Forging die heating apparatuses and methods for use

What is claimed is: 1. A forging die heating apparatus, comprising: a burner head comprising a plurality of flame ports; the burner head configured to receive and combust a supply of an oxidizing gas and a supply of a fuel to produce flames at each of the plurality of flame ports, wherein the oxidizing gas is substantially comprised of oxygen; and the plurality of flame ports configured to impinge the flames onto at least one forging surface of the forging die to substantially uniformly heat the at least one forging surface of the forging die; the forging die heating apparatus further comprising: a flow regulator; and a logic controller in signal communication with the flow regulator, wherein the logic controller is programmable to adjust the amount of oxidizing gas and the amount of fuel provided to the burner head. 2. The forging die heating apparatus of claim 1 , comprising: a mixing device configured to mix the supply of the oxidizing gas with the supply of the fuel to provide a mixed supply; and a manifold in fluid communication with the mixing device and the plurality of flame ports, wherein the manifold is configured to provide the mixed supply to the plurality of flame ports which combust the mixed supply and impinge flames onto the at least one forging surface of the forging die. 3. The forging die heating apparatus of claim 1 , wherein the plurality of flame ports are spaced apart a substantially identical distance relative to one another on at east a region of a surface of the burner head. 4. The forging die heating apparatus of claim 1 , wherein each of the plurality of flame ports is configured to produce a flame of a substantially uniform size. 5. The forging die heating apparatus of claim 1 , wherein the plurality of flame ports are configured to preheat the at least one forging surface of the forging die prior to forging a work piece with the forging die. 6. The forging die heating apparatus of claim 1 , wherein the burner head is movable to at least partially conform an orientation of the plurality of flame ports to the orientation of the region of the forging surface. 7. The forging die heating apparatus of claim 6 , further comprising an actuator configured to move the burner head with respect to the forging surface to at least partially conform the orientation of the plurality of flame ports to the orientation of the region of the forging surface. 8. The forging die heating apparatus of claim 1 , wherein the forging die comprises a first forging surface and a second forging surface, and wherein the first forging surface and the second forging surface are configured to move relative to each other, the forging die heating apparatus comprising: a spacer configured to be positioned at least partially intermediate the first forging surface and the second forging surface to at least inhibit the first forging surface from moving toward the second forging surface when the burner head is disposed at least partially intermediate the first forging surface and the second forging surface. 9. The forging die heating apparatus of claim 2 , wherein the burner head comprises a first portion comprising a first set of flame ports and a second portion comprising a second set of flame ports, wherein the first set of flame ports is configured to impinge at least two flames onto a first region of the forging surface and the second set of flame ports is configured to impinge at least two flames onto a second region of the forging, surface, and wherein an orientation of the first set of flame ports is conformable to an orientation of at least the first region of the forging surface. 10. The forging the heating apparatus of claim 9 , wherein at least the first portion of the burner head is configured to move relative to the first region of the forging surface. 11. The forging die heating apparatus of claim 9 , wherein the heating apparatus is an open-faced forging die heating apparatus. 12. The forging die heating apparatus of claim 2 , wherein the burner head comprises a cooling system comprising one or more passages adjacent to least one of the manifold and the plurality of flame ports, wherein the cooling system is configured to transfer heat from portions of the burner head adjacent the one or more passages to fluid within the one or more passages. 13. The forging die heating apparatus of claim 1 , further comprising a temperature sensor on the forging die. 14. The forging die heating apparatus of claim 13 , wherein the logic controller is in signal communication with the temperature sensor. 15. The forging die heating apparatus of claim 14 , further comprising a solenoid valve in signal communication with the logic controller. 16. A forging die heating apparatus, comprising: a burner head comprising a plurality of flame ports; the burner head configured to receive and corn bust a supply of an oxidizing gas and a supply of a fuel to produce flames at each of the plurality of flame ports, wherein the oxidizing gas is substantially comprised of oxygen; the plurality of flame ports configured to impinge the flames onto at least one forging surface of the forging die to substantially uniformly heat the at least one forging surface of the forging die; a mixing device configured to mix the supply of the oxidizing gas with the supply of the fuel to provide a mixed supply; and a manifold in fluid communication with the mixing device and the plurality of flame ports, wherein the manifold is configured to provide the mixed supply to the plurality of flame ports which combust the mixed supply and impinge flames onto the at least one forging surface of the forging die; wherein the burner head comprises a first portion comprising a first set of flame ports and a second portion comprising a second set of flame ports, wherein the first set of flame ports is configured to impinge at least two flames onto a first region of the forging surface and the second set of flame ports is configured to impinge at least two flames onto a second region of the forging, surface, and wherein an orientation of the first set of flame ports is conformable to an orientation of at least the first region of the forging surface; wherein at least the first portion of the burner head is configured to move relative to the first region of the forging surface; and wherein the first set of flame ports is movable relative to the second set of flame ports to conform the orientation of the first set of flame ports to the orientation of the first region of the forging surface. 17. A method of heating a forging die, the method comprising: positioning a burner head comprising at least two flame ports proximate a forging surface of the forging die; supplying an oxy-fuel mixture to the at least two flame ports, wherein the oxy-fuel mixture comprises an oxidizing gas substantially comprised of oxygen and a fuel; combusting the oxy-fuel at the at least two flame ports to produce an oxy-fuel flame at each of the at flame ports; monitoring a temperature of the forging die; and intermittently impinging, based on the monitoring, the at least two oxy-fuel flames onto the forging surface to adjust the temperature of the forging surface to at least a minimum desired temperature. 18. The method of claim 17 , wherein the burner head comprises one or more passages adjacent to the at least two flame ports, and wherein the method further comprises flowing a fluid through the one or more passages to transfer heat from the burner head to the fluid to cool the burner head. 19. The method of