CN110378802A - A kind of water power fortune inspection management system and method - Google Patents

Abstract

Translated fromChinese

本发明提供一种水电运检管理系统及方法，包括：数据采集模块、数据处理模块、实时分析模块、应用服务模块；数据采集模块，用于接收设备的运行数据，并将接收到的设备的运行数据存储到数据库服务器中；数据处理模块，用于对设备的运行数据进行分析，以生成预设格式的分析数据；其中所述分析数据包括以下的至少一种：告警数据、评价数据、历史评价数据、预测信息数据、统计信息数据、现场计划数据；实时分析模块，用于对数据处理模块中产生的预设的分析数据进行汇总，以得到预设主题的数据集，并对所述预设主题的数据集进行统计分析和汇总；其中所述预设主题的数据集包括以下的至少一种：设备数据集、运行数据集、缺陷数据集。

The invention provides a water and electricity inspection management system and method, comprising: a data acquisition module, a data processing module, a real-time analysis module, and an application service module; The operation data is stored in the database server; the data processing module is used to analyze the operation data of the device to generate analysis data in a preset format; wherein the analysis data includes at least one of the following: alarm data, evaluation data, history Evaluation data, forecast information data, statistical information data, and on-site planning data; a real-time analysis module is used to summarize the preset analysis data generated in the data processing module to obtain a data set of preset themes, and analyze the preset data sets. Statistical analysis and summarization are performed on a dataset of a theme; wherein the dataset of a preset theme includes at least one of the following: a device dataset, an operation dataset, and a defect dataset.

Description

Translated fromChinese

一种水电运检管理系统及方法A hydropower transportation inspection management system and method

技术领域technical field

本发明属于数据处理技术领域，特别是以抽水蓄能电厂、常规水电等发电企业的设备运行历史、台帐为基础，并以设备运行、维护、检修和试验的全过程管理为主线，两票三制为支撑，按照隐患分析、缺陷处理、水工管理、计划检修、点检定修、预防性维修、预测性维修模式运检管理领域的运检管理系统。The invention belongs to the technical field of data processing, and is especially based on the equipment operation history and accounting of power generation enterprises such as pumped storage power plants and conventional hydropower, and takes the whole process management of equipment operation, maintenance, repair and test as the main line. Supported by the three systems, it is an operation inspection management system in the field of operation inspection management in accordance with hidden danger analysis, defect treatment, hydraulic management, planned maintenance, spot inspection and regular repair, preventive maintenance, and predictive maintenance.

背景技术Background technique

随着电力市场的深入持续发展，尤其是水电行业的蓬勃发展，国内外的发电集团的业务发展模式也正在向一体化、集约化、精益化趋势方向发展，以实现规模化的成本优势，提高企业竞争力。随着技术进步和应用的逐步成熟，整合相互独立运行的生产实时信息系统和生产管理信息系统，形成(管控)一体化的运检管理系统已成为发展趋势。欧美大型发电集团已有许多管控一体化系统成功的案例，如法国EDF、德国的E-ON Power&Gas，美国的Pacific Gas and Electrics(PG&E)等众多发电集团已先后在原有的基础上整合形成或新建了管控一体化的运检管理系统，为提高盈利能力，提升企业竞争力提供了一个有效的手段。为了提升对企业集约化、规范化和精益化管理的支撑能力，可以通过信息化支撑集约化管理，再通过集约化管理提升集团核心竞争力，最终实现信息化对集团战略的服务和支持因此，水电行业管理系统的建设，必须进行整体规划，形成一体化解决方案，同时也满足作为集团公司对多种和多个电厂进行生产集团化管理的业务需求。为加强水电厂运检管理工作，全面提升公司运检管理水平，支撑公司科技进步和电网发展，结合水电建设、运行管理需要，开展水电运检管理系统建设工作，逐步形成了水电行业一体化、大集中水电运检管理信息系统。为确保电网安全、稳定、经济运行以及企业健康、平稳、持续发展提供了技术基础保障。With the in-depth and sustainable development of the power market, especially the vigorous development of the hydropower industry, the business development models of power generation groups at home and abroad are also developing in the direction of integration, intensification, and leanness, in order to achieve large-scale cost advantages and improve Company competitiveness. With the advancement of technology and the gradual maturity of applications, it has become a development trend to integrate the production real-time information system and production management information system that operate independently of each other to form an integrated (control) inspection management system. Large-scale power generation groups in Europe and the United States have many successful cases of integrated management and control systems, such as EDF in France, E-ON Power&Gas in Germany, Pacific Gas and Electrics (PG&E) in the United States, and many other power generation groups have been integrated on the original basis. The integrated management and control inspection management system provides an effective means to improve profitability and enhance the competitiveness of enterprises. In order to improve the ability to support the intensive, standardized and lean management of enterprises, we can support intensive management through informatization, and then enhance the core competitiveness of the group through intensive management, and finally realize the service and support of the group strategy through informatization. Therefore, hydropower The construction of the industry management system must carry out overall planning to form an integrated solution, and at the same time, it also meets the business needs of the group company for the production group management of various and multiple power plants. In order to strengthen the operation and inspection management of hydropower plants, comprehensively improve the company's operation and inspection management level, support the company's scientific and technological progress and the development of the power grid, and combine the needs of hydropower construction and operation management, the construction of a hydropower inspection and management system has been carried out, and the integration of the hydropower industry has gradually formed. Large centralized water and electricity inspection management information system. It provides a technical basis for ensuring the safety, stability and economic operation of the power grid and the healthy, stable and sustainable development of the enterprise.

本次水电行业生产管理系统的建设，适应了国际管控一体化的发展趋势，将突破国内传统生产MIS和实时信息系统相互独立、自成体系的框架结构，从业务应用、数据源及数据流上对管理信息和实时数据进行综合管理，在统一平台的支撑下，实现对实时信息、管理信息、设备信息的收集、汇总、分析，并在此基础上，为电厂及公司优化运检运营提供决策支持信息，形成水电运检的统一信息平台和优化决策的支撑平台。The construction of the production management system in the hydropower industry adapts to the development trend of international management and control integration, and will break through the framework structure of the traditional domestic production MIS and real-time information systems that are independent and self-contained, from business applications, data sources and data flows. Comprehensive management of management information and real-time data, under the support of a unified platform, to collect, summarize and analyze real-time information, management information and equipment information, and on this basis, provide decision-making for power plants and companies to optimize operation and inspection operations Support information to form a unified information platform for hydropower inspection and a support platform for optimized decision-making.

发明内容SUMMARY OF THE INVENTION

针对现有技术中存在水电运检管理数据主要依赖人工管理的问题，提出了一种水电运检管理系统及方法，能够广泛的应用于水电系统的运捡等领域，提高了数据处理的时效性和可靠性。Aiming at the problem in the prior art that the management data of hydropower inspection and inspection mainly relies on manual management, a hydropower inspection management system and method are proposed, which can be widely used in the fields of hydropower system inspection and other fields, and improve the timeliness of data processing. and reliability.

为了解决上述问题，本发明实施例提出了一种水电运检管理系统包括：数据采集模块、数据处理模块、实时分析模块、应用服务模块；In order to solve the above problem, an embodiment of the present invention proposes a water and electricity inspection management system including: a data acquisition module, a data processing module, a real-time analysis module, and an application service module;

数据采集模块，用于接收设备的运行数据，并将接收到的设备的运行数据存储到数据库服务器中；The data acquisition module is used to receive the operation data of the equipment, and store the received operation data of the equipment in the database server;

数据处理模块，用于对设备的运行数据进行分析，以生成预设格式的分析数据；其中所述分析数据包括以下的至少一种：告警数据、评价数据、历史评价数据、预测信息数据、统计信息数据、现场计划数据；A data processing module for analyzing the operation data of the device to generate analysis data in a preset format; wherein the analysis data includes at least one of the following: alarm data, evaluation data, historical evaluation data, prediction information data, statistics Information data, on-site planning data;

实时分析模块，用于对数据处理模块中产生的预设的分析数据进行汇总，以得到预设主题的数据集，并对所述预设主题的数据集进行统计分析和汇总；其中所述预设主题的数据集包括以下的至少一种：设备数据集、运行数据集、缺陷数据集；The real-time analysis module is used to summarize the preset analysis data generated in the data processing module to obtain a data set of a preset theme, and perform statistical analysis and summary on the data set of the preset theme; The dataset of the theme includes at least one of the following: equipment dataset, operation dataset, and defect dataset;

应用服务模块，用于提供用户接入的接口，并根据用户的输入对数据采集模块的原始的设备运行数据、数据处理模块的分析数据、实时分析模块的预设主题的数据包进行处理。The application service module is used to provide an interface for user access, and process the original equipment operation data of the data acquisition module, the analysis data of the data processing module, and the data packets of the preset theme of the real-time analysis module according to the user's input.

其中，所述应用服务模块包括：在线监测模块、可视化展现模块、辅助决策模块、图形分析模块、数据查询模块、知识库配置模块、设备维护模块、系统管理模块；Wherein, the application service module includes: an online monitoring module, a visual display module, an auxiliary decision-making module, a graphic analysis module, a data query module, a knowledge base configuration module, an equipment maintenance module, and a system management module;

所述在线监测模块用于读取数据采集模块采集并存储到数据库中的接口数据原始表中的原始设备运行数据，并实时检测接口数据原始表中的原始设备运行数据是否完整；The online monitoring module is used to read the original equipment operation data in the interface data original table collected by the data acquisition module and stored in the database, and detect in real time whether the original equipment operation data in the interface data original table is complete;

所述可视化展现模块用于读取接口数据原始表中的原始设备运行数据，并利用图形化界面进行显示；The visual presentation module is used to read the original equipment operating data in the original table of interface data, and display it by using a graphical interface;

所述辅助决策模块用于读取接口数据原始表中的原始设备运行数据，并通过历史设备运行设备与历史的预设主题的数据集进行分析后得到的故障检测模型对接口数据原始表中的原始设备运行数据进行分析以得到辅助决策；The auxiliary decision-making module is used to read the original equipment operation data in the original table of interface data, and analyze the fault detection model in the original table of interface data through the fault detection model obtained after analyzing the historical equipment operation equipment and the historical preset theme data set. Original equipment operating data for analysis to assist decision-making;

所述图形分析模块用于获取数据处理模块的预设格式的分析数据，并以图形界面进行显示；The graphic analysis module is used to obtain the analysis data of the preset format of the data processing module, and display it with a graphic interface;

所述数据查询模块用于根据用户输入的查询条件，在所述接口数据原始表中的原始设备运行数据、数据处理模块中的分析数据、实时分析模块中的预设主题的数据集中进行查询；The data query module is used for querying the data sets of the original equipment operation data in the interface data original table, the analysis data in the data processing module, and the preset theme in the real-time analysis module according to the query conditions input by the user;

所述知识库配置模块用于存储预设的知识集，所述知识集中至少包括以下至少一种：状态量分类、状态量规则、评分规则、状态规则、故障诊断、检修项目、流程设置；The knowledge base configuration module is used to store a preset knowledge set, and the knowledge set at least includes at least one of the following: state quantity classification, state quantity rules, scoring rules, state rules, fault diagnosis, maintenance items, and process settings;

所述设备维护模块用于存储设备的维护日志，并根据数据处理模块得到的分析数据生成设备维护计划；The equipment maintenance module is used to store the maintenance log of the equipment, and generate the equipment maintenance plan according to the analysis data obtained by the data processing module;

所述系统管理模块用于根据用户的输入对系统进行配置。The system management module is used to configure the system according to the user's input.

其中，所述设备维护模块用于根据数据处理模块的分析数据，生成设备维护计划，所述设备维护计划至少包括以下的一种：设备日常维护、设备缺陷管理、设备健康分析、设备隐患分析、定期巡检计划、定值管理、设备异常动作管理。Wherein, the equipment maintenance module is configured to generate an equipment maintenance plan according to the analysis data of the data processing module, and the equipment maintenance plan includes at least one of the following: equipment routine maintenance, equipment defect management, equipment health analysis, equipment hidden danger analysis, Regular inspection plan, fixed value management, equipment abnormal action management.

其中，所述可视化展现模块用于通过设备周边安装的摄像头提供可视化的现场设备状态画面、现场设备告警画面、现场生产环境画面、应检修项目画面。Wherein, the visual display module is used to provide a visual field device status screen, field device alarm screen, on-site production environment screen, and maintenance item screen through cameras installed around the device.

同时，本发明实施例还提出了一种水电运检管理方法，包括：At the same time, the embodiment of the present invention also proposes a water and electricity inspection and management method, including:

接收设备的运行数据，并将接收到的设备的运行数据存储到数据库服务器中；Receive the operating data of the device, and store the received operating data of the device in the database server;

对设备的运行数据进行分析，以生成预设格式的分析数据；其中所述分析数据包括以下的至少一种：告警数据、评价数据、历史评价数据、预测信息数据、统计信息数据、现场计划数据；Analyze the operation data of the equipment to generate analysis data in a preset format; wherein the analysis data includes at least one of the following: alarm data, evaluation data, historical evaluation data, prediction information data, statistical information data, and on-site planning data ;

对数据处理模块中产生的预设的分析数据进行汇总，以得到预设主题的数据集，并对所述预设主题的数据集进行统计分析和汇总；其中所述预设主题的数据集包括以下的至少一种：设备数据集、运行数据集、缺陷数据集；Summarize the preset analysis data generated in the data processing module to obtain a data set of a preset theme, and perform statistical analysis and summary on the data set of the preset theme; wherein the data set of the preset theme includes At least one of the following: equipment dataset, operation dataset, defect dataset;

提供用户接入的接口，并根据用户的输入对数据采集模块的原始的设备运行数据、数据处理模块的分析数据、实时分析模块的预设主题的数据包进行处理。Provide an interface for user access, and process the original equipment operation data of the data acquisition module, the analysis data of the data processing module, and the data packets of the preset theme of the real-time analysis module according to the user's input.

其中，所述方法还包括以下的至少一个步骤：Wherein, the method also includes at least one of the following steps:

读取数据采集模块采集并存储到数据库中的接口数据原始表中的原始设备运行数据，并实时检测接口数据原始表中的原始设备运行数据是否完整；Read the original equipment operation data in the interface data original table collected by the data acquisition module and stored in the database, and check in real time whether the original equipment operation data in the interface data original table is complete;

读取接口数据原始表中的原始设备运行数据，并利用图形化界面进行显示；Read the original equipment operation data in the original table of interface data, and display it using the graphical interface;

读取接口数据原始表中的原始设备运行数据，并通过历史设备运行设备与历史的预设主题的数据集进行分析后得到的故障检测模型对接口数据原始表中的原始设备运行数据进行分析以得到辅助决策；Read the original equipment operation data in the original table of interface data, and analyze the original equipment operation data in the original table of interface data through the fault detection model obtained after analyzing the historical equipment operation equipment and the historical preset theme data set to analyze the original equipment operation data in the original table of interface data. get assisted decision-making;

获取数据处理模块的预设格式的分析数据，并以图形界面进行显示；Obtain the analysis data in the preset format of the data processing module and display it in a graphical interface;

根据用户输入的查询条件，在所述接口数据原始表中的原始设备运行数据、数据处理模块中的分析数据、实时分析模块中的预设主题的数据集中进行查询；According to the query conditions input by the user, the query is performed in the original equipment operation data in the interface data original table, the analysis data in the data processing module, and the data set of the preset theme in the real-time analysis module;

存储预设的知识集，所述知识集中至少包括以下至少一种：状态量分类、状态量规则、评分规则、状态规则、故障诊断、检修项目、流程设置；A preset knowledge set is stored, and the knowledge set includes at least one of the following: state quantity classification, state quantity rules, scoring rules, state rules, fault diagnosis, maintenance items, and process settings;

存储设备的维护日志，并根据数据处理模块得到的分析数据生成设备维护计划；The maintenance log of the equipment is stored, and the equipment maintenance plan is generated according to the analysis data obtained by the data processing module;

根据用户的输入对系统进行配置。The system is configured based on user input.

其中，所述设备维护计划至少包括以下的一种：设备日常维护、设备缺陷管理、设备健康分析、设备隐患分析、定期巡检计划、定值管理、设备异常动作管理。The equipment maintenance plan includes at least one of the following: equipment routine maintenance, equipment defect management, equipment health analysis, equipment hidden danger analysis, regular inspection plan, fixed value management, and equipment abnormal action management.

其中，所述方法还包括：通过设备周边安装的摄像头提供可视化的现场设备状态画面、现场设备告警画面、现场生产环境画面、应检修项目画面。Wherein, the method further includes: providing a visual field equipment status picture, a field equipment alarm picture, a field production environment picture, and a maintenance item picture through a camera installed around the equipment.

本发明的上述技术方案的有益效果如下：本发明实施例提出了一种水电运检管理系统及方法，涉及水电设备运行、维护、检修和试验管理应用领域。上述方案能够实现运检管理关键业务流程的标准化，实现运检作业的精细化管理。本发明由于利用计算机对电力生产过程进行管理和控制，使得整个电力系统数据的采集、汇总和分析能够非常及时有效且精确，从而提高了集团公司水电运检管理的精益化水平。本发明实施例提出的系统采用了集中式部署的一套系统，利用同一套硬件设备，减少人员开发成本以及硬件设备重复投资；为水电企业的运检管理工作提供有力的管理和控制工具，大大减少了公司新的运检管理制度的推广和实施工作的时间；实现远程运检过程、设备状态监管，为公司的运检管控提供必要的手段；标准化的工作票管理、作业指导书管理以及运行管理等系统管理内容，规范了运检管理业务，有效控制了安全生产风险；一体化的运检管理系统可以实时了解下属单位生产经营情况、实时监控管理生产过程，减少现场出差、报表合并等的边缘成本；将报表合并转变为数据合并，减少了大量的报表合并工作以及报表填报工作。The beneficial effects of the above technical solutions of the present invention are as follows: The embodiment of the present invention provides a hydropower operation inspection management system and method, which relate to the application field of hydropower equipment operation, maintenance, overhaul and test management. The above solution can realize the standardization of the key business process of the inspection management, and realize the refined management of the inspection operation. The invention utilizes the computer to manage and control the power production process, so that the data collection, aggregation and analysis of the entire power system can be very timely, effective and accurate, thereby improving the lean level of the hydropower inspection management of the group company. The system proposed by the embodiment of the present invention adopts a set of centralized deployment system, and utilizes the same set of hardware equipment to reduce personnel development costs and repeated investment in hardware equipment; it provides powerful management and control tools for the operation and inspection management of hydropower enterprises, greatly reducing the cost of personnel development and repeated investment in hardware equipment. It reduces the time for the promotion and implementation of the company's new transportation inspection management system; realizes the remote transportation inspection process and equipment status supervision, and provides the necessary means for the company's transportation inspection management and control; standardized work ticket management, operation instruction management and operation Management and other system management contents, standardize the inspection management business, and effectively control the risk of safety production; the integrated inspection management system can understand the production and operation of subordinate units in real time, monitor and manage the production process in real time, and reduce on-site business trips, report consolidation, etc. Edge cost; transforming report consolidation into data consolidation reduces a lot of report consolidation work and report filling work.

附图说明Description of drawings

图1为本发明实施例的水电运检管理方法的总体架构图；FIG. 1 is an overall architecture diagram of a water and electricity inspection and management method according to an embodiment of the present invention;

图2为本发明实施例的水电运检管理方法的流程概要图；FIG. 2 is a schematic flowchart of a water and electricity inspection and management method according to an embodiment of the present invention;

图3为本发明实施例的水电运检管理方法的数据架构图；FIG. 3 is a data architecture diagram of a water and electricity inspection management method according to an embodiment of the present invention;

图4为本发明实施例的水电运检管理方法的集成架构图；FIG. 4 is an integrated architecture diagram of a water and electricity inspection management method according to an embodiment of the present invention;

图5为本发明实施例的水电运检管理方法的硬件部署图；FIG. 5 is a hardware deployment diagram of a water and electricity inspection management method according to an embodiment of the present invention;

图6为本发明实施例的水电运检管理系统结构示意图；6 is a schematic structural diagram of a water and electricity inspection and management system according to an embodiment of the present invention;

图7为本发明实施例中业务纵向的业务关系的示意图。FIG. 7 is a schematic diagram of a business relationship of a business vertical in an embodiment of the present invention.

具体实施方式Detailed ways

为使本发明要解决的技术问题、技术方案和优点更加清楚，下面将结合附图及具体实施例进行详细描述。In order to make the technical problems, technical solutions and advantages to be solved by the present invention more clear, the following will be described in detail with reference to the accompanying drawings and specific embodiments.

如图6所示的，本发明实施例提出的水电运检管理系统包括：数据采集模块、数据处理模块、实时分析模块、应用服务模块；其中数据采集模用于采集设备产生的数据，并保存到数据库服务器中；数据处理模块用于对现场数据进行处理，将处理结果生成告警数据、评价数据、提醒数据、现场计划等数据；实时分析模块用于对设备、缺陷、运行等主题的数据统计分析和汇总；应用服务模用于提供用户访问所述原始数据，以及交互操作所述告警数据、评价数据、提醒数据、现场计划等数据。As shown in FIG. 6 , the water and electricity inspection management system proposed in the embodiment of the present invention includes: a data acquisition module, a data processing module, a real-time analysis module, and an application service module; wherein the data acquisition module is used to collect data generated by equipment, and save them into the database server; the data processing module is used to process the field data, and the processing results will generate alarm data, evaluation data, reminder data, field plans and other data; the real-time analysis module is used for data statistics on equipment, defects, operation and other topics Analysis and summary; the application service model is used to provide users with access to the original data, and to interactively operate the alarm data, evaluation data, reminder data, field plans and other data.

如图1-图7所示的，本发明还提供了一种水电运检管理方法，用于实现运检管理关键业务流程的标准化，实现运检作业的精细化管理。本发明由于利用计算机对电力生产过程进行管理和控制，使得整个电力系统数据的采集、汇总和分析能够非常及时有效且精确，从而提高了集团公司水电运检管理的精益化水平。As shown in FIG. 1-FIG. 7, the present invention also provides a water and electricity inspection management method, which is used to standardize the key business process of the operation inspection management and realize the refined management of the operation inspection operation. The invention utilizes the computer to manage and control the power production process, so that the data collection, aggregation and analysis of the entire power system can be very timely, effective and accurate, thereby improving the lean level of the hydropower inspection management of the group company.

本发明实施例的水电运检管理系统具有以下功能模块：计划管理模块、项目管理模块、设备维护模块、运行管理模块、技术监督模块、水工管理模块、巡检管理模块。The water and electricity inspection management system of the embodiment of the present invention has the following functional modules: a plan management module, a project management module, an equipment maintenance module, an operation management module, a technical supervision module, a hydraulic management module, and an inspection management module.

其中，计划管理模块由管理标准、检修项目、技改项目、临够项目组成，包含储备项目编制、储备项目申报、年度计划、项目变更、项目月报、年度总结等功能。其中，所述项目管理模块由管理制度、检修项目、技改项目、自主项目组成，包含工作计划、项目实施、项目结项、后评估报告等功能。其中，所述设备维护模块由日常维护、缺陷管理、设备健康分析、隐患分析、定期工作、定值管理、异动管理组成，包含位置分类、公司侧标准项目库、厂侧标准项目库、专业年度计划、年度计划、日常维护工单、定期工作、工作设置、工作项目、定值管理、定值清单、设备异动、临时措施等功能。其中，所述运行管理模块由运行值班、OMCALL值班、集控值班、操作票、工作票、定期工作、停复役计划、临时电源管理、运行记事查询、运行培训组成，包含典型操作票、电气一种工作票、电气二种工作票、水力机械票、工作任务单、典型隔离库、典型危险点预控、定期工作、标准操作卡、周期设置、年度工期计划、月底停役计划、停复役申请单、出题、答疑及点评等功能。其中，所述技术监督模块由组织机构、基础信息、计划总结、查坪整改、文档资料组成，包含专业设置、报表项目设置、标准项目、技术监督设置、计划模板、年度计划、数据分析、报表、年度总结、技术监督单位总结、自评、告警、整改等功能。其中，所述水工管理模块由防洪度汛、运行维护、大坝注册定检、规则制度、水库运行、水工专业年会组成，包含组织机构、防汛值班、度洪措施、工作手册、汛前自查报告、汛情周报、防汛总结、防汛日报、防汛值班日志、建筑物运行月报、监测仪器运行月报、建筑物项目实施、建筑物概况、大坝注册、大坝定检、月调度建议、水库运行月报、水库运行年报、水库运行旬报、水库调度工作总结、洪水简报等功能。其中，所述巡检管理模块由巡检点、巡检区域、巡检路线、巡检任务、巡检记录、巡检计划组成。其中，所述生产准备模块由移交生产、整改项目组成。其中，所述反措管理模块由反事故措施管理制度、反事故措施下发、反事故措施工作计划、工作计划执行组成。其中，所述信息管理模块由应用反馈、公告栏、信息发布、应用点评组成。Among them, the plan management module is composed of management standards, maintenance projects, technical transformation projects, and temporary projects, and includes functions such as reserve project preparation, reserve project declaration, annual plan, project change, project monthly report, and annual summary. Wherein, the project management module is composed of management system, maintenance projects, technical transformation projects, and independent projects, and includes functions such as work plan, project implementation, project completion, and post-assessment report. Among them, the equipment maintenance module is composed of daily maintenance, defect management, equipment health analysis, hidden danger analysis, regular work, fixed value management, and change management, including location classification, company-side standard project library, factory-side standard project library, professional annual Plans, annual plans, daily maintenance work orders, regular work, work settings, work items, fixed value management, fixed value lists, equipment changes, temporary measures and other functions. The operation management module is composed of operation duty, OMCALL duty, centralized control duty, operation ticket, work ticket, regular work, decommissioning and resumption plan, temporary power management, operation note query, and operation training, including typical operation tickets, electrical One type of work ticket, two types of electrical work tickets, hydraulic machinery ticket, work task list, typical isolation warehouse, typical dangerous point pre-control, regular work, standard operation card, cycle setting, annual construction period plan, end-of-month suspension plan, suspension and recovery Service application form, questions, answering questions and comments. Among them, the technical supervision module is composed of organizational structure, basic information, plan summary, inspection and rectification, and documentation, including professional settings, report project settings, standard projects, technical supervision settings, plan templates, annual plans, data analysis, and reports. , annual summary, technical supervision unit summary, self-assessment, alarm, rectification and other functions. Among them, the hydraulic management module is composed of flood control, operation and maintenance, dam registration and inspection, rules and regulations, reservoir operation, hydraulic professional annual meeting, including organizational structure, flood control duty, flood control measures, work manual, flood control Pre-self-inspection report, weekly flood situation report, flood control summary, flood control daily report, flood control duty log, monthly building operation report, monthly monitoring instrument operation report, building project implementation, building overview, dam registration, dam regular inspection, monthly dispatch Suggestions, monthly report of reservoir operation, annual report of reservoir operation, ten-day report of reservoir operation, summary of reservoir dispatch work, flood briefing and other functions. The inspection management module is composed of inspection points, inspection areas, inspection routes, inspection tasks, inspection records, and inspection plans. Wherein, the production preparation module consists of handover production and rectification projects. Wherein, the countermeasure management module is composed of an anti-accident measures management system, issuance of counter-accident measures, a work plan for counter-accident measures, and implementation of the work plan. Wherein, the information management module is composed of application feedback, bulletin board, information release, and application comments.

本发明实施例的水电运检管理系统，在总体技术体系结构设计上充分考虑水电厂主要从事电网的调峰调频任务和发展新能源的实际需求，需要综合考虑各种技术因素和手段，统一进行技术体系结构的设计，使生产MIS系统与生产实时信息系统一体化，使企业信息和应用能够被“纵向贯通、横向集成”地进行一体化设计与集成，实现公司上下信息畅通和数据共享，达到通过统一信息平台和综合指挥决策支持系统，达到安全生产和经济运行的目的。因此，本次运检管理系统的建设将采用大集中模式，只在公司总部建立统一的数据存储中心，并建立集中的企业信息门户、统一身份认证中心及业务应用系统。The hydropower operation inspection management system of the embodiment of the present invention fully considers the actual demand of the hydropower plant mainly engaged in the peak and frequency regulation tasks of the power grid and the development of new energy in the overall technical system structure design. The design of the technical system structure integrates the production MIS system with the production real-time information system, so that the enterprise information and applications can be designed and integrated in a "vertical and horizontal integration" way, so as to achieve smooth information and data sharing across the company, and achieve Through a unified information platform and an integrated command and decision support system, the purpose of safe production and economic operation is achieved. Therefore, the construction of this transportation inspection management system will adopt a large-scale centralized model, and only a unified data storage center will be established at the company headquarters, and a centralized enterprise information portal, unified identity authentication center and business application system will be established.

本发明实施例提出了一种水电运检管理系统。如图1所示，展示了一种水电运检管理系统总体软件架构。本发明实施例的运检管理系统采用先进的EAM管理思想，以先进的信息技术为手段，采用B/S架构体系，与生产实时信息系统一体化设计，实现面向公司总部和下属厂站两级业务管理应用。集团以指标考核、综合监管和决策指挥为主，电厂以设备管理为核心，以工单流转处理为纽带，实现设备、检修、运行、生技、物资、技术监督、安监等方面功能需求，覆盖公司、电厂、部门、班组多级管理体系的生产全过程管理，建设一个一体化、网络化的生产业务处理平台，保障安全生产、降低生产维护费用，提高工作效率和经济效益。实现公司生产经营标准化、精细化、科学化管理。运检管理系统采用大集中模式建设，在总部集中部署硬件服务器系统和应用系统。The embodiment of the present invention proposes a water and electricity transportation inspection management system. As shown in Figure 1, it shows the overall software architecture of a water and electricity inspection management system. The transportation inspection management system of the embodiment of the present invention adopts advanced EAM management ideas, uses advanced information technology as a means, adopts a B/S architecture system, and is designed in an integrated manner with the production real-time information system, so as to achieve two levels facing the company headquarters and subordinate plants. Business management applications. The group focuses on index assessment, comprehensive supervision and decision-making and command. The power plant takes equipment management as the core and work order transfer processing as the link to meet the functional requirements of equipment, maintenance, operation, biotechnology, materials, technical supervision, safety supervision, etc. Covering the whole production process management of the multi-level management system of companies, power plants, departments, and teams, building an integrated and networked production business processing platform to ensure safe production, reduce production and maintenance costs, and improve work efficiency and economic benefits. Realize the standardization, refinement and scientific management of the company's production and operation. The transportation inspection management system is constructed in a large-scale centralized mode, and the hardware server system and application system are centrally deployed in the headquarters.

运检管理信息系统与生产实时信息系统采用一体化设计，建立一体化企业级信息集成平台，完善信息网络，部署数据交换，畅通信息渠道，建设数据中心，实现数据共享，推进应用集成，促进流程优化，搭建企业门户，统一展示内容。The transportation inspection management information system and the production real-time information system adopt an integrated design, establish an integrated enterprise-level information integration platform, improve the information network, deploy data exchange, unblock information channels, build a data center, realize data sharing, promote application integration, and promote process flow Optimize, build an enterprise portal, and display content in a unified manner.

本发明实施例的运检管理信息系统能够覆盖抽水蓄能电厂运检作业和管理过程业务，主要包括的功能模块有设备管理、运行管理、工单管理、两票管理、检修/技改项目管理、计划管理、缺陷管理、巡检管理、水工管理、技术监督管理、信息管理等模块。运检管理信息系统涵盖12大业务，90余个子业务；The operation inspection management information system of the embodiment of the present invention can cover the operation inspection operation and management process business of the pumped storage power plant, and mainly includes functional modules including equipment management, operation management, work order management, two-ticket management, and maintenance/technical transformation project management. , plan management, defect management, inspection management, hydraulic management, technical supervision and management, information management and other modules. The transportation inspection management information system covers 12 major businesses and more than 90 sub-businesses;

水电行业运检管理系统所关注和处理的主要数据有：经营指标数据、实时水情数据、设备缺陷数据、起停机记录、KPI指标数据等，具体如下：The main data concerned and processed by the transportation inspection management system of the hydropower industry are: business index data, real-time water regime data, equipment defect data, start and stop records, KPI index data, etc. The details are as follows:

(1)经营指标数据，包括：机组效率，发电水耗，抽水耗电量，厂用电量，厂用电率，上库渗水量，单位发电成本，发电电量，抽水电量，机组可靠性，启动成功率，机组可用率等；(1) Operational index data, including: unit efficiency, power generation water consumption, pumping power consumption, plant power consumption, plant power consumption rate, seepage water volume in the upper reservoir, unit power generation cost, power generation power, pumping power, unit reliability, Startup success rate, unit availability rate, etc.;

(2)实时水情数据，包括：上、下库水位、入库流量、发电流量、出库流量、泄洪流量等；(2) Real-time water regime data, including: upper and lower reservoir water levels, inbound flow, power generation flow, outbound flow, flood discharge flow, etc.;

(3)设备缺陷数据，包括：缺陷设备编码、缺陷情况与原因、处理情况等；(3) Equipment defect data, including: defective equipment code, defect situation and cause, processing situation, etc.;

(4)启停机记录，包括：各机组的运行工况，包括运行、检修、基建、启动、基建试运、停机等状态，各种工况开机次数及运行时间、发电和抽水启动成功率等；(4) Start and stop records, including: operating conditions of each unit, including operation, maintenance, infrastructure, startup, infrastructure trial operation, shutdown, etc., the number of startups and operating times under various operating conditions, the success rate of power generation and pumping startup, etc. ;

(5)KPI指标数据，包括：抽蓄指标、机组计划检修及非计划停运情况统计指标、发电电量、抽水电量、重要操作及主要保护自动装置动作次数、电厂机组和主要辅机设备启停次数、跳闸次数、累计运行时间、检修时间、备用时间、非停时间、各电厂电气重要开关动作次数和运行时间等。(5) KPI indicator data, including: pumped storage indicators, statistical indicators of planned maintenance and unplanned outages of units, power generation, pumped water, important operations and the number of actions of main protection automatic devices, start and stop of power plant units and main auxiliary equipment The number of times, the number of trips, the cumulative running time, the maintenance time, the standby time, the non-stop time, the number of important electrical switch actions of each power plant and the running time, etc.

作为本次公司运检管理系统建设的集团级数据中心与监管中心，从数据体系上需要达到：As the group-level data center and supervision center for the construction of the company's transportation inspection management system, the data system needs to achieve:

建立集团化的信息支撑平台：通过收集与汇总各电厂的生产实时、管理数据，实现信息至下而上的贯通，做到信息共享。Establish a group-based information support platform: by collecting and summarizing the real-time production and management data of each power plant, the information can be connected from the bottom to the top, and information can be shared.

数据一体化：实时数据、管理数据一体化设计，并能有效进行数据关联；Data integration: integrated design of real-time data and management data, and effective data association;

从技术上需要达到，应能方便地适应水电行业总部管理的需要，动态扩展增加对电厂数据采集的数据项、指标项，以下是未来构建的生产实时信息系统公司总部关心的实时数据指标集示例，当然这些指标集可根据模型工具进行动态扩展与修正。From the technical point of view, it should be able to easily meet the needs of the headquarters management of the hydropower industry, and dynamically expand and increase the data items and index items collected from the power plant data. , of course, these indicator sets can be dynamically expanded and revised according to the model tools.

公司总部指标集如下表格：The company headquarters indicator set is as follows:

如图2所示，展示了一种水电运检管理系统流程概要。As shown in Figure 2, it shows the outline of the process of a water and electricity inspection management system.

要实现一种集中式水电运检管理系统管理，首先必须理清公司内部各信息化系统之间以及同外部系统之间的相互关系。发电集团根据其自身特点分为横向和纵向两类业务管理流程，横向业务管理流程负责统一层面(电厂或公司总部)各业务间的相互关联、交互及其所遵循的规则；纵向业务管理流程描述公司总部及电厂之间各业务模块内部的相互关联、交互及其所遵循的规则。由于每个集团管理模式的差异，导致每个集团所定义业务之间和同一业务的上下层之间的关联关系和所遵循的规则会有很大的不同。例如财务型发电集团是以利润为主线，作为集团关注电厂实现的利润，而对生产运行过程则基本放手给电厂独立经营，因此，他基本不关注电厂生产运营的作业。而管控型的发电集团，如中电投集团公司，是典型的集约管理型发电公司，他不仅要关注电厂实现的利润，也要关注资源规划、调配以及规范化管理的监控、督导。In order to realize a centralized management of water and electricity inspection management system, it is first necessary to clarify the relationship between various information systems within the company and with external systems. The power generation group is divided into two types of business management processes: horizontal and vertical according to its own characteristics. The horizontal business management process is responsible for the interconnection, interaction and the rules followed between the various businesses at the unified level (power plant or company headquarters). The vertical business management process description Interrelationships, interactions among business modules between the company headquarters and power plants, and the rules they follow. Due to the differences in the management mode of each group, the associations and rules followed between the businesses defined by each group and the upper and lower layers of the same business will be very different. For example, a financial power generation group is based on profit. As a group, it pays attention to the profit achieved by the power plant, but basically let the power plant operate independently in the production and operation process. Therefore, he basically does not pay attention to the production and operation of the power plant. The management-controlled power generation group, such as China Power Investment Corporation, is a typical intensive management power generation company. He not only pays attention to the profit achieved by the power plant, but also pays attention to the monitoring and supervision of resource planning, deployment and standardized management.

图2给出了一个集约型发电集团总部横向的一体化信息管理系统流程原则示意图，通过生产实时信息系统、运检管理信息系统(资产管理系统)以及办公自动化系统相互管理，形成企业的经营指挥和决策支持体系，实现企业的经济运行和安全生产。Figure 2 shows a schematic diagram of the process principle of the horizontal integrated information management system of the headquarters of an intensive power generation group. and decision support system to realize the economic operation and safe production of the enterprise.

根据上图流程定义的业务模块间的关联关系，运检管理信息系统与生产实时信息系统有着密切的横向关联关系。According to the relationship between the business modules defined by the above process, the inspection management information system and the production real-time information system have a close horizontal relationship.

经营管理涉及到发电量、上网电量、开停机情况、发电可调小时，发电综合效率，抽水电量以及厂用电情况等；Operation management involves power generation, on-grid power, start-up and shutdown, adjustable hours of power generation, overall power generation efficiency, pumped water and plant power consumption, etc.;

缺陷管理涉及到机组健康状态、设备运行的实时情况，并根据这些信息判断设备缺陷是否自动进入缺陷管理的仲裁等；Defect management involves the health status of the unit and the real-time situation of equipment operation, and judges whether equipment defects automatically enter the arbitration of defect management based on these information;

生产管理涉及到对各种实时经营数据统计汇总，分析决策、形成统计和报表等…；Production management involves the statistical summary of various real-time business data, analysis and decision-making, the formation of statistics and reports, etc.;

这些都要求运检管理信息系统的各业务模块能与生产实时信息系统进行有效地交互，实现数据和信息共享。除了自动将两个系统中的各类数据根据定义自动汇集形成决策信息以及自动产生报表外，还可以在一个系统自动或手动调用另一个系统的相关页面、数据和状态信息等，如在运检管理信息系统中，通过设备台帐、设备树导航等，调用打开生产实时信息系统中的相关页面。同时，在生产实时信息系统中，通过点击相应设备，也可直接调用设备相关的生产管理信息系统中的管理页面，如台帐属性信息、缺陷历史、工单列表等信息，供系统或值班人员操作或决策参考。All these require that each business module of the inspection management information system can effectively interact with the production real-time information system to realize data and information sharing. In addition to automatically gathering various types of data in the two systems to form decision-making information and automatically generating reports according to the definition, one system can also automatically or manually call the relevant pages, data and status information of the other system, such as during inspection and inspection. In the management information system, through the equipment ledger, equipment tree navigation, etc., call to open the relevant pages in the production real-time information system. At the same time, in the production real-time information system, by clicking on the corresponding device, the management page in the production management information system related to the device can also be directly called, such as ledger attribute information, defect history, work order list and other information for the system or on-duty personnel. Action or decision reference.

除了横向的业务关联关系，同一模块的纵向关联也是一个重要的环节，这些关联关系则由使用这些模块的部门任务、职能和所行使的职权所决定。In addition to the horizontal business relationship, the vertical relationship of the same module is also an important link, and these relationships are determined by the tasks, functions and powers of the departments that use these modules.

运维检修部的生产管理工作按照条块化方式开展，其中“条”有水机、水工、电气、运行、检修、环保、水保、土建等专业或工作面；而“块”有大修、技改、科技、信息、安全、技术监督等方面。作为公司的业务部门，还要负责生产统计和可靠性管理等工作。The production management work of the operation, maintenance and repair department is carried out in a block-wise manner, in which "bars" include majors or working faces such as hydraulic, hydraulic, electrical, operation, maintenance, environmental protection, soil and water conservation, and civil engineering; while "blocks" include major repairs , technical transformation, technology, information, safety, technical supervision, etc. As a business department of the company, it is also responsible for production statistics and reliability management.

各个电厂的运检管理部门，虽然每个电厂的部门结构和名称不尽相同，但从职责分工上来看大体都为运维检修部、生产经营部门、设备运行部门、设备维护部门和生产技术部门等这几类不同叫法的部门，协同进行发电运行、设备管理、设备维护、技术管理、项目管理、安全管理等多个方面，其中财务部门对物资管理、项目管理等工作也有不同程度的参与或数据需求。The operation and inspection management departments of each power plant, although the department structure and name of each power plant are different, but in terms of the division of responsibilities, they are generally the operation and maintenance department, the production and operation department, the equipment operation department, the equipment maintenance department and the production technology department. These departments with different names cooperate in power generation operation, equipment management, equipment maintenance, technical management, project management, safety management and other aspects. Among them, the financial department also has different degrees of participation in material management, project management and other work. or data needs.

根据该部门纵向之间各自的职责和分工的定义，可以比较清晰地梳理出业务纵向的业务关系，如图7所示。According to the definition of the respective responsibilities and division of labor between the verticals of the department, the business relationship of the vertical business can be clearly sorted out, as shown in Figure 7.

因此，在公司层面负责：Therefore, at the company level is responsible for:

制定技术规范和安全规范；Formulate technical specifications and safety specifications;

进行技术监督、管理与指导；Carry out technical supervision, management and guidance;

审批各个电厂的运检计划；Approve the inspection plan of each power plant;

汇总生成公司的总体运检计划；Summarize and generate the company's overall inspection plan;

按年度审批生产维护费用；Approve production and maintenance costs on an annual basis;

对各种项目(大小修、科技、技改、信息等)进行预算和技术审核；Budget and technical review of various projects (major and major repairs, technology, technical transformation, information, etc.);

组织项目协调和进度管理等；Organize project coordination and progress management, etc.;

电厂按照公司的要求开展运检工作的组织和实施：The power plant organizes and implements the inspection work according to the company's requirements:

设备生命周期管理：制定、报送和执行检修计划，以及检修的监督和管理、设备的日常维护等，包括对水电设备检修的A、B、C、D级检修、事故抢修以及技术改造等；Equipment life cycle management: formulate, submit and execute maintenance plans, as well as the supervision and management of maintenance, daily maintenance of equipment, etc., including A, B, C, D-level maintenance, emergency repair and technical transformation of hydropower equipment maintenance;

安全管理：电厂的安全生产综合指标汇总、事故障碍情况分析、安全快报等关键安全信息的上报，以及安全管理状况和水平监视和评估等；Safety management: summary of comprehensive safety production indicators of power plants, analysis of accident obstacles, reporting of key safety information such as safety bulletins, and monitoring and evaluation of safety management status and levels;

设备运行管理以及技术监督等各项工作。Equipment operation management and technical supervision.

根据该部门纵向之间各自的业务需求，可以比较清晰地完成公司和电厂之间的业务定义和实现规定的流程扭转。According to the respective business needs between the verticals of the department, the business definition between the company and the power plant can be clearly completed and the prescribed process reversal can be achieved.

如图3所示，展示了一种水电运检管理系统数据架构。As shown in Figure 3, it shows the data architecture of a water and electricity inspection management system.

水电厂集中存储安全生产的管理数据。考虑到对全公司数据的完整性、一致性要求和对广域网带宽资源的有效利用，既要满足总公司的业务要求又要满足下属单位业务要求，在总公司数据库集中存储和管理整个公司的数据，包括设备数据、运行数据、检修数据、安全管理数据等，从总体上提供一个公司数据结构的全貌，确保数据的完整性和一致性，同时，提供完整的数据备份机制。The hydropower plant centrally stores the management data of safety production. Considering the requirements for the integrity and consistency of company-wide data and the effective use of WAN bandwidth resources, it is necessary to meet both the business requirements of the head office and the business requirements of subordinate units, and centrally store and manage the data of the entire company in the head office database. , including equipment data, operation data, maintenance data, safety management data, etc., to provide an overall picture of the company's data structure to ensure data integrity and consistency, and at the same time, to provide a complete data backup mechanism.

如图4所示，展示了一种水电运检管理系统集成架构。As shown in Figure 4, an integrated architecture of a water and electricity inspection management system is shown.

集成架构平台必须先进、健壮、安全协助业务应用的快速开发及运行，能够加快应用的开发速度，降低了开发成本，提高了应用整体质量和管理水平。The integrated architecture platform must be advanced, robust and safe to assist the rapid development and operation of business applications, which can speed up application development, reduce development costs, and improve overall application quality and management level.

技术架构平台主要由应用开发框架、BPM(业务流程管理平台)、BSP(业务服务平台)、集成开发环境和系统监控工具五部分构成。The technical architecture platform is mainly composed of five parts: application development framework, BPM (business process management platform), BSP (business service platform), integrated development environment and system monitoring tools.

应用开发框架，提供了应用软件开发所需的基础框架，帮助开发人员快速搭建业务系统；The application development framework provides the basic framework required for application software development to help developers quickly build business systems;

业务流程管理平台，提供了基于流程的业务系统开发的整套工具和运行环境，帮助开发人员快速实现业务流程；The business process management platform provides a complete set of tools and operating environment for process-based business system development to help developers quickly implement business processes;

业务服务平台，提供应用系统开发需要的基础套装组件，使开发人员直接利用这些通用组件搭建业务系统，避免重复开发；The business service platform provides the basic package components required for application system development, so that developers can directly use these general components to build business systems and avoid repeated development;

集成开发环境，提供了可视化的开发工具，实现了对软件开发全生命周期的管理；The integrated development environment provides visual development tools and realizes the management of the whole life cycle of software development;

系统监控工具，提供了对业务系统运行的各种参数进行监控的功能，使系统管理员能够及时了解系统运行状况。The system monitoring tool provides the function of monitoring various parameters of the operation of the business system, so that the system administrator can know the system operation status in time.

如图5所示，展示了一种水电运检管理系统硬件部署。As shown in Figure 5, a hardware deployment of a water and electricity inspection management system is shown.

根据水电行业运检管理系统建设总体规划思路，将实现对下属电厂的实时和管理数据的集中，在公司本部建设统一的数据中心，在统一数据中心的支撑下，根据总部生产、经营等管理的需要，建设运检管理系统等应用系统。According to the overall planning idea of the construction of the operation inspection management system in the hydropower industry, the real-time and management data of the subordinate power plants will be centralized, and a unified data center will be built in the company headquarters. If necessary, build application systems such as transportation inspection management system.

运检管理数据服务器：有两台“数据库服务器”，用于保存所有运检过程的管理数据，选用两台IBM 570小型机服务器构成，配置成集群系统。数据存储采用IBM DS4800存储磁盘阵列系统。Inspection management data server: There are two "database servers", which are used to save the management data of all inspection processes. They are composed of two IBM 570 minicomputer servers and configured as a cluster system. Data storage adopts IBM DS4800 storage disk array system.

运检管理应用服务器：选用四台HP 580服务器构成。安装应用服务器中间件软件，为应用系统的运行提供硬件和基础软件平台，配置成集群系统，在第一阶段计划先购买二台。Operational inspection management application server: composed of four HP 580 servers. Install the application server middleware software, provide hardware and basic software platform for the operation of the application system, configure it into a cluster system, and plan to purchase two sets in the first stage.

报表服务器：选用一台HP 580服务器构成，提供报表运行服务。Report server: choose an HP 580 server to provide report running services.

存储设备：在本次关键应用系统的数据存储中，采用集中存储的方式，管理与实时数据使用同一阵列，建立统一数据中心。选用一台IBM DS4800阵列构成，将系统的数据库数据通过4Gb光纤通道所组成的SAN(存储区域网)存储至一个核心的企业级磁盘阵列中。Storage device: In the data storage of this key application system, centralized storage is adopted, and the same array is used for management and real-time data to establish a unified data center. It is composed of an IBM DS4800 array, and the database data of the system is stored in a core enterprise-level disk array through a SAN (storage area network) composed of 4Gb fiber channels.

SAN交换机:用于SAN结构使用，配置2台IBM B16。SAN switch: for SAN structure use, configure 2 IBM B16.

手持巡检设备PDA：巡检管理系统。Handheld inspection equipment PDA: inspection management system.

机柜：配置IBM原装机柜及KVM、1U液晶显示器等。Cabinet: configure IBM original cabinet and KVM, 1U LCD monitor, etc.

本发明公开了一种水电运检管理系统及方法，涉及水电设备运行、维护、检修和试验(以下简称运检)管理应用领域，包括数据采集模块、数据处理模块、实时分析模块、应用服务模块。所述系统利用计算机对运检过程进行管理和控制，包括：数据采集模块，用于采集设备产生的数据，并保存到数据库服务器中；数据处理模块，用于对现场数据进行处理，将处理结果生成告警数据、评价数据、提醒数据、现场计划等数据；实时分析模块，用于对设备、缺陷、运行等主题的数据统计分析和汇总；应用服务模块，用于提供用户访问所述原始数据，以及交互操作所述告警数据、评价数据、提醒数据、现场计划等数据。另外，本发明还提供了一种水电运检管理方法，用于实现运检管理关键业务流程的标准化，实现运检作业的精细化管理。本发明由于利用计算机对电力生产过程进行管理和控制，使得整个电力系统数据的采集、汇总和分析能够非常及时有效，且精确，从而提高了集团公司水电运检管理的精益化水平。The invention discloses a hydropower operation inspection management system and method, and relates to the management application field of hydropower equipment operation, maintenance, overhaul and test (hereinafter referred to as operation inspection), including a data acquisition module, a data processing module, a real-time analysis module and an application service module . The system uses a computer to manage and control the inspection process, including: a data acquisition module, used to collect data generated by the equipment, and save it to a database server; a data processing module, used to process on-site data and store the processing results. Generate alarm data, evaluation data, reminder data, on-site planning and other data; real-time analysis module, used for statistical analysis and summary of data on equipment, defects, operation and other topics; application service module, used to provide users with access to the original data, And interactively operate the alarm data, evaluation data, reminder data, on-site plan and other data. In addition, the present invention also provides a water and electricity inspection management method, which is used to realize the standardization of the key business process of the transportation inspection management and realize the refined management of the transportation inspection operation. The invention utilizes the computer to manage and control the electric power production process, so that the data collection, aggregation and analysis of the entire electric power system can be very timely, effective and accurate, thereby improving the lean level of the water and electricity inspection management of the group company.

参见图6，本发明实施例的水电运检管理系统及方法，包括：数据采集模块、数据处理模块、实时分析模块、应用服务模块；其中，Referring to FIG. 6 , the water and electricity inspection management system and method according to the embodiment of the present invention includes: a data acquisition module, a data processing module, a real-time analysis module, and an application service module; wherein,

数据采集模块，用于采集设备产生的数据，并保存到数据库服务器中；The data acquisition module is used to collect the data generated by the equipment and save it to the database server;

数据处理模块，用于对现场数据进行处理，将处理结果生成告警数据、评价数据、提醒数据、现场计划等数据；The data processing module is used to process on-site data, and generate alarm data, evaluation data, reminder data, on-site plan and other data from the processing results;

实时分析模块，用于对设备、缺陷、运行等主题的数据统计分析和汇总；Real-time analysis module for statistical analysis and summary of data on equipment, defects, operation and other topics;

应用服务模块，用于提供用户访问所述原始数据，以及交互操作所述告警数据、评价数据、提醒数据、现场计划等数据。The application service module is used to provide users with access to the original data, and interactive operation of the alarm data, evaluation data, reminder data, on-site plan and other data.

所述数据采集单元使用任务调度方式进行数据采集。所述数据采集模块设定系统采集的频率。所述数据采集模块将采集到的数据直接保存到接口数据原始表，如果采集出现异常或错误，将信息记录在日志文件里；所述数据处理模块根据采集到的原始数据进行分析、加工、处理、统计、预测和评价操作；所述数据处理模块生成告警数据、评价数据、历史评价、预测信息、统计信息、现场计划。The data collection unit uses task scheduling to collect data. The data collection module sets the frequency of system collection. The data acquisition module directly saves the collected data to the original table of interface data, and records the information in a log file if an abnormality or error occurs in the collection; the data processing module analyzes, processes, and processes the collected raw data. , statistics, prediction and evaluation operations; the data processing module generates alarm data, evaluation data, historical evaluation, prediction information, statistical information, and field plans.

所述实时分析模块对设备、缺陷、运行等主题的数据统计分析和汇总；所述实时分析模块的统计图表由参量跟踪、趋势分析、类比分析、多参量分析、数据统计图表组成；所述应用服务模块由在线监测模块、可视化展现模块、辅助决策模块、图形分析模块、数据查询模块、知识库配置模块、设备维护模块、系统管理模块组成；所述可视化展现模块由现场设备状态可视化、现场设备告警可视化、现场生产可视化、应检修项目可视化组成；所述图形分析模块的数据保存到数据库中，并随时提取分析数据，形成统计图表；所述知识库配置模块由状态量分类、状态量规则、评分规则、状态规则、故障诊断、检修项目、流程设置组成。The real-time analysis module performs statistical analysis and summary of data on topics such as equipment, defects, and operation; the statistical chart of the real-time analysis module is composed of parameter tracking, trend analysis, analogy analysis, multi-parameter analysis, and data statistical charts; the application The service module is composed of an online monitoring module, a visual display module, an auxiliary decision-making module, a graphic analysis module, a data query module, a knowledge base configuration module, an equipment maintenance module, and a system management module; the visual display module is composed of field equipment status visualization, field equipment Alarm visualization, on-site production visualization, and maintenance item visualization; the data of the graphic analysis module is saved in the database, and the analysis data is extracted at any time to form a statistical chart; the knowledge base configuration module is composed of state quantity classification, state quantity rules, It consists of scoring rules, status rules, fault diagnosis, maintenance items, and process settings.

以上所述是本发明的优选实施方式，应当指出，对于本技术领域的普通技术人员来说，在不脱离本发明所述原理的前提下，还可以作出若干改进和润饰，这些改进和润饰也应视为本发明的保护范围。The above are the preferred embodiments of the present invention. It should be pointed out that for those skilled in the art, without departing from the principles of the present invention, several improvements and modifications can be made. It should be regarded as the protection scope of the present invention.

Claims (8)

1. A water electrical inspection management system, comprising: the system comprises a data acquisition module, a data processing module, a real-time analysis module and an application service module;

the data acquisition module is used for receiving the operation data of the equipment and storing the received operation data of the equipment into the database server;

the data processing module is used for analyzing the operation data of the equipment to generate analysis data in a preset format; wherein the analytical data comprises at least one of: alarm data, evaluation data, historical evaluation data, prediction information data, statistical information data and field plan data;

the real-time analysis module is used for summarizing preset analysis data generated in the data processing module to obtain a data set with a preset theme, and performing statistical analysis and summarization on the data set with the preset theme; wherein the data set of the preset theme comprises at least one of: a device data set, an operational data set, a defect data set;

and the application service module is used for providing an interface for user access and processing the original equipment operation data of the data acquisition module, the analysis data of the data processing module and the data packet of the preset theme of the real-time analysis module according to the input of the user.

2. The water electrical inspection management system of claim 1, wherein the application service module comprises: the online monitoring system comprises an online monitoring module, a visual display module, an auxiliary decision module, a graphic analysis module, a data query module, a knowledge base configuration module, an equipment maintenance module and a system management module;

the online monitoring module is used for reading original equipment operation data in an interface data original table acquired and stored in the database by the data acquisition module and detecting whether the original equipment operation data in the interface data original table is complete or not in real time;

the visual display module is used for reading original equipment operation data in the interface data original table and displaying the original equipment operation data by using a graphical interface;

the auxiliary decision module is used for reading original equipment operation data in the interface data original table, and analyzing the original equipment operation data in the interface data original table through a fault detection model obtained after analyzing historical equipment operation equipment and a historical data set with a preset theme so as to obtain an auxiliary decision;

the graphic analysis module is used for acquiring analysis data in a preset format of the data processing module and displaying the analysis data in a graphic interface;

the data query module is used for querying original equipment operation data in the interface data original table, analysis data in the data processing module and data set of a preset theme in the real-time analysis module according to query conditions input by a user;

the knowledge base configuration module is used for storing a preset knowledge set, and the knowledge set at least comprises at least one of the following: state quantity classification, state quantity rules, grading rules, state rules, fault diagnosis, maintenance projects and process setting;

the equipment maintenance module is used for storing a maintenance log of the equipment and generating an equipment maintenance plan according to the analysis data obtained by the data processing module;

the system management module is used for configuring the system according to the input of the user.

3. The water electric operating inspection management system of claim 2, wherein the equipment maintenance module is configured to generate an equipment maintenance plan based on the analysis data of the data processing module, the equipment maintenance plan including at least one of: the method comprises the following steps of daily maintenance of equipment, defect management of the equipment, health analysis of the equipment, hidden danger analysis of the equipment, regular inspection plan, constant value management and abnormal action management of the equipment.

4. The water electrical inspection management system of claim 2, wherein the visual display module is configured to provide visual pictures of the status of the field device, the alarm of the field device, the production environment, and the project to be inspected through a camera installed around the device.

5. A water and electricity operation and inspection management method is characterized by comprising the following steps:

receiving operation data of the equipment, and storing the received operation data of the equipment into a database server;

analyzing the operation data of the equipment to generate analysis data in a preset format; wherein the analytical data comprises at least one of: alarm data, evaluation data, historical evaluation data, prediction information data, statistical information data and field plan data;

summarizing preset analysis data generated in a data processing module to obtain a data set of a preset theme, and performing statistical analysis and summarization on the data set of the preset theme; wherein the data set of the preset theme comprises at least one of: a device data set, an operational data set, a defect data set;

and providing an interface for user access, and processing original equipment operation data of the data acquisition module, analysis data of the data processing module and a data packet of a preset theme of the real-time analysis module according to the input of a user.

6. The water and electricity operation management method according to claim 5, further comprising at least one of the steps of:

reading original equipment operation data in an interface data original table acquired and stored in a database by a data acquisition module, and detecting whether the original equipment operation data in the interface data original table is complete or not in real time;

reading original equipment operation data in an interface data original table, and displaying by using a graphical interface;

reading original equipment operation data in an interface data original table, and analyzing the original equipment operation data in the interface data original table through a fault detection model obtained after analyzing historical equipment operation equipment and a historical data set with a preset theme so as to obtain an auxiliary decision;

acquiring analysis data of a data processing module in a preset format, and displaying the analysis data on a graphical interface;

according to the query condition input by a user, querying in a data set of original equipment operation data in the interface data original table, analysis data in the data processing module and a preset theme in the real-time analysis module;

storing a preset knowledge set, wherein the knowledge set at least comprises at least one of the following: state quantity classification, state quantity rules, grading rules, state rules, fault diagnosis, maintenance projects and process setting;

storing the maintenance log of the equipment, and generating an equipment maintenance plan according to the analysis data obtained by the data processing module;

and configuring the system according to the input of the user.

7. The water electric inspection management system of claim 6 wherein the equipment maintenance plan includes at least one of: the method comprises the following steps of daily maintenance of equipment, defect management of the equipment, health analysis of the equipment, hidden danger analysis of the equipment, regular inspection plan, constant value management and abnormal action management of the equipment.

8. The water electrical inspection management system of claim 6, wherein the method further comprises: visual field equipment state pictures, field equipment warning pictures, field production environment pictures and picture of project to be overhauled are provided through cameras arranged on the periphery of the equipment.