JP3801162B2 - Propeller fan - Google Patents

Description

  The present invention relates to a propeller fan used for a blower of an air conditioner or the like.

  Conventionally, some propeller fans have a plurality of blades 12 formed radially on the outer peripheral side of the hub 11 as shown in FIG. As shown in FIG. 7, this propeller fan cannot suppress the blade tip vortex generated on the outer peripheral side of the blade 12, and the blade tip vortex becomes larger and peels toward the trailing edge side. there were.

  In view of this, a propeller fan that reduces the blowing noise caused by the blade tip vortex has been proposed (see, for example, Japanese Patent No. 3205009 (Patent Document 1)). As shown in FIG. 8, this propeller fan is provided with a plate-like rib 23 on the front edge side and the suction surface side of the outer peripheral portion of the blade 22. FIG. 9 shows an essential part of a cross section viewed from the line IX-IX in FIG. 8. As shown in FIG. 9, the plate-like rib 23 is substantially perpendicular to the blade surface of the blade 22. Is erected.

However, in the above propeller fan, as shown in FIG. 8, the blade tip vortex is separated on the trailing edge side of the plate-like rib and the air flow is disturbed, so that the effect of reducing the blowing noise caused by the blade tip vortex is not sufficient. There is a problem. Further, when the bell mouth 24 is arranged on the outer peripheral side of the propeller fan, there is a problem that noise is generated due to interference between the blade tip vortex peeled off from the blade 22 and the bell mouth 24 on the outer peripheral side.
Japanese Patent No. 3205009

  SUMMARY OF THE INVENTION An object of the present invention is to provide a propeller fan that can effectively reduce blade tip vortices with a simple configuration and can significantly reduce blowing noise caused by blade tip vortices.

  In order to achieve the above object, a propeller fan according to the present invention is a propeller fan including a hub and a plurality of blades radially formed on the outer peripheral side of the hub, wherein the plurality of blades have an outer peripheral portion. It has a bent part formed so that the height of the outer peripheral end with respect to the blade surface is maximized on the leading edge side from the middle of the chord length so that it can be bent from the leading edge side to the trailing edge side. And

  According to the propeller fan configured as described above, the height of the outer peripheral edge with respect to the blade surface is equal to the chord length in the bent portion formed so that the outer peripheral portion of the plurality of blades bends from the leading edge side to the trailing edge side. By making the maximum at the leading edge side rather than the middle, the blade tip vortex generated from the leading edge side to the trailing edge side becomes small and stable, and the blade tip vortex is separated from the trailing edge side and suppressed from flowing to the leeward side. Therefore, the blade tip vortex can be effectively reduced with a simple configuration, and the blowing sound caused by the blade tip vortex can be greatly reduced.

  Further, in the propeller fan according to an embodiment, the angle on the suction surface side formed by the bent portion and the blade surface is 90 degrees or more.

  According to the propeller fan of the above embodiment, by making the angle formed between the bent portion and the blade surface (vacuum surface side) to be 90 degrees or more, the bent portion gradually wraps around from the pressure surface side to the suction surface side. Therefore, the blade tip vortex is stabilized and the blowing sound can be reduced more effectively.

  In addition, in the propeller fan according to an embodiment, the angle (negative pressure surface side) formed by the bent portion and the blade surface is the smallest in the portion where the height of the outer peripheral end with respect to the blade surface of the bent portion is the maximum.

  According to the propeller fan of the above embodiment, the blowing sound can be reduced more effectively.

  Further, in the propeller fan according to an embodiment, the angle formed between the bent portion and the blade surface (negative pressure surface side) gradually decreases from the leading edge side to the trailing edge side, and on the leading edge side from the middle of the chord length. After the minimum, it gradually increases toward the trailing edge.

  According to the propeller fan of the above embodiment, the angle formed between the bent portion and the blade surface (negative pressure surface side) gradually decreases from the leading edge side to the trailing edge side, and on the leading edge side from the middle of the chord length. After becoming the minimum, it gradually increases toward the trailing edge, so that even when the bell mouth is disposed on the outer peripheral side of the propeller fan, the interference sound with the bell mouth can be reduced. That is, the angle between the bent part and the blade surface (vacuum surface side) is increased toward the trailing edge closer to the bell mouth, and the vortex tip turbulence is distorted by gently wrapping the bent part from the pressure surface side to the suction surface side. This suppresses the interference between the wing tip vortex and the bell mouth.

  In the propeller fan according to an embodiment, the width of the bent portion in the radial direction gradually increases from the front edge side toward the rear edge side.

  According to the propeller fan of the above embodiment, the wing tip vortex is gradually increased by increasing the radial width of the bent portion in accordance with the wing tip vortex gradually increasing from the leading edge side to the trailing edge side. Stabilization is promoted, and the blowing sound can be reduced more effectively.

  As is clear from the above, according to the propeller fan of the present invention, the blade tip of the blade is provided with a bent portion bent from the front edge side to the rear edge side toward the suction surface side, and the outer peripheral end of the bent portion with respect to the blade surface is provided. By maximizing the height on the leading edge side from the middle of the chord length, the tip vortex can be effectively reduced with a simple configuration, and the blowing noise caused by the tip vortex can be greatly reduced. Can do.

  Hereinafter, the propeller fan of this invention is demonstrated in detail by embodiment of illustration.

  FIG. 1 is a front view of a propeller fan according to an embodiment of the present invention, and FIG. 2 is a side view of the propeller fan. 1 and 2, 1 is a cylindrical hub, 2 is a plurality of blades radially formed on the outer peripheral side of the hub 1, and 3 is an outer peripheral portion of the plurality of blades 2 that is negative from the front edge side to the rear edge side. It is the bending part formed so that it might bend to the pressing surface side (upper side of FIG. 2). The plurality of blades 2 have a shape in which the outer peripheral ends of the front edge 2a and the rear edge 2b are positioned in front of the rotation direction (arrow R).

  As shown in FIG. 1, the bent portion 3 of the blade 2 has a chord length center (point P3) from the outer peripheral end (point P1) of the leading edge 2a to a position (point P2) near the outer peripheral end of the trailing edge 2b. In addition, the height H of the outer peripheral end 3a with respect to the blade surface of the bent portion 3 is maximized at the position (point Q) on the front edge 2a side (see FIG. 3).

  FIG. 3 shows a side view of the blades of the propeller fan, and shows a position (point Q) at which the height H of the outer peripheral end 3a with respect to the blade surface of the bent portion 3 is maximum. FIG. 4 is a cross-sectional view of the main part as viewed from the line IV-IV in FIG. As shown in FIG. 4, the angle A (negative pressure surface side) formed by the bent portion 3 and the blade surface is 90 degrees or more. In the portion (point Q) where the height of the outer peripheral edge 3a with respect to the blade surface of the bent portion 3 is maximum, the angle A (negative pressure surface side) formed by the bent portion 3 and the blade surface is minimized. The angle A (negative pressure surface side) formed by the bent portion 3 and the blade surface gradually decreases from the leading edge 2a side to the trailing edge 2b side, and the position of the leading edge side from the middle of the chord length (point Q). ) And then gradually increases toward the trailing edge 2b. Furthermore, the radial width of the bent portion 3 gradually increases from the front edge 2a side toward the rear edge 2b side.

  In the propeller fan configured as described above, as shown in FIG. 3, when the hub 1 (shown in FIG. 1) is rotated about the rotation center, the negative pressure from the pressure surface side (lower side in FIG. 3) near the bent portion 3 of each blade 2. A blade tip vortex S is generated by the flow that is entrained on the pressure side (the upper side in FIG. 3). At this time, the bent portion 3 whose height of the outer peripheral edge 3a with respect to the blade surface is maximum on the leading edge side (point Q) than the middle of the chord length (point P3) is generated from the leading edge 2a side to the trailing edge 2b side. The tip vortex becomes small and stable as a whole, and the tip vortex is prevented from peeling off to the trailing edge and flowing to the leeward side.

FIG. 5 shows the results of an experiment comparing the performance of the propeller fan and the conventional propeller fan shown in FIG. 6. In FIG. 5, the horizontal axis represents the air volume [m ³ / min.], And the vertical axis Represents sound [dBA]. As shown in FIG. 5, the characteristic B of the propeller fan according to the present embodiment has a reduced noise in all the predetermined airflow ranges as compared with the characteristic A of the conventional propeller fan. The same applies to the conventional propeller fan shown in FIG.

  As described above, the outer peripheral portion of the plurality of blades 2 is bent toward the suction surface side from the front edge 2a side to the rear edge 2b side, and the height H of the outer peripheral end with respect to the blade surface is set to be higher than the middle of the chord length. By forming the bent portion 3 so as to be maximized on the leading edge 2a side, the blade tip vortex generated in the vicinity of the bent portion 3 is reduced and stabilized, and the blade tip vortex is peeled off to the trailing edge 2b side and the leeward side Therefore, the blade tip vortex can be effectively reduced with a simple configuration, and the blowing sound caused by the blade tip vortex can be greatly reduced.

  In addition, by setting the angle A (vacuum surface side) formed by the bent portion 3 and the blade surface to 90 degrees or more, the bent portion 3 is gently wound around the suction surface side, so that the blade tip vortex is stabilized. Thus, the blowing sound can be reduced more effectively.

  Further, in the portion where the height of the outer peripheral end with respect to the blade surface of the bent portion 3 is the maximum, the angle (negative pressure surface side) formed by the bent portion 3 and the blade surface is minimized, thereby effectively blowing air. Sound can be reduced.

  In addition, the angle A (vacuum surface side) formed by the bent portion 3 and the blade surface is gradually decreased from the leading edge 2a side to the trailing edge 2b side, and on the leading edge 2a side from the middle of the chord length. After minimizing, the angle A (vacuum surface side) formed by the bent portion 3 and the blade surface is increased closer to the bell mouth 4 (shown in FIG. 3) by gradually increasing toward the trailing edge 2b. Thus, it is possible to reduce the interference sound with the bell mouth 4 by gently wrapping the bent portion 3 from the pressure surface side to the suction surface side to suppress the turbulence of the blade tip vortex.

  Further, as the blade tip vortex gradually increases from the leading edge 2a side to the trailing edge 2b side of the blade 2, the blade tip vortex is gradually increased by increasing the radial width of the bent portion 3. Is promoted, and the blowing sound can be reduced more effectively.

  FIG. 10 is a schematic diagram showing a configuration of an outdoor unit of an air conditioner using the propeller fan of the present embodiment. The outdoor unit includes a casing 31, a propeller fan 34 disposed in the casing 31, a bell mouth 35 disposed on the outer peripheral side and the blowing side of the propeller fan 34, and a blowing side of the propeller fan 34. The fan guard 36 is provided. In the outdoor unit, a substantially L-shaped outdoor heat exchanger 32 is disposed on the upstream side of the propeller fan 34. The casing 31 is divided into two chambers, a heat exchange chamber 38 and a machine chamber 39, by a partition plate 37, and a compressor 41 and the like are arranged in the machine chamber 39. The propeller fan 34 is connected to the drive shaft of the fan motor 42, and has a hub 44 that serves as a rotation center of the propeller fan 34, and a plurality of blades 43, 43, 43 formed radially on the outer peripheral side of the hub 44. It consists of

  In the outdoor unit of the above air conditioner, the use of a propeller fan that can effectively reduce the wing tip vortex and greatly reduce the blowing noise caused by the blade tip vortex can reduce noise without reducing the blowing performance. Can be planned.

  Although the outdoor unit of the air conditioner using a propeller fan has been described in the above embodiment, the propeller fan of the present invention may be applied to other devices.

  In the above embodiment, the angle (negative pressure surface side) between the bent portion 3 and the blade surface is minimized in the portion where the height of the outer peripheral edge with respect to the blade surface of the bent portion 3 is maximum. In the part where the height of the outer peripheral edge with respect to the blade surface is the maximum, the angle between the bent part and the blade surface (vacuum surface side) does not have to be the minimum, but the angle between the bent part and the blade surface (pressure surface side) ) May be set as appropriate according to the shape of the blades.

  Further, in the above embodiment, the radial width of the bent portion 3 is gradually increased from the front edge side toward the rear edge side, but the radial width of the bent portion is not limited to this, and the shape of the blade, etc. It may be set as appropriate according to.

FIG. 1 is a front view of a propeller fan according to an embodiment of the present invention. FIG. 2 is a side view of the propeller fan. FIG. 3 is a side view of the blades of the propeller fan. FIG. 4 is a cross-sectional view of the main part viewed from line IV-IV in FIG. FIG. 5 is a diagram showing experimental results comparing the performance of the propeller fan and the conventional propeller fan. FIG. 6 is a side view of a conventional propeller fan. FIG. 7 is a side view of the blades of the propeller fan. FIG. 8 is a side view of a blade provided with a rib of a conventional propeller fan. FIG. 9 is a cross-sectional view of the main part viewed from the line IX-IX in FIG. FIG. 10 is a schematic diagram showing a configuration of an outdoor unit of an air conditioner using a propeller fan according to an embodiment of the present invention.

Explanation of symbols

1 ... Hub,
2 ... feathers,
2a ... leading edge,
2b ... trailing edge,
3 ... bent part,
3a ... outer peripheral end.

Claims (5)

A propeller fan comprising a hub (1) and a plurality of blades (2) radially formed on the outer peripheral side of the hub (1),
In the plurality of blades (2), the outer peripheral portion bends to the suction surface side from the leading edge side to the trailing edge side, and the height of the outer peripheral end with respect to the blade surface is maximized on the leading edge side than the middle of the chord length. A propeller fan having a bent portion (3) formed as described above. The propeller fan according to claim 1,
A propeller fan characterized in that an angle on the suction surface side formed by the bent portion (3) and the blade surface is 90 degrees or more. The propeller fan according to claim 1 or 2,
The propeller fan characterized in that, at the portion where the height of the outer peripheral end with respect to the blade surface of the bent portion (3) is maximum, the angle on the suction surface side formed by the bent portion (3) and the blade surface is minimum. . The propeller fan according to any one of claims 1 to 3,
The suction side angle formed by the bent part (3) and the blade surface gradually decreases from the leading edge side toward the trailing edge side, and becomes the minimum on the leading edge side rather than the middle of the chord length. Propeller fan characterized by gradually increasing toward the. The propeller fan according to any one of claims 1 to 4,
The propeller fan according to claim 1, wherein a width of the bent portion (3) in the radial direction is gradually increased from the front edge side toward the rear edge side.

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