Heatable transparent panel structure utilizing thermal probe having resiliently biased temperature sensor
First Claim
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1. An optically transparent, multi-panel assembly comprising:
- a first rigid, optically transparent panel;
a second rigid, optically transparent panel having an optically transparent, electrically conductive coating on a surface thereof and to which electrical power is supplied;
a strip of dielectric material having conductive traces embedded therein adapted for connection to a utilization circuit, said strip of dielectric material having a first surface bearing against said optically transparent, electrically conductive coating on said second rigid, optically transparent, panel;
sensing means electrically connected to said conductive traces embedded in said strip of dielectric material and disposed at a second surface of said strip of dielectric material opposite from said first surface of said strip of dielectric material for developing signals representative of the temperature of said second rigid, optically transparent, panel;
a resilient spacing member having a first end bearing against said sensing means and compressible along its length and having a length in its uncompressed state which urges said sensing means into proximity with said second rigid, optically transparent, panel when said resilient spacing member, said dielectric material and said sensing means are placed between said first and said second rigid, optically transparent, panels;
and a radiation reflector at a second end of said resilient spacing member opposite from said first end of said resilient spacing member and bearing against said first rigid, optically transparent, panel.
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Abstract
A thermal probe for measuring and controlling the temperature of a transparent, multi-panel assembly in which one of the panels has an electrically conductive coating which serves as a radiant heat source. A sensor, urged against the panel having the coating, senses the temperature of this panel and controls a power source which powers the coating. A compressible spacing member, fitted between the sensor and the other transparent panel, urges the sensor into proximity with the panel being measured and controlled.
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Citations
4 Claims
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1. An optically transparent, multi-panel assembly comprising:
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a first rigid, optically transparent panel; a second rigid, optically transparent panel having an optically transparent, electrically conductive coating on a surface thereof and to which electrical power is supplied; a strip of dielectric material having conductive traces embedded therein adapted for connection to a utilization circuit, said strip of dielectric material having a first surface bearing against said optically transparent, electrically conductive coating on said second rigid, optically transparent, panel; sensing means electrically connected to said conductive traces embedded in said strip of dielectric material and disposed at a second surface of said strip of dielectric material opposite from said first surface of said strip of dielectric material for developing signals representative of the temperature of said second rigid, optically transparent, panel; a resilient spacing member having a first end bearing against said sensing means and compressible along its length and having a length in its uncompressed state which urges said sensing means into proximity with said second rigid, optically transparent, panel when said resilient spacing member, said dielectric material and said sensing means are placed between said first and said second rigid, optically transparent, panels; and a radiation reflector at a second end of said resilient spacing member opposite from said first end of said resilient spacing member and bearing against said first rigid, optically transparent, panel.
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2. A temperature controlled, optically transparent, multi-panel assembly comprising:
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a first rigid, optically transparent panel; a second rigid, optically transparent panel having an optically transparent, electrically conductive coating on a surface thereof; a strip of dielectric material having conductive traces embedded therein and having a first surface bearing against said optically transparent, electrically conductive coating on said second rigid, optically transparent, panel; sensing means electrically connected to said conductive traces embedded in said strip of dielectric material and disposed at a second surface of said strip of dielectric material opposite from said first surface of said strip of dielectric material for developing signals representative of the temperature of said second rigid, optically transparent, panel; a resilient spacing member having a first end bearing against said sensing means and compressible along its length and having a length in its uncompressed state which urges said sensing means into proximity with said second rigid, optically transparent, panel when said resilient spacing member, said dielectric material and said sensing means are placed between said first and said second rigid, optically transparent, panels; a radiation reflector at a second end of said resilient spacing member opposite from said first end of said resilient spacing member and bearing against said first rigid, optically transparent, plastic panel; a source of electrical power connected to said optically transparent, electrically conductive coating; and circuit means electrically connected to said conductive traces embedded in said strip of dielectric material and responsive to said signals developed by said sensing means for controlling the electrical power supplied by said source of electrical power to said optically transparent, electrically conductive coating. - View Dependent Claims (3)
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4. A radiant heat source overlay for an infant incubator comprising:
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a plurality of rigid, transparent sheet sections joined together into a shape adapted to rest on an incubator hood, each of said sections having upper and lower transparent sheets which are spaced apart to form an air gap and an optically transparent, electrically conductive coating on each said lower transparent sheet; a strip of dielectric material having conductive traces embedded therein and having a first surface bearing against said optically transparent, electrically conductive coating on said lower transparent sheet; sensing means electrically connected to said conductive traces embedded in said strip of dielectric material and disposed at a second surface of said strip of dielectric material opposite from said first surface of said strip of dielectric material for developing signals representative of the temperature of said lower transparent sheet; a resilient spacing member having a first end bearing against said sensing means and compressible along its length and having a length in its uncompressed state which urges said sensing means into proximity with said lower transparent sheet when said resilient spacing member, said dielectric material and said sensing means are placed between said upper and said lower transparent sheets; a radiation reflector at a second end of said resilient spacing member opposite from said first end of said resilient spacing member and bearing against said upper transparent sheet; a source of electrical power connected to said optically transparent, electrically conductive coating; and circuit means electrically connected to said conductive traces embedded in said strip of dielectric material and responsive to said signals developed by said sensing means for controlling the electrical power supplied by said source of electrical power to said optically transparent, electrically conductive coating.
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Specification
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Current AssigneeDraeger Medical Systems Incorporated (Dragerwerk AG)
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Original AssigneeHill-Rom Manufacturing Incorporated (Baxter International Inc.)
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InventorsBarsky, Barry E.
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Primary Examiner(s)Reynolds, Bruce A.
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Assistant Examiner(s)Jeffery, John A.
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Application NumberUS08/192,977Time in Patent Office238 DaysField of Search219/543, 219/522, 219/203, 374/208, 338/22 R, 338/24US Class Current219/543CPC Class CodesA61G 11/00 Baby-incubators; CouveusesA61G 2203/46 for temperatureG01K 1/14 Supports; Fastening devices...H05B 1/025 For medical applicationsH05B 2203/005 using multiple resistive el...H05B 2203/013 Heaters using resistive fil...H05B 2203/032 Heaters specially adapted f...H05B 3/26 heating conductor mounted o...
