KR20090131789A - The method for painting work of floor using incombustible material - Google Patents

Abstract

PURPOSE: A construction method of an environmentally-friendly floor material using noncombustible material can provide a floor material with more excellent compressive strength, adhesion, and abrasion resistance than the general self-leveling mortar. CONSTITUTION: A construction method of an environmentally-friendly floor material using noncombustible material is as follows. The oil including moisture is removed from the existing cement mortar base and the floor surface is smoothened. The adhesive force of the surface-treated floor is increased by coating water soluble polymer. A desired coating layer of about 1~30mm is formed on the undercoated floor. Contraction scales are formed in a grid of 3~10m interval on the coated floor for prevention of crack due to contraction, expansion, impact, and movement. A transparent or colored coating agent of inorganic noncombustible material is coated on the scale-formed floor 1~3 times.

Description

The method for painting work of floor using incombustible material}

The present invention relates to an environmentally friendly floor finishing material construction method using a nonflammable material, and more particularly, to an environmentally friendly floor finishing material construction method using a polymer base material, a polymer cement-based intermediate, an inorganic top coat coating agent.

In general, the floor is a structural member that is used more frequently with residents or users than the pillars, walls, etc., and should not be detrimental to the health of the person, and depending on the situation, high physical strength, chemical resistance, abrasion resistance, and adhesion performance. This is where a back is required.

Concrete that is used as a sphere on the floor is formed by hydration with cement, and has low chemical resistance such as acid resistance and chemical resistance, and low abrasion resistance due to its compact structure, which causes dust in the room, causing discomfort to residents. There are problems and disadvantages deteriorated by carbonic acid gas in the air. In order to supplement and improve these disadvantages and obtain a visual effect, a floor finishing material has been developed and applied.

As such, the flooring materials used to protect concrete concrete and for hygienic purposes have been increasing since the 1980s due to the explosive increase in the population density of the metropolitan area and the number of registered automobiles in Korea. It was to act as a factor to further promote.

Currently used floor finishes can be classified into organic finishes and inorganic finishes according to the main component.

The organic type is a product using epoxy or urethane resin. It is a polymer type that forms a cross-linking type at room temperature. It is manufactured as a petrochemical derived product, and has excellent texture and almost color as desired. It can also be given a non-slip function, and it is quick to dry and relatively easy to maintain after construction.

Due to these characteristics, the most commonly used flooring of building structures is organic, especially epoxy flooring. However, epoxy-based organic floor finishing materials may be peeled off due to heterogeneity with the weak and inorganic concrete floors, which are generally vulnerable to ultraviolet rays. As petrochemical derived products, raw material prices may be greatly affected by crude oil prices, and above all, volatile The fact that it contains organic compounds (VOC) has a harmful effect on the environment, and the market competitiveness is expected to be weakened in the future. In addition, since organic flooring materials such as epoxy are not non-combustible materials, there is a problem of emitting toxic gases in a fire, and thus a development of non-combustible floor finishing materials is required.

Currently, inorganic flooring materials are generally classified into powder hardeners, inorganic liquid hardeners, and polymer cement mortar.

Powder Hardner is made of abrasion-resistant materials such as iron, man-made silica sand, geumgang sand, and stone powder instead of sand, and is classified into products containing iron and products not containing.

Pigments are mixed to impart aesthetic appearance and mainly use inorganic pigments that are not discolored by UV light of Brown, Gray, Green, Blue series and have excellent alkali resistance.

Construction method is to be leveled after pouring concrete or mortar, and when the moisture is enough to touch the scaffold before it is hardened (after 2 ~ 3 hours after pouring), apply color hardner uniformly and finish with finisher.

Inexpensive price ratio It shows relatively good performance. As it is a unity flooring material that is installed on concrete surface, it is very durable without peeling or partial damage when the construction time is well matched, and it shows a lot of difference in performance and appearance according to the quality of construction. It is known.

However, structural cracks and hair cracks are more likely to occur, and as a result, dustproofing performance is relatively lowered and limited color is imparted.

Inorganic liquid hardener flow is silicon fluoride, magnesium (MgSiF ₆₎ or silicon fluoride, zinc (ZnSiF _6), the sodium silicate (Na ₂ SiO _3), potassium silicate (K ₂ SiO _3), lithium silicate (Li ₂ SiO ₃₎ raw material, such as By chemically reacting with the glass lime and alkali component of concrete, it densifies concrete surface structure, prevents carbonation of small surface, and forms insoluble film to minimize dust generation, prevent neutralization and enhance wear resistance.

The construction method should be cleaned with water on a clean base, and finish by spreading the liquid hardener (floor hardener) evenly with a broom or roller once or twice.

These inorganic liquid hardeners are easy to construct and are used for general concrete and copper-impregnated concrete. They have good effect on initial strength improvement and excellent wear resistance and chemical resistance. However, if the lower surface is largely ineffective, it has no effect and acts to strengthen the floor surface rather than to form a coating film.It is not a fundamental countermeasure against structural cracks and silk racks. It is disadvantageous in view of being aesthetically disadvantaged.

In the case of silicates (silicates), the initial water resistance is not good, it is limited by the moisture for several months until the insoluble film is formed.

Polymer cement mortar is the most active inorganic flooring in recent years. The basic composition is inorganic fillers such as silica sand, calcium carbonate, antifoaming agent, dispersing agent, water reducing agent, etc. in cement such as portland cement, back cement, cemented carbide alumina cement, etc. Various additives such as fluidizing agents, accelerators, retardants, etc., are mixed and uniformly formed to form powders, and are formed by containing a certain amount of polymer (liquid or solid) to improve physical properties such as adhesive strength, tensile strength, and watertightness. It is flooring. The construction method is to coat the polymer emulsion base coat 1 ~ 2 times and apply the mortar as a middle coating material with a thickness of about 3 ~ 10 mm once with an ancient trowel or a special sprayer and cure it for a certain period of time before applying a suitable top coat. Select and apply the coating.

The polymer cement mortar is excellent in construction efficiency and generally has a fast-hardening product, so it is possible to walk after one day after construction, and thus it is possible to shorten the air, and the compressive strength, tensile strength, bending strength, and adhesive strength are superior to general mortar. The elastic modulus and strain are similar to that of concrete, which improves durability.

In addition, it is excellent in impact resistance and freezing resistance, and the color is the same as cement color or limited compared to organic materials, but like powder hardner, green, brown, gray, and blue can be given. In addition, the performance of chemical resistance, abrasion resistance, water resistance and the like is improved by selecting an appropriate top coat material. However, since it is installed on the existing concrete structure, if the shrinkage and expansion ratio of the intermediate material and the existing concrete are different, the adhesive force is deteriorated, or because of this, continuous impact is applied to the floor by vehicle traffic, various mechanical work, or general walking. As a whole, it is continuously delivered to the flooring has a problem that the phenomenon of dropping, cracking, peeling of the intermediate material may appear. In addition, the selection of top coat is also very important. As the general contractor uses, oil-based coatings such as epoxy, urethane, and acrylic are used to release volatile organic compounds (VOC) during construction and pollute the environment. Even if it is not incombustible, the meaning as an eco-friendly inorganic flooring material will fade.

In the case of inorganic coating agent used as a top layer of polymer cement mortar, in recent years, continuous research and development has been made using silicate, which is a kind of liquid hardener, in a broad sense.

Silicate (soluble silicate) is a generic name of a compound containing one or more metal salts in silicon and oxygen, and the silica sand (SiO ₂ ) is selected from Na ₂ CO ₃ or K ₂ CO ₃ , Li ₂ CO ₃ to 1,100 ~ 1,200 ℃. Melting and applying high-pressure steam give a clear and viscous alkaline solution, which is a silicate. As mentioned above, there are sodium silicate (Na ₂ SiO ₃ ), potassium silicate (K ₂ SiO ₃ ), lithium silicate (Li ₂ SiO ₃ ), and the like. The chemical formula is represented by M ₂ O-nSiO ₂ -xH ₂ O (M is Na, K, Li, etc.) and physical properties are known to vary depending on the molar ratio and concentration of SiO ₂ / M ₂ O.

The silicates react with calcium hydroxide produced by the hydration of cement to form insoluble calcium silicate hydrate, which makes the concrete structure dense.

M ₂ SiO ₂ + xH ₂ O + yCa (OH) ₂ → yCaSiO ₂ ㅇ xH ₂ O + 2MOH

Silicate is an inorganic material that does not contain any volatile organic compounds (VOC), but it takes several months to form an insoluble film based on the above reaction formula that does not re-dissolve in water after application to concrete surfaces. If it touches, there is a disadvantage of dissolving to the previous state. This is a serious drawback to apply as a flooring material, which is why marketability is not expanded significantly. In addition, research is being conducted using several water-soluble resin emulsions having excellent compatibility as auxiliary resins to reinforce the water resistance, and several related patents have been filed, but the intrinsic water resistance increase effect is known to be insignificant and the appearance is not excellent.

Korean Patent Registration No. 0148880 of the prior art regarding the construction method of inorganic flooring material first cleans up the surface through surface treatment, and then mixes a few additives and water in the cation synthetic resin emulsion, and then coats the primer and then cations synthetic resin emulsion as intermediate material. The present invention relates to a construction method in which a color powder is mixed at a ratio of 1: 2 to 4 by airless spray at a thickness of 0.5 to 6 mm, and then coated and finished with an organic coating agent of epoxy or urethane acrylic series.

In particular, the present invention relates to a construction method for coating and finishing using organic synthetic resins in connection with top coat, and uses various paints containing organic solvents during top coat, which is a subsequent process after application of the middle and middle coats. It is exposed to these workers and is harmful to the human body. After construction, the coating is completely cured and remains indoors until sufficient ventilation is completed. In addition, it will not be environmentally friendly because it will emit toxic gases to the human body in case of fire.

Among other inorganic flooring construction methods, Korean Patent Registration No. 49578 is used to clean up the surface through surface treatment, and then, after coating the primary prima with a hydrophilic polymer and powder in a ratio of 2: 1, After attaching the mesh and coating the second prima with the same material after 1-2 hours, the hydrophilic polymer and powder were coated with 1: 4 material as the intermediate material after 2-6 hours, and the rolling work was carried out with spike rollers. After the spraying the water before the top coat, and 12 to 24 hours after the coating method as a material of the silicate, the invention relates to a construction method.

In the present invention, the use of a powder mixed with a hydrophilic polymer (aqueous emulsion) and cement and silica sand in the paint coating material is also performed to make fine uneven portions on the surface to enhance adhesion between the concrete base and the intermediate. However, in fact, it was proved through the test results that the hydrophilic polymer alone showed sufficient adhesive strength. When the powder is mixed, the viscosity increases due to the increase of working time when painting with Laura, brush, etc. It has many disadvantages, such as being inefficient.

In addition, the reason for attaching the high strength mesh is to prevent peeling from the old film surface due to shrinkage expansion. If the existing coating layer is finished with organic materials such as epoxy, epoxy and cement mortar have different shrinkage expansion rates. It would be desirable to implement this process to prevent dropouts.

However, if the expansion and contraction of the intermediate material is applied to the concrete surface with the same material as the concrete surface, cracks, peeling, dropping, etc. does not occur even if the hydrophilic polymer alone is applied.

As a final process of this prior patent, coating and finishing coating as a material of silicate is a role of surface reinforcing agent, and is performed to suppress the fine dust generated in the middle and to give a slight gloss and to protect the middle. However, as described above, it takes several months to completely cure, so if it is contaminated using the floor before, it is difficult to maintain cleanness again. There is a problem.

The present invention has been developed to solve the above problems, the object is to provide an environmentally friendly floor finish construction method using a non-combustible material that can exhibit the same performance or more than organic-based floor finishing materials such as epoxy.

In addition, since the physical properties of the flooring material is largely dependent on the surface to apply the top coating material excellent in physical properties to improve the physical properties of the final flooring material.

In addition, "KS F ISO 1182; Test by non-combustibility test method of building materials" and "KS F 2271; Test of gas hazards among test methods of flame retardancy of interior materials and structures of buildings" by the Ministry of Construction and Transportation Notice 2006-476 2 It is to develop non-combustible floor covering which can satisfy all branches.

In addition, the method of constructing an eco-friendly floor finishing material that can satisfy the highest grade among the eco-friendly grades proposed by the Indoor Air Quality Control Act using the indoor air quality test method using environmentally friendly materials that have no abnormality as a result of emission tests of TVOC and HCHO, which are harmful substances to humans. Is in developing.

Another object of the present invention is to provide a floor finishing material of a building having superior physical properties such as compressive strength, adhesion strength, and abrasion resistance than general cement-based horizontal mortar.

In order to achieve the above object, the present invention provides an environmentally friendly floor finishing material construction method using a non-combustible material,

Grinding step of removing the foreign substances, including the moisture and oil of the existing cement mortar floor and smoothly the surface of the bottom; Coating with a coating material using a water-soluble polymer to increase the adhesion to the surface treated bottom surface; A middle material coating step of applying a polymer cement-based middle material selectively containing a color pigment according to a use in order to freely form a desired coating film of about 1 to 30 mm on the bottom surface of the undercoat; and shrinking the coated surface of the middle material Joint construction step of constructing a contraction joint (crack-induced joint) in a grid form of 3 ~ 10m intervals to prevent cracking caused by expansion, impact, and flow; Silane on the surface coated with the intermediate joint subjected to the contraction joint It is characterized in that the coating process of the top coating material which paints the inorganic inorganic non-flammable transparent or colored coating agent is performed one to three times do.

In addition, the water-soluble polymer used in the coating material coating step is characterized in that it is prepared by mixing a methacrylic ester monomer and acrylic ester monomer excellent in permeability and adhesion.

In addition, the intermediate material coating step is to mix and apply the inorganic powder and water, characterized in that for the inorganic powder 100, water is mixed in a ratio of 22 to 24.

In addition, the intermediate material is 17 to 21% by weight of white portland cement, 16 to 20% by weight of alumina cement, 3.0 to 7.0% by weight of remulsified powder resin, 40 to 45% by weight of silica sand (particle size 0.2 to 0.5 mm), silica sand (particle size 0.02 0.1mm) 4-10% by weight, pigmented pigment 0.5-5.0% by weight, calcium carbonate (average particle size 20㎛) 0.5-3.0% by weight, gypsum 2.0-7.0% by weight, fluidizing agent 0.05-0.3% by weight, accelerator 0.05 It is characterized in that it comprises an inorganic powder consisting of -0.3% by weight, 0.05-0.3% by weight retardant, 0.05-0.3% by weight thickener, 0.05-0.3% by weight antifoaming agent, 0.05-0.3% by weight pigment dispersant.

In addition, the silane-based inorganic incombustible transparent or colored coating agent used in the coating material coating step is characterized in that the use of tetramethoxy silane (TMOS), tetra ethoxy silane (TEOS) alone or by mixing an appropriate amount. .

As described above, the present invention has an effect of preventing damage to property and life caused by fire by using non-combustible materials.

In addition, the indoor air quality process test method uses environmentally friendly materials that have no abnormality as a result of the emission test of TVOC and HCHO, which are harmful to human body, and the construction method of eco-friendly floor finishing material that can satisfy the highest grade among the environmental grades proposed by the Indoor Air Quality Control Act. By providing a safe construction conditions and housing conditions to the construction workers or users later there is an effect.

In addition, by forming a regular joint and having excellent durability, there is an effect of reducing the additional cost of maintenance after construction.

Thus, the configuration of the present invention will be described in detail so that those skilled in the art can easily understand and reproduce.

The present invention is a grinding step of removing the foreign substances, including the moisture and oil of the existing cement mortar floor and smoothly the surface of the bottom surface; painting the coating material using a water-soluble polymer to increase the adhesion to the surface treated surface; And a middle material coating step of applying a polymer cement-based middle material optionally containing a color pigment according to the use in order to freely form a desired coating film of about 1 ~ 30mm on the bottom surface coated with; Joint construction step of constructing the contraction joint (crack-induced joint) in the grid form of 3 ~ 10m intervals to prevent cracking due to shrinkage, expansion, impact, and flow on the surface; The coating process of the top coating material is applied to the cotton one to three times with silane-based inorganic incombustible transparent or colored coating. It is an eco-friendly floor finishing construction method using non-combustible material.

First of all, in the grinding process, the first step, the surface of the concrete floor must be well treated. In particular, it is desirable to completely remove moisture, oil, irregularities, and other foreign matters. In some cases, it is desirable to remove fine foreign matters on the surface by using a grinding machine and a grinding machine, and then carry out a subsequent process. In addition, it is more effective to remove impurities at the same time while cleaning the water through a high pressure washer.

In addition, in the coating process, the water-soluble polymer emulsion is used alone, so it is excellent in workability so that a large area can be constructed in a short time. When the polymer cement-based intermediate material is applied to prevent the absorption of moisture to the base surface, and serves to maximize the adhesive strength with the intermediate material.

At this time, when the methacrylate monomer and the acrylate ester monomer are prepared as a material of the water-soluble polymer emulsion used as the primary Prima, it has strong adhesion and waterproofness between the concrete surface which has already been constructed and the inorganic intermediate material which is processed in the subsequent work. .

In particular, it has excellent surface permeability and wettability, filling the pores and gaps of existing concrete floors, bringing about the first waterproofing effect, and having excellent water resistance and alkali resistance. It prevents the absorption and improves the curing and wet adhesion of mortar and prevents the lifting phenomenon.

These primas are usually carried out twice.The first primas are diluted to penetrate deep into the surface, and the cuts and severe cracks of the structural cracks are "V" cut with a grinder and then mixed with a mortar material mixed with water. Make a partial repair using a trowel.

Finally, by coating the stock solution to form a coating film to prevent the moisture of the intermediate mortar to be constructed in the next process to be absorbed in the existing base.

 The present invention in the intermediate coating step 17-21% by weight of white portland cement, 16-20% by weight of alumina cement, 3.0-7.0% by weight of reemulsified powder resin, 40-45% by weight of silica sand (particle size 0.2-0.5㎜) (Particle size 0.02 to 0.1 mm) 4 to 10% by weight, colored pigment 0.5 to 5.0% by weight, calcium carbonate (average particle size 20 μm) 0.5 to 3.0% by weight, anhydrous gypsum 2.0 to 7.0% by weight, fluidizing agent 0.05 to 0.3% by weight 22 to 24 water for a uniform composition consisting of 0.05 to 0.3% by weight of accelerator, 0.05 to 0.3% by weight of retardant, 0.05 to 0.3% by weight of thickener, 0.05 to 0.3% by weight of antifoaming agent and 0.05 to 0.3% by weight of pigment dispersant. After putting it around, it is mixed evenly with a batch mixer and poured by using a transfer pump that includes injection nozzle, that is, shotcrete.

The reason why the coloring pigment is mixed with the intermediate mortar is to express the color and is not directly related to the change in physical strength or chemical properties, but visually to distinguish it from the general cement mortar.

After mixing the intermediate materials according to the indicated amounts, using a powder-only mixing mixer (gravity mixer) to produce a uniform powder and packaging in each container, water before the construction of about 22 to 24 with respect to the medium powder 100 It is possible to effectively apply a large area in a short time by discharging to the floor using a dedicated equipment to spray the mixture in proportion.

Air bubbles often generated during the application of intermediate materials are generated when the pores on the concrete floor are filled with intermediate mortar and the air rises accordingly, which effectively removes the bubbles when rolling using spike rollers. .

The joint construction step, in which the contraction joint (crack-induced joint) is applied after the intermediate material is applied, is a step to prevent the dropping of the ground surface due to crack, which is one of the most common defects of the inorganic flooring material. Falling phenomenon due to cracks due to cracks is caused by weak adhesion, but also due to different contraction and expansion with the bottom surface. It can also be caused by a constant impact on the floor. Therefore, floor flooring and inorganic flooring should form a sense of unity, which serves to prevent cracking due to shrinkage expansion if a contraction joint is constructed in a grid shape at intervals of about 3-10 m. In flooring, shrinkage joint is a work called Saw Cutting, and it is cut to a certain depth by water cooling using a machine equipped with a circular electric diamond saw blade. The proper time to perform the joint work after the intermediate application varies according to temperature and humidity, so the drying time should be determined based on the dry condition. If the working time is too late, cracks and joint breakages are likely to occur, and if it is too early, the strength is not developed before it is easily damaged by the load applied to the surface of the intermediate material.

In the present invention, a specific amount of alcohol (for example, ethanol) is added to tetramethoxy silane (TMOS), tetra ethoxy silane (TEOS), which is a silane-based monomer, or a mixed solution. After adding a plasticizer with good solubility and compatibility to prevent cracking in the aged SiO ₂ sol, it is a non-toxic pigment, that is, a pigment consisting of titanium dioxide, carbon black, iron oxide, iron oxide, chromium green, cobalt blue, etc. It is used as inorganic ceramic coating made by adding after dispersion.

In this case, if the coating is to be made transparent without color, a solution except for the pigment component is used. The reason that the pigment is colored by adding the pigment is because the color expression of the intermediate material applied in the previous process is not aesthetically superior. Compared to the organic flooring material, the inorganic mortar has a decrease in physical properties such as fluidity, dispersibility, and dichroism of the pigment. This is to supplement it with a top coat.

Top coat is performed 1 ~ 3 times. Once coating acts to reinforce the surface of the intermediate material, it must be applied twice or three times to properly express the color of the top coat.

By applying the top coat as described above, the surface strength of the intermediate material is increased, and the excellent water resistance, gloss, dust resistance, and abrasion resistance are maintained, and the emission of TVOC and HCHO is the best grade. Demonstrates physical properties as a final floor finishing material.

Hereinafter, embodiments of the present invention will be described.

First, the concrete floor was cleaned by using an industrial vacuum cleaner and a broom.

The unevenness was removed by using a grinding machine and a grinding machine to remove dust, concrete powder, etc. generated, and then, by using a high pressure washer, water was sprayed more cleanly.

After about 4 hours of evaporation of the water to some extent, the primary prima was coated. The product used was FT-535B manufactured by Finechemtech Co., Ltd. in a 1: 1 ratio with water.

After about 4 hours after the first prima is absorbed to the concrete floor, the structural cracks are V-cut with a grinder, and the inorganic intermediate material to be used in the subsequent work is uniformly mixed with water at 100: 23 and applied using a trowel. To make a flat surface.

After 24 hours, the water soluble polymer stock was coated using Laura as a secondary prima.

4 hours later, the mixture was uniformly mixed using a batch mixer with a ratio of 23 of tap water to 100 of the intermediate mixture shown in Table 1, and then applied using a shotcrete apparatus with a spray nozzle. Removed while rolling using spike rollers to give.

number Raw material name product name Compounding amount manufacturer One White portland cement - 190 Union 2 Alumina cement FONDU 180 Kerneos 3 Powdered resin Vinnapas 5010N 50 Wacker 4 Kyu Sa No. 6 430 Kyungin Material 5 Kyu Sa No. 8 62 Kyungin Material 6 Green Pigment DY-922 20 Various industries 7 Calcium carbonate NAC-400 9 Woojin Chemical 8 Anhydrous gypsum - 50 Dooyoung T & S 9 Glidants Conpac 149S 1.5 Perstorp 10 accelerant Li ₂ CO ₃ 1.0 FMC 11 Retardant Tartaric acid 2.0 Rewefood 12 Thickener Bermocoll 0.5 Akzo Nobel 13 Antifoam Agitan P803 2.0 Munzing 14 Pigment Dispersant Metolat P853 2.0 Munzing Sum 1000

After 72 hours, Saw Cutting was performed in a grid of 4m intervals to prevent cracking and lifting.

After 48 hours of shrinkage joint operation, ethanol was added to a mixture of tetramethoxy silane (TMOS) and tetraethoxy silane (TEOS), which are silane monomers, mixed with water, and then hydrolyzed by adding water to prevent cracking in the aged SiO ₂ sol. In order to add a plasticizer having good solubility and compatibility, inorganic ceramic coatings made by dispersing 3% of chromium oxide, an inorganic pigment that is not toxic, were first coated with Laura, and then again after 4 hours. After the second coating, and after 24 hours using the Laura finally the third coating.

The work was carried out in the order of the above process, and the following items were tested as the products used. The results as shown in the following "Table 2" were shown.

Claims (5)

In the construction method of eco-friendly floor finishing materials using non-combustible materials, A grinding step of removing foreign substances including moisture and oil from the existing cement mortar floor and smoothly treating the bottom surface; A coating material coating step of coating using a water-soluble polymer to increase adhesion to the surface-treated bottom surface; A intermediate material applying step of applying a polymer cement-based intermediate material selectively containing a color pigment according to a purpose in order to freely form a desired coating film of about 1 to 30 mm on the undercoat; A joint construction step of constructing a contraction joint (crack-induced joint) in a grid form of 3 to 10 m intervals to prevent cracking due to shrinkage, expansion, impact, and flow on the surface to which the intermediate material is applied; A method of constructing an eco-friendly floor finish using a nonflammable material, characterized in that the coating phase coating step of coating the silane-based inorganic nonflammable transparent or colored coating agent 1 to 3 times on the surface to which the shrinkage joint is applied is continuously performed. The method of claim 1, wherein the water-soluble polymer used in the undercoat coating step is manufactured by mixing a methacrylic ester monomer and an acrylic ester monomer having excellent permeability and adhesiveness. The method of claim 1, wherein the intermediate material coating step is to mix and apply the inorganic powder and water, the environmentally friendly floor finish material using a non-combustible material, characterized in that for mixing the inorganic powder 100 in the ratio of 22 to 24 Construction method. According to claim 1 or 3, wherein the intermediate material is 17 to 21% by weight of white Portland cement, 16 to 20% by weight of alumina cement, 3.0 to 7.0% by weight of reemulsified powder resin, silica sand (particle size 0.2 ~ 0.5mm) 40 ~ 45 wt%, silica sand (particle size 0.02 ~ 0.1㎜) 4-10 wt%, pigment pigment 0.5-5.0 wt%, calcium carbonate (average particle size 20㎛) 0.5-3.0 wt%, gypsum 2.0-7.0 wt%, fluidizing agent 0.05-0.3 wt%, accelerator 0.05-0.3 wt%, retardant 0.05-0.3 wt%, thickener 0.05-0.3 wt%, antifoaming agent 0.05-0.3 wt%, pigment dispersant 0.05-0.3 wt% including inorganic powder Eco-friendly floor finishing construction method using a non-combustible material characterized in that made. The method of claim 1, wherein the silane-based inorganic incombustible transparent or colored coating agent used in the coating material coating step is to use tetramethoxy silane (TMOS), tetra ethoxy silane (TEOS) alone or a suitable amount of two Eco-friendly floor finishing construction method using a non-flammable material.