KR101223227B1 - An apparatus managing an amount of radiation for a nondestructive inspection apparatus - Google Patents

Abstract

PURPOSE: A device for managing a level of radiation for a radiation non-destructive tester is provided to confirm the number of radiation sources by recognizing an electronic tag attached to the radiation sources. CONSTITUTION: An electronic tag is attached to a radiation source. A first electronic tag reader(142) reads ID information and irradiation quantity information from the electronic tag according to the approach of the radiation source in order to record the same as radiation source exposure information corresponding to a exposure data/time of the radiation source. A second electronic tag reader is installed at an end of a guide tube(120) and records the radiation source exposure information by reading the ID information and the irradiation quantity information from the electronic tag according to the approach of the radiation source. A first information transmitting unit(144) and a second information transmitting unit periodically transmit the radiation source exposure information, the ID information, and the irradiation quantity information. [Reference numerals] (142) First electronic tag reader; (144) First information transmitting unit; (160) Manager terminal; (AA) Radiation exposure

Description

An apparatus managing an amount of radiation for a nondestructive inspection apparatus}

The present invention relates to a technology for the management of a radiation non-destructive tester for performing a non-destructive test on a target object, and more specifically, to detect the exposure of the radiation source provided in the non-destructive tester to the outside using an electronic tag and The present invention relates to a technology for transmitting to a manager terminal.

In general, nondestructive testing of the object to be inspected is carried out using a radiation nondestructive tester. Since the operator grasps the end of the guide tube of the radiation non-destructive tester and adjusts the position of the radiation source to perform the non-destructive test on the object to be inspected, the worker is easily exposed to radiation.

However, when the radiation source is separated from the control wire that controls the movement of the radiation source in the guide tube, the radiation source may not be recovered into the radiation non-destructive tester. Therefore, there is a problem that the worker may be exposed to radiation when the operator does not recognize that the radiation source is separated from the control wire and present in the guide tube.

In addition, a plurality of non-destructive testers may be used to perform non-destructive testing of one or more inspection objects, and conventionally, it is not possible to measure the amount of individual radiation irradiated from each of the non-destructive testers. I can't figure out exactly how much.

The problem to be solved by the present invention, to be able to recognize the electronic tag attached to the radiation source by using each ID information in the electronic tag reader, through this information on whether the radiation source is exposed to the outside to the administrator terminal A radiation dose management device for a radiation non-destructive tester for transmitting.

In order to solve the above problems, the radiation dose management apparatus for a non-destructive testing machine according to the present invention is attached to a radiation source provided in the non-destructive testing machine, an electronic tag that stores the irradiation dose information and ID information of the radiation source ; It is mounted on the film cassette is exposed to the radiation from the radiation source, the radiation dose information and the ID information is read from the electronic tag in accordance with the access of the radiation source, and the reading date and time of the electronic tag to the radiation source A first electronic tag reader unit for recording as exposure information of a radiation source corresponding to the exposure date and time of the first exposure tag; And a first information transmitter configured to periodically transmit the irradiation dose information, the ID information, and the radiation source exposure information.

The electronic tag further includes a manufacturing date of the radiation source and product related information of the radiation source, in addition to the irradiation dose information and the ID information.

The first information transmitter includes a wireless communication module for wirelessly transmitting the irradiation dose information, the ID information, and the radiation source exposure information, and includes Bluetooth, Wi-Fi, Zigbee, WiBro, and ultra-wideband for short range wireless communication. UWB) is characterized in that to support a short-range wireless communication environment.

The radiation dose management apparatus for the radiation non-destructive inspection device uses the irradiation dose information, the ID information, and the radiation source exposure information periodically transmitted from the first information transmitter to accumulate radiation dose information of radiation corresponding to the radiation source. Characterized in that it further comprises a manager terminal unit for calculating and outputting.

The radiation dose management device for the radiation non-destructive inspection device is mounted at the end of the guide tube for guiding the radiation source, and reads the irradiation dose information and the ID information from the electronic tag in accordance with the approach of the radiation source, and the radiation source A second electronic tag reader unit for recording exposure information; And a second information transmitter configured to periodically transmit the irradiation dose information, the ID information, and the radiation source exposure information.

According to the present invention, since the electronic tag attached to the radiation source can be recognized using the ID information in the electronic tag reader, it is confirmed whether the radiation source is recovered from the radiation non-destructive tester because it is separated from the control wire and is present in the guide tube. Can be.

In addition, in an environment using multiple non-destructive testers, since the radiation dose and the cumulative radiation dose irradiated from the radiation sources of the non-destructive testers can be individually checked, the radiation exposure dose can be accurately calculated for each worker.

1 is a reference view of an embodiment for explaining a radiation dose management device for a radiation non-destructive tester according to the present invention.
2 is a reference view of an embodiment for explaining an electronic tag attached to a radiation source.
3 is a reference view showing in detail the portion corresponding to the identification number 200 of FIG.

Hereinafter, a radiation dose management apparatus for a non-destructive inspection device according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a reference view of an embodiment for explaining a radiation dose management apparatus for a non-destructive tester according to the present invention, a control wire 100, a radiation non-destructive tester 110, a guide tube 120, a radiation source 130 The first electronic tag reader unit 142, the information transmitting unit 144, and the manager terminal unit 160 are included.

The control wire 100 is connected to the radiation source 130, the radiation source 130 provided in the radiation non-destructive tester 110 is guide tube 130 along the guide tube 120 for the non-destructive inspection of the inspection object Control means that can be adjusted to be located at the end of the.

The radiation nondestructive tester 110 includes a radiation source storage unit made of a radiation shielding material such as uranium, and stores the radiation source 130 in the radiation source storage unit. The radiation nondestructive tester 110 is coupled to the control wire 100 and the guide tube 120, respectively, and moves the radiation source 130 into the guide tube 120 under the control of the control wire 100.

The radiation source 130 is a component that irradiates radiation to perform a non-destructive inspection on the object to be inspected. In the present invention, an electronic tag including ID information of the radiation source is attached to one end of the radiation.

2 is a reference view of an embodiment for explaining an electronic tag attached to a radiation source. As shown in FIG. 2, an electronic tag 132 is attached to the end of the radiation source 130. The information stored in the electronic tag 132, that is, the RFID (Radio Frequency Identification), stores the irradiation dose information of the radiation source, the ID of the radiation source, the manufacturing date of the radiation source, and the product related information of the radiation source. The electronic tag is attached at the time of manufacture of the radiation source. Irradiation dose information means the amount of radiation irradiated during a unit time.

The first electronic tag reader 142 and the information transmitter 144 are mounted to the film cassette 140. The film cassette 140 contains a film that is exposed to radiation by the radiation source 130. The film cassette 140 is adjacent to the end of the guide tube 120.

The first electronic tag reader 142 reads the information of the electronic tag 132 attached to the radiation source 130 according to the approach of the radiation source 130. When the radiation source 130 moving along the guide tube 120 contacts the end of the guide tube 120, the first electronic tag reader 142 may radiate the radiation source from the electronic tag 132 attached to the radiation source 130. Read radiation dose information, ID information of radiation source. In addition, the first electronic tag reader 142 records the date and time of reading the information from the electronic tag 132. The date and time of reading the information from the electronic tag 132 means that the radiation source 130 came out of the radiation non-destructive tester 110 and exposed the guide tube 120 on. Therefore, the first electronic tag reader 142 records the date and time of reading the information of the electronic tag as the radiation source exposure information corresponding to the exposure date and the exposure time of the radiation source.

The first electronic tag reader 142 outputs the radiation dose information of the radiation source, ID information of the radiation source, and radiation source exposure information corresponding to the exposure date and exposure time of the radiation source to the first information transmission unit 144.

The first information transmitter 144 periodically transmits the irradiation dose information of the radiation source, the ID information of the radiation source, and the radiation source exposure information provided from the first electronic tag reader 142 to the manager terminal 160. The first information transmitter 144 forms a wired and / or wireless network with the manager terminal 160 to transmit irradiation dose information, ID information, and radiation source exposure information to the manager terminal 160. In particular, in order to transmit information by a wireless network, the first information transmitter 144 is provided with a wireless communication module, for short-range wireless communication, such as Bluetooth, Wi-Fi, Zigbee, WiBro, Ultra Wide Band (UWB), etc. Support wireless communication environment.

The first information transmitter 144 periodically transmits the irradiation dose information, the ID information, and the radiation source exposure information, where the transmission period may be determined according to the operator's setting. For example, 10 [sec], 1 [ Minutes], 5 [minutes], 10 [minutes], 1 [hours], etc., and transmits information at set intervals according to the needs of the operator.

The manager terminal 160 calculates and outputs the accumulated dissipation dose information for the radiation source by using the irradiation dose information of the radiation source, the ID information of the radiation source, and the radiation source exposure information periodically transmitted from the first information transmitter 144. The manager terminal 160 forms a wired and / or wireless network with the first information transmitter 144. In particular, for the short range wireless communication, the manager terminal 160 may include Bluetooth, Wi-Fi, ZigBee, WiBro, and UWB. It supports short range wireless communication environment.

When the irradiation dose information, ID information, and radiation source exposure information about the radiation source are periodically received from the first information transmitter 144, the information is stored. Subsequently, the manager terminal 160 refers to the transmitted ID information, and transmits the exposure source exposure information corresponding to the previously transmitted same ID information, that is, the exposure date and time of the radiation source and the exposure date of the current radiation source and The exposure time of the radiation source is calculated from the difference with the time information. Thereafter, the manager terminal 160 calculates cumulative radiation dose information by the radiation source using the exposure time of the radiation source and the irradiation dose information of the radiation source.

The manager terminal 160 outputs the calculated cumulative radiation amount information on the display screen or outputs a warning signal.

Meanwhile, in the present invention, in addition to the first electronic tag reader 142 and the first information transmitter 144, a second electronic tag reader and a second information transmitter may be additionally provided.

3 is a reference view showing in detail the portion corresponding to the identification number 200 of FIG. 1, the second electronic tag reader unit 150 and the second information transmission provided in the collimator 134 at the end of the guide tube 120. This is for explaining the section 152.

The second electronic tag reader unit 150 is mounted to the collimator 134 connected to the end of the guide tube 120 for guiding the radiation source 130, and in accordance with the approach of the radiation source 130, the radiation source 130 The irradiation dose information and ID information of the radiation source are read from the electronic tag 132 attached to the tag. In addition, the second electronic tag reader unit 150 records the date and time of reading the information from the electronic tag 132 as the radiation source exposure information corresponding to the exposure date and the exposure time of the radiation source.

The second electronic tag reader unit 152 outputs the irradiation dose information of the radiation source, ID information of the radiation source, and radiation source exposure information to the second information transmission unit 152.

The second information transmitter 152 periodically transmits the irradiation dose information of the radiation source, the ID information of the radiation source, and the radiation source exposure information provided from the second electronic tag reader 150 to the manager terminal 160. The second information transmitter 152 forms a wired and / or wireless network with the manager terminal 160 to transmit irradiation dose information, ID information, and radiation source exposure information to the manager terminal 160. In particular, in order to transmit information by a wireless network, the second information transmitter 152 is provided with a wireless communication module, for short-range wireless communication, such as Bluetooth, Wi-Fi, Zigbee, WiBro, Ultra Wideband (UWB), etc. Support wireless communication environment.

The second information transmitter 152 periodically transmits irradiation dose information, ID information, and radiation source exposure information, where the transmission period may be determined according to the operator's setting.

Accordingly, the manager terminal 160 uses the irradiation dose information, the radiation source ID information, and the radiation source exposure information of the radiation source periodically transmitted from the first information transmission unit 144 and / or the second information transmission unit 152. Compute and output cumulative dissipation dose information for the radiation source.

The radiation dose management apparatus for the radiation non-destructive tester of the present invention has been described with reference to the embodiment shown in the drawings for clarity, but this is merely illustrative, and those skilled in the art can various modifications and It will be appreciated that other equivalent embodiments are possible. Accordingly, the true scope of the present invention should be determined by the appended claims.

100: control wire
110: radiation nondestructive tester
120: guide tube
130: radiation source
132: electronic tags
134: collimator
140: film cassette
142: first electronic tag reader
144: first information transmission unit
150: second electronic tag reader unit
152: second information transmission unit
160: manager terminal

Claims (5)

An electronic tag attached to a radiation source provided in the radiation non-destructive tester and storing irradiation dose information and ID information of the radiation source;
It is mounted on the film cassette is exposed to the radiation from the radiation source, the radiation dose information and the ID information is read from the electronic tag in accordance with the access of the radiation source, and the reading date and time of the electronic tag to the radiation source A first electronic tag reader unit for recording as exposure information of a radiation source corresponding to the exposure date and time of the first exposure tag;
A first information transmitter periodically transmitting the irradiation dose information, the ID information, and the radiation source exposure information;
A second electronic tag reader unit mounted at an end of the guide tube for guiding the radiation source, reading the irradiation dose information and the ID information from the electronic tag according to the approach of the radiation source, and recording the exposure information of the radiation source; And
And a second information transmitter configured to periodically transmit the irradiation dose information, the ID information, and the radiation source exposure information. The method of claim 1,
The electronic tag further includes a manufacturing date of the radiation source and product related information of the radiation source, in addition to the irradiation dose information and the ID information. The method of claim 1, wherein the first information transmission unit
A wireless communication module is provided to wirelessly transmit the irradiation dose information, the ID information, and the radiation source exposure information, and includes a Bluetooth, Wi-Fi, Zigbee, WiBro, and Ultra Wide Band (UWB) for short range wireless communication. Radiation dose management device for a non-destructive radiation detector characterized in that it supports a communication environment. According to claim 1, The radiation dose management device for the radiation non-destructive testing device
And a manager terminal unit configured to calculate and output cumulative radiation dose information of radiation corresponding to the radiation source by using the irradiation dose information, the ID information, and the radiation source exposure information periodically transmitted from the first information transmitter. Radiation dose management device for non-destructive radiation detector characterized in that. delete

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