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Seaquake wave-detection aircraft capable of being autonomously placed and recycled

A technology of aircraft and wave detection, which is applied in the direction of seismology, seismology, and instruments in areas covered by water, can solve problems such as accurate recovery, lower seismic wave detection efficiency, and difficult positions, and achieve accurate deployment and The effect of recycling

Inactive Publication Date: 2018-09-11
HARBIN ENG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, ordinary submarine seismic detection devices need to calculate the reasonable location of the seismic detector. Once the submarine seismic detector fails to reach the ideal seabed position, it is generally difficult to change the position, so that it cannot be independently arranged and accurately recovered.
The existing submarine seismic detectors cannot perform complex movements according to the instructions of the surface mother ship, which greatly reduces the efficiency of seismic wave detection and wastes resources

Method used

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  • Seaquake wave-detection aircraft capable of being autonomously placed and recycled
  • Seaquake wave-detection aircraft capable of being autonomously placed and recycled

Examples

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Effect test

Embodiment 1

[0017] Embodiment 1 Carry out a submarine seismic wave detection

[0018] A submarine seismic detection vehicle capable of autonomous deployment and recovery, including the following: a seismic detection and sensing module, a multi-degree-of-freedom propulsion module, a communication module, a control management module, and an energy supply module;

[0019] The seismic detection and sensing module includes three-component acceleration geophones, hydrophones, attitude sensors, atomic clocks, depth detection and positioning modules;

[0020] According to the detection plan of the seabed seismic wave, prepare enough energy, that is, to determine that the energy supply module can meet the normal work; the surface mother ship travels to these positions according to the approximate position of the aircraft that needs to detect the seabed seismic wave, and each position Deploying an ocean floor geophone;

[0021] The aircraft starts to sink from the sea surface, and the atomic clock...

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Abstract

The invention relates to a seaquake wave-detection aircraft capable of being autonomously placed and recycled. The seaquake wave-detection aircraft comprises an earthquake wave detection and inductionmodule, a multi-degree-of-freedom propelling module, a communication module, a control management module and an energy supply module, wherein the earthquake wave detection and induction module comprises a three-component accelerated speed wave detector, a hydrophone, an attitude sensor, an atomic clock, a depth detection and positioning module. According to the seaquake wave-detection aircraft, benthonic earthquake waves and sound waves can be simultaneously detected, and relatively complete benthonic geographic information can be acquired; and meanwhile, the seaquake wave-detection aircraftcan be in real-time communication with a mother ship on the water surface, so that the behaviors of the seaquake wave-detection aircraft can be flexibly controlled; and by utilizing the multi-degree-of-freedom propelling module, the seaquake wave-detection aircraft can be accurately placed and recycled.

Description

technical field [0001] The invention relates to a submarine seismic detection aircraft capable of autonomous deployment and recovery. Background technique [0002] Submarine seismic activity is very frequent. Modern technology uses the seismic situation of the seabed to obtain the source of the earthquake through the seismic detection device, and then analyzes the law of seismic activity on the seabed to provide data for the analysis of the geological structure of the seabed. The current submarine seismic monitoring devices generally adopt distributed multi-point continuous observation, and the detection depth can reach 6000 meters. However, ordinary submarine seismic detection devices need to calculate the reasonable location of the seismic detector. Once the submarine seismic detector fails to reach the ideal seabed position, it is generally difficult to change the position, so that it cannot be independently arranged and accurately recovered. The existing submarine seism...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01V1/38G05D1/10
CPCG01V1/3852G05D1/10
Inventor 秦洪德吴哲远朱仲本田瑞菊刘传奇姜涛
Owner HARBIN ENG UNIV
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