Internal box flow deflector for a vehicle exhaust system mixer assembly

The invention claimed is: 1. A mixer assembly for a vehicle exhaust component comprising: at least one baffle having a baffle inlet that receives exhaust gas from an upstream exhaust component and a baffle outlet that directs exhaust gas to a downstream exhaust component; a cover configured to provide a chamber between an internal surface of the cover and the at least one baffle; an internal box positioned within the chamber, the internal box including a bottom wall with a peripheral wall extending about at least a portion of an outer periphery of the bottom wall, and wherein the internal box is positioned to cover the baffle outlet such that a first side of the bottom wall faces the internal surface of the cover and a second side of the bottom wall faces the baffle outlet; at least one deflector wall positioned within the internal box to extend between the second side of the bottom wall and the at least one baffle to provide a wall surface that is spaced from the peripheral wall to define an internal flow path that diverts exhaust gas at least partially around the baffle outlet before exiting the baffle outlet; an opening in the peripheral wall to receive exhaust gas exiting the baffle inlet and to direct exhaust gas into the internal flow path; and wherein the internal box and/or the at least one baffle includes at least one perforated area to provide a bypass. 2. The mixer assembly according to claim 1 , including an injector mounted to the cover to inject a reducing agent to mix with the exhaust gas, and wherein the injector is positioned to inject the reducing agent upstream of the opening in the peripheral wall. 3. The mixer assembly according to claim 2 , wherein the cover comprises a base wall with an outer wall extending about a periphery of the base wall to define the chamber between the at least one baffle and the internal surface of the cover, and wherein the internal box is positioned between the base wall and the baffle outlet, and wherein there is an open area between the base wall and baffle inlet that is separated from the baffle outlet by the bottom wall and peripheral wall of the internal box. 4. The mixer assembly according to claim 3 , including a gap between the first side of the bottom wall of the internal box and the internal surface of the base wall of the cover. 5. The mixer assembly according to claim 4 , including a second gap between an outer surface of the peripheral wall of the internal box and an inner surface of the outer wall of the cover. 6. A mixer assembly for a vehicle exhaust component comprising: at least one baffle having a baffle inlet that receives exhaust gas from an upstream exhaust component and a baffle outlet that directs exhaust gas to a downstream exhaust component; a cover configured to provide a chamber between an internal surface of the cover and the at least one baffle, wherein the cover comprises a base wall with an outer wall extending about a periphery of the base wall to define the chamber between the at least one baffle and the internal surface of the cover; an internal box positioned within the chamber, the internal box including a bottom wall with a peripheral wall extending about at least a portion of an outer periphery of the bottom wall, and wherein the internal box is positioned to cover the baffle outlet such that a first side of the bottom wall faces the internal surface of the cover and a second side of the bottom wall faces the baffle outlet, and wherein the internal box is positioned between the base wall and the baffle outlet, and wherein there is an open area between the base wall and baffle inlet that is separated from the baffle outlet b the bottom wall and peripheral wall of the internal box; at least one deflector wall positioned within the internal box to extend between the second side of the bottom wall and the at least one baffle to provide a wall surface that is spaced from the peripheral wall to define an internal flow path that diverts exhaust gas at least partially around the baffle outlet before exiting the baffle outlet; an opening in the peripheral wall to receive exhaust gas exiting the baffle inlet and to direct exhaust gas into the internal flow path; an injector mounted to the cover to inject a reducing agent to mix with the exhaust gas, and wherein the injector is positioned to inject the reducing agent upstream of the opening in the peripheral wall; and wherein the at least one baffle comprises a first baffle and the chamber comprises a first chamber, and including a second baffle positioned on an opposite side of the first baffle from the cover to define a second chamber, and wherein the baffle outlet from the first baffle directs a mixture of exhaust gas and reducing agent into the second chamber. 7. The mixer assembly according to claim 6 , wherein the second baffle includes a second inlet that faces the baffle inlet of the first baffle and one or more secondary outlets that face the downstream exhaust component. 8. The mixer assembly according to claim 7 , wherein the downstream exhaust component comprises one or more SCR catalysts. 9. The mixer assembly according to claim 7 , wherein the upstream and downstream exhaust components are enclosed within a common housing that is connected to the second baffle. 10. The mixer assembly according to claim 7 , wherein the bottom wall of the internal box comprises a first plate, the first baffle comprise a second plate that include the baffle inlet and the baffle outlet, and the second baffle comprises a third plate that includes the second inlet and the one or more secondary outlets, and wherein the first plate is between the cover and the second plate, and the second plate is between the first plate and the third plate, with the third plate being upstream of the downstream exhaust component. 11. The mixer assembly according to claim 6 , wherein the downstream exhaust component is positioned within the second chamber. 12. A mixer assembly for a vehicle exhaust component comprising: at least one baffle having a baffle inlet that receives exhaust gas from an upstream exhaust component and a baffle outlet that directs exhaust gas to a downstream exhaust component; a cover configured to provide a chamber between an internal surface of the cover and the at least one baffle, wherein the cover comprises a base wall with an outer wall extending about a periphery of the base wall to define the chamber between the at least one baffle and the internal surface of the cover; an internal box positioned within the chamber, the internal box including a bottom wall with a peripheral wall extending about at least a portion of an outer periphery of the bottom wall, and wherein the internal box is positioned to cover the baffle outlet such that a first side of the bottom wall faces the internal surface of the cover and a second side of the bottom wall faces the baffle outlet, and wherein the internal box is positioned between the base wall and the baffle outlet, and wherein there is an open area between the base wall and baffle inlet that is separated from the baffle outlet by the bottom wall and peripheral wall of the internal box; at least one deflector wall positioned within the internal box to extend between the second side of the bottom wall and the at least one baffle to provide a wall surface that is spaced from the peripheral wall to define an internal flow path that diverts exhaust gas at least partially around the baffle outlet before exiting the baffle outlet; an opening in the peripheral wall to receive exhaust gas exiting the baffle inlet and to direct exhaust gas into the internal flow path, wherein the peripheral wall of the internal box inclu