Check out the FRC Robots
Click on the links for previous years robots to learn about our designs and systems for that season challenge.
Year: 2026
Robot Name: “Douglassciurus Jeffersoni”
Drivetrain: Swerve (SDS Mark4i)
Intake: Over the bumper intake of fuel. Intake starts in frame perimeter and extends during the match. Intake wheels driven by a pair of Neo Vortex
Launcher/Indexer: Indexer presents fuel to the flywheel to launch to hub. Adjustable hood allows for tuning the output angle.
Feeder: a pair of compliant stars spin to present fuel to the indexer
Climb: Climb consists of a single climber in a box with a 25:1 gearbox and brake module. 5" gap in bumpers enables ability to climb tower from side of rung
Year: 2025
Robot Name: “Scrat”
Drivetrain: Swerve (SDS Mark4i)
End Effector: Receives coral from funnel and pivots into position. Infinity belt to reverse motion
Funnel: passive funnel receives coral and presents to indexer wheels
Elevator: 3 stage elevator based on 111 previous design
Climb: Climb consists of a grabber and gas shock deployed arm and winch. servo enabled ratcheting mechanism
Year: 2024
Robot Name: “Salty Bolts”
Drivetrain: Swerve using REV NEO modules
Intake: Under the bumper intake controlled by one NEO 550 motor
Indexer: Belt and pulley indexer with beam break sensor
Shooter: Telescoping and pivot which allows for speaker and amp shooting
Climb: 2 single stage climber in a box kits
Year: 2023
Robot Name: “Justin Time”
Drivetrain: Mechanium
Intake: Wheel intake accommodating both cones and cube shape
Arm: parallel link with chain driven gear reduction
2023 Robot Reveal Video - Coming Soon
Year: 2022
Robot Name: "Perfect Baby"
Drivetrain: 8 wheel West Coast tank drive with belt-in-tube construction
Intake: Over the bumper intake belt and pulley system
Indexer: belt and pulley system with a flat belt.
Shooter: High mass flywheel controlled by belt and pulley with pneumatic angle adjuster
Climb: PTO gearboxes (from drivetrain) drive climb arm to pull the hooks up. 3 constant force springs retract pulling the robot up