CN118100443A - Industrial power supply remote control method, system and medium - Google Patents

Abstract

The embodiment of the application provides a remote control method, a remote control system and a remote control medium for an industrial power supply. The method comprises the following steps: the method comprises the steps of obtaining equipment information of a remote control system, extracting control equipment characteristic data, remote control parameter data, fault log record data, power equipment characteristic data and power equipment operation data, respectively extracting control parameter setting data, instruction sending data, power equipment output parameter data and actuation response data, processing the data to obtain an equipment compatibility index, a remote control accuracy index, a power equipment response rate index and an error reporting frequency evaluation index, processing according to the equipment compatibility index, the remote control accuracy index and the power equipment response rate index and the error reporting frequency evaluation index, obtaining a remote control system reliability index, comparing the remote control system reliability index with a preset reliability threshold to obtain a reliability deviation rate, and judging the comparison condition of the reliability deviation rate and the preset reliability deviation threshold.

Description

Industrial power supply remote control method, system and medium

Technical Field

The application relates to the technical field of industrial power supply and equipment remote control, in particular to an industrial power supply remote control method, an industrial power supply remote control system and an industrial power supply remote control medium.

Background

With the rapid development of industrial automation, the requirements on the stability and the reliability of the power supply are higher and higher. Various precision instruments, computers and communication products all need stable and even harsh power supply conditions. If the output voltage of the power supply circuit is unstable or the power supply of the power grid is unstable, the output of the power supply is interfered by certain clutter, the situations of equipment failure, program loss, information failure and the like can be caused, and huge economic losses are brought to users and enterprises. Therefore, there is a need for a technical method that enables remote monitoring and regulation of the power supply, ensuring a stable supply of power.

The existing industrial power supply remote control technology still has the problems of inaccurate data acquisition surface, imperfect calculation method and the like, so that different industrial power supply equipment and systems have compatibility problems, and the reliability of the power supply control technology is not ideal.

In view of the above problems, an effective technical solution is currently needed.

Disclosure of Invention

The embodiment of the application aims to provide an industrial power supply remote control method, a system and a medium, which can respectively extract control equipment characteristic data, remote control parameter data, fault log record data, power supply equipment characteristic data and power supply equipment operation data by acquiring remote control system equipment information, respectively extract control parameter setting data, instruction sending data, power supply equipment output parameter data and actuation response data, process each data to obtain an equipment compatibility index, a remote control accuracy index, a power supply equipment response rate index and an error reporting frequency evaluation index, process according to the equipment compatibility index, the remote control accuracy index and the power supply equipment response rate index and the error reporting frequency evaluation index to obtain a remote control system reliability index, compare the remote control system reliability index with a preset reliability threshold to obtain a reliability deviation rate, and judge the comparison result condition of the reliability deviation rate and the preset reliability deviation threshold.

The embodiment of the application provides an industrial power supply remote control method, which comprises the following steps:

acquiring remote control system equipment information, and extracting control equipment information and power supply equipment information;

Extracting control equipment characteristic data, remote control parameter data and fault log record data according to the control equipment information, wherein the remote control parameter data comprises control parameter setting data and instruction sending data;

Extracting power equipment characteristic data and power equipment operation data according to the power equipment information, wherein the power equipment operation data comprises power equipment output parameter data and actuation response data;

Obtaining an equipment compatibility index according to the control equipment characteristic data and the power supply equipment characteristic data;

processing through a preset control accuracy evaluation model according to the control parameter setting data and the power supply equipment output parameter data to obtain a remote control accuracy index;

Processing the data sent by the instruction and the actuation response data through a preset equipment response rate evaluation model to obtain a power supply equipment response rate index;

Processing according to the fault log record data and the fault log record data of the same type of control equipment to obtain an error reporting frequency evaluation index;

Processing according to the equipment compatibility index, the remote control accuracy index and the power supply equipment response rate index and the error reporting frequency evaluation index to obtain a remote control system reliability index;

And comparing the reliability index of the remote control system with a preset reliability threshold value to obtain a reliability deviation rate, and judging the comparison result condition of the reliability deviation rate and the preset reliability deviation threshold value.

In the method for remotely controlling an industrial power supply according to the embodiment of the present application, the device compatibility index is obtained according to the control device feature data and the power supply device feature data, specifically:

extracting control equipment model data according to the control equipment characteristic data;

extracting power supply equipment model data according to the power supply equipment characteristic data;

And inquiring through a preset equipment compatibility database according to the control equipment model data and the power supply equipment model data to obtain an equipment compatibility index.

In the industrial power supply remote control method according to the embodiment of the present application, the control parameter setting data and the power supply device output parameter data are processed through a preset control accuracy evaluation model to obtain a remote control accuracy index, which specifically includes:

Extracting control voltage data, control current data and control power data according to the control parameter setting data;

extracting output voltage data, output current data and output power data according to the power supply equipment output parameter data;

and processing the control voltage data, the control current data, the control power data, the output voltage data, the output current data and the output power data through a preset control accuracy evaluation model to obtain a remote control accuracy index.

In the industrial power supply remote control method according to the embodiment of the present application, the sending data and the actuation response data according to the instruction are processed by a preset device response rate evaluation model to obtain a power supply device response rate index, which specifically includes:

extracting the sending time data and the instruction sending times data according to the instruction sending data;

Extracting response time data and response times data according to the actuation response data;

and extracting the sending time data, the sending times data, the response time data and the response times data according to the instruction sending data, and processing the data through a preset equipment response rate evaluation model to obtain a power supply equipment response rate index.

In the method for remotely controlling an industrial power supply according to the embodiment of the present application, the fault log record data is processed in combination with fault log record data of the same type of control device to obtain an error reporting frequency evaluation index, which specifically includes:

Extracting fault frequency data according to the fault log record data;

acquiring fault log record data of the same type of control equipment within a preset time period and extracting fault frequency data of the same type of control equipment;

Comparing the fault frequency data with the fault frequency data of the same type of control equipment to obtain a fault frequency deviation rate;

judging whether the fault frequency deviation rate is larger than a preset fault deviation threshold value or not;

if the remote control system equipment is larger than or equal to the remote control system equipment, adjusting the remote control system equipment;

And if the error frequency evaluation index is smaller than the preset error frequency evaluation index, obtaining the error frequency evaluation index.

In the industrial power supply remote control method according to the embodiment of the present application, the reliability index of the remote control system is obtained by processing the equipment compatibility index, the remote control accuracy index, the power supply equipment response rate index in combination with the error reporting frequency evaluation index, specifically:

Processing according to the equipment compatibility index, the remote control accuracy index and the power supply equipment response rate index combined with the error reporting frequency evaluation index through a preset remote control evaluation model to obtain a remote control system reliability index;

The calculation formula of the remote control evaluation model is as follows:

；

Wherein, For the reliability index of the remote control system,/>For device compatibility index,/>For remote control accuracy index,/>For power supply device response rate index,/>Evaluating an index for reporting error frequency,/>Is a preset characteristic coefficient.

In the industrial power supply remote control method according to the embodiment of the present application, the reliability index of the remote control system is compared with a preset reliability threshold value to obtain a reliability deviation rate, and the comparison result condition of the reliability deviation rate and the preset reliability deviation threshold value is determined, where the comparison result condition specifically includes:

acquiring a reliability index of a remote control system;

comparing the reliability index of the remote control system with a preset reliability threshold value to obtain a reliability deviation rate;

Judging whether the reliability deviation rate is larger than a preset reliability deviation threshold value or not;

if the remote control system is greater than or equal to the preset value, the remote control system is adjusted;

And if the control reliability of the remote control system equipment is smaller than the control reliability of the remote control system equipment, the control reliability of the remote control system equipment meets the requirement.

In a second aspect, an embodiment of the present application provides an industrial power supply remote control system, including: the system comprises a memory and a processor, wherein the memory comprises a program of an industrial power supply remote control method, and the program of the industrial power supply remote control method realizes the following steps when being executed by the processor:

acquiring remote control system equipment information, and extracting control equipment information and power supply equipment information;

Extracting control equipment characteristic data, remote control parameter data and fault log record data according to the control equipment information, wherein the remote control parameter data comprises control parameter setting data and instruction sending data;

Extracting power equipment characteristic data and power equipment operation data according to the power equipment information, wherein the power equipment operation data comprises power equipment output parameter data and actuation response data;

Obtaining an equipment compatibility index according to the control equipment characteristic data and the power supply equipment characteristic data;

processing through a preset control accuracy evaluation model according to the control parameter setting data and the power supply equipment output parameter data to obtain a remote control accuracy index;

Processing the data sent by the instruction and the actuation response data through a preset equipment response rate evaluation model to obtain a power supply equipment response rate index;

Processing according to the fault log record data and the fault log record data of the same type of control equipment to obtain an error reporting frequency evaluation index;

Processing according to the equipment compatibility index, the remote control accuracy index and the power supply equipment response rate index and the error reporting frequency evaluation index to obtain a remote control system reliability index;

And comparing the reliability index of the remote control system with a preset reliability threshold value to obtain a reliability deviation rate, and judging the comparison result condition of the reliability deviation rate and the preset reliability deviation threshold value.

In the industrial power supply remote control system according to the embodiment of the present application, the device compatibility index is obtained according to the control device feature data and the power supply device feature data, specifically:

extracting control equipment model data according to the control equipment characteristic data;

extracting power supply equipment model data according to the power supply equipment characteristic data;

And inquiring through a preset equipment compatibility database according to the control equipment model data and the power supply equipment model data to obtain an equipment compatibility index.

In a third aspect, an embodiment of the present application further provides a readable storage medium, where the readable storage medium includes an industrial power supply remote control method program, where the industrial power supply remote control method program, when executed by a processor, implements the steps of an industrial power supply remote control method according to any one of the foregoing embodiments.

As can be seen from the foregoing, according to the industrial power supply remote control method, system and medium provided by the embodiments of the present application, by acquiring the remote control system device information, extracting the control device information and the power supply device information, and extracting the control device feature data, the remote control parameter data and the fault log record data according to the control device information, where the remote control parameter data includes control parameter setting data and instruction sending data; and extracting power supply equipment characteristic data and power supply equipment operation data according to the power supply equipment information, wherein the power supply equipment operation data comprises power supply equipment output parameter data and actuation response data. Obtaining an equipment compatibility index according to the control equipment characteristic data and the power supply equipment characteristic data; processing the control parameter setting data and the power supply equipment output parameter data through a preset control accuracy evaluation model to obtain a remote control accuracy index; processing the data sent by the instruction and the actuation response data through a preset equipment response rate evaluation model to obtain a power supply equipment response rate index; processing according to the fault log record data and the fault log record data of the same type of control equipment to obtain an error reporting frequency evaluation index; and processing according to the equipment compatibility index, the remote control accuracy index and the power supply equipment response rate index and the error reporting frequency evaluation index to obtain the reliability index of the remote control system. Comparing the reliability index of the remote control system with a preset reliability threshold value to obtain a reliability deviation rate, judging whether the reliability deviation rate is larger than the preset reliability deviation threshold value, if so, adjusting the remote control system, and if so, controlling the reliability of the remote control system equipment to meet the requirements. The technology fully acquires various data influencing the remote control of the power supply, processes the data through a plurality of preset models, comprehensively considers the aspects of equipment compatibility, remote control accuracy, equipment response rate and failure rate to obtain the reliability index of the industrial power supply remote control system, helps technicians to know the reliability of equipment and control methods of the remote control system, and timely adjusts the equipment and control methods for meeting different requirements.

Additional features and advantages of the application will be set forth in the description which follows, and in part will be apparent from the description, or may be learned by practice of the embodiments of the application. The objectives and other advantages of the application may be realized and attained by the structure particularly pointed out in the written description and drawings.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments of the present application will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and should not be considered as limiting the scope, and other related drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a flow chart of a remote control method for an industrial power supply according to an embodiment of the present application;

FIG. 2 is a flow chart of obtaining a device compatibility index of an industrial power supply remote control method according to an embodiment of the present application;

FIG. 3 is a flowchart of a remote control accuracy index obtaining method for an industrial power supply according to an embodiment of the present application;

FIG. 4 is a flowchart of a method for obtaining a response rate index of a power supply device in an industrial power supply remote control method according to an embodiment of the present application;

Fig. 5 is a flowchart of a method for obtaining an error reporting frequency evaluation index in an industrial power supply remote control according to an embodiment of the present application.

Detailed Description

The following description of the embodiments of the present application 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 application, but not all embodiments. The components of the embodiments of the present application generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the application, as presented in the figures, is not intended to limit the scope of the application, as claimed, but is merely representative of selected embodiments of the application. All other embodiments, which can be made by a person skilled in the art without making any inventive effort, are intended to be within the scope of the present application.

It should be noted that like reference numerals and letters refer to like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures. Meanwhile, in the description of the present application, the terms "first", "second", and the like are used only to distinguish the description, and are not to be construed as indicating or implying relative importance.

Referring to fig. 1, fig. 1 is a flowchart of an industrial power supply remote control method according to some embodiments of the application. The industrial power supply remote control method is used in terminal equipment, such as computers, mobile phone terminals and the like. The industrial power supply remote control method comprises the following steps:

S101, acquiring remote control system equipment information, and extracting control equipment information and power supply equipment information;

s102, extracting control equipment characteristic data, remote control parameter data and fault log record data according to the control equipment information, wherein the remote control parameter data comprises control parameter setting data and instruction sending data;

s103, extracting power equipment characteristic data and power equipment operation data according to the power equipment information, wherein the power equipment operation data comprises power equipment output parameter data and actuation response data;

s104, obtaining an equipment compatibility index according to the control equipment characteristic data and the power supply equipment characteristic data;

S105, processing through a preset control accuracy evaluation model according to the control parameter setting data and the power supply equipment output parameter data to obtain a remote control accuracy index;

S106, sending data and actuation response data according to the instruction, and processing the data and the actuation response data through a preset equipment response rate evaluation model to obtain a power supply equipment response rate index;

s107, processing according to the fault log record data and the fault log record data of the same type of control equipment to obtain an error reporting frequency evaluation index;

S108, processing according to the equipment compatibility index, the remote control accuracy index and the power supply equipment response rate index and the error reporting frequency evaluation index to obtain a remote control system reliability index;

s109, comparing the reliability index of the remote control system with a preset reliability threshold value to obtain a reliability deviation rate, and judging the comparison result condition of the reliability deviation rate and the preset reliability deviation threshold value.

The method comprises the steps of acquiring remote control system equipment information, extracting control equipment information and power supply equipment information, and extracting control equipment characteristic data, remote control parameter data and fault log record data according to the control equipment information, wherein the remote control parameter data comprises control parameter setting data and instruction sending data; and extracting power supply equipment characteristic data and power supply equipment operation data according to the power supply equipment information, wherein the power supply equipment operation data comprises power supply equipment output parameter data and actuation response data. Obtaining an equipment compatibility index according to the control equipment characteristic data and the power supply equipment characteristic data; processing the control parameter setting data and the power supply equipment output parameter data through a preset control accuracy evaluation model to obtain a remote control accuracy index; processing the data sent by the instruction and the actuation response data through a preset equipment response rate evaluation model to obtain a power supply equipment response rate index; processing according to the fault log record data and the fault log record data of the same type of control equipment to obtain an error reporting frequency evaluation index; and processing according to the equipment compatibility index, the remote control accuracy index and the power supply equipment response rate index and the error reporting frequency evaluation index to obtain the reliability index of the remote control system. Comparing the reliability index of the remote control system with a preset reliability threshold value to obtain a reliability deviation rate, judging whether the reliability deviation rate is larger than the preset reliability deviation threshold value, if so, adjusting the remote control system, and if so, controlling the reliability of the remote control system equipment to meet the requirements. The technology fully acquires various data influencing the remote control of the power supply, processes the data through a plurality of preset models, comprehensively considers the aspects of equipment compatibility, remote control accuracy, equipment response rate and failure rate to obtain the reliability index of the industrial power supply remote control system, helps technicians to know the reliability of equipment and control methods of the remote control system, and timely adjusts the equipment and control methods for meeting different requirements.

Referring to fig. 2, fig. 2 is a flowchart of a method for obtaining a device compatibility index in an industrial power supply remote control according to some embodiments of the application. According to the embodiment of the application, the device compatibility index is obtained according to the control device characteristic data and the power supply device characteristic data, specifically:

s201, extracting control equipment model data according to the control equipment characteristic data;

S202, extracting power supply equipment model data according to the power supply equipment characteristic data;

s203, inquiring through a preset equipment compatibility database according to the control equipment model data and the power supply equipment model data to obtain an equipment compatibility index.

In order to determine and improve compatibility between the power supply device and the control device, control device model data is extracted according to the control device feature data, and power supply device model data is extracted according to the power supply device feature data, where a device model may generally reflect a type, a series and a specific configuration, and some models may represent a direct current power supply, an alternating current power supply, a UPS power supply or other types of devices. In addition, the serial information in the model can tell us that the device belongs to a specific series, the series may have certain common characteristics or performance parameters, meanwhile, the communication protocol and the communication port parameters of the device can be known, the model data of the control device and the model data of the power supply device are input into a preset device compatibility database for inquiring, and the series model and the power supply device and the control device with the same model can be obtained, so that the corresponding device compatibility index is obtained.

Referring to fig. 3, fig. 3 is a flowchart of a remote control accuracy index obtaining method for an industrial power supply according to some embodiments of the application. According to the embodiment of the application, the control parameter setting data and the power supply equipment output parameter data are processed through a preset control accuracy evaluation model to obtain a remote control accuracy index, which is specifically as follows:

S301, extracting control voltage data, control current data and control power data according to the control parameter setting data;

S302, extracting output voltage data, output current data and output power data according to the power supply equipment output parameter data;

S303, processing the control voltage data, the control current data, the control power data, the output voltage data, the output current data and the output power data through a preset control accuracy evaluation model to obtain a remote control accuracy index;

the calculation formula of the control accuracy evaluation model is as follows:

；

Wherein, For remote control accuracy index,/>For controlling voltage data,/>To control the current data,/>To control power data,/>For outputting voltage data,/>To output current data,/>For output power data,/>Is a preset characteristic coefficient (the characteristic coefficient is obtained through inquiring a database of a preset industrial power supply control platform).

In order to improve the equipment parameter control accuracy of the remote control system, a high-precision and high-stability power hardware component is selected, and control voltage data, control current data and control power data are extracted according to control parameter setting data in algorithm optimization; extracting output voltage data, output current data and output power data according to the output parameter data of the power supply equipment; processing according to control voltage data, control current data, control power data, output voltage data, output current data and output power data through a preset control accuracy evaluation model to obtain a remote control accuracy index, processing according to equipment basic parameters through a preset calculation model, and evaluating the control accuracy of the equipment parameters.

Referring to fig. 4, fig. 4 is a flowchart of a method for obtaining a response rate index of a power supply device according to an industrial power supply remote control method according to some embodiments of the application. According to the embodiment of the application, the data sent according to the instruction and the actuation response data are processed through a preset equipment response rate evaluation model to obtain a power supply equipment response rate index, which is specifically as follows:

s401, extracting sending time data and instruction sending times data according to the instruction sending data;

s402, extracting response time data and response times data according to the actuation response data;

s403, extracting sending time data, instruction sending times data, response time data and response times data according to the instruction sending data, and processing the data through a preset equipment response rate evaluation model to obtain a power supply equipment response rate index;

the calculation formula of the equipment response rate evaluation model is as follows:

；

Wherein, For power supply device response rate index,/>To issue time data,/>For instruction issue count data,/>For response time data,/>For response times data,/>Is a preset characteristic coefficient (the characteristic coefficient is obtained through inquiring a database of a preset industrial power supply control platform).

In order to improve the working efficiency, extracting the sending time data and the sending times data according to the sending data of the instructions; extracting response time data and response times data according to the actuation response data; the shorter response time and the higher response times mean that the device can process tasks or instructions more quickly, extract the sending time data, the instruction sending times data, the response time data and the response times data according to the instruction sending data, process the data through a preset device response rate evaluation model to obtain a power supply device response rate index, grasp the instruction sending and the response time of the device, and help to reduce the waiting time and improve the efficiency of the whole workflow.

Referring to fig. 5, fig. 5 is a flowchart of an industrial power remote control method for obtaining a fault frequency evaluation index according to some embodiments of the application. According to the embodiment of the application, the fault log record data is processed according to the fault log record data and the fault log record data of the same type of control equipment to obtain the error reporting frequency evaluation index, which is specifically as follows:

s501, extracting fault frequency data according to the fault log record data;

s502, acquiring fault log record data of the same type of control equipment within a preset time period and extracting fault frequency data of the same type of control equipment;

S503, comparing the fault frequency data with the fault frequency data of the same type of control equipment to obtain a fault frequency deviation rate;

s504, judging whether the fault frequency deviation rate is larger than a preset fault deviation threshold value or not;

S505, if the remote control system equipment is greater than or equal to the remote control system equipment, adjusting the remote control system equipment;

S506, if the error frequency evaluation index is smaller than the error frequency evaluation index, obtaining the error frequency evaluation index.

In order to further improve the stability of the remote control system and the remote control equipment, extracting fault frequency data according to the fault log record data, acquiring the fault log record data of the same type of control equipment in a preset time period, and extracting the fault frequency data of the same type of control equipment; according to the fault frequency data and the fault frequency data of the same type of control equipment, the fault frequency deviation rate is obtained, whether the fault frequency deviation rate is larger than a preset fault deviation threshold value or not is judged, if the fault frequency deviation rate is larger than or equal to the preset fault deviation threshold value, the remote control system equipment is adjusted, if the fault frequency deviation rate is smaller than the preset fault deviation threshold value, a fault frequency evaluation index is obtained, equipment faults often cause interruption of a production line, production efficiency is influenced, additional maintenance cost is generated, equipment with a higher fault frequency evaluation index is replaced or upgraded and reformed in advance, production continuity and high-quality production can be guaranteed, meanwhile, the service life of the equipment can be prolonged through reasonable maintenance and management, and premature rejection is avoided.

According to the embodiment of the invention, the device compatibility index, the remote control accuracy index and the power supply device response rate index are processed according to the error reporting frequency evaluation index to obtain the reliability index of the remote control system, specifically:

Processing according to the equipment compatibility index, the remote control accuracy index and the power supply equipment response rate index combined with the error reporting frequency evaluation index through a preset remote control evaluation model to obtain a remote control system reliability index;

The calculation formula of the remote control evaluation model is as follows:

；

Wherein, For the reliability index of the remote control system,/>For device compatibility index,/>For remote control accuracy index,/>For power supply device response rate index,/>Evaluating an index for reporting error frequency,/>Is a preset characteristic coefficient (the characteristic coefficient is obtained through inquiring a database of a preset industrial power supply control platform).

In order to improve the reliability of the industrial power supply remote control system, the reliability index of the remote control system is obtained by processing a preset remote control evaluation model according to the equipment compatibility index, the remote control accuracy index and the power supply equipment response rate index combined with the error reporting frequency evaluation index, whether the equipment compatibility directly affects the communication and the communication effect between the equipment or not is obtained, the remote control accuracy and the power supply equipment response rate are direct factors affecting the control effect and the efficiency of the remote control system, the equipment error reporting frequency intuitively reflects the operation stability of the equipment, and the equipment compatibility index, the remote control accuracy index, the power supply equipment response rate index and the error reporting frequency evaluation index are integrated and processed through the preset remote control evaluation model, so that the reliability index of the remote control system can be obtained, and the reliability index is an overall evaluation of the overall performance of the equipment of the remote control system.

According to the embodiment of the invention, the reliability index of the remote control system is compared with a preset reliability threshold value to obtain a reliability deviation rate, and the comparison result condition of the reliability deviation rate and the preset reliability deviation threshold value is judged, specifically:

acquiring a reliability index of a remote control system;

comparing the reliability index of the remote control system with a preset reliability threshold value to obtain a reliability deviation rate;

Judging whether the reliability deviation rate is larger than a preset reliability deviation threshold value or not;

if the remote control system is greater than or equal to the preset value, the remote control system is adjusted;

And if the control reliability of the remote control system equipment is smaller than the control reliability of the remote control system equipment, the control reliability of the remote control system equipment meets the requirement.

In order to improve the reliability of the remote control system, the reliability index of the remote control system is compared with a preset reliability threshold value to obtain a reliability deviation rate, whether the reliability deviation rate is larger than the preset reliability deviation threshold value or not is judged, if so, the remote control system is adjusted, for example, equipment foundation setting parameters, including parameters such as voltage, current and power, response time and control accuracy and the like, power supply equipment and control equipment of the control system can be replaced or upgraded, and the control reliability of the equipment can be improved by adjusting the parameters and the equipment; and if the comparison result is smaller than the comparison result, the control reliability of the remote control system equipment meets the requirement.

According to an embodiment of the present invention, further comprising:

Extracting visitor information according to the remote control system information;

Extracting access personnel authority level data according to the access personnel information;

and matching corresponding system access permission grades according to the access personnel permission grade data.

Wherein the stability and security of network communications directly affect the reliability of the remote control system. Therefore, a safer and more reliable network protocol and technology are needed to be adopted, risks of network attack and information leakage are reduced, access personnel information is extracted according to remote control system information, access personnel permission level data is extracted according to the access personnel information, corresponding system access permission levels are matched according to the access personnel permission level data, only authorized users are ensured to be able to access and control the system, and permission levels are established for control ranges and parameters.

The invention also discloses an industrial power supply remote control system, which comprises a memory and a processor, wherein the memory comprises an industrial power supply remote control method program, and the industrial power supply remote control method program realizes the following steps when being executed by the processor:

acquiring remote control system equipment information, and extracting control equipment information and power supply equipment information;

Extracting control equipment characteristic data, remote control parameter data and fault log record data according to the control equipment information, wherein the remote control parameter data comprises control parameter setting data and instruction sending data;

Extracting power equipment characteristic data and power equipment operation data according to the power equipment information, wherein the power equipment operation data comprises power equipment output parameter data and actuation response data;

Obtaining an equipment compatibility index according to the control equipment characteristic data and the power supply equipment characteristic data;

processing through a preset control accuracy evaluation model according to the control parameter setting data and the power supply equipment output parameter data to obtain a remote control accuracy index;

Processing the data sent by the instruction and the actuation response data through a preset equipment response rate evaluation model to obtain a power supply equipment response rate index;

Processing according to the fault log record data and the fault log record data of the same type of control equipment to obtain an error reporting frequency evaluation index;

Processing according to the equipment compatibility index, the remote control accuracy index and the power supply equipment response rate index and the error reporting frequency evaluation index to obtain a remote control system reliability index;

And comparing the reliability index of the remote control system with a preset reliability threshold value to obtain a reliability deviation rate, and judging the comparison result condition of the reliability deviation rate and the preset reliability deviation threshold value.

The method comprises the steps of acquiring remote control system equipment information, extracting control equipment information and power supply equipment information, and extracting control equipment characteristic data, remote control parameter data and fault log record data according to the control equipment information, wherein the remote control parameter data comprises control parameter setting data and instruction sending data; and extracting power supply equipment characteristic data and power supply equipment operation data according to the power supply equipment information, wherein the power supply equipment operation data comprises power supply equipment output parameter data and actuation response data. Obtaining an equipment compatibility index according to the control equipment characteristic data and the power supply equipment characteristic data; processing the control parameter setting data and the power supply equipment output parameter data through a preset control accuracy evaluation model to obtain a remote control accuracy index; processing the data sent by the instruction and the actuation response data through a preset equipment response rate evaluation model to obtain a power supply equipment response rate index; processing according to the fault log record data and the fault log record data of the same type of control equipment to obtain an error reporting frequency evaluation index; and processing according to the equipment compatibility index, the remote control accuracy index and the power supply equipment response rate index and the error reporting frequency evaluation index to obtain the reliability index of the remote control system. Comparing the reliability index of the remote control system with a preset reliability threshold value to obtain a reliability deviation rate, judging whether the reliability deviation rate is larger than the preset reliability deviation threshold value, if so, adjusting the remote control system, and if so, controlling the reliability of the remote control system equipment to meet the requirements. The technology fully acquires various data influencing the remote control of the power supply, processes the data through a plurality of preset models, comprehensively considers the aspects of equipment compatibility, remote control accuracy, equipment response rate and failure rate to obtain the reliability index of the industrial power supply remote control system, helps technicians to know the reliability of equipment and control methods of the remote control system, and timely adjusts the equipment and control methods for meeting different requirements.

According to the embodiment of the invention, the device compatibility index is obtained according to the control device characteristic data and the power supply device characteristic data, specifically:

extracting control equipment model data according to the control equipment characteristic data;

extracting power supply equipment model data according to the power supply equipment characteristic data;

And inquiring through a preset equipment compatibility database according to the control equipment model data and the power supply equipment model data to obtain an equipment compatibility index.

In order to determine and improve compatibility between the power supply device and the control device, control device model data is extracted according to the control device feature data, and power supply device model data is extracted according to the power supply device feature data, where a device model may generally reflect a type, a series and a specific configuration, and some models may represent a direct current power supply, an alternating current power supply, a UPS power supply or other types of devices. In addition, the serial information in the model can tell us that the device belongs to a specific series, the series may have certain common characteristics or performance parameters, meanwhile, the communication protocol and the communication port parameters of the device can be known, the model data of the control device and the model data of the power supply device are input into a preset device compatibility database for inquiring, and the series model and the power supply device and the control device with the same model can be obtained, so that the corresponding device compatibility index is obtained.

According to the embodiment of the invention, the control parameter setting data and the power supply equipment output parameter data are processed through a preset control accuracy evaluation model to obtain a remote control accuracy index, which is specifically as follows:

Extracting control voltage data, control current data and control power data according to the control parameter setting data;

extracting output voltage data, output current data and output power data according to the power supply equipment output parameter data;

processing the control voltage data, the control current data, the control power data, the output voltage data, the output current data and the output power data through a preset control accuracy evaluation model to obtain a remote control accuracy index;

the calculation formula of the control accuracy evaluation model is as follows:

；

Wherein, For remote control accuracy index,/>For controlling voltage data,/>To control the current data,/>To control power data,/>For outputting voltage data,/>To output current data,/>For output power data,/>Is a preset characteristic coefficient (the characteristic coefficient is obtained through inquiring a database of a preset industrial power supply control platform).

In order to improve the equipment parameter control accuracy of the remote control system, a high-precision and high-stability power hardware component is selected, and control voltage data, control current data and control power data are extracted according to control parameter setting data in algorithm optimization; extracting output voltage data, output current data and output power data according to the output parameter data of the power supply equipment; processing according to control voltage data, control current data, control power data, output voltage data, output current data and output power data through a preset control accuracy evaluation model to obtain a remote control accuracy index, processing according to equipment basic parameters through a preset calculation model, and evaluating the control accuracy of the equipment parameters.

According to the embodiment of the invention, the data sent according to the instruction and the actuation response data are processed through a preset equipment response rate evaluation model to obtain a power supply equipment response rate index, which is specifically as follows:

extracting the sending time data and the instruction sending times data according to the instruction sending data;

Extracting response time data and response times data according to the actuation response data;

extracting sending time data, instruction sending times data, response time data and response times data according to the instruction sending data, and processing the data through a preset equipment response rate evaluation model to obtain a power supply equipment response rate index;

the calculation formula of the equipment response rate evaluation model is as follows:

；

Wherein, For power supply device response rate index,/>To issue time data,/>For instruction issue count data,/>For response time data,/>For response times data,/>Is a preset characteristic coefficient (the characteristic coefficient is obtained through inquiring a database of a preset industrial power supply control platform).

In order to improve the working efficiency, extracting the sending time data and the sending times data according to the sending data of the instructions; extracting response time data and response times data according to the actuation response data; the shorter response time and the higher response times mean that the device can process tasks or instructions more quickly, extract the sending time data, the instruction sending times data, the response time data and the response times data according to the instruction sending data, process the data through a preset device response rate evaluation model to obtain a power supply device response rate index, grasp the instruction sending and the response time of the device, and help to reduce the waiting time and improve the efficiency of the whole workflow.

According to the embodiment of the invention, the fault log record data is processed according to the fault log record data and the fault log record data of the same type of control equipment to obtain the error reporting frequency evaluation index, which is specifically as follows:

Extracting fault frequency data according to the fault log record data;

acquiring fault log record data of the same type of control equipment within a preset time period and extracting fault frequency data of the same type of control equipment;

Comparing the fault frequency data with the fault frequency data of the same type of control equipment to obtain a fault frequency deviation rate;

judging whether the fault frequency deviation rate is larger than a preset fault deviation threshold value or not;

if the remote control system equipment is larger than or equal to the remote control system equipment, adjusting the remote control system equipment;

And if the error frequency evaluation index is smaller than the preset error frequency evaluation index, obtaining the error frequency evaluation index.

In order to further improve the stability of the remote control system and the remote control equipment, extracting fault frequency data according to the fault log record data, acquiring the fault log record data of the same type of control equipment in a preset time period, and extracting the fault frequency data of the same type of control equipment; according to the fault frequency data and the fault frequency data of the same type of control equipment, the fault frequency deviation rate is obtained, whether the fault frequency deviation rate is larger than a preset fault deviation threshold value or not is judged, if the fault frequency deviation rate is larger than or equal to the preset fault deviation threshold value, the remote control system equipment is adjusted, if the fault frequency deviation rate is smaller than the preset fault deviation threshold value, a fault frequency evaluation index is obtained, equipment faults often cause interruption of a production line, production efficiency is influenced, additional maintenance cost is generated, equipment with a higher fault frequency evaluation index is replaced or upgraded and reformed in advance, production continuity and high-quality production can be guaranteed, meanwhile, the service life of the equipment can be prolonged through reasonable maintenance and management, and premature rejection is avoided.

According to the embodiment of the invention, the device compatibility index, the remote control accuracy index and the power supply device response rate index are processed according to the error reporting frequency evaluation index to obtain the reliability index of the remote control system, specifically:

Processing according to the equipment compatibility index, the remote control accuracy index and the power supply equipment response rate index combined with the error reporting frequency evaluation index through a preset remote control evaluation model to obtain a remote control system reliability index;

The calculation formula of the remote control evaluation model is as follows:

；

Wherein, For the reliability index of the remote control system,/>For device compatibility index,/>For remote control accuracy index,/>For power supply device response rate index,/>Evaluating an index for reporting error frequency,/>Is a preset characteristic coefficient (the characteristic coefficient is obtained through inquiring a database of a preset industrial power supply control platform).

In order to improve the reliability of the industrial power supply remote control system, the reliability index of the remote control system is obtained by processing a preset remote control evaluation model according to the equipment compatibility index, the remote control accuracy index and the power supply equipment response rate index combined with the error reporting frequency evaluation index, whether the equipment compatibility directly affects the communication and the communication effect between the equipment or not is obtained, the remote control accuracy and the power supply equipment response rate are direct factors affecting the control effect and the efficiency of the remote control system, the equipment error reporting frequency intuitively reflects the operation stability of the equipment, and the equipment compatibility index, the remote control accuracy index, the power supply equipment response rate index and the error reporting frequency evaluation index are integrated and processed through the preset remote control evaluation model, so that the reliability index of the remote control system can be obtained, and the reliability index is an overall evaluation of the overall performance of the equipment of the remote control system.

According to the embodiment of the invention, the reliability index of the remote control system is compared with a preset reliability threshold value to obtain a reliability deviation rate, and the comparison result condition of the reliability deviation rate and the preset reliability deviation threshold value is judged, specifically:

acquiring a reliability index of a remote control system;

comparing the reliability index of the remote control system with a preset reliability threshold value to obtain a reliability deviation rate;

Judging whether the reliability deviation rate is larger than a preset reliability deviation threshold value or not;

if the remote control system is greater than or equal to the preset value, the remote control system is adjusted;

And if the control reliability of the remote control system equipment is smaller than the control reliability of the remote control system equipment, the control reliability of the remote control system equipment meets the requirement.

In order to improve the reliability of the remote control system, the reliability index of the remote control system is compared with a preset reliability threshold value to obtain a reliability deviation rate, whether the reliability deviation rate is larger than the preset reliability deviation threshold value or not is judged, if so, the remote control system is adjusted, for example, equipment foundation setting parameters, including parameters such as voltage, current and power, response time and control accuracy and the like, power supply equipment and control equipment of the control system can be replaced or upgraded, and the control reliability of the equipment can be improved by adjusting the parameters and the equipment; and if the comparison result is smaller than the comparison result, the control reliability of the remote control system equipment meets the requirement.

According to an embodiment of the present invention, further comprising:

Extracting visitor information according to the remote control system information;

Extracting access personnel authority level data according to the access personnel information;

and matching corresponding system access permission grades according to the access personnel permission grade data.

Wherein the stability and security of network communications directly affect the reliability of the remote control system. Therefore, a safer and more reliable network protocol and technology are needed to be adopted, risks of network attack and information leakage are reduced, access personnel information is extracted according to remote control system information, access personnel permission level data is extracted according to the access personnel information, corresponding system access permission levels are matched according to the access personnel permission level data, only authorized users are ensured to be able to access and control the system, and permission levels are established for control ranges and parameters.

The third aspect of the present invention also provides a readable storage medium having an industrial power supply remote control method program embodied therein, which when executed by a processor, implements the steps of an industrial power supply remote control method as described in any one of the above.

The application discloses a remote control method, a remote control system and a remote control medium for an industrial power supply, which are characterized in that control equipment information and power equipment information are extracted by acquiring the equipment information of a remote control system, and control equipment characteristic data, remote control parameter data and fault log record data are extracted according to the control equipment information, wherein the remote control parameter data comprise control parameter setting data and instruction sending data; and extracting power supply equipment characteristic data and power supply equipment operation data according to the power supply equipment information, wherein the power supply equipment operation data comprises power supply equipment output parameter data and actuation response data. Obtaining an equipment compatibility index according to the control equipment characteristic data and the power supply equipment characteristic data; processing the control parameter setting data and the power supply equipment output parameter data through a preset control accuracy evaluation model to obtain a remote control accuracy index; processing the data sent by the instruction and the actuation response data through a preset equipment response rate evaluation model to obtain a power supply equipment response rate index; processing according to the fault log record data and the fault log record data of the same type of control equipment to obtain an error reporting frequency evaluation index; and processing according to the equipment compatibility index, the remote control accuracy index and the power supply equipment response rate index and the error reporting frequency evaluation index to obtain the reliability index of the remote control system. Comparing the reliability index of the remote control system with a preset reliability threshold value to obtain a reliability deviation rate, judging whether the reliability deviation rate is larger than the preset reliability deviation threshold value, if so, adjusting the remote control system, and if so, controlling the reliability of the remote control system equipment to meet the requirements. The technology fully acquires various data influencing the remote control of the power supply, processes the data through a plurality of preset models, comprehensively considers the aspects of equipment compatibility, remote control accuracy, equipment response rate and failure rate to obtain the reliability index of the industrial power supply remote control system, helps technicians to know the reliability of equipment and control methods of the remote control system, and timely adjusts the equipment and control methods for meeting different requirements.

In the several embodiments provided by the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. The above described device embodiments are only illustrative, e.g. the division of the units is only one logical function division, and there may be other divisions in practice, such as: multiple units or components may be combined or may be integrated into another system, or some features may be omitted, or not performed. In addition, the various components shown or discussed may be coupled or directly coupled or communicatively coupled to each other via some interface, whether indirectly coupled or communicatively coupled to devices or units, whether electrically, mechanically, or otherwise.

The units described above as separate components may or may not be physically separate, and components shown as units may or may not be physical units; can be located in one place or distributed to a plurality of network units; some or all of the units may be selected according to actual needs to achieve the purpose of the solution of this embodiment.

In addition, each functional unit in each embodiment of the present invention may be integrated in one processing unit, or each unit may be separately used as one unit, or two or more units may be integrated in one unit; the integrated units may be implemented in hardware or in hardware plus software functional units.

Those of ordinary skill in the art will appreciate that: all or part of the steps for implementing the above method embodiments may be implemented by hardware related to program instructions, and the foregoing program may be stored in a readable storage medium, where the program, when executed, performs steps including the above method embodiments; and the aforementioned storage medium includes: a removable storage device, a read-only memory, a random access memory, a magnetic or optical disk, or other various media capable of storing program code.

Or the above-described integrated units of the invention may be stored in a readable storage medium if implemented in the form of software functional modules and sold or used as separate products. Based on such understanding, the technical solution of the embodiments of the present invention may be embodied in essence or a part contributing to the prior art in the form of a software product stored in a storage medium, including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute all or part of the methods described in the embodiments of the present invention. And the aforementioned storage medium includes: a removable storage device, ROM, RAM, magnetic or optical disk, or other medium capable of storing program code.

Claims (10)

1. The industrial power supply remote control method is characterized by comprising the following steps of:

acquiring remote control system equipment information, and extracting control equipment information and power supply equipment information;

Extracting control equipment characteristic data, remote control parameter data and fault log record data according to the control equipment information, wherein the remote control parameter data comprises control parameter setting data and instruction sending data;

Extracting power equipment characteristic data and power equipment operation data according to the power equipment information, wherein the power equipment operation data comprises power equipment output parameter data and actuation response data;

Obtaining an equipment compatibility index according to the control equipment characteristic data and the power supply equipment characteristic data;

processing through a preset control accuracy evaluation model according to the control parameter setting data and the power supply equipment output parameter data to obtain a remote control accuracy index;

Processing the data sent by the instruction and the actuation response data through a preset equipment response rate evaluation model to obtain a power supply equipment response rate index;

Processing according to the fault log record data and the fault log record data of the same type of control equipment to obtain an error reporting frequency evaluation index;

Processing according to the equipment compatibility index, the remote control accuracy index and the power supply equipment response rate index and the error reporting frequency evaluation index to obtain a remote control system reliability index;

And comparing the reliability index of the remote control system with a preset reliability threshold value to obtain a reliability deviation rate, and judging the comparison result condition of the reliability deviation rate and the preset reliability deviation threshold value.

2. The industrial power supply remote control method according to claim 1, wherein the obtaining the device compatibility index according to the control device feature data and the power supply device feature data specifically includes:

extracting control equipment model data according to the control equipment characteristic data;

extracting power supply equipment model data according to the power supply equipment characteristic data;

And inquiring through a preset equipment compatibility database according to the control equipment model data and the power supply equipment model data to obtain an equipment compatibility index.

3. The industrial power supply remote control method according to claim 2, wherein the processing is performed by a preset control accuracy evaluation model according to the control parameter setting data and the power supply device output parameter data to obtain a remote control accuracy index, specifically:

Extracting control voltage data, control current data and control power data according to the control parameter setting data;

extracting output voltage data, output current data and output power data according to the power supply equipment output parameter data;

and processing the control voltage data, the control current data, the control power data, the output voltage data, the output current data and the output power data through a preset control accuracy evaluation model to obtain a remote control accuracy index.

4. The industrial power supply remote control method according to claim 3, wherein the data sent according to the instruction and the actuation response data are processed through a preset equipment response rate evaluation model to obtain a power supply equipment response rate index, specifically:

extracting the sending time data and the instruction sending times data according to the instruction sending data;

Extracting response time data and response times data according to the actuation response data;

and extracting the sending time data, the sending times data, the response time data and the response times data according to the instruction sending data, and processing the data through a preset equipment response rate evaluation model to obtain a power supply equipment response rate index.

5. The industrial power supply remote control method according to claim 4, wherein the processing is performed according to the fault log record data in combination with the fault log record data of the same type of control device to obtain a fault reporting frequency evaluation index, specifically:

Extracting fault frequency data according to the fault log record data;

acquiring fault log record data of the same type of control equipment within a preset time period and extracting fault frequency data of the same type of control equipment;

Comparing the fault frequency data with the fault frequency data of the same type of control equipment to obtain a fault frequency deviation rate;

judging whether the fault frequency deviation rate is larger than a preset fault deviation threshold value or not;

if the remote control system equipment is larger than or equal to the remote control system equipment, adjusting the remote control system equipment;

And if the error frequency evaluation index is smaller than the preset error frequency evaluation index, obtaining the error frequency evaluation index.

6. The industrial power supply remote control method according to claim 5, wherein the processing is performed according to the device compatibility index, the remote control accuracy index, the power supply device response rate index and the error reporting frequency evaluation index to obtain a remote control system reliability index, specifically:

Processing according to the equipment compatibility index, the remote control accuracy index and the power supply equipment response rate index combined with the error reporting frequency evaluation index through a preset remote control evaluation model to obtain a remote control system reliability index;

The calculation formula of the remote control evaluation model is as follows:

；

Wherein, For the reliability index of the remote control system,/>For device compatibility index,/>For remote control accuracy index,/>For power supply device response rate index,/>Evaluating an index for reporting error frequency,/>Is a preset characteristic coefficient.

7. The method for remotely controlling an industrial power supply according to claim 6, wherein comparing the reliability index of the remote control system with a preset reliability threshold value to obtain a reliability deviation rate, and determining a comparison result of the reliability deviation rate with the preset reliability deviation threshold value specifically includes:

acquiring a reliability index of a remote control system;

comparing the reliability index of the remote control system with a preset reliability threshold value to obtain a reliability deviation rate;

Judging whether the reliability deviation rate is larger than a preset reliability deviation threshold value or not;

if the remote control system is greater than or equal to the preset value, the remote control system is adjusted;

And if the control reliability of the remote control system equipment is smaller than the control reliability of the remote control system equipment, the control reliability of the remote control system equipment meets the requirement.

8. The industrial power supply remote control system is characterized by comprising a memory and a processor, wherein the memory comprises an industrial power supply remote control method program, and the industrial power supply remote control method program realizes the following steps when being executed by the processor:

acquiring remote control system equipment information, and extracting control equipment information and power supply equipment information;

Extracting control equipment characteristic data, remote control parameter data and fault log record data according to the control equipment information, wherein the remote control parameter data comprises control parameter setting data and instruction sending data;

Extracting power equipment characteristic data and power equipment operation data according to the power equipment information, wherein the power equipment operation data comprises power equipment output parameter data and actuation response data;

Obtaining an equipment compatibility index according to the control equipment characteristic data and the power supply equipment characteristic data;

processing through a preset control accuracy evaluation model according to the control parameter setting data and the power supply equipment output parameter data to obtain a remote control accuracy index;

Processing the data sent by the instruction and the actuation response data through a preset equipment response rate evaluation model to obtain a power supply equipment response rate index;

Processing according to the fault log record data and the fault log record data of the same type of control equipment to obtain an error reporting frequency evaluation index;

Processing according to the equipment compatibility index, the remote control accuracy index and the power supply equipment response rate index and the error reporting frequency evaluation index to obtain a remote control system reliability index;

And comparing the reliability index of the remote control system with a preset reliability threshold value to obtain a reliability deviation rate, and judging the comparison result condition of the reliability deviation rate and the preset reliability deviation threshold value.

9. The industrial power supply remote control system according to claim 8, wherein the device compatibility index is obtained according to the control device characteristic data and the power supply device characteristic data, specifically:

extracting control equipment model data according to the control equipment characteristic data;

extracting power supply equipment model data according to the power supply equipment characteristic data;

And inquiring through a preset equipment compatibility database according to the control equipment model data and the power supply equipment model data to obtain an equipment compatibility index.

10. A computer readable storage medium, characterized in that it includes therein an industrial power supply remote control method, system and medium program, which when executed by a processor, implement the steps of the industrial power supply remote control method according to any one of claims 1 to 7.