KR102406278B1 - A unmanned automatic quarantine system using ozone sprayer and method thereof - Google Patents

Abstract

The present invention relates to an unmanned automatic quarantine system using an ozone sprayer and a method therefor, and more particularly, to an unmanned automatic quarantine system using an ozone sprayer, which uses high-pressure voltage in a quarantine space at a specific place for unmanned quarantine to provide oxygen in the atmosphere. an ozone generator that converts the to ozone; an ozone spraying unit for spraying the ozone generated by the ozone generating unit into the quarantine space; and a driving control unit for controlling the operation of the ozone generating unit and the ozone injecting unit according to preset conditions.
In addition, the unmanned automatic prevention method using the ozone sprayer according to the characteristics of the present invention,
An unattended automatic quarantine method using an ozone sprayer, comprising: (1) converting oxygen in the atmosphere into ozone using a high-pressure voltage in a quarantine space at a specific place for an unmanned quarantine by an ozone generator; (2) receiving the ozone generated by the ozone generator through the step (1) by the ozone spraying unit and spraying the ozone into the quarantine space; and (3) the driving control unit controlling the operations of the ozone generating unit and the ozone injecting unit according to a preset condition, but stopping the operation of the ozone generating unit and the ozone injecting unit upon completion of the preset condition to complete the quarantine drive. It is characterized by its configuration to include.
According to the unmanned automatic quarantine system and method using an ozone sprayer proposed in the present invention, an ozone generator that converts oxygen in the atmosphere into ozone using a high-pressure voltage in a quarantine space at a specific place for unmanned quarantine, and ozone generation By comprising an ozone spraying unit that sprays the ozone generated by the unit into the quarantine space, and a driving control unit that controls the operation of the ozone generating unit and the ozone spraying unit according to preset conditions, the prevention of quarantine at night or without people After generating ozone in a space, it is possible to sterilize viruses by spraying it indoors, and to maintain hygiene by sterilizing bacteria such as Vibrio, Escherichia coli, and Salmonella within a few seconds to minutes. It can enable safe quarantine management.
In addition, according to the unmanned automatic prevention system and method using the ozone sprayer of the present invention, oxygen in the atmosphere is generated into ozone using a high-pressure voltage, and ozone is directly sprayed into the quarantine space without storing ozone, In a situation such as the recent corona virus, it is possible to disinfect and disinfect the quarantine space of a store, institution, or company every day at night when there are no people without a separate quarantine system. Therefore, it is very friendly to the human body, and it can be made possible to prevent and sterilize viruses more safely.

Description

A UNMANNED AUTOMATIC QUARANTINE SYSTEM USING OZONE SPRAYER AND METHOD THEREOF

The present invention relates to an unmanned automatic quarantine system using an ozone sprayer and a method therefor, and more specifically, converts oxygen in the atmosphere to ozone using a high-pressure voltage, and sprays the converted ozone indoors to fight viruses, pests, and bacteria. It relates to an unmanned automatic quarantine system using an ozone sprayer that can be substituted with oxygen after removal and a method therefor.

In general, ozone has a very strong sterilizing power, so it can sterilize bacteria such as Vibrio, Escherichia coli, and Salmonella within a few seconds or minutes, and oxidize and inactivate the virus. Ozone has a very strong sterilizing power and is known to have the best sterilizing power after fluorine among substances on earth. However, since ozone has a very strong sterilizing power, it is harmful to the human body when consumed, so caution is required.

Meanwhile, animals and plants are infected with various diseases by pathogenic bacteria and pathogenic viruses. When these pathogenic bacteria and pathogenic viruses come into contact with ozone water, they are killed by ozone in the ozone water. Therefore, it is possible to prevent various diseases by killing pathogenic bacteria and pathogenic viruses by spraying ozone water on the surface and air contaminated by pathogenic bacteria and pathogenic viruses. As an example, an apparatus for maintaining a clean environment in a livestock house using ozone water of Utility Model Registration Publication No. 0212366 is disclosed as a prior art document. These prior art documents are being used in a limited place for maintaining the environment of the barn where livestock is raised.

Currently, in an environment that requires periodic quarantine of infectious diseases such as Corona 19, quarantine in closed office spaces such as stores, institutions, and companies is not realistically performed. This is being done in a limited way. In other words, there was a problem that it was difficult to respond to the daily quarantine requirements due to issues such as the recent corona virus. As such prior art documents, Korean Patent Publication No. 10-1546159 (registration on August 13, 2015) and Korean Patent Publication No. 10-2007305 (registration on July 30, 2019) are disclosed.

The present invention has been proposed to solve the above problems of the previously proposed methods, and includes an ozone generator that converts oxygen in the atmosphere into ozone using a high-pressure voltage in a quarantine space at a specific place for unmanned quarantine, and ozone; By comprising an ozone spraying unit that sprays the ozone generated by the generating unit into the quarantine space, and a driving control unit that controls the operation of the ozone generating unit and the ozone spraying unit according to preset conditions, at night or without people After generating ozone in the quarantine space, it is possible to sterilize viruses by spraying it indoors, and to sterilize bacteria such as Vibrio, Escherichia coli, and Salmonella within a few seconds to minutes to maintain a sanitary condition. An object of the present invention is to provide an unmanned automatic quarantine system using an ozone sprayer and a method therefor that enable safe quarantine management in accordance with the present invention.

In addition, the present invention generates oxygen in the atmosphere as ozone by using a high-pressure voltage, and configures so that ozone can be directly sprayed into the quarantine space without storing ozone, thereby providing a separate quarantine system in a situation such as the recent corona virus. It is possible to disinfect and disinfect the quarantine space of stores, institutions, and companies every day at night when no one is there, especially after sterilization, it is oxidized and returned to oxygen. Another object of the present invention is to provide an unmanned automatic disinfection system using an ozone sprayer and a method thereof, which makes this possible.

An unmanned automatic quarantine system using an ozone sprayer according to a feature of the present invention for achieving the above object,

As an unmanned automatic prevention system using ozone sprayer,

an ozone generator that converts atmospheric oxygen into ozone by using a high-pressure voltage in a quarantine space at a specific place for unmanned quarantine;

an ozone spraying unit for spraying the ozone generated by the ozone generating unit into the quarantine space; and

It is characterized in that it includes a driving control unit for controlling the operation of the ozone generating unit and the ozone spraying unit according to a preset condition.

Preferably, the ozone generator,

an oxygen inlet for introducing oxygen in a quarantine space in a specific place for unmanned quarantine;

a high voltage generator for applying a high voltage to oxygen introduced through the oxygen inlet; and

The ozone supply unit for supplying ozone generated by the high voltage voltage applied to oxygen through the high pressure voltage generator to the ozone spray unit may be included.

More preferably, the ozone generator,

Oxygen inflow, high-pressure voltage application, and driving of the generated ozone supply may be sequentially performed.

Preferably, the ozone spraying unit,

The ozone generated by the ozone generator may be supplied and sprayed into the quarantine space, and at least one spray nozzle may be provided so that the ozone can be evenly sprayed into the quarantine space.

More preferably, the ozone spraying unit,

The ozone generated by the ozone generator may be supplied and sprayed into the quarantine space through at least one spray nozzle, wherein the at least one spray nozzle may be disposed at different angles for uniform spraying into the quarantine space.

More preferably, the driving control unit,

The operation of the ozone generating unit and the ozone injecting unit may be controlled according to preset conditions, but may be driven in an automatic manner capable of setting a time reservation using a timer.

More preferably, the driving control unit,

The operation of the ozone generating unit and the ozone spraying unit is controlled according to a preset condition, but may be driven by a manual method of remote control through a smartphone equipped with a driving app.

Even more preferably, the driving app,

Through the display screen of the smart phone, it is possible to display and select the indoor ozone amount, automatic or manual selection possible, driving or not, and entry/exit confirmation.

An unmanned automatic prevention method using an ozone sprayer according to a feature of the present invention for achieving the above object,

As an unmanned automatic prevention method using an ozone sprayer,

(1) the ozone generator converting oxygen in the atmosphere into ozone by using a high-pressure voltage in a quarantine space at a specific place for unmanned quarantine;

(2) receiving the ozone generated by the ozone generator through the step (1) by the ozone spraying unit and spraying the ozone into the quarantine space; and

(3) a driving control unit controlling the operation of the ozone generating unit and the ozone injecting unit according to a preset condition, but stopping the operation of the ozone generating unit and the ozone injecting unit upon completion of the preset condition to complete the quarantine drive; It is characterized by its constitution.

Preferably, the ozone generating unit in step (1),

an oxygen inlet for introducing oxygen in a quarantine space in a specific place for unmanned quarantine;

a high voltage generator for applying a high voltage to oxygen introduced through the oxygen inlet; and

The ozone supply unit for supplying ozone generated by the high voltage voltage applied to oxygen through the high pressure voltage generator to the ozone spray unit may be included.

More preferably, the ozone generator,

Oxygen inflow, high-pressure voltage application, and driving of the generated ozone supply may be sequentially performed.

Preferably, the ozone injection unit in step (2),

The ozone generated by the ozone generator may be supplied and sprayed into the quarantine space, and at least one spray nozzle may be provided so that the ozone can be evenly sprayed into the quarantine space.

More preferably, the ozone spraying unit,

The ozone generated by the ozone generator may be supplied and sprayed into the quarantine space through at least one spray nozzle, wherein the at least one spray nozzle may be disposed at different angles for uniform spraying into the quarantine space.

More preferably, the drive control unit in step (3),

The operation of the ozone generating unit and the ozone injecting unit may be controlled according to preset conditions, but may be driven in an automatic manner capable of setting a time reservation using a timer.

More preferably, the drive control unit in step (3),

The operation of the ozone generating unit and the ozone spraying unit is controlled according to a preset condition, but may be driven by a manual method of remote control through a smartphone equipped with a driving app.

Even more preferably, the driving app,

Through the display screen of the smart phone, it is possible to display and select the indoor ozone amount, automatic or manual selection possible, driving or not, and entry/exit confirmation.

According to the unmanned automatic quarantine system and method using an ozone sprayer proposed in the present invention, an ozone generator that converts oxygen in the atmosphere into ozone using a high-pressure voltage in a quarantine space at a specific place for unmanned quarantine, and ozone generation By comprising an ozone spraying unit that sprays the ozone generated by the unit into the quarantine space, and a driving control unit that controls the operation of the ozone generating unit and the ozone spraying unit according to preset conditions, the prevention of quarantine at night or without people After generating ozone in a space, it is possible to sterilize viruses by spraying it indoors, and to maintain hygiene by sterilizing bacteria such as Vibrio, Escherichia coli, and Salmonella within a few seconds to minutes. It can enable safe quarantine management.

In addition, according to the unmanned automatic prevention system and method using the ozone sprayer of the present invention, oxygen in the atmosphere is generated into ozone using a high-pressure voltage, and ozone is directly sprayed into the quarantine space without storing ozone, In a situation such as the recent corona virus, it is possible to disinfect and disinfect the quarantine space of a store, institution, or company every day at night when there are no people without a separate quarantine system. Therefore, it is very friendly to the human body, and it can be made possible to prevent and sterilize viruses more safely.

1 is a block diagram showing the configuration of an unmanned automatic quarantine system using an ozone sprayer according to an embodiment of the present invention.
FIG. 2 is a functional block diagram illustrating the configuration of an ozone generator of an unmanned automatic quarantine system using an ozone sprayer according to an embodiment of the present invention; FIG.
3 is a view showing the configuration of an ozone spraying unit of an unmanned automatic quarantine system using an ozone sprayer according to an embodiment of the present invention as a functional block.
4 is a diagram showing the configuration of a driving control unit of an unmanned automatic quarantine system using an ozone sprayer according to an embodiment of the present invention.
5 is a diagram schematically illustrating an ozone generation driving process in an unmanned automatic quarantine system using an ozone sprayer according to an embodiment of the present invention.
6 is a view showing an example of a driving method of an unmanned automatic quarantine system using an ozone sprayer according to an embodiment of the present invention.
7 is a view showing an installation configuration of an unmanned automatic quarantine system using an ozone sprayer according to an embodiment of the present invention as an example.
8 is a view showing the flow of an unmanned automatic quarantine method using an ozone sprayer according to an embodiment of the present invention.

Hereinafter, preferred embodiments will be described in detail so that those of ordinary skill in the art can easily practice the present invention with reference to the accompanying drawings. However, in describing the preferred embodiment of the present invention in detail, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, the same reference numerals are used throughout the drawings for parts having similar functions and functions.

In addition, throughout the specification, when a part is 'connected' with another part, it is not only 'directly connected' but also 'indirectly connected' with another element interposed therebetween. include In addition, "including" a certain component means that other components may be further included, rather than excluding other components, unless otherwise stated.

1 is a functional block diagram showing the configuration of an unmanned automatic quarantine system using an ozone sprayer according to an embodiment of the present invention, and FIG. 2 is an unmanned automatic quarantine system using an ozone sprayer according to an embodiment of the present invention. It is a view showing the configuration of the ozone generator as functional blocks, and FIG. 3 is a diagram showing the configuration of the ozone spraying part of the unmanned automatic quarantine system using an ozone sprayer according to an embodiment of the present invention as a functional block, and FIG. 4 is this It is a diagram showing the configuration of a driving control unit of an unmanned automatic quarantine system using an ozone sprayer according to an embodiment of the present invention, and FIG. 5 is an ozone generation drive in the automatic ozone sprayer according to an embodiment of the present invention. It is a diagram schematically illustrating a process, and FIG. 6 is a diagram illustrating an example of a driving method of an unmanned automatic quarantine system using an ozone sprayer according to an embodiment of the present invention. 1 to 6, the unmanned automatic quarantine system 100 using an ozone sprayer according to an embodiment of the present invention includes an ozone generator 110, an ozone sprayer 120, and a driving control unit. 130 may be included.

The ozone generator 110 is configured to convert oxygen in the atmosphere into ozone by using a high-pressure voltage in a quarantine space at a specific place for unmanned quarantine. As shown in FIG. 2 , the ozone generator 110 includes an oxygen inlet 111 for introducing oxygen in a quarantine space at a specific place for unmanned quarantine, and oxygen flowing in through the oxygen inlet 111 . a high-pressure voltage generator 112 for applying a high-pressure voltage to the can be configured.

In addition, as shown in FIG. 5 , in the ozone generator 110 , the introduction of oxygen, the application of a high voltage voltage, and the driving of the generated ozone supply may be sequentially performed. The ozone generating unit 110 may function so that the generated ozone is supplied to the ozone jetting unit 120 and directly sprayed, so that the generated ozone is used in real time without a storage process. In other words, ozone has a very strong sterilizing power and is harmful to the human body when drunk.

The ozone spraying unit 120 is configured to spray the ozone generated by the ozone generating unit 110 to the quarantine space. As shown in FIG. 3 , the ozone spray unit 120 receives ozone generated by the ozone generator 110 and sprays it into the quarantine space, but at least one or more spray nozzles 121 so that it can be evenly sprayed into the quarantine space. ) can be provided.

In addition, the ozone spray unit 120 receives the ozone generated by the ozone generator 110 and sprays it into the quarantine space through at least one spray nozzle 121 , but at least one spray nozzle 121 enters the quarantine space. It can be arranged at different angles for even injection of Here, at least one or more spray nozzles 121 may function to spray widely and evenly when ozone is sprayed into the quarantine space.

The driving control unit 130 is configured to control the operations of the ozone generating unit 110 and the ozone spraying unit 120 according to preset conditions. As shown in FIG. 4 , the driving control unit 130 controls the operations of the ozone generating unit 110 and the ozone injecting unit 120 according to preset conditions, but automatically setting a time reservation using the timer 131 . can be driven in this way.

In addition, the driving control unit 130 controls the operation of the ozone generating unit 110 and the ozone injecting unit 120 according to preset conditions, but the driving app 132 is mounted on the smart phone 133 of the remote control through the 133. It can be driven manually. Here, the driving app 132 may function to display and select the indoor ozone amount display, automatic or manual selection possible, driving or not, and entry/exit confirmation through the display screen of the smartphone 133 .

7 is a view showing an installation configuration of an unmanned automatic quarantine system using an ozone sprayer according to an embodiment of the present invention as an example. As shown in FIG. 7 , one or more unmanned automatic quarantine systems 100 may be installed in a quarantine space, and automatically or manually operated at night when there are no people or when there are no people in the space.

8 is a diagram showing the flow of an unmanned automatic quarantine method using an ozone sprayer according to an embodiment of the present invention. As shown in FIG. 8 , in the unmanned automatic quarantine method using an ozone sprayer according to an embodiment of the present invention, the ozone generator converts atmospheric oxygen into ozone by using a high-pressure voltage in a quarantine space at a specific place for unmanned quarantine. The converting step (S110), the ozone spraying unit receiving the ozone generated by the ozone generating unit and spraying it into the quarantine space (S120), and the driving control unit controlling the operation of the ozone generating unit and the ozone injecting unit according to preset conditions , by stopping the operation of the ozone generating unit and the ozone spraying unit upon completion of the preset condition to complete the quarantine operation (S130).

In step S110, the ozone generator 110 converts oxygen in the atmosphere into ozone by using a high-pressure voltage in the quarantine space of a specific place for unmanned quarantine. As shown in FIG. 2 , the ozone generator 110 in step S110 includes an oxygen inlet 111 for introducing oxygen in a quarantine space at a specific place for unmanned quarantine, and an oxygen inlet 111 in step S110. A high-pressure voltage generator 112 for applying a high-pressure voltage to the oxygen introduced through the high-pressure voltage generator 112, and an ozone supply unit for supplying ozone generated by a high-voltage voltage applied to oxygen through the high-pressure voltage generator 112 to the ozone spraying unit 120 ( 113) can be included. Here, in the ozone generator 110 , the introduction of oxygen, the application of a high-pressure voltage, and the driving of the generated ozone supply may be performed in a sequential process.

In step S120, the ozone spraying unit 120 receives the ozone generated by the ozone generator 110 in step S110 and sprays it into the quarantine space. In this step S120, the ozone spraying unit 120 receives the ozone generated by the ozone generating unit 110 and sprays it into the quarantine space, but may include at least one spray nozzle 121 so that it can be evenly sprayed into the quarantine space. can Here, the ozone spray unit 120 receives the ozone generated by the ozone generator 110 and sprays it into the quarantine space through at least one spray nozzle 121 , but at least one spray nozzle 121 enters the quarantine space. It can be arranged at different angles for even injection of

In step S130, the driving control unit 130 controls the operation of the ozone generating unit 110 and the ozone injecting unit 120 according to a preset condition, but upon completion of the preset condition, the ozone generating unit 110 and the ozone injecting unit Stop the operation of (120) to complete the quarantine drive. In this step S130, the driving control unit 130 controls the operation of the ozone generating unit 110 and the ozone injecting unit 120 according to a preset condition, but is driven in an automatic manner in which a time reservation setting is possible with the timer 131. can

In addition, the driving control unit 130 in step S130 controls the operation of the ozone generating unit 110 and the ozone spraying unit 120 according to a preset condition, but the driving app 132 is mounted on the smartphone 133. It can also be driven by a manual method of remote control via Here, the driving app 132 may function to display and select the indoor ozone amount display, automatic or manual selection possible, driving or not, and entry/exit confirmation through the display screen of the smartphone 133 .

As described above, in an unmanned automatic quarantine system and method using an ozone sprayer according to an embodiment of the present invention, ozone converts atmospheric oxygen into ozone by using high-pressure voltage in a quarantine space at a specific place for unmanned quarantine. By comprising a generator, an ozone spraying part that sprays the ozone generated by the ozone generator into the quarantine space, and a driving control part that controls the operation of the ozone generator and the ozone sprayer according to preset conditions, at night without people It is possible to sterilize viruses by spraying it indoors after generating ozone in a quarantine space where there are no people or people, and to maintain hygiene by sterilizing bacteria such as Vibrio, Escherichia coli, and Salmonella within seconds to minutes, and after a certain period of time can be replaced with oxygen, enabling safe quarantine management. In particular, by generating ozone in the atmosphere using high-pressure voltage, In a situation like the corona virus in China, it is possible to disinfect and disinfect the quarantine spaces of stores, institutions, and companies every day at night when there are no people without a separate quarantine system. It is very friendly to the human body, and it is possible to enable safer virus prevention and sterilization.

Various modifications and applications of the present invention described above are possible by those skilled in the art to which the present invention pertains, and the scope of the technical idea according to the present invention should be defined by the following claims.

100: unmanned automatic quarantine system according to an embodiment of the present invention
110: ozone generator
111: oxygen inlet
112: high voltage voltage generator
113: ozone supply unit
120: ozone injection unit
121: spray nozzle
130: drive control unit
131: timer
132: running app
133: smartphone
S110: A step in which the ozone generator converts atmospheric oxygen into ozone by using high-pressure voltage in a quarantine space at a specific place for unmanned quarantine
S120: step of receiving ozone generated by the ozone generating unit and spraying the ozone spraying unit into the quarantine space
S130: A step in which the driving control unit controls the operation of the ozone generating unit and the ozone injecting unit according to a preset condition, but stopping the operation of the ozone generating unit and the ozone injecting unit upon completion of the preset condition to complete the quarantine drive

Claims (16)

As an unmanned automatic quarantine system 100 using an ozone sprayer,
an ozone generator 110 that converts oxygen in the atmosphere into ozone using a high-pressure voltage in a quarantine space at a specific place for unmanned quarantine;
an ozone spraying unit 120 for spraying the ozone generated by the ozone generating unit 110 to the quarantine space; and
and a driving control unit 130 for controlling the operation of the ozone generating unit 110 and the ozone injecting unit 120 according to a preset condition,
The ozone generator 110,
An oxygen inlet 111 for introducing oxygen in the quarantine space of a specific place for unattended quarantine, and a high-pressure voltage generator 112 for applying a high voltage to oxygen flowing in through the oxygen inlet 111; and an ozone supply unit 113 that supplies ozone generated by a high voltage voltage applied to oxygen through the high voltage generator 112 to the ozone spray unit 120,
The ozone spraying unit 120,
The ozone generated by the ozone generator 110 is supplied and sprayed into the quarantine space through at least one spray nozzle 121, but the at least one spray nozzle 121 is different from each other for uniform spraying into the quarantine space. placed at an angle,
The driving control unit 130,
The operation of the ozone generating unit 110 and the ozone injecting unit 120 is controlled according to preset conditions, but driven by a manual method of remote control through a smartphone 133 equipped with a driving app 132,
The driving app 132 is,
Unmanned automatic using ozone sprayer, characterized in that it displays and selects indoor ozone amount display, automatic or manual selection possible, driving or not, and entry/exit confirmation through the display screen of the smart phone 133 quarantine system.
delete According to claim 1, wherein the ozone generator 110,
An unmanned automatic quarantine system using an ozone sprayer, characterized in that the inflow of oxygen, the application of high-pressure voltage, and the driving of the generated ozone supply are sequentially performed.
According to claim 1 or 3, wherein the ozone spraying unit 120,
Unmanned automatic using an ozone sprayer, characterized in that the ozone generated by the ozone generator 110 is supplied and sprayed into the quarantine space, and at least one spray nozzle 121 is provided so that it can be evenly sprayed into the quarantine space. quarantine system.
delete According to claim 4, wherein the driving control unit 130,
Unmanned using an ozone sprayer, characterized in that the operation of the ozone generator 110 and the ozone sprayer 120 is controlled according to a preset condition, and is driven in an automatic manner that allows time reservation setting with a timer 131 . automatic quarantine system.
delete delete As an unmanned automatic prevention method using an ozone sprayer,
(1) converting, by the ozone generator 110, oxygen in the atmosphere into ozone using a high-pressure voltage in a quarantine space of a specific place for unmanned quarantine;
(2) the ozone spraying unit 120 receiving the ozone generated by the ozone generating unit 110 through the step (1) and spraying it into the quarantine space; and
(3) the driving control unit 130 controls the operation of the ozone generating unit 110 and the ozone spraying unit 120 according to a preset condition, but when the preset condition is completed, the ozone generating unit 110 and the ozone Including the step of stopping the operation of the master 120 to complete the quarantine drive,
The ozone generating unit 110 in step (1) is,
An oxygen inlet 111 for introducing oxygen in the quarantine space of a specific place for unmanned quarantine, and a high-pressure voltage generator 112 for applying a high voltage to oxygen flowing in through the oxygen inlet 111; and an ozone supply unit 113 for supplying ozone generated by a high voltage voltage applied to oxygen through the high-pressure voltage generator 112 to the ozone injection unit 120,
The ozone spraying unit 120,
The ozone generated by the ozone generator 110 is supplied and sprayed into the quarantine space through at least one spray nozzle 121, but the at least one spray nozzle 121 is different from each other for uniform spraying into the quarantine space. placed at an angle,
The driving control unit 130 in step (3) is,
The operation of the ozone generating unit 110 and the ozone injecting unit 120 is controlled according to preset conditions, but driven by a manual method of remote control through a smartphone 133 equipped with a driving app 132,
The driving app 132 is,
Unmanned automatic using an ozone sprayer, characterized in that it displays and selects indoor ozone amount display, automatic or manual selection possible, driving or not, and entry/exit confirmation through the display screen of the smart phone 133 quarantine method.
delete The method of claim 9, wherein the ozone generator 110,
An unmanned automatic quarantine method using an ozone sprayer, characterized in that the inflow of oxygen, the application of high pressure voltage, and the driving of the generated ozone supply are sequentially performed.
12. The method of claim 9 or 11, wherein the ozone spraying unit 120 in step (2),
Unmanned automatic using an ozone sprayer, characterized in that the ozone generated by the ozone generator 110 is supplied and sprayed into the quarantine space, and at least one spray nozzle 121 is provided so that it can be evenly sprayed into the quarantine space. quarantine method.
delete The method of claim 12, wherein the driving control unit 130 in step (3),
Unmanned using an ozone sprayer, characterized in that the operation of the ozone generator 110 and the ozone sprayer 120 is controlled according to a preset condition, and is driven in an automatic manner that allows time reservation setting with a timer 131 . automatic quarantine method.
delete delete

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