EP3872351A1 - Fan wheel of an axial or diagonal fan with a balancing ring - Google Patents

Abstract

The invention relates to a fan wheel of an axial or diagonal fan with a hub and a plurality of impeller blades which are arranged around an axis of rotation of the fan wheel of the fan wheel and extend radially outward from the hub and the radially outer end of which is enclosed by a rotating centrifugal ring, wherein on the slinger at least one balancing ring is provided which encircles the slinger and which is designed with a free axial edge for the fastening arrangement of at least one balancing weight.

Description

The invention relates to a fan wheel of an axial or diagonal fan with improved balancing properties.

Due to high speeds or large impeller diameters, the fan wheel of an axial or diagonal fan must be balanced to reduce noise and to increase the service life of the installed bearings. This is usually done by inserting balancing weights in appropriate pockets or by attaching balancing elements. In practice, the fully formed fan wheels are, for example, by means of Balancing clips or balancing clips balanced. These balancing elements can be placed in balancing pockets provided on the fan wheel.

the DE 10 2006 057087 B3 discloses an impeller for a fan which comprises a hub for connecting the impeller to the rotor of a drive motor and fan blades which are arranged on the hub. Furthermore, pockets for inserting balancing weights are provided outside the flow path of the impeller, these pockets being arranged in particular on the hub of the impeller.

In the DE 10 2011 000208 A1 discloses an impeller for a fan having a hub for connecting the impeller to a drive motor and fan blades extending radially outward from the hub. In addition, pockets for inserting balancing weights are at least partially arranged in the fan blades. The arrangement of the pockets in the fan blades means that the external geometry of the fan wheel is retained. The pockets for the balancing weights are sunk into the fan blades so that they open into the support ring on which the fan blades are attached. However, an arrangement of the balancing elements in the fan blades is very complex to implement.

A disadvantage of these solutions is that the balancing elements are arranged in the area through which air flows, for example directly on the slinger in the nozzle gap of the blower or in its immediate vicinity. As a result, disturbing flow noises can be generated both by the balancing elements themselves and by empty balancing pockets. Furthermore, deformation of the slinger is promoted by centrifugal forces. The disadvantage of balancing pockets in radial gears is that the balancing elements are not can only be plugged in from one side.

The object of the present invention is to provide a fan wheel of an axial or diagonal fan with a rotating centrifugal ring, in which the imbalance is balanced with balancing weights without negatively affecting the acoustics and strength and the balancing weights can be mounted from one side.

This object is achieved by the combination of features according to claim 1.

According to the invention, a fan wheel of an axial or diagonal fan with a hub and a plurality of impeller blades arranged around an axis of rotation of the fan wheel is proposed which extend radially outward from the hub and whose radially outer end is surrounded by a rotating centrifugal ring. On the slinger, at least one balancing ring is provided which encircles the slinger and is designed with a free axial edge for the fastening arrangement of at least one balancing weight.

The advantage of the balancing ring surrounding the centrifugal ring is that the balancing weights are not arranged in a nozzle gap between an inlet nozzle of the axial or diagonal fan and the centrifugal ring. Neither the balancing ring nor the balancing weights affect the flow path of the air flow generated by the fan wheel, so that a negative influence on the acoustics or the air flow is avoided. Furthermore, the strength of the slinger is improved by the at least one balancing ring, as a result of which the loading capacity due to mechanical loads is increased before component failure occurs. Since the slinger is not significantly different in operation due to the increased strength deformed, a negative impact on the acoustics and the efficiency of the axial or diagonal fan is kept as low as possible.

In an advantageous embodiment, it is provided that the at least one balancing ring completely surrounds the slinger. It is advantageous that a completely circumferential balancing ring, the rigidity of the fan wheel is further improved. In addition, the balancing weights can be arranged on the balancing ring in any angular position of the latter.

In an alternative embodiment of the fan wheel, it is also provided that the at least one balancing ring is formed in one piece on the centrifugal ring. As a result, the rigidity of the fan wheel is improved and the manufacturing and assembly costs are reduced.

The fan wheel is preferably designed in such a way that the at least one balancing ring protrudes from a radial outer circumferential surface of the centrifugal ring and is connected axially on one side to the outer circumferential surface. In this way, the free axial edge is designed for the fastening arrangement of the at least one balancing weight. By connecting the balancing ring to the radial outer surface of the slinger, the balancing ring rotates with the slinger around the axis of rotation and can compensate for the resulting imbalance together with the at least one balancing weight.

In a further embodiment of the present fan wheel, it is provided that the at least one balancing ring is arranged axially spaced apart from a suction-side axial edge of the centrifugal ring by an axial distance. As a result, neither the at least one balancing ring nor the at least one balancing weight arranged on it are arranged in the area of the flow path of the air flow generated by the fan wheel, this minimizes any negative impact on acoustics or air flow.

In one embodiment of the invention it is provided that the axial distance A between the suction-side axial edge of the slinger and the free axial edge of the at least one balancing ring is designed in a ratio to a wall thickness Ts of the slinger, that is 1 A / Ts 20, preferably 2 ≤A / Ts≤10. The area defined in this way for the axial distance is dimensioned sufficiently large with regard to influencing the acoustics or the air flow that negative effects are reduced. Furthermore, the strength is increased by an arrangement spaced apart from the free axial edge.

In a further advantageous variant, it is provided according to the invention that the at least one balancing ring extends, starting from an axial edge of the centrifugal ring on the exhaust side, in the direction of an intake side of the fan wheel. It is advantageous that the free axial edge of the balancing ring for the fastening arrangement of the at least one balancing weight always points in the axial direction towards the suction side, so that a balancing weight can always be mounted from this easily accessible side. Furthermore, due to the one mounting direction and the orientation of the fan wheel, the balancing weights cannot detach from the balancing ring due to centrifugal forces.

In addition, an embodiment is favorable in which the outlet-side axial edge of the centrifugal ring is designed to be turned over in the axial direction and thereby produces a turned-over section which forms the at least one balancing ring. The arrangement of the balancing ring on the axial edge of the centrifugal ring on the exhaust side is favorable, since the air flow is at this position is not influenced by the balancing ring due to the fan wheel, which has a positive effect on the acoustics. Furthermore, the axial edge of the centrifugal ring on the outlet side forms an extreme point of the fan wheel. Balancing the forces resulting from the imbalance at this position is therefore particularly favorable.

In an advantageous embodiment it is provided that the at least one balancing ring is arranged in an axial plane so as to overlap the impeller blades. In a preferred embodiment of the invention, the at least one balancing ring is arranged on the slinger in an axial plane of an axial end section of the impeller blades. As a result, a balancing ring is always positioned in the area of the connection position of the impeller blades to the slinger. Due to the connection of the impeller blades in this area, the forces on the fan wheel resulting from the imbalance are at a maximum there. It is therefore particularly advantageous to arrange the at least one balancing ring in this area of the impeller blades in order to compensate for the imbalance in order to be able to position balancing weights therein.

The fan wheel according to the invention is designed in an embodiment variant that radial stiffening ribs are arranged between an outer circumferential surface of the centrifugal ring and an inner circumferential surface of the at least one balancing ring. The advantage of this is that the strength of the balancing ring and the slinger is improved. This improves component protection and helps prevent the slinger from deforming significantly during operation, which counteracts any negative impact on the acoustics and the efficiency of the fan. Furthermore, it is advantageous to have a plurality of ribs which are arranged uniformly spaced from one another in the circumferential direction. The stiffening ribs preferably have one to the axis of rotation parallel longitudinal extension and extend from the outer circumferential surface of the slinger in a straight line radially outward to the inner circumferential surface of the balancing ring. In this way, receptacles for the balancing weights are formed between the stiffening ribs.

It is also advantageous if a receiving area is defined between the slinger and the balancing ring, which area increases in the axial direction by increasing a radial distance between the slinger and the balancing ring. On the one hand, this increases the installation space made available for mounting the balancing weights on the free axial edge of the slinger. On the other hand, this prevents the fan wheel from being destroyed in the event of ice formation which occurs in certain applications, since the ice can expand.

In addition, a variant is favorable in which the entire fan wheel is formed in one piece. The advantage of this is that the fan wheel can be manufactured in one manufacturing process, for example injection molding, and further complex assembly steps of the balancing ring on the slinger are dispensed with. In addition, a one-piece fan wheel has high strength.

In a further development of the fan wheel it is also provided that a wall thickness Tw of the balancing ring and a wall thickness Ts of the centrifugal ring are designed in a ratio that 0.3 Tw / Ts 3.0, in particular 0.5 Tw / Ts 2.0. After approximately constant wall thicknesses have been achieved in the slinger, the injection molding process is improved and the warpage behavior of the slinger is also optimized.

An embodiment variant is advantageous in which two balancing rings axially spaced from one another are provided on the slinger. Through the two Balancing rings, the strength of the slinger is greatly improved and thus has the advantages already described above. In addition, two positions for balancing are provided along the axis of rotation.

In a preferred embodiment of the invention, an axial fan or diagonal fan with a fan wheel with one of the above features is provided.

Fig. 1

eine perspektivische Ansicht eines Ventilatorrads eines Diagonalventilators mit zwei Wuchtringen,

Fig. 2

eine Schnittansicht eines Ventilatorrads eines Diagonalventilators mit zwei Wuchtringen und

Fig. 3

eine Schnittansicht eines Axialventilators mit einem Diagonalventilators mit zwei Wuchtringen.

Other advantageous developments of the invention are characterized in the subclaims or are shown in more detail below together with the description of the preferred embodiment of the invention with reference to the figures. Show it:

Fig. 1

a perspective view of a fan wheel of a diagonal fan with two balancing rings,

Fig. 2

a sectional view of a fan wheel of a diagonal fan with two balancing rings and

Fig. 3

a sectional view of an axial fan with a diagonal fan with two balancing rings.

In Figure 1 is a perspective view of a fan wheel 1 of a diagonal fan with two balancing rings 5, 5 '. The fan wheel 1 has a hub 2 and a plurality of impeller blades 3 which extend radially outward from the hub 2 and the radially outer end of which is enclosed by a rotating centrifugal ring 4.

Two completely circumferential balancing rings 5, 5 'are provided on an outer jacket surface 7 of the slinger 4, each of which has a free axial edge 6, 6 'designed for the fastening arrangement of balancing weights 14. The balancing weights 14 are, for example, balancing clips which are attached to the corresponding free axial edge 6, 6 'of the balancing rings 5, 5' by being pushed onto the free axial edge 6.

The two balancing rings 5, 5 'enclose the slinger 4 completely circumferentially and are arranged axially spaced from one another on the outer jacket surface 7 of the slinger 4. Furthermore, one of the balancing rings 5 'extends from an exhaust-side axial edge 9 of the centrifugal ring 4 in the direction of a suction side 10 of the fan wheel 1. The other balancing ring 5 is axially spaced from an suction-side axial edge 8 of the centrifugal ring 4 and also extends in the direction of the suction side 10.

Furthermore, the balancing rings 5, 5 'are arranged on the slinger 4 in such a way that a receiving area 12 is defined between the slinger 4 and the balancing rings 5, 5', which is created by increasing a radial distance between the slinger 4 and the balancing rings 5, 5 'enlarged in the axial direction. In addition, radial stiffening ribs 11 are provided between an outer circumferential surface 7 of the throwing ring 4 and an inner circumferential surface of the balancing rings 5, 5 ', which are evenly spaced over the entire circumference of the throwing ring 4 on the outer circumferential surface 7. The stiffening ribs 11 have a longitudinal extension parallel to the axis of rotation RA and run in a straight line from the outer circumferential surface 7 of the slinger 4 radially outward to the inner circumferential surface of the respective balancing ring 5, 5 '. In this way, the receiving area 12 is divided by means of the stiffening ribs 11 into a large number of corresponding individual areas, each of which is dimensioned to receive a balancing weight 14. The fan wheel is stiffened accordingly 1 through the stiffening ribs 11 in the area in which the balancing weights 14 are arranged. Alternative designs include stiffening ribs 11 running at an angle to the radial extension.

Figure 2 shows a sectional view of the in Figure 1 described fan wheel 1 of a diagonal fan. The diameter of the fan wheel 1 increases convexly from an intake side 10 in the direction of the axial edge 9 on the exhaust side. The outer circumferential surface of the hub 2 runs concavely from the intake side 10 in the direction of the exhaust side. Also disclosed Figure 2 that the two balancing rings 5, 5 'are integrally formed on the slinger 4. In addition, the balancing rings 5, 5 ′ protrude from the radial outer circumferential surface 7 of the slinger 4 and are axially connected to the outer circumferential surface 7 on one side. The entire fan wheel 1 is formed in one piece.

The outlet-side axial edge 9 of the thrower ring 4 is designed to be turned over in the axial direction and produces a turned-over section which forms a balancing ring 5 '. Furthermore, the other balancing ring 5 is arranged axially spaced apart from an intake-side axial edge 8 of the slinger 4 by an axial distance A and also extends in the direction of an intake side 10 of the fan wheel 1 the corresponding extension in the direction of the suction side 10 is determined between the slinger 4 and the balancing rings 5, 5 'of the receiving area 12. The axial distance A between the suction-side axial edge 8 of the slinger 4 and the free axial edge 6 of the one balancing ring 5 are in a ratio in the range of 2≤A / Ts≤10 to a wall thickness Ts of the slinger 4, in the embodiment shown is A / Ts = 5.5. The wall thickness Ts is constant.

Starting from the axial end section 13, the impeller blades 3 extend curved on the centrifugal ring 4 to the axial edge 9 on the exhaust side, and the impeller blades 3 extend curved over the entire outer circumferential surface on the hub 2. Furthermore, in Figure 2 shown that the one balancing ring 5 is arranged on the slinger 4 in an axial plane of an axial end section 13 of the impeller blades 3. A wall thickness Tw of the balancing rings 5, 5 'and a wall thickness Ts of the slinger 4 are formed in a ratio in a range of 0.5 Tw / Ts 2.0; in the embodiment shown, Tw / Ts = 0.8. The wall thickness Tw is constant.

In Figure 3 is a sectional view of a diagonal fan 100 with a fan wheel 1 with two balancing rings 5, 5 'shown, which corresponds to that in the Figures 1 and 2 described fan wheel 1 is formed. Both of the balancing rings 5 are arranged in an axial plane so as to overlap with respect to the impeller blades 3. The housing of the diagonal fan 100 forms a concave running inlet nozzle on the suction side, through which an air flow of the diagonal fan is sucked in and which extends to the centrifugal ring 4 in an overlapping manner in an axial plane. In this way, a nozzle gap DS is formed between the inlet nozzle and the slinger 4. The diagonal fan 100 also has a guide device for a uniform outlet flow with a multiplicity of impeller blades distributed in the circumferential direction, which connects from the suction side 10 to the fan wheel 1 or the hub 2.

Claims (15)

Fan wheel (1) of an axial or diagonal fan with a hub (2) and a plurality of impeller blades (3) which are arranged around an axis of rotation (RA) of the fan wheel (1) and which extend radially outward from the hub (2) and their radially outer end is enclosed by a rotating centrifugal ring (4), with at least one balancing ring (5, 5 ') surrounding the centrifugal ring (4) being provided on the centrifugal ring (4), which is provided with a free axial edge (6) for the fastening arrangement of at least one balancing weight (14) is formed. Fan wheel according to Claim 1, characterized in that the at least one balancing ring (5, 5 ') completely surrounds the centrifugal ring (4). Fan wheel according to one of the preceding claims, characterized in that the at least one balancing ring (5, 5 ') is formed in one piece on the centrifugal ring (4). Fan wheel according to one of the preceding claims, characterized in that the at least one balancing ring (5, 5 ') protrudes from a radial outer jacket surface (7) of the centrifugal ring (4) and is axially connected on one side to the outer jacket surface (7). Fan wheel according to one of the preceding claims, characterized in that the at least one balancing ring (5, 5 ') is arranged axially spaced from a suction-side axial edge (8) of the centrifugal ring (4) by an axial distance (A). Fan wheel according to the previous claim, characterized in that the axial distance A between the suction-side axial edge (8) of the centrifugal ring (4) and the free axial edge of the at least one balancing ring (5) is in a ratio to a wall thickness Ts of the centrifugal ring (4) that 1≤A / Ts≤20, in particular 2≤A / Ts≤10. Fan wheel according to one of the preceding claims, characterized in that the at least one balancing ring (5 ') extends from an exhaust-side axial edge (9) of the centrifugal ring (4) in the direction of an intake side (10) of the fan wheel (1). Fan wheel according to the previous claim, characterized in that the blow-out side axial edge (9) of the centrifugal ring (4) is designed to be turned over in the axial direction and thereby produces a turned-over section which forms the at least one balancing ring (5 '). Fan wheel according to one of the preceding claims, characterized in that the at least one balancing ring (5, 5 ') is arranged in an axial plane so as to overlap with the impeller blades (3). Fan wheel according to the preceding claim, characterized in that the at least one balancing ring (5) is arranged on the centrifugal ring (4) in an axial plane of an axial end section (13) of the impeller blades (3). Fan wheel according to one of the preceding claims, characterized in that radial stiffening ribs (11) are arranged between an outer jacket surface (7) of the centrifugal ring (4) and an inner jacket surface of the at least one balancing ring (5, 5 '). Fan wheel according to one of the preceding claims, characterized in that a receiving area (12) is defined between the centrifugal ring (4) and the balancing ring (5, 5 '), which area is defined by increasing a radial distance between the centrifugal ring (4) and the balancing ring (5, 5 ') enlarged in the axial direction. Fan wheel according to one of the preceding claims, characterized in that it is constructed in one piece. Fan wheel according to one of the preceding claims, characterized in that a wall thickness Tw of the balancing ring (5, 5 ') and a wall thickness Ts of the centrifugal ring (4) are designed in a ratio that 0.3 Tw / Ts 3.0 , particularly 0.5 Tw / Ts 2.0. Fan wheel according to one of the preceding claims, characterized in that two balancing rings (5, 5 ') axially spaced from one another are provided on the centrifugal ring (4).

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