An intelligent power supply management method and system for deep-sea mobile platform batteries

Abstract

The invention discloses an intelligent power supply management method and system for a battery of a deep-sea mobile platform, and relates to the technical field of battery management for deep-sea operation equipment, including: if the state of the deep-sea intelligent battery pack that is supplying power is detected to be abnormal, switch the hot-backup deep-sea intelligent battery pack. The battery pack supplies power to the deep-sea mobile platform, and at the same time stops the power supply output of the deep-sea intelligent battery pack in an abnormal state; if it detects that the power-consuming unit of the working deep-sea mobile platform is in an abnormal state, it stops supplying power to the power-consuming unit in an abnormal state; to ensure that the deep-sea The battery of the mobile platform provides continuous and reliable power supply during the deep-sea operation of the deep-sea mobile platform; the power-consuming unit is a power-consuming unit with the function of collecting and collecting deep-sea resources and data. In view of the technical problem that the deep-sea mobile platform requires high power supply reliability for deep-sea operations, it can intelligently adjust the power supply scheme according to the detected abnormal conditions to ensure that the deep-sea mobile platform maintains power supply reliability.

Description

technical field [0001] The invention relates to the technical field of battery management of deep-sea operation equipment, in particular to an intelligent power supply management method and system for batteries of deep-sea mobile platforms. Background technique [0002] Deep-sea equipment is limited by its deep-sea usage scenarios and existing energy technologies. Often, it can only rely on batteries to maintain power supply and cannot communicate with the outside world. Therefore, existing deep-sea equipment often uses presets for energy management, that is, in The power supply scheme is pre-set before the deep-sea equipment enters the water, and the power supply scheme cannot be adjusted after the deep-sea equipment enters the water. However, the underwater hydrological environment is complex, and the working conditions of the deep-sea equipment are difficult to predict, and there is a problem of power supply reliability. Although the deep-sea mobile platform needs to go t...

AI Technical Summary

Problems solved by technology

However, the deep-sea environment is complex, and the factors affecting the safety and reliability of underwater related components and equipment have a high probability of abnormal situations. For example, for deep-sea operating equipment, sealing is essential, although the durability of the sealing depends on the previous stage In addition to factors such as manufacturing, processing, experimentation and testing, in order to improve the sealing performance in the prior art, most of the equipment and components are produced and tested, and the processing technology, manufacturing technology, etc. are considered and improved to improve the sealing performance; However, in actual use, there are many influencing factors, which cannot be covered comprehensively by previous experiments and tests.

[0003] In the process of collecting deep-sea data by the deep-sea mobile platform, the stability and reliability of the deep-sea mobile platform itself are very important. Safety and reliability are very important for deep-sea mobile platforms. If the sealing performance is not good, once leakage occurs, although the battery itself of the deep-sea mobile platform has excellent sealing performance, it may be difficult for the power supply of the power-consuming functional units of the deep-sea mobile platform. There will be abnormal conditions such as short circuit and open circuit, which will cause the functional module itself to fail, and even affect other functional modules, which will bury safety hazards for deep-sea mobile platforms

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