Cyclonic separation device

The invention claimed is: 1. A separation device comprising: a cyclone chamber having a leading end and a trailing end; a collection chamber; and a guide surface for guiding debris entrained in an airflow in the cyclone chamber in a helical path about a central axis of the separation device and into the collection chamber, wherein the guide surface extends continuously about the central axis of the separation device to a first angle from the leading end to the trailing end of between 270 degrees and 340 degrees defining a flow path for allowing debris in the cyclone chamber to also pass into the collection chamber from the cyclone chamber in an axial direction of the separation device, wherein the guide surface is angled towards the cyclone chamber with respect to the central axis of the separation device such that the guide surface is sloped along a longitudinal direction of the separation device forming an angle a between the guide surface and the central axis of the separation device that continuously increases about the central axis of the separation device in a direction from the leading end to the trailing end, and wherein the angle α at the leading end has a first value α 1 between 30 degrees and 60 degrees and the angle α at the trailing end has a second value α 2 greater than the first value α 1 . 2. The separation device according to claim 1 , wherein at least a portion of the guide surface follows a substantially helical path about the central axis of the separation device. 3. The separation device according to claim 1 , wherein the first value α 1 of said angle a at the leading end is substantially 45 degrees. 4. The separation device according to claim 1 , wherein the first value α 2 of the angle α at the trailing end is substantially 90 degrees such that the trailing end extends substantially perpendicular to the central axis of the separation device. 5. The separation device according to claim 1 , having an opening both in a radial direction for allowing debris entrained in an airflow that flows in a helical path about the central axis to exit the separation device, and in the axial direction for allowing debris to exit the separation device under the effect of gravity. 6. The separation device according to claim 1 , further comprising a support member, and wherein the guide surface extends from a portion of a periphery of the support member. 7. The separation device according to claim 6 , further comprising a blocking member that extends from the support member into the collection chamber. 8. The separation device according to claim 1 , wherein the separation device comprises a peripheral wall. 9. The separation device according to claim 8 , wherein the peripheral wall is configured to sit flush to a peripheral wall of the cyclone chamber and/or a peripheral wall of the collection chamber. 10. A cyclonic separator comprising a separation device, wherein the separation device comprises: a cyclone chamber having a leading end and a trailing end; a collection chamber; and a guide surface for guiding debris entrained in an airflow in the cyclone chamber in a helical path about a central axis of the separation device and into the collection chamber, wherein the guide surface extends continuously about the central axis of the separation device to a first angle from the leading end to the trailing end of between 270 degrees and 340 degrees defining a flow path for allowing debris in the cyclone chamber to also pass into the collection chamber from the cyclone chamber in an axial direction of the separation device, wherein the guide surface is angled towards the cyclone chamber with respect to the central axis of the separation device such that the guide surface is sloped along a longitudinal direction of the separation device forming an angle a between the guide surface and the central axis of the separation device that continuously increases about the central axis of the separation device in a direction from the leading end to the trailing end, and wherein the angle α at the leading end has a first value α 1 between 30 degrees and 60 degrees and the angle α at the trailing end has a second value α 2 greater than the first value α 1 . 11. A vacuum cleaner comprising a cyclonic separator having a separation device, a cyclone chamber and a collection chamber, wherein the separation device comprises: a leading end; a trailing end; and a guide surface for guiding debris entrained in an airflow in the cyclone chamber in a helical path about a central axis of the separation device and into the collection chamber, wherein the guide surface extends continuously about the central axis of the separation device to a first angle from the leading end to the trailing end of between 270 degrees and 340 degrees defining a flow path for allowing debris in the cyclone chamber to also pass into the collection chamber from the cyclone chamber in an axial direction of the separation device, wherein the guide surface is angled towards the cyclone chamber with respect to the central axis of the separation device such that the guide surface is sloped along a longitudinal direction of the separation device forming an angle a between the guide surface and the central axis of the separation device that continuously increases about the central axis of the separation device in a direction from the leading end to the trailing end, and wherein the angle α at the leading end has a first value α 1 between 30 degrees and 60 degrees and the angle α at the trailing end has a second value α 2 greater than the first value α 1 . 12. The vacuum cleaner according to claim 11 , wherein at least a portion of the guide surface follows a substantially helical path about the central axis of the separation device. 13. The vacuum cleaner according to claim 11 , wherein the first value α 1 of said angle α at the leading end is substantially 45 degrees. 14. The vacuum cleaner according to claim 11 , wherein the first value α 2 of the angle α at the trailing end is substantially 90 degrees such that the trailing end extends substantially perpendicular to the central axis of the separation device. 15. The vacuum cleaner according to claim 11 , having an opening both in a radial direction for allowing debris entrained in an airflow that flows in a helical path about the central axis to exit the separation device, and in the axial direction for allowing debris to exit the separation device under the effect of gravity. 16. The vacuum cleaner according to claim 11 , wherein the first angle is 315 degrees and the guide surface extends continuously about the central axis of the separation device to the first angle of 315 degrees. 17. The vacuum cleaner according to claim 11 , further comprising a support member, and wherein the guide surface extends from a portion of a periphery of the support member. 18. The vacuum cleaner according to claim 17 , further comprising a blocking member that extends from the support member into the collection chamber. 19. The vacuum cleaner according to claim 11 , wherein the separation device comprises a peripheral wall. 20. The vacuum cleaner according to claim 19 , wherein the peripheral wall is configured to sit flush to a peripheral wall of the cyclone chamber and/or a peripheral wall of the collection chamber.