KR20220022987A - Apparatus for space disinfection by generating chlorine dioxide gas - Google Patents

Abstract

The present invention relates to an apparatus for space disinfection by generating chlorine dioxide gas, which disinfects an inside of an installation space by releasing the chlorine dioxide gas generated by using chlorine dioxide (ClO_2) water. The apparatus for space disinfection includes: a chlorine dioxide water storage unit having a predetermined storage space with a top side open so that gel or liquid-type stabilized chlorine dioxide water can be contained and stored; a body unit having a gas discharge port opened at one side of an upper portion and the chlorine dioxide storage unit received and installed therein; a space dividing unit in which an internal space of the body unit is divided into an upper gas generating space and a lower air inlet space, and a storage space in which the chlorine dioxide storage unit is open to the upper side of the chlorine dioxide storage unit communicates with the gas generating space, and coupled to one side so that an outer surface of the chlorine dioxide water storage unit is disposed within the air inlet space; and a UV irradiation unit installed in the air inlet space in the body unit to irradiate UV light from an outer lower surface or side of the chlorine dioxide storage unit, in which the chlorine dioxide water storage unit is provided with a translucent or transparent material so that UV light irradiated through the UV irradiation unit is transmitted from an outer lower surface or side of the chlorine dioxide water storage unit to generate stabilized chlorine dioxide water stored in the storage space as chlorine dioxide gas.

Description

Space disinfection device by generating chlorine dioxide gas {APPARATUS FOR SPACE DISINFECTION BY GENERATING CHLORINE DIOXIDE GAS}

The present invention relates to a space disinfection device for generating chlorine dioxide gas using chlorine dioxide (ClO ₂ ) water to release chlorine dioxide gas generated for disinfection inside an installation space.

Chlorine dioxide (ClO ₂ ) is a non-chlorine disinfectant that is attracting attention as an alternative to the existing chlorine-based disinfectants. It is an environmentally friendly component that does not generate carcinogens and is easily decomposed by light, and is being applied to various disinfection devices and systems.

If chlorine dioxide is provided in gaseous form and provided in the air, viruses and bacteria present in the air are sterilized using strong oxidizing power, and the effect of removing odor and preventing mold can also be expected.

Therefore, research and development of various space disinfection devices using the generation of chlorine dioxide gas are in progress. As a result, to generate chlorine dioxide gas, chlorine dioxide water is activated through UV light irradiation, heating to a high temperature, and addition of acidic substances. Various methods of doing this are presented.

Among them, in the prior art on the prior art prepared to use for space disinfection by generating chlorine dioxide gas based on chlorine dioxide water through UV light irradiation in this regard, Republic of Korea Patent Publication No. 10-1527883 "chlorine dioxide gas" There is a sterilization box for generators and medical devices" (hereinafter referred to as 'prior art').

However, in the case of the conventional space disinfection device through the generation of chlorine dioxide gas, including the prior art, the process of generating chlorine dioxide gas through UV light irradiation does not proceed stably, and the UV light irradiation form and range are chlorine dioxide water. There was a problem in that some loss occurred through contact between UV light and chlorine dioxide gas because it was made from the upper side to the lower side to face the direction of generating chlorine dioxide gas from the UV light.

In addition, in the case of the conventional space disinfection device through the generation of chlorine dioxide gas, including the prior art, as the concentration of chlorine dioxide water and chlorine dioxide gas is continuously generated and disinfected, it is harmless to the human body and safe low concentration of dioxide. There was a problem that could not be managed efficiently and easily for chlorine gas generation.

The present invention was created to solve the above problems, and an object of the present invention is to stably generate chlorine dioxide gas through UV light irradiation, and UV light irradiation form and range are UV light and chlorine dioxide gas An object of the present invention is to provide a space disinfection device designed to have a form in which some loss through contact between the two can be minimized.

In addition, another object of the present invention is to efficiently and easily manage and maintain the concentration of chlorine dioxide water and chlorine dioxide gas, which is harmless and safe to the human body in the process of gas generation and disinfection progress. It is to provide a space disinfection device that can be

In order to achieve the above object, the space disinfection device through chlorine dioxide gas generation of the present invention generates chlorine dioxide gas by using chlorine dioxide (ClO ₂ ) water to discharge the chlorine dioxide gas generated for disinfection inside the installation space. A disinfection apparatus comprising: a chlorine dioxide water storage unit having a predetermined storage space with an open upper side so that the gel or liquid stabilized chlorine dioxide water can be contained and stored; a body portion provided with an open gas outlet on one side of the upper portion, the body portion being accommodated and installed so that the chlorine dioxide water storage portion can block UV from the outside; The internal space of the body is divided into an upper gas generating space and a lower air inlet space, and the storage space in which the chlorine dioxide water storage unit is opened upwardly of the chlorine dioxide water storage unit communicates with the gas generation space and stores the chlorine dioxide water a space partition part coupled to one side so that the outer surface of the part is disposed in the air inlet space; and a UV irradiation unit installed in the air inlet space within the body to irradiate UV light from the outer lower surface or side of the chlorine dioxide water storage unit; It is provided with a transparent or translucent material so that UV light is transmitted from the outer lower surface or side of the chlorine dioxide water storage unit to generate the stabilized chlorine dioxide water stored in the storage space as chlorine dioxide gas.

Here, the chlorine dioxide water storage unit may be provided with a transparent or translucent material made of PET (Polyethylene Terephthalate) or PP (Polypropylene) material.

In addition, the body portion is provided with at least one air inlet that is opened to allow the inflow of external air on one side of the lower portion, and the space partition part communicates with the gas generating space and the air inlet space up and down to be introduced into the air inlet. At least one air moving port providing a predetermined open path so that external air can move from the air inlet space toward the gas generating space may be provided.

In addition, the space disinfection device through the generation of chlorine dioxide gas is installed in the gas outlet provided on the upper side of the body portion and the external air and the dioxide moved from the air inlet space to the gas generating space side through a rotational movement It may further include; a discharge fan (Fan) for discharging chlorine dioxide gas generated from the chlorine water storage unit to fill the gas generating space into the installation space.

In addition, the stabilized chlorine dioxide water stored in the storage space of the chlorine dioxide water storage unit may be diluted with pure water and adjusted to a predetermined concentration to have a concentration level of 100 ppm to 10,000 ppm.

In addition, chlorine dioxide gas generated from the chlorine dioxide water storage unit and released through the gas outlet provided on the upper side of the body through the gas generating space is 0.01 ppm to 0.1 ppm of the total air in the installation space. concentration may be present.

In addition, when the UV irradiation unit irradiates UV light from the outer lower surface or side side of the chlorine dioxide water storage unit, UV light is irradiated only over the storage area of the stabilized chlorine dioxide water contained in the storage space in the chlorine dioxide water storage unit And it is possible to limit the irradiation range so that UV light is not irradiated to the gas generating space of the body part through the chlorine dioxide water storage.

According to the present invention, there are the following effects.

First, the shape and range of UV light irradiation by the UV irradiation unit is clearly separated into the upper gas generating space and the lower air inlet space by the space dividing unit, and the outside of the chlorine dioxide water storage unit made of transparent or translucent material As it is provided so that UV light irradiation can be made from the lower surface or the side, gas loss through contact between UV light and chlorine dioxide gas can be minimized.

Second, UV light is irradiated over only the storage area of the stabilizing chlorine dioxide water contained in the storage space of the chlorine dioxide water storage space in the form and range of UV light irradiation by the UV irradiation unit, and passes through the chlorine dioxide water storage unit to the upper gas generating space of the body It is provided in the form of limiting the irradiation range so that the UV light is not irradiated, and the gas loss through the contact between the UV light and chlorine dioxide gas can be more reliably minimized.

Third, the combustion gas generated through UV light irradiation from the stabilized chlorine dioxide water contained in the storage space of the chlorine dioxide water storage unit immediately moves to the upper gas generating space of the body, and then moves to the upper gas generating space of the body, and then the air below the body by the operation of the discharge fan External air flowing into the inlet space moves to the gas generating space through the air movement port and is affected by the mobility that is emitted into the installation space and is released into the installation space more quickly. It becomes possible to provide a faster and more effective space disinfection effect.

1 is a cross-sectional view showing the internal structure of a space disinfection apparatus through generation of chlorine dioxide gas according to a first embodiment of the present invention.
Figure 2 is a cross-sectional view showing the internal structure of the space disinfection device through the generation of chlorine dioxide gas according to a second embodiment of the present invention.

A preferred embodiment of the present invention will be described in more detail with reference to the accompanying drawings, but already known technical parts will be omitted or compressed for the sake of brevity of description.

<Description of the composition of space disinfection device through chlorine dioxide gas generation>

1 to 2, the space disinfection device 10 through the generation of chlorine dioxide gas of the present invention is a chlorine dioxide water storage unit (11); body portion 12; space dividing unit (13); UV irradiation unit (14, 14'); UV control unit (15, 15') and the emission fan unit 16; includes.

Through such a configuration, the space disinfection device 10 through generation of chlorine dioxide gas of the present invention generates chlorine dioxide gas using chlorine dioxide (ClO ₂ ) water to release the chlorine dioxide gas generated for disinfection inside the installation space. corresponds to the device.

In the present invention, chlorine dioxide water is a concept that includes both gel or liquid chlorine dioxide water, and more preferably, gel-type chlorine dioxide water is used.

The chlorine dioxide water storage unit 11 is a configuration corresponding to a single chamber container having a predetermined storage space with an open upper side so that the stabilized chlorine dioxide water in a gel state or a liquid state can be contained and stored.

Here, the stabilized chlorine dioxide water is not suitable for long-term storage because chlorine dioxide gas is highly reactive and there is a possibility that a high concentration of chlorine gas may be generated by reacting with other substances. It is prepared to use the form of chlorine dioxide water stabilized by dissolving it in an aqueous alkali solution.

Specifically, by dissolving chlorine dioxide gas in the stabilized chlorine dioxide water, the gas is not released into the air unless an external stimulus is applied, so long-term storage is possible, and even the risk of generating a high concentration of chlorine gas through reaction with other substances is removed

This stabilized chlorine dioxide water does not generate chlorine dioxide gas without external stimulation, so the sterilization effect cannot be exerted as it is. This can release chlorine dioxide gas.

In addition, the chlorine dioxide water storage unit 11 is the outside of the container of the chlorine dioxide water storage unit 11 as shown in FIGS. It is provided with a transparent or translucent material so that the stabilized chlorine dioxide water that is transmitted from the lower surface or side and stored in the storage space can be generated as chlorine dioxide gas.

Specifically, the chlorine dioxide water storage unit 11 is made of a transparent or translucent material such as PET (Polyethylene Terephthalate) or PP (Polypropylene), and UV light irradiated from the outside is transmitted through it to stimulate external stimulation of the stabilized chlorine dioxide water. It is desirable to have a state capable of causing activation through the

The material of the chlorine dioxide storage unit 11 is preferably PET (Polyethylene Terephthalate) or PP (Polypropylene), but is not necessarily limited thereto and can be modified in various ways. It is preferable to provide sufficient reactivity through transmission from the outside of the UV light that is irradiated from the inside to the state of the inside.

In addition, the stabilized chlorine dioxide water stored in the storage space of the chlorine dioxide water storage unit 11 is diluted with pure water and adjusted to a predetermined concentration to have a concentration level of 100 ppm to 10,000 ppm, followed by UV light irradiation. When reacted and discharged as chlorine dioxide gas and finally released into the installation space, it is important to keep the concentration range so that it can exist in a concentration of 0.01 ppm to 0.1 ppm in the total air inside the installation space.

The body portion 12 is provided with an open gas discharge port 12H on one side of the upper side, and the chlorine dioxide water storage unit 11 therein is a housing configuration that is accommodated and installed so as to block UV from the outside.

When the chlorine dioxide water storage unit 11 is accommodated inside the body 12, it is preferable that UV light generated from the outside including the installation space does not affect the chlorine dioxide water storage unit 11, which is In consideration of the transparent or translucent material characteristics of the chlorine dioxide water storage unit 11, it is preferable not to be affected at all by UV light generated from elements other than the UV irradiation units 14 and 14' to be described below.

Therefore, it is preferable that the size, specification, structure, etc. of the inside of the body 12 are provided so that the chlorine dioxide water storage 11 accommodated therein is provided to block UV from the outside.

In addition, the body portion 12 is provided with at least one air inlet (12H') opened to allow the inflow of external air (A) on one lower side.

Accordingly, the chlorine dioxide water storage unit 11 is disposed in the central area inside the body 12, and the air A from the outside including the installation space through at least one air inlet 12H' in the lower area. The chlorine dioxide gas (G) generated from the chlorine dioxide water storage unit 11 through the UV irradiation units 14 and 14 ′, which will be described later, and at least one air inlet in the upper region through the gas outlet 12H It has a structure in which the air (A) introduced into the body portion 12 through (12H') is discharged upwardly as well.

The space partitioning part 13 is a partition structure that divides the inner space of the body part 12 into an upper gas generating space A1 and a lower air inlet space A2, and is provided in a form integral with the body part 12 or mutually It is provided in a form that can be combined.

In addition, as described above, the space partition unit 13 is coupled with the chlorine dioxide water storage unit 11 so that the chlorine dioxide water storage unit 11 can be accommodated and installed in the central region inside the body unit 12 . .

For example, an opening having a locking step structure may be provided in the center of the space partitioning part 13 so that the container of the chlorine dioxide water storage part 11 can be inserted and fixed, and a male and female coupling structure of mutually engaging in the center may be provided. An opening with an opening may be provided, but is not limited thereto, and various types that can be accommodated and installed in the central region inside the body 12 in a state in which the container of the chlorine dioxide storage 11 is coupled to the space partition 13 . structure can be implemented.

More specifically, the storage space provided by the inner side surface of the chlorine dioxide water storage unit 11 opened to the upper side of the chlorine dioxide water storage unit 11 in the space partition unit 13 communicates with the gas generating space A1. and the outer surface of the chlorine dioxide storage unit 11 is coupled to one side to be disposed in the air inlet space (A2).

In addition, the space divider 13 communicates the gas generating space A1 and the air inlet space A2 up and down along the peripheral area of the outer rim so that the external air (A) introduced into the air inlet 12 ′ is the air inlet space It moves from (A2) to the gas generating space (A1) side and finally provides a predetermined open path so that the air (A) can be released again through the gas outlet (12H) provided on the upper side of the body part (12) At least one air moving port (13H) is provided.

As a result, the inside of the body 12 is divided into a gas generating space A1 and an air inlet space A2 based on the top and bottom by the space partitioning part 13, and a gas generating space due to the air moving port 13H. (A1) and the mutual open space of the air inlet space (A2) is equipped with a communication structure.

In addition, a discharge fan unit 16 corresponding to a fan module is installed in the gas discharge port 12H provided on the upper side of the body 12, and through the operation control of the discharge fan unit 16, a gas generating space ( The middle ear air (A) and gas (G) moored in A1) and the air inlet space (A2) move from the lower side to the upper side, and ultimately, it can be quickly and efficiently discharged into the installation space.

Here, the discharge fan unit 16 is installed in the gas discharge port 12H provided on the upper side of the body, and through a rotational movement, from the air inlet space A2 through the air moving port 13H to the gas generating space A1 side. It is configured to discharge the chlorine dioxide gas (G) generated from the moved outside air (A) and the chlorine dioxide water storage unit (11) to fill the gas generating space (A2) into the installation space.

Furthermore, it is preferable that a separate fan control module (not shown) for controlling the operating state of the discharge fan unit 16 is installed on one side of the body 12, and will be described later after installation in the installation space of the space disinfection device 10 The operation of the UV irradiation unit 14, 14' to be operated is linked at the time of operation through the UV control unit 15, 15' to simultaneously operate the operating state of the emission fan unit 16 through the fan control module (not shown). It may be designed or provided in a form capable of individually controlling the operating state of the discharge fan unit 16 through a fan control module (not shown) capable of on/off through a separate signal input.

UV irradiation units 14 and 14' are installed in the air inlet space A2 in the body 11, and UV light having a wavelength of 250 nm to 400 nm from the outer lower surface or side side of the chlorine dioxide water storage unit 11 ( It corresponds to the LED module irradiating U) with an output of 0.2W.

Specifically, the UV irradiation unit 14 according to the first embodiment irradiates UV light (U) from the outer lower region of the chlorine dioxide water storage unit 11 as shown in FIG. It penetrates the container of (11) and activates the chlorine dioxide water stored in the internal storage space so that chlorine dioxide gas can be generated.

Here, the UV irradiation unit 14 according to the first embodiment is a chlorine dioxide water storage unit 11 in the process of irradiating UV light (U) from below the container of the chlorine dioxide water storage unit 11 as shown in FIG. ) UV light (U) is irradiated over only the storage area of the stabilizing chlorine dioxide water contained in the storage space, passes through the chlorine dioxide water storage unit 11, and the UV light is transmitted to the gas generating space (A1) of the body unit 11. It is desirable to limit the irradiation range so as not to be irradiated.

This is because the UV light irradiated from the UV irradiation unit 14 passes through the container of the chlorine dioxide water storage unit 11 and activates the chlorine dioxide water stored in the internal storage space so that chlorine dioxide gas is generated in the chlorine dioxide water storage unit 11 ) to block the problem of generating chlorine gas by reactivity by UV light irradiated to the gas generating space (A1) of the body part 11 through its own installation location and By setting the irradiation range, a feature for limiting the irradiation range may be implemented or may be made through the control of the UV control unit 15 to be described later.

Next, the UV irradiation unit 14' according to the second embodiment irradiates UV light (U) from the outer side area of the chlorine dioxide water storage unit 11 as shown in FIG. 2 and stores the chlorine dioxide water from the side It penetrates the container of the part 11 and activates the chlorine dioxide water stored in the internal storage space so that chlorine dioxide gas can be generated.

Here, the UV irradiation unit 14 ′ according to the second embodiment is stored in the storage space in the chlorine dioxide water storage unit 11 in the process of irradiating the UV light U from the side of the container of the chlorine dioxide water storage unit 11 . It is preferable to limit the irradiation range so that UV light is irradiated only over the storage area of the stabilized chlorine dioxide water and the UV light is not irradiated to the gas generating space A1 of the body 11 through the chlorine dioxide water storage.

This is because the UV light irradiated from the UV irradiation unit 14' passes through the container of the chlorine dioxide water storage unit 11 and activates the chlorine dioxide water stored in the internal storage space so that chlorine dioxide gas is generated in the chlorine dioxide water storage unit ( 11) to block the problem of generating chlorine gas by reactivity by UV light transmitted through and irradiated to the gas generating space A1 of the body 11, self-installation of the UV irradiation unit 14' A feature for limiting the irradiation range may be implemented by setting the location and irradiation range, or may be made through the control of the UV control unit 15', which will be described later.

The chlorine dioxide gas (G) that is generated by activating the chlorine dioxide water stored in the chlorine dioxide water storage unit 11 and fills the gas generation space A1 of the body 11 reacts when in contact with UV light. By easily generating chlorine gas and ultimately causing loss of chlorine dioxide gas, which is used for space disinfection, the stabilized chlorine dioxide water contained in the storage space in the chlorine dioxide water storage unit 11 precisely through the limitation of the UV light irradiation range. It is preferable to design so that UV light irradiation can be made only to the

The UV control unit 15, 15' is a control module for controlling the irradiation operation state of the UV light U through the UV irradiation unit 14, 14', and is provided to be connected to the UV irradiation unit 14, 14', respectively. It is provided so that the wavelength range, irradiation range, and output range of the UV light to be irradiated, including whether or not to be irradiated, can be adjusted based on the input setting signal.

In addition, the UV control unit (15, 15 ') is a sensor for detecting the concentration of the chlorine dioxide water stored in the chlorine dioxide water storage unit (11), detect the level of the chlorine dioxide water stored in the chlorine dioxide water storage unit (11) It is connected to at least one or more of a sensor that detects the concentration of chlorine dioxide gas emitted and present in the installation space, and can provide various types of control based on the sensing information sensed and generated by each sensor.

First, the UV control unit 15, 15' operates based on the chlorine dioxide water concentration information generated from the sensor through connection with a sensor that detects the concentration of the chlorine dioxide water stored in the chlorine dioxide water storage unit 11. As the chlorine dioxide water is consumed by the progress, when the concentration of the chlorine dioxide water stored in the chlorine dioxide water storage unit 11 is out of the appropriate concentration range of 100 ppm to 10,000 ppm, a control for adjusting it back to an appropriate concentration level will perform the form.

Specifically, when the concentration of the chlorine dioxide water stored in the chlorine dioxide water storage unit 11 is out of the appropriate concentration range of 100 ppm to 10,000 ppm is detected through the sensor, the UV control unit 15, 15 ' is a separate notification information By generating and transmitting notification information through a wired/wireless network communication network to a previously set connected management server or management terminal side, it may be implemented so that the administrator can recognize this and take immediate action to control the concentration.

In addition, according to the implementation, the chlorine dioxide water storage unit 11 is a chlorine dioxide water storage unit ( When the concentration of the chlorine dioxide water stored in 11) is out of the appropriate concentration range of 100ppm to 10,000ppm is detected through the sensor, the UV controllers 15 and 15' are The chlorine dioxide water storage unit within an appropriate concentration range by adjusting the opening and closing state of the valve on the pipe to which the part 11 is connected or by adjusting the opening and closing state of the valve on the pipe where the chamber in which chlorine dioxide gas is stored and the chlorine dioxide storage unit 11 is connected. An autonomous active control system may be provided so that the concentration of the chlorine dioxide water stored in (11) can be automatically controlled.

Next, as the chlorine dioxide water is consumed by the operation of the space disinfection device 10, when the decrease in the level of the chlorine dioxide water stored in the chlorine dioxide water storage unit 11 is detected through the sensor, the dioxide In accordance with the level of the chlorine dioxide water stored in the chlorine water storage unit 11, the UV light irradiated through the UV irradiation units 14 and 14' passes through the chlorine dioxide water storage unit 11 due to the lowered water level to the body part ( At least one of a wavelength range, an irradiation range, and an output range of UV light through the UV irradiation units 14 and 14' is adjusted so that UV light is not irradiated to the gas generating space A1 of 11).

In particular, like the UV irradiator 14' according to the second embodiment, UV light is irradiated from the outer side area of the chlorine dioxide water storage unit 11, and passes through the container of the chlorine dioxide water storage unit 11 from the side. When the chlorine dioxide water stored in the storage space is activated, the UV light that was previously irradiated to the storage area of the stabilized chlorine dioxide water contained in the storage space in the chlorine dioxide water storage unit 11 is dioxide It penetrates through the chlorine water storage unit 11 and is irradiated to the gas generating space A1 of the body 11 to cause a reaction with the previously generated chlorine gas, causing generation of chlorine gas and loss of chlorine dioxide gas. because it can

In addition, when the concentration of chlorine dioxide (G) in the entire air within the installation space of the space disinfection device 10 is out of the appropriate concentration range of 0.01 ppm to 0.1 ppm is detected through the sensor, the UV control unit 15, 15' ) can be controlled so that the degree of generation of chlorine dioxide gas (G) varies by adjusting at least one of a wavelength range, an irradiation range, and an output range of UV light through the UV irradiation units 14 and 14'.

As a result, chlorine dioxide gas generated from the chlorine dioxide water storage unit 11 and released through the gas discharge port 12H provided on the upper side of the body 12 through the gas generating space A1 is completely discharged inside the installation space. By being present at a low concentration of 0.01 ppm to 0.1 ppm in the air, space disinfection is effectively performed, but it is preferable that it is released in a state with stability as it is harmless to the human body.

The embodiments disclosed in the present invention are intended to explain, not to limit the technical spirit of the present invention, and the scope of the technical spirit of the present invention is not limited by these embodiments. The scope of protection should be construed by the claims below, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

10: space disinfection device
11: chlorine dioxide water storage unit
12: body part
A1 : Gas generating space A2 : Air inlet space
12H: gas outlet 12H': air inlet
13: space division
13H : air movement port
14, 14': UV irradiation unit
15, 15': UV irradiation control unit
16: discharge fan unit
A: Outside air
L : Stabilized chlorine dioxide water
G: chlorine dioxide gas
U: UV light

Claims (7)

In the space disinfection device for generating chlorine dioxide gas using chlorine dioxide (ClO ₂ ) water to discharge the chlorine dioxide gas generated for disinfection inside the installation space,
a chlorine dioxide water storage unit having a predetermined storage space with an open upper side so that the gel or liquid-state stabilized chlorine dioxide water can be contained and stored;
a body portion provided with an open gas outlet on one side of the upper portion, the body portion being accommodated and installed so that the chlorine dioxide water storage portion can block UV from the outside;
The internal space of the body is divided into an upper gas generating space and a lower air inlet space, and the storage space in which the chlorine dioxide water storage unit is opened upwardly of the chlorine dioxide water storage unit communicates with the gas generation space and stores the chlorine dioxide water a space partition part coupled to one side so that the outer surface of the part is disposed in the air inlet space; and
A UV irradiation unit installed in the air inlet space within the body portion to irradiate UV light from the outer lower surface or side side of the chlorine dioxide water storage unit;
The chlorine dioxide water storage unit is transparent so that the UV light irradiated through the UV irradiation unit is transmitted from the outer lower surface or side side of the chlorine dioxide water storage unit to generate the stabilized chlorine dioxide water stored in the storage space as chlorine dioxide gas Or characterized in that provided with a translucent material
Space disinfection device by generating chlorine dioxide gas.
According to claim 1,
The chlorine dioxide water storage unit, characterized in that provided with a transparent or translucent material of PET (Polyethylene Terephthalate) or PP (Polypropylene) material
Space disinfection device by generating chlorine dioxide gas.
According to claim 1,
The body portion is provided with at least one air inlet that is opened to allow the inflow of external air on one side of the lower portion,
The space partition part communicates with the gas generating space and the air inlet space up and down to provide a predetermined open path so that external air introduced into the air inlet can move from the air inlet space to the gas generating space. characterized in that one or more air moving ports are provided
Space disinfection device by generating chlorine dioxide gas.
4. The method of claim 3,
The space disinfection device through the generation of chlorine dioxide gas,
The external air installed in the gas outlet provided on the upper side of the body and moved from the air inlet space to the gas generating space side through a rotational movement and the chlorine dioxide generated from the chlorine dioxide water storage unit to fill the gas generating space Discharge fan (Fan) for discharging chlorine gas into the installation space; characterized in that it further comprises
Space disinfection device by generating chlorine dioxide gas.
According to claim 1,
The stabilized chlorine dioxide water stored in the storage space of the chlorine dioxide water storage unit is diluted with pure water and adjusted to a predetermined concentration, characterized in that it has a concentration level of 100 ppm to 10,000 ppm
Space disinfection device by generating chlorine dioxide gas.
6. The method of claim 5,
Chlorine dioxide gas generated from the chlorine dioxide water storage unit and discharged through the gas outlet provided on the upper side of the body through the gas generating space is in the installation space at a concentration of 0.01 ppm to 0.1 ppm in the total air. characterized by the presence
Space disinfection device by generating chlorine dioxide gas.
According to claim 1,
When the UV irradiation unit irradiates UV light from the outer lower surface or side side of the chlorine dioxide water storage unit, UV light is irradiated only over the storage area of the stabilized chlorine dioxide water contained in the storage space in the chlorine dioxide water storage unit, and the Characterized in that the irradiation range is limited so that UV light is not irradiated to the gas generating space of the body part through the chlorine dioxide water storage part.
Space disinfection device by generating chlorine dioxide gas.

Images