Condensation control system for heated insulating glass units
First Claim
1. A refrigerated cabinet door adapted to be mounted on a refrigerated cabinet, said door comprising:
- a first sheet of glass adapted to be positioned adjacent the ambient environment of the refrigerated cabinet and a second sheet of glass adapted to be positioned adjacent the interior of the refrigerated cabinet, each sheet of glass having an unexposed surface and an outer surface;
a conductive coating applied to the unexposed surface of said first sheet of glass, said conductive coating having a hemispheric emissivity of less than 0.50;
a frame secured around a periphery of said first and second sheets of glass for maintaining the glass sheets in parallel, spaced-apart relationship with the unexposed surfaces facing each other and creating a space therebetween;
a pair of bus bars mounted along opposite edges on the unexposed surface of said first sheet of glass and electrically connected to said conductive coating, said bus bars each including a connector for connecting said bus bar to a power supply to form a circuit through said conductive coating;
at least one optical sensor, mounted on the unexposed surface of said first sheet of glass and positioned in the space between said first and second sheets of glass, for directly sensing the presence of moisture on the outer surface of said first sheet of glass and generating a control signal in response thereto; and
a control circuit electrically connected to said bus bars and said optical sensor for selectively transmitting current through said conductive coating in response to the control signal from said optical sensor.
1 Assignment
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Accused Products
Abstract
A glass heating system includes a low emissivity sheet of coated glass and an optical sensor mounted on the surface of the glass for optically detecting condensation on the glass. The low emissivity glass is economical to produce and provides superior thermal properties. The low emissivity glass has improved thermal characteristics for use in insulating glass doors for freezers and refrigerators. The optical sensor is positioned between the sheets of glass in the insulating glass unit for detection of moisture on the outer surface. When condensation is detected, the controller transmits power through the conductive coating on the unexposed surface of the glass to heat the glass and eliminate the condensation. In a two paned insulating glass door, the control circuit can be conveniently mounted in the frame of the door.
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Citations
9 Claims
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1. A refrigerated cabinet door adapted to be mounted on a refrigerated cabinet, said door comprising:
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a first sheet of glass adapted to be positioned adjacent the ambient environment of the refrigerated cabinet and a second sheet of glass adapted to be positioned adjacent the interior of the refrigerated cabinet, each sheet of glass having an unexposed surface and an outer surface; a conductive coating applied to the unexposed surface of said first sheet of glass, said conductive coating having a hemispheric emissivity of less than 0.50; a frame secured around a periphery of said first and second sheets of glass for maintaining the glass sheets in parallel, spaced-apart relationship with the unexposed surfaces facing each other and creating a space therebetween; a pair of bus bars mounted along opposite edges on the unexposed surface of said first sheet of glass and electrically connected to said conductive coating, said bus bars each including a connector for connecting said bus bar to a power supply to form a circuit through said conductive coating; at least one optical sensor, mounted on the unexposed surface of said first sheet of glass and positioned in the space between said first and second sheets of glass, for directly sensing the presence of moisture on the outer surface of said first sheet of glass and generating a control signal in response thereto; and a control circuit electrically connected to said bus bars and said optical sensor for selectively transmitting current through said conductive coating in response to the control signal from said optical sensor. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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Specification