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Method for determining ground mark time of inner detector of pipeline

A technology for internal detectors and determination methods, which is applied in pipeline systems, mechanical equipment, gas/liquid distribution and storage, etc. It can solve the problems of rough envelopes, inability to correct mileage wheel errors of in-pipeline detectors, and inability to obtain accurate ground markings Time and other issues, to achieve the effect of accurate ground marking time and improved accuracy

Inactive Publication Date: 2012-07-04
TIANJIN UNIV
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Problems solved by technology

[0006] In the envelope extraction, the existing methods are based on the principle of extreme value interpolation, relying on the extreme value of the friction sound signal, and the friction sound signal is a complex and changeable broadband signal, the envelope extraction based on the principle of extreme value interpolation The envelope obtained by this method is not smooth, it is difficult to accurately judge the peak time, and the accurate ground marking time cannot be obtained, so that the mileage wheel error of the detector in the pipeline cannot be accurately corrected

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  • Method for determining ground mark time of inner detector of pipeline
  • Method for determining ground mark time of inner detector of pipeline
  • Method for determining ground mark time of inner detector of pipeline

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[0042] In order to make the object, technical solution and advantages of the present invention clearer, the implementation manner of the present invention will be further described in detail below in conjunction with the accompanying drawings.

[0043] In order to obtain an accurate ground marking time, thereby accurately correcting the mileage wheel error of the in-pipeline detector, an embodiment of the present invention provides a method for determining the ground marking time of the in-pipeline detector, see figure 1 Firstly, the acoustic principle ground marking system is used to collect the friction sound signal generated by the friction between the inner detector and the pipe wall. Since the amplitude of the friction sound signal generated when the inner detector passes through the ground marker will change from small to large, and then from large to large. According to this characteristic, the signal part that conforms to the law is intercepted from the friction sound s...

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Abstract

The invention discloses a method for determining the ground mark time of an inner detector of a pipeline, relating to the technical field of inner detection of the pipelines. The method comprises the following steps of: acquiring a friction sound signal which is generated by the friction between the inner detector and the pipe wall and meets a preset rule by an acoustic ground mark system; acquiring an envelope signal through band-pass filtering, full-wave shaping and enveloping acquiring processing; establishing a mathematical model that the amplitude of the friction sound signal of the inner detector, which is received by the ground marker, changes along with the time; substituting the vertical distance between a sensor of the ground marker and a pipeline, the operation speed of the inner detector of the pipeline within a signal time period as well as the obtained envelope signal into the established mathematical model; and acquiring the ground mark time through least square fitting. Proved by experiments, the error of the acquired ground mark time obtained through the method is little; the acquired ground mark time is more accurate and can meet the requirement of projects; and the odometer wheel error of the inner detector of the pipeline can be corrected more accurately.

Description

technical field [0001] The invention relates to the technical field of in-pipeline detection, in particular to a method for determining the ground marking time of an in-pipeline detector. Background technique [0002] Pipeline defects are caused by factors such as material defects, external force damage, construction defects, and corrosion. These defects cause potential danger to the safe operation of the pipeline, and if they are not dealt with in time, once an accident occurs, it will cause huge loss of life and property and environmental pollution. In order to ensure the safe operation of the pipeline, it is necessary to carry out defect detection on the pipeline. [0003] The in-pipeline detection technology is to place the in-pipeline detector equipped with non-destructive testing equipment and data acquisition, processing and storage systems in the pipeline, and run in the pipeline under the impetus of the fluid medium to detect the defects of the pipe body and accura...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F17D5/02
Inventor 李一博王伟魁孙立瑛杨伟向红
Owner TIANJIN UNIV
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