KR102198218B1 - Remote control unmanned space sterilization device and sterilization device management system including the same - Google Patents

Abstract

The present invention relates to a space sterilization system and, more particularly, to a space sterilization device capable of safely and remotely sterilizing a large-area space, such as an operating room, an emergency room, and a clinical laboratory of a hospital, and a sterilization system including the same. According to one aspect of the present invention, provided is a remotely controllable space sterilization device. The space sterilization device comprises: an environmental sensor group for detecting the external environment of the space sterilization device; a hydrogen peroxide supply unit for generating dry fog type hydrogen peroxide; a plasma generating unit for generating radicals by plasma decomposing the dry fog type hydrogen peroxide supplied from the hydrogen peroxide supply unit; and a communication unit capable of communicating with an external management server or an external user terminal through a wired/wireless network. The environmental sensor group comprises: a door sensor for detecting the open and closed state of a door of a space; a human body detection sensor for detecting the human body in the space; and a hydrogen peroxide detection sensor for detecting the amount of hydrogen peroxide in the space.

Description

Remote control unmanned space sterilization device and sterilization device management system including the same}

The present invention relates to a space sterilization system, and more specifically, to a space sterilization device capable of safely and remotely sterilizing a large area space such as an operating room, an emergency room, and a clinical laboratory of a hospital, and a sterilization device management system including the same. .

Sterilization refers to aseptic conditions in which all types of microorganisms (bacteria, viruses, fungi, etc.) including spores are completely removed, and disinfection destroys or weakens the vitality of microorganisms, resulting in infection and proliferation. It can kill the vegetative cells of microorganisms by removing the cells, but it cannot destroy spores with high resistance.

Surgery is a medical practice to protect the health and life of patients, and for such an operation to be successful, it is very important to sterilize the internal air of a hospital operating room and tools and equipment for surgery as well as the ability of a surgeon. If the hygienic environment of a hospital operating room in which the patient's surgery is performed is not properly maintained, a serious infection accident may occur.

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Therefore, the hospital operating room must be kept sterile without pathogens or other microorganisms, and must not allow any microorganisms to access it in a special area such as an operating area.
For example, the technical means of Korean Registered Patent Publication 10-1924620 (announced on November 27, 2018), which is a prior art, relates to HAPE that sterilizes the sterilization space by spraying a hydrogen peroxide solution to sterilize the space. It characterized in that it comprises a nozzle, a mist generator, an air blower, and an air blower control device for controlling the drive of the air blower.
Another conventional technique, the technical means of Korean Patent Application Publication No. 10-2020-0009287 (published on January 30, 2020), is a medical probe sterilization device capable of simultaneously sterilizing the surface of a medical probe and the air surrounding the probe. Regarding the sterilization method using this, the probe mounting part, the mounting part to sterilize and sterilize the surface of the probe and the air around the probe, a vaporization part that forms a vapor of a chemical solution including hydrogen peroxide water by a hot air vortex, circulation pipe, circulation It is characterized by being composed of a fan.
In addition, Korean Patent Publication No. 10-1924625 (registration date 2018. 11. 27), which is a prior art, relates to a hydrogen peroxide mist generator, and relates to a HPAE equipped with a control device for a scrubber with a hydrogen peroxide decomposition catalyst filter. , An air supply unit, an injection nozzle, a scrubber including an intake unit for inhaling air in the melt space, a scrubber including an exhaust unit, and a scrubber control device for controlling driving of the scrubber.

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Conventionally, spaces such as operating rooms, emergency rooms, and clinical laboratories of hospitals adopt a wet sterilization method to sterilize the space. In the wet sterilization method, the liquid sterilization solution is converted to gas using a high-pressure steam sterilization device, and the gaseous sterilization solution is sterilized by spraying it in a space to be sterilized for a certain period of time.

When using a sterilization solution such as hydrogen peroxide (H2O2), in principle, it is regulated to use a concentration of 6%, but in most cases, the space is sterilized by using a concentration exceeding the specified value, for example, hydrogen peroxide of 35% concentration. to be. Although it is possible to improve the sterilization effect by using a high concentration of hydrogen peroxide, since hydrogen peroxide itself is treated as a deadly toxic substance to the human body, exposure to such a high concentration of hydrogen peroxide is highly likely to lead to fatal respiratory diseases.

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This is due to the nature of the wet sterilization method in which the person performing the sterilization must wear the protective clothing directly and then perform sterilization, so the probability that the user will be more exposed to danger is increased, and the protective clothing used is also expensive, which puts a burden on the hospital's finances. In this way, there is a problem that it is difficult to continuously manage the protective clothing used once as medical waste.

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In addition, in the case of the wet sterilization method, it takes a long time (approximately 2-3 hours) for the sterilization solution to disappear completely after spraying the sterilization solution, and it is difficult to determine the usage time of the space because the sterilization state in the space is also not known accurately. There was a problem.

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1. Korean Patent Publication 10-1924620 (announced on March 6, 2019) 2. Korean Patent Application Publication 10-2015-0085158 (published on January 30, 2020) 3. Korean Patent Publication 10-1924625 (announcement date 2018. 12. 3)

The present invention is an invention conceived based on the above-described problems, and it is a basic object to provide a space sterilization device capable of quickly and safely sterilizing spaces such as operating rooms, emergency rooms and clinical laboratories of hospitals.
In addition, the present invention detects the current amount of hydrogen peroxide in the space after the space sterilization process is performed by the space sterilization device, and when the detected amount of hydrogen peroxide is less than a predetermined reference value, the space sterilized together with the current amount of hydrogen peroxide detected. Another task is to inform the user of the status that this is available as a message.

In addition, the present invention is to identify the user's identity through the user's terminal connected from the outside and use only the authorized user or another object.

In addition, the present invention provides a remote controllable space sterilization device that allows a user to monitor the interior of the sterilization space from the outside and performs space sterilization remotely, in addition to the above object, and also monitors the state of various sterilization devices in the hospital. It aims to provide a sterilization device management system that can be used.

In order to solve the above problems, according to an aspect of the present invention, a space sterilization device capable of remote control is provided, and the space sterilization device,

An environmental sensor group for detecting the external environment of the space sterilization device;

A hydrogen peroxide supply unit for generating hydrogen peroxide of dry radish;

A plasma generating unit generating radicals by plasma decomposing hydrogen peroxide of dry radish supplied from the hydrogen peroxide supply unit;
An air purifier for removing undissolved hydrogen peroxide in the space after sterilization;

It includes a communication unit capable of communicating with an external management server or an external user terminal through a wired or wireless network,

The environmental sensor group may include a door sensor that detects open and closed states of a door in the space; It is configured to include a human body detection sensor for detecting a human body in the space, and a hydrogen peroxide detection sensor for detecting the amount of hydrogen peroxide in the space.

In the above-described aspect, the space sterilization device detects the current amount of hydrogen peroxide in the space after the space sterilization process is performed by the space sterilization device, and when the detected amount of hydrogen peroxide is less than a predetermined reference value, the current detected amount of hydrogen peroxide and It consists of notifying the management server or the user terminal of the message whether the space sterilized together is available.

In addition, in the above-described aspect, the space sterilization device further includes a user identification unit for identifying the user's identity through the user's terminal connected from the outside, and the space sterilization device operates only when the identified user is an authorized user. Is composed.

In addition, in the above-described aspect, the space sterilization device further includes a user input unit for receiving an input from the user, and the space sterilization device is the name of the space to be sterilized and the sterilization target through the user input unit before performing the sterilization process. It is configured to receive input of the size of the space and the amount of sterilization liquid to be used.

In addition, in the above-described aspect, the space sterilization device includes the name of the space to be sterilized, the size of the space to be sterilized, and the amount of sterilization liquid to be used, as well as the time required for sterilization, and the current ppm of hydrogen peroxide. It is configured to transmit operation data of the space sterilization device including concentration, sterilization treatment temperature, sterilization treatment pressure, and time required for device trial operation to the management server.

In addition, according to another aspect of the present invention, a sterilization device management system comprising a plurality of space sterilization devices, a management server for managing a plurality of space sterilization devices, and a user terminal accessible via a management server to the plurality of space sterilization devices is provided. And the space sterilization device,

An environmental sensor group for detecting the external environment of the space sterilization device; A hydrogen peroxide supply unit for generating hydrogen peroxide of dry radish; A plasma generating unit generating radicals by plasma decomposing hydrogen peroxide of dry radish supplied from the hydrogen peroxide supply unit; And a communication unit capable of communicating with the management server or the user terminal through a wired/wireless network, and the environmental sensor group includes: a door sensor that detects open and closed states of a door in the space; It includes a human body detection sensor for detecting a human body in the space, and a hydrogen peroxide detection sensor for detecting the amount of hydrogen peroxide in the space.

In addition, according to another aspect of the present invention, the space sterilization device detects the current amount of hydrogen peroxide in the space after the space sterilization process is performed by the space sterilization device, and the current detection when the detected amount of hydrogen peroxide is less than a predetermined reference value. It consists of notifying the management server or the user terminal of a message whether the sterilized space is available along with the amount of hydrogen peroxide that has been sterilized.

In addition, according to another aspect of the present invention, the space sterilization device further includes a user identification unit for identifying the user's identity through the user's terminal, and the space sterilization device transmits the identified user information to the management server for permission by the user. It is configured to check whether the user is an authorized user and to operate only when the user is an authorized user.

In addition, according to another aspect of the present invention, the space sterilization device further includes a user input unit for receiving an input from a user, and the space sterilization device is the name of the space to be sterilized through the user input unit before performing the sterilization process. , It is configured to receive input of the size of the space to be sterilized and the amount of sterilization liquid to be used.

In addition, according to another aspect of the present invention, the space sterilization device includes the name of the space to be sterilized, the size of the space to be sterilized, the amount of sterilization liquid to be used, and the time required for sterilization, and the current It is configured to transmit the operation data of the space sterilization device, including the hydrogen peroxide ppm concentration, the sterilization treatment temperature, the sterilization treatment pressure, and the time required for commissioning the device to the management server.

According to the present invention, by providing a plasma-type space sterilization device, spaces such as an operating room, an emergency room, and a clinical laboratory of a hospital can be sterilized quickly and safely.

In addition, according to the present invention, it is possible to safely sterilize the space by installing a plurality of detection sensors in the sterilization space, performing sterilization in the space based on the detected value from the detection sensor, and also checking the sterilization state in the space.

In addition, according to the present invention, it is possible to prevent medical accidents due to malfunction of the sterilizers by assigning IP to various fixed and mobile sterilization devices distributed in the hospital and monitoring the state of the latest sterilization device of the sterilizer through access to the assigned IP. Effects can be obtained.

1 is a diagram illustrating an exemplary arrangement of a space sterilization device according to an embodiment of the present invention in a fixed state in a space.
Figure 2 is a view schematically showing the internal configuration of the space sterilization apparatus according to an embodiment of the present invention.
3 is a view schematically showing the internal configuration of the hydrogen peroxide supply unit of the space sterilization apparatus according to an embodiment of the present invention.
4 is a view schematically showing the internal configuration of the plasma generating unit of the space sterilization apparatus according to an embodiment of the present invention.
Figure 5 is a view schematically showing the internal configuration of the air purification unit of the space sterilization apparatus according to an embodiment of the present invention.
6 is an exemplary view showing a combination of a hydrogen peroxide supply unit, a plasma generation unit, and an air purification unit shown in FIGS. 3 to 5.
7 is a flowchart illustrating an exemplary control flow operation of the control unit of the space sterilization apparatus according to the present invention.
8 is a block diagram showing an example of a sterilization device management system including a space sterilization device according to the present invention.
9 is a diagram illustrating a process of updating user authentication and sterilization device use history between a sterilization device constituting a sterilization device management system, a user terminal, and a server.

Advantages and features of the present invention, and a method of achieving them will become apparent with reference to embodiments to be described later in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms.

In the present specification, the present embodiment is provided to complete the disclosure of the present invention, and to completely inform the scope of the invention to those of ordinary skill in the art to which the present invention belongs. And the invention is only defined by the scope of the claims. Accordingly, in some embodiments, well-known components, well-known operations, and well-known techniques have not been described in detail in order to avoid obscuring interpretation of the present invention.

The same reference numerals refer to the same components throughout the specification. In addition, the terms used in the present specification (referred to) are for describing exemplary embodiments and are not intended to limit the present invention. In this specification, the singular form also includes the plural form unless specifically stated in the phrase. In addition, elements and operations referred to as'comprising (or having)' do not exclude the presence or addition of one or more other elements and operations.

Unless otherwise defined, all terms (including technical and scientific terms) used in the present specification may be used as meanings that can be commonly understood by those of ordinary skill in the art to which the present invention belongs. In addition, terms defined in a commonly used dictionary are not interpreted ideally or excessively unless defined. Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a view showing an example in which the space sterilization device 10 according to the present invention is installed in a space 20 such as an operating room, an emergency room, and a clinical laboratory. As shown in Fig. 1, it can be installed in a place such as the ceiling or wall of the space sterilization device 10, and the installation place is not limited thereto, and is installed outside the space, and suitable compressed air, solution supply, piping lines and wiring It can also be implemented through In addition, the space sterilization device 10 may be configured as a movable type rather than a fixed type.

As shown in FIG. 1, the space sterilization device 10 exemplarily shows a fixed space sterilization device installed on one wall of the space, and includes a plurality of environmental sensor groups 100: 101, 102, 103, 106. The plurality of environmental sensors 101, 102, 103, 106 include, for example, a human body detection sensor 101 for detecting the presence or absence of a person in the space, a hydrogen peroxide detection sensor 103 for detecting the amount of hydrogen peroxide in the space in ppm units, and pressure in the space. And a temperature/pressure sensor 104 for detecting temperature, and a door sensor 106 for detecting whether or not the door is opened or closed, and a humidity detection sensor for detecting humidity in the space as needed, oxygen in the space It may further include other types of sensors, such as an oxygen sensor for detecting saturation. In addition, in the case of the movable space sterilization device, the door sensor 106 for detecting the opening and closing of the door may be configured to be attached to the entrance door through a cable.

In addition, although the space sterilization device 10 is not shown, it can be configured to be connected to an external control room through a network and to operate the space sterilization device 10 under the control of the control room. It may be configured to be controllable from outside of.

2 is a block diagram showing the main internal configuration of the space sterilization device 10. As shown in Figure 2, the space sterilization device includes an environmental sensor group 100 for detecting the surrounding environment of the space sterilization device; A hydrogen peroxide supply unit 300 for providing hydrogen peroxide in a sprayed state, a plasma generating unit 400 for generating radicals by decomposing the spray of hydrogen peroxide supplied from the hydrogen peroxide supply unit 300; It includes an air purification unit 500 for removing undissolved hydrogen peroxide in the space 20 after sterilization.

In addition, the space sterilization apparatus 10 includes a spray nozzle 350 provided to the hydrogen peroxide supply unit 300 as described above, and a plurality of discharge nozzles 450 provided at the discharge end of the plasma generation unit 400; And a valve (nozzle) control unit 610 for controlling the three-way valve 550 selectively providing air to the hydrogen peroxide supply unit 300 and the flow of air to the air purification unit 500.

In addition, the space sterilization device 10 includes a sterilization state notification unit 620 for providing a safe state of the space after performing space sterilization; A user identification unit 630 for confirming the user's identity and a communication unit that can be assigned an IP; And a user input unit 650 for receiving an input from a user.

The user identification unit 630 is used to identify the user's ID, and may include a device such as an RFID card reader, a QR code reader, and a barcode reader. The user may contact the QR code, RFID tag, or barcode that can identify the user of the user identification unit 630 and identify whether the user is an authorized user through the control unit.

The communication unit 640 performs communication between the space sterilization device 10 and the management server 40, and when the sterilization process is performed, the control unit transmits the identification number of the space sterilization device 10 to the management server 40 Is configured to

The user input unit 650 is configured to input an area of the space, or the amount of hydrogen peroxide to be used when the user performs a sterilization process on the space. Input from the user may be performed through a control panel provided to the space sterilization device 10, but a device connected through the communication unit 640, for example, a computer of an administrator, or a terminal wirelessly connected through a communication unit, for example For example, it may be input from the outside through a smartphone or a smart pad.

3 is a view schematically showing the internal configuration of the hydrogen peroxide supply unit 300 for providing hydrogen peroxide in a sprayed state. As shown in FIG. 3, the hydrogen peroxide supply unit 300 includes a hydrogen peroxide storage 310 in which liquid hydrogen peroxide is stored; Including a sprayer 330 for spraying liquid hydrogen peroxide delivered from the hydrogen peroxide reservoir 310 using a pump or the like into a dry dry hydrogen peroxide aerosol, and preferably less than 10% in the hydrogen peroxide reservoir 310 of the hydrogen peroxide supply unit 300 , More preferably hydrogen peroxide in a concentration between 5.8% and 7.8% is stored.

In addition, the air compressor 320 is connected to the low nebulizer 330 to pressurize the air from the outside, and by supplying the pressurized air to the nebulizer 330, the nebulizer 330 supplies the compressed hydrogen peroxide aerosol to the plasma generator ( 400). The smaller the size of the hydrogen peroxide particles sprayed in the dry state is more advantageous, but preferably, it may have a size of 5 μm or less.

4 is a diagram schematically showing the internal configuration of the plasma generator 410. As shown in FIG. 4, the plasma generator 410 includes a plasma electrode 410 in which a plasma reaction occurs; It includes a high voltage generator 420 for supplying necessary power to the plasma electrode 410.

The hydrogen peroxide aerosol in the compressed state is supplied to the plasma electrode through the injection nozzle 350 as shown. The high voltage generator 420 that supplies plasma power may supply a high voltage of 17.5KV or more to the plasma electrode 410 for plasma discharge. Therefore, the hydrogen peroxide aerosol sprayed in the dry state is decomposed into an ionized hydrogen peroxide aerosol state while passing through the plasma electrode 410, and contains cellular components including proteins and DNA, such as OH radicals or HO ₂ radicals, and organic compounds. Highly oxidizing chemicals are produced that degrade hardly degradable substances.

5 is a block diagram schematically showing the internal configuration of the air purifier 500 of the space sterilization device 10. As shown in FIG. 5, the air purifier 500 includes an air intake unit 510 for inhaling external air of the space sterilization device 10, and a filter unit for filtering hydrogen peroxide aerosol that is not ionized from the inhaled air ( 520) and an air discharge unit 530 for discharging the filtered air. The filter included in the filter unit 520 is composed of a carbon filter, a HEPA filter, and the like, and mainly serves to filter hydrogen peroxide or a hydrogen peroxide aerosol in the air.

As shown in FIG. 5, the three-way valve 550 is provided between the air intake part 510 and the filter part and between the air intake part 510 and the air compressor 320 of the hydrogen peroxide supply part 300, and the controller By the control operation of 200, the path of the air compressor 320 is opened during the sterilization process, and in the air purification process after the sterilization process is finished, the air path to the filter unit 520 is opened, and the air path to the air outlet 530 is opened. Is discharged.

6 is a diagram showing a combination of the hydrogen peroxide supply unit 300, the plasma generation unit 400, and the air purifier 500 as described above. As shown in FIG. 6, during the sterilization process, liquid hydrogen peroxide from the hydrogen peroxide storage 300 enters the nebulizer 330 and compressed air from the air compressor 320 is supplied to the nebulizer. It is supplied to the plasma electrode 410 by the spray nozzle 350, and the hydrogen peroxide aerosol is decomposed through the plasma electrode 410 to generate OH radicals or HO ₂ radicals, and the space is disinfected.

When the sterilization process is finished, the control unit stops the operation of the hydrogen peroxide supply unit 300 and the plasma generation unit 400 and operates the air purifier to quickly remove the hydrogen peroxide component from the atmosphere.

When the sterilization process is finished, the control unit 200 reads the detection result from the hydrogen peroxide detection sensor 104 in the environmental sensor group, determines whether the read result is less than the reference value of 1 ppm, and if the detection amount of hydrogen peroxide exceeds 1 ppm, it continues to air. While the purifier is operated, monitoring of the detected amount of hydrogen peroxide is continued, and if the amount is less than 1 ppm, the air purifier is stopped and the sterilization status notification unit 620 notifies the manager or the control room that sterilization is completed together with the current detected amount of hydrogen peroxide.

7 is a flow chart showing the control operation of the control unit in the space sterilization device 10 as described above.

As shown in FIG. 7, the sterilization device 10 operates and the sterilization device 10 requests user authentication from the user. User authentication may be performed through a QR code, barcode, or RFID tag through the user identification unit 630 provided in the sterilization device 10, and the user accesses through an external terminal (administrator computer, smart pad, smartphone). In one case, it may be done by entering an ID and password.

If normal user authentication is performed in step S100, the control unit of the sterilization device 10 performs a sterilization preparation step in step S110. In the sterilization preparation stage, the control unit detects the presence or absence of an abnormality through detection values from the environmental sensor group, for example, a human body detection sensor or a door detection sensor, and inputs the size of the sterilization space input by the user or the amount of sterilization liquid to be used. It is determined whether the amount of sterilization solution currently prepared is sufficient. Means such as a water level sensor or a pressure sensor may be used to detect whether the amount of sterilization liquid is sufficient.

In step S120, if the amount of sterilization liquid is insufficient, a message to replenish the sterilization liquid is generated and transmitted to the administrator, and if a human body is detected in the sterilization target space or the door is opened, a corresponding warning message is notified to the user. .

If all the conditions are satisfied in step S120, the process proceeds to step S130, and in step S130, the operation of the valves or nozzles 350, 450, 550, the air compressor 320, the atomizer 330, and the plasma electrode 410 before performing the sterilization process. ) Is tested first through a trial run.

If all the tests are normally completed in step S140, the step proceeds to S150, but otherwise proceeds to step S200. In this case, if any of the above-described valves, nozzles, air compressors, sprayers, and plasma electrodes do not operate normally. To transmit the error notification of the corresponding part to the administrator's computer or the administrator's terminal, update the error record in the sterilization device database of the server, and return to the device test process S130. However, if an error occurs more than a predetermined number of times during device testing, the control unit updates the error record and terminates all processes.

Meanwhile, when all tests are normally completed in step S140, the control unit performs a sterilization process in step S150. In the sterilization process, the control unit first injects a dry aerosol of hydrogen peroxide to the plasma electrode through the furnace of the hydrogen peroxide supply unit 300 and applies a voltage of 17.5 kV or higher to the plasma electrode to generate OH minus radicals and O2 minus radicals through plasma reaction. .

The sterilization process continues until the amount of hydrogen peroxide sterilization solution determined in step S160 is consumed, and when the sterilization process ends in step S160, the step proceeds to S170.

In step S170, the amount of hydrogen peroxide present indoors is measured through a hydrogen peroxide detection sensor in the environmental sensor group, and in step S180, the controller determines whether the detected amount of hydrogen peroxide is less than a reference value, for example, 1 ppm, and if it is determined that it is less than 1 ppm, the step Proceeding to S190, the control unit notifies the manager's computer or the manager's terminal that the sterilization has ended together with the current concentration of hydrogen peroxide, and ends all processes.

Meanwhile, when it is determined that the amount of hydrogen peroxide detected in step S180 exceeds 1 ppm, the control unit performs an air purification process using an air purifier. In step S195, the air purifier is operated for a predetermined time, and the step proceeds to S170, and steps S170 to S195 are repeated until the amount of indoor hydrogen peroxide becomes 1 ppm or less.

8 is a diagram showing an example of a sterilization device management system for managing a plurality of space sterilization devices as described above. As shown in Figure 8, the sterilization device management system consists of a plurality of space sterilization devices and a management server and a user terminal 50 for managing a plurality of space sterilization devices, and the management server 40 is a user in which user information is stored. It includes a database 42 and a device database 44 in which information on a plurality of space sterilization devices is stored.

The user database 42 stores the user's permission to use a plurality of sterilization devices, and when the user wants to use the sterilization device through the user terminal 50, the server checks whether the corresponding user has the correct authority. The use of the sterilization device is permitted only if you are a verified and authorized user.

For example, FIG. 9 is a diagram schematically showing a process of confirming the user's authority and permitting the use of the sterilization device under the sterilization device management system as described above.

First, the user makes contact with the user identification unit 10 of the sterilization device using a QR code, a barcode, and an RFID tag including user information provided to the terminal 50 in step 1.

In the following step 2, the sterilization device 10 transmits the user information read from the user identification unit to the management server 40 and requests the user's authority information. In step 3, the management server 40 searches the user database, checks the authority of the requested user, and transmits it to the communication unit of the sterilization device 10 if the user has the authority.

In the following step 4, the user transmits the user's request for approval to use the sterilization device 10, and in the subsequent step 5, the user who is authorized for use transmits a command to operate the sterilization device through an app or program installed on the user's terminal. . At this time, the user may input the size of the space to be sterilized or the amount of sterilization liquid to be used, and also the name of the space to be sterilized (for example, one of operating room 1, operating room 2, or operating room 3).

In step 6, the sterilization device 10 performs the sterilization process based on the conditions input by the user, and when the sterilization process is completed, it notifies the server 40 and the user app that the sterilization has ended.

When the server 40 receives that the sterilization process is completed from the sterilization device 10 in step 6, the management server in step 7 sends the information used in the sterilization process to the sterilization device 10, for example, the name of the sterilization space, and the sterilization solution. Request the sterilization device 10 to transmit operation data of the sterilization device including the amount used, the time required for sterilization, the current ppm concentration of hydrogen peroxide, the sterilization treatment temperature, the sterilization treatment pressure, and the time required for device commissioning, and the sterilization device in step 9 When (10) transmits the requested information to the management server 40, the sterilization device 10 updates and manages the history of the corresponding sterilization device in the database of the sterilization device.

In addition, in step 8, if the management server 40 needs to maintain continuous sterilization performance data for the sterilization place or space, the management server 40 additionally includes a space database for the corresponding space, so that the space for each sterilization target is It is also possible to continuously manage data on how and when sterilization was performed using which device and when.

As described above, although the embodiments have been described by the limited embodiments and drawings, various modifications and variations are possible from the above description by those of ordinary skill in the art. For example, the described techniques are performed in a different order from the described method, and/or components such as a system, structure, device, circuit, etc. described are combined or combined in a form different from the described method, Alternatively, even if substituted or substituted by an equivalent, an appropriate result can be achieved.

Therefore, other implementations, other embodiments, and those equivalent to the claims should be construed as falling within the scope of the claims to be described later.

10: space sterilization device 20: space to be sterilized
40: management server 50: user terminal group
100: environmental sensor group 200: control unit
300: hydrogen peroxide supply unit 400: plasma generation unit
500: air purifier 610: valve control unit
620: sterilization status notification unit 630: user identification unit
640: communication unit 650: user input unit

Claims (10)

In the space sterilization device capable of remote control,
The space sterilization device includes an environmental sensor group for detecting an external environment of the space sterilization device;
A hydrogen peroxide supply unit for generating hydrogen peroxide of dry radish;
A plasma generating unit generating radicals by plasma decomposing hydrogen peroxide of dry radish supplied from the hydrogen peroxide supply unit;
An air compressor supplying air to the hydrogen peroxide supply unit;
An air purifier for removing undissolved hydrogen peroxide in the space after sterilization;
An air intake unit supplying air to the air compressor and the air purifier;
A three-way valve selectively providing a flow of air supplied to the air compressor and the air purifier;
A valve control unit for controlling the three-way valve;
A communication unit capable of communicating with an external management server or an external user terminal through a wired or wireless network;
A user input unit provided to receive an input from a user but to receive an input of the name of the space to be sterilized, the size of the space to be sterilized, and the amount of sterilization liquid to be used; And
Includes; a user identification unit for identifying the identity of the user through the user terminal accessed from the outside of the space sterilization device,
The space sterilization device is configured to operate only when the identified user is an authorized user,
The environmental sensor group includes a door sensor for detecting an open and closed state of a door in a space, a human body sensor for detecting a human body in a sterilized space, a hydrogen peroxide sensor for detecting the amount of hydrogen peroxide in the space, and a temperature and pressure sensor. , A humidity sensor and an oxygen detection sensor; including,
The space sterilization device detects the current amount of hydrogen peroxide in the space after the space sterilization process is performed by the space sterilization device, and if the detected amount of hydrogen peroxide is less than a predetermined reference value, it is sterilized together with the current detected amount of hydrogen peroxide. Characterized in that configured to notify the user terminal of a message that the space is available
Unmanned space sterilization device capable of remote control.
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The space sterilization device includes the name of the space to be sterilized input from the user after the sterilization process is completed, the size of the space to be sterilized, the time required for sterilization along with the amount of sterilization liquid to be used, the current ppm concentration of hydrogen peroxide, the sterilization temperature Characterized in that it is configured to transmit operation data of the space sterilization device, including the sterilization processing pressure and the time required for the device commissioning, to the management server
Unmanned space sterilization device capable of remote control.
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