Multi-stage pump apparatus including sealing member

The invention claimed is: 1. A stator component for a pump housing, the stator component comprising: a plurality of fluid inlet channels for conveying fluid to respective pumping chambers, each fluid inlet channel having an inlet port for conveying fluid into the pumping chamber; and a plurality of fluid transfer channels for conveying fluid to a respective one of the fluid inlet channels, each fluid transfer channel having an inlet for receiving pumped fluid; characterised in that the stator component is adapted to receive a sealing member for at least substantially sealing a fluid transfer channel from one of the pumping chambers to a subsequent pumping chamber of the pumping chambers or the inlet port to the subsequent pumping chamber to inhibit the conveyance of pumped fluid from the one of the pumping chambers into the subsequent pumping chamber while allowing other fluid to enter the subsequent pumping chamber. 2. The stator component as claimed in claim 1 comprising a seat for receiving the sealing member to form a substantially fluid-tight seal. 3. The stator component as claimed in claim 2 , wherein the seat comprises or consists of a ring-shaped sealing surface extending at least partway around the inlet port or the fluid transfer channel inlet. 4. The stator component as claimed in claim 2 , wherein the seat comprises a recess. 5. The stator component as claimed in claim 1 , wherein the stator component comprises a first half-shell stator component for fastening to a second half-shell stator component. 6. A stator assembly for a pump housing, the stator assembly comprising the stator component as claimed in claim 1 and the sealing member. 7. The stator assembly as claimed in claim 6 , wherein the sealing member at least substantially seals the fluid transfer channel from the one of the pumping chambers to the subsequent pumping chamber to inhibit the conveyance of pumped fluid to the fluid inlet channel of the subsequent pumping chamber. 8. The stator assembly as claimed in claim 6 , wherein the sealing member at least substantially seals the inlet port to inhibit the conveyance of pumped fluid from the one of the pumping chambers to the subsequent pumping chamber. 9. The stator assembly as claimed in claim 8 , wherein the sealing member comprises a fluid input inlet for admitting fluid to the subsequent pumping chamber from an external fluid source. 10. The stator assembly as claimed in claim 6 comprising a cover plate fastened to the stator component, wherein the sealing member is disposed on the cover plate. 11. The stator assembly as claimed in claim 10 , wherein the sealing member is formed integrally with the cover plate. 12. A pump comprising a pump housing having a stator component as claimed in claim 1 . 13. The pump as claimed in claim 12 , wherein the pump is a multi- stage positive displacement vacuum pump. 14. A method of converting a stator component to receive at least one sealing member, the stator component being for a pump housing and comprising a plurality of fluid inlet channels for conveying fluid to respective pumping chambers, and a plurality of fluid transfer channels each for conveying fluid to a respective one of the fluid inlet channels from a respective outlet channel of a respective pumping chamber; characterised in that the method comprises forming a seat in the stator component for receiving a sealing member to at least substantially seal one fluid transfer channel of the plurality of fluid transfer channels to inhibit the conveyance of pumped fluid into an associated one of the pumping chambers from an associated preceding pumping chamber of the pumping chambers while permitting other fluid to enter the associated one of the pumping chambers. 15. The method as claimed in claim 14 , wherein the seat comprises extending at least partway around an inlet of the one fluid transfer channel. 16. A stator assembly for a pump housing, the stator assembly comprising: a stator component comprising: a plurality of fluid inlet channels for conveying fluid to respective pumping chambers, each fluid inlet channel having an inlet port for conveying fluid into the pumping chamber; and a plurality of fluid transfer channels for conveying fluid to a respective one of the fluid inlet channels, each fluid transfer channel having an inlet for receiving pumped fluid; characterised in that the stator component is adapted to receive a sealing member for at least substantially sealing a fluid transfer channel from one of the pumping chambers to a subsequent pumping chamber of the pumping chambers or the inlet port to the subsequent pumping chamber to inhibit the conveyance of pumped fluid from the one of the pumping chambers into the subsequent pumping chamber; and a cover plate fastened to the stator component, wherein the sealing member is formed integrally with the cover plate.