KR101702977B1 - a portable radioactive ray detector and the radioactive ray detecting system using thereof - Google Patents

Abstract

The present invention relates to a multi-function portable radiation measuring device capable of easily and conveniently monitoring image information, distance information, and the like, which are portable and portable, but which are very light and small in volume, This invention is a technical field related to a radiation measurement system used.
The present invention can be applied to the first radiation measuring unit 100, the second radiation measuring unit 200, the display unit 500, the near distance information communication unit 600, the warning unit 700, the information processing unit 800, (1000) for measuring the radiation dose.
In addition, the present invention provides a multi-function portable type radiation measuring apparatus characterized by the addition of a photographing unit 300 and an ultrasonic distance sensor 400.
The present invention also includes a vibration device 710,
And a sliding selection unit (1100) is provided in the outer case (1000).
The present invention also provides a radiation measurement system, comprising the multifunctional portable radiation measurement device described above, characterized by the provision of a management server.

Description

[0001] The present invention relates to a portable radioactive ray measuring apparatus and a radioactive ray measuring system using the same,

The present invention relates to a multi-function portable radiation measuring device capable of easily and conveniently monitoring image information, distance information, and the like, which are portable and portable, but which are very light and small in volume, This invention is a technical field related to a radiation measurement system used.

Concerns about radioactive contamination due to contamination of living environment or handling of nuclear material due to the leakage of radioactive materials from nuclear facilities such as the accident of Chernobyl nuclear power plant in Soviet Union or the collapse of nuclear power plant due to tsunami in northeast Japan have been serious There is a situation.

In particular, although the above-mentioned radiation pollutants have a serious effect on other countries beyond the borders, the general public is uneasy because they can not know the extent of exposure of radiation pollutants to their living environment. It is necessary to rely solely on them.

Furthermore, the radiation measuring apparatus of the above-mentioned government (especially, the public institute such as the nuclear research institute) is fixed to the radiation measurement points of various places, and the radiation contamination degree of the living environment around the user can not be accurately grasped.

In addition, the above-mentioned radiation dose measuring apparatus of the nuclear research institute has a large volume, a large weight, and a fixed type, which causes remarkable inconvenience when the apparatus is installed and moved.

In addition, the radiation measuring apparatus should be calibrated at the initial point of origin and corrected for the timing and location characteristics of its continuous use, so that accurate measurement values can be obtained. The above-mentioned radiation measuring apparatus is moved to the place of the radiation measuring apparatus And there is a need to perform a procedure of performing the correction.

Recently, a system has been developed for remotely controlling the above-mentioned correction and the like through wired and wireless communication such as the Internet. However, there is still a problem in that it is inconvenient to move according to the volume and size of the radiation measuring equipment, Point selection is a problem that can not be done freely.

In addition, since the conventional portable radiometer has a complicated configuration, it is difficult to accurately measure the radiometer, and when the radiometer is continuously used, errors of the radiation measurement values occur very much. This is due to the lack of an accurate calibration system.

In addition, since the portable radiometer has a complicated structure, it has a problem that the manufacturing cost is considerably high and the economical efficiency is considerably low.

In order to solve the problems and needs of the related art as described above, the inventor of the present invention has disclosed a patent application No. 10-1186132, a portable type radiation detection device, and a radiation detection system using the portable communication device and a detection method thereof I have presented it.

The present invention is directed to the same line as the above-mentioned prior art, and it is intended to provide a radiation measuring apparatus capable of measuring various types of radiation such as surface contamination measurement, radiation dose rate measurement, cumulative dose measurement, and spatial radiation measurement.

Another object of the present invention is to provide a portable radiation measuring apparatus capable of more accurately measuring the degree of radiation contamination by measuring a radiation source and a measuring distance.

In addition, the present invention has a function of storing a pollution source and a contaminated area by adding a camera image function and storing a pollution source, a measurement distance, a measurement value, and a measurement time, Thereby providing a radiation measuring apparatus.

The present invention also provides a radiation measuring apparatus and a radiation measuring system capable of storing and observing a radiation contamination measuring area or a contamination source anytime and anywhere using a wire / wireless communication system.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems,

The first radiation measuring unit 100, the second radiation measuring unit 200, the display unit 500, the near field information communication unit 600, the warning unit 700, the information processing unit 800, And a measuring unit for measuring the radiation dose.

In addition, the present invention provides a multi-function portable type radiation measuring apparatus characterized by the addition of a photographing unit 300 and an ultrasonic distance sensor 400.

The present invention also includes a vibration device 710,

And a sliding selection unit (1100) is provided in the outer case (1000).

The present invention also provides a radiation measurement system, comprising the multifunctional portable radiation measurement device described above, characterized by the provision of a management server.

The present invention can selectively measure X-ray and gamma-ray and alpha-ray and beta-ray, and accordingly, various kinds of radiation such as surface contamination measurement, radiation dose rate measurement, cumulative dose measurement, As shown in Fig.

Further, according to the present invention, the sliding selection unit of the outer case easily performs the measurement of the X-ray and the gamma-ray or the selection of the measurement of the? -Ray and the? -Ray, thereby providing a merit of easy operation even for the novice user.

In addition, since the radiation-contaminated area or object can be photographed through a camera and stored as image information, the present invention has an effect of more accurately monitoring the source of contamination.

In addition, the present invention can measure the distance to a contamination source by attaching an ultrasonic distance sensor, so that the degree of contamination can be more accurately grasped.

Accordingly, the present invention has a function of storing radiation pollution sources and polluted areas, and can store image information of contamination sources, distances to pollution sources, measurement values, measurement times, and the like, .

Further, the present invention can be connected to an on-line server to store and view a radiation contamination measurement area and a pollutant source anytime and anywhere, thereby providing an effect of providing a ubiquitous radiation measuring apparatus and a radiation measuring system.

FIG. 1A is a conceptual view of a tubular radiation sensor used in the radiation measuring unit of the present invention. FIG.
FIG. 1B is a conceptual diagram of a fan cake type tubular radiation sensor used in the radiation measuring unit of the present invention. FIG.
FIG. 1C is a conceptual view of a semiconductor type radiation measuring part used in the radiation measuring part of the present invention. FIG.
FIG. 1D is a conceptual diagram of gamma ray detection in the semiconductor type radiation measuring unit used in the radiation measuring unit of the present invention. FIG.
FIG. 1E is a conceptual view of thermal neutron detection of the semiconductor type radiation measuring unit used in the radiation measuring unit of the present invention. FIG.
2 is a structural view of a portable radiation measuring apparatus according to the present invention.
3 is a front view of an embodiment of a portable radiation measuring apparatus according to the present invention.
4 is a rear view of an embodiment of a portable radiation measuring apparatus according to the present invention.
5 is a view of an embodiment of a portable radiation measuring apparatus according to the present invention.
6 is a conceptual diagram of a radiation measurement system according to the present invention;

Hereinafter, the present invention will be described with reference to the accompanying drawings.

The present invention can be applied to the first radiation measuring unit 100, the second radiation measuring unit 200, the display unit 500, the near distance information communication unit 600, the warning unit 700, the information processing unit 800, (1000) for measuring the radiation dose.

The present invention may also be applied to the first radiation measuring unit 100, the second radiation measuring unit 200, the photographing unit 300, the ultrasonic distance sensor 400, the display unit 500, A portable multi-function measuring device including a device (700), an information processing device (800), and an external case (1000).

The technical feature of the present invention is that it has a function of measuring X-ray and? -Ray and a function of selectively measuring? -Ray and? -Ray.

Therefore, the first radiation measuring unit 100 of the present invention can measure X-rays and? -Rays, and means a device or means having a radiation measuring sensor capable of measuring X-rays and? -Rays. do.

The first radiation measuring unit 100 of the present invention can use a GM-tube type measuring sensor or a semiconductor measuring sensor.

The radiation measuring unit used in the present invention may use various kinds of radiation sensors (gas-filled type (GM Tube, etc.), NaI (TI), CsI (TI), semiconductor type) in consideration of the characteristics of the measurement object.

The first radiation measuring unit in the present invention may be selected from among the radiation sensors described above. Preferably, the first radiation measuring unit may be a gas-filled type, and accordingly, a high voltage generating apparatus and a control unit for controlling the apparatus may be provided.

As shown in FIG. 1A, the gas-filled type detection sensor of the present invention can be used in various types such as an ion chamber type, a proportional counter tube type, and a GM tube type. The measurement tube 10, the anode 11 and the cathode 12 And a gas 13 inside the tube.

A power source 14 for generating potentials of the positive and negative electrodes held in the tube, and a measurement system 15 for sensing a signal of voltage or current.

In this case, the power source means a power supply means, and a normal battery, a battery, or a solar cell can be used.

The measurement system refers to a conventional measurement system for sensing a voltage or a current signal, and may include a conventional RC circuit (or RLC circuit), an electronic circuit, a chip, or the like.

According to the present invention, by filling a measuring tube with a filling gas such as air, He, Ne, Ar and / or methane, isobutane, halogen gas (chlorine, bromine, etc.) There is an effect that it can be variously adopted as a kind of radiation measurement or a sensor for measuring a specific kind of radiation.

Therefore, the measurement tube may have a function of selectively transmitting radiation (X,?,?,?) And a membrane 16 capable of preventing the outflow of gas inside the tube depending on the type of the detection sensor, It is possible to provide a function capable of detecting the position of the object.

The radiation sensor of the present invention can use one or more of the pancake type gas-filled type detection sensor 10 having the same configuration as that shown in FIG. 1A and having a wide membrane 16 as shown in FIG. 1B.

Further, the semiconductor radiation sensor may be used for the first radiation measuring unit.

The semiconductor type radiation sensor is mainly a detector for X-ray and gamma-ray measurement, and includes a MOSFET sensor for detecting cumulative radiation dose, a diode sensor for detecting instantaneous radiation rate, and an instantaneous radiation dose Or a cumulative radiation dose, and the like.

As a semiconductor detector, for example, a composite detector for comparing measured values from the MOSFET sensor and a diode sensor with an instantaneous radiation dose is a p-type metal oxide semiconductor field effect transistor (pMOSFET) ) And a radiation accumulation value corresponding to a threshold voltage (VT, threshold voltage), which is output information of the pMOSFET, a pMOSFET sensor constituted by a differentiator for differentiating the converted radiation dose value and providing an instantaneous radiation rate value, And a diode sensor including a diode for outputting an instantaneous photocurrent by radiation and a converter for converting the radiation rate value into a radiation rate value corresponding to an output current amount of the diode.

The present invention is characterized in that the above-mentioned semiconductor type radiation sensor is composed of a sensor capable of measuring gamma ray / thermal neutron together.

1C to 1D, the present invention includes a pMOSFET sensor 2 including a pMOSFET assembly 64 having an oxide layer pMOSFET chip 63, a pMOSFET assembly 54 having a pMOSFET chip 53 as an oxide layer, And a pMOSFET protection cap 51 formed on the pMOSFET chip 53 and coated with a layer of gadolinium (Gd) 52, which is a nuclear reaction film, and a Gd + pMOSFET sensor 1, A subtracter 3 for subtracting the gamma dose of the pMOSFET sensor 2 from the subtractor 1 and a thermal neutron dose indicator 4 for indicating only the amount of radiation by the thermal neutrons output from the subtracter 3, And a gamma ray dose display system 5 for displaying only the gamma ray dose detected from the gamma ray dose detector 2.

The arrow shown in FIG. 1D indicates the irradiation of the gamma ray, and the gamma ray is sensed by the pMOSFET sensor 2 constituted by the pMOSFET assembly 64 equipped with the pMOSFET chip 63 as the oxidation layer.

1e indicates the irradiation of thermal neutrons and is sensed by the Gd + pMOSFET sensor 1 comprising the pMOSFET protection cap 51 coated with a layer of gadolinium (Gd) 52, which is a nuclear reaction film, The indicated arrow indicates the irradiation of electrons and is detected by the pMOSFET assembly 54 equipped with the pMOSFET chip 53, which is an oxide layer.

As described above, the present invention is advantageous in that it is possible to detect the gamma ray and the thermal neutron source with one radiation measuring unit, thereby eliminating the existing hassle of using each detector

In the present invention, the second radiation measuring unit 200 refers to an apparatus or means for measuring? -Ray and? -Ray.

The second radiation measuring unit preferably uses a GM-tube type measuring sensor capable of measuring? -Ray and? -Ray, and the GM-tube type measuring sensor is as described above.

The technical feature of the present invention is that the radiation measuring device is provided with a photographing unit 300 and has a function of storing an object or region contaminated with radiation as image information.

The conventional radiation measuring apparatus merely determines whether or not the radiation is contaminated. However, the present invention performs a function of storing an object or region contaminated with radiation as image information and managing it as an image.

The photographing unit in the present invention can use a conventional mobile phone-mounted camera.

For example, a 5-megapixel 1/4-inch CMOS image sensor can be used. However, it should be understood that the present invention is not limited thereto.

In addition, the photographing unit of the present invention can embed a flash to perform photographing in a dark place.

In addition, the technical feature of the present invention is that the ultrasonic distance sensor 400 is provided to measure the distance of an object or the like contaminated with radiation to provide distance information.

Conventional radiation measuring devices do not have a function to measure the distance to a radiation source.

Although accurate measurement of the radiation dose can be accurately performed when the distance from the source is known, the conventional radiation dose measuring apparatus has a problem in that the measurement of the radiation dose is not accurate.

The present invention solves the above problems, and it is possible to provide distance information between a radiation source and a radiation measuring instrument using an ultrasonic distance sensor.

The ultrasonic distance sensor of the present invention can measure a distance from several centimeters to tens of meters.

But it is preferable to have a distance range of 5 cm to 5 m, but it is not limited thereto.

The ultrasonic distance sensor according to the present invention means an apparatus or means for measuring the time when an ultrasonic wave is incident on an object, measuring the reflected time, and calculating the ultrasonic wave wavelength and period.

As described above, the ultrasonic distance sensor of the present invention includes an MCU, an electronic circuit, a memory, and the like, and a program for measuring a distance using ultrasonic waves can be mounted.

The present invention includes an information processing apparatus 800, and can input and analyze radiation measurement information measured by the first and second radiation measuring units, image information provided by the photographing unit, distance information provided by the ultrasonic distance sensor, Analysis, and reading of data.

The information processing apparatus of the present invention may be provided with a control unit 810 for controlling the radiation measuring unit, the photographing unit, and the ultrasonic distance sensor.

The above information processing apparatus is equipped with a CPU, a micro controller unit (MCU), a RAM or a ROM, a memory, and the like, and is equipped with an apparatus or means capable of driving software such as a computer program, an application program and the like.

The present invention can be loaded with a program that can convert the above-described radiation measurement information by the above-described information processing apparatus.

Accordingly, the surface contamination measurement, the radiation dose rate, the cumulative dose, and the spatial radiation measurement value with respect to the radiation dose measured by the first radiation measuring unit and the second radiation measuring unit are converted and displayed.

Accordingly, the degree of contamination of the reflected dose is displayed in units of CPS (count per second), CPM (count per minute), Sv / h (rem / hour), and the like so that the user can easily grasp the degree of contamination .

Conversion of the surface contamination measurement to the radiation dose, the radiation dose rate, the cumulative dose, and the spatial radiation measurement value can be implemented by a computation program programmed in the detection information software.

In the present invention, the information processing apparatus may be equipped with the detection information software.

The detection information software described above can perform the processing of analyzing or analyzing the radiation information sent from the radiation measuring unit, including the current radiation measurement, the average radiation measurement by period or the number of measurement, the degree of risk of radiation measurement And performs the function of outputting the contents.

As described above, according to the present invention, it is possible to view the comprehensive radiation measurement information including the photographed image, the measurement distance, the radiation measurement value, the measurement time information, and the like of the radiation measurement object by the above- The effect is created.

In addition, another technical feature of the present invention is that a function capable of setting a mode or the like by the above-described detection information software, that is, a selection of a radiation detection unit and a kind of a radiation detection object can be set.

In addition, the present invention is equipped with a USB terminal 820, and can perform a function of allowing information to flow in or out when connected to another medium by wire.

In addition, the USB terminal has a function of being used as a port for charging the battery.

In addition, the present invention can include a battery and can be driven using an external power source.

In addition, the present invention includes a display unit 500 for displaying the above-mentioned radiation information, image information, distance information, and the like.

As shown in FIG. 3, the display unit is mounted on an outer case of the radiation measuring apparatus and is constituted by a normal screen or a monitor.

Further, the display unit of the present invention is preferably constituted by a depressurizing type or an electrostatic type touch screen so that the apparatus can be driven or controlled by a screen.

Accordingly, the touch pen may be provided to the pressure sensitive touch screen.

The present invention has a technical feature in the outer case 1000 described above.

In the present invention, the outer case functions to protect the above-mentioned components.

As shown in FIG. 4, the sliding selector 1100 is provided on the rear surface of the outer case so that the radiation measuring function can be automatically switched to improve the convenience of use.

The slide selection unit of the outer case has a structure in which the slide moves up and down to select a first radiation measurement unit or a second radiation measurement unit to select and measure the type of radiation.

As mentioned above, the first radiation measuring part performs the function of measuring the X-ray and the γ-ray, and the second radiation measuring part measures the α-ray and the β-ray, So that the user can easily switch by the sliding function unit so that the type can be easily measured.

The present invention is provided with a warning device 700 for generating a warning sound when the radiation sensed by the radiation measuring unit exceeds a reference value.

The warning device may be a device for generating a signal that can be recognized by the user, and may be a device for generating sound such as a speaker or a buzzer.

In addition, the present invention includes a vibration device 710 to perform the function of enabling the warning device to be used in an area where it is difficult to use.

The vibration device can be implemented using a small-sized piezoelectric device or the like.

The present invention converts a warning device such as a speaker or the like into a vibration device to increase the utility of the application.

The present invention can also be constituted by a system in which such information is input to a radiation measuring apparatus by mounting a GPS module on a measurement target area, an altitude, a season, and a time.

The GPS module of the present invention is used as a concept including a module for implementing an LBS (location based service), which is a conventional wireless communication technology.

The present invention includes a short distance information communication unit 600 for transmitting and receiving information, and can perform the function of transmitting or receiving the measurement information and the like.

The local information communication means of the present invention means a device such as a Wifi, a Bluetooth, a Zigbee module, or the like.

Therefore, the local information communication means of the present invention includes not only a Bluetooth module or a Zigbee module but also a device or means including a 4G, LTE, UWB, WCDMA, USN, IrDA module and the like capable of transmitting or receiving information at a short distance All can be included.

The present invention also performs a function that the above-described radiation measuring apparatus can be connected to a management server on-line, such as the Internet, by using a local information communication means.

In this way, the management server is additionally configured as described above to constitute a radiation measurement system.

The present invention can be executed as a program by downloading the detection information software described above and logging in to the management server.

Further, the contents inputted to the detection information software of the present invention can be transmitted to the management server.

In addition, the management server of the present invention may perform the function of analyzing, analyzing or transmitting the transmitted detection information and transmitting it to the detection information software.

In addition, the management server of the present invention performs a function of analyzing, analyzing, or statistically analyzing the radiation detection information measured by various users and transmitting the processed information to the detection information software, It becomes possible to provide a radiation measurement for the measurement position.

Therefore, it is possible to enhance the natural radiation dose at the current measurement point so that the correction function can be performed.

In the present invention, the radiation measuring apparatus is provided with the individual information generating means 830, so that the management server can perform information management, operation management, automatic apparatus search, and / or connection function for individual radiation measuring apparatuses.

The radiation measuring apparatus of the present invention can generate a unique serial number according to the production time point, and generate unique radio wave, voltage, current, wavelength, electromagnetic wave and the like as recognition information enabling the object recognition at the production time And may include an entity information generating means for generating an analog or digital signal of the inherent entity information.

The above-described individual information generating means may be employed as an electronic circuit, a semiconductor circuit or a chip for transmitting a signal such as a unique code or a unique signal, and may be any means capable of generating the above-mentioned wave, voltage, current, wavelength, Can also be employed.

As described above, the individual information of the radiation measuring apparatus is recognized when the apparatus is connected to the management server, so that information management, operation management, automatic apparatus search, and / or connection function can be performed.

Further, the radiation measuring apparatus of the present invention can be connected by the management server, and the individual setting and warning range setting according to the measurement function of each radiation measuring apparatus can be freely set.

The present invention provides a multifunctional portable type radiation measuring apparatus and a radiation measuring system using the same.

The present invention is a very useful technique in the field of production, manufacture and sale of radiation measuring equipment.

Further, the present invention is a very useful invention for a facility, an organ, and a measurer who need to measure radiation.

The present invention is also a very useful invention in the field of monitoring and preventing radiation.

10: Measurement tube 11: Positive electrode
12: cathode attached to the tube 13: gas inside the tube
14: power supply 15: signal detection meter
16:
100: first radiation measuring unit 200: second radiation measuring unit
300: photographing part 400: ultrasonic distance sensor
500: display unit 600: local information communication means
700: Warning device 710: Vibration device
800: Information processing apparatus 810:
820: USB terminal 830: Object information generating means
1000: outer case 1100: sliding selection unit

Claims (4)

A first radiation measuring unit 100 capable of measuring X-ray and? -Ray,
a second radiation measuring unit 200 capable of measuring? -rays and? -rays,
A display unit 500 for displaying radiation information, image information, or distance information,
A short distance information communication means 600 that performs a function of transmitting or receiving measurement information,
A warning device 700 for generating a warning sound when the radiation sensed by the first radiation measurement unit or the second radiation measurement unit exceeds a reference value,
A computing function capable of inputting, analyzing, analyzing, and reading the radiation measurement information measured by the first radiation measuring unit or the second radiation measuring unit, the image information provided by the photographing unit, or the distance information provided by the ultrasonic distance sensor An information processing apparatus 800 for performing the above-
And an outer case 1000,
The outer case 1000 is provided with a sliding selection unit 1100 on its rear surface to select a first radiation measurement unit or a second radiation measurement unit to select and measure the type of radiation,
A vibration device 710 for generating vibration when the radiation sensed by the first radiation measuring unit or the second radiation measuring unit exceeds a reference value,
The first radiation measuring unit may include a semiconductor type radiation sensor,
The semiconductor type radiation sensor includes a MOSFET sensor for detecting an accumulated radiation amount, a diode sensor for detecting an instantaneous radiation rate, a comparator for comparing output values from the respective sensors to one selected from an instantaneous radiation dose or cumulative radiation dose, And a sensor
The semiconductor type radiation sensor may be configured to measure gamma rays and thermal neutrons together,
A pMOSFET sensor 2 composed of a pMOSFET assembly 64 having an oxide layer pMOSFET chip 63 and a pMOSFET assembly 54 mounted with an oxide layer pMOSFET chip 53; A Gd + pMOSFET sensor 1 composed of a pMOSFET protective cap 51 having a gadolinium (Gd) layer coated thereon and a nuclear reaction film inside thereof, and a Gd + A subtracter 3 for subtracting the dose from the subtracter 3, a thermal neutron dose display 4 for displaying only the dose of the radiation by the thermal neutrons output from the subtractor 3, And a gamma ray dose display unit 5,
The second radiation measurement unit 200 uses a gas-filled detection sensor and includes a measurement tube 10, an anode 11 caught by the tube and a potential 12 of the cathode and a gas 13 inside the tube Respectively,
The object information generating means 830 is provided to enable the management server to perform information management, operation management, automatic device search or connection function for individual radiation measuring devices, to estimate the natural radiation dose at the currently measured point, Function,
The measurement target area, the altitude, the season, and the time are automatically inputted to the radiation measuring apparatus by mounting the GPS module, and the natural radiation amount according to the measurement target area, altitude, The distance information provided by the imaging unit and the distance information provided by the ultrasonic distance sensor, and performs a correction function to perform a function of measuring an accurate radiation dose,
And a photographing unit (300) that performs a function of storing an object or region contaminated with radiation as image information, so that an object or an area can be stored as image information and managed as an image,
An ultrasonic distance sensor 400 for measuring a distance to an object contaminated with radiation and providing distance information is added,
The photographing unit 300 has a built-in flash to perform photographing in a dark place,
The information processing apparatus 800 is equipped with detection information software to perform a process of analyzing or analyzing the radiation information sent from the first radiation measuring unit or the second radiation measuring unit, Analyzing or analyzing the average radiation measurement value by the number of times and the degree of risk of the radiation measurement value, and outputting the content.
delete delete A multifunctional portable radiation measuring device according to claim 1,
A radiation measuring system characterized by the provision of a management server.

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