KR101847710B1 - Chlorine dioxide gas generating apparatus - Google Patents

Abstract

The present invention relates to a chlorine dioxide generating device capable of efficiently generating chlorine dioxide gas and efficiently discharging generated chlorine dioxide gas to a living space to efficiently disinfect a living space, Chlorine dioxide supply; An ultraviolet light source that emits ultraviolet rays to the chlorine dioxide composition to emit chlorine dioxide gas from the chlorine dioxide composition; A light source accommodating part which surrounds the ultraviolet light source so as to have an air passage and is transparent to ultraviolet light; And a blowing section for guiding the flow of chlorine dioxide gas to the outside and for guiding air flow between the ultraviolet light source and the light source accommodating section, wherein at least a part of the light source accommodating section is impregnated in the chlorine dioxide composition of the chlorine dioxide supply section .

Description

[0001] The present invention relates to a chlorine dioxide gas generating apparatus,

The present invention relates to a chlorine dioxide gas generator, and more particularly, to a chlorine dioxide gas generator capable of efficiently generating chlorine dioxide gas, releasing generated chlorine dioxide gas into a living space, .

The importance of effective disinfection in the construction of a periodic and safe living environment, especially in maintaining a healthy life, for the prevention of hygienic, especially infectious diseases, etc., can be emphasized. In particular, viruses such as influenza virus, fungi such as fungi, other bacteria, and germs are likely to be mixed in the air of a living space where a person works or lives. Recently, there has been a concern about the influences of the new influenza, such as the influenza, and the health effects such as allergies caused by mold. In order to cope with such a problem, various air cleaners such as household, business, medical, and the like are provided.

Disinfection means destroying pathogens for the purpose of preventing transmission of infectious diseases, and does not have much concern about the destruction of non-pathogens. Disinfection Sterilization destroys microorganisms regardless of pathogenicity and non-pathogenicity. After sterilization, it becomes completely sterile, and disinfection and sterilization are often used synonymously. The rules for the prevention of infectious diseases in Korea are specific to the types and methods of disinfection. Examples of methods of disinfection include incineration, sunlight disinfection, steam disinfection, boil disinfection and drug disinfection.

Incineration is applied to clothing, bedding, low-price items, and non-reusable items of an epidemic. Disinfect daylight for clothing, bedding, utensils, cushions, books, documents, and other items. Steam disinfection uses distillation steam, and if possible desorbs the air in the sterilizer and touches it for more than 1 hour at over 100 ℃. Because of this, it is necessary to avoid fading or other things which are likely to be stained with other things, and clothes should be taken out of the pocket, etc., if they are easily exploded and easy to ignite. Mercury disinfection is done by immersing all objects in water and boiling for more than 30 minutes. Drug disinfection is a method of using disinfectant and disinfected according to the disinfection method.

Further, as a means for sterilizing viruses, bacteria and the like in the air, a method using chlorine dioxide gas is known.

Chlorine dioxide (ClO ₂ ) is a yellowish green gas with a distinctive odor that turns yellowish red when cooled. Chlorine dioxide has been used as a bleaching agent in the past, but it has not been widely used because it is not easy to manufacture in a safe and gaseous state. However, recently, it has been used for various purposes such as elimination of toxic inorganic substances, removal of heavy metals, sterilization and disinfection, bleaching of garments, and removal of odors by solving the problems of manufacturing method and use. Chlorine dioxide is a strong oxidizing agent that dissolves well in water, is volatile, explodes explosively by heat, and has strong oxidation and bleaching action. For this reason, it is difficult to concentrate the high concentration, and the diluted solution is used at a concentration of about 8 to 10%. The gas has an optical decomposition action that is easily decomposed by ultraviolet rays, but is not hydrolyzed in water. Especially, oxidizing ammonia, hydrogen sulfide, mercaptane, phenol, etc., which are the cause of bad smell, destroys the structure and effectively removes bad smell. In addition, when sterilized with a chlorine-based compound, it reacts with an organic substance to produce a carcinogen such as a trihalomethane, but chlorine dioxide does not produce any such carcinogen. Exposure to 45 ppm in the air can be irritating to the eyes or nose and can be dangerous if exposed to more than 350 ppm.

Korean Patent Laid-Open Publication No. 2010-0128676 relates to a low-temperature sterilizer using chlorine dioxide capable of continuous operation, comprising: a chlorine dioxide generator unit having a water separating membrane generated by NaClO ₂ solution chlorine dioxide gas; A sterilizer main chamber; A sterilizer reserve chamber; A vacuum pump part for creating a vacuum state in the sterilizer chamber; A detoxification system unit for detoxifying the toxicity of the chlorine dioxide gas on the human body after completion of the chlorine dioxide sterilization; An electrolysis unit for electrolyzing NaClO ₂ ; And a valve for supplying and discharging liquid and gas to and from the DC power supply unit, the main chamber, and the preliminary chamber. The present invention overcomes the disadvantages of conventional sterilizer products, thereby achieving strict sterilization performance Thereby providing a chlorine dioxide gas sterilization system at a reasonable price that passes the standard.

Korean Patent Laid-Open Publication No. 2011-0059203 relates to a chlorine dioxide composition having sterilization and disinfection effect, wherein chlorine dioxide (ClO ₂ ) is added with benzalkonium chloride and dodecyldiaminoethylglycine hydrochloride (Dodecyl diaminoethyl glycine Hydrochloride) has a remarkable sterilizing and disinfecting power as compared with chlorine dioxide, and at the same time, has a surface activity and an increased penetration ability, so that the composition can be usefully used as a sterilizing and disinfecting agent .

Korean Patent Laid-Open Publication No. 2016-0031228 discloses a photochemical chlorine dioxide generating apparatus capable of generating a quantitative reaction, comprising: a reactor for producing chlorine dioxide by a photochemical reaction; An ultraviolet light source for irradiating the reactor with ultraviolet rays having a predetermined wavelength set in advance; A chlorite injector installed at an upper portion of the reactor and driven by a servo motor connected to a capsule storing chlorite to inject a certain amount of chlorite controllable by the reactor; An air pump for injecting air into the reactor; And a storage device for discharging and storing the chlorine dioxide gas generated in the reactor.

An object of the present invention is to provide a chlorine dioxide gas generator capable of efficiently generating chlorine dioxide gas and efficiently discharging generated chlorine dioxide gas to a living space to efficiently disinfect a living space.

According to an embodiment of the present invention, there is provided an apparatus for generating chlorine dioxide gas, comprising: a chlorine dioxide supply unit for receiving a chlorine dioxide composition; An ultraviolet light source that emits ultraviolet rays to the chlorine dioxide composition to emit chlorine dioxide gas from the chlorine dioxide composition; A light source accommodating part which surrounds the ultraviolet light source so as to have an air passage and is transparent to ultraviolet light; And a blowing section for guiding the flow of chlorine dioxide gas to the outside and for guiding air flow between the ultraviolet light source and the light source accommodating section, wherein at least a part of the light source accommodating section is impregnated in the chlorine dioxide composition of the chlorine dioxide supply section .

The light source accommodating unit may further include a partition wall disposed between the light source accommodating unit and the ultraviolet light source to change the path of the air flow.

The light source accommodating portion may be detachably fixed to the inside of the housing.

The housing further includes a first fixing plate. The first fixing plate is fixed to the inner wall of the housing so as to protrude in a horizontal direction with respect to the paper surface, and may include a receiving portion inserting hole to which the light source receiving portion is detachably fixed.

Wherein the housing further comprises a second fixing plate, the second fixing plate is fixed to the inner wall of the housing so as to be positioned above the first fixing plate and in a direction parallel to the first fixing plate, and the ultraviolet light source is fixed to the second fixing plate And can be detachably fixed.

The second fixing plate may further include a first inclined surface inclined downward toward the light source accommodating portion and a second inclined surface inclined upward toward the outlet of the housing.

The introduction of the light source accommodating portion into the chlorine dioxide supply portion can be performed by moving the chlorine dioxide supply portion toward the fixed light source accommodating portion.

The chlorine dioxide gas generator may further include a bio-presence detection sensor.

According to the present invention, a chlorine dioxide gas generating device capable of efficiently generating chlorine dioxide gas and releasing the generated chlorine dioxide gas into the living space can efficiently disinfect the living space, thereby efficiently disinfecting the living space And to provide a sanitary and healthy life, and in particular to prevent the infectious disease infection in the case of epidemics, thereby improving the quality of public health.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a side sectional view schematically showing a configuration of a chlorine dioxide gas generating apparatus according to one embodiment of the present invention; FIG.
Fig. 2 is a plan view schematically showing a configuration of the first fixing plate of Fig. 1. Fig.

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

1 and 2, an apparatus for generating chlorine dioxide gas according to one embodiment of the present invention includes a chlorine dioxide supply unit 11 for containing a chlorine dioxide composition 12; An ultraviolet light source 31 that emits ultraviolet rays to the chlorinated chlorine dioxide composition 12 to release chlorine dioxide gas from the chlorine dioxide composition 12; A light source accommodating portion 21 which surrounds the ultraviolet light source 31 so as to have an air passage and is transparent to ultraviolet light; And a blowing section 41 for guiding the flow of the chlorine dioxide gas into the space between the ultraviolet light source 31 and the light source accommodating section 21, Is impregnated in the chlorine dioxide composition (12) of the chlorine dioxide supply part (11).

To this end, the light source accommodating portion 21 can be detachably fixed to the inside of the housing 51.

The chlorine dioxide feeder 11 may be a container for containing the chlorine dioxide composition 12 as a means for receiving the chlorine dioxide composition 12 and generating chlorine dioxide upon the supply of energy such as ultraviolet light.

Here, the chlorine dioxide feeder 11, that is, the chlorine dioxide composition 12 contained in the vessel contains chlorine dioxide and is capable of emitting chlorine dioxide gas by irradiation with energy from the outside, preferably ultraviolet rays Composition, preferably a chlorine dioxide water or a chlorine dioxide gel. The chlorine dioxide water is obtained by dissolving chlorine dioxide in water, and the present invention is not limited to the concentration of chlorine dioxide in the chlorine dioxide water. The chlorine dioxide gel is fixed to a gelling agent selected from the group consisting of agar, alginic acid, carrageenan, paceran, pectin, starch, mannan, tamarin gum, curdlan, xanthine, gelatin and mixtures of two or more thereof Can be obtained. All of the gelling agents can be used for foods, and they are safe materials for human body.

The ultraviolet light source 31 irradiates ultraviolet rays to the chlorine dioxide composition 12 to emit chlorine dioxide gas from the chlorine dioxide composition 12 and emits ultraviolet rays emitted from the ultraviolet light source 31 to the chlorine dioxide supply unit The chlorine dioxide composition (12) in the chlorine dioxide composition (12) is irradiated with energy, preferably light energy, to the chlorine dioxide composition (12) . The ultraviolet light source 31 may be understood to be so widely known that it can be purchased and used commercially by domestic and foreign manufacturers.

The light source accommodating portion 21 is enclosed with an ultraviolet light source 31 so as to have an air passage and is made of a container transparent to ultraviolet rays so that the ultraviolet light source 31 is accommodated therein, The ultraviolet ray emitted from the ultraviolet light source 31 accommodated in the chlorine dioxide supply unit 11 passes through the light source accommodating unit 21 and is supplied to the chlorine dioxide chlorine composition 12 in the chlorine dioxide supply unit 11 in which the light source accommodating unit 21 is at least partly impregnated. Preferably by supplying light energy to the chlorine dioxide composition 12 so that chlorine dioxide is released from the chlorine dioxide composition 12 into the gaseous state. Particularly, since the light source accommodating portion 21 in which the ultraviolet light source 31 is inserted is at least partly impregnated in the chlorine dioxide supply portion 11, the ultraviolet light is directly irradiated at a position adjacent to the chlorine dioxide chlorine composition 12 to increase the irradiation rate , Thereby making it possible to efficiently discharge chlorine dioxide gas. In addition, since the ultraviolet light source 31 is accommodated in the light source accommodating portion 21 and is surrounded with the ultraviolet light source 31 so as to have an air passage, the ultraviolet light source 31 is formed by the air flow through the air passage. It is possible to prevent the heat energy generated from the ultraviolet light source 31 from being transferred to the chlorine dioxide composition 12 at the same time as cooling and to prevent deterioration or solidification of the chlorine dioxide composition 12. [ The light source accommodating part 21 may be any shape as long as the shape of a container opened at one side so that the ultraviolet light source 31 can be received. Preferably, the light source accommodating part 21 has a cylindrical ultraviolet light source 31, Shaped container from which the container 31 can be received. The light source accommodating portion 21 may be made of any material that is transparent to ultraviolet rays. For example, the light source accommodating portion 21 may be a quartz container.

The inflow portion 41 has a function of guiding the flow of chlorine dioxide gas that induces and emits airflow between the ultraviolet light source 31 and the light source accommodating portion 21 in which the ultraviolet light source 31 is accommodated . The blowing unit 41 can be any of those capable of generating a flow of air, that is, capable of blowing air. 1 and 2 show a blowing unit 41 including a motor 41a and a fan 41b connected to the motor 41a as one specific example of the blowing unit 41. [

The apparatus for generating chlorine dioxide according to one embodiment of the present invention having the above-described configuration comprises a chlorine dioxide supply unit 11 including a chlorine dioxide composition 12, and a light source The accommodating portion 21 is brought close to each other so that at least a part of the light source accommodating portion 21 accommodating the ultraviolet light source 31 is impregnated into the chlorine dioxide composition 12 contained in the chlorine dioxide supplying portion 11 The ultraviolet light source 31 is illuminated by supplying electric energy to the ultraviolet light source 31 so that the ultraviolet light is radiated and simultaneously the ultraviolet light source 31 and the light source accommodating unit 21 So that only the light energy, that is, ultraviolet rays, is irradiated from the ultraviolet light source 31 to the chlorine dioxide composition 12, and the heat energy generated from the ultraviolet light source 31 flows through the air flow It is possible to prevent the heat energy generated in the ultraviolet light source 31 from being directly transferred to the chlorine dioxide composition 12 to thereby prevent the chlorine dioxide composition 12 from being denatured or deformed Thereby enabling the effective chlorine dioxide composition 12 to sufficiently and effectively generate chlorine dioxide gas.

The chlorine dioxide supply part 11 and the light source accommodation part 21 accommodating the chlorine dioxide supply part 11 and the ultraviolet light source 31 are made to approach the light source accommodation part 21 containing the ultraviolet light source 31, Or by moving the light source accommodating portion 21 in which the ultraviolet light source 31 is accommodated to the chlorine dioxide supply portion 11 and to which the present invention is intended to be limited However, it is preferable that the chlorine dioxide supply portion 11 is preferably moved by moving the chlorine dioxide supply portion 11 toward the light source accommodating portion 21 containing the ultraviolet light source 31, as shown in Fig. To this end, preferably, as shown in Fig. 1, it may include a variable plate 61 for fixing the chlorine dioxide supply part 11, wherein one end of the variable plate 61 is connected to the hinge plate 62 Wherein the other end of the hinge plate 62 is hingedly fixed to the third fixing plate 58 of the housing 51, for example, the bottom plate, and the variable end The other end of the plate 61 may be hingably fixed to the door 59 which is hingably fixed to the housing 51 and can be opened and closed. Therefore, when the door 59 is opened, the variable plate 61 is lowered in accordance with the operation of the door 59, so that the chlorine dioxide fixed to the variable plate 61 The supply portion 11 is similarly lowered so that it can be moved to the first position a (the position shown by the solid line in FIG. 1) away from the light source accommodating portion 21, So that it becomes possible to mount or replace the chlorine dioxide supply unit 11 fixed to the variable plate 61 as a new, unused product. After the chlorine dioxide supply part 11 is mounted or replaced as a new unused one, at least a part of the light source accommodating part 21 is again immersed in the chlorine dioxide composition 12 State, that is, to the second position b (the position shown by the dotted line in Fig. 1).

The variable plate 61 may further include a fixture 13 for fixing the chlorine dioxide supply part 11 placed on the variable plate 61. The chlorine dioxide supply part 11 may be provided in the fixture 13. [ Can be detachably fixed.

In order to enable the above operation, the housing 51 further includes a first fixing plate 52. The first fixing plate 52 is fixed to the inner wall of the housing 51 so as to protrude in a horizontal direction with respect to the paper surface. And a receiving portion inserting hole 53 to which the light source receiving portion 21 is detachably fixed. The light source accommodating portion 21 is inserted into the accommodating portion inserting opening 53 and can be detachably fixed so that normal ultraviolet light transmission is difficult due to contamination or breakage of the light source accommodating portion 21, When it is difficult to accommodate properly, it can be easily replaced with a new product that is not contaminated or broken.

Particularly, as shown in Fig. 2, the first fixing plate 52 may be formed so as to be gradually narrowed from the portion where the blowing portion 41 is located to the portion where the containing portion inserting opening 53 is formed , Thereby making it possible to concentrate the air flow generated by the air flow-in portion (41) toward the light source accommodating portion (21) fixed to the accommodation portion insertion opening (53).

An upward side wall 54 is further formed at an edge of the first fixing plate 52 to restrict the flow path to the air flow formed by the airflow guide portion 41 so that the airflow is fixed to the accommodation portion insertion hole 53 So that the airflow is directed upward toward the outlet E formed in the housing 51. As a result, the chlorine dioxide gas generated by the apparatus according to the present invention To be discharged out of the housing 51 easily.

The housing 51 may further include a second fixing plate 55 for properly accommodating the ultraviolet light source 31 in the fixed light source accommodating unit 21 as described above, Is fixed to the inner wall of the housing 51 so as to be positioned above the first fixing plate 52 and protrude in a direction parallel to the first fixing plate 52 and the ultraviolet light source 31 is fixed to the second fixing plate 55 And can be detachably fixed. Therefore, the ultraviolet light source 31 is fixed to the second fixing plate 55 and protrudes downward. Therefore, the accommodating portion inserting hole 53 of the first fixing plate 52 provided below the second fixing plate 55 The ultraviolet light source 31 is accommodated in the light source accommodating portion 21 fixed to the ultraviolet light source 31 so that the ultraviolet light source 31 is accommodated so as not to contact the inner wall of the light source accommodating portion 21, And the light source accommodating portion 21, as shown in FIG.

Particularly, the second fixing plate 55 further includes a first inclined surface 56 inclined downward toward the light source accommodating portion 21 and a second inclined surface 57 inclined upward toward the outlet E of the housing 51 The first slope surface 56 and the second slope surface 57 concentrate the air flow path toward the light source accommodation portion 21 and pass through the inside of the light source accommodation portion 21, Through the discharge port (E) of the discharge port (51). Here, the second slope surface 57 and the upper side wall 54 are positioned adjacent to each other so that a narrow air passage is formed therebetween so that the airflow is discharged to the discharge port E through the narrow air passage The formation of the negative pressure by the so-called "Bernoulli principle" can enable the chlorine dioxide gas generated in the chlorine dioxide supply part 11 to be sucked together and to be effectively discharged out of the housing 51 through the discharge port E .

The light source accommodating part 21 may further include a partition wall 32 provided between the light source accommodating part 21 and the ultraviolet light source 31 to change the path of the air flow. The air flow through the air passage is blocked by the partition wall 32 to descend from the open upper portion of the light source accommodating portion 21 to the closed lower portion and then upward to the open upper portion beyond the partition wall 32 Thereby allowing the air flow to flow through the entire interior of the light source accommodating portion 21 to thereby allow the ultraviolet light source 31 to be cooled from the ultraviolet light source 31 to the light source accommodating portion 21 ) To at least partially prevent the transfer of thermal energy to the at least partially impregnated chlorine dioxide composition (12).

A first sensor 71 may be provided at the free end of the movable end of the housing 51, in particular at the opposite end of the door 59, which is hingedly fixed by the hinges, And an operating means 72 for operating the first sensor 71 is further installed in the housing 51 at a position near the position where the first sensor 71 is located when the door 59 is closed Preferably, the first sensor 71 may be a hall sensor, and the actuating means 72 may be a magnet, preferably a permanent magnet. Therefore, when the hall sensor, which is the first sensor 71, approaches the permanent magnet which is the operating means 72, an electric signal is generated to detect the closed state of the door 59, The chlorine dioxide supply unit 11 is positioned adjacent to the ultraviolet light source 31 to detect a state ready for operation, that is, a state ready for generating chlorine dioxide gas, so that chlorine dioxide gas is generated So that disinfection inside the living space can be performed.

The chlorine dioxide generating apparatus according to the present invention may further include a biological presence sensing sensor as the second sensor 73, and the biological presence sensing sensor may preferably be an infrared light sensing sensor. That is, it is possible to determine whether or not an organism, that is, a living organism is present at a close position, by detecting an infrared ray emitted by an organism in the presence of an organism by means of an infrared sensor, It may be possible to stop the release of the chlorine dioxide gas.

The abbreviation CP in Fig. 1 means a control panel, and a known means for electric / electronic control including the operation of the ultraviolet light source 31 and / or the airflow 41 is fixed within the housing 51 (For example, a microprocessor or the like) can be provided on the basis of the control signal.

While the invention has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims.

11: chlorine dioxide supply part 12: chlorine dioxide composition
13: fixture 21: light source accommodating portion
31: ultraviolet light source 32:
41: air-rich portion 51: housing
52: first fixing plate 53:
54: upper side wall 55: second fixing plate
56: first slope 57: second slope
58: third fixing plate 59: door
61: variable plate 62: hinge plate
71: first sensor 72: operating means
73: second sensor CP: control panel
E: Outlet

Claims (8)

A chlorine dioxide feeder to receive the chlorine dioxide composition;
An ultraviolet light source that emits ultraviolet rays to the chlorine dioxide composition to emit chlorine dioxide gas from the chlorine dioxide composition;
A light source accommodating part enclosing the ultraviolet light source so as to have an air passage, being transparent to ultraviolet light, and detachably fixed inside the housing; And
And a blowing unit for guiding an air flow to the air passage between the ultraviolet light source and the light source accommodating unit to prevent the heat energy generated from the ultraviolet light source from being transferred to the chlorine dioxide composition and to induce the flow of chlorine dioxide gas to be released ,
Wherein at least a part of the light source accommodating portion is impregnated in the chlorine dioxide composition of the chlorine dioxide supply portion. The method according to claim 1,
Wherein the light source accommodating unit further comprises a partition wall provided between the light source accommodating unit and the ultraviolet light source to change a path of the air flow. delete The method according to claim 1,
Wherein the housing further comprises a first fixing plate, the first fixing plate being fixed to the inner wall of the housing so as to protrude in a horizontal direction with respect to the paper, and a receiving portion inserting hole to which the light receiving portion is detachably fixed, Gas generator. 5. The method of claim 4,
Wherein the housing further comprises a second fixing plate, the second fixing plate is fixed to the inner wall of the housing so as to be positioned above the first fixing plate and in a direction parallel to the first fixing plate, and the ultraviolet light source is fixed to the second fixing plate Wherein the chlorine dioxide gas generator is detachably fixed. 6. The method of claim 5,
Further comprising: a first inclined surface having the second fixing plate inclined downward toward the light source accommodating portion; and a second inclined surface inclined upward toward the outlet of the housing. The method according to claim 1,
And the chlorine dioxide supply portion is moved toward the light source accommodating portion in which the introduction into the chlorine dioxide supply portion of the light source accommodating portion is fixed. The method according to claim 1,
Wherein the chlorine dioxide gas generating device further comprises a biological presence detecting sensor.

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