CN109901484B - Control system and method of high-altitude and low-temperature environment electric control device based on AI system - Google Patents

Abstract

The invention relates to a high-altitude and low-temperature environment electric control device control system based on an AI system, which comprises an electric control device cabinet body, environment detection terminals, driving guide rails, an electric power detector, a fault detector, an Internet of things controller, an auxiliary control circuit, a data communication network and a data processing server based on an AI technology foundation, wherein at least one electric control device cabinet body and at least two driving guide rails are arranged in the electric control device cabinet body and are provided with at least one environment detection terminal. The control method comprises six steps of equipment assembly, hardware identification, equipment networking, operation strategy distribution, operation control, system parameter correction and the like. The invention can effectively meet the requirements of embryo use with various types of electric control device equipment on one hand, and can effectively realize that the electric control device automatically utilizes the electric control device to automatically operate independently without depending on the intervention of workers on the other hand, thereby greatly improving the automation level and the intelligent level of the operation of the electric control device.

Description

Control system and method of high-altitude and low-temperature environment electric control device based on AI system

Technical Field

The invention relates to a control system and a control method of an AI-system-based high-altitude and low-temperature environment electric control device, belonging to the technical field of power transmission and transformation and electric control equipment.

Background

In various electric control devices which are operated under a low-pressure environment and a low-temperature environment at high altitude, a temperature and pressure regulating mechanism based on equipment such as an air conditioning unit, a hot air blower, an air pump and the like is additionally required to be added to ensure stable internal operation environment of the electric control device and prevent circuit components of the electric control device from being failed due to severe working environments such as low temperature and low air pressure, but in practical use, the current electric control devices are usually provided with a control system based on an industrial computer such as a programmable logic controller and an industrial singlechip to adjust and control the operation state of the electric control device and the temperature and pressure regulating operation state, and although the automation degree of the operation of the electric control device can be improved to a certain degree, the electric control devices can only operate by depending on a fixed program and cannot flexibly adjust the operation state of the electric control device according to environmental changes, in addition, the data communication capability of the control system of the electric control device used at present is relatively poor, so that the remote operation and management capability of the electric control device equipment at present are relatively insufficient, the control precision is relatively poor, the requirement of monitoring and managing the electric control device at a long distance cannot be effectively met, and the use and operation stability of the equipment such as an unmanned substation, a container substation and the like under a low-voltage environment at a high altitude and a low-temperature environment are severely limited.

Therefore, in view of the current situation, it is urgently needed to develop a new control system of an electric control device to meet the actual use requirement.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides the control system of the electric control device in the high altitude and low temperature environment based on the AI system, on one hand, the system has simple structure, simple installation, maintenance and daily management and good universality, can effectively meet the requirements of embryo use with various different types of electric control device equipment, on the other hand, the data detection is comprehensive in operation, the data precision is high, the data communication capability is strong, the operation automation degree is high, the stability and the reliability of the data communication are ensured, and on the other hand, the automatic operation of the electric control device by automatically utilizing the electric control device can be effectively realized without depending on the intervention of workers, thereby greatly improving the automatic level and the intelligent level of the operation of the electric control device.

In order to achieve the purpose, the invention is realized by the following technical scheme:

a high-altitude and low-temperature environment electric control device control system based on an AI system comprises an electric control device cabinet body, environment detection terminals, at least one driving guide rail, an electric power detector, a fault detector, an Internet of things controller, an auxiliary control circuit, a data communication network and a data processing server based on an AI technology, wherein the electric control device cabinet body is of a closed cavity structure with a rectangular cross section, the driving guide rails are at least two and are arranged in the electric control device cabinet body and embedded on the upper end surface and the lower end surface of the electric control device cabinet body, the driving guide rails are of a closed annular structure coaxially distributed with the electric control device cabinet body, each driving guide rail is provided with at least one environment detection terminal and is in sliding connection with the environment detection terminals, the axis of each environment detection terminal and the axis of the electric control device cabinet body form an included angle of 0-90 degrees, and the electric power detector, the fault detector, the Internet of things controller, the Internet of things controller and the electric control device are connected with the electric control device cabinet body through the electric power detector, The auxiliary control circuits are all located in the electric control device cabinet body, each electric control device cabinet body is provided with at least one electric power detector, at least one fault detector, at least four Internet of things controllers and one auxiliary control circuit, wherein one electric power detector and one fault detector form one working group and form at least two working groups, the working groups are mutually connected in parallel, the Internet of things controllers are electrically connected with the auxiliary control circuits, and one Internet of things controller is electrically connected with each driving guide rail; the Internet of things controller is electrically connected with each environment detection terminal; one Internet of things controller is electrically connected with the power detectors and the fault detectors in each working group; the Internet of things controller is electrically connected with a circuit system of the electric control device cabinet body; the Internet of things controller and the auxiliary control circuit are respectively connected with the AI-technology-based data processing server through the data communication network, and each AI-technology-based data processing server is connected with the Internet of things controller and the auxiliary control circuit in the at least two electric control device cabinets through the data communication network.

Furthermore, a sliding block is additionally arranged on the driving guide rail and is connected with the environment detection terminal through the sliding block.

Furthermore, the slider is additionally provided with an organ protective cover, a displacement sensor and a rotary table mechanism, wherein at least one displacement sensor is positioned on the lower end face of the slider and connected with the driving guide rail, the rotary table mechanism is positioned on the front end face of the slider, coaxially distributed with the slider and mutually connected with the environment detection terminal, the two organ protective covers are respectively positioned on two sides of the slider, cover the outside of the driving guide rail and coaxially distributed with the driving guide rail, one end of the organ protective cover is connected with the side surface of the slider, the other end of the organ protective cover is connected with the end face of the driving guide rail, and the displacement sensor and the rotary table mechanism are both electrically connected with the auxiliary control circuit.

Further, the environment detection terminal comprises a bearing base, a workbench, a protective cover, a temperature sensor, a humidity sensor, an air pressure sensor, a distance measuring sensor, a monitoring camera and a control circuit, wherein the bearing base is of a closed cavity structure, the rear end face of the bearing base is connected with a rotary table mechanism of a sliding block, the front end face of the bearing base is connected with the workbench and coaxially distributed, the protective cover covers the front end face of the bearing base and the workbench and is used for sealing a bearing chamber of the cavity structure together with the bearing base, the monitoring camera is embedded in the bearing chamber and is connected with the upper end face of the workbench, the axis of the monitoring camera and the axis of the rotary table mechanism form an included angle of 0-90 degrees, the temperature sensor, the humidity sensor, the air pressure sensor and the control circuit are all embedded in the bearing base, and a plurality of through holes are uniformly distributed on the side surface of the bearing base corresponding to the temperature sensor, the humidity sensor and the air pressure sensor, and the total area of the through holes is 13% -10% of the area of the side surface of the bearing base, the distance measuring sensors are at least two and are uniformly distributed on the outer side surface of the bearing base around the axis of the bearing base, the axis of the distance measuring sensors and the axis of the driving guide rail form an included angle of 0-90 degrees, and the control circuit is electrically connected with the temperature sensor, the humidity sensor, the air pressure sensor, the distance measuring sensors and the monitoring camera respectively.

Furthermore, the turntable mechanism is any one of a three-dimensional turntable and a two-dimensional turntable, an angle sensor is arranged on the turntable mechanism, and the angle sensor is electrically connected with the Internet of things controller.

Furthermore, the data communication network comprises at least one online communication network machine and at least one wireless data communication network, and the data communication network is shared by any one or two of the internet and the internet of things.

Furthermore, the auxiliary control circuit comprises a data processing circuit based on an IGBT chip as a core, a data communication bus circuit, a data cache circuit, a driving circuit, an I/O communication port circuit, a serial communication circuit, a wireless data communication circuit, a crystal oscillator clock circuit and an encoding and decoding circuit, wherein the data communication bus circuit is electrically connected with the data processing circuit based on the IGBT chip as the core through the data cache circuit, and the data communication bus circuit is electrically connected with the driving circuit, the I/O communication port circuit, the serial communication circuit, the wireless data communication circuit, the crystal oscillator clock circuit and the encoding and decoding circuit respectively.

The control method of the control system of the high-altitude and low-temperature environment electric control device based on the AI system comprises the following steps:

s1, assembling equipment, namely, firstly installing an environment detection terminal, a driving guide rail, an electric power detector, a fault detector, an internet of things controller and an auxiliary control circuit in the cabinet body of the electric control device, then equipping a circuit system in the cabinet body of the electric control device, electrically connecting the circuit system with the internet of things controller respectively, and finally establishing data connection between the internet of things controller and the auxiliary control circuit and a data processing server based on an AI technology through a data communication network;

s2, identifying hardware, after S1, respectively setting a communication protocol and a data communication addressing address for the Internet of things controller and the auxiliary control circuit through the remote monitoring platform, simultaneously setting a data communication addressing sub-address for each Internet of things controller by the auxiliary control circuit, then simultaneously sending a device hardware identification number, a software identification number and a device data communication verification password to the control circuit and the remote monitoring platform by each Internet of things controller and the auxiliary control circuit, and backing up the device hardware identification number, the software identification number and the device data communication verification password in the remote monitoring platform;

s3, networking equipment, constructing at least one sub-service network by each electric control device connected with the same AI-technology-based data processing server through a data communication network according to the structure of a power supply grid and the structure type, the number and the distribution position of the electric control devices, and when the number of the sub-service networks is two or more, connecting the sub-service networks in series and in parallel;

s4, allocating an operation strategy, and allocating an operation control program, an equipment function backup interchange program, a data acquisition program, a data operation program and an equipment upgrading program for each Internet of things controller and each auxiliary control circuit of each electric control device by the AI-technology-based data processing server;

s5, operation control, after the S4 is completed, in the operation of each electric control device, on one hand, the operation control program distributed in the S4 drives the electric control device circuit system, the environment detection terminal, the drive guide rail, the power detector and the fault detector to operate according to the program, so that the requirement of normal operation of the electric control device circuit system and the temperature and pressure regulating system is met, on the other hand, when any one or more of the Internet-of-things controller and the auxiliary control circuit has a fault, the function backup interchange program is distributed according to the S4, and the normal operation device backs up the operation function of the fault device, and in addition, in the operation process, the system upgrading operation is performed on each Internet-of-things controller, the auxiliary control circuit software system and the hardware device regularly according to the device upgrading program distributed in the S4;

s6, system parameter correction, in the normal operation of the step S5, the environment detection terminal, the driving guide rail, the power detector and the fault detector continuously collect the environment temperature, air pressure, humidity, circuit power, current and voltage parameters when the electric control device operates, and directly feed back the collected data to the data processing server and the auxiliary control circuit based on the AI technology through the corresponding Internet of things controller, firstly, the data processing server and the auxiliary control circuit based on the AI technology carry out data operation processing according to the received parameters according to the data collection program and the data operation program distributed in the step S4, and respectively generate corresponding operation control program parameters, and then, the corresponding operation control program parameters generated by the auxiliary control circuit directly drive the circuit system of the electric control device, the environment detection terminal, the driving guide rail, the power detector and the fault detector, The electric power detector and the fault detector operate according to the program, meanwhile, the auxiliary control circuit receives corresponding operation control program parameters generated by the data processing server based on the AI technology foundation, and corrects the electric control device circuit system, the environment detection terminal, the driving guide rail, the electric power detector and the fault detector according to the program according to the corresponding operation control program parameters generated by the data processing server based on the AI technology foundation.

The invention has the advantages of simple system structure, simple installation, maintenance and daily management, good universality, comprehensive data detection, high data precision, strong data communication capability and high operation automation degree, can effectively meet the requirements of embryo use of various types of electric control device equipment, ensures the stability and reliability of data communication, and can effectively realize the automatic operation of the electric control device by automatically utilizing the electric control device without depending on the intervention of workers, thereby greatly improving the automation level and the intelligence level of the operation of the electric control device.

Drawings

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

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of a connection relationship between a cabinet body of an electric control device and an environment detection terminal;

FIG. 3 is a schematic diagram of a control circuit;

FIG. 4 shows a control method according to the present invention.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1-3, the high altitude and low temperature environment electric control device control system based on the AI system includes an electric control device cabinet 1, environment detection terminals 2, driving guide rails 3, an electric power detector 4, a fault detector 5, an internet of things controller 6, an auxiliary control circuit 7, a data communication network 8 and a data processing server 9 based on the AI technology, at least one electric control device cabinet 1 is a closed cavity structure with a rectangular cross section, at least two driving guide rails 3 are arranged in the electric control device cabinet 1 and embedded in the upper end surface and the lower end surface of the electric control device cabinet 1, the driving guide rails 3 are a closed ring structure coaxially distributed with the electric control device cabinet 1, each driving guide rail 3 is provided with at least one environment detection terminal 2 and slidably connected with the environment detection terminals 2, the axis of the environment detection terminal 2 forms an included angle of 0-90 degrees with the axis of the electric control device cabinet 1, the electric power detector 4, the fault detector 5, the internet-of-things controller 6 and the auxiliary control circuit 7 are all located in the electric control device cabinet body 1, each electric control device cabinet body 1 is provided with at least one electric power detector 4, at least one fault detector 5, at least four internet-of-things controllers 6 and one auxiliary control circuit 7, one electric power detector 4 and one fault detector 5 form a working group and form at least two working groups, the working groups are connected in parallel, the internet-of-things controller 6 is electrically connected with the auxiliary control circuit 7, and one internet-of-things controller 6 is electrically connected with each driving guide rail 3; one Internet of things controller 6 is electrically connected with each environment detection terminal 2; one Internet of things controller 6 is electrically connected with the power detectors 4 and the fault detectors 5 in each working group; an internet-of-things controller 6 is electrically connected with a circuit system of the electric control device cabinet body 1; the internet-of-things controller 6 and the auxiliary control circuit 7 are respectively connected with the data processing server 9 based on the AI technology through the data communication network 8, and each data processing server 9 based on the AI technology is connected with the internet-of-things controller 6 and the auxiliary control circuit 7 in at least two electric control device cabinet bodies 1 through the data communication network 8.

The driving guide rail 3 is additionally provided with a slide block 10 and is connected with the environment detection terminal 2 through the slide block 10, the slide block 10 is additionally provided with an organ shield 11, two organ shields 11 and two turntable mechanisms 13, wherein at least one of the displacement sensors 12 is positioned on the lower end face of the slide block 10 and is connected with the driving guide rail 3, the turntable mechanisms 13 are positioned on the front end face of the slide block 10, are distributed coaxially with the slide block 10 and are connected with the environment detection terminal 2, the organ shields 11 are respectively positioned on two sides of the slide block 10, are coated outside the driving guide rail 3 and are distributed coaxially with the driving guide rail 3, one end of each organ shield 11 is connected with the side surface of the slide block 10, and the other end of each organ shield is connected with the end face of the driving guide rail 3, and the displacement sensors 12 and the turntable mechanisms 13 are both electrically connected with the auxiliary control circuit 7.

It should be emphasized that, the environment detection terminal 2 includes a bearing base 21, a workbench 22, a protective cover 23, a temperature sensor 24, a humidity sensor 25, an air pressure sensor 26, a distance measuring sensor 27, a monitoring camera 28 and a control circuit 29, the bearing base 21 is a closed cavity structure, the rear end surface thereof is connected with the turntable mechanism 13 of the slider 10, the front end surface is connected with and coaxially distributed with the workbench 22, the protective cover 23 covers the front end surface of the bearing base 21 and the workbench 22 and is closed with the bearing base 21 to form a bearing chamber 20 of the cavity structure, the monitoring camera 28 is embedded in the bearing chamber 20 and is connected with the upper end surface of the workbench 22, wherein the axis of the monitoring camera 28 and the axis of the turntable mechanism 13 form an included angle of 0-90 degrees, the temperature sensor 24, the humidity sensor 25, the air pressure sensor 26 and the control circuit 29 are all embedded in the bearing base 21, and a plurality of through holes 14 are uniformly distributed on the lateral surface of the bearing base 21 corresponding to the temperature sensor 24, the humidity sensor 25 and the air pressure sensor 26, the total area of the through holes 14 is 13% -10% of the lateral surface area of the bearing base 21, at least two distance measuring sensors 27 are uniformly distributed on the lateral surface of the bearing base 21 around the axis of the bearing base 21, the axis of each distance measuring sensor 27 and the axis of the driving guide rail 3 form an included angle of 0-90 degrees, and the control circuit 29 is electrically connected with the temperature sensor 24, the humidity sensor 25, the air pressure sensor 26, the distance measuring sensors 27 and the monitoring camera 28 respectively.

The turntable mechanism 13 is one of a three-dimensional turntable and a two-dimensional turntable, an angle sensor 15 is arranged on the turntable mechanism, and the angle sensor 15 is electrically connected with the internet-of-things controller 6.

Preferably, the data communication network comprises at least one online communication network and at least one wireless data communication network, and the data communication network is shared by any one or two of the internet and the internet of things.

Furthermore, the auxiliary control circuit comprises a data processing circuit based on an IGBT chip as a core, a data communication bus circuit, a data cache circuit, a driving circuit, an I/O communication port circuit, a serial communication circuit, a wireless data communication circuit, a crystal oscillator clock circuit and an encoding and decoding circuit, wherein the data communication bus circuit is electrically connected with the data processing circuit based on the IGBT chip as the core through the data cache circuit, and the data communication bus circuit is electrically connected with the driving circuit, the I/O communication port circuit, the serial communication circuit, the wireless data communication circuit, the crystal oscillator clock circuit and the encoding and decoding circuit respectively.

As shown in fig. 4, the control method of the control system of the high-altitude, low-temperature environment electric control device based on the AI system includes the following steps:

s1, assembling equipment, namely, firstly installing an environment detection terminal, a driving guide rail, an electric power detector, a fault detector, an internet of things controller and an auxiliary control circuit in the cabinet body of the electric control device, then equipping a circuit system in the cabinet body of the electric control device, electrically connecting the circuit system with the internet of things controller respectively, and finally establishing data connection between the internet of things controller and the auxiliary control circuit and a data processing server based on an AI technology through a data communication network;

s2, identifying hardware, after S1, respectively setting a communication protocol and a data communication addressing address for the Internet of things controller and the auxiliary control circuit through the remote monitoring platform, simultaneously setting a data communication addressing sub-address for each Internet of things controller by the auxiliary control circuit, then simultaneously sending a device hardware identification number, a software identification number and a device data communication verification password to the control circuit and the remote monitoring platform by each Internet of things controller and the auxiliary control circuit, and backing up the device hardware identification number, the software identification number and the device data communication verification password in the remote monitoring platform;

s3, networking equipment, constructing at least one sub-service network by each electric control device connected with the same AI-technology-based data processing server through a data communication network according to the structure of a power supply grid and the structure type, the number and the distribution position of the electric control devices, and when the number of the sub-service networks is two or more, connecting the sub-service networks in series and in parallel;

s4, allocating an operation strategy, and allocating an operation control program, an equipment function backup interchange program, a data acquisition program, a data operation program and an equipment upgrading program for each Internet of things controller and each auxiliary control circuit of each electric control device by the AI-technology-based data processing server;

s5, operation control, after the S4 is completed, in the operation of each electric control device, on one hand, the operation control program distributed in the S4 drives the electric control device circuit system, the environment detection terminal, the drive guide rail, the power detector and the fault detector to operate according to the program, so that the requirement of normal operation of the electric control device circuit system and the temperature and pressure regulating system is met, on the other hand, when any one or more of the Internet-of-things controller and the auxiliary control circuit has a fault, the function backup interchange program is distributed according to the S4, and the normal operation device backs up the operation function of the fault device, and in addition, in the operation process, the system upgrading operation is performed on each Internet-of-things controller, the auxiliary control circuit software system and the hardware device regularly according to the device upgrading program distributed in the S4;

s6, system parameter correction, in the normal operation of the step S5, the environment detection terminal, the driving guide rail, the power detector and the fault detector continuously collect the environment temperature, air pressure, humidity, circuit power, current and voltage parameters when the electric control device operates, and directly feed back the collected data to the data processing server and the auxiliary control circuit based on the AI technology through the corresponding Internet of things controller, firstly, the data processing server and the auxiliary control circuit based on the AI technology carry out data operation processing according to the received parameters according to the data collection program and the data operation program distributed in the step S4, and respectively generate corresponding operation control program parameters, and then, the corresponding operation control program parameters generated by the auxiliary control circuit directly drive the circuit system of the electric control device, the environment detection terminal, the driving guide rail, the power detector and the fault detector, The electric power detector and the fault detector operate according to the program, meanwhile, the auxiliary control circuit receives corresponding operation control program parameters generated by the data processing server based on the AI technology foundation, and corrects the electric control device circuit system, the environment detection terminal, the driving guide rail, the electric power detector and the fault detector according to the program according to the corresponding operation control program parameters generated by the data processing server based on the AI technology foundation.

The invention has the advantages of simple system structure, simple installation, maintenance and daily management, good universality, comprehensive data detection, high data precision, strong data communication capability and high operation automation degree, can effectively meet the requirements of embryo use of various types of electric control device equipment, ensures the stability and reliability of data communication, and can effectively realize the automatic operation of the electric control device by automatically utilizing the electric control device without depending on the intervention of workers, thereby greatly improving the automation level and the intelligence level of the operation of the electric control device.

It will be appreciated by persons skilled in the art that the present invention is not limited by the embodiments described above. The foregoing embodiments and description have been presented only to illustrate the principles of the invention. Various changes and modifications can be made without departing from the spirit and scope of the invention. Such variations and modifications are intended to be within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. High altitude, low temperature environment electrically controlled device control system based on AI system, its characterized in that: the high-altitude and low-temperature environment electric control device control system based on the AI system comprises an electric control device cabinet body, environment detection terminals, driving guide rails, an electric power detector, a fault detector, an Internet of things controller, an auxiliary control circuit, a data communication network and a data processing server based on the AI technology, wherein at least one electric control device cabinet body is of a closed cavity structure with a rectangular cross section, at least two driving guide rails are arranged in the electric control device cabinet body and embedded in the upper end surface and the lower end surface of the electric control device cabinet body, the driving guide rails are of a closed annular structure coaxially distributed with the electric control device cabinet body, each driving guide rail is provided with at least one environment detection terminal and is in sliding connection with the environment detection terminals, the axis of each environment detection terminal and the axis of the electric control device cabinet body form an included angle of 0-90 degrees, the electric power detector, the data processing server and the data processing server are based on the AI technology, and the driving guide rails are of at least one environment detection terminal and are in sliding connection with the environment detection terminal, and the environment detection terminal is in an included angle of 0-90 degree with the axis of the electric control device cabinet body, The system comprises a fault detector, an Internet of things controller and an auxiliary control circuit, wherein the fault detector, the Internet of things controller and the auxiliary control circuit are all positioned in an electric control device cabinet body, each electric control device cabinet body is provided with at least one electric power detector, at least one fault detector, at least four Internet of things controllers and one auxiliary control circuit, one electric power detector and one fault detector form a working group and form at least two working groups, the working groups are connected in parallel, the Internet of things controller is electrically connected with the auxiliary control circuit, and one Internet of things controller is electrically connected with each driving guide rail; the Internet of things controller is electrically connected with each environment detection terminal; one Internet of things controller is electrically connected with the power detectors and the fault detectors in each working group; the Internet of things controller is electrically connected with a circuit system of the electric control device cabinet body; the Internet of things controller and the auxiliary control circuit are respectively connected with the AI-technology-based data processing server through the data communication network, and each AI-technology-based data processing server is connected with the Internet of things controller and the auxiliary control circuit in the at least two electric control device cabinets through the data communication network.

2. The AI-system-based high-altitude, low-temperature environment electronic control device control system of claim 1, wherein: and the driving guide rail is additionally provided with a sliding block and is connected with the environment detection terminal through the sliding block.

3. The AI-system-based high-altitude, low-temperature environment electronic control device control system of claim 2, wherein: the automatic detection device is characterized in that an organ protective cover, a displacement sensor and a rotary table mechanism are additionally arranged on the sliding block, at least one displacement sensor is positioned on the lower end face of the sliding block and connected with the driving guide rail, the rotary table mechanism is positioned on the front end face of the sliding block and coaxially distributed with the sliding block and mutually connected with an environment detection terminal, the two organ protective covers are respectively positioned on two sides of the sliding block, cover the outside of the driving guide rail and coaxially distributed with the driving guide rail, one end of the organ protective cover is connected with the side surface of the sliding block, the other end of the organ protective cover is connected with the end face of the driving guide rail, and the displacement sensor and the rotary table mechanism are electrically connected with an auxiliary control circuit.

4. The AI-system-based high-altitude, low-temperature environment electronic control device control system of claim 1, wherein: the environment detection terminal comprises a bearing base, a workbench, a protective cover, a temperature sensor, a humidity sensor, an air pressure sensor, a distance measuring sensor, a monitoring camera and a control circuit, wherein the bearing base is of a closed cavity structure, the rear end face of the bearing base is connected with a rotary table mechanism of a sliding block, the front end face of the bearing base is connected with the workbench and coaxially distributed, the protective cover covers the front end face of the bearing base and the workbench and is used for forming a bearing chamber of the closed cavity structure together with the bearing base, the monitoring camera is embedded in the bearing chamber and is connected with the upper end face of the workbench, the axis of the monitoring camera and the axis of the rotary table mechanism form an included angle of 0-90 degrees, the temperature sensor, the humidity sensor, the air pressure sensor and the control circuit are all embedded in the bearing base, and a plurality of through holes are uniformly distributed on the side surface of the bearing base corresponding to the temperature sensor, the humidity sensor and the air pressure sensor, and the total area of the through holes is 13% -10% of the area of the side surface of the bearing base, the distance measuring sensors are at least two and are uniformly distributed on the outer side surface of the bearing base around the axis of the bearing base, the axis of the distance measuring sensors and the axis of the driving guide rail form an included angle of 0-90 degrees, and the control circuit is electrically connected with the temperature sensor, the humidity sensor, the air pressure sensor, the distance measuring sensors and the monitoring camera respectively.

5. The AI-system-based high-altitude, low-temperature environment electric control device control system according to claim 3 or 4, wherein: the rotary table mechanism is any one of a three-dimensional rotary table and a two-dimensional rotary table, an angle sensor is arranged on the rotary table mechanism, and the angle sensor is electrically connected with the Internet of things controller.

6. The AI-system-based high-altitude, low-temperature environment electronic control device control system of claim 1, wherein: the data communication network comprises at least one online communication network machine and at least one wireless data communication network, and the data communication network is shared by any one or two of the Internet and the Internet of things.

7. The AI-system-based high-altitude, low-temperature environment electronic control device control system of claim 1, wherein: the auxiliary control circuit comprises a data processing circuit based on an IGBT chip as a core, a data communication bus circuit, a data cache circuit, a driving circuit, an I/O communication port circuit, a serial communication circuit, a wireless data communication circuit, a crystal oscillator clock circuit and an encoding and decoding circuit, wherein the data communication bus circuit is electrically connected with the data processing circuit based on the IGBT chip as the core through the data cache circuit, and the data communication bus circuit is electrically connected with the driving circuit, the I/O communication port circuit, the serial communication circuit, the wireless data communication circuit, the crystal oscillator clock circuit and the encoding and decoding circuit respectively.

8. A control method of a control system of an AI-system-based high-altitude and low-temperature environment electric control device is characterized in that: the control method of the high-altitude and low-temperature environment electric control device control system based on the AI system comprises the following steps:

s1, assembling equipment, namely, firstly installing an environment detection terminal, a driving guide rail, an electric power detector, a fault detector, an internet of things controller and an auxiliary control circuit in the cabinet body of the electric control device, then equipping a circuit system in the cabinet body of the electric control device, electrically connecting the circuit system with the internet of things controller respectively, and finally establishing data connection between the internet of things controller and the auxiliary control circuit and a data processing server based on an AI technology through a data communication network;

s2, identifying hardware, after S1, respectively setting a communication protocol and a data communication addressing address for the Internet of things controller and the auxiliary control circuit through the remote monitoring platform, simultaneously setting a data communication addressing sub-address for each Internet of things controller by the auxiliary control circuit, then simultaneously sending a device hardware identification number, a software identification number and a device data communication verification password to the control circuit and the remote monitoring platform by each Internet of things controller and the auxiliary control circuit, and backing up the device hardware identification number, the software identification number and the device data communication verification password in the remote monitoring platform;

s3, networking equipment, constructing at least one sub-service network by each electric control device connected with the same AI-technology-based data processing server through a data communication network according to the structure of a power supply grid and the structure type, the number and the distribution position of the electric control devices, and when the number of the sub-service networks is two or more, connecting the sub-service networks in series and in parallel;

s4, allocating an operation strategy, and allocating an operation control program, an equipment function backup interchange program, a data acquisition program, a data operation program and an equipment upgrading program for each Internet of things controller and each auxiliary control circuit of each electric control device by the AI-technology-based data processing server;

s5, operation control, after the S4 is completed, in the operation of each electric control device, on one hand, the operation control program distributed in the S4 drives the electric control device circuit system, the environment detection terminal, the drive guide rail, the power detector and the fault detector to operate according to the program, so that the requirement of normal operation of the electric control device circuit system and the temperature and pressure regulating system is met, on the other hand, when any one or more of the Internet-of-things controller and the auxiliary control circuit has a fault, the function backup interchange program is distributed according to the S4, and the normal operation device backs up the operation function of the fault device, and in addition, in the operation process, the system upgrading operation is performed on each Internet-of-things controller, the auxiliary control circuit software system and the hardware device regularly according to the device upgrading program distributed in the S4;

s6, system parameter correction, in the normal operation of the step S5, the environment detection terminal, the driving guide rail, the power detector and the fault detector continuously collect the environment temperature, air pressure, humidity, circuit power, current and voltage parameters when the electric control device operates, and directly feed back the collected data to the data processing server and the auxiliary control circuit based on the AI technology through the corresponding Internet of things controller, firstly, the data processing server and the auxiliary control circuit based on the AI technology carry out data operation processing according to the received parameters according to the data collection program and the data operation program distributed in the step S4, and respectively generate corresponding operation control program parameters, and then, the corresponding operation control program parameters generated by the auxiliary control circuit directly drive the circuit system of the electric control device, the environment detection terminal, the driving guide rail, the power detector and the fault detector, The electric power detector and the fault detector operate according to the program, meanwhile, the auxiliary control circuit receives corresponding operation control program parameters generated by the data processing server based on the AI technology foundation, and corrects the electric control device circuit system, the environment detection terminal, the driving guide rail, the electric power detector and the fault detector according to the program according to the corresponding operation control program parameters generated by the data processing server based on the AI technology foundation.

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