CN117933617A - Distributed power supply user oriented networked scheduling management system - Google Patents
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Abstract
The invention relates to a networked dispatching management system for distributed power supply users, which comprises 7 functional modules, namely a user management module, an access debugging module, a grid-connected acceptance module, a protocol signing module, an on-off standby module, an overhaul application module and a defect elimination processing module; the system comprises two application directions, namely a main station dispatching side and a terminal user side, wherein the main station dispatching side is a WEB system and is used by dispatching professionals of the distribution network, the terminal user side is an APP and is used by a power supply user, online interaction and communication command of the dispatching personnel and the power supply user are realized by constructing networking information interaction between the main station side and the terminal side, online communication content is realized, and the traditional telephone cooperation is replaced, and data offline transmission is realized.
Description
Technical Field
The invention relates to a networked dispatching management system for distributed power supply users, and belongs to the field of distributed power supplies.
Background
With the strong support and encouragement of the distributed photovoltaic industry by countries in recent years, a large number of investors, power generation groups and home users have established distributed power stations like spring bamboo shoots after rain. As more and more distributed power sources are connected to the distribution network, the distribution network gradually becomes an active distribution network from a traditional passive network. Because the distributed power supply has small installed capacity, scattered regional distribution and poor real-time controllability, if no efficient and reliable power supply user scheduling management means exists, hidden danger is likely to be caused to the safety of the power grid.
In order to solve the current problem, the invention patent with publication number of CN106059074A discloses a power dispatching management system, which comprises the following specific scheme: "the power schedule management system includes: the system comprises an operation module, a calibration module, an alarm module and a storage module; the operation module is provided with on-off control buttons for controlling the on-off of each power equipment; the storage module is used for storing control results corresponding to the on-off results of the on-off control buttons of the power equipment one by one; and the checking module is used for searching a control result corresponding to the pressed power equipment on-off control button in the storage module, comparing the control result with the input required control result, controlling the alarm module to give an alarm when the searched control result is inconsistent with the required control result, and controlling the pressed power equipment on-off control button to execute actions when the searched control result is consistent with the required control result. The power dispatching management system avoids misoperation caused by inputting wrong commands and improves the accuracy and safety of power dispatching management. However, the problem with this prior art is that the scheduling is directed solely by telephone in terms of scheduling means with the distributed power users. All plans and applications of the power supply user are required to be reported to the dispatching in advance through telephone, the dispatching is recorded in the master station system, and when paper materials are required, the power supply user can only submit in the form of face or express delivery, so that the efficiency is low and errors are easy to occur. The power failure information of the distribution network side can only be notified to the power supply users by the dispatch through telephone, and the power supply users have large quantity and are easy to miss.
Disclosure of Invention
In order to solve the problems in the prior art, the invention provides a networked scheduling management system for distributed power supply users.
The technical scheme of the invention is as follows:
The invention provides a networked dispatching management system facing to distributed power supply users, which comprises: the system comprises a user management module, an access debugging module, a grid-connected acceptance module, a protocol signing module, an on-off standby reporting module, an overhaul application module and a defect elimination processing module;
The user management module is used for managing and maintaining power supply user information; the access debugging module is used for debugging various parameters of the power supply terminal before the distributed power supply is accessed to the power grid system; the grid-connected acceptance module is used for carrying out inspection and test on the distributed power supply and checking the adaptability of the distributed power supply after the distributed power supply is connected to a power grid and is successfully connected to the grid; the protocol signing module is used for confirming that a power grid company and a power supply user carry out protocol signing of grid-connected scheduling in the distributed power grid connection process; the start-up and shutdown backup reporting module is used for establishing a distributed power supply shutdown planning backup reporting application; the maintenance application module is used for enabling a power supply user to schedule and initiate application to the master station when the distributed power supply needs maintenance; and the defect elimination processing module is used for enabling the master station to dispatch the defect single power supply user to perform defect elimination processing when the distributed power supply generates defects.
Preferably, the networked scheduling management system comprises two application directions, namely a master station scheduling side and a terminal user side; the master station dispatching side is used by a distribution network dispatching professional; the terminal user side is used by a target power supply user.
Preferably, the access debugging module is used for creating a terminal account when the master station dispatching side initiates a distributed power grid-connected debugging application, logging in a management interface of a debugging system through the terminal account, and verifying the validity and authority of the terminal account; the master station dispatching side initiates channel debugging, checks a communication link, tests and verifies the channel, and confirms the stability and reliability of the channel after the channel is debugged; uploading detailed information of the terminal equipment to a system, checking and confirming after the master station dispatching side receives the point list uploaded by the terminal user side, testing and verifying each terminal equipment one by one, confirming after receiving the debugging result of the terminal user side, and ending the debugging after all confirmation.
Preferably, the grid-connected acceptance module is used for respectively performing countersign selection and countersign summarization acceptance by the master station dispatching side and the terminal user side when the master station dispatching side initiates a distributed power grid-connected acceptance list or quotes to debug through the application list until all the acceptance passes, and then the grid-connected acceptance is finished.
Preferably, the protocol signing module is used for enabling the target power supply user to fill in the protocol and upload the protocol to the dispatching management system when the terminal user initiates the protocol signing, and enabling the master station legal service to sign on the master station dispatching side and upload the protocol to the dispatching management system; after the protocol signature confirmation is carried out through the terminal user side, respectively inquiring the electronic file protocol and uploading the signed and stamped document.
Preferably, the start-stop report and backup module is used for a target power supply user to start-stop report and backup through a terminal user side, and after submitting the target power supply user to a dispatching management system, a dispatcher receives and audits through a master station dispatching side; after the start-up and shutdown report is approved, the target power supply user is notified through the terminal user side.
Preferably, the overhaul application module is used for initiating an overhaul application by a target power supply user at a terminal user side, and a dispatcher makes an invoice and examines information after receiving the application at a master station dispatch side; after the target power supply user checks and confirms the work order information, the dispatcher gives an operation instruction through the grid of the dispatching side of the master station, and the target power supply user overhauls according to the operation instruction.
Preferably, the defect elimination processing module is used for automatically initiating a distributed power supply defect flow when the scheduling side of the master station monitors that the power supply state is abnormal, pushing the flow to the side of the terminal user, receiving a distributed power supply defect list by a target power supply user through the side of the terminal user, inputting abnormal processing process information in real time on site, and feeding back the information to the scheduling side to form closed-loop management and control of defects.
The invention has the following beneficial effects:
1. The invention adopts the flow idea to construct a new energy access debugging management flow, has the information examination and approval management and control of customer access capacity, access position and the like, and supports the online debugging of new energy; the new energy access power grid is tested, checked and optimized through safe and reliable flow mechanism measures, so that the access safety is improved; and the complex new energy access process is connected in series through one line, so that the access difficulty of new energy users is reduced, and the access efficiency is improved.
2. The invention builds the online flow of the new energy overhaul application, and is suitable for the process control of the new energy on-off overhaul; the on-off and maintenance management of the distributed new energy source is carried out based on a pre-backup mechanism, so that the stable operation of the power system is effectively ensured; and the distributed new energy is brought into the unified scheduling management of the scheduling, the power grid work is better scheduled, and the reasonable scheduling of the power system is supported.
3. The invention constructs management flows of new energy grid connection acceptance, agreement signing, defect treatment, start-up and shutdown backup report and the like, and realizes the management of new energy power station users and user rights. Extending the scheduling object to a new energy user based on the mobile APP, and expanding a networked scheduling mode to a new energy service; the perception capability of new energy users to the power grid state, the monitoring capability to the power supply state and the execution capability to the scheduling instruction are effectively improved.
Drawings
FIG. 1 is a schematic block diagram of the present invention;
FIG. 2 is a flow diagram of an access debug module;
FIG. 3 is a schematic flow chart of a grid-tie acceptance module;
FIG. 4 is a flow diagram of a protocol signing module;
FIG. 5 is a schematic flow chart of the start-up/shut-down backup module;
FIG. 6 is a schematic flow diagram of an inspection application module;
Fig. 7 is a schematic flow chart of the defect elimination processing module.
Detailed Description
The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
It should be understood that the step numbers used herein are for convenience of description only and are not limiting as to the order in which the steps are performed.
It is to be understood that the terminology used in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in this specification and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.
The terms "comprises" and "comprising" indicate the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.
The term "and/or" refers to any and all possible combinations of one or more of the associated listed items, and includes such combinations.
Embodiment one:
Referring to fig. 1-7, the present embodiment provides a networked scheduling management system for distributed power users, including: the system comprises a user management module, an access debugging module, a grid-connected acceptance module, a protocol signing module, an on-off standby reporting module, an overhaul application module and a defect elimination processing module;
The user management module is used for managing and maintaining power supply user information; the access debugging module is used for debugging various parameters of the power supply terminal before the distributed power supply is accessed to the power grid system; the grid-connected acceptance module is used for carrying out inspection and test on the distributed power supply and checking the adaptability of the distributed power supply after the distributed power supply is connected to a power grid and is successfully connected to the grid; the protocol signing module is used for confirming that a power grid company and a power supply user carry out protocol signing of grid-connected scheduling in the distributed power grid connection process; the start-up and shutdown backup reporting module is used for establishing a distributed power supply shutdown planning backup reporting application; the maintenance application module is used for enabling a power supply user to schedule and initiate application to the master station when the distributed power supply needs maintenance; and the defect elimination processing module is used for enabling the master station to dispatch the defect single power supply user to perform defect elimination processing when the distributed power supply generates defects.
As a preferred implementation manner of this embodiment, the networked scheduling management system includes two application directions, namely, a master station scheduling side and an end user side; the master station dispatching side is used by a distribution network dispatching professional; the terminal user side is used by a target power supply user.
As a preferred implementation manner of this embodiment, the user management module is configured to manage and maintain information of a power source user, where a power source primary account user may add the distributed power source sub-account, and support information functions such as changing a primary account name and a contact manner.
As a preferred implementation manner of the embodiment, the access debugging module is used for performing a debugging process for various parameters of the power supply terminal before the distributed power supply is accessed to the power grid system, so as to ensure that the normal operation of the power generation equipment can be safely and reliably realized; the method comprises the following steps:
① Initiating by a scheduling master station: and initiating a distributed power grid-connected debugging application form on the master station system, and filling in basic information in the application form.
② Creating a terminal account: when the distributed power system is debugged, an account number is created for a terminal operator, and the operator logs in a management interface of the debugging system.
③ Terminal login confirmation: after creating the terminal account, a login confirmation operation is required to verify the validity and authority of the account.
④ Initiating channel debugging: checking whether the communication link is normal, including network connection, communication protocol, hardware equipment, etc., and testing and verifying each channel.
⑤ Channel debug validation: after channel debugging, a validation operation is required to verify the stability and reliability of the channel.
⑥ Uploading a terminal point table: and uploading the detailed information list of the terminal equipment, including the unique identification, the position, the parameter setting, the communication protocol and other contents of the equipment, into the system.
⑦ Primary site table validation: after receiving the point list uploaded by the terminal, the master station side checks and confirms the point list, so that the system can accurately identify and manage the information of each device.
⑧ The terminal point table is debugged item by item: each terminal device is tested and verified one by one, and the returned data is checked and analyzed to verify whether the working state of the device and the data receiving and transmitting are normal.
⑨ And (3) debugging the main site table item by item: and after receiving the debugging result of the terminal side, confirming that the equipment is out of order or abnormal, and timely feeding back the equipment to the terminal.
⑩ Joint debugging is finished: after all the confirmation is complete, the flow is ended, and the debugging work is ended.
As a preferred implementation manner of this embodiment, the grid-connected acceptance module is configured to perform a process of checking and testing the distributed power source after the distributed power source is connected to the power grid and is successfully connected to the grid, and check the adaptability of the distributed power source and reach the relevant specified standard. The acceptance personnel can input acceptance opinion content service in real time on site, and if acceptance or debugging is unqualified, the acceptance personnel can feed back the correction scheme in real time on site, so that the acceptance personnel can be supported to sign, upload accessories and submit flow functions on site through APP electronics. The method comprises the following steps:
① Initiating by a scheduling master station: initiating a distributed power grid-connected acceptance sheet or a quotation debugging passing application form on a master station system, and filling in basic information in the application form.
② Master station countersign selection: and uploading related data on camping pins, signing the electric energy quality of the power distribution meeting, automatically associating a debugging list, checking contact phones and on-duty conditions by a dispatching or operating party, protecting a responsibility examination and approval value list, and communicating and examining a field network.
③ Terminal countersign selection: terminal synchronous mapping marketing, distribution, automation, dispatch, protection and communication countersign function.
④ And (5) meeting sign summarizing and acceptance: all the countersignatures pass together, and the countersignature submitting flow is printed.
⑤ And (5) ending acceptance: and ending the flow, and ending the grid-connected acceptance check work.
As a preferred implementation manner of this embodiment, the method is used for defining the flow of the agreement establishment performed by the grid company and the power supply user about the specific matters and responsibilities of the grid-connected scheduling in the distributed power grid connection process. The power supply user can actively initiate a protocol flow, and the system automatically generates a protocol template according to the region to which the user belongs; the protocol supports two modes of APP online filling or downloading offline filling; supporting uploading and downloading functions of multiple accessories such as government wholesale, business license, electric power batch reply and the like; after the protocol is finished and approved by the legal system, the power supply user support is subjected to on-line review and downloading through the APP terminal. The method comprises the following steps:
① End user initiation: the user initiates a protocol signing flow at the terminal.
② Uploading a terminal protocol: and the user fills in the agreement at the terminal and uploads information such as business license, government wholesale document, electric power wholesale culvert and the like.
③ Master station legal meeting sign: and after the dispatching and downloading dispatching protocol and supplementing the complete, uploading the system by a method, and after the method is finished by the countersign, downloading the electronic protocol and uploading the system by a host station.
④ Terminal protocol signature: the user signs the protocol through the terminal, downloads the protocol, and provides information such as mailing address, contact information and the like.
⑤ Terminal protocol inquiry: and the user inquires an electronic file protocol through the terminal and uploads the signed and stamped document.
⑥ Master station protocol query: and the dispatching inquires an electronic file protocol through a master station side, and uploads a document signed and stamped.
⑦ End of agreement subscription: and ending the flow, and ending the protocol signing work.
As a preferred implementation manner of this embodiment, the start-stop reporting module is configured to construct a distributed power source stop plan reporting application, and a power source user fills in a start-stop plan through an APP, reports information such as start-stop equipment, start-stop time, and affects power generation capacity and installed capacity. The start-stop schedule is submitted to the dispatching desk through the APP, and the dispatcher fills in approval time according to actual conditions and informs a power supply user through the APP.
As a preferred implementation manner of this embodiment, the overhaul application module is configured to schedule, when the distributed power supply needs to be overhauled, a flow of applying for the power supply user to the master station. The system supports a power supply user to fill and report a power supply maintenance application form on line through the APP, and comprises the contents of applying for power failure time, applying for power failure reasons and the like. The system automatically assembles and generates a power failure application form according to the information submitted and filled by the power supply user. After the application form passes the scheduling approval, the distributed power supply user support is based on APP to check and collect the overhaul approval time; and the operation of network connection, execution, network permission, termination and the like of the power supply user through the APP is supported. The method comprises the following steps:
① End user initiation: and the user initiates a maintenance application flow at the terminal.
② The master station invoices and approves: and after receiving the overhaul application initiated by the user, making an invoice, and examining and approving information such as overhaul time nodes.
③ End user query: the user checks whether the work order information of the overhaul application is correct at the terminal.
④ The master station networking down-commands: and the scheduling transmits an operation instruction at the master station.
⑤ The end user performs: after the instruction is issued, maintenance operation is carried out according to the operation information.
⑥ End of the service application: and ending the flow, and ending the overhaul application work.
As a preferred implementation manner of this embodiment, the defect elimination processing module is configured to automatically initiate a distributed power defect flow when the master station scheduling side monitors that the power status is abnormal, push the flow to the end user side, and the target power user receives the distributed power defect list through the end user side, inputs the abnormal processing procedure information in real time on site, and feeds back the abnormal processing procedure information to the scheduling side to form a closed-loop management and control of the defect.
In the embodiments of the present application, "at least one" means one or more, and "a plurality" means two or more. "and/or", describes an association relation of association objects, and indicates that there may be three kinds of relations, for example, a and/or B, and may indicate that a alone exists, a and B together, and B alone exists. Wherein A, B may be singular or plural. The character "/" generally indicates that the context-dependent object is an "or" relationship. "at least one of the following" and the like means any combination of these items, including any combination of single or plural items. For example, at least one of a, b and c may represent: a, b, c, a and b, a and c, b and c or a and b and c, wherein a, b and c can be single or multiple.
Those of ordinary skill in the art will appreciate that the various elements and algorithm steps described in the embodiments disclosed herein can be implemented as a combination of electronic hardware, computer software, and electronic hardware. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.
It will be clear to those skilled in the art that, for convenience and brevity of description, specific working procedures of the above-described systems, apparatuses and units may refer to corresponding procedures in the foregoing method embodiments, and are not repeated herein.
In several embodiments provided by the present application, any of the functions, if implemented in the form of software functional units and sold or used as a stand-alone product, may be stored in a computer-readable storage medium. Based on this understanding, the technical solution of the present application may be embodied essentially or in a part contributing to the prior art or in a part of the technical solution, in the form of a software product stored in a storage medium, comprising several instructions for causing a computer device (which may be a personal computer, a server, a network device, etc.) to perform all or part of the steps of the method according to the embodiments of the present application. And the aforementioned storage medium includes: a usb disk, a removable hard disk, a Read-Only Memory (hereinafter referred to as ROM), a random access Memory (Random Access Memory hereinafter referred to as RAM), a magnetic disk, or an optical disk, etc., which can store program codes.
The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present invention.
Claims (8)
1. A networked scheduling management system for distributed power users, comprising: the system comprises a user management module, an access debugging module, a grid-connected acceptance module, a protocol signing module, an on-off standby reporting module, an overhaul application module and a defect elimination processing module;
The user management module is used for managing and maintaining power supply user information; the access debugging module is used for debugging various parameters of the power supply terminal before the distributed power supply is accessed to the power grid system; the grid-connected acceptance module is used for carrying out inspection and test on the distributed power supply and checking the adaptability of the distributed power supply after the distributed power supply is connected to a power grid and is successfully connected to the grid; the protocol signing module is used for confirming that a power grid company and a power supply user carry out protocol signing of grid-connected scheduling in the distributed power grid connection process; the start-up and shutdown backup reporting module is used for establishing a distributed power supply shutdown planning backup reporting application; the maintenance application module is used for enabling a power supply user to schedule and initiate application to the master station when the distributed power supply needs maintenance; and the defect elimination processing module is used for enabling the master station to dispatch the defect single power supply user to perform defect elimination processing when the distributed power supply generates defects.
2. The networked scheduling management system for distributed power users according to claim 1, wherein:
the networked dispatching management system comprises two application directions, namely a master station dispatching side and a terminal user side; the master station dispatching side is used by a distribution network dispatching professional; the terminal user side is used by a target power supply user.
3. The networked scheduling management system for distributed power users according to claim 1, wherein:
The access debugging module is used for creating a terminal account when the master station dispatching side initiates a distributed power grid-connected debugging application, logging in a management interface of a debugging system through the terminal account, and verifying the effectiveness and authority of the terminal account; the master station dispatching side initiates channel debugging, checks a communication link, tests and verifies the channel, and confirms the stability and reliability of the channel after the channel is debugged; uploading detailed information of the terminal equipment to a system, checking and confirming after the master station dispatching side receives the point list uploaded by the terminal user side, testing and verifying each terminal equipment one by one, confirming after receiving the debugging result of the terminal user side, and ending the debugging after all confirmation.
4. The networked scheduling management system for distributed power users according to claim 1, wherein:
And the grid-connected acceptance module is used for respectively carrying out countersign selection and countersign summarization acceptance on the master station dispatching side and the terminal user side when the master station dispatching side initiates a distributed power grid-connected acceptance list or quotes and debugs the passing application list until all the acceptance passes.
5. The networked scheduling management system for distributed power users according to claim 1, wherein:
the protocol signing module is used for enabling a target power supply user to fill in a protocol and upload the protocol to the dispatching management system when a terminal user initiates the protocol signing, and enabling a master station legal service to sign on a master station dispatching side and upload the protocol to the dispatching management system; after the protocol signature confirmation is carried out through the terminal user side, respectively inquiring the electronic file protocol and uploading the signed and stamped document.
6. The networked scheduling management system for distributed power users according to claim 1, wherein:
The start-up and shut-down reporting and standby module is used for enabling a target power user to start-up and shut-down reporting and standby through a terminal user side, submitting the target power user to a dispatching management system, and enabling a dispatcher to receive and audit through a master station dispatching side; after the start-up and shutdown report is approved, the target power supply user is notified through the terminal user side.
7. The networked scheduling management system for distributed power users according to claim 1, wherein:
The maintenance application module is used for enabling a target power supply user to initiate maintenance application at a terminal user side, and a dispatcher makes an invoice and examines and approves information after receiving the application at a master station dispatching side; after the target power supply user checks and confirms the work order information, the dispatcher gives an operation instruction through the grid of the dispatching side of the master station, and the target power supply user overhauls according to the operation instruction.
8. The networked scheduling management system for distributed power users according to claim 1, wherein:
The defect elimination processing module is used for automatically initiating a distributed power supply defect flow when the scheduling side of the master station monitors that the power supply state is abnormal, pushing the flow to the side of the terminal user, receiving the distributed power supply defect list by the target power supply user through the side of the terminal user, inputting abnormal processing process information in real time on site, and feeding back the information to the scheduling side to form closed-loop management and control of defects.
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