1. The utility model provides an industry expands engineering electronization and hands over management and control system which characterized in that includes: the business expansion project preprocessing module and the business expansion project electronic handover module;

the business expansion project preprocessing module is used for generating a project list and sending the project list to the business expansion project electronic handover module, wherein the project list comprises at least one business expansion project, each business expansion project corresponds to one site predicted power transmission time, and the business expansion projects in the project list are sequentially arranged according to the sequence of the site predicted power transmission times;

and the business expansion project electronic transfer module is used for sequentially executing the business expansion projects in the project list according to the sequence of the project list.

2. The business expansion project electronic handover management and control system according to claim 1, wherein the business expansion project preprocessing module comprises: a business expansion project collecting submodule and a business expansion project sequencing submodule;

the business expansion project collection submodule is used for acquiring at least one business expansion project reported by each power supply bureau;

and the business expansion project sequencing submodule is used for sequencing at least one business expansion project according to the on-site predicted power transmission time corresponding to each business expansion project to generate the project list.

3. The business expansion engineering electronic handover management and control system according to claim 1, wherein the business expansion engineering electronic handover module comprises: the system comprises a construction submodule, a power supply service submodule, a production plan submodule and a drawing submodule;

the construction sub-module is used for acquiring business expansion project electronic transfer ledger data and sending the business expansion project electronic transfer ledger data to the power supply service sub-module;

the power supply service sub-module is used for carrying out first examination and verification on the electronic transfer ledger data of the business expansion project; when the first audit is not passed, returning the electronic transfer ledger data of the business expansion project to the construction submodule for modification; when the first audit is passed, sending the electronic transfer ledger data of the business expansion project to the production plan submodule;

the production plan sub-module is used for carrying out secondary audit on the business expansion project electronic transfer ledger data; when the second audit is not passed, the electronic transfer ledger data of the business expansion project is returned to the power supply service sub-module for modification; when the second audit is passed, sending the electronic transfer ledger data of the business expansion project to the drawing submodule;

the drawing submodule is used for carrying out power grid modeling on the electronic transfer ledger data of the business expansion project to obtain modeling information and sending the modeling information to the production plan submodule;

the production plan submodule is also used for auditing the modeling information; when the audit is not passed, the modeling information is returned to the drawing submodule to be modified; when the audit is passed, the modeling information is sent to the power supply service sub-module;

the power supply service sub-module is also used for checking and accepting the modeling information; when the acceptance fails, returning the modeling information to the drawing submodule for modification; and when the acceptance passes, sending confirmation information to the production plan submodule so that the production plan submodule issues the modeling information.

4. The business expansion project electronic handover management and control system according to claim 3, wherein the construction sub-module is specifically configured to collect business expansion project electronic handover ledger data according to a preset template.

5. The business expansion project electronic handover control system according to claim 3, wherein the drawing sub-module is specifically configured to perform system comparison, modeling, and account data entry on the business expansion project electronic handover account data to obtain the modeling information.

6. The business expansion project electronic handover management and control system of claim 3, wherein the modeling information comprises modeling graphs and equipment ledgers.

7. The business expansion engineering electronic handover management and control system of claim 3, wherein the business expansion engineering electronic handover module further comprises: a power dispatching control submodule;

and the power dispatching control submodule is used for dispatching and auditing the single line diagram after field power transmission is realized.

8. The business expansion engineering electronic handover management and control system of claim 3, wherein the power supply service sub-module has an aging of 2.5 working days; the time efficiency of the production plan submodule is 2.5 working days; the time efficiency of the drawing submodule is 5 working days.

9. The business expansion engineering electronic handover management and control system of claim 7, wherein the power scheduling control sub-module is aged for 1 working day.

10. The business expansion engineering electronic handover management and control system according to claim 1, further comprising: a business expansion project management and control module;

the business expansion project management and control module is used for monitoring the electronic handover timeliness rate of the business expansion project.

Background

The business expansion project is a link for accepting power supply and sale of power supply enterprises, and generally refers to the whole process of accepting a customer power utilization application, determining a feasible power supply scheme according to the customer power utilization capacity, the power utilization property, the current situation of a power grid and planning requirements, organizing the design and construction of the power supply project, checking and accepting the internal electrical project of a customer, signing a power supply and utilization contract and carrying out meter installation and power transmission.

The electronic handover of the business expansion project is an important expression of the implementation of an informationization comprehensive construction and development strategy of an electric power enterprise, is an important means for realizing digitalization, informationization, standardization and systematic management of the enterprise operation and distribution, and plays a vital role in improving the information resource sharing level of the enterprise and improving the management quality of the enterprise operation and distribution. However, in the current electronic handover scheme for business expansion engineering, when the electronic handover for business expansion engineering is already executed, but on-site power transmission is not actually achieved, the electronic handover process for business expansion engineering is stuck, which affects the efficiency of electronic handover management and control for business expansion engineering.

Disclosure of Invention

The embodiment of the invention provides an electronic handing-over control system for business expansion engineering, which can ensure that the execution time of electronic handing-over of the business expansion engineering is matched with the on-site estimated power transmission time of the business expansion engineering, thereby improving the efficiency of electronic handing-over control of the business expansion engineering.

In a first aspect, an embodiment of the present invention provides an electronic handover control system for business expansion engineering, including: the business expansion project preprocessing module and the business expansion project electronic handover module;

the business expansion project preprocessing module is used for generating a project list and sending the project list to the business expansion project electronic handover module, wherein the project list comprises at least one business expansion project, each business expansion project corresponds to one field predicted power transmission time, and the business expansion projects in the project list are sequentially arranged according to the sequence of the field predicted power transmission time;

and the business expansion project electronic transfer module is used for sequentially executing the business expansion projects in the project list according to the sequence of the project list.

Optionally, the business expansion project preprocessing module includes: a business expansion project collecting submodule and a business expansion project sequencing submodule;

the business expansion project collection submodule is used for obtaining at least one business expansion project reported by each power supply bureau;

and the business expansion project sequencing submodule is used for sequencing at least one business expansion project according to the on-site estimated power transmission time corresponding to each business expansion project to generate a project list.

Optionally, the electronic handover module for business expansion engineering includes: the system comprises a construction submodule, a power supply service submodule, a production plan submodule and a drawing submodule;

the construction sub-module is used for acquiring electronic transfer ledger data of the business expansion project and sending the electronic transfer ledger data of the business expansion project to the power supply service sub-module;

the power supply service sub-module is used for carrying out first examination and verification on the electronic transfer ledger data of the business expansion project; when the first audit is not passed, the electronic transfer ledger data of the business expansion project is returned to the construction sub-module for modification; when the first audit is passed, sending the electronic transfer ledger data of the business expansion project to the production plan submodule;

the production plan sub-module is used for carrying out secondary audit on the electronic transfer ledger data of the business expansion project; when the second audit is not passed, the electronic transfer ledger data of the business expansion project is returned to the power supply service sub-module for modification; when the second audit is passed, sending the electronic transfer ledger data of the business expansion project to the drawing submodule;

the drawing submodule is used for carrying out power grid modeling on business expansion engineering electronic transfer ledger data to obtain modeling information and sending the modeling information to the production plan submodule;

the production plan submodule is also used for auditing the modeling information; when the audit is not passed, the modeling information is returned to the drawing submodule for modification; when the verification is passed, the modeling information is sent to the power supply service sub-module;

the power supply service sub-module is also used for checking and accepting the modeling information; when the acceptance fails, the modeling information is returned to the drawing submodule for modification; and when the acceptance passes, sending confirmation information to the production plan submodule so that the production plan submodule issues the modeling information.

Optionally, the construction sub-module is specifically configured to collect business expansion engineering electronic transfer ledger data according to a preset template.

Optionally, the drawing sub-module is specifically configured to perform system comparison, modeling, and ledger data entry on the business expansion engineering electronic transfer ledger data to obtain modeling information.

Optionally, the modeling information includes a modeling graph and a device ledger.

Optionally, the electronic handover module for business expansion engineering further includes: a power dispatching control submodule;

and the power dispatching control submodule is used for dispatching and auditing the single line diagram after field power transmission is realized.

Optionally, the time efficiency of the power supply service sub-module is 2.5 working days; the production plan sub-module has an aging of 2.5 working days; the aging of the plot submodule was 5 working days.

Optionally, the time efficiency of the power scheduling control sub-module is 1 working day.

Optionally, the method further includes: a business expansion project management and control module;

and the business expansion project management and control module is used for monitoring the electronic handover timeliness rate of the business expansion project.

The invention provides an electronic handing-over control system for an expansion project, which comprises an expansion project preprocessing module and an expansion project electronic handing-over module. The project list is generated by the business expansion project preprocessing module, the business expansion projects in the project list are sequentially arranged according to the sequence of the field predicted power transmission time, priority ranking of the business expansion projects is achieved, the business expansion project electronic handover module sequentially executes the business expansion projects according to the priority ranking of the business expansion projects, the execution time of the business expansion project electronic handover can be guaranteed to be matched with the field predicted power transmission time of the business expansion projects, and therefore the efficiency of electronic handover control of the business expansion projects is improved. Meanwhile, the electronic handing-over control scheme of the business expansion project can realize the integration of the business expansion project data and the production data, ensure the real-time performance, the accuracy and the consistency of the marketing service and the basic data of the main network and the distribution network, and meet the requirements of the production service and the operation management application.

Drawings

Fig. 1 is a schematic structural diagram of an electronic handover control system for business expansion engineering according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of another electronic handover control system for business expansion engineering according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of another electronic handover control system for business expansion engineering according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of an electronic handover control system for business expansion engineering according to an embodiment of the present invention;

fig. 5 is a schematic flow chart of an electronic handover procedure according to a second embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

It should be noted that the following embodiments of the present invention may be implemented individually, or may be implemented in combination with each other, and the embodiments of the present invention are not limited in this respect. Reference to "and/or" in embodiments of the invention is intended to include any and all combinations of one or more of the associated listed items. Various components are described in embodiments of the present invention with "first", "second", "third", and the like, but these components should not be limited by these terms. These terms are only used to distinguish one component from another. Also, the singular forms "a", "an" and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

Example one

Fig. 1 is a schematic structural diagram illustrating an electronic handover control system for business expansion engineering according to an embodiment of the present invention. As shown in fig. 1, the electronic handover control system for business expansion engineering includes: a business expansion project preprocessing module 100 and a business expansion project electronic handover module 200. Wherein, the business expansion project preprocessing module 100 is connected with the business expansion project electronic transfer module 200.

The business expansion project preprocessing module 100 is configured to generate a project list and send the project list to the business expansion project electronic handover module 200, where the project list includes at least one business expansion project, each business expansion project corresponds to one on-site predicted power transmission time, and the business expansion projects in the project list are sequentially arranged according to the order of the on-site predicted power transmission times; and the business expansion project electronic transfer module 200 is used for sequentially executing the business expansion projects in the project list according to the sequence of the project list.

By utilizing the business expansion project preprocessing module 100 to generate the project list, the business expansion projects in the project list are sequentially arranged according to the sequence of the field estimated power transmission time, priority ranking of the business expansion projects is realized, the business expansion project electronic handover module 200 sequentially executes the business expansion projects according to the priority ranking of the business expansion projects, the execution time of the business expansion project electronic handover can be ensured to be matched with the field estimated power transmission time of the business expansion projects, and therefore the efficiency of the business expansion project electronic handover control is improved.

Specifically, referring to fig. 1, fig. 2 is a schematic structural diagram illustrating another electronic handover control system for business expansion engineering according to an embodiment of the present invention. As shown in fig. 2, the business expansion project preprocessing module 100 includes: a business expansion project collecting sub-module 101 and a business expansion project ordering sub-module 102. Wherein, the business expansion project collecting sub-module 101 is connected with the business expansion project sorting sub-module 102.

The business expansion project collection submodule 101 is used for obtaining at least one business expansion project reported by each power supply bureau; the business expansion project can not only have on-site estimated power transmission time, but also include information of areas, industries, business expansion types and the like of the business expansion project.

And the business expansion project sequencing submodule 102 is used for sequencing at least one business expansion project according to the on-site estimated power transmission time corresponding to each business expansion project to generate a project list.

TABLE 1 engineering List

Serial number of business expansion project	Area of business expansion project	On-site predicted power transmission time
			Business expansion project 1	Dongguan city XX way YY	12:00 at 25/6/2021
Business expansion project 2	XX way ZZ number of Dongguan city	14:00 at 25/6/2021
			……	……	……
Business expansion project n	Shantou market MM way NN number	26/6/2021/17: 00

For example, as shown in table 1, the project list includes n business expansion projects, and the n business expansion projects are arranged in sequence according to the sequence of the on-site expected power transmission time. After the business expansion project ordering submodule 102 generates the project list, the project list is sent to the business expansion project electronic handover module 200, so that the business expansion project electronic handover module 200 sequentially executes the business expansion projects according to the sequence from the business expansion project 1 to the business expansion project n.

With continued reference to fig. 2, the business process electronic handover module 200 includes: a construction sub-module 201, a power supply service sub-module 202, a production plan sub-module 203, and a mapping sub-module 204. The construction sub-module 201 is connected with the power supply service sub-module 202, the power supply service sub-module 202 is connected with the production plan sub-module 203 and the drawing sub-module 204, and the production plan sub-module 203 is connected with the drawing sub-module 204.

And the construction sub-module 201 is configured to obtain business expansion project electronic transfer ledger data, and send the business expansion project electronic transfer ledger data to the power supply service sub-module 202.

Specifically, the method for acquiring the electronic transfer ledger data of the business expansion project by the construction sub-module 201 may be: and acquiring electronic transfer ledger data of the business expansion project according to a preset template.

The power supply service sub-module 202 is used for performing first audit on electronic transfer ledger data of the business expansion project; when the first audit is not passed, returning the electronic transfer ledger data of the business expansion project to the construction sub-module 201 for modification; and when the first audit is passed, sending the electronic transfer ledger data of the business expansion project to the production plan sub-module 203.

The production plan sub-module 203 is used for carrying out second audit on the electronic transfer ledger data of the business expansion project; when the second audit is not passed, the electronic transfer ledger data of the business expansion project is returned to the power supply service sub-module 202 for modification; and when the second audit is passed, sending the electronic transfer ledger data of the business expansion project to the drawing submodule 204.

And the drawing submodule 204 is used for carrying out power grid modeling on the electronic transfer ledger data of the business expansion project to obtain modeling information and sending the modeling information to the production plan submodule 203.

Specifically, the method for modeling the power grid by the drawing sub-module 204 on the business expansion engineering electronic transfer ledger data may be as follows: and carrying out system comparison, modeling and account data entry work on the electronic transfer account data of the business expansion project to obtain modeling information. Illustratively, the modeling information may include modeling graphics and equipment ledgers.

The production plan submodule 203 is also used for auditing the modeling information; when the audit is not passed, the modeling information is returned to the drawing submodule 204 for modification; when the audit is passed, the modeling information is sent to the power supply service sub-module 202.

The power supply service sub-module 202 is further used for checking and accepting the modeling information; when the acceptance fails, the modeling information is returned to the drawing submodule 204 for modification; when the acceptance passes, confirmation information is sent to the production planning sub-module 203 to cause the production planning sub-module 203 to issue modeling information.

In an embodiment, referring to fig. 2, fig. 3 is a schematic structural diagram illustrating a system for electronically handing over a business expansion project according to another embodiment of the present invention. As shown in fig. 3, the electronic handover module 200 further includes: the power schedule control sub-module 205. The power scheduling control sub-module 205 is connected with the production plan sub-module 203 and the drawing sub-module 204.

And the power dispatching control sub-module 205 is used for dispatching and auditing the single line diagram after field power transmission is realized.

In order to ensure the efficiency of electronic handover control of the business expansion project, the work effectiveness of each module of the electronic handover control system of the business expansion project may be generally set. Illustratively, the power service sub-module 202 has an age of 2.5 working days; the production plan submodule 203 has an aging of 2.5 working days; the age of the mapping submodule 204 is 5 working days; the power scheduling control sub-module 205 has an age of 1 working day.

On the basis of the foregoing embodiment, with reference to fig. 3, fig. 4 is a schematic structural diagram illustrating a system for electronically handing over management and control of business expansion engineering according to another embodiment of the present invention. The electronic handing over control system of industry expansion engineering still includes: business expansion project management and control module 300. Wherein, the business expansion project management and control module 300 is connected with the business expansion project electronization handover module 200.

And the business expansion project management and control module 300 is used for monitoring the electronic handover timeliness rate of the business expansion project.

The embodiment of the invention provides an electronic handing-over control system for business expansion engineering, which comprises a business expansion engineering preprocessing module and an electronic handing-over module for business expansion engineering; the business expansion project preprocessing module is used for generating a project list and sending the project list to the business expansion project electronic handover module, wherein the project list comprises at least one business expansion project, each business expansion project corresponds to one field predicted power transmission time, and the business expansion projects in the project list are sequentially arranged according to the sequence of the field predicted power transmission time; and the business expansion project electronic transfer module is used for sequentially executing the business expansion projects in the project list according to the sequence of the project list. The project list is generated by the business expansion project preprocessing module, the business expansion projects in the project list are sequentially arranged according to the sequence of the field predicted power transmission time, priority ranking of the business expansion projects is achieved, the business expansion project electronic handover module sequentially executes the business expansion projects according to the priority ranking of the business expansion projects, the execution time of the business expansion project electronic handover can be guaranteed to be matched with the field predicted power transmission time of the business expansion projects, and therefore the efficiency of electronic handover control of the business expansion projects is improved. Meanwhile, the electronic handing-over control scheme of the business expansion project can realize the integration of the business expansion project data and the production data, ensure the real-time performance, the accuracy and the consistency of the marketing service and the basic data of the main network and the distribution network, and meet the requirements of the production service and the operation management application.

Example two

The embodiment of the invention also provides an electronic handover control scheme for the business expansion project, which comprises an electronic handover process and a control process. Fig. 5 is a schematic flow chart illustrating an electronic handover procedure according to a second embodiment of the present invention. As shown in fig. 5, the electronic handover process includes the following steps:

(01) e, electronically transferring the ledger data to submit for the business expansion project.

The step is executed by a construction submodule (namely a construction unit/customer), and the construction submodule collects electronic transfer ledger data of the business expansion project according to a preset template and sends the electronic transfer ledger data to a power supply service submodule.

(02) And (5) distribution network data initial nodes.

The step is executed by a power supply service sub-module (usually, a town power supply service center), and is mainly used for carrying out first examination and verification on business expansion project electronic transfer ledger data and examining the integrity and correctness of the business expansion project electronic transfer ledger data. And when the first audit is not passed, returning the electronic transfer ledger data of the business expansion project to the construction sub-module and guiding the construction sub-module to modify the electronic transfer ledger data of the business expansion project. When the first audit passes, step (03) is performed.

The aging for this step is typically 1 working day.

(03) And (5) accepting the business expansion project.

The step is executed by a power supply service sub-module (usually, a town power supply service center), after the business expansion project electronic transfer ledger data passes the first audit, the power supply service sub-module uploads the business expansion project electronic transfer ledger data on an asset system and sends the business expansion project electronic transfer ledger data to a production plan sub-module.

The aging for this step is typically 0.5 working days.

(04) And E, checking the electronic transfer ledger data of the transfer business expansion project.

The step is executed by a production plan submodule (usually, a district production plan department), and mainly carries out secondary verification on the electronic transfer ledger data of the business expansion project, namely, carries out technical clearance on the electronic transfer ledger data of the business expansion project. And when the second audit is not passed, returning the electronic transfer ledger data of the business expansion project to the power supply service sub-module and guiding the power supply service sub-module to modify the electronic transfer ledger data of the business expansion project. And when the second audit is passed, sending the electronic transfer ledger data of the business expansion project to the drawing submodule to execute the step (05).

The aging for this step is typically 1 working day.

(05) And (5) modeling the power grid.

The step is executed by a drawing submodule (usually a drawing unit), and the drawing submodule carries out system comparison, modeling and ledger data entry work on electronic transfer ledger data of the business expansion project to obtain modeling information. If there is a problem, go back to step (04) and guide it to modify the electronic account data of business expansion project.

The aging for this step is typically 5 working days.

(06) And checking the modeling graph and the equipment ledger.

The step is executed by a production planning submodule (which can be a district production planning department generally) and is mainly used for auditing a modeling graph and an equipment ledger. When the audit is not passed, returning the modeling graph and the equipment ledger to the drawing submodule for modification; and when the audit is passed, sending the modeling graph and the equipment ledger to the power supply service sub-module to execute the step (07).

The aging for this step is typically 1 working day.

(07) And checking and accepting the modeling graph and the equipment ledger on site.

The step is executed by a power supply service submodule (usually a town power supply service center), and is mainly used for checking and accepting the modeling graph and the equipment ledger on site. And when the acceptance fails, returning the modeling graph and the equipment ledger to the drawing submodule for modification. And when the acceptance passes, executing the step (08).

The aging for this step is typically 1 working day.

(08) And issuing a modeling graph and an equipment ledger.

This step is performed by a production planning sub-module (which may typically be the parcel office production planner). The time-of-day is typically 0.5 working days.

(09) The single line diagram is reviewed.

This step is performed by a power dispatch control sub-module (which may typically be a power dispatch control center). And after field power transmission is realized, scheduling and auditing the single line diagram, and finishing the work order after the auditing is correct. And (5) if the problem exists, returning to the step (05) of modifying the power grid modeling link.

The aging for this step is typically 1 working day.

In addition, the management and control process mentioned in the embodiment of the present invention may generally include the following measures:

1. counting the completion conditions of electronic transfer timeliness indexes of monthly business expansion projects in each district bureau and town street power supply service center at regular time each month, exporting and sorting overtime work orders, and sending related data to a market marketing part and a bureau power supply service center;

2. the office power supply service center organizes the electronic handover timeliness index completion condition of each office business expansion project every month, carries out grading supervision on the overtime work order, and carefully organizes the offices to complete overtime reason analysis and reorganization work;

3. each district bureau and town street power supply service center respectively appoint at least 1 worker as an electronic transfer work responsible person, require to be familiar with the electronic transfer control flow and management requirement of the business expansion project, be responsible for managing and controlling the electronic transfer work within the district scope, reasonably arrange the electronic transfer processing sequence according to the marketing filing time, establish good communication channel with the dispatching center and the drawing factory, follow up each electronic transfer flow processing situation in time, avoid the electronic transfer work order overtime, and complete overtime work order analysis and implementation rectification measure according to the requirement of the power supply service center;

4. the office power supply service center further discusses the simplified electronic handover control flow of the business expansion project by the organization drawing factory and the district office, optimizes the requirement of electronic handover data of the business expansion project and improves the operation efficiency of the electronic handover worksheet;

5. the office power supply service center continuously promotes the electronic handover control work of the business expansion project according to the index requirements, monitors the electronic handover timeliness indexes of all the offices, publishes the electronic handover timeliness data of all the offices every month, negotiates about the offices with indexes not meeting the standard, intensively trains the offices with poor indexes, and continuously promotes the related indexes of the electronic handover.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.