CN114091708A - Power supply service command system and command method based on multi-source data - Google Patents

Abstract

The invention discloses a power supply service command system and a command method based on multi-source data, belongs to the technical field of power supply services, and solves the technical problems that maintenance detection is carried out on a specified node, and the electricity leakage condition is overhauled, but the mode is too complicated, and operation of external operators is not facilitated, so that the overhauling efficiency is slow, and meanwhile, the processing efficiency of the electricity leakage condition is low; the power supply processing center processes the data acquired by the data acquisition end, judges whether the electric leakage condition exists on the transmission line or not through a processing result, judges the node value, judges the electric leakage condition in advance, processes the node information to obtain a fault signal of a corresponding node, can quickly and effectively obtain a corresponding fault information point through an analysis processing mode of a progressive mode, dispatches maintenance personnel through the fault information point, maintains the fault point to obtain an effect of quick point-to-point maintenance, and can also quickly solve the electric leakage problem.

Description

Power supply service command system and command method based on multi-source data

Technical Field

The invention belongs to the technical field of power supply service, and particularly relates to a power supply service command system and a command method based on multi-source data.

Background

The power supply service is an important link in a power management mechanism, guarantees power safety, is a special link between a power production department and a customer, and aims at a power transmission link of the power supply service, a specific command system is required to be adopted to command and control power transmission.

Current command system is carrying out the use in, to the electric leakage condition that appears, generally needs outside personnel to carry out the multiple spot and detects to maintain the detection to appointed node, overhaul the electric leakage condition, but this kind of mode is too loaded down with trivial details, also does not do benefit to outside operating personnel to operate simultaneously, leads to maintenance efficiency slow, and the while is low to the treatment effeciency of electric leakage condition.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art; therefore, the invention provides a power supply service command system and a command method based on multi-source data, which are used for solving the technical problems that maintenance detection is carried out on a specified node, and the electric leakage condition is overhauled, but the mode is too complicated, and operation of external operators is not facilitated, so that the overhauling efficiency is slow, and meanwhile, the treatment efficiency of the electric leakage condition is low.

To achieve the above object, an embodiment according to a first aspect of the present invention provides a power supply service commanding system based on multi-source data, including:

the data acquisition terminal is used for acquiring and acquiring power data, and the acquired power data comprises power supply station general meter power data and partition household meter power data;

the node information acquisition end is used for acquiring node information in a transmission line, the acquired node information comprises node number information and node electric quantity transmission information, and the transmission line is an electric power transmission route between electric power data of a general meter of a power supply station and electric power data of a sub-area user meter;

the power supply processing center is used for processing the power data acquired by the data acquisition end, judging whether the electric leakage condition exists on the transmission line according to the processing result, extracting the data acquired by the node information acquisition end, analyzing and processing the electric leakage condition and generating a corresponding maintenance signal;

and the maintenance terminal is used for receiving the maintenance signal, dispatching professional maintenance personnel and carrying out maintenance treatment on the specified node.

Preferably, the power supply processing center internally comprises a threshold module, a linear programming model and a comparison and extraction unit, and a comparison interval is arranged in the comparison and extraction unit.

Preferably, the power supply processing center processes the power data acquired by the data acquisition end in the following manner:

performing difference processing on the total meter power data and the corresponding sub-area user meter power data to obtain a corresponding difference Ci, wherein i represents different user meters, i is 1, 2, … … and n, and different numbers represent different user meter numbers;

a threshold module is arranged in the power supply processing center, a difference interval is arranged in the threshold module, and a difference point L1 is arranged in the difference interval;

when the difference Ci is less than or equal to the difference point L1, judging that the situation is normal;

and when the difference Ci is greater than the difference point L1, judging that an electric leakage condition occurs, extracting the transmission lines of the general table and the sub-user table by the power supply processing center according to the electric leakage condition, generating a corresponding model, and transmitting the model to an external control terminal.

Preferably, the node information acquisition end acquires node information from a specific data acquisition device, nodes in the node information represent transmission line transfer points at each position, and the node number information is a preset node number and is set by an operator.

Preferably, the power supply processing center analyzes and processes the leakage situation in the following manner:

s1, extracting the corresponding node electric quantity transmission information, and marking the node electric quantity transmission information as JDk, wherein k represents different node number information;

s2, carrying out mean value processing on the extracted node electric quantity transmission value JDk to obtain a corresponding node mean value JDo;

s3, performing difference processing on the corresponding node electric quantity transmission value JDk and the node mean value JDo to obtain a difference Ck of the corresponding node, and sorting different values of k so that when k is 1, 2, … …, and n, and k is 1, the difference Ck represents a first node from the summary table to the route of the partitioned user table, and when k is 2, the difference Ck represents a second node;

s4, the linear programming model carries out linear programming on the difference Ck and the corresponding node number information K, generates a corresponding linear programming route map, and directly sends the generated linear programming route map to a corresponding external control terminal;

and S5, the comparison extraction unit extracts and marks the difference Ck belonging to the comparison interval, marks the corresponding difference Ck in the linear planning route map for an external operator to check, generates a corresponding maintenance signal at the same time, and sends the maintenance signal to the maintenance terminal.

Preferably, the maintenance terminal receives the corresponding maintenance signal, the maintenance terminal stores the corresponding node and the maintenance staff of the corresponding node, the corresponding node is matched with the maintenance staff corresponding to the node, and the maintenance staff are dispatched according to the matching result.

Preferably, the system further comprises a service server, which is used for manually processing the service of the power consumer, wherein the service includes a payment service, an electricity service and an electricity dispatching service.

Preferably, the command method of the power supply service command system based on the multi-source data comprises the following steps:

acquiring power data of a general meter and sub-area household meters of a power supply station through a data acquisition end, and directly sending the acquired data to a power supply processing center;

the power supply processing center processes the data acquired by the data acquisition end, judges whether the electric leakage condition exists on the transmission line according to the processing result, extracts the data acquired by the node information acquisition end, analyzes and processes the electric leakage condition, extracts the transmission lines of the general table and the partition user table according to the electric leakage condition, generates a corresponding model and transmits the model to the control terminal;

acquiring node information at multiple positions in the conveying line by a node information acquisition end, transmitting the node information to a corresponding control terminal, processing the node information acquired by the node information acquisition end by a power supply processing center, and judging the node values to obtain corresponding judgment results;

and step four, conveying the judgment result to a maintenance terminal, receiving the corresponding maintenance information by the maintenance terminal, dispatching maintenance personnel, and maintaining and repairing the specified node information.

Compared with the prior art, the invention has the beneficial effects that: the power supply processing center processes the data acquired by the data acquisition end, judges whether the electric leakage condition exists on the transmission line according to the processing result, extracts the data acquired by the node information acquisition end, analyzes and processes the electric leakage condition, extracts the transmission line of the general table and the partition user table according to the occurred electric leakage condition, processes the node information acquired in the node information acquisition end by the power supply processing center, judges the node value, judges the electric leakage condition in advance, processes the node information to obtain the fault signal of the corresponding node, can quickly and effectively obtain the corresponding fault information point by the analysis and processing mode of a progressive mode, dispatches maintenance personnel by the fault information point to maintain the fault point to obtain the effect of quick point maintenance, meanwhile, the problem of electric leakage can be solved quickly;

the maintenance terminal stores the corresponding nodes and the maintainers of the corresponding nodes, the corresponding nodes are matched with the maintainers corresponding to the nodes, the maintainers are dispatched and the points are dispatched according to matching results, maintenance efficiency can be improved, and maintenance time is saved.

Drawings

Fig. 1 is a schematic block diagram of the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood 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.

Referring to fig. 1, the present application provides a power supply service command system based on multi-source data, which includes a data obtaining end, a service end, a power supply processing center, a node information obtaining end, and a maintenance terminal;

the output end of the data acquisition end is electrically connected with the input end of the power supply processing center, the power supply processing center is respectively connected with the service server end and the node information acquisition end in a bidirectional mode, and the output end of the power supply processing center is electrically connected with the input end of the maintenance terminal.

The data acquisition end is used for acquiring and acquiring power data, wherein the acquired power data comprise power supply station total meter power data and partition user meter power data, the power supply station total meter power data represent power data sent by aiming at each partition user meter, and the partition user meter power data represent power utilization data of power utilized by partition user;

the power supply processing center is used for processing the data acquired by the data acquisition end, judging whether the electric leakage condition exists on the transmission line according to the processing result, and analyzing and processing the electric leakage condition by extracting the data acquired by the node information acquisition end;

the power supply processing center is used for processing the data acquired by the data acquisition end in the following mode:

performing difference processing on the total meter power data and the corresponding sub-area user meter power data to obtain a corresponding difference Ci, wherein i represents different user meters, i is 1, 2, … … and n, and different numbers represent different user meter numbers;

a threshold module is arranged in the power supply processing center, a difference interval is arranged in the threshold module, a difference point L1 is arranged in the difference interval, and the difference point L1 is set by an external operator;

when the difference Ci is less than or equal to the difference point L1, judging that the situation is normal;

and when the difference Ci is greater than the difference point L1, judging that the electric leakage condition occurs, extracting the transmission lines of the general table and the sub-user table by the power supply processing center according to the electric leakage condition, generating a corresponding model, and transmitting the model to an external control terminal.

After a transmission line model is generated, a node information acquisition end acquires information of a plurality of nodes in the transmission line and transmits the information to a corresponding control terminal, wherein the node information acquired by the node information acquisition end comprises node number information and node electric quantity transmission information, and the nodes represent transmission line transfer points at each position, such as electric wire columns, the acquisition mode is acquired by an internal specific data acquisition unit and is directly transmitted to a power supply processing center in a wired transmission mode, and the node number information is preset node information and is formulated by an external operator;

the power supply processing center processes the node information acquired in the node information acquisition end, wherein the processing mode is as follows:

s1, extracting the corresponding node electric quantity transmission information, and marking the node electric quantity transmission information as JDk, wherein k represents different node number information;

s2, carrying out mean value processing on the extracted node electric quantity transmission value JDk to obtain a corresponding node mean value JDo;

s3, directly performing difference processing on the corresponding node electric quantity transmission value JDk and the node mean value JDo to obtain a difference Ck of the corresponding node, and sorting different k values so that when k is 1, 2, … …, and n, and k is 1, the difference Ck represents a first node from the summary table to the partition user table route, and when k is 2, the difference Ck represents a second node;

s4, a linear programming model is arranged in the power supply processing center, the linear programming model can perform linear programming on the difference value Ck and the corresponding node number information K, a corresponding linear programming route map is generated, and the generated linear programming route map is directly sent to a corresponding external control terminal;

s5, a comparison extraction unit is arranged in the power supply processing center, a comparison interval is arranged in the comparison extraction unit, the value of the comparison interval is drawn by an external operator, the comparison extraction unit extracts and marks the difference value Ck belonging to the comparison interval, and meanwhile, the corresponding difference value Ck in the linear planning route map is marked for the external operator to check.

An external operator extracts the Ck value with a large difference value, generates a maintenance signal at the same time, extracts a corresponding node value K, and transmits the extracted node number information and the maintenance signal to a maintenance terminal through the corresponding node value K and the extracted corresponding node number information, wherein the transmitted node electric quantity transmission value JDk also comprises the node electric quantity transmission value of the node.

The maintenance terminal is used for receiving the node number information and the node electric quantity transmission value JDk, dispatching professional maintenance personnel according to the received data and carrying out maintenance processing on the specified node;

the maintenance terminal receives corresponding node maintenance information and dispatches external operators, wherein corresponding nodes and maintenance personnel corresponding to the nodes are stored in the maintenance terminal, the corresponding nodes are matched with the maintenance personnel corresponding to the nodes, the maintenance personnel are dispatched according to matching results, maintenance information is sent to a mobile terminal of the maintenance personnel through an internal wireless terminal in a dispatching mode, the maintenance personnel receive the corresponding maintenance information and reach a designated node, and the electric leakage condition of the node is processed and analyzed.

The service server is used for operating and processing services of the power users, wherein the services comprise payment services, electricity utilization services and electricity dispatching services, corresponding service information is sent to the power supply processing center, the power supply processing center transmits corresponding service data to the control terminal, and an operator controls the control terminal, processes the corresponding services and sends the services to the corresponding user terminals through the power supply processing center.

The power supply service command method based on the multi-source data comprises the following steps:

acquiring power data of a general meter and sub-area household meters of a power supply station through a data acquisition end, and directly sending the acquired data to a power supply processing center;

the power supply processing center processes the data acquired by the data acquisition end, judges whether the electric leakage condition exists on the transmission line according to the processing result, extracts the data acquired by the node information acquisition end, analyzes and processes the electric leakage condition, extracts the transmission lines of the general table and the partition user table according to the electric leakage condition, generates a corresponding model and transmits the model to the control terminal;

acquiring node information at multiple positions in the conveying line by a node information acquisition end, transmitting the node information to a corresponding control terminal, processing the node information acquired by the node information acquisition end by a power supply processing center, and judging the node values to obtain corresponding judgment results;

and step four, conveying the judgment result to a maintenance terminal, receiving the corresponding maintenance information by the maintenance terminal, dispatching maintenance personnel, and maintaining and repairing the specified node information.

Part of data in the formula is obtained by removing dimension and taking the value to calculate, and the formula is obtained by simulating a large amount of collected data through software and is closest to a real situation; the preset parameters and the preset threshold values in the formula are set by those skilled in the art according to actual conditions or obtained through simulation of a large amount of data.

Although the present invention has been described in detail with reference to the preferred embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the present invention.

Claims (8)

1. Power supply service command system based on multisource data, its characterized in that includes:

the data acquisition terminal is used for acquiring and acquiring power data, and the acquired power data comprises power supply station general meter power data and partition household meter power data;

the node information acquisition end is used for acquiring node information in a transmission line, the acquired node information comprises node number information and node electric quantity transmission information, and the transmission line is a power transmission route between a power supply station summary table and a partition household table;

the power supply processing center is used for processing the power data acquired by the data acquisition end, judging whether the transmission line has an electric leakage condition or not according to a processing result, extracting the data acquired by the node information acquisition end, analyzing and processing the electric leakage condition and generating a corresponding maintenance signal;

and the maintenance terminal is used for receiving the maintenance signal, dispatching professional maintenance personnel and carrying out maintenance treatment on the specified nodes.

2. The power supply service command system based on the multi-source data according to claim 1, wherein the power supply processing center internally comprises a threshold module, a linear programming model and a comparison and extraction unit, and a comparison section is arranged inside the comparison and extraction unit.

3. The multi-source data-based power supply service command system according to claim 2, wherein the power supply processing center processes the power data acquired by the data acquisition end in a manner that:

performing difference processing on the total meter power data and the corresponding sub-area user meter power data to obtain a corresponding difference Ci, wherein i represents different user meters, i is 1, 2, … … and n, and different numbers represent different user meter numbers;

a difference interval is arranged inside a threshold module inside the power supply processing center, wherein a difference point L1 is arranged inside the difference interval;

when the difference Ci is less than or equal to the difference point L1, judging that the situation is normal;

and when the difference Ci is greater than the difference point L1, judging that an electric leakage condition occurs, extracting the transmission lines of the general table and the sub-user table by the power supply processing center according to the electric leakage condition, generating a corresponding model, and transmitting the model to an external control terminal.

4. The multi-source data-based power supply service command system according to claim 3, wherein the node information acquisition end acquires node information from a specific data acquisition device, nodes in the node information represent transfer points of transmission lines at each position, and the node number information is a preset node number and is set by an operator.

5. The multi-source data-based power supply service command system according to claim 4, wherein the power supply processing center performs analysis processing on the leakage situation in a manner that:

s1, extracting the corresponding node electric quantity transmission information, and marking the node electric quantity transmission information as JDk, wherein k represents different node number information;

s2, carrying out mean value processing on the extracted node electric quantity transmission value JDk to obtain a corresponding node mean value JDo;

s3, performing difference processing on the corresponding node electric quantity transmission value JDk and the node mean value JDo to obtain a difference Ck of the corresponding node, and sorting different values of k so that when k is 1, 2, … …, and n, and k is 1, the difference Ck represents a first node from the summary table to the route of the partitioned user table, and when k is 2, the difference Ck represents a second node;

s4, the linear programming model carries out linear programming on the difference Ck and the corresponding node number information K, generates a corresponding linear programming route map, and directly sends the generated linear programming route map to a corresponding external control terminal;

and S5, the comparison extraction unit extracts and marks the difference Ck belonging to the comparison interval, marks the corresponding difference Ck in the linear planning route map for an external operator to check, generates a corresponding maintenance signal at the same time, and sends the maintenance signal to the maintenance terminal.

6. The power supply service command system based on the multi-source data according to claim 5, wherein the maintenance terminal receives the corresponding maintenance signal, the maintenance terminal stores the corresponding node and the maintenance personnel corresponding to the node, the corresponding node is matched with the maintenance personnel corresponding to the node, and the maintenance personnel are dispatched according to the matching result.

7. The multi-source data-based power supply service command system according to claim 1, further comprising a business service end for manually processing businesses of the power consumers, wherein the businesses include payment businesses, electricity utilization businesses and electricity dispatching businesses.

8. The command method of the multi-source data-based power supply service command system according to any one of claims 1 to 7, characterized by comprising the following steps:

acquiring power data of a general meter and sub-area household meters of a power supply station through a data acquisition end, and directly sending the acquired data to a power supply processing center;

the power supply processing center processes the data acquired by the data acquisition end, judges whether the electric leakage condition exists on the transmission line according to the processing result, extracts the data acquired by the node information acquisition end, analyzes and processes the electric leakage condition, extracts the transmission lines of the general table and the partition user table according to the electric leakage condition, generates a corresponding model and transmits the model to the control terminal;

acquiring node information at multiple positions in the conveying line by a node information acquisition end, transmitting the node information to a corresponding control terminal, processing the node information acquired by the node information acquisition end by a power supply processing center, and judging the node values to obtain corresponding judgment results;

and step four, conveying the judgment result to a maintenance terminal, receiving the corresponding maintenance information by the maintenance terminal, dispatching maintenance personnel, and maintaining and repairing the specified node information.

Images