Exhaust mixer, emissions cleaning module and method

The invention claimed is: 1. An exhaust mixer comprising: a plurality of elongate mixing blades comprising a plate-like body extending between a leading edge and a trailing edge, at least one of the plurality of elongate mixing blades including at least one flap extending at an angle to its plate-like body, at least one of the plurality of elongate mixing blades further including a longitudinal axis extending between the leading and trailing edges and at least two flaps extending at an angle to the plate-like body in the central section, the at least two flaps being disposed at different distances laterally from the longitudinal axis, the plate-like body of at least one of the plurality of elongate mixing blades including a central section and at least one wing section along a side of and disposed at an angle to the central section along an elongate vertex, said elongate vertex extending parallel to an intended flow direction of an exhaust fluid passing through the exhaust mixer in use; a support configured to hold the plurality of elongate mixing blades in a spaced relationship to one another; the support disposed in, or forming a part of, at least one of an emissions cleaning module and exhaust conduit. 2. An exhaust mixer as claimed in claim 1 wherein each of the plurality of elongate mixing blades has a longitudinal axis and the support is configured such that the longitudinal axis of each elongate mixing blade extends substantially parallel to the intended flow direction of the exhaust fluid passing through the exhaust mixer, in use. 3. An exhaust mixer as claimed in claim 1 wherein the plate-like body of each elongate mixing blade extends parallel to the intended flow direction of the exhaust fluid passing through the exhaust mixer, in use. 4. An exhaust mixer as claimed in claim 1 wherein the at least one wing section comprises a wing section on each side of the central section, wherein each wing section is upturned relative to the central section. 5. An exhaust mixer as claimed in claim 1 wherein at least one of the at least two flaps is at least one of a downstream-directed flap and an upstream directed flap. 6. An exhaust mixer as claimed in claim 5 wherein the at least one of the at least two flaps extends from the trailing edge of the corresponding elongate mixing blade. 7. An exhaust mixer as claimed in claim 5 wherein the at least one of the at least two flaps is an upstream-directed flap that extends from an intermediate section of the corresponding elongate mixing blade between the leading edge and the trailing edge, wherein the upstream-directed flap forms a pre-mixing stage. 8. An exhaust mixer as claimed in claim 1 which comprises an upstream pre-mixing stage and a downstream mixing stage. 9. An exhaust mixer as claimed in claim 1 wherein the plurality of elongate mixing blades comprises a first elongate mixing blade and a last elongate mixing blade which define an outermost pair of elongate mixing blades of a stacked configuration which sandwich at least one interior elongate mixing blade of a stacked configuration. 10. An exhaust mixer as claimed in claim 9 wherein the first elongate mixing blade is longer than the at least one interior elongate mixing blade. 11. An exhaust mixer as claimed in claim 10 wherein the first elongate mixing blade comprises at least one downstream-directed flap but no upstream directed flaps. 12. An exhaust mixer as claimed in claim 10 wherein the last elongate mixing blade comprises at least one upstream-directed flap but no downstream directed flaps. 13. An exhaust mixer as claimed in claim 1 wherein the plurality of elongate mixing blades comprises a first elongate mixing blade that extends upstream, beyond an inlet end of the support, to form a baffle. 14. An exhaust mixer as claimed in claim 1 wherein the plurality of elongate mixing blades are connected to the support by welds extending along at least one lateral edge of the plurality of elongate mixing blades. 15. An exhaust mixer as claimed in claim 1 wherein the support is shaped to conform to a portion of an emissions cleaning module in which it is intended to be mounted. 16. An emissions cleaning module comprising an exhaust mixer as claimed in claim 1 . 17. A method of mixing an additive into an exhaust fluid comprising the steps of: passing a flow of exhaust fluid along a mixing conduit having an inlet, an outlet and a longitudinal axis; injecting into the flow of exhaust fluid an additive spray from an injector module; and passing the flow of exhaust fluid and additive spray through an exhaust mixer located at least partially within the mixing conduit; wherein the exhaust mixer comprises a plurality of elongate mixing blades arranged in a spaced arrangement for turbulently mixing the additive spray with the exhaust fluid, each of the plurality of elongate mixing blades comprising a plate-like body extending between a leading edge and a trailing edge, and a longitudinal axis extending along a plane including the longitudinal axis of the mixing conduit, at least one of the plurality of elongate mixing blades including at least one flap extending at an angle to its plate-like body, at least one of the plurality of elongate mixing blades further including a longitudinal axis extending between the leading and trailing edges and at least two flaps extending at an angle to the plate-like body in the central section, the at least two flaps being disposed at different distances laterally from the corresponding longitudinal axis, the plate-like body of at least one of the plurality of elongate mixing blades including a central section and at least one wing section along a side of and disposed at an angle to the central section along an elongate vertex said elongate vertex extending parallel to the flow direction of exhaust fluid passing through the exhaust mixer; wherein the additive spray is injected into the inlet of the mixing conduit by the injector module.