Cyclone vacuum cleaner and cyclone separation device

The invention claimed is: 1. A vacuum cleaner, comprising: a cylindrical cyclone chamber having a circumferential side wall; a dirt collecting chamber arranged adjacent to the cylindrical cyclone chamber for collecting dirt particles separated from air; a dirt-duct coupled between the cylindrical cyclone chamber and the dirt collecting chamber for allowing dirt particles to pass from the cylindrical cyclone chamber towards the dirt collecting chamber; and an air-guide coupled within the cylindrical cyclone chamber to an inner wall portion of said circumferential side wall and arranged within the cylindrical cyclone chamber, the air-guide having a front side thereof adjacent to an inlet of the dirt-duct and a rear end thereof that is distal from the inlet, for reducing a momentum of the air in the dirt-duct, wherein the air-guide further comprises (i) an inner wall portion, having a rounded cross-sectional shape similar to an aeronautics wing profile, projecting into the cylindrical cyclone chamber between the front side and the rear end and (ii) an outer wall portion in direct engagement with the inner wall portion of the circumferential side wall of the cylindrical cyclone chamber extending between the front side and the rear end. 2. The vacuum cleaner as claimed in claim 1 , wherein said air-guide protrudes into the cylindrical cyclone chamber. 3. The vacuum cleaner as claimed in claim 1 , wherein the front side of said air-guide arranged adjacent to the inlet of the dirt-duct further comprises being arranged at a dirt-duct ridge in a downstream direction of a spiral air stream in the cylindrical cyclone chamber. 4. The vacuum cleaner as claimed in claim 1 , wherein a length of said air-guide in a direction of a central axis of the cylindrical cyclone chamber, is larger than or equal to a length of the dirt-duct in a direction of the central axis of the cyclone chamber. 5. The vacuum cleaner as claimed in claim 4 , wherein said length of said air-guide in a direction of the central axis of the cylindrical cyclone chamber comprises a length selected from the group consisting of (i) a range from 10 to 150 mm, (ii) a range from 10 to 80 mm, (iii) a range from 25 to 55 mm, and (iv) 40 mm. 6. The vacuum cleaner as claimed in claim 4 , wherein a ratio of said length of said air-guide in a direction of the central axis of the cylindrical cyclone chamber to a length of said cylindrical cyclone chamber in a direction of the central axis of the cylindrical cyclone chamber comprises a ratio selected from the group consisting of (i) less than or equal to 1, (ii) less than or equal to ½, and (iii) ⅓. 7. The vacuum cleaner as claimed in claim 1 , wherein a surface of the air-guide facing a center of the cylindrical cyclone chamber has a curvature opposite to a curvature of the circumferential side wall at a same location of the circumferential side wall where the air-guide is coupled thereto. 8. The vacuum cleaner as claimed in claim 7 , wherein a radius of curvature of the air guide comprises a radius of curvature selected from the group consisting of (i) a range from 15 to 70 mm, (ii) a range from 20 to 40 mm, and (iii) 30 mm. 9. The vacuum cleaner as claimed in claim 1 , wherein the dirt-duct and the air-guide are integrally formed as one piece. 10. The vacuum cleaner as claimed in claim 1 , wherein the air-guide has rounded edges. 11. The vacuum cleaner as claimed in claim 1 , wherein at least one of a top surface and a bottom surface of said air-guide is a closed surface. 12. A cyclone separation device, comprising; a cylindrical cyclone chamber having a circumferential side wall; a dirt-duct coupled to the cylindrical cyclone chamber for allowing dirt particles to exit the cylindrical cyclone chamber; and an air-guide coupled within the cylindrical cyclone chamber to an inner wall portion of said circumferential side wall and arranged within the cylindrical cyclone chamber, the air-guide having a front side thereof adjacent to an inlet of the dirt-duct and a rear end thereof that is distal from the inlet, for reducing a momentum of the air in the dirt-duct, wherein the air-guide further comprises (i) an inner wall portion, having a rounded cross-sectional shape similar to an aeronautics wing profile, projecting into the cylindrical cyclone chamber between the front side and the rear end and (ii) an outer wall portion in direct engagement with the inner wall portion of the circumferential side wall of the cylindrical cyclone chamber extending between the front side and the rear end. 13. A vacuum cleaner, comprising: a cylindrical cyclone chamber having a circumferential side wall; a dirt collecting chamber arranged adjacent to the cylindrical cyclone chamber for collecting dirt particles separated from air; a dirt-duct coupled between the cylindrical cyclone chamber and the dirt collecting chamber for allowing dirt particles to pass from the cylindrical cyclone chamber towards the dirt collecting chamber; and an air-guide coupled within the cylindrical cyclone chamber to an inner wall portion of said circumferential side wall and arranged within the cylindrical cyclone chamber, the air-guide having a front side thereof adjacent to an inlet of the dirt-duct and a rear end thereof that is distal from the inlet, for reducing a momentum of the air in the dirt-duct, wherein the air-guide further comprises (i) an inner wall portion, having a rounded cross-sectional shape similar to an aeronautics wing profile, projecting into the cylindrical cyclone chamber between the front side and the rear end and (ii) an outer wall portion in direct engagement with the inner wall portion of the circumferential side wall of the cylindrical cyclone chamber extending between the front side and the rear end, and wherein a surface of the air-guide facing a center of the cylindrical cyclone chamber has a curvature opposite to a curvature of the circumferential side wall at a same location of the circumferential side wall where the air-guide is coupled thereto. 14. A cyclone separation device, comprising: a cylindrical cyclone chamber having a circumferential side wall; a dirt-duct for allowing dirt particles to exit the cylindrical cyclone chamber; and an air-guide coupled within the cylindrical cyclone chamber to an inner wall portion of the circumferential side wall and arranged within the cylindrical cyclone chamber, the air-guide having a front side thereof adjacent to an inlet of the dirt-duct and a rear end thereof that is distal from the inlet, for reducing a momentum of the air in the dirt-duct, wherein the air-guide further comprises (i) an inner wall portion, having a rounded cross-sectional shape similar to an aeronautics wing profile, projecting into the cylindrical cyclone chamber between the front side and the rear end and (ii) an outer wall portion in direct engagement with the inner wall portion of the circumferential side wall of the cylindrical cyclone chamber extending between the front side and the rear end, and wherein a surface of the air-guide facing a center of the cylindrical cyclone chamber has a curvature opposite to a curvature of the circumferential side wall at a same location of the circumferential side wall where the air-guide is coupled thereto.