Real-time monitoring method and the real-time evaluation method for seismic performance of building anti-seismic fupport post

A technology for seismic performance and real-time monitoring, which is used in elasticity testing, mechanical component testing, and machine/structural component testing. , the effect of reducing losses

Active Publication Date: 2018-07-06
JIANGSU YIDINGGU ELECTROMECHANICAL TECH CO LTD
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

The use of building anti-seismic supports and hangers is becoming more and more widespread, but there is a lack of mature methods for real-time monitoring and evaluation of their anti-seismic performance

Method used

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  • Real-time monitoring method and the real-time evaluation method for seismic performance of building anti-seismic fupport post
  • Real-time monitoring method and the real-time evaluation method for seismic performance of building anti-seismic fupport post

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Experimental program
Comparison scheme
Effect test

Embodiment 1

[0022] Such as figure 1 As shown, the seismic support and hanger are mainly composed of vertical boom 3, seismic diagonal brace 6, strain sensor 2 installed in vertical boom 3, acceleration sensor 5 installed in the middle of diagonal brace 6, fixed by anchor 1 On the seismic connection member 4, the pipeline 7 is placed on the seismic support and hanger. Obtain the strain response of the vertical boom and the acceleration response value of the seismic brace through the sensor.

[0023] Record the initial mass m of the pipeline when the seismic support and hanger installation phase is completed. After that, select 10 minutes of monitoring data, and calculate the average value T of the natural vibration period T from the original data obtained by the acceleration sensor in units of 10 minutes. 10.test ,Calculate the average value ε of static strain ε from the original data obtained by the strain sensor 10.test1 . according to Calculate the initial lateral stiffness k of the s...

Embodiment 2

[0027] Such as figure 2 As shown, there are two differences between this embodiment and Embodiment 1. First: the pipeline in Example 1 is parallel to the plane formed by the vertical boom 3 and the seismic brace 6, in this embodiment, the pipeline is perpendicular to the plane formed by the vertical boom 3 and the seismic brace 6; second: selected The duration of the monitoring data is different. The value of t in Embodiment 1 is 10 minutes, and the value of t in this embodiment is 24 hours as a unit to calculate the daily average of each value.

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Abstract

The invention discloses a real-time monitoring method and a real-time evaluation method for the seismic performance of a building anti-seismic fupport post. The method comprises the steps of installing a strain sensor in a boom of the anti-seismic fupport post, and installing an acceleration sensor in an inclined strut; recording the initial mass m of a construction electromechanical engineering facility, selecting monitoring data within a certain time length t1 as a calculation interval, calculating the self-vibration cycle average value Ttest and the static strain average value epsilon test1 of obtained original data after the installation of the anti-seismic fupport post and before the usage of the anti-seismic fupport post, and calculating the initial rigidity k of the anti-seismic fupport post based on the initial mass m and the self-vibration cycle average value Ttest; during the usage stage, selecting monitoring data within a certain time length t2 as a calculation interval, calculating the static strain average value epsilon test 2, the actual quality mtest of the construction electromechanical engineering facility and the resistant-lateral rigidity ktest. The invention discloses a real-time assessment method for the anti-seismic fupport post. According to the invention, the performance of the anti-seismic fupport post can be monitored in real time, so that the use health condition of the anti-seismic fupport post can be further evaluated. The early warning for maintenance and replacement is provided. The advantages of convenience, real-time performance, safety andthe like can be realized.

Description

Technical field [0001] The invention relates to a real-time monitoring method and a real-time evaluation method for the seismic performance of a building seismic support and hanger used in civil engineering. Background technique [0002] The structural health monitoring and evaluation system evaluates the reliability and safety of the structure by analyzing the dynamic response data collected by the sensors arranged on the structure, and provides basis and guidance for the maintenance, maintenance and management of the structure. [0003] Building seismic supports and hangers are important seismic measures for effective protection of mechanical and electrical equipment and pipelines. They are composed of anchors, reinforced booms, seismic connection members and seismic braces. According to the current national standard "Code for Seismic Design of Buildings" (GB50011-2010), non-structural components in buildings and their connections to the main structure need to be designed for ear...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01M13/00G01M5/00
CPCG01M5/0008G01M13/00
Inventor 丁幼亮万春风梁启慧朱浩樑
Owner JIANGSU YIDINGGU ELECTROMECHANICAL TECH CO LTD
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