Mixer for a vehicle exhaust system

The invention claimed is: 1. A mixer for use with a vehicle exhaust system, the mixer comprising an annular side wall that extends circumferentially around and axially along a central axis of the mixer to define an internal region of the mixer, an upstream baffle including an upstream helical portion that extends circumferentially about the central axis and an axially extending inlet wall that extends between and interconnects an upstream end and a downstream end of the upstream helical portion, the axially extending inlet wall formed to include a primary inlet opening arranged to receive exhaust gases moving into the internal region during use of the mixer in a vehicle exhaust system, the primary inlet opening being radially spaced apart from the central axis to induce swirling motion of the exhaust gases about the central axis during use of the mixer, a downstream baffle including a downstream helical portion that extends circumferentially about the central axis and an axially extending outlet wall formed to include a primary outlet opening arranged to discharge the exhaust gases moving out of the internal region during use of the mixer, and the primary outlet opening is spaced apart circumferentially from the primary inlet opening so that the exhaust gases travel circumferentially about the central axis between the primary inlet opening and the primary outlet opening to increase mixing of the exhaust gases conducted through the mixer during use of the mixer, and a manifold located within the internal region of the mixer and positioned axially between the upstream baffle and the downstream baffle and the manifold is adapted to mount a doser to the mixer. 2. The mixer of claim 1 , wherein the downstream baffle further includes a flat portion that is generally perpendicular to the central axis and the axially extending outlet wall interconnects the flat portion and the downstream helical portion. 3. The mixer of claim 2 , wherein the downstream helical portion includes a plurality of lips that protrude axially toward the upstream baffle, the lips are spaced apart circumferentially from one another about the central axis, and each lip is formed to define an elongated secondary outlet opening that extends axially through the downstream helical portion and radially outward relative to the central axis. 4. The mixer of claim 2 , wherein the downstream baffle further includes a rim that extends circumferentially along the downstream helical portion, the rim extends axially upward away from the downstream helical portion toward the upstream baffle, and at least a portion of the rim is spaced apart from the annular side wall. 5. The mixer of claim 1 , wherein the manifold is arranged to direct fluid into the internal region along a doser axis that extends radially inwardly without intersecting the central axis. 6. The mixer of claim 1 , wherein the annular side wall is formed to include a doser aperture, the manifold is aligned with the doser aperture, and the manifold is arranged to direct fluid into the internal region along a doser axis that extends radially inwardly without intersecting the central axis. 7. The mixer of claim 6 , wherein the axially extending outlet wall is spaced apart circumferentially from the doser axis in a range from 30 degrees to 90 degrees. 8. The mixer of claim 1 , wherein the upstream helical portion is formed to include a plurality of secondary inlet openings that extend axially through the upstream helical portion and the primary inlet opening is larger than each of the secondary inlet openings. 9. The mixer of claim 8 , wherein the plurality of secondary inlet openings are spaced apart circumferentially from one another adjacent the annular side wall. 10. A mixer comprising a side wall that extends circumferentially around and axially along a central axis of the mixer to define an internal region of the mixer, an upstream baffle including an upstream helical portion that extends circumferentially about the central axis and an axially extending inlet wall formed to include a primary inlet opening, the primary inlet opening being radially spaced apart from the central axis, and a downstream baffle including a downstream helical portion that extends circumferentially about the central axis and an axially extending outlet wall formed to include a primary outlet opening, and a manifold located within the internal region of the mixer and positioned axially between the upstream baffle and the downstream baffle and the manifold is arranged to direct fluid into the internal region along a doser axis that extends radially inwardly without intersecting the central axis. 11. The mixer of claim 10 , wherein the downstream baffle further includes a flat portion and the generally axially extending outlet wall interconnects the flat portion and the downstream helical portion. 12. The mixer of claim 11 , wherein the downstream helical portion includes a plurality of lips that protrude axially toward the upstream baffle, the lips are spaced apart circumferentially from one another about the central axis, and each lip is formed to define an elongated secondary outlet opening that extends axially through the downstream helical portion and radially outward relative to the central axis. 13. The mixer of claim 10 , wherein the downstream baffle further includes a rim that extends circumferentially along the downstream helical portion, the rim extends axially upward away from the downstream helical portion toward the upstream baffle, and at least a portion of the rim is spaced apart from the side wall. 14. The mixer of claim 10 , wherein the downstream baffle includes a plurality of lips that protrude axially toward the upstream baffle, the lips are spaced apart circumferentially from one another about the central axis, and each lip is formed to define an elongated secondary outlet opening that extends axially through the downstream baffle. 15. The mixer of claim 10 , wherein the side wall is formed to include a doser aperture and the manifold is aligned with the doser aperture. 16. The mixer of claim 15 , wherein the axially extending outlet wall is spaced apart circumferentially from the doser axis in a range from 30 degrees to 90 degrees. 17. The mixer of claim 10 , wherein the upstream helical portion is formed to include a plurality of secondary inlet openings that extend axially through the upstream helical portion and the primary inlet opening is larger than each of the secondary inlet openings. 18. The mixer of claim 17 , wherein the plurality of secondary inlet openings are spaced apart circumferentially relative to one another adjacent the side wall.