CN214627033U - Internet of things system applied to high-risk mobile radioactive source warehousing and warehousing - Google Patents

Abstract

The utility model discloses a be applied to thing networking systems that high risk removed radiation source warehouse entry. The monitoring center platform module is in communication connection with the equipment information detector through an intelligent machine; the monitoring center platform module is placed at the cloud end, and the intelligent machine and the equipment information detector are placed at an entrance and an exit of the high-risk mobile radioactive source warehouse; the camera is arranged near the equipment information detector and is in communication connection with the intelligent machine through the face recognition module, and the intelligent machine is in communication with the monitoring center platform module; the equipment detection platform is arranged at an entrance and an exit of the high-risk mobile radioactive source entrance and exit, the radiation detector is installed on the equipment detection platform, the two-dimensional code scanning gun is placed near the equipment detection platform, and the radiation detector and the two-dimensional code scanning gun are in communication connection with the intelligent machine. The utility model discloses a monitoring that high risk removed the radiation source and go out the warehouse entry shortens response time, can carry out continuous warehouse entry and exit operation, can in time send alarm information to the unusual condition of dosage rate detection.

Description

Internet of things system applied to high-risk mobile radioactive source warehousing and warehousing

Technical Field

The utility model relates to a radiation source monitoring system in operation of detecting a flaw and radiation detection field specifically is a thing networking systems who is applied to high risk removal radiation source warehouse entry and exit.

Background

The traditional method for putting the radioactive source in and out of a warehouse is completed by measuring with a portable instrument and manually recording. In recent two years, along with the construction of high-risk mobile radioactive source monitoring platforms by the nation, the demand of radioactive source warehousing and ex-warehouse systems is increasingly prominent.

The current popular warehouse-in and warehouse-out terminal is a handheld device integrating active electronic tag identification and dosage rate detection. The portable electronic dose detection device has the advantages that the device is portable, the electronic tag identification speed is high, and the first defect is that a dose detection probe arranged in the handheld device is low in sensitivity and long in response time; secondly, the active electronic tag is easily interfered, and the identification error rate is high; thirdly, the handheld device has short standby time and high failure rate; and fourthly, the handheld device adopts an account number to log in, so that the risk that the account number is revealed and a high-risk mobile source is faked by other people exists.

SUMMERY OF THE UTILITY MODEL

For solving the problem that current handheld device exists, the utility model provides a be applied to high risk and remove the thing networking systems that the radiation source goes out to put in storage can be used to the control high risk and removes the condition that the source goes out to put in storage, improves radiation source warehouse-in and warehouse-out efficiency, ensures nuclear and radiation safety.

The utility model adopts the technical proposal that:

the utility model comprises a monitoring center platform module, an intelligent machine and an equipment information detector, wherein the monitoring center platform module is in communication connection with the intelligent machine, and the intelligent machine is in communication connection with the equipment information detector; the monitoring center platform module is placed at the cloud end, and the intelligent machine and the equipment information detector are placed at an entrance and an exit of the high-risk mobile radioactive source for entering and exiting;

the intelligent machine is provided with a face recognition module, a camera, a 4G wireless communication module, a Bluetooth communication module, a WIFI module, a first serial port communication module, a second serial port communication module and a LAN (local area network) port; the camera is arranged near an equipment detection table of the equipment information detector, the camera is in communication connection with the intelligent machine through the face recognition module, and the intelligent machine is communicated with the monitoring center platform module through the LAN port or the 4G wireless communication module or the WIFI module.

The equipment information detector comprises a radiation detector, a two-dimensional code scanning gun and an equipment detection platform; the equipment detects the fixed access & exit department of putting in warehouse-out at high risk mobile radiation source, and radiation detector installs on the equipment detects the platform, and the code rifle is swept to the two-dimensional code and is placed near the equipment detects the platform, and radiation detector is used for detecting the radiant quantity of high risk mobile radiation source, and the code rifle is swept to the two-dimensional code is used for detecting the two-dimensional code on the high risk mobile radiation source, and radiation detector, two-dimensional code sweep the code rifle all with the smart machine communication be connected.

And the radiation detector is in communication connection with a second serial port communication module in the intelligent machine.

The two-dimensional code scanning gun is in communication connection with the intelligent machine through the first serial port communication module or the Bluetooth communication module.

The equipment detection platform is a Z-shaped support and mainly comprises two horizontal plates and a vertical plate between the two horizontal plates, and the radiation detector is arranged on the outer side wall of the vertical plate.

The high-risk mobile radioactive source is a flaw detector.

The utility model has the advantages that:

the utility model integrates a large-volume radiation detector, shortens the response time and improves the detection precision; a two-dimensional code scanning mode is adopted, so that recognition errors are avoided; the commercial power or the mobile power supply is adopted for power supply, and continuous warehouse entry and exit operation can be carried out; the integrated face recognition module rejects the fake-claiming operation of the person with inconsistent identity; the system is communicated with a central monitoring platform in real time, and alarm information is sent out in time when the dosage rate is detected to be abnormal; the single intelligent machine can simultaneously meet the requirements of different flaw detection operation units for use in and out of the warehouse.

Drawings

FIG. 1 is a general diagram of the system of the present invention;

fig. 2 is a composition diagram of the intelligent machine of the present invention;

fig. 3 is a block diagram of the device information detector of the present invention;

fig. 4 is a schematic view of the device inspection table of the present invention.

In the figure: the system comprises a monitoring center platform module 1, an intelligent machine 2 and an equipment information detector 3; the system comprises a face recognition module 4, a camera 5, a 4G wireless communication module 6, a Bluetooth communication module 7, a WIFI module 8, a serial communication module 9, a serial communication module 10 and a LAN (local area network) port 11; radiation detector 12, two-dimensional code sweep yard rifle 13, equipment detect platform 14.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1, the implemented high-risk mobile radioactive source warehousing and ex-warehouse monitoring system includes a monitoring center platform module 1, an intelligent machine 2 and an equipment information detector 3, wherein the monitoring center platform module 1 is in communication connection with the intelligent machine 2, and the intelligent machine 2 is in communication connection with the equipment information detector 3; the monitoring center platform module 1 is placed at the cloud end, and the intelligent machine 2 and the equipment information detector 3 are placed at an entrance and an exit of the high-risk mobile radioactive source for entering and exiting;

and the monitoring center platform module 1 is used for receiving the information sent by the intelligent machine 2, recording all data of the high-risk mobile radioactive source warehouse-in and warehouse-out monitoring system, storing the data, placing the data at the cloud of a server and allowing the data to be accessed through the Internet. The equipment information detector 3 sends the data detected by the equipment information detector to the monitoring center platform module 1 through the intelligent machine 2.

The single intelligent machine 2 can meet the use of the warehouse entry and the warehouse exit of different flaw detection operation units at the same time. As shown in fig. 2, the intelligent machine 2 is provided with a face recognition module 4, a camera 5, a 4G wireless communication module 6, a bluetooth communication module 7, a WIFI module 8, a first serial port communication module 9, a second serial port communication module 10, and a LAN network port 11; the camera 5 and the face recognition module 4 are arranged near the equipment detection table 14 of the equipment information detector 3, the camera 5 is in communication connection with the intelligent machine 2 through the face recognition module 4, and the intelligent machine 2 is in communication with the monitoring center platform module 1 through the LAN port 11 or the 4G wireless communication module 6 or the WIFI module 8.

In specific implementation, the intelligent machine 2 is a PC computer, and preferably has an internal Android operating system.

As shown in fig. 3, the device information detector 3 includes a radiation detector 12, a two-dimensional code scanning gun 13, and a device detection table 14; equipment detects 14 fixed places in the entrance and exit of high risk removal radiation source warehouse entry, radiation detector 12 fixed mounting is on equipment detects 14, the two-dimensional code is swept yard rifle 13 and is placed near equipment detects 14, radiation detector 12 is used for detecting the radiant quantity of high risk removal radiation source, the two-dimensional code is swept yard rifle 13 and is used for detecting the two-dimensional code on the high risk removal radiation source, radiation detector 12, the two-dimensional code is swept yard rifle 13 and all is connected with 2 communications of intelligent machine, radiation detector 12 is connected with the 10 communications of second serial communication module in the intelligent machine 2.

Two-dimensional code sweeps a yard rifle 13 and is connected with the communication of smart machine 2 through first serial port communication module 9 or bluetooth communication module 7. When the wired mode is adopted, the intelligent machine is connected with a first serial port communication module 9 in the intelligent machine 2; a two-dimensional code scanning gun 13; when the wireless mode is adopted, the intelligent machine is connected with the Bluetooth communication module 7 in the intelligent machine 2.

As shown in fig. 4, the equipment inspection table 14 is a Z-shaped bracket, and mainly includes two horizontal plates and a vertical plate between the two horizontal plates, the vertical plate serves as a boundary baffle of the equipment inspection table 14 and a partition plate for the radiation detector 12 to be attached, the radiation detector 12 is installed on the outer side wall of the vertical plate, and the horizontal plate below the radiation detector is used for placing a flaw detector. The equipment inspection station 14 keeps the relative position of the same high-risk mobile radioactive source to the radiation detector 12 unchanged during the warehousing and ex-warehousing, and ensures that the dose detection result is comparable.

In the concrete implementation, the high risk removes the radiation source and is the defectoscope, through the utility model discloses the radiation dose of device monitoring defectoscope when going out the warehouse.

The utility model discloses use the working process description:

when leading the defectoscope warehouse entry, place the defectoscope on equipment inspection station 14, it is preceding at first to stand intelligent machine 2, and intelligent machine 2 shoots leading personnel's face image and then sends face identification module 4 to carry out face identification through camera 5, confirms leading personnel's identity information:

if the identity information of the lead is not in the high-risk mobile radioactive source in-out monitoring system which is pre-entered, the in-out operation is not allowed.

If the identity information of the personnel of claiming has registered in the high risk mobile radioactive source warehouse-in and warehouse-out monitoring system, then the system will open the two-dimensional code and sweep the yard function of sweeping of yard rifle 13, and the personnel of claiming sweeps yard rifle 13 with the two-dimensional code and sweeps the yard to the two-dimensional code fixed on the defectoscope:

when the two-dimension code is identified by the two-dimension code scanning gun 13, the identity is compared through the monitoring center platform module 1,

if the leader has the authority to use the high-risk mobile radioactive source, the system starts the camera 5 to shoot images at the detection table 14 of the device and images of surrounding scenes of the device, and the images at the moment are stored in the monitoring center platform module 1 of the system.

Meanwhile, the detection data of the radiation detector 12 at the moment is collected and recorded in the monitoring center platform module 1,

the system compares the detection data of the radiation detector 12 at this moment with the detection data of the last moment to judge:

if the change of the detection data at the moment and the detection data at the last moment is not greater than the preset threshold value, no abnormity occurs, the system can send out a prompt tone for successful warehousing or ex-warehouse through the loudspeaker, otherwise, the prompt fails, and the operation of warehousing and ex-warehouse is not allowed.

This implementation shows that:

through the use process of the utility model, personnel receiving the high-risk mobile radioactive source firstly need to carry out face recognition, ensure that the personnel receiving the high-risk mobile radioactive source is registered and put on record in a supervision system in advance and has the authority to use the serial number;

during the process of handling the high-risk mobile radioactive source to enter and exit the warehouse, radiation dose detection is automatically carried out, and the dose rate detection results of two nodes of the high-risk mobile radioactive source to enter and exit the warehouse are compared, so that the subjective misjudgment of flaw detection operators is avoided, and the normal entering and exiting of the high-risk mobile radioactive source is ensured;

the utility model discloses can remove the discrepancy storehouse scene of radiation source to the high risk and shoot the reservation, do benefit to and trace back.

The single set of intelligent machine of the high-risk mobile radioactive source warehouse-in and warehouse-out monitoring system can simultaneously meet the use of warehouse-in and warehouse-out of different flaw detection operation units; the whole warehouse-in and warehouse-out process of the high-risk mobile radioactive source is in the monitoring process of the system, if abnormity occurs, the system timely records and gives an alarm to prompt, and the nuclear and radiation safety is ensured.

Claims (5)

1. The utility model provides a be applied to thing networking systems that high risk removed radiation source warehouse entry, its characterized in that:

the intelligent monitoring system comprises a monitoring center platform module (1), an intelligent machine (2) and an equipment information detector (3), wherein the monitoring center platform module (1) is in communication connection with the intelligent machine (2), and the intelligent machine (2) is in communication connection with the equipment information detector (3); the monitoring center platform module (1) is placed at the cloud end, and the intelligent machine (2) and the equipment information detector (3) are placed at an entrance and an exit of the high-risk mobile radioactive source for entering and exiting;

the intelligent machine (2) is provided with a face recognition module (4), a camera (5), a 4G wireless communication module (6), a Bluetooth communication module (7), a WIFI module (8), a first serial port communication module (9), a second serial port communication module (10) and a LAN (local area network) port (11); the camera (5) is arranged near an equipment detection table (14) of the equipment information detector (3), the camera (5) is in communication connection with the intelligent machine (2) through the face recognition module (4), and the intelligent machine (2) is in communication with the monitoring center platform module (1) through the LAN port (11) or the 4G wireless communication module (6) or the WIFI module (8);

the equipment information detector (3) comprises a radiation detector (12), a two-dimensional code scanning gun (13) and an equipment detection table (14); equipment detects platform (14) fixed the entrance of putting in high risk removal radiation source warehouse entry, radiation detector (12) are installed on equipment detects platform (14), the yard rifle (13) is swept to the two-dimensional code and is placed near equipment detects platform (14), radiation detector (12) are used for detecting the radiant quantity of high risk removal radiation source, the yard rifle (13) is swept to the two-dimensional code and is used for detecting the two-dimensional code on the high risk removal radiation source, radiation detector (12), yard rifle (13) is swept to the two-dimensional code all is connected with intelligent machine (2) communication.

2. The system of claim 1, wherein the system comprises: the radiation detector (12) is in communication connection with a second serial port communication module (10) in the intelligent machine (2).

3. The system of claim 1, wherein the system comprises: the two-dimensional code scanning gun (13) is in communication connection with the intelligent machine (2) through the first serial port communication module (9) or the Bluetooth communication module (7).

4. The system of claim 1, wherein the system comprises: the equipment detection platform (14) is a Z-shaped support and mainly comprises two horizontal plates and a vertical plate between the two horizontal plates, and the radiation detector (12) is arranged on the outer side wall of the vertical plate.

5. The system of claim 1, wherein the system comprises: the high-risk mobile radioactive source is a flaw detector.

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