Brian Patrick Flynn Glacier 3 Light Black Charcoal Outdoor Post (2KR97)
by Crystorama GLA-9709-OP-BC
Bring style and substance to your favorite outdoor space with Brian Patrick Flynn's Glacier Outdoor Lighting Collection. Inspired by the calving icebergs of Antarctica, this outdoor fixture features a smaller and narrower bottom section with a larger, broader top piece. Sporting chiseled angular lines, Glacier mixes a black charcoal finish with white opal glass panels. The indoor-outdoor Glacier collection is ideal for introducing a touch of sculptural modernist style to any space inside or outside of the home.
1 Year From Shipment Date. Terms and Conditions That Apply.
Weight
12
Wire Included
6
ADA Compliant
No
Assembly Required
Easy (20-30 Mins)
Bulb Base
E12 Candelabra
Bulb Included
No
Country of Origin
China
Dual Mount Convertible
No
Interior or Exterior
Exterior
Light Direction
Ambient
Location Rating
Wet Rated
Max Wattage
60 W
MIN Height
21
Number of Tiers
1
Overall Height
23.5
Prop 65
Yes
Reverse Mountable
No
Safety Rating
UL Approved, CUL Approved, CSA Approved
Shape
Lantern/Square/Rectangle
Ship Lead Time
1-2 Days
Sloped Ceiling Compatible
No
Title 20
Yes
Total Shipping Weight
17
Wire Cord Length
6
Manufactured By
Crystorama
Other Details:
3 light 60- watt, E12 Candelabra base
Authorized for use in wet interior splash or exterior exposed weather locations. Meets United States UL Underwriters Laboratories Product Safety Standards.
Black Charcoal is a deep black finish that has a beautiful textured appearance. It is not only versatile but classy and timeless and a perfect option for outdoor settings.
Designed by Brian Patrick Flynn, the Glacier is anything but expected with its uniquely shaped lantern.
Glacier collection features a versatile outdoor design.
Modern contemporary design style emphasizes clean lines, minimalism, and industrial materials to create sleek and sophisticated spaces.
While rated for exterior spaces, the Glacier collection looks fantastic inside your home as well.
Glass
Additional options that would change other selections