KR20230163154A - Chlorine dioxide water manufacturing kit - Google Patents

Abstract

The chlorine dioxide water production kit according to an embodiment of the present invention includes a kit body 110 in which a water inlet 111 for injecting water into the inside is installed and a space for storing the water injected into the inside is formed; It is disposed inside the kit body 110 and is made of a material that allows the water injected into the kit body 110 to flow inside and out, and sodium chloride oxalate (121) (NaClO ₂ ) that reacts with the water introduced inside. ) is stored in the first reaction unit 120; And it is disposed 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 in and out, and flows into the inside. a second reaction unit 130 containing a solid acidic substance 131 that reacts with water; and sodium chloride oxalate stored in the first reaction unit 120 and the second reaction unit 130. As 121) and the solid acidic material 131 react with water injected through the water inlet 111, the first dissolved material and the second dissolved material produced are dissolved with water inside the kit body 110. By mixing, chlorine dioxide water is produced.

Description

Chlorine dioxide water manufacturing kit

The present invention does not install a separate ultraviolet irradiation device, injection device, pressurization device, or power device to operate them, so it is small in size and simple to construct, thereby increasing portability and convenience in use, and the handling and storage stability are significantly improved. This is about a chlorine water preparation kit.

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

In addition, chlorine dioxide not only has more than 5 times the oxidizing power and 10 times more solubility in water than the widely used chlorine oxidizer, but also does not produce chloramine, a known toxic ingredient, so it has recently been used in beverage manufacturing processes and food products, especially in developed countries. It is receiving widespread attention as an alternative oxidizing agent to chlorine in various industrial fields, ranging from sterilization and disinfection in processing and storage processes, water purification plants, and organic matter and odor removal processes in sewage and wastewater treatment plants.

In particular, chlorine dioxide not only does not generate carcinogenic disinfection by-products such as trihalomethanes (THMs), haloacetic acids (HAAs), and haloacetonitrile (HANs), which are emerging as the biggest problem with chlorine-based oxidizing agents. It has the advantage of having a wide and high sterilizing power against various types of microorganisms, bacteria, and viruses in a wide pH range, and is almost the only substance that can remove resistant bacteria to chlorine-based disinfectants and biofilm, which is a breeding ground for bacteria. . Additionally, chlorine dioxide does not produce harmful sterilization by-products such as trihalomethanes and polychlorobiphenyls (PCBs).

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

Meanwhile, in order to manufacture a chlorine sterilizing material using a chemical reaction such as chlorine dioxide, a chlorine supply material that provides chlorine and a decomposition source that can decompose the chlorine supply material are required. In this regard, conventionally, a chlorine supply material is required. Various compounds such as chlorine, hypochlorous acid, and chlorous acid were used. In addition, acidic substances such as hydrochloric acid and compounds such as ozone have been used as decomposition sources for producing chlorine dioxide by decomposing chlorine supply materials, or energy sources such as ultraviolet rays have been used.

The 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 forming chlorine dioxide in a reaction medium in one or more reaction vessels; and recovering chlorine dioxide from the at least one reaction vessel, wherein the at least one process stream or reaction medium coming directly or indirectly from the at least one reaction vessel is used to extract chlorinated organic compounds from the at least one process stream. This is a technology that additionally includes the step of treating with an adsorbent that is effective in removing it.

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

In addition, the portable constant concentration pure chlorine dioxide gas generator described in Patent Publication No. 1736825 (announced on May 17, 2017) produces chlorine dioxide by attaching an air control valve to the dripping means and the sodium chlorite storage tank and the acid storage tank. It's technology.

In addition, the chlorine dioxide production device described in Japanese Patent Publication No. 2011-508718 (published on March 17, 2011, patent document 3) uses tank-shaped first to third raw material supply units and an inert gas supply unit to produce chlorine dioxide. It is a manufacturing technology.

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

However, the above inventions still use a separate ultraviolet irradiation device, a tank-type raw material storage unit, and pressurizing devices such as a pump to produce chlorine dioxide water, or a separate power device is required because an air injection device is installed. It had the problem of being overly large and complicated, as well as greatly reducing portability and convenience.

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

The present invention was created to solve the above problems, and the purpose of the present invention is to provide portability and convenience by being small in size and conveniently constructed without installing a separate ultraviolet irradiation device, injection device, pressurizing device, and power device to operate them. The goal is to provide a chlorine dioxide water production kit that can increase convenience of use.

In addition, the purpose of the present invention is to prevent the risk of leakage of high-concentration chlorine dioxide during the production and distribution of chlorine dioxide water, to safely produce chlorine dioxide water in the field when necessary, and to use solid reaction raw materials. The goal is to provide a chlorine dioxide water production kit with significantly improved handling and storage stability due to use.

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 will be clearly apparent to those skilled in the art from the description below. It will be understandable.

The chlorine dioxide water production kit 100 according to an embodiment of the present invention is provided with a water inlet 111 for injecting water into the inside, and a kit body 110 with a space for storing the water injected into the inside. ; Sodium chloride oxalate (NaClO ₂ , 121) is disposed inside the kit body 110 and is made of a material that allows water injected into the kit body 110 to flow inside and out, and reacts with the water introduced inside. This received first reaction unit 120; And it is disposed 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 in and out, and flows into the inside. a second reaction unit 130 containing a solid acidic substance 131 that reacts with water; and sodium chloride oxalate stored in the first reaction unit 120 and the second reaction unit 130. As 121) and the solid acidic material 131 react with water injected through the water inlet 111, the first dissolved material and the second dissolved material produced are dissolved with water inside the kit body 110. Chlorine dioxide water can be produced by mixing.

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 to prevent the water injected inside from leaking out. there is.

In the chlorine dioxide water production kit 100 according to an embodiment of the present invention, the solid sodium chloride oxalate 121 and the solid acid stored in the first reaction unit 120 and the second reaction unit 130 The material 131 may have a particle size 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 allow water injected into the kit body 110 to flow inside and outside. Fine holes of 0.1 to 1 um in size are allowed to flow and prevent the solid sodium chloride oxalate 121 and the solid acidic material 131 from being ejected to the outside of the first reaction unit 120 and the second reaction unit 130. It can be composed of a filter having .

In the chlorine dioxide 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 membrane filter.

In the chlorine dioxide water production kit 100 according to an embodiment of the present invention, the first reaction section 120 and the second reaction section 130 include a cellulose acetate membrane filter and a mixed cellulose ester. ) Membrane filter, polyethersulfone (PES) membrane filter, polytetrafluoroethylene (PTFE) membrane filter, nylon and polyamide (Polyamide) membrane filter, regenerated cellulose (Cellulose) membrane filter, polycarbonate (PC) membrane filter, It may be composed of one or a combination of two or more selected from the group consisting of 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 allow water injected into the kit body 110 to flow inside and outside. Fine holes of 0.1 to 1 um in size are allowed to flow and prevent the solid sodium chloride oxalate 121 and the solid acidic material 131 from being ejected to the outside of the first reaction unit 120 and the second reaction unit 130. It may be composed of a non-woven material having.

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

Since the present invention does not require the installation of a separate ultraviolet irradiation device, injection device, pressurizing device, and power device to operate them, it is possible to miniaturize the configuration, reduce manufacturing cost, and increase portability and convenience of use. .

The present invention can gradually produce chlorine dioxide water because the sodium chloride oxalate (121) and the solid acidic substance (131) are stored inside in a solid state, and thus the handling and storage stability of the reaction raw materials is excellent.

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

The present invention is to control the amount of sodium chloride oxalate (121) and the solid acidic substance (131) stored in the first reaction section (120) and the second reaction section (130) based on 1 L of water. It can be used for various purposes by adjusting the concentration.

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

Below, with reference to the attached drawings, embodiments of the present invention will be described in detail so that those skilled in the art can easily implement the present invention. However, since the description of the present invention is only an example for structural or functional explanation, the scope of the present invention should not be construed as limited by the examples described in the text. In other words, since the embodiments can be modified in various ways and can have various forms, the scope of 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 or only such effects, so the scope of the present invention should not be understood as limited thereby.

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

Terms such as “first” and “second” are used to distinguish one component from another component, and the scope of rights should not be limited by these terms. For example, a first component may be named a second component, and similarly, the second component may also be named a 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 that other components may also exist 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 are no other components in between. Meanwhile, other expressions that describe the relationship between components, such as "between" and "immediately between" or "neighboring" and "directly neighboring" should be interpreted similarly.

Singular expressions should be understood to include plural expressions unless the context clearly indicates otherwise, and terms such as “comprise” or “have” refer to installed features, numbers, steps, operations, components, parts, or combinations thereof. It is intended to specify the existence of one thing, and should be understood as not excluding in advance 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 field to which the present invention pertains. Terms defined in commonly used dictionaries should be interpreted as consistent with the meaning they have in the context of the related technology, and cannot be interpreted as having an ideal or excessively formal meaning unless clearly defined in the present invention.

The chlorine dioxide water production kit 100 according to an embodiment of the present invention is provided with a water inlet 111 for injecting water into the inside, and a kit body 110 with a space for storing the water injected into the inside. ; Sodium chloride oxalate (NaClO ₂ , 121) is disposed inside the kit body 110 and is made of a material that allows water injected into the kit body 110 to flow inside and out, and reacts with the water introduced inside. This received first reaction unit 120; And it is disposed 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 in and out, and flows into the inside. a second reaction unit 130 containing a solid acidic substance 131 that reacts with water; and sodium chloride oxalate stored in the first reaction unit 120 and the second reaction unit 130. As 121) and the solid acidic material 131 react with water injected through the water inlet 111, the first dissolved material and the second dissolved material produced are dissolved with water inside the kit body 110. By mixing, chlorine dioxide water is produced.

The kit body 110 is configured with a water inlet 111 installed on one side to inject water into the interior, and has sufficient space to store the water injected into the kit. This kit body 110 is preferably sized so that about 1L of water can be injected into it, excluding the space where the first reaction section 120 and the second reaction section 130 are arranged.

In addition, the water inlet 111 is opened to inject water or discharge chlorine dioxide water, or the water is injected and water is discharged to the outside while the reaction occurs in the first reaction section 120 and the second reaction section 130. It can be configured to close to prevent That is, the water inlet 111 can be opened when injecting water and discharging chlorine dioxide water, and the lid of the water inlet 111 can be closed so that it can be closed when a reaction occurs inside the kit body 11. It may be configured additionally.

In addition, in the chlorine dioxide water production kit 100 according to an embodiment of the present invention, the kit body 110 is configured in the form of a container or spout pack made of synthetic resin to prevent the water injected inside from leaking out. It can be. In addition, the kit body 110 is preferably configured to be sealed using a band sealer so that the remaining parts, excluding the water inlet 111, do not leak to the outside of the water flowing inside or the chlorine dioxide produced inside. .

The first reaction unit 120 is disposed inside the kit body 110 and is made of a material that allows water injected into the kit body 110 to flow inside and out, and reacts with the water introduced inside. It contains sodium chloride oxalate (121).

In addition, the sodium chloride oxalate 121 stored in the first reaction unit 120 is configured to react with water and dissolve, so that the generated first dissolved material flows out of the first reaction unit 120 and mixes with water. It can be. In addition, according to the implementation of the present invention, about 25 g of sodium chloride oxalate (121) can be stored in the first reaction unit (120) based on 1 L of water.

The second reaction unit 130 is disposed inside the kit body 110 and is made of a material that allows water injected into the kit body 110 to flow inside and out, and reacts with the water introduced inside. This configuration contains a solid acidic substance (131).

In addition, as the solid acidic substance 131 stored in the second reaction unit 130 reacts with water and dissolves, the generated second dissolved substance flows out of the second reaction unit 130 and dissolves the first dissolved substance. It can be configured to be mixed with substances and water. In addition, according to the implementation of the present invention, about 25 g of solid acidic material 131 can be stored in the second reaction unit 130 based on 1 L of water.

The concentration of the sodium chloride oxalate (121) and the solid acidic substance (131) to be produced is adjusted by adjusting the amount stored in the first reaction unit (120) and the second reaction unit (130) based on 1 L of water. It can be used for various purposes by adjusting it. For example, in the present invention, when chlorine dioxide water is used to remove dog odor, when sodium chloride oxalate (121) and solid acidic substance (131) are stored at 1 g per 1 L of water, about 100 ppm of chlorine dioxide is obtained. It becomes possible to manufacture numbers. Conversely, when using chlorine dioxide water for livestock disinfection, which requires a large amount of sterilizing water, more than 25 g of sodium chloride oxalate (121) and solid acidic substances (131) are stored per 1 L of water to reduce the amount of chlorine dioxide water. The concentration can be increased, and it can also be diluted by mixing with more water.

Therefore, since the present invention does not require the installation of a separate ultraviolet irradiation device, injection device, pressurizing device, and power device to operate them, it is possible to miniaturize the configuration, lower the manufacturing cost, and increase portability and convenience in use. You can.

And, in the chlorine dioxide water production kit 100 according to an embodiment of the present invention, sodium chloride oxalate 121 in a solid state stored in the first reaction unit 120 and the second reaction unit 130 and The body-shaped acidic material 131 may have a particle size 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 allow water injected into the kit body 110 to flow inside and outside. Fine holes of 0.1 to 1 um in size are allowed to flow and prevent the solid sodium chloride oxalate 121 and the solid acidic material 131 from being ejected to the outside of the first reaction unit 120 and the second reaction unit 130. It can be composed of a filter having .

That is, the first reaction unit 120 and the second reaction unit 130 are composed of filters having fine pores of 0.1 to 1 um in size, so that the water injected into the kit body 110 is supplied to the first reaction unit 120 and the second reaction unit 130. It is configured to allow free flow into and out of the second reaction unit 130, while preventing the solid sodium chloride oxalate 121 and the solid acidic substance 131 from being ejected to the outside.

Accordingly, the first dissolved material and The second dissolved material may flow out of the first reaction unit 120 and the second reaction unit 130 in a liquid state and be mixed with water.

That is, as the sodium chloride oxalate (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). The first dissolved material and the second dissolved material produced by dissolution are mixed with water inside the kit body 110 to produce chlorine dioxide water.

Accordingly, in the present invention, sodium chloride oxalate (121) and a solid acidic substance (131) are stored in a solid state in the first reaction unit 120 and the second reaction unit 130, respectively, so that water and Since chlorine dioxide water can be produced gradually while the reaction and dissolution occurs, the handling and storage stability of reaction raw materials is excellent.

In addition, the present invention can be manufactured on-site only when chlorine dioxide is needed, so unlike chlorine dioxide that is packaged in existing containers and contains a high concentration, the concentration does not decrease over time, so the shelf life is limited. Because the manufacturing kit is small in size and volume, it is very easy to store and dispose of after use.

In the chlorine dioxide 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 membrane filter. A description of these membrane filters is as follows.

The material of the membrane filter must be compatible with the chemical properties of the solution being filtered and the dissolved solute to prevent structural defects. Hydrophilic membrane filters are naturally wetted by water and are suitable for filtration of aqueous solutions. Hydrophobic membrane filters are suitable for filtration and discharge of gases and solvents with low surface tension, and are well wetted by organic solvents such as methanol, so they can filter both aqueous solutions and organic solvents. In the present invention, since chlorine dioxide is produced by mixing with water, it is preferable to use a hydrophilic membrane filter.

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

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 allow water injected into the kit body 110 to enter and It is possible to flow to the outside and has a size of 0.1 to 1 um so that the solid sodium chloride oxalate 121 and the solid acidic material 131 are not ejected to the outside of the first reaction unit 120 and the second reaction unit 130. It may be made of a non-woven material with microscopic holes.

That is, according to the implementation of the present invention, the first reaction unit 120 and the second reaction unit 130 are made of a non-woven material with micropores of 0.1 to 1 um in size, so that the water injected into the kit body 110 It is configured to allow free flow inside and outside of the first reaction unit 120 and the second reaction unit 130, while preventing the solid sodium chloride oxalate 121 and the solid acidic substance 131 from being ejected to the outside. It will happen.

In the chlorine dioxide water production kit 100 according to an embodiment of the present invention, the solid acidic material 131 is citric acid, lactic acid, ethylenediaminetetraacetate (EDTA), silica gel with the acidic material adsorbed, and It may be any one selected from the group consisting of zeolites. It is not limited to this, and the solid acidic material 131 can be replaced with various solid acidic materials.

As described above, the specific description of the present invention has been made through examples, but since the above-described embodiments are only explained by referring to preferred examples of the present invention, it is understood that the present invention is limited to the above-described embodiments. It should not be denied, and the scope of rights of the present invention should be understood in terms of the claims described later and their equivalent concepts.

100: Chlorine dioxide water production kit
110: Kit body
111: Water inlet
120: first reaction unit
121: Sodium oxalate
130: second reaction unit
131: Solid acidic substance

Claims (8)

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;
Sodium chloride oxalate (NaClO ₂ , 121) is disposed inside the kit body 110 and is made of a material that allows water injected into the kit body 110 to flow inside and out, and reacts with the water introduced inside. This received first reaction unit 120; and
It 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 out, and flows into the inside. It includes a second reaction unit (130) containing a solid acidic substance (131) that reacts with water,
The sodium chloride oxalate 121 and the solid acidic material 131 stored in the first reaction unit 120 and the second reaction unit 130 are dissolved as they react with water injected through the water inlet 111. Characterized in that the generated first dissolved material and second dissolved material are mixed with water inside the kit body 110 to produce chlorine dioxide water.
Chlorine dioxide production kit.
According to claim 1,
The kit body 110 is characterized in that it is composed of a container or spout pack made of synthetic resin to prevent the water injected inside from leaking out.
Chlorine dioxide production kit.
According to claim 1,
The solid sodium chloride oxalate (121) and the solid acidic material (131) stored in the first reaction unit 120 and the second reaction unit 130 are characterized in that the particle size is 1 to 100 um.
Chlorine dioxide production kit.
According to claim 3,
The first reaction unit 120 and the second reaction unit 130 allow water injected into the kit body 110 to flow inside and out, and contain solid sodium chloride oxalate 121 and solid acidic substances. (131) is characterized in that it is composed of a filter having fine holes of 0.1 to 1 um in size to prevent it from being ejected to the outside of the first reaction unit 120 and the second reaction unit 130.
Chlorine dioxide production kit.
According to claim 4,
The first reaction unit 120 and the second reaction unit 130 are characterized in that they are composed of a membrane filter.
Chlorine dioxide production kit.
According to claim 5,
The first reaction unit 120 and the second reaction unit 130 include a cellulose acetate membrane filter, a mixed cellulose ester membrane filter, a polyethersulfone (PES) membrane filter, and polytetrafluoroethylene. (PTFE) membrane filter, nylon and polyamide membrane filter, regenerated cellulose membrane filter, polycarbonate (PC) membrane filter, polypropylene (PP) membrane filter, and alumina oxide membrane filter. Characterized by consisting of one or a combination of two or more selected from the group
Chlorine dioxide production kit.
According to claim 3,
The first reaction unit 120 and the second reaction unit 130 allow water injected into the kit body 110 to flow inside and out, and contain solid sodium chloride oxalate 121 and solid acidic substances. Characterized in that (131) is made of a non-woven material having micro-pores of 0.1 to 1 um in size to prevent it from being ejected to the outside of the first reaction unit 120 and the second reaction unit 130.
Chlorine dioxide production kit.
According to claim 1,
The solid acidic material 131 is any one selected from the group consisting of citric acid, lactic acid, ethylenediaminetetraacetate (EDTA), silica gel with an acidic material adsorbed, and zeolite.
Chlorine dioxide production kit.