KR102437033B1 - Chlorine dioxide generator - Google Patents

Abstract

The present invention provides an acid group supply material storage unit containing an acid group supply material; A chlorite storage unit containing chlorite; and a housing portion including the acid group supply material storage portion and the chlorite storage portion therein, wherein the housing portion includes an air permeable portion formed on one surface to allow air to permeate, and the chlorite is absorbed into the moisture in the air. It relates to a chlorine dioxide generator, which reacts with the acid group feed material after being dissolved to generate chlorine dioxide.

Description

Chlorine dioxide generator {CHLORINE DIOXIDE GENERATOR}

The present invention relates to a chlorine dioxide generator. Specifically, it relates to a chlorine dioxide generator for generating chlorine dioxide by reacting with an acidic radical supply material after chlorite is dissolved in moisture in the air.

Chlorine dioxide (ClO ₂ ) is a compound that exists as a reddish-yellow gas at room temperature showing strong oxidation and bleaching action. It also has the characteristics of being easily soluble in water, highly volatile, and explosively decomposed by heat as well as easily decomposed by ultraviolet rays.

Due to the strong oxidation and bleaching action, chlorine dioxide is used for bleaching paper, pulp and fiber, disinfection of water and removal of odor-causing substances, removal of toxic inorganic substances, and removal of heavy metals. As the chlorine dioxide has a strong sterilization and deodorization effect on mold, virus, and bacteria as a food additive, it is used for removing mold from boxes or containers used for storage of agricultural products in the agricultural product distribution stage and for delaying aging of agricultural products. So, chlorine dioxide is actively used.

Not only that, but due to the recent pandemic of Coronavirus Infectious Disease-19 (COVID-19). The importance of sterilization and disinfection for viruses in daily life is not only emphasized, but in the post-Corona era, the appearance of quarantine in daily life is gradually increasing.

Accordingly, interest in chlorine dioxide generators having excellent sterilization and disinfection effects along with masks related to quarantine, hand sanitizers for cleanliness, and hand sanitizers is increasing.

In relation to such a chlorine dioxide generator, in the prior art Korean Patent No. 10-1688058, by enabling a reaction between sodium chlorite and an acidic group supply material by breaking the storage part of the material with an external force, the user wants to A device for generating chlorine dioxide has been proposed.

However, the device had the advantage of easy control of the generation time of chlorine dioxide, but there was a problem in that chlorine dioxide may be excessively generated at the beginning of generation and it is difficult to control the amount of generation. In addition, in that the sodium chlorite and the acid group supply material exist in liquid form in each storage unit, there is a inconvenience in use that the user has to store and manage the liquid chemical.

Similar to the prior art, in Korean Patent No. 10-1741919, a release string, a release pin, or a pin member configuration for a member containing a reactant is included in the device, and the reactant material is directly manipulated at the desired time point by the user. A device was proposed to start the chlorine dioxide generation reaction by effluent.

This also had the advantage of being able to directly control the generation time of chlorine dioxide, but at least one reactant had to be in the form of a liquid or a flowable gel, so there was still inconvenience in using liquid chemicals. . In addition, there was a problem in that it was difficult to control the generation amount of chlorine dioxide any more once the reaction started in that an additional external force had to be applied to tear or damage the member containing the reactant.

In addition, various methods for generating chlorine dioxide using a solid material rather than using a liquid chlorite and an acid supply material have been tried in the past.

First, Japanese Patent Application Laid-Open No. 11-278808 relates to a gel composition containing chlorine dioxide and an acidic super absorbent polymer, and has the advantage of using a gel-type material rather than a liquid one. However, for the preparation of the gel composition, there was a problem that the preparation process was not simple, such as preparing a chlorine dioxide solution by preparing an aqueous chlorite solution and a pH adjuster in advance, and then adding and stirring the superabsorbent polymer powder.

In addition, a card-type chlorine dioxide generator using pre-impregnated chlorine dioxide was also considered, but the concentration of chlorine dioxide generated at the time of initial opening was excessively high, and there were limitations in that it was not suitable for long-term use due to gas diffusion.

Japanese Patent Application Laid-Open No. 2007-217239 has an advantage in that it provides a chlorine dioxide generating composition comprising a solid chlorite and a solid acid. There was a limitation in the composition of the composition that it could start a reaction that generates chlorine dioxide by receiving moisture only by including it.

In addition, in order to solve the problem of not only providing the chlorite and acid supply material in the solid form, but also controlling the amount of chlorine dioxide generated, Korean Patent Application Laid-Open No. 10-2019-0084395 discloses a solid chlorine dioxide generating formulation instead of a liquid substance. We proposed a sustained-release chlorine dioxide generating formulation and generating pack that can stably and continuously generate chlorine dioxide and can be stored for a long time when not in use. Specifically, it corresponds to a technology in which an adsorbent to which chlorite coated with a polymer material is adsorbed and an activator containing an acid supply material are placed in a container having an openable and openable discharge port, packaged in a sealed state, and provided.

However, in the above generating formulation, chlorine dioxide starts to be generated only when water is added to the container of the chlorine dioxide generating pack, and it is inconvenient to use a separate water preparation. Limitations still existed.

Therefore, in order to overcome the limitations of the prior art, the form of reactants for the generation of chlorine dioxide is replaced with a solid phase, as well as the configuration and generation process included in the chlorine dioxide generator can be simplified to increase the user's convenience. There is a need for research on the method.

In addition, the concentration and amount of emitted chlorine dioxide can be easily adjusted according to the environment of use, so that it can be used for sterilization and disinfection in preparation for viruses in daily life, as well as maintaining freshness for a long period of time during distribution or storage of agricultural products. There is a need for R&D on devices that are continuously supplied.

(Patent Document 1) Republic of Korea Patent Publication No. 10-1688058

(Patent Document 2) Republic of Korea Patent Publication No. 10-1741919

(Patent Document 3) Japanese Patent Application Laid-Open No. 11-278808

(Patent Document 4) Japanese Patent Laid-Open No. 2007-217239

(Patent Document 5) Republic of Korea Patent Publication No. 10-2019-0084395

In order to solve the above problems, the present inventors can control the amount of chlorine dioxide generated and its preservation time according to the method of use of the chlorine dioxide generator, so that the sterilization and disinfection effect on viruses in daily life and freshness during long-term storage of agricultural products An object of the present invention is to provide a chlorine dioxide generator with excellent retention effect.

In addition, by using the deliquescent properties of chlorite exposed to the air, it is possible to easily generate chlorine dioxide by a simple method without including a configuration that provides additional moisture in addition to the solid chlorite and the solid acid group supply material. To provide a chlorine generator.

According to the 'first aspect' of the present invention,

an acid group supply material storage unit containing an acid group supply material; A chlorite storage unit containing chlorite; and a housing portion including the acid group supply material storage portion and the chlorite storage portion therein, wherein the housing portion includes an air permeable portion formed on one surface to allow air to permeate, and the chlorite is absorbed into the moisture in the air. There is provided a chlorine dioxide generator for generating chlorine dioxide by reacting with the acidic group supply material after being dissolved.

In one embodiment of the present invention, it may further include an adsorption unit positioned inside the housing unit to control the concentration of the chlorine dioxide.

In one embodiment of the present invention, the acid group supply material is a solid material formed by depositing a liquid acid group supply material on the acid group supply material storage unit and then drying, and the chlorite is a liquid chlorite. It is a solid material formed by depositing chlorate on the chlorite storage unit and drying it, and the material of the acid group supply material storage unit and the chlorite storage unit is paper, synthetic paper, non-woven fabric, synthetic non-woven fabric, and combinations thereof. It may be selected from the group consisting of.

In one embodiment of the present invention, the chlorite storage unit may be stacked on an upper surface of the acid group supply material storage unit, and one surface of the housing unit having the air permeable portion formed thereon may be disposed to face the chlorite storage unit.

In one embodiment of the present invention, the acidic group supply material is selected from the group consisting of citric acid (C ₆ H ₈ O ₇ ), acetic acid (CH ₃ COOH), lactic acid (CH ₃ CHOHCOOH), and combinations thereof, The chlorite may be selected from the group consisting of sodium chlorite, potassium chlorite, lithium chlorite, calcium chlorite, barium chlorite, magnesium chlorite, calcium chlorite, and combinations thereof.

In one embodiment of the present invention, it may further include an adhesive patch portion that is adhered to the air-permeable portion of the housing to block air permeation.

In one embodiment of the present invention, the adhesive patch part may be a means for controlling the inflow of air into the housing part by exposing the air permeable part to the air as the user partially removes the adhesive patch part.

In one embodiment of the present invention, the adhesive patch part has a form including a plurality of perforated lines formed at regular intervals or two or more adhesive patches having a certain size are continuously arranged on one end of the housing part and adhered. can

In one embodiment of the present invention, it may further include an opening/closing cover positioned on the air permeation unit to control air permeation.

In one embodiment of the present invention, further comprising a separation membrane interposed between the acid group supply material storage unit and the chlorite storage unit, wherein the separation membrane is a material between the acid group supply material storage unit and the chlorite storage unit It may include a material permeation unit that is a transfer passage.

In the chlorine dioxide generator according to the present invention, chlorine dioxide is pre-impregnated in a predetermined storage unit by dissolving chlorite in moisture in the air introduced through the air permeation unit of the housing and reacting with an acidic supply material to generate chlorine dioxide. Of course, there is an effect of generating chlorine dioxide through solid chlorite and acid group supply material without additional moisture provision composition.

In addition, the chlorine dioxide generator according to the present invention can control the amount of chlorine dioxide that is finally generated according to the purpose of the user by adjusting the amount of inlet air through a partially cut off or an openable cover of the adhesive patch part. It can have a sterilization and disinfection effect by using it on the back of a cell phone, wallet, card-type necklace, shoe insole, etc.

1 is a view showing an acid group supply material storage unit and a chlorite storage unit disposed inside the housing unit of the present invention.
2 is a view showing an example of use of the chlorine dioxide generator including the adhesive patch of the present invention.
3 is a view showing an example of use of the chlorine dioxide generator including the openable cover of the present invention.

Preferred examples are presented to help the understanding of the present invention, but the following examples are provided for easier understanding of the present invention, and the present invention is not limited thereto.

In addition, the size or shape of the components shown in the drawings may be exaggerated for clarity and convenience of explanation, and the terms specifically defined in consideration of the configuration and operation of the present invention may vary depending on the intention or custom of the user or operator. and definitions of these terms should be made based on the content throughout this specification.

In the case of a conventional chlorine dioxide generator, chlorine dioxide is generated by using liquid chlorite and acid group supply material, and without a separate additional configuration that provides moisture even if solid chlorite and acid group supply material are included. There was a limitation that chlorine could not be generated. In addition, since it is difficult to easily control the amount of chlorine dioxide generated after it starts to be generated, there is a limit to maintaining the freshness of agricultural products through the sterilization or deodorization effect as well as the sterilization and disinfection effect for a long time in daily life. there was a need

In order to solve the above problems, the inventors of the present invention generate chlorine dioxide by reacting with an acidic radical supply material after solid chlorite is dissolved in moisture in the air through deliquescent properties, and one surface of the housing part of the chlorine dioxide generator Forming an air permeable part for the permeation of external air in the , and finally controlling the amount of chlorine dioxide generated by adjusting the amount of air flowing into the air through the air permeable part through the cut-out or openable cover of the adhesive patch part. , to provide a chlorine dioxide generator.

Hereinafter, with reference to the accompanying drawings, the present invention will be described in detail.

The chlorine dioxide generator according to the present invention comprises: an acid group supply material storage unit containing an acid group supply material; A chlorite storage unit containing chlorite; and a housing portion including the acid group supply material storage portion and the chlorite storage portion therein, wherein the housing portion includes an air permeable portion formed on one surface to allow air to permeate, and the chlorite is absorbed into the moisture in the air. After being dissolved, it reacts with the acidic feed material to generate chlorine dioxide.

The acid group supply material and the chlorite of the present invention may be deposited on the acid group supply material storage unit and the chlorite storage unit, respectively. The material of the acid group supply material storage unit and the chlorite storage unit may be selected from the group consisting of paper, synthetic paper, non-woven fabric, synthetic non-woven fabric, and combinations thereof, preferably paper or non-woven fabric, and is not particularly limited thereto. does not

The present invention includes an acid group supply material storage unit containing the acid group supply material.

The acid group supply material may be a mixture of an acid group in a solvent such as water, and when the chlorite is decomposed, the acid group supply material loses electrons of ClO ₂ ⁻ to form chlorine dioxide (ClO ₂ ). The acidic group supply material is selected from the group consisting of an acidic group supply material capable of being solidified and combinations thereof, preferably citric acid (C ₆ H ₈ O ₇ ), acetic acid (CH ₃ COOH), lactic acid (CH ₃ CHOHCOOH) And it may be selected from the group consisting of combinations thereof, more preferably citric acid (C ₆ H ₈ O ₇ ).

The citric acid, acetic acid, and lactic acid are acid group supply materials, and since they are slightly acidic, they are harmless to the human body and easy to handle. In particular, citric acid, also called citric acid, is an acidic supply material that can be obtained from nature, such as tangerines and lemons, and has a sterilizing effect, so it can be used as an eco-friendly disinfectant for agricultural products.

The acid group supply material may be a solid material formed by depositing a liquid acid group supply material on the acid group supply material storage unit and then drying it or solidifying it in a mixed form with a gel, preferably the The acid group supply material may be a solid material formed by applying a liquid acid group supply material between the surface of the acid group supply material storage unit and minute gaps existing on the surface of the storage unit and drying it, but is not particularly limited thereto. it is not

The present invention includes a chlorite storage unit containing chlorite.

The chlorite may be selected from the group consisting of sodium chlorite, potassium chlorite, lithium chlorite, calcium chlorite, barium chlorite, magnesium chlorite, calcium chlorite, and combinations thereof, preferably sodium chlorite. have.

The sodium chlorite (NaClO ₂ ) is a compound used as a bleaching agent or a disinfectant, and may be used for bleaching pulp, synthetic fibers, fibers, sterilization of tap water, and the like.

The chlorite may be a solid material formed by depositing a liquid chlorite on the chlorite storage unit and then drying it or solidifying it in a mixed form with a gel. Preferably, the chlorite is the chlorite. It may be a solid material formed by drying after applying liquid chlorite between the surface of the storage unit and the minute gaps present on the surface of the storage unit, but is not particularly limited thereto.

The present invention includes a housing including the acid group supply material storage unit and the chlorite storage unit therein.

Referring to FIG. 1 , the acid group supply material storage unit and the chlorite storage unit may be inserted into the housing unit in an overlapping state, and an acid group supply material storage unit containing an acid group supply material is preferably disposed at the lower portion. and a chlorite storage unit containing chlorite is disposed thereon and may be inserted into the housing unit.

The material of the housing part may be selected from the group consisting of low-density polyethylene (LDPE), linear low-density polyethylene (LLDPE), and combinations thereof. The low-density polyethylene or the linear low-density polyethylene has excellent permeability and may be used as the housing part.

The housing includes an air permeable portion formed on one surface to allow air to pass therethrough. The air-permeable portion may include a plurality of perforations for passing air, and if the perforations are in a form through which air can pass, the form is not particularly limited. Air is introduced into the inside of the housing part from the outside through the air permeation part, and the chlorite is dissolved in moisture in the air, and a reaction for generating chlorine dioxide may be started.

After the chlorite is dissolved in the moisture in the air, it may react with the acid group supply material to generate chlorine dioxide.

Specifically, the acid group supply material contained in the acid group supply material storage unit and the chlorite contained in the chlorite storage unit may be solid materials. Prior to the reaction between the two substances, the chlorite may be dissolved in moisture in the air introduced through the air permeation unit to form a chlorous acid solution. Thereafter, the chlorous acid solution may react with the solid acid group feed material included in the acid group feed material storage unit to generate chlorine dioxide.

[Scheme 1]

15NaClO ₂ + 4C ₆ H ₈ O ₇ → 12ClO ₂ + 4C ₆ H ₅ Na ₃ O ₇ + 3NaCl + 6H ₂ O

Chlorine dioxide (ClO ₂ ) is generated by the reaction as in Scheme 1, and C ₆ H ₅ Na ₃ O ₇ , NaCl, and H ₂ O are generated as other by-products, but are harmless to the human body.

The chlorite storage part may be stacked on an upper surface of the acid group supply material storage part, and the chlorite storage part may be disposed to face one surface of the housing part on which the air permeation part is formed. In order to take advantage of the deliquescent properties of chlorite, the distance between the air permeable part through which air is transmitted from the outside and the chlorite storage part containing the chlorite is minimized so that the moisture contained in the air reacts with the chlorite first. The configuration of the device may be arranged, and preferably, the one surface of the housing unit on which the air permeation unit is formed and the chlorite storage unit may be arranged to face each other.

The present invention can control the amount of chlorine dioxide gas generated by the chlorine dioxide generator by adjusting the inflow of air through the air permeation part of the housing part.

In order to control the amount of air inflow, it may further include an adhesive patch part or an opening and closing cover.

Referring to FIG. 2 , an embodiment of the present invention may further include an adhesive patch unit that is adhered to the air permeation unit of the housing unit to block air permeation. The adhesive patch part covers the entire air permeation part, thereby preventing external air from permeating into the housing part, and blocking solid chlorite and air from contacting it, thereby controlling the generation of chlorine dioxide gas.

In addition, the adhesive patch part may include an adhesive component on one surface for adhesion with the air permeable part. Due to the adhesive component, the housing unit including the air-permeable unit and the adhesive patch unit may be completely adhered to each other to seal the housing unit.

In addition, the adhesive patch part may be a means for controlling the inflow of air into the housing part by exposing the air permeable part to the air as the user partially removes the adhesive patch part.

The adhesive patch unit may be in a form including a plurality of perforated lines formed at regular intervals or in a form in which two or more adhesive patches having a predetermined size are continuously arranged on one end of the housing unit and adhered.

The adhesive patch part may have a form including a plurality of perforated lines formed at regular intervals. As the adhesive patch part is removed along the perforation line, at least one of the acid group supply material storage part and the chlorite storage part may be exposed to air. In addition, since the adhesive patch part includes perforated lines formed at regular intervals, it is possible to partially cut the adhesive patch part as much as desired according to the purpose of the user, the desired amount of chlorine dioxide, and the desired storage period. In proportion to the degree of the partial cut, an area in which the air-permeable portion is in contact with air may increase. Through this, it is possible to easily control the amount of air transmitted into the housing portion through the air permeation portion, and finally to control the amount of chlorine dioxide gas formed through the above Reaction Equation 1.

The adhesive patch part may be in a form in which two or more adhesive patches having a certain size are continuously arranged on one end of the housing part and adhered. Specifically, the adhesive patch part may be in a form in which two or more adhesive patches, which have already been cut, are adhered to one surface of the housing part in a state in which the entire air permeable part is covered. Even in this case, it is possible to remove as many adhesive patches as desired according to the purpose of the user, the desired amount of chlorine dioxide, and the desired storage period. In proportion to the degree of removal of the adhesive patch, an area in which the air-permeable portion is in contact with air may increase. Through this, it is possible to easily control the amount of air transmitted into the housing portion through the air permeation portion, and finally to control the amount of chlorine dioxide gas formed through the above Reaction Equation 1.

Referring to FIG. 3 , an embodiment of the present invention may further include an opening/closing cover positioned on the air permeation unit to control air permeation. As long as the opening and closing cover has a size and shape that can cover the entire air permeable part, the size and shape are not particularly limited. Specifically, it further includes an openable cover of a size that can cover the entire air permeable portion, and by controlling the time to keep the openable cover open to control the amount of air transmitted into the housing through the air permeable portion, finally It is possible to control the amount of chlorine dioxide gas generated.

It may further include an adsorption unit positioned inside the housing unit to control the concentration of the chlorine dioxide. The adsorption unit may include an adsorbent therein, and may be in the form of a pocket having a plurality of perforations formed on one surface thereof.

The adsorbent may be selected from the group consisting of silica gel, zeolite, aluminum oxide, sepiolite, bentonite, apatite, perlite, diatomite, and combinations thereof, preferably silica gel or zeolite.

The adsorbent included in the adsorption unit is a porous material, and the concentration of chlorine dioxide in the housing unit may be adjusted by adjusting the amount of the adsorbent input.

A separation membrane interposed between the acid group supply material storage unit and the chlorite storage unit may be further included. The separation membrane may include a material permeation unit that is a mass transfer path between the acid group supply material storage unit and the chlorite storage unit.

The material penetrating unit may include a plurality of perforations, and if the perforations are in a form through which a material can be transmitted, the form is not particularly limited. It is possible to control the movement and amount of air, chlorite or acid group supply material between the acid group supply material storage unit and the chlorite storage unit through the material permeation unit included in the separation membrane, and to block the material permeation unit In this case, the generation of chlorine dioxide may be limited.

The chlorine dioxide generator can generate chlorine dioxide through solid chlorite and acid supply material without additional moisture provision configuration, and the user can easily control the amount of chlorine dioxide generated, transport and storage of agricultural products It is suitable for multi-purpose use, such as the back of a cell phone, wallet, bag, card-type necklace, wardrobe, shoe cabinet, and shoe insole, depending on the need for sterilization and disinfection in daily life as well as for containers.

All simple modifications and variations of the present invention shall fall within the scope of the present invention, and the specific protection scope of the present invention will become apparent from the appended claims.

Acid group feed storage: 100
Chlorite Reservoir: 200
Housing: 300
Air permeable part: 310
Adhesive patch part: 400
Retractable Cover: 500

Claims (10)

an acid group supply material storage unit containing an acid group supply material;
A chlorite storage unit containing chlorite; and
and a housing unit including the acid group supply material storage unit and the chlorite storage unit therein;
The housing portion includes an air permeable portion formed on one surface to allow air to permeate,
After the chlorite is dissolved in the moisture in the air, it reacts with the acid group supply material to generate chlorine dioxide,
The chlorite storage unit is laminated on the upper surface of the acid group supply material storage unit,
The chlorine dioxide generator is disposed to face the one surface of the housing part on which the air permeation part is formed and the chlorite storage part.
The method of claim 1,
Further comprising an adsorption unit positioned inside the housing unit to adjust the concentration of the chlorine dioxide, chlorine dioxide generator.
The method of claim 1,
The acid group supply material is a solid material formed by depositing a liquid acid group supply material on the acid group supply material storage unit and then drying,
The chlorite is a solid material formed by depositing liquid chlorite on the chlorite storage unit and drying it,
The material of the acid group supply material storage unit and the chlorite storage unit is selected from the group consisting of paper, synthetic paper, non-woven fabric, synthetic non-woven fabric, and combinations thereof, chlorine dioxide generator.
delete The method of claim 1,
The acid group supply material is selected from the group consisting of citric acid (C ₆ H ₈ O ₇ ), acetic acid (CH ₃ COOH), lactic acid (CH ₃ CHOHCOOH), and combinations thereof,
Wherein the chlorite is selected from the group consisting of sodium chlorite, potassium chlorite, lithium chlorite, calcium chlorite, barium chlorite, magnesium chlorite, calcium chlorite, and combinations thereof, chlorine dioxide generator.
The method of claim 1,
Chlorine dioxide generator further comprising an adhesive patch portion that is adhered to the air permeation portion of the housing portion to block air permeation
7. The method of claim 6,
The adhesive patch part is a means for controlling the inflow of air into the housing part by exposing the air permeable part to the air as the user partially removes the adhesive patch part, chlorine dioxide generator.
7. The method of claim 6,
The adhesive patch portion is a form including a plurality of perforated lines formed at regular intervals or two or more adhesive patches having a predetermined size are continuously arranged on one end of the housing portion and adhered to, the chlorine dioxide generator.
The method of claim 1,
Positioned on the air permeation unit further comprising an openable and closed cover for controlling the permeation of air, chlorine dioxide generator.
The method of claim 1,
Further comprising a separation membrane interposed between the acid group supply material storage unit and the chlorite storage unit,
The separation membrane includes a material permeation unit that is a mass transfer passage between the acid group supply material storage unit and the chlorite storage unit, chlorine dioxide generator.

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