Universal Fit: Magnetic-mechanical uni connector turns almost any soft plastic bike bottle into a secure cycling bottle, ideal for road, mountain and commuter bikes on city streets and trails.
Strong Hold: Innovative magnetic locking and anti-slip inlay keep your drink bottle firmly in place over bumps and trails, reducing rattling and lost bottles during fast descents and rough rides.
Quick Install: Boa fit system wraps securely around your bottle in seconds, with tool-free adjustment that makes switching between different bottles fast and easy, perfect for busy cyclists.
Slim Design: Compact holder fits bottle diameters up to 8 cm without extra bulk, keeping your bike frame clean and light for road cycling, gravel rides and daily commutes to work or school.
System Ready: Works with all Twist bases, perfect for bikes already equipped with a magnetic bottle base so you can upgrade to a universal holder without changing your favorite setup.
Everyday Bottle: Ideal for soft plastic PET bottles or your favourite sports bottle, turning drinks into a secure hydration solution for training, touring and city rides in hot or humid weather.
Description
Transform any soft plastic bottle into a secure cycling hydration system with the FIDLOCK Twist Uni Connector. Engineered with a magnetic mechanical interface and anti slip inlay, it ensures a strong hold even on rough terrain, keeping bottles stable during fast descents and bumpy trails. The Boa fit system allows quick, tool free installation, wrapping around bottles up to 8 cm in diameter in seconds.
Its slim, compact design maintains clean bike aesthetics while integrating seamlessly with all Twist bases, making it the perfect upgrade for riders already equipped with a magnetic bottle mount. Lightweight and versatile, the Uni Connector is ideal for PET bottles or sports bottles, offering reliable hydration access for road cycling, mountain biking, commuting, and touring. Compact, efficient, and universally compatible, it's the everyday solution for cyclists who demand flexibility without compromising performance.
