CN219611870U - Online line monitoring device based on image recognition technology - Google Patents
Online line monitoring device based on image recognition technology Download PDFInfo
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- CN219611870U CN219611870U CN202322054093.3U CN202322054093U CN219611870U CN 219611870 U CN219611870 U CN 219611870U CN 202322054093 U CN202322054093 U CN 202322054093U CN 219611870 U CN219611870 U CN 219611870U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A90/00—Technologies having an indirect contribution to adaptation to climate change
- Y02A90/10—Information and communication technologies [ICT] supporting adaptation to climate change, e.g. for weather forecasting or climate simulation
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Abstract
The utility model discloses a line on-line monitoring device based on an image recognition technology, which relates to the technical field of on-line monitoring and comprises a main monitoring device, an auxiliary monitoring device, an intelligent recognition unit, a rotating shaft, a storage card and a solar power supply, wherein the main monitoring device shoots high-definition pictures through a high-definition camera, the high-definition camera adopts a lens to realize the amplification and shrinkage of scenery pictures, an infrared LED lamp and an infrared sensing signal processor are adopted to realize the full-color shooting in a 0.001Lux dim light environment, the auxiliary monitoring device realizes remote shouting and microclimate monitoring through an audible and visual alarm, a digital temperature sensor, a wind speed sensor, an inclined rain gauge and a barometer, the intelligent recognition unit realizes image recognition through a ZSXY8667 main chip, the storage card realizes the local storage of data through a flash memory chip and a storage card controller, and the solar power supply realizes the generation and the storage of electric energy through a solar photovoltaic panel and an energy storage battery.
Description
Technical Field
The utility model belongs to the technical field of online monitoring, and particularly relates to a line online monitoring device based on an image recognition technology.
Background
The line on-line monitoring device mainly takes images, has the advantages of small size, easy installation, high cost performance and the like, brings great convenience for line inspection and management, changes 'multi-day one-night inspection' into 'multi-day one-night inspection', effectively improves the inspection efficiency of the power transmission line, and has higher and higher requirements of customers on the monitoring device along with batch application of the monitoring device, so that the multifunctional line on-line monitoring device is needed.
The traditional online line monitoring device has many defects, on one hand, the existing online line monitoring device is insufficient in definition of pictures, can not realize amplification and shrinkage of scenery pictures, can not realize shooting of high-definition images in dark environments, on the other hand, the existing online line monitoring device can not identify the shot pictures, has less stored data, can not store the pictures to the local place when networking fails, and needs to be connected with an external power supply to provide electric energy.
Disclosure of Invention
The utility model aims at: the utility model provides a circuit on-line monitoring device based on image recognition technique, wherein main monitoring device passes through high definition digtal camera and shoots the high definition digtal camera, the high definition digtal camera adopts lens realization scenery picture's enlargement and reduction, adopt infrared LED lamp and infrared sensing signal processor to realize keeping full-color shooting at 0.001Lux low light environment, vice monitoring device passes through audible and visual alarm, digital temperature sensor, wind speed sensor, tilting rain gauge and barometer realization long-range shouting and microclimate monitoring, intelligent recognition unit passes through ZSY 8667 main chip and realizes image recognition, the memory card passes through flash memory chip and memory card controller realization data local storage, solar power source passes through solar photovoltaic cell panel and energy storage battery realization production and stores the electric energy.
In order to achieve the technical effects, the utility model adopts the following technical scheme:
an on-line monitoring device based on image recognition technology, comprising: the intelligent monitoring system comprises a main monitoring device, an auxiliary monitoring device, an intelligent identification unit, a rotating shaft, a storage card and a solar power supply, wherein the main monitoring device is arranged at the lower end of a line on-line monitoring device, the auxiliary monitoring device is arranged at the upper end of the line on-line monitoring device, the solar power supply is arranged at the left side of the line on-line monitoring device, the rotating shaft is arranged between the main monitoring device and the auxiliary monitoring device, the storage card is arranged at the right side of the main monitoring device, and the intelligent identification unit is arranged at the right side of the storage card.
As a further description of the above technical solution:
the left side of the main monitoring device is provided with a high-definition camera for shooting high-definition pictures, 2400 ten thousand pixels are supported to the maximum extent by the high-definition camera, the amplification and the reduction of scenery pictures are realized by the aid of a lens arranged in the high-definition camera, light rays are converted into electric signals by the aid of the high-definition camera through a CMOS sensor, and the electric signals are converted into digital images by the aid of a DPS processor by the aid of the CMOS sensor.
As a further description of the above technical solution:
the high-definition camera is provided with infrared LED lamp emission infrared lamp light, and the high-definition camera converts infrared lamp light into visible light images through the infrared sensing signal processor, so that the high-definition camera can keep full-color shooting in a 0.001Lux weak light environment.
As a further description of the above technical solution:
the auxiliary monitoring device is provided with an audible and visual alarm to realize a remote shouting function, and is provided with a digital temperature sensor, a wind speed sensor, an inclined rain gauge and a barometer to realize microclimate monitoring.
As a further description of the above technical solution:
the intelligent recognition unit is provided with a ZSYX-Y8667 main chip for image recognition, a recognition result is divided into an alarm picture and a non-alarm picture, the ZSYX-Y8667 main chip is used for accelerating the image recognition speed by a neural network hardware acceleration engine, and the processing speed of the ZSYX-Y8667 main chip reaches trillion times per second for calculation.
As a further description of the above technical solution:
the storage card is provided with a flash memory chip to realize a data local storage function, the storage card reads and writes data through a storage card controller, the storage card manages the flash memory chip to store the data, and the storage card realizes high-speed data transmission with the main monitoring device through a metal connector.
As a further description of the above technical solution:
the solar power supply converts sunlight into electric energy by adopting a solar photovoltaic panel, the solar power supply stores the electric energy through an energy storage battery, and monitors the electric energy output by the solar photovoltaic panel through a charging controller to control the charging and discharging processes of the energy storage battery.
In summary, due to the adoption of the technical scheme, the beneficial effects of the utility model are as follows: the main monitoring device shoots high-definition pictures through a high-definition camera, the high-definition camera adopts a lens to realize the amplification and the shrinkage of scenery pictures, an infrared LED lamp and an infrared sensing signal processor are adopted to realize that full-color shooting is kept in a 0.001Lux weak light environment, the auxiliary monitoring device realizes remote shouting and microclimate monitoring through an audible and visual alarm, a digital temperature sensor, a wind speed sensor, an inclined rain gauge and a barometer, an intelligent recognition unit realizes image recognition through a ZSXY8667 main chip, a memory card realizes data local storage through a flash memory chip and a memory card controller, and a solar power supply realizes generation and storage of electric energy through a solar photovoltaic panel and an energy storage battery.
Drawings
For a clearer description of embodiments of the utility model or of solutions in the prior art, the drawings that are necessary for the description of the embodiments or of the prior art will be briefly described, it being apparent that the drawings in the description below are only some embodiments of the utility model, from which, without inventive faculty, other drawings can be obtained for a person skilled in the art, in which:
FIG. 1 is a top view of the overall architecture of the present utility model;
FIG. 2 is a schematic diagram of a master monitor device according to the present utility model;
FIG. 3 is a schematic diagram of the secondary monitoring device;
FIG. 4 is a circuit diagram of the intelligent recognition unit of the present utility model;
reference numerals in the drawings: 1. a master monitoring device; 2. a secondary monitoring device; 3. an intelligent recognition unit; 4. a rotation shaft; 5. a memory card; 6. a solar power supply; 7. high definition camera; 8. a lens; 9. a CMOS sensor; 10. a DPS processor; 11. an infrared LED lamp; 12. an infrared sensing signal processor; 13. an audible and visual alarm; 14. a digital temperature sensor; 15. a wind speed sensor; 16. an inclined rain gauge; 17. a barometer; 18. ZSXY8667 master chip; 19. a neural network hardware acceleration engine; 20. a flash memory chip; 21. a memory card controller; 22. a metal joint; 23. a solar photovoltaic panel; 24. an energy storage battery; 25. and a charge controller.
Detailed Description
The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.
As shown in fig. 1-4, an online line monitoring device based on image recognition technology includes:
the main monitoring device 1 is used for shooting panoramic view of a target area, in a specific embodiment, the main monitoring device 1 adopts a high-definition camera 7 to shoot a high-definition picture, the working principle of the high-definition camera 7 is that light rays are focused on a CMOS sensor 9 through an optical lens, the CMOS sensor 9 converts optical images into digital signals, the digital signals are processed and compressed into digital video signals through a DPS processor 10, finally the digital video signals are output to a display device through a video output port, high-quality and high-resolution video pictures are displayed, the high-definition camera 7 utilizes an infrared LED lamp 11 suspended in front of the camera to emit infrared lamp light with specific wavelength, the lamp light can illuminate the surface of a shot object at night, in foggy days or in cloudy days, and the camera can collect the reflected infrared lamp light through an infrared sensor 12 to convert the infrared lamp light into visible images, so that the object in darkness can be seen clearly.
The auxiliary monitoring device 2 is used for achieving microclimate monitoring and audible and visual alarm, in a specific embodiment, the auxiliary monitoring device 2 carries out remote shouting through an audible and visual alarm 13, the audible and visual alarm 13 is used for sending out warning to surrounding people when the intelligent identification unit 3 identifies warning pictures and reminding the people to take emergency measures in time for coping, the digital temperature sensor 14 is used for measuring the temperature and humidity in the air, the wind speed sensor 15 is used for measuring the wind speed and the wind direction of the air flow, the inclined type rain gauge 16 is used for measuring the falling quantity of rainwater in a unit area, and the barometer 17 is used for measuring the atmospheric pressure.
The intelligent recognition unit 3 is configured to recognize an alarm picture and a non-alarm picture, in a specific embodiment, the intelligent recognition unit 3 performs image recognition through a ZSXY8667 main chip 18, the ZSXY8667 main chip integrates a neural network hardware acceleration engine 19, the processing capacity reaches 1.0Tops (one trillion times per second can be calculated), the processing time of a single picture is not more than 2s, the recognition accuracy is high, the alarm picture is uploaded in real time, and the non-alarm picture can be remotely retrieved through a background.
And a rotation shaft 4 for performing rotation and pitching operations of the main monitoring device 1 and the sub monitoring device 2.
The memory card 5 is configured to provide a storage space of the master monitoring device 1, in a specific embodiment, the memory card 5 adopts a flash memory chip 20 to implement a data local storage function, the flash memory chip 20 adopts a memory array form, and includes components such as a bit line, a word line, a storage unit, and the like, and when a certain voltage is applied, the storage unit can store prepared charges in a floating gate, thereby changing a threshold voltage of a transistor and implementing storage of information.
The solar power supply 6 is used for generating and storing electric energy and supplying power to the line on-line monitoring device, in a specific embodiment, the solar power supply 6 converts sunlight into electric energy by adopting a solar photovoltaic cell panel 23, the main principle of the solar photovoltaic cell panel 23 is to realize conversion of electric energy based on a photoelectric effect, the photoelectric effect is that when photons collide with a physical interface of a specific material, energy is absorbed by electrons, atoms exciting an electronic state are thrown out of substances to form an electron-hole pair, and the phenomenon is called a photodiode effect, and the solar photovoltaic cell panel is based on the phenomenon.
The intelligent monitoring device is characterized in that the main monitoring device 1 is arranged at the lower end of the on-line monitoring device, the auxiliary monitoring device 2 is arranged at the upper end of the on-line monitoring device, the solar power supply 6 is arranged at the left side of the on-line monitoring device, the rotating shaft 4 is arranged between the main monitoring device 1 and the auxiliary monitoring device 2, the storage card 5 is arranged at the right side of the main monitoring device 1, and the intelligent identification unit 3 is arranged at the right side of the storage card 5.
The left side of the main monitoring device 1 is provided with a high-definition camera 7 for shooting high-definition pictures, 2400 ten thousand pixels are supported to the maximum extent by the high-definition camera 7, the amplification and the reduction of scenery pictures are realized by the aid of a lens 8 arranged in the high-definition camera 7, light rays are converted into electric signals by the high-definition camera 7 through a CMOS sensor 9, and the electric signals are converted into digital images by the CMOS sensor 9 through a DPS processor 10.
The high-definition camera 7 is provided with an infrared LED lamp 11 for emitting infrared lamp light, and the high-definition camera 7 converts the infrared lamp light into a visible light image through an infrared sensing signal processor 12, so that the high-definition camera 7 can keep full-color shooting in a 0.001Lux weak light environment.
The auxiliary monitoring device 2 is provided with an audible and visual alarm 13 to realize a remote shouting function, and the auxiliary monitoring device 2 is provided with a digital temperature sensor 14, a wind speed sensor 15, an inclined type rain gauge 16 and a barometer 17 to realize microclimate monitoring.
The intelligent recognition unit 3 is provided with a ZSYX-Y8667 main chip 18 for image recognition, a recognition result is divided into an alarm picture and a non-alarm picture, the ZSYX-Y8667 main chip 18 is used for accelerating the image recognition speed by adopting a neural network hardware acceleration engine 19, and the processing speed of the ZSYX-Y8667 main chip 18 reaches one trillion times per second for calculation.
The memory card 5 is provided with a flash memory chip 20 to realize a data local storage function, the memory card 5 reads and writes data through a memory card controller 21 to manage the flash memory chip 20 to store the data, and the memory card 5 realizes high-speed data transmission with the master monitoring device 1 through a metal connector 22.
The solar power supply 6 converts sunlight into electric energy by adopting the solar photovoltaic panel 23, the solar power supply 6 stores the electric energy through the energy storage battery 24, and the solar power supply 6 monitors the electric energy output by the solar photovoltaic panel 23 through the charging controller 25 to control the charging and discharging process of the energy storage battery 24.
While specific embodiments of the present utility model have been described above, it will be understood by those skilled in the art that these specific embodiments are by way of example only, and that various omissions, substitutions, and changes in the form and details of the methods and systems described above may be made by those skilled in the art without departing from the spirit and scope of the utility model. For example, it is within the scope of the present utility model to combine the above-described method steps to perform substantially the same function in substantially the same way to achieve substantially the same result. Accordingly, the scope of the utility model is limited only by the following claims.
Claims (7)
1. An on-line monitoring device for a line based on an image recognition technology is characterized by comprising:
the main monitor shooting device (1) is used for shooting the panorama of the target area;
the auxiliary monitoring device (2) is used for realizing microclimate monitoring and audible and visual alarm;
the intelligent identification unit (3) is used for identifying the alarm picture and the non-alarm picture;
a rotation shaft (4) for performing rotation and pitching operations of the main monitoring device (1) and the sub monitoring device (2);
a memory card (5) for providing a memory space for the master monitoring apparatus (1);
the solar power supply (6) is used for generating and storing electric energy and supplying power to the line on-line monitoring device;
the intelligent monitoring device is characterized in that the main monitoring device (1) is arranged at the lower end of the on-line monitoring device, the auxiliary monitoring device (2) is arranged at the upper end of the on-line monitoring device, the solar power supply (6) is arranged at the left side of the on-line monitoring device, the rotating shaft (4) is arranged between the main monitoring device (1) and the auxiliary monitoring device (2), the storage card (5) is arranged at the right side of the main monitoring device (1), and the intelligent identification unit (3) is arranged at the right side of the storage card (5).
2. The line on-line monitoring device based on the image recognition technology according to claim 1, wherein: the intelligent monitoring camera is characterized in that a high-definition camera (7) is arranged on the left side of the main monitoring camera device (1) to shoot high-definition pictures, 2400 ten thousand pixels are supported by the high-definition camera (7) at maximum, the amplification and the reduction of scenery pictures are realized by a lens (8) arranged in the high-definition camera (7), light rays are converted into electric signals by the high-definition camera (7) through a CMOS sensor (9), and the electric signals are converted into digital images by the CMOS sensor (9) through a DPS processor (10).
3. The line on-line monitoring device based on the image recognition technology according to claim 2, wherein: the high-definition camera (7) is provided with an infrared LED lamp (11) for emitting infrared lamp light, the high-definition camera (7) converts the infrared lamp light into a visible light image through an infrared sensing signal processor (12), and full-color shooting of the high-definition camera (7) in a 0.001Lux weak light environment is realized.
4. The line on-line monitoring device based on the image recognition technology according to claim 1, wherein: the auxiliary monitoring device (2) is provided with an audible and visual alarm (13) to realize a remote shouting function, and the auxiliary monitoring device (2) is provided with a digital temperature sensor (14), a wind speed sensor (15), an inclined rain gauge (16) and a barometer (17) to realize microclimate monitoring.
5. The line on-line monitoring device based on the image recognition technology according to claim 1, wherein: the intelligent recognition unit (3) is provided with a ZSYX-Y8667 main chip (18) for carrying out image recognition, a recognition result is divided into an alarm picture and a non-alarm picture, the ZSYX-Y8667 main chip (18) is used for accelerating the image recognition speed by adopting a neural network hardware acceleration engine (19), and the processing speed of the ZSYX-Y8667 main chip (18) reaches one trillion times per second for calculation.
6. The line on-line monitoring device based on the image recognition technology according to claim 1, wherein: the storage card (5) is provided with a flash memory chip (20) to realize a data local storage function, the storage card (5) reads and writes data through a storage card controller (21) to manage the flash memory chip (20) to store the data, and the storage card (5) realizes high-speed data transmission with the master monitoring device (1) through a metal connector (22).
7. The line on-line monitoring device based on the image recognition technology according to claim 1, wherein: the solar energy power supply (6) converts sunlight into electric energy by adopting a solar photovoltaic cell panel (23), the solar energy power supply (6) stores the electric energy through an energy storage battery (24), and the solar energy power supply (6) monitors the electric energy output by the solar photovoltaic cell panel (23) through a charging controller (25) to control the charging and discharging processes of the energy storage battery (24).
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CN202322054093.3U CN219611870U (en) | 2023-08-02 | 2023-08-02 | Online line monitoring device based on image recognition technology |
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CN202322054093.3U CN219611870U (en) | 2023-08-02 | 2023-08-02 | Online line monitoring device based on image recognition technology |
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