CN111695867A

CN111695867A - Method for power consumption management of standard power supply main body

Info

Publication number: CN111695867A
Application number: CN202010284901.3A
Authority: CN
Inventors: 车丽萍; 陈彪; 颜虹; 项翔; 张周生; 周波; 李强强; 赵颖; 孔仪潇; 吴磊; 来心怡; 王浩; 章丽娜; 唐健毅; 汪露菲
Original assignee: Hangzhou Power Supply Co of State Grid Zhejiang Electric Power Co Ltd
Current assignee: Hangzhou Power Supply Co of State Grid Zhejiang Electric Power Co Ltd
Priority date: 2020-04-13
Filing date: 2020-04-13
Publication date: 2020-09-22

Abstract

The invention provides a method for power consumption management of a standard power transfer main body, which comprises the following steps: an acquisition unit for acquiring energy consumption data is deployed in the power conversion and supply main body; acquiring data in a service database in a management platform, and generating meter reading data corresponding to a power transfer main body and a terminal user by combining the acquired energy consumption data; and analyzing the electricity utilization condition according to the meter reading data, and performing prepayment management on the power supply main body based on the analysis result. The meter reading data of the terminal user is directly obtained in a mode of deploying the acquisition unit in the power conversion and supply main body. And a prepayment management method is adopted according to the meter reading data, so that the main body of the power transfer and supply charges the electricity fee to the terminal customer according to the general industrial and commercial electricity price published by the country, and the balance of energy balance for the main body of the power transfer and supply is ensured.

Description

Method for power consumption management of standard power supply main body

Technical Field

The invention belongs to the field of power consumption management, and particularly relates to a method for standardizing power consumption management of a power supply main body.

Background

With the proposal of the general industrial and commercial electricity price reduction policy of the country, the implementation of the price reduction policy becomes an important work of the country for further optimizing the operator environment and reducing the non-tax burden of enterprises. However, in policy implementation, manual management is mainly found in the power transfer main body, and due to the fact that the meter reading data information is opaque, the power transfer main body has a private pricing behavior, and the management efficiency of the electricity price is reduced.

Disclosure of Invention

In order to solve the defects in the prior art, the invention provides a method for standardizing power consumption management of a power transfer main body, which comprises the following steps:

an acquisition unit for acquiring energy consumption data is deployed in the power conversion and supply main body;

acquiring data in a service database in a management platform, and generating meter reading data corresponding to a power transfer main body and a terminal user by combining the acquired energy consumption data;

and analyzing the electricity utilization condition according to the meter reading data, and performing prepayment management on the power supply main body based on the analysis result.

Optionally, the acquisition unit includes an acquisition terminal, an acquisition front-end processor, and an acquisition database.

Further, the acquisition unit is specifically configured to:

acquiring energy consumption data related to terminal users in a power supply main body through an acquisition terminal;

and uploading the acquired energy consumption data to an acquisition database through an acquisition front-end processor.

Optionally, the acquiring data in the service database in the management platform, and generating meter reading data corresponding to the power transfer main body and the terminal user by combining the acquired energy consumption data includes:

accessing a service server to obtain terminal user data in a service database;

analyzing the terminal user data and the energy consumption data acquired by the acquisition unit;

and performing sub-meter reading according to the analysis result, generating meter reading data of the power transfer main body and the terminal user, and uploading the data to the management platform.

Optionally, the analyzing the electricity consumption according to the meter reading data, and performing prepayment management on the main body of the rotating power supply based on the analysis result includes:

carrying out energy consumption monitoring and abnormal electricity consumption analysis according to meter reading data of a power transfer main body and a terminal user;

according to the energy consumption monitoring result, calculating the electric charge of the main rotary power supply body;

and performing tripping and closing control on the main rotary power supply body according to the result of the abnormal power utilization analysis.

Optionally, the management platform adopts an SOA layered architecture, and includes a presentation layer, a service interaction layer, and a service logic layer;

the presentation layer and the service logic layer realize data exchange through the service interaction layer.

Further, the management platform comprises a client and a server;

the client is integrated in the presentation layer, and the server is integrated in the service logic layer.

Furthermore, the management platform further comprises an API interface unit integrated in the service interaction layer, and the API interface unit is used for providing external interface services for the third-party application platform.

Optionally, the acquisition unit and the management platform implement ethernet communication transmission through a GPRS communication port.

The technical scheme provided by the invention has the beneficial effects that:

according to the invention, the meter reading data of the terminal user is directly acquired by deploying the acquisition unit in the power conversion and supply main body. And a prepayment management method is adopted according to the meter reading data, so that the main body of the power transfer and supply charges the electricity fee to the terminal customer according to the general industrial and commercial electricity price published by the country, and the balance of energy balance for the main body of the power transfer and supply is ensured. Meanwhile, the management platform is applied, so that the management cost of the power supply main body is greatly saved, and a new energy management mode is developed.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced 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 the drawings without creative efforts.

FIG. 1 is a block diagram of a method for power management of a specification transfer power supply main body according to the present invention;

FIG. 2 is a management platform hierarchy diagram;

FIG. 3 is a connection topology between the acquisition unit and the management platform;

fig. 4 is an architecture diagram of the intelligent management system of the main power supply.

Detailed Description

To make the structure and advantages of the present invention clearer, the structure of the present invention will be further described with reference to the accompanying drawings.

Example one

As shown in fig. 1, the present invention provides a method for power management of a standard transfer power supply main body, including:

s1: an acquisition unit for acquiring energy consumption data is deployed in the power conversion and supply main body;

s2: acquiring data in a service database in a management platform, and generating meter reading data corresponding to a power transfer main body and a terminal user by combining the acquired energy consumption data;

s3: and analyzing the electricity utilization condition according to the meter reading data, and performing prepayment management on the power supply main body based on the analysis result.

The meter reading data of the terminal user is directly obtained in a mode of deploying the acquisition unit in the power conversion and supply main body. Meanwhile, the meter reading data of the main power supply body and the terminal user are analyzed by combining the technology of Internet of things and mobile communication, and the functions of energy consumption monitoring and accurate abnormal power utilization positioning are realized. Through the method of prepayment management, the main body of the power transfer system charges the electricity fee to the terminal customer according to the general industry and business electricity price published by the country. In addition, the management platform is applied, so that the management cost of the power transfer main body is greatly saved, and the management service friction between the power transfer main body and a terminal user is effectively reduced. The construction of the management platform is also an effective technical means that a power supply company actively cooperates with a government to get through the 'last kilometer' of price reduction policy conduction, and the management platform is favorable for being popularized in industrial parks and enterprise users which are in business complex to supply power and do not have independent meter installation conditions.

In this embodiment, the acquisition unit is disposed inside the power transfer main body and is configured to acquire energy consumption data corresponding to the power transfer main body and the end user.

In this embodiment, the acquisition unit includes an acquisition terminal, an acquisition front-end processor, and an acquisition database. The single carrier collection electric meter is used as a collection terminal, a collection front-end processor is constructed based on an Ariiyun ECS virtual server, and the collection database adopts an Ariiyun database product to realize collection and storage of energy consumption data. The acquisition terminal is accessed to the acquisition front-end processor through the SLB load balancer based on the TCP framework, and the acquisition front-end processor exchanges data with the acquisition database through the RDS middleware.

The acquisition unit is specifically configured to: acquiring energy consumption data related to terminal users in a power supply main body through an acquisition terminal; writing the acquired energy consumption data into a cache server through the scheduling of an acquisition front-end processor, wherein the acquisition front-end processor is scheduled through SLB load balancing; and calling an acquisition service application program to read the energy consumption data in the cache server and uploading the energy consumption data to an acquisition database in batches through RDS middleware.

Through the mode of deploying the acquisition unit in the internal portion of the power conversion and supply body, energy consumption data are directly acquired, the process of intermediate processing of the power conversion and supply body is reduced, the problem that the power utilization management of the power conversion and supply body is opaque is solved, the occurrence of the private pricing condition is avoided, and the power utilization management of the power conversion and supply body is standardized.

In this embodiment, the management platform includes a server and a client. The service end is used for acquiring data in a service database in the management platform and generating meter reading data corresponding to the power transfer main body and the terminal user by combining the acquired energy consumption data; the client is used for analyzing the electricity utilization condition according to the meter reading data and carrying out prepayment management on the power supply main body based on the analysis result. The service end comprises a service server and a service database, the service server is built by adopting an Ariiyun ECS virtual server, and the service database is realized by adopting an Ariiyun database product and is accessed through an RDS middleware.

Specifically, the acquiring data in the service database in the management platform and generating meter reading data corresponding to the power transfer main body and the terminal user by combining the acquired energy consumption data includes: the SLB load balancer based on http accesses a service server to obtain terminal user data in a service database; data communication between a service server and an acquisition front-end processor is realized through RMI and MQ, and the terminal user data and the energy consumption data are analyzed at a service end; and performing sub-meter reading according to the analysis result, generating meter reading data corresponding to the power transfer main body and the terminal user, and uploading the data to the client.

In this embodiment, the analyzing the power consumption according to the meter reading data and performing prepaid management on the main body of the power supply to be transferred based on the analysis result includes: carrying out energy consumption monitoring and abnormal electricity consumption analysis according to meter reading data of a power transfer main body and a terminal user; according to the energy consumption monitoring result, calculating the electric charge of the main counter-rotating power supply body through the client; and performing tripping and closing control on the main transfer power supply body through the client according to the result of the abnormal power utilization analysis.

In this embodiment, the management platform adopts an SOA layered architecture, as shown in fig. 2, and includes a presentation layer, a service interaction layer, and a business logic layer. The client is integrated on the presentation layer, the server is integrated on the business logic layer, and the server provides service restful service and web service for the client through the service interaction layer.

The display layer provides a traditional label control and a React JS control to realize unified packaging of the UI, and Bootstrap frames are adopted to develop application on the display layer, wherein the application comprises a web application client and mobile terminal application.

The service interaction layer comprises three service interaction controls of security control, authorization control and access control. The method comprises the steps of realizing service control between a Client and a server based on an MVC framework, providing Restful service and web service through a Restful Client, and providing API service for a third-party application platform.

And the service logic component in the service logic layer adopts a Container component based on an S2Container 2.4 architecture and provides a component calling service based on S2 RMI.

The management platform further comprises a persistence layer for the business database, and the persistence layer is used for performing persistence processing on the business database and comprises components S2JDBC and Mybatis 3.0.4.

The management platform is designed based on the SOA architecture concept, the container component management framework is adopted to realize modular development and maintenance, the characteristics of stability and expandability are achieved, and personalized customization and rapid development can be realized. The colleagues realize the cooperation with the third-party application platform through the open API interface, for example, interface service is provided for the Paibao, so that the service mode of the management platform is enriched.

In this embodiment, as shown in fig. 3, the topological relationship between the collection unit and the management platform includes: a plurality of single-phase carrier wave collection ammeters are connected with a concentrator through a power line, the concentrator is connected to Ethernet transmission data through a GPRS base station, and communication is achieved through a firewall and a management platform.

The method for power management of a specification power transfer main body is described below with reference to a specific example, in this example, the method is implemented by a power transfer main body intelligent management system, and specifically includes:

the method comprises the following steps: and an acquisition unit for acquiring energy consumption data is arranged in the power conversion and supply main body.

Step two: the energy consumption data of the terminal users in the power transfer main body are acquired through the acquisition unit, and the energy consumption data are uploaded to the acquisition database in batches.

Step three: the SLB load balancer based on http accesses a service server to obtain terminal user data in a service database; data communication between a service server and an acquisition front-end processor is realized through RMI and MQ, and the terminal user data and the energy consumption data are analyzed at a service end; and performing sub-meter reading according to the analysis result, generating meter reading data corresponding to the power transfer main body and the terminal user, and uploading the data to the client.

Step four: according to meter reading data of a power transfer main body and a terminal user, energy consumption monitoring and abnormal power consumption analysis are carried out through a client; according to the energy consumption monitoring result, calculating the electric charge of the rotary power supply main body; and performing tripping and closing control on the main rotary power supply body according to the result of the abnormal power utilization analysis.

In this example, an architecture of the system for power management of a specification transfer power supply main body is shown in fig. 4, and includes:

the client 101, the load balancing 102, the service server 103, and the service database 104 constitute the management platform 10. The client 101 accesses the service server 103 through the load balancing 102, and the service server 103 obtains the end user data in the service database 104 and obtains the energy consumption data in the acquisition database 204 through RMI and MQ. The management platform 10 analyzes the data of the terminal user and the energy consumption data, generates meter reading data corresponding to the power transfer main body and the terminal user, and uploads the meter reading data to the client 101.

The acquisition terminal 201, the load balancing 202, the acquisition front-end processor 203, the acquisition database 204 and the cache server 205 constitute an acquisition unit 20. The acquisition terminal 201 transmits the acquired energy consumption data to the acquisition front-end processor 203 through the load balancing 202, the acquisition front-end processor 203 stores the energy consumption data in the cache server 205, and calls an acquisition service application program to read the energy consumption data in the cache server 205 and uploads the energy consumption data to the acquisition database 204 in batch through the RDS middleware. When the electricity consumption condition of the main power supply body is analyzed, the energy consumption data in the collection database 204 is obtained through the collection front-end processor 203.

The sequence numbers in the above embodiments are merely for description, and do not represent the sequence of the assembly or the use of the components.

The above description is only exemplary of the present invention and should not be taken as limiting the invention, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A method for power management of a specification-switching power supply agent, the method comprising:

2. The method of claim 1, wherein the collection unit comprises a collection terminal, a collection front-end processor, and a collection database.

3. The method for regulating power consumption of a main power transfer body according to claim 2, wherein the collection unit is specifically configured to:

4. The method for regulating power consumption management of a power transfer main body according to claim 1, wherein the step of acquiring data in a service database in a management platform and generating meter reading data corresponding to the power transfer main body and a terminal user by combining the acquired energy consumption data comprises the steps of:

accessing a service server to obtain terminal user data in a service database;

5. The method of claim 1, wherein analyzing the electricity consumption according to the meter reading data and performing prepaid management on the power transfer subject based on the analysis result comprises:

6. The method for power consumption management of a specification power conversion main body according to claim 1, wherein the management platform adopts an SOA layered architecture and comprises a presentation layer, a service interaction layer and a business logic layer;

7. The method of claim 6, wherein the management platform comprises a client and a server;

8. The method as claimed in claim 6, wherein the management platform further comprises an API interface unit integrated in the service interaction layer for providing external interface services to the third party application platform.

9. The method of claim 1, wherein the collection unit and the management platform implement ethernet communication via a GPRS communication port.