技术领域Technical Field
本申请涉及继电保护技术领域,特别是涉及一种继电保护系统的校验数据确定方法、装置和计算机设备。The present application relates to the technical field of relay protection, and in particular to a method, device and computer equipment for determining verification data of a relay protection system.
背景技术Background technique
随着电力技术的发展,人们需求用电也越来越多,在供电的过程中,保证蓄能电站的供电可靠性是重中之重,蓄能电站的继电保护系统需要进行日常的维护工作。With the development of electric power technology, people's demand for electricity is increasing. In the process of power supply, ensuring the power supply reliability of energy storage power stations is of paramount importance. The relay protection system of energy storage power stations requires daily maintenance.
现在的继电保护系统的日常维护工作中,通常需要对多个继电保护功能进行校验,继电保护功能的功能校验数据通常由人工手动计算得到。In the daily maintenance of current relay protection systems, it is usually necessary to verify multiple relay protection functions, and the functional verification data of the relay protection functions are usually obtained by manual calculation.
然而,现有的继电保护功能的校验数据确定方式存在效率低的问题。However, the existing verification data determination method for relay protection function has the problem of low efficiency.
发明内容Summary of the invention
基于此,有必要针对上述技术问题,提供一种能够提高确定继电保护功能的校验数据效率的继电保护系统的校验数据确定方法、装置和计算机设备。Based on this, it is necessary to provide a verification data determination method, device and computer equipment for a relay protection system that can improve the efficiency of determining verification data for relay protection functions in order to address the above technical problems.
第一方面,本申请提供了一种继电保护系统的校验数据确定方法,该方法包括:In a first aspect, the present application provides a method for determining verification data of a relay protection system, the method comprising:
响应于在展示的继电保护系统功能校验界面中,针对待校验功能的触发操作,展示待校验功能对应的功能校验界面;In response to a triggering operation of a function to be verified in the displayed relay protection system function verification interface, a function verification interface corresponding to the function to be verified is displayed;
响应于针对在功能校验界面展示的功能校验因素的参数输入操作,获取参数输入操作对应的功能校验参数;In response to a parameter input operation for a function verification factor displayed on the function verification interface, obtaining a function verification parameter corresponding to the parameter input operation;
响应于在功能校验界面中获取校验数据的触发操作,在功能校验界面中,展示根据参数输入操作对应的功能校验参数得到的待校验功能的目标功能校验数据;目标功能校验数据用于指示对待校验功能进行校验。In response to a trigger operation of obtaining verification data in the function verification interface, the target function verification data of the function to be verified obtained according to the function verification parameters corresponding to the parameter input operation is displayed in the function verification interface; the target function verification data is used to indicate the verification of the function to be verified.
在其中一个实施例中,功能校验界面中设置有校验数据获取控件和校验操作提示控件;目标功能校验数据包括待校验功能的功能校验数据和校验操作提示数据;In one embodiment, a verification data acquisition control and a verification operation prompt control are provided in the function verification interface; the target function verification data includes the function verification data and the verification operation prompt data of the function to be verified;
响应于在功能校验界面中获取校验数据的触发操作,在功能校验界面中,展示根据参数输入操作对应的功能校验参数得到的待校验功能的目标功能校验数据,包括:In response to a trigger operation of obtaining verification data in the function verification interface, target function verification data of the function to be verified obtained according to the function verification parameters corresponding to the parameter input operation is displayed in the function verification interface, including:
响应于校验数据获取控件的触发操作,根据在功能校验界面的第一预设区域触发的参数输入操作对应的功能校验参数,确定待校验功能的功能校验数据;In response to a triggering operation of the verification data acquisition control, determining the function verification data of the function to be verified according to the function verification parameter corresponding to the parameter input operation triggered in the first preset area of the function verification interface;
在功能校验界面的第二预设区域展示待校验功能的功能校验数据;Displaying the function verification data of the function to be verified in the second preset area of the function verification interface;
响应于校验操作提示控件的触发操作,展示校验操作提示窗口,并在校验操作提示窗口展示预先设置的校验操作提示数据。In response to the triggering operation of the verification operation prompt control, a verification operation prompt window is displayed, and pre-set verification operation prompt data is displayed in the verification operation prompt window.
在其中一个实施例中,目标功能校验数据包括待校验功能的功能校验数据和校验操作提示数据;In one embodiment, the target function verification data includes function verification data of the function to be verified and verification operation prompt data;
响应于在功能校验界面中获取校验数据的触发操作,在功能校验界面中,展示根据参数输入操作对应的功能校验参数得到的待校验功能的目标功能校验数据,包括:In response to a trigger operation of obtaining verification data in the function verification interface, target function verification data of the function to be verified obtained according to the function verification parameters corresponding to the parameter input operation is displayed in the function verification interface, including:
响应于在功能校验界面中获取校验数据的触发操作,在功能校验界面的第二预设区域,展示根据在第一预设区域触发的参数输入操作对应的功能校验参数得到的待校验功能的功能校验数据;In response to a triggering operation of obtaining verification data in the function verification interface, displaying, in a second preset area of the function verification interface, function verification data of the function to be verified obtained according to the function verification parameters corresponding to the parameter input operation triggered in the first preset area;
在第二预设区域展示预先设置的校验操作提示数据。The preset verification operation prompt data is displayed in the second preset area.
在其中一个实施例中,功能校验界面设置有多个子校验功能的子功能校验控件;In one of the embodiments, the function verification interface is provided with a plurality of sub-function verification controls of sub-functions;
响应于针对在功能校验界面展示的功能校验因素的参数输入操作,获取参数输入操作对应的功能校验参数之前,还包括:In response to a parameter input operation for a function verification factor displayed on the function verification interface, before obtaining a function verification parameter corresponding to the parameter input operation, the method further includes:
响应于子功能校验控件的触发操作,在功能校验界面中展示子功能校验控件对应的子校验功能的功能校验因素,并展示功能校验因素对应的参数输入框;In response to the triggering operation of the sub-function verification control, the function verification factor of the sub-verification function corresponding to the sub-function verification control is displayed in the function verification interface, and the parameter input box corresponding to the function verification factor is displayed;
响应于针对在功能校验界面展示的功能校验因素的参数输入操作,获取参数输入操作对应的功能校验参数,包括:In response to a parameter input operation for a function verification factor displayed on the function verification interface, obtaining a function verification parameter corresponding to the parameter input operation includes:
响应于在功能校验因素对应的参数输入框的参数输入操作,获取参数输入操作对应的功能校验参数。In response to a parameter input operation in a parameter input box corresponding to a function verification factor, a function verification parameter corresponding to the parameter input operation is obtained.
在其中一个实施例中,该方法还包括:In one embodiment, the method further comprises:
响应于在展示的继电保护系统功能校验界面中针对待校验功能的校验报告的触发操作,展示校验报告的生成设置界面;In response to a triggering operation of a verification report for a function to be verified in the displayed relay protection system function verification interface, a generation setting interface for the verification report is displayed;
响应于在生成设置界面触发的报告创建操作,展示功能校验因素列表;In response to a report creation operation triggered on a generation settings interface, a list of functional verification factors is displayed;
响应于在生成设置界面触发的报告生成操作,展示根据在功能校验因素列表的参数输入操作对应的功能校验参数生成的校验报告;校验报告用于指示对多个待校验功能进行校验。In response to the report generation operation triggered in the generation setting interface, a verification report generated according to the function verification parameters corresponding to the parameter input operation in the function verification factor list is displayed; the verification report is used to indicate the verification of multiple functions to be verified.
在其中一个实施例中,响应于在生成设置界面触发的报告创建操作,展示功能校验因素列表之后,还包括:In one embodiment, in response to a report creation operation triggered on a generation setting interface, after displaying a list of function verification factors, the method further includes:
在功能校验因素列表中以预设颜色展示用于输入功能校验参数的单元格;In the list of functional calibration factors, cells for entering functional calibration parameters are displayed in preset colors;
响应于在单元格中输入功能校验参数的操作,获取输入功能校验参数的操作对应的功能校验参数。In response to an operation of inputting a function verification parameter in a cell, a function verification parameter corresponding to the operation of inputting the function verification parameter is acquired.
在其中一个实施例中,响应于在展示的继电保护系统功能校验界面中针对待校验功能的校验报告的触发操作,展示校验报告的生成设置界面之后,还包括:In one embodiment, in response to a triggering operation of a verification report for a function to be verified in a displayed relay protection system function verification interface, after displaying a generation setting interface of a verification report, the method further includes:
响应于在生成设置界面触发的报告创建路径输入操作,获取并展示报告创建路径输入操作对应的报告创建路径;报告创建路径为功能校验因素列表的存在路径;In response to a report creation path input operation triggered in a generation setting interface, a report creation path corresponding to the report creation path input operation is acquired and displayed; the report creation path is an existence path of the function verification factor list;
响应于在生成设置界面触发的报告生成路径输入操作,获取并展示报告生成路径输入操作对应的报告生成路径;报告生成路径为校验报告的存放路径。In response to a report generation path input operation triggered in a generation setting interface, a report generation path corresponding to the report generation path input operation is acquired and displayed; the report generation path is a storage path for the verification report.
第二方面,本申请还提供了一种继电保护系统的校验数据确定装置,该装置包括:In a second aspect, the present application further provides a verification data determination device for a relay protection system, the device comprising:
校验界面展示模块,用于响应于在展示的继电保护系统功能校验界面中,针对待校验功能的触发操作,展示待校验功能对应的功能校验界面;A verification interface display module, for displaying a function verification interface corresponding to the function to be verified in response to a triggering operation of the function to be verified in the displayed relay protection system function verification interface;
校验参数获取模块,用于响应于针对在功能校验界面展示的功能校验因素的参数输入操作,获取参数输入操作对应的功能校验参数;A verification parameter acquisition module, for responding to a parameter input operation for a function verification factor displayed on the function verification interface, and acquiring a function verification parameter corresponding to the parameter input operation;
校验数据展示模块,用于响应于在功能校验界面中获取校验数据的触发操作,在功能校验界面中,展示根据参数输入操作对应的功能校验参数得到的待校验功能的目标功能校验数据;目标功能校验数据用于指示对待校验功能进行校验。The verification data display module is used to respond to the trigger operation of obtaining verification data in the function verification interface, and display the target function verification data of the function to be verified obtained according to the function verification parameters corresponding to the parameter input operation in the function verification interface; the target function verification data is used to indicate the verification of the function to be verified.
第三方面,本申请还提供了一种计算机设备,该计算机设备,包括存储器和处理器,存储器存储有计算机程序,处理器执行计算机程序时实现上述的方法的步骤。In a third aspect, the present application further provides a computer device, which includes a memory and a processor, wherein the memory stores a computer program, and the processor implements the steps of the above method when executing the computer program.
第四方面,本申请还提供了一种计算机可读存储介质,该计算机可读存储介质,其上存储有计算机程序,计算机程序被处理器执行时实现上述的方法的步骤。In a fourth aspect, the present application further provides a computer-readable storage medium, on which a computer program is stored, and the computer program implements the steps of the above method when executed by a processor.
上述继电保护系统的校验数据确定方法、装置和计算机设备,通过响应于在展示的继电保护系统功能校验界面中,针对待校验功能的触发操作,展示待校验功能对应的功能校验界面;并响应于针对在功能校验界面展示的功能校验因素的参数输入操作,获取参数输入操作对应的功能校验参数;通过响应于在功能校验界面中获取校验数据的触发操作,在功能校验界面中,展示根据参数输入操作对应的功能校验参数得到的待校验功能的目标功能校验数据;目标功能校验数据用于指示对待校验功能进行校验。与传统技术相比,本申请通过前端处理,在待校验功能对应的功能校验界面中获取输入的功能校验参数,并根据功能校验参数得到的待校验功能的目标功能校验数据,并在功能校验界面中展示在功能校验参数得到的待校验功能的目标功能校验数据,可以直接利用展示的目标功能校验数据进行待校验功能的继电保护校验,避免人工进行计算目标功能校验数据,从而可以提高确定继电保护功能的功能校验数据的效率。The verification data determination method, device and computer equipment of the above-mentioned relay protection system, by responding to the trigger operation for the function to be verified in the displayed relay protection system function verification interface, displaying the function verification interface corresponding to the function to be verified; and in response to the parameter input operation for the function verification factor displayed in the function verification interface, obtaining the function verification parameter corresponding to the parameter input operation; by responding to the trigger operation of obtaining verification data in the function verification interface, displaying the target function verification data of the function to be verified obtained according to the function verification parameter corresponding to the parameter input operation in the function verification interface; the target function verification data is used to indicate the verification of the function to be verified. Compared with the traditional technology, the present application obtains the input function verification parameter in the function verification interface corresponding to the function to be verified through front-end processing, and obtains the target function verification data of the function to be verified according to the function verification parameter, and displays the target function verification data of the function to be verified obtained according to the function verification parameter in the function verification interface, which can directly use the displayed target function verification data to perform relay protection verification of the function to be verified, avoiding manual calculation of the target function verification data, thereby improving the efficiency of determining the function verification data of the relay protection function.
附图说明BRIEF DESCRIPTION OF THE DRAWINGS
为了更清楚地说明本申请实施例或相关技术中的技术方案,下面将对实施例或相关技术描述中所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图仅仅是本申请的一些实施例,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其他的附图。In order to more clearly illustrate the technical solutions in the embodiments of the present application or the related technologies, the drawings required for use in the embodiments or the related technical descriptions are briefly introduced below. Obviously, the drawings described below are only some embodiments of the present application. For ordinary technicians in this field, other drawings can be obtained based on these drawings without paying creative work.
图1为一个实施例中继电保护系统的校验数据确定方法的流程示意图;FIG1 is a schematic flow chart of a method for determining verification data of a relay protection system in one embodiment;
图2为一个实施例中展示目标功能校验数据步骤的流程示意图;FIG2 is a schematic diagram of a flow chart showing target function verification data steps in one embodiment;
图3为另一个实施例中继电保护系统的校验数据确定方法的流程示意图;FIG3 is a schematic flow chart of a method for determining verification data of a relay protection system in another embodiment;
图4为一个实施例中功能界面主页面的示意图;FIG4 is a schematic diagram of a main page of a functional interface in one embodiment;
图5为一个实施例中失磁保护功能校验数据展示页面的示意图;FIG5 is a schematic diagram of a demagnetization protection function verification data display page in one embodiment;
图6为一个实施例中失磁保护功能校验提示的示意图;FIG6 is a schematic diagram of a demagnetization protection function verification prompt in one embodiment;
图7为一个实施例中比率差动保护功能校验数据展示页面的示意图;FIG7 is a schematic diagram of a ratio differential protection function verification data display page in one embodiment;
图8为一个实施例中比率差动保护功能校验提示的示意图;FIG8 is a schematic diagram of a ratio differential protection function verification prompt in one embodiment;
图9为一个实施例中充电保护功能校验数据展示页面的示意图;FIG9 is a schematic diagram of a charging protection function verification data display page in one embodiment;
图10为一个实施例中母差保护功能校验数据展示页面的示意图;FIG10 is a schematic diagram of a bus differential protection function verification data display page in one embodiment;
图11为一个实施例中母差保护功能校验提示的示意图;FIG11 is a schematic diagram of a bus differential protection function verification prompt in one embodiment;
图12为一个实施例中母联保护部分校验数据展示页面的示意图;FIG12 is a schematic diagram of a busbar protection part verification data display page in one embodiment;
图13为一个实施例中工频变化距离保护功能校验数据展示页面的示意图;FIG13 is a schematic diagram of a power frequency variation distance protection function verification data display page in one embodiment;
图14为一个实施例中工频变化距离保护功能校验提示的示意图;FIG14 is a schematic diagram of a power frequency variation distance protection function verification prompt in one embodiment;
图15为一个实施例中报告生成设置页面的示意图;FIG15 is a schematic diagram of a report generation setting page in one embodiment;
图16为一个实施例中蓄能电厂保护功能校验记录表的示意图;FIG16 is a schematic diagram of a protection function verification record table of an energy storage power plant in one embodiment;
图17为一个实施例中蓄能电厂保护功能校验定值参数表的示意图;FIG17 is a schematic diagram of a constant value parameter table for checking protection functions of an energy storage power plant in one embodiment;
图18为一个实施例中继电保护系统的校验数据确定装置的结构框图;FIG18 is a structural block diagram of a verification data determination device of a relay protection system in one embodiment;
图19为一个实施例中计算机设备的内部结构图。FIG. 19 is a diagram showing the internal structure of a computer device in one embodiment.
具体实施方式Detailed ways
为了使本申请的目的、技术方案及优点更加清楚明白,以下结合附图及实施例,对本申请进行进一步详细说明。应当理解,此处描述的具体实施例仅仅用以解释本申请,并不用于限定本申请。In order to make the purpose, technical solution and advantages of the present application more clearly understood, the present application is further described in detail below in conjunction with the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are only used to explain the present application and are not used to limit the present application.
在一个示例性的实施例中,如图1所示,提供了一种继电保护系统的校验数据确定方法,本实施例以该方法应用于终端进行举例说明,可以理解的是,该方法也可以应用于服务器,还可以应用于包括终端和服务器的系统,并通过终端和服务器的交互实现。本实施例中,方法包括以下S102至S106,其中:In an exemplary embodiment, as shown in FIG1 , a method for determining verification data of a relay protection system is provided. This embodiment is illustrated by applying the method to a terminal. It is understandable that the method can also be applied to a server, and can also be applied to a system including a terminal and a server, and is implemented through the interaction between the terminal and the server. In this embodiment, the method includes the following S102 to S106, wherein:
S102,响应于在展示的继电保护系统功能校验界面中,针对待校验功能的触发操作,展示待校验功能对应的功能校验界面。S102, in response to a triggering operation of a function to be verified in the displayed relay protection system function verification interface, display a function verification interface corresponding to the function to be verified.
其中,继电保护系统功能校验界面可以是继电保护系统的功能校验应用程序中的界面。继电保护系统的功能校验应用程序可以是用于指示对继电保护系统的功能进行校验的应用程序。例如,继电保护系统的功能校验应用程序可以是继电保护系统功能校验软件。待校验功能可以是待进行校验的继电保护系统的功能,例如,待校验功能可以是机组保护功能、主变保护功能、断路器保护功能、母线保护功能、线路保护功能等。功能校验界面可以是用于展示待校验功能的校验参数的界面。Among them, the relay protection system function verification interface may be an interface in the function verification application of the relay protection system. The function verification application of the relay protection system may be an application for instructing to verify the function of the relay protection system. For example, the function verification application of the relay protection system may be the relay protection system function verification software. The function to be verified may be the function of the relay protection system to be verified, for example, the function to be verified may be the unit protection function, the main transformer protection function, the circuit breaker protection function, the busbar protection function, the line protection function, etc. The function verification interface may be an interface for displaying the verification parameters of the function to be verified.
示例性地,终端可以响应于继电保护系统功能校验软件的打开操作,展示继电保护系统功能校验界面。继电保护系统功能校验界面中可以展示有多个待校验功能,终端可以响应于用户选择的待校验功能的触发操作,展示所选择的待校验功能对应的展示待校验功能的校验参数的功能校验界面。如此,用户可以从功能校验界面中获取待校验功能的校验参数,避免计算继电保护系统功能校验的校验数据,从而可以提高确定继电保护功能的功能校验数据的效率。Exemplarily, the terminal may display a relay protection system function verification interface in response to the opening operation of the relay protection system function verification software. Multiple functions to be verified may be displayed in the relay protection system function verification interface, and the terminal may display a function verification interface corresponding to the selected function to be verified in response to the trigger operation of the function to be verified selected by the user, which displays the verification parameters of the function to be verified. In this way, the user can obtain the verification parameters of the function to be verified from the function verification interface, avoid calculating the verification data of the relay protection system function verification, and thus improve the efficiency of determining the function verification data of the relay protection function.
S104,响应于针对在功能校验界面展示的功能校验因素的参数输入操作,获取参数输入操作对应的功能校验参数。S104, in response to a parameter input operation for a function verification factor displayed on the function verification interface, obtaining a function verification parameter corresponding to the parameter input operation.
其中,功能校验因素可以是待校验功能的功能校验变量,可以是继电保护系统的参数。参数输入操作可以是输入功能校验因素的参数的操作。功能校验参数可以是用于计算继电保护系统的待校验功能的功能校验数据的参数。The function verification factor may be a function verification variable of the function to be verified, or may be a parameter of the relay protection system. The parameter input operation may be an operation of inputting a parameter of the function verification factor. The function verification parameter may be a parameter used to calculate the function verification data of the function to be verified of the relay protection system.
示例性地,终端可以在功能校验界面中展示有功能校验因素,以及功能校验因素的输入框。终端可以响应于用户在输入框的参数输入操作,获取与参数输入操作对应的功能校验参数。即功能校验参数可以是用户在输入框输入的参数。终端可以在功能校验因素的输入框中展示对应的功能校验参数。如此,终端可以基于用户输入的功能校验因素的功能校验参数,计算得到继电保护系统的待校验功能的功能校验数据,从而可以避免人工计算功能校验数据,提高确定继电保护功能的功能校验数据的效率。Exemplarily, the terminal may display the functional verification factors and the input box of the functional verification factors in the functional verification interface. The terminal may obtain the functional verification parameters corresponding to the parameter input operation in response to the parameter input operation of the user in the input box. That is, the functional verification parameters may be the parameters input by the user in the input box. The terminal may display the corresponding functional verification parameters in the input box of the functional verification factors. In this way, the terminal may calculate the functional verification data of the function to be verified of the relay protection system based on the functional verification parameters of the functional verification factors input by the user, thereby avoiding the manual calculation of the functional verification data and improving the efficiency of determining the functional verification data of the relay protection function.
S106,响应于在功能校验界面中获取校验数据的触发操作,在功能校验界面中,展示根据参数输入操作对应的功能校验参数得到的待校验功能的目标功能校验数据;目标功能校验数据用于指示对待校验功能进行校验。S106, in response to a trigger operation of obtaining verification data in the function verification interface, target function verification data of the function to be verified obtained according to the function verification parameters corresponding to the parameter input operation is displayed in the function verification interface; the target function verification data is used to indicate verification of the function to be verified.
其中,获取校验数据的触发操作可以是触发获取校验数据的控件的操作。目标功能校验数据可以是用于校验继电保护系统的待校验功能的数据。目标功能校验数据用于指示对校验继电保护系统的待校验功能进行校验,例如,用户可以利用目标功能校验数据,对校验继电保护系统的待校验功能进行校验,判断该待校验功能是否满足预设条件。The triggering operation for obtaining the verification data may be an operation of a control that triggers obtaining the verification data. The target function verification data may be data used to verify the function to be verified of the relay protection system. The target function verification data is used to indicate that the function to be verified of the verification relay protection system is to be verified. For example, the user may use the target function verification data to verify the function to be verified of the verification relay protection system and determine whether the function to be verified meets the preset conditions.
示例性地,终端可以在功能校验界面中设置有获取校验数据的控件,例如,可以是校验数据计算控件。终端可以响应于在功能校验界面中的校验数据计算控件的触发操作,根据参数输入操作对应的功能校验参数,计算得到待校验功能的目标功能校验数据,并可以在功能校验界面中展示待校验功能的目标功能校验数据。目标功能校验数据可以用于指示对待校验功能进行校验。如此,终端能够响应于在功能校验界面中获取校验数据的触发操作,自动根据参数输入操作对应的功能校验参数,计算得到待校验功能的目标功能校验数据,可以避免人工计算继电保护系统的待校验功能的校验数据,从而可以提高确定继电保护功能的功能校验数据的效率。Exemplarily, the terminal may be provided with a control for obtaining verification data in the function verification interface, for example, it may be a verification data calculation control. The terminal may respond to the trigger operation of the verification data calculation control in the function verification interface, calculate the target function verification data of the function to be verified according to the function verification parameters corresponding to the parameter input operation, and may display the target function verification data of the function to be verified in the function verification interface. The target function verification data may be used to indicate that the function to be verified is to be verified. In this way, the terminal can respond to the trigger operation of obtaining verification data in the function verification interface, automatically calculate the target function verification data of the function to be verified according to the function verification parameters corresponding to the parameter input operation, and can avoid manually calculating the verification data of the function to be verified of the relay protection system, thereby improving the efficiency of determining the function verification data of the relay protection function.
本实施例中,通过响应于在展示的继电保护系统功能校验界面中,针对待校验功能的触发操作,展示待校验功能对应的功能校验界面;并响应于针对在功能校验界面展示的功能校验因素的参数输入操作,获取参数输入操作对应的功能校验参数;通过响应于在功能校验界面中获取校验数据的触发操作,在功能校验界面中,展示根据参数输入操作对应的功能校验参数得到的待校验功能的目标功能校验数据;目标功能校验数据用于指示对待校验功能进行校验。与传统技术相比,本申请通过前端处理,在待校验功能对应的功能校验界面中获取输入的功能校验参数,并根据功能校验参数得到的待校验功能的目标功能校验数据,并在功能校验界面中展示在功能校验参数得到的待校验功能的目标功能校验数据,可以直接利用展示的目标功能校验数据进行待校验功能的继电保护校验,避免人工进行计算目标功能校验数据,从而可以提高确定继电保护功能的功能校验数据的效率。In this embodiment, in response to the trigger operation for the function to be verified in the displayed relay protection system function verification interface, the function verification interface corresponding to the function to be verified is displayed; and in response to the parameter input operation for the function verification factor displayed in the function verification interface, the function verification parameter corresponding to the parameter input operation is obtained; in response to the trigger operation of obtaining verification data in the function verification interface, the target function verification data of the function to be verified obtained according to the function verification parameter corresponding to the parameter input operation is displayed in the function verification interface; the target function verification data is used to indicate the verification of the function to be verified. Compared with the traditional technology, the present application obtains the input function verification parameter in the function verification interface corresponding to the function to be verified through front-end processing, and obtains the target function verification data of the function to be verified according to the function verification parameter, and displays the target function verification data of the function to be verified obtained according to the function verification parameter in the function verification interface, so that the relay protection verification of the function to be verified can be directly performed using the displayed target function verification data, avoiding the manual calculation of the target function verification data, thereby improving the efficiency of determining the function verification data of the relay protection function.
在一个示例性的实施例中,功能校验界面中设置有校验数据获取控件和校验操作提示控件;目标功能校验数据包括待校验功能的功能校验数据和校验操作提示数据;In an exemplary embodiment, a verification data acquisition control and a verification operation prompt control are provided in the function verification interface; the target function verification data includes the function verification data and the verification operation prompt data of the function to be verified;
如图2所示,响应于在功能校验界面中获取校验数据的触发操作,在功能校验界面中,展示根据参数输入操作对应的功能校验参数得到的待校验功能的目标功能校验数据,包括S202至S206,其中:As shown in FIG. 2 , in response to a trigger operation of obtaining verification data in the function verification interface, the target function verification data of the function to be verified obtained according to the function verification parameters corresponding to the parameter input operation is displayed in the function verification interface, including S202 to S206, wherein:
S202,响应于校验数据获取控件的触发操作,根据在功能校验界面的第一预设区域触发的参数输入操作对应的功能校验参数,确定待校验功能的功能校验数据。S202, in response to a triggering operation of a verification data acquisition control, determining function verification data of a function to be verified according to a function verification parameter corresponding to a parameter input operation triggered in a first preset area of a function verification interface.
其中,校验数据获取控件可以是上述的校验数据计算控件。第一预设区域可以是功能校验界面中设置输入功能校验参数的区域,例如,第一预设区域可以是功能校验界面的上半部分区域,也可以是功能校验界面的左半部分区域。待校验功能的功能校验数据可以是待校验功能对应的校验数据。Among them, the verification data acquisition control can be the above-mentioned verification data calculation control. The first preset area can be an area in the function verification interface for setting input function verification parameters. For example, the first preset area can be the upper half area of the function verification interface, or the left half area of the function verification interface. The function verification data of the function to be verified can be the verification data corresponding to the function to be verified.
S204,在功能校验界面的第二预设区域展示待校验功能的功能校验数据。S204, displaying the function verification data of the function to be verified in the second preset area of the function verification interface.
其中,第二预设区域可以是用于展示待校验功能的功能校验数据的区域,第二预设区域可以是与第一预设区域不相同的区域,例如,第二预设区域可以是功能校验界面的下半部分区域,也可以是功能校验界面的右半部分区域。Among them, the second preset area can be an area for displaying the function verification data of the function to be verified, and the second preset area can be an area different from the first preset area. For example, the second preset area can be the lower half of the function verification interface, or it can be the right half of the function verification interface.
S206,响应于校验操作提示控件的触发操作,展示校验操作提示窗口,并在校验操作提示窗口展示预先设置的校验操作提示数据。S206, in response to the triggering operation of the verification operation prompt control, displaying a verification operation prompt window, and displaying pre-set verification operation prompt data in the verification operation prompt window.
其中,校验操作提示控件可以是用于触发校验操作提示的控件。校验操作提示可以是用于指示功能校验操作的提示,校验操作提示可以以数据的形式进行展示,例如,校验操作提示可以指示功能校验操作中某一校验参数的设置数值。校验操作提示数据可以是用于指示功能校验操作的数据,可以是以文本形式体现的数据。校验操作提示数据可以是针对待校验功能设置的需要注意操作的数据。Among them, the verification operation prompt control may be a control for triggering a verification operation prompt. The verification operation prompt may be a prompt for indicating a function verification operation, and the verification operation prompt may be displayed in the form of data. For example, the verification operation prompt may indicate a setting value of a verification parameter in a function verification operation. The verification operation prompt data may be data for indicating a function verification operation, and may be data in the form of text. The verification operation prompt data may be data for operations that require attention set for the function to be verified.
示例性地,终端展示的功能校验界面中可以设置有校验数据获取控件(校验数据计算控件)和校验操作提示控件。用户可以触发校验数据获取控件和校验操作提示控件。终端可以在功能校验界面的第一预设区域展示有功能校验因素,以及功能校验因素的输入框。终端可以响应于用户在输入框的参数输入操作,获取与参数输入操作对应的功能校验参数。终端可以响应于用户触发校验数据获取控件的操作,根据在功能校验界面的第一预设区域触发的参数输入操作对应的功能校验参数,计算得到待校验功能的功能校验数据。终端可以在功能校验界面的第二预设区域中展示上述计算得到的待校验功能的功能校验数据。终端可以响应于用户触发校验操作提示控件的操作,展示校验操作提示窗口,例如,终端可以在功能校验界面中弹出校验操作提示窗口,终端可以在校验操作提示窗口中展示预先设置的校验操作提示数据。Exemplarily, a check data acquisition control (check data calculation control) and a check operation prompt control may be provided in the function check interface displayed by the terminal. The user may trigger the check data acquisition control and the check operation prompt control. The terminal may display the function check factor and the input box of the function check factor in the first preset area of the function check interface. The terminal may obtain the function check parameter corresponding to the parameter input operation in response to the user's parameter input operation in the input box. The terminal may calculate the function check data of the function to be checked according to the function check parameter corresponding to the parameter input operation triggered in the first preset area of the function check interface in response to the user's operation of triggering the check data acquisition control. The terminal may display the function check data of the function to be checked calculated above in the second preset area of the function check interface. The terminal may display the check operation prompt window in response to the user's operation of triggering the check operation prompt control. For example, the terminal may pop up the check operation prompt window in the function check interface, and the terminal may display the preset check operation prompt data in the check operation prompt window.
本实施例中,通过响应于校验数据获取控件的触发操作,根据在功能校验界面的第一预设区域触发的参数输入操作对应的功能校验参数,确定待校验功能的功能校验数据。在功能校验界面的第二预设区域展示待校验功能的功能校验数据。通过响应于校验操作提示控件的触发操作,展示校验操作提示窗口,能够在校验操作提示窗口展示预先设置的校验操作提示数据。如此,能够响应于校验数据获取控件,直接计算得到待校验功能的功能校验数据,避免人工计算待校验功能的功能校验数据,从而可以提高确定继电保护功能的功能校验数据的效率。并且通过响应于校验操作提示控件的触发操作,能够在校验操作提示窗口展示预先设置的校验操作提示数据,能够有效提示对继电保护功能进行校验的注意事项,从而可以提高校验继电保护功能的准确性。In this embodiment, by responding to the triggering operation of the verification data acquisition control, the function verification data of the function to be verified is determined according to the function verification parameters corresponding to the parameter input operation triggered in the first preset area of the function verification interface. The function verification data of the function to be verified is displayed in the second preset area of the function verification interface. By responding to the triggering operation of the verification operation prompt control, the verification operation prompt window is displayed, and the pre-set verification operation prompt data can be displayed in the verification operation prompt window. In this way, the function verification data of the function to be verified can be directly calculated in response to the verification data acquisition control, avoiding manual calculation of the function verification data of the function to be verified, thereby improving the efficiency of determining the function verification data of the relay protection function. And by responding to the triggering operation of the verification operation prompt control, the pre-set verification operation prompt data can be displayed in the verification operation prompt window, which can effectively prompt the precautions for verifying the relay protection function, thereby improving the accuracy of verifying the relay protection function.
在一个示例性的实施例中,目标功能校验数据包括待校验功能的功能校验数据和校验操作提示数据;In an exemplary embodiment, the target function verification data includes function verification data of the function to be verified and verification operation prompt data;
响应于在功能校验界面中获取校验数据的触发操作,在功能校验界面中,展示根据参数输入操作对应的功能校验参数得到的待校验功能的目标功能校验数据,包括:In response to a trigger operation of obtaining verification data in the function verification interface, target function verification data of the function to be verified obtained according to the function verification parameters corresponding to the parameter input operation is displayed in the function verification interface, including:
响应于在功能校验界面中获取校验数据的触发操作,在功能校验界面的第二预设区域,展示根据在第一预设区域触发的参数输入操作对应的功能校验参数得到的待校验功能的功能校验数据;In response to a triggering operation of obtaining verification data in the function verification interface, displaying, in a second preset area of the function verification interface, function verification data of the function to be verified obtained according to the function verification parameters corresponding to the parameter input operation triggered in the first preset area;
在第二预设区域展示预先设置的校验操作提示数据。The preset verification operation prompt data is displayed in the second preset area.
其中,第一预设区域可以是功能校验界面中设置输入功能校验参数的区域,例如,第一预设区域可以是功能校验界面的上半部分区域,也可以是功能校验界面的左半部分区域。第二预设区域可以是用于展示待校验功能的功能校验数据的区域,第二预设区域可以是与第一预设区域不相同的区域,例如,第二预设区域可以是功能校验界面的下半部分区域,也可以是功能校验界面的右半部分区域。The first preset area may be an area in the function verification interface for setting and inputting function verification parameters, for example, the first preset area may be the upper half of the function verification interface, or the left half of the function verification interface. The second preset area may be an area for displaying function verification data of the function to be verified, and the second preset area may be an area different from the first preset area, for example, the second preset area may be the lower half of the function verification interface, or the right half of the function verification interface.
示例性地,终端可以在功能校验界面中展示有第一预设区域和第二预设区域。第一预设区域可以展示有功能校验因素,以及功能校验因素的输入框。终端可以响应于用户在第一预设区域中的输入框的参数输入操作,获取与参数输入操作对应的功能校验参数。终端可以响应于用户在功能校验界面中获取校验数据的触发操作,根据的参数输入操作对应的功能校验参数计算得到的待校验功能的功能校验数据;并且终端可以直接在第二预设区域中展示上述计算得到的待校验功能的功能校验数据,同时终端响应于用户在功能校验界面中获取校验数据的触发操作,在第二预设区域展示预先设置的校验操作提示数据。如此,能够直接在第二预设区域同时展示待校验功能的功能校验数据以及预先设置的校验操作提示数据,减少校验操作提示窗口的设置,能够提高确定目标功能校验数据的准确性,并且同时展示待校验功能的功能校验数据以及预先设置的校验操作提示数据,可以得到更好的展示效果。Exemplarily, the terminal may display a first preset area and a second preset area in the function verification interface. The first preset area may display a function verification factor and an input box for the function verification factor. The terminal may obtain a function verification parameter corresponding to the parameter input operation in response to the user's parameter input operation in the input box of the first preset area. The terminal may calculate the function verification data of the function to be verified according to the function verification parameter corresponding to the parameter input operation in response to the user's trigger operation of obtaining verification data in the function verification interface; and the terminal may directly display the function verification data of the function to be verified obtained by the above calculation in the second preset area, and at the same time, the terminal displays the preset verification operation prompt data in the second preset area in response to the user's trigger operation of obtaining verification data in the function verification interface. In this way, the function verification data of the function to be verified and the preset verification operation prompt data can be directly displayed in the second preset area at the same time, reducing the setting of the verification operation prompt window, and can improve the accuracy of determining the target function verification data, and at the same time display the function verification data of the function to be verified and the preset verification operation prompt data, which can obtain a better display effect.
本实施例中,通过响应于在功能校验界面中获取校验数据的触发操作,在功能校验界面的第二预设区域,展示根据在第一预设区域触发的参数输入操作对应的功能校验参数得到的待校验功能的功能校验数据;并且在第二预设区域展示预先设置的校验操作提示数据。如此,能够提高确定目标功能校验数据的准确性,并且同时展示待校验功能的功能校验数据以及预先设置的校验操作提示数据,可以得到更好的展示效果,从而可以提高确定继电保护功能的功能校验数据的效率。In this embodiment, in response to the trigger operation of obtaining verification data in the function verification interface, the function verification data of the function to be verified obtained according to the function verification parameters corresponding to the parameter input operation triggered in the first preset area are displayed in the second preset area of the function verification interface; and the pre-set verification operation prompt data are displayed in the second preset area. In this way, the accuracy of determining the target function verification data can be improved, and the function verification data of the function to be verified and the pre-set verification operation prompt data are displayed at the same time, which can obtain a better display effect, thereby improving the efficiency of determining the function verification data of the relay protection function.
在一个示例性的实施例中,功能校验界面设置有多个子校验功能的子功能校验控件;In an exemplary embodiment, the function verification interface is provided with sub-function verification controls of a plurality of sub-verification functions;
响应于针对在功能校验界面展示的功能校验因素的参数输入操作,获取参数输入操作对应的功能校验参数之前,还包括:In response to a parameter input operation for a function verification factor displayed on the function verification interface, before obtaining a function verification parameter corresponding to the parameter input operation, the method further includes:
响应于子功能校验控件的触发操作,在功能校验界面中展示子功能校验控件对应的子校验功能的功能校验因素,并展示功能校验因素对应的参数输入框。In response to the triggering operation of the sub-function verification control, the function verification factors of the sub-verification function corresponding to the sub-function verification control are displayed in the function verification interface, and the parameter input boxes corresponding to the function verification factors are displayed.
其中,子校验功能可以是待校验功能中待校验的子功能,例如,机组保护功能可以包括纵差保护、横差保护、复压过流保护、定子接地保护、过负荷保护、失磁保护、失步保护、功率保护、过电压保护、过励磁保护、过励磁、高频保护、低频保护、断路器失灵保护等子功能。子功能校验控件可以是针对子校验功能设置的控件,可以是用于展示子校验功能对应的页面的控件。参数输入框可以是用于输入功能校验因素对应的功能校验参数的展示框。Among them, the sub-verification function can be a sub-function to be verified in the function to be verified. For example, the unit protection function can include longitudinal differential protection, transverse differential protection, re-pressure overcurrent protection, stator grounding protection, overload protection, demagnetization protection, out-of-step protection, power protection, overvoltage protection, overexcitation protection, overexcitation, high frequency protection, low frequency protection, circuit breaker failure protection and other sub-functions. The sub-function verification control can be a control set for the sub-verification function, and can be a control for displaying the page corresponding to the sub-verification function. The parameter input box can be a display box for inputting the function verification parameters corresponding to the function verification factors.
示例性地,终端可以在功能校验界面设置有多个子校验功能对应的子功能校验控件,用户可以触发需要进行功能校验的子校验功能对应的子功能校验控件,终端可以响应于用户触发的子功能校验控件,在功能校验界面中展示子功能校验控件对应的子校验功能的展示页面,并在该子校验功能的展示页面中展示有功能校验因素,以及展示功能校验因素对应的参数输入框。用户可以针对功能校验因素,在对应的输入框中输入功能校验因素对应的功能校验参数,进一步终端可以根据输入的功能校验参数,计算得到子校验功能的目标功能校验数据,减少人工计算子校验功能的目标功能校验数据,从而可以提高确定继电保护功能的功能校验数据的效率。Exemplarily, the terminal may be provided with a plurality of sub-function verification controls corresponding to sub-function verification functions in the function verification interface, and the user may trigger the sub-function verification control corresponding to the sub-function verification function that needs to be functionally verified. The terminal may respond to the sub-function verification control triggered by the user, and display the display page of the sub-function verification control corresponding to the sub-function verification control in the function verification interface, and display the function verification factors and the parameter input box corresponding to the function verification factors in the display page of the sub-function verification function. The user may input the function verification parameters corresponding to the function verification factors in the corresponding input box for the function verification factors, and further the terminal may calculate the target function verification data of the sub-function verification function according to the input function verification parameters, thereby reducing the manual calculation of the target function verification data of the sub-function verification function, and thus improving the efficiency of determining the function verification data of the relay protection function.
响应于针对在功能校验界面展示的功能校验因素的参数输入操作,获取参数输入操作对应的功能校验参数,包括:In response to a parameter input operation for a function verification factor displayed on the function verification interface, obtaining a function verification parameter corresponding to the parameter input operation includes:
响应于在功能校验因素对应的参数输入框的参数输入操作,获取参数输入操作对应的功能校验参数。In response to a parameter input operation in a parameter input box corresponding to a function verification factor, a function verification parameter corresponding to the parameter input operation is obtained.
示例性地,终端可以响应于用户在功能校验因素对应的参数输入框输入参数的操作,获取与参数输入操作对应的功能校验参数。终端可以在功能校验因素的参数输入框中展示用户输入的功能校验参数。如此,终端进一步可以基于用户输入的功能校验因素的功能校验参数,计算得到继电保护系统的待校验功能的功能校验数据,从而可以避免人工计算功能校验数据,提高确定继电保护功能的功能校验数据的效率。Exemplarily, the terminal can obtain the function verification parameter corresponding to the parameter input operation in response to the user inputting the parameter in the parameter input box corresponding to the function verification factor. The terminal can display the function verification parameter input by the user in the parameter input box of the function verification factor. In this way, the terminal can further calculate the function verification data of the function to be verified of the relay protection system based on the function verification parameter of the function verification factor input by the user, thereby avoiding the manual calculation of the function verification data and improving the efficiency of determining the function verification data of the relay protection function.
本实施例中,通过响应于子功能校验控件的触发操作,在功能校验界面中展示子功能校验控件对应的子校验功能的功能校验因素,并展示功能校验因素对应的参数输入框。并通过响应于在功能校验因素对应的参数输入框的参数输入操作,获取参数输入操作对应的功能校验参数,从而可以直接计算得到子校验功能的目标功能校验数据,无需人工计算子校验功能的目标功能校验数据,从而可以提高确定继电保护功能的功能校验数据的效率。In this embodiment, by responding to the triggering operation of the sub-function verification control, the function verification factor of the sub-verification function corresponding to the sub-function verification control is displayed in the function verification interface, and the parameter input box corresponding to the function verification factor is displayed. And by responding to the parameter input operation in the parameter input box corresponding to the function verification factor, the function verification parameter corresponding to the parameter input operation is obtained, so that the target function verification data of the sub-verification function can be directly calculated, without manually calculating the target function verification data of the sub-verification function, thereby improving the efficiency of determining the function verification data of the relay protection function.
在一个示例性的实施例中,如图3所示,该方法还包括S302至S306,其中:In an exemplary embodiment, as shown in FIG3 , the method further includes S302 to S306, wherein:
S302,响应于在展示的继电保护系统功能校验界面中针对待校验功能的校验报告的触发操作,展示校验报告的生成设置界面;S302, in response to a triggering operation of a verification report for a function to be verified in the displayed relay protection system function verification interface, displaying a generation setting interface for the verification report;
S304,响应于在生成设置界面触发的报告创建操作,展示功能校验因素列表;S304, in response to the report creation operation triggered in the generation setting interface, displaying a list of function verification factors;
S306,响应于在生成设置界面触发的报告生成操作,展示根据在功能校验因素列表的参数输入操作对应的功能校验参数生成的校验报告;校验报告用于指示对多个待校验功能进行校验。S306, in response to the report generation operation triggered in the generation setting interface, display the verification report generated according to the function verification parameters corresponding to the parameter input operation in the function verification factor list; the verification report is used to indicate the verification of multiple functions to be verified.
其中,校验报告可以是用于指示对继电保护系统的多个保护功能进行校验的报告,校验报告可以包含有多个保护功能对应的功能校验数据。生成设置界面可以是设置校验报告的生成操作的界面。报告创建操作可以是用户触发的用于创建校验报告的操作。报告生成操作可以是用户触发的用户生成校验报告的操作。功能校验因素列表可以是用户展示功能校验因素的列表,功能校验因素列表还可以展示用于输入功能校验因素的功能校验参数的输入框。功能校验因素列表可以是参数表格。Among them, the verification report can be a report for instructing the verification of multiple protection functions of the relay protection system, and the verification report can contain functional verification data corresponding to multiple protection functions. The generation setting interface can be an interface for setting the generation operation of the verification report. The report creation operation can be an operation triggered by the user for creating a verification report. The report generation operation can be an operation triggered by the user for the user to generate a verification report. The functional verification factor list can be a list of functional verification factors displayed by the user, and the functional verification factor list can also display an input box for inputting functional verification parameters of the functional verification factors. The functional verification factor list can be a parameter table.
示例性地,终端可以在继电保护系统功能校验界面中展示有获取校验报告的控件,例如可以展示有报告生成控件,用户可以触发报告生成控件,终端可以响应于用户触发的报告生成控件,展示校验报告的生成设置界面。终端可以在生成设置界面展示有报告创建控件,用户可以触发该报告创建控件,终端可以响应于用户触发的报告创建控件,展示功能校验因素列表;功能校验因素列表可以展示有多个待校验功能对应的功能校验因素,以及各个功能校验因素对应的参数输入框。用户可以在参数输入框输入对应于功能校验因素的功能校验参数。终端还可以在生成设置界面展示有报告生成控件,用户可以触发报告生成控件,终端可以响应于用户触发的报告生成控件,根据在功能校验因素列表的参数输入操作对应的功能校验参数生成的校验报告,并且终端可以展示用于指示对多个待校验功能进行校验的校验报告,以使用户可以根据校验报告对继电保护系统的多个待校验功能进行校验处理,可以避免人工计算继电保护系统的功能校验数据,从而可以提高确定继电保护系统的功能校验数据的效率,进而能够提高继电保护系统的功能校验效率。Exemplarily, the terminal may display a control for obtaining a verification report in the relay protection system function verification interface, for example, a report generation control may be displayed, and the user may trigger the report generation control. The terminal may display a generation setting interface for the verification report in response to the report generation control triggered by the user. The terminal may display a report creation control in the generation setting interface, and the user may trigger the report creation control. The terminal may display a list of function verification factors in response to the report creation control triggered by the user; the function verification factor list may display multiple function verification factors corresponding to the functions to be verified, and parameter input boxes corresponding to each function verification factor. The user may enter the function verification parameters corresponding to the function verification factors in the parameter input box. The terminal can also display a report generation control in the generation setting interface, and the user can trigger the report generation control. The terminal can respond to the report generation control triggered by the user and generate a verification report according to the function verification parameters corresponding to the parameter input operation in the function verification factor list, and the terminal can display a verification report for instructing the verification of multiple functions to be verified, so that the user can verify the multiple functions to be verified of the relay protection system according to the verification report, thereby avoiding manual calculation of the functional verification data of the relay protection system, thereby improving the efficiency of determining the functional verification data of the relay protection system, and further improving the functional verification efficiency of the relay protection system.
本实施例中,通过响应于在展示的继电保护系统功能校验界面中针对待校验功能的校验报告的触发操作,展示校验报告的生成设置界面;并响应于在生成设置界面触发的报告创建操作,展示功能校验因素列表;通过响应于在生成设置界面触发的报告生成操作,能够展示根据在功能校验因素列表的参数输入操作对应的功能校验参数生成的校验报告;校验报告用于指示对多个待校验功能进行校验。如此,能够避免人工计算继电保护系统的功能校验数据,并且可以统一输出继电保护系统的多个待校验功能的功能校验数据,从而可以提高确定继电保护系统的功能校验数据的效率,进而能够提高继电保护系统的功能校验效率。In this embodiment, by responding to the triggering operation of the verification report for the function to be verified in the displayed relay protection system function verification interface, the generation setting interface of the verification report is displayed; and in response to the report creation operation triggered in the generation setting interface, the function verification factor list is displayed; by responding to the report generation operation triggered in the generation setting interface, the verification report generated according to the function verification parameters corresponding to the parameter input operation in the function verification factor list can be displayed; the verification report is used to indicate the verification of multiple functions to be verified. In this way, it is possible to avoid manually calculating the function verification data of the relay protection system, and the function verification data of multiple functions to be verified of the relay protection system can be uniformly output, thereby improving the efficiency of determining the function verification data of the relay protection system, and further improving the function verification efficiency of the relay protection system.
在一个示例性的实施例中,响应于在生成设置界面触发的报告创建操作,展示功能校验因素列表之后,还包括:In an exemplary embodiment, in response to a report creation operation triggered on a generation setting interface, after displaying a list of function verification factors, the following further comprises:
在功能校验因素列表中以预设颜色展示用于输入功能校验参数的单元格;In the list of functional calibration factors, cells for entering functional calibration parameters are displayed in preset colors;
响应于在单元格中输入功能校验参数的操作,获取输入功能校验参数的操作对应的功能校验参数。In response to an operation of inputting a function verification parameter in a cell, a function verification parameter corresponding to the operation of inputting the function verification parameter is acquired.
其中,预设颜色可以是预先设置的颜色,例如,可以是黄色。单元格可以是用于输入功能校验参数的输入框。The preset color may be a pre-set color, for example, yellow. The cell may be an input box for inputting function verification parameters.
示例性地,终端可以在功能校验因素列表中预先设置的颜色来展示用于输入功能校验参数的单元格,从而可以方便提醒用户输入功能校验参数的输入框,提高用户的输入效率。用户可以在以预设颜色展示的单元格中输入功能校验参数,终端可以响应于在单元格中输入功能校验参数的操作,获取输入功能校验参数的操作对应的功能校验参数。进一步,终端可以根据在功能校验因素列表的单元格中输入的功能校验参数生成的校验报告。Exemplarily, the terminal can display the cell for inputting the function verification parameter in the color pre-set in the function verification factor list, so as to conveniently remind the user to input the input box of the function verification parameter, thereby improving the user's input efficiency. The user can enter the function verification parameter in the cell displayed in the preset color, and the terminal can respond to the operation of entering the function verification parameter in the cell and obtain the function verification parameter corresponding to the operation of entering the function verification parameter. Further, the terminal can generate a verification report based on the function verification parameter entered in the cell of the function verification factor list.
本实施例中,通过在功能校验因素列表中以预设颜色展示用于输入功能校验参数的单元格;并响应于在单元格中输入功能校验参数的操作,能够获取输入功能校验参数的操作对应的功能校验参数,如此,能够统一输入功能校验参数,从而可以提高确定继电保护功能校验的效率。In this embodiment, by displaying the cells for inputting function verification parameters in a preset color in the function verification factor list; and in response to the operation of inputting the function verification parameters in the cells, the function verification parameters corresponding to the operation of inputting the function verification parameters can be obtained. In this way, the input function verification parameters can be unified, thereby improving the efficiency of determining the relay protection function verification.
在一个示例性的实施例中,响应于在展示的继电保护系统功能校验界面中针对待校验功能的校验报告的触发操作,展示校验报告的生成设置界面之后,还包括:In an exemplary embodiment, in response to a triggering operation of a verification report for a function to be verified in the displayed relay protection system function verification interface, after displaying a generation setting interface of the verification report, the method further includes:
响应于在生成设置界面触发的报告创建路径输入操作,获取并展示报告创建路径输入操作对应的报告创建路径;报告创建路径为功能校验因素列表的存在路径;In response to a report creation path input operation triggered in a generation setting interface, a report creation path corresponding to the report creation path input operation is acquired and displayed; the report creation path is an existence path of the function verification factor list;
响应于在生成设置界面触发的报告生成路径输入操作,获取并展示报告生成路径输入操作对应的报告生成路径;报告生成路径为校验报告的存放路径。In response to a report generation path input operation triggered in a generation setting interface, a report generation path corresponding to the report generation path input operation is acquired and displayed; the report generation path is a storage path for the verification report.
其中,报告创建路径输入操作可以是用户输入报告创建路径的操作,报告创建路径可以是用于存放功能校验因素列表的路径。报告生成路径输入操作可以是用户指示生成校验报告的操作。报告生成路径可以是存在校验报告的路径。The report creation path input operation may be an operation in which a user inputs a report creation path, and the report creation path may be a path for storing a list of function verification factors. The report generation path input operation may be an operation in which a user instructs a verification report to be generated. The report generation path may be a path in which a verification report exists.
示例性地,终端可以在生成设置界面展示有报告创建路径的选择控件,用户可以选择存放功能校验因素列表的报告创建路径。终端可以响应于用户在生成设置界面触发的报告创建路径输入操作,确定并在生成设置界面中展示报告创建路径输入操作对应的报告创建路径。用户可以在报告创建路径中获取并查看功能校验因素列表。终端可以响应于用户在生成设置界面触发的报告生成路径输入操作,确定并在生成设置界面中展示报告生成路径输入操作对应的报告生成路径。用户可以在报告生成路径中获取并查看校验报告。Exemplarily, the terminal may display a selection control of a report creation path in the generation setting interface, and the user may select the report creation path storing the list of functional verification factors. The terminal may determine and display the report creation path corresponding to the report creation path input operation in the generation setting interface in response to the report creation path input operation triggered by the user in the generation setting interface. The user may obtain and view the list of functional verification factors in the report creation path. The terminal may determine and display the report generation path corresponding to the report generation path input operation in the generation setting interface in response to the report generation path input operation triggered by the user in the generation setting interface. The user may obtain and view the verification report in the report generation path.
本实施例中,通过响应于在生成设置界面触发的报告创建路径输入操作,获取并展示报告创建路径输入操作对应的报告创建路径;报告创建路径为功能校验因素列表的存在路径;并响应于在生成设置界面触发的报告生成路径输入操作,获取并展示报告生成路径输入操作对应的报告生成路径;报告生成路径为校验报告的存放路径。如此,能够有利于用户查找功能校验因素列表以及校验报告,从而可以提高确定继电保护功能校验的效率,提高继电保护系统的功能校验的效率。In this embodiment, in response to the report creation path input operation triggered in the generation setting interface, the report creation path corresponding to the report creation path input operation is obtained and displayed; the report creation path is the existence path of the function verification factor list; and in response to the report generation path input operation triggered in the generation setting interface, the report generation path corresponding to the report generation path input operation is obtained and displayed; the report generation path is the storage path of the verification report. In this way, it is helpful for users to find the function verification factor list and the verification report, thereby improving the efficiency of determining the relay protection function verification and improving the efficiency of the function verification of the relay protection system.
在一个示例性的实施例中,提供了一种继电保护系统的校验数据确定方法,包括:In an exemplary embodiment, a method for determining verification data of a relay protection system is provided, comprising:
如图4所示,终端可以展示有总菜单栏选择对应的功能界面,返回主页面,查看软件信息,关闭软件等。可以集成PCS985主变保护、PCS985发电机保护、PCS31线路保护、PCS915母线保护、PCS921N断路器保护的功能校验量计算,作为工作的辅助工具。可在右侧功能按钮选取所需的功能分区,功能分区包括机组保护功能校验、主变保护功能校验、断路器功能校验、母线保护功能校验、线路保护功能校验及报告生成。As shown in Figure 4, the terminal can display the function interface corresponding to the general menu bar selection, return to the main page, view software information, close the software, etc. The function verification calculation of PCS985 main transformer protection, PCS985 generator protection, PCS31 line protection, PCS915 busbar protection, and PCS921N circuit breaker protection can be integrated as an auxiliary tool for work. The required functional partition can be selected from the function button on the right. The functional partition includes unit protection function verification, main transformer protection function verification, circuit breaker function verification, busbar protection function verification, line protection function verification and report generation.
机组保护功能校验包括:纵差保护、横差保护、复压过流保护、定子接地保护、过负荷保护、失磁保护、失步保护、功率保护、过电压保护、过励磁保护、过励磁、高频保护、低频保护、断路器失灵保护功能。The unit protection function verification includes: longitudinal differential protection, transverse differential protection, re-voltage overcurrent protection, stator grounding protection, overload protection, demagnetization protection, out-of-step protection, power protection, overvoltage protection, overexcitation protection, overexcitation, high frequency protection, low frequency protection, and circuit breaker failure protection.
如图5所示,以失磁保护功能校验计算为例,在输入对应的静稳圆上边界、静稳圆下边界、无功反向定值、机端低电压(线电压)、母线低电压(线电压)、转子低电压、发电机二次额定电压、发电机二次额定电流、发电机功率因素、试验电流设定等定值及参数后,点击计算按钮可计算出校验失磁保护功能所需的试验值。所需的试验值如图5中所示的上边界阻抗判据动作值校验(0.95倍)等。As shown in Figure 5, taking the demagnetization protection function verification calculation as an example, after inputting the corresponding static stability circle upper boundary, static stability circle lower boundary, reactive reverse constant, machine end low voltage (line voltage), busbar low voltage (line voltage), rotor low voltage, generator secondary rated voltage, generator secondary rated current, generator power factor, test current setting and other constants and parameters, click the calculation button to calculate the test value required for the demagnetization protection function verification. The required test value is shown in Figure 5, such as the upper boundary impedance criterion action value verification (0.95 times), etc.
用户可以点击图5所示的提示按钮,终端可以显示试验失磁保护功能所需注意的事项,如图6所示,用户可以按确认键关闭,按提示内容可快速掌握试验步骤,找出关键试验信息。机组保护校验计算其余功能操作可以如图5、6类似。The user can click the prompt button shown in Figure 5, and the terminal can display the matters needing attention in the test of demagnetization protection function, as shown in Figure 6. The user can press the confirmation button to close it, and can quickly master the test steps and find out the key test information according to the prompt content. The operation of the remaining functions of the unit protection verification calculation can be similar to Figures 5 and 6.
主变保护功能校验可以包括:比率差动保护、相间后备保护、接地后备保护、过励磁保护功能校验计算功能。The main transformer protection function verification can include: ratio differential protection, phase-to-phase backup protection, grounding backup protection, and overexcitation protection function verification calculation functions.
如图7所示,以比率差动保护功能校验计算为例,输入对应的差动电流起动定值、高压侧额定电流、低压侧额定电流、起始比率差动斜率、最大比率差动斜率、制动电流等定值及参数,并选择故障类型后,点击计算按钮可计算出校验比率差动保护功能所需的试验值。因主变比率差动保护功能对于不同故障的相位及加量不同,因此可以设置故障选项。校验比率差动保护功能所需的试验值为如图7所示的单相故障(1.05倍动作)对应的试验值等。As shown in Figure 7, taking the ratio differential protection function verification calculation as an example, input the corresponding differential current starting constant, high voltage side rated current, low voltage side rated current, initial ratio differential slope, maximum ratio differential slope, braking current and other constants and parameters, and select the fault type, then click the calculation button to calculate the test value required for the verification ratio differential protection function. Because the main transformer ratio differential protection function has different phases and additions for different faults, the fault options can be set. The test value required for the verification ratio differential protection function is the test value corresponding to the single-phase fault (1.05 times action) shown in Figure 7, etc.
用户可以点击如图7所示的提示按钮,则会显示试验比率差动保护功能所需注意的事项,如图8所示,按确认键关闭,按提示内容可快速掌握试验步骤,找出关键试验信息。主变保护校验计算其余功能的操作如图7、8类似。The user can click the prompt button as shown in Figure 7, and the precautions for testing the ratio differential protection function will be displayed, as shown in Figure 8. Press the confirmation button to close it. According to the prompt content, you can quickly master the test steps and find out the key test information. The operation of the remaining functions of the main transformer protection verification calculation is similar to Figures 7 and 8.
断路器保护功能校验包括:失灵保护、死区保护、不一致保护、冲电保护功能校验计算功能。Circuit breaker protection function verification includes: failure protection, dead zone protection, inconsistency protection, and surge protection function verification calculation functions.
如图9所示,以充电保护功能校验计算为例,输入对应的充电保护电流定值、充电保护零序电流定值、等定值及参数,点击计算按钮可计算出校验充电保护功能所需的试验值。校验充电保护功能所需的试验值如图9所示的电流动作值(任一相)。As shown in Figure 9, taking the charging protection function verification calculation as an example, input the corresponding charging protection current setting value, charging protection zero-sequence current setting value, etc. setting value and parameters, and click the calculation button to calculate the test value required for verifying the charging protection function. The test value required for verifying the charging protection function is the current action value (any phase) shown in Figure 9.
与机组保护功能、主变保护功能校验计算界面不同,断路器保护的提示功能可以是无提示按钮的,如图9所示,在断路器保护的输入输出量较少,而提示较多的情况下,可以直接显示在操作界面上。断路器保护功能的校验计算其余功能操作如图9类似。Different from the verification calculation interface of the unit protection function and the main transformer protection function, the prompt function of the circuit breaker protection can be without a prompt button, as shown in Figure 9. When the input and output of the circuit breaker protection are small and there are many prompts, they can be directly displayed on the operation interface. The verification calculation of the circuit breaker protection function and other functions are similar to Figure 9.
母线保护功能校验包括:母差保护、母联失灵保护、母联死区保护、断路器失灵保护、母联非全相保护、母联过流等功能校验计算功能。The busbar protection function verification includes: busbar differential protection, busbar failure protection, busbar dead zone protection, circuit breaker failure protection, busbar non-full-phase protection, busbar overcurrent and other function verification calculation functions.
如图10所示,以母差保护功能校验计算为例,母差保护又分为启动值校验与比率差动功能区。输入对应的母联CT变比、基准CT变比、支路2CT变比、支路3CT变比、母差启动定值等定值及参数,点击计算按钮可计算出校验母差保护功能所需的试验值。校验母差保护功能所需的试验值包括如图10所示的I母区内故障(单相法,动作)对应的试验值。图10所示的加量均可以为在变比换算后的折算值。As shown in Figure 10, taking the bus differential protection function verification calculation as an example, the bus differential protection is divided into the starting value verification and ratio differential function areas. Enter the corresponding bus tie CT ratio, reference CT ratio, branch 2 CT ratio, branch 3 CT ratio, bus differential starting constant value and other constants and parameters, and click the calculation button to calculate the test values required for verifying the bus differential protection function. The test values required for verifying the bus differential protection function include the test values corresponding to the fault in bus zone I (single-phase method, action) as shown in Figure 10. The additions shown in Figure 10 can all be converted values after the ratio conversion.
与主变保护功能校验类似,点击图10中的提示按钮,则会显示本次试验母差保护功能所需注意的事项,如图11,按确认键关闭,按提示内容可快速掌握试验步骤,找出关键试验信息。Similar to the main transformer protection function verification, clicking the prompt button in Figure 10 will display the matters that need to be paid attention to in this test of the bus differential protection function, as shown in Figure 11. Press the confirmation button to close it. According to the prompt content, you can quickly master the test steps and find out the key test information.
在母联保护中,有部分功能与断路器保护功能一样,如图12所示,直接在操作界面上显示提示信息。母线保护功能校验计算其余功能操作如图10、11类似。In busbar protection, some functions are the same as circuit breaker protection functions, as shown in Figure 12, and prompt information is directly displayed on the operation interface. The operation of the remaining functions of busbar protection function verification calculation is similar to Figures 10 and 11.
线路保护功能校验包括:差动保护、距离保护、工频变化量距离保护、零序保护等功能。Line protection function verification includes: differential protection, distance protection, power frequency variation distance protection, zero sequence protection and other functions.
如图13所示,以工频变化距离保护功能校验计算为例,工频变化量距离保护又分为相间工频变化量距离保护与接地工频变化量距离保护功能区。输入对应的工频变化量距离保护定值、零序补偿系数、正序灵敏角、试验电流、动作倍数、额定电压等定值及参数,点击计算按钮可计算出校验工频变化量距离保护功能所需的试验值。校验工频变化量距离保护功能所需的试验值可以包括如图13所示的工频变量接地距离动作对应的试验值。As shown in Figure 13, taking the power frequency variation distance protection function verification calculation as an example, the power frequency variation distance protection is divided into the phase-to-phase power frequency variation distance protection and the grounding power frequency variation distance protection function area. Enter the corresponding power frequency variation distance protection constant, zero-sequence compensation coefficient, positive-sequence sensitivity angle, test current, action multiple, rated voltage and other constants and parameters, and click the calculation button to calculate the test values required for verifying the power frequency variation distance protection function. The test values required for verifying the power frequency variation distance protection function can include the test values corresponding to the power frequency variable grounding distance action shown in Figure 13.
与主变保护功能校验类似,点击图13中的提示按钮,则会显示本次试验工频变化距离保护功能所需注意的事项,如图14所示,按确认键关闭,按提示内容可快速掌握试验步骤,找出关键试验信息。Similar to the main transformer protection function verification, clicking the prompt button in Figure 13 will display the matters that need to be paid attention to in this test of the power frequency change distance protection function, as shown in Figure 14. Press the confirmation button to close it. According to the prompt content, you can quickly master the test steps and find out the key test information.
作为一个示例,由于蓄能电站需定期进行检修,并生成报告,本申请提供的继电保护系统的校验数据确定方法中也设置了此功能。在报告生成功能区中,输入对应的参数表,即可对蓄能电站进行机组保护功能校验、主变保护功能校验、断路器功能校验、母线保护功能校验、线路保护功能校验进行记录,其计算功能与方法与单体功能区中一致。如图15所示,在进行整体报告生成前,先生成定值参数表格,在图15所示的“蓄能电站保护相关定值及参数表格生成(含典型参数)”中选取生成表格位置,用“选择位置”选取存储位置,然后创建表格,在提示表格生成完成后,打开表格,生成如图16的蓄能电厂保护功能校验记录表,可以是excel表格。As an example, since the energy-storage power station needs to be regularly inspected and maintained and reports generated, this function is also provided in the verification data determination method of the relay protection system provided in this application. In the report generation function area, enter the corresponding parameter table to record the unit protection function verification, main transformer protection function verification, circuit breaker function verification, busbar protection function verification, and line protection function verification of the energy-storage power station. The calculation function and method are consistent with those in the single function area. As shown in Figure 15, before generating the overall report, generate a fixed value parameter table first, select the generation table location in the "Generation of related fixed values and parameter tables for energy-storage power station protection (including typical parameters)" shown in Figure 15, select the storage location with "Select Location", and then create a table. After the prompt table generation is completed, open the table to generate the energy-storage power plant protection function verification record table as shown in Figure 16, which can be an Excel table.
如图16中包含机组保护功能校验、主变保护功能校验、断路器功能校验、母线保护功能校验、线路保护功能校验所需的定值与参数,用于功能试验值计算,表格内标黄部分为可修改部分,可根据不同蓄能电站定值与参数的不同而作更改,其余参数可以不更改。应用程序会严格按照表格位置读取数据,数据位置不可更改,如误改数据可以重新生成整定参数表格。在修改完如图16中的定值与参数表格后,即可进行定值与参数表格的读取与生成报告。在图15“保护校验表格生成”选取中如图15设置完成的表格,在选取整定报告的生成位置,即可生成报告,报告的生成效果如图17所示。As shown in Figure 16, it contains the set values and parameters required for the unit protection function verification, main transformer protection function verification, circuit breaker function verification, busbar protection function verification, and line protection function verification, which are used for functional test value calculation. The yellow part in the table is the modifiable part, which can be changed according to the different set values and parameters of different energy storage power stations. The other parameters can be left unchanged. The application will read the data strictly according to the table position, and the data position cannot be changed. If the data is changed by mistake, the setting parameter table can be regenerated. After modifying the set value and parameter table as shown in Figure 16, you can read the set value and parameter table and generate a report. In Figure 15 "Protection Verification Table Generation", select the table set in Figure 15, and select the generation location of the setting report to generate a report. The report generation effect is shown in Figure 17.
可选地,图4、5、7、9、10、12、13、15、中所示的“主菜单”控件可以是用户返回主菜单的控件,“页面切换”可以是用于多个页面之间进行切换的控件,“关于”可以是用于解释说明应用软件的使用方法的控件。Optionally, the "Main Menu" control shown in Figures 4, 5, 7, 9, 10, 12, 13, and 15 can be a control for the user to return to the main menu, the "Page Switch" can be a control for switching between multiple pages, and the "About" can be a control for explaining how to use the application software.
本实施例中,可以根据保护装置功能原理开发保护功能检验软件,具有较强的通用性,可覆盖大部分已有的保护装置。单体保护功能校验模块化,可对特定保护功能进行单独计算,方便检验与学习单个功能的校验计算。对于需要批量检验功能的情况,在报告生成功能中先生成系统参数与保护定值表格,填入系统参数与保护定值,再在报告生成栏读取表格,即可生成报告。结合蓄能电站保护定检的需求,根据厂家的一书三册进行校验值计算,保证了计算结果的可靠性。软件单体保护功能检验计算内设置功能检验提示信息,如需投入的压板、控制字、开入信号等,用于功能检验时提醒需进行的操作,提高校验效率。窗体化设计,界面友好,易于操作,实用性强。In this embodiment, the protection function inspection software can be developed according to the functional principle of the protection device. It has strong versatility and can cover most of the existing protection devices. The modularization of the single protection function verification can perform separate calculations on specific protection functions, which is convenient for testing and learning the verification calculations of single functions. For situations where batch inspection functions are required, the system parameters and protection setting tables are first generated in the report generation function, and the system parameters and protection setting values are filled in. Then, the table is read in the report generation column to generate the report. In combination with the requirements of the energy storage power station protection inspection, the verification value calculation is performed according to the manufacturer's one book and three volumes to ensure the reliability of the calculation results. Functional inspection prompt information is set in the software single protection function inspection calculation, such as the pressure plate, control word, input signal, etc. that need to be invested, which is used to remind the operations that need to be performed during the function inspection and improve the verification efficiency. The form-based design has a friendly interface, is easy to operate, and is highly practical.
应该理解的是,虽然如上所述的各实施例所涉及的流程图中的各个步骤按照箭头的指示依次显示,但是这些步骤并不是必然按照箭头指示的顺序依次执行。除非本文中有明确的说明,这些步骤的执行并没有严格的顺序限制,这些步骤可以以其它的顺序执行。而且,如上所述的各实施例所涉及的流程图中的至少一部分步骤可以包括多个步骤或者多个阶段,这些步骤或者阶段并不必然是在同一时刻执行完成,而是可以在不同的时刻执行,这些步骤或者阶段的执行顺序也不必然是依次进行,而是可以与其它步骤或者其它步骤中的步骤或者阶段的至少一部分轮流或者交替地执行。It should be understood that, although the various steps in the flowcharts involved in the above-mentioned embodiments are displayed in sequence according to the indication of the arrows, these steps are not necessarily executed in sequence according to the order indicated by the arrows. Unless there is a clear explanation in this article, the execution of these steps does not have a strict order restriction, and these steps can be executed in other orders. Moreover, at least a part of the steps in the flowcharts involved in the above-mentioned embodiments can include multiple steps or multiple stages, and these steps or stages are not necessarily executed at the same time, but can be executed at different times, and the execution order of these steps or stages is not necessarily carried out in sequence, but can be executed in turn or alternately with other steps or at least a part of the steps or stages in other steps.
基于同样的发明构思,本申请实施例还提供了一种用于实现上述所涉及的继电保护系统的校验数据确定方法的继电保护系统的校验数据确定装置。该装置所提供的解决问题的实现方案与上述方法中所记载的实现方案相似,故下面所提供的一个或多个继电保护系统的校验数据确定装置实施例中的具体限定可以参见上文中对于继电保护系统的校验数据确定方法的限定,在此不再赘述。Based on the same inventive concept, the embodiment of the present application also provides a verification data determination device for a relay protection system for implementing the verification data determination method for the relay protection system involved above. The implementation scheme for solving the problem provided by the device is similar to the implementation scheme recorded in the above method, so the specific limitations in the embodiments of the verification data determination device for one or more relay protection systems provided below can refer to the limitations of the verification data determination method for the relay protection system above, and will not be repeated here.
在一个示例性的实施例中,如图18所示,提供了一种继电保护系统的校验数据确定装置,包括:校验界面展示模块510、校验参数获取模块520和校验数据展示模块530,其中:In an exemplary embodiment, as shown in FIG18 , a verification data determination device for a relay protection system is provided, comprising: a verification interface display module 510, a verification parameter acquisition module 520 and a verification data display module 530, wherein:
校验界面展示模块510,用于响应于在展示的继电保护系统功能校验界面中,针对待校验功能的触发操作,展示待校验功能对应的功能校验界面;The verification interface display module 510 is used to display a function verification interface corresponding to the function to be verified in response to a triggering operation of the function to be verified in the displayed relay protection system function verification interface;
校验参数获取模块520,用于响应于针对在功能校验界面展示的功能校验因素的参数输入操作,获取参数输入操作对应的功能校验参数;The verification parameter acquisition module 520 is used to respond to the parameter input operation for the function verification factor displayed on the function verification interface and obtain the function verification parameter corresponding to the parameter input operation;
校验数据展示模块530,用于响应于在功能校验界面中获取校验数据的触发操作,在功能校验界面中,展示根据参数输入操作对应的功能校验参数得到的待校验功能的目标功能校验数据;目标功能校验数据用于指示对待校验功能进行校验。The verification data display module 530 is used to respond to the trigger operation of obtaining verification data in the function verification interface, and display the target function verification data of the function to be verified obtained according to the function verification parameters corresponding to the parameter input operation in the function verification interface; the target function verification data is used to indicate the verification of the function to be verified.
在一个示例性的实施例中,功能校验界面中设置有校验数据获取控件和校验操作提示控件;目标功能校验数据包括待校验功能的功能校验数据和校验操作提示数据。In an exemplary embodiment, a verification data acquisition control and a verification operation prompt control are provided in the function verification interface; the target function verification data includes the function verification data of the function to be verified and the verification operation prompt data.
校验数据展示模块包括功能校验数据确定单元、功能校验数据展示单元和提示数据展示单元。The verification data display module includes a function verification data determination unit, a function verification data display unit and a prompt data display unit.
功能校验数据确定单元用于响应于校验数据获取控件的触发操作,根据在功能校验界面的第一预设区域触发的参数输入操作对应的功能校验参数,确定待校验功能的功能校验数据。功能校验数据展示单元用于在功能校验界面的第二预设区域展示待校验功能的功能校验数据。提示数据展示单元用于响应于校验操作提示控件的触发操作,展示校验操作提示窗口,并在校验操作提示窗口展示预先设置的校验操作提示数据。The function verification data determination unit is used to respond to the triggering operation of the verification data acquisition control, and determine the function verification data of the function to be verified according to the function verification parameters corresponding to the parameter input operation triggered in the first preset area of the function verification interface. The function verification data display unit is used to display the function verification data of the function to be verified in the second preset area of the function verification interface. The prompt data display unit is used to respond to the triggering operation of the verification operation prompt control, display the verification operation prompt window, and display the preset verification operation prompt data in the verification operation prompt window.
在一个示例性的实施例中,功能校验数据展示单元用于响应于在功能校验界面中获取校验数据的触发操作,在功能校验界面的第二预设区域,展示根据在第一预设区域触发的参数输入操作对应的功能校验参数得到的待校验功能的功能校验数据。提示数据展示单元用于在第二预设区域展示预先设置的校验操作提示数据。In an exemplary embodiment, the function verification data display unit is used to respond to the trigger operation of obtaining verification data in the function verification interface, and display the function verification data of the function to be verified obtained according to the function verification parameters corresponding to the parameter input operation triggered in the first preset area in the second preset area of the function verification interface. The prompt data display unit is used to display the preset verification operation prompt data in the second preset area.
在一个示例性的实施例中,功能校验界面设置有多个子校验功能的子功能校验控件。上述装置还包括参数输入框展示模块。In an exemplary embodiment, the function verification interface is provided with sub-function verification controls of a plurality of sub-verification functions. The above-mentioned device also includes a parameter input box display module.
参数输入框展示模块用于响应于子功能校验控件的触发操作,在功能校验界面中展示子功能校验控件对应的子校验功能的功能校验因素,并展示功能校验因素对应的参数输入框。校验参数获取模块用于响应于在功能校验因素对应的参数输入框的参数输入操作,获取参数输入操作对应的功能校验参数。The parameter input box display module is used to respond to the trigger operation of the sub-function verification control, display the function verification factors of the sub-verification function corresponding to the sub-function verification control in the function verification interface, and display the parameter input box corresponding to the function verification factor. The verification parameter acquisition module is used to respond to the parameter input operation in the parameter input box corresponding to the function verification factor, and acquire the function verification parameter corresponding to the parameter input operation.
在一个示例性的实施例中,上述装置还包括生成设置界面展示模块、校验因素列表展示模块和校验因素列表展示。In an exemplary embodiment, the above-mentioned device also includes a generation setting interface display module, a verification factor list display module and a verification factor list display.
生成设置界面展示模块用于响应于在展示的继电保护系统功能校验界面中针对待校验功能的校验报告的触发操作,展示校验报告的生成设置界面。校验因素列表展示模块用于响应于在生成设置界面触发的报告创建操作,展示功能校验因素列表。校验因素列表展示响应于在生成设置界面触发的报告生成操作,展示根据在功能校验因素列表的参数输入操作对应的功能校验参数生成的校验报告;校验报告用于指示对多个待校验功能进行校验。The generation setting interface display module is used to display the generation setting interface of the verification report in response to the triggering operation of the verification report for the function to be verified in the displayed relay protection system function verification interface. The verification factor list display module is used to display the function verification factor list in response to the report creation operation triggered in the generation setting interface. The verification factor list display displays the verification report generated according to the function verification parameters corresponding to the parameter input operation in the function verification factor list in response to the report generation operation triggered in the generation setting interface; the verification report is used to indicate the verification of multiple functions to be verified.
在一个示例性的实施例中,上述装置还包括单元格展示模块和功能校验参数获取模块。In an exemplary embodiment, the above-mentioned device also includes a cell display module and a function verification parameter acquisition module.
单元格展示模块用于在功能校验因素列表中以预设颜色展示用于输入功能校验参数的单元格。功能校验参数获取模块用于响应于在单元格中输入功能校验参数的操作,获取输入功能校验参数的操作对应的功能校验参数。The cell display module is used to display the cell for inputting the function verification parameter in the function verification factor list in a preset color. The function verification parameter acquisition module is used to respond to the operation of inputting the function verification parameter in the cell and acquire the function verification parameter corresponding to the operation of inputting the function verification parameter.
在一个示例性的实施例中,上述装置还包括报告创建路径展示模块和报告生成路径展示模块。In an exemplary embodiment, the above-mentioned apparatus further includes a report creation path display module and a report generation path display module.
报告创建路径展示模块用于响应于在生成设置界面触发的报告创建路径输入操作,获取并展示报告创建路径输入操作对应的报告创建路径;报告创建路径为功能校验因素列表的存在路径。报告生成路径展示模块用于响应于在生成设置界面触发的报告生成路径输入操作,获取并展示报告生成路径输入操作对应的报告生成路径;报告生成路径为校验报告的存放路径。The report creation path display module is used to respond to the report creation path input operation triggered in the generation setting interface, obtain and display the report creation path corresponding to the report creation path input operation; the report creation path is the existence path of the function verification factor list. The report generation path display module is used to respond to the report generation path input operation triggered in the generation setting interface, obtain and display the report generation path corresponding to the report generation path input operation; the report generation path is the storage path of the verification report.
上述继电保护系统的校验数据确定装置中的各个模块可全部或部分通过软件、硬件及其组合来实现。上述各模块可以硬件形式内嵌于或独立于计算机设备中的处理器中,也可以以软件形式存储于计算机设备中的存储器中,以便于处理器调用执行以上各个模块对应的操作。Each module in the verification data determination device of the above relay protection system can be implemented in whole or in part by software, hardware and a combination thereof. Each module can be embedded in or independent of a processor in a computer device in the form of hardware, or can be stored in a memory in a computer device in the form of software, so that the processor can call and execute operations corresponding to each module.
在一个示例性的实施例中,提供了一种计算机设备,该计算机设备可以是终端,其内部结构图可以如图19所示。该计算机设备包括处理器、存储器、输入/输出接口、通信接口、显示单元和输入装置。其中,处理器、存储器和输入/输出接口通过系统总线连接,通信接口、显示单元和输入装置通过输入/输出接口连接到系统总线。其中,该计算机设备的处理器用于提供计算和控制能力。该计算机设备的存储器包括非易失性存储介质和内存储器。该非易失性存储介质存储有操作系统和计算机程序。该内存储器为非易失性存储介质中的操作系统和计算机程序的运行提供环境。该计算机设备的输入/输出接口用于处理器与外部设备之间交换信息。该计算机设备的通信接口用于与外部的终端进行有线或无线方式的通信,无线方式可通过WIFI、移动蜂窝网络、NFC(近场通信)或其他技术实现。该计算机程序被处理器执行时以实现一种继电保护系统的校验数据确定方法。该计算机设备的显示单元用于形成视觉可见的画面,可以是显示屏、投影装置或虚拟现实成像装置。显示屏可以是液晶显示屏或者电子墨水显示屏,该计算机设备的输入装置可以是显示屏上覆盖的触摸层,也可以是计算机设备外壳上设置的按键、轨迹球或触控板,还可以是外接的键盘、触控板或鼠标等。In an exemplary embodiment, a computer device is provided, which may be a terminal, and its internal structure diagram may be shown in FIG19. The computer device includes a processor, a memory, an input/output interface, a communication interface, a display unit, and an input device. The processor, the memory, and the input/output interface are connected via a system bus, and the communication interface, the display unit, and the input device are connected to the system bus via the input/output interface. The processor of the computer device is used to provide computing and control capabilities. The memory of the computer device includes a non-volatile storage medium and an internal memory. The non-volatile storage medium stores an operating system and a computer program. The internal memory provides an environment for the operation of the operating system and the computer program in the non-volatile storage medium. The input/output interface of the computer device is used to exchange information between the processor and an external device. The communication interface of the computer device is used to communicate with an external terminal in a wired or wireless manner, and the wireless manner may be implemented through WIFI, a mobile cellular network, NFC (near field communication) or other technologies. When the computer program is executed by the processor, a verification data determination method for a relay protection system is implemented. The display unit of the computer device is used to form a visually visible picture, which may be a display screen, a projection device, or a virtual reality imaging device. The display screen can be a liquid crystal display screen or an electronic ink display screen, and the input device of the computer device can be a touch layer covering the display screen, or a button, trackball or touchpad set on the computer device shell, or an external keyboard, touchpad or mouse.
本领域技术人员可以理解,图19中示出的结构,仅仅是与本申请方案相关的部分结构的框图,并不构成对本申请方案所应用于其上的计算机设备的限定,具体的计算机设备可以包括比图中所示更多或更少的部件,或者组合某些部件,或者具有不同的部件布置。Those skilled in the art will understand that the structure shown in FIG. 19 is merely a block diagram of a partial structure related to the scheme of the present application, and does not constitute a limitation on the computer device to which the scheme of the present application is applied. The specific computer device may include more or fewer components than shown in the figure, or combine certain components, or have a different arrangement of components.
在一个实施例中,还提供了一种计算机设备,包括存储器和处理器,存储器中存储有计算机程序,该处理器执行计算机程序时实现上述各方法实施例中的步骤。In one embodiment, a computer device is further provided, including a memory and a processor, wherein a computer program is stored in the memory, and the processor implements the steps in the above method embodiments when executing the computer program.
在一个实施例中,提供了一种计算机可读存储介质,其上存储有计算机程序,该计算机程序被处理器执行时实现上述各方法实施例中的步骤。In one embodiment, a computer-readable storage medium is provided, on which a computer program is stored. When the computer program is executed by a processor, the steps in the above-mentioned method embodiments are implemented.
在一个实施例中,提供了一种计算机程序产品,包括计算机程序,该计算机程序被处理器执行时实现上述各方法实施例中的步骤。需要说明的是,本申请所涉及的用户信息(包括但不限于用户设备信息、用户个人信息等)和数据(包括但不限于用于分析的数据、存储的数据、展示的数据等),均为经用户授权或者经过各方充分授权的信息和数据,且相关数据的收集、使用和处理需要符合相关规定。In one embodiment, a computer program product is provided, including a computer program, which implements the steps in the above-mentioned method embodiments when executed by a processor. It should be noted that the user information (including but not limited to user device information, user personal information, etc.) and data (including but not limited to data used for analysis, stored data, displayed data, etc.) involved in this application are all information and data authorized by the user or fully authorized by all parties, and the collection, use and processing of relevant data need to comply with relevant regulations.
本领域普通技术人员可以理解实现上述实施例方法中的全部或部分流程,是可以通过计算机程序来指令相关的硬件来完成,所述的计算机程序可存储于一非易失性计算机可读取存储介质中,该计算机程序在执行时,可包括如上述各方法的实施例的流程。其中,本申请所提供的各实施例中所使用的对存储器、数据库或其它介质的任何引用,均可包括非易失性和易失性存储器中的至少一种。非易失性存储器可包括只读存储器(Read-OnlyMemory,ROM)、磁带、软盘、闪存、光存储器、高密度嵌入式非易失性存储器、阻变存储器(ReRAM)、磁变存储器(Magnetoresistive Random Access Memory,MRAM)、铁电存储器(Ferroelectric Random Access Memory,FRAM)、相变存储器(Phase Change Memory,PCM)、石墨烯存储器等。易失性存储器可包括随机存取存储器(Random Access Memory,RAM)或外部高速缓冲存储器等。作为说明而非局限,RAM可以是多种形式,比如静态随机存取存储器(Static Random Access Memory,SRAM)或动态随机存取存储器(Dynamic RandomAccess Memory,DRAM)等。本申请所提供的各实施例中所涉及的数据库可包括关系型数据库和非关系型数据库中至少一种。非关系型数据库可包括基于区块链的分布式数据库等,不限于此。本申请所提供的各实施例中所涉及的处理器可为通用处理器、中央处理器、图形处理器、数字信号处理器、可编程逻辑器、基于量子计算的数据处理逻辑器等,不限于此。Those skilled in the art can understand that all or part of the processes in the above-mentioned embodiment methods can be completed by instructing the relevant hardware through a computer program, and the computer program can be stored in a non-volatile computer-readable storage medium. When the computer program is executed, it can include the processes of the embodiments of the above-mentioned methods. Among them, any reference to the memory, database or other medium used in the embodiments provided in this application can include at least one of non-volatile and volatile memory. Non-volatile memory can include read-only memory (ROM), magnetic tape, floppy disk, flash memory, optical memory, high-density embedded non-volatile memory, resistive random access memory (ReRAM), magnetoresistive random access memory (MRAM), ferroelectric random access memory (FRAM), phase change memory (PCM), graphene memory, etc. Volatile memory can include random access memory (RAM) or external cache memory, etc. As an illustration and not limitation, RAM can be in various forms, such as static random access memory (SRAM) or dynamic random access memory (DRAM). The database involved in each embodiment provided in this application may include at least one of a relational database and a non-relational database. Non-relational databases may include distributed databases based on blockchains, etc., but are not limited to this. The processor involved in each embodiment provided in this application may be a general-purpose processor, a central processing unit, a graphics processor, a digital signal processor, a programmable logic device, a data processing logic device based on quantum computing, etc., but are not limited to this.
以上实施例的各技术特征可以进行任意的组合,为使描述简洁,未对上述实施例中的各个技术特征所有可能的组合都进行描述,然而,只要这些技术特征的组合不存在矛盾,都应当认为是本说明书记载的范围。The technical features of the above embodiments may be arbitrarily combined. To make the description concise, not all possible combinations of the technical features in the above embodiments are described. However, as long as there is no contradiction in the combination of these technical features, they should be considered to be within the scope of this specification.
以上所述实施例仅表达了本申请的几种实施方式,其描述较为具体和详细,但并不能因此而理解为对本申请专利范围的限制。应当指出的是,对于本领域的普通技术人员来说,在不脱离本申请构思的前提下,还可以做出若干变形和改进,这些都属于本申请的保护范围。因此,本申请的保护范围应以所附权利要求为准。The above-described embodiments only express several implementation methods of the present application, and the descriptions thereof are relatively specific and detailed, but they cannot be understood as limiting the scope of the present application. It should be pointed out that, for a person of ordinary skill in the art, several variations and improvements can be made without departing from the concept of the present application, and these all belong to the protection scope of the present application. Therefore, the protection scope of the present application shall be subject to the attached claims.
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