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CN-116641553-B - Non-contact grouting monitoring method, system, equipment and storage medium

CN116641553BCN 116641553 BCN116641553 BCN 116641553BCN-116641553-B

Abstract

The application relates to the field of concrete pouring, in particular to a non-contact grouting monitoring method, a non-contact grouting monitoring system, non-contact grouting monitoring equipment and a storage medium, wherein the non-contact grouting monitoring method comprises the steps of obtaining operation to be monitored; the method comprises the steps of obtaining an area to be monitored based on the operation to be monitored, obtaining points to be monitored based on the area to be monitored, obtaining monitoring data based on the points to be monitored, judging whether abnormal data exist or not based on the monitoring data, obtaining abnormal time if the abnormal data exist, and analyzing an abnormal reason based on the abnormal time. The method has the advantages that the reasons of abnormality can be analyzed in the irrigation process, the problems in the irrigation process are solved in time, and the influence on the engineering quality is avoided.

Inventors

  • WANG YONGBO
  • ZHANG HAIGANG
  • JIA QUNCHAO
  • ZHANG ZIYI
  • ZHOU XIAOJUN
  • JI NING
  • GU JINYU
  • LV BOWEN

Assignees

  • 中国安能集团第二工程局有限公司

Dates

Publication Date
20260512
Application Date
20230524

Claims (9)

  1. 1. A non-contact grouting monitoring method, comprising: acquiring operation to be monitored; acquiring a region to be monitored based on the operation to be monitored; Acquiring points to be monitored based on the areas to be monitored; Acquiring monitoring data based on the point to be monitored; Judging whether abnormal data exist or not based on the monitoring data; if the abnormal data exist, acquiring abnormal time corresponding to the abnormal data; Analyzing an abnormality cause based on the abnormality time; Wherein, based on the anomaly time, analyzing the anomaly cause includes: acquiring an abnormal data type corresponding to the abnormal time; judging whether associated data exists or not based on the abnormal data type; If the associated data exist, acquiring the irrigation mode of the point to be monitored and judging whether the irrigation mode is normal or not; If the irrigation mode is abnormal, taking the irrigation mode as the abnormal reason; Wherein, based on the abnormal data type, the judging whether the associated data exists comprises: Acquiring the number of abnormal data types, wherein the number of abnormal data types is the type number of the abnormal data when the abnormal data appears; judging whether the number of the abnormal data types is larger than one; If the number of the abnormal data types is greater than one, acquiring the abnormal time of each abnormal data and taking the abnormal time of the first abnormal data as the standard time; Acquiring an abnormal time difference value based on the abnormal time and the standard time of the residual abnormal data; Judging whether the abnormal time difference value is smaller than a time difference value or not; and if the abnormal time difference value is smaller than the time difference value, judging that the associated data exists.
  2. 2. The method of claim 1, wherein the obtaining the point to be monitored comprises: Acquiring a structure of the region to be grouted and the structure size of the region to be grouted based on the region to be monitored; acquiring the joint position of the to-be-grouted area based on the structure of the to-be-grouted area; Acquiring and calculating monitoring points based on the size of the to-be-grouted area and a preset interval distance; And acquiring the point to be monitored based on the joint position and the calculated monitoring point.
  3. 3. The non-contact grouting monitoring method according to claim 1, wherein the judging whether abnormal data exists based on the monitoring data comprises: Standard data corresponding to the monitoring data are obtained; judging whether the standard data is the latest version or not; If the standard data is not the latest version, acquiring update information; updating the standard data based on the updating information to obtain updated standard data; judging whether the monitoring data is in the updating standard data range or not; If the standard data is in the updated standard data range, judging that the abnormal data does not exist; and if the standard data is not in the updated standard data range, judging that the abnormal data does not exist.
  4. 4. The method of claim 1, wherein the step of obtaining the irrigation mode and determining whether the irrigation mode is normal comprises: if the irrigation mode is normal, a verification mode is obtained; acquiring verification data corresponding to the verification mode; judging whether the monitoring equipment is normal or not based on the verification data; If the monitoring equipment is abnormal, taking the equipment abnormality as the abnormality reason; if the monitoring equipment is normal, uploading abnormal information.
  5. 5. The non-contact grouting monitoring method according to claim 1, wherein the analyzing the cause of abnormality based on the abnormality time further comprises: Confirming an abnormal range based on the abnormal data type; Judging whether the abnormal range exceeds a shutdown range or not; If the abnormal range exceeds the shutdown range, generating shutdown information; and if the abnormal range does not exceed the shutdown range, generating adjustment information.
  6. 6. A non-contact grouting monitoring method according to claim 5, wherein after generating the adjustment information, the method comprises the following steps: Acquiring adjustment time; After the adjustment time, re-acquiring the monitoring data and judging whether the monitoring data is recovered to be normal or not; And if the monitoring data is not recovered to be normal, generating shutdown information.
  7. 7. A non-contact grouting monitoring system, comprising: the first acquisition module (1) is used for acquiring the operation to be monitored; the second acquisition module (2) is used for acquiring an area to be monitored based on the operation to be monitored; the third acquisition module (3) is used for acquiring points to be monitored based on the areas to be monitored; The fourth acquisition module (4) is used for acquiring monitoring data based on the point to be monitored; a judging module (5) for judging whether abnormal data exists or not based on the monitoring data; The fifth acquisition module (6) is used for acquiring abnormal time corresponding to the abnormal data if the abnormal data exist; an analysis module (7) for analyzing the cause of the abnormality based on the abnormality time; Wherein, based on the anomaly time, analyzing the anomaly cause includes: acquiring an abnormal data type corresponding to the abnormal time; judging whether associated data exists or not based on the abnormal data type; If the associated data exist, acquiring the irrigation mode of the point to be monitored and judging whether the irrigation mode is normal or not; If the irrigation mode is abnormal, taking the irrigation mode as the abnormal reason; Wherein, based on the abnormal data type, the judging whether the associated data exists comprises: Acquiring the number of abnormal data types, wherein the number of abnormal data types is the type number of the abnormal data when the abnormal data appears; judging whether the number of the abnormal data types is larger than one; If the number of the abnormal data types is greater than one, acquiring the abnormal time of each abnormal data and taking the abnormal time of the first abnormal data as the standard time; Acquiring an abnormal time difference value based on the abnormal time and the standard time of the residual abnormal data; Judging whether the abnormal time difference value is smaller than a time difference value or not; and if the abnormal time difference value is smaller than the time difference value, judging that the associated data exists.
  8. 8. A terminal device comprising a memory and a processor, characterized in that the memory stores a computer program capable of running on the processor, which processor, when loaded and executed, employs the method according to any of claims 1-6.
  9. 9. A computer readable storage medium having a computer program stored therein, characterized in that the method according to any of claims 1-6 is employed when the computer program is loaded and executed by a processor.

Description

Non-contact grouting monitoring method, system, equipment and storage medium Technical Field The application relates to the field of concrete pouring, in particular to a non-contact grouting monitoring method, a non-contact grouting monitoring system, non-contact grouting monitoring equipment and a storage medium. Background In the construction process of the building, the grouting engineering directly influences the engineering quality due to the influence of geological conditions, such as water seepage, geology and the like, and in order to prevent quality problems in the grouting process, the grouting process needs to be monitored. In the related art, the monitoring of the traditional grouting process is performed by adopting a recorder, and the recorder directly inserts a probe into a grouting place in the grouting process to collect data in the grouting process. Aiming at the related technology, the traditional recorder is troublesome in data acquisition, can not directly analyze the acquired data, and can only upload the acquired data to staff for data analysis after grouting. Disclosure of Invention In order to monitor quality in a grouting process in real time, the application provides a non-contact grouting monitoring method, a non-contact grouting monitoring system, non-contact grouting monitoring equipment and a storage medium. The non-contact grouting monitoring method provided by the application adopts the following technical scheme: a non-contact grouting monitoring method, comprising: acquiring operation to be monitored; acquiring a region to be monitored based on the operation to be monitored; Acquiring points to be monitored based on the areas to be monitored; Acquiring monitoring data based on the point to be monitored; Judging whether abnormal data exist or not based on the monitoring data; if the abnormal data exist, acquiring abnormal time corresponding to the abnormal data; and analyzing the reason of the abnormality based on the abnormality time. By adopting the technical scheme, firstly, the operation to be detected is obtained, the area to be monitored is confirmed according to the operation to be detected, then the monitoring points required to be set for monitoring the area are determined according to the area, then monitoring data are obtained from each monitoring point, analysis is carried out according to the monitoring data, whether abnormal data exist in the monitoring books is confirmed, if the abnormal data exist, abnormal time is obtained, irrigation records corresponding to the irrigation operation at the moment are obtained according to the abnormal time, and reasons for causing the abnormality are analyzed. The reasons of abnormality can be analyzed in the irrigation process, the problems in the irrigation process are solved in time, and the influence on the engineering quality is avoided. Optionally, the obtaining the point to be monitored includes: Acquiring a structure of the region to be grouted and the structure size of the region to be grouted based on the region to be monitored; acquiring the joint position of the to-be-grouted area based on the structure of the to-be-grouted area; Acquiring and calculating monitoring points based on the size of the to-be-grouted area and a preset interval distance; And acquiring the point to be monitored based on the joint position and the calculated monitoring point. By adopting the technical scheme, the structure and the size of the monitoring area, especially the joint position, of the monitoring area are required to be combined when the monitoring points are set, certain strength is required to be ensured, the monitoring points are set at intervals in other places, and all places can be monitored when the area to be monitored is irrigated. Optionally, the determining whether abnormal data exists based on the monitoring data includes: Standard data corresponding to the monitoring data are obtained; judging whether the standard data is the latest version or not; If the standard data is not the latest version, acquiring update information; updating the standard data based on the updating information to obtain updated standard data; judging whether the monitoring data is in the updating standard data range or not; If the standard data is in the updated standard data range, judging that the abnormal data does not exist; and if the standard data is not in the updated standard data range, judging that the abnormal data does not exist. By adopting the technical scheme, the marked data has a time limit, and updated marks can possibly appear, so that whether the standard data is the latest version or not is firstly required to be determined, if not, the updated information is acquired, the updated version data is acquired according to the updated information, and then the monitored data is compared with the updated version data to determine whether the abnormal data exists or not. The standard data is guaranteed to be up to date and r