Reducing agent mixer

The invention claimed is: 1. A reducing agent mixer adapted for use in an exhaust treatment system associated with an internal combustion engine, the reducing agent mixer comprising a mixing can arranged around a central axis and shaped to define an internal space, the internal space adapted to house mixing of exhaust gas and reducing agent when exhaust gas moves along the central axis in a downstream direction through the reducing agent mixer, a doser mounted outside the mixing can and configured to discharge predetermined amounts of reducing agent into the internal space of the mixing can, and a reducing agent delivery device including a doser attachment that supports the doser outside the internal space of the mixing can, an injection cone that conducts reducing agent discharged from the doser into the internal space of the mixing can, and an exhaust guide configured to provide means for collecting exhaust gas moving into the reducing agent mixer and for distributing the exhaust gas around an inlet aperture of the injection cone so that exhaust gas moving through the injection cone lines an internal surface of the injection cone and blocks deposition of reducing agent onto an internal surface of the mixing cone, wherein the mixing can includes an outer wall formed to include a can aperture through which the reducing agent delivery device extends, an upstream baffle that defines an upstream side of the internal space and formed to include guide aperture, and a downstream baffle that defines a downstream side of the internal space, the exhaust guide includes an exhaust-distribution duct that extends in the upstream direction from the injection cone and forms an exhaust-receipt opening that opens facing in the upstream direction and that is aligned with the guide aperture so that exhaust moving through the guide aperture enters the exhaust guide for distribution around the inlet aperture of the injection cone when exhaust gas flows through the reducing agent mixer. 2. The reducing agent mixer of claim 1 , wherein exhaust guide includes a plurality of flow distribution walls that divide the exhaust-distribution duct into a plurality of flow tubes and each of the flow tubes is shaped to discharge exhaust gas at a different location around the injection cone so that exhaust gas is distributed around the inlet aperture of the injection cone when exhaust gas flows through the reducing agent mixer. 3. The reducing agent mixer of claim 2 , wherein the exhaust- distribution duct terminates downstream of the guide aperture formed in the upstream baffle such that the reducing agent delivery device is spaced apart from the upstream baffle and some exhaust gas moving through the guide aperture does not enter the exhaust-distribution duct when exhaust gas flows through the reducing agent mixer. 4. The reducing agent mixer of claim 2 , wherein the exhaust- distribution duct extends through guide aperture of the upstream baffle and terminates upstream of the guide aperture. 5. The reducing agent mixer of claim 2 , wherein the plurality of flow distribution walls divide the exhaust receipt opening into a plurality of flow ports each aligned with the guide aperture formed in the upstream baffle so that exhaust moving through the guide aperture enters the exhaust guide for distribution around the inlet aperture of the injection cone when exhaust gas flows through the reducing agent mixer. 6. The reducing agent mixer of claim 5 , wherein the upstream baffle includes a first section arranged to extend in a plane generally perpendicular to the central axis and a second section arranged to extend in a plane generally parallel to the central axis, and the guide aperture formed in the upstream baffle is formed through portions of both the first section and the second section of the upstream baffle. 7. The reducing agent mixer of claim 1 , wherein the doser attachment of the reducing agent delivery device includes a mount cap outside the mixing can that is coupled to the doser and a mount cylinder that extends through the can aperture formed in the outer wall of the mixing can, the mount cylinder encircling at least a portion of the injection cone to define a gap therebetween, and the gap is in fluid communication with the exhaust guide. 8. The reducing agent mixer of claim 7 , wherein the mount cap includes a coupler flange configured to be coupled to the doser by fasteners and a port plate that extends over the mount cylinder outside the mixing can to close an outer end of the mount cylinder, the port plate formed to include an injection port aligned with the inlet aperture of the injection cone to allow reducing agent discharged from the doser to move through the mount cap and into the injection cone, and the port plate having a substantially flat shape across the outer end of the mount cylinder. 9. The reducing agent mixer of claim 7 , wherein exhaust guide includes a plurality of flow distribution walls that divide the exhaust-distribution duct into a plurality of flow tubes and each of the flow tubes is shaped to discharge exhaust gas at a different location around the inlet aperture of the injection cone so that exhaust gas is distributed around the injection cone when exhaust gas flows through the reducing agent mixer. 10. The reducing agent mixer of claim 9 , wherein the plurality of flow distribution walls extend into the gap between the mount cylinder and the injection cone. 11. The reducing agent mixer of claim 1 , wherein the injector cone includes an outer dome that forms the inlet aperture of the injector cone and a flared wall that forms an outlet aperture of the injector cone, the outer dome has a dome shape, and the flared wall has a hollow frusto-conical shape that extends from the outer dome. 12. The reducing agent mixer of claim 11 , wherein the doser attachment of the reducing agent delivery device includes a mount cap outside the mixing can that is coupled to the doser and a mount cylinder that extends through the can aperture formed in the outer wall of the mixing can, the mount cylinder encircling the outer dome of the injection cone at least a portion of the flared wall of the injection cone to define a gap therebetween, and the gap is in fluid communication with the exhaust guide. 13. The reducing agent mixer of claim 12 , wherein the mount cap includes a coupler flange configured to be coupled to the doser by fasteners and a port plate that extends over the mount cylinder outside the mixing can to close an outer end of the mount cylinder, the port plate formed to include an injection port aligned with the inlet aperture of the injection cone to allow reducing agent discharged from the doser to move through the mount cap and into the injection cone, and the port plate having a substantially flat shape across the outer end of the mount cylinder. 14. The reducing agent mixer of claim 13 , wherein exhaust guide includes an exhaust-distribution duct that extends from the mount cylinder and a plurality of flow distribution walls that divide the exhaust-distribution duct into a plurality of flow tubes, each of the flow tubes is shaped to discharge exhaust gas at a different location around the injection cone, and the plurality of flow distribution walls extend into the gap between the mount cylinder and the injection cone so that exhaust gas is distributed around the inlet aperture of the injection cone when exhaust gas flows through the reducing agent mixer. 15. A reducing agent mixer adapted for use in an exhaust treatment system associated with an internal combustion engine, the reducing agent mixer comprising a mixing can arranged around a