JP2006098113A - Radiation monitor system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a radiation monitor system capable of changing only data for screen rendering without changing a monitoring operation function means which is important for operation, and changing easily a screen specification, concerning a radiation monitor having the same structure. <P>SOLUTION: Only the data 13 for screen rendering changing relative to each plant are stored in an external personal computer 12 or the like of the radiation monitor 2, and the data 13 for screen rendering are taken out from the personal computer 12 at the changing time of the screen specification or the like, and displayed on a screen of a display means 4 by a rendering function means 9. In this radiation monitor system for detecting and monitoring collectively radiation levels of a plurality of measuring points, since information at each measuring point displayed on a display device is peculiar to each plant, the screen specification of the display device is different in each plant. Accordingly, each different display of the screen specification can be customized. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a radiation monitor system for monitoring a radiation dose.

  In a nuclear power plant or the like, a radiation monitor is installed to continuously monitor the radiation levels at a plurality of measurement points such as a reactor building or a work environment continuously, periodically, or as necessary.

  FIG. 2 shows a schematic configuration of a conventional radiation monitor system. In FIG. 2, 1a, 1b... Are radiation detectors provided at a plurality of measurement points in the nuclear power plant, and 2 is a radiation monitor, which indicates the radiation dose at the measurement points detected by the radiation detectors 1a, 1b. The monitoring calculation function means 3 for monitoring the measurement data, the display means 4 for displaying the radiation dose at the measurement point, and the output means 5 connected to the monitoring calculation function means 3 are configured.

An alarm device 6 and a recorder 7 are connected to the output means 5.
In the conventional radiation monitor system configured as described above, the measurement data detected by the radiation detectors 1 a, 1 b... Is sent to the monitoring calculation function means 3 of the radiation monitor 2 via the cable 8.

  The monitoring calculation function means 3 performs necessary data calculation processing, such as comparing measured data with a reference value, and outputs the alarm to an external alarm device 6 via the output means 5, or outputs a warning to the recorder 7. Or record the amount.

At the same time, the measured measurement data is sent from the monitor calculation function means 3 to the display means 4 and displayed on a screen such as a CRT (see, for example, Patent Document 1).
JP 2001-337169 A

However, in the conventional radiation monitor system, the type of the screen design of the display means is fixed to one type.
However, the information on each measurement point displayed on the display means is unique for each plant or system due to the operability and appearance of the human-machine interface for each plant on the user side that delivers the radiation monitor system. The screen specifications of the display means may be different.

  If it is intended to satisfy different screen specifications required for each user, it is necessary to improve the monitoring calculation function means 3 for each screen specification, and to develop and manufacture a new radiation monitor. However, it was troublesome.

  The present invention has been made in order to solve the above-mentioned problems. With the radiation monitor having the same structure, only the data for screen drawing can be changed without changing the monitoring calculation function means important for operation. An object of the present invention is to obtain a radiation monitor system that can be easily changed.

  In order to achieve the above object, the radiation monitor system of the present invention includes a radiation detector that detects a radiation dose, a monitoring calculation function unit that performs arithmetic processing and monitoring of measurement data input from the radiation detector, and the monitoring Drawing function means for displaying measurement data calculated by the calculation function means, display means for displaying measurement data displayed by the drawing function means, and saving screen drawing data transmitted from the outside through the data interface A radiation monitor comprising a data storage means for sending screen drawing data to the drawing function means, wherein the drawing function means displays measurement data according to the screen specifications of the screen drawing data.

  According to the radiation monitor system of the present invention, it is possible to change only the screen drawing data and easily change the screen specifications without changing the monitoring calculation function means that is important for operation with the radiation monitor having the same structure. .

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description of the embodiment, the same parts as those in the conventional radiation monitor system shown in FIG. 2 are denoted by the same reference numerals, and detailed description thereof is omitted.

FIG. 1 is a block diagram showing a radiation monitor system according to a first embodiment of the present invention.
In FIG. 1, reference numerals 1a, 1b,... Are radiation detectors, and 2 is a radiation monitor, which is connected to the monitoring calculation function means 3, the drawing function means 9 for processing the display screen, and the drawing function. The display unit 4 is connected to the unit 9, the screen drawing data storage unit 10, and the screen drawing data interface 11.

  Reference numeral 12 denotes an external computer such as a personal computer, which internally stores screen drawing data 13 unique to each system, and stores screen drawing data storage means 10 of the radiation monitor 2 via the screen drawing data interface 11. Connected with.

Next, the operation of the radiation monitor system configured as described above will be described.
The measurement data from the radiation detectors 1a, 1b,... Is calculated by the monitoring calculation function means 3 of the radiation monitor 2 and converted into a plurality of values to be monitored.

  The value obtained here is transmitted to the drawing function means 9 and displayed on the display means 4 according to the screen specifications specific to each system sent from the screen drawing data storage means 10 by the function of the drawing function means 9. The

  There are a plurality of values to be displayed, and the drawing function means 9 determines which value should be written in which coordinate of the display means 4 from the setting data of the screen drawing data storage means 10.

  Here, the data of the screen drawing data storage means 10 includes the coordinates of the value to be displayed, the frame for the numerical value displayed on the screen, the customer's logo, the manufacturer's trademark, the character or numerical shape information to be displayed, etc. There is.

  These system-specific screen drawing data are stored in the external computer 12, and are transmitted to the screen drawing data storage means 10 through the screen drawing data interface 11 from here.

  Further, the screen drawing data may be transferred to the radiation monitor 2 toward the computer 12 or the like. Conversely, in order to avoid reverse engineering or the like, data transfer from the radiation monitor 2 side to the computer 12 side is performed. You may have a structure which does not perform, or has a mechanism which can select both with a switch etc.

  As described above, in the radiation monitor system according to the present embodiment, various data can be obtained by obtaining and changing the data of the screen drawing data storage means 10 from the screen drawing data 13 of the computer 12 for each screen specification of the customer. The screen drawing of the display means 4 can be changed according to the request of the human machine interface of the customer.

  As a result, it is only necessary to change the screen drawing data without changing the monitoring calculation function means that is important for system operation. Therefore, it is easy to change the screen specifications or to replace the radiation monitor with a call monitor. Become.

Next, a second embodiment of the present invention will be described.
In this embodiment, the screen drawing data interface 11 uses a serial transmission, for example, a screen drawing data interface using RS-232C or USB.

Thus, the screen drawing data 13 can be sent from the computer 12 to the screen drawing data storage means 10 by connecting the screen drawing data storage means 10 of the radiation monitor 2 and the serial interface connector with a cable.
With such a configuration, a computer having a serial interface can change the screen drawing data 13 of the screen drawing data storage unit 10.

Next, a third embodiment of the present invention will be described.
In the present embodiment, a screen drawing data interface using a parallel transmission USB is used as the screen drawing data interface 11.

  Thereby, the screen drawing data 13 can be sent from the computer 12 to the screen drawing data storage means 10 by connecting the screen drawing data storage means 12 of the radiation monitor 2 and the parallel interface connector with a cable.

  With such a configuration, the screen drawing data 13 of the screen drawing data storage unit 10 can be changed by a computer having a parallel interface.

Next, a fourth embodiment of the present invention will be described.
In the present embodiment, Ethernet is used as the screen drawing data interface 11.

  Thereby, the screen drawing data 13 of the computer 12 can be sent to the screen drawing data storage means 10 through the local area network.

  When actually manufacturing a product, it is necessary to send screen drawing data 13 from a computer 12 to a plurality of radiation monitors 2, but such a configuration is adopted to connect a plurality of radiation monitors 2 on a network. Thus, the screen drawing data 13 can be sent to each radiation monitor 2 collectively by one computer 12 connected to the network.

Next, a fifth embodiment of the present invention will be described.
In this embodiment, a screen drawing data interface having a dedicated data transmission protocol is used as the screen drawing data interface 11 in the second to fourth embodiments.

  Thus, the screen drawing data 13 is saved from the computer 12 by connecting the screen drawing data storage means 10 of the radiation monitor 2 and the screen drawing data interface having a dedicated data transmission protocol with a cable. The means 10 can be sent.

  With such a configuration, the screen drawing data 13 can be changed only from the computer 12 having a dedicated data transmission protocol, and modification by a third party who does not have such a protocol can be prevented.

Next, a sixth embodiment of the present invention will be described.
In the present embodiment, a screen drawing data interface having a connector having a dedicated shape is used as the screen drawing data interface 11 in the second to fourth embodiments.

  Thereby, the screen drawing data storage means 10 of the radiation monitor 2 and the computer 12 are connected by a cable having a dedicated connector, so that the screen drawing data 13 is sent from the computer 12 to the screen drawing data storage means 10. Can do.

  With such a configuration, the screen drawing data 13 can be changed from the computer 12 only using a dedicated cable, and modification by a third party who does not have such a cable can be prevented.

Next, a seventh embodiment of the present invention will be described.
In the present embodiment, an interface having an encryption function is used for the screen drawing data interface 11 in the first to sixth embodiments.

Thereby, the screen drawing data 13 of the radiation monitor 2 can be sent to the screen drawing data storage means 10 only from a computer that can encrypt the data.
As encryption at this time, a method of mutually setting a password may be used, or a key encryption method including a secret key and a public key may be used.

  By adopting such a configuration, it is possible to change the screen drawing data 13 only from a computer that is set to be able to perform encrypted communication, and to prevent modification by a computer that is not set for encryption. Can do.

Next, an eighth embodiment of the present invention will be described.
In this embodiment, in the first embodiment, the screen drawing data interface 11 is deleted, and the screen drawing data storage means 10 is provided with a memory for recording removable screen data.

Thereby, the screen drawing data 13 of the radiation monitor 2 can be changed by exchanging a memory for recording removable screen data.
With this configuration, the screen drawing data 13 can be changed without a computer.

  In addition, the removable screen data is not read from the memory itself for recording, but is temporarily transferred from this memory to the non-removable screen data storage memory of the screen drawing data storage means 10 and then removed. Possible screen data storage memory data may be used as screen drawing data.

  By doing this, the screen drawing data of all the radiation monitors 2 can be changed by replacing the screen data storage memory that can display one screen drawing data with a plurality of radiation monitors 2.

  Although the radiation monitor is used in the description of the above embodiment, the present invention may be applied to a monitor for other uses such as nuclear instrumentation.

1 is a block diagram showing a radiation monitor system according to a first embodiment of the present invention. The block diagram which shows the conventional radiation monitor system.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1a, 1b ... Radiation detector, 2 ... Radiation monitor, 3 ... Monitoring calculation function means, 4 ... Display means, 8 ... Cable, 9 ... Drawing function means, 10 ... Screen drawing data storage means, 11 ... Screen drawing data Interface, 12 ... computer, 13 ... screen drawing data.

Claims (6)

A radiation detector for detecting the radiation dose;
Monitoring calculation function means for calculating and monitoring measurement data input from the radiation detector, drawing function means for displaying measurement data calculated by the monitoring calculation function means, and display processing by the drawing function means A radiation monitor comprising display means for displaying the measured data, and data storage means for saving screen drawing data transmitted from the outside through a data interface and sending the screen drawing data to the drawing function means,
The radiation function system, wherein the drawing function means displays measurement data according to a screen specification of screen drawing data.   The radiation monitor system according to claim 1, wherein a serial transmission interface is used as the data interface.   2. The radiation monitor system according to claim 1, wherein a parallel transmission interface is used as the data interface.   2. The radiation monitor system according to claim 1, wherein an Ethernet interface is used as the data interface.   The radiation monitor system according to claim 1, wherein an interface having a data transmission protocol is used as the data interface. 6. The radiation monitor system according to claim 1, wherein the data interface has an encryption function.

Images