KR20190070996A - Ozone generator - Google Patents

Abstract

An ozone generating apparatus with improved safety is provided by reducing the risk of erroneous operation as much as possible. The ozone generating apparatus includes a light source body disposed in a space through which gas can flow and capable of generating ozone by irradiating ultraviolet rays, a receiver for receiving a radio wave signal, and a first authority A storage unit for storing information including first identification information corresponding to identification information of the first specific operation terminal which is the operation terminal; and a control unit for performing operation control on the light source body. The control unit performs an operation control based on the operation instruction information included in the radio wave signal for the light source body only when the identification information included in the radio wave signal received by the receiver matches the first identification information stored in the storage unit .

Description

Ozone generator

The present invention relates to an ozone generator, and more particularly, to a remotely operable ozone generator.

Gas containing ozone at a predetermined concentration has sterilization and deodorizing action and is used in various fields. As a method of generating such ozone, a photochemical reaction using an ultraviolet light source is known.

Patent Document 1 below discloses an operation for operating the ozone generating device by a terminal separate from the main body. Since ozone has a strong oxidizing power and high reactivity, it is believed that ozone adversely affects the human body depending on the concentration. Therefore, ozone can be prevented from being exposed to a person including the operator by sterilizing the ozone generator by remote operation with the space unattended.

Japanese Patent Application Laid-Open No. 2016-500284

It is generally assumed that the ozone generator is used in a space which is to be sterilized and deodorized. Therefore, if the operating terminal for the ozone generating device is disposed in the same space as the ozone generating device, a person operating the operating terminal is exposed to the ozone, which may affect the body of the person. Therefore, it is preferable that the ozone generator can be operated remotely from a space different from the space where the ozone generator is installed.

However, since the ozone generating device has a high sterilizing / deodorizing function and is easy to operate, the ozone generating device has started to be introduced into many business establishments. For example, an ozone generator is installed in a space where a large number of unspecified customers, such as a movie theater, are expected to be installed, and the space is left unattended in a time period from the end of business to the start of business on the next day, It is possible to think about the application to operate.

However, in such an installation mode, since the ozone generator is installed in a space where a large number of unspecified customers are expected, there is a risk that the apparatus will be adversely affected by many people if the apparatus is inadvertently operated within business hours . Therefore, from the viewpoint of safety, it is necessary to limit the number of people who can operate the ozone generator.

As a method for operating the ozone generator by the operation terminal from a space different from the space where the ozone generator is installed, communication by wire and wireless communication can be considered. Here, in the case of receiving the operation signal from the operating terminal through communication by wire, the operating terminal is placed in a predetermined space (room) different from the space where the ozone generating device is installed. In this case, anyone who can enter the space becomes able to operate the operating terminal.

In the case where it is assumed that an ozone generator is installed in a space such as a movie theater, it is conceivable to install the terminal for operating the ozone generator in a room such as a management room where only a specific person can enter . However, normally, even in such a room, it is possible to easily enter the room if it is a staff member concerned. As described above, if the ozone generator is inadvertently operated in an airtight space in which a large number of unspecified guests are expected, there is a fear of affecting an unspecified number of human bodies. For this reason, it is required that the terminal for operating the ozone generator be configured so as to accept only operations from a specific person as much as possible. In other words, there is a problem that within the business hours, the risk of operating the ozone generator by malfunction is as close to zero as possible.

On the other hand, when the ozone generating device is configured to accept an operation signal from the operating terminal through communication by radio, the ozone generating device has a predetermined authentication function so that only a specific person can operate It is possible to do.

Although it is not general in the field of the ozone generator, in the authentication processing of a computer or a network, a user ID and a password are input, and authentication of the security is performed based on whether or not the input user ID and password match with those registered in advance It is common to do.

When realizing an aspect of controlling the ozone generator through wireless communication, a general-purpose smart phone, a tablet PC, or the like can be used as a manipulation terminal. Such a terminal is previously provided with a radio wave transmission / reception function having a predetermined standard such as Wi-Fi or Bluetooth (registered trademark). Therefore, the following method can be considered. First, a user ID and a password are inputted from the screen for authentication at the operation terminal side, and input information is transmitted to the device side through the radio wave to perform authentication processing. Then, only when the user can correctly authenticate, for example, the controller for the operation is displayed on the screen of the operation terminal, and the ozone generator can be operated by operating in accordance with the contents of the display.

However, in the case where such a method is used, when the information on the user ID and the password is leaked to a third party, anyone can operate the ozone generating apparatus. Particularly, in the case of assuming an operation through wireless communication, since the general purpose smartphone or tablet PC is assumed as described above, the number of people who can potentially operate the ozone generating apparatus is not limited to the wired It will increase dramatically. Therefore, higher security is required.

In recent years, authentication methods, such as fingerprint authentication and vein authentication, which are more secure in computer authentication, have started to be used. However, in the case of introducing such an authentication method, the processing at the time of initial setting is troublesome. In addition, it is often the case that the responsible staff who is in charge of the operation of the ozone generator actually shifts by circumstances. In such a case, a troublesome process is required.

In view of such circumstances, it is conceivable to register only those persons who are potentially capable of operating the ozone generator. For example, in the case of the above method, it can be considered that fingerprints or veins of the power source of the relationship staff are registered in advance. However, when this method is used, the number of people who can operate the ozone generator is increased. As a result, the risk of erroneously operating the operating terminal within business hours still remains.

SUMMARY OF THE INVENTION In view of the above problems, it is an object of the present invention to provide an ozone generating apparatus with increased safety by reducing the risk of erroneous operation as much as possible.

The present invention relates to an ozone generator capable of being remotely operated through a predetermined type of radio wave signal transmitted from an operation terminal,

A light source body which is disposed in a space through which gas can pass and is capable of generating ozone by irradiating ultraviolet rays,

A receiving unit for receiving the radio wave signal;

A storage unit for storing information including first identification information corresponding to identification information of a first specific operation terminal which is the only operating terminal to which a first authority is assigned to cite an operation on the light source body;

And a control unit for performing an operation control on the light source body,

The control unit may control the light source unit so that the operation of the light source unit when the identification information included in the radio wave signal received by the receiving unit matches the first identification information stored in the storage unit, And performs an operation control based on the instruction information.

According to the above configuration, the operating terminal to which the authority for citing the operation on the light source body (first authority) is assigned is uniquely set. The identification information (first identification information) of the operation terminal (first specific operation terminal) to which the first authority is assigned is stored in the storage section.

If the receiving section provided in the ozone generating apparatus receives the radio wave signal transmitted from the operating terminal other than the first specific operating terminal, the control section causes the identification information of the operating terminal and the information It is possible to confirm that the identification information does not coincide with each other, and can not accept the subsequent operation information. When the receiving section of the ozone generating apparatus receives the radio wave signal transmitted from the first specific operating terminal, the control section determines that the identification information of the operating terminal matches the first identification information stored in the storage section And can accept the subsequent operation information.

That is, according to the above arrangement, even when information on the operation instruction is transmitted from a device other than the only registered operating terminal, the ozone generating device does not operate on the basis of the information. This means that the person who can operate the ozone generator can be limited to the only person who holds a specific operation terminal. In addition, since this operating terminal can be realized by a general-purpose smartphone or a tablet PC, in fact, one owner of a specific smartphone or tablet PC can perform a driving operation of the ozone generating device.

As the identification information of the operating terminal, any information may be used as far as the information is given a different value for each operating terminal. As an example, a MAC address, a Bluetooth (registered trademark) address, a device ID, and a serial number can be used.

The control unit may be configured to accept an operation from the operation terminal corresponding to the identification information only when the identification information included in the radio wave signal matches the first identification information stored in the storage unit have. More specifically, only when the received identification information matches the first identification information stored in the storage unit, the controller for operation is displayed on the screen of the operation terminal, for example. The operator can start the operation of the ozone generator by touching (or clicking) a predetermined button in the controller displayed on the screen of the operating terminal. In addition to the buttons for instructing the start of operation, the controller includes buttons for instructing the ozone generator to stop urgently during operation, buttons for setting the operation time of the ozone generator, and the like Buttons may be incorporated.

In the initial stage in which the first identification information is not stored in the storage unit,

The control unit may store the identification information of the operating terminal included in the radio signal first received by the receiving unit in the storage unit as the first identification information.

The ozone generator is not yet registered with the first authority at the time of shipment from the factory (the first specific operating terminal). In this state, the operating terminal to be operated with the ozone generating device is connected to the ozone generating device side, so that the identification information given to the operating terminal is stored in the storage section as the first identification information. According to this configuration, the procedure for granting the first authority is extremely simplified.

This configuration can be realized because the operating terminal that gives the first authority is " unique ". BACKGROUND ART [0002] In the field of technology of computers and networks, an authentication processing system which denies access from a specific device (person) is generally performed. However, this technology accepts access from a specific device (person), and this " specific device (person) " is plural. That is, in a general computer and network security system technology, a plurality of codes corresponding to each of a plurality of devices (persons) to which access is permitted are stored in advance in the storage unit.

On the other hand, since the operation terminal to which the operation authority is given is " unique " in the ozone generation apparatus, it is possible to give the operation authority to the operation terminal first connected as described above.

The ozone generating device may be configured to accept a connection from the operation terminal having the identification information not stored in the storage section. In this case, only the connection between the operating terminal and the ozone generating device is performed through the wireless communication line, and the operating terminal can not operate the ozone generating device remotely. As described above, in the control unit, only when the identification information included in the radio wave signal received by the receiver matches the first identification information stored in the storage unit, the operation terminal to which the identification information is assigned is " Operating terminal ", and subsequent operations are accepted.

The control unit may be configured such that in the reception unit, when a management radio wave signal transmitted from a management terminal installed with a special application is received, based on initialization instruction information included in the management radio wave signal, The identification information may be initialized.

As the first specific operating terminal, a general-purpose smart phone or a tablet PC is assumed as described above. However, since such an operating terminal has versatility, it is not possible to deny the possibility of changing the model or the device itself. As described above, since the first specific operating terminal is uniquely determined, if the operating terminal malfunctions, the ozone generating device becomes unable to operate.

According to the above configuration, a special application is installed only for a specific management terminal, and the management terminal is kept, for example, by a management company. Then, the management company can initialize the first identification information stored in the storage unit by connecting to the ozone generator from the management terminal. Then, by connecting to the ozone generator by the operating terminal to newly register, the identification information given to the operating terminal is stored in the storage section as " first identification information ". Next, this new operating terminal becomes the first specific operating terminal to which the first right is granted.

The storage unit stores second identification information corresponding to the identification information of the second specific operating terminal, which is the specific operating terminal with the second authority, which cites the operation of erasing the first identification information stored in the storage unit Lt; / RTI >

The control unit may be configured to determine whether or not the identification information included in the radio wave signal received by the receiving unit matches the second identification information stored in the storage unit based on the initialization instruction information included in the radio wave signal, The first identification information stored in the storage unit may be initialized.

According to the above configuration, the storage unit stores identification information (second identification information) of the operating terminal to which the right to initialize the first identification information stored in the storage unit (second authority) is assigned. Therefore, when the registered first specific operation terminal becomes unavailable, the first identification information stored in the storage unit is initialized by the operation from the operation terminal (second specific operation terminal) to which the second authority is assigned can do. Then, by connecting to the ozone generator by the operating terminal to newly register, the identification information given to the operating terminal is stored in the storage section as " first identification information ". Next, this new operating terminal becomes the first specific operating terminal to which the first right is granted.

The second authorized operating terminal (second specific operating terminal) may be stored by, for example, a management company.

The ozone generator includes:

A housing,

A wall enclosed by the housing divided into at least a first chamber and a second chamber,

A first opening provided in a part of the housing and leading air introduced from the outside of the housing into the first chamber;

A second opening provided in a part of the housing for discharging the gas in the first chamber to the outside of the housing,

And a control board on which the receiver, the memory, and the controller are mounted,

Wherein the light source body is provided in a path between the first opening and the second opening in the first chamber,

The control board may be provided in the second chamber.

According to this configuration, the control board on which the receiver, the storage unit, and the control unit are mounted is disposed at a position that is independent of the path through which gas containing ozone flows. Therefore, the risk that the control board is broken due to the exposure of ozone is avoided.

According to the ozone generator of the present invention, the risk of erroneous operation can be reduced and safety can be enhanced.

1 is a schematic perspective view of an embodiment of an ozone generator.
2 is a schematic plan view of an embodiment of the ozone generator.
Fig. 3 shows the air flow in the ozone generator.
4 is a functional block diagram showing control contents of the ozone generator.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of an ozone generator according to the present invention will be described with reference to the drawings. In the following drawings, the dimensional ratio in the drawings and the actual dimensional ratio do not necessarily coincide with each other.

[Whole structure]

1 is a schematic perspective view of an ozone generator according to an embodiment of the present invention. For convenience of explanation, the coordinate axes shown in Fig. 1 are taken. 2 is a schematic plan view in the embodiment of the ozone generating apparatus of the present invention. When the ozone generating apparatus 1 shown in Fig. 1 is viewed in the Z-axis direction (more specifically, the -Z-axis direction) Fig. In FIG. 2, for the sake of explanation, portions hidden inside the housing are also shown. In Fig. 2, for convenience of explanation, the opening area is indicated by a broken line.

The ozone generating apparatus 1 has a housing 3 and a wall body 5 dividing a space surrounded by the housing 3. A space surrounded by the housing 3 by the wall 5 is divided into a first chamber 10 and a second chamber 20 in the X axis direction. In this embodiment, a blower 7 is disposed at a position where the first chamber 10 and the second chamber 20 are in contact with each other. In the present invention, the installation position of the blower 7 is arbitrary.

A first opening 31 and a second opening 32 are provided in a part of the housing 3. The first opening 31 leads the air introduced from the outside of the housing 3 into the first chamber 10 through the blower 7. The second opening (32) leads the gas in the first chamber (10) to the outside of the housing (3). The ozone generating apparatus 1 of the present embodiment has a cover portion 40 covering the outer periphery of the housing 3 and predetermined openings 43 and 45 are also provided in the cover portion 40. [ In Fig. 2, the openings 43 and 45 are indicated by a one-dot chain line. In Fig. 1, the ozone generating device 1 is provided with the attachment member 47, but it is optional whether or not the attachment member 47 is provided.

The ozone generator (1) has a light source body (11) in a first chamber (10). More specifically, the light source body 11 is disposed in the first chamber 10 at a position between the blower 7 and the second opening 32. The light source body 11 is configured to emit light in the ultraviolet region capable of generating ozone from air by a photochemical reaction, and is constituted by, for example, an excimer lamp. As the light source body 11, a low-pressure mercury lamp may be used in addition to the excimer lamp. In this embodiment, the ozone generating device 1 is covered with the housing 3, and the light emitted from the light source body 11 is not radiated to the outside of the housing 3.

The ozone generating apparatus 1 has a control board 21 in the second chamber 20. The control board 21 includes an electronic component for supplying electric power for driving the light source body 11 to the light source body 11. [ More specifically, the ozone generating apparatus 1 has a power supply line 23 for connecting the control substrate 21 and the light source body 11, and is connected to the control substrate 21 via the power supply line 23, Power is supplied to the body (11). In Fig. 2, the power supply line 23 is shown by a thick line for convenience of illustration. The control board 21 is also provided with an IC chip including a receiving unit, a storage unit, and a control unit, which will be described later. The electronic component included in the control board 21 may supply electric power to the blower 7. [

When the blower 7 is driven, air is introduced into the ozone generating device 1 from the outside of the housing 3 from the first opening 31. The air flow at this time will be described with reference to Fig. Fig. 3 is a view showing the airflow by a two-dot chain line with arrows in Fig. In FIG. 3, part of the reference numerals shown in FIG. 2 and the illustration of the cover portion 40 are omitted for convenience of illustration.

When the blower 7 is driven, air A1 is introduced from the outside of the housing 3 through the first opening 31 and is sent out into the first chamber 10. The air (A2) discharged from the blower (7) flows in the first chamber (10) toward the second opening (32). In the first chamber 10, ultraviolet light emitted from the light source body 11 is irradiated to the air A2, so that a part of the air changes into ozone, and a gas A3 containing ozone is generated . The gas A3 is discharged to the outside of the ozone generator 1 from the second opening portion 32.

As described above, the control board 21 is disposed in the second chamber 20, and is connected to the first chamber 10, in which the light source body 11 is provided, Are completely separated. Therefore, the gas A3 containing ozone does not flow out to the control substrate 21 side.

[Control Contents]

<First Aspect>

The first aspect of the control contents for the light source body 11 will be described.

As described above, the light source body 11 is driven and controlled based on the signal from the control board 21. [ Hereinafter, this control content will be described with reference to a block diagram. Fig. 4 is a functional block diagram showing the control contents of the ozone generator 1; Fig.

On the control board 21, a receiving unit 26, a storage unit 27, and a control unit 28 are mounted. These may be composed of, for example, a microcomputer, an IC chip or the like.

The receiving unit 26 can receive a radio signal of a predetermined format. As this radio wave signal, for example, a general-purpose type signal such as Bluetooth (registered trademark) or Wi-Fi can be used. The operation terminal 60 is a terminal capable of transmitting and receiving this radio wave signal and is constituted by, for example, a smart phone or a tablet PC.

The storage unit 27 stores unique information (identification information) related to the operation terminal 60 that receives the operation. In the present embodiment, a specific authority (first authority) is set for a predetermined operation terminal 60. [ This identification information is unique information given to the terminal constituting the connection with the receiving unit 26. For example, the identification information is a MAC address, a Bluetooth (registered trademark) address, a device ID, a serial number, Can be used.

The first authority is an authority to which the operation (operation / stop / operation time setting, etc.) of the light source body 11 is cited. The operating terminal 60 to which this authority is set is called a &quot; first specific operating terminal &quot;. This first specific operating terminal is uniquely set for one ozone generating device 1. The unique identification information (first identification information) given to the first specific operation terminal is stored in the storage unit 27. [

(childhood)

For example, at the initial stage such as factory shipment, identification information (first identification information) of the first specific operation terminal is not stored in the storage unit 27. [

The ozone generator 1 is installed in a predetermined sterilization target space and is then supplied to the ozone generator 1 via the terminal (operation terminal 60) scheduled to operate the ozone generator 1 ). Further, the setting processing of the operating terminal 60 may be performed before the ozone generating apparatus 1 is installed.

The operating terminal 60 can be installed in the vicinity of the terminal (for example, the operating terminal 60) by installing an application for Android (registered trademark) or iOS (registered trademark) 60 on the screen. The connection type at this time may be Wi-Fi, Bluetooth (registered trademark) or other communication standard.

As described above, it is assumed that the ozone generating apparatus 1 is installed in a space where an unspecified number of customers such as a movie theater are expected. At this time, the ozone generator 1 may be installed in a plurality of rooms in the same facility. In such a case, on the screen of the operating terminal 60, a plurality of devices are displayed as the connectable ozone generating device 1. [

The operator confirms the screen of the operation terminal 60 and selects the ozone generator 1 to be operated. At this time, a radio wave signal is transmitted from the operation terminal 60 to the selected ozone generator 1.

The ozone generator 1, upon receiving the radio wave signal transmitted from the operation terminal 60, in the receiver 26, completes the pairing between them. At this time, the control unit 28 compares the identification information of the operation terminal 60 included in the received radio wave signal with the information stored in the storage unit 27. [ At this point in time, since this is the initial stage, the first identification information is not stored in the storage unit 27. The control unit 28 confirms that the first identification information is not stored in the storage unit 27, that is, if the ozone generation apparatus 1 is in the initial stage, the control unit 28 determines that the operation terminal 60 In the storage unit 27 as the first identification information. Thereafter, the first authority is given to the operating terminal 60.

(Operation step)

When the operator desires to operate the ozone generator 1 by using the operating terminal 60, the operator selects one ozone generator 1 to be operated from the screen of the operating terminal 60. [ At this time, a radio wave signal is transmitted from the operation terminal 60 to the selected ozone generator 1.

The receiving section 26 receives the radio wave signal transmitted from the operating terminal 60. [ The control unit 28 compares the identification information of the operation terminal 60 included in the received radio wave signal with the information stored in the storage unit 27. [ Since the first authority is given to the operation terminal 60, the identification information of the operation terminal 60 is stored in the storage section 27 as the first identification information. At this time, the control unit 28 receives the information on the operation instruction from the operation terminal 60. [

The control board 21 may be provided with a transmitting unit in addition to the receiving unit 26. [ At this time, when the control unit 28 determines that the operation terminal 60 is the first authorized terminal (the first specific operation terminal), the control unit 28 transmits the operation terminal 60 to the ozone generating apparatus 1) in response to the operation instruction of the mobile station. At this time, the control terminal 60 may be provided with a controller for instructing operation of the ozone generator 1 on the screen.

The operator can then operate the operation terminal 60 to start the operation of the ozone generator 1, stop the ozone generator 1 during operation, or set the operation time. This information (operation instruction information) is sent to the receiving section 26 by the radio wave signal transmitted from the operation terminal 60. The control unit 28 controls the operation of the light source body 11 based on the operation instruction information described in the radio wave signal received by the receiving unit 26. [ At this time, the control unit 28 may control the operation of the blower 7 at the same time.

Next, a case where the third party operates the ozone generator 1 by operating an operation terminal (referred to as "operating terminal 70" here) different from the operation terminal 60 will be described. Although the operating terminal 70 is not the first specific operating terminal, it is possible to list the connectable ozone generating apparatus 1 on the screen by installing, for example, the application.

The third party confirms the screen of the operation terminal 70 and selects the ozone generator 1 to be operated. At this time, a radio wave signal is transmitted from the operation terminal 70 to the selected ozone generator 1.

The receiving section 26 receives the radio wave signal transmitted from the operating terminal 70. The control unit 28 compares the identification information of the operation terminal 70 included in the received radio wave signal with the information stored in the storage unit 27. [ Since the first authority is not given to the operation terminal 70, the identification information of the operation terminal 70 is not stored in the storage section 27 as the first identification information. In addition, since the first identification information is stored in the storage unit 27, it does not correspond to the initial stage. At this time, the control unit 28 rejects the information on the operation instruction from the operation terminal 70. [

For example, when the control board 21 includes a transmitting unit in addition to the receiving unit 26, when the control unit 28 determines that the operating terminal 70 is a terminal to which the first authority is not granted, A signal indicating that the operation instruction from the terminal is not received may be transmitted to the operation terminal 70 via the transmission unit. At this time, the control terminal 70 may be configured such that a controller for controlling the operation of the ozone generator 1 is not displayed on the screen, and the ozone generator 1, It is possible to display a warning indicating that an operation instruction can not be issued.

(Management mode)

As described above, the ozone generation device 1 (the light source body 11 and / or the blower 7) is controlled by the only operating terminal 60 to which the first authority is given. However, the possibility that the operating terminal 60 is lost or the operating terminal 60 is lost is not zero. At this time, unless the first authority is given to another operating terminal, the ozone generator 1 can not be operated.

In order to cope with such a situation, a management company may have a specific operation terminal (hereinafter referred to as "management terminal") in which a specific application is installed, for example. This special application can display a controller for management that can give an instruction to the connectable ozone generator 1.

A person in charge of the management company (hereinafter referred to as &quot; manager &quot;) operates the management terminal and connects it to the ozone generator 1. [ At this time, on the screen of the management terminal, the connectable ozone generator 1 is listed on the screen, and the ozone generator 1 to be connected may be selected from this list.

The management terminal transmits the radio wave signal (management radio wave signal) to the selected ozone generator 1 through this special application. This management radio wave signal includes an instruction to erase the first identification information stored in the storage section 27 of the ozone generation apparatus 1 in question. When the control unit 28 recognizes the instruction signal, the control unit 28 performs a process of erasing the first identification information stored in the storage unit 27. [ As a result, since the first identification information is not stored in the storage unit 27, the ozone generator 1 returns to the initial stage. Next, as described above, by connecting to the reception section 26 of the ozone generation apparatus 1 by the operation terminal 60 which is to be newly set as the first specific operation terminal, identification (identification) of the operation terminal 60 Information is stored in the storage unit 27 as the first identification information, and the operation terminal 60 is set as the first specific operation terminal.

In the first aspect, a special application for management is not installed in the operation terminal 60 distributed to the user side, and a special application is installed only for the management terminal that can be held only by the manager. As a specific example, the distribution source of a specific application is notified to a person other than the manager, or a predetermined access right is imposed at the time of downloading. As a result, the person other than the manager can not delete the first identification information.

<Second Aspect>

Only the portion different from the first aspect will be described with respect to the second aspect of the control contents with respect to the light source body 11. Fig.

In the second embodiment, two kinds of rights are set for a predetermined operation terminal 60. [ The first authority is the same as that of the first embodiment, so the explanation is omitted. The second authority is a right to delete (initialize) the first identification information stored in the storage unit 27. [ Here, the operating terminal 60 to which the second authority is set is referred to as a &quot; second specific operating terminal &quot;. The second specific operating terminal may not be unique. The second specific operating terminal is assumed to be held by an administrator (management company or the like) that manages the ozone generator 1. The unique identification information (second identification information) given to the second specific operation terminal is stored in the storage unit 27. [

The control contents of the initial stage and the operation stage are common to those of the first embodiment, and the description thereof will be omitted. In this second aspect, the identification information (second identification information) of the second specific operation terminal may be stored in the storage unit 27 even in the initial stage.

(Management mode)

As described above, in this embodiment, the identification information (second identification information) of the second specific operation terminal is stored in the storage unit 27. [ The manager operates the second specific operating terminal to connect it to the ozone generator 1. [ Even in this case, even if the ozone generating apparatus 1 which can be connected is listed up on the screen by installing a predetermined application in the second specific operating terminal and the ozone generating apparatus 1 to be connected is selected from this list Does not matter.

The second specific operating terminal transmits a signal to the selected ozone generator (1). The receiving unit 26 receives the radio wave signal transmitted from the second specific operating terminal. The control unit 28 compares the identification information of the second specific operation terminal included in the received radio wave signal with the information stored in the storage unit 27. [ If the control unit 28 confirms that the identification information of the second specific operation terminal matches the second identification information stored in the storage unit 27, the control unit 28 determines whether the initialization from the second specific operation terminal Quoting information about directions.

For example, when the control board 21 includes a transmitting unit in addition to the receiving unit 26, the control unit 28 determines whether or not the terminal of the source terminal (here, the second specific operating terminal) It is possible to transmit a signal indicating acceptance of the management instruction to the second specific operation terminal through the transmission unit. At this time, a controller for erasing (initializing) the first identification information stored in the storage unit 27 may be displayed on the screen of the second specific operation terminal.

The manager then operates the second specific operation terminal to transmit the radio wave signal on which the information for erasing the first identification information stored in the storage unit 27 is written. When the receiving section 26 receives this radio wave signal, the control section 28 performs a process of erasing the first identification information stored in the storage section 27. [

That is, the second aspect differs from the first aspect in that the control unit 28 determines whether or not the operating terminal, which is the originating signal, has the authority to output the signal related to the initialization instruction. In the second aspect, security is further improved.

[Other Embodiments]

Hereinafter, another embodiment will be described.

&Lt; 1 &gt; The operating terminal to which the first authority is given (the first specific operating terminal) may also have the second authority. In addition, it is not always necessary to set the operation terminal to which the second authority is assigned.

(2) Even the operating terminal to which the first authority is not given may be authorized to check the operation history of the ozone generator 1. In this case, the operation terminal may be configured to display an operation screen for instructing browsing of the operation history after completing the connection with the ozone generator 1. [

&Lt; 3 &gt; The ozone generator 1 may be provided with an LED bulb (not shown). In this case, the LED bulb may emit light with a predetermined color while the ozone generator 1 is in operation. The operation of the LED bulb may be controlled by the control unit 28. [

The control unit 28 may be configured to continuously light the LED bulb for a predetermined period of time after the light source body 11 stops emitting light. This predetermined time may be set to be equal to or longer than the time for decomposing ozone. By such a configuration, it is confirmed that the LED light is not lit in the space, and then the person is put in and out of the space in which the ozone generating device is installed, thereby ensuring safety.

(4) In the above embodiment, it is assumed that the identification information of the operation terminal 60 connected for the first time in the initial stage is stored in the storage section 27 as the first identification information. However, the method of registering the first identification information is not limited to this method. For example, at the time of factory shipment, the identification information of the operation terminal 60 may be stored in the storage unit 27 in advance. In this case, since the user of the ozone generation apparatus 1 has already registered the operation terminal 60 as the first specific operation terminal at the time of getting it, the user of the ozone generation apparatus 1 again sends the operation terminal 60 to the ozone generation apparatus 1 side You do not need to set it.

<5> The structure of the above-described ozone generator 1 is merely an example. The present invention is not limited to the structure disclosed in Figs.

1: ozone generator 3: housing
5: wall 7: blower
10: first chamber 11: light source body
20: second chamber 21: control substrate
23: power line 26:
27: memory unit 28:
31: first opening portion 32: second opening portion
40: cover part 43, 45:
47: attachment member 60: operation terminal

Claims (5)

An ozone generator capable of being remotely operated through a predetermined type of radio wave signal transmitted from an operating terminal,
A light source body which is disposed in a space through which gas can pass and is capable of generating ozone by irradiating ultraviolet rays,
A receiving unit for receiving the radio wave signal;
A storage unit for storing information including first identification information corresponding to identification information of a first specific operation terminal which is the only operating terminal to which a first authority is assigned to cite an operation on the light source body;
And a control unit for performing an operation control on the light source body,
The control unit may control the light source unit so that the operation of the light source unit when the identification information included in the radio wave signal received by the receiving unit matches the first identification information stored in the storage unit And performs operation control based on the instruction information. The method according to claim 1,
In the initial stage in which the first identification information is not stored in the storage unit,
Wherein the control unit stores the identification information of the operating terminal included in the radio signal first received by the receiving unit in the storage unit as the first identification information. The method of claim 2,
The control unit may be configured such that in the reception unit, when a management radio wave signal transmitted from a management terminal installed with a special application is received, based on initialization instruction information included in the management radio wave signal, And the identification information is initialized. The method of claim 2,
The storage unit stores second identification information corresponding to the identification information of the second specific operating terminal, which is the specific operating terminal with the second authority, which cites the operation of erasing the first identification information stored in the storage unit Lt; / RTI &gt;
Wherein the control unit is configured to determine whether the identification information included in the radio wave signal received by the receiving unit matches the second identification information stored in the storage unit based on the initialization instruction information included in the radio wave signal, And initializes the first identification information stored in the storage unit. The method according to any one of claims 1 to 4,
A housing,
A wall enclosed by the housing divided into at least a first chamber and a second chamber,
A first opening provided in a part of the housing and leading air introduced from the outside of the housing into the first chamber;
A second opening provided in a part of the housing for discharging the gas in the first chamber to the outside of the housing,
And a control board on which the receiver, the memory, and the controller are mounted,
Wherein the light source body is provided in a path between the first opening and the second opening in the first chamber,
Wherein the control board is provided in the second chamber.

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