FAN WITH COVER PLATE ON THE ROTOR BELL

Abstract

A fan comprising a fan wheel with impeller hub and impeller blades, and electric motor with a stator and rotor that can rotate about rotation axis (RA) and has a rotor bell comprising an axially front-side rotor bell base. Impeller hub is fastened to the rotor bell wherein, in the rotor bell base, at least one aperture ensures a cooling air flow from the rotor bell. Fan comprises a cover plate arranged on the rotor bell base with a central opening, wherein cover plate covers at least one aperture of the rotor bell base axially spaced at least in sections, so that between the rotor bell base and an inner surface of the cover plate a radially inward extending flow channel toward the central opening of the cover plate is formed. The cover plate radially outward comprises an inclined or curved course in the direction of the rotor bell base.

Claims

1. A fan (1) comprising a fan wheel (4) with an impeller hub (5) and impeller blades (9) as well as an electric motor with a stator (17), with a rotor (18) which can rotate about a rotation axis (RA) and with a rotor bell (15) which comprises an axially front-side rotor bell base (13), wherein the impeller hub (5) is fastened to the rotor bell (15), wherein, in the rotor bell base (13), at least one aperture (8) is provided for ensuring a cooling air flow (55) from the rotor bell (15), wherein the fan (1) furthermore comprises a cover plate (2), arranged on the rotor bell base (13), with a central opening (3), wherein the cover plate (2) covers the at least one aperture (8) of the rotor bell base (13) axially spaced at least in sections, so that between the rotor bell base (13) and an inner surface (30) of the cover plate (2) a radially inward extending flow channel (21) toward the central opening (3) of the cover plate (2) is formed, and wherein the cover plate (2), at least on the outer surface (31) thereof, radially outward has an inclined or curved course in the direction of the rotor bell base (13).

2. The fan according to claim 1, characterized in that the cover plate (2) comprises an overextension section (L) which extends completely over the at least one aperture (8) in radial direction.

3. The fan according to claim 1, characterized in that the cover plate (2) comprises an overextension section (L) which extends completely over the at least one aperture (8) in radial direction, and an overlap section (UE) directly adjoining the overextension section (L), in which the cover plate (2) extends beyond the at least one aperture (8) and overlaps with the rotor bell base (13) which radially inwardly adjoins the at least one aperture (8).

4. The fan according to claim 1, characterized in that the at least one aperture (8) is formed as an opening with a diameter D, and an extension of the overlap section (UE) in radial direction has a length such that 0.5≤UE/D≤1.5.

5. The fan according to claim 1, characterized in that the inclined or curved course of the outer surface (31) of the cover plate (2) extends continuously proceeding from a margin of the central opening (3) of the cover plate (2).

6. The fan according to claim 1, characterized in that the cover plate (2) is arranged on the impeller hub (5) or is formed as a single piece by the impeller hub (5).

7. The fan according to claim 1, characterized in that the cover plate (2), on the inner surface (30) thereof, radially outwardly has an inclined or curved course in the direction of the rotor bell base (13).

8. The fan according to claim 1, characterized in that the outer surface of the cover plate (2) transitions directly into an impeller hub surface of the impeller hub (5), on which the impeller blades (9) are arranged or formed.

9. The fan according to claim 1, characterized in that the impeller hub (5) extends in radial direction over the at least one aperture (8) of the rotor bell base (13) and determines a coaxial opening toward the at least one aperture (8).

10. The fan according to claim 1, characterized in that the impeller hub (5) comprises a section extending into the at least one aperture (8) of the rotor bell base (13), which determines a lining of the at least one aperture (8) of the rotor bell base (13).

11. The fan according to claim 1, characterized in that the cover plate (2) is arranged directly adjoining or radially spaced from a radial outer margin of the at least one aperture (8).

12. The fan according to claim 1, characterized in that, in the rotor bell base (13), a plurality of apertures (8), spaced from one another in circumferential direction, is provided, each having a diameter D.

13. The fan according to claim 1, characterized in that the central opening (3) of the cover plate (2) is circular and has a diameter DPS which is defined by a range of √(number of the apertures)*D≤DPS≤(D*number of the apertures).

14. The fan according to claim 1, characterized in that the fan wheel (4) comprises a base plate (92) integrally formed with the impeller hub (5) and a cover plate (11), between which, when viewed in an axial direction, the impeller blades (9) and the cover plate (2) are arranged.

15. The fan according to claim 1, characterized in that the cover plate (2) is designed to be rotationally symmetrical.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0020] Other advantageous developments of the disclosure are characterized in the dependent claims or are represented in greater detail below together with the description of the preferred embodiment of the disclosure in reference to the figures. In the figures:

[0021] FIG. 1 shows a diagrammatic view of a fan in a first embodiment variant,

[0022] FIG. 2 shows a detail view concerning the arrangement of the cover plate according to the embodiment in FIG. 1,

[0023] FIG. 3 shows a diagrammatic cross-sectional view of a fan in a second embodiment variant,

[0024] FIG. 4 shows a detail view concerning the arrangement of the cover plate in the embodiment according to FIG. 3, and

[0025] FIG. 5 shows a view concerning the arrangement of the cover plate in the embodiment according to FIG. 3.

DETAILED DESCRIPTION

[0026] In FIG. 1, the fan 1, designed as an embodiment example of a diagonal fan, is represented diagrammatically in a lateral cross-sectional view. The fan wheel 4 and the electric motor with a stator 17 and with the rotor 18 which can rotate about the rotation axis RA and which is arranged on the fan shaft 12 mounted via multiple bearings are accommodated in the two-part housing 10. Axially adjoining the fan wheel 4, the inlet nozzle 56 is fastened on the housing 10. The fan wheel 4 comprises a cover plate 11, impeller blades 9 arranged in a blade ring, and a base plate 92 which is an integral component of the impeller hub 5. The rotor 18 comprises the rotor bell 15 formed by the axially front-side rotor bell base 13 and the rotor bell shell 14, which are enclosed by the impeller hub 5. In the rotor bell base 13, a plurality of apertures 8, arranged distributed in circumferential direction, is provided for ensuring the cooling air flow 55 between the interior of the rotor bell 15 and an area of the fan wheel 4.

[0027] The embodiment in FIG. 1 shows two variants of the cooling air flow 55 marked by the arrows. On the left side of the rotation axis RA, the cooling air flow 55 runs counterclockwise out of the interior of the rotor bell 15 into the area of the fan wheel 4; presented on the right side of the rotation axis RA the variant in which the cooling air flow 55 runs clockwise from the area of the fan wheel 4 into the interior of the rotor bell 15. The flow direction is dependent on the main flow of the fan 1, which is generated by the fan wheel 4.

[0028] On the rotor bell base 13, over the impeller hub 5, the rotationally symmetrical cover plate 2 is arranged and extends from the impeller hub 5 in axial and radially inward direction toward the rotation axis RA. The cover plate 2 comprises, about the rotation axis RA, the circular central opening 3 and covers the apertures 8 of the rotor bell base 13 axially spaced in a manner such that, between the rotor bell base 13 and the inner surface 30 of the cover plate 2, the flow channel 21 extending radially inward toward the rotation axis RA and toward the central opening 3 of the cover plate 2 is formed. Along the rotor bell base 13, in the embodiment shown, a portion of the impeller hub 5 additionally runs up to the fan shaft 12 and also extends into the apertures 8, where the impeller hub 5 determines a wall lining 43 of the apertures 8, as can be seen in FIG. 2. The detail view of FIG. 2 is not in exact agreement with the embodiment of FIG. 1; however, it can be applied directly in terms of design to the construction according to FIG. 1. The cover plate 2, with its inner surface 30, when viewed in radial direction, directly adjoins the apertures 8, so that the cooling air flow 55 directly in the area of the apertures 8 experiences a deflection by the cover plate 2.

[0029] The cover plate 2 as a whole and therefore both on its outer surface 31 and on its inner surface 30 comprises, proceeding from the margin of the central opening 3, an inclined course, angled with respect to a radial plane, in the direction of the rotor bell base 13, which transitions into a curved course. The cooling air flow 55 flows over the inclined outer surface 31 of the cover plate 2 and the directly adjoining impeller hub 5. The influencing of the cooling air flow 55 directly before or after the apertures 8, depending on the flow direction in consideration, leads to the noise reduction.

[0030] FIG. 3 shows a second embodiment example of the fan 1 designed as axial fan, wherein the features disclosed for the embodiment according to FIG. 1 also apply unless they are otherwise described. The design is clearly more compact, since the impeller blades 9 of the fan wheel 4 are arranged radially outside with respect to the stator 17 and rotor 18. FIG. 4 shows a detail view of the area of the fan in which the cover plate 2 is arranged. The cover plate 2 lies directly on the rotor bell base 13, since the impeller hub 5 in this embodiment extends only up to the cover plate 2. A radial protrusion 71 on the cover plate 2 covers an area in which the cover plate 2 and the impeller hub 5 adjoin one another in abutment and optionally form a gap. On the inner side, the cover plate 2, with its inner surface 30, when viewed in radial direction, is spaced with respect to the apertures 8. However, an embodiment is also covered, in which the cover plate 2 directly adjoins the apertures 8, as shown in FIG. 2. The inner surface 30 of the cover plate 2 runs in the radial plane, while the outer surface 31, on the other hand, runs linearly inclined radially outward in the direction of the rotor bell base 13, so that the outer surface 31 of the cover plate 2 transitions directly into the impeller hub surface of the impeller hub 5. The margin of the central opening 3 is rounded.

[0031] With respect to FIGS. 4 and 5, for the embodiment examples, the diameter D of the respective apertures 8 and the diameter DPS of the central opening 3 are marked. In the two embodiments, the cover plate 2 comprises the overextension section L which extends completely over the apertures 8 in the radial direction. In the embodiment according to FIG. 5, the diameter D of the respective apertures 8 and the overextension section L are identical. Directly adjoining on the overextension section L, on the cover plate 2, the overlap section UE is provided, in which the cover plate 2 extends radially inward beyond the apertures 8 and thus overlaps with the area of the rotor bell base 13 which radially inwardly adjoins the apertures 8. In the embodiment according to FIG. 4, the overlap section UE has a ratio with respect to the diameter of the apertures 8 of 1.3, in the embodiment according to FIG. 5 said ratio is 0.7. The ratio is preferably adjusted as needed in a range between 0.5 and 1.5. The diameter DPS of the central opening 3 in both embodiments is greater than the sum of overextension section L and overlap section UE.