JP2017009516A - Radiation management system and dosimeter - Google Patents

Abstract

PROBLEM TO BE SOLVED: To allow the burden of operation to switch a display screen to be reduced.SOLUTION: A radiation management system (1) includes a dosimeter (2) and a monitoring device (4). The dosimeter comprises: a radio communication unit (203) for wirelessly communicating with the monitoring device; a radiation quantity measuring unit (202) for measuring the quantity of radiation; a display unit (205) capable of displaying a plurality of display screens on the same display region (25) by switching; and a display control unit (201a) for controlling the display unit. The monitoring device comprises: a radio communication unit (403) for wirelessly communicating with the dosimeter; and a screen switching command generation unit (401a) for generating a screen switching command to have the display screen of the display unit switched. The display control unit performs control so that the plurality of display screens are switched and displayed on the same display region, on the basis of the screen switching command wirelessly transmitted by the monitoring device.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a radiation management system capable of controlling a dosimeter carried by an operator of a radiation handling facility and a dosimeter thereof.

  Conventionally, in radiation handling facilities that handle radioactive materials and radiation, such as nuclear power plants, as disclosed in Patent Document 1, each worker working in a radiation control area carries a dosimeter. Yes. In Patent Document 1, the dosimeter includes a wireless communication unit, and the dosimeter and a management computer that manages the integrated dose and the like can be wirelessly communicated via the wireless communication unit. The dosimeter further includes a display unit that displays characters and images, and an alarm unit that emits a buzzer and sound. Further, according to the request of the worker, the dosimeter can receive and display information such as the accumulated dose from the management computer, and the worker can work while grasping his / her accumulated dose and the like.

JP-A-11-326520

  In Patent Document 1, it is necessary to operate an operation unit including a keyboard and a touch panel in order to receive and display each piece of information such as an integrated dose in a dosimeter. However, since the work in the radiation control area wears gloves, it is difficult to operate the operation unit with the fingertip. Furthermore, since the dosimeter may be carried inside the protective clothing and carried with it, the operation part is operated over the protective clothing, so that the operation becomes more difficult. Therefore, it has been desired to display various information while minimizing the operation of the dosimeter by the operator.

  This invention is made | formed in view of this point, and aims at provision of the radiation management system and dosimeter which can reduce the burden of operation for switching a display screen.

  The radiation management system of the present invention is a radiation management system including a dosimeter carried by an operator at a radiation handling facility and a monitoring device for monitoring a measurement result of the dosimeter, wherein the dosimeter A wireless communication unit that wirelessly communicates with the monitoring device, a dose measurement unit that measures the dose of radiation, a display unit that can display a plurality of display screens in the same display area, and a display control unit that controls the display unit And the monitoring device includes: a wireless communication unit that wirelessly communicates with the dosimeter; and a screen switching command creation unit that creates a screen switching command for switching a display screen of the display unit, and the display control The unit controls to switch and display a plurality of display screens in the same display area in the display unit based on the screen switching command wirelessly transmitted from the monitoring device.

  According to this structure, the display screen displayed on a display part can be switched according to the instruction | command transmitted from a monitoring apparatus. In other words, the operator's operation for switching the display screen can be omitted, and the burden on the operator can be reduced.

  The monitoring device further includes a management index storage unit that stores a management index of the dosimeter, and the screen switching command generation unit is configured to manage the management index when the management index reaches a predetermined threshold before the limit value is reached. A command for switching to a display screen on which an index is displayed may be created. In this configuration, the operator can switch to the display screen including the measurement value before the measurement value of the management index reaches the limit value without operating the dosimeter.

  The management index may include at least one of accumulated dose, dose rate, and remaining work time. By including these, it is possible to display an index (value) to be managed in the radiation handling facility.

  The radiation management system of the present invention is a dosimeter carried by an operator at a radiation handling facility, and includes a dose measuring unit for measuring a dose of radiation for measuring an accumulated dose, and an entrance to a radiation control area. A timer for managing the remaining work time from the time and the work time, a display unit capable of switching and displaying a plurality of display screens in the same display area, and a display control unit for controlling the display unit. The unit switches or maintains the display screen of the integrated dose in the display area when the integrated dose reaches a predetermined threshold before the limit value is reached, and the predetermined work before the remaining work time reaches the limit value. When the threshold is reached, control is performed to switch or maintain the display screen of the remaining work time in the display area.

  According to this configuration, it is possible to automatically display that either the accumulated dose or the remaining work time has reached a predetermined threshold, and eliminate the burden on the operator to operate the dosimeter, while giving the worker the accumulated dose and the remaining work. You can make time visible.

  A sensor unit that converts a physical quantity into an electrical signal may be further provided, and the display control unit may perform control to switch a display screen of the display area based on an electrical signal from the sensor unit. In this configuration, by appropriately setting the physical quantity detected by the sensor unit, the operator can select an operation that can easily switch the display screen.

  The dose measuring unit may be a semiconductor detector, the sensor unit may be an acceleration sensor, and the display control unit may perform control to switch a display screen of the display area based on acceleration detected by the acceleration sensor. In this configuration, the display screen can be easily switched depending on the behavior of the dosimeter.

  The display control unit may perform control to switch a display screen of the display area based on an acceleration detected by the acceleration sensor by an operation of shaking the dosimeter. In this configuration, the display screen can be switched by an operation of shaking the dosimeter even through protective clothing, and an operation of pressing down a key or button can be eliminated.

  According to the present invention, since the switching of the display screen is controlled by the display control unit, it is possible to reduce the burden of an operation for switching the display screen.

It is a lineblock diagram of a radiation management system concerning an embodiment of the invention. It is an external perspective view of a dosimeter. It is a block diagram which shows the structure of a dosimeter. It is a functional block diagram of the control part in a dosimeter. It is a block diagram which shows the structure of a monitoring apparatus. It is a functional block diagram of the control part in a monitoring device. It is a flowchart which shows an example of the flow of control of a display screen.

  Hereinafter, embodiments of the present invention will be specifically described with reference to the drawings.

  FIG. 1 is a configuration diagram of a radiation management system according to an embodiment of the present invention. As shown in FIG. 1, a radiation management system 1 includes a dosimeter 2 carried by a worker working in a radiation management area in a radiation handling facility such as a nuclear power plant, and a base station 3 with respect to the dosimeter 2. And a monitoring device 4 for wireless communication. The base station 3 and the monitoring device 4 communicate with each other via a communication network 5 such as a wireless or wired LAN (Local Area Network). The base station 3 covers the radiation management area as a communication area, and performs radio communication with the dosimeter 2 located in the communication area. Note that the dosimeter 2 and the base station 3 may perform wireless communication via a repeater (not shown).

  Next, the hardware configuration of the dosimeter according to the present embodiment will be described. 2A and 2B are external perspective views of the dosimeter. In the following description, unless otherwise specified, “up”, “down”, “left”, “right”, “front”, “rear” are based on the case viewed from the direction of arrow A in FIG. 2A. Use.

  As shown in FIGS. 2A and 2B, the dosimeter 2 includes a housing 21 and a clip 22 attached to the outer periphery of the housing 21. An operation button 23 is provided on the left side surface of the housing 21. The operation button 23 includes a confirmation button 23a, an upper selection button 23b, and a lower selection button 23c arranged from top to bottom. The dosimeter 2 is activated when the confirmation button 23a is pressed and held. After the dosimeter 2 is activated, the display content can be changed by pressing the upper selection button 23b or the lower selection button 23c. Further, the operation selected by the upper selection button 23b or the lower selection button 23c can be confirmed by momentarily pressing the confirmation button 23a.

  When using the dosimeter 2, the clip 22 is for hooking and fixing on a protective suit or the like. The clip 22 is attached to the housing 21 with a fixing jig such as a screw. The clip 22 includes a front hooking portion 22a (not shown in FIG. 2B) formed on the front side of the casing 21, and a rear hooking portion 22b (not shown in FIG. 2A) formed on the rear side of the casing 21. It has.

  The dosimeter 2 includes a display area 25 on the upper side of the housing 21, and the display area 25 is provided along an inclined surface that descends toward the front. The display area 25 is provided so that a display screen including a management index described later can be displayed to the worker.

  FIG. 3 is a block diagram showing the configuration of the dosimeter. 3, the dosimeter 2 includes a control unit 201, a dose measurement unit 202, a wireless communication unit 203, an operation unit 204, a display unit 205, a storage unit 206, a timer 207, an acceleration sensor unit (sensor unit) 208, and A power supply unit 209 is provided.

  The control unit 201 includes a central processing unit (CPU) and the like, and controls the entire dosimeter 2. The control unit 201 performs various arithmetic processes on information input from the dose measurement unit 202, the wireless communication unit 203, and the like, and various control processes (display control of the display unit 205, etc.) according to the program stored in the storage unit 206. )I do.

  The dose measuring unit 202 is configured by a detector such as a semiconductor detector capable of measuring radiation, and a γ (X) ray can be exemplified as a measurement target. The dose measurement unit 202 counts the incident radiation, converts the count value into a dose, measures the dose value, and outputs it to the control unit.

  The wireless communication unit 203 is a communication interface, and transmits / receives various information, data, and commands to the monitoring device 4 through the base station 3 (see FIG. 1) by wireless communication. For example, the measurement result information of the dose measuring unit 202 output to the control unit 201 is transmitted to the monitoring device 4 and various information processed by the monitoring device 4 based on this information is received.

  The operation unit 204 includes an operation button 23 (see FIG. 2), acquires data by an operation from an operator or the like, and outputs the data to the control unit 201.

  The display unit 205 includes a display area 25 (see FIG. 2), and includes a liquid crystal display, an organic EL display, and the like and a controller thereof. The display unit 205 displays the calculation result of the control unit 201 as characters, images, graphs, other icons, etc. on the display area 25 as a display screen.

  The storage unit 206 includes a RAM, a ROM, a nonvolatile memory, and the like. In the ROM, a program for the control unit 201 to perform various calculations and controls, a program for functioning as an application, data, and the like are stored. The RAM is used as a work area of the control unit 201, measurement result information of the dose measurement unit 202, information received by the wireless communication unit 203, and the like are stored via the control unit 201. The RAM temporarily stores programs and data read from the ROM, data input from the operation unit 204, calculation results executed by the control unit 201 according to various programs, and the like. In the nonvolatile memory, data that needs to be stored for a long time is stored among the data generated by the calculation of the control unit 201.

  The timer 207 has a function of measuring an elapsed time from the start of measurement or measuring a remaining time up to a preset time, and outputs the measurement result to the control unit 201. The timer 207 is used to manage the remaining work time from the entry time to the radiation management area and the work time.

  The acceleration sensor unit 208 is configured by a triaxial acceleration sensor that detects acceleration in three directions orthogonal to each other. The acceleration sensor unit 208 measures the acceleration accompanying the displacement of the dosimeter 2 as a physical quantity, converts the measurement result into an electrical signal, and outputs the electrical signal to the control unit 201. As a specific example, a threshold value for acceleration is set, and a predetermined electrical signal is output to the control unit 201 on condition that an operation of shaking the dosimeter 2 having an acceleration larger than the threshold value is detected.

  The power supply unit 209 includes, for example, a primary battery such as a dry battery or a secondary battery that can be repeatedly charged and discharged, and supplies power to the above-described units.

  FIG. 4 is a functional block diagram of a control unit in the dosimeter. As shown in FIG. 4, the control unit 201 according to the present embodiment functions as a display control unit 201a, a management index creation unit 201b, and a management index comparison unit 201c. These functional blocks are realized by the control unit 201 executing a program for measuring a management index, which will be described later. The functional block of the control unit 201 shown in FIG. 4 shows only the configuration related to the present invention, and the other configuration is omitted.

  The display control unit 201a controls the display unit 205 (see FIG. 3) to switch and display a plurality of display screens in the same display area 25 (see FIG. 2) under a predetermined condition. The switching conditions include a command from the monitoring device 4 (see FIG. 1), a command from the management index comparison unit 201c, and outputs from the operation unit 204 (see FIG. 3) and the acceleration sensor unit 208 (see FIG. 3). . The data of the display screen may be stored in advance in the storage unit 206 (see FIG. 3), or may be generated by the monitoring device 4 and transmitted. When displaying display screen data stored in advance in the storage unit 206, the data is associated with a command from the monitoring device 4 or processing of the display control unit 201a. The display control unit 201a controls the display area 25 to display the display screen data and the measurement result information of the dose measurement unit 202 (see FIG. 3) according to the command from the monitoring device 4 and the processing of the display control unit 201a. To do.

  The management index creation unit 201b calculates an integrated dose or a dose rate from the radiation dose value measured by the dose measurement unit 202, or based on the measurement result of the timer 207 (see FIG. 3), The remaining work time is calculated from the entry time and the work time of the worker. Here, the management index includes the accumulated dose, the dose rate, and the remaining work time (elapsed time from the entry time).

  The management index comparison unit 201c sets a threshold before reaching the limit value (for example, a value obtained by multiplying the limit value by 0.8) for each limit value of the integrated dose, dose rate, and remaining work time of the management index. Is calculated. Then, the management index comparison unit 201c compares the calculated threshold value with the measurement result of the timer 207 or the dose measurement unit 202, that is, the actual measurement value of the management index. In this comparison, when the measured value of the management index reaches the threshold value, a command for switching to the display screen on which the management index is displayed is output to the display control unit 201a. The threshold value is not calculated by the management index comparison unit 201c, and a value calculated in advance by an operator or the like is input by the operation button 23 (see FIG. 2) or transmitted from the monitoring device 4 or input. May be stored in the storage unit 206.

  Next, the monitoring device 4 will be described. FIG. 5 is a block diagram illustrating a configuration of the monitoring device. As illustrated in FIG. 5, the monitoring device 4 includes a control unit 401, a wireless communication unit 403, an operation unit 404, a display unit 405, a storage unit 406, a timer 407, and a power supply unit 409.

  The control unit 401 includes a central processing unit (CPU) and the like, and controls the entire monitoring device 4. The control unit 401 performs various arithmetic processes on the measurement result information received via the wireless communication unit 403 and various control processes (transmission control of the wireless communication unit 403, timer 407) according to the program stored in the storage unit 406. Control etc.).

  The wireless communication unit 403 is a communication interface, and transmits and receives various information, data, and commands to the dosimeter 2 through wireless communication through the base station 3 (see FIG. 1). For example, the measurement result information of the dose measurement unit 202 (see FIG. 4) in the dosimeter 2 is received, or the calculation result information of the management index calculated by the control unit 401 based on this information is transmitted to the dosimeter 2. .

  The operation unit 404 includes, for example, a keyboard, buttons, keys, a touch panel type display, a microphone, and the like, and acquires data by an operation from an operator and outputs the data to the control unit 401.

  The display unit 405 is configured by a display that displays an arithmetic processing result in the control unit 401 and measurement result information of the dosimeter 2 received by the wireless communication unit 403 for an operator who operates and manages the monitoring device 4.

  The storage unit 406 has the same configuration as that of the storage unit 206 of the dosimeter 2, but will be described below just in case. The storage unit 406 includes a RAM, a ROM, a nonvolatile memory, and the like. In the ROM, a program for the control unit 401 to perform various calculations and controls, a program for functioning as an application, data, and the like are stored. The RAM is used as a work area of the control unit 401 or information received by the wireless communication unit 403 is stored via the control unit 401. The RAM temporarily stores programs and data read from the ROM, data input from the operation unit 404, calculation results executed by the control unit 401 in accordance with various programs, and the like. In the nonvolatile memory, data that needs to be stored for a long time is stored among the data generated by the calculation of the control unit 401.

  Part of the storage unit 406 functions as a management index storage unit 406a, and the management index storage unit 406a stores limit values and threshold values for the management index, measurement information transmitted from the dosimeter 2, and the like.

  The timer 407 has a function of measuring an elapsed time from the start of measurement of the dosimeter 2 or measuring a remaining time up to a preset time, and outputs the measurement result to the control unit 401. The timer 407 is used to manage the remaining work time from the entry time to the radiation management area and the work time.

  For example, a commercial power supply or the like is adopted as the power supply unit 409, and power is supplied to the above-described units.

  FIG. 6 is a functional block diagram of a control unit in the monitoring apparatus. As shown in FIG. 6, the control unit 401 according to the present embodiment functions as a screen switching command creation unit 401a, a management index creation unit 401b, and a management index comparison unit 401c. These functional blocks are realized by the program stored in the storage unit 406 being executed by the control unit 401. The functional block of the control unit 401 shown in FIG. 6 shows only the configuration related to the present invention, and the other configuration is omitted. The management index creation unit 401b and the management index comparison unit 401c have the same functions as the management index creation unit 201b and the management index comparison unit 201c of the dosimeter 2, but will be described below just in case.

  The screen switching command creation unit 401a creates a screen switching command that causes the display unit 205 (see FIG. 3) to switch to or maintain a display screen on which a predetermined management index is displayed. The screen switching command creation unit 401a controls the wireless communication unit 403 to wirelessly transmit the created screen switching command to the dosimeter 2. At this time, display screen data including a management index to be displayed is created and associated with the screen switching command and wirelessly transmitted. In the screen switching command creation unit 401a, the screen switching command is created at a predetermined timing according to the program, is created according to the output from the management index comparison unit 401c, and is created by the operation from the operation unit 404. .

  The management index creation unit 401b receives the radiation dose value measured by the dose measurement unit 202 (see FIG. 3) by the wireless communication unit 403, and calculates and calculates an integrated dose and a dose rate from this dose value. Further, the management index creation unit 401b calculates and calculates the remaining work time from the entry time to the radiation management area and the work time of the worker based on the measurement result of the timer 407.

  The management index comparison unit 401c calculates a threshold before reaching the limit value for each limit value of the integrated dose, dose rate, and remaining work time of the management index received from the dosimeter 2 by the wireless communication unit 403. . Then, the management index comparison unit 401c compares the calculated threshold value with the measurement result of the timer 407 or the dose measurement unit 202, that is, the actual measurement value of the management index. In this comparison, when the measured value of the management index reaches the threshold value, the fact that the management index has been reached is output to the screen switching command creation unit 401a. The threshold value may be directly input by the operation unit 404 and stored in the storage unit 406 without being calculated by the management index comparison unit 401c.

  Subsequently, in the present embodiment, an example of the monitoring control of the dosimeter 2 and the control for switching the display screen of the display unit 205 will be described below with reference to FIG. 7 in addition to FIGS. FIG. 7 is a flowchart showing the flow of control of the display screen. In the following description, a case where control is performed by the management index creation unit 401b and the management index comparison unit 401c without performing control by the management index creation unit 201b and the management index comparison unit 201c of the dosimeter 2 will be described.

  First, when the power of the dosimeter 2 is turned on, communication with the monitoring device 4 is started, and the monitoring device 4 sets an initial display screen to be displayed on the display unit 205 of the dosimeter 2 (step (hereinafter referred to as “step”). , "ST") 101). Then, the screen switching command creating unit 401a transmits a screen switching command to be an initial display screen to the dosimeter 2, and when the screen switching command is received by the dosimeter 2, the display control unit 201a controls the display area 25 ( 2), an initial display screen is displayed (ST102).

  Thereafter, the monitoring device 4 acquires the entry time and work time of the worker carrying the dosimeter 2 into the radiation control area from the entry / exit management system (not shown), and inputs these times to the timer 407. Then, the measurement of the remaining work time T is started (ST103). In addition, measurement of the radiation dose by the dose measuring unit 202 is started, and the measurement result information is wirelessly transmitted to the monitoring device 4. Based on the wirelessly transmitted measurement result information, the management index creation unit 401b calculates the measurement results of the integrated dose D and the dose rate R (ST104).

  Next, the management index comparison unit 401c compares the measured value of the remaining work time T with the threshold value of the remaining work time T (ST105). When the measurement value of the remaining work time T reaches the threshold value of the remaining work time T (T ≦ threshold) (ST105: Yes), the screen switching command creation unit 401a displays a display screen including the measurement value of the remaining work time T. A screen switching command is wirelessly transmitted to the dosimeter 2 (ST106). When the dosimeter 2 receives the screen switching command, the display control unit 201a controls the display unit 205 according to the screen switching command. By this control, the display screen of the display area 25 (see FIG. 2) is switched and displayed so as to include the measurement value of the remaining work time T (ST107). Note that if the measurement value of the remaining work time T is displayed in the display area 25 on the initial display screen in ST102, the display screen is maintained without being switched.

  In ST105, when the measured value of the remaining work time T is larger than the threshold value of the remaining work time T (ST105: No), the management index comparison unit 401c compares the measured value of the accumulated dose D with the threshold value of the accumulated dose D. (ST108). When the measured value of accumulated dose D reaches the threshold value of accumulated dose D (D ≧ threshold value) (ST108: Yes), the screen switching command creation unit 401a displays a display screen including the measured value of accumulated dose D. A switching command is wirelessly transmitted to the dosimeter 2 (ST109). When the dosimeter 2 receives the screen switching command, the display control unit 201a controls the display unit 205 according to the screen switching command. By this control, the display screen of the display area 25 (see FIG. 2) is switched and displayed so as to include the measured value of the integrated dose D (ST107). In the initial display screen in ST102, if the measured value of integrated dose D is displayed in display area 25, the display screen is maintained without being switched.

  In ST108, when the measured value of the accumulated dose D is smaller than the threshold value of the accumulated dose D (ST108: No), the management index comparison unit 401c compares the measured value of the dose rate R with the threshold value of the dose rate R ( ST110). When the measured value of the dose rate R reaches the threshold value of the dose rate R (R ≧ threshold value) (ST110: Yes), the screen switching command creation unit 401a displays a screen that includes the measured value of the dose rate R. A switching command is wirelessly transmitted to the dosimeter 2 (ST111). When the dosimeter 2 receives the screen switching command, the display control unit 201a controls the display unit 205 according to the screen switching command. By this control, the display screen of the display area 25 (see FIG. 2) is switched and displayed so as to include the measured value of the dose rate R (ST107). If the measured value of dose rate R is displayed on the initial display screen in ST102, the display screen is maintained without being switched.

  In ST110, when the measured value of the dose rate R is smaller than the threshold value of the dose rate R (ST110: No), it is determined whether or not there is an input in the operation unit 404 (for example, message input to the dosimeter 2, etc.) ( ST112). When such an input is present (ST112: Yes), the screen switching command creation unit 401a wirelessly transmits a screen switching command to be a display screen including the input content to the dosimeter 2 (ST113). When the dosimeter 2 receives such a screen switching command, the display screen of the display area 25 (see FIG. 2) is switched to the display screen including the input contents and displayed according to the screen switching command by the display control unit 201a. (ST107). In ST112, when there is no input in the operation unit 404 (ST112: No), the measurement of the remaining work time T (ST103) and the measurement of the integrated dose D and the dose rate R (ST104) are resumed.

  Note that the monitoring control of the measurement result of the dosimeter 2 by the monitoring device 4 described above may be performed in the control unit 201 of the dosimeter 2. In this case, it is not necessary to perform wireless communication between the monitoring device 4 and the dosimeter 2, and the screen switching command creation unit 401 a, the management index creation unit 401 b, the management index comparison unit 401 c and the timer 407 are controlled by the dosimeter 2. This is performed by the display control unit 201a, the management index creation unit 201b, the management index comparison unit 201c, and the timer 207.

  As described above, according to the present embodiment, a plurality of display screens can be switched and displayed in the same display area 25 without the operator operating the dosimeter 2. Accordingly, the operator can easily and quickly visually recognize numerical values and information that are highly necessary for the worker among the remaining work time T, the accumulated dose D, the dose rate R, etc. without burdening the worker. It becomes possible.

  Further, since the acceleration sensor unit 208 is provided in the dosimeter 2, the display screen of the display area 25 can be switched based on the acceleration detected by the acceleration sensor unit 208 by an operation of shaking the dosimeter 2. Thereby, even if the operator wears gloves or operates over protective clothing, the operation burden can be reduced compared to the conventional operation of pressing down keys and buttons. In addition, by using the dose measuring unit 202 as a semiconductor detector, sufficient durability (strength) can be ensured with respect to the shaking operation.

  The present invention is not limited to the above embodiment, and can be implemented with various modifications. Moreover, there is no restriction | limiting in particular about the numerical value, dimension, material, and direction which were demonstrated by the said embodiment. Other modifications may be made as appropriate without departing from the scope of the object of the present invention.

  For example, the display screen displayed by switching to the display area 25 of the dosimeter 2 is not limited to that described above, and may be various display screens when using the dosimeter 2.

  In addition, as the management index, a numerical value other than the above-described index may be added as an index used when managing workers in the radiation handling facility.

  Further, the acceleration sensor unit 208 may be replaced with another sensor that converts a physical quantity when an operator handles the dosimeter 2 into an electric signal. For example, an angular velocity sensor (gyro sensor) that detects an angular velocity around a predetermined axis or an azimuth sensor (geomagnetic sensor) that detects a direction with respect to a predetermined direction may be used.

DESCRIPTION OF SYMBOLS 1 Radiation management system 2 Dosimeter 4 Monitoring apparatus 25 Display area 201a Display control part 202 Dose measurement part 203 Wireless communication part 205 Display part 207 Timer 208 Acceleration sensor part (sensor part)
401b Management index creation unit 403 Wireless communication unit 406a Management index storage unit

Claims (7)

A radiation management system including a dosimeter carried by an operator at a radiation handling facility and a monitoring device for monitoring a measurement result of the dosimeter,
The dosimeter is
A wireless communication unit that wirelessly communicates with the monitoring device;
A dose measuring unit for measuring the radiation dose;
A display unit capable of switching and displaying a plurality of display screens in the same display area;
A display control unit for controlling the display unit;
With
The monitoring device
A wireless communication unit that wirelessly communicates with the dosimeter;
A screen switching command creating unit for creating a screen switching command for switching the display screen of the display unit;
With
The display control unit controls to switch and display a plurality of display screens in the same display area in the display unit based on the screen switching command wirelessly transmitted from the monitoring device. . The monitoring device further includes a management index storage unit that stores a management index of the dosimeter,
The screen switching command creating unit creates a command for switching to a display screen on which the management index is displayed when the management index reaches a predetermined threshold before reaching the limit value. Radiation management system described in 1.   The radiation management system according to claim 2, wherein the management index includes at least one of an integrated dose, a dose rate, and a remaining work time. A dosimeter carried by an operator at a radiation handling facility,
A dose measuring unit for measuring the dose of radiation for measuring the accumulated dose;
A timer for managing the remaining work time from the entry time and work time to the radiation control area;
A display unit capable of switching and displaying a plurality of display screens in the same display area;
A display control unit for controlling the display unit,
The display control unit, when the accumulated dose reaches a predetermined threshold before reaching the limit value, to switch or maintain the display screen of the accumulated dose in the display area,
A dosimeter that performs control to switch or maintain the display screen of the remaining work time in the display area when the remaining work time reaches a predetermined threshold before reaching a limit value. A sensor unit for converting a physical quantity into an electrical signal;
The dosimeter according to claim 4, wherein the display control unit performs control to switch a display screen of the display region based on an electrical signal from the sensor unit. The dose measuring unit is a semiconductor detector,
The sensor unit is an acceleration sensor,
The dosimeter according to claim 5, wherein the display control unit performs control to switch a display screen of the display area based on an acceleration detected by the acceleration sensor.   The dosimeter according to claim 6, wherein the display control unit performs control to switch a display screen of the display area based on an acceleration detected by the acceleration sensor by an operation of shaking the dosimeter.

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