CN113991860A - Intelligent management and control system for power distribution terminal - Google Patents

Abstract

The invention is suitable for the technical field of power distribution terminals, and provides an intelligent control system for a power distribution terminal, which comprises: the system comprises a first login module and a plurality of first detection subsystems; the first login module is used for verifying login information of a user, determining a detection node corresponding to the user, and logging the user in a corresponding first detection subsystem based on the detection node corresponding to the user; for each first detection subsystem, the first detection subsystem is used for acquiring identification information of the power distribution terminal, determining a current detection node of the power distribution terminal according to the identification information, and receiving and storing detection data of the current detection node input by a user when the current detection node is consistent with a detection node corresponding to the first detection subsystem; and judging whether the detection data of the current detection node is qualified or not, and updating the current detection node of the power distribution terminal according to the next detection node if the detection data of the current detection node is qualified. The embodiment of the invention can improve the detection efficiency of the detection process of the power distribution terminal and is not easy to make mistakes.

Description

Intelligent management and control system for power distribution terminal

Technical Field

The invention belongs to the technical field of power distribution terminals, and particularly relates to an intelligent management and control system for a power distribution terminal.

Background

The distribution terminal is a general name of various remote monitoring and control units installed on a distribution network site, and mainly comprises a feeder terminal, a station terminal, a distribution transformer terminal and the like.

In order to ensure stable and safe operation of a power grid, the purchased power distribution terminal can be installed only after being detected to be qualified in each laboratory, and the wiring correctness needs to be detected after the installation. Because the detection of the power distribution terminal relates to a plurality of personnel such as a terminal manufacturer, a power supply company, an electric academy, a power distribution automation main station and the like, the information among the personnel is relatively closed, the overall management difficulty is very high, and the detection flow efficiency of the power distribution terminal is low and the error is easy to make.

Disclosure of Invention

In view of this, the embodiment of the present invention provides an intelligent management and control system for a power distribution terminal, so as to solve the problems of low efficiency and easy error of a power distribution terminal detection process in the prior art.

The embodiment of the invention provides an intelligent management and control system for a power distribution terminal, which comprises:

the system comprises a first login module and a plurality of first detection subsystems;

each first detection subsystem corresponds to each detection node in the detection process of the power distribution terminal;

the first login module is used for verifying login information of a user, determining a detection node corresponding to the user, and logging the user in a corresponding first detection subsystem based on the detection node corresponding to the user;

for each first detection subsystem, the first detection subsystem is used for acquiring identification information of the power distribution terminal, determining a current detection node of the power distribution terminal according to the identification information, and receiving and storing detection data of the current detection node input by a user when the current detection node is consistent with a detection node corresponding to the first detection subsystem; and judging whether the detection data of the current detection node is qualified or not, and if the detection data of the current detection node is qualified, updating the current detection node of the power distribution terminal according to the next detection node.

Optionally, each first detection subsystem is further configured to:

and acquiring and displaying the detection data of all detection nodes of the power distribution terminal before the current detection node according to the identification information of the power distribution terminal.

Optionally, each first detection subsystem is further configured to:

if the detection data of the power distribution terminal at the current detection node is judged to be unqualified, the detection process of the power distribution terminal is terminated, and the power distribution terminal is marked as an abnormal power distribution terminal;

and if the current detection node is judged to have no next detection node, stopping the detection process of the power distribution terminal, and marking the power distribution terminal as a normal power distribution terminal.

Optionally, each first detection subsystem is further configured to:

acquiring environmental data of a detection area where a power distribution terminal is located before receiving and storing detection data of a current detection node input by a user;

and judging whether the environmental data meet a preset environmental standard, and if the environmental data meet the preset environmental standard, receiving and storing the detection data of the current detection node input by a user.

Optionally, an RIFD electronic tag is arranged on the power distribution terminal;

each first detection subsystem is further to:

identifying identification information of the power distribution terminal by scanning an RIFD electronic tag on the power distribution terminal;

when the current detection node is judged to be consistent with the detection node corresponding to the first detection subsystem, receiving detection data of the current detection node according to a detection data input template preset by the current detection node;

and inputting the detection data of the current detection node and the qualified condition of the detection data of the current detection node into a preset detection report template to generate a detection report of the current detection node.

Optionally, the intelligent management and control system for the power distribution terminal further includes:

the second login module and the power distribution terminal basic information management subsystem;

the second login module is used for verifying login information of the user, determining whether the user has the power distribution terminal basic information management authority or not according to the login information, and logging the user with the power distribution terminal basic information management authority to the power distribution terminal basic information management subsystem;

the power distribution terminal basic information management subsystem is used for receiving an operation instruction input by a user and managing the basic information of the power distribution terminal according to the operation instruction input by the user.

Optionally, the power distribution terminal basic information management subsystem is specifically configured to:

adding, modifying and deleting basic information of the power distribution terminal according to an operation instruction input by a user; the basic information of the power distribution terminal comprises at least one of contract information, detection expense information, parameter information and cost information of the power distribution terminal.

Optionally, each first detection subsystem is further configured to:

and acquiring and displaying basic information of the power distribution terminal according to the identification information of the power distribution terminal.

Optionally, the intelligent management and control system for the power distribution terminal further includes:

a second detection subsystem;

the second detection subsystem is for:

for the power distribution terminals with qualified detection data at each detection node, determining the quality scores of the power distribution terminals according to the detection data of the power distribution terminals;

and determining the fault detection period of each power distribution terminal according to the quality score of each power distribution terminal, and performing fault detection on each power distribution terminal based on each fault detection period after each power distribution terminal is connected to the network.

Optionally, the detection data of each power distribution terminal is detection data of a plurality of detection types;

the second detection subsystem is specifically configured to:

extracting the optimal detection data of each detection type from the detection data of each power distribution terminal, wherein the optimal detection data of each detection type form an optimal detection result;

extracting the worst detection data of each detection type from the detection data of each power distribution terminal, wherein the worst detection data of each detection type forms a worst detection result;

calculating the Euclidean distance between the detection data of each power distribution terminal and the optimal detection result aiming at each power distribution terminal to obtain a first distance corresponding to each power distribution terminal; calculating the Euclidean distance between the detection data of the power distribution terminal and the worst detection result to obtain a second distance corresponding to the power distribution terminal; and determining the quality score of the power distribution terminal according to the first distance and the second distance corresponding to the power distribution terminal.

Compared with the prior art, the embodiment of the invention has the following beneficial effects:

in the embodiment of the invention, a plurality of first detection subsystems are arranged, users at different detection nodes can only log in the corresponding first detection subsystems, and in each first detection subsystem, the users can only operate the detection data of the detection node corresponding to the first detection subsystem, so that the division of user permission and the cooperative management of each detection node user on the detection flow of the power distribution terminal are realized; furthermore, in each first detection subsystem, the current detection node of the power distribution terminal is determined according to the identification information by acquiring the identification information of the power distribution terminal, and when the current detection node is consistent with the detection node corresponding to the first detection subsystem, the detection data of the current detection node input by a user is received and stored, whether the detection data of the current detection node is qualified or not is judged, if the detection data of the current detection node is qualified, the current detection node of the power distribution terminal is updated according to the next detection node, and the power distribution terminal detection process is carried out orderly according to a plan. The embodiment of the invention can improve the detection efficiency of the detection process of the power distribution terminal and is not easy to make mistakes.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of an intelligent management and control system for a power distribution terminal according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an intelligent management and control system for a power distribution terminal according to an embodiment of the present invention.

Detailed Description

In the following description, for purposes of explanation and not limitation, specific details are set forth, such as particular system structures, techniques, etc. in order to provide a thorough understanding of the embodiments of the invention. It will be apparent, however, to one skilled in the art that the present invention may be practiced in other embodiments that depart from these specific details. In other instances, detailed descriptions of well-known systems, devices, circuits, and methods are omitted so as not to obscure the description of the present invention with unnecessary detail.

In order to explain the technical means of the present invention, the following description will be given by way of specific examples.

For orderly carrying out various detection works in a power distribution terminal laboratory, state network companies set a power distribution automatic terminal detection flow. Because state net company requires that distribution terminal to arrive the goods and examines entirely, and distribution network engineering construction has distribution terminal quantity many, distribution terminal reliability requirement height, the tight characteristics of time of construction of time limit for a project, and distribution terminal's detection relates to manufacturers, power supply company, electric academy, many parties such as distribution automation master station, and a lot of information is difficult to accomplish in numerous personnel to upload and assign, and the overall management degree of difficulty is very big. In addition, the data such as detection data, contracts and the like in the process of executing the delivery service of the power distribution terminal are circulated and archived in a written form, so that the problems of high error rate, low efficiency, poor data confidentiality, serious information omission and the like exist.

Therefore, it is urgently needed to research a power distribution terminal detection shared management and control system, an original closed state is changed into a shared open type, information sharing is achieved, work efficiency is improved, meanwhile, people of all parties can conveniently enter, check, supervise and urge to do relevant information in time, paperless office work is achieved, quality supervision and control can be conducted on all links of a submission flow, a regional boundary is broken through by combining the internet, the internet of things and a public information platform, and more convenient, faster, more effective and more accurate power distribution terminal detection is achieved.

Referring to fig. 1, an embodiment of the present invention provides an intelligent management and control system for a power distribution terminal, where the system 10 includes:

a first logging module 11 and a plurality of first detection subsystems 12.

Each first detection subsystem 12 corresponds to each detection node in the power distribution terminal detection process.

The first login module 11 is configured to verify login information of a user, determine a detection node corresponding to the user, and log the user in the corresponding first detection subsystem 12 based on the detection node corresponding to the user.

For each first detection subsystem 12, the first detection subsystem 12 is configured to obtain identification information of the power distribution terminal, determine a current detection node of the power distribution terminal according to the identification information, and receive and store detection data of the current detection node input by a user when the current detection node is consistent with a detection node corresponding to the first detection subsystem 12; and judging whether the detection data of the current detection node is qualified or not, and if the detection data of the current detection node is qualified, updating the current detection node of the power distribution terminal according to the next detection node.

In the embodiment of the invention, the power distribution terminal needs responsibility parties such as a manufacturer, a power supply company, an electric academy, a power distribution automation master station and the like to carry out detection according to the flow before the power distribution terminal is connected to the network, and each detection node is each responsibility party.

The account types of the responsible parties are different, and each responsible party can correspond to one first detection subsystem 12. When a user of a certain responsible party logs in the intelligent power distribution terminal management and control system 10 through an account, the first login module 11 determines which type of account the account is, so as to determine the responsible party to which the user belongs and a detection node where the user is located, and log in the user to the corresponding first detection subsystem 12.

In the first detection subsystem 12, a user may input identification information of the power distribution terminal, which may be a serial number, an electronic tag, and the like of the power distribution terminal.

The first detection subsystem 12 can identify the identification information of the power distribution terminal and determine which detection node in the whole detection process the power distribution terminal is currently located at, if the detection node of the power distribution terminal is consistent with the detection node corresponding to the first detection subsystem 12, an input interface is provided, and a user can input the detection data of the power distribution terminal at the current detection node from the input interface. If the detection node of the power distribution terminal is inconsistent with the detection node corresponding to the first detection subsystem 12, for example, the power distribution terminal has not yet reached the detection node corresponding to the first detection subsystem 12 and has already passed through the detection node corresponding to the first detection subsystem 12, the first detection subsystem 12 does not provide an input interface, and a user can only check the detection information of the power distribution terminal at each detection node, but cannot perform any operation on the detection information.

After receiving and storing the detection data of the power distribution terminal at the current detection node, the first detection subsystem 12 may further determine whether the detection data of the current detection node is qualified, and if the detection data of the current detection node is qualified, it indicates that the power distribution terminal has completed the detection of the current detection node, and the first detection subsystem 12 may update the detection node of the power distribution terminal according to the next detection node in the detection flow.

It should be noted that only three first detection subsystems 12 are shown in fig. 1 for illustration, and in practical applications, the number of first detection subsystems 12 may be determined by the number of responsible parties.

As can be seen, in the embodiment of the present invention, by setting a plurality of first detection subsystems, users at different detection nodes can only log in the corresponding first detection subsystems, and in each first detection subsystem, a user can only operate detection data of the detection node corresponding to the first detection subsystem, so as to implement division of user permissions and cooperative management of each detection node user on a power distribution terminal detection process; furthermore, in each first detection subsystem, the current detection node of the power distribution terminal is determined according to the identification information by acquiring the identification information of the power distribution terminal, and when the current detection node is consistent with the detection node corresponding to the first detection subsystem, the detection data of the current detection node input by a user is received and stored, whether the detection data of the current detection node is qualified or not is judged, if the detection data of the current detection node is qualified, the current detection node of the power distribution terminal is updated according to the next detection node, and the power distribution terminal detection process is carried out orderly according to a plan. The embodiment of the invention can improve the detection efficiency of the detection process of the power distribution terminal and is not easy to make mistakes.

In order to explain the scheme of the present invention in more detail, the following describes an intelligent management and control system for a power distribution terminal according to an embodiment of the present invention with reference to fig. 2.

Optionally, in a possible implementation, each first detection subsystem 12 is further configured to:

and acquiring and displaying the detection data of all detection nodes of the power distribution terminal before the current detection node according to the identification information of the power distribution terminal.

In the embodiment of the present invention, the related information of the power distribution terminal may be stored in the database 16, and the first detection subsystem 12 may search and display the related information of the power distribution terminal, including the detection node information of the power distribution terminal, the detection data of the power distribution terminal at each detection node, and the like, in the database 16 according to the identification information of the power distribution terminal, so as to implement retention and sharing of the power distribution terminal information and improve the working efficiency.

Optionally, in a possible implementation, each first detection subsystem 12 is further configured to:

if the detection data of the power distribution terminal at the current detection node is judged to be unqualified, the detection process of the power distribution terminal is terminated, and the power distribution terminal is marked as an abnormal power distribution terminal;

and if the current detection node is judged to have no next detection node, stopping the detection process of the power distribution terminal, and marking the power distribution terminal as a normal power distribution terminal.

In the embodiment of the present invention, after the detection data of the power distribution terminal is input by a detection person of a certain detection node, the automatic detection function of the first detection subsystem 12 may be executed, and whether the power distribution terminal is qualified in the current detection link is determined according to whether each input detection data meets a preset condition, and the next detection link may be executed only after the power distribution terminal is qualified. And if the power distribution terminal does not pass the current detection link, terminating the detection process of the power distribution terminal, and marking the power distribution terminal as an abnormal power distribution terminal. And if the current detection node has no next detection node, the power distribution terminal is considered to pass the detection of all detection links and is marked as a normal power distribution terminal.

Optionally, in a possible implementation, each first detection subsystem 12 is further configured to:

acquiring environmental data of a detection area where a power distribution terminal is located before receiving and storing detection data of a current detection node input by a user;

and judging whether the environmental data meet a preset environmental standard, and if the environmental data meet the preset environmental standard, receiving and storing the detection data of the current detection node input by a user.

In the embodiment of the invention, the laboratory detection of the power distribution terminal is considered, and the influence of the detection condition on the detection result is large. For example, the electrostatic discharge immunity detection should keep the relative humidity at 30% -60%, the deviation of the power supply voltage for detection should not exceed 5%, the error of the measuring instrument should not be larger than the specified value, etc. Therefore, a function of judging the detection environment of the power distribution terminal can be set in the first detection subsystem 12, a detection person needs to input data of the current detection environment, the first detection subsystem 12 automatically judges whether the current detection environment reaches the standard, an input interface is provided for a user to receive and store the detection data of the current detection node input by the user only after the detection environment reaches the standard, and otherwise, the detection data is meaningless and is not received.

Optionally, in a possible implementation manner, an RIFD electronic tag is disposed on the power distribution terminal.

Each first detection subsystem 12 is also for:

identifying identification information of the power distribution terminal by scanning an RIFD electronic tag on the power distribution terminal;

when the current detection node is judged to be consistent with the detection node corresponding to the first detection subsystem 12, receiving detection data of the current detection node according to a detection data input template preset by the current detection node;

and inputting the detection data of the current detection node and the qualified condition of the detection data of the current detection node into a preset detection report template to generate a detection report of the current detection node.

In the embodiment of the invention, the RFID electronic tags in the standard mode are pasted on each power distribution terminal, so that the information of manufacturers, equipment types, equipment ID numbers, hardware version numbers, production dates and the like of each power distribution terminal can be stored in the tags and used as the 'identity card' of each power distribution terminal. The first detection subsystem 12 can read and write the information of the RIFD electronic tag through a configured reader-writer. The use of the RFID electronic tag greatly improves the convenience of detection of the power distribution terminal, and is not easy to make mistakes.

Optionally, in a possible implementation manner, the power distribution terminal intelligent management and control system 10 further includes:

a second login module 13 and a power distribution terminal basic information management subsystem 14.

The second login module 13 is configured to verify login information of the user, determine whether the user has a power distribution terminal basic information management authority according to the login information, and log the user having the power distribution terminal basic information management authority into the power distribution terminal basic information management subsystem 14.

The power distribution terminal basic information management subsystem 14 is configured to receive an operation instruction input by a user, and manage basic information of the power distribution terminal according to the operation instruction input by the user.

Optionally, in a possible implementation manner, the power distribution terminal basic information management subsystem 14 is specifically configured to:

adding, modifying and deleting basic information of the power distribution terminal according to an operation instruction input by a user; the basic information of the power distribution terminal comprises at least one of contract information, detection expense information, parameter information and cost information of the power distribution terminal.

Optionally, in a possible implementation, each first detection subsystem 12 is further configured to:

and acquiring and displaying basic information of the power distribution terminal according to the identification information of the power distribution terminal.

In the embodiment of the invention, a large amount of basic information such as entrustment agreements, contract amounts, equipment cost, accounts receivable, expense reimbursement and the like exists in the detection process of the power distribution terminal, and if the basic information is retained in a paper mode, the difficulty in searching, extracting, storing and updating is high. Therefore, the power distribution terminal intelligent management and control system 10 of the embodiment of the present invention is specially provided with the power distribution terminal basic information management subsystem 14, and users having power distribution terminal basic information management authority can perform online management on the basic information, such as business personnel and financial personnel. The underlying information may also be stored in the database 16, and each first detection subsystem 12 may view the underlying information of the power distribution terminal to provide detailed information to the individual personnel.

Optionally, in a possible implementation manner, the power distribution terminal intelligent management and control system 10 further includes:

a second detection subsystem 15.

The second detection subsystem 15 is used for:

for the power distribution terminals with qualified detection data at each detection node, determining the quality scores of the power distribution terminals according to the detection data of the power distribution terminals;

and determining the fault detection period of each power distribution terminal according to the quality score of each power distribution terminal, and performing fault detection on each power distribution terminal based on each fault detection period after each power distribution terminal is connected to the network.

In the embodiment of the invention, for the power distribution terminal which is qualified in detection, the embodiment of the invention also carries out quality evaluation on the power distribution terminal according to the detection data, can set a longer detection period for the power distribution terminal with better quality, and can set a shorter detection period for the power distribution terminal with poorer quality, thereby realizing reasonable maintenance of the power distribution terminal by maintenance personnel, leading the maintenance personnel to spend more time on the power distribution terminal which is easy to have faults, and being convenient for finding out the fault condition of the power distribution terminal in time. Less time is spent on the power distribution terminal which is not easy to break down, and meaningless overhaul is reduced.

Optionally, in a possible implementation manner, the detection data of each power distribution terminal is detection data of multiple detection types; the second detection subsystem 15 is specifically configured to:

extracting the optimal detection data of each detection type from the detection data of each power distribution terminal, wherein the optimal detection data of each detection type form an optimal detection result;

extracting the worst detection data of each detection type from the detection data of each power distribution terminal, wherein the worst detection data of each detection type forms a worst detection result;

calculating the Euclidean distance between the detection data of each power distribution terminal and the optimal detection result aiming at each power distribution terminal to obtain a first distance corresponding to each power distribution terminal; calculating the Euclidean distance between the detection data of the power distribution terminal and the worst detection result to obtain a second distance corresponding to the power distribution terminal; and determining the quality score of the power distribution terminal according to the first distance and the second distance corresponding to the power distribution terminal.

In embodiments of the present invention, the test data for each power distribution terminal may include, but is not limited to, ground bolt diameter, ground bolt, and ground bolt, and ground bolt, and ground bolt, and power distribution terminal, and power distribution system,Electrical clearance, creepage distance, dustproof capability, waterproof capability, information response time and the like. In consideration of the number of the maintainers and the overhaul cost, the quality score is calculated according to the relative quality of each power distribution terminal, namely the optimal detection data of each detection type is extracted from the detection data of each power distribution terminal to form an optimal solution, the worst detection data of each detection type is extracted from the detection data of each power distribution terminal to form a worst solution, the quality score is comprehensively determined according to the distance between each power distribution terminal and the optimal solution as well as the distance between each power distribution terminal and the worst solution, and the detection frequency of the power distribution terminals with relatively worse quality in the power distribution terminals can be increased. The formula for determining the quality score of the power distribution terminal according to the first distance and the second distance corresponding to the power distribution terminal can be

S⁺Is a first distance, S^-Is the second distance.

In addition, the intelligent management and control system 10 for the power distribution terminal can log in through the mobile terminal APP, and therefore more convenient and faster data acquisition and processing can be achieved. In a possible implementation manner, an image recognition module can be further arranged on the intelligent management and control system 10 of the power distribution terminal, when the power distribution terminal is installed, a worker can shoot a picture of on-site power supply wiring installation and upload the picture to the image recognition module, the image recognition module utilizes a computer image recognition technology to extract wiring characteristic quantity and perform image recognition, whether missing connection and misconnection exist is detected, power supply is allowed only under the condition that wiring is correct, and equipment damage is avoided.

The above-mentioned embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the spirit and scope of the embodiments of the present invention, and are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides a distribution terminal intelligence management and control system which characterized in that includes:

the system comprises a first login module and a plurality of first detection subsystems;

each first detection subsystem corresponds to each detection node in the detection process of the power distribution terminal;

the first login module is used for verifying login information of a user, determining a detection node corresponding to the user, and logging the user in a corresponding first detection subsystem based on the detection node corresponding to the user;

for each first detection subsystem, the first detection subsystem is used for acquiring identification information of a power distribution terminal, determining a current detection node of the power distribution terminal according to the identification information, and receiving and storing detection data of the current detection node input by a user when the current detection node is consistent with a detection node corresponding to the first detection subsystem; and judging whether the detection data of the current detection node is qualified or not, and if the detection data of the current detection node is qualified, updating the current detection node of the power distribution terminal according to the next detection node.

2. The intelligent power distribution terminal management and control system according to claim 1, wherein each first detection subsystem is further configured to:

and acquiring and displaying the detection data of all detection nodes of the power distribution terminal before the current detection node according to the identification information of the power distribution terminal.

3. The intelligent power distribution terminal management and control system according to claim 1, wherein each first detection subsystem is further configured to:

if the detection data of the power distribution terminal at the current detection node is judged to be unqualified, the detection process of the power distribution terminal is terminated, and the power distribution terminal is marked as an abnormal power distribution terminal;

and if the current detection node is judged to have no next detection node, terminating the detection process of the power distribution terminal, and marking the power distribution terminal as a normal power distribution terminal.

4. The intelligent power distribution terminal management and control system according to claim 1, wherein each first detection subsystem is further configured to:

acquiring environmental data of a detection area where the power distribution terminal is located before receiving and storing detection data of a current detection node input by a user;

and judging whether the environment data meet a preset environment standard, and if the environment data meet the preset environment standard, receiving and storing the detection data of the current detection node input by a user.

5. The intelligent management and control system for power distribution terminals according to claim 1, wherein RIFD electronic tags are disposed on the power distribution terminals, and each first detection subsystem is further configured to:

identifying the identification information of the power distribution terminal by scanning an RIFD electronic tag on the power distribution terminal;

when the current detection node is judged to be consistent with the detection node corresponding to the first detection subsystem, receiving detection data of the current detection node according to a detection data input template preset by the current detection node;

and inputting the detection data of the current detection node and the qualified condition of the detection data of the current detection node into a preset detection report template to generate a detection report of the current detection node.

6. The intelligent management and control system for power distribution terminals according to claim 1, further comprising:

the second login module and the power distribution terminal basic information management subsystem;

the second login module is used for verifying login information of a user, determining whether the user has the power distribution terminal basic information management authority or not according to the login information, and logging the user with the power distribution terminal basic information management authority to the power distribution terminal basic information management subsystem;

the power distribution terminal basic information management subsystem is used for receiving an operation instruction input by a user and managing the basic information of the power distribution terminal according to the operation instruction input by the user.

7. The intelligent management and control system for power distribution terminals according to claim 6, wherein the power distribution terminal basic information management subsystem is specifically configured to:

adding, modifying and deleting basic information of the power distribution terminal according to an operation instruction input by a user; the basic information of the power distribution terminal comprises at least one of contract information, detection expense information, parameter information and cost information of the power distribution terminal.

8. The intelligent power distribution terminal management and control system according to claim 6, wherein each first detection subsystem is further configured to:

and acquiring and displaying the basic information of the power distribution terminal according to the identification information of the power distribution terminal.

9. The intelligent management and control system for power distribution terminals according to any one of claims 1 to 8, further comprising:

a second detection subsystem;

the second detection subsystem is to:

for the power distribution terminals with qualified detection data at each detection node, determining the quality scores of the power distribution terminals according to the detection data of the power distribution terminals;

and determining the fault detection period of each power distribution terminal according to the quality score of each power distribution terminal, and performing fault detection on each power distribution terminal based on each fault detection period after each power distribution terminal is connected to the network.

10. The intelligent management and control system for power distribution terminals according to claim 9, wherein the detection data of each power distribution terminal is detection data of a plurality of detection types;

the second detection subsystem is specifically configured to:

extracting the optimal detection data of each detection type from the detection data of each power distribution terminal, wherein the optimal detection data of each detection type form an optimal detection result;

extracting the worst detection data of each detection type from the detection data of each power distribution terminal, wherein the worst detection data of each detection type forms a worst detection result;

calculating the Euclidean distance between the detection data of each power distribution terminal and the optimal detection result aiming at each power distribution terminal to obtain a first distance corresponding to each power distribution terminal; calculating the Euclidean distance between the detection data of the power distribution terminal and the worst detection result to obtain a second distance corresponding to the power distribution terminal; and determining the quality score of the power distribution terminal according to the first distance and the second distance corresponding to the power distribution terminal.

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