Injector spray protector

The invention claimed is: 1. An injector assembly for a vehicle exhaust component comprising: an injector mount configured to mount an injector to the vehicle exhaust component, wherein the injector mount includes a spray opening surrounding a spray axis; an injector housing extending from an inlet end that receives exhaust gases to an outlet end, and wherein the inlet end defines a planar area that is transverse to the spray axis; and a spray protector extending axially from the injector mount to break the planar area. 2. The injector assembly according to claim 1 , wherein the spray protector is held fixed to the injector mount and extends to a distal end that extends axially beyond the planar area. 3. The injector assembly according to claim 2 , wherein the vehicle exhaust component comprises a mixer defining an internal cavity where engine exhaust gas is mixed with fluid spray exiting the spray opening, and wherein the injector housing comprises a cone that is positioned within the internal cavity. 4. The injector assembly according to claim 3 , wherein the mixer includes an opening in an outer peripheral surface defining a center axis, and wherein the center axis and spray axis are concentric. 5. The injector assembly according to claim 3 , including an upstream baffle positioned within the internal cavity and a downstream baffle axially spaced from the upstream baffle, and wherein the cone is positioned between the upstream and downstream baffles. 6. The injector assembly according to claim 1 , wherein the injector housing comprises a cone with the inlet end having a smaller diameter than the outlet end, and wherein the injector mount comprises a base plate including the spray opening configured to receive fluid from the injector, and wherein the base plate has a first surface facing the cone, and wherein the spray protector comprises a tubular member that surrounds the spray opening and extends axially away from the first surface to a distal end that extends axially beyond the planar area. 7. The injector assembly according to claim 6 , wherein the inlet end of the cone is positioned adjacent the spray opening such that an annular gap is formed between an inner surface of the cone and an outer surface of the distal end of the spray protector, and wherein exhaust gas is directed into the inlet end of the cone through the annular gap that forms an exhaust gas passage through which the planar area extends. 8. The injector assembly according to claim 7 , wherein the first surface of the base plate includes a curved portion extending radially outwardly of the inlet end of the cone to facilitate directing exhaust gases into the annular gap. 9. The injector assembly according to claim 7 , wherein the spray protector is integrally formed with the base plate as a single-piece component, and wherein the base plate includes a curved transition surface extending from the first surface to the outer surface of the spray protector. 10. The injector assembly according to claim 6 , including an outer housing at least partially surrounding the cone, and wherein the outer housing directs exhaust gas flow toward the inlet end of the cone. 11. The injector assembly according to claim 6 , including an upstream baffle and a downstream baffle, and wherein the outer housing and cone are positioned in an area between the upstream and downstream baffles. 12. A vehicle exhaust component assembly comprising: a mixer shell defining a mixer center axis, the mixer shell including a mixer opening formed in an outer surface of the mixer shell; an upstream mixer baffle positioned within the mixer shell; a downstream mixer baffle positioned within the mixer shell and spaced axially from the upstream mixer baffle in a direction along the mixer center axis; an injector mount held fixed relative to the mixer shell, and wherein the injector mount includes a spray opening surrounding a spray axis and aligned within the mixer opening; an injector housing extending from an inlet end that receives exhaust gases to an outlet end, and wherein the inlet end defines a planar area that intersects the spray axis; and a spray protector extending axially from the injector mount to a distal end that extends axially beyond the planar area in a direction along the spray axis. 13. The vehicle exhaust component assembly according to claim 12 , wherein the injector housing comprises a cone with the inlet end having a smaller diameter than the outlet end, and wherein the injector mount comprises a base plate including the spray opening configured to receive fluid from an injector, and wherein the base plate has a first surface facing the cone, and wherein the spray protector comprises a tubular member that surrounds the spray opening and extends axially away from the first surface to the distal end that extends axially beyond the planar area. 14. The vehicle exhaust component assembly according to claim 13 , wherein the inlet end of the cone is positioned adjacent the spray opening such that an annular gap is formed between an inner surface of the cone and an outer surface of the distal end of the spray protector, and wherein exhaust gas is directed into the inlet end of the cone through the annular gap that forms an exhaust gas passage through which the planar area extends. 15. The vehicle exhaust component assembly according to claim 13 , wherein the spray protector is integrally formed with the base plate as a single-piece component. 16. A method for injecting a fluid into an exhaust component comprising the steps of: providing an injector mount configured to mount an injector to the exhaust component, the injector mount including a spray opening surrounding a spray axis; positioning an injector housing adjacent to the injector mount, the injector housing extending from an inlet end that receives exhaust gases to an outlet end, and wherein the inlet end defines a planar area that intersects the spray axis; and providing a spray protector that extends axially from the injector mount to a distal end that extends axially beyond the planar area in a direction along the spray axis such that spray exiting the distal end of the spray protector mixes with exhaust gases entering the inlet end of the injector housing. 17. The method according to claim 16 , including providing the injector housing as a cone where the inlet end has a diameter that is less than a diameter of the outlet end, and including providing an outer housing that at least partially surrounds the cone, and wherein the outer housing includes a first end attached to the injector mount and a second end that includes a ring portion, and wherein the first end comprises a tubular portion that completely surrounds the inlet end of the cone, and including forming an open area in the outer housing between the ring portion and the tubular portion that extends partially about a circumference of the outer housing such that the exhaust gases enter through the open area and are directed to the inlet end of the cone. 18. The method according to claim 17 , including forming the injector mount to comprise a base plate including the spray opening which is configured to receive fluid from the injector, and wherein the base plate has a first surface facing the cone, and wherein the first surface curves from a first location at a radially outward edge of the base plate to a second location at the distal end of the spray protector, and wherein the first location and the distal end are on a common side of the planar area, and including forming the spray protector to compr