Space-saving, energy efficient, and stylish: Wheeler™ LED Wall Sconces incorporate the latest technologies and classic influences! With a shiny, durable porcelain finish, LED sconce lights supply homes and businesses with color and functionality. Create a unique look with porcelain finishes and other options!Read More »
What are Wheeler™ LED Wall Sconces?
Combining the very best of wall-hugging style with the latest in LED technology, our collection of Wheeler™ LED Wall Sconces adopts the styles prominent in early 20th century barns, gas stations, and industrial settings. Hand-crafted and finished with porcelain enamel glass for a high-gloss, durable finish, these wall sconce lights are perfectly suited for both residential and commercial applications.
Where are LED Sconces typically installed?
LED wall sconces typically have smaller profiles than their gooseneck light cousins which make them suitable for tighter spaces such as:
While these wall-hugging fixtures can easily serve as primary lighting in smaller rooms, they are also perfectly suited as accent lighting in larger spaces. Many of our hand-crafted sconces are wet-rated for both interior and exterior use while others have a plug-in option for maximum flexibility.
How are LED Sconce Lights Constructed?
Wheeler™ LED Wall Sconces are hand spun on a lathe from commercial grade steel. Hefty, rugged, and able to withstand even high-traffic commercial spaces, LED sconce lighting is coated with multiple layers of porcelain enamel glass available in a variety of finish colors. The shades are baked in a high-temperature porcelain enamel oven where the porcelain enamel glass is sealed to the shade for a long-lasting, high-gloss finish unlike any other.
What LED options are offered in this collection?
With integrated cutting-edge components, LED sconce lights are environmentally friendly and budget minded. The innovative design consumes very little electricity as they brighten interior and exterior spaces. Along with their efficiency, multiple LED options are available, and each slightly alters the feel of the illumination emitted: