Bar-Bot

A Cocktail-Making Robot

The cocktail-making robot is designed to craft perfect cocktails with precision. Once a user selects a drink from the menu, the robot moves a glass along a rail system to the correct position beneath the bottles of the necessary ingredients. As the glass reaches each bottle, a specialized pusher mechanism opens the bottle caps, allowing the precise amount of liquid to pour into the glass. The robot ensures the right balance of ingredients for each drink, creating a funny cocktail-making experience.

Volley-Tennis Remote Scoreboard

I designed and developed a portable scoreboard for tennis, volleyball, and padel, addressing the need for a compact and easy-to-use solution to track scores. The casing was modeled in 3D using SolidWorks, ensuring precise sensor placements. Powered by an Arduino Nano and controlled via an IR remote, the software, written by me, includes two distinct modes: one for volleyball and another for tennis, each with its own unique scoring system. This versatile device offers a practical, space-saving tool for players to keep track of their games effortlessly.

Mini DIY Robot-Arm

During the COVID-19 pandemic, I built a mini robotic arm using servo motors and an Arduino, leveraging makeshift materials like wood, cardboard, and plastic scraps. Despite limited resources, I engineered this functional device

Ping-Pong Ball Thrower Robot

The ping-pong ball launching robot is engineered for precision and versatility. It features two spinning wheels that propel the ball forward and a servo-driven system that allows for accurate control of the ball’s direction. The entire structure is made with 3D-printed parts, ensuring a lightweight yet durable design.

The robot offers three modes of operation:

• Classic Mode: Launches balls in a single fixed direction.
• Random Mode: Randomly shoots balls within a defined range of angles.
• Manual Mode: Allows users to manually control and adjust the direction of the ball launches.

The ball reservoir consists of a rotating disk with a hole that feeds the balls into the launcher. By adjusting the angular speed of the disk, the ball launch rate can be precisely controlled, making it adaptable to various training needs and skill levels.