofing layer having a kitchen water function and adhesive function, and the inorganic coating waterproofing layer on one side thereof It is coated on the glass fiber layer (glass fiber) and the glass fiber layer (glass fiber) to be bonded and laminated, It is characterized in that it comprises a solvent-free urethane waterproofing layer having a water function, and an acrylic resin coating layer coated on the solvent-free urethane waterproofing layer.

Description

Composite sheet structure using insulation nonwoven fabric and composite sheet waterproofing method using the same {Method and structure for complex sheet waterproof using insulation non-woven fabric}

The present invention is tailored to the national policy aimed at low carbon green growth, by installing a waterproof sheet on the roof as well as a heat-insulating function to alleviate urban heat island and reduce carbon dioxide (CO ₂ ) generation by reducing heating and cooling costs The present invention relates to a composite sheet structure using an insulating nonwoven fabric having a function, and a composite sheet waterproofing method using the same.

In addition, the present invention can ensure both waterproof and insulation functions in one construction, especially in the construction surface such as buildings, thereby reducing the air and reducing the construction cost, and excellent durability of the composite sheet structure after construction The present invention relates to a composite sheet structure using an insulating nonwoven fabric which can be easily prevented from being deformed or damaged by external conditions such as heat or impact, and a composite sheet waterproofing method using the same.

As a construction method for waterproofing a building, a waterproofing method of applying various waterproofing agents to the waterproofing construction surface is widely used.

However, such a conventional waterproof method is usually focused on providing a waterproof function, in order to ensure the insulation, the waterproof construction should be performed after the insulation.

As a result, in the related art, double construction is required for waterproofing and thermal insulation, and accordingly, the air is lengthened by separate waterproof construction and insulation construction, and the construction cost also increases. In addition, no matter how good the basic insulation is done, it is impossible to guarantee complete insulation, so it is not possible to completely block the heat from the cold of winter or the heat of summer.

In other words, the waterproofing method is required to reduce the cooling and heating costs and contribute to reducing the amount of carbon dioxide emitted into the air because it gives not only a waterproof effect on the roof but also an insulation effect.

Therefore, an object of the present invention is to provide a composite sheet structure using a non-insulating non-woven fabric to ensure both waterproof and heat insulating function through a single construction.

In addition, it is an object of the present invention to provide a composite sheet structure using a non-insulating nonwoven fabric that can be carried out at the same time in a single construction of waterproof construction and thermal insulation construction.

In addition, an object of the present invention is to provide a composite sheet structure using a non-insulating nonwoven fabric that is excellent in durability and can be well prevented deformation and damage caused by external conditions such as heat or impact.

In addition, an object of the present invention is to provide a waterproofing method using a composite sheet structure that can be carried out at the same time through a single construction by a composite sheet structure using a non-insulating nonwoven fabric.

In order to achieve the above object, the composite sheet structure using a non-insulating nonwoven fabric according to the present invention, the non-woven fabric sheet layer having a heat insulating function, the inorganic coating waterproofing layer having a kitchen water and an adhesive function coated on the non-woven fabric sheet layer, A glass fiber layer laminated on one side of the inorganic coating waterproofing layer by laminating, and a solvent-free urethane waterproofing layer coated on the glass fiber layer, providing a waterproof function, an appearance color function, and a gloss function, and the solventless urethane. It is characterized in that it comprises an acrylic coating layer to protect the gloss of the waterproofing agent layer, to prevent discoloration, and to prevent scratching.

In addition, the nonwoven fabric sheet layer is formed of a nonwoven fabric containing 30 to 40% cotton, 30 to 40% cellulose, 20 to 30% polyester, the thermal conductivity of the nonwoven fabric is 0.034 Kcal / mh ℃, thickness of 6 mm or more Characterized in that formed.

In addition, the inorganic coating waterproof layer is a water-soluble acrylic emulsion resin (property: glass transition temperature (Tg) -10 ± 3 ℃, solid content 40% by weight, viscosity 2500 ± 500cps) 30-35% by weight, Portland cement 15-25 weight %, Silica sand No. 6, 30-40% by weight, thermal conductivity 0.0560Kcal / mh ° C, 2 ~ 8% by weight of ceramic additive with particle size of 20 ~ 300㎛, 0.3 ~ 1% by weight of fluidizing agent, 10-15% by weight of water It is formed of an inorganic coating waterproofing agent, characterized in that the coating amount of the inorganic coating waterproofing agent is 1300 ~ 1500g / ㎡.

In addition, the glass fiber layer is formed of a glass fiber fabric sheet formed by weaving glass roving (glass roving), characterized in that the weight of the glass fiber fabric sheet is 300 ± 20g / ㎡.

In addition, the solvent-free urethane waterproofing layer is formed in a two-component type consisting of a main material and a curing agent, the main material is 35-40% of a branched polyether-polyester polyol, 30-50% filler potassium bicarbonate, pigment 3 to 10%, antifoaming agent 0.1 to 0.5%, sunscreen 0.1 to 0.3%, curing agent 4.4, diphenyl methane diisocyanate (MDI) is formed including 15 to 20%, characterized in that the coating amount is 500 ~ 800g / ㎡ do.

In addition, the acrylic coating layer, (3: 7) by mixing the product of the solvent-type acrylic resin glass transition temperature (Tg) of 56 ± 5 ℃ and the product of glass transition temperature (Tg) of 1 ± 3 ℃ (3: 7) Combine 0.1 to 0.3% of the blocking agent Tinubin 296. The coating amount of the solvent-type acrylic coating is characterized in that 80 ~ 100g / ㎡.

In addition, the composite sheet waterproofing method according to the present invention, the step of laminating a non-woven fabric sheet layer having a thermal insulation function on the base surface, the step of coating the inorganic coating waterproof layer of the kitchen water and adhesive function on the non-woven fabric sheet layer, the inorganic One surface of the glass fiber layer is bonded to the coating film waterproofing layer so that the glass fiber layer of the inorganic coating waterproofing layer is laminated, and the solvent-free urethane waterproofing layer of waterproof, appearance color, gloss function is coated on the glass fiber layer. And, it characterized in that it comprises a step of coating the acrylic resin coating layer for protection through the gloss protection, discoloration and scratch prevention on the solvent-free urethane waterproofing layer.

In addition, the nonwoven fabric sheet layer is characterized in that the base layer is laminated with a thickness of 6mm or more.

In addition, lamination of the inorganic coating waterproof layer of the nonwoven fabric sheet layer is made by applying an inorganic coating waterproofing agent of 1300 ~ 1500g / ㎡, lamination of the inorganic film waterproofing layer of the glass fiber layer is a glass fiber fabric sheet It is made by laminating at a weight of 300 ± 20g / ㎡, lamination of the solvent-free urethane waterproofing layer to the glass fiber layer is made by applying a solvent-free urethane waterproofing agent to 500 ~ 800g / ㎡, the solvent-free urethane of the acrylic resin coating layer Lamination to the waterproofing agent layer is characterized in that it is made by applying a solvent type acrylic resin coating agent at 80 ~ 100g / ㎡.

According to the present invention, it is possible to secure both the waterproof function and the thermal insulation function through a single construction for the construction surface such as a building.

In addition, the waterproof construction and insulation construction on the construction surface, such as buildings can be performed at the same time in a single construction, resulting in shortening the air and reducing the construction cost.

In addition, since the composite sheet structure constructed on the construction surface such as buildings is excellent in durability, deformation and damage due to external conditions such as heat or impact can be well prevented.

In addition, the present invention provides a waterproof method using a composite sheet structure capable of simultaneously performing waterproof construction and insulation construction through a single construction by the composite sheet structure using a non-insulating nonwoven fabric.

1 is a view illustrating a configuration of a composite sheet structure using a non-insulating nonwoven fabric according to an embodiment of the present invention
Figure 2 is a view showing a test report of a composite sheet structure using a non-insulating nonwoven fabric according to an embodiment of the present invention
Figure 3 is a flow chart showing the construction process of the composite sheet waterproofing method according to an embodiment of the present invention

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

1 is a view illustrating a configuration of a composite sheet structure using a non-insulating nonwoven fabric according to an embodiment of the present invention.

As shown, the composite sheet structure (100: hereinafter referred to as composite sheet structure) using a heat insulating non-woven fabric according to an embodiment of the present invention, the nonwoven fabric sheet layer 110, inorganic coating waterproofing layer 120, glass fibers The layer 130 is formed, including the solvent-free urethane waterproofing layer 140, the acrylic resin coating layer 150. That is, in the composite sheet structure 100, the inorganic film waterproofing layer 120, the glass fiber layer 130, the solvent-free urethane waterproofing layer 140, and the acrylic resin coating layer 150 sequentially start from the nonwoven fabric sheet layer 110. It is stacked to form.

The nonwoven sheet layer 110 serves to make the composite sheet structure 100 have heat insulation, and the inorganic coating waterproof layer 120 serves as a kitchen water layer of the composite sheet structure 100. In addition, the glass fiber layer 130 may function to prevent deformation through reinforcing strength of the composite sheet structure 100. In addition, the solvent-free urethane waterproofing layer 140 has a waterproof function and the function of making the appearance of the composite sheet structure 100 beautiful, the acrylic resin coating layer 150 is UV blocking (discoloration) of the composite sheet structure 100, Protects against gloss and scratches.

Next, each layer forming the composite sheet structure 100 will be described in more detail.

The nonwoven sheet layer 110 imparts thermal insulation to the composite sheet structure 100, whereby the composite sheet structure 100 has a thermal insulation function. In addition, the nonwoven fabric sheet layer 110 serves as a central substrate of the inorganic coating waterproof layer 120 by the inorganic coating waterproofing agent. The nonwoven sheet layer 110 is formed of a nonwoven fabric containing 30 to 40% cotton, 30 to 40% cellulose, and 20 to 30% polyester, and the thermal conductivity of the nonwoven fabric is 0.034 Kcal / m.h. In addition, the nonwoven sheet layer 110 is formed to a thickness of 6 mm or more, the thickness of the nonwoven sheet layer 110 can impart good thermal insulation to the composite sheet structure 100 and at the same time serves as a central substrate of the inorganic coating waterproofing agent. It corresponds to a thickness sufficient to be.

The inorganic coating waterproofing layer 120 is formed by applying an inorganic coating waterproofing agent to one surface of the nonwoven fabric sheet layer 110, and the inorganic coating waterproofing layer 120 forms a kitchen water layer of the composite sheet structure 100, and has adhesive strength. Thus, the glass fiber layer 130 functions to adhere to one surface thereof. In addition, the inorganic coating waterproofing agent forming the inorganic coating waterproofing layer 120 is water-soluble acrylic emulsion resin (property: glass transition temperature (Tg) -10 ± 3 ℃, solid content 40% by weight, viscosity 2500 ± 500cps) 30 ~ 35 weight %, Portland Cement 15 ~ 25%, Silica Sand Co., Ltd. 30 ~ 40% by weight, Thermal conductivity 0.0560Kcal / mh ° C, 2 ~ 8% by weight of ceramic additive with particle size 20 ~ 300㎛, Fluidizing agent 0.3 ~ 1% by weight It is formed, including 10 to 15% by weight of water. Here, the composition quality and the mixing ratio of the inorganic coating waterproofing agent are numerical values satisfying the condition that the composite sheet structure 100 has flexibility. In addition, the inorganic coating waterproofing layer 120 has a coating amount of 1300-1500 g / m 2 of inorganic coating waterproofing.

The glass fiber layer 130 is formed by bonding a relatively thick glass fiber fabric sheet formed by weaving glass roving to one surface of the inorganic film waterproofing layer 120 through an adhesive force of the inorganic film waterproofing agent. Accordingly, the glass fiber layer 130 functions to reinforce strength and prevent deformation of the composite sheet structure 100. And, the glass fiber layer 130 has a weight of 300 ± 20g / ㎡ the glass fiber fabric sheet.

Solvent-free urethane waterproof layer 140 provides a waterproof function and the appearance function, such as color, gloss of the composite sheet structure (100).

The solvent-free urethane waterproofing layer 140 is formed by applying a solvent-free urethane waterproofing agent on one surface of the glass fiber layer 130, and the solventless urethane waterproofing agent is formed in a two-component type consisting of a main agent and a curing agent. Here, the subject is a branched polyether-polyester polyol 35-40%, potassium bicarbonate 30-50%, pigment 3-10% defoamer 0.1-0.5%, sunscreen 0.1-0.3%, curing agent 4.4, Diphenyl methane diisocyanate (MDI) 15-20%. The solvent-free urethane waterproofing layer 140 has a solvent-free urethane coating amount of 500 to 800 g / m 2.

The acrylic resin coating layer 150 is formed by applying a solvent-type acrylic resin coating on one surface of the solvent-free urethane waterproofing layer 140, the acrylic resin coating layer 140 is to provide a discoloration prevention function, gloss through UV protection It protects against damages such as functions and scratches. The acrylic resin coating layer 150 is mixed with a product having a solvent type acrylic resin glass transition temperature (Tg) of 56 ± 5 ° C. and a product having a glass transition temperature (Tg) of 1 ± 3 ° C. (3: 7). 0.1 to 0.3% of a sunscreen, Tinubin 296, is added.

In addition, the coating amount of the solvent type acrylic resin coating agent is 80-100 g / m <2> in an acrylic resin coating layer.

2 is a view showing a test report of a composite sheet structure using a non-insulating nonwoven fabric according to an embodiment of the present invention.

FIG. 2 shows the properties of the composite sheet structure 100 in terms of tensile strength and elongation, and compares the properties of the waterproof sheets having different structures from Sample A to Sample D. FIG. Here, the test method is based on KS F4917.

Here, Sample A is an insulating nonwoven fabric, Sample B is a form in which an inorganic coating waterproofing agent is applied to the insulating nonwoven fabric, and Sample C is a form in which an inorganic coating waterproofing agent and a solventless urethane waterproofing layer are sequentially laminated on the insulating nonwoven fabric. In addition, Sample D is a composite sheet structure according to an embodiment of the present invention composed of a nonwoven fabric sheet layer, an inorganic coating waterproof layer, a glass fiber layer, a solvent-free urethane waterproof layer, an acrylic resin coating layer.

According to the test results, the composite sheet structure 100 according to the embodiment of the present invention has a tensile strength of 78.7 (N / mm ² ) and an elongation of 9%.

 It can be seen that the composite sheet structure 100 according to the embodiment of the present invention has sufficient and excellent tensile performance that can be used as a waterproof sheet.

Therefore, by the composite sheet structure 100 according to an embodiment of the present invention, through the one-time construction of the composite sheet structure 100 for the construction surface, such as buildings it is possible to secure both waterproof and thermal insulation function.

In addition, it is possible to shorten the air required for waterproof construction and in addition to the insulation construction and to reduce the construction cost.

In addition, since the composite sheet structure 100 constructed on the construction surface such as buildings is excellent in durability including tensile strength and elongation, deformation and damage due to external conditions such as heat or impact can be well prevented.

Figure 3 is a flow chart showing the construction process of the composite sheet waterproofing method according to an embodiment of the present invention.

As shown, the composite sheet waterproofing method, first, laminating the non-woven sheet layer 110 of the thermal insulation function on the base surface 160. At this time, the nonwoven fabric sheet layer 110 is laminated to a thickness of 6 mm or more.

Next, an inorganic coating waterproofing agent is coated on one surface of the nonwoven fabric sheet layer 110 to stack the inorganic coating waterproofing layer 120. Here, the inorganic coating waterproofing agent coating amount of the inorganic coating waterproofing layer 120 is 1300-1500 g / m <2>.

Next, the glass fiber layer 130 is laminated on one surface of the inorganic coating waterproofing layer 120. Here, the glass fiber layer 130 is made of a glass fiber fabric sheet formed by weaving glass roving, and the glass fiber fabric sheet is bonded through the adhesive force of the inorganic coating waterproofing agent to form the glass fiber layer 130. do. Here, the weight of the glass fiber fabric sheet forming the glass fiber layer 130 is 300 ± 20g / ㎡.

Next, a solvent-free urethane waterproofing agent is coated on one surface of the glass fiber layer 130, the solvent-free urethane waterproofing layer 140 is laminated. Here, the coating amount of the solventless urethane waterproofing agent which forms the solventless urethane waterproofing layer 140 is 500-800 g / m <2>.

Finally, as the acrylic coating layer 150 is laminated on one surface of the solventless urethane waterproofing layer 140, the acrylic coating layer 150 is formed by coating a solvent-type acrylic coating on one surface of the solventless urethane waterproofing layer 140. . Here, the coating amount of the solvent type acrylic coating agent for forming the acrylic coating layer 150 is 80 ~ 100g / ㎡.

What has been described above is just one embodiment for carrying out the composite sheet structure and the composite sheet waterproofing method using the insulating nonwoven fabric according to the present invention, the present invention is not limited to the above embodiment, the following claims As claimed in the scope of the present invention, those skilled in the art to which the present invention pertains will have the technical spirit of the present invention to the extent that various modifications can be made.

100: composite sheet structure 110: non-woven sheet layer
120: inorganic coating waterproof layer 130: glass fiber layer
140: solvent-free urethane waterproofing layer 150: acrylic resin coating layer
160: ground floor

Claims (9)

Preparing a mixture A by mixing a polystyrene-acrylate copolymer, thiophene, acene, aniline, methylmethacrylate and an unsaturated polyester;
Preparing a mixture B by mixing modified silicone fluoride and unsaturated polyester;
Adding the mixture A and the mixture B to ultrapure water or a vegetable oil mixture, and then polymerizing in the presence of a solvent and a catalyst to prepare a polymer;
Synthesizing a conductive polymer by adding aluminum oxide and calcium hydrate to the polymer;
Preparing a crystallized conductive polymer by dropping the conductive polymer into an azeotrope in which isopropyl alcohol and ethyl alcohol are mixed at a volume ratio of 20:80 (volume ratio);
In the crystallized conductive polymer, an initiator, a photosensitizer, a mixture of two or more selected from the group consisting of styrene / acrylate / methylmethacrylate / polyethyl-propyloxide, a modified silicone / fluoro copolymer, an electrochromic material and an inorganic substance Adding to prepare an electromagnetic conductive polymer particle;
Preparing a photocured dispersion master solution A containing the electromagnetic conductive polymer particles;
Milling and dispersing the photocured dispersion master solution A; And
Mixing a polymer, a photocuring monomer, a photoinitiator, and a free radical initiator with the dispersed photocurable dispersion master solution A, and performing fine filtration; And the electrochromic material is a mixture of two or more selected from the group consisting of spirazole / eosin / polythiophene / acene / aniline. The method of claim 1, wherein the nonwoven sheet layer,
Insulation is formed of a nonwoven fabric containing 30 to 40% cotton, 30 to 40% cellulose, 20 to 30% polyester, the thermal conductivity of the nonwoven fabric is 0.034 Kcal / mh ℃, characterized in that formed to a thickness of 6 mm or more Composite sheet structure using nonwoven fabric. The method of claim 1, wherein the inorganic coating waterproofing layer,
Water-soluble acrylic emulsion (property: glass transition temperature (Tg) -10 ± 3 ℃, solid content 40% by weight, viscosity 2500 ± 500cps) 30-35% by weight, Portland cement 15-25% by weight, silica sand 6-40-40% %, Thermal conductivity of 0.0560 Kcal / mh ° C. and a particle size of 20 to 300 μm, including 2 to 8 wt% of a ceramic additive, 0.3 to 1 wt% of a fluidizing agent, and 10 to 15 wt% of water. Composite sheet structure using an insulating non-woven fabric, characterized in that the coating amount is 1300 ~ 1500g / ㎡. The method according to claim 1,
Preparing a mixture C by mixing the photocurable dispersion master solution with an ultrapure water or vegetable oil mixture and a surfactant;
To the mixture C, a polythiophene phosphonate-methyl methacrylate-modified unsaturated polyester copolymer polymer or a polystyrene phosphonate-methyl methacrylate-modified unsaturated polyester copolymer polymer, a modified fluorinated silicone polymer and an electromagnetic conductive polymer are added To prepare a polymer dispersion solution; And
The method of manufacturing a photocurable ink composition for an electronic material or an electrical material, characterized in that it is prepared by the method comprising the steps of adding and dispersing electromagnetic conductive polymer particles to the polymer dispersion solution while stirring. The method of claim 1, wherein the photocurable ink composition for an electronic or electrical material is 14 to 28% by weight of the photocurable dispersion master solution A, 60 to 80% by weight of water or vegetable oil mixture, 0.1 to 1 pH of the total composition % By weight, 3 to 6% by weight of the photocuring monomer, 0.1 to 1% by weight of the surface tension regulator, 0.1 to 1% by weight at least one selected from the group consisting of photoinitiator, thermal initiator and free radical initiator, 0.1 to 5% by weight sensitizer , 0.1-1% by weight collecting agent, 0.1-1% by weight stabilizer, 0.1-1% by weight of antifoaming agent and 0.5-1% by weight of moisturizing agent. The method of claim 1,
The acrylic coating agent layer,
As a solvent type acrylic resin, a product with a glass transition temperature (Tg) of 56 ± 5 ° C and a product having a glass transition temperature (Tg) of 1 ± 3 ° C are mixed in a weight ratio (3: 7), and the sunscreen agent 0.1 ~ 0.3 The composite sheet structure using a heat insulating non-woven fabric is formed of a solvent-type acrylic resin coating agent blended by weight%, the coating amount of the solvent-type acrylic resin coating agent is 80 ~ 100g / ㎡. Laminating a nonwoven sheet layer having a thermal insulation function to the base surface;
Coating an inorganic coating waterproofing layer having a kitchen water function and an adhesive function on the nonwoven fabric sheet layer;
Attaching one surface of the glass fiber layer to the inorganic coating waterproofing layer so that the glass fiber layer of the inorganic coating waterproofing layer is laminated;
Coating a waterproof solvent-free urethane waterproofing layer on the glass fiber layer;
Waterproofing method using a composite sheet structure comprising the step of coating an acrylic resin coating layer on the solvent-free urethane waterproofing layer. The method of claim 7, wherein
The non-woven fabric sheet layer is a waterproof method using a composite sheet structure, characterized in that the thickness of the non-woven fabric is more than 6mm laminated on the base layer to 300 ± 20g / ㎡ or more. The method of claim 7, wherein
Lamination of the inorganic coating waterproofing layer of the nonwoven fabric sheet layer is made by applying an inorganic coating waterproofing agent of 1300 ~ 1500g / ㎡, lamination of the inorganic coating waterproofing layer of the glass fiber layer weighs 300 glass fiber fabric sheet It is made by lamination to ± 20g / ㎡, the lamination to the glass fiber layer of the solvent-free urethane waterproofing layer is made by applying a solvent-free urethane waterproofing agent to 500 ~ 800g / ㎡, to the solvent-free urethane waterproofing layer of the acrylic coating layer Lamination is a waterproof method using a composite sheet structure, characterized in that the coating is made of a solvent type acrylic coating at 80 ~ 100g / ㎡.

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