Cyclonic separator

The invention claimed is: 1. A cyclonic separator comprising a cyclone chamber defined between an outer wall and a shroud, the shroud comprising a cylindrical wall that includes an inlet opening through which fluid enters the cyclone chamber, the inlet opening having an axial location relative to the longitudinal axis of the cyclone chamber, and a plurality of perforations through which fluid exits the cyclone chamber, wherein the inlet opening in the cylindrical wall comprises an upstream edge and a downstream edge relative to the direction of fluid flow within the cyclone chamber, and fluid within the cyclone chamber is free to spiral about the shroud and over the upstream edge and the downstream edge of the inlet opening at the axial location of the inlet opening, and wherein the cyclonic separator comprises an inlet duct for carrying fluid to the cyclone chamber, and the inlet duct terminates at the inlet opening such that the inlet duct does not project into the cyclone chamber. 2. The cyclonic separator of claim 1 , wherein the inlet opening introduces fluid into to an upper part of the cyclone chamber, and the cyclonic separator comprises a dirt collection chamber located below the cyclone chamber. 3. The cyclonic separator of claim 1 , wherein the inlet duct comprises a first section for carrying fluid in a direction parallel to a longitudinal axis of the cyclone chamber, and a second section for turning the fluid and introducing the fluid into the cyclone chamber. 4. The cyclone separator of claim 1 , wherein a downstream end of the inlet duct curves about a longitudinal axis of the cyclone chamber. 5. The cyclone separator of claim 1 , wherein the juncture of the inlet duct and the shroud defines the upstream edge and the downstream edge, the upstream edge is sharp and the downstream edge is rounded. 6. The cyclonic separator of claim 1 , wherein the inlet duct extends from an opening in the base of the cyclonic separator to the inlet opening. 7. The cyclonic separator of claim 1 , wherein the cross-sectional area of the inlet duct decreases in a direction towards the inlet opening. 8. The cyclonic separator of claim 1 , wherein at least part of the inlet duct is formed integrally with the shroud. 9. The cyclonic separator of claim 1 , wherein the cyclonic separator comprises a first cyclone stage and a second cyclone stage located downstream of the first cyclone stage, the first cyclone stage comprises the cyclone chamber, the second cyclone stage comprises a plurality of cyclone bodies, and the cyclonic separator comprises an inlet duct for carrying fluid to the cyclone chamber, the inlet duct extending between two adjacent cyclone bodies and terminating at the inlet opening. 10. The cyclonic separator of claim 1 , wherein the cyclonic separator comprises a first cyclone stage and a second cyclone stage located downstream of the first cyclone stage, the first cyclone stage comprises the cyclone chamber and a first dirt collection chamber located below the cyclone chamber, the second cyclone stage comprises a plurality of cyclone bodies and a second dirt collection chamber, and the first dirt collection chamber surrounds the second dirt collection chamber. 11. The cyclonic separator of claim 10 , wherein the cyclonic separator comprises an inlet duct for carrying fluid to the cyclone chamber, the first dirt collection chamber surrounds a lower part of the inlet duct, the shroud surrounds an upper part of the inlet duct, and the inlet duct terminates at the inlet opening. 12. The cyclonic separator of claim 10 , wherein the cyclonic separator comprises an outlet duct for carrying fluid from the second cyclone stage, and the first cyclone stage surrounds at least part of the outlet duct. 13. The cyclonic separator of claim 12 , wherein the cyclonic separator comprises an elongated filter located in the outlet duct. 14. The cyclonic separator of claim 13 , wherein the filter comprises a hollow tube that is open at one end and closed at an opposite end, and fluid from the second cyclone stage enters the interior of the filter via the open end and passes through the filter into the outlet duct. 15. A vacuum cleaner comprising a cyclonic separator that comprises a cyclone chamber defined between an outer wall and a shroud, the shroud comprising a cylindrical wall that includes an inlet opening through which fluid enters the cyclone chamber, the inlet opening having an axial location relative to a longitudinal axis of the cyclone chamber, and a plurality of perforations through which fluid exits the cyclone chamber, wherein the inlet opening in the cylindrical wall comprises an upstream edge and a downstream edge relative to the direction of fluid flow within the cyclone chamber, and fluid within the cyclone chamber is free to spiral about the shroud and over the upstream edge and the downstream edge of the inlet opening at the axial location of the inlet opening, and wherein the cyclonic separator comprises an inlet duct for carrying fluid to the cyclone chamber, and the inlet duct terminates at the inlet opening such that the inlet duct does not project into the cyclone chamber. 16. A cyclonic separator comprising a cyclone chamber defined between an outer wall and a wall of a shroud, the wall of the shroud comprising an inlet opening through which fluid enters the cyclone chamber and a plurality of perforations through which fluid exits the cyclone chamber, wherein the inlet opening comprises an upstream edge and a downstream edge relative to the direction of fluid flow within the cyclone chamber, and fluid within the cyclone chamber is free to spiral about the wall of the shroud and across the upstream edge and the downstream edge of the inlet opening, and wherein the cyclonic separator comprises an inlet duct for carrying fluid to the cyclone chamber, and the inlet duct terminates at the inlet opening such that the inlet duct does not project into the cyclone chamber.