KR20120102295A - Composition for interior finish material with eco-friendly and composite regenerative thermal function - Google Patents

Abstract

PURPOSE: An interior finishing material is provided to be effective to constantly maintain indoor temperature because accumulation and emission of latent heat are possible by finishing material in a wall, thereby capable of obtaining fresh indoor environment and saving energy. CONSTITUTION: An interior finishing material having heat storage function comprises 50-55 parts by weight chaff powders, 10-15 parts by weight of a water-soluble bio binder, 20-25 parts by weight of an inorganic heat-storing material, 5 parts by weight of calcium carbonate, 5-10 parts by weight of a deodorizing absorber, 1-2 parts by weight of an antimicrobial agent, 2-5 parts by weight of phytoncide extract. The chaff powder has a particle size of 500 mesh, and the inorganic heat-storing material has a particle size of 800 mesh. The inorganic heat-storing material comprises perlite, diatomite, and vermiculite. The deodorizing absorber is mordenite.

Description

COMPOSITION FOR INTERIOR FINISH MATERIAL WITH ECO-FRIENDLY AND COMPOSITE REGENERATIVE THERMAL FUNCTION}

The present invention relates to a composition for interior wall finishing having a heat storage function using an environmentally friendly fusion composition. When the interior finishing composition according to the present invention is used, it is possible to accumulate and dissipate latent heat due to the finishing material finished on the inner wall of the building according to the room temperature, thereby effectively maintaining a constant indoor temperature and achieving a comfortable indoor environment. It also contributes to energy savings.

In general, what is important in the construction of buildings is the heat storage function. In residential life, cooling and heating are important in terms of life and even health in a comfortable environment, so the heat storage function of the building has been important in the past. To this end, the built-in heat storage material is used during construction of the building, the finishing material is installed in the interior and exterior of the building in contact with it.

Asbestos is a conventional building material. Paper lamination, resin wood, plywood, gypsum board, balmite, magnesium board, etc. have been used on concrete walls, and these interior finishes are connected to the front of heat storage materials installed on the walls to reduce heat loss or heat inflow. Is installed. In this way, the heat storage material connected to the finishing material is preferably used to have a low thermal conductivity of the material itself, but most of the heat storage material is not. It is common to get As such latent heat materials, a low cost and easy to purchase is widely used as a representative example of expanded styrene. However, foamed styrene reduces the thermal conductivity and exerts a latent heat effect simply by relying only on the latent heat of air present in a plurality of micropores, so the effect is limited, which does not meet the general psychology of residents expecting a higher latent heat effect. There is a problem.

Therefore, many technologies have been developed to enhance the heat storage effect of buildings to save energy as well as to create a comfortable indoor environment for residents. Among them, energy-saving technologies using heat storage materials have been widely used for heating, and have contributed to energy savings in a large part. The heat storage material utilization technology improves energy use efficiency by allowing energy used for indoor heating to be maintained at a constant temperature for a long time. In a building using a general heat storage material and a finishing material, the variation of the indoor temperature is severe according to the outdoor temperature, and thus, the thermal insulation effect is not very high. However, when the heat storage material is used as a heat storage material or a finishing material, the heat storage effect of the material itself can keep the room temperature almost constant at room temperature, thereby reducing the heating and cooling energy consumption.

Until now, the development of building heat storage materials could be used instead of cement, and used waste paper, loess and synthetic resin, etc., which can improve the humidity control function and ondol effect of indoor space.

In this situation, in addition to giving thermal insulation, cardboard, boards, etc., which are used as interior building materials, adding a heat storage effect to the wall, which is the final finishing material directly in contact with the interior of the building, is more effective for the insulation function of the building. would. In light of this, the present inventors have studied to give eco-friendly vegetable material and heat storage function to the wall material itself. As a result, when chaff (rice bran) powder is added as a raw material to the wall finishing composition with a predetermined size of 500 mesh or more, this finish When the composition was placed on the wall surface, it was found that the wall material exhibits a very excellent thermal insulation performance, and the wall finishing composition having the heat storage function of the present invention was completed.

In addition to the heat storage function, by adding various functional additives, such as antibacterial agent, deodorant, phytoncide extract to the composition, it is possible to impart various advantageous environmentally friendly functions to the wall material, thus completing the environmentally friendly energy-saving finish that is in the limelight these days.

An object of the present invention is to provide a wall composition for applying heat-saving fusion material and additives to impart heat storage performance to the wall surface directly in contact with the room.

In order to impart heat storage performance to the wall surface directly in contact with the building interior, the present invention provides a composition for wall materials containing rice bran powder.

In one embodiment, the wall-bearing composition having the heat storage function of the present invention is 50-55 parts by weight of rice bran powder, 10-15 parts by weight of acrylic polymer water-soluble bio binder (colorless high viscosity), 20-25 parts by weight of inorganic heat storage material, calcium carbonate 5 Parts by weight, 5-10 parts by weight of deodorant adsorbent, 1-2 parts by weight of antibacterial agent, and 2-5 parts by weight of phytoncide extract.

In another embodiment, the inorganic heat storage material used in the wall-forming composition having the heat storage function of the present invention is preferably selected from pearlite, diatomaceous earth and / or vermiculite.

In another embodiment, the deodorizing adsorbent used in the wall-forming composition having the heat storage function of the present invention may be mordenite.

In another embodiment, the interior finishing composition having a heat storage function of the present invention may further include a viscosity control agent, an antifoaming agent and / or a blowing agent. The viscosity modifier, antifoaming agent, and / or blowing agent are included in 2-10 parts by weight, 1-3 parts by weight and 1-3 parts by weight, respectively.

The interior wall finishing composition having a heat storage function according to the present invention can impart not only heat storage performance but also various environmentally friendly fusion composition functions to the wall surface. The heat storage performance is mainly provided by the rice bran powder, and the deodorizing adsorbent, the antibacterial agent, and the phytoncide extract component provide environmentally friendly antibacterial function for the wall material. In addition, further additives such as viscosity modifiers, antifoams, and the like are included in the walling composition of the present invention.

Finishing material using the wall composition having a heat storage function according to the present invention has a heat storage function in itself can maintain a constant temperature regardless of the outside temperature, the energy saving effect is excellent, due to the eco-friendly functionality of the sick house syndrome Blocking and the release of substances beneficial to the human body are achieved, thus achieving a very comfortable living environment when used indoors.

The interior finishing composition having a heat storage function according to the present invention is placed back, and then finished as a wall finishing material for the wall to produce an eco-friendly energy-saving wall material.

When the interior finishing composition having a heat storage function according to the present invention is used in contact with various inner wall surfaces, the heat storage function is added to the wall surface and energy can be saved by keeping the room temperature constant. In addition, by adding various functional additives, such as antibacterial agent, deodorant, pine phytoncide extract, anion spinning inorganic material to the composition, it is possible to impart various advantageous environmentally friendly functions to the wall, thereby producing an environmentally friendly fusion energy-saving interior materials.

In one embodiment, the wall-bearing composition having the heat storage function of the present invention is 50-55 parts by weight of rice bran powder, 10-15 parts by weight of acrylic polymer water-soluble bio binder (colorless high viscosity), 20-25 parts by weight of inorganic heat storage material, calcium carbonate 5 Parts by weight, 5-10 parts by weight of deodorant adsorbent, 1-2 parts by weight of antibacterial agent, and 2-5 parts by weight of phytoncide extract.

In another embodiment, the inorganic heat storage material used in the wall-forming composition having the heat storage function of the present invention is preferably selected from pearlite, diatomaceous earth and / or vermiculite.

In another embodiment, the deodorizing adsorbent used in the wall-forming composition having the heat storage function of the present invention may be mordenite.

In another embodiment, the interior finishing composition having a heat storage function of the present invention may further include a viscosity control agent, an antifoaming agent and / or a blowing agent. The viscosity modifier, antifoaming agent, and / or blowing agent are used in 2-10 parts by weight, 1-3 parts by weight and 1-3 parts by weight, respectively, based on the total weight of the composition.

The interior finishing composition having the heat storage function of the present invention can be prepared according to the following process:

1) preparing a first mixture by mixing 50-55 parts by weight of rice bran powder and 10-15 parts by weight of an acrylic polymer water-soluble bio binder (colorless high viscosity) with stirring;

2) preparing a second mixture by mixing 20-25 parts by weight of an inorganic heat storage material selected from pearlite, diatomaceous earth and / or vermiculite with stirring at 400-450 rpm;

3) adding 5 parts by weight of calcium carbonate to the second mixture and mixing with stirring to prepare a third mixture,

4) aging the third mixture at 30-35 ° C. for 36 hours,

5) The fourth mixture is added to the third mixture by adding and mixing a deodorizing adsorbent, for example, 5-10 parts by weight of mordenite, 1-2 parts by weight of antibacterial agent, and 2-5 parts by weight of phytoncide extract. Manufacturing step, and

6) aging the fourth mixture at 30-35 ° C. for 24-36 hours

It includes.

In the composition of the present invention, the primary mixture consisting of 50-55 parts by weight of rice bran powder, 10-15 parts by weight of an aqueous bio binder, and 20-25 parts by weight of an inorganic heat storage material (pearlite, diatomaceous earth and / or vermiculite) provides a heat storage function. Is the main raw material.

Each of the above components is mixed with stirring to prepare a mixture. When the ingredients are mixed in the order one at a time, dispersibility may deteriorate, so it is preferable to add them one by one and mix them. The resulting mixture is then aged at 30-35 ° C. for at least 36 hours to increase the stability and binding properties of the composition.

① Rice bran powder

As a result of studying and studying a method of imparting heat storage function to the wall surface, the applicant has found that the heat storage performance of the wall material is excellent when the composition used by powdering rice bran is placed on the wall surface or coated and used. Rice bran, a substance that comes out of rice in rural areas, is generally discarded in large quantities. Applicant anticipates that rice bran can be given heat storage function, considering that it has thermal insulation, and develops a method for introducing rice bran into my wall material. As a result, when the rice bran was pulverized into fine powder of 500 mesh particles and gelled together with various additives to be brought into contact with the wall surface, the produced wall material showed excellent heat coordination performance. Rice bran does not need to be dried separately because it is already dried during the milling process, and has the advantage that it can be purchased cheaply with excellent heat storage and workability. Therefore, the composition using the chaff of the present invention is generally cost-effective in terms of recycling resources because the rice is just discarded material, heat insulation function using a material of natural material without using a separate harmful chemicals for wallpaper It has many advantages, such as being beneficial to the human body and being environmentally friendly. In the composition of the present invention, the average particle diameter of the rice bran powder is about 500 mesh.

② aqueous bio binder

In the present invention, an aqueous bioadhesive powder is used as an adhesive and a binder. Bran powder is impregnated with an aqueous bio binder to make a homogeneous mixture. It provides strength and binding strength to the aqueous bio binder composition. Such aqueous biobinders are prepared using techniques known in the art.

③ Inorganic heat storage materials (pearlite, diatomaceous earth, vermiculite)

An inorganic heat storage material is added to the composition of the present invention to increase the heat storage effect of the composition. The inorganic heat storage material may be any of those generally used in the construction field, for example, using pearlite, vermiculite and / or diatomaceous earth in powder form. The average particle diameter of the inorganic heat storage material is about 800 mesh.

In addition to imparting the heat storage effect to the wall surface, the composition of the present invention may include an additive for imparting various functionalities to the wall material. Such functional additives include deodorant adsorbents, antibacterial agents, and pine phytoncide extracts.

Each of the above components is mixed with stirring to prepare a mixture. When the components are mixed at once, dispersibility may deteriorate, so it is preferable to add the components one by one and mix them. The resulting mixture is then aged at 30-35 ° C. for 36 hours to increase stability and binding of the composition.

Among the functional additives, the deodorizing adsorbent and the antimicrobial agent deodorize and adsorb the harmful ingredients from asbestos and antibacterial action, pine phytoncide extract is a component that emits an anion and a refreshing natural flavor beneficial to the human body, all of which are environmentally friendly melting on the wall It is responsible for granting complex functions. By adding such a functional additive to the wall composition, it has the effect of blocking the sick house syndrome which is concerned these days.

① Deodorant adsorbent (natural zeolite mordenite)

In the interior finishing material composition of the present invention, zeolite is used as the deodorizing adsorbent, and in particular, mordenite is used. Such deodorizing adsorbents use about 5-10 parts by weight based on the total weight of the composition. If the amount of the deodorizing adsorbent is less than 5 parts by weight, the desired deodorizing adsorption effect cannot be obtained. If the amount of the deodorizing adsorbent exceeds 10 parts by weight, the composition will gel.

In the composition of the present invention, the active mordenite in which the sodium cation is substituted with mordenite is powdered to an average particle diameter of 1000 mesh.

Zeolite is a porous crystal composed of silicon (Si) and aluminum (Al), and its structure is loose, so even if it releases moisture filling the space with high heat, its skeleton remains the same so that it can adsorb other particulate matter. . Thus, the zeolite in the composition of the present invention functions to adsorb harmful substances coming from the wallpaper. In addition, the zeolite also has a deodorizing function to remove the odor derived from the chemical from the wallpaper.

Mineralogical properties of zeolites include (1) cation exchange, (2) adsorption and molecular sieve (3), (3) catalytic properties, and (4) deodorization and resorption. The cation exchange property of zeolites is that the cations in the zeolite cavities are easily ion exchanged by a simple degree of washing with a solution of other cations.

Most chemicals classified as hazardous substances are adsorbed on zeolites. The molecules adsorbed on the zeolite are shown in Table 1 below.

Zeolite Adsorption Properties Molecular sieve Adsorption molecules 3A He, Ne, Ar, Co, NH3, H2, O2, H2O 4A Kr, Xe, HC4, C2H6, C2H2, CH3OH, CH3CN, CH3Cl, CH3NH2, CO2, H2S,
SO2, CS2 5A n-C4H10 to C18H38, B2H6, C2H5, Cl, Br, C2H2, Br2, CF4, CHF2, Cl,
CHF3, (CH3) 2, NH, CF4, C2F6 10X SF6, CHC, I3, CHBr3, I-C4H10 to I-C14H30, C6H6, cyclohexane,
Thiophene, furan, pyridine, dioxane, naphthalin, B10H14, (CH3) 2,
CO, CH3, (CH3) 3, N, (C2H5) 2O, Freon 112

As described above, the present invention contains a zeolite as an additive, and thus, due to the adsorption and deodorization properties of the zeolite, harmful substances such as formaldehyde from the cement finish asbestos are adsorbed and decomposed by themselves, thereby reducing the emission of harmful substances and thus providing a pleasant living environment. To create.

② antibacterial

In addition, an antimicrobial agent is used in the environment-friendly fusion composition of the present invention, and in particular, it is preferable to use an inorganic antimicrobial agent. By adding an antimicrobial agent, it is possible to further improve the antibacterial function of the indoor environment due to asbestos harmful substances. As the inorganic antibacterial agent, sodium silicate is preferably used. Such antimicrobials use about 1-2 parts by weight based on the total weight of the composition. If the amount of the antimicrobial agent is less than 1 part by weight, the desired antimicrobial effect cannot be obtained. If the amount of the antimicrobial agent exceeds 2 parts by weight, the increase of the effect is not so large compared to the increase of the amount of use, so it is not cost effective.

③ extract of pine phytoncide (powder)

In addition, phytoncide extract is used in the environment-friendly fusion composition of the present invention. Such phytoncide extract uses about 2-5 parts by weight based on the total weight of the composition. If the amount of phytoncide extract is less than 2 parts by weight, the desired effect may not be obtained. If the amount of the phytoncide extract exceeds 5 parts by weight, the increase in effect is not so large compared to the increase in the amount of use, which is not cost effective.

Phytoncide extract is an extract of the phytoncide component extracted from the pine. These phytoncide extracts are known as environmentally friendly ingredients beneficial to the human body. In particular, these plant extracts are rich in terpene-based phytoncide not only releases anions themselves, but also contains a large amount of vitamins and minerals beneficial to the human body. The phytoncide ingredient rich in pine nuts helps to relieve stress and clear the mind, to cleanse indoor air, to relieve insomnia, to stabilize autonomic nerves, to promote blood circulation and metabolism, to remove odor and deodorize, and to refresh the forest bath. Its effect is a refreshing effect, antibacterial and insect repellent effect, stimulating secretion of hormones in the body and restoring body rhythm, stabilizing exercise nerve and sensory function, supplying oxygen smoothly, good for skin beauty and brain health, moisture control effect, etc. have. All of these effects help create a pleasant indoor environment. In addition, the pine tree extract provides plant and natural flavors to the final product to enhance user satisfaction when used for wall finishing.

Further, in another aspect, the composition for wall surface having a heat storage function of the present invention may further comprise the step of adding a viscosity control agent, antifoaming agent, and / or blowing agent.

① Bio Binder Colorless High Viscosity Modifier (Plant Natural Material)

In the present invention, vegetable starch is used as a viscosity regulator. As the vegetable starch, a component selected from the group consisting of corn starch, potato starch, sweet potato starch and tapioca starch can be used. These vegetable starches can function as binders and thickeners, i.e. enhance the viscosity of the composition, bind the constituents, promote gelation and improve the workability of the process of adhering to the base paper in subsequent processes. The starch is preferably about 2-10 parts by weight based on the total weight of the composition. If the amount of starch is less than 2 parts by weight based on the total weight of the composition, the degree of gelation and bonding strength is not sufficient, and the work may not be smooth due to the low viscosity when placed on the wall in a subsequent process. When it exceeds 10 parts by weight, the viscosity of the composition may be higher than necessary to increase energy required for stirring and the like for uniform mixing, and may result in poor adhesion in subsequent processes.

② Mixing stabilizer (defoamer)

The mixing stabilizer serves to remove bubbles generated during stirring of the composition. In the present invention, any of materials known in the art may be used as the antifoaming agent, such as octyl alcohol, cyclohexanol, higher alcohols, ethylene glycol, and nonionic surfactants or other nonionic surfactants based on sorbitan fatty acid esters. . Such antifoaming agents can be used in amounts of about 1-3 parts by weight, based on the total weight of the composition. If the amount of the antifoaming agent is less than 1 part by weight, the desired effect may not be obtained. If the amount of the antifoaming agent is more than 3 parts by weight, it is not effective by exceeding the amount capable of achieving the threshold of the expected effect, and may adversely affect the physical properties of the composition.

③ blowing agent

The blowing agent may use a component selected from the group consisting of azo compounds, nitroso compounds and sulfohydrazide compounds. Among them, azodicarbonamide, N, N'-dinitrosopentamethylenetetramine, p-toluenesulfonylhydrazide, p, p'-oxybis (benzenesulfonylhydrazide), p-toluenesulfonyl semicarba Preference is given to being selected from the group consisting of zide, azobisisobutyronitrile and diazoaminoazobenzene. Such blowing agents can be used in amounts of about 1-3 parts by weight based on the total weight of the composition. If the amount of the blowing agent is less than 1 part by weight, the hardness and specific gravity of the composition may be too high. If the amount of the blowing agent is more than 3 parts by weight, a stable structure may not be obtained during gelation of the composition, and thus the mechanical properties of the composition may be reduced.

Example

Production Example 1

① 55 kg of 500 mesh rice bran powder pulverized into 15 kg of aqueous bio binder powder was mixed well while stirring at 400-450 rpm to prepare a first mixture.

② 25 kg of pearlite, diatomaceous earth, and vermiculite powder crushed into 800 mesh as the inorganic heat storage material are added to the first mixture, and mixed well with stirring to prevent agglomeration, thereby preparing a second mixture.

③ Add 5 kg of calcium carbonate to the second mixture and mix well to prepare a third mixture.

④ The third mixture is aged at 35 ° C. for 36 hours.

⑤ 10 kg of mordenite, 2 kg of sodium silicate, and 5 kg of pine phytoncide extract are added to the aged third mixture, and the mixture is stirred well to prepare a fourth mixture.

⑥ Mix and mix 10 kg of the viscosity modifier to the fourth mixture.

The final mixture obtained in ⑦ ⑥ is aged at 35 ° C. for 24-36 hours to complete the rice bran powder-containing wall finishing composition of the present invention.

Production Example 2

The composition prepared in Preparation Example 1 was placed on the wall by roll backing to a suitable thickness of 1-1.5 cm, and then dried after 2 hours of natural drying to prepare a walling material on which the composition of the present invention was placed.

Test Example  1: heat storage efficiency ( mock - up ) exam

The heat storage effect at the time of using the wall material which contacted the composition for wall materials of this invention was compared.

A 60 cm x 30 cm x 60 cm sized closed box was prepared as a self test device. On the wall and ceiling of the box, the composition for rice bran powder-containing wall material of the present invention manufactured according to the above production example was placed, and the electric heating plate heating device for heating was installed at the bottom of the box. The electrostatic precipitator was turned on and heated to 35 ° C., and then latent heat was measured. After 60 minutes / 120 minutes / 240 minutes the electrostatic precipitator was turned off and the latent heat was measured. The same test was repeated three times. Table 2 below measures the latent heat over time in the box housed with the wall composition of the present invention. All three tests confirm that the temperature drop is not significant.

Interior Wall Finishing Composition Placement Experiment division Test 1 Test 2 Test 3 60 minutes later 28 ℃ 27 ℃ 27 ℃ 120 minutes later 25 ℃ 25 ℃ 25 ℃ After 240 minutes 23 ℃ 23 ℃ 22 ℃

Table 3 below is a measurement of latent heat over time in a box overprinting the general wallpaper. In all three tests, it is confirmed that the temperature drop is much larger than when the wall material in which the composition of the present invention is placed is used.

Plain wallpaper paper experiment division Test 1 Test 2 Test 3 60 minutes later 24 ℃ 23 ℃ 22 ℃ 120 minutes later 24 ℃ 23 ℃ 22 ℃ After 240 minutes 24 ℃ 23 ℃ 22 ℃

As can be seen from Tables 2 and 3 above, in the case of the wall surface of the rice bran powder-containing wall finishing material of the present invention, the lowering of the room temperature was not severe compared with that of the general paper, the synthetic resin and the wallpaper. Therefore, it is proved that an excellent latent heat effect can be obtained when the composition for wall finishing of the present invention is used in buildings.

Test Example 2: Antibacterial Test

After the composition obtained in the preparation example was placed on a general interior wall surface and finished with a product wall material, the antimicrobial activity of the wall finish was measured. The measurement was performed in accordance with KICM-FIR-1002 (E. coli: Escherichia coli ATCC 25922 Escherichia coli), which is a commonly used test method at the Well-being Material Center, Korea Construction Life Testing & Research Institute. Table 4 shows.

Antibacterial test by E. coli Test Items
Test result Test Methods
Initial concentration
(CFU / 40p) Concentration after 24 hours
(CFU / 40p) Bacterial reduction rate By E. coli
Antibacterial test Blank 424 2888 - KICM-FIR-1002
Invention
Composition 424 4 98.7

As can be seen in Table 4, the wall material to which the composition of the present invention was arranged could reduce Escherichia coli ATCC 25922 Escherichia coli by 98.8% after 24 hours. Therefore, it was confirmed that the wall material produced using the composition of the present invention is excellent in antibacterial properties.

Examination Process

1. Name of specimen: Inner wall finishing wall material

2. Test Method: KICM-FIR-1002: 2006 (Shake Flask Method)

3. Test strain: Escherichia coli ATCC 25922

4. Samples: 30 x 1 cm

5. Process

As a result of testing the bacterial reduction rate against the E. Indicated.

Thus, it has been demonstrated that the wall covering the composition of the present invention has considerable antibacterial function. It is anticipated that the use of the wall finishing material coated with the composition of the present invention can significantly prevent invasion of common bacteria.

Test Example 3 Hazardous Substance Release Test

The composition obtained in the manufacturing example was used as a wall finishing material for the product on a general indoor wall, and then the detection of harmful substances of the wall material was measured and tested. The test was conducted according to the test standard. It is expressed as the concentration of released hazardous substances in the test wall finish. The test results are shown in Table 5 below.

VOCs, Toluene, HCHO, Safety Test Test Items result Test Methods Total Volatile Organic Compounds (TVOC)
(mg / m ² h) 0.003 Indoor Air Quality Process Test Standard
(Ministry of Environment Notice 2008-73)

toluene
(mg / m ² h) Tr Formaldehyde
(mg / m ² h) 0.004

As can be seen from the above Table 5, the test results showed that the wall covering the composition of the present invention hardly emitted any harmful substances. Low concentrations of released hazardous substances mean high air purification. Therefore, when using the wall finishing material in contact with the composition of the present invention indoors will create a comfortable environment may be beneficial to human health.

<Test Example 4>: deodorization adsorption

The deodorizing performance of the heat storage wall interior finish prepared in the above example was investigated. The ammonia (NH ₃ ) deodorization test was conducted in accordance with the KICM-FIR-1005 Wellness Materials Center, Korea Living Environment Testing Institute, a test method for adsorption deodorization, and the results are shown in Table 6 below.

Heat insulation wall finish deodorization test results produced by the present invention Test Item: Deodorization Test (HCHO) Elapsed time (minutes) Blank Concentration (ppm) Sample concentration (ppm) Deodorization rate (%) 0 min 82 82 - 30 minutes 79 12 86.8 60 minutes 77 8 89.6 120 minutes 73 3 99.9 Test Method: KICM-FIR-1005: 2006

As shown in Table 6, the deodorizing function of the wall finishing composition according to the present invention was found to be excellent.

As can be seen in the above embodiment, the wall material is placed in contact with the composition for wall finishing material using rice bran powder according to the present invention has a heat storage effect by the rice bran powder contained in the composition. Moreover, functional additives contained in the composition have the ability to purify indoor air by blocking harmful substances. Therefore, when the finish using the composition for wall materials using the rice bran synthetic mixed powder according to the present invention is expected to be beneficial to human health by making a fresh and comfortable environment by ventilating smoothly.

As described above, the finishing material by finishing the composition according to the present invention to the wall using energy-saving and eco-friendly materials having functions such as heat storage effect, deodorization adsorption, antibacterial and well-being material dissipation is an environmental harmful substance from the cement asbestos wall Not only can absorb and block, but also can release anion and far-infrared rays to enhance the health of the human body, has the heat storage effect by chaff chaff powder. Therefore, when used indoors, not only can energy be saved, but also a more comfortable environment can be provided. In addition, phytoncide and natural flavor is generated from the pine extract added to the composition according to the present invention not only has an air purification function, but also can feel like being in the forest can create a more comfortable environment.

Claims (11)

50-55 parts by weight of powdered rice, 10-15 parts by weight of acrylic polymer water-soluble bio binder, 20-25 parts by weight of inorganic heat storage material, 5 parts by weight of calcium carbonate, 5-10 parts by weight of deodorant adsorbent, 1-2 parts by weight of antibacterial agent, and Wall composition having a heat storage function comprising 2 to 5 parts by weight of phytoncide extract. The composition of claim 1 wherein the rice bran powder has a particle size of 500 mesh and the inorganic heat storage material has a particle size of 800 mesh. The composition of claim 1, wherein the inorganic heat storage material comprises pearlite, diatomaceous earth, and vermiculite. The composition of claim 1 wherein the deodorizing adsorbent is mordenite. The composition of claim 4 wherein the mordenite has a particle size of 1000 mesh. The composition of claim 1, further comprising a viscosity modifier, an antifoaming agent and / or a blowing agent. 7. The composition of claim 6, wherein the viscosity modifier, the antifoaming agent, and / or the blowing agent comprise 2-10 parts by weight, 1-3 parts by weight and 1-3 parts by weight, respectively. 7. The composition of claim 6, wherein the antifoaming agent uses a component selected from the group consisting of octyl alcohol, cyclohexanol, higher alcohols, ethylene glycol and nonionic surfactants. 7. The composition according to claim 6, wherein the blowing agent uses a component selected from the group consisting of azo compounds, nitroso compounds and sulfohydrazide compounds. 7. The composition of claim 6 wherein the viscosity modifier uses a component selected from the group consisting of corn starch, potato starch, sweet potato starch and tapioca starch. Wall material for building interior materials formed by contacting the composition of Claims 1-10.