The uvex i-vo c
bike helmet performs superbly in all situations, whether you ride a road bike or take to the trails. Available in two shell sizes. The practical uvex IAS fit system enables the uvex i-vo c to be custom-fitted to every head shape. The bike helmet is ready for the uvex triangle LED. The attached visor can be removed. 24 ventilation channels guarantee a perfect climate management.
- Made in Germany
- Inmould Technology
- Standards: EN 1078 | TÜV GS | CE
- 2 shell sizes
- 3D IAS 3.0
- FAS strap
- 24 ventilation channels
- Basic pads
- Bug net
- Plug-In LED xb039 (optional)
- Triangle LED (optional)
- Removable visor XB 390
- Weight: 225g
Protective EPS material is foamed directly into the polycarbonate shell. For a lightweight helmet with highest impact resistance. Perfect fusion of EPS inner layer and polycarbonate outer layer.
3D IAS 3.0
The 3D IAS 3.0 adjustment system enables an optimum adaptation to the head. Over an easy-to-use wheel at the rear of the helmet it works within a few seconds. For an optimum fit and secure protection from falls the 3D IAS 3.0 offers an additional height adjustment, to adapt flexibly to individual head-shape.
Monomatic - Button-press adjustment
Multi-stage and anatomically shaped: uvex's monomatic comfort closure opens and closes at the touch of a button, with just one hand. The chin strap always sits perfectly.
FAS - Easy and Practical
Fast Adapting System webbing can be easily and continuously tailored to your exact head shape. The helmet stays securely on the head in all situations and the webbing straps are always in the best position.
Interior features significantly affect a helmet's comfort. All Uvex pads absorb moistur. Hook and loop fasteners allow easy removal for washing.
Note: Please measure your head circumference to get the right helmet size.
- Outer material
PC - Strongly bonded polycarbonate shell for safety. Double inmould for extra protection around the lower edge.
- Inner material
EPS - Protective material contains microscopic air chambers. They effectively absorb the impact forces created in a fall.