Skip to content

Memorial Day Sale! Get 20% OFF ALL Your Purchases Now! CODE: MEMORIAL2024


Free Shipping over $99 in the USA!

Contact Us

The Rave

Spy Optics: Home of the Happy Lens

The light from the sun, smartphones and computer screens, are made up of different types of light rays. This mixture can help you see better or damage your eyes. The sun, for example, emits a combination of good and bad rays. The good rays boosts mood and alertness, making a person feel better throughout the day. The bad rays, such as short wave blue and UV lights are also there, but these types of light can damage the eyes when exposed for longer periods of time. Thankfully, eyewear leader Spy Optics have the perfect solution for such problems.Spy OpticsEye damage is quiet common and some can even be irreversible. Thankfully there are brands like Spy Optics who continue to labor through the years to bring consumers reliable eyewear. Spy Optics is a leading brand in quality and reliable prescription sunglasses , eyewear.Lucky for people, Spy Optic launched Happy Lens eyeglasses online to improve vision quality, whatever the season. But how does Happy Lens really make eyes happy?Also Read: Into The Deep Blue Hazard
  1. The lenses are made to filter out and block harmful shortwave and UV rays which emit those dreaded blue lights. Filtering out the harmful glare of the sun should always be the first job of an eyewear or sunglasses. Spy Optics knew just what to do when the created this line.
  2. While the harmful rays are blocked out, long wave light passes through the special lenses to the eyes and through the brain, perking up the mood and enhances alertness.
  3. These lenses are crafted from quality material that do not easily break or become scratched with frequent wear and are set on stylish frames that complement the face. A must-have for sunglasses for women and men. It is especially useful for those who like to spend their time outdoors.
These sunglasses are available online , so check here to see more Happy-Lens options!Spy Optics
Back to blog