CN108492034B - Oil field oil recovery production management system - Google Patents

Abstract

The invention provides an oil field oil extraction production management system, which comprises a terminal equipment application end and a WEB application end; wherein the terminal device application end comprises: the system comprises a task allocation module, an equipment inspection module, an equipment positioning module and a process display module; the WEB application end comprises: the system comprises a system configuration management module and an inspection operation module. The technical scheme provides an oil field oil production management system, which can realize informatization, standardization and flow of basic production management and practically improve the working efficiency and quality of basic management. Meanwhile, the oil field oil extraction production management system can ensure timely and accurate reporting of problems and ensure that the reported problems are rectified and improved.

Description

Oil field oil recovery production management system

Technical Field

The invention relates to the technical field of oilfield management, in particular to an oilfield oil production management system.

Background

Oil is an irreplaceable important substance at the present stage, and therefore oil exploitation techniques and management techniques have been the focus of research. The domestic oil field production generally has the characteristics of dispersed regions, severe environment and long equipment operation time, so that regular inspection is required to report and feed back problems, and equipment maintenance is carried out according to a preset management flow.

Because the complexity of the oil exploitation equipment is extremely high, the oil exploitation equipment covers ground equipment facilities such as machinery, electric power, instruments and meters, signal transmission, pipeline flow and the like, and therefore the difficulty of fault diagnosis is higher. The existing management mode mainly depends on the regular inspection of personnel, the problem feedback means mainly depends on face-to-face communication, telephone communication, interphones and the like, and the problems of inaccurate and untimely work arrangement, problem feedback and the like exist. Meanwhile, the arrangement of the conventional work also adopts a verbal arrangement mode, and the manual recording mode of the inspection personnel is lagged behind. Because the existing data and information management modes are very lagged behind, the information transmission is not timely when the petroleum equipment is patrolled and examined.

Disclosure of Invention

Aiming at the problems in the prior art, the technical problem to be solved by the embodiment of the invention is to provide an oil field oil production management system capable of better managing and transmitting oil field data, and at least partially solve the problems in the prior art.

In order to solve the above problems, an embodiment of the present invention provides an oil field oil recovery production management system, which includes a terminal device application end and a WEB application end;

wherein the terminal device application end comprises: the system comprises a task allocation module, an equipment inspection module, an equipment positioning module and a process display module; wherein:

the task allocation module is used for automatically generating a team inspection task according to the attendance condition;

the equipment inspection module is used for acquiring daily inspection tasks for team equipment inspection personnel from a WEB application end and acquiring weekly inspection tasks for team maintenance personnel; the daily inspection task is released at regular time every day according to management configuration and is required to finish inspection on time every day; wherein the weekly check task is issued every Monday and completed within a week; wherein the equipment inspection module specifically includes:

a task start unit: the system is used for displaying a task list, a patrol working group and a task state to be patrolled; the working process comprises the following steps: the user clicks the related items in the task list, and then equipment inspection work can be started; at the moment, the system starts to collect the coordinates of the user, and when certain target equipment in the inspection task is reached, voice prompt is automatically carried out to carry out inspection work;

a problem reporting unit: the system is used for reporting the discovered equipment problems in the routing inspection process; each device corresponds to a common problem list so that an inspection worker can check the common problems, and each common problem corresponds to at least one preset detail prompting item so that the inspection worker can take pictures or correspondingly check and report problems aiming at each detail point;

a problem rectification unit: the system is used for displaying the problem correction suggestion returned by the maintenance personnel in a picture-text mode after the polling personnel reports the problems through the problem reporting process;

the equipment positioning module is used for acquiring and sending position information of terminal equipment and acquiring position information to be patrolled to detect patrolling offset distance;

the process display module is used for displaying the position of the terminal equipment in real time and identifying the state of the oilfield equipment, wherein the state is as follows: patrolling, not patrolling, rectified and rectified;

wherein the WEB application end comprises: the system comprises a system configuration management module and an inspection operation module; wherein:

a system configuration management module: the routing inspection route is used for grouping and setting equipment maintenance;

the inspection operation module: the system is used for acquiring and inspecting the states of work and problem rectification in real time and displaying the states in real time; the method specifically comprises the following steps:

the polling recording unit: the system is used for recording the inspection state, marking and displaying the inspection state and providing query;

a routing inspection problem unit: the system is used for displaying the problems of various devices reported in the routing inspection process and displaying pictures and texts;

a problem rectification unit: the problem rectification processing method is used for displaying the problem rectification condition analysis and receiving the input of maintenance personnel.

The terminal equipment application end further comprises a system login module, and the system login module is used for providing a user login interface.

The terminal equipment application end also comprises a task flow module, wherein the task flow module is used for enabling primary management personnel to issue task instructions in a targeted manner according to the routing inspection problem; the task flow module surface displays all the problems to be rectified, so that a primary manager can distribute the tasks and correspondingly display the rectifying result, the rectifying time and the rectifying operator of each problem.

Wherein, the WEB application end further comprises: the work arrangement module is used for receiving the work arrangement input by the WEB application end and sending the work arrangement to the base layer; the method specifically comprises the following steps:

daily work arrangement and entry unit: the system is used for issuing a non-inspection work task to a specified user and distributing corresponding working hours for the non-inspection work task;

equipment problem acquisition unit: the method is used for acquiring the problems of the oil field equipment found by the inspection personnel in the non-inspection task stage;

inputting a problem correcting work unit: the problem rectification processing method is used for receiving the problem rectification processing method input by a maintenance worker through a WEB end;

the appointed equipment patrols and examines the task and releases the unit: the system is used for issuing a specified equipment inspection task through a WEB end so as to set an independent inspection task outside a regular inspection task and an inspection route;

the inspection task manual release unit: the function of manually issuing the inspection task is used for modifying on the basis of automatically issuing the daily inspection task.

Wherein, the WEB application end further comprises: the comprehensive information inquiry module: the comprehensive query for providing the basic production management work for the user specifically comprises the following steps:

the routing inspection problem statistic unit: the method is used for classifying and summarizing according to equipment problems, counting the occurrence frequency of various problems and facilitating the analysis and treatment of frequent problems; the system is also used for displaying the information of problem occurrence and rectification, automatically calculating the running time of the same problem after rectification, analyzing the quality of the problem rectification according to the running time and providing quantitative analysis for the optimization of the rectification scheme;

a problem rectification measure statistic unit: the system is used for classifying and summarizing the rectification measures according to the equipment problems, and displaying the implementation condition of the rectification measures in detail and the comparison analysis before and after rectification in detail;

attendance information statistics unit: the system is used for realizing the inquiry of attendance and attendance information of workers;

a performance quantification statistic unit: the system is used for summarizing the working task time scores of the workers and realizing quantitative assessment statistics of the performance of the workers.

Wherein, the WEB application end further comprises: the comprehensive report module: and generating a report form through the received equipment inspection data and source data.

The technical scheme of the invention has the following beneficial effects: the technical scheme provides an oil field oil production management system, which can realize informatization, standardization and flow of basic production management and practically improve the working efficiency and quality of basic management. Meanwhile, the oil field oil extraction production management system can ensure timely and accurate reporting of problems and ensure that the reported problems are rectified and improved.

Drawings

FIG. 1a is a system architecture diagram of an embodiment of the present invention; FIG. 1b is a system block diagram;

FIG. 2 is a schematic diagram of an equipment routing inspection task list interface;

FIG. 3 is a schematic diagram of an equipment inspection work interface;

FIGS. 4a and 4b are schematic diagrams of a problem reporting interface;

FIG. 5a is a schematic illustration of a question list interface; FIG. 5b is a schematic illustration of a rectification scheme interface for a single question;

FIGS. 6a and 6b are schematic diagrams of a task flow module;

FIG. 7 is a schematic diagram of a process presentation module;

FIG. 8 is a schematic diagram of a WEB application side interface;

FIGS. 9a and 9b are schematic views of a daily schedule and entry unit interface;

FIG. 10 is a schematic view of an equipment problem acquisition unit interface;

FIG. 11 is a schematic diagram of a logging problem rectification work cell;

fig. 12 is a schematic diagram of a routing inspection task issuing unit of the specified device;

fig. 13 is a schematic diagram of the patrol task manual issuing unit.

Detailed Description

In order to make the technical problems, technical solutions and advantages of the present invention more apparent, the following detailed description is given with reference to the accompanying drawings and specific embodiments.

Specifically, as shown in fig. 1a and fig. 1b, an embodiment of the present invention provides an oil field oil recovery production management system, where a system architecture of the system adopts a standard distributed architecture, and the system architecture includes: a data layer, a business layer, a WEB application layer and a mobile application layer; the mobile application layer establishes a data link with the service layer through a mobile interconnection technology, and provides an interface and operation navigation service for a mobile terminal user; the WEB application layer is used for providing an interface and operating navigation service for a management user; the service layer is used for realizing specific service flow, task distribution and message pushing; the data layer is used for integrated storage of data; the loose coupling mode is adopted among the layers and among the modules, so that the system provided by the embodiment of the invention has good usability and expansibility.

The overall technical route developed by the system is as follows: according to the system construction, according to different levels of user requirements and operating environments, an appropriate and effective data model is established according to an object-oriented design idea, a WEB side adopts a Java development framework B/S mode for development and design, a mobile APP side adopts an Android system framework for development and design, a GPS map real-time information display adopts an ARCGIS platform, the system structure is clear, each module is convenient to deploy, the system framework is stable, and the field application requirements can be met.

First, system performance

The system 1.1 has good fault-tolerant capability, certain I/O throughput capability and network bandwidth, and can carry out fault-tolerant processing when the mobile network is unstable, so that data errors or loss are avoided.

1.2, the security and confidentiality require that the software has a user and password secondary security authentication login mechanism and is not physically connected with an external network, so that the security and the reliability of a data link are ensured.

1.3 maintainability, the system requires to adopt a unified platform for integrated management, the design and development need to follow the established technical line of the project, the consistency of the technical standard is kept, and the higher maintainability of the system is realized.

1.4, the reliability is that a mature and stable technology is adopted in the system development process, the operation stability is improved, and the high availability of the system is ensured.

2. Development tool

The database adopts an ORACLE 11 database system, authorized users of different levels are configured as required, and the data security is ensured; meanwhile, a set of synchronous development database is configured, so that developers can use the latest synchronous data in the system debugging process, and the influence of the debugging process on the operation of a formal system can be avoided.

The operating system of the Server is Windows2008 Server, the dual core CPU main frequency is 2.83G, and the memory is 32G.

A WEB client: WinXP, version above Win7+ IE9.0 or Chrome Google browser.

The mobile intelligent terminal comprises: a GPS global satellite positioning module is required to be built in, a 3G data network is supported, a camera is provided for shooting, an operating system is more than android4.0, and the system has certain dustproof, shockproof and waterproof capabilities so as to adapt to the complex outdoor working condition environment.

Second, concrete application example

1. APP application of terminal equipment

This application is installed on smart mobile phone, is patrolled and examined and equipment maintenance personnel by the scene hold, and its using-way is as follows:

1.1 system login module: the user logs in by adopting an account number uniformly distributed by a medium petrochemical industry so as to ensure the uniqueness of login authority;

1.2 task allocation module: the system automatically generates a team inspection task according to the attendance condition after signing in;

1.3 equipment inspection module: the team equipment inspection personnel can obtain the daily inspection task of the equipment from the equipment inspection module, and the team maintenance personnel can obtain the weekly inspection task of the equipment. Wherein, the daily inspection task is released at regular time according to the management configuration, and the inspection is completed on time; weekly check tasks are issued every monday and need to be completed before the next monday. The interface is as follows, and equipment inspection can be started by clicking the tasks in the list.

(1) A task start unit:

the equipment inspection task list interface can be as shown in fig. 2 and is used for displaying an inspection task list, an inspection workgroup and a task state (whether a new task is available or not); the working process is as follows: the user clicks the related items in the task list, and then equipment inspection work can be started; at the moment, the system starts to follow the collected user coordinates, and when a certain target device in the inspection task is reached, voice prompt is automatically carried out to carry out inspection work.

The equipment inspection work interface can be as shown in fig. 3 and is used for displaying the equipment number and the completion degree which need to be inspected.

(2) A problem reporting unit:

if the equipment is found to have problems in the routing inspection process, clicking a problem button in an equipment routing inspection working interface shown in figure 3 to report; then the user selects the corresponding equipment problem shooting picture according to the system prompt and reports the picture, the system automatically selects the corresponding rectification scheme according to the difference of the problems, and starts the problem rectification flow. The interfaces of the problem reporting process are shown in fig. 4a and 4 b. Wherein a list is given for each device's common question for ease of selection, as shown in figure 4 a; as shown in fig. 4b, a plurality of minutiae points may be set in a problem to remind the inspection staff to take a picture or to perform corresponding inspection and problem reporting for each minutiae point.

(3) A problem rectification unit: after the polling personnel report the problems through the problem reporting process, the polling personnel need to flow to a maintenance post in real time in a message pushing and distributing mode, and the problems of the equipment are displayed in a picture and text mode, so that the maintenance personnel can conveniently carry out problem rectification and modification work. Fig. 5a and 5b are problem rectification interfaces, in which a list of problems is shown in fig. 5a and in fig. 5b a rectification scheme for a single problem is entered by a serviceman at a service station.

1.4 task flow module: the module issues a task instruction in a targeted manner aiming at the inspection problem through basic level management personnel; the specific interface is as shown in fig. 6a and fig. 6b, and the interface displays all the problems to be rectified, so that the base layer manager can conveniently perform task allocation, and the information of the rectification result, the rectification time, the rectification operator and the like of each problem can be listed one by one correspondingly.

1.5 device location module: the system is used for displaying the positioning information of the equipment, so that the local side can acquire the position information of the oilfield equipment and the terminal equipment of the patrol personnel in real time. The management personnel can obtain the position parameters of the oilfield equipment to be inspected according to the positioning data of the oilfield equipment so as to work out the optimal inspection route; meanwhile, the position information of the terminal equipment of the inspection personnel can be acquired so as to ensure that the inspection offset distance can be determined according to the coordinates of the oilfield equipment during inspection work, and data support is provided for inspection and examination.

1.6 Process demonstration Module: the inspection progress display module displays the inspection progress condition of the current unit in real time by applying a GIS (geographic information system), and visually displays the inspected, unapatrolled, rectified and unmodified equipment by using icons with different colors. The interface of the process presentation module can be as shown in FIG. 7.

WEB applications

The WEB application end mainly provides operation for each level of management users, and mainly displays information such as menu navigation, login, inspection progress, work task completion condition and the like. The interface of the WEB application program may be as shown in fig. 8, and it may load different modules according to their posts and rights after the manager logs in; the method specifically comprises the following steps:

the management area application post: the system is mainly responsible for setting the unified inspection standard and issuing work arrangement.

Cadre post of base course team: the system is mainly responsible for issuing work arrangement, and system configuration work such as subordinate mechanism configuration, equipment group, inspection task configuration and the like of the unit.

The team leader station: the method is mainly responsible for base layer management work such as work arrangement, workload management and the like.

And (3) inspection post: the system is mainly responsible for completing the routing inspection task and reporting the problems found in the routing inspection process in time.

Maintenance post: the system is mainly responsible for analyzing problems, formulating and finishing the rectification work.

2.1 system configuration management module: the system is used for providing a work task configuration function of the injection and collection station, routing inspection lines are established by maintaining and grouping equipment, personnel groups and line groups are associated to achieve division of routing inspection tasks, and the time arrangement is set to provide a more flexible routing inspection task issuing combination for each unit.

2.2 routing inspection operation module: the cadre accessible of basic unit team is patrolled and examined operation module and is mastered in real time and patrol and examine work and problem rectification behavior, specifically includes:

(1) the polling recording unit: the system is used for providing inquiry polling records, providing penetration display of polling detailed information and distinguishing whether a task is completed or not by using colors;

(2) a routing inspection problem unit: the system is used for displaying various equipment problems reported in the routing inspection process, and displaying the image-text details of the problems and recording the problem rectification condition;

(3) and the problem rectification unit is used for displaying the problem rectification condition analysis and the problem rectification information input function of the WEB side.

2.3 work arrangement module: the system is used for realizing the on-line circulation of basic level management work tasks, and managers can issue different basic level work tasks according to requirements; the method specifically comprises the following steps:

(1) daily work arrangement and entry unit: the system is used for issuing a non-inspection work task to a designated worker and distributing corresponding working hours for the designated worker; the interface is shown in fig. 9a and 9 b;

(2) equipment problem acquisition unit: the method is used for acquiring the problems of the oil field equipment found by the inspection personnel in the non-inspection task stage; the interface is shown in FIG. 10;

(3) inputting a problem correcting work unit: the interface is shown in fig. 11 and is used for providing a WEB-side entry problem rectification work function;

(4) the appointed equipment patrols and examines the task and releases the unit: the system is used for issuing a specific equipment inspection task through a WEB end so as to set an independent inspection task outside a regular inspection task and an inspection route; the interface is shown in fig. 12;

(5) the inspection task manual release unit: the system is used for realizing the function of manually issuing the inspection task on the basis of automatically issuing the daily inspection task, so that the management layer can increase the inspection density under certain conditions and ensure the normal operation of equipment; the interface is shown in FIG. 13;

2.4 integrated information query module: the comprehensive query for providing the basic production management work for the user specifically comprises the following steps:

(1) the inspection problem statistic unit is used for classifying and summarizing according to the equipment problems, counting the occurrence frequency of various problems and facilitating the analysis and treatment of frequent problems; the system is also used for displaying the information of problem occurrence and rectification, automatically calculating the running time of the same problem after rectification, analyzing the quality of the problem rectification according to the running time and providing quantitative analysis for the optimization of the rectification scheme;

(2) the problem rectification measure statistical unit is used for classifying and summarizing according to the equipment problem rectification measures, and displaying the implementation condition of the rectification measures in detail and the comparison analysis before and after rectification;

(3) the attendance information statistics unit is used for realizing the inquiry of attendance and attendance information of workers;

(4) the performance quantitative statistic unit is used for summarizing the working time scores of the work tasks of the workers and realizing quantitative assessment and statistics of the performance of the workers;

2.5 comprehensive report module: the method is used for polling data and source data through the carding equipment, the E-type of the manual reports of 5 basic-level teams and groups is realized, and the data acquisition workload of basic-level workers is greatly reduced.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (6)

1. The oil field oil extraction production management system is characterized by comprising a terminal equipment application end and a WEB application end;

wherein the terminal device application end comprises: the system comprises a task allocation module, an equipment inspection module, an equipment positioning module and a process display module; wherein:

the task allocation module is used for automatically generating a team inspection task according to the attendance condition;

the equipment inspection module is used for acquiring daily inspection tasks for team equipment inspection personnel from a WEB application end and acquiring weekly inspection tasks for team maintenance personnel; the daily inspection task is released at regular time every day according to management configuration and is required to finish inspection on time every day; wherein the weekly check task is issued every Monday and completed within a week; wherein the equipment inspection module specifically includes:

a task start unit: the system is used for displaying a task list, a patrol working group and a task state to be patrolled; the working process comprises the following steps: the user clicks the related items in the task list, and then equipment inspection work can be started; at the moment, the system starts to collect the coordinates of the user, and when certain target equipment in the inspection task is reached, voice prompt is automatically carried out to carry out inspection work;

a problem reporting unit: the system is used for reporting the discovered equipment problems in the routing inspection process; each device corresponds to a common problem list so that an inspection worker can check the common problems, and each common problem corresponds to at least one preset detail prompting item so that the inspection worker can take pictures or correspondingly check and report problems aiming at each detail point; wherein a list is given for each device's common questions to facilitate selection; setting a plurality of minutiae in one problem to remind inspection personnel to take pictures or correspondingly inspect and report problems aiming at each minutia;

a problem rectification unit: the system is used for displaying the problem correction suggestion returned by the maintenance personnel in a picture-text mode after the polling personnel reports the problems through the problem reporting process;

the equipment positioning module is used for acquiring and sending position information of terminal equipment and acquiring position information to be patrolled to detect patrolling offset distance;

the process display module is used for displaying the position of the terminal equipment in real time and identifying the state of the oilfield equipment, wherein the state is as follows: patrolling, not patrolling, rectified and rectified;

wherein the WEB application end comprises: the system comprises a system configuration management module and an inspection operation module; wherein:

a system configuration management module: the routing inspection route is used for grouping and setting equipment maintenance;

the inspection operation module: the system is used for acquiring and inspecting the states of work and problem rectification in real time and displaying the states in real time; the method specifically comprises the following steps:

the polling recording unit: the system is used for recording the inspection state, marking and displaying the inspection state and providing query;

a routing inspection problem unit: the system is used for displaying the problems of various devices reported in the routing inspection process and displaying pictures and texts;

a problem rectification unit: the problem rectification processing method is used for displaying the problem rectification condition analysis and receiving the input of maintenance personnel.

2. The oilfield oil recovery production management system of claim 1, wherein the end device application further comprises a system login module, and the system login module is configured to provide a user login interface.

3. The oil field oil recovery production management system according to claim 1, wherein the terminal device application end further comprises a task flow module, and the task flow module is used for enabling a primary management staff to issue task instructions in a targeted manner according to the routing inspection problem; the task flow module surface displays all the problems to be rectified, so that a primary manager can distribute the tasks and correspondingly display the rectifying result, the rectifying time and the rectifying operator of each problem.

4. The oil field oil recovery production management system according to claim 1, wherein the WEB application further comprises: the work arrangement module is used for receiving the work arrangement input by the WEB application end and sending the work arrangement to the base layer; the method specifically comprises the following steps:

daily work arrangement and entry unit: the system is used for issuing a non-inspection work task to a specified user and distributing corresponding working hours for the non-inspection work task;

equipment problem acquisition unit: the method is used for acquiring the problems of the oil field equipment found by the inspection personnel in the non-inspection task stage;

inputting a problem correcting work unit: the problem rectification processing method is used for receiving the problem rectification processing method input by a maintenance worker through a WEB end;

the appointed equipment patrols and examines the task and releases the unit: the system is used for issuing a specified equipment inspection task through a WEB end so as to set an independent inspection task outside a regular inspection task and an inspection route;

the inspection task manual release unit: the function of manually issuing the inspection task is used for modifying on the basis of automatically issuing the daily inspection task.

5. The oil field oil recovery production management system according to claim 1, wherein the WEB application further comprises: the comprehensive information inquiry module: the comprehensive query for providing the basic production management work for the user specifically comprises the following steps:

the routing inspection problem statistic unit: the method is used for classifying and summarizing according to equipment problems, counting the occurrence frequency of various problems and facilitating the analysis and treatment of frequent problems; the system is also used for displaying the information of problem occurrence and rectification, automatically calculating the running time of the same problem after rectification, analyzing the quality of the problem rectification according to the running time and providing quantitative analysis for the optimization of the rectification scheme;

a problem rectification measure statistic unit: the system is used for classifying and summarizing the rectification measures according to the equipment problems, and displaying the implementation condition of the rectification measures in detail and the comparison analysis before and after rectification in detail;

attendance information statistics unit: the system is used for realizing the inquiry of attendance and attendance information of workers;

a performance quantification statistic unit: the system is used for summarizing the working task time scores of the workers and realizing quantitative assessment statistics of the performance of the workers.

6. The oil field oil recovery production management system according to claim 1, wherein the WEB application further comprises: the comprehensive report module: and generating a report form through the received equipment inspection data and source data.

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