The invention provides a cleaning device for a surface immersed in liquid, which comprises a device main body; the wireless charging module is arranged on the device main body, and the wireless charging module charges a battery in the device main body; the buoyancy adjusting structure comprises a structure main body with an opening in one end, a separating device arranged in the structure main body and a power device for driving the separating device to move, the separating device separates the internal space of the structure main body to form a closed space, and the separating device moves relative to the structure main body; and the buoyancy in water is adjusted through the volume change of the closed space, so that the device main body floats and dives. The cleaning device has the beneficial effects that the buoyancy of the cleaning device with the surface immersed in the liquid is adjustable, so that the cleaning device with the surface immersed in the liquid automatically emerges from the water surface when needing to be charged, wireless charging is carried out, a machine does not need to be manually found or lifted out of the water surface, manual labor is reduced, and the finding time is shortened.
本发明提供一种液体中浸没表面的清洁装置,包括,装置主体;无线充电模块,设于装置主体上,无线充电模块为装置主体内的电池充电;以及,浮力调节结构,包括一端开口的结构主体、设于结构主体内的分隔装置以及驱动分隔装置移动的动力装置,分隔装置对结构主体的内部空间进行分隔,构造出一密闭空间,分隔装置相对结构主体移动,通过密闭空间的容积变化调节在水中的浮力以使得装置主体上浮和下潜。本发明的有益效果是液体中浸没表面的清洁装置的浮力可调,使得液体中浸没表面的清洁装置在需充电时自动浮出水面,进行无线充电,不需要人工寻找机器以及将机器提出水面,减少人力劳动,缩短寻找时间。
Cleaning device for surface immersed in liquid
一种液体中浸没表面的清洁装置
2023-10-31
Patent
Electronic Resource
Chinese
IPC: | B63G OFFENSIVE OR DEFENSIVE ARRANGEMENTS ON VESSELS , Angriffs- oder Verteidigungsanordnungen auf Schiffen / B08B Reinigen allgemein , CLEANING IN GENERAL / H02J CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER , Schaltungsanordnungen oder Systeme für die Abgabe oder Verteilung elektrischer Leistung / B63C LAUNCHING, HAULING-OUT, OR DRY-DOCKING OF VESSELS , Zuwasserlassen, Trockenstellen, Docken oder Bergen von Schiffen |
Immersed Boundary Surface Method foam-extend
HENRY – Federal Waterways Engineering and Research Institute (BAW) | 2018
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