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Packaged technology for underwater in situ automatically monitoring

An automatic monitoring and technical technology, applied to underwater structures, open-air water source surveys, measuring instruments, etc., can solve problems such as only being placed on the underwater ground, difficulty in setting reference points, damage to ships or construction machinery, etc., to achieve Eliminate the need for round-trip ship machines, save monitoring personnel, and minimize construction interference

Active Publication Date: 2007-09-19
TIANJIN PORT ENG INST LTD OF CCCC FIRST HARBOR ENG +1
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the automation of underwater monitoring far from the shore will encounter greater difficulties
First, it is extremely difficult to set the reference point; second, where is the receiving instrument placed? Generally, they are placed in a room with a suitable temperature and humidity, which is impossible at this time; placed on a buoy on the water surface, not only is it very easy to be damaged by ships or construction machinery, but it will be easily taken away by passing civilian ships; On the underwater ground, on the one hand, strong measures for anti-collision, anti-smashing, and anti-hanging are required

Method used

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  • Packaged technology for underwater in situ automatically monitoring
  • Packaged technology for underwater in situ automatically monitoring
  • Packaged technology for underwater in situ automatically monitoring

Examples

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Embodiment Construction

[0090] (1) Surface subsidence monitoring method for multiple fixed inclinometer sections

[0091] 1. Structure and working principle

[0092] I propose a method of monitoring cross-section settlement with multiple fixed inclinometers. There are 16 base units, with a length of 2000mm and a width of 400mm. The channel steel is 100mm, as shown in Figure 1(a), and each inclinometer is rigidly connected to a horizontal strip steel plate with sufficient rigidity (referred to as the base). Each of the inclinometers is protected by two layers, as shown in Figure 1(b). The base units are hingedly connected by 30 hinged pipes, and multiple bases are connected into a whole base, also known as a continuous settling plate, as shown in Figure 1(c). Starting from the place where no settlement occurs outside the dike, the entire foundation is buried between the dike and the seabed. When the dike causes the foundation to settle, as shown in Figure 2(a), the inclination angle θ measured by ...

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Abstract

An in-situ automatic monitoring complete technology method for an underwater groundwork comprises a section surface subsidence monitoring method by multiple fixed inclinometers; a multipoint hydraulic difference surface subsidence monitoring method; a layered soil mass subsidence monitoring method; a pore water pressure monitoring method; and a horizontal and vertical displacement monitoring method; an automatic monitoring technology with a monitoring and control system disposed in the deep water sea bottom for long period. The invention can successfully and conveniently perform the in-situ monitoring of the underwater groundwork without disposing waterborne bases, arranging maritime platforms and passing through buildings; can perform full-course monitoring on the engineering, perform underwater automatic monitoring and real-time monitoring data transmission, in particular monitor continuously in the typhoon period; the automatic monitoring can save monitoring workers and cruise time; the automatic monitoring instruments are all disposed underwater, thereby having little influence on construction and decreasing instrument damage rate; the automatic monitoring can perform on-time on-point test to eliminate man-made reading error, and make the reading accurate, quick and precise.

Description

technical field [0001] The invention belongs to the underwater automatic testing technology of civil engineering foundations and foundations, and in particular relates to a complete technical method for in-situ automatic monitoring of underwater foundations. Background technique [0002] Generally speaking, the in-situ monitoring of civil engineering foundations and foundations needs to be monitored for more than one or two years. The monitoring contents mainly include: surface settlement, layered settlement of foundation soil, horizontal and vertical displacement, pore water pressure of foundation soil, Soil pressure on foundations and structures, etc. [0003] The routine monitoring method of land surface subsidence is to use a level instrument, the accuracy can reach 1mm, and the distance of a single measuring station should generally not exceed 30-50m. Especially for the monitoring of structures on the water far from the shore, it is impossible to set a reference point ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E02D33/00E02D29/00G01C13/00G01C15/00E02B1/00
Inventor 张敬苗中海高志义阚卫明叶国良郭述军解林博朱胜利喻志发杨京方李立新
Owner TIANJIN PORT ENG INST LTD OF CCCC FIRST HARBOR ENG
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