System for using constricted convection with closed loop cooling system as the convection plate

I claim: 1. A gas cooling system for an electronic display having a display surface and a rear surface, the system comprising: a closed loop of circulating gas positioned to surround the electronic display; and an open loop of ambient gas which contacts the rear surface of the electronic display; where the circulating gas and ambient gas are two separate flows of fluid. 2. The system of claim 1 further comprising: a means for transferring heat from the circulating gas to the ambient gas. 3. The system of claim 2 , wherein: the means for transferring heat from the circulating gas to the ambient gas comprises placing the circulating gas within a plenum and allowing ambient gas to contact exterior surfaces of the plenum. 4. The system of claim 1 , further comprising: a transparent anterior plate positioned in front of the display surface to define a gap; a fan positioned to force the circulating gas through said gap. 5. The system of claim 4 , further comprising: a second transparent anterior plate bonded to the first transparent anterior plate. 6. The system of claim 1 further comprising: a metallic layer bonded to the rear surface of the electronic display. 7. The system of claim 1 , further comprising: a fan positioned to force ambient gas along the rear surface of the electronic display. 8. The system of claim 1 , further comprising: a temperature sensing device within said closed loop of circulating gas; a fan positioned to force circulating gas through the closed loop; a switch in communication with said temperature sensing device and said fan; and wherein the fan is switched on when the temperature within the closed loop of circulating gas reaches a threshold value. 9. The system of claim 1 wherein: the flow of open loop ambient gas is perpendicular to the flow of circulating gas in the closed loop. 10. The system of claim 1 wherein: the open loop ambient gas flows through the center of the closed loop of circulating gas. 11. The system of claim 1 wherein: the rear surface of the electronic display is the rear surface of an LED backlight. 12. A thermally regulated electronic display comprising: a liquid crystal stack having a display surface; an LED backlight with a rear surface positioned posterior to the liquid crystal stack; a closed loop of circulating gas positioned to surround the liquid crystal stack and LED backlight; and an open loop of ambient gas contacting the rear surface of the LED backlight. 13. The electronic display of claim 12 wherein: the flow of open loop ambient gas is perpendicular to the flow of circulating gas in the closed loop. 14. The electronic display of claim 12 wherein: the open loop ambient gas flows through the closed loop of circulating gas. 15. The electronic display of claim 12 further comprising: a means for transferring heat from the circulating gas to the ambient gas. 16. The electronic display of claim 15 wherein: the means for transferring heat from the circulating gas to the ambient gas comprises placing the circulating gas within a plenum and allowing ambient gas to contact exterior surfaces of the plenum. 17. A thermally regulated electronic display assembly, the system comprising: an electronic display having a display surface and a rear surface; a glass plate placed in front of the display surface, the space between the glass plate and display surface defining a channel; a closed loop of circulating gas positioned to surround the electronic display where circulating gas flows through the channel; and an open loop of ambient gas contacting the rear surface of the electronic display. 18. The electronic display of claim 17 wherein: the flow of open loop ambient gas is perpendicular to the flow of circulating gas in the closed loop. 19. The electronic display of claim 17 further comprising: a plenum having interior and exterior surfaces where the circulating gas contacts the interior surfaces and the ambient gas contacts the exterior surfaces.