KR101112010B1 - Construction method of the outer wall for forming waterproof and insulation layer - Google Patents

Abstract

PURPOSE: An insulator construction method using fire-resistant urethane foam boards and polyurea are provided to prevent rainwater staying and the accumulation of deposits. CONSTITUTION: An insulator construction method using fire-resistant urethane foam boards and polyurea is as follows. The bottom layer(10) of a roof structure is suface-processed. Urethane foam boards are attached with an adhesive on the processed bottom layer in whole to form an insulation layer(20). An urethane waterproof material mixed with micro-particle type silicon is spread on the insulation layer to remove pin holes of the urethane foam board and form a first waterproof layer(30) with a smooth surface. Rapid hardening polyurea resin is spread on the first waterproof layer to form a second waterproof layer(40).

Description

Insulation waterproof construction method using flame retardant urethane foam board and polyurea {Construction method of the outer wall for forming waterproof and insulation layer}

The present invention relates to a technology for constructing a heat-insulating waterproof layer of a roof structure, and more particularly, after forming a primary waterproof layer through a urethane waterproofing agent on a urethane foam board, it is applied to the bottom surface to form a thermal insulation layer, poly on the thermal insulation layer The present invention relates to a heat-resistant waterproof construction method using a flame-retardant urethane foam board and polyurea to form a protective layer to protect the waterproof layer while applying a urea resin to form a secondary waterproof layer.

In general, in the case of the insulation waterproof construction method using a urethane foam board, to obtain a flat surface during the construction of the urethane foam board, skilled skills are required, which requires many years of experience and skill, nevertheless It is very difficult to get a smooth surface.

Accordingly, when the urethane foam board is installed on the bottom surface, water is accumulated on the surface where severe unevenness occurs, or foreign matters accumulate and rot frequently, and the waterproof layer is damaged and the rainwater is infiltrated.

In addition, there is a method of insulating and waterproofing by installing a waterproof sheet on the urethane foam board, which has a disadvantage in that the connection part of the sheet waterproof layer is aging and the connection between the sheets is opened after a long time.

Accordingly, in order to make a waterproof layer having a smooth surface according to the inclined gradient of a roof structure, a polyurea resin is applied on a urethane foam board in order to prevent the rainwater from accumulating and to prevent unnecessary deposits from accumulating on the roof and to prevent damage to the waterproof layer. However, since the urethane foam board has a porous material property, when the polyurea resin is directly applied thereon, the polyurea resin partially penetrates into the gap of the porous material and is cured by a super-speed mirror, as shown in the accompanying drawings. Pinholes (holes) are inevitably generated, and accordingly, in the past, a myriad of pinholes were generated in the waterproofing layer, making it difficult to produce a waterproof layer having a uniform and smooth thickness.

Therefore, the present invention is to improve the conventional problems as described above, by mixing the silica sand in the form of fine particles in the urethane waterproofing agent and then applied to the urethane foam board, the urethane foam board is constructed on the roof structure to form a heat insulating layer By applying a urethane waterproofing agent mixed with silica sand to the insulation layer to block the pinhole caused by the porous material properties of the urethane foam board to make a smooth ring surface to form a primary waterproof layer, thereby forming a urethane foam having a primary waterproof layer When forming a secondary waterproofing film by applying polyurea resin to the board, the secondary waterproofing layer can be installed on a flat surface with a uniform thickness, while preventing rain from accumulating through the waterproofing layer with a smooth surface. Flame retardant to prevent damage to the waterproofing layer while preventing unnecessary deposits The purpose is to provide a waterproof insulation construction method using a urethane foam board and polyurea.

According to another object of the present invention, by forming a protective layer coated with a natural functional paint composition prepared by mixing a natural resin composition and a functional additive on the secondary waterproof layer, by blocking the inflow of oxygen or moisture into the waterproof layer. Furthermore, by minimizing the generation of static electricity, it prevents adhesion and penetration of various pollutants, and adds volcanic stone, diatomaceous earth, and clam shell powder with excellent self-cleaning effect and far-infrared / anion release effect to the paint composition itself. Another purpose is to keep the living environment on the roof where various facilities for relaxation are provided while allowing the natural substances to be naturally purified.

Insulation waterproof construction method using the present invention flame retardant urethane foam board and polyurea for achieving the above object, the first step of surface treatment of the bottom layer of the roof structure; A second step of forming a heat insulation layer by attaching the urethane foam board to the entire surface treated bottom layer; A third step of forming a primary waterproof layer having a smooth surface by applying a urethane waterproofing agent in which silicon in a particulate form is mixed on the insulating layer to block pinholes according to the porous material characteristics of the urethane foam board; And a fourth step of forming a second waterproof layer by applying an ultra-fast curing polyurea resin on the smooth primary waterproof layer. Including to proceed.

The method may further include removing latencies, pinholes, etc. using a waterjet and a power tool in the bottom layer of the roof structure in the first step; Reinforcing the crack state and leakage and water portions of the bottom layer of the concrete structure; And removing dust from the bottom layer of the roof structure using a vacuum cleaner and dried high pressure air. It will continue to include more.

In addition, the coating thickness of the primary waterproofing layer by the urethane waterproofing agent mixed with the silicon is in the range of 0.05 ~ 0.15mm.

In addition, the primary waterproof layer is to be applied at least once while maintaining a thickness of 0.5mm.

In addition, the second waterproof layer of the fourth step provides an ultra-fast curing polyurea resin in the form of a coating film composition, wherein the polyurea resin is a two-component type containing an isocyanate prepolymer as an A component and a curing agent as a B component as a polyamine mixture. It consists of a coating material.

In addition, the thickness of the secondary waterproof layer is in the range of 1.5 ~ 2.0㎜, the hardness is measured by Shore A durometer should be 85 or more, the tensile strength is 200 ± 30kgf / ㎠, tear strength is 100 ± 15kgf / ㎝ , Elongation rate is configured to have a characteristic of 300% or more.

In addition, the second waterproof layer is a second protective layer made of a natural functional paint composition mixed with a natural resin composition to minimize the generation of static electricity to prevent the adhesion or penetration of various pollutants, and a functional additive for adsorbing and removing harmful substances in the air. It is a coating composition.

In addition, the natural resin composition is mixed with 25 to 35 parts by weight of linseed oil, 15 to 25 parts by weight of copper oil, 25 to 35 parts by weight of rosin, 15 to 25 parts by weight of soybean oil, the mixture is put in a stirrer 120 ~ 180 ℃ It is prepared by mixing while heating at a temperature of 2 to 4 hours, then aged for 12 to 36 hours at a temperature of 30 ~ 50 ℃.

In addition, the functional additive is prepared by mixing 15 to 30 parts by weight of silica, 15 to 30 parts by weight of clam shell powder, 10 to 20 parts by weight of diatomaceous earth, and 5 to 10 parts by weight of fluorine resin based on 20 to 40 parts by weight of volcanic stone. .

In addition, the natural functional coating composition is prepared by mixing and stirring 15 to 25 parts by weight of functional additives and 15 to 25 parts by weight of water (H 2 O) with respect to 50 to 60 parts by weight of the natural resin composition.

As described above, the present invention mixes the silica sand in the form of fine particles with a urethane waterproofing agent and then applies it to the urethane foam board. Through this, the urethane foam board is applied to the roof structure to form a thermal insulation layer. By blocking the pinholes generated by the porous material characteristics of the urethane foam board to make a smooth ring surface to form a primary waterproof layer, accordingly by applying a polyurea resin to the urethane foam board to form a primary waterproof layer secondary When forming the waterproofing layer, the secondary waterproofing layer can be constructed on a flat surface with a uniform thickness, and the waterproofing layer is damaged while preventing rain from accumulating through the waterproofing layer with the smooth surface, and preventing unnecessary deposits from accumulating on the rooftop. It can be expected to prevent the effect.

In addition, the present invention further comprises a protective layer coated with a natural functional paint composition prepared by mixing a natural resin composition and a functional additive on the secondary waterproof layer, thereby preventing the inflow of oxygen or moisture into the waterproof layer, Furthermore, it minimizes the generation of static electricity and prevents the adhesion or penetration of various pollutants, and adds volcanic stone, diatomaceous earth, clamshell powder, etc., which have excellent self-cleaning effect and far-infrared / anion releasing effect, to the paint composition itself. It is possible to expect the effect of keeping the living environment on the roof where various facilities for relaxation are provided while allowing the nature to be purified naturally.

1 is a schematic cross-sectional view showing a state of construction of a heat insulation waterproof layer of a rooftop structure according to an embodiment of the present invention.
Figure 2 is a photograph of the comparison between the conventional waterproof layer and the present invention waterproof waterproof layer.

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

Figure 1 is a schematic cross-sectional view showing a heat insulation waterproof layer construction state of the rooftop structure as an embodiment of the present invention, Figure 2 shows a comparative construction picture of the conventional waterproof layer and the heat insulation waterproof layer of the present invention.

That is, according to the heat insulation waterproofing layer construction method according to the embodiment of the present invention, after the surface treatment of the bottom layer 10 of the roof structure, the heat insulation layer 20 and the primary waterproof layer 30, and the secondary waterproof layer 40 in order. The first to the fourth step of forming a, and the fifth step of forming a protective layer (50).

The first step is to surface-treat the bottom layer 10 of the rooftop structure. The surface treatment removes the latencies, pinholes, and the like from the bottom layer 10 using a waterjet and a power tool, Reinforces the cracks and leaks and water, and removes dust using a vacuum cleaner and dried high pressure air in the bottom layer 10 to facilitate adhesion to the heat insulating layer 20 to the bottom layer 10. .

That is, in order to coat the bottom layer 10 in a waterproof manner, first, other foreign substances such as oil, salinity, moisture, and dust on the surface of the bottom layer 10 should be removed, and in the case of the oil, a diluent is used. To remove it.

The second step is to form a heat insulating layer 20 on the entire surface of the bottom layer 10, the forming of the heat insulating layer 20 is to continuously adhere and fix the urethane foam board cut to a predetermined size through an adhesive Will be.

The first waterproofing layer 30 of the third step is formed by applying in a form applied to the heat insulating layer 20, the primary waterproofing layer is a urethane waterproofing agent is mixed with silicon in the form of particulates.

That is, the silicon in the form of particulates mixed with the urethane waterproofing agent eliminates pinholes according to the material properties of the urethane foam board forming the thermal insulation layer 20 when the urethane waterproofing agent is applied onto the thermal insulation layer 20. This is to allow the waterproof layer 30 to be constructed in a smooth surface.

At this time, the mixing ratio of the urethane waterproofing agent and the silicon in the form of particulates forming the primary waterproofing layer 30 is measured by weight ratio, and after adding 1 part by weight of urethane waterproofing agent, 2.5 parts by weight of curing agent to 8 parts by weight of silicon in a mixing vessel. It is made by stirring sufficiently until the silicon is completely released by a power stirrer to a uniform liquid phase, and the mixture is sprayed onto the insulating layer 20 made of urethane foam board through a spray gun.

On the other hand, when forming a primary waterproofing layer 30 by coating a urethane waterproofing agent mixed with silicon as described above, the thickness is 0.5mm ~ 1.0mm can be installed more than one time, repainting after 1 day after construction And subsequent processes are possible.

On the other hand, forming the second waterproof layer 40 of the fourth step, is achieved by spraying the ultra-fast curing type polyurea resin on the primary waterproof layer 30 formed in the third step.

That is, the secondary waterproof layer 40 is to provide an ultra-fast curing polyurea resin in the form of a coating film composition, wherein the polyurea resin is a two-component type containing a isocyanate prepolymer as an A component and a curing agent as a B component as a polyamine mixture. The coating is to be coated.

Here, the use of the polyurea resin is an ultra-fast curing type resin, the high temperature and high pressure spray coating film can be dried within a few seconds, so that it is possible to walk within 5 minutes after construction, and the curing performance is excellent even at low temperature without being affected by temperature and humidity. This is because the workability is remarkably improved, and by applying the embossing effect on the surface of the primary waterproof layer 30 by adjusting the spraying angle during spray application, the sliding resistance and the friction noise can be minimized.

At this time, the two-component coating material is preferably installed on the primary waterproof layer 30 through a spray gun using a dedicated equipment, the thickness is in the range of 1.5mm ~ 2.0mm, the hardness is measured by Shore A durometer It should be 85 or more, tensile strength is 200 ± 30kgf / ㎠, tear strength is 100 ± 15kgf / ㎝, elongation is preferably configured to have a characteristic of 300% or more.

On the other hand, the protective layer 50 of the fifth step is a natural functional paint composed by mixing and stirring 15 to 25 parts by weight of functional additives, 15 to 25 parts by weight of water (H 2 O) with respect to 50 to 60 parts by weight of the natural resin composition It is formed by applying the composition.

That is, the natural resin composition is mixed with 25 to 35 parts by weight of linseed oil, 15 to 25 parts by weight of copper oil, 25 to 35 parts by weight of rosin, 15 to 25 parts by weight of soybean oil, and put the mixture in a stirrer 120 ~ 180 ℃ After mixing for 2 to 4 hours at the temperature of the mixture and then aged for 12 to 36 hours at a temperature of 30 to 50 ℃, the functional additive is composed of 15 to 30 parts by weight of silica, based on 20 to 40 parts by weight of volcanic stone , 15 to 30 parts by weight of clam shell powder, 10 to 20 parts by weight of diatomaceous earth, 5 to 10 parts by weight of fluororesin is mixed.

Accordingly, the protective layer 50 inherently blocks the inflow of oxygen or moisture into the first and second waterproof layers 30 and 40, and further minimizes the generation of static electricity, thereby adhering or infiltrating various pollutants. Of course, by adding volcanic stone, diatomaceous earth, clam shell powder, etc., which have excellent self-cleaning effect and far-infrared / anion releasing effect, the paint composition itself provides the effect of naturally purifying harmful substances in the air.

Looking at this in more detail, first check the spray equipment after confirming that the primary waterproof layer 30 is completely cured applied on the insulating layer 20 formed from the installation of the urethane foam board.

Here, confirming that the primary waterproof layer 30 is completely cured is to increase the adhesion of the coating material to the primary waterproof layer.

At this time, the coating work of the coating material must be performed at the dew point temperature or higher, and if there is moisture on the surface, it must be performed after removing moisture completely.

Next, after the main body and the curing agent constituting the two-component coating material is precisely fastened to the supply line, the air compressor is operated to spray the coating material on the primary waterproof layer 30.

At this time, the coating pressure according to the coating of the coating material is adjusted to 105 ~ 155kgf / ㎠, while maintaining the same discharge pressure of the two-component coating material and the discharge pressure of the curing agent to be made the coating construction, wherein the subject and Check the equipment if there is a difference of more than 10㎏f / ㎠ by pressure spraying of hardener.

Next, the second waterproof layer 40 is formed by spraying by dividing at intervals of several seconds to obtain a desired thickness while obtaining a thickness within a range of 0.1 mm to 0.2 mm through one spraying operation.

In this case, the thickness of 1mm or more at a time is to be careful because the swelling phenomenon of the coating material may occur.

The present invention is the surface treatment of the bottom layer 10 of the roof structure before forming the secondary waterproof layer 40 made of polyurea resin, which is a super fast curing resin, and then the insulating layer 20 made of urethane foam board and the primary waterproof layer ( It is formed in a state in which the 30 is formed in order, which is the secondary waterproof layer 40 in the state in which the pinhole generated in the thermal insulation layer 20 made of urethane foam board by the primary waterproof layer 20 is prevented. ) Is intended to be applied on a smooth surface, thereby maximizing the stability and superiority of the insulation and waterproof coating on the roof structure, and particularly having a smooth surface 1,2 as shown in FIG. Rainwater is not accumulated through the secondary waterproofing layers 30 and 40, as well as to prevent the secondary waterproofing layer 40 from being damaged while preventing unnecessary deposits from accumulating on the rooftop.

In addition, the present invention is to form a protective layer 50 on the secondary waterproof layer 40, the protective layer 50 with respect to 25 to 35 parts by weight of linseed oil, 15 to 25 parts by weight of copper oil, 25 rosin ~ 35 parts by weight, 15-25 parts by weight of soybean oil, mix the mixture into a stirrer while heating for 2 to 4 hours at a temperature of 120 ~ 180 ℃, then 12 to 36 hours at a temperature of 30 ~ 50 ℃ To prepare a natural resin composition by mixing for 20 to 40 parts by weight of volcanic stone, 15 to 30 parts by weight of silica, 15 to 30 parts by weight of clam shell powder, 10 to 20 parts by weight of diatomaceous earth to prepare a functional additive, 50 to 60 parts by weight of the prepared natural resin composition, 15 to 25 parts by weight of the functional additives, and 15 to 25 parts by weight of water (H 2 O) are mixed and stirred to prepare a natural functional paint composition on the secondary waterproof layer 40. It is formed by coating, and preferably the first 30 μm of the natural functional coating composition After coating with a thickness, and dried at room temperature for 2 to 5 hours, and then again to a 30㎛ thickness second.

Then, the protective layer 50 serves to prevent the penetration of all kinds of harmful substances that may adversely affect the first and second waterproof layer 30, 40, including oxygen, moisture from the outside, in particular Volcanic stone, diatomaceous earth, clam shell powder with excellent self-cleaning effect and far-infrared / anion release effect on the paint composition itself while preventing the adhesion or penetration of various pollutants by minimizing the generation of static electricity. And the like is added to naturally purify the harmful substances in the air.

It is to be understood that the present invention is not limited to the above-described preferred embodiments, but can be practiced in various ways without departing from the spirit of the present invention in various ways. If you can easily understand. If the implementation by such improvement, change, substitution or addition falls within the scope of the appended claims below, the technical spirit is also regarded as belonging to the present invention.

10; Floor
20; Insulation layer
30; Primary waterproof layer
40; 2nd waterproof layer
50; Protective layer

Claims (10)

A first step of surface treating the bottom layer of the rooftop structure;
A second step of forming a heat insulation layer by attaching the urethane foam board to the entire surface treated bottom layer;
A third step of forming a primary waterproof layer having a smooth surface by applying a urethane waterproofing agent in which silicon in a particulate form is mixed on the insulating layer to block pinholes according to the porous material characteristics of the urethane foam board; And,
A fourth step of forming a secondary waterproof layer by applying an ultra-fast curing polyurea resin on the smooth primary waterproof layer; Proceeds to
The primary waterproof layer is applied at least once while maintaining a thickness of 0.5 mm;
The thickness of the secondary waterproof layer is in the range of 1.5 ~ 2.0㎜, the hardness is measured by Shore A durometer should be 85 or more, the tensile strength is 200 ± 30kgf / ㎠, tear strength is 100 ± 15kgf / ㎝, elongation rate Has a characteristic of at least 300%;
The secondary waterproof layer includes a protective layer made of a natural functional paint composition which minimizes the generation of static electricity to prevent adhesion or penetration of various pollutants, and a natural functional paint composition mixed with a functional additive that adsorbs and removes harmful substances in the air; Thermal insulation waterproof construction method using a flame-retardant urethane foam board and polyurea, characterized in that the coating. The method of claim 1,
Removing the latencies, pinholes in the first layer of the roof structure using a waterjet and a power tool in the first step; Reinforcing the crack state and leakage and water portions of the bottom layer of the concrete structure; And removing dust from the bottom layer of the roof structure using a vacuum cleaner and dried high pressure air. Thermal insulation waterproof construction method using a flame retardant urethane foam board and polyurea, characterized in that further comprising. delete delete The method of claim 1,
The second waterproof layer of the fourth step is to provide a super-curable polyurea resin in the form of a coating film composition, wherein the polyurea resin is a two-component coating material comprising an isocyanate prepolymer as an A component and a curing agent as a B component as a polyamine mixture. Thermal insulation waterproof construction method using a flame-retardant urethane foam board and polyurea, characterized in that the configuration. delete delete The method of claim 1,
The natural functional paint composition is a flame-retardant urethane foam board and a poly, characterized in that the composition is mixed and stirred with respect to 50 to 60 parts by weight of the natural resin composition, 15 to 25 parts by weight of functional additives, 15 to 25 parts by weight of water (H 2 O) Thermal insulation waterproof construction method using urea. delete delete

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