A hand gesture controlled flying toy can utilize one or more infrared sensors and/or pressure sensors to determine how a user is interacting with the flying toy and conduct aerial maneuvers based on those interactions. The flying toy may be configured to ascend when lateral infrared sensors detect reflections of infrared light in multiple lateral directions. The flying toy may be configured to ascend when a pressure sensor detects a pressure increase from below the flying toy. The flying toy may be configured to conduct a roll responsive to an upward infrared sensor and a lateral infrared sensor detecting reflections of infrared light. The roll may be oriented at least partially based on which lateral infrared sensor detected a reflection.

A collapsible flying device is provided having a housing including first and second housing sections forming an enclosure, and a motorized assembly that includes a drive motor and a drive shaft driven by the drive motor. The drive shaft matingly receives the first housing section and is coupled to the second housing section, wherein operation of the drive motor drives the drive shaft to move the first housing section from a closed position adjacent the second housing section to an open position spaced from the second housing section. A rotor hub is rotatingly driven by the drive motor. At least two rotor blades are coupled thereto and positioned within the enclosure in a collapsed position when the first housing section is in the closed position, and extend beyond the enclosure in an expanded position when the first housing section is in the open position.

A remote controlled lighter-than-air drone assembly that is capable of prolonged flight. The drone assembly utilizes a balloon structure. Separately, a reservoir is provided for holding a smaller second volume of gas. A propulsion system and a control unit are carried by the balloon structure. The control unit selectively transfers the gas from the reservoir to the balloon structure, and selectively vents the gas as needed. A receiver is used to receive command signals from an external source. The command signals are utilized to operate the propulsion system. An electronics suite is provided that can be altered depending upon duties. The electronics suite is used to scan or otherwise monitor an area below the drone assembly. In flight, the balloon structure is translucent and internally illuminated. A projector can be provided for projecting images onto the interior of the balloon structure.

A model vehicle with body mount components are provided. A tongue member attached to a model vehicle body with a first and second tongue member is configured to engage a first securing member attached to a model vehicle chassis. A top surface of the second tongue member draws the model vehicle body towards the model vehicle chassis when the second tongue member engages the first securing member. A lever member with a lever handle, jaw clamp, and a lever pivot is configured to pivot between an engage and an unengaged position. The jaw clamp engages with a second securing member in the engaged position. The lever member further contains a retaining mechanism that is configured to rotate between a retained and unretained position. The retaining mechanism inhibits the lever handle from moving from the engaged to the unengaged position when the retaining mechanism is in the retained position.

A radio controlled (RC) vehicle includes a receiver that is coupled to receive an RF signal from a remote control device, the RF signal containing command data in accordance with a first coordinate system, wherein the first coordinate system is from a perspective of the remote control device. A motion sensing module generates motion data based on the motion of the RC vehicle. A processing module transforms the command data into control data in accordance with a second coordinate system, wherein the second coordinate system is from a perspective of the RC vehicle. A plurality of control devices control the motion of the RC vehicle based on the control data.

A remote control vehicle comprises light fixtures, which when operated at high speeds, can create a neon glow in its wake. The remote control vehicle has at least eight distinct color combinations, can spin and flip in three hundred sixty degree stunts, and travel through all terrains. A remote control is responsible for remotely communicating aspects related to the control of the remote control vehicle, such as speed and drifting.

A multi-rotor unmanned aerial vehicle (UAV) includes a central body, a plurality of branch members connected to the central body, each branch member configured to support a corresponding actuator assembly, a communication module disposed within the central body and configured to establish a communication channel between the UAV and a remote device, and an indicator light disposed on one of the plurality of branch members. The indicator light is configured to indicate whether the communication channel is established.

An entertainment system includes a drone configured to be maneuvered across a plurality of zones, an interactive toy device configured to be actuated to cause a plurality of toy reactions, one or more processors, and one or more non-transitory, computer readable media having instructions stored thereon. The instructions, when executed by the one or more processors, cause the one or more processors to determine a correlation between the drone and the interactive toy device, where the correlation is based on a proximity between the drone and the interactive toy device and at least one of: a location of the drone within a zone of the plurality of zones, an additional location of the interactive toy device within the zone or an additional zone of the plurality of zones, a non-position based physical attribute of the drone, or an additional non-position based physical attribute of the interactive toy device. The instructions, when executed by the one or more processors, cause the one or more processors to activate, based on the correlation, a toy reaction of the plurality of toy reactions.

An unmanned aerial vehicle (UAV) landing method includes detecting, via one or more visual sensors, a gesture or movement of an operator of a UAV; and controlling to decelerate, with aid of one or more processors and in response to the detected gesture or movement, one or more rotor blades of the UAV to cause the UAV to land autonomously.

A frisbee comprises a rotating shaft and a surface cover, a first fan blade, a second fan blade, a fan blade gear, a third fan blade and a bottom case, and the first fan blade comprises a first casing, the second fan blade comprises a second casing, and the rotating shaft passes through the first casing, the second casing, the fan blade gear and the third fan blade; a cavity is arranged with an electric motor and a main board, the output end of the electric motor is arranged with a motor gear meshing, the main board is arranged on the first casing, and a switch button is arranged on the first casing, and the switch button is connected with the main board, and the cover is arranged with a first through hole corresponding to the switch button. The structure of the frisbee can be simplified.