A plug-in assembly structure for a UAV includes a first component (1), a second component (2) and a limit assembly (3). The first component (1) includes a first plug (11) and a positioning sleeve (12), and the positioning sleeve (12) is provided with a first through hole (121). The second component (2) includes a second plug (21), the radial direction of the second plug (21) is provided with a limit hole (2111), the second plug (21) can be electrically connected to the first plug (11), and the limit hole (2111) is facing the first through hole (121). The limit assembly (3) is installed in the limit hole (2111). The limit assembly (3) includes a first elastic element (31) and a limit element (32).

This disclosure describes an aerial vehicle, such as an unmanned aerial vehicle (“UAV”), which includes a plurality of maneuverability propulsion mechanisms that enable the aerial vehicle to move in any of the six degrees of freedom (surge, sway, heave, pitch, yaw, and roll). The aerial vehicle may also include a lifting propulsion mechanism that operates to generate a force sufficient to maintain the aerial vehicle at an altitude.

Provided is an apparatus or a method that can stabilize flight of an unmanned aerial vehicle after package receiving or package passing. A port as a package receiving or passing apparatus includes: a landing portion on which an aerial vehicle lands; a slider for horizontally moving the landed aerial vehicle to an indoor area; an elevating/lowering portion on which a package-chamber tray taken down from the aerial vehicle in the indoor area is to be placed; a movement control portion for elevating/lowering an elevating/lowering portion; a package moving portion for moving a package between a package storage portion and the package-chamber tray placed on the elevating/lowering portion; and a center of gravity adjustment portion for adjusting the center of gravity position of the aerial vehicle after package receiving or package passing.

Provided is an apparatus or a method that can stabilize flight of an unmanned aerial vehicle after package receiving or package passing. A port as a package receiving or passing apparatus includes: a landing portion on which an aerial vehicle lands; a slider for horizontally moving the landed aerial vehicle to an indoor area; an elevating/lowering portion on which a package-chamber tray taken down from the aerial vehicle in the indoor area is to be placed; a movement control portion for elevating/lowering an elevating/lowering portion; a package moving portion for moving a package between a package storage portion and the package-chamber tray placed on the elevating/lowering portion; and a center of gravity adjustment portion for adjusting the center of gravity position of the aerial vehicle after package receiving or package passing.

An on-vehicle aircraft control system includes a winding device provided on a landing platform, a connecting member connecting the winding device and an aircraft and wound up or drawn out by the winding device, and a controller controlling the winding device and the aircraft. Upon receipt of a landing request to land the aircraft on the landing platform, the controller winds up the connecting member by the winding device and controls an attitude of the aircraft so as to land the aircraft with a photographing unit provided on the aircraft facing in a specified photographing direction determined in advance.

A method for manufacturing a battery module, including: disposing an adapting plate on a battery cell assembly, and connecting the adapting plate to tabs of the battery cell assembly; providing a fastening frame, where the fastening frame is provided with an accommodating cavity, and the accommodating cavity accommodates the adapting plate and at least part of the battery cell assembly; and providing a filler in a gap between the inner side of the accommodating cavity and the battery cell assembly and a gap between the inner side of the accommodating cavity and the adapting plate.

A method for manufacturing a battery module, including: disposing an adapting plate on a battery cell assembly, and connecting the adapting plate to tabs of the battery cell assembly; providing a fastening frame, where the fastening frame is provided with an accommodating cavity, and the accommodating cavity accommodates the adapting plate and at least part of the battery cell assembly; and providing a filler in a gap between the inner side of the accommodating cavity and the battery cell assembly and a gap between the inner side of the accommodating cavity and the adapting plate.

A battery configured to power an unmanned aerial vehicle. The battery includes an enclosure configured to house a power module of the battery. The battery also includes one or more conducting contacts located on the enclosure configured to contact one or more pogo pins of a battery charger located on a docking station of the unmanned aerial vehicle.

A battery configured to power an unmanned aerial vehicle. The battery includes an enclosure configured to house a power module of the battery. The battery also includes one or more conducting contacts located on the enclosure configured to contact one or more pogo pins of a battery charger located on a docking station of the unmanned aerial vehicle.

An apparatus for determining a resource remaining datum of an electric aircraft is disclosed. The apparatus includes a processor and a memory communicatively connected to the processor. The memory contains instructions configuring the processor to receive aircraft data from at least a sensing device, wherein the at least a sensing device is configured to measure at least a parameter of a battery pack of the electric aircraft and generate aircraft data as a function of the at least a parameter of the battery pack of the electric aircraft. The memory contains instructions configuring the processor to determine a reserve energy as a function of a flight mode of the electric aircraft and determine a resource remaining datum as a function of the aircraft data and the reserve energy, wherein the resource remaining datum is related to the battery pack of the electric aircraft.