KR102758054B1 - Chlorine dioxide water manufacturing kit - Google Patents

Abstract

A kit for producing chlorine dioxide water according to an embodiment of the present invention comprises: a kit body (110) having a water inlet (111) for injecting water into the interior thereof, and a space for storing the water injected into the interior thereof; a first reaction unit (120) disposed inside the kit body (110) and made of a material that allows water injected into the kit body (110) to flow inside and outside thereof, and storing sodium hypochlorite (121) (NaClO ₂ ) that reacts with the water introduced into the interior thereof; And a second reaction unit (130) which is arranged inside the kit body (110) at a predetermined distance from the first reaction unit (120) and is made of a material that allows water injected into the kit body (110) to flow inside and outside, and in which a solid acidic substance (131) that reacts with the water introduced into the inside is stored; Including the sodium bichloride (121) and the solid acidic substance (131) stored in the first reaction unit (120) and the second reaction unit (130) react with water injected through the water inlet (111), and the first dissolved substance and the second dissolved substance that are produced by dissolving are mixed with water inside the kit body (110) to produce chlorine dioxide water.

Description

{Chlorine dioxide water manufacturing kit}

The present invention relates to a chlorine dioxide water production kit having a small size and simple configuration without installing a separate ultraviolet irradiation device, an injection device, a pressurizing device, and a power device for operating the same, thereby increasing portability and convenience of use, and significantly improving handling and storage stability.

In general, chlorine dioxide (ClO2) is a powerful oxidizing agent that oxidizes almost all bacteria, viruses, molds (anthrax), and toxic chemicals, but it is a safe substance for the human body when used in appropriate concentrations (WHO safety standard A-1 grade).

In addition, chlorine dioxide has an oxidizing power that is 5 times higher and a solubility in water that is 10 times higher than that of the chlorine oxidizer that is widely used in the past. In addition, it does not produce chloramine, which is known to be a toxic substance. Therefore, it is widely used as an alternative oxidizer for chlorine in various industrial fields, including sterilization and disinfection in beverage manufacturing processes, food processing and storage processes, and organic matter and odor removal processes in water purification plants and wastewater treatment plants, especially in advanced countries.

In particular, chlorine dioxide not only does not produce carcinogenic disinfection by-products such as trihalomethanes (THMs), haloacetic acids (HAAs), and haloacetonitriles (HANs), which are emerging as the biggest problems of chlorine-based oxidizers, but also has the advantage of having a wide range of high sterilizing power against various types of microorganisms, bacteria, and viruses in a wide pH range, and is virtually the only substance that can remove resistant bacteria and biofilms, which are a breeding ground for bacteria, of chlorine-based disinfectants. In addition, chlorine dioxide does not produce harmful sterilization by-products such as trihalomethanes and polychlorobiphenyls (PCBs).

In addition, chlorine dioxide, which is both an oxidizing agent and a sterilizing agent, has a strong sterilizing power that completely removes various viruses, protozoa, etc. compared to existing oxidizing sterilizing agents such as chlorine, ozone, bromine chloride, and chloramine, and also has the function of oxidizing heavy metals such as iron and manganese and precipitating them as oxides and hydroxides.

Meanwhile, in order to manufacture a chlorine sterilizing agent using a chemical reaction such as chlorine dioxide, both a chlorine supply material that provides chlorine and a decomposition source that can decompose the chlorine supply material are required. In relation to this, various compounds such as chlorine, hypochlorous acid, and hypochlorous acid have been used as chlorine supply materials in the past. In addition, acidic substances such as hydrochloric acid and compounds such as ozone have been used as decomposition sources for manufacturing chlorine dioxide by decomposing chlorine supply materials, or energy means such as ultraviolet rays have been used.

A conventional method or device for producing chlorine dioxide water is as follows.

First, the method for producing chlorine dioxide described in Patent Publication No. 1416785 (announced on July 16, 2014) includes the steps of forming chlorine dioxide in a reaction medium in one or more reaction vessels; and recovering chlorine dioxide from the one or more reaction vessels, and is a technology that further includes the step of treating one or more process streams or reaction medium directly or indirectly coming from the one or more reaction vessels with an adsorbent effective to remove chlorinated organic compounds from the one or more process streams.

In addition, the chlorine dioxide injection device capable of selectively injecting gas, solution, and foam described in Patent Publication No. 1977036 (announced on May 10, 2019) is a technology that requires supplying sodium chlorite and acid solution using a pump and supplying air to a chlorine dioxide reaction tank using an air pump when producing chlorine dioxide.

And, the portable constant concentration pure chlorine dioxide gas generator described in Patent Publication No. 1736825 (announced on May 17, 2017) is a technology for producing chlorine dioxide by attaching an air control valve to a dripping means, a sodium chlorite storage tank, and an acid storage tank.

In addition, the chlorine dioxide manufacturing device described in Japanese Patent Publication No. 2011-508718 (published on March 17, 2011, patent document 3) is a technology for manufacturing chlorine dioxide using first to third raw material supply sections in the form of tanks and an inert gas supply section.

In addition, the high-yield pure chlorine dioxide production device described in Patent Publication No. 1901260 (published on September 28, 2018) filed by the applicant of the present invention discloses a technology for producing chlorine dioxide using a low-concentration sodium chlorite solution and a sulfuric acid solution, but is still a technology for producing chlorine dioxide using a first air pump and a second air pump.

However, the above inventions still have the problem that they require a separate ultraviolet irradiation device, a tank-shaped raw material storage unit, and a pressurizing device such as a pump to manufacture chlorine dioxide water, or that a separate power device is required because an air injection device is installed, making the device excessively large and complex, and greatly reducing portability and convenience.

: Patent Publication No. 1416785 (announced on July 16, 2014) : Patent Publication No. 1977036 (Published on May 10, 2019) : Patent Publication No. 1736825 (announced on May 17, 2017) : Japanese Patent Publication No. 2011-508718 (Published on March 17, 2011) : Patent Publication No. 1901260 (Published on September 28, 2018)

The present invention was created to solve the above problems, and the purpose of the present invention is to provide a chlorine dioxide water production kit that is small in size and simply configured without installing a separate ultraviolet irradiation device, injection device, pressurization device, and power device for operating the same, thereby increasing portability and convenience of use.

In addition, the purpose of the present invention is to provide a chlorine dioxide water manufacturing kit that prevents the risk of leakage of high-concentration chlorine dioxide water in advance during the manufacturing and distribution process of chlorine dioxide water, and can safely manufacture chlorine dioxide water on-site when necessary, and has significantly improved handling and storage stability because it uses a solid reaction raw material.

However, the technical problems to be achieved in the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned can be clearly understood by a person having ordinary skill in the technical field to which the present invention belongs from the description below.

A kit (100) for producing chlorine dioxide water according to an embodiment of the present invention comprises: a kit body (110) in which a water inlet (111) for injecting water into the interior is installed and a space for storing the water injected into the interior is formed; a first reaction unit (120) arranged inside the kit body (110) and made of a material that allows water injected into the kit body (110) to flow inside and outside, and storing sodium chlorite (NaClO ₂ , 121) that reacts with the water introduced into the interior; And a second reaction unit (130) disposed inside the kit body (110) at a predetermined distance from the first reaction unit (120), and made of a material that allows water injected into the kit body (110) to flow inside and outside, and in which a solid acidic substance (131) that reacts with the water introduced into the inside is stored; Including the sodium chlorite (121) and the solid acidic substance (131) stored in the first reaction unit (120) and the second reaction unit (130) react with water injected through the water inlet (111), and the first dissolved substance and the second dissolved substance that are produced by dissolving are mixed with water inside the kit body (110), so that chlorine dioxide water can be produced.

In the chlorine dioxide water production kit (100) according to an embodiment of the present invention, the kit body (110) may be configured in the form of a container or spout pack made of synthetic resin material to prevent water injected into the interior from leaking out.

In the chlorine dioxide water production kit (100) according to an embodiment of the present invention, the solid sodium chlorite (121) and solid acidic substance (131) stored in the first reaction unit (120) and the second reaction unit (130) may have particle sizes of 1 to 100 um.

In the chlorine dioxide water production kit (100) according to an embodiment of the present invention, the first reaction unit (120) and the second reaction unit (130) may be configured as filters having microscopic holes of 0.1 to 1 um in size so that water injected into the kit body (110) can flow internally and externally, while solid sodium chlorite (121) and solid acidic substance (131) are not ejected to the outside of the first reaction unit (120) and the second reaction unit (130).

In the chlorine dioxide water production kit (100) according to an embodiment of the present invention, the first reaction unit (120) and the second reaction unit (130) may be configured as membrane filters.

In the chlorine dioxide water production kit (100) according to an embodiment of the present invention, the first reaction unit (120) and the second reaction unit (130) may be composed of one or a combination of two or more selected from the group consisting of a cellulose acetate membrane filter, a mixed cellulose ester membrane filter, a polyethersulfone (PES) membrane filter, a polytetrafluoroethylene (PTFE) membrane filter, a nylon and polyamide membrane filter, a regenerated cellulose (Cellulose) membrane filter, a polycarbonate (PC) membrane filter, a polypropylene (PP) membrane filter, and an alumina oxide membrane filter.

In the chlorine dioxide water production kit (100) according to an embodiment of the present invention, the first reaction unit (120) and the second reaction unit (130) may be composed of a non-woven fabric material having microscopic holes of 0.1 to 1 um in size so that water injected into the kit body (110) can flow internally and externally, while solid sodium chlorite (121) and solid acidic substance (131) are not ejected to the outside of the first reaction unit (120) and the second reaction unit (130).

In the chlorine dioxide water production kit (100) according to an embodiment of the present invention, the solid acidic substance (131) may be any one selected from the group consisting of citric acid, lactic acid, ethylenediaminetetraacetate (EDTA), silica gel and zeolite to which an acidic substance is adsorbed.

Since the present invention does not require the installation of separate ultraviolet irradiation devices, injection devices, pressurizing devices, and power devices for operating them, the configuration can be miniaturized, manufacturing costs can be reduced, and portability and convenience of use can be increased.

Since the present invention allows for the slow production of chlorine dioxide water because both sodium chlorite (121) and solid acid substance (131) are stored in a solid state inside, the handling and storage stability of the reaction raw materials are excellent.

The present invention can be manufactured on-site only when chlorine dioxide water is needed, and unlike existing chlorine dioxide water packaged in a high-concentration container, the concentration does not decrease over time, so there is no limitation on the distribution period, and the size and volume of the manufacturing kit are small, making it very easy to store and dispose of after use.

The present invention can be utilized for various purposes by controlling the concentration of chlorine dioxide water to be produced by controlling the amount of sodium chlorite (121) and solid acid substance (131) stored in the first reaction unit (120) and the second reaction unit (130) based on 1 L of water.

Figure 1 is a configuration diagram illustrating a chlorine dioxide water production kit according to an embodiment of the present invention.

Hereinafter, with reference to the attached drawings, embodiments of the present invention will be described in detail so that a person having ordinary skill in the art to which the present invention pertains can easily implement the present invention. However, since the description of the present invention is merely an embodiment for structural and functional explanation, the scope of the rights of the present invention should not be construed as being limited by the embodiments described in the text. That is, since the embodiments can be variously modified and can have various forms, the scope of the rights of the present invention should be understood to include equivalents that can realize the technical idea. In addition, the purpose or effect presented in the present invention does not mean that a specific embodiment must include all of them or only such effects, and therefore the scope of the rights of the present invention should not be understood as being limited thereby.

The meanings of terms described in the present invention should be understood as follows.

The terms "first", "second", etc. are intended to distinguish one component from another, and the scope of the right should not be limited by these terms. For example, the first component may be referred to as the second component, and similarly, the second component may also be referred to as the first component. When a component is referred to as being "connected" to another component, it should be understood that it may be directly connected to the other component, but there may also be another component in between. On the other hand, when a component is referred to as being "directly connected" to another component, it should be understood that there is no other component in between. Meanwhile, other expressions that describe the relationship between components, such as "between" and "directly between" or "adjacent to" and "directly adjacent to", should be interpreted in the same way.

A singular expression should be understood to include the plural expression unless the context clearly indicates otherwise, and terms such as "comprises" or "have" should be understood to specify the presence of installed features, numbers, steps, operations, components, parts, or combinations thereof, but not to exclude the possibility of the presence or addition of one or more other features, numbers, steps, operations, components, parts, or combinations thereof.

All terms used herein, unless otherwise defined, have the same meaning as commonly understood by a person of ordinary skill in the art to which the present invention belongs. Terms defined in commonly used dictionaries should be interpreted as having a meaning consistent with the contextual meaning of the relevant art, and shall not be interpreted as having an ideal or overly formal meaning unless explicitly defined in the present invention.

A kit (100) for producing chlorine dioxide water according to an embodiment of the present invention comprises: a kit body (110) in which a water inlet (111) for injecting water into the interior is installed and a space for storing the water injected into the interior is formed; a first reaction unit (120) arranged inside the kit body (110) and made of a material that allows water injected into the kit body (110) to flow inside and outside, and storing sodium chlorite (NaClO ₂ , 121) that reacts with the water introduced into the interior; And a second reaction unit (130) is disposed inside the kit body (110) at a predetermined distance from the first reaction unit (120), and is made of a material that allows water injected into the kit body (110) to flow inside and outside, and contains a solid acidic substance (131) that reacts with the water introduced into the inside; and the first dissolved substance and the second dissolved substance that are produced by dissolving as the sodium chlorite (121) and the solid acidic substance (131) stored in the first reaction unit (120) and the second reaction unit (130) react with the water injected through the water inlet (111) are mixed with water inside the kit body (110) to produce chlorine dioxide water.

The kit body (110) is configured such that a water inlet (111) is installed on one side to inject water into the interior, and sufficient space is formed to store the water injected into the interior. It is preferable that the kit body (110) be configured such that about 1 L of water can be injected into the interior, excluding the space where the first reaction unit (120) and the second reaction unit (130) are arranged.

In addition, the water inlet (111) can be configured to be opened to inject water or discharge chlorine dioxide water, or closed to prevent water from leaking out while water is injected and a reaction occurs in the first reaction unit (120) and the second reaction unit (130). That is, the water inlet (111) can be opened when injecting water and discharging chlorine dioxide water, and a lid of the water inlet (111) can be additionally configured to be closed when a reaction occurs inside the kit body (11).

In addition, in the kit (100) for producing chlorine dioxide water according to an embodiment of the present invention, the kit body (110) may be configured in the form of a container or spout pack made of synthetic resin material so that water injected into the inside does not leak out. In addition, it is preferable that the kit body (110) be configured in a sealed form using a band sealer so that the remaining part, except for the water inlet (111), does not allow water injected into the inside or chlorine dioxide water produced inside to leak out.

The first reaction unit (120) is arranged inside the kit body (110) and is made of a material that allows water injected into the kit body (110) to flow inside and outside, and is configured to store sodium chlorite (121) that reacts with water introduced inside.

In addition, the sodium chlorite (121) stored in the first reaction unit (120) may be configured so that the first dissolved substance generated by reacting with water and dissolving flows out of the first reaction unit (120) and mixes with water. In addition, according to the practice of the present invention, about 25 g of sodium chlorite (121) may be stored in the first reaction unit (120) based on 1 L of water.

The second reaction unit (130) is arranged inside the kit body (110) and is made of a material that allows water injected into the kit body (110) to flow inside and outside, and is configured to store a solid acidic substance (131) that reacts with water introduced inside.

In addition, the solid acidic substance (131) stored in the second reaction unit (130) may be configured such that the second dissolved substance generated by reacting with water and dissolving flows out of the second reaction unit (130) and mixes with the first dissolved substance and water. In addition, according to the practice of the present invention, about 25 g of the solid acidic substance (131) may be stored in the second reaction unit (130) based on 1 L of water.

These sodium chlorite (121) and solid acid substance (131) can be used for various purposes by controlling the concentration of the chlorine dioxide water to be produced by controlling the amount stored in the first reaction unit (120) and the second reaction unit (130) per 1 L of water. For example, when the present invention uses chlorine dioxide water for removing dog odor, when 1 g of sodium chlorite (121) and solid acid substance (131) are stored per 1 L of water, chlorine dioxide water of about 100 ppm can be produced. Conversely, when the chlorine dioxide water is used for disinfecting livestock houses that require a large amount of sterilizing water, the concentration of the chlorine dioxide water can be increased by storing more than 25 g of sodium chlorite (121) and solid acid substance (131) per 1 L of water, and it can also be diluted by mixing more water and used.

Accordingly, the present invention can miniaturize the configuration, reduce manufacturing costs, and increase portability and convenience of use because there is no need to install separate ultraviolet irradiation devices, injection devices, pressurizing devices, and power devices for operating them.

And, in the chlorine dioxide water production kit (100) according to an embodiment of the present invention, the solid sodium chlorite (121) and solid acidic substance (131) stored in the first reaction unit (120) and the second reaction unit (130) may have particle sizes of 1 to 100 um.

In the chlorine dioxide water production kit (100) according to an embodiment of the present invention, the first reaction unit (120) and the second reaction unit (130) may be configured as a filter having microscopic holes of 0.1 to 1 um in size so that water injected into the kit body (110) can flow internally and externally, while solid sodium bicarbonate (121) and solid acidic substance (131) are not ejected to the outside of the first reaction unit (120) and the second reaction unit (130).

That is, the first reaction unit (120) and the second reaction unit (130) are configured with filters having microscopic holes of 0.1 to 1 μm in size, so that water injected into the kit body (110) can flow freely into and out of the first reaction unit (120) and the second reaction unit (130), while solid sodium hypochlorite (121) and solid acidic substance (131) are not ejected to the outside.

Accordingly, the first dissolved substance and the second dissolved substance produced by dissolving the sodium chlorite (121) and the solid acid substance (131) stored in the first reaction unit (120) and the second reaction unit (130) as they react with water can flow out of the first reaction unit (120) and the second reaction unit (130) in a liquid state and mix with water.

That is, the sodium chlorite (121) and the solid acid substance (131) stored in the first reaction unit (120) and the second reaction unit (130) react with water injected through the water inlet (111), and the first dissolved substance and the second dissolved substance produced by dissolving are mixed with water inside the kit body (110) to produce chlorine dioxide water.

Accordingly, since the sodium chlorite (121) and the solid acid substance (131) are both stored in a solid state inside the first reaction unit (120) and the second reaction unit (130), respectively, chlorine dioxide water can be gradually produced while dissolving by reacting with water, so the handling and storage stability of the reaction raw materials are excellent.

In addition, the present invention can be manufactured on-site only when chlorine dioxide water is needed, and unlike existing chlorine dioxide water packaged in a high-concentration container, the concentration does not decrease over time, so there is no limitation on the distribution period, and the size and volume of the manufacturing kit are small, so it is very easy to store and dispose of after use.

In the chlorine dioxide water production kit (100) according to an embodiment of the present invention, the first reaction unit (120) and the second reaction unit (130) may be configured as membrane filters. The membrane filter is described as follows.

The membrane filter should be compatible with the chemical properties of the solution and dissolved solute to be filtered to prevent structural defects in the material, and a hydrophilic membrane filter is naturally easily wetted with water and suitable for filtering aqueous solutions. A hydrophobic membrane filter is suitable for filtering and discharging gases and solvents with low surface tension, and is well wetted with organic solvents such as methanol, so that both aqueous solutions and organic solvents can be filtered. In the present invention, since chlorine dioxide water is manufactured by mixing with water, it is preferable to use a hydrophilic membrane filter.

And, the membrane filter used in the present invention may include, for example, a cellulose acetate membrane filter, a mixed cellulose ester membrane filter, a polyethersulfone (PES) membrane filter, a polytetrafluoroethylene (PTFE) membrane filter, a nylon and polyamide membrane filter, a regenerated cellulose (Cellulose) membrane filter, a polycarbonate (PC) membrane filter, a polypropylene (PP) membrane filter, and an alumina oxide membrane filter.

Meanwhile, in the chlorine dioxide water production kit (100) according to an embodiment of the present invention, the first reaction unit (120) and the second reaction unit (130) may be composed of a non-woven fabric material having microscopic holes of 0.1 to 1 um in size so that water injected into the kit body (110) can flow inside and outside while solid sodium chlorite (121) and solid acidic substance (131) are not ejected outside the first reaction unit (120) and the second reaction unit (130).

That is, according to the present invention, the first reaction part (120) and the second reaction part (130) are configured with a non-woven material having microscopic holes of 0.1 to 1 um in size, so that water injected into the kit body (110) can flow freely into and out of the first reaction part (120) and the second reaction part (130), while the solid sodium chlorite (121) and the solid acidic substance (131) are not ejected to the outside.

In the chlorine dioxide water production kit (100) according to an embodiment of the present invention, the solid acidic substance (131) may be any one selected from the group consisting of citric acid, lactic acid, ethylenediaminetetraacetate (EDTA), silica gel and zeolite to which acidic substances are adsorbed. The solid acidic substance (131) is not limited thereto, and various solid-state acidic substances may be substituted.

As described above, although the present invention has been specifically described by way of examples, the above-described examples are only described as preferred examples of the present invention, and therefore, the present invention should not be understood as being limited to the above-described examples, and the scope of rights of the present invention should be understood by the claims described below and their equivalent concepts.

100 : Chlorine Dioxide Water Manufacturing Kit
110: Kit body
111 : Water inlet
120: First Reaction Section
121: Sodium chlorite
130: Second Reaction Section
131: Solid acid substance

Claims (8)

A kit body (110) having a water inlet (111) installed for injecting water into the interior and a space formed for storing the water injected into the interior;
A first reaction unit (120) is arranged inside the kit body (110) and is made of a material that allows water injected into the kit body (110) to flow inside and outside, and contains sodium chlorite (NaClO ₂ , 121) that reacts with the water introduced inside; and
A second reaction unit (130) is arranged inside the kit body (110) at a certain distance from the first reaction unit (120) and is made of a material that allows water injected into the kit body (110) to flow inside and outside, and contains a solid acidic substance (131) that reacts with the water introduced inside;
As the sodium chlorite (121) and the solid acid substance (131) stored in the first reaction section (120) and the second reaction section (130) react with water injected through the water inlet (111), the first dissolved substance and the second dissolved substance produced by dissolving are mixed with water inside the kit body (110) to produce chlorine dioxide water.
The above kit body (110) is configured in the form of a container or spout pack made of synthetic resin material to prevent the water injected inside from leaking out.
The solid sodium chlorite (121) and solid acid substance (131) stored in the first reaction unit (120) and the second reaction unit (130) have particle sizes of 1 to 100 um.
The first reaction unit (120) and the second reaction unit (130) are configured as filters having microscopic holes of 0.1 to 1 um in size so that water injected into the kit body (110) can flow inside and outside, while solid sodium hypochlorite (121) and solid acid substance (131) are not ejected outside the first reaction unit (120) and the second reaction unit (130).
The above kit body (110) is formed with a space for storing 1L of water injected through the water inlet (111).
The first reaction unit (120) and the second reaction unit (130) store 25 g of the sodium chlorite (121) and the solid acid substance (131) based on 1 L of water stored in the kit body (110), and it is possible to control the amount of the sodium chlorite (121) and the solid acid substance (131) stored in order to control the concentration of the chlorine dioxide water.
The above sodium chlorite (121) and solid acid substance (131) are stored in the first reaction unit (120) and the second reaction unit (130) in an amount of 1 g or 25 g or more based on 1 L of water stored in the kit body (110) to control the concentration of the chlorine dioxide water.
The above chlorine dioxide water is,
When the above sodium chlorite (121) and solid acid substance (131) are each stored in the first reaction unit (120) and the second reaction unit (130) in an amount of 1 g, chlorine dioxide water for removing the odor of a companion dog is produced.
When the above sodium chlorite (121) and solid acid substance (131) are stored in the first reaction unit (120) and the second reaction unit (130) in an amount of 25 g or more, it is characterized in that it is produced as chlorine dioxide water for livestock house disinfection.
Chlorine dioxide water production kit.
delete delete delete In paragraph 1,
The first reaction unit (120) and the second reaction unit (130) are characterized by being composed of a membrane filter.
Chlorine dioxide water production kit.
In paragraph 5,
The first reaction unit (120) and the second reaction unit (130) are characterized in that they are composed of one or a combination of two or more selected from the group consisting of a cellulose acetate membrane filter, a mixed cellulose ester membrane filter, a polyethersulfone (PES) membrane filter, a polytetrafluoroethylene (PTFE) membrane filter, a nylon and polyamide membrane filter, a regenerated cellulose (Cellulose) membrane filter, a polycarbonate (PC) membrane filter, a polypropylene (PP) membrane filter, and an alumina oxide membrane filter.
Chlorine dioxide water production kit.
A kit body (110) having a water inlet (111) installed for injecting water into the interior and a space formed for storing the water injected into the interior;
A first reaction unit (120) is arranged inside the kit body (110) and is made of a material that allows water injected into the kit body (110) to flow inside and outside, and contains sodium chlorite (NaClO ₂ , 121) that reacts with the water introduced inside; and
A second reaction unit (130) is arranged inside the kit body (110) at a certain distance from the first reaction unit (120) and is made of a material that allows water injected into the kit body (110) to flow inside and outside, and contains a solid acidic substance (131) that reacts with the water introduced inside;
As the sodium chlorite (121) and the solid acid substance (131) stored in the first reaction section (120) and the second reaction section (130) react with water injected through the water inlet (111), the first dissolved substance and the second dissolved substance produced by dissolving are mixed with water inside the kit body (110) to produce chlorine dioxide water.
The above kit body (110) is configured in the form of a container or spout pack made of synthetic resin material to prevent the water injected inside from leaking out.
The solid sodium chlorite (121) and solid acid substance (131) stored in the first reaction unit (120) and the second reaction unit (130) have particle sizes of 1 to 100 um.
The first reaction part (120) and the second reaction part (130) are made of a non-woven fabric material having microscopic holes of 0.1 to 1 um in size so that the water injected into the kit body (110) can flow inside and outside, while the solid sodium chlorite (121) and the solid acid substance (131) are not ejected outside the first reaction part (120) and the second reaction part (130).
The above kit body (110) is formed with a space for storing 1L of water injected through the water inlet (111).
The first reaction unit (120) and the second reaction unit (130) store 25 g of the sodium chlorite (121) and the solid acid substance (131) based on 1 L of water stored in the kit body (110), and it is possible to control the amount of the sodium chlorite (121) and the solid acid substance (131) stored in order to control the concentration of the chlorine dioxide water.
The above sodium chlorite (121) and solid acid substance (131) are stored in the first reaction unit (120) and the second reaction unit (130) in an amount of 1 g or 25 g or more based on 1 L of water stored in the kit body (110) to control the concentration of the chlorine dioxide water.
The above chlorine dioxide water is,
When the above sodium chlorite (121) and solid acid substance (131) are each stored in the first reaction unit (120) and the second reaction unit (130) in an amount of 1 g, chlorine dioxide water for removing the odor of a companion dog is produced.
When the above sodium chlorite (121) and solid acid substance (131) are stored in the first reaction unit (120) and the second reaction unit (130) in an amount of 25 g or more, it is characterized in that it is produced as chlorine dioxide water for livestock house disinfection.
Chlorine dioxide water production kit.
In clause 1 or clause 7,
The above solid acidic substance (131) is characterized by being one selected from the group consisting of citric acid, lactic acid, ethylenediaminetetraacetate (EDTA), silica gel and zeolite to which acidic substances are adsorbed.
Chlorine dioxide water production kit.