Welding diffuser insert

What is claimed is: 1. A diffuser assembly for a welding torch; said diffuser assembly comprising: a diffuser body having a first end and a second end positioned opposite said first end, said diffuser body having a longitudinal axis extending from said first end to said second end; an interior chamber positioned between said first end and said second end, where said interior chamber is open at said first end to permit a flow of a gas into said interior chamber from said first end and where said interior chamber is defined by a wall portion of said diffuser body; a plurality of openings in said wall portion of said interior chamber where said plurality of openings pass through said wall portion to permit said flow of said gas to exit said interior chamber through said plurality of openings; and a diffuser insert positioned within said interior chamber, where said diffuser insert seats within said interior chamber and where said diffuser insert is exposed to an outside of said diffuser body through said plurality of openings; wherein said diffuser insert has an insert bore which passes through said diffuser insert and is co-axial with said longitudinal axis of said diffuser body; wherein said diffuser insert has at least one flow feature on a sidewall of said diffuser insert which manipulates said flow of said gas to direct said flow of said gas from said interior chamber to said plurality of said openings, said at least one flow feature comprising a tapered surface of said sidewall tapered away from the wall portion of said diffuser body at an angle thereby forming a non-uniform gap distance between said tapered surface of said sidewall and the wall portion of said diffuser body, wherein said tapered surface extends axially to a longitudinal position of said plurality of openings. 2. The diffuser assembly of claim 1 , wherein said diffuser insert is removable from said diffuser body. 3. The diffuser assembly of claim 1 , wherein said insert bore has a chamfered opening on an upstream end of said insert bore. 4. The diffuser assembly of claim 1 , wherein said plurality of said openings are evenly distributed radially on said wall portion. 5. The diffuser assembly of claim 1 , wherein said diffuser insert has a plurality of flow features on said sidewall to manipulate said flow of said gas. 6. The diffuser assembly of claim 1 , wherein said tapered surface of said sidewall is inwardly-tapered away from the wall portion of said diffuser body toward the longitudinal axis. 7. The diffuser assembly of claim 1 , wherein said at least one flow feature includes a protrusion from said sidewall. 8. The diffuser assembly of claim 1 , wherein said diffuser insert has a contact tip contact surface on a downstream end of said diffuser insert, where said diffuser insert is positioned within said diffuser body such that said contact tip contact surface contacts with a contact tip when assembled into a welding torch. 9. The diffuser assembly of claim 1 , wherein said diffuser insert comprises an axially extending feature which contacts an inner surface of said interior chamber, where said axially extending feature further affects a flow of said gas to direct said flow of said gas to said plurality of said openings. 10. The diffuser assembly of claim 5 , wherein said plurality of flow features are arranged symmetrically around a periphery of said sidewall of said diffuser insert. 11. The diffuser assembly of claim 1 , wherein said diffuser insert is exposed along an entire length of said openings, in a longitudinal direction of said diffuser body. 12. A diffuser assembly for a welding torch; said diffuser assembly comprising: a diffuser body having a first end and a second end positioned opposite said first end, said diffuser body having a longitudinal axis extending from said first end to said second end; an interior chamber positioned between said first end and said second end, where said interior chamber is open at said first end to permit a flow of a gas into said interior chamber from said first end, where said interior chamber is open at said second end to permit insert of a contact tip, and where said diffuser body has a wall portion between said first and second ends; a plurality of openings in said wall portion which are symmetrically distributed, where said plurality of openings pass through said wall portion to permit said flow of said gas to exit said diffuser body through said plurality of openings; and a diffuser insert positioned within said interior chamber, where said diffuser insert seats within said interior chamber and where said diffuser insert is exposed to an outside of said diffuser body through said plurality of openings, where said diffuser insert is exposed along an entire length of said openings, in a longitudinal direction of said diffuser body; wherein said diffuser insert has an insert bore which passes through said diffuser insert and is co-axial with said longitudinal axis of said diffuser body; wherein said diffuser insert has a flow feature on a sidewall of said diffuser insert which manipulates said flow of said gas to direct said flow of said gas from said interior chamber to said plurality of said openings, said flow feature comprising a tapered surface of said sidewall tapered away from the wall portion of said diffuser body at an angle thereby forming a non-uniform gap distance between the tapered surface of said sidewall and the wall portion of said diffuser body, wherein said tapered surface extends axially to a longitudinal position of said plurality of openings, and wherein said diffuser insert is secured in a press-fit relationship with said diffuser body. 13. The diffuser assembly of claim 12 , wherein said insert bore has a chamfered opening on an upstream end of said insert bore. 14. The diffuser assembly of claim 12 , wherein said tapered surface of said sidewall is inwardly-tapered away from the wall portion of said diffuser body toward the longitudinal axis. 15. The diffuser assembly of claim 12 , wherein said flow feature includes protrusions from said sidewall. 16. The diffuser assembly of claim 12 , wherein said diffuser insert has a contact tip contact surface on a downstream end of said diffuser insert, where said diffuser insert is positioned within said diffuser body such that said contact tip contact surface contacts with a contact tip when assembled into a welding torch. 17. The diffuser assembly of claim 12 , wherein said diffuser insert comprises an axially extending feature which contacts an inner surface of said interior chamber, where said axially extending feature further affects a flow of said gas to direct said flow of said gas to said plurality of said openings. 18. A diffuser assembly for a welding torch; said diffuser assembly comprising: a diffuser body having a first end and a second end positioned opposite said first end, said diffuser body having a longitudinal axis extending from said first end to said second end; an interior chamber positioned between said first end and said second end, where said interior chamber is open at said first end to permit a flow of a gas into said interior chamber from said first end, where said interior chamber is open at said second end to permit insert of a contact tip, and where said diffuser body has a wall portion between said first and second ends; a plurality of openings in said wall portion which are symmetrically distributed, where said plurality of openings pass through said wall portion to permit said flow of said gas to exit said diffuser body through said p