CN109816558B - Transformer technology service platform system based on SAAS - Google Patents

Abstract

The invention discloses a transformer technology service platform system based on SAAS. The transformer sharing service system belongs to the technical field of transformer technology sharing service, is easy to share service in each link of design, production and sale, is convenient to manage, and is convenient and simple to use. A user registration module, a tag authentication module, a three-dimensional parameterization design module, a material list design bidding module, a material list calculation bidding module, a fault diagnosis module, a task release module, a finite element simulation calculation module, a calculation order optimization module and a self-service gadget are deployed on a transformer technology service platform.

Description

Transformer technology service platform system based on SAAS

Technical Field

The invention relates to the technical field of transformer technology sharing service, in particular to a transformer technology service platform system based on SAAS.

Background

The transformer is one of the indispensable devices in the power supply system. At present, designers of all parts of the transformer complete design independently, and design resources of all parts of the transformer are not easy to share among the designers, so that ordinary workers without certain design skill can hardly design transformer parts meeting requirements. The production and sale schedules of the transformer are not easy to manage, and the manufacturer of the transformer required by the client is not easy to know. SAAS is an abbreviation of Software-as-a-Service Software as a Service.

Disclosure of Invention

The invention provides a SAAS-based transformer technology service platform system which is easy to share service in each link of design, production and sale of transformers, convenient to manage and convenient and simple to use, and aims to solve the defect that the transformer is not easy to share service in each link of design, production and sale at present.

In order to achieve the purpose, the invention adopts the following technical scheme:

the transformer technology service platform system based on the SAAS is characterized in that a user registration module, a tag authentication module, a three-dimensional parametric design module, a material list design bidding module, a material list calculation bidding module, a fault diagnosis module, a task release module, a finite element simulation calculation module, a calculation order optimization module and a self-service small tool are deployed on the transformer technology service platform;

the implementation process of the user registration module is as follows: after a user fills in a mobile phone number and a password of user registration information through a user registration input port on a client, the user registration information is uploaded to a server of the transformer technology service platform for user registration or verification, and the user registration information is stored in a database of the transformer technology service platform;

the implementation process of the tag authentication module is as follows: the method comprises the steps that a user selects label authentication on a client and fills in authentication information, the label authentication information is uploaded to a server of a transformer technology service platform for authentication, if the label authentication is successful, the label information is stored in a database of the transformer technology service platform, and if the label authentication is failed, the user is enabled to refill the label authentication information until the label authentication is successful;

the three-dimensional parameterized design module is realized by the following steps: a user extracts data from the calculation sheet, the extracted data is used as input parameters, the parameters are input into the three-dimensional parametric design module through an API (application programming interface) of the three-dimensional parametric design module after being input through an input port on the client, and the three-dimensional parametric design module carries out three-dimensional parametric design on the parameters according to a background three-dimensional parametric scheme and then outputs a drawing; after the user previews the specified drawing, if the user is not satisfied, returning to the step of inputting the parameters to re-input the parameters, and if the user is satisfied, skipping to a printing or downloading interface after payment;

the implementation process of the module for designing the bill of materials to bid and quote is as follows: the user imports the design bill of materials data, and after the imported bill of materials data is adjusted, the data of maintaining the price of the materials and maintaining the process loss of the materials are simultaneously input, then a quoted bill of materials and the price are formed, the result is displayed on the client, and if the user is satisfied, the user clicks Yes and then enters the page for printing or downloading after payment; if the user is not satisfied, the step of importing the design bill of materials data is returned to for re-execution after clicking No;

the implementation process of the module for calculating the bill of materials and bidding the bid is as follows: the method comprises the steps that a user imports calculation material list data, imports component material list data at the same time, adjusts the imported material list data, simultaneously inputs maintenance material price and maintenance material process loss data to form quoted material lists and prices, displays results on a client, checks the results, and if the results are satisfied, clicks Yes and then enters payment and then prints or downloads a page; if not satisfied, click No and return to the step of importing and calculating bill of material data to carry out again;

the fault diagnosis module is realized by the following steps: a user selects a fault diagnosis button on a client to enter a fault diagnosis module to perform fault diagnosis on the current selected symptom and the lower-level symptom state of the transformer, and a symptom result can be displayed after the user confirms the symptom; if the user is not satisfied with the symptom result, the user can select a new fault on the client again to view;

the task issuing module is realized by the following steps: the user issues the task and pays the task cost required by the task issuing, and then the user enters the platform account, and selects the task order receiving type in the platform account, wherein the task order receiving type is distributed by a public library appointed expert platform; performing order grabbing when the public bank is allocated, verifying the task processing delivery after the order grabbing is successful, and entering a fund account and point interface after the user verification is confirmed;

the finite element simulation calculation module is realized by the following steps: after inputting parameters through an input port on a client, a user inputs the parameters into the finite element simulation calculation module through an API (application programming interface) of the finite element simulation calculation module, the finite element simulation calculation module performs simulation calculation according to a background simulation scheme by using the parameters, and outputs and displays a simulation result on the client to be checked by the user; after the user checks the simulation result, if the user is not satisfied with the simulation result, returning to the step of inputting parameters to re-input the parameters through an input port on the client by the user, and if the user is satisfied with the simulation result, jumping to a printing or downloading interface after payment;

the realization process of the calculation order optimization module is as follows: after inputting parameters through an input port on the client, the parameters are sent to a calculation list optimization module through an API (application program interface) of the calculation list optimization module, the calculation list optimization module performs optimization calculation by using the parameters according to a background calculation scheme, and an optimization calculation result is output and displayed on the client to be checked by a user; after a user checks specified data output by an optimization calculation result, if the user is not satisfied with the optimization calculation result, returning to the step of inputting parameters again by the user through an input port on the client, and if the user is satisfied with the optimization calculation result, jumping to a post-payment printing or downloading interface;

the implementation process of the self-service gadget is as follows: after a user inputs parameters through an input port on a client, the parameters are sent into the self-service gadget through an API (application program interface) of the self-service gadget, then a calculation result is calculated and output according to a background calculation scheme of the self-service gadget, and the calculation result is output and displayed on the client to be checked by the user; after the user views the calculation result, if the user is not satisfied with the calculation result, the user enters the parameters again, and if the user is satisfied with the calculation result, the user jumps to a post-payment printing or downloading interface.

The scheme is easy to share service in each link of design, production and sale of the transformer, convenient to manage and convenient and simple to use.

Preferably, a bill receiving and paying module is also deployed on the transformer technology service platform and comprises a mobile payment unit and a unified payment unit; the implementation process of the order receiving and payment module is as follows:

s1, after inquiring the payment book, the payer directly accesses the multi-port inquiry payment sheet of the mobile payment unit;

s2, after accessing the multi-port inquiry payment bill, the payer can access the inquiry payment bill of the unified payment unit through the multi-port inquiry payment bill of the mobile payment unit;

s3, after the payer inquires the payment bill on the unified payment unit, the unified payment unit sends the payment bill to the mobile payment unit, so that the payer obtains the payment bill information on the mobile payment unit;

s3, after the payer obtains the information of the payment bill, whether the payment is made needs to be judged;

if the payer judges that the payment is finished after obtaining the information of the payment bill, the payment is finished;

if the payer obtains the payment bill information and judges that payment is not made, the payment bill information is obtained through the mobile payment unit, and the payer sends the obtained payment bill information to the unified payment unit to generate and return the payment bill information; and the payer reconfirms the payment bill after obtaining the returned payment bill by the mobile payment unit, and jumps to the payment page of the unified payment unit to complete payment after reconfirming the payment bill, thereby completing payment.

Preferably, a credit score temporary borrowing module is also deployed on the transformer technology service platform; the credit score of the user is stored in the credit score temporary borrowing module; the credit score of a user is in direct proportion to the amount of free service contents which can be provided for the user by the transformer technology service platform, the higher the credit score of the user is, the more the user can obtain the free service contents which are provided for the user by the transformer technology service platform, and otherwise, the lower the credit score of the user is, the less the user can obtain the free service contents which are provided for the user by the transformer technology service platform;

the credit score temporary borrowing module is implemented as follows:

the users can be added to friends through the credit score temporary borrowing module, the temporary borrowing of the credit score can be carried out by the time period length set by the credit score temporary borrowing module between any two friend users added to friends, and the borrowed score is automatically returned to the borrowed user by the automatic credit score temporary borrowing module after the borrowing time is over;

the credit score of the user is obtained by the following accumulation mode:

or plus a score of the integrity of the user's registration information

Or in addition to the fraction of times the user uses the transformer technology service platform system

Or plus a score of the user's friend's goodness

Or the scores obtained by the user recommending the transformer technology service platform system to other users

Or plus the score of the number of friends added by the user

Or in addition to a fraction of the number of times users are encouraged to use the transformer technology service platform system during non-working hours

Or the score of the good friends of the user is subtracted.

The invention can achieve the following effects:

the invention is easy to share service in each link of design, production and sale of the transformer, is convenient to manage, is convenient and simple to use and has good reliability.

Drawings

Fig. 1 is a schematic view of a connection structure of the present invention.

Fig. 2 is a flow chart of the implementation process of the order receiving and payment module of the present invention.

Detailed Description

The technical scheme of the invention is further specifically described by the following embodiments and the accompanying drawings.

Example (b): a transformer technology service platform system based on the SAAS, as shown in fig. 1-2, a user registration module 1, a tag authentication module 2, a three-dimensional parametric design module 3, a design bill of materials bidding module 4, a calculation bill of materials bidding module 5, a fault diagnosis module 6, a task release module 7, a finite element simulation calculation module 8, a calculation list optimization module 9 and a self-service widget 10 are deployed on the transformer technology service platform;

the implementation process of the user registration module 1 is as follows: after a user fills in a mobile phone number and a password of user registration information through a user registration input port on a client, the user registration information is uploaded to a server of the transformer technology service platform for user registration or verification, and the user registration information is stored in a database of the transformer technology service platform;

the implementation process of the tag authentication module 2 is as follows: the method comprises the steps that a user selects label authentication on a client and fills in authentication information, the label authentication information is uploaded to a server of a transformer technology service platform for authentication, if the label authentication is successful, the label information is stored in a database of the transformer technology service platform, and if the label authentication is failed, the user is enabled to refill the label authentication information until the label authentication is successful;

the three-dimensional parameterized design module 3 is realized by the following steps: a user extracts data from the calculation sheet, the extracted data is used as input parameters, the parameters are input into the three-dimensional parametric design module through an API (application programming interface) of the three-dimensional parametric design module after being input through an input port on the client, and the three-dimensional parametric design module carries out three-dimensional parametric design on the parameters according to a background three-dimensional parametric scheme and then outputs a drawing; after the user previews the specified drawing, if the user is not satisfied, returning to the step of inputting the parameters to re-input the parameters, and if the user is satisfied, skipping to a printing or downloading interface after payment;

the implementation process of the module 4 for designing the bill of materials to bid and quote is as follows: the user imports the design bill of materials data, and after the imported bill of materials data is adjusted, the data of maintaining the price of the materials and maintaining the process loss of the materials are simultaneously input, then a quoted bill of materials and the price are formed, the result is displayed on the client, and if the user is satisfied, the user clicks Yes and then enters the page for printing or downloading after payment; if the user is not satisfied, the step of importing the design bill of materials data is returned to for re-execution after clicking No;

the implementation process of the module 5 for calculating the bill of materials and bidding the bid is as follows: the method comprises the steps that a user imports calculation material list data, imports component material list data at the same time, adjusts the imported material list data, simultaneously inputs maintenance material price and maintenance material process loss data to form quoted material lists and prices, displays results on a client, checks the results, and if the results are satisfied, clicks Yes and then enters payment and then prints or downloads a page; if not satisfied, click No and return to the step of importing and calculating bill of material data to carry out again;

the fault diagnosis module 6 is realized by the following steps: a user selects a fault diagnosis button on a client to enter a fault diagnosis module to perform fault diagnosis on the current selected symptom and the lower-level symptom state of the transformer, and a symptom result can be displayed after the user confirms the symptom; if the user is not satisfied with the symptom result, the user can select a new fault on the client again to view;

the task issuing module 7 is implemented as follows: the user issues the task and pays the task cost required by the task issuing, and then the user enters the platform account, and selects the task order receiving type in the platform account, wherein the task order receiving type is distributed by a public library appointed expert platform; performing order grabbing when the public bank is allocated, verifying the task processing delivery after the order grabbing is successful, and entering a fund account and point interface after the user verification is confirmed;

the finite element simulation calculation module 8 is realized by the following steps: after inputting parameters through an input port on a client, a user inputs the parameters into the finite element simulation calculation module through an API (application programming interface) of the finite element simulation calculation module, the finite element simulation calculation module performs simulation calculation according to a background simulation scheme by using the parameters, and outputs and displays a simulation result on the client to be checked by the user; after the user checks the simulation result, if the user is not satisfied with the simulation result, returning to the step of inputting parameters to re-input the parameters through an input port on the client by the user, and if the user is satisfied with the simulation result, jumping to a printing or downloading interface after payment;

the implementation process of the computation order optimization module 9 is as follows: after inputting parameters through an input port on the client, the parameters are sent to a calculation list optimization module through an API (application program interface) of the calculation list optimization module, the calculation list optimization module performs optimization calculation by using the parameters according to a background calculation scheme, and an optimization calculation result is output and displayed on the client to be checked by a user; after a user checks specified data output by an optimization calculation result, if the user is not satisfied with the optimization calculation result, returning to the step of inputting parameters again by the user through an input port on the client, and if the user is satisfied with the optimization calculation result, jumping to a post-payment printing or downloading interface;

the implementation process of the self-service gadget 10 is: after a user inputs parameters through an input port on a client, the parameters are sent into the self-service gadget through an API (application program interface) of the self-service gadget, then a calculation result is calculated and output according to a background calculation scheme of the self-service gadget, and the calculation result is output and displayed on the client to be checked by the user; after the user checks the calculation result, if the user is not satisfied with the calculation result, the user inputs the parameters again, and if the user is satisfied with the calculation result, the user jumps to a post-payment printing or downloading interface;

a bill receiving and paying module 11 is also deployed on the transformer technology service platform and comprises a mobile payment unit 12 and a unified payment unit 13; the order payment module 11 is implemented as follows:

s1, after inquiring the payment book, the payer directly accesses the multi-port inquiry payment sheet of the mobile payment unit;

s2, after accessing the multi-port inquiry payment bill, the payer can access the inquiry payment bill of the unified payment unit through the multi-port inquiry payment bill of the mobile payment unit;

s3, after the payer inquires the payment bill on the unified payment unit, the unified payment unit sends the payment bill to the mobile payment unit, so that the payer obtains the payment bill information on the mobile payment unit;

s3, after the payer obtains the information of the payment bill, whether the payment is made needs to be judged;

if the payer judges that the payment is finished after obtaining the information of the payment bill, the payment is finished;

if the payer obtains the payment bill information and judges that payment is not made, the payment bill information is obtained through the mobile payment unit, and the payer sends the obtained payment bill information to the unified payment unit to generate and return the payment bill information; and the payer reconfirms the payment bill after obtaining the returned payment bill by the mobile payment unit, and jumps to the payment page of the unified payment unit to complete payment after reconfirming the payment bill, thereby completing payment.

A credit score temporary borrowing module 14 is also deployed on the transformer technology service platform; the credit score of the user is stored in the credit score temporary borrowing module; the credit score of a user is in direct proportion to the amount of free service contents which can be provided for the user by the transformer technology service platform, the higher the credit score of the user is, the more the user can obtain the free service contents which are provided for the user by the transformer technology service platform, and otherwise, the lower the credit score of the user is, the less the user can obtain the free service contents which are provided for the user by the transformer technology service platform;

the credit score temporary borrowing module is implemented as follows:

the users can be added to friends through the credit score temporary borrowing module, the temporary borrowing of the credit score can be carried out by the time period length set by the credit score temporary borrowing module between any two friend users added to friends, and the borrowed score is automatically returned to the borrowed user by the automatic credit score temporary borrowing module after the borrowing time is over;

the credit score of the user is obtained by the following accumulation mode:

or plus a score of the integrity of the user's registration information

Or in addition to the fraction of times the user uses the transformer technology service platform system

Or plus a score of the user's friend's goodness

Or the scores obtained by the user recommending the transformer technology service platform system to other users

Or plus the score of the number of friends added by the user

Or in addition to a fraction of the number of times users are encouraged to use the transformer technology service platform system during non-working hours

Or the score of the good friends of the user is subtracted.

Platform management and user functions are also deployed on the transformer technology service platform;

the platform management comprises basic data, a task center, fault diagnosis, a calculation sheet, a three-dimensional drawing, finite element simulation calculation, advertisement management, system maintenance, user management, a monitoring drawing, document management and small tool management;

the basic data comprises material codes, product classifications, material classifications and a data dictionary;

the task center comprises a task list, task details, task allocation and complaint management;

the fault diagnosis comprises a problem analysis tree;

the calculation sheet comprises a calculation sheet list, a calculation sheet detail, a drawing price and calculation sheet parameter reference;

finite element simulation calculation includes

The advertisement management comprises video advertisements, link advertisements, article advertisements and list advertisements;

the system maintenance comprises system setting and integration rules;

the user management comprises user balance, user information, user labels, label audit, consumption record and cash withdrawal audit;

the monitoring graph comprises a calculation sheet, a small tool and task monitoring;

document management includes document uploading, attribute modification, and document deletion;

the self-service gadget includes a gadget list, gadget details, and gadget price.

The user functions comprise users, calculation order optimization design, three-dimensional parametric design, finite element simulation calculation, a task center, transformer faults, bid quotations, calculation order optimization design, three-dimensional parametric design, small tools and bid prices;

the user comprises user login, user registration, password recovery, a personal center, money withdrawal, user balance, money recharging and a user label, wherein the user label comprises a transformer manufacturer, a transformer expert and a power grid user;

the calculation list optimization design comprises a calculation list, input parameters, a display scheme and a production scheme;

the three-dimensional parametric design comprises a drawing list, input parameters and a display drawing;

the finite element simulation calculation comprises the steps of calculating list input parameters and calculating results;

the task center comprises a task list, question details, my question and my answer;

the transformer faults include fault lists, fault analyses and solutions.

The transformer technology service platform system realizes a transformer industry technology cloud platform with background system configuration, user-side calculation parameter self-definition and omnibearing application of a PC (personal computer) end and a mobile end (mobile phone and tablet), creates a cloud platform with first SAAS material coding, design and development, bid and quote, simulation calculation, fault diagnosis, a calculation tool kit and task release and order receiving in the transformer industry, and realizes data cloud input, calculation, output and resource sharing; the efficient sharing of resources is realized, the operation is simplified, and common personnel without design skill can complete the design and development of products on the platform; and the industrial expert resources are efficiently integrated.

The transformer sharing service system is easy to share service in each link of design, production and sale, convenient to manage and convenient and simple to use.

The embodiments of the present invention have been described above with reference to the accompanying drawings, but the implementation is not limited to the above-described embodiments, and those skilled in the art can make various changes or modifications within the scope of the appended claims.

Claims (1)

1. The transformer technology service platform system based on the SAAS is characterized in that a user registration module (1), a tag authentication module (2), a three-dimensional parameterized design module (3), a design bill of material bidding quotation module (4), a bill of material computing bidding quotation module (5), a fault diagnosis module (6), a task issuing module (7), a finite element simulation calculation module (8), a calculation list optimization module (9) and a small self-service tool (10) are deployed on a transformer technology service platform (15);

the implementation process of the user registration module (1) is as follows: after a user fills in a mobile phone number and a password of user registration information through a user registration input port on a client, the user registration information is uploaded to a server of the transformer technology service platform for user registration or verification, and the user registration information is stored in a database of the transformer technology service platform;

the implementation process of the tag authentication module (2) is as follows: the method comprises the steps that a user selects label authentication on a client and fills in authentication information, the label authentication information is uploaded to a server of a transformer technology service platform for authentication, if the label authentication is successful, the label information is stored in a database of the transformer technology service platform, and if the label authentication is failed, the user is enabled to refill the label authentication information until the label authentication is successful;

the three-dimensional parametric design module (3) is realized by the following steps: a user extracts data from the calculation sheet, the extracted data is used as input parameters, the parameters are input into the three-dimensional parametric design module through an API (application programming interface) of the three-dimensional parametric design module after being input through an input port on the client, and the three-dimensional parametric design module carries out three-dimensional parametric design on the parameters according to a background three-dimensional parametric scheme and then outputs a drawing; after the user previews the specified drawing, if the user is not satisfied, returning to the step of inputting the parameters to re-input the parameters, and if the user is satisfied, skipping to a printing or downloading interface after payment;

the implementation process of the module (4) for designing the bill of materials to bid and quote is as follows: the user imports the design bill of materials data, and after the imported bill of materials data is adjusted, the data of maintaining the price of the materials and maintaining the process loss of the materials are simultaneously input, then a quoted bill of materials and the price are formed, the result is displayed on the client, and if the user is satisfied, the user clicks Yes and then enters the page for printing or downloading after payment; if the user is not satisfied, the step of importing the design bill of materials data is returned to for re-execution after clicking No;

the implementation process of the module (5) for calculating the bill of materials and bidding the bid is as follows: the method comprises the steps that a user imports calculation material list data, imports component material list data at the same time, adjusts the imported material list data, simultaneously inputs maintenance material price and maintenance material process loss data to form quoted material lists and prices, displays results on a client, checks the results, and if the results are satisfied, clicks Yes and then enters payment and then prints or downloads a page; if not satisfied, click No and return to the step of importing and calculating bill of material data to carry out again;

the fault diagnosis module (6) is realized by the following steps: a user selects a fault diagnosis button on a client to enter a fault diagnosis module to perform fault diagnosis on the current selected symptom and the lower-level symptom state of the transformer, and a symptom result can be displayed after the user confirms the symptom; if the user is not satisfied with the symptom result, the user can select a new fault on the client again to view;

the task issuing module (7) is realized by the following steps: the user issues the task and pays the task cost required by the task issuing, and then the user enters the platform account, and selects the task order receiving type in the platform account, wherein the task order receiving type is distributed by a public library appointed expert platform; performing order grabbing when the public bank is allocated, verifying the task processing delivery after the order grabbing is successful, and entering a fund account and point interface after the user verification is confirmed;

the finite element simulation calculation module (8) is realized by the following steps: after inputting parameters through an input port on a client, a user inputs the parameters into the finite element simulation calculation module through an API (application programming interface) of the finite element simulation calculation module, the finite element simulation calculation module performs simulation calculation according to a background simulation scheme by using the parameters, and outputs and displays a simulation result on the client to be checked by the user; after the user checks the simulation result, if the user is not satisfied with the simulation result, returning to the step of inputting parameters to re-input the parameters through an input port on the client by the user, and if the user is satisfied with the simulation result, jumping to a printing or downloading interface after payment;

the realization process of the calculation list optimization module (9) is as follows: after inputting parameters through an input port on the client, the parameters are sent to a calculation list optimization module through an API (application program interface) of the calculation list optimization module, the calculation list optimization module performs optimization calculation by using the parameters according to a background calculation scheme, and an optimization calculation result is output and displayed on the client to be checked by a user; after a user checks specified data output by an optimization calculation result, if the user is not satisfied with the optimization calculation result, returning to the step of inputting parameters again by the user through an input port on the client, and if the user is satisfied with the optimization calculation result, jumping to a post-payment printing or downloading interface;

the realization process of the self-service gadget (10) is as follows: after a user inputs parameters through an input port on a client, the parameters are sent into the self-service gadget through an API (application program interface) of the self-service gadget, then a calculation result is calculated and output according to a background calculation scheme of the self-service gadget, and the calculation result is output and displayed on the client to be checked by the user; after the user checks the calculation result, if the user is not satisfied with the calculation result, the user inputs the parameters again, and if the user is satisfied with the calculation result, the user jumps to a post-payment printing or downloading interface;

a bill receiving and paying module (11) is also deployed on the transformer technology service platform and comprises a mobile payment unit (12) and a unified payment unit (13); the implementation process of the order receiving and payment module is as follows:

s1, after inquiring the payment book, the payer directly accesses the multi-port inquiry payment sheet of the mobile payment unit;

s2, after accessing the multi-port inquiry payment bill, the payer can access the inquiry payment bill of the unified payment unit through the multi-port inquiry payment bill of the mobile payment unit;

s3, after the payer inquires the payment bill on the unified payment unit, the unified payment unit sends the payment bill to the mobile payment unit, so that the payer obtains the payment bill information on the mobile payment unit;

s3, after the payer obtains the information of the payment bill, whether the payment is made needs to be judged;

if the payer judges that the payment is finished after obtaining the information of the payment bill, the payment is finished;

if the payer obtains the payment bill information and judges that payment is not made, the payment bill information is obtained through the mobile payment unit, and the payer sends the obtained payment bill information to the unified payment unit to generate and return the payment bill information; the payer confirms the payment order again after obtaining the returned payment order in the mobile payment unit, and jumps to the payment page of the unified payment unit after confirming the payment order again to finish payment, thereby completing payment;

a credit score temporary borrowing module (14) is also deployed on the transformer technology service platform; the credit score of the user is stored in the credit score temporary borrowing module; the credit score of a user is in direct proportion to the amount of free service contents which can be provided for the user by the transformer technology service platform, the higher the credit score of the user is, the more the user can obtain the free service contents which are provided for the user by the transformer technology service platform, and otherwise, the lower the credit score of the user is, the less the user can obtain the free service contents which are provided for the user by the transformer technology service platform;

the credit score temporary borrowing module is implemented as follows:

the users can be added to friends through the credit score temporary borrowing module, the temporary borrowing of the credit score can be carried out by the time period length set by the credit score temporary borrowing module between any two friend users added to friends, and the borrowed score is automatically returned to the borrowed user by the automatic credit score temporary borrowing module after the borrowing time is over;

the credit score of the user is obtained by the following accumulation mode:

or plus a score of the integrity of the user's registration information

Or in addition to the fraction of times the user uses the transformer technology service platform system

Or plus a score of the user's friend's goodness

Or the scores obtained by the user recommending the transformer technology service platform system to other users

Or plus the score of the number of friends added by the user

Or in addition to a fraction of the number of times users are encouraged to use the transformer technology service platform system during non-working hours

Or the score of the good comment times of the friends of the user is subtracted;

platform management and user functions are also deployed on the transformer technology service platform;

the platform management comprises basic data, a task center, fault diagnosis, a calculation sheet, a three-dimensional drawing, finite element simulation calculation, advertisement management, system maintenance, user management, a monitoring drawing, document management and small tool management;

the basic data comprises material codes, product classifications, material classifications and a data dictionary;

the task center comprises a task list, task details, task allocation and complaint management;

the fault diagnosis comprises a problem analysis tree;

the calculation sheet comprises a calculation sheet list, a calculation sheet detail, a drawing price and calculation sheet parameter reference;

finite element simulation calculation includes

The advertisement management comprises video advertisements, link advertisements, article advertisements and list advertisements;

the system maintenance comprises system setting and integration rules;

the user management comprises user balance, user information, user labels, label audit, consumption record and cash withdrawal audit;

the monitoring graph comprises a calculation sheet, a small tool and task monitoring;

document management includes document uploading, attribute modification, and document deletion;

the self-service gadget comprises a gadget list, gadget details and gadget price;

the user functions comprise users, calculation order optimization design, three-dimensional parametric design, finite element simulation calculation, a task center, transformer faults, bid quotations, calculation order optimization design, three-dimensional parametric design, small tools and bid prices;

the user comprises user login, user registration, password recovery, a personal center, money withdrawal, user balance, money recharging and a user label, wherein the user label comprises a transformer manufacturer, a transformer expert and a power grid user;

the calculation list optimization design comprises a calculation list, input parameters, a display scheme and a production scheme;

the three-dimensional parametric design comprises a drawing list, input parameters and a display drawing;

the finite element simulation calculation comprises the steps of calculating list input parameters and calculating results;

the task center comprises a task list, question details, my question and my answer;

the transformer faults include fault lists, fault analyses and solutions.

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