Bearings Canada
Mecanum Wheel, Omni Wheel, Practical TT Coupling, Strong, Firm, Smart Car, Four Wheel Drive Smart Car, for DIY Smart Car Accessories (Two Pairs)
Title
$38.06 CAD
$76.14 CADyou save $38.08 CAD
SKU: VXB0DGY42TQF
UPC: 00193019406250
UPC: 00193019406250
Mecanum Wheel - Practical TT Coupling, Strong, Firm, Smart Car, Four Wheel Drive Smart Car, for DIY Smart Car Accessories (Two Pairs)
✔️ Mecanum Wheel, Omni Wheel, Practical TT Coupling, Strong, Firm, Smart Car, Four Wheel Drive Smart Car, for DIY Smart Car Accessories (Two Pairs)
This mecanum wheel is made for robot cars, AGVs, and mecanum-drive platforms when you need smooth side-to-side control, tight turns, and clean movement on common shop floors and hard surfaces.
✅ Angled rollers for strafing and diagonal movement
✅ Includes metal motor couplings for quick mounting
✅ Handy upgrade for robot chassis builds and DIY projects
💡 How do mecanum wheels achieve omnidirectional motion on a mobile robot?
They use angled rollers so each wheel generates both forward and sideways force, and your controller mixes those vectors for smooth motion.
- Use proper wheel orientation and pairing to prevent drift
- Match wheel diameter and roller friction for predictable control
- Tune PID and acceleration limits to reduce wheel slip
- Keep roller bearings clean to maintain consistent strafing
This is a handy choice when you want smooth control, clean strafing, and reliable movement in real-world robot builds.
✔️ Mecanum Wheel, Omni Wheel, Practical TT Coupling, Strong, Firm, Smart Car, Four Wheel Drive Smart Car, for DIY Smart Car Accessories (Two Pairs)
This mecanum wheel is made for robot cars, AGVs, and mecanum-drive platforms when you need smooth side-to-side control, tight turns, and clean movement on common shop floors and hard surfaces.
✅ Angled rollers for strafing and diagonal movement
✅ Includes metal motor couplings for quick mounting
✅ Handy upgrade for robot chassis builds and DIY projects
💡 How do mecanum wheels achieve omnidirectional motion on a mobile robot?
They use angled rollers so each wheel generates both forward and sideways force, and your controller mixes those vectors for smooth motion.
- Use proper wheel orientation and pairing to prevent drift
- Match wheel diameter and roller friction for predictable control
- Tune PID and acceleration limits to reduce wheel slip
- Keep roller bearings clean to maintain consistent strafing
This is a handy choice when you want smooth control, clean strafing, and reliable movement in real-world robot builds.