MUMBAI, India, May 29 -- Intellectual Property India has published a patent application (202641064163 A) filed by K Thangadurai, Madurai, Tamil Nadu, on May 21, for 'mechanically amplifying electric power generator system.'
Inventor(s) include K Thangadurai.
The application for the patent was published on May 29, under issue no. 22/2026.
According to the abstract released by the Intellectual Property India: "The present invention relates to a mechanically amplifying electric power generator system configured to generate electrical energy through electromagnetic induction combined with mechanically assisted force-balancing mechanisms. The generator comprises a rotor assembly and a stator assembly including field magnets and conductive coils arranged in various operational configurations including top-to-bottom, bottom-to-top, sidewise, inclined, and sheared orientations relative to one another. The magnetic members are configured to move relative to the current-carrying conductive windings such that magnetic lines of force intersect the conductors to induce electromotive force. The generator further comprises substantially flatly arranged slots and oppositely positioned magnetic poles configured using the bilateral drag system to reduce magnetic flux density and get enhanced emf. In one embodiment, the rotor and stator assemblies are rotatable in the same direction or in opposite directions at different rotational speeds. The invention further incorporates multiple spring assemblies, counter-balancing mechanisms, pulley systems, bearings, and gear arrangements including planetary gear systems and worm gear mechanisms positioned at various operational locations within the generator assembly. The spring assemblies and gear systems are configured to counteract magnetic resistance, hysteresis losses, back electromotive force, vibration, and operational drag generated between the rotor and stator assemblies during operation. The invention further utilizes gravitational force and multi-directional force distribution for reducing magnetic friction and operational load requirements. The combined electromagnetic and mechanical balancing arrangement substantially reduces mechanical resistance and improves operational efficiency, thereby enabling enhanced electrical output performance compared to conventional electric generator systems."
Disclaimer: Curated by HT Syndication.
