CN207650592U - Radiation-resource intelligent monitoring system - Google Patents

Abstract

The utility model discloses a kind of radiation-resource intelligent monitoring systems, including monitor supervision platform and database server, further include source generator terminal, source library end and mobile terminal；In source library storage, source generator terminal is communicated to connect radioactive source machine by source library end and monitor supervision platform；After going out source library, source generator terminal is communicated to connect radioactive source machine by mobile terminal and monitor supervision platform；When source generator terminal is with source library end or mobile terminal lost contact, source generator terminal is communicated to connect with monitor supervision platform.In the present invention, by combining various work-based logics and Scene realization to radioactive source transport, information system management and the real time monitoring of each link such as storing and use, radioactive sources safety state aware, anomalous event consequence controllable purpose are realized.

Description

Radiation-resource intelligent monitoring system

Technical field

The utility model is related to radioactive source technical field more particularly to a kind of radiation-resource intelligent monitoring systems.

Background technology

There are some to be directed to the monitoring device of radioactive source both at home and abroad at present, but since there are some major defects, never It is widely used.Existing monitoring device can only install global positioning system additional to radiation source container (device) mostly and carry out position letter Breath obtains, or obtains the Environmental dose rate of radioactive source region, and cannot really obtain radioactive source by dosage rate information is No safety and loss；In addition, having, monitoring device generally existing battery life is short, volume is big, alarming logic has a single function The problems such as, it can not really realize the whole process monitoring to radioactive source.

Utility model content

The technical problem to be solved by the present invention is to for can not really obtain whether radioactive source pacifies in the related technology It is complete and lose, battery life is short, volume is big, alarming logic has a single function, can not really realize whole process to radioactive source Defect is monitored, a kind of radiation-resource intelligent monitoring system is provided.

Technical solution adopted by the utility model to solve its technical problems is：Construct a kind of radiation-resource intelligent monitoring system System, including monitor supervision platform and database server, further include source generator terminal, source library end and mobile terminal；

In source library storage, the source generator terminal is communicated to connect radioactive source machine by source library end and the monitor supervision platform；

After going out source library, the source generator terminal is communicated to connect radioactive source machine by the mobile terminal and the monitor supervision platform；

When the source generator terminal is with source library end or the mobile terminal lost contact, the source generator terminal is communicated with the monitor supervision platform Connection.

Preferably, in radiation-resource intelligent monitoring system described in the utility model, the source generator terminal includes the first control Circuit, the first battery module for powering for the first control circuit and for connecting external power supply and control described the One battery module is the first power management module of first control circuit power supply；

The first control circuit includes the first microcontroller for handling data and being used for of being attached thereto and institute State the first wireless communication module of monitor supervision platform communication connection, for the with source library end or mobile terminal communication connection Two wireless communication modules, the radiation detector for detecting radiation intensity, are used the first locating module for obtaining location information In the first radio frequency identification module of storage radiation source information and for showing the first abnormal alarm；

First microcontroller includes first memory for storing collected data and comes from institute for receiving State the first monitor of the first microcontroller signal.

Preferably, in radiation-resource intelligent monitoring system described in the utility model, source library end includes the second control Circuit and for connecting external power supply and protecting the second source management module of the second control circuit；

The second control circuit includes the second microcontroller for handling data and being used for of being attached thereto and institute State the third wireless communication module of monitor supervision platform communication connection, for the with source library end or mobile terminal communication connection Four wireless communication modules, the second locating module for obtaining location information are penetrated for reading the second of equipment radio frequency discre value Frequency identification module and for showing the second abnormal alarm；

Second microcontroller includes second memory for storing collected data and comes from institute for receiving State the second monitor of the second microcontroller signal.

Preferably, in radiation-resource intelligent monitoring system described in the utility model, the mobile terminal includes the third Control circuit, second battery module for powering for the third control circuit and for connecting external power supply and control Make the third power management module that second battery module is third control circuit power supply；

The third control circuit includes third microcontroller for handling data and being used for of being attached thereto and institute State the 5th wireless communication module of monitor supervision platform communication connection, for the with source library end or mobile terminal communication connection Six wireless communication modules, the third locating module for obtaining location information and for showing abnormal third alarm；

The third microcontroller includes third memory for storing collected data and comes from institute for receiving State the third monitor of third microcontroller signal.

Preferably, in radiation-resource intelligent monitoring system described in the utility model, described first in the source generator terminal It is CN3153 lithium batteries charging management chip, first micro-control that battery module, which is lithium battery, first power management module, It is the first 3G/4G communication modules, described second that device processed, which is Coterx-M4 kernel processes chip, first wireless communication module, Wireless communication module is that the 2nd 433MHz communication modules, first locating module are and core star leads to UM220-III satellite positionings Module, the radiation detector be M47ADS-PD irradiation controllers, first radio frequency identification module be RFID tag, First alarm is that LED buzzers, the first memory are Electrically Erasable Programmable Read-Only Memory, first monitoring Device is monitoring chip and the external power supply is 5V DC power supplies.

Preferably, in radiation-resource intelligent monitoring system described in the utility model, described second in the end of the source library Microcontroller be Coterx-M4 kernel processes chip, the third wireless communication module be the 3rd 3G/4G communication modules, it is described 4th wireless communication module is that the 4th 433MHz communication modules, second locating module are and core star leads to UM220-III satellites Locating module, second radio frequency identification module, which are PN532 modules, second alarm, to be LED buzzers, described second deposits Reservoir is Electrically Erasable Programmable Read-Only Memory, second monitor is monitoring chip and the external power supply is 220VAC Power supply.

Preferably, in radiation-resource intelligent monitoring system described in the utility model, described second in the mobile terminal It is CN3153 lithium batteries charging management chip, the third micro-control that battery module, which is lithium battery, the third power management module, It is the 5th 3G/4G communication modules, the described 6th that device processed, which is Coterx-M4 kernel processes chip, the 5th wireless communication module, Wireless communication module is that the 6th 433MHz communication modules, the third locating module are and core star leads to UM220-III satellite positionings Module, the third alarm are that buzzer, the third memory are Electrically Erasable Programmable Read-Only Memory, third prison Control device is monitoring chip and the external power supply is 5V DC power supplies.

Preferably, in radiation-resource intelligent monitoring system described in the utility model, radioactive source machine is in source library storage, institute The information that source library end acquires the source generator terminal by the 4th 433MHz communication modules is stated, and logical by the 3rd 3G/4G Letter module is uploaded to the monitor supervision platform, and the monitor supervision platform connects the data server by Ethernet.

Preferably, in radiation-resource intelligent monitoring system described in the utility model, radioactive source machine is described after going out source library Mobile terminal acquires the information of the source generator terminal by the 6th 433MHz communication modules, and is communicated by the 5th 3G/4G Module is uploaded to the monitor supervision platform, and the monitor supervision platform connects the data server by Ethernet.

Preferably, in radiation-resource intelligent monitoring system described in the utility model, the source generator terminal and source library end After the mobile terminal lost contact, the source generator terminal by the first 3G/4G communication modules upload information to the monitor supervision platform, The monitor supervision platform connects the data server by Ethernet.

Implement the utility model radiation-resource intelligent monitoring system, has the advantages that：

Pass through integrated use radiation detection technology, GPS/GIS technologies, Radio Frequency Identification Technology, wireless communication technique, database With the novel device of the multinomial technology such as internet.Intelligent monitor system has antitheft, small, accurate, the low in energy consumption, automatic mold of positioning The functions such as formula switching, have significant technical advance.Demand for the use of highly combining using simultaneously and supervise two, solves mesh The major defects of preceding existing procucts in the market, while technology of Internet of things is applied, in conjunction with various work-based logics and Scene realization pair Radioactive source transport, the information system management for each link such as storing and using and real time monitoring, there is Ka Yuan in radioactive source, lose and by It steals etc. under abnormal conditions and alarm, disposition in time, realizes radioactive sources safety state aware, the controllable mesh of anomalous event consequence 's.

Description of the drawings

Below in conjunction with accompanying drawings and embodiments, the utility model is described in further detail, in attached drawing：

Fig. 1 is the system architecture figure of the utility model radiation-resource intelligent monitoring system；

Fig. 2 is the functional block diagram of the utility model radiation-resource intelligent monitoring system source generator terminal；

Fig. 3 is the functional block diagram at the utility model radiation-resource intelligent monitoring system source library end；

Fig. 4 is the functional block diagram of the utility model radiation-resource intelligent monitoring system mobile terminal；

Fig. 5 is the source generator terminal main process design drawing of the utility model radiation-resource intelligent monitoring system；

Fig. 6 is the source library end main process design drawing of the utility model radiation-resource intelligent monitoring system；

Fig. 7 is the mobile terminal main process design drawing of the utility model radiation-resource intelligent monitoring system.

Specific implementation mode

For a clearer understanding of the technical features, objectives and effects of the utility model, now control attached drawing is detailed Illustrate specific embodiment of the present utility model.

The radiation-resource intelligent monitoring system, including monitor supervision platform 4 and database server 5, further include source generator terminal 1, Yuan Ku End 2 and mobile terminal 3；

Specifically, Fig. 1 is the system architecture figure of the utility model radiation-resource intelligent monitoring system, as shown in Fig. 1：

Source generator terminal 1：On radioactive source machine, it is mainly used for monitoring the radiation intensity and location information of radioactive source machine.

Source library end 2：Outside radioactive source warehouse, it is mainly used for managing the source generator terminal on radioactive source machine all in warehouse 1, by the 4th 433MHz communication modules 203 acquire warehouse in institute active generator terminal 1 information, and pass through the 3rd 3G/4G communication mould Block 202 is uploaded to monitor supervision platform 4.

Mobile terminal 3：When radioactive source machine is after going out source library, for being communicated with the source generator terminal 1 to match, pass through the 6th 433MHz Communication module 303 acquires mating 1 information of source generator terminal, and is uploaded to monitor supervision platform 4 by the 5th 3G/4G communication modules 302.

In source library storage, source generator terminal 1 is communicated to connect radioactive source machine by source library end 2 and monitor supervision platform 4.

Preferably, in the utility model radiation-resource intelligent monitoring system, radioactive source machine is in source library storage, source library end 2 The information of source generator terminal 1 is acquired by the 4th 433MHz communication modules 203, and is uploaded to by the 3rd 3G/4G communication modules 202 Monitor supervision platform 4, monitor supervision platform 4 connect data server 5 by Ethernet.

Specifically, in source library storage, source generator terminal 1 is communicated with source library end 2, and source generator terminal 1 keeps low power operation, only carries out Dosage rate detects, and the information such as dosage rate, location information, communication state are sent to monitor supervision platform 4 by source library end 2.

After going out source library, source generator terminal 1 is communicated to connect radioactive source machine by mobile terminal 3 and monitor supervision platform 4.

Preferably, in the utility model radiation-resource intelligent monitoring system, for radioactive source machine after going out source library, mobile terminal 3 is logical The information of the 6th 433MHz communication modules 303 acquisition source generator terminal 1 is crossed, and prison is uploaded to by the 5th 3G/4G communication modules 302 Platform 4 is controlled, monitor supervision platform 4 connects data server 5 by Ethernet.

Specifically, transport or use of the radioactive source machine after going out source library, source generator terminal 1 are communicated with mobile terminal 3, and source generator terminal is kept Low power operation only carries out dosage rate monitoring, the information such as dosage rate, location information, communication state is sent to prison by mobile terminal 3 Control platform 4.

When source generator terminal 1 is with source library end 2 or 3 lost contact of mobile terminal, source generator terminal 1 is communicated to connect with monitor supervision platform 4.

Preferably, in the utility model radiation-resource intelligent monitoring system, source generator terminal 1 and 3 lost contact of source library end 2 and mobile terminal Afterwards, source generator terminal 1 is connected by 102 upload information of the first 3G/4G communication modules to monitor supervision platform 4, monitor supervision platform 4 by Ethernet Data server 5.

Specifically, when generation radiation source container or device loss, and the extreme of communication is lost with source library end 2 and mobile terminal 3 Accident, the information such as dosage rate, positioning and state are sent to monitor supervision platform 4 automatically for source generator terminal 1 and triggering is alarmed, and is provided to search Promptly and accurately information reduces damage sequence and society and political impact.

When occurring, radioactive source is lost but radiation source container is not lost, unplanned transport, low battery, loses communication, dosage rate The abnormal conditions such as super threshold values, radioactive source monitoring system and monitor supervision platform 4 are instant according to work-based logic, radiation level, location information Judge and triggers the alarm with monitor supervision platform 4 on the spot.

Preferably, in the utility model radiation-resource intelligent monitoring system, source generator terminal 1 includes first control circuit 10, uses In the first battery module 11 powered for first control circuit 10 and for connecting the first battery module of external power supply and control 11 the first power management modules 12 powered for first control circuit 10；First control circuit 10 includes for handling data One microcontroller 101 and the first wireless communication module 102 for being communicated to connect with monitor supervision platform 4 being attached thereto are used for With the second wireless communication module 103 of source library end 2 or the communication connection of mobile terminal 3, the first positioning mould for obtaining location information Block 104, the radiation detector 105 for detecting radiation intensity, the first radio frequency identification module 106 for storing radiation source information With for showing the first abnormal alarm 107；First microcontroller 101 includes the memory for storing collected data 100 and for receiving the first monitor 1002 from 101 signal of the first microcontroller.

Preferably, in the utility model radiation-resource intelligent monitoring system, the first battery module 11 in source generator terminal 1 is lithium It is Coterx-M4 that battery, the first power management module 12, which are CN3153 lithium batteries charging management chip, the first microcontroller 101, It is that kernel processes chip, the first wireless communication module 102, which are the first 3G/4G communication modules, the second wireless communication module 103, Two 433MHz communication modules, the first locating module 104 are to lead to UM220-III satellite positioning modules, radiation detector 105 with core star Be M47ADS-PD irradiation controllers, the first radio frequency identification module 106 be RFID tag, the first alarm 107 it is LED bees It is monitoring chip and outside that ring device, first memory 1001, which are Electrically Erasable Programmable Read-Only Memory, the first monitor 1002, Power supply is 5V DC power supplies.

Specifically, Fig. 2 is the functional block diagram of the utility model radiation-resource intelligent monitoring system source generator terminal, as shown in Figure 2：

Source generator terminal 1 includes the first power management module 12 and the first control circuit 10 and the first lithium battery that are attached thereto 11；First control circuit 10 is again logical including the first microcontroller 101 (MCU, Micro Controller Unit), the first 3G/4G Believe module 102, the 2nd 433MHz communication modules 103, the first satellite positioning module 104, radiation detector 105, radio frequency identification (RFID, Radio Frequency Identification) label 106 and the first LED buzzers 107；First microcontroller 101 include 1001 (EEPROM, Electrically Erasable of the first Electrically Erasable Programmable Read-Only Memory again Programmable read only memory) and the first monitoring chip 1002.

First power management module 12 uses CN3153 lithium battery charging management chips, and is also added per function module Independent power management function, it can be achieved that each function power supply independent control；First MCU101 uses the place of Coterx-M4 kernels Chip is managed, DMA controls communication mode, has quick data-handling capacity and responding ability；First 3G/4G communication modules 102 The 3G/4G modules of emerging EM3630 models in support that seven mould the whole networks are logical；2nd 433MHz communication modules 103 use Chinese Academy of Sciences's independently developed product, receiving sensitivity -111dBm have good ability to communicate, are responsible for source generator terminal 1 and source library end 2, source machine Near Field Communication between end 1 and mobile terminal 3；First satellite positioning module 104 leads to UM220-III moulds using with core star Block supports the positioning of BDS/GPS bimodulus, supports single system location-independent and multisystem combined positioning；What radiation detector 105 used It is M47ADS-PD irradiation controllers, detectable 0.1 μ Sv/h~1Sv/h dose equivalent rate ranges；RFID tag 106 is for depositing Store up the information such as number, the activity of radioactive source；First LED buzzers 107 using 3 LED lights indicate respectively power supply, communication and Abnormality, buzzer sends out alarm when occurring abnormal；EEPROM101 is responsible for storing the collected data of Intelligent monitoring device, And data periodically remove and are uploaded automatically；First monitoring chip 1002 is believed for timing receipt from the first MCU101 Number, when time-out does not receive signal, sends reset signal and resetted to the first MCU101, effectively prevent the first MCU101 dead The occurrence of machine.

Fig. 5 is the source generator terminal main process design drawing of the utility model radiation-resource intelligent monitoring system, as shown in Fig. 5：

Source generator terminal 1 powers on, the timer initialization of the first MCU101, opening timing device；Judge whether to receive 433MHz Data, if then processor judges the information of reception, each equipment has unique ID, if 2 data of source library end, then set It is set to library connection mode, i.e. low-power consumption mode, every 5 minutes transmission primaries data；If 3 data of mobile terminal, then be set as mobile Hold connection mode, i.e. 10 seconds transmission primaries data；The first 4G communication modules 102 and the first satellite positioning module 104 are closed, it is right The 433MHz data of reception are handled；If not receiving 433MHz data, automatically switch to high power consumption mode directly be System is communicated, and is opened the first 4G communication modules 102 and is received 4G data, is opened the first satellite positioning module 104 and is received positioning number According to.

Preferably, in the utility model radiation-resource intelligent monitoring system, source library end 2 include second control circuit 20 and For connecting external power supply and protecting the second source management module 21 of second control circuit 20；Second control circuit 20 includes The second microcontroller 201 for handling data and the third for being communicated to connect with monitor supervision platform 4 being attached thereto are wireless Communication module 202, for source library end 2 or mobile terminal 3 communication connection the 4th wireless communication module 203, for obtaining position Second locating module 204 of information, the second radio frequency identification module 205 for reading equipment radio frequency discre value and for showing The second abnormal alarm 206；Second microcontroller 201 includes the second memory 2001 for storing collected data With for receiving the second monitor 2002 from 201 signal of the second microcontroller.

Preferably, in the utility model radiation-resource intelligent monitoring system, the second microcontroller 201 in source library end 2 is Coterx-M4 kernel processes chip, third wireless communication module 202 are the 3rd 3G/4G communication modules, the 4th radio communication mold Block 203 is that the 4th 433MHz communication modules, the second locating module 204 are to lead to UM220-III satellite positioning modules, the with core star It is LED buzzers, second memory 2001 is electrically erasable that two radio frequency identification modules 205, which are PN532 modules, the second alarm 206, Programmable read only memory, the second monitor 2002 are monitoring chips and external power supply is 220VAC power supplys.

Specifically, Fig. 3 is the functional block diagram at the utility model radiation-resource intelligent monitoring system source library end, as shown in Figure 3：

Source library end 2 includes second source management module 21 and the second control circuit 20 being attached thereto；Second control electricity Road 20 is again including the 2nd MCU201, the 3rd 3G/4G communication modules 202, the 4th 433MHz communication modules 203, the second satellite positioning Module 204, RFID module 205 and the 2nd LED buzzers 206；First MCU101 includes the monitoring cores of EEPROM2001 and second again Piece 2002.

Second source management module 21 has the function of surge protection, over-voltage over-current protection, and 220VAC is converted into module Required low pressure；2nd MCU201 uses the processing chip of Coterx-M4 kernels, DMA to control communication mode, has quickly number According to processing capacity and responding ability；The 3G/4G moulds of 3rd 3G/4G communication modules 202 EM3630 models emerging in Block supports that seven mould the whole networks are logical；4th 433MHz communication modules 203 use Chinese Academy of Sciences independently developed product, receiving sensitivity -111dBm, With good ability to communicate, it is responsible for source generator terminal 1 and source library end 2, the Near Field Communication between source generator terminal 1 and mobile terminal 3；Second Satellite positioning module 204 leads to UM220-III modules using with core star, supports the positioning of BDS/GPS bimodulus, supports single system Location-independent and multisystem combined positioning；RFID module 205 uses PN532 modules, the RFID values for reading equipment；Second LED buzzers 206 indicate power supply, communication and abnormality respectively using 3 LED lights, and buzzer is sent out when occurring abnormal Alarm；EEPROM2001 is responsible for storing the collected data of Intelligent monitoring device, and to data periodically remove and is automatic It passes；Second monitoring chip 2002 comes from the 2nd MCU201 signals for timing receipt, when time-out does not receive signal, sends multiple The occurrence of position signal is resetted to the 2nd MCU201, the 2nd MCU201 is effectively prevent to crash.

Fig. 6 is the source library end main process design drawing of the utility model radiation-resource intelligent monitoring system, as shown in Fig. 6：

Source library end 2 powers on, the timer initialization of the 2nd MCU201, opening timing device；Pass through the 3rd 4G communication modules 202 send registered frame to system, and after the 3rd 4G communication modules 202 receive host computer registered frame response, RTC time is arranged；Sentence Disconnected whether receive be host computer instruction, if the host computer to the machine instructs, then the machine is handled；If to bound device, Bound device processing is then issued by the 4th 433MHz communication modules 203；4th 433MHz communication modules 203, which receive, comes from source machine The 433MHz data at end 1, processor judge the information of reception each equipment has unique ID, if the source machine of binding 1 equipment is held, then copy information and response is carried out to the 433MHz data of source generator terminal 1；If not 1 equipment of source generator terminal of binding, then 4th 433MHz communication modules 203 do not do response.

Preferably, in the utility model radiation-resource intelligent monitoring system, mobile terminal 3 includes third control circuit 30, uses In the second battery module 31 powered for third control circuit 30 and for connecting the second battery module of external power supply and control The 31 third power management modules 32 powered for third control circuit 30；Third control circuit 30 includes for handling data Three microcontrollers 301 and the 5th wireless communication module 302 for being communicated to connect with monitor supervision platform 4 being attached thereto are used for With the 6th wireless communication module 303 of source library end 2 or the communication connection of mobile terminal 3, the third positioning mould for obtaining location information Block 304 and for showing abnormal third alarm 305；Third microcontroller 301 includes for storing collected data Third memory 3001 and for receiving the third monitor 3002 from 301 signal of third microcontroller.

Preferably, in the utility model radiation-resource intelligent monitoring system, the second battery module 31 in mobile terminal 3 is lithium It is Coterx-M4 that battery, third power management module 32, which are CN3153 lithium batteries charging management chip, third microcontroller 301, It is that kernel processes chip, the 5th wireless communication module 302, which are the 5th 3G/4G communication modules, the 6th wireless communication module 303, Six 433MHz communication modules, third locating module 304 are to lead to UM220-III satellite positioning modules, third alarm 305 with core star Be buzzer, third memory 3001 be Electrically Erasable Programmable Read-Only Memory, third monitor 3002 be monitoring chip and External power supply is 5V DC power supplies.

Specifically, Fig. 4 is the functional block diagram of the utility model radiation-resource intelligent monitoring system mobile terminal, as shown in Figure 4：

Mobile terminal 3 includes third power management module 32 and the third control circuit 30 being attached thereto and the second lithium battery 31；Third control circuit 30 is again including MCU1301, the 5th 3G/4G communication modules 302, the 6th 433MHz communication modules 303, the Three satellite positioning modules 304, buzzer 305；3rd MCU301 includes EEPROM3001 and third monitoring chip 3002 again.

Third power management module 32 uses CN3153 lithium battery charging management chips, and is also added per function module Independent power management function, it can be achieved that each function power supply independent control；3rd MCU301 uses the place of Coterx-M4 kernels Chip is managed, DMA controls communication mode, has quick data-handling capacity and responding ability；5th 3G/4G communication modules 302 The 3G/4G modules of emerging EM3630 models in support that seven mould the whole networks are logical；6th 433MHz communication modules 303 use Chinese Academy of Sciences's independently developed product, receiving sensitivity -111dBm have good ability to communicate, are responsible for source generator terminal 1 and source library end 2, source machine Near Field Communication between end 1 and mobile terminal 3；Third satellite positioning module 304 leads to UM220-III moulds using with core star Block supports the positioning of BDS/GPS bimodulus, supports single system location-independent and multisystem combined positioning；Buzzer 305 is used for radioactive source There is abnormality in machine, and the display interface of mobile terminal 3 pops up warning message, and buzzer 305 sends out alarm；EEPROM3001 is responsible for The collected data of Intelligent monitoring device are stored, and data periodically remove and are uploaded with automatic；Third monitoring chip 3002 The 3rd MCU301 signals are come from for timing receipt, when time-out does not receive signal, send reset signal to the 3rd MCU301 The occurrence of being resetted, the 3rd MCU301 effectively prevent to crash.

Fig. 7 is the mobile terminal main process design drawing of the utility model radiation-resource intelligent monitoring system, as shown in Fig. 7：

Mobile terminal 3 powers on, the timer initialization of the 3rd MCU301, opening timing device；Pass through the 5th 4G communication modules 302 send registered frame to system, and after the 5th 4G communication modules 302 receive host computer registered frame response, RTC time is arranged；Sentence Disconnected whether receive be host computer instruction, if the host computer to the machine instructs, then the machine is handled；If to bound device, Bound device processing is then issued by the 6th 433MHz communication modules 303；6th 433MHz communication modules 303, which receive, comes from source machine The 433MHz data at end 1, processor judge the information of reception each equipment has unique ID, if the source machine of binding 1 equipment is held, then copy information and response is carried out to the 433MHz data of source generator terminal 1；If not 1 equipment of source generator terminal of binding, then 6th 433MHz communication modules 303 do not do response.

The utility model has carried out setting for multinomial electromagnetism interference technology by using the nuclear radiation detector of independent research Meter processing, has many advantages, such as that small, low in energy consumption, high sensitivity, anti-electromagnetism interference ability are strong, breaches and communication module group height Integrated technology barrier；By selecting the module and optimization power management of low-power consumption, equipment overall power is reduced, by will be intelligent Monitoring system split and function optimization achievees the purpose that miniaturization and continues a journey for a long time.Intelligent monitor system by source generator terminal 1, Source library end 2 and mobile terminal 3 form, and source generator terminal 1 is mounted on the surface of radioactive source machine, and source library end 2 is mounted on radioactive source and stores factory Room, mobile terminal 3 use in radioactive source transportational process, and intelligent monitor system is for radioactive source storage, transport and uses process, The automatic switchover that operating mode is realized under different conditions reduces power consumption while ensureing monitoring function, realizes overlength continuation of the journey mesh 's.The source generator terminal 1 of intelligent monitor system can only boot up operation, and shutdown, which needs to send by system, orders, and prevents personnel from closing Hull closure；Monitoring system calculates according to the size of installation point dosage rate and generates dosage rate abnormal alarm threshold value automatically, illegally tears open Abnormal alarm can be triggered by unloading equipment.In conjunction with radioactive source storage, transport and using the links of process, the soft of abnormal alarm is set It is de- to forgive equipment state, positioning, electricity, the monitoring of communication state and radioactive source loss, monitoring system for hardware decision logic It falls, dosage rate exception, illegally leaves source library, illegally leaves specific region, using time-out etc., really realize the comprehensive of radioactive source Intelligent monitoring.

In conclusion passing through integrated use radiation detection technology, GPS/GIS technologies, Radio Frequency Identification Technology, wireless communication skill The novel device of the multinomial technology such as art, database and internet.Intelligent monitor system has antitheft, small, positioning standard, power consumption The functions such as low, automatic pattern switching have significant technical advance.It highly combines using and is needed for the use of supervising two simultaneously It asks, solves the major defect of existing procucts currently on the market, while applying technology of Internet of things, in conjunction with various work-based logics and field Scape realizes the information system management of each link such as transporting, store and use to radioactive source and real time monitoring, in radioactive source card Under source, loss and the abnormal conditions such as stolen and alarm, disposition in time, radioactive sources safety state aware is realized, after anomalous event The controllable purpose of fruit.

Claims (10)

1. a kind of radiation-resource intelligent monitoring system, including monitor supervision platform (4) and database server (5), which is characterized in that also wrap Include source generator terminal (1), source library end (2) and mobile terminal (3)；

In source library storage, the source generator terminal (1) is communicated by source library end (2) with the monitor supervision platform (4) radioactive source machine Connection；

For radioactive source machine after going out source library, the source generator terminal (1) passes through the mobile terminal (3) and the monitor supervision platform (4) communication link It connects；

When the source generator terminal (1) is with source library end (2) or the mobile terminal (3) lost contact, the source generator terminal (1) and the monitoring Platform (4) communicates to connect.

2. radiation-resource intelligent monitoring system according to claim 1, which is characterized in that the source generator terminal (1) includes first Control circuit (10) is used for as the first battery module (11) of the first control circuit (10) power supply and for connecting outside Power supply and the first power management module that control first battery module (11) is the first control circuit (10) power supply (12)；

The first control circuit (10) includes the first microcontroller (101) for handling data and what is be attached thereto be used for With the monitor supervision platform (4) communication connection the first wireless communication module (102), be used for and source library end (2) or the shifting The second wireless communication module (103) of moved end (3) communication connection, is used the first locating module (104) for obtaining location information In the radiation detector (105) of detection radiation intensity, the first radio frequency identification module (106) for storing radiation source information and use In the first alarm (107) that display is abnormal；

First microcontroller (101) includes for storing the first memory of collected data (1001) and for receiving The first monitor (1002) from the first microcontroller (101) signal.

3. radiation-resource intelligent monitoring system according to claim 1, which is characterized in that source library end (2) includes second Control circuit (20) and for connecting external power supply and protecting the second source management module of the second control circuit (20) (21)；

The second control circuit (20) includes the second microcontroller (201) for handling data and what is be attached thereto be used for With the monitor supervision platform (4) communication connection third wireless communication module (202), be used for and source library end (2) or the shifting 4th wireless communication module (203) of moved end (3) communication connection, is used the second locating module (204) for obtaining location information In the second radio frequency identification module (205) for reading equipment radio frequency discre value and for showing abnormal the second alarm (206)；

Second microcontroller (201) includes for storing the second memory of collected data (2001) and for receiving The second monitor (2002) from the second microcontroller (201) signal.

4. radiation-resource intelligent monitoring system according to claim 1, which is characterized in that the mobile terminal (3) includes third Control circuit (30) is used for as the second battery module (31) of the third control circuit (30) power supply and for connecting outside Power supply and the third power management module that control second battery module (31) is the third control circuit (30) power supply (32)；

The third control circuit (30) includes third microcontroller (301) for handling data and what is be attached thereto be used for With the monitor supervision platform (4) communication connection the 5th wireless communication module (302), be used for and source library end (2) or the shifting Moved end (3) communication connection the 6th wireless communication module (303), the third locating module (304) for obtaining location information and For showing abnormal third alarm (305)；

The third microcontroller (301) includes third memory (3001) for storing collected data and for receiving Third monitor (3002) from third microcontroller (301) signal.

5. radiation-resource intelligent monitoring system according to claim 2, which is characterized in that described in the source generator terminal (1) First battery module (11) be lithium battery, first power management module (12) be CN3153 lithium batteries charging management chip, It is first that first microcontroller (101), which is Coterx-M4 kernel processes chip, first wireless communication module (102), 3G/4G communication modules, second wireless communication module (103) are the 2nd 433MHz communication modules, first locating module (104) be lead to UM220-III satellite positioning modules with core star, the radiation detector (105) is M47ADS-PD radiation controls It is LED buzzers, institute that device, first radio frequency identification module (106), which are RFID tag, first alarm (107), State first memory (1001) be Electrically Erasable Programmable Read-Only Memory, first monitor (1002) be monitoring chip and The external power supply is 5V DC power supplies.

6. radiation-resource intelligent monitoring system according to claim 3, which is characterized in that described in source library end (2) Two microcontrollers (201) are that Coterx-M4 kernel processes chip, the third wireless communication module (202) are the 3rd 3G/4G logical Letter module, the 4th wireless communication module (203) are the 4th 433MHz communication modules, second locating module (204) Lead to UM220-III satellite positioning modules with core star, second radio frequency identification module (205) is PN532 modules, second police Report device (206) is that LED buzzers, the second memory (2001) are Electrically Erasable Programmable Read-Only Memory, second prison Control device (2002) is monitoring chip and the external power supply is 220VAC power supplys.

7. radiation-resource intelligent monitoring system according to claim 4, which is characterized in that described in the mobile terminal (3) Second battery module (31) be lithium battery, the third power management module (32) be CN3153 lithium batteries charging management chip, It is the 5th that the third microcontroller (301), which is Coterx-M4 kernel processes chip, the 5th wireless communication module (302), 3G/4G communication modules, the 6th wireless communication module (303) are the 6th 433MHz communication modules, the third locating module (304) be lead to UM220-III satellite positioning modules with core star, the third alarm (305) is buzzer, third storage It is monitoring chip and the external electrical that device (3001), which is Electrically Erasable Programmable Read-Only Memory, the third monitor (3002), Source is 5V DC power supplies.

8. radiation-resource intelligent monitoring system according to claim 6, which is characterized in that radioactive source machine in source library storage, Source library end (2) acquires the information of the source generator terminal (1) by the 4th 433MHz communication modules (203), and passes through institute It states the 3rd 3G/4G communication modules (202) and is uploaded to the monitor supervision platform (4), the monitor supervision platform (4) connects institute by Ethernet State data server (5).

9. radiation-resource intelligent monitoring system according to claim 7, which is characterized in that radioactive source machine is after going out source library, institute The information that mobile terminal (3) acquires the source generator terminal (1) by the 6th 433MHz communication modules (303) is stated, and by described 5th 3G/4G communication modules (302) are uploaded to the monitor supervision platform (4), described in the monitor supervision platform (4) is connected by Ethernet Data server (5).

10. radiation-resource intelligent monitoring system according to claim 5, which is characterized in that the source generator terminal (1) and the source Behind library end (2) and the mobile terminal (3) lost contact, the source generator terminal (1) is uploaded by the first 3G/4G communication modules (102) Information to the monitor supervision platform (4), the monitor supervision platform (4) connects the data server (5) by Ethernet.