Automatic gas torch ignition in an oxygen rich environment

What is claimed is: 1. A method of operating an auto-ignition gas torch comprising: providing an initiation trigger on an underside of a handle portion, the initiation trigger including a latch extending out of an underside of a trigger body; initiating a flow of preheat oxygen above zero; initiating a flow of fuel gas to a level lower than the flow of preheat oxygen, wherein the flow of preheat oxygen is from about two times to about six times higher than the flow of fuel gas thereby creating an oxygen-rich mixture with the flow of preheat oxygen and the flow of fuel gas, wherein the flow of preheat oxygen and the flow of fuel gas are initiated following activation of the initiation trigger, the activation of the initiation trigger including moving the latch within the trigger body, towards a proximal end of the handle portion and away from a head portion, to reposition an upper extension of the latch from an off position to a second position in which the upper extension engages a cavity within a handle body, and simultaneously pivoting the trigger body about a hinge portion and upwards toward the handle body, against a force of a biasing member, to cause a gas control device to engage a corresponding internal receptacle of the trigger body; igniting the oxygen-rich mixture of the flow of preheat oxygen and the flow of fuel gas; and shutting off the gas torch by allowing the trigger body to pivot about the hinge portion and away from the handle body, as a result of the force of the biasing member, the upper extension of the latch automatically moving from the second position to the off position. 2. The method according to claim 1 , wherein the flow of preheat oxygen is from about 10 SCFH to about 22 SCFH. 3. The method according to claim 1 , wherein the flow of fuel gas is from about 1.5 SCFH to about 4 SCFH. 4. The method according to claim 3 , wherein the fuel gas is acetylene. 5. The method according to claim 1 , wherein the flow of preheat oxygen is from about 6 SCFH to about 27 SCFH. 6. The method according to claim 1 , wherein the flow of fuel gas is from about 1.5 SCFH to about 6 SCFH. 7. The method according to claim 6 , wherein the fuel gas is methane. 8. The method according to claim 1 , wherein the flow of preheat oxygen is from about 7 SCFH to about 27 SCFH. 9. The method according to claim 1 , wherein the flow of fuel gas is from about 1.5 SCFH to about 9.5 SCFH. 10. The method according to claim 9 , wherein the fuel gas is propane. 11. A method of operating an auto-ignition gas torch comprising: providing an initiation trigger on an underside of a handle portion, the initiation trigger including a latch extending out of an underside of a trigger body; initiating a flow rate of preheat oxygen to a level that is an order of magnitude higher than a flow rate of fuel gas thereby creating an oxygen-rich mixture with the flow of preheat oxygen and the flow of fuel gas, wherein the flow of preheat oxygen and the flow of fuel gas are initiated following activation of the initiation trigger, the activation of the initiation trigger including moving the latch within the trigger body, towards a proximal end of the handle portion and away from a head portion, to reposition an upper extension of the latch from an off position to a second position in which the upper extension engages a cavity within a handle body, and simultaneously pivoting the trigger body about a hinge portion and upwards toward the handle body, against a force of a biasing member, to cause a gas control device to engage a corresponding internal receptacle of the trigger body; igniting the oxygen-rich mixture of the flow of preheat oxygen and the flow of fuel gas; and shutting off the gas torch by allowing the trigger body to pivot about the hinge portion and away from the handle body, as a result of the force of the biasing member, the upper extension of the latch automatically moving from the second position to the off position. 12. The method according to claim 11 , wherein the flow of preheat oxygen is from about 10 SCFH to about 22 SCFH, the flow of fuel gas is from about 1.5 SCFH to about 4 SCFH, and the fuel gas is acetylene. 13. The method according to claim 11 , wherein the flow of preheat oxygen is from about 6 SCFH to about 27 SCFH, the flow of fuel gas is from about 1.5 SCFH to about 6 SCFH, and the fuel gas is methane. 14. The method according to claim 11 , wherein the flow of preheat oxygen is from about 7 SCFH to about 27 SCFH, the flow of fuel gas is from about 1.5 SCFH to about 9.5 SCFH, and the fuel gas is propane. 15. A method of operating an auto-ignition gas torch comprising: providing an initiation trigger on an underside of a handle portion, the initiation trigger including a latch extending out of an underside of a trigger body; providing a flow rate of preheat oxygen that is higher than a flow rate of fuel gas thereby creating an oxygen-rich mixture with the flow of preheat oxygen and the flow of fuel gas; igniting the oxygen-rich mixture of the flow of preheat oxygen and the flow of fuel gas, wherein the flow of preheat oxygen and the flow of fuel gas are initiated following activation of the initiation trigger, the activation of the initiation trigger including moving the latch within the trigger body, towards a proximal end of the handle portion and away from a head portion, to reposition an upper extension of the latch from an off position to a second position in which the upper extension engages a cavity within a handle body, and simultaneously pivoting the trigger body about a hinge portion and upwards toward the handle body, against a force of a biasing member, to cause a gas control device to engage a corresponding internal receptacle of the trigger body; and shutting off the gas torch by allowing the trigger body to pivot about the hinge portion and away from the handle body, as a result of the force of the biasing member, the upper extension of the latch automatically moving from the second position to the off position. 16. The method according to claim 15 , wherein the flow rate of preheat oxygen is an order of magnitude higher than the flow rate of fuel gas. 17. The method according to claim 15 , wherein the flow of preheat oxygen is from about 10 SCFH to about 22 SCFH, the flow of fuel gas is from about 1.5 SCFH to about 4 SCFH, and the fuel gas is acetylene. 18. The method according to claim 15 , wherein the flow of preheat oxygen is from about 6 SCFH to about 27 SCFH, the flow of fuel gas is from about 1.5 SCFH to about 6 SCFH, and the fuel gas is methane. 19. The method according to claim 15 , wherein the flow of preheat oxygen is from about 7 SCFH to about 27 SCFH, the flow of fuel gas is from about 1.5 SCFH to about 9.5 SCFH, and the fuel gas is propane. 20. A method of operating an auto-ignition gas torch comprising: providing an initiation trigger on an underside of a handle portion, the initiation trigger including a latch extending out of an underside of a trigger body; creating an oxygen-rich mixture of a preheat oxygen and a fuel gas by providing a flow rate of the preheat oxygen that is higher than a flow rate of the fuel gas, the flow rate of the preheat oxygen being from about 10 SCFH to about 22 SCFH, the flow rate of the fuel gas being from about 1.5 SCFH to about 4 SCFH, and the fuel gas being acetylene, wherein the flow of preheat oxygen and the flow of fuel gas are initiated following activation of the initiation trigger, the activation of the initiation trigger including moving the latch