Seabed observation network node platform

A network node, seabed observation technology, applied in the directions of underwater operation equipment, transportation and packaging, ships, etc., can solve the problem that ocean observation methods cannot be long-term, continuous, real-time observation, etc., to reduce volume and weight, and realize real-time communication. Effect

Active Publication Date: 2010-09-08
ZHONGTIAN TECH MARINE SYST CO LTD
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Problems solved by technology

[0003] In order to solve the deficiency that the existing ocean observation method cannot be observed in a long-term, continuous and real-time manner, the present invention provides a seabed observation that can

Method used

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  • Seabed observation network node platform
  • Seabed observation network node platform
  • Seabed observation network node platform

Examples

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Embodiment Construction

[0031] refer to Figure 1-17 : The seabed observation network node platform, including a box body, the box body is equipped with a floating body 110 for suspending the platform on the seabed and an interface 122 connected with the seabed external equipment, and the photoelectric separation device 210 and the wiring board 140 are arranged in the box body, And a high-voltage power supply cavity 124, a low-voltage power supply cavity 126, and a control system cavity 128 filled with insulating oil. The terminal board is provided with a high-voltage wet plug assembly 141, an optical fiber wet plug assembly 142, and an external device wet plug assembly. The plug-in assembly 143, the input end of the photoelectric separation device 210 is connected to the coastal base station through a photoelectric composite cable, and its electrical signal output end and optical signal output end are correspondingly connected to the high-voltage wet plug-in assembly 141 and the optical fiber wet-plu...

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Abstract

The invention relates to a seabed observation network node platform comprising a box body in which a photoelectricity separating device, a wiring board, a high-voltage power supply cavity, a low-voltage power supply cavity and control system cavity, wherein the photoelectricity separating device is connected with a coast base station, an electric signal output end and an optical signal output endof the photoelectricity separating device are correspondingly connected with the input ends of a high-voltage wet plugging assembly and an optical fiber wet plugging assembly, the output ends of the high-voltage wet plugging assembly and the optical fiber wet plugging assembly are respectively connected with the low-voltage power supply cavity and the control system cavity, and the control systemcavity is in communication connection with seabed external equipment through an external equipment wet plugging assembly; the output end of the high-voltage power supply cavity is connected with the input end of the low-voltage power supply cavity, and the output end of the low-voltage power supply cavity is connected a power source input end of the control system cavity which is internally provided with a communication control system for data communication with the seabed external equipment and a power source management system. The invention can provide continuous power energy for the seabedexternal equipment and realizes the real-time and continuous communication between the coast base station and the seabed external equipment.

Description

technical field [0001] The invention belongs to the field of marine development and detection, and in particular relates to a seabed observation network node platform. Background technique [0002] The current ocean observations, especially those in the deep sea environment, are usually based on shipboard equipment or fixed-point observation equipment. This observation is short-term, offline, and intermittent. In order to fully understand the ocean, conduct all-round observations of the earth to conduct exploration and research on climate monitoring, research on the origin of life, early warning of natural disasters, monitoring of plate activity status, ecosystem operation, etc. Obviously, the traditional observation method has developed to a bottleneck . In order to achieve long-term, real-time and continuous observation of the ocean, it is necessary to change the traditional observation method. Contents of the invention [0003] In order to solve the deficiency that th...

Claims

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Application Information

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IPC IPC(8): B63C11/36
Inventor 杨灿军陈燕虎李德骏金波孟启承李珅张继园陈鹰
Owner ZHONGTIAN TECH MARINE SYST CO LTD
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