Intellectual Property India Publishes Patent Application for 'Mobile Control Robot Car With Vacuum Cleaner' Filed by Dr. Divya Rai Shivhare; Dr. Prabhat Sharma; Priyansh Sahu; Ritik Agrawal; Gourav Pawar; Gopal Singh Rathore; Lovekush Rathore; and Shiv Kumar Rai

MUMBAI, India, April 17 -- Intellectual Property India has published a patent application (202621023024 A) filed by Dr. Divya Rai Shivhare; Dr. Prabhat Sharma; Priyansh Sahu; Ritik Agrawal; Gourav Pawar; Gopal Singh Rathore; Lovekush Rathore; and Shiv Kumar Rai, Bhopal, Madhya Pradesh, on Feb. 26, for 'mobile control robot car with vacuum cleaner.'

Inventor(s) include Dr. Divya Rai Shivhare; Dr. Prabhat Sharma; Priyansh Sahu; Ritik Agrawal; Gourav Pawar; Gopal Singh Rathore; Lovekush Rathore; and Shiv Kumar Rai.

The application for the patent was published on April 17, under issue no. 16/2026.

According to the abstract released by the Intellectual Property India: "Mobile Control Robot Car with Vacuum Cleaner The present invention relates to a Mobile Controlled Robot Car with Vacuum Cleaner designed to provide a low-cost, portable, and efficient cleaning solution for household and small commercial environments. The system integrates a robotic mobility platform with a vacuum suction mechanism, enabling simultaneous movement and dust collection. The device is wirelessly controlled through a smartphone using Bluetooth communication, allowing the user to operate the robot in multiple directions and control the vacuum function in real time. The invention incorporates a microcontroller-based embedded control system, a Bluetooth communication module, a motor driver unit for directional control, and a relay-controlled vacuum motor for suction operation. The microcontroller processes commands received from a mobile application and accordingly activates the drive motors and vacuum mechanism. The use of a dual H-bridge motor driver ensures safe and efficient control of DC motors, while the relay module provides electrical isolation and protection for the control circuitry. The proposed system offers a cost-effective alternative to commercially available robotic vacuum cleaners by utilizing readily available hardware components and a simplified control architecture. The modular design enables easy maintenance and future upgrades such as obstacle detection sensors, autonomous navigation features, and advanced wireless connectivity. The invention demonstrates practical application of robotics, embedded systems, and automation technologies for reducing manual cleaning effort and improving operational convenience."

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