CN115801632A - Equipment point inspection flow execution method, device, terminal and storage medium - Google Patents

Abstract

Translated fromChinese

本申请涉及一种设备点检流程执行方法、装置、终端及存储介质，其中方法包括如下步骤：从点检系统端下载并读取点检任务列表；针对点检任务列表生成并执行任务提醒；依据点检任务的任务类型及任务内容逐一执行点检操作流程，收集所得到的点检结果数据并将其标记为未上传状态；确认通信连接状态，若正常则将未上传状态的点检结果数据逐条上传至点检系统端；利用定时重传机制对未上传状态的点检结果数据进行重新上传，直至完成全部上传。本申请的方案使得在无线网络信号不佳或完全没有无线网络的环境中设备点检作业也能够正常开展，保证了企业内各台工业生产设备能够以良好的状态运转，提升了企业设备管理的质量。

The present application relates to a method, device, terminal and storage medium for executing an equipment inspection process, wherein the method includes the following steps: downloading and reading an inspection task list from an inspection system; generating and executing a task reminder for the inspection task list; Execute the spot check operation process one by one according to the task type and task content of the spot check task, collect the obtained spot check result data and mark it as unuploaded; confirm the communication connection status, and if normal, unupload the spot check result The data is uploaded to the point inspection system one by one; the timed retransmission mechanism is used to re-upload the point inspection result data that has not been uploaded until all uploads are completed. The scheme of this application enables the equipment spot inspection to be carried out normally in an environment with poor wireless network signal or no wireless network at all, which ensures that each industrial production equipment in the enterprise can operate in a good state, and improves the efficiency of enterprise equipment management. quality.

Description

Translated fromChinese

设备点检流程执行方法、装置、终端及存储介质Execution method, device, terminal and storage medium of equipment spot check process

技术领域technical field

本申请涉及设备状态监测与故障诊断领域，涉及数据质量动态检测和保障领域，进一步涉及一种设备点检流程执行方法、装置、终端及存储介质。The present application relates to the field of equipment status monitoring and fault diagnosis, to the field of data quality dynamic detection and guarantee, and further relates to a method, device, terminal and storage medium for executing an equipment spot check process.

背景技术Background technique

设备点检是工业企业为保证生产活动能够正常开展，对设备运行状态的进行定期检查的一种管理手段。随着设备管理信息化、尤其是各类移动智能终端的普及，设备点检由原来单纯的纸质化记录逐步转变为电子化的数据采集和点检操作，而电子化的设备点检过程基本都需要在智能手机、平板等终端设备上运行点检系统软件。Equipment spot inspection is a management method for industrial enterprises to regularly check the operating status of equipment in order to ensure that production activities can be carried out normally. With the informatization of equipment management, especially the popularization of various mobile smart terminals, equipment inspection has gradually changed from simple paper records to electronic data collection and inspection operations, and the electronic equipment inspection process is basically Both need to run the spot inspection system software on terminal devices such as smartphones and tablets.

在较早的一些方案中，这类点检系统软件的功能较弱，多为运行在局域网内对点检数据进行存储和简单呈现的软件系统，需要在点检开始前手动逐一将点检任务下载至点检系统软件中，点检完成后再逐一手动将点检数据上传到服务器，这类方案操作麻烦，灵活性差，点检结果一般仅包含数据记录、缺少更高阶的数据分析结果。In some earlier schemes, the function of this kind of spot inspection system software was relatively weak, and most of them were software systems running on the local area network to store and simply present the spot inspection data. Download to the inspection system software, and then manually upload the inspection data to the server one by one after the inspection is completed. This kind of solution is cumbersome to operate and has poor flexibility. The inspection results generally only include data records and lack higher-order data analysis results.

随着网络及无线通信技术的发展，近年来也出现了以互联网或物联网技术为基础的点检系统及点检App，这类点检系统与点检App间通过蜂窝网络或WiFi完成通信连接、实时下载点检任务或上传点检数据。但由于工业生产环境异常复杂，在诸如矿井等井下环境中并没有3G/4G和WiFi网络覆盖，无法实现在线点检；而在化工厂、造纸厂等工厂环境中即便有WiFi网络，也由于大量设备或金属管道的阻挡和干扰，无线信号质量很差、导致网络不稳定，进而使得点检系统与点检App间的通信受到干扰、影响点检数据的上传。在上述这些情况下，如果仍然采用在线方式进行设备点检，就需要在生产环境中重新部署无线网络，这样不仅会极大地增加方案实现成本，而且会牵扯到工矿企业内复杂的管理流程，因此很难推进。With the development of network and wireless communication technology, spot inspection systems and spot inspection apps based on Internet or Internet of Things technology have appeared in recent years. The communication connection between such spot inspection systems and spot inspection apps is completed through cellular network or WiFi. , Download inspection tasks or upload inspection data in real time. However, due to the extremely complex industrial production environment, there is no 3G/4G and WiFi network coverage in underground environments such as mines, and online point inspection cannot be realized; and in factory environments such as chemical plants and paper mills, even if there is a WiFi network, due to a large number of Blockage and interference of equipment or metal pipes, poor wireless signal quality, resulting in network instability, which in turn interferes with the communication between the inspection system and the inspection app, affecting the upload of inspection data. In the above cases, if you still use the online method for device inspection, you need to redeploy the wireless network in the production environment, which will not only greatly increase the cost of solution implementation, but also involve complex management processes in industrial and mining enterprises. Therefore, It's hard to advance.

因此，如何提出一种支持离线点检的设备点检流程执行方案，以克服上述相关技术中所存在的缺陷，也就成为了本领域内技术人员亟待解决的问题。Therefore, how to propose an equipment inspection process execution solution supporting offline inspection to overcome the defects in the above-mentioned related technologies has become an urgent problem to be solved by those skilled in the art.

发明内容Contents of the invention

为了在无线网络信号不佳或完全没有无线网络的情况下正常进行点检活动，本申请提供了一种支持离线点检的设备点检流程执行方法、装置、终端及存储介质。In order to perform inspection activities normally when the wireless network signal is poor or there is no wireless network at all, the application provides an equipment inspection process execution method, device, terminal and storage medium that support offline inspection.

第一方面，本申请提供了一种设备点检流程执行方法，采用如下所述的技术方案。In a first aspect, the present application provides a method for executing an equipment inspection process, which adopts the following technical solutions.

一种设备点检流程执行方法，包括如下步骤：A method for executing an equipment inspection process, comprising the following steps:

从点检系统端下载并读取点检任务列表；Download and read the inspection task list from the inspection system;

针对所述点检任务列表中的每项点检任务生成并执行任务提醒；Generating and executing a task reminder for each inspection task in the inspection task list;

依据每项所述点检任务的任务类型及任务内容逐一执行点检操作流程，收集并存储所得到的点检结果数据，将对应所述点检结果数据标记为未上传状态；Execute the inspection operation process one by one according to the task type and task content of each of the inspection tasks, collect and store the obtained inspection result data, and mark the corresponding inspection result data as an unuploaded state;

确认与所述点检系统端的通信连接状态，当所述通信连接状态为正常时，将未上传状态的所述点检结果数据逐条上传至所述点检系统端；Confirming the communication connection status with the point inspection system end, when the communication connection state is normal, uploading the point inspection result data in the unuploaded state to the point inspection system end one by one;

利用定时重传机制对未上传状态的所述点检结果数据进行重新上传，直至完成对全部所述点检结果数据的数据上传。Re-upload the inspection result data that has not been uploaded by using the timing retransmission mechanism until the data upload of all the inspection result data is completed.

通过采用上述技术方案，使得在无线网络信号不佳或完全没有无线网络的环境中设备点检作业也能够正常开展，电子化的数据采集和点检操作流程得以实施，保证了企业内各台工业生产设备能够以良好的状态运转，提升了企业设备管理的质量。By adopting the above-mentioned technical scheme, the spot inspection of equipment can be carried out normally even in an environment with poor wireless network signal or no wireless network at all, and the electronic data collection and spot inspection operation process can be implemented, ensuring that all industrial units in the enterprise Production equipment can operate in a good state, which improves the quality of enterprise equipment management.

优选地，所述从点检系统端下载并读取点检任务列表，具体包括如下步骤：Preferably, the downloading and reading the inspection task list from the inspection system end specifically includes the following steps:

建立与点检系统端之间的通信连接，由所述点检系统端验证所连接的点检执行端的识别号；Establish a communication connection with the point inspection system end, and verify the identification number of the connected point inspection execution end by the point inspection system end;

依据所述识别号从所述点检系统端下载点检任务列表，所述点检任务列表包含所述识别号对应的所有任务状态为未执行的点检任务；Downloading an inspection task list from the inspection system end according to the identification number, the inspection task list includes all the inspection tasks corresponding to the identification number whose status is unexecuted;

逐一读取所述点检任务列表中全部所述点检任务的任务参数，所述任务参数包含任务类型、目标设备、任务开始时间、任务周期及任务内容，所述任务内容包含点检项目明细、点检项目操作方法及对应的点检项目判别标准。Read the task parameters of all the inspection tasks in the inspection task list one by one, the task parameters include task type, target device, task start time, task period and task content, and the task content includes inspection item details , Check item operation methods and corresponding check item criteria.

通过采用上述技术方案，实现了对于未执行的点检任务的自动化获取，而且下载过程中以识别号作为凭证，既提高了点检系统端与点检执行端之间的通信效率，又间接实现了权限管理的功能、保证了列表数据的安全性。By adopting the above technical solution, the automatic acquisition of unexecuted spot inspection tasks is realized, and the identification number is used as a credential during the download process, which not only improves the communication efficiency between the point inspection system end and the point inspection execution end, but also indirectly realizes It improves the function of authority management and ensures the security of list data.

优选地，所述针对所述点检任务列表中的每项点检任务生成并执行任务提醒，具体包括如下步骤：Preferably, generating and executing a task reminder for each check task in the check task list specifically includes the following steps:

依据所述任务开始时间及所述任务周期，将所述点检任务列表中的全部所述点检任务按所述任务开始时间由近及远进行排序；According to the task start time and the task period, sort all the check tasks in the check task list from near to far according to the task start time;

按排序顺序，确定每项所述点检任务的提醒时间，每项所述点检任务对应有至少一个提醒时间，每项所述点检任务的提醒时间与其所述任务开始时间的时间间隔为预设提醒时长；According to the order of sorting, determine the reminding time of each described inspection task, each described inspection task corresponds to at least one reminding time, the time interval between the reminder time of each described inspection task and its task start time is Preset reminder duration;

当时刻到达任一所述提醒时间，生成并执行该所述提醒时间对应的任务提醒。When the time reaches any of the reminder times, a task reminder corresponding to the reminder time is generated and executed.

通过采用上述技术方案，实现了对于点检人员的操作提醒，点检人员可以根据这一方案灵活操作，不仅可以自由设置预设提醒时长，还可以在任务开始时间前设置多个提醒时间以达到多次、重复提醒的目的，亦或是将提醒时间设置在任务开始时间之后以达到确认提醒的目的。By adopting the above technical scheme, the operation reminder for the inspection personnel is realized. The inspection personnel can operate flexibly according to this scheme, not only can set the preset reminder time freely, but also set multiple reminder times before the task start time to achieve The purpose of multiple and repeated reminders, or setting the reminder time after the task start time to achieve the purpose of confirming the reminder.

优选地，所述依据每项所述点检任务的任务类型及任务内容逐一执行点检操作流程，收集并存储所得到的点检结果数据，将对应所述点检结果数据标记为未上传状态，具体包括如下步骤：Preferably, the inspection operation process is executed one by one according to the task type and task content of each of the inspection tasks, the obtained inspection result data is collected and stored, and the corresponding inspection result data is marked as unuploaded , including the following steps:

当所述点检任务为人工观察点检项时，接收并记录人工观察点检项数据，所述人工观察点检项数据为由人工观察得到的设备状态数据及由人工录制得到的、可用于分析的、图像格式和/或音频格式的设备运行数据，按照预设格式标准将所述人工观察点检项数据转换为点检结果数据并存储至数据库中，将对应所述点检任务的任务状态更新为已执行、将对应所述点检结果数据标记为未上传状态；When the check task is manual observation check item, receive and record the manual observation check item data, the manual observation check item data is the equipment status data obtained by manual observation and manual recording, which can be used for Analyzing the equipment operation data in image format and/or audio format, converting the manual inspection item data into inspection result data according to the preset format standard and storing it in the database, and converting the task corresponding to the inspection task The status is updated to have been executed, and the corresponding inspection result data is marked as not uploaded;

当所述点检任务为仪表抄录点检项时，接收并记录仪表抄录点检项数据，所述仪表抄录点检项数据为仪表读数，按照预设格式标准将所述仪表抄录点检项数据转换为点检结果数据并存储至数据库中，将对应所述点检任务的任务状态更新为已执行、将对应所述点检结果数据标记为未上传状态；When the spot check task is the meter transcription check item, receive and record the meter transcription check item data, the meter transcription check item data is the meter reading, and the meter copy check item data according to the preset format standard Converting to inspection result data and storing it in the database, updating the task status corresponding to the inspection task as executed, and marking the corresponding inspection result data as unuploaded status;

当所述点检任务为仪器检测点检项时，接收并展示来自点检仪器的温度数据、原始振动数据和/或振动特征值数据，所述振动特征值数据由所述点检仪器依据所述原始振动数据进行振动特征值计算得到，按照预设格式标准将所接收到的全部数据转换为点检结果数据并存储至数据库中，将对应所述点检任务的任务状态更新为已执行、将对应所述点检结果数据标记为未上传状态。When the inspection task is an instrument inspection inspection item, the temperature data, original vibration data and/or vibration characteristic value data from the inspection instrument are received and displayed, and the vibration characteristic value data is determined by the inspection instrument according to the specified Calculate the vibration characteristic value of the original vibration data, convert all the received data into the inspection result data according to the preset format standard and store it in the database, and update the task status corresponding to the inspection task to Executed, Mark the corresponding check result data as unuploaded.

通过采用上述技术方案，明确了方法在应对不同类型点检任务时的具体操作流程，且根据每种类型点检任务的数据采集、处理要求对流程进行了细化与调整，保证了设备点检过程的规范性，最大限度地保证了本方法的兼容性与适配性。By adopting the above-mentioned technical scheme, the specific operation process of the method when dealing with different types of inspection tasks is clarified, and the process is refined and adjusted according to the data collection and processing requirements of each type of inspection tasks, ensuring the equipment inspection The standardization of the process ensures the compatibility and adaptability of this method to the greatest extent.

优选地，所述依据每项所述点检任务的任务类型及任务内容逐一执行点检操作流程，收集并存储所得到的点检结果数据，将对应所述点检结果数据标记为未上传状态，还包括如下步骤：Preferably, the inspection operation process is executed one by one according to the task type and task content of each of the inspection tasks, the obtained inspection result data is collected and stored, and the corresponding inspection result data is marked as unuploaded , also includes the following steps:

每次转换得到所述点检结果数据后，依据所述点检项目判别标准对所述点检结果数据进行判断，若所述点检结果数据中的任一项不符合对应的所述点检项目判别标准，则生成一条与当前所述点检任务绑定的告警消息并存储至数据库中。After each conversion to obtain the inspection result data, judge the inspection result data according to the inspection item discrimination standard, if any item in the inspection result data does not meet the corresponding inspection If the item is judged as a criterion, an alarm message bound to the current inspection task is generated and stored in the database.

通过采用上述技术方案，在点检结果采集的同时即可完成对点检结果的初步判断，以这种前端辅助处理的方式提升了后端数据分析的效率，同时也给点检人员后续可能执行的数据追查、流程回溯提供了记录依据。By adopting the above technical solution, the preliminary judgment of the spot inspection results can be completed while the spot inspection results are collected. This front-end auxiliary processing method improves the efficiency of the back-end data analysis, and at the same time, it also gives the spot check personnel possible follow-up execution The data tracing and process backtracking provide a record basis.

优选地，所述确认与所述点检系统端的通信连接状态，当所述通信连接状态为正常时，将未上传状态的所述点检结果数据逐条上传至所述点检系统端，具体包括如下步骤：Preferably, the confirmation of the communication connection status with the inspection system end, when the communication connection status is normal, upload the inspection result data in the unuploaded state to the inspection system end one by one, specifically including Follow the steps below:

每次获得所述点检结果数据后，检查与所述点检系统端的通信连接状态是否正常，若正常则将全部未上传状态的所述点检结果数据逐条上传至所述点检系统端，同时接收来自所述点检系统端反馈的数据确认回执，将接收到的所述数据确认回执对应的所述点检结果数据更新为已上传状态。After obtaining the spot check result data each time, check whether the communication connection status with the spot check system end is normal, if normal, upload all the spot check result data in the unuploaded state to the spot check system side one by one, At the same time, the data confirmation receipt fed back from the inspection system is received, and the inspection result data corresponding to the received data confirmation receipt is updated to an uploaded state.

通过采用上述技术方案，完成了对点检结果的上传，使得点检结果的采集与点检结果的上传成为了两套独立的流程，未完成点检结果上传也不会对点检结果的采集产生影响，为整个方法在离线环境中的实现奠定了基础By adopting the above technical solution, the uploading of the inspection results is completed, making the collection of the inspection results and the upload of the inspection results two separate processes, and the collection of the inspection results will not be performed if the upload of the inspection results is not completed. impact, laying the groundwork for the implementation of the entire method in an offline environment

优选地，所述利用定时重传机制对未上传状态的所述点检结果数据进行重新上传，直至完成对全部所述点检结果数据的数据上传，具体包括如下步骤：Preferably, the re-uploading of the inspection result data in the unuploaded state by using the timing retransmission mechanism, until the data upload of all the inspection result data is completed, specifically includes the following steps:

启动定时重传机制，每次到达预设定时间隔后查找所述数据库中是否还存在未上传状态的所述点检结果数据，若存在则逐条上传所查找到的、未上传状态的所述点检结果数据，直至全部所述点检结果数据均为已上传状态后停止所述定时重传机制。Start the timing retransmission mechanism, and check whether the check result data of the unuploaded state still exists in the database after the preset timing interval is reached each time, and if so, upload the found and unuploaded state of the points one by one Check the result data until all the check result data are in the uploaded state and then stop the timing retransmission mechanism.

通过采用上述技术方案，进一步优化了点检结果的上传流程，保证了点检结果数据的完整性与准确性，避免了因为通信问题导致的数据丢失和重复检测，在保证了点检结果有效性的同时节约了人力资源。By adopting the above technical solution, the uploading process of the inspection result is further optimized, the integrity and accuracy of the inspection result data are guaranteed, data loss and repeated detection caused by communication problems are avoided, and the validity of the inspection result is ensured. While saving human resources.

第二方面，本申请提供了一种设备点检流程执行装置，采用如下的技术方案。In a second aspect, the present application provides a device for executing an equipment inspection process, which adopts the following technical solution.

一种设备点检流程执行装置，包括如下模块：An equipment point inspection process execution device includes the following modules:

任务列表获取模块，被配置为从点检系统端下载并读取点检任务列表；The task list acquisition module is configured to download and read the inspection task list from the inspection system;

任务提醒生成模块，被配置为针对所述点检任务列表中的每项点检任务生成并执行任务提醒；A task reminder generation module configured to generate and execute a task reminder for each check task in the check task list;

任务流程执行模块，被配置为依据每项所述点检任务的任务类型及任务内容逐一执行点检操作流程，收集并存储所得到的点检结果数据，将对应所述点检结果数据标记为未上传状态；The task process execution module is configured to execute the check operation process one by one according to the task type and task content of each of the check tasks, collect and store the obtained check result data, and mark the corresponding check result data as not uploaded status;

任务结果上传模块，被配置为确认与所述点检系统端的通信连接状态，当所述通信连接状态为正常时，将未上传状态的所述点检结果数据逐条上传至所述点检系统端；The task result upload module is configured to confirm the communication connection status with the inspection system end, and when the communication connection status is normal, upload the inspection result data in the unuploaded state to the inspection system end one by one ;

任务结果重传模块，被配置为利用定时重传机制对未上传状态的所述点检结果数据进行重新上传，直至完成对全部所述点检结果数据的数据上传。The task result retransmission module is configured to use a timing retransmission mechanism to re-upload the inspection result data that has not been uploaded until the data upload of all the inspection result data is completed.

通过采用上述技术方案，实现了设备点检流程执行过程的数字化与智能化，不仅实现了对于离线点检方式的支持，而且减轻了点检人员的工作负担、提升了设备点检作业过程中操作的规范度和结果的准确性。By adopting the above technical solution, the digitization and intelligence of the execution process of the equipment inspection process is realized, which not only realizes the support for the offline inspection method, but also reduces the workload of the inspection personnel and improves the operation during the equipment inspection process. standardization and accuracy of results.

第三方面，本申请提供了一种智能终端，采用如下的技术方案：In a third aspect, the present application provides an intelligent terminal, which adopts the following technical solution:

一种智能终端，包括存储器和处理器，所述存储器中存储有至少一条指令、至少一段程序、代码集或指令集，所述至少一条指令、至少一段程序、代码集或指令集由所述处理器加载并执行以实现如前文所述的设备点检流程执行方法。An intelligent terminal includes a memory and a processor, at least one instruction, at least one section of program, code set or instruction set are stored in the memory, and the at least one instruction, at least one section of program, code set or instruction set is processed by the The device is loaded and executed to implement the method for executing the device inspection process as described above.

第四方面，本申请提供了一种计算机可读存储介质，采用如下的技术方案：In the fourth aspect, the present application provides a computer-readable storage medium, adopting the following technical solution:

一种计算机可读存储介质，所述可读存储介质中存储有至少一条指令、至少一段程序、代码集或指令集，所述至少一条指令、至少一段程序、代码集或指令集由处理器加载并执行以实现如前文所述的设备点检流程执行方法。A computer-readable storage medium, at least one instruction, at least one section of program, code set or instruction set is stored in the readable storage medium, and the at least one instruction, at least one section of program, code set or instruction set is loaded by a processor And execute to realize the method for executing the device inspection process as mentioned above.

综上所述，本申请包括以下至少一种有益技术效果：In summary, the present application includes at least one of the following beneficial technical effects:

1、本申请的方案通过将点检结果的采集与点检结果的上传相分离的方式，使得在无线网络信号不佳或完全没有无线网络的工业情况下仍能够正常进行点检活动。1. The solution of this application separates the collection of inspection results from the uploading of inspection results, so that inspection activities can still be carried out normally under industrial conditions with poor wireless network signals or no wireless network at all.

2、本申请的方案能够应对多种不同类型的点检任务，且根据任务类型的不同，具体的设备点检流程也会有相应的调整变化，方案具有较为宽泛的适配性和兼容性，应用前景广阔。2. The scheme of this application can deal with many different types of inspection tasks, and according to the different types of tasks, the specific equipment inspection process will also have corresponding adjustments and changes. The scheme has relatively broad adaptability and compatibility. The application prospect is broad.

3、本申请的方案具备自动化、标准化的优势，整个点检过程中需要人工操作的部分较少，在保证了点检过程规范化的前提下减轻了点检人员的操作负担、节约了人力资源。3. The solution of this application has the advantages of automation and standardization. The whole inspection process requires less manual operation. On the premise of ensuring the standardization of the inspection process, the operation burden of the inspection personnel is reduced and human resources are saved.

附图说明Description of drawings

图1是本申请实施例的设备点检流程执行方法的流程示意图；FIG. 1 is a schematic flow diagram of a method for executing an equipment inspection process according to an embodiment of the present application;

图2是本申请实施例的设备点检流程执行方法中S1步骤的流程示意图；FIG. 2 is a schematic flow diagram of step S1 in the method for executing the equipment inspection process according to the embodiment of the present application;

图3是本申请实施例的设备点检流程执行方法中S2步骤的流程示意图；FIG. 3 is a schematic flow diagram of step S2 in the method for executing an equipment spot check process according to an embodiment of the present application;

图4是本申请实施例的设备点检流程执行方法中S3步骤的流程示意图；FIG. 4 is a schematic flow diagram of step S3 in the method for executing the equipment inspection process according to the embodiment of the present application;

图5是本申请实施例的设备点检流程执行装置的架构示意图。FIG. 5 is a schematic structural diagram of an apparatus for executing an equipment inspection process according to an embodiment of the present application.

具体实施方式Detailed ways

本申请提供了一种设备点检流程执行方法、装置、终端及存储介质，为使本申请的目的、技术方案和优点更加清楚，下面将对本申请实施方式作进一步地详细说明。This application provides a method, device, terminal, and storage medium for executing an equipment inspection process. In order to make the purpose, technical solution, and advantages of this application clearer, the implementation of this application will be further described in detail below.

以下结合说明书附图对本申请的一种设备点检流程执行方法的实施例作进一步详细描述，如图1所示，总体包括如下步骤：The following describes in further detail an embodiment of an implementation method of an equipment inspection process of the present application in conjunction with the accompanying drawings, as shown in Figure 1, which generally includes the following steps:

S1、从点检系统端下载并读取点检任务列表；S1. Download and read the inspection task list from the inspection system;

S2、针对所述点检任务列表中的每项点检任务生成并执行任务提醒；S2. Generate and execute a task reminder for each inspection task in the inspection task list;

S3、依据每项所述点检任务的任务类型及任务内容逐一执行点检操作流程，收集并存储所得到的点检结果数据，将对应所述点检结果数据标记为未上传状态；S3. Execute the inspection operation process one by one according to the task type and task content of each inspection task, collect and store the obtained inspection result data, and mark the corresponding inspection result data as unuploaded state;

S4、确认与所述点检系统端的通信连接状态，当所述通信连接状态为正常时，将未上传状态的所述点检结果数据逐条上传至所述点检系统端；S4. Confirm the status of the communication connection with the point inspection system, and when the communication connection is normal, upload the point inspection result data that has not been uploaded to the point inspection system one by one;

S5、利用定时重传机制对未上传状态的所述点检结果数据进行重新上传，直至完成对全部所述点检结果数据的数据上传。S5. Re-upload the inspection result data that has not been uploaded by using the timing retransmission mechanism until the data upload of all the inspection result data is completed.

针对上述流程中的每一个步骤，下面进行具体步骤说明。For each step in the above process, the specific steps are described below.

在前述方法中，如图2所示，S1步骤可具体化为以下流程：In the aforementioned method, as shown in Figure 2, step S1 can be embodied as the following process:

S11、建立与点检系统端之间的通信连接，由所述点检系统端验证所连接的点检执行端的识别号。S11. Establish a communication connection with the inspection system end, and the inspection system end verifies the identification number of the connected inspection execution end.

所述点检执行端可以是单独的设备点检流程执行装置，也可以是运行于手机、平板等智能移动终端中的点检App。The inspection execution end may be a separate equipment inspection process execution device, or an inspection App running on smart mobile terminals such as mobile phones and tablets.

所述识别号可以是系统登录账号、识别口令或者被授权的操作权限等，只有在所述识别号被识别许可后所述点检执行端才可以与所述点检系统端进行数据交互。这样的设置一来可以验证操作人员的身份、保证点检数据的安全性，二来也可以实现一定的权限管理功能。The identification number may be a system login account, an identification password, or an authorized operation authority, etc., and only after the identification number is identified and permitted, the point inspection execution end can perform data interaction with the point inspection system end. Such a setting can firstly verify the identity of the operator and ensure the security of the inspection data, and secondly, it can also realize certain authority management functions.

S12、依据所述识别号从所述点检系统端下载点检任务列表，所述点检任务列表包含所述识别号对应的所有任务状态为未执行的点检任务。S12. Download an inspection task list from the inspection system according to the identification number, and the inspection task list includes all the inspection tasks corresponding to the identification number whose task status is unexecuted.

考虑到点检任务的数量以及其时效性、周期性特征，本方案中的优选流程是所述点检执行端从所述点检系统端拉取所述识别号对应的、最近一个月内所有未执行的点检任务。Considering the number of inspection tasks and their timeliness and periodicity, the preferred process in this solution is that the inspection execution end pulls all Unexecuted check tasks.

S13、逐一读取所述点检任务列表中全部所述点检任务的任务参数，所述任务参数包含任务类型、目标设备、任务开始时间、任务周期及任务内容，所述任务内容包含点检项目明细、点检项目操作方法及对应的点检项目判别标准。S13. Read the task parameters of all the inspection tasks in the inspection task list one by one, the task parameters include task type, target device, task start time, task period and task content, and the task content includes inspection Item details, check item operation methods and corresponding check item criteria.

由于所述任务内容部分直接影响设备点检的质量，而且现场工况具有一定的不确定性，因此除了上述流程中从所述点检任务列表中读取获得所述任务内容外，点检人员还可以利用所述点检执行端，在本地对所述点检内容部分进行编辑(增加或调整点检项目、重新设定判别标准等)，这些编辑后的数据也会在之后的数据交互过程中被同步至所述点检系统端。Since the task content directly affects the quality of equipment inspection, and the on-site working conditions have certain uncertainties, in addition to reading the task content from the inspection task list in the above process, the inspection personnel It is also possible to use the inspection execution terminal to locally edit the contents of the inspection (increase or adjust inspection items, reset criteria, etc.), and these edited data will also be used in the subsequent data interaction process. is synchronized to the point inspection system.

在前述方法中，如图3所示，S2步骤可具体化为以下流程：In the aforementioned method, as shown in Figure 3, step S2 can be embodied as the following process:

S21、依据所述任务开始时间及所述任务周期，将所述点检任务列表中的全部所述点检任务按所述任务开始时间由近及远进行排序。S21. According to the task start time and the task period, sort all the inspection tasks in the inspection task list from near to far according to the task start time.

由于某些点检任务需要一段时间内周期性执行，因此在进行排序时，不能按照点检任务的类型或者名称为依据，而应当以时间线为依据，生成对应的任务排序。Since some inspection tasks need to be executed periodically within a period of time, when sorting, the corresponding task ranking should not be based on the type or name of the inspection task, but should be based on the timeline.

S22、按排序顺序，确定每项所述点检任务的提醒时间，每项所述点检任务对应有至少一个提醒时间，每项所述点检任务的提醒时间与其所述任务开始时间的时间间隔为预设提醒时长。S22. Determine the reminder time for each of the inspection tasks according to the sort order, each of the inspection tasks corresponds to at least one reminder time, the reminder time of each of the inspection tasks and the time of the task start time The interval is the preset reminder duration.

一般而言，所述提醒时间为两个、且均在所述任务开始时间之前，两个所述提醒时间对应的所述预设提醒时长分别为1小时及10分钟。在实际的方案应用过程中，操作者可以对所述提醒时间进行设置，不仅限于对所述预设提醒时长的调整，甚至还可以将其设置在所述任务开始时间之后，起到确认提醒和完成提醒的作用。Generally speaking, there are two reminder times, both of which are before the task start time, and the preset reminder durations corresponding to the two reminder times are 1 hour and 10 minutes respectively. In the actual program application process, the operator can set the reminder time, which is not limited to the adjustment of the preset reminder time length, and can even be set after the task start time, which serves as a confirmation reminder and Complete the reminder function.

S23、当时刻到达任一所述提醒时间，生成并执行该所述提醒时间对应的任务提醒。S23. When the time reaches any of the reminder times, generate and execute a task reminder corresponding to the reminder time.

在前述方法中，如图4所示，S3步骤可具体化为以下流程：In the aforementioned method, as shown in Figure 4, step S3 can be embodied as the following process:

S311、当所述点检任务为人工观察点检项时，接收并记录人工观察点检项数据，所述人工观察点检项数据为由人工观察得到的设备状态数据及由人工录制得到的、可用于分析的、图像格式和/或音频格式的设备运行数据，按照预设格式标准将所述人工观察点检项数据转换为点检结果数据并存储至数据库中，将对应所述点检任务的任务状态更新为已执行、将对应所述点检结果数据标记为未上传状态。S311. When the check task is manual observation check item, receive and record manual observation check item data, the manual observation check item data is equipment status data obtained by manual observation and manual recording, The equipment operation data that can be used for analysis in image format and/or audio format, according to the preset format standard, the manual observation inspection item data is converted into inspection result data and stored in the database, which will correspond to the inspection task The status of the task is updated to Executed, and the data corresponding to the inspection result is marked as unuploaded.

人工观察点检项要求在设备点检过程中由点检人员通过目视、耳听、鼻闻、手摸等人工观察方式检查的设备状态，如是否漏油、是否有异响等，并以拍照或录音等方式对现场的这些点检项数据进行记录。此外，对于一些简单的判断选项，点检人员可以直接在所述点检执行端上进行选项选择，这些选择数据也会被作为点检项数据进行收集。The manual observation check item requires that during the equipment check process, the check personnel check the status of the equipment through manual observation methods such as visual inspection, ear hearing, nose smell, and hand touch, such as whether there is oil leakage, whether there is abnormal noise, etc. Record the data of these inspection items on site by taking pictures or recording. In addition, for some simple judgment options, inspection personnel can directly select options on the inspection execution terminal, and these selection data will also be collected as inspection item data.

经过转换所形成的点检结果数据会被保存至SQLite数据库中，等待后续上传或被调用。The inspection result data formed after conversion will be saved in the SQLite database, waiting for subsequent upload or call.

S312、当所述点检任务为仪表抄录点检项时，接收并记录仪表抄录点检项数据，所述仪表抄录点检项数据为仪表读数，按照预设格式标准将所述仪表抄录点检项数据转换为点检结果数据并存储至数据库中，将对应所述点检任务的任务状态更新为已执行、将对应所述点检结果数据标记为未上传状态。S312. When the inspection task is the meter transcription inspection item, receive and record the meter transcription inspection item data, the meter transcription inspection item data is the meter reading, and record the meter transcription inspection item according to the preset format standard Item data is converted into inspection result data and stored in the database, the task status corresponding to the inspection task is updated as executed, and the data corresponding to the inspection result is marked as unuploaded.

对于这部分的仪表抄录点检项而言，点检人员的主要操作就是将读得的仪表数据输入所述点检执行端的对应输入框中，后续的数据转换和保存流程与前述无异。For this part of the instrument transcription inspection item, the main operation of the inspection personnel is to input the read instrument data into the corresponding input box of the inspection execution terminal, and the subsequent data conversion and storage process is the same as the above.

S313、当所述点检任务为仪器检测点检项时，接收并展示来自点检仪器的温度数据、原始振动数据和/或振动特征值数据，所述振动特征值数据由所述点检仪器依据所述原始振动数据进行振动特征值计算得到，按照预设格式标准将所接收到的全部数据转换为点检结果数据并存储至数据库中，将对应所述点检任务的任务状态更新为已执行、将对应所述点检结果数据标记为未上传状态。S313. When the inspection task is an instrument inspection inspection item, receive and display the temperature data, original vibration data and/or vibration characteristic value data from the inspection instrument, and the vibration characteristic value data is provided by the inspection instrument Calculate the vibration characteristic value according to the original vibration data, convert all the received data into the inspection result data according to the preset format standard and store it in the database, and update the task status corresponding to the inspection task to completed Execute and mark the data corresponding to the check result as not uploaded.

仪器检测点检项的完成需要借助各类无线点检仪来完成，所述无线点检仪与所述点检执行端的通信协议兼容基于蓝牙BLE的私有传输协议和标准MQTT-SN协议两种。其中，私有传输协议用于传输振动加速度原始数据和点检仪计算后的振动特征值和温度数值，而标准MQTT-SN协议只能传输无线点检仪计算后的振动特征值和温度数值等，不能传输振动加速度原始数据，可用于连接标准第三方支持MQTT-SN协议的中大型无线点检仪。The completion of instrument inspection and inspection items needs to be completed with various wireless inspection instruments. The communication protocol between the wireless inspection instrument and the inspection execution terminal is compatible with the private transmission protocol based on Bluetooth BLE and the standard MQTT-SN protocol. Among them, the private transmission protocol is used to transmit the original vibration acceleration data and the vibration characteristic value and temperature value calculated by the spot detector, while the standard MQTT-SN protocol can only transmit the vibration characteristic value and temperature value calculated by the wireless spot detector. It cannot transmit the raw data of vibration acceleration, and can be used to connect standard third-party medium and large wireless spot detectors that support the MQTT-SN protocol.

在上述流程中，点检人员需要将所述无线点检仪通过磁吸等安装方式放置于所述点检任务中指定的指定的设备部位，然后通过所述点检执行端控制所述无线点检仪采集设备的振动和温度数据，采集完成后，进行振动特征值计算，所述无线点检仪能够计算得到的振动特征值一般包括：加速度峰值、速度均方根值、峭度指标、波形指标、偏度指标以及振动能量值(包括低频、中频和高频)等。然后将振动特征值及温度数据通过BLE蓝牙传到所述点检执行端，如果所述无线点检仪支持上传振动原始数据，则同时上传原始振动数据到所述点检执行端。In the above process, the inspection personnel need to place the wireless spot inspection instrument on the designated equipment part specified in the inspection task through installation methods such as magnetic attraction, and then control the wireless point inspection through the inspection execution terminal. The detector collects the vibration and temperature data of the equipment. After the collection is completed, the vibration characteristic value is calculated. The vibration characteristic value that can be calculated by the wireless spot detector generally includes: peak acceleration, root mean square value of velocity, kurtosis index, waveform index, skewness index and vibration energy value (including low frequency, medium frequency and high frequency), etc. Then transmit the vibration characteristic value and temperature data to the point inspection execution end through BLE bluetooth, if the wireless point inspection instrument supports uploading vibration raw data, then upload the original vibration data to the point inspection execution end at the same time.

所述点检执行端此时还会降所接收到的数据进行展示，如果收到原始振动数据，则所述点检执行端同时展示振动数据的时域波形和FFT变换后的频谱波形。后续的数据转换和保存流程与前述无异。At this time, the inspection execution end will also display the received data. If the original vibration data is received, the inspection execution end will simultaneously display the time-domain waveform and the FFT-transformed spectrum waveform of the vibration data. Subsequent data conversion and preservation processes are the same as those described above.

为了在一定程度上实现本地点检的效果、减轻后端的数据处理负担，在S3步骤中还包括以下流程：In order to achieve the effect of local spot check to a certain extent and reduce the data processing burden of the backend, the following process is also included in the S3 step:

S32、每次转换得到所述点检结果数据后，依据所述点检项目判别标准对所述点检结果数据进行判断，所述点检项目判别标准包含各类所述点检结果数据的相关阈值、阈限，若所述点检结果数据中的任一项不符合对应的所述点检项目判别标准，则生成一条与当前所述点检任务绑定的告警消息并存储至数据库中。S32. After each conversion to obtain the check result data, judge the check result data according to the check item discrimination standard, and the check item discrimination standard includes the correlation of various types of the check result data. Threshold, threshold, if any item in the inspection result data does not meet the corresponding inspection item criterion, generate an alarm message bound to the current inspection task and store it in the database.

实际操作中，可以采用复检验证的方式保证所述告警消息的准确性。当判断出所述点检结果数据不符合所述点检项目判别标准时，还可以让所述点检执行端发出重检报警，当重检结果再次被判断为不符合标准后，再生成相关的告警信息。In actual operation, the accuracy of the alarm message may be ensured by means of rechecking and verification. When it is judged that the point inspection result data does not meet the standard for the point inspection item, the point inspection execution end can also be allowed to send a re-inspection alarm. Warning message.

在前述方法中，S4步骤可具体化为以下流程：In the aforementioned method, step S4 can be embodied as the following process:

每次获得所述点检结果数据后，检查与所述点检系统端的通信连接状态是否正常，若正常则将全部未上传状态的所述点检结果数据逐条上传至所述点检系统端，同时接收来自所述点检系统端反馈的数据确认回执，将接收到的所述数据确认回执对应的所述点检结果数据更新为已上传状态。After obtaining the spot check result data each time, check whether the communication connection status with the spot check system end is normal, if normal, upload all the spot check result data in the unuploaded state to the spot check system side one by one, At the same time, the data confirmation receipt fed back from the inspection system is received, and the inspection result data corresponding to the received data confirmation receipt is updated to an uploaded state.

此处所述数据确认回执的设置也是为了进一步确保所述点检结果数据的完整上传，避免所述点检执行端与所述点检系统端二者数据交互过程中的数据丢失。The setting of the data confirmation receipt here is also to further ensure the complete upload of the inspection result data and avoid data loss during the data interaction process between the inspection execution end and the inspection system end.

在前述方法中，S5步骤可具体化为以下流程：In the aforementioned method, step S5 can be embodied as the following process:

启动定时重传机制，每次到达预设定时间隔后查找所述数据库中是否还存在未上传状态的所述点检结果数据，若存在则逐条上传所查找到的、未上传状态的所述点检结果数据，直至全部所述点检结果数据均为已上传状态后停止所述定时重传机制。在实际的方案应用过程中，所述预设定时间隔为1分钟。Start the timing retransmission mechanism, and check whether the check result data of the unuploaded state still exists in the database after the preset timing interval is reached each time, and if so, upload the found and unuploaded state of the points one by one Check the result data until all the check result data are in the uploaded state and then stop the timing retransmission mechanism. During the actual program application process, the preset timing interval is 1 minute.

基于上述同一发明构思，本申请实施例还公开了一种设备点检流程执行装置，如图5所示，包括如下模块：Based on the above-mentioned same inventive concept, the embodiment of the present application also discloses an equipment inspection process execution device, as shown in Figure 5, including the following modules:

任务列表获取模块，被配置为从点检系统端下载并读取点检任务列表；The task list acquisition module is configured to download and read the inspection task list from the inspection system;

任务提醒生成模块，被配置为针对所述点检任务列表中的每项点检任务生成并执行任务提醒；A task reminder generation module configured to generate and execute a task reminder for each check task in the check task list;

任务流程执行模块，被配置为依据每项所述点检任务的任务类型及任务内容逐一执行点检操作流程，收集并存储所得到的点检结果数据，将对应所述点检结果数据标记为未上传状态；The task process execution module is configured to execute the check operation process one by one according to the task type and task content of each of the check tasks, collect and store the obtained check result data, and mark the corresponding check result data as not uploaded status;

任务结果上传模块，被配置为确认与所述点检系统端的通信连接状态，当所述通信连接状态为正常时，将未上传状态的所述点检结果数据逐条上传至所述点检系统端；The task result upload module is configured to confirm the communication connection status with the inspection system end, and when the communication connection status is normal, upload the inspection result data in the unuploaded state to the inspection system end one by one ;

任务结果重传模块，被配置为利用定时重传机制对未上传状态的所述点检结果数据进行重新上传，直至完成对全部所述点检结果数据的数据上传。The task result retransmission module is configured to use a timing retransmission mechanism to re-upload the inspection result data that has not been uploaded until the data upload of all the inspection result data is completed.

在一种可能的实现方式中，所述任务列表获取模块，包括如下功能单元：In a possible implementation manner, the task list acquisition module includes the following functional units:

第一任务列表获取单元，被配置为建立与点检系统端之间的通信连接，由所述点检系统端验证所连接的点检执行端的识别号；The first task list acquisition unit is configured to establish a communication connection with the inspection system end, and the inspection system end verifies the identification number of the connected inspection execution end;

第二任务列表获取单元，被配置为依据所述识别号从所述点检系统端下载点检任务列表，所述点检任务列表包含所述识别号对应的所有任务状态为未执行的点检任务；The second task list acquisition unit is configured to download an inspection task list from the inspection system end according to the identification number, and the inspection task list includes all tasks corresponding to the identification numbers whose status is unexecuted. Task;

第三任务列表获取单元，被配置为逐一读取所述点检任务列表中全部所述点检任务的任务参数，所述任务参数包含任务类型、目标设备、任务开始时间、任务周期及任务内容，所述任务内容包含点检项目明细、点检项目操作方法及对应的点检项目判别标准。The third task list acquisition unit is configured to read the task parameters of all the inspection tasks in the inspection task list one by one, and the task parameters include task type, target device, task start time, task period and task content , the task content includes inspection item details, inspection item operation methods and corresponding inspection item discrimination criteria.

在一种可能的实现方式中，所述任务提醒生成模块，包括如下功能单元：In a possible implementation manner, the task reminder generation module includes the following functional units:

第一任务提醒生成单元，被配置为依据所述任务开始时间及所述任务周期，将所述点检任务列表中的全部所述点检任务按所述任务开始时间由近及远进行排序；The first task reminder generation unit is configured to sort all the inspection tasks in the inspection task list according to the task start time from near to far according to the task start time and the task period;

第二任务提醒生成单元，被配置为按排序顺序，确定每项所述点检任务的提醒时间，每项所述点检任务对应有至少一个提醒时间，每项所述点检任务的提醒时间与其所述任务开始时间的时间间隔为预设提醒时长；The second task reminder generation unit is configured to determine the reminder time of each of the inspection tasks in a sorted order, each of the inspection tasks corresponds to at least one reminder time, and the reminder time of each of the inspection tasks The time interval with the start time of the task described is the preset reminder duration;

第三任务提醒生成单元，被配置为当时刻到达任一所述提醒时间，生成并执行该所述提醒时间对应的任务提醒。The third task reminder generation unit is configured to generate and execute a task reminder corresponding to the reminder time when any of the reminder times is reached.

在一种可能的实现方式中，所述任务流程执行模块，包括如下功能单元：In a possible implementation manner, the task process execution module includes the following functional units:

第一任务流程执行单元，被配置为当所述点检任务为人工观察点检项时，接收并记录人工观察点检项数据，所述人工观察点检项数据为由人工观察得到的设备状态数据及由人工录制得到的、可用于分析的、图像格式和/或音频格式的设备运行数据，按照预设格式标准将所述人工观察点检项数据转换为点检结果数据并存储至数据库中，将对应所述点检任务的任务状态更新为已执行、将对应所述点检结果数据标记为未上传状态；The first task flow execution unit is configured to receive and record manual observation inspection item data when the inspection task is a manual observation inspection item, and the manual observation inspection item data is the equipment status obtained by manual observation Data and equipment operation data that can be used for analysis in image format and/or audio format obtained by manual recording, and the manual observation inspection item data is converted into inspection result data according to the preset format standard and stored in the database , updating the task status corresponding to the check task as executed, and marking the check result data corresponding to the unuploaded status;

第二任务流程执行单元，被配置为当所述点检任务为仪表抄录点检项时，接收并记录仪表抄录点检项数据，所述仪表抄录点检项数据为仪表读数，按照预设格式标准将所述仪表抄录点检项数据转换为点检结果数据并存储至数据库中，将对应所述点检任务的任务状态更新为已执行、将对应所述点检结果数据标记为未上传状态；The second task flow execution unit is configured to receive and record the meter transcription check item data when the check task is a meter transcription check item, and the meter transcription check item data is the meter reading according to a preset format The standard converts the data of the instrument transcription inspection items into inspection result data and stores it in the database, updates the task status corresponding to the inspection task as executed, and marks the corresponding inspection result data as unuploaded status ;

第三任务流程执行单元，被配置为当所述点检任务为仪器检测点检项时，接收并展示来自点检仪器的温度数据、原始振动数据和/或振动特征值数据，所述振动特征值数据由所述点检仪器依据所述原始振动数据进行振动特征值计算得到，按照预设格式标准将所接收到的全部数据转换为点检结果数据并存储至数据库中，将对应所述点检任务的任务状态更新为已执行、将对应所述点检结果数据标记为未上传状态。The third task process execution unit is configured to receive and display the temperature data, original vibration data and/or vibration characteristic value data from the inspection instrument when the inspection task is an inspection item of an instrument, and the vibration characteristic The value data is obtained by calculating the vibration characteristic value of the point inspection instrument according to the original vibration data. According to the preset format standard, all the received data are converted into point inspection result data and stored in the database. The task status of the inspection task is updated to have been executed, and the data corresponding to the inspection result is marked as unuploaded.

在一种可能的实现方式中，所述任务流程执行模块，还包括如下功能单元：In a possible implementation manner, the task process execution module further includes the following functional units:

第四任务流程执行单元，被配置为每次转换得到所述点检结果数据后，依据所述点检项目判别标准对所述点检结果数据进行判断，若所述点检结果数据中的任一项不符合对应的所述点检项目判别标准，则生成一条与当前所述点检任务绑定的告警消息并存储至数据库中。The fourth task flow execution unit is configured to judge the inspection result data according to the inspection item discrimination standard after each conversion to obtain the inspection result data, if any of the inspection result data If an item does not meet the corresponding criteria for the inspection item, an alarm message bound to the current inspection task is generated and stored in the database.

在一种可能的实现方式中，所述任务结果上传模块，包括如下功能单元：In a possible implementation manner, the task result uploading module includes the following functional units:

任务结果上传单元，被配置为每次获得所述点检结果数据后，检查与所述点检系统端的通信连接状态是否正常，若正常则将全部未上传状态的所述点检结果数据逐条上传至所述点检系统端，同时接收来自所述点检系统端反馈的数据确认回执，将接收到的所述数据确认回执对应的所述点检结果数据更新为已上传状态。The task result uploading unit is configured to check whether the communication connection status with the point inspection system end is normal after each time the point inspection result data is obtained, and if it is normal, upload all the point inspection result data that have not been uploaded one by one To the inspection system end, simultaneously receive the data confirmation receipt fed back from the inspection system end, and update the inspection result data corresponding to the received data confirmation receipt to the uploaded state.

在一种可能的实现方式中，所述任务结果重传模块，包括如下功能单元：In a possible implementation, the task result retransmission module includes the following functional units:

任务结果重传单元，被配置为启动定时重传机制，每次到达预设定时间隔后查找所述数据库中是否还存在未上传状态的所述点检结果数据，若存在则逐条上传所查找到的、未上传状态的所述点检结果数据，直至全部所述点检结果数据均为已上传状态后停止所述定时重传机制。The task result retransmission unit is configured to start a timing retransmission mechanism, and checks whether the check result data that has not been uploaded exists in the database after each time the preset timing interval is reached, and if so, uploads the found data one by one Stop the regular retransmission mechanism until all the check result data are in the uploaded state.

综合上述方法部分及装置部分的内容可以看出，本方案相较于现有技术，存在下列优点：Based on the content of the above-mentioned method part and device part, it can be seen that this solution has the following advantages compared with the prior art:

1、即使点检过程中没有网络，导致所述点检执行端与所述点检系统端无法进行连接与通信时，也能通过在本地存储点检结果的方式来实现电子化的数据采集和点检操作流程。1. Even if there is no network during the inspection process, resulting in the inability to connect and communicate between the inspection execution end and the inspection system end, the electronic data collection and inspection can be realized by storing the inspection results locally. Check operation process.

2、在点检任务执行过程中和完成后，所述点检执行端都可以自动检查与所述点检系统的通信连接状态，并在通信正常时自动上传数据，在存在未上传数据时，所述点检执行端可以自动在后台完成连接状态的确认与数据的上传，无需点检人员做任何操作。2. During and after the spot inspection task is executed, the point inspection execution end can automatically check the communication connection status with the spot inspection system, and automatically upload data when the communication is normal, and when there is unuploaded data, The inspection execution end can automatically complete the confirmation of the connection status and the upload of the data in the background, without any operation by the inspection personnel.

3、点检结果采用统一的数据格式来记录与存储、实现了数据的标准化，为后续数据的处理应用提供了便利。3. The inspection results are recorded and stored in a unified data format, which realizes the standardization of data and provides convenience for subsequent data processing and application.

4、可以在进行设备点检的同时，在本地端自动判断所获得的点检结果是否存在异常，既实现了报错提醒、保证了点检结果的准确性，又在一定程度上减轻了后端数据处理的压力。4. It can automatically judge whether there is any abnormality in the obtained spot inspection results at the local end while performing equipment spot checks, which not only realizes error reminders, ensures the accuracy of spot check results, but also alleviates the back-end to a certain extent The pressure of data processing.

5、整个方案具有很高的便捷性，方便点检人员应用；而且方案具有较为宽泛的适配性和兼容性，应用前景广阔。5. The whole scheme has high convenience and is convenient for inspection personnel to apply; moreover, the scheme has wide adaptability and compatibility, and has broad application prospects.

又基于上述同一发明构思，本申请实施例还公开了一种智能终端，包括存储器和处理器，所述存储器中存储有至少一条指令、至少一段程序、代码集或指令集，所述至少一条指令、至少一段程序、代码集或指令集由所述处理器加载并执行以实现如前文所述的设备点检流程执行方法。Based on the above-mentioned same inventive concept, the embodiment of the present application also discloses an intelligent terminal, including a memory and a processor, at least one instruction, at least one segment of program, code set or instruction set are stored in the memory, and the at least one instruction , at least one section of program, code set or instruction set is loaded and executed by the processor to implement the method for executing the device inspection process as described above.

应当理解的是，在本文中提及的“多个”是指两个或两个以上。“和/或”，描述关联对象的关联关系，表示可以存在三种关系，例如，A和/或B，可以表示：单独存在A，同时存在A和B，单独存在B这三种情况。字符“/”一般表示前后关联对象是一种“或”的关系。It should be understood that the "plurality" mentioned herein refers to two or more than two. "And/or" describes the association relationship of associated objects, indicating that there may be three types of relationships, for example, A and/or B may indicate: A exists alone, A and B exist simultaneously, and B exists independently. The character "/" generally indicates that the contextual objects are an "or" relationship.

还基于上述同一发明构思，本申请实施例还公开一种计算机可读存储介质，所述可读存储介质中存储有至少一条指令、至少一段程序、代码集或指令集，所述至少一条指令、至少一段程序、代码集或指令集由处理器加载并执行以实现如前文所述的设备点检流程执行方法。Also based on the same inventive concept above, the embodiment of the present application also discloses a computer-readable storage medium, in which at least one instruction, at least one program, code set or instruction set is stored, and the at least one instruction, At least one section of program, code set or instruction set is loaded and executed by the processor to implement the method for executing the device inspection process as described above.

本领域普通技术人员应当理解实现上述实施例的全部或部分步骤可以通过硬件来完成，也可以通过程序来指令相关的硬件完成，所述的程序可以存储于一种计算机可读存储介质中，上述提到的存储介质例如包括：U盘、移动硬盘、只读存储器(Read-OnlyMemory，ROM)、随机存取存储器(RandomAccessMemory，RAM)、磁碟或者光盘等各种可以存储程序代码的介质。Those of ordinary skill in the art should understand that all or part of the steps for implementing the above-mentioned embodiments can be completed by hardware, or can be completed by instructing related hardware through a program, and the program can be stored in a computer-readable storage medium. The mentioned storage medium includes, for example, various media capable of storing program codes such as U disk, mobile hard disk, read-only memory (Read-Only Memory, ROM), random access memory (Random Access Memory, RAM), magnetic disk or optical disk.

以上所述仅为本申请的可选实施例，并不用以限制本申请，凡在本申请的精神和原则之内，所作的任何修改、等同替换、改进等，均应包含在本申请的保护范围之内。The above are only optional embodiments of the application, and are not intended to limit the application. Any modifications, equivalent replacements, improvements, etc. made within the spirit and principles of the application shall be included in the protection of the application. within range.

Claims (10)

1. An equipment point inspection flow execution method is characterized by comprising the following steps:

downloading and reading a point inspection task list from a point inspection system end;

generating and executing task reminders for each point inspection task in the point inspection task list;

executing point inspection operation flows one by one according to the task type and the task content of each point inspection task, collecting and storing obtained point inspection result data, and marking the corresponding point inspection result data as a non-uploading state;

confirming the communication connection state with the point inspection system end, and uploading the point inspection result data in the non-uploading state to the point inspection system end one by one when the communication connection state is normal;

and re-uploading the point detection result data in the non-uploading state by using a timing retransmission mechanism until the data uploading of all the point detection result data is completed.

2. The device spot inspection process execution method according to claim 1, wherein the downloading and reading of the spot inspection task list from the spot inspection system side specifically includes the following steps:

establishing communication connection with a point inspection system end, and verifying an identification number of a connected point inspection execution end by the point inspection system end;

downloading a spot inspection task list from the spot inspection system end according to the identification number, wherein the spot inspection task list comprises all spot inspection tasks which are not executed and correspond to the identification number;

and reading task parameters of all the point inspection tasks in the point inspection task list one by one, wherein the task parameters comprise task types, target equipment, task starting time, task periods and task contents, and the task contents comprise point inspection item details, point inspection item operation methods and corresponding point inspection item discrimination standards.

3. The device checkup flow execution method according to claim 2, wherein the generating and executing of the task reminder for each checkup task in the checkup task list specifically includes the following steps:

sequencing all the point inspection tasks in the point inspection task list from near to far according to the task starting time and the task period;

according to the sequencing sequence, determining the reminding time of each point inspection task, wherein each point inspection task corresponds to at least one reminding time, and the time interval between the reminding time of each point inspection task and the task starting time is preset reminding duration;

and when the time reaches any reminding time, generating and executing the task reminding corresponding to the reminding time.

4. The device spot inspection process execution method according to claim 3, wherein the spot inspection operation process is executed one by one according to the task type and task content of each spot inspection task, the obtained spot inspection result data is collected and stored, and the corresponding spot inspection result data is marked as a non-uploaded state, specifically comprising the following steps:

when the point inspection task is a manual observation point inspection item, receiving and recording manual observation point inspection item data, wherein the manual observation point inspection item data are equipment state data obtained by manual observation and equipment operation data which are obtained by manual recording and can be used for analysis and in an image format and/or an audio format, the manual observation point inspection item data are converted into point inspection result data according to a preset format standard and are stored in a database, the task state corresponding to the point inspection task is updated to be executed, and the corresponding point inspection result data are marked to be in a non-uploading state;

when the point inspection task is an instrument reading point inspection item, receiving and recording instrument reading point inspection item data, wherein the instrument reading point inspection item data is an instrument reading, converting the instrument reading point inspection item data into point inspection result data according to a preset format standard and storing the point inspection result data into a database, updating the task state corresponding to the point inspection task into an executed state, and marking the corresponding point inspection result data into a non-uploaded state;

when the spot inspection task is an instrument detection spot inspection item, receiving and displaying temperature data, original vibration data and/or vibration characteristic value data from a spot inspection instrument, wherein the vibration characteristic value data is obtained by the spot inspection instrument through calculating a vibration characteristic value according to the original vibration data, converting all received data into spot inspection result data according to a preset format standard and storing the spot inspection result data into a database, updating a task state corresponding to the spot inspection task to be executed, and marking the spot inspection result data to be an un-uploaded state.

5. The device spot inspection process execution method according to claim 4, wherein the spot inspection operation process is executed one by one according to the task type and task content of each spot inspection task, the obtained spot inspection result data is collected and stored, and the corresponding spot inspection result data is marked as a non-uploaded state, further comprising the steps of:

and after the point inspection result data are obtained through conversion every time, judging the point inspection result data according to the point inspection item judgment standard, and if any one of the point inspection result data does not accord with the corresponding point inspection item judgment standard, generating an alarm message bound with the current point inspection task and storing the alarm message in a database.

6. The method for executing the device spot check process according to claim 4, wherein the step of confirming the communication connection status with the spot check system, and uploading the data of the spot check results in the non-uploaded status to the spot check system one by one when the communication connection status is normal, specifically comprises the steps of:

after the point inspection result data are obtained each time, whether the communication connection state with the point inspection system end is normal is checked, if the communication connection state is normal, all the point inspection result data in the non-uploading state are uploaded to the point inspection system end one by one, meanwhile, a data confirmation receipt fed back from the point inspection system end is received, and the point inspection result data corresponding to the received data confirmation receipt are updated to be in the uploading state.

7. The method for executing a device peer detection process according to claim 6, wherein the uploading of the peer detection result data in an un-uploaded state is resumed by using a timing retransmission mechanism until the uploading of all the peer detection result data is completed, specifically comprising the following steps:

starting a timing retransmission mechanism, searching whether the point inspection result data in the non-uploaded state still exist in the database after a preset timing interval is reached, if so, uploading the searched point inspection result data in the non-uploaded state one by one, and stopping the timing retransmission mechanism until all the point inspection result data are in the uploaded state.

8. The device point inspection flow executing device is characterized by comprising the following modules:

the task list acquisition module is configured to download and read the point inspection task list from the point inspection system end;

the task reminding generation module is configured to generate and execute a task reminding aiming at each point inspection task in the point inspection task list;

the task flow executing module is configured to execute the point inspection operation flows one by one according to the task type and the task content of each point inspection task, collect and store the obtained point inspection result data, and mark the corresponding point inspection result data as a non-uploading state;

the task result uploading module is configured to confirm the communication connection state with the point inspection system end, and when the communication connection state is normal, the point inspection result data in the non-uploaded state are uploaded to the point inspection system end one by one;

and the task result retransmission module is configured to re-upload the point inspection result data in the non-uploaded state by using a timing retransmission mechanism until the data uploading of all the point inspection result data is completed.

9. An intelligent terminal, comprising a memory and a processor, wherein the memory stores at least one instruction, at least one program, a set of codes, or a set of instructions, and the at least one instruction, at least one program, a set of codes, or a set of instructions is loaded and executed by the processor to implement the device click through flow execution method according to any one of claims 1 to 7.

10. A computer-readable storage medium having stored therein at least one instruction, at least one program, a set of codes, or a set of instructions, which is loaded and executed by a processor to implement the device spot check flow execution method according to any one of claims 1 to 7.

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