Howl 2026 Odyssey Goggle - Black

Regular price $109.95
By DRAGON

Howl Odyssey Goggle – Black

Overview / Intro
Get ready to see clearly from first chair to last run. The Howl Odyssey Goggle in Black blends classic styling with performance features designed for everyday riders. It’s a team-tested design delivering dependable clarity, comfort, and durability so you can focus on the slopes—not your gear.


Key Features & Benefits

Feature What It Means / Why It Matters
Polycarbonate Dual Lens Offers strong impact resistance and optical clarity
Anti-Fog & Anti-Scratch Treatments Helps maintain clarity even in variable conditions; resists fog and surface scratches
100% UV Protection Shields your eyes fully from harmful UV rays
Helmet-Compatible Design The strap length, curvature, and frame geometry work seamlessly with helmets (minimizes gaps)
Silicon Strap Tracking Prevents strap from slipping on helmet shells during use
Dual-Layer Face Foam with Fleece Lining Delivers comfort, cushion, and moisture wicking against your face
Bonus Rose Spare Lens Included Gives you flexibility to switch to a different tint for lower light / overcast days
Microfiber Cloth Bag Doubles as a lens cleaning cloth, convenient for transport and maintenance

Technical / Usage Details & Notes

  • Lens Shape & Fit: The Odyssey uses a cylindrical lens shape, offering good peripheral view in a medium fit. 

  • Strap / Compatibility: The silicon-grip strap tracking helps it stay stable when mounted over (or under) a helmet. 

  • All-Day Clarity: The anti-fog and scratch treatments are engineered to last through long sessions, reducing need for constant wiping or lens changes. 

  • Lighting Conditions: The black / smoke mirror lens is ideal for bright daylight / high visibility. The included rose lens can boost contrast in flat or low light settings. 

  • Care Tips: Always use the included microfiber bag or lens cloth to wipe—do not use abrasive or chemical cleaners. Store in a protective pouch to prevent scratches. Avoid pressing heavily on the lens surfaces.