MULTI-MODE CONVERTIBLE VEHICLE
US20240181825
2024-06-06
Performing operations; transporting
B60F5/02
Inventors:
Applicant:
Drawings (4 of 15)
Smart overview of the Invention
The multi-mode convertible vehicle is designed for versatile transportation, capable of traveling in the air, on land, on water, and underwater. This adaptability is achieved through pivoting propulsion motors that allow the vehicle to switch between different modes of locomotion. The vehicle's design incorporates innovative mechanisms to efficiently convert motorized power into propulsion across these various environments.
Technical Features
The vehicle comprises a body with multiple propulsion units, each featuring a propeller hub and a propulsion motor. These units are pivotally connected to the vehicle body via support arms. The propulsion axis can be adjusted using a pivot motor, allowing the vehicle to transition between aerial and terrestrial modes. In aerial mode, the propeller hub operates independently, while in terrestrial mode, it engages with a wheel mechanism for ground movement.
Innovative Mechanisms
The propulsion units are equipped with gears and clutches that facilitate the engagement between the propeller hub and wheel hub. This engagement is managed through various mechanisms such as magnets, springs, or clutches. The design also includes features like planetary gears and articulated vehicle bodies to enhance functionality across different terrains and environments.
Operational Modes
The vehicle can operate in several modes: aerial, terrestrial, aquatic surface, and underwater. Each mode is optimized by adjusting the pivot position of the propulsion units. The system includes sensors and communication systems to manage navigation and control across these modes, ensuring efficient energy use and optimal performance.
Applications
The convertible nature of this vehicle makes it suitable for a wide range of applications including transportation, exploration, surveillance, search and rescue operations, and more. Its ability to seamlessly transition between different environments expands its utility in diverse fields such as military operations, disaster management, mapping, and data acquisition.