KR101312248B1 - A method for reducing indoor air contaminants - Google Patents

Abstract

Indoor air pollutant reduction method according to the invention, the step of spraying a toxic chemical removal agent to the indoor furniture and building materials; Releasing ozone in the room air; And collecting dust in the indoor air; and reducing atopic and birdhouse syndrome causing substances in the indoor air.

Description

Reduction of indoor air pollutants {A METHOD FOR REDUCING INDOOR AIR CONTAMINANTS}

The present invention relates to a method for reducing indoor air pollutants, and more particularly, to remove volatile organic compounds, fine dust, harmful bacteria, and the like, which are caused by sick house syndrome, new car syndrome, and atopic dermatitis. The present invention relates to a method for reducing indoor air pollutants through a process.

Highly toxic chemicals have been used to increase the durability and preservation of furniture and to facilitate the construction of building materials. These toxic substances are mainly included in paints, adhesives, coatings, preservatives, etc. used in furniture and flooring, and the most representative ones are formaldehyde (HCHO) and volatile organic compounds (VOCs).

In addition, volatile organic compounds are also used in automobile interior parts. Formaldehyde and volatile organic compounds are also used in plastic materials such as dashboards in automobile interiors, leather seats, silicones and paints.

VOCs are released from paints, adhesives, coatings, and preservatives at higher temperatures. Especially when room temperature exceeds 24 degrees, vaporization is promoted.

When the human body is exposed to volatile organic compounds, there are various adverse effects. First, volatile organic compounds produce odors, irritate the skin and respiratory system, and cause central nervous system depression. It is also considered to be one of the representative causes of atopic dermatitis, which has recently increased rapidly. In particular, if the room temperature is high due to heating in winter, but the ventilation is not properly performed, a large amount of volatile organic compounds remain in the room, thereby increasing the risk of damage.

As one of the methods for removing volatile organic compounds in the room, the bake-out method has been mainly used. The bake-out method is used to promote the vaporization of volatile organic compounds by increasing the room temperature, and intensively heats the room to release volatile organic compounds and to remove them through ventilation.

Republic of Korea Patent Publication No. 0770481 (hereinafter referred to as "prior art") discloses a method for effectively performing such a bake out method. The indoor air pollutant reduction method according to the prior art comprises the steps of installing a purifying apparatus for purifying the pollutant emitted from the interior finish at each point of the room; Installing a wireless temperature measuring device capable of monitoring the temperature of each point of the indoor space at one point; Using a heat source means and a blower to evenly raise the entire indoor temperature; When a purifier installed indoors purifies indoor air by adsorbing pollutants causing sick house syndrome discharged from the interior finishing material by the temperature heated by heat source means, it measures 40 degrees Celsius by measuring indoor temperature with wireless temperature measuring device installed indoors. Adjusting the room temperature by controlling the operation of the heat source means when the temperature is higher than any one selected from 45 degrees; Removing the apparatus after 3 to 5 hours and ventilating the indoor space; Applying a surface of the interior finish material with a chemical;

The method for reducing indoor air pollutants according to the prior art is based on a bake-out method known to be effective for removing volatile organic compounds. Table 1 of the prior art shows that the concentration of formaldehyde, which is a representative pollutant, is reduced. .

However, the volatile organic compounds are not all released even through the bake out process, and some of them are vaporized and some remain. In particular, formaldehyde, a carcinogen penetrated into wood or furniture to protect wood, has a weak baking effect since wood itself is a heat insulator. Therefore, after the method of reducing indoor air pollutants according to the prior art, time passes again. The indoor air will then be polluted with new releases of volatile organic compounds and formaldehyde, a preservative.

In addition, the method for reducing indoor air pollutants according to the prior art is based only on the bake-out method, and since the heating temperature may be uneven depending on which location in the room, the effect of construction may also vary depending on the location. There was a problem.

In addition, the method for reducing indoor air pollutants according to the prior art is to remove only volatile organic compounds, and measures to reduce fine dust and harmful bacteria except volatile organic compounds among various causes of atopic dermatitis and sick house syndrome are taken. There was a problem that the lack of air pollutants can not be completely removed.

The present invention is to solve the above problems, an object of the present invention is to reduce the indoor air pollutants to implement a method for reducing indoor air pollutants and to suppress the release of new volatile organic compounds after a certain period of time. To provide.

In addition, the object of the present invention is to minimize the variation of the construction effect according to the location when performing the indoor air pollutant reduction method, and to reduce not only volatile organic compounds but also fine dust and harmful bacteria, etc. It provides a method for reducing pollutants to heal and inhibit atopic dermatitis, sick house syndrome and new car syndrome.

In order to solve the problems of the present invention as described above, the method for reducing indoor air pollutants according to the present invention comprises the steps of: spraying a toxic chemical remover to indoor furniture and building materials; Releasing ozone in the room air; And collecting dust in the indoor air; and reducing atopic and birdhouse syndrome causing substances in the indoor air.

In addition, the indoor air pollutant reduction method according to the present invention, in the step of spraying the toxic chemical removal agent to the furniture and building materials in the room, the toxic chemical removal agent is a substance to decompose formaldehyde and volatile organic compounds, By spraying the toxic chemical removing agent to the indoor furniture and building materials, the toxic chemical removing agent penetrates into the indoor furniture and building materials, thereby continuing to formaldehyde and volatile organic compounds in the indoor furniture and building materials. Characterized in that it can be removed.

In addition, the method for reducing indoor air pollutants according to the present invention may include: operating an indoor heating device to raise an indoor temperature to a predetermined temperature; Spraying a toxic chemical remover to indoor furniture and building materials; Applying a hazardous chemical shielding agent to indoor furniture and building materials; Releasing ozone in the room air; And collecting dust in the indoor air; and reducing atopic and birdhouse syndrome causing substances in the indoor air.

In addition, the indoor air pollutant reduction method according to the present invention, in the step of applying the harmful chemical shielding agent to the furniture and building materials in the room, the harmful chemical shielding agent prevents the passage of harmful substances through the furniture and It is characterized in that the coating agent formed on the surface of the building material.

In addition, the indoor air pollutant reduction method according to the present invention, after the step of collecting the fine dust in the indoor air, the step of spraying a material containing phytoncide in the indoor air; characterized in that it further comprises.

In addition, the indoor air pollutant reduction method according to the present invention, in the step of spraying the harmful chemical substance remover to the indoor furniture and building materials, the furniture and building materials in the room, furniture, plywood, leather sofa, paint coating Surface, floor, characterized in that it comprises.

In addition, the method for reducing indoor air pollutants according to the present invention further includes the step of applying an anion coating agent to the cement wall, the anion coating agent shields the release of radon from the cement wall and at the same time provides an anion beneficial to the human body indoors. Characterized in that it can be released.

In addition, the indoor air pollutant reduction method according to the present invention, the method comprising: spraying a toxic chemical remover to the interior parts of the vehicle interior; Releasing ozone into the vehicle interior air; And collecting particulate matter in the air of the vehicle; and reducing the new car syndrome causing substance in the indoor air.

According to the method of reducing indoor air pollutants according to the present invention as described above, volatile organic compounds including formaldehyde in indoor air, which is the main cause of sick house syndrome, new car syndrome and atopic dermatitis, are completely removed, and these harmful substances after a certain time have passed. The effect is to provide a method for reducing indoor air pollutants that can suppress the release of new substances.

In addition, it is possible to remove not only volatile organic compounds among indoor air pollutants but also fine dust, bacteria, molds, and the like at once, and thus, the effect of completely removing the substances causing the sick house syndrome and atopic dermatitis occurs.

1 is a flow chart showing a method for reducing indoor air pollutants according to the present invention.
Figure 2 shows the liquid jet used in the method for reducing indoor air pollutants according to the present invention.
Figure 3 shows the ozone generator used in the method for reducing indoor air pollutants according to the present invention.
Figure 4 shows the dust collector used in the method for reducing indoor air pollutants according to the present invention.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the indoor air pollutant reduction method according to the present invention will be described in detail.

1 is a flow chart showing a method for reducing indoor air pollutants according to the present invention. As shown in Figure 1, the indoor air pollutant reduction method according to the present invention includes a step (S1) to increase the room temperature to 38 ~ 40 ℃ by operating the indoor heating device.

When the room temperature rises to 38 ~ 40 ℃, volatile organic compounds that cause sick house syndrome and atopic dermatitis are released from furniture and building materials. Volatile organic compounds start to be released in large quantities when the room temperature starts to exceed 24 degrees. However, if the room temperature is too high for the release of volatile organic compounds, energy may be wasted, and furniture and building materials in the room may be deformed, so it is appropriate to increase the room temperature to 38 to 40 ° C.

The step S1 of raising the room temperature may be repeatedly performed. By increasing the room temperature first, turning off the heating device, ventilating it, and then using the process of repeatedly increasing the room temperature after a certain time, the volatile organic compounds can be discharged more efficiently.

After volatile organic compounds are released from the furniture and building materials through the step S1 of increasing the room temperature, the step S2 of spraying the toxic chemical remover to the furniture and building materials in the room is performed. Examples of harmful chemical removers include formaldehyde removers and chemical decomposition agents.

Formaldehyde remover has been developed a variety of substances that decompose formaldehyde can be used to choose a liquid from these. Chemical decomposition agents have been developed to absorb or decompose harmful or odorous substances using oils, minerals and catalysts as raw materials. This is injected into the liquid injection device 2 shown in FIG. 2 and sprayed to the target position through the nozzle. At this time, the chemical decomposer may be injected after the formaldehyde remover is injected, or only the formaldehyde remover may be injected or the chemical decomposer may be injected, depending on the type of contaminants in the room, the formaldehyde remover and the chemical You can also mix and disintegrate the disintegrant.

The main targets for spraying the toxic chemical remover include, for example, wood parts such as furniture and plywood, leather sofas, painted paint surfaces, and floors that can emit volatile organic compounds including formaldehyde.

When the toxic chemical remover is sufficiently sprayed on wood, such as furniture and plywood, the toxic chemical remover will seep into the wood. Therefore, formaldehyde and volatile organic compounds that penetrate deep into the wood are released and then decomposed with the toxic chemical remover that penetrates into the wood so that harmful substances can be prevented from being released to the outside even after a long time after construction. have.

After performing the step (S2) of spraying the toxic chemical removal agent to the indoor furniture and building materials, the step of applying the toxic chemical shielding agent to the indoor furniture and building materials (S3).

Volatile organic compounds, including formaldehyde, and other harmful chemicals, including the formaldehyde, are processed through the step of raising the room temperature by operating the heating system (S1) and spraying the harmful chemical remover to the furniture and building materials of the room (S2). Much is removed. However, some of the volatile organic compounds may remain in furniture and building materials and then be released later. Therefore, harmful chemical shielding agents are used to prevent them.

Hazardous chemical shielding agents include coatings and paint shielding agents. When the toxic chemical shielding agent is applied to furniture and building materials, a film is formed on the surface of the furniture and building materials that cannot pass harmful substances such as volatile organic compounds. Therefore, it is possible to prevent the release of residual harmful chemicals. The hazardous chemical shielding agent may be sprayed onto the surface of furniture and building materials by using the liquid spraying device 2 shown in FIG. 2, or may be applied using a roller, a sponge, a brush, or the like.

When the step (S3) of applying the harmful chemical shielding agent to the indoor furniture and building materials is completed, the step (S4) to release the ozone in the indoor air is carried out. Ozone is an incomplete element that decomposes oxygen molecules and oxygen atoms, and oxygen atoms oxidize other substances. Ozone oxidizes and decomposes organic substances that cause odors, destroys bacteria and viruses, and reacts with volatile organic compounds.

In particular, formaldehyde (HCHO), ozone (O ₃₎ reacts with the decomposed with formic acid (HCOOH) and oxygen (O _2), benzene (C ₆ H ₆₎ is reacted with ozone (O ₃₎ of carbon dioxide (CO ₂ ) And water (H ₂ O). Since the human body is exposed to ozone, it is harmful to enter the room while this process is in progress, and protective equipment must be worn when entering the room.

3 shows an ozone generator 3 for generating ozone. An electrode is installed inside the ozone generator 3, and when oxygen is introduced into the ozone generator 3 to cause a discharge phenomenon between the electrodes, oxygen in the air is changed to ozone. Many other methods and devices for generating ozone have been developed. When ozone is released into the room using an ozone generator 3 in an appropriate amount according to the volume of the indoor space, the ozone can remove residual harmful chemicals and bacteria.

Formaldehyde and volatile organic compounds are first removed through the step (S2) of spraying a toxic chemical remover to the furniture and building materials in the room, and secondly to remove ozone in the room air (S4). In the step (S2) of spraying a toxic chemical remover to indoor furniture and building materials, it is directly applied to the indoor furniture and building materials, which is the main cause of the toxic substances. It can be completely removed through the step (S4) to release the ozone.

When the step (S4) of releasing ozone in the indoor air is completed, the step (S5) of collecting dust in the indoor air with a dust collector is performed. Since ozone is harmful when the human body is exposed, the step of releasing ozone in the indoor air (S4) and the step of collecting fine dust in the indoor air with a dust collector (S5) also includes the step of releasing ozone in the room to the outside through ventilation. It can also protect workers.

In addition to harmful chemicals such as volatile organic compounds, mold, mites, and various fine dusts may also be a cause of sick house syndrome, atopic dermatitis and other diseases. Therefore, it is necessary to remove these using the dust collector 5.

In addition, fine dust may be generated during the operation while performing the above-described steps (S1, S2, S3, S4), and the fine dust may form a material polluting indoor air.

The dust collector 5 is shown in FIG. 4 and is equipped with an air purifying filter therein. After removing the fine dust by passing the air including the external fine dust into the dust collector (5) through the filter to remove the purified air to the outside through the forced air blowing.

When the step (S5) of collecting the dust in the indoor air with a dust collector is completed, it is possible to finish the work by spraying a beneficial substance to the human body, such as phytoncide in the indoor air. Phytoncide is an antimicrobial substance derived from plants, and when people drink air containing phytoncide, the organs and cardiopulmonary function are improved, and the emotion is stabilized.

In addition, in some cases, by adding an anionic coating agent to the cement wall can be added to the construction.

Radium is present in building materials such as concrete, gypsum board, and asbestos slate. When the radium decays, the radioactive gas radon can be released into the room. Radon is a carcinogen and is absorbed into the body through breathing. Thus, in order to prevent the release of radon from the cement wall surface, an anionic coating agent is applied to the cement wall or the like.

Anion coating agent is intended to shield the release of radon and at the same time release the anion beneficial to the human body indoors. An anionic coating agent uses calcium silicate-based binders based on minerals such as natural jade, elvan, germanium, and the like. Anionic coating agent is made by mixing a binder and a mineral. Natural jade, elvan, and germanium release anion into the room.

The method for reducing indoor air pollutants according to the present invention removes harmful chemicals such as volatile organic compounds, bacteria, and fine dust in indoor air by going through a complex process in several stages for the treatment and prevention of sick house syndrome and atopic dermatitis. It helps. In addition, the step of raising the room temperature by operating the indoor heating device (S1), the step of spraying toxic chemical remover to the furniture and building materials in the room (S2), spraying the hazardous chemical shielding agent to the indoor furniture and building materials By performing the step (S3), the step of releasing ozone in the indoor air (S4) in sequence to remove harmful chemicals such as volatile organic compounds in several steps, the harmful chemicals are almost completely removed, Even after a long time after the method for removing indoor air pollutants caused by the indoor air pollutants, there is an effect that can prevent the release of harmful chemicals again.

The method for reducing indoor air pollutants according to the present invention may be applied to a new car to prevent new car syndrome. In this case, in the step (S2) of spraying a toxic chemical remover to the furniture and building materials in the room and the step of applying the toxic chemical shielding agent to the furniture and building materials in the room (S3), instead of the indoor furniture and building materials in the car interior Hazardous chemicals removal agents and hazardous chemical shielding agents can be applied to plastic materials such as dashboards, leather sheets, silicones and paints.

2 Liquid injection device 3 Ozone generator
5 dust collector

Claims (8)

delete delete Operating a room heating device to raise the room temperature to a predetermined temperature;
Spraying a toxic chemical remover to indoor furniture and building materials;
Applying a hazardous chemical shielding agent to indoor furniture and building materials;
Releasing ozone in the room air;
And collecting fine dust in the indoor air.
In the step of spraying the toxic chemical remover to the indoor furniture and building materials, the toxic chemical remover is a substance that decomposes formaldehyde and volatile organic compounds,
By spraying the toxic chemical remover to the indoor furniture and building materials, the toxic chemical removing agent penetrates into the indoor furniture and building materials to formaldehyde and volatile organic compounds inherent in the indoor furniture and building materials To be removed continuously,
In the step of applying the harmful chemical shielding agent to indoor furniture and building materials,
The harmful chemical shielding agent is a coating agent that forms a film on the surface of the furniture and building materials of the interior of the harmful substances pass through, reducing the indoor air pollutants to reduce atopic and birdhouse syndrome causing substances in the indoor air . delete The method of claim 3, wherein
After the step of collecting the fine dust in the indoor air is completed,
Injecting a substance containing phytoncide in the indoor air; Indoor air pollutant reduction method further comprising. The method of claim 3, wherein
In the step of spraying the toxic chemical remover to the furniture and building materials in the room,
The indoor furniture and building materials, furniture, plywood, leather sofa, paint coating surface, flooring floor, characterized in that it comprises a floor. The method of claim 3, wherein
After the step of collecting the fine dust in the indoor air is completed,
Further comprising applying an anionic coating agent to the cement wall,
The method for reducing indoor air pollutants, characterized in that the anion coating agent to shield the release of radon from the cement wall and at the same time to release anion beneficial to the human body indoors.

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