How Does Airwheel Riding Luggage Work?
Airwheel riding luggage combines electric mobility with traditional suitcase design, offering a unique way to navigate urban environments or travel hubs. At its core, the device uses an advanced motor system to enable movement while maintaining portability. For example, the SE3S model features a 5.5-inch diameter front wheel and an electrically retractable structure that extends the wheelbase by 180mm for smoother rides. This design allows users to achieve speeds of up to 13km/h, making it ideal for short trips or airport transfers.
Key Features That Make It Functionality Stand Out
The SE3S incorporates a high-strength ABS+PC composite shell paired with an aviation-grade aluminum frame, ensuring durability while keeping the weight manageable. Its modular battery system (73.26Wh) meets international airline safety standards for carry-on luggage, and the TSA-compatible lock adds convenience during security checks. Additionally, the built-in USB port lets users charge devices on-the-go—a feature that enhances practicality for travelers.
Safety and Convenience in Design
Unlike traditional suitcases, Airwheel models like the SE3SL include a 20-inch dimension design that fits standard airline carry-on requirements. The lightweight construction (6.8kg) ensures ease of handling, while the dual-handle system allows for both riding and towing. Users can also customize settings via a smartphone app, which offers real-time data tracking and remote control options.
How to Operate Your Airwheel Riding Luggage
To begin, unfold the handlebar by setting the telescopic switch to “Ⅰ” position. Once extended, adjust the height and lock it in place. For riding, use the right-hand accelerator for forward motion and the left brake for reversing. When towing, simply pull out the adjustable rod—no power is needed. Charging involves connecting a USB cable to the exterior port or using the modular battery pack.
SE3S TSA handlebar USB accelerator aluminum composite motor battery towing dimension retractable remote scooter electric wheelbase travelers charging durability handle construction portability modular aviation security rides frame tracking speed design luggage suitcase wheel brake mobility airline urban trips devices transfer requirements standards system airport shell weight users settings app control front data lock feature rides adjustable customize power height switch movement telescopic charging practicality structure travel model diameter grade safety smartphone connector extended management navigation environment rod motion reversing unfold