Comet Revolving Door
International's Comet design allows maximum use of glass to harmonize with modern architecture. Our all glass revolving door is sleek at any entrance.
With our all-glass design, the Comet revolving door design fits seamlessly into any glass storefront. For strength purposes we use 1⁄2” tempered glass in the wings.
Unique Characteristics: Removal of the inside and outside stiles on the wing accentuate the smooth, clean look of the revolving door. Our Comet design can also be installed with either the bottom rail exposed or hidden to accommodate the desired aesthetic look for your architectural design.
Available in stainless steel, aluminum and bronze with a variety of finishes offered based on material:
#4 Brushed Stainless Steel or Bronze
#8 Polished Mirrored Stainless Steel or Bronze
Door diameters range from 6’6” (standard) to 10’0”. IRD offers a larger door known as our Comet XL. This door typically stands at 10’0” 12’0”.
Comet Revolving Door 3
The Comet door is compatible with Saturn wings. Our Comet also has an all glass ceiling with narrow mounting bars on the walls.
Standard 13/16” glass canopy
No vertical stiles
4-3/4” wing sightline
No visible fasteners
1” diameter push bar
Bi-directional operation for both entrance and egress
Floor mounted speed control
Emergency breakaway features provide for BOCA compliance under emergency egress conditions
Significant cost saving by minimizing A/C and heat losses: revolving doors are the most efficient method for controlling a building’s stack pressure while reducing heating and cooling costs. Compared to swing doors, revolving doors reduce over 500% of unwanted air from infiltrating the inside of the building.
Saturn - narrow or medium stile wings
Clipped, round, or keyhole canopy
Bar and glass canopy
Split glass with metal transom
Custom material types and finishes
Multiple glass options
Custom wing and wall sightlines
Multiple custom push bar options
Please see our Comet specification and drawings available for download, for all door construction inquiries.