Gas flow controller for use in gas fired apparatus

What is claimed is: 1. A gas flow controller for use in a gas fired apparatus including a pilot burner and a main burner, the controller comprising: an actuator; a pilot valve connected to the actuator, the pilot valve moveable from a closed position to an open position by actuation of the actuator to provide selective fluid communication between a gas inlet and a first fluid chamber, the first fluid chamber in fluid communication with a pilot burner outlet; a main burner valve providing selective fluid communication between the first fluid chamber and a main burner outlet; and a flow controller valve connected to the actuator, the flow controller valve moveable from a closed position to an open position by actuation of the actuator to provide selective fluid communication between the gas inlet and a back side of the main burner valve to maintain the main burner valve in a closed position when the pilot valve is in the open position. 2. The gas flow controller of claim 1 , wherein the actuator is movable from a first position to a second position, the actuator configured to open the pilot valve and the flow controller valve when moved from the first position to the second position. 3. The gas flow controller of claim 1 , further comprising an interconnecting member connecting the pilot valve to the actuator, the interconnecting member having an aperture defined therein; wherein the flow controller valve includes a valve stem configured to engage the actuator, the valve stem extending through the aperture. 4. The gas flow controller of claim 3 , wherein the actuator comprises a first end configured to be manually actuated by a user, and a second end distal from the first end, the second end configured to engage the valve stem of the flow controller valve and the interconnecting member to open the flow controller valve and the pilot valve. 5. The gas flow controller of claim 1 , wherein the first fluid chamber is in fluid communication with a front side of the main burner valve, the main burner valve separating the first fluid chamber from a second fluid chamber in fluid communication with the back side of the main burner valve, the first fluid chamber fluidly connected to the second fluid chamber by a fluid flow path including at least one pressure regulating orifice. 6. The gas flow controller of claim 5 , further comprising a pressure control valve configured to open and close the main burner valve by regulating a pressure differential across the front side and the back side of the main burner valve. 7. The gas flow controller of claim 1 , further comprising a latch connected to the pilot valve, the latch configured to maintain the pilot valve in the open position when the flow controller valve is in the closed position. 8. A gas flow controller for use in a gas fired apparatus including a pilot burner and a main burner, the controller comprising: an actuator; a pilot valve operable to open and close a first fluid flow path between a gas inlet and the pilot burner upon actuation of the actuator; a main burner valve operable to open and close a second fluid flow path between the gas inlet and the main burner; and a flow controller valve operable to open and close a third fluid flow path between the gas inlet and a back side of the main burner valve upon actuation of the actuator. 9. The gas flow controller of claim 8 , wherein the actuator is depressible from a first position to a second position, the actuator configured to open the pilot valve and the flow controller valve when manually depressed from the first position to the second position. 10. The gas flow controller of claim 8 , further comprising an interconnecting member connecting the pilot valve to the actuator, the interconnecting member having an aperture defined therein; wherein the flow controller valve includes a valve stem configured to engage the actuator, the valve stem extending through the aperture. 11. The gas flow controller of claim 8 , wherein the main burner valve separates a first fluid chamber in fluid communication with a front side of the main burner valve from a second fluid chamber in fluid communication with the back side of the main burner valve, the first fluid chamber fluidly connected to the second fluid chamber by a fourth fluid flow path including at least one pressure regulating orifice. 12. The gas flow controller of claim 11 , wherein the third fluid flow path has a fluid flow rating greater than a fluid flow rating of the fourth fluid flow path. 13. The gas flow controller of claim 11 , wherein a flow-limiting cross-sectional area of the third fluid flow path is greater than a flow-limiting cross-sectional area of the fourth fluid flow path. 14. The gas flow controller of claim 11 , further comprising a pressure control valve configured to open and close the main burner valve by regulating a pressure differential across the front side and the back side of the main burner valve. 15. The gas flow controller of claim 8 , further comprising a latch connected to the pilot valve, the latch configured to maintain the pilot valve in the open position when the flow controller valve is in the closed position. 16. A gas flow controller for use in a gas fired apparatus including a pilot burner and a main burner, the controller comprising: a pilot valve operable to open and close a first fluid flow path between a gas inlet and the pilot burner; a main burner valve operable to open and close a second fluid flow path between the gas inlet and the main burner, the main burner valve separating a first fluid chamber in fluid communication with a front side of the main burner valve from a second fluid chamber in fluid communication with the back side of the main burner valve, the first fluid chamber fluidly connected to the second fluid chamber by a third fluid flow path including at least one pressure regulating orifice; a flow controller valve operable to open and close a fourth fluid flow path between the gas inlet and the second fluid chamber to maintain the main burner valve in a closed position when the pilot valve is in an open position; a manual actuator connected to the pilot valve and the flow controller valve, the manual actuator configured to open both the pilot valve and the flow controller valve when manually actuated from a first position to a second position; a latch configured to maintain the pilot valve in the open position when the manual actuator is in the first position; and a pressure control valve configured to open and close the main burner valve by regulating a pressure differential across the front side and the back side of the main burner valve. 17. The gas flow controller of claim 16 , wherein the fourth fluid flow path has a fluid flow rating greater than a fluid flow rating of the third fluid flow path. 18. The gas flow controller of claim 16 , wherein a flow-limiting cross-sectional area of the fourth fluid flow path is greater than a flow-limiting cross-sectional area of the third fluid flow path. 19. The gas flow controller of claim 16 , further comprising an interconnecting member connecting the pilot valve to the manual actuator, the interconnecting member having an aperture defined therein; wherein the flow controller valve includes a valve stem configured to engage the manual actuator, the valve stem extending through the aperture. 20. The gas flow controller of claim 16 , wherein the gas fired apparatus is a water heater.