Mixer and doser cone assembly

1 - 20 . (canceled) 21 . A reducing agent mixer for use with a vehicle exhaust system, the reducing agent mixer comprising a mixer body that defines an engine exhaust gas passageway adapted to house mixing of exhaust gas and reducing agent when exhaust gas moves through the mixer body, a doser arranged outside the mixer body and configured to discharge the reducing agent into the engine exhaust gas passageway along a doser axis, and a reducing agent delivery sub-assembly coupled to the doser and configured to conduct the reducing agent from the doser to the engine exhaust gas passageway and the reducing agent delivery sub-assembly including a plate formed to define an opening aligned with the doser axis, a cone arranged to be spaced apart from the plate along the doser axis to define an annular gap between the plate and the cone, and a cylindrical housing coupled to the plate and arranged around the cone to define a housing passageway that is fluidly connected with the engine exhaust gas passageway and the annular gap, wherein the cylindrical housing is formed to include a plurality of inlet slots that are circumferentially spaced apart from one another so that exhaust gas is directed from the engine exhaust gas passageway through the housing passageway and the annular gap into the cone in a distributed manner about the doser axis during use of the reducing agent mixer. 22 . The reducing agent mixer of claim 21 , wherein the plurality of inlet slots are arranged to conduct exhaust gas into the housing passageway at a first location and at a second location that is circumferentially spaced apart from the first location by 180 degrees. 23 . The reducing agent mixer of claim 21 , wherein the cone includes a frustoconical portion and a cylindrical portion arranged to extend axially along the doser axis from the frustoconical portion toward the plate. 24 . The reducing agent mixer of claim 23 , wherein the cone includes a base end located toward the plate and a distal end that is spaced apart from the base end and the plate along the doser axis and the plurality of inlet slots formed in the cylindrical housing are axially spaced apart from the base end and the distal end of the cone along the dose axis. 25 . The reducing agent mixer of claim 23 , wherein the cone includes a base end located toward the plate and a distal end that is spaced apart from the base end and the plate along the doser axis and the cylindrical housing is coupled to the distal end of the cone. 26 . The reducing agent mixer of claim 21 , further comprising an inlet baffle positioned upstream of the reducing agent delivery sub-assembly and at least one of the inlet slots is located radially between the doser axis and the inlet baffle. 27 . The reducing agent mixer of claim 26 , wherein the inlet baffle is formed to include a primary opening configured to direct a majority of an exhaust gas stream through the mixer body and a plurality of secondary openings configured to deviate a portion of the exhaust gas stream toward the cylindrical housing and through at least one of the plurality of inlet slots formed in the cylindrical housing. 28 . The reducing agent mixer of claim 27 , wherein each of the plurality of secondary openings are spaced apart from each other about an outer peripheral edge of the inlet baffle. 29 . A reducing agent delivery sub-assembly for use with a vehicle exhaust system, the reducing agent delivery sub-assembly comprising a plate formed to define an opening, a cone extending along an axis that extends through the opening in the plate, the cone having a base end and a distal end, the base end of the cone being spaced apart from the plate to define an annular gap around the opening, and a cylindrical housing coupled to the plate and arranged around the cone to define a housing passageway between the cylindrical housing and the cone, the housing passageway fluidly connected with the annular gap, and the cylindrical housing formed to include at least one inlet opening arranged to direct exhaust gas from the housing passageway into the base end of the cone through the annular gap in a direction transverse to the doser axis, the at least one inlet opening configured such that all exhaust gas in the housing passageway is directed into the base end of the cone during use of the reducing agent delivery sub-assembly. 30 . The reducing agent delivery sub-assembly of claim 29 , wherein the at least one inlet opening is formed to conduct exhaust gas into the housing passageway at a first location and at a second location that is circumferentially spaced apart from the first location by 180 degrees. 31 . The reducing agent delivery sub-assembly of claim 29 , wherein the cone includes a frustoconical portion and a cylindrical portion arranged to extend axially from the frustoconical portion toward the plate. 32 . The reducing agent delivery sub-assembly of claim 31 , wherein the at least one inlet opening formed in the cylindrical housing is spaced apart axially from the base end and the distal end of the cone. 33 . The reducing agent delivery sub-assembly of claim 32 , wherein the cylindrical housing is arranged around and coupled to the distal end of the cone. 34 . The reducing agent delivery sub-assembly of claim 29 , wherein the cylindrical housing is formed to include a cutout that defines the at least one inlet opening. 35 . The reducing agent delivery sub-assembly of claim 29 , wherein the at least one inlet opening includes three inlet slots and each of the three inlet slots extend circumferentially partway around the cylindrical housing to cause exhaust gas to be conducted into the base end of the cone in an evenly distributed manner about the annular gap. 36 . A method for injecting a reducing agent into an exhaust component, the method comprising providing a plate formed to define an opening, a cone spaced apart from the plate to define an annular gap around the opening, and a cylindrical housing coupled to the plate and arranged around the cone to define a housing passageway between the cylindrical housing and the cone, the cylindrical housing formed to include a plurality of inlet slots spaced circumferentially around the cylindrical housing that each open into the housing passageway, conducting a reducing agent through the opening and into the cone, conducting exhaust gas into the housing passageway, and conducting all exhaust gas located in the housing passageway through the annular gap into the cone. 37 . The method of claim 36 , wherein the cone extends along a doser axis and the step of conducting exhaust gas into the housing passageway causes exhaust gas to enter into the housing passageway at a first location and at a second location that is circumferentially spaced apart from the first location by 180 degrees about the doser axis. 38 . The method of claim 36 , wherein the step of conducting all exhaust gas located in the housing passageway through the annular gap into the cone causes the exhaust gas to be conducted through the annular gap in evenly distributed manner about the annular gap. 39 . The method of claim 38 , wherein the opening and the cone are aligned with a doser axis and the step of conducting all exhaust gas located in the housing passageway through the annular gap into the cone causes the exhaust gas to be conducted into the cone in a direction transverse to the doser axis. 40 . The method of claim 38 , wherein the step of conducting exhaust gas into the housing passa