Mixing pump

What is claimed is: 1. A pump adapted to combine first and second substances, the pump comprising: a housing defining a chamber, a first substance inlet, a second substance inlet, and a mixture outlet therein; an outer pumping member disposed within the chamber; and an inner pumping member disposed radially within the outer pumping member, the housing, the outer pumping member, and the inner pumping member defining a pumping sub-chamber, a volume of the pumping sub-chamber being configured to vary with a rotational position of the inner pumping member relative to the housing, the first substance inlet being in intermittent fluid communication with the pumping sub-chamber according to a first relationship with the rotational position of the inner pumping member relative to the housing, the second substance inlet being in intermittent fluid communication with the pumping sub-chamber according to a second relationship with the rotational position of the inner pumping member relative to the housing, the mixture outlet being in intermittent fluid communication with the pumping sub-chamber according to a third relationship with the rotational position of the inner pumping member relative to the housing, the pumping sub-chamber being arranged to draw the first and second substances from the first and second substance inlets and to expel a mixture of the first and second substances through the mixture outlet, wherein a first position of the inner pumping member relative to the outer pumping member effects fluid communication between the pumping sub-chamber and both the first substance inlet and the second substance inlet, and wherein a second position of the inner pumping member relative to the outer pumping member effects fluid communication between the pumping sub-chamber and the first substance inlet and blocks fluid communication between the pumping sub-chamber and the second substance inlet. 2. The pump as claimed in claim 1 , wherein the pump is one of a gear pump, a lobe pump, a gerotor, and a vane pump. 3. The pump as claimed in claim 1 , wherein: the pump is a gerotor; the chamber is substantially cylindrical so as to define a central axis, first and second circular faces, and a circumferential face; the outer pumping member is an outer rotor having n+1 inwardly facing teeth; the inner pumping member is an inner rotor having n outwardly facing teeth for variable engagement with the inwardly facing teeth of the outer rotor; and the outer rotor is arranged for rotation about the central axis of the chamber and the inner rotor is arranged for rotation about an offset axis lying substantially parallel to and spaced apart from the central axis of the chamber. 4. The pump as claimed in claim 3 , wherein a plurality of sub-chambers are defined between the outwardly facing teeth of the inner rotor and the inwardly facing teeth of the outer rotor, the pumping sub-chamber being one sub-chamber of the plurality of sub-chambers, and a smallest sub-chamber of the plurality of sub-chambers is defined at or near a notional reference line extending radially from the offset axis to a nearest point on the circumferential face of the chamber. 5. The pump as claimed in claim 4 , wherein the first substance inlet and the mixture outlet are disposed on opposed sides of the notional reference line. 6. The pump as claimed in claim 3 , wherein the first substance inlet and the second substance inlet are both arranged in the first circular face. 7. The pump as claimed in claim 3 , wherein the first substance inlet is arranged in the first circular face and the second substance inlet is arranged in the second circular face. 8. The pump as claimed in claim 7 , wherein the second substance inlet is arranged in the second circular face at a location that is substantially opposite the first substance inlet formed in the first circular face. 9. The pump as claimed in claim 7 , further comprising: a first substance recess formed on the second circular face and arranged substantially opposite the first substance inlet; and a land defined within the first substance recess that is substantially co-planar with a remainder of the second circular face, the second substance inlet being defined within the land. 10. The pump as claimed in claim 3 , wherein the second substance inlet is arranged on a circumference that is intersected by the inwardly facing teeth so as to be intermittently closed as the outer rotor rotates within the chamber. 11. The pump as claimed in claim 4 , wherein a size of the second substance inlet and a location of the second substance inlet relative to the notional reference line determine, at least in part, an amount of the second substance introduced into the chamber. 12. The pump as claimed in claim 3 , wherein the housing comprises a first part and a second part together defining the chamber, the first part being provided on an auxiliary component and defining: the first circular face; the first substance inlet provided on the first circular face; and the mixture outlet provided on the first circular face; and the second part defining: the circumferential face; the second circular face; and the second substance inlet provided on the second circular face. 13. The pump as claimed in claim 12 , further comprising a pump adaptor detachably mountable to the housing, the pump adaptor defining an inlet passage adapted to communicate fluidly with the second substance inlet formed in the second part, and connection means adapted to connect the inlet passage to a second substance supply. 14. A method for converting a pump into a mixing pump that is capable of combining two or more substances, the pump including a housing defining a chamber, a first inlet, and an outlet; an outer pumping member disposed within the chamber; and an inner pumping member disposed radially within the outer pumping member, the housing, the outer pumping member, and the inner pumping member defining a pumping sub-chamber, a volume of the pumping sub-chamber being configured to vary with a rotational position of the inner pumping member relative to the housing, the first inlet being in intermittent fluid communication with the pumping sub-chamber according to a first relationship with the rotational position of the inner pumping member relative to the housing, the outlet being in intermittent fluid communication with the pumping sub-chamber according to a second relationship with the rotational position of the inner pumping member relative to the housing, the method comprising: forming a second inlet in the housing, the second inlet being in intermittent fluid communication with the pumping sub-chamber according to a third relationship with the rotational position of the inner pumping member relative to the housing; providing an adaptor defining a duct having a pump orifice and a connector orifice; and attaching the adaptor to the pump such that the pump orifice lies in fluid communication with the second inlet, and the connector orifice is capable of being connected to a second substance supply, the pumping sub-chamber being arranged to draw the two or more substances from the first inlet and the second inlet, and to expel a mixture of the two or more substances through the outlet, wherein a first position of the inner pumping member relative to the outer pumping member effects fluid communication between the pumping sub-chamber and both the first inlet and the second inlet, and wherein a second position of the inner pumping member relative to the outer pumping member effects fluid communication between the pumping sub-cham