Welding gun with debris removal and motor cooling

What is claimed is: 1. A welding gun comprising: a handle portion comprising a motor configured to move electrode wire through the welding gun; a diffuser comprising an interior chamber and a plurality of openings defining exit passages from the interior chamber to an exterior of the diffuser; a barrel located between the diffuser and the handle portion and connecting the diffuser to the handle portion and configured to supply shielding gas to the diffuser from the handle portion; a contact tip extending from the diffuser, comprising a front portion, a rear portion, and a contact tip bore extending therethrough configured to receive the electrode wire; and a diffuser insert disposed within the diffuser, comprising an insert bore extending through the diffuser insert and configured to receive the electrode wire, and an outer surface configured to direct debris from within the interior chamber of the diffuser towards the exit passages to thereby discharge the debris to the exterior of the diffuser, wherein the handle portion is configured to direct a flow of the shielding gas over the motor thereby cooling the motor during a welding operation. 2. The welding gun of claim 1 , wherein the diffuser insert is arranged in an abutting relation with the rear portion of the contact tip. 3. The welding gun of claim 1 , wherein the diffuser insert is secured to the diffuser within the interior chamber. 4. The welding gun of claim 1 , wherein the flow of the shielding gas both cools the motor and purges the debris from the diffuser. 5. The welding gun of claim 4 , wherein the handle portion further comprises a baffle for directing the flow of the shielding gas over the motor. 6. The welding gun of claim 1 , wherein the outer surface of the diffuser insert is an angled outer surface configured to direct the debris from within the interior chamber of the diffuser towards the exit passages. 7. The welding gun of claim 6 , wherein at least one of the exit passages is arranged at an angle with respect to a longitudinal axis of the diffuser, and wherein the angled outer surface of the diffuser insert is configured to substantially match the angle of said at least one exit passage. 8. The welding gun of claim 6 , wherein the angled outer surface of the diffuser insert comprises a conical geometry. 9. The assembly of claim 1 , wherein the insert bore comprises a conical geometry with a relatively larger cross-sectional area adjacent the contact tip. 10. The welding gun of claim 1 , wherein the diffuser insert is formed together with the contact tip as a monolithic element. 11. The welding gun of claim 1 , wherein the plurality of openings of the diffuser further comprise gas passages for the shielding gas used during the welding operation. 12. The welding gun of claim 1 , wherein the wherein the diffuser insert is formed together with the diffuser as a monolithic element. 13. A welding gun comprising: a handle portion comprising a motor configured to move electrode wire through the welding gun; a diffuser comprising an interior chamber and a plurality of openings defining exit passages from the interior chamber to an exterior of the diffuser; a barrel located between the diffuser and the handle portion and connecting the diffuser to the handle portion and configured to supply shielding gas to the diffuser from the handle portion; and a contact tip extending from the diffuser, comprising a front portion, a rear portion, and a contact tip bore extending therethrough configured to receive electrode wire, the rear portion of the contact tip further comprising an angled outer surface defining a diffuser insert that is configured to direct debris from within the interior chamber of the diffuser towards the exit passages to thereby discharge the debris to the exterior of the diffuser, wherein the handle portion is configured to direct a flow of the shielding gas over the motor thereby cooling the motor during a welding operation. 14. The welding gun of claim 13 , wherein the flow of the shielding gas both cools the motor and purges the debris from the diffuser. 15. The welding gun of claim 14 , wherein the handle portion further comprises a baffle for directing the flow of the shielding gas over the motor. 16. The welding gun of claim 13 , wherein at least one of the exit passages is arranged at an angle with respect to a longitudinal axis of the diffuser, and wherein the angled outer surface of the rear portion of the contact tip is configured to substantially match the angle of said at least one exit passage. 17. A welding gun comprising: a handle portion comprising a motor configured to move electrode wire through the welding gun; a diffuser comprising an interior chamber and a plurality of openings defining exit passages from the interior chamber to an exterior of the diffuser, the exit passages being utilized as gas passages for shielding gas used during a welding operation; a barrel located between the diffuser and the handle portion and connecting the diffuser to the handle portion and configured to supply the shielding gas to the diffuser from the handle portion; a contact tip extending from the diffuser and removably coupled to the diffuser, the contact tip comprising a front portion, a rear portion, and a contact tip bore extending therethrough configured to receive the electrode wire; and a diffuser insert disposed within the interior chamber of the diffuser, comprising an insert bore extending therethrough with a first end having a diameter substantially similar to a diameter of the electrode wire received within the insert bore, and an outer surface configured to direct debris from within the interior chamber of the diffuser towards the exit passages to thereby discharge the debris to the exterior of the diffuser, wherein the handle portion is configured to direct a flow of the shielding gas over the motor thereby cooling the motor during the welding operation. 18. The welding gun of claim 17 , wherein the outer surface of the diffuser insert is angled to direct the debris from within the interior chamber of the diffuser towards the exit passages, and wherein the diffuser insert is arranged in an abutting relation with the rear portion of the contact tip. 19. The welding gun of claim 17 , wherein the outer surface of the diffuser insert is angled to direct the debris from within the interior chamber of the diffuser towards the exit passages, and wherein the diffuser insert is formed together with the contact tip as a monolithic element. 20. The welding gun of claim 17 , wherein the outer surface of the diffuser insert is an angled outer surface configured to direct the debris from within the interior chamber of the diffuser towards the exit passages, wherein at least one of the exit passages is arranged at an angle with respect to a longitudinal axis of the diffuser, and wherein the angled outer surface of the diffuser insert is configured to substantially match the angle of said at least one exit passage. 21. The welding gun of claim 17 , wherein the flow of the shielding gas both cools the motor and purges the debris from the diffuser. 22. A welding diffuser and diffuser insert assembly for use with a welding apparatus, the assembly comprising: a diffuser comprising an interior chamber and a plurality of openings defining exit passages from the interior chamber to an exterior of the diffuser, the diffuser further comprising a diffuser insert, the diffuser insert comprising an inse