Mixer and doser cone assembly with injector for low temperature conditions

The invention claimed is: 1. A mixer assembly for a vehicle exhaust system comprising: a mixer housing defining an internal cavity, the mixer housing including at least one injection opening; a manifold positioned within the internal cavity at the injection opening, wherein the manifold has an outlet to the internal cavity; a primary injector configured to inject fluid through the injection opening and into the internal cavity via the outlet; and at least one secondary injector configured to operate separately from the primary injector to inject fluid into the internal cavity via the same outlet when operating temperatures fall below a predetermined level. 2. The mixer assembly according to claim 1 wherein the primary injector is configured to inject a reducing agent through the injection opening and wherein the secondary injector is configured to inject fluid into the manifold only when operating temperatures fall below the predetermined level. 3. The mixer assembly according to claim 1 including a control that is configured to operate the primary injector independently of the secondary injector. 4. The mixer assembly according to claim 1 including a cone supported within the manifold, the cone having an inlet end aligned with the injection opening, and wherein the primary injector comprises a doser that injects fluid into the inlet end of the cone, and wherein the outlet to the internal cavity is at an outlet end of the cone. 5. The mixer assembly according to claim 4 wherein the manifold includes one or more internal manifold chambers, and wherein the at least one secondary injector is configured to inject fluid into at least one of the internal manifold chambers, and wherein the fluid from the at least one secondary injector and exhaust gas flow goes through the one or more internal manifold chambers and is directed to the inlet opening of the cone. 6. The mixer assembly according to claim 1 wherein the manifold includes a first manifold opening aligned with the at least one injection opening and a second manifold opening for the secondary injector, and wherein the at least one secondary injector comprises at least one tube that extends through the mixer housing and into the manifold via the second manifold opening. 7. The mixer assembly according to claim 6 including a compression fitting to secure the tube to the mixer housing. 8. A mixer assembly for a vehicle exhaust system comprising: a mixer housing defining an internal cavity, the mixer housing including at least one injection opening; a manifold positioned within the internal cavity at the injection opening; a primary injector configured to inject fluid through the injection opening and into the internal cavity; a cone supported within the manifold, the cone having an inlet end aligned with the injection opening, and wherein the primary injector comprises a doser that is configured to inject fluid into the inlet end of the cone; and at least one secondary injector configured to operate separately from the primary injector to inject fluid into the internal cavity when operating temperatures fall below a predetermined level, and wherein the at least one secondary injector is configured to inject fluid into the manifold. 9. The mixer assembly according to claim 8 including an inner wall positioned within the internal cavity and spaced inwardly of an inner surface of the mixer housing by a gap, and wherein the manifold is positioned within the gap such that one or more manifold channels are provided between the manifold and the inner wall, and wherein the secondary injector is configured to inject fluid into at least one of the manifold channels. 10. A vehicle exhaust system comprising: a first exhaust component configured to receive engine exhaust gases; a second exhaust component downstream of the first exhaust component; a mixer positioned between the first and second exhaust components, the mixer including an outer housing that defines an internal cavity to receive the engine exhaust gases from the first component and which includes at least one injection opening; and an injection system configured to inject fluid through the injection opening and into the internal cavity via an outlet to mix with the engine exhaust gases that are to be directed to the second exhaust component, the injection system including a primary supplier configured to supply fluid through the injection opening and into the mixer via the outlet and at least one secondary supplier configured to operate separately from the primary supplier to supply fluid into the mixer via the same outlet when operating temperatures fall below a predetermined level. 11. The vehicle exhaust system according to claim 10 including an inner wall positioned within the internal cavity and spaced inwardly of an inner surface of the outer housing by a gap, and including a manifold positioned within the gap at the injection opening such that one or more manifold channels are provided between the manifold and the inner wall, and wherein the secondary supplier supplies fluid into at least one of the manifold channels with the fluid exiting the manifold via the outlet. 12. The vehicle exhaust system according to claim 10 including a cone supported within the manifold, the cone having an inlet end aligned with the injection opening, and wherein the primary supplier includes a doser that is configured to inject fluid into the inlet end of the cone, and wherein the manifold includes one or more internal manifold chambers, and wherein the secondary supplier is configured to inject fluid into the one or more internal manifold chambers and which is directed to the inlet opening of the cone. 13. A vehicle exhaust system comprising: a first exhaust component configured to receive engine exhaust gases; a second exhaust component downstream of the first exhaust component; a mixer positioned between the first and second exhaust components, the mixer including an outer housing that defines an internal cavity to receive the engine exhaust gases from the first component and which includes at least one injection opening; an injection system configured to inject fluid through the injection opening and into the internal cavity to mix with the engine exhaust gases that are to be directed to the second exhaust component, the injection system including a primary supplier configured to supply fluid through the injection opening and into the mixer and at least one secondary supplier configured to operate separately from the primary supplier to supply fluid into the mixer when operating temperatures fall below a predetermined level; an inner wall positioned within the internal cavity and spaced inwardly of an inner surface of the outer housing by a gap, and including a manifold positioned within the gap at the injection opening such that one or more manifold channels are provided between the manifold and the inner wall, and wherein the secondary supplier supplies fluid into at least one of the manifold channels; and a cone supported within the manifold, the cone having an inlet end aligned with the injection opening, and wherein the primary supplier includes a doser that is configured to inject fluid into the inlet end of the cone. 14. The vehicle exhaust system according to claim 13 wherein the manifold includes a first manifold opening aligned with the at least one injection opening and a second manifold opening for the secondary supplier, and wherein the at least one secondary supplier comprises at least one dosing tube that is received within the second manifold opening. 15. The vehicle exhaust system according to