JP2017219387A - X-ray irradiation system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an X-ray irradiation system that enables the operation of X-ray irradiation by a designated irradiator and that radiates an X-ray in linkage with personal authentication.SOLUTION: This X-ray irradiation system comprises a portable X-ray generator (10) having an X-ray source within, and an operation device (20) for operating X-ray irradiation of the X-ray generator (10). The operation device (20) comprises a biological information capture unit (21) for capturing the biological information of an individual, and an irradiation switch (22) for enabling the operation of X-ray irradiation from the X-ray generator (10) after personal authentication using the biological information.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an X-ray irradiation system using a portable X-ray generator.

  Conventionally, radiation has been used in a wide range of fields such as industry, medicine and agriculture. For example, non-destructive inspection using X-rays is performed in the industrial field, and radiotherapy using X-rays and radiation diagnosis using tomographic images using X-ray CT are performed in the medical field. In nuclear facilities, radiation medical facilities, etc., radiation management areas are provided, and radiation generators (radiation sources) are installed in the radiation management areas. The usage status of the radiation generator is managed by the administrator.

  By the way, in recent years, a practical portable X-ray source using a carbon nanostructure cold cathode electron source has been proposed (see Non-Patent Document 1). A portable X-ray generator incorporating a portable X-ray source is expected to be used outside a radiation control area by taking advantage of its compact and portable characteristics. For example, in the industrial field, application to piping diagnosis, article diagnosis, etc. can be considered. In the medical field, application to radiotherapy or radiodiagnosis outside a hospital facility (patient's home or outdoors) can be considered.

"Development of small and light pulse X-ray source for nondestructive inspection", [online], June 3, 2014, National Institute of Advanced Industrial Science and Technology, [Search April 8, 2016], Internet <URL: http://www.aist.go.jp/aist_j/press_release/pr2014/pr20140603/pr20140603.html>

  By the way, when carrying out piping diagnosis of a plant facility, it is necessary to install a portable X-ray generator near the piping to be diagnosed in the plant facility, which may be an article diagnosis in a factory (or facility such as an airport or a station). For example, it is assumed that a portable X-ray generator is installed at a predetermined location on the article inspection line. If it is home medical care, a portable X-ray generator will be used at the patient's home.

  The above-described portable X-ray generator is required to have a very small influence on the surroundings even if X irradiation is performed without shielding, while ensuring safety and managing irradiation history by generating X-rays. Should be done in some way.

  The present invention has been made in view of such a problem, and an object of the present invention is to enable an X-ray irradiation operation by an appointed irradiator and to perform X-ray irradiation in conjunction with personal authentication. It is to provide an irradiation system.

  An X-ray irradiation system according to the present invention includes a portable X-ray generation device incorporating an X-ray source, and an operation device for operating X-ray irradiation of the X-ray generation device. And an irradiation switch that enables an X-ray irradiation operation to the X-ray generation apparatus after personal authentication by the personal authentication unit.

  ADVANTAGE OF THE INVENTION According to this invention, X-ray irradiation operation is enabled with respect to the appointed irradiation person, and the X-ray irradiation system irradiated with X-rays in conjunction with personal authentication can be provided.

It is a system configuration figure of the X-ray irradiation system concerning this embodiment. It is a functional block diagram of the operating device in this Embodiment. It is a data block diagram of the registration biometric information storage part in this Embodiment. It is a schematic functional block diagram of the portable X-ray generator in this Embodiment. It is a block diagram of an X-ray image receiving apparatus and a signal processing system. It is a figure which shows the example of installation of a portable X-ray generator, an operating device, and an X-ray image receiver. It is a block diagram of the management center apparatus provided with the biometrics authentication function.

  The X-ray irradiation system according to the present embodiment will be described below with reference to the accompanying drawings. In the following description, a case where the X-ray irradiation system is applied to piping diagnosis of a plant facility will be described. However, the present invention can be similarly applied to article diagnosis in facilities such as factories, airports, and stations, radiotherapy or radiation diagnosis at home or outdoors.

  FIG. 1 is a system configuration diagram of an X-ray irradiation system according to the present embodiment. The X-ray irradiation system according to the present embodiment includes a portable X-ray generator 10 having a built-in X-ray source, an operation function for operating the X-ray irradiation of the portable X-ray generator 10 and an operation permission for giving an operation permission. And an operation device 20 having an authentication function. In the case of piping diagnosis of a plant facility, the X-ray image receiving apparatus 30 is disposed opposite to the portable X-ray generation apparatus 10 with a pipe inspection site serving as a subject interposed therebetween. The X-ray projection image of the subject detected by the X-ray image receiving apparatus 30 may be sent to the user terminal 40 and displayed. The X-ray projection image is sent from the user terminal 40 or directly to the data storage device 50 and stored together with the piping information. As will be described later, the operation device 20 may be connected to the management center device 70 via a communication medium (LAN and / or WAN) 60. The management center device 70 includes a database that manages registration information regarding the portable X-ray generation device 10 and / or the operation device 20. Note that the user terminal 40 and the data storage device 50 may be connected to the communication medium 60.

  FIG. 2 is a functional block diagram of the operating device 20. The operating device 20 includes a biometric information capturing unit 21 that captures personal biometric information, and an irradiation switch 22 that is controlled so that an X-ray irradiation operation can be performed on the portable X-ray generation device 10 after personal authentication using the biometric information. And. The biometric information capturing unit 21 includes a camera 21a that captures a face image of the person to be authenticated and a fingerprint photographing unit 21b that captures a fingerprint image of the person to be authenticated. The method of the camera 21a is not limited as long as a face image can be taken, but an infrared camera is applied in this example. The biometric information for personal authentication may be either a face image or a fingerprint image, or one or both may be selected according to the authentication level. Other biometric information such as vein information can also be used for personal authentication.

  In the present embodiment, the operation device 20 includes a personal authentication unit. The biometric authentication unit 23 functions as a main part of the biometric authentication means. The biometric authentication unit 23 performs personal authentication by comparing the biometric information acquired from the biometric information acquisition unit 21 with the registered biometric information stored in the registered biometric information storage unit 23. In this example, personal authentication is performed by comparing the biometric information captured from the biometric information capturing unit 21 with the registered biometric information stored in the registered biometric information storage unit 23, but the registered biometric information is stored in the controller device 20. It does not have to be. For example, registered biometric information stored in an external device such as the management center device 70 may be acquired online.

  The registered biometric information storage unit 23 registers biometric information for personal authentication related to an individual appointed to use the portable X-ray generator 10 (and / or the operating device 20). In this example, as shown in FIG. 3, registered biometric information of an administrator who has been appointed in advance as an X-ray handling manager (safety manager) and X-rays that have been appointed in advance as an X-ray irradiator (registered irradiator) The registered biometric information of the irradiator is stored. A personal identification number (ID) is assigned to the X-ray handling manager (safety manager) and the X-ray irradiator (registered irradiator), and the personal identification number (ID) and registered biometric information are associated with each other. Yes. The registered biometric information is a face image and / or a fingerprint image, but may be feature data extracted from the image data depending on the authentication method. A plurality of X-ray handling managers and X-ray irradiators may be registered for one portable X-ray generator 10 or operating device 20.

  The biometric authentication unit 23 compares the registered biometric information of an administrator registered in advance as an X-ray handling manager with the biometric information acquired from the biometric information acquisition unit 21 to perform personal authentication of the administrator, and then X Personal authentication of the X-ray irradiator is performed by comparing the registered biometric information of the X-ray irradiator registered in advance as the X-ray irradiator and the biometric information acquired from the biometric information acquisition unit 21. At least during the first operation when the portable X-ray generator 10 is installed at the X-ray irradiation site, the first personal authentication for personal authentication using the biometric information of the administrator and the individual using the biometric information of the X-ray irradiation person Requests two types of personal authentication of the second personal authentication to be authenticated. The X-ray irradiation operation by the irradiation switch 22 is made possible after the first and second personal authentication. The first personal authentication, which is the personal authentication of the administrator, is requested at least during the first operation when the portable X-ray generator 10 is installed at the X-ray irradiation site. Although it may be requested every time X-ray irradiation is performed, it may be requested every time the inspection object, inspection location, and irradiation date are updated.

  In the operation device 20, the irradiation permission unit 25 displays various operation guidance on the display 26. The display 26 has a touch sensor and functions as an input unit. When an irradiation permission application (authentication request) is input from the touch-type display 26 that constitutes the input unit, the biometric authentication unit 23 is requested for personal authentication as described above, and if the first and second personal authentications are successful. The X-ray irradiation operation by the irradiation switch 22 is made possible. If the controller device 20 does not include personal authentication means, the irradiation permission unit 25 connects online to the external device via the external communication unit 27 and transmits the captured biometric information and the authentication request.

  The irradiation permission unit 25 validates the irradiation switch 22 on the condition that the first and second personal authentications are successful at least during the first operation when the portable X-ray generator 10 is installed at the X-ray irradiation site. As described above, the first personal authentication that is the personal authentication of the administrator may not be required every time X-ray irradiation is performed. When the irradiation switch 22 is pressed, the irradiation permission unit 25 gives an irradiation instruction to the irradiation instruction circuit 28. When receiving an irradiation instruction from the irradiation permission unit 25, the irradiation instruction circuit 28 sends an irradiation request signal to the portable X-ray generator 10. Thereby, X-ray irradiation operation by a registered (appointed) irradiator is enabled, and X-ray irradiation can be executed in conjunction with personal authentication.

  The irradiation permission unit 25 stores irradiation history information of X-ray irradiation in the irradiation history storage unit 29 every time X-ray irradiation is executed. The irradiation history information is not particularly limited as long as it is information related to the irradiation history. When irradiation history information to be stored is defined by law or regulation, at least history information defined by law or the like may be stored. When the report destination of the irradiation history information is determined, the irradiation history information stored in the irradiation history storage unit 29 may be transmitted online to the external device serving as the report destination via the external communication unit 27, or externally It may be submitted in memory.

  FIG. 4 shows schematic functional blocks of the portable X-ray generator 10. The portable X-ray generator 10 has a box-shaped case 11 having a portable size and an outer shape. A carry handle 12 is attached to the case 11. The case 11 includes an X-ray generator 13, a controller 14, and an external interface 15. The X-ray generator 13 can use a high-efficiency carbon structure type X generator tube that does not require preheating and is easy to reduce in size and weight as an X-ray source. The control unit 14 has a function of controlling the X-ray irradiation of the X-ray generation unit 13. The control unit 14 receives the irradiation request signal input via the external interface 15 and drives and controls the X-ray generation unit 13 to emit X-rays for a predetermined time. As described above, the portable X-ray generator 10 is configured to perform X-ray irradiation in response to an irradiation request signal given from the operation device 20.

  FIG. 5 is a configuration diagram of the X-ray image receiving apparatus 30 and the signal processing system. As an example, the X-ray image receiving apparatus 30 includes an imaging plate coated with a stimulable phosphor capable of accumulating and recording X-ray images on one side of an organic film. When X-rays are irradiated, energy is accumulated in the phosphor, and the phosphor emits light according to the amount of radiation absorbed. After X-ray irradiation, the plate is scanned with a laser beam to read an X-ray projection image. Further, an FPD (Flat Panel Detector) can be used instead of the imaging plate. In FPD, when X-rays are irradiated to a panel on which semiconductor elements of about 100 microns are arranged, the elements are converted into electric signals to generate an image, and the reading time is remarkably improved. In addition, since there is no need for erasure, the speed can be increased. The X-ray projection image is also called an X-ray transmission image. The X-ray projection image output from the X-ray image receiving device 30 is input to the signal processing circuit 31 and subjected to processing such as noise removal, and then transmitted to the user terminal 40 and / or the data storage device 50 via the communication unit 32. The communication unit 32 of the X-ray image receiving device 30 and the user terminal 40 or the data storage device 50 are connected by wireless communication or signal lines.

Next, the operation of the present embodiment configured as described above will be described.
In order to clarify the adaptation criteria for X-ray diagnosis using the portable X-ray generator 10, an irradiator for safety management is appointed. The designated irradiator is registered in the operation device 20. In addition to the designated irradiator, an X-ray handling manager who manages the portable X-ray generator 10 is registered in advance as a manager. For example, the registration mode is activated by operating the touch-type display 26 serving as the input unit of the operation device 20. In the registration mode, operation guidance for registering the irradiator and the manager is displayed on the display 26, and input of personal information of the appointed irradiator and manager is accepted. Next, the biometric information of the irradiator and the manager is fetched from the biometric information fetching unit 21 and stored in the registered biometric information storage unit 24 in association with the personal information. The order of registration is not particularly limited. After the administrator's personal information is registered for the first time, the irradiation person may be registered each time the irradiation person is appointed. The personal information and registered biometric information stored in the registered biometric information storage unit 24 may be transmitted from the external communication unit 27 to an external device (for example, the management center device 70).

  Next, the portable X-ray generation device 10, the operation device 20, and the X-ray image receiving device 30 are brought into a piping installation place where an inspection object is present in the plant facility, and setting is performed. FIG. 6 shows an example of the setting at the piping installation location. The X-ray image receiving device 30 is disposed oppositely with the X-ray irradiation surface of the portable X-ray generator 10 facing the inspection target part of the pipe serving as the subject. The operating device 20 is installed at a location that is far enough to prevent the irradiator from being affected by X-rays when X-ray irradiation is performed by the portable X-ray generator 10. The portable X-ray generator 10 and the operating device 20 are connected via a signal cable or near field communication.

  Next, the touch-type display 26 serving as the input unit of the controller device 20 is operated to activate the irradiation permission mode. In the irradiation permission mode, operation guidance for authenticating the irradiation person and the manager is displayed on the display 26. The first applicant who applies for permission as an X-ray handling manager inputs personal information (name, identification number) according to the operation guidance, and also captures biometric information from the biometric information capturing unit 21. The irradiation permission unit 25 passes the input personal information of the first applicant to the biometric authentication unit 23 and requests personal authentication. The biometric authentication unit 23 reads the corresponding registered biometric information from the registered biometric information storage unit 24 using the identification number of the first applicant. Then, the read registered biometric information and the captured biometric information are collated, and if they match, the personal authentication of the first applicant is completed. Next, in accordance with the operation guidance, the second applicant who applies for irradiation as the current irradiator inputs personal information (name, identification number) and the biological information from the biological information capturing unit 21. The irradiation permission unit 25 passes the input personal information of the second applicant to the biometric authentication unit 23 and requests personal authentication. The biometric authentication unit 23 reads the corresponding registered biometric information from the registered biometric information storage unit 24 using the identification number of the second applicant. Next, the read registered biometric information and the captured biometric information are collated, and if they match, the personal authentication of the second applicant is terminated. If the biometric authentication unit 23 succeeds in personal authentication of the first applicant and the second applicant, the biometric authentication unit 23 passes the personal authentication result to the irradiation permission unit 25. The irradiation permission unit 25 enables an X-ray irradiation operation on the irradiation switch 22 on the condition that the personal authentication of the first applicant and the second applicant has succeeded. In this state, when the irradiation person presses the irradiation switch 22, an irradiation request signal is sent from the irradiation instruction circuit 28 and is input to the portable X-ray generator 10. As described above, the configuration may be such that personal authentication of the administrator is not requested every time. In this case, the personal authentication result of the previous administrator is stored and checked when there is a request for personal authentication of the X-ray irradiator. The administrator's personal authentication is requested every time the inspection object, inspection location, and irradiation date are updated, for example.

  In the portable X-ray generation device 10, when the control unit 14 receives an irradiation request signal via the external interface 15, the X-ray generation unit 13 receives the signal and controls the X-ray generation. Thereby, X-ray irradiation is executed in conjunction with personal authentication in the controller device 20. Then, the X-ray image receiving apparatus 30 acquires an X-ray projection image. The X-ray projection image is transmitted to the user terminal 40 and / or the data storage device 50 via the communication unit 32 after the signal processing circuit 31 performs processing such as noise removal.

  On the other hand, in the operation device 20, irradiation history information is stored in the irradiation history storage unit 29. Specifically, the irradiation permission unit 25 performs “personal information regarding an administrator” and “personal information regarding an irradiation person permitted to apply for X-ray irradiation in the process of a series of processes from personal authentication to X-ray irradiation. ”,“ Date and time of X-ray irradiation this time ”,“ Identification information of portable X-ray generator 10 and / or operating device 20 that executed X-ray irradiation ”, and at least one of these information is irradiation history information And stored in the irradiation history storage unit 29. In addition, the irradiation history information includes “name of the company that manages the subject (in this case, piping)”, “name of the facility that is the inspection target of the X-ray projection inspection”, “inspection target of the X-ray projection inspection” At least one of “information that can identify the piping part or piping system that has become” and “position information where X-ray irradiation has been performed” may be included. The operation device 20 can extract the irradiation history information stored in the irradiation history storage unit 29 as necessary. For example, when there is an obligation to report the irradiation history to a predetermined jurisdiction organization, it is connected online to an external device (for example, the management center device 70) designated by the jurisdiction organization, and dedicated software installed in the operation device 20 The irradiation history information stored in the irradiation history storage unit 29 may be automatically collected. Alternatively, an external memory may be connected to the controller device 20, and irradiation history information may be read from the irradiation history storage unit 29 and stored in the external memory. In an external device (for example, the management center device 70) designated by the competent authority, the X-ray irradiation information and the irradiator data may be stored in a database. For example, a database relating to the irradiation history may be constructed from the business name (and / or facility name), irradiation information (date and time, place, radiation source, number of times, other information) and irradiation information. The X-ray projection image of the subject and the irradiation history information may be linked through the communication medium 60 and stored in an external device (for example, the management center device 70).

  As described above, according to the present embodiment, the personal authentication of the irradiator who performs the X-ray irradiation of the portable X-ray generator 10 and the X-ray irradiation of the portable X-ray generator 10 are linked. X-ray irradiation by a worker who has not been performed can be prevented. Further, according to the present embodiment, the personal authentication executed prior to the X-ray irradiation using the portable X-ray generator 10 is performed using the first personal authentication using the administrator's biometric information, Since the second step of the second personal authentication, in which personal authentication is performed using the biometric information of the X-ray irradiator, even if the X-ray irradiator is appointed, X-ray irradiation cannot be executed without the administrator's permission. The system can be guaranteed and safe operation can be ensured. According to the present embodiment, when the X-ray irradiation is executed by the portable X-ray generator 10, the irradiation history information is stored in the irradiation history storage unit 29 of the controller device 20, so that the irradiation history is managed. Is possible. Arbitrary information can be included in the irradiation history information according to the management / operation method related to the irradiation history. For example, it is possible to manage the operator name, facility name, X-ray irradiation results, administrator, and irradiation person. Become.

  In the above description, the operating device 20 includes the biometric authentication unit 23 and the registered biometric information storage unit 24. However, an external device (for example, the management center device 70) connected to the operating device 20 is provided with a biometric authentication function. May be. FIG. 7 is a configuration diagram of the management center device 70 having a biometric authentication function. The management center device 70 includes a safety manager information database 71 that stores safety manager information, a registered irradiator information database 72 that stores registered irradiator information, and a safety manager and a registered irradiator registered in the databases 71 and 72. A registered biometric information database 73 that stores biometric information for which registration has been applied is provided. The safety manager registered in the safety manager information database 71 is an administrator who has applied for registration as an X-ray handling manager when using the portable X-ray generator 10 in advance. The registered irradiator registered in the registered irradiator information database 72 is an irradiator who has been appointed as an X-ray irradiator when using the portable X-ray generator 10 (and / or the operation device 20) in advance and has been applied for registration. It is.

  The management center device 70 receives a biometric authentication request from the operation device 20 via the communication unit 74, and executes personal authentication based on authentication target person information and biometric information sent together with the biometric authentication request. Specifically, the corresponding registered biometric information is extracted from the safety manager information database 71 or the registered irradiator information database 72 based on the authentication subject person information, and personal authentication is performed in comparison with the received biometric information. The personal authentication result is transmitted to the controller device 20 that is the transmission source of the biometric authentication request. In addition, the history management unit 76 of the management center device 70 receives an irradiation history registration request from the operation device 20 via the communication unit 74, and stores the irradiation history information sent together with the registration request in the irradiation history information database 77. . In the irradiation history information database 77, X-ray irradiation information and irradiator data are stored in a database format. For example, the history management unit 76 converts the business name, facility name, irradiation information (date and time, location, radiation source, number of times, other information), and irradiation information into a database format related to irradiation history and stores it.

  In addition, this invention is not limited to the said embodiment, It can implement variously. In each of the above-described embodiments, the system configuration, members, size, shape, and the like illustrated in the accompanying drawings are not limited to these, and can be appropriately changed within a range in which the effects of the present invention are exhibited. In addition, various modifications can be made without departing from the scope of the object of the present invention.

  For example, in the above embodiment, face authentication and / or fingerprint authentication are performed as the personal authentication method, but vein authentication can also be adopted. In this case, the operation device 20 is provided with a vein reading device that reads vein information, and the vein information of the administrator and the irradiator previously applied as registered biometric information is held. Further, for example, in the above embodiment, the personal authentication is performed in two stages, but may be performed in one stage.

  In the above-described embodiment, the biometric authentication unit 23 is exemplified as the personal authentication unit. However, the personal authentication unit only needs to perform personal authentication. For example, a card reader is provided instead of the biometric information capturing unit 21, a registered card information storage unit is provided instead of the registered biometric information storage unit 24, and a user ID corresponding to a card read by the card reader is stored in the registered card information storage unit. The irradiation switch 22 may be validated when it is stored as “with irradiation authority”. Moreover, it replaces with the biometric information acquisition part 21 and the registration biometric information storage part 24, has a user ID and password acquisition part, a user ID and password storage part, and the user ID and password which the user ID and password acquisition part acquired are user The irradiation switch 22 may be validated when it is stored in the ID / password storage unit and the user is “with irradiation authority”. In addition to these personal authentications, as in the above-described embodiment, a plurality of personal authentications are required, such as imposing the authentication of not only the X-ray irradiation person but also the administrator before the irradiation switch 22 is validated. Also good. Note that, as described above, these personal authentication functions may be provided in an external device.

  Note that this embodiment is a method other than the above-described method, and may be an X-ray irradiation method equivalent to the above-described processing performed by the X-ray irradiation system. In addition, each process according to the present embodiment is not limited to the illustrated order. For example, some or all of the processes may be processed in different orders, in parallel, distributed, or omitted. For example, a part of the processing of each device may be executed by the host device.

DESCRIPTION OF SYMBOLS 10 Portable X-ray generator 20 Operation apparatus 21 Biological information acquisition part 21a Camera 21b Fingerprint imaging part 22 Irradiation switch 23 Biometric authentication part 24 Registration biometric information memory | storage part 25 Irradiation permission part 26 Display 27 External communication part 28 Irradiation instruction circuit 29 Irradiation History storage unit 30 X-ray image receiving device 40 User terminal 50 Data storage device 70 Management center device

Claims (10)

A portable X-ray generator having a built-in X-ray source, and an operating device for operating X-ray irradiation of the X-ray generator;
The operation device includes an individual authentication unit that performs personal authentication, and an irradiation switch that enables an X-ray irradiation operation to the X-ray generation device after personal authentication by the personal authentication unit. Irradiation system. The operating device has a biological information capturing unit that captures personal biological information,
The X-ray irradiation system according to claim 1, wherein the personal authentication unit performs personal authentication based on the biometric information.   The X-ray irradiation system according to claim 2, wherein the irradiation switch enables an X-ray irradiation operation after personal authentication using biometric information of the X-ray irradiation person.   The irradiation switch has two types of personal authentication: first personal authentication for personal authentication using the biometric information of the administrator and second personal authentication for personal authentication using the biometric information of the X-ray irradiator. The X-ray irradiation according to claim 3, wherein X-ray irradiation operation can be performed after the first and second personal authentication at least at the first operation when the X-ray generator is installed. system.   5. The X-ray irradiation system according to claim 2, wherein the operating device includes biometric authentication means for performing personal authentication using biometric information captured from the biometric information capturing unit.   The biometric authentication unit compares the registered biometric information of an administrator registered in advance as an X-ray handling manager with the biometric information captured from the biometric information capturing unit, and performs personal authentication of the administrator to perform X-ray irradiation. 6. The personal authentication of an X-ray irradiator is performed by comparing the registered biometric information of an X-ray irradiator registered in advance as a person with the biometric information acquired from the biometric information acquisition unit. X-ray irradiation system.   3. The operating device transmits biometric information captured from the biometric information capturing unit to an external device, and receives a personal authentication result returned from the external device or another external device. The X-ray irradiation system according to claim 4.   The X-ray irradiation system according to claim 3, wherein the operation device includes an irradiation history storage unit that holds history information of X-ray irradiation with respect to the X-ray generation device.   The X-ray irradiation system according to any one of claims 3 to 8, wherein the operation device transmits history information of X-ray irradiation on the X-ray generation device to an external device instructed in advance. .   The X-ray irradiation system according to claim 2, wherein the biological information is either face image information or fingerprint information.

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