Disclosure of Invention
The embodiment of the invention aims to provide a mobile-end-based oil depot management system, which is not limited to an upper system of a central control room for management of whole oil depot information, application request data can be generated by a mobile end according to operation of a user, a server can provide corresponding service support for the user through the application request data, flexibility of oil depot information management is improved, and timeliness and safety of data management are improved. And meanwhile, service support of corresponding authorities can be provided for users with different set authorities, and the effects of scattered terminal and information centralized processing at all levels are realized.
In order to achieve the above object, an embodiment of the present invention provides an oil depot management system based on a mobile terminal, the system including:
the mobile terminal generates application request data according to user operation and sends the application request data to the server;
the control server is arranged at the server and is used for receiving the application request data sent by the mobile terminal, matching corresponding flow modules according to the application request data and forwarding task information to the matched flow modules;
the flow module group is arranged at the server and is used for receiving the task information and sending feedback information to the mobile terminal aiming at the task information;
wherein the application request data includes one or more of: user registration, logging in the system, user setting authority and the task information;
the task information includes one of: inquiring control instructions, business handling requests, inspection operation information and construction approval instructions.
Optionally, the flow module group includes:
the management layer module is used for receiving the inquiry control instruction sent by a manager through the mobile terminal and providing dynamic data of oil depot operation through the mobile terminal according to the control instruction;
wherein the reservoir operation dynamic data comprises:
real-time data collected by a field bottom layer system of the oil depot; and/or
Background data collected by the MES system of the oil depot.
Optionally, the real-time data includes one or more of:
oil payment information, tank storage information, video monitoring information, combustible gas alarm information, perimeter precaution information and electronic patrol information;
the background data includes one or more of: and (5) a stock-in and stock-out report form and stock-in and stock-out statistical information of the oil depot.
Optionally, the flow module group further includes:
the client layer module is connected with the MES system and/or the ERP system of the oil depot and is used for receiving the business handling request sent by a client through the mobile terminal, sending the business handling request to the corresponding system in the MES system and/or the ERP system of the oil depot and providing corresponding remote business handling according to the feedback information of the MES system and/or the ERP system of the oil depot;
wherein the remote business transaction includes one or more of: automatic queuing, remote ordering and oil depot oil information inquiry.
Optionally, the flow module group further includes:
and the operation layer module is connected with the MES system and is used for receiving the inspection operation information of the oil depot equipment, which is sent by the oil depot operator through the mobile terminal, and sending the inspection operation information to the MES system so as to update inspection data.
Optionally, the flow module group further includes:
and the construction layer module is used for providing a construction operation site approval table, receiving the construction approval instruction sent by a construction manager through the mobile terminal aiming at the construction site approval table, and carrying out electronic archiving on the log.
Through the technical scheme, the mobile terminal generates application request data according to the operation of a user, the application request data is sent to the control server, and the control server matches corresponding flow modules according to the application request data generated by the mobile terminal and forwards task information to the matched flow modules. Wherein, the user can register the oil depot management system through the mobile terminal. The control server matches the corresponding flow module according to the set authority of the user. The user logs in the system according to the client of the matched flow module, the mobile terminal sends the required service request (task information) to the control server, the control server sends the task information to the matched flow module of the user, and the flow module sends feedback information to the mobile terminal according to the task information to complete the service request of the user. The task information includes one of: inquiring control instructions, business handling requests, inspection operation information and construction approval instructions. The system is not limited to an upper system of a central control room aiming at the management of the whole oil depot information, application request data can be generated by a mobile terminal according to the operation of a user, and a server side can provide corresponding service support for the user through the application request data, so that the flexibility of the oil depot information management and the timeliness and safety of the data management are improved. And meanwhile, service support of corresponding authorities can be provided for users with different set authorities, and the effects of scattered terminal and information centralized processing at all levels are realized.
Additional features and advantages of embodiments of the invention will be set forth in the detailed description which follows.
Detailed Description
The following describes the detailed implementation of the embodiments of the present invention with reference to the drawings. It should be understood that the detailed description and specific examples, while indicating and illustrating the invention, are not intended to limit the invention.
In the embodiments of the present invention, unless otherwise indicated, terms of orientation such as "upper, lower, left, right", "inner, outer", "far, near" and the like are used in the direction of the drawings and are therefore used for the purpose of illustration and not for the purpose of limiting the invention.
Fig. 1 shows a basic structural schematic diagram of an oil depot management system based on a mobile terminal according to an embodiment of the present invention, and as shown in fig. 1, the system may include: the mobile terminal, the control server and the flow module group; specifically, the mobile terminal may generate application request data according to a user operation, and send the application request data to the server. Wherein the application request data includes one or more of: user registration, login system, user set authority and the task information. The mobile terminal can generate user registration request information according to the operation of a new user on the client terminal, and send the user registration request information to the control server, and the control server responds according to the user registration request information of the user and sends feedback information to the mobile terminal, namely, sends a user registration result to the mobile terminal to be displayed to the user. The registered user can send a login system request through the mobile terminal, the mobile terminal generates corresponding login system request information according to the operation of the user and sends the login system request information to the control server, the control server verifies the identity information of the user requesting the login system, and the control server sends the response of the control server to the login system requesting this time to the mobile terminal according to the verification result. After the user setting rights are sent to the control server, the mode of matching the flow module can be determined according to the number of the user containing the setting rights; specifically, according to the number of set permissions contained by the user, the matching operation of the flow module may be performed through the following different operations:
1. under the condition that the user only contains one set authority, the set authority of the user can be filled in the user identity information when a new user registers the user, in this case, when the user logs in the system, the mobile terminal sends the identity verification information to the control server, the control server identifies the set authority of the user while carrying out identity verification, and the flow module is matched for the user according to the identified set authority.
2. When the user has multiple setting authorities, the user logs in the system request through the mobile terminal, the mobile terminal sends the user authentication information to the control server according to the operation of the user, and the control server can recognize that the user has multiple setting authorities and then receive the setting authorities selected by the user and match the flow module for the user according to the received selected setting authorities.
After the process module matching is completed, a user can log in the system through the matched process module, and send a required service request (task information) to the control server through the operation mobile terminal, the control server sends the task information to the process module matched with the user, and the process module sends feedback information to the mobile terminal according to the task information to complete the service request of the user. The task information includes one of: inquiring control instructions, business handling requests, inspection operation information and construction approval instructions.
Fig. 2 is a schematic structural diagram of a flow module group provided by the embodiment of the present invention, where as shown in fig. 2, the flow module group may include a management layer module, configured to receive the query control instruction sent by a manager through a mobile terminal, and provide, according to the control instruction, oil depot operation dynamic data through the mobile terminal. When the control server performs identity verification on a user and simultaneously recognizes that the set authority of the user is a manager or that the plurality of set authorities contained in the user include the manager, and the user selects the set authority of the current operation as the manager, the flow module matched by the control server for the user is a management layer module. The user (manager) logs in the management layer client through the mobile terminal, so as to manage the oil depot; specifically, the management layer module can provide running dynamic data of the oil depot according to a query control instruction sent by a manager through the mobile terminal. The dynamic data of the oil depot operation comprises real-time data collected by an oil depot bottom layer system and/or background data collected by an oil depot MES system. The real-time data comprise oil payment information, tank storage information, video monitoring information, combustible gas alarm information, perimeter precaution information and electronic patrol information in the aspect of business, and one or more of the real-time data can be sent to the mobile terminal for being provided for the manager to check according to the requirements of the manager. The background data comprises a stock-in and stock-out report form and stock-in and stock-out statistical information of the oil depot, and one or more of the background data can be sent to the mobile terminal for being checked by a manager according to the requirement of the manager. The manager logs in the management layer client through the mobile terminal, so that the operation dynamics and the data result of the oil depot can be mastered at any time, and the dynamic and transparent management of the oil depot is realized.
As shown in fig. 2, the flow module group may further include a client layer module, where the client layer module is connected to the interface of the MES system and/or the ERP system of the oil depot, and is configured to receive the service handling request sent by the client through the mobile terminal, send the service handling request to a corresponding system in the MES system and/or the ERP system of the oil depot, and provide corresponding remote service handling according to feedback information of the MES system and/or the ERP system of the oil depot. When the control server performs identity verification on a user and simultaneously recognizes that the set authority of the user is a client or that a plurality of set authorities contained in the user include the client, and the user selects the set authority of the current operation as the client, the flow module matched by the control server for the user is a client layer module. The user (client) logs in the client layer client through the mobile terminal, so as to conduct remote business handling; specifically, the MES system finishes the operations of registering, checking and binding the customer information of the customer, and the customer layer module can send the business handling request sent by the customer through the mobile terminal to the corresponding system in the MES system and/or the ERP system of the oil depot and provide corresponding remote business handling according to the feedback information of the MES system and/or the ERP system of the oil depot. Remote business processes may include automatic queuing, remote ordering, and oil depot sending and receiving oil information queries. The client can realize autonomous handling and automatic queuing of remote service by logging in the client layer client at the mobile terminal, so that the service handling efficiency of the client is higher and the traffic pressure is correspondingly relieved.
As shown in fig. 2, the flow module group may further include an operation layer module, where the operation layer module is connected to the MES system, and is configured to receive the inspection job information about the oil depot device sent by the oil depot operator through the mobile terminal, and send the inspection job information to the MES system to update inspection data. When the control server performs identity verification on a user and simultaneously identifies that the setting authority of the user is an oil depot basic level operator or that the plurality of setting authorities contained in the user comprise the oil depot basic level operator, and the user selects the setting authority of the current operation as the oil depot basic level operator, a flow module matched with the control server for the user is an operation layer module. According to a routing inspection scheme preset by an MES system, an oil depot base layer operator performs online routing inspection on oil depot equipment after logging in an operation layer client at a mobile terminal, so that the routing inspection data is managed online, and the oil depot base layer operator uploads corresponding routing inspection results obtained according to the routing inspection scheme to the MES system to update the routing inspection data. The system can also realize the functions of personnel positioning, track tracking and the like, and is convenient for the system to record the work of the oil depot base personnel.
As shown in fig. 2, the flow module group may further include a construction layer module, where the construction layer module is configured to provide a construction job site approval table, receive a construction administrator, send the construction approval instruction to the construction job site approval table through a mobile terminal, and electronically archive a log. When the control server performs identity verification on a user and simultaneously identifies that the set authority of the user is the oil depot construction manager or the plurality of set authorities contained in the user comprise the oil depot construction manager, and the user selects the set authority of the operation to be the oil depot construction manager, a flow module matched with the control server for the user is a construction layer module. The oil depot construction manager logs in the construction layer client through the mobile terminal, sends a construction approval instruction to the control server through the mobile terminal aiming at the construction operation site approval table, and carries out corresponding log electronic archiving and recording of the running state and approval record of each part of the construction site.
Fig. 3 shows a logic architecture of the mobile-end-based oil depot management system according to the embodiment of the present invention, and as shown in fig. 3, the logic architecture may be divided into the following 4 parts: the system comprises a bottom layer device part, a data acquisition part, a model realization part and an APP application part. Wherein, the bottom layer equipment part provides system operation dynamic data for other systems in the oil depot aiming at corresponding services, and the other systems can comprise: the system comprises a one-card loading system, an automatic metering system, an oil product moving system, an intelligent security system, a fire-fighting automation system and an intelligent wireless system. Specifically, the all-purpose card loading system, the automatic metering system and the oil product moving system cooperate to operate and provide corresponding statistical information of oil payment information, tank storage information, in-and-out storage reports and in-and-out storage statistics of an oil depot. The intelligent security system provides video monitoring information in security monitoring. The fire-fighting automation system provides a combustible gas alarm prompt. The intelligent wireless system can provide a wireless transmission channel for data transmission in an oil depot. The data acquisition part can respectively acquire the running dynamic data of each system in the corresponding oil warehouse provided by the bottom equipment and the corresponding data uploaded to the MES system by a user holding the mobile terminal in the oil warehouse through operating the mobile terminal through the SCADA monitoring system and the MES management system in the oil warehouse. The APP application part can provide functional applications of business handling, remote monitoring, inspection operation and construction management. Specifically, the APP provides a corresponding function application by receiving application request data generated by a user operating the mobile terminal. The model realization part refers to the comprehensive experience database for data modeling and analysis according to the corresponding function request of the APP part, and the data acquisition part can provide corresponding data for model calculation and analysis.
Fig. 4 shows an APP modeling system of a mobile-end-based oil depot management system according to an embodiment of the present invention, and as shown in fig. 4, a model implementation part in a logic architecture of the oil depot management system performs corresponding data intervention, modeling and data analysis through the APP modeling system. The data source connected in the data intervention system is connected with the following interface data besides the SCADA monitoring system and the MES management system in the oil depot connected with the data acquisition part: ERP system, logistics system, LIMS data and lead sealing data. The method comprises the steps of acquiring internal management data of an oil reservoir through an ERP system, acquiring logistics data of the oil reservoir through a logistics system, acquiring quality detection data of an oil production process through LIMS data, and acquiring lead sealing state data of the oil product in a transportation process through lead sealing data. The data access system may also obtain usage data of the user IC card to update the user IC card data in the system. The data acquired in the data intervention system are subjected to the same data storage and data sharing service, the data acquired by each interface are subjected to data specification after the data acquisition, and are stored in a unified standard, so that the subsequent data calculation is convenient, and the operation of conversion among different units of the same type of data is avoided. And the data stored by the unified standard can be fused, aggregated, classified, filtered and the like. According to application request data sent by a user through a mobile terminal APP, the data platform can establish a corresponding model according to different requests to respond to the user request. Wherein the model may include one or more of: this is a model, predictive model, trend model, and computational model. The model can perform data analysis by combining corresponding data provided by the data acquisition layer with corresponding data in a pre-stored comprehensive experience database, and feed back a request of a user, so that functional service is provided on a corresponding client matched according to the set authority of the user. Specifically, the corresponding client matched according to the user's set authority may provide one or more of the following functional services: auxiliary decision making, diagnosis, overall planning, commanding, scheduling, decision making, intelligent analysis, index analysis, trend analysis, calculation analysis, multidimensional analysis and report analysis.
The foregoing details of the optional implementation of the embodiment of the present invention have been described in detail with reference to the accompanying drawings, but the embodiment of the present invention is not limited to the specific details of the foregoing implementation, and various simple modifications may be made to the technical solution of the embodiment of the present invention within the scope of the technical concept of the embodiment of the present invention, and these simple modifications all fall within the protection scope of the embodiment of the present invention.
In addition, the specific features described in the above embodiments may be combined in any suitable manner without contradiction. In order to avoid unnecessary repetition, various possible combinations of embodiments of the present invention are not described in detail.
Those skilled in the art will appreciate that all or part of the steps in implementing the methods of the embodiments described above may be implemented by a program stored in a storage medium, including instructions for causing a single-chip microcomputer, chip or processor (processor) to perform all or part of the steps of the methods described in the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), a magnetic disk, or an optical disk, or other various media capable of storing program codes.
In addition, any combination of various embodiments of the present invention may be performed, so long as the concept of the embodiments of the present invention is not violated, and the disclosure of the embodiments of the present invention should also be considered.