TW201619638A - The reader system and apparatus for optical stimulated luminescence dosimeter - Google Patents

Abstract

A radiation dosimeter reading apparatus system is applicable to a radiation dosimeter reading apparatus which reads a dose value stored in an optically stimulated luminescence dosimeter. The radiation dosimeter reading apparatus includes a reading unit area configured to read and store the dose value data of the optically stimulated luminescence dosimeter, perform stimulation irradiation on the optically stimulated luminescence dosimeter, and measure and meter a stimulated electromagnetic wave having a specific wavelength or a blue light after irradiation; a database unit area configured to receive the data, which is converted from the value read by the reading unit area, for storage; and a calibration unit area configured to make the dose value data of the optically stimulated luminescence dosimeter after read return to zero, to read the remaining background value after zeroing and store it in the database unit area, and to perform an automatic correction operation. Accordingly, through the detection procedure performed by the reading unit area, the database unit area, and the calibration unit area of the radiation dosimeter reading apparatus for carrying out the reading, the purpose of correctly evaluating the dose value can be achieved.

Description

Photoexcitation radiation dosimeter reading device system

The present invention relates to a radiation dosimeter reading device system, and more particularly to providing a meter reading test for the dose values stored in various types of different types of energy photoexcitation light dosimeters to achieve a correct evaluation of the dose. Numerical radiometer reading device.

According to radiation, radiation refers to the transmission of energy in the form of waves or sub-atomic particles. The energy of radiation radiates linearly from all directions of the radiation source. Generally, it can be classified into ionizing radiation according to its energy level and the ability of ionized substances. Non-ionizing radiation; the term is generally used for ionizing radiation. Ionizing radiation has enough energy to ionize atoms or molecules. Non-ionizing radiation is no. Radiation active substances are substances that emit ionizing radiation. Due to the serious damage caused by the Japanese tsunami caused by the serious damage of the Japanese nuclear power plant, the radiation leakage particles are all invisible particles such as α, β, γ, etc., such invisible particles are difficult to see, contact with excessive radiation The amount will cause harm to the human body. Exceeding a certain amount may even cause immediate danger to life; to detect such invisible radiation particles, the person engaged in the free radiation operation should be equipped with an optical Stimulated Luminescence Dosimeter (Optical Stimulated Luminescence Dosimeter, The electronic human external exposure dosimeter (OSLD) or the passive thermal luminescence dosimeter (TLD) performs timely measurement and warning of the external dose, strong wear and superficial dose (dose rate), and covers medical treatment. And non-medical free radiation protection range.

However, as far as the above is concerned, reusable photoexcited light dose dosimeters (OSLDs) or passive thermoluminescent dosimeters (TLDs) are the most popular external exposure radiation dosimeters for those engaged in free radiation operations, although It is easy to use, but it must be sent to a dedicated computer for interpretation after a period of time. However, in the face of increasingly stringent regulations on free radiation protection and social requirements, it has the following problems:

1. The dosimeter reading and offline processing, the reading machine increases the error, and the accuracy adjustment control program is cumbersome. After reading one time, the data is completely destroyed, and it is impossible to review, and it is difficult to win the trust.

2, can not solve the different problems in the computer database information of different reading machines, so that operators can not synchronize work in different work places or even abroad.

The present invention provides a radiation dosimeter reading device system which is a radiometer reading device for reading a dose value stored in a photoexcited light radiation dosimeter, the radiometer reading device comprising a meter reading unit zone; a database unit area at the meter reading unit area; and a zeroing correction unit area coupled to the database unit area and the counting unit section; wherein: the radio reading unit of the radiometer reading device For reading and storing the dose value data in the photoexcitation light dose dosimeter, and performing excitation irradiation on the photoexcitation light radiation dosimeter and another specific wavelength range of electromagnetic wave or blue light after excitation The reading is performed, and the measured value is converted and the residual background value is subtracted and transmitted to the database unit area; and the data unit unit is converted into the data recorded by the reading unit area. Passed to the cloud where the photoexcitation light is stored and externally stored; at this time, the zero correction unit area is based on the dose data read in the photoexcited light dose meter Tempering zero, the meter reading data to zero after tempering the excitation light remains in the background value stored in the dosimeter to light radiation The library unit area and the automatic calibration operation; wherein the reading unit area of the radiometer reading device further comprises a reading module for reading and storing the dose value data in the photoexcitation light radiation dosimeter; The module is coupled to the reading module, and the excitation module is configured to perform an excitation illumination operation on the photoexcited optical radiation dosimeter; a measurement module is coupled to the excitation module, The measuring module is configured to receive and measure the electromagnetic wave or blue light of another specific wavelength range after the photoexcited optical radiation dosimeter is excited by the excitation module; a conversion module is Coupled in the measurement module, the conversion module is configured to perform numerical conversion of the electromagnetic wave or blue light excited by the measuring module to the other wavelength range excited by the photoexcited light radiation dosimeter; and a deduction module is coupled to the conversion module, and the deduction module is configured to use the background value of the photoexcited light radiation dosimeter after tempering and returning to zero after reading the data last time. Calculated deduction of the radiation measurement value read today And transmitting to the database unit area; wherein the reading module is a radio frequency identification reader for reading a two-dimensional barcode serial number or reading and storing a radio frequency identification (RFID) chip card serial number and data ( RFID Reader); wherein the excitation module is any one of a green light source or a laser light of a specific wavelength range, and the light emitted by the green light or the laser light of a specific wavelength range penetrates the radiation dose of the light excitation light An electromagnetic wave or blue light of another specific wavelength range is emitted after the excitation irradiation; wherein the measurement module is a photomultiplier tube (PMT); wherein the conversion module is used to excite the photoexcitation light dose meter a corresponding wavelength range of electromagnetic waves or blue light is converted into a corresponding software corresponding to the radiation measurement value; wherein the database unit area further comprises a storage module, and the storage module is configured to receive the subtraction module to excite the light The background value and current of the optical radiation dosimeter after tempering and returning to zero after the last reading of the data The radiation measurement value read today is used to calculate the radiation measurement value data obtained after the deduction operation; and a transmission module for receiving the deduction module for the photoexcitation light radiation dosimeter on the After reading the data, the background value remaining after the tempering return to zero operation and the radiation measurement value read today are calculated and the radiation measurement data obtained after the deduction operation is transmitted to the photoexcitation radiation dosimeter. Storage and foreign cloud storage; wherein the zero correction unit area further includes a return-to-zero module for using the radiation measurement data read in the photoexcited optical radiation dosimeter Performing high-brightness white light tempering and zeroing operation; and a calibration module coupled to the zeroing module for automatically adjusting and calibrating the brightness of the excitation module of the meter reading unit area The operation; wherein the zeroing module performs tempering and zeroing operation on the photoexcited optical radiation dosimeter, at this time, the radiation measurement value data in the photoexcitation optical radiation dosimeter remains after tempering and returning to zero operation Background value, and then through the meter The excitation module and the measurement module of the unit area perform the measurement reading operation on the background value remaining in the photoexcited light radiation dosimeter and transmit the background value data to the database unit area for storage as the next time. The basis of the reading and subtraction; wherein the calibration module has an adjustable electromagnetic wave or blue light of another specific wavelength range and a corresponding filter.

1. The main purpose of this creation is to provide a radiometric reading of the dose values stored in various types of energy-exciting light-emitting radiation dosimeters to achieve a correct evaluation of the dose values. device.

2. The secondary purpose of this creation is to provide a kind of work place for the operator to work in different places. A radiometer reading device that can simultaneously read its data operations even at a foreign country.

1. The radiation meter reading device system of the present invention comprises a meter reading unit area; a database unit area coupled to the meter reading unit area; and a coupling to the database a unit area and a zeroing correction unit area of the meter reading unit section; wherein: the reading unit of the radiometer reading device is configured to read and store the dose value data in the photoexcitation light dose dosimeter, and Performing excitation irradiation on the photoexcited light radiation dosimeter and measuring the electromagnetic wave or blue light in another specific wavelength range after excitation, and performing value conversion and subtracting the residual background value after the reading and reading Passing to the database unit area; and the data unit unit area transmits the converted data of the reading value of the reading unit area to the cloud where the photoexcitation light radiation dosimeter is stored and stored in an external cloud; The zeroing correction unit area sequentially tempering and returning the dose value data read in the photoexcited light radiation dosimeter, and remaining in the photoexcitation light dose dosimeter after reading and tempering back to zero of The background value is stored in the database unit area and the automatic calibration operation; thereby providing a reading of the dose values stored in the various types of energy-exciting photo-irradiation dosimeters via the radiometer reading device The test procedures such as the unit area, the database unit area, and the zeroing correction unit area are read to achieve the purpose of correctly evaluating the dose value.

2. The radiation meter reading device system of the present invention comprises a meter reading unit area; a database unit area coupled to the meter reading unit area; and a coupling to the database a unit area and a zero-correction unit area of the meter reading unit section; wherein: the radio reading unit of the radiometer reading device is configured to read and store the photo-excitation radiation dose The dose data in the meter, and the excitation light of the photoexcitation light dose meter and the electromagnetic wave or blue light of another specific wavelength range after the excitation is performed, and the measured value is calculated. Converting and deducting the residual background value action and transmitting it to the database unit area; and the database unit area transmitting the converted data of the reading unit area to the photoexcited light radiation dosimeter for storage and extraterrestrial The cloud is stored at the cloud; at this time, the zero-correction unit area sequentially tempers the zero-value data read in the photo-excited light-radiating dosimeter, and remains after being read and tempered to zero. The background value in the photoexcited light radiation dosimeter is stored in the database unit area and the automatic calibration operation; thereby, the data converted from the reading value of the reading unit area is transmitted to the data unit unit The photoexcited light radiation dosimeter is stored and stored in an external cloud, thereby providing the operator with the ability to simultaneously read the data at different work locations and even abroad.

This creation:

1‧‧‧radiometer reading equipment

11‧‧‧Reading unit area

111‧‧‧Reading module

112‧‧‧Excitation module

113‧‧‧Measurement module

114‧‧‧Transition module

115‧‧‧Deduction module

12‧‧‧Database unit area

121‧‧‧Storage module

122‧‧‧Transmission module

13‧‧‧Return to zero correction unit area

131‧‧‧Return to zero module

132‧‧‧ calibration module

1321‧‧‧Another specific wavelength range of electromagnetic or blue light

1322‧‧‧Corresponding filter

2‧‧‧Photoexcitation radiation dosimeter

3‧‧‧Cloud

Figure 1 is a block diagram of the present invention.

Figure 2 is a block diagram showing the preferred implementation state of the present radiological reading device.

Figure 3 is a flow chart showing the operational steps of the implementation state of the present creation.

First, please refer to Figure 1 to Figure 2, which is the "radiation reading device system" of this creation; this creation is applied to the reading of the radiation value stored in the external photoexcitation light dosimeter 2 The radiology reading device 1 includes a meter reading unit area 11; a database unit area 12 coupled to the meter reading unit area 11; and a coupling to the capital A zeroing correction unit area 13 between the library unit area 12 and the meter reading unit area 11; wherein: a meter reading unit area 11 includes a reading module 111, the reading module 111 is for reading And storing the dose data in the photoexcitation light dose meter 2; an excitation module 112 is coupled to the reading module 111, and the excitation module 112 is configured to irradiate the light to the light. The measurement module 113 is coupled to the excitation module 112, and the measurement module 113 is configured to illuminate the photoexcitation light dose meter 2 by the excitation module 112. And receiving and measuring the reading operation of the electromagnetic wave or the blue light in another specific wavelength range after the excitation; a conversion module 114 is coupled to the measurement module 113, and the conversion module 114 is configured to The measurement module 113 is configured to read the electromagnetic wave or blue light of another specific wavelength range excited by the photoexcited light radiation dosimeter 2 for numerical conversion; and a subtraction module 115 is coupled to the conversion module 114, The subtraction module 115 is configured to return the photoexcitation light dose meter 2 after reading the data last time. The background value remaining after the fire return operation is calculated and deducted from the current measured radiation measurement value, and transmitted to the database unit area 12; a database unit area 12 is coupled to the reading unit The deduction module 115 of the area 11; the database unit area 12 includes a storage module 121 for receiving the deduction module 115 for the photo-excited light radiation dosimeter 2 last read After the data is taken, the background value remaining after the tempering return to zero operation and the radiation measurement value read today are used to calculate the radiation measurement value data obtained after the deduction operation; and a transmission module 122, the transmission module 122 The system is configured to receive the subtraction module 115, and calculate the deduction action of the background value remaining after the tempering and zeroing operation of the photoexcitation light radiation dosimeter 2 after reading the data last time and the radiation measurement value read today. The obtained radiation measurement data is transmitted to the radiation dose of the photoexcitation light The storage and the external cloud 3 are stored; and the zeroing correction unit area 13 is coupled between the database unit area 12 and the meter reading unit area 11; the zeroing correction unit area 13 includes a The zeroing module 131 is configured to perform high-brightness white light tempering resetting operation on the radiation measurement value data read in the photoexcited light radiation dosimeter 2; and a calibration module The calibration module 132 is configured to perform an automatic brightness adjustment and calibration operation on the excitation module 112 of the reading unit area 11; wherein the correction module 132 has Another adjustable wavelength range of electromagnetic or blue light 1321 and a corresponding filter 1322 are formed. Furthermore, please refer to Figure 3, and in conjunction with Figure 1, this is a further description of the creation of the "radiation reading device system"; this creation is used to read external photoexcitation radiation dosimeters The radiometer reading device 1 of the dose value stored in the second reading unit 1 includes a meter reading unit area 11; a database unit area 12 coupled to the meter reading unit area 11; And a zeroing correction unit area 13 between the database unit area 12 and the meter reading unit area 11; the reading unit area 11 of the radiometer reading device 1 is used for reading and storing the photoexcitation light radiation The dose data in the dosimeter 2, and the excitation light irradiation dose 2 is subjected to excitation irradiation and the electromagnetic wave or blue light of another specific wavelength range after excitation is read, and the reading amount is read. The measured value is subjected to numerical conversion and the residual background value is deducted and transmitted to the database unit area 12; and the data unit unit area 12 transmits the data converted by the reading value of the reading unit area 11 to the optical excitation light. Radiation dosimeter 2 storage and foreign cloud storage ; At this time, the zeroing means 13 to the region of excitation light irradiation dose in the dose counter has been read in two The value data is sequentially tempered to zero, and the background value remaining in the photoexcitation light doping meter 2 after the tempering is reset to zero is stored in the database unit area 12 and the automatic calibration operation; thereby providing The dose values stored in the various types of energy-exciting photo-irradiation dosimeters 2 are passed through the reading unit area 11, the database unit area 12, and the zero-correcting unit area 13 of the radiometer reading device 1. The test program performs the reading to achieve the purpose of correctly evaluating the dose value; and further, the data converted from the reading value of the reading unit area 11 is transmitted to the photoexcitation radiation dose through the database unit area 12. The storage and external cloud storage in 2 places, which provides the purpose of the operator to simultaneously read the data at different work places and even abroad; and the radiological reading device 1 of the present system reads the external light. The dose value stored in the excitation light radiation dosimeter 2; the operation flow steps are as follows: Step S1: Radio Frequency Identification (RFID) wafer reading; reading of the reading unit area 11 by the radiometer reading device 1 Module 111 The photoexcitation light dose meter 2 performs reading and storing the dose data data in the photoexcitation light dose meter 2; wherein the reading module 111 is used to read the two-dimensional barcode serial number or read and store Radio frequency identification (RFID) chip card serial number and data radio frequency identification reader (RFID Reader); if the reading module 111 fails to read the radio frequency identification (RFID) chip in the photoexcitation light radiation dosimeter 2 , automatically changing and reading the two-dimensional barcode serial number in the photoexcitation light radiation dosimeter 2; thereby, instead of using only the two-dimensional barcode sticker, only the serial number can be read, the problem cannot be stored; and the two-dimensional barcode sticker is lost. Defective, defaced or counterfeit; Step S2: Radio Frequency Identification (RFID) reads the last background value; reads the last read agent The numerical data remaining after the tempering and returning to zero operation; step S3: photoexcitation light PMT reading; when the reading module 111 reads the dose value data in the photoexcited light radiation dosimeter 2 After the storage and storage, the excitation module 112 is used to perform an excitation illumination operation on the photoexcitation light dose meter 2; wherein the excitation module 112 is any one of a specific wavelength range of green light or laser light, through a specific The light emitted by the green light or the laser light of the wavelength range penetrates the excitation light of the photo-irradiation dosimeter 2 to emit electromagnetic waves or blue light of another specific wavelength range; and the light is measured by the measuring module 113. The excitation light radiation dosimeter 2 receives and measures the electromagnetic wave or blue light of another specific wavelength range after being excited by the excitation module 112; wherein the measurement module 113 is a photomultiplier tube (PMT) And converting, by the conversion module 114, the measurement module 113 to perform a numerical conversion of another specific wavelength range of electromagnetic waves or blue light excited by the photoexcitation optical radiation dosimeter 2; wherein the conversion module 114 is Used to The corresponding optical fiber or blue light excited by the excitation light radiation dosimeter 2 is converted into a corresponding software corresponding to the radiation measurement value; Step S4: deducting the previous background value; using the subtraction module 115 to excite the light The optical radiation dosimeter 2 calculates and subtracts the background value and the radiation measurement value converted after the gynecological return value data of the last read dose value data, and calculates and subtracts the calculated The radiation measurement value is transmitted to the database unit area 12; Step S5: is stored in a computer and a radio frequency identification (RFID) chip card; and the deduction module 115 is received by the storage module 121 of the database unit area 12. The radiation measurement value data obtained by calculating the subtracted background value of the dose value data read by the photoexcitation light radiation dosimeter 2 after the tempering return to zero operation; and the transmission of the database unit area 12 Module 1 The receiving the deduction module 115 transmits the radiation measurement data obtained by calculating the subtracted background value of the dose value data read by the photoexcitation light radiation dosimeter 2 after the tempering and returning operation The photoexcited light radiation dosimeter 2 stores and stores in the external cloud 3; step S6: tempering to zero; using the zeroing module 131 of the zeroing correction unit area 13 for the photoexcited light radiation dosimeter 2 The radiation measurement data read inside is subjected to high-brightness white light tempering return to zero operation; the built-in high-brightness white light tempering return-to-zero module 131 can be tempered to zero immediately after each reading, Offline return to zero; step S7: photoexcitation light PMT reading background value; the zeroing module 131 tempering the photoexcitation light dosimeter 2, at this time, the photoexcitation radiation dose The background value of the radiation measurement value data in the meter 2 after the tempering return to zero operation, and then the excitation module 112 and the measurement module 113 of the meter reading unit area 11 2 residual background values for the measurement reading operation; step S8: background value storage In the computer and the radio frequency identification (RFID) chip card, the excitation module 112 and the measurement module 113 of the meter reading unit area 11 perform the measurement reading operation on the background value remaining in the photoexcited light radiation dosimeter 2 Afterwards, the data is transferred to the database unit area 12 for background value data storage, as the basis for the next reading and subtraction; step S9: automatic correction; when the photo-excited light radiation dosimeter 2 remains, the background value is stored in After the computer and the radio frequency identification (RFID) chip card are used, the calibration module 132 of the zero correction unit area 13 is used to automatically adjust and adjust the brightness of the excitation module 112 of the reading unit area 11; wherein the calibration module The 132 series has an adjustable electromagnetic wave or blue light 1321 and a corresponding filter 1322 of another specific wavelength range; Another specific wavelength range electromagnetic wave or blue light lamp 1321 and the corresponding filter 1322 can automatically adjust the brightness to instantly calibrate the PMT photomultiplier tube of the measuring module 113, instead of using multiple calibration pieces, manual replacement and consumption are required. Time problem; by the above operation flow step, the reading value of the dose value stored in the photoexcitation light radiation dosimeter 2 is completed, so as to achieve the purpose of correctly evaluating the dose value. In summary, a radiation dosimeter reading device system has not been seen in various books or publicly used. It is in line with the requirements of patent applications, and it is requested to express the patents as soon as possible. To be clear, the above is the specific embodiment of the creation and the technical principles applied. If the changes made according to the concept of this creation, the functional role produced by it does not exceed the spirit of the manual and the drawings. At the time, it should be combined with Chen Ming within the scope of this creation.

1‧‧‧radiometer reading equipment

11‧‧‧Reading unit area

111‧‧‧Reading module

112‧‧‧Excitation module

113‧‧‧Measurement module

114‧‧‧Transition module

115‧‧‧Deduction module

12‧‧‧Database unit area

121‧‧‧Storage module

122‧‧‧Transmission module

13‧‧‧Return to zero correction unit area

131‧‧‧Return to zero module

132‧‧‧ calibration module

1321‧‧‧Another specific wavelength range of electromagnetic or blue light

1322‧‧‧Corresponding filter

2‧‧‧Photoexcitation radiation dosimeter (seal)

3‧‧‧Cloud

Claims (10)

A radiation dosimeter reading device system is applied to a radiometer reading device for reading a dose value stored in a photoexcited light radiation dosimeter, the radiometer reading device comprising a meter reading unit zone; a coupling to the meter Reading a database unit area at the unit area; and a zeroing correction unit area coupled to the database unit area and the counting unit section; wherein the radiology reading unit of the radiometer reading device is used for Reading and storing the dose value data in the photoexcitation light dose dosimeter, and performing excitation irradiation on the photoexcitation light radiation dosimeter and measuring the electromagnetic wave or blue light in another specific wavelength range after excitation Passing the post-reading measured value to the value conversion and subtracting the residual background value action and transmitting it to the database unit area; and the data bank unit area transmitting the data converted by the reading value of the reading unit area to the The photoexcited light radiation dosimeter is stored and stored in an external cloud; at this time, the zero correction unit area sequentially returns the dose value data read in the photoexcited light radiation dosimeter. Zero, the meter reading remains after tempering zero background value to the excitation light within the light radiation dosimeter saved to the database cell region and automatic calibration operation. The radiation dosimeter reading device system of claim 1, wherein the radio reading unit of the radiometer reading device further comprises a reading module for reading and storing the dose in the photoexcitation light dosimeter Numerical data operation; an excitation module is coupled to the reading module, wherein the excitation module is configured to perform an excitation illumination operation on the photoexcited optical radiation dosimeter; a measurement module is coupled to the The excitation module is configured to receive and measure the electromagnetic wave or blue light of another specific wavelength range after the photoexcited optical radiation dosimeter is excited by the excitation module; a conversion module is coupled to the measurement module, and the conversion module is used for the measurement The module is configured to read the electromagnetic wave or blue light of another specific wavelength range by the photoexcited light radiation dosimeter for numerical conversion; and a deduction module is coupled to the conversion module, and the deduction module is used Calculating and deducting the background value remaining after the tempering and zeroing operation after the last reading of the data by the photoexcitation light radiation dosimeter and the radiation measurement value read today, and transmitting to the database unit area At the office. The radiation dosimeter reading device system of claim 2, wherein the reading module is configured to read a two-dimensional bar code serial number or to read and store a radio frequency identification (RFID) chip card serial number and data for radio frequency identification reading. (RFID Reader). The radiation dosimeter reading device system according to claim 2, wherein the excitation module is any one of a specific wavelength range of green light or laser light, which is emitted through a specific wavelength range of green light or laser light. Light passes through the photoexcited light radiation dosimeter for excitation illumination to emit electromagnetic waves or blue light of another specific wavelength range. The radiation dosimeter reading device system of claim 2, wherein the measuring module is a photomultiplier tube (PMT) corresponding to a specific wavelength filter. The radiation dosimeter reading device system of claim 2, wherein the conversion module is configured to convert the electromagnetic wave or blue light of another specific wavelength range excited by the photoexcited light radiation dosimeter into a corresponding radiation measurement value. Corresponding software. The radiation dosimeter reading device system of claim 2, wherein the database unit area further comprises a storage module, wherein the storage module is configured to receive the subtraction module for the photoexcited light radiation dosimeter last time After reading the data, the background value remaining after the tempering return to zero operation and the radiation measurement value read today are calculated by subtracting the radiation measurement data obtained after the operation; and a transmitting module, the transmitting module is Receiving the subtraction module for the photoexcitation light radiation dosimeter last read After the data is taken, the background value remaining after the tempering and zeroing operation is calculated and the radiation measurement value obtained after the calculation is performed, and the radiation measurement data obtained after the deduction operation is transmitted to the photoexcitation light radiation dosimeter for storage and Foreign clouds are stored. The radiation dosimeter reading device system of claim 1, wherein the return-to-zero correction unit region further comprises a return-to-zero module for reading the photoexcited optical radiation dosimeter The radiation measurement data is subjected to a high-brightness white light tempering return operation; and a correction module is coupled to the zero return module, wherein the correction module is used for the excitation module of the meter reading unit area Perform an automatic adjustment calibration of its brightness. The radiation dosimeter reading device system according to claim 8, wherein the resetting module performs tempering and zeroing operation on the photoexcited optical radiation dosimeter, and at this time, the photoexcited light radiates radiation in the dosimeter The background value remaining after the tempering data is returned to the zero, and then the background value of the photoexcited optical radiation dosimeter is measured by the excitation module and the measurement module of the reading unit The job is read and transferred to the database unit area for background value data storage, as the basis for the next reading deduction. The radiation dosimeter reading device system of claim 8, wherein the calibration module has an adjustable electromagnetic wave or blue light of another specific wavelength range and a corresponding filter.