A matrix profile observation system

Abstract

The invention discloses a matrix warping winch observation system, which comprises a shore station system, a mother bomb system and a plurality of submunition systems. The shore station system is connected with the mother bomb system through an umbilical cord cable, and the plurality of submunition systems are carried by the mother bomb system before being released. A mast cartridge system includes a mast cartridge housing, A system control module is arranged on the upper part of the mast cartridge shell, and a air guide cover is arranged at the bottom of the mother shell case, and a first measuring sensor is arranged at the air guide cover, All the submunition systems are uniformly arranged along the circumference of the master shell, a release device for controlling the synchronous release of all the submunition systems is arranged at the middle part of the master shell, and a window for facilitating the submunition system to protrude from the master shell is arranged at a position corresponding to the submunition system on the master shell. The invention provides a method and a device for detecting the data of the whole sea depth space region, which effectively solves the attitude unity and synchronism of the simultaneous release of a plurality of submunition systems, and improves the accuracy of the measurement data of the submunition system.

Description

technical field [0001] The invention relates to the field of ocean observation, in particular to a full-sea depth matrix profile observation system. Background technique [0002] At present, the detection of the ocean is no longer a single system, especially the detection of the vertical profile of the ocean. Traditional profilers and other equipment detect ocean data in a single vertical plane, and the measured data cannot be compared and analyzed. There will be accidental data, which will cause large errors in subsequent data analysis. Therefore, more scientists or researchers want to get vertical planes. The data of the whole sea depth and the whole area of ​​the profile at the same time, at this time, it is necessary for the parent body to carry the daughter body to form a matrix profile observation system for detection. Compared with the parent system, the daughter system is smaller in size, and the matrix-type downward throwing of the daughter system with complex sea ...

AI Technical Summary

Problems solved by technology

[0004] 1. The release of the existing daughter system is mostly pushed out from the chamber of the parent system by the mechanical arm. Although the structure of the mechanical arm is relatively simple, this structure destroys the overall streamlined shape of the parent system, which will affect the stability of the parent system and is easy to release. Causes a series of problems such as inconsistent posture and out-of-synchronization of the sub-body system after being thrown, which in turn affects the accuracy of the measurement data, especially the time and space synchronization of the bullet measurement data

[0005] 2. After the sub-body system reaches the bottom of the sea, the bottom part of the sub-body system will often be inserted into or sink into the sand. At this time, the heavy buoyancy adjustment by throwing heavy objects alone often cannot realize the floating of the equipment, so there is often a sub-body system. The problem of not being able to effectively recycle

[0006] 3. The existing parent system often places CTD sensors and current meters on the top. The system has already affected the fluid in the sea area it passes through during the dive, so the data measured by the CTD sensor and current meter are not the data of the original sea area, that is to say The data measured by the parent system are inaccurate

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