Claims
- 1. A small compact high efficiency fan delivering high pressure and volume flows at low noise levels that is equipped with an electric driving motor and an impeller wheel which has axial flow at the inlet and discharges with a radial component, the impeller wheel being fitted coaxially onto the motor shaft and consisting of a hub and blades that are fastened on the hub extending rearwardly from the inlet, the driving motor being an external rotor motor having a pot-shaped rotor that is at least partially enclosed by the hub to which the blades are attached, the hub being conically widened in the flow direction from the inlet toward the outlet along a shell surface extending coaxially to the motor shaft, the outside edges of the blades extending along a ring area which widens conically in the flow direction and extends coaxially to the motor shaft, an outer casing extending along said rim area and defining a flow duct between itself and the hub, the flow cross-sectional area, defined as the area between the ring area and the shell surface, at the intake side of a flow duct and the cross-sectional area at the outlet side being substantially constant, and wherein the rotor has one closed end located at the inlet side of the hub.
- 2. A fan according to claim 1, wherein the outside edges of the impeller wheel define an envelope enclosing the space between the ring surface and the shell surface.
- 3. A fan according to claim 1, wherein the flow cross-sectional area at the intake side of a flow duct, defined as the area between the ring area and the shell surface, and the flow cross-section at the outlet side are within a range of ratios to one another of 10:10 to 10:13.
- 4. A fan according to claim 1, wherein the flow cross-sectional area at the intake side of a flow duct, defined as the area between the ring and the shell surface, and the flow cross-section at the outlet side are within a range of ratios to one another of 10:10 to 10:15.
- 5. A fan according to claim 1, wherein a ring wall extends along the ring area and on the inlet end is thickened by an enlargement protruding radially toward tee outside.
- 6. A fan according to claim 1, wherein a ring wall extends along the ring area and is fastened only at the impeller wheel.
- 7. A fan according to claim 1, wherein the driving motor has a two-pole stator substantially arranged within the axial length of the hub.
- 8. A fan according to claim 1, wherein the hub is also the rotor of the external rotor motor.
- 9. A fan according to claim 1, wherein a stationary guiding element is provided at the end of the widened shell surface of the hub away from the inlet which deflects the delivered flow in a radial direction.
- 10. A fan according to claim 9, wherein the flow cross-sectional area at the intake side of a flow duct, defined as the area between the ring area and the shell surface, and the flow cross-section at the outlet side are within a range of ratios to one another of 10:10 to 10:13.
- 11. A fan according to claim 9, wherein the flow cross-sectional area at the intake side of a flow duct, defined as the area between the ring area and the shell surface, and the flow cross-section at the outlet side are within a range of ratios to one another of 10:10 to 10:15.
- 12. A fan according to claim 1, wherein the hub has a collar portion which forms part of the widening portion of the hub, said collar portion being fitted on a bundle of laminations of the driving motor and located in the flow direction at a point just before the laminations.
- 13. A fan according to claim 12, wherein the flow cross-sectional are at the intake side of a flow duct, defined as the area between the ring area and the shell surface, and the flow cross-section at the outlet side are within a range of ratios to one another of 10:10 to 10:13.
- 14. A fan according to claim 12, wherein the flow cross-sectional area at the intake side of a flow duct, defined as the area between the ring area and the shell surface, and the flow cross-section at the outlet side are within a range of ratios to one another of 10:10 to 10:15.
- 15. A fan according to claim 12, wherein a stationary guiding element is provided at the end of the widened shell surface of the hub away from the inlet which deflects the delivered flow in a radial direction.
- 16. A fan according to claim 12, wherein the widenings of the shell surface and the ring area each define a continuous straight line with an aperture angle that is smaller than 90 degrees, and wherein the flow cross-section located between the ring area and the shell surface does not become narrower in flow direction.
- 17. A fan according to claim 16, wherein the flow cross-sectional area at the intake side of a flow duct, defined as the area between the ring area and the shell surface, and the flow cross-section at the outlet side are within a range of ratios to one another of 10:10 to 10:13.
- 18. A fan according to claim 16, wherein the flow cross-sectional area at the intake side of a flow duct, defined as the area between the ring area and the shell surface, and the flow cross-section at the outlet side are within a range of ratios to one another of 10:10 to 10:15.
- 19. A fan according to claim 16, wherein the aperture angle of the shell surface is larger than that of the ring area and the shell surface as well as the ring surface are parts of conical surfaces.
- 20. A fan according to claim 19, wherein the flow cross-sectional area at the intake side of a flow duct, defined as the area between the ring and the shell surface, and the flow cross-section at the outlet side are within a range of ratios to one another of 10:10 to 10:15.
Priority Claims (1)
Number |
Date |
Country |
Kind |
1638/78 |
Feb 1978 |
CHX |
|
Parent Case Info
This is a continuation of abandoned application Ser. No. 502,196, filed June 8, 1983, which, in turn, is a continuation application of abandoned Ser. No. 012,027, filed Feb. 14, 1979.
US Referenced Citations (16)
Foreign Referenced Citations (9)
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717272 |
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FRX |
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GBX |
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Continuations (2)
|
Number |
Date |
Country |
Parent |
502196 |
Jun 1983 |
|
Parent |
12027 |
Feb 1979 |
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