Deepwater submersible vehicle charging platform capable of lifting and aligning

Abstract

The invention provides a deepwater submersible vehicle charging platform capable of lifting and aligning. The charging platform comprises: a telescopic cover plate which is contracted and expanded through a cover plate control system; a charging device which comprises a rechargeable battery pack, a charging jack, a contact sensor and a clamping groove; the charging jack, the contact sensor and theclamping groove form a square structure, a drying device, a separable base plate and a charging socket are arranged in the charging jack, and a plurality of proximity sensors are arranged on the charging device; a lifting system arranged at the bottom of the charging device and used for controlling lifting of the charging device, wherein the bottom end of the lifting system is connected with a rigid bottom column, and the charging platform is fixed in a deep sea seabed through the rigid bottom column; and a positioning system which adopts a GPS + LBS positioning system, is connected with thesignal receiving device and is used for positioning a deep-sea submersible vehicle. The charging platform can ensure that the deep-sea space station can safely perform long-period and all-weather deep-sea operation, deal with many emergency situations, and save a large amount of time and energy for the deep-sea submersible vehicle to return to a wharf.

Description

technical field [0001] The invention relates to a deep-water submersible charging platform capable of lifting and aligning. Background technique [0002] Domestic deep-sea space stations mostly use battery power, which can work underwater for 15-18 days and nights. Generally, they need to return to the dock to charge after working underwater for half a month. If encountering extreme sea conditions when energy is insufficient, the deep-sea space station will be in danger of being unable to return, or even lose contact. [0003] At present, there are a variety of underwater charging devices for different purposes, but most of them need to be equipped with surface supply ships: 1. The deep submersible needs to send and receive signals through the surface supply ship to release the underwater charging device for electrical energy supplementation. Therefore, the deep submersible and the surface The distance from the supply ship should not be too far, otherwise the signal cannot ...

AI Technical Summary

Problems solved by technology

If encountering extreme sea conditions when energy is insufficient, the deep-sea space station will be in danger of being unable to return to the voyage, or even lose contact

[0003] At present, there are a variety of underwater charging devices for different purposes, but most of them need to be equipped with surface supply ships: 1. The deep submersible needs to send and receive signals through the surface supply ship to release the underwater charging device for electrical energy supplementation. Therefore, the deep submersible and the surface The distance from the supply ship should not be too far, otherwise the signal cannot be transmitted

2. The work of the surface supply ship will be greatly affected by the water surface climate, especially when

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