MUMBAI, India, June 26 -- Intellectual Property India has published a patent application (202641072714 A) filed by Ramesh Kurbet; and Roopa Marulasiddappa Nerlige on June 11, 2026, for A Rechargeable Self Balancing Personal Mobility Vehicle With An Intelligent Energy Management System.
Inventor includes Roopa Marulasiddappa Nerlige.
The application for the patent was published on June 19, 2026, under issue no. 25/2026.
Abstract: ABSTRACT The rechargeable self-balancing personal mobility vehicle described in the current invention is designed to offer intelligent, steady, and energy-efficient transportation for short-distance travel applications. The invention consists of an electronic control unit designed to maintain dynamic balance during operation, a rechargeable battery assembly, a sensor-based stabilisation mechanism, and a platform structure supported by laterally arranged wheels that are operatively connected to electric drive motors. Gyroscopic sensors and accelerometers designed to continuously detect the vehicle's tilt angle, acceleration, and positional movement make up the stabilisation system. In order to maintain equilibrium, regulate manoeuvrability, and enhance rider safety, the electronic control unit processes real-time sensor data and produces corrective motor control signals. The drive motors and related electronic components are powered by the rechargeable battery system, which may also include a battery management module set up for charge control, thermal monitoring, overload protection, and effective energy use. Regenerative braking capability that is set up to collect kinetic energy during braking operations is another feature of an embodiment of the invention. For improved operating efficiency and user safety, the vehicle may also include wireless communication modules, obstacle detection sensors, speed control mechanisms, safety protection systems, and intelligent synchronisation between the wheel drive motors. Compared to traditional personal mobility systems, the current invention offers better balance stability, lower energy consumption, compact portability, environmentally friendly transportation, and increased manoeuvrability.
Disclaimer: Curated by HT Syndication.
