In Red Wing, Minnesota more than 70 years ago with one goal in mind - to produce and offer only the finest quality skates available in the market. Paul desired to make skating available to people of all ages and abilities by creating comfortable and affordable skates that still incorporated the same attention to detail and quality found in every Riedell product.
As time has gone by, Riedell Shoes has continued to re-invent its product lines and hire only the most skilled and professional employees in the hope of achieving the very same perfection that inspired Paul. Through extensive knowledge of skate fitting and advanced comfort and performance technologies, Riedell Skates has assembled the most complete and sophisticated line of roller and figure skates in the industry. Whether you are interested in a comfortable skate that accentuates your style, or you are looking to gain a competitive edge, Riedell has the skate for you. HIGH-QUALITY ULTRA DURABLE ROLLER SKATES - These quad roller skates are man-made using a vinyl material that creates a breathable skate boot. The skates have a die cast aluminum plate with strong metal trucks for optimal support.
EASY TO LACE & COMFORTABLE FIT - These adjustable roller skates have an easy lace system, padded tongue, and a Velcro cinch strap that allow for easy adjustments and provide a snug, comfortable fit. SMOOTHEST RIDE POSSIBLE - These high quality skates feature ABEC-5 ball bearings designed to roll exceptionally smooth.
These skates' polished, chromed steel ball bearings minimize friction to give you the best ride. DESIGNED WITH SAFETY IN MIND - These traditional roller shoes are designed with safety in mind.The boot has a low, yet snug fit around the ankle and the Velcro cinch strap helps secure the foot in the boot while skating. VERSATILE WHEELS TO FIT ANY USE - The quad derby skates also have tough 62mm, 93A hardness polyurethane wheels that are designed to provide extra grip. These wheels match the color of your boot, making them provide a smooth, easy ride on any surface.