| CPC F23N 5/105 (2013.01) [F23N 5/245 (2013.01); F23N 2229/02 (2020.01); F23N 2231/08 (2020.01)] | 8 Claims |
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1. An apparatus for ceasing methane flow from a high-pressure methane source to a gas heating system having an operating temperature, responsive to flame loss of a pilot methane gas burner, comprising:
a pneumatic gas regulator for receiving methane from said high-pressure methane source and providing a first chosen pressure of methane;
a primary pilot gas regulator for receiving methane from said high-pressure methane source and providing a second chosen pressure of methane;
a thermostatic controller for measuring the temperature of said gas heating system, for receiving the first chosen pressure of methane, for providing an output pressure of methane that is equal to or below the second chosen pressure of methane when said gas heating system has a temperature above the operating temperature, and for providing an output pressure of methane above the second chosen pressure when said gas heating system has a temperature equal to or below the operating temperature;
a pneumatic signal selector for receiving the output pressure of methane from said thermostatic controller, and the second chosen pressure of methane from said primary pilot gas regulator, said pneumatic signal selector having an output pressure of methane equal to the larger of the output pressure of methane from said thermostatic controller or the second chosen pressure of methane;
a thermocouple in thermal contact with said pilot methane gas burner, said thermocouple providing a voltage responsive to a temperature generated when said pilot methane gas burner has a flame from burning methane;
a thermo-electric valve for receiving the output pressure of methane from said pneumatic signal selector, for receiving the voltage from said thermocouple, for providing an output pressure of methane equal to the output pressure from said pneumatic signal selector, and for providing a control signal, when the voltage from said thermocouple is responsive to the temperature generated when said pilot methane gas burner has a flame from burning methane;
a secondary pilot gas regulator for receiving the output pressure of methane from said thermo-electric valve, and for providing a third chosen pressure of methane for maintaining the flame of said pilot methane gas burner from burning methane;
a burner gas regulator for receiving methane from said high-pressure methane source, and for providing a fourth chosen pressure of methane;
a burner gas control valve for receiving the output pressure of methane from said pneumatic signal selector, for receiving the second chosen pressure of methane from said primary pilot gas regulator, for receiving the fourth chosen pressure of methane from said burner gas regulator, for receiving the control signal form said thermo-electric valve, and for providing a controlled flow of methane from said burner gas regulator through said burner gas control valve, said burner gas control valve having a diaphragm disposed between a first gas-tight chamber and a second gas-tight chamber, whereby the second chosen pressure of methane presses downward on the diaphragm, and the output pressure of methane from said pneumatic signal selector presses upward on the diaphragm with sufficient force such that a controlled flow of methane is provided when said pilot methane gas burner has a flame from burning methane; and
a methane burner for receiving the controlled flow of methane from said burner gas control valve, and for generating heat for said gas heating system.
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