Ongoing Project
Engineering precision for the Roboleague Challenge.
Mechanical Designer
2026 - Present
Parametric Modeling, System Design
QuantumQuake CAD Model
The TEKNOFEST Roboleague Competition (High School Category) is a robotics challenge designed to test manual remote-control precision. Teams are tasked with building robots capable of overcoming physical field obstacles, moving specific game objects, and executing tasks under strict time limits.
Our team, QuantumQuake, entered this competition with the goal of designing a highly modular, efficient, and reliable platform. To succeed on the field, the robot needed a flawless mechanical foundation before any physical manufacturing could begin.
In this ongoing project, my responsibility is entirely focused on the mechanical design and 3D modeling. Currently, the project is in its digital design phase.
I am building every structural component, hardware mount, and moving mechanism from scratch in SOLIDWORKS. My objective is to ensure that when we transition to the manufacturing phase, all parts fit together seamlessly, weight distribution is optimized, and potential collisions between moving parts are eliminated in the software first.
To meet the diverse demands of the competition field, I divided the robot into distinct mechanical sub-systems. Designing these modules independently allowed me to refine their functions before integrating them into the main assembly.
Designed to interact with field elements with high precision. This 3-axis robotic arm allows the robot to smoothly pick up game objects from various angles and place them exactly where needed during the match.
Robotic Arm CAD Model
The competition requires us to stack four 9x9x9 cm cubes in a designated zone. I designed a specialized magazine to securely hold these cubes inside the robot and deploy them to build the tower efficiently.
Cube Magazine CAD
A critical end-game mechanism. The robot must grab onto a zipline and slide across the field. I am developing a telescopic extension system to reach the cable and lock on securely while supporting the entire weight of the chassis.
Since this mechanism is still undergoing adjustments, the final CAD model is not yet ready for visualization.