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Device and method for testing gradient and oscillation of cable-stayed bridge tower

A cable-stayed bridge pylon and inclination technology, applied in the direction of measuring inclination, instruments, measuring devices, etc., can solve the problem that the inclination and swing of the cable-stayed bridge pylon cannot be measured at the same time, cannot be exposed to the field for a long time, and cannot be continuously Real-time output monitoring signal and other issues

Inactive Publication Date: 2013-08-14
HEFEI UNIV OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] At present, theodolites are often used to test the inclination of cable-stayed bridge towers, and vibration pick-up instruments are used to measure the swing of cable-stayed bridge towers. The inclination and swing of the bridge tower, the inability to continuously output monitoring signals in real time, etc.

Method used

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  • Device and method for testing gradient and oscillation of cable-stayed bridge tower
  • Device and method for testing gradient and oscillation of cable-stayed bridge tower
  • Device and method for testing gradient and oscillation of cable-stayed bridge tower

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Embodiment Construction

[0036] see Figure 1 to Figure 14 , is a cable-stayed bridge cable tower inclination and swing tester of the present invention, including a cable tower swing test laser emitting device I or a cable tower swing test laser emitting device II19, a cable tower swing target device I or a cable tower swing test The target device II28 is characterized in that: a frame I9 is ​​installed on the upstream side of the cap 5 of the cable-stayed bridge 1, and a test shed I11 is installed on the frame I9, and the above-mentioned cable tower swing test is arranged in the test shed I11. Laser emission device I19. A frame II10 is arranged on the downstream side of the cap 5 of the cable-stayed bridge 1, and a test shed II12 is installed on the frame II10, and the above-mentioned cable tower swing test laser emission device II19 is arranged in the test shed II12. There are skylights 13 on the ceilings of the test shed I11 and the test shed II12. A bracket I14 is installed on the upstream side ...

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Abstract

The invention discloses a device and a method for testing gradient and oscillation of a cable-stayed bridge tower. The device comprises a cable tower oscillation test laser emission device I, a cable tower oscillation test laser emission device II, a cable tower oscillation target spot device I and a cable power oscillation target spot device II. The device is characterized in that the cable tower oscillation test laser emission device I and the cable tower oscillation test laser emission device II are respectively arranged at the upstream side and the downstream side of a cable-stayed bridge bearing platform. The cable tower oscillation target spot device I and the cable power oscillation target spot device II are respectively arranged on the side surface of the upstream of the top and the side surface of the downstream of the middle of a cable-stayed bridge cable tower. The device has the characteristics of large measuring range, high precision, good resolution, reliability in working, convenience in operation and the like, is capable of carrying out continuous testing in an all-weather manner and outputting test data in real time, and provides novel instrument and equipment for testing the gradient and the oscillation of the cable-stayed bridge tower.

Description

technical field [0001] The invention relates to an instrument and method for testing the inclination and swing of a cable-stayed bridge tower, in particular to a tester for the inclination and swing of a cable-stayed bridge tower and a testing method thereof. Background technique [0002] At present, theodolites are often used to test the inclination of cable-stayed bridge towers, and vibration pick-up instruments are used to measure the swing of cable-stayed bridge towers. The inclination and swing of the bridge tower, and the inability to continuously output monitoring signals in real time. Contents of the invention [0003] Aiming at the deficiencies of existing instruments and equipment for testing the inclination and swing of cable-stayed bridge towers, the present invention proposes a tester for the inclination and swing of cable-stayed bridge towers and a testing method thereof, which can continuously and uninterruptedly monitor all-weather, Real-time output of dat...

Claims

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Application Information

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IPC IPC(8): G01C9/00G01H9/00
Inventor 汪哲荪
Owner HEFEI UNIV OF TECH
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