CN113741998A - Data processing system and method of relay protection device with multiple plug-ins - Google Patents

Abstract

The invention discloses a data processing system of a relay protection device with multiple plug-ins, which comprises a power data acquisition module, a data processing module, a relay protection module, a plug-in management module and a human-computer interaction module, wherein the power data acquisition module is connected with the data processing module, and the data processing module is also connected with the relay protection module and the plug-in management module. According to the method, the working data of the power equipment are collected, the configuration information of the plug-in to be inserted, which is input by a user, is received, the working data of the power equipment is subjected to data processing, the fault information data of the power equipment is obtained, the fault information data is matched with the database data to obtain a matching result, the configuration instruction is generated according to the matching result, the plug-in corresponding to the fault information is matched, the plug-in matched with the fault is accurately selected, and the use accuracy of the relay protection device is improved.

Description

Data processing system and method of relay protection device with multiple plug-ins

Technical Field

The invention relates to the technical field of relay protection, in particular to a data processing system and a data processing method of a relay protection device with multiple plug-ins.

Background

The electric power continuously transmitted to various places is an indispensable resource for human life, and the transmission and transformation technology is the foundation for ensuring the transmission of the electric power. In order to ensure the safety and reliability of power transmission, the safety of power transmission and transformation equipment needs to be monitored in real time. The relay protection device is an important device for protecting the normal operation of a power grid, and software downloading and installation are frequently required in the manufacturing, operation and maintenance of the relay protection device. In the production stage, after the relay protection device completes hardware assembly, a protection program needs to be downloaded; in the operation and maintenance stage, the plug-in unit is unloaded, and the software is upgraded, so that corresponding protection programs, engineering configuration and fixed value parameters are required to be downloaded. Therefore, whether software is installed conveniently and efficiently is an important aspect of user experience of relay protection products.

The software downloading mode of the traditional relay protection device generally has the following defects: on the one hand, the traditional software downloading mode is that the software modules are downloaded one by one through engineers according to plug-ins, so that the operation is complex, the workload is large, and the efficiency is low. On the other hand, the whole software downloading process is finished manually, and the problem that the wrong downloading caused by human factors is difficult to avoid and potential safety hazards are buried in the normal operation of the relay protection device due to the fact that experience levels of engineering personnel are different is considered.

Disclosure of Invention

The present invention is directed to a data processing system and method for a relay protection device with multiple plug-ins, so as to solve the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme:

a data processing system and method of a relay protection device with multiple plug-ins, a power data acquisition module is used for acquiring the working data of power equipment and sending the working data to a data processing module;

the plug-in management module is used for receiving the configuration information of the plug-in to be inserted, which is input by a user, and sending the configuration information of the plug-in to the data processing module;

the data processing module is used for receiving the working data sent by the power data acquisition module and processing the working data to obtain fault information data of the power equipment; the system comprises a plug-in management module, a database, a relay protection module and a fault information database, wherein the plug-in management module is used for receiving the configuration information of the plug-in sent by the plug-in management module, inputting the configuration information into the database, matching the fault information data with the database data to obtain the configuration information of the plug-in corresponding to the fault information, and sending a configuration instruction of the plug-in to the relay protection module.

As a further scheme of the invention: the electric power data acquisition module is connected with the data processing module, and the data processing module is also connected with the relay protection module and the plug-in management module.

As a still further scheme of the invention: the relay protection module is used for receiving the configuration instruction sent by the data processing module and configuring the corresponding plug-in unit according to the configuration instruction;

the human-computer interaction module is connected with the data processing module and used for sending a data calling instruction to the data processing module, receiving the calling instruction by the data processing module and sending calling data matched with the calling instruction to the human-computer interaction module; and the data processing module is used for receiving the calling data sent by the data processing module and displaying the calling data.

As a still further scheme of the invention: the electric power data acquisition module comprises an acquisition end, a data receiving unit, a data sorting unit and a data sending unit, wherein the data receiving unit is connected with the data sorting unit, and the data sorting unit is connected with the data sending unit.

As a still further scheme of the invention: the acquisition end comprises a power equipment monitoring unit, a cable monitoring unit and a switch equipment monitoring unit.

As a still further scheme of the invention: the data processing module comprises a receiving unit, a data analysis unit, a plug-in configuration unit, a configuration instruction sending unit, a database and a sending unit.

As a still further scheme of the invention: the data receiving unit is connected with the data analysis unit, the data analysis unit is connected with the sending unit, the data analysis unit is further connected with the plug-in configuration unit, and the plug-in configuration unit is connected with the configuration instruction sending unit.

As a still further scheme of the invention: the plug-in management module comprises a data packet acquisition unit, a configuration unit, a plug-in identification unit and a configuration information sending unit.

As a still further scheme of the invention: the data packet acquisition unit is connected with the configuration unit, and the configuration unit is also connected with the plug-in identification unit and the configuration information sending unit.

A method of a data processing system having a multi-plug relay protection device, comprising the steps of:

s001, collecting working data of the power equipment, and receiving configuration information of a plug-in to be inserted, which is input by a user;

s002, performing data processing on the working data of the power equipment to obtain fault information data of the power equipment, and matching the fault information data with database data to obtain a matching result;

and S003, generating a configuration instruction according to the matching result, and matching the plug-in corresponding to the fault information.

Compared with the prior art, the invention has the beneficial effects that: according to the method, the working data of the power equipment are collected, the configuration information of the plug-in to be inserted, which is input by a user, is received, the working data of the power equipment is subjected to data processing, the fault information data of the power equipment is obtained, the fault information data is matched with the database data to obtain a matching result, the configuration instruction is generated according to the matching result, the plug-in corresponding to the fault information is matched, the plug-in matched with the fault is accurately selected, and the use accuracy of the relay protection device is improved.

Drawings

Fig. 1 is a block diagram showing a configuration of a data processing system of a relay protection device having a plurality of cards.

Fig. 2 is a block diagram of a power data acquisition module in a data processing system of a relay protection device with multiple plug-ins.

Fig. 3 is a block diagram of a plug-in management module in a data processing system of a relay protection device with multiple plugs-in units.

Fig. 4 is a block diagram of a data processing module in a data processing system having a multi-plug relay protection device.

Fig. 5 is a flow chart of a method of a data processing system with a multi-plug relay protection device.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In addition, an element of the present invention may be said to be "fixed" or "disposed" to another element, either directly on the other element or with intervening elements present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Example 1

Referring to fig. 1-2, in an embodiment of the present invention, a data processing system of a relay protection device with multiple plug-ins includes an electric power data acquisition module 1, a data processing module 2, a relay protection module 3, a plug-in management module 4, and a human-computer interaction module 5, where the electric power data acquisition module 1 is connected to the data processing module 2, and the data processing module 2 is further connected to the relay protection module 3 and the plug-in management module 4, where:

the power data acquisition module 1 is used for acquiring working data of the power equipment and sending the working data to the data processing module 2;

the plug-in management module 4 is used for receiving the configuration information of the plug-in to be inserted, which is input by a user, and sending the configuration information of the plug-in to the data processing module 2;

the data processing module 2 is used for receiving the working data sent by the power data acquisition module 1, and performing data processing on the working data to obtain fault information data of the power equipment; the system comprises a plug-in management module 4, a database, a relay protection module 3 and a fault information database, wherein the plug-in management module is used for receiving the configuration information of a plug-in sent by the plug-in management module 4, inputting the configuration information into the database, matching fault information data with database data to obtain the configuration information of the plug-in corresponding to the fault information, and sending a configuration instruction of the plug-in to the relay protection module 3;

the relay protection module 3 is used for receiving the configuration instruction sent by the data processing module 2 and configuring the corresponding plug-in according to the configuration instruction;

the human-computer interaction module 5 is connected with the data processing module 2 and is used for sending a data calling instruction to the data processing module 2, receiving the calling instruction from the data processing module 2 and sending calling data matched with the calling instruction to the human-computer interaction module 5; and is configured to receive the call data sent by the data processing module 2, and display the call data.

In the embodiment of the present invention, it should be noted that the power data acquisition module 1 includes an acquisition end, a data receiving unit 14, a data sorting unit 15, and a data sending unit 16, where the data receiving unit 14 is connected to the data sorting unit 15, and the data sorting unit 15 is connected to the data sending unit 16, where:

the acquisition end is used for acquiring the working data of the power equipment and sending the working data to the data receiving unit 14;

the data receiving unit 14 is configured to receive the working data sent by the acquisition end, and send the working data to the data sorting unit 15;

the data sorting unit 15 is configured to receive the work data sent by the data receiving unit 14, perform data sorting on the work to obtain sorted data, send the sorted data to the data sending unit 16, and send the sorted data to the data processing module 2 by the data sending unit 16;

it should be further noted that the acquisition end includes a power equipment monitoring unit 11, a cable monitoring unit 12, and a switch equipment monitoring unit 13, which are respectively used for monitoring power equipment, cables electrically connected to the power equipment, and power working data of switches on the cables.

Example 2

Referring to fig. 1-2, in an embodiment of the present invention, a data processing system of a relay protection device with multiple plug-ins includes an electric power data acquisition module 1, a data processing module 2, a relay protection module 3, a plug-in management module 4, and a human-computer interaction module 5, where the electric power data acquisition module 1 is connected to the data processing module 2, and the data processing module 2 is further connected to the relay protection module 3 and the plug-in management module 4, where:

the power data acquisition module 1 is used for acquiring working data of the power equipment and sending the working data to the data processing module 2;

the plug-in management module 4 is used for receiving the configuration information of the plug-in to be inserted, which is input by a user, and sending the configuration information of the plug-in to the data processing module 2;

the data processing module 2 is used for receiving the working data sent by the power data acquisition module 1, and performing data processing on the working data to obtain fault information data of the power equipment; the system comprises a plug-in management module 4, a database, a relay protection module 3 and a fault information database, wherein the plug-in management module is used for receiving the configuration information of a plug-in sent by the plug-in management module 4, inputting the configuration information into the database, matching fault information data with database data to obtain the configuration information of the plug-in corresponding to the fault information, and sending a configuration instruction of the plug-in to the relay protection module 3;

the relay protection module 3 is used for receiving the configuration instruction sent by the data processing module 2 and configuring the corresponding plug-in according to the configuration instruction;

the human-computer interaction module 5 is connected with the data processing module 2 and is used for sending a data calling instruction to the data processing module 2, receiving the calling instruction from the data processing module 2 and sending calling data matched with the calling instruction to the human-computer interaction module 5; and is configured to receive the call data sent by the data processing module 2, and display the call data.

In the embodiment of the present invention, it should be noted that the power data acquisition module 1 includes an acquisition end, a data receiving unit 14, a data sorting unit 15, and a data sending unit 16, where the data receiving unit 14 is connected to the data sorting unit 15, and the data sorting unit 15 is connected to the data sending unit 16, where:

the acquisition end is used for acquiring the working data of the power equipment and sending the working data to the data receiving unit 14;

the data receiving unit 14 is configured to receive the working data sent by the acquisition end, and send the working data to the data sorting unit 15;

the data sorting unit 15 is configured to receive the work data sent by the data receiving unit 14, perform data sorting on the work to obtain sorted data, send the sorted data to the data sending unit 16, and send the sorted data to the data processing module 2 by the data sending unit 16;

it should be further noted that the acquisition end includes a power equipment monitoring unit 11, a cable monitoring unit 12, and a switch equipment monitoring unit 13, which are respectively used for monitoring power equipment, cables electrically connected to the power equipment, and power working data of switches on the cables.

Referring to fig. 4, the difference between the present embodiment and embodiment 1 is:

the data processing module 2 includes a receiving unit 21, a data analyzing unit 22, a plug-in configuration unit 23, a configuration instruction transmitting unit 24, a database 25 and a transmitting unit 26, the data receiving unit 21 is connected to the data analyzing unit 22, the data analyzing unit 22 is connected to the transmitting unit 26, the data analyzing unit 22 is further connected to the plug-in configuration unit 23, the plug-in configuration unit 23 is connected to the configuration instruction transmitting unit 24, wherein:

the receiving unit 21 is connected with the power data acquisition module 1, and is used for receiving the arrangement data sent by the power data acquisition module 1 and sending the arrangement data to the data analysis unit 22;

a database, configured to receive configuration information of a plug-in to be inserted, which is input by a user, store the configuration information, generate a configuration information base, and input the configuration information base into the data analysis unit 22;

the data analysis unit 22 is configured to receive the sorted data sent by the receiving unit 21, perform data analysis on the sorted data to obtain fault data of the power equipment, and generate a plug-in matching instruction according to the fault data; the configuration information base is used for receiving the configuration information base sent by the database, sending a plug-in matching instruction to the configuration information base, matching to obtain plug-in configuration information, and sending the configuration information to the plug-in configuration unit 23;

and the plug-in configuration unit 23 is configured to receive the configuration information sent by the data analysis unit 22, send the configuration information to the configuration instruction sending unit 24, and send the configuration instruction to the relay protection module 3 by the configuration instruction sending unit 24.

Example 3

Referring to fig. 1-2, in an embodiment of the present invention, a data processing system of a relay protection device with multiple plug-ins includes an electric power data acquisition module 1, a data processing module 2, a relay protection module 3, a plug-in management module 4, and a human-computer interaction module 5, where the electric power data acquisition module 1 is connected to the data processing module 2, and the data processing module 2 is further connected to the relay protection module 3 and the plug-in management module 4, where:

the power data acquisition module 1 is used for acquiring working data of the power equipment and sending the working data to the data processing module 2;

the plug-in management module 4 is used for receiving the configuration information of the plug-in to be inserted, which is input by a user, and sending the configuration information of the plug-in to the data processing module 2;

the data processing module 2 is used for receiving the working data sent by the power data acquisition module 1, and performing data processing on the working data to obtain fault information data of the power equipment; the system comprises a plug-in management module 4, a database, a relay protection module 3 and a fault information database, wherein the plug-in management module is used for receiving the configuration information of a plug-in sent by the plug-in management module 4, inputting the configuration information into the database, matching fault information data with database data to obtain the configuration information of the plug-in corresponding to the fault information, and sending a configuration instruction of the plug-in to the relay protection module 3;

the relay protection module 3 is used for receiving the configuration instruction sent by the data processing module 2 and configuring the corresponding plug-in according to the configuration instruction;

the human-computer interaction module 5 is connected with the data processing module 2 and is used for sending a data calling instruction to the data processing module 2, receiving the calling instruction from the data processing module 2 and sending calling data matched with the calling instruction to the human-computer interaction module 5; and is configured to receive the call data sent by the data processing module 2, and display the call data.

In the embodiment of the present invention, it should be noted that the power data acquisition module 1 includes an acquisition end, a data receiving unit 14, a data sorting unit 15, and a data sending unit 16, where the data receiving unit 14 is connected to the data sorting unit 15, and the data sorting unit 15 is connected to the data sending unit 16, where:

the acquisition end is used for acquiring the working data of the power equipment and sending the working data to the data receiving unit 14;

the data receiving unit 14 is configured to receive the working data sent by the acquisition end, and send the working data to the data sorting unit 15;

the data sorting unit 15 is configured to receive the work data sent by the data receiving unit 14, perform data sorting on the work to obtain sorted data, send the sorted data to the data sending unit 16, and send the sorted data to the data processing module 2 by the data sending unit 16;

it should be further noted that the acquisition end includes a power equipment monitoring unit 11, a cable monitoring unit 12, and a switch equipment monitoring unit 13, which are respectively used for monitoring power equipment, cables electrically connected to the power equipment, and power working data of switches on the cables.

Referring to fig. 4, the difference between the present embodiment and embodiment 1 is:

the data processing module 2 includes a receiving unit 21, a data analyzing unit 22, a plug-in configuration unit 23, a configuration instruction transmitting unit 24, a database 25 and a transmitting unit 26, the data receiving unit 21 is connected to the data analyzing unit 22, the data analyzing unit 22 is connected to the transmitting unit 26, the data analyzing unit 22 is further connected to the plug-in configuration unit 23, the plug-in configuration unit 23 is connected to the configuration instruction transmitting unit 24, wherein:

the receiving unit 21 is connected with the power data acquisition module 1, and is used for receiving the arrangement data sent by the power data acquisition module 1 and sending the arrangement data to the data analysis unit 22;

a database, configured to receive configuration information of a plug-in to be inserted, which is input by a user, store the configuration information, generate a configuration information base, and input the configuration information base into the data analysis unit 22;

the data analysis unit 22 is configured to receive the sorted data sent by the receiving unit 21, perform data analysis on the sorted data to obtain fault data of the power equipment, and generate a plug-in matching instruction according to the fault data; the configuration information base is used for receiving the configuration information base sent by the database, sending a plug-in matching instruction to the configuration information base, matching to obtain plug-in configuration information, and sending the configuration information to the plug-in configuration unit 23;

and the plug-in configuration unit 23 is configured to receive the configuration information sent by the data analysis unit 22, send the configuration information to the configuration instruction sending unit 24, and send the configuration instruction to the relay protection module 3 by the configuration instruction sending unit 24.

Referring to fig. 3, the difference between the present embodiment and embodiments 1-2 is:

the plug-in management module 4 includes a data packet obtaining unit 42, a configuration unit 41, a plug-in identification unit 43 and a configuration information sending unit 44, where the data packet obtaining unit 42 is connected with the configuration unit 41, and the configuration unit 41 is further connected with the plug-in identification unit 43 and the configuration information sending unit 44.

Example 4

Referring to fig. 1-2, in an embodiment of the present invention, a data processing system of a relay protection device with multiple plug-ins includes an electric power data acquisition module 1, a data processing module 2, a relay protection module 3, a plug-in management module 4, and a human-computer interaction module 5, where the electric power data acquisition module 1 is connected to the data processing module 2, and the data processing module 2 is further connected to the relay protection module 3 and the plug-in management module 4, where:

the power data acquisition module 1 is used for acquiring working data of the power equipment and sending the working data to the data processing module 2;

the plug-in management module 4 is used for receiving the configuration information of the plug-in to be inserted, which is input by a user, and sending the configuration information of the plug-in to the data processing module 2;

the data processing module 2 is used for receiving the working data sent by the power data acquisition module 1, and performing data processing on the working data to obtain fault information data of the power equipment; the system comprises a plug-in management module 4, a database, a relay protection module 3 and a fault information database, wherein the plug-in management module is used for receiving the configuration information of a plug-in sent by the plug-in management module 4, inputting the configuration information into the database, matching fault information data with database data to obtain the configuration information of the plug-in corresponding to the fault information, and sending a configuration instruction of the plug-in to the relay protection module 3;

the relay protection module 3 is used for receiving the configuration instruction sent by the data processing module 2 and configuring the corresponding plug-in according to the configuration instruction;

the human-computer interaction module 5 is connected with the data processing module 2 and is used for sending a data calling instruction to the data processing module 2, receiving the calling instruction from the data processing module 2 and sending calling data matched with the calling instruction to the human-computer interaction module 5; and is configured to receive the call data sent by the data processing module 2, and display the call data.

In the embodiment of the present invention, it should be noted that the power data acquisition module 1 includes an acquisition end, a data receiving unit 14, a data sorting unit 15, and a data sending unit 16, where the data receiving unit 14 is connected to the data sorting unit 15, and the data sorting unit 15 is connected to the data sending unit 16, where:

the acquisition end is used for acquiring the working data of the power equipment and sending the working data to the data receiving unit 14;

the data receiving unit 14 is configured to receive the working data sent by the acquisition end, and send the working data to the data sorting unit 15;

the data sorting unit 15 is configured to receive the work data sent by the data receiving unit 14, perform data sorting on the work to obtain sorted data, send the sorted data to the data sending unit 16, and send the sorted data to the data processing module 2 by the data sending unit 16;

it should be further noted that the acquisition end includes a power equipment monitoring unit 11, a cable monitoring unit 12, and a switch equipment monitoring unit 13, which are respectively used for monitoring power equipment, cables electrically connected to the power equipment, and power working data of switches on the cables.

Referring to fig. 4, the difference between the present embodiment and embodiment 1 is:

the data processing module 2 includes a receiving unit 21, a data analyzing unit 22, a plug-in configuration unit 23, a configuration instruction transmitting unit 24, a database 25 and a transmitting unit 26, the data receiving unit 21 is connected to the data analyzing unit 22, the data analyzing unit 22 is connected to the transmitting unit 26, the data analyzing unit 22 is further connected to the plug-in configuration unit 23, the plug-in configuration unit 23 is connected to the configuration instruction transmitting unit 24, wherein:

the receiving unit 21 is connected with the power data acquisition module 1, and is used for receiving the arrangement data sent by the power data acquisition module 1 and sending the arrangement data to the data analysis unit 22;

a database, configured to receive configuration information of a plug-in to be inserted, which is input by a user, store the configuration information, generate a configuration information base, and input the configuration information base into the data analysis unit 22;

the data analysis unit 22 is configured to receive the sorted data sent by the receiving unit 21, perform data analysis on the sorted data to obtain fault data of the power equipment, and generate a plug-in matching instruction according to the fault data; the configuration information base is used for receiving the configuration information base sent by the database, sending a plug-in matching instruction to the configuration information base, matching to obtain plug-in configuration information, and sending the configuration information to the plug-in configuration unit 23;

and the plug-in configuration unit 23 is configured to receive the configuration information sent by the data analysis unit 22, send the configuration information to the configuration instruction sending unit 24, and send the configuration instruction to the relay protection module 3 by the configuration instruction sending unit 24.

Referring to fig. 3, the difference between the present embodiment and embodiments 1-2 is:

the plug-in management module 4 includes a data packet obtaining unit 42, a configuration unit 41, a plug-in identification unit 43 and a configuration information sending unit 44, where the data packet obtaining unit 42 is connected with the configuration unit 41, and the configuration unit 41 is further connected with the plug-in identification unit 43 and the configuration information sending unit 44.

Referring to fig. 5, the present embodiment is different from embodiments 1 to 3 in that:

the embodiment also discloses a data processing method of the relay protection device with the multiple plug-ins, which comprises the following steps:

s001, collecting working data of the power equipment, and receiving configuration information of a plug-in to be inserted, which is input by a user;

s002, performing data processing on the working data of the power equipment to obtain fault information data of the power equipment, and matching the fault information data with database data to obtain a matching result;

and S003, generating a configuration instruction according to the matching result, and matching the plug-in corresponding to the fault information.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. A data processing system of a relay protection device with multiple plug-ins is characterized in that,

the power data acquisition module is used for acquiring working data of the power equipment and sending the working data to the data processing module;

the plug-in management module is used for receiving the configuration information of the plug-in to be inserted, which is input by a user, and sending the configuration information of the plug-in to the data processing module;

the data processing module is used for receiving the working data sent by the power data acquisition module and processing the working data to obtain fault information data of the power equipment; the system comprises a plug-in management module, a database, a relay protection module and a fault information database, wherein the plug-in management module is used for receiving the configuration information of the plug-in sent by the plug-in management module, inputting the configuration information into the database, matching the fault information data with the database data to obtain the configuration information of the plug-in corresponding to the fault information, and sending a configuration instruction of the plug-in to the relay protection module.

2. The data processing system of the relay protection device with multiple plug-ins of claim 1, wherein the power data acquisition module is connected with the data processing module, and the data processing module is further connected with the relay protection module and the plug-in management module.

3. The data processing system of relay protection device with multiple plug-ins of claim 2,

the relay protection module is used for receiving the configuration instruction sent by the data processing module and configuring the corresponding plug-in unit according to the configuration instruction;

the human-computer interaction module is connected with the data processing module and used for sending a data calling instruction to the data processing module, receiving the calling instruction by the data processing module and sending calling data matched with the calling instruction to the human-computer interaction module; and the data processing module is used for receiving the calling data sent by the data processing module and displaying the calling data.

4. The data processing system of the relay protection device with the multiple plug-ins of claim 1, wherein the power data acquisition module comprises an acquisition end, a data receiving unit, a data sorting unit and a data sending unit, the data receiving unit is connected with the data sorting unit, and the data sorting unit is connected with the data sending unit.

5. The data processing system of the relay protection device with multiple plug-ins of claim 4, wherein the collection end comprises a power equipment monitoring unit, a cable monitoring unit and a switch equipment monitoring unit.

6. The data processing system of the relay protection device with multiple plug-ins of claim 1, wherein the data processing module comprises a receiving unit, a data analysis unit, a plug-in configuration unit, a configuration instruction sending unit, a database and a sending unit.

7. The data processing system of the relay protection device with multiple plug-ins of claim 6, wherein the data receiving unit is connected with the data analysis unit, the data analysis unit is connected with the sending unit, the data analysis unit is further connected with the plug-in configuration unit, and the plug-in configuration unit is connected with the configuration instruction sending unit.

8. The data processing system of the relay protection device with multiple plug-ins of claim 1, wherein the plug-in management module comprises a data packet obtaining unit, a configuration unit, a plug-in identification unit and a configuration information sending unit.

9. The data processing system of the relay protection device with multiple plug-ins of claim 8, wherein the data packet obtaining unit is connected to the configuration unit, and the configuration unit is further connected to the plug-in identification unit and the configuration information sending unit.

10. The method of the data processing system of the relay protection device with the multiple plug-ins according to any one of claims 1 to 9, comprising the steps of:

s001, collecting working data of the power equipment, and receiving configuration information of a plug-in to be inserted, which is input by a user;

s002, performing data processing on the working data of the power equipment to obtain fault information data of the power equipment, and matching the fault information data with database data to obtain a matching result;

and S003, generating a configuration instruction according to the matching result, and matching the plug-in corresponding to the fault information.

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