JP5737911B2 - Propeller fan - Google Patents

Description

  The present invention relates to a resin-made propeller fan having a plurality of blades integrally formed radially on the outer periphery of a cylindrical hub.

  As a propeller fan (also referred to as “axial flow impeller”) having a plurality of blades integrally formed radially on the outer periphery of a cylindrical hub, for example, the one disclosed in FIG. ing.

Japanese Patent No. 3186130

  However, in the axial flow impeller 6 disclosed in FIG. 1 of Patent Document 1, the rear edge of the blade (also referred to as “blade”) 2 (the lower end surface of the blade 2 in FIG. 1 of Patent Document 1) has a hub portion. 7 on the downstream side (the lower end surface of the hub portion 7 in FIG. 1 of Patent Document 1) is located upstream (upper side in FIG. 1 of Patent Document 1), that is, on the downstream side of the hub portion 7. It is shaped so as to be located on the upstream side of the plane including the end face. Therefore, the axial flow impeller 6 immediately after molding, particularly the axial flow impeller 6 in which the length of the blade 2 is 500 mm or more, is placed on a horizontal floor or the like with the downstream end face of the hub portion 7 facing down. Or when a plurality of axial flow impellers 6 are stacked and transported (conveyed) along the longitudinal direction of the axial flow impeller 6 (axial direction: vertical direction in FIG. 1 of Patent Document 1), There is a possibility that distortion of the blade shape of the blade 2 may occur due to the weight of the blade 2, or that the root portion of the blade 2 may be distorted or wrinkled.

  Further, in the axial flow impeller 6 disclosed in FIG. 1 of Patent Document 1, the leading edge of the blade 2 (the upper end surface of the blade 2 in FIG. 1 of Patent Document 1) is the end surface on the upstream side of the suction side hub portion 8. The upper surface of the suction side hub portion 8 in FIG. 1 of Patent Document 1 is positioned upstream (upper side in FIG. 1 of Patent Document 1), that is, the plane including the upper end surface of the suction side hub portion 8. It is molded so as to be located on the upstream side. Therefore, when a plurality of axial flow impellers 6 are stacked and transported (conveyed) along the longitudinal direction of the axial flow impeller 6, the blades 2 of the axial flow impellers 6 adjacent to each other in the vertical direction contact each other. However, there is a possibility that the blade 2 may be broken (damaged).

  The present invention has been made in view of such circumstances, and the blade shape of the blade is distorted due to the weight of the blade immediately after molding or during transportation, or the root portion of the blade is distorted or wrinkled. It is an object of the present invention to provide a propeller fan that can prevent the blades from contacting each other during transportation (conveyance) and preventing the blades from being damaged.

The present invention employs the following means in order to solve the above problems.
A propeller fan according to the present invention includes a plurality of blades integrally formed radially on the outer periphery of a cylindrical hub, wings integrally formed with these blades, and provided along the circumferential direction on the back and abdominal surfaces of these blades. A propeller fan made of resin having a lett, wherein the winglet is provided so as to be continuous from a rear edge to a front edge of the blade, and an end face on the downstream side of the winglet is provided on the hub The blade is positioned in a plane including the downstream end surface, and the upstream end surface of the winglet is positioned in a plane including the upstream end surface of the hub. is present between the one plane including the end surface of the downstream side of said hub, and a plane including the end surface of the upstream side of said hub, and, apart from the two one plane

According to the propeller fan according to the present invention, when the end face on the downstream side of the hub is placed on a horizontal floor surface or the like, the blade is supported by the end face on the downstream side of the hub and the end face on the downstream side of the winglet, When the hub is placed on a horizontal floor surface or the like with the upstream end face down, the blade is supported by the upstream end face of the hub and the upstream end face of the winglet.
In addition, when a plurality of propeller fans are stacked along the longitudinal direction (axial direction) of the propeller fan with the downstream end face of the hub facing down, the downstream end face of the hub of the propeller fan positioned above and below And the upstream end face of the propeller fan hub located at the bottom, the downstream end face of the upper propeller fan winglet, and the upstream end face of the lower propeller fan winglet. The propeller fan located in contact with the end face and supported at the upper side is supported by the propeller fan located at the lower side.
Further, when a plurality of propeller fans are stacked along the longitudinal direction (axial direction) of the propeller fan with the upstream end face of the hub facing down, the upstream end face of the hub of the propeller fan positioned above and below And the downstream end face of the hub of the propeller fan located on the upstream side of the winglet of the propeller fan located above and the downstream side of the winglet of the propeller fan located below The propeller fan located in contact with the end face and supported at the upper side is supported by the propeller fan located at the lower side.
As a result, it is possible to prevent distortion of the blade shape of the blade due to its own weight immediately after molding or during transportation, or distortion or wrinkles at the base of the blade, and the blade during transportation (conveyance). It is possible to prevent the blades from contacting each other and being damaged.

A propeller fan according to the present invention includes a plurality of blades integrally formed radially on the outer periphery of a cylindrical hub, wings integrally formed with these blades, and provided along the circumferential direction on the back and abdominal surfaces of these blades. A propeller fan made of resin having a lett, wherein the winglet is continuous from the middle of the back and abdominal surfaces of the blade located on the front edge side with respect to the rear edge of the blade to the front edge of the blade And the upstream end surface of the winglet is located in a plane including the upstream end surface of the hub, and the blade is connected to the hub in a side view of the propeller fan. A plane that exists between a plane including the downstream end surface and a plane including the upstream end surface of the hub, and from a plane including the downstream end surface of the hub. It has been.

According to the propeller fan according to the present invention, when placed on a horizontal floor surface or the like to the lower end surface of the lower stream side of the hub, the blade by an end face and the end face of the lower flow side of the winglet of the lower flow side of the hub Will be supported.
As a result, it is possible to prevent distortion of the blade shape of the blade due to its own weight, or distortion or wrinkles at the root of the blade immediately after molding or during transportation.

In the propeller fan, the one end surface of the upstream side or downstream side of the hub, as well as continuous along the circumferential direction, the convex portion is provided to protrude in the axial direction, the upstream side or downstream side of the hub More preferably, the other end face is provided with a concave portion that is continuous in the circumferential direction and that receives the convex portion inward in the radial direction.

  According to such a propeller fan, when the propeller fans are stacked along the longitudinal direction (axial direction) of the propeller fan, the movement of the propeller fan in the lateral direction (direction perpendicular to the axial direction) is restricted (restricted). The propeller fans stacked in the vertical direction can be prevented from collapsing.

  An air conditioner according to the present invention includes any one of the above-described propeller fans.

  According to the air conditioner of the present invention, since the blade shape of the blade is distorted, or the root portion of the blade is provided with a propeller fan that is not distorted or wrinkled, Performance degradation (decrease in heat exchange efficiency) can be prevented.

  According to the propeller fan according to the present invention, it is possible to prevent distortion of the blade shape of the blade due to its own weight immediately after molding or during transportation, or distortion or wrinkle at the base of the blade. There is an effect that it is possible to prevent the blades from coming into contact with each other at the time of transportation (conveyance) and being damaged.

It is a figure which shows the propeller fan which concerns on 1st reference embodiment of this invention, Comprising: The left half of (a) is a side view, The right half is sectional drawing, (b) is the figure seen planarly from the upstream. It is a figure which shows the propeller fan which concerns on 2nd reference embodiment of this invention, Comprising: (a) is a side view, (b) is the figure seen planarly from the upstream. It is a figure which shows the propeller fan which concerns on 1st Embodiment of this invention, Comprising: (a) is a side view, (b) is the figure seen planarly from the upstream. It is a figure which shows the propeller fan which concerns on 3rd reference embodiment of this invention, Comprising: (a) is a side view, (b) is the figure seen planarly from the upstream. It is a figure which shows the propeller fan which concerns on 4th reference embodiment of this invention, Comprising: (a) is a side view, (b) is the figure seen planarly from the upstream. It is a figure which shows the propeller fan which concerns on 2nd Embodiment of this invention, Comprising: (a) is a side view, (b) is the figure seen planarly from the upstream. It is a side view which shows the propeller fan principal part which concerns on other embodiment of this invention.

First reference Embodiment
Hereinafter, a propeller fan according to a first reference embodiment of the present invention will be described with reference to FIG.
Figure 1 is a diagram showing a propeller fan according to the present reference embodiment, a left half is a side view, the right half is a sectional view, (b) is a plan view from the upstream side view of (a).

  As shown in FIG. 1, the propeller fan 1 is an injection-molded product made of polypropylene resin (PP) in which, for example, glass fiber is mixed at about 30 wt%, and includes a cylindrical hub 2 at the center and an outer periphery of the hub 2. In addition, a plurality of (seven in this embodiment) blades (blades) 3 are integrally formed radially.

Each blade 3 has a front edge 4 positioned upstream in the rotation direction in the circumferential direction, a rear edge 5 positioned downstream in the rotation direction, and the front edge 4 and the rear edge 5 at the outermost peripheral position in the radial direction. It has the outer periphery 6 to connect, and the cross section was made into the shape of an airfoil. The leading edge 4 is curved so as to be concave on the side in the rotational direction, that is, on the side of the trailing edge 5 of the adjacent blade 3, and the trailing edge 5 is on the side opposite to the rotational direction, that is, the adjacent blade 3. Contact is, each blade 3 is curved in a convex toward the front edge 4 of is formed to exhibit a whole sickle shape.

Further, the propeller fan 1, (for increasing the rigidity) to prevent deformation of the blades 3, the outer periphery-ring 1 0 for reinforcing the coupling of plural blades 3 together with each other are provided. The outer peripheral ring 10 is formed of a thin plate-like ring having a certain width in the axial direction (the same height as the height of the hub 2), and is integrally formed with each blade 3. That is, the end face 10 b of the downstream side of the outer peripheral ring 10 (lower side in FIG. 1 (a)), the end surface 2 b of the whole in the circumferential direction is the downstream side of the hub 2 (the lower side in FIG. 1 (a)) located in one plane including the end surface 10 a of the upstream side of the peripheral ring 10 (the upper side in FIG. 1 (a)), the entire along the circumferential direction at the upstream side of the hub 2 (FIGS. 1 (a) are located on one plane including the end face 2 a of the upper side).
In addition, the outer periphery ring 10 is provided in the dimension position from the outer periphery 6 to 5-45, when the radial direction dimension from the base (outer periphery 7 of the hub 2) to the outer periphery 6 is set to 100. Yes.

  The position where the outer peripheral ring 10 is installed excludes the outermost peripheral part of the blade 3 so as not to restrict the shape of the outermost peripheral part of the blade 3 which is most efficient for the propeller fan 1 and It is determined from the viewpoint of sufficiently securing the reinforcing effect, and when the radial direction dimension from the root of the blade 3 to the outer peripheral edge 6 is 100 as described above, the dimension positions are from the outer peripheral edge 6 to 5 to 45. .

Further, the 3b (blade surface located under flow side) rear (blade surface located on the upstream side) 3a and Haramen of each blade 3 located radially inward of the outer peripheral ring 10, a stall of the blades 3 And a (first) winglet 11 for preventing deformation of each blade 3 (in order to increase rigidity) is provided so as to continue from the rear edge 5 to the vicinity of the front edge 4 along the circumferential direction. It has been.

According to the propeller fan 1 according to this reference embodiment, when the downstream end surface 2 b of the hub 2 is placed on a horizontal floor surface or the like, the downstream end surface 2 b of the hub 2 and the outer ring 10 blade 3 by the end surface 10 b on the downstream side is supported, when placed on a horizontal floor surface or the like end face 2 a of the upstream side of the hub 2 facing down, the upstream end surface 2 a and the outer peripheral ring 10 of the hub 2 so that the blade 3 is supported by the upstream end face 10 a.
Further, a plurality of propeller fan 1, when stacked along a longitudinal direction (axial direction) of the propeller fan 1 the end face 2 b of the downstream side of the hub 2 facing down, the propeller fan 1 located above the hub 2 The downstream end surface 2b and the upstream end surface 2a of the hub 2 of the propeller fan 1 positioned below abut (abut) and the downstream end surface of the outer peripheral ring 10 of the propeller fan 1 positioned above. and 10 b, and the end surface 10 a of the upstream side of the outer peripheral ring 10 of the propeller fan 1 which is located below the contact, propeller fan 1 positioned upward, will be supported by the propeller fan 1 located below.
Further, when a plurality of propeller fans 1 are stacked along the longitudinal direction (axial direction) of the propeller fan 1 with the end face 2 a on the upstream side of the hub 2 facing down, the hub 2 of the propeller fan 1 positioned above is stacked. the end face 2 a of the upstream side in contact is the end surface 2 b of the downstream side of the hub 2 of the propeller fan 1 located below together with (abut), the upstream end surface of the peripheral ring 10 of the propeller fan 1 positioned above and 10a, and the end surface 10 b on the downstream side of the outer peripheral ring 10 of the propeller fan 1 which is located below the contact, propeller fan 1 positioned upward, will be supported by the propeller fan 1 located below.
As a result, it is possible to prevent the blade 3 from being distorted due to its own weight immediately after molding or during transportation, or the root portion of the blade 3 from being distorted or wrinkled. Sometimes, it is possible to prevent the blades 3 from coming into contact with each other and the blades 3 from being damaged.
Further, when the plurality of propeller fans 1 are stacked along the longitudinal direction (axial direction) of the propeller fan 1, the downstream end face 10b of the outer peripheral ring 10 of the propeller fan 1 positioned above is positioned below. The upstream end surface 10b of the outer peripheral ring 10 of the propeller fan 1 positioned below is in contact with the upstream end surface 10a of the outer peripheral ring 10 of the propeller fan 1. The rotation of the propeller fan 1 positioned above in the circumferential direction so as to be in contact with the downstream end face 10a can be eliminated, and the propeller fan 1 can be efficiently stacked in the vertical direction.

Second Reference Embodiment
A propeller fan according to a second reference embodiment of the present invention will be described with reference to FIG.
2A and 2B are diagrams showing a propeller fan according to the reference embodiment, where FIG. 2A is a side view and FIG. 2B is a plan view from the upstream side.
As shown in FIG. 2, a propeller fan 21 according to this reference embodiment, the trailing edge 5 serration 22 is provided, the above-described in that the outer circumference ring 10 (first) notch 23 is provided Different from that of the first reference embodiment. Since other components are the same as those of the first reference embodiment described above, description of these components is omitted here.
In addition, the same code | symbol is attached | subjected to the member same as 1st reference embodiment mentioned above, and the description about the member is abbreviate | omitted.

Notch 23, the end face of the upper stream side of the hub 2 is located on one plane including the end face 2a of the (upper side in FIG. 2 (a)), on the upstream side of the outer peripheral ring 10 (upper side in FIG. 2 (a)) together toward the end face 10b of the lower stream side (lower side in FIG. 2 (a)) from the 10a, which is to assume a concave shape along the back 3a and cut portions of the blade 3 (the site).
The end face 10a of the upper stream side of the outer peripheral ring 10 is entirely located in a plane including the end surface 2a of the upper stream side of the hub 2, the end face 10b of the lower flow side of the outer peripheral ring 10, the above-described 1 as with reference embodiment, the whole in the circumferential direction are located on one plane including the end face 2b of the lower flow side of the hub 2 (the lower side in FIG. 2 (a)).

According to the propeller fan 21 according to this reference embodiment, when placed on a horizontal floor surface or the like end face 2 b of the downstream side of the hub 2 in the bottom, the downstream end face 2 b and the outer peripheral ring 10 of the hub 2 blade 3 by the end surface 10 b on the downstream side is supported, when placed on a horizontal floor surface or the like end face 2 a of the upstream side of the hub 2 facing down, the upstream end surface 2 a and the outer peripheral ring 10 of the hub 2 so that the blade 3 is supported by the upstream end face 10 a.
Further, a plurality of propeller fans 21, when stacked along a longitudinal direction (axial direction) of the propeller fan 21 to the end surface 2 b of the downstream side of the hub 2 facing down, the hub 2 of the propeller fan 21 positioned above The downstream end surface 2b and the upstream end surface 2a of the hub 2 of the propeller fan 21 positioned below abut (contact), and the downstream end surface of the outer peripheral ring 10 of the propeller fan 21 positioned above. and 10 b, the upstream end surface 10 a and the contact of the outer peripheral ring 10 of the propeller fan 21 located below, a propeller fan 21 positioned upward, it will be supported by the propeller fan 21 located below.
Furthermore, when a plurality of propeller fans 21 are stacked along the longitudinal direction (axial direction) of the propeller fan 21 with the end face 2 a on the upstream side of the hub 2 facing down, the hub 2 of the propeller fan 21 positioned above is stacked. the end face 2 a of the upstream side in contact is the end surface 2 b of the downstream side of the hub 2 of the propeller fan 21 located below together with (abut), the end surface of the upstream side of the outer peripheral ring 10 of the propeller fan 21 positioned above 2 a contacts the downstream end face 10 b of the outer peripheral ring 10 of the propeller fan 21 positioned below, and the propeller fan 21 positioned above is supported by the propeller fan 21 positioned below.
As a result, it is possible to prevent the blade 3 from being distorted due to its own weight immediately after molding or during transportation, or the root portion of the blade 3 from being distorted or wrinkled. Sometimes, it is possible to prevent the blades 3 from coming into contact with each other and the blades 3 from being damaged.
Further, when the plurality of propeller fans 21 are stacked along the vertical direction (axial direction) of the propeller fan 21, the downstream end face 10b of the outer peripheral ring 10 of the propeller fan 21 positioned above is positioned below. The outer peripheral ring 10 of the propeller fan 21 is positioned so that the upstream end surface 10 a of the outer peripheral ring 10 of the propeller fan 21 is located below or in contact with the upstream end face 10 a of the outer peripheral ring 10 of the propeller fan 21. Rotation in the circumferential direction of the propeller fan 21 located above can be made unnecessary so as to contact the downstream end face 10b, and the propeller fan 21 can be efficiently stacked in the vertical direction. .
Furthermore, according to the propeller fan 21 according to the reference embodiment, since the notch 23 is provided, the weight of the outer peripheral ring 10 can be reduced, and the weight of the propeller fan 21 as a whole can be reduced. .

First Embodiment
A propeller fan according to a first embodiment of the present invention will be described with reference to FIG.
3A and 3B are diagrams showing the propeller fan according to the present embodiment, in which FIG. 3A is a side view and FIG. 3B is a plan view from the upstream side.
As shown in FIG. 3, the propeller fan 31 according to the present embodiment is described above in that a serration 22 is provided on the rear edge 5 and a (second) winglet 32 is provided instead of the outer peripheral ring 10. It differs from that of the first reference embodiment. Since other components are the same as those of the first reference embodiment described above, description of these components is omitted here.
In addition, the same code | symbol is attached | subjected to the member same as 1st reference embodiment mentioned above, and the description about the member is abbreviate | omitted.

  As with the winglet 11, the winglet 32 is for preventing stall of each blade 3 and preventing deformation of each blade 3 (in order to increase rigidity), and the position where the outer peripheral ring 10 is provided. That is, when the radial dimension from the root of each blade 3 (the outer peripheral edge 7 of the hub 2) to the outer peripheral edge 6 is 100, the back surface of each blade 3 located at the dimension position from the outer peripheral edge 6 to 5-45. 3a and the abdominal surface 3b are provided so as to continue from the rear edge 5 to the front edge 4 along the circumferential direction.

Further, the end face 32a of the upper stream side of the winglet 32 (upper side in FIG. 3 (a)) is entirely located within a plane including the end surface 2a of the upper stream side of the hub 2 (the upper side in FIG. 3 (a)) and, the end face 32b of the lower flow side of the winglet 32 (lower side in FIG. 3 (a)) is entirely under flow side of the hub 2 (see FIG. 3 (a) lower in) one plane including the end face 2b of the Is located.

According to the propeller fan 31 according to the present embodiment, the downstream end surface 2 b of the hub 2 and the downstream side of the winglet 32 when the downstream end surface 2 b of the hub 2 is placed on a horizontal floor surface or the like. When the blade 3 is supported by the side end face 32 b and placed on a horizontal floor or the like with the end face 2 a upstream of the hub 2 facing down, the upstream end face 2 a of the hub 2 and the upstream of the winglet 32 the end face 32 a side so that the blade 3 is supported.
Further, a plurality of propeller fan 31, when stacked along a longitudinal direction (axial direction) of the propeller fan 31 to the end surface 2 b of the downstream side of the hub 2 facing down, the hub 2 of the propeller fan 31 located above The downstream end surface 2b and the upstream end surface 2a of the hub 2 of the propeller fan 31 located below contact (contact), and the downstream end surface of the winglet 32 of the propeller fan 31 located above. and 32 b, and the end face 32 a of the upstream side of the winglet 32 of the propeller fan 31 positioned below the contact, propeller fan 31 located upward, will be supported by the propeller fan 31 located below.
Further, when a plurality of propeller fans 31 are stacked along the longitudinal direction (axial direction) of the propeller fan 31 with the end face 2 a on the upstream side of the hub 2 facing down, the hub 2 of the propeller fan 31 positioned above is stacked. the end face 2 a of the upstream side in contact is the end surface 2 b of the downstream side of the hub 2 of the propeller fan 31 located below together with (abut), the upstream end surface of the winglet 32 of the propeller fan 31 located above 32 a and the downstream end surface 32 b of the winglet 32 of the propeller fan 31 positioned below are in contact with each other, and the propeller fan 31 positioned above is supported by the propeller fan 31 positioned below.
As a result, it is possible to prevent the blade 3 from being distorted due to its own weight immediately after molding or during transportation, or the root portion of the blade 3 from being distorted or wrinkled. Sometimes, it is possible to prevent the blades 3 from coming into contact with each other and the blades 3 from being damaged.

[ Third Reference Embodiment]
A propeller fan according to a third reference embodiment of the present invention will be described with reference to FIG.
4A and 4B are diagrams showing the propeller fan according to the reference embodiment, in which FIG. 4A is a side view and FIG. 4B is a plan view from the upstream side.
As shown in FIG. 4, the propeller fan 41 according to the present embodiment is provided with a serration 22 at the rear edge 5, and a (first) notch 23 and a (second) notch 42 are provided on the outer peripheral ring 10. This is different from that of the first reference embodiment described above. Since other components are the same as those of the first reference embodiment described above, description of these components is omitted here.
In addition, the same code | symbol is attached | subjected to the member same as embodiment mentioned above, and the description about the member is abbreviate | omitted.

Notches 42, the lower flow side of the hub 2 is located on one plane including the end face 2b of the (lower side in FIG. 4 (a)), the lower flow side of the outer peripheral ring 10 (lower side in FIG. 4 (a)) the upper stream side from the end face 10b with towards the end face 10a of the (upper side in FIG. 4 (a)), is to assume a concave shape along the ventral surface 3b to cut the portion of the blade 3 (the site).
The end face 10a of the upper stream side of the outer peripheral ring 10, similarly to the first reference embodiment described above, the whole is positioned in a plane including the end surface 2a of the upper stream side of the hub 2, under flow of the outer ring 10 the end face 10b of the side, the whole is positioned in a plane including the end surface 2b of the lower flow side of the hub 2.

According to the propeller fan 41 according to this reference embodiment, when the downstream end surface 2 b of the hub 2 is placed on a horizontal floor surface or the like, the downstream end surface 2 b of the hub 2 and the outer ring 10 blade 3 by the end surface 10 b on the downstream side is supported, when placed on a horizontal floor surface or the like end face 2 a of the upstream side of the hub 2 facing down, the upstream end surface 2 a and the outer peripheral ring 10 of the hub 2 so that the blade 3 is supported by the upstream end face 10 a.
Further, when a plurality of propeller fans 41 are stacked along the longitudinal direction (axial direction) of the propeller fan 41 with the downstream end face 2 b of the hub 2 facing down, the hub 2 of the propeller fan 41 positioned above is stacked. The downstream end surface 2b and the upstream end surface 2a of the hub 2 of the propeller fan 41 located below are in contact with (contact), and the downstream end surface of the outer peripheral ring 10 of the propeller fan 41 located above. and 10 b, the upstream end surface 10 a and the contact of the outer peripheral ring 10 of the propeller fan 41 located below, propeller fan 41 located upward, it will be supported by the propeller fan 41 located below.
Further, when a plurality of propeller fans 41 are stacked along the longitudinal direction (axial direction) of the propeller fan 41 with the end face 2 a on the upstream side of the hub 2 facing down, the hub 2 of the propeller fan 41 positioned above is stacked. The upstream end surface 2 a and the downstream end surface 2 b of the hub 2 of the propeller fan 41 positioned below abut (abut) and the upstream end surface of the outer peripheral ring 10 of the propeller fan 41 positioned above. 2 a and the downstream end face 10 b of the outer peripheral ring 10 of the propeller fan 41 positioned below are in contact with each other, and the propeller fan 41 positioned above is supported by the propeller fan 41 positioned below.
As a result, it is possible to prevent the blade 3 from being distorted due to its own weight immediately after molding or during transportation, or the root portion of the blade 3 from being distorted or wrinkled. Sometimes, it is possible to prevent the blades 3 from coming into contact with each other and the blades 3 from being damaged.
Further, according to the propeller fan 41 according to the reference embodiment, since the notches 23 and 42 are provided, the weight of the outer peripheral ring 10 can be reduced, and the weight of the propeller fan 41 as a whole can be reduced. Can do.

[ Fourth Reference Embodiment]
A propeller fan according to a fourth reference embodiment of the present invention will be described with reference to FIG.
5A and 5B are diagrams showing the propeller fan according to the reference embodiment, where FIG. 5A is a side view and FIG. 5B is a plan view from the upstream side.
As shown in FIG. 5, a propeller fan 51 according to this reference embodiment, the end face 10b of the lower flow side of the outer peripheral ring 10, the third circumferential direction than the end surface 10b of the reference embodiment (or the end face 10a) described above as longer different from (e.g., the third so as to have a 3 to 4 times the length of the end face 10b of the reference embodiment described above) that of the third reference embodiment described above in that it is formed . Since other components are the same as those of the third reference embodiment described above, description of these components is omitted here.
In addition, the same code | symbol is attached | subjected to the member same as embodiment mentioned above, and the description about the member is abbreviate | omitted.

According to the propeller fan 51 according to the present embodiment, when the plurality of propeller fans 51 are stacked along the longitudinal direction (axial direction) of the propeller fan 51, the downstream side of the outer peripheral ring 10 of the propeller fan 51 located above. the end face 10b of the side is in contact with the upstream side of the end face 10a of the outer peripheral ring 10 of the propeller fan 51 located below, or the end surface 10 a of the upstream side of the outer peripheral ring 10 of the propeller fan 51 positioned upward, downward in contact with the end surface 10 b on the downstream side of the outer peripheral ring 10 of the propeller fan 51 located, it is possible to reduce the rotation in the circumferential direction of the propeller fan 51 located above, in the longitudinal direction of the propeller fan 51 The stacking operation can be performed more efficiently than that of the third reference embodiment described above.

[ Second Embodiment]
A propeller fan according to a second embodiment of the present invention will be described with reference to FIG.
6A and 6B are diagrams showing the propeller fan according to the present embodiment, in which FIG. 6A is a side view and FIG. 6B is a plan view from the upstream side.
As shown in FIG. 6, the propeller fan 61 according to this embodiment is such that the winglet 32 is shorter in the circumferential direction than the winglet 32 of the first embodiment described above, that is, in front of the rear edge 5. are provided so as to be continuous over the trailing edge 5 from the middle of the back 3a and Haramen 3b of each blade 3 located on the side of the edge 4, in other words, the end face 32a of the upper stream side of the winglet 32 is provided It differs from that of the first embodiment described above in that it does not exist. Since other components are the same as those of the first embodiment described above, description of these components is omitted here.
In addition, the same code | symbol is attached | subjected to the member same as embodiment mentioned above, and the description about the member is abbreviate | omitted.

According to the propeller fan 61 according to this embodiment, when placed on a horizontal floor surface or the like end face 2b of the lower flow side of the hub 2 in the bottom, below the end face 2b and the winglet 32 of the lower stream side of the hub 2 The blade 3 is supported by the end surface 32b on the flow side.
As a result, it is possible to prevent distortion of the blade shape of the blade 3 due to its own weight, or distortion or wrinkles at the root of the blade 3 immediately after molding or during transportation.

Here, in the above embodiment, as shown in FIG. 7, while continuously along the circumferential direction, it is provided a convex portion 71 that protrudes in the axial direction on the end face 2a of the upper stream side of the hub 2, the circumferential direction in conjunction with continuous along, it is a recess 72 for receiving a protrusion 71 on its radially inward more preferable to be provided on the end face 2b of the lower flow side of the hub 2.
Thus, when the propeller fans are stacked along the vertical direction (axial direction: vertical direction in FIG. 7) of the propeller fan, the propeller fan moves in the horizontal direction (direction orthogonal to the axial direction: horizontal direction in FIG. 7). Can be restrained (restricted), and the collapse of the propeller fans stacked in the vertical direction can be prevented.

  In addition, according to the air conditioner (not shown) including any one of the above-described propeller fans, the propeller fan in which the blade 3 has no distortion or the root portion of the blade 3 has no distortion or wrinkles. Since it has, it can prevent the performance fall (decrease in heat exchange efficiency) of the said air conditioning apparatus.

  Note that the present invention is not limited to the above-described embodiment, and can be modified and changed as necessary.

Notch 1 propeller fan 2 hub 2a on the upstream side of the end face 2b under flow side of the end face 3 blade 3a back 3b belly fourth end surface 21 of the end face 10b under flow side of the front edge 5 trailing edge 10 peripheral ring 10a on the upstream side propeller fan 23 31 propeller fan 32 winglet 32a-out on the upstream side end face of 32b under flow-side end face 41 propeller fan 42 cutouts 51 propeller fan 61 propeller fan 71 projection 72 recess

Claims (4)

A resin propeller having a plurality of blades integrally formed radially on the outer periphery of a cylindrical hub, and winglets formed integrally with these blades and provided on the back and abdominal surfaces of the blades along the circumferential direction. A fan,
The winglet is provided so as to be continuous from the trailing edge to the leading edge of the blade, and the downstream end surface of the winglet is located in a plane including the downstream end surface of the hub. The upstream end surface of the winglet is located in a plane including the upstream end surface of the hub ;
In the side view of the propeller fan, the blade exists between a plane including an end face on the downstream side of the hub and a plane including an end face on the upstream side of the hub, and the two planes. Propeller fan, characterized by being away from A resin propeller having a plurality of blades integrally formed radially on the outer periphery of a cylindrical hub, and winglets formed integrally with these blades and provided on the back and abdominal surfaces of the blades along the circumferential direction. A fan,
The winglet is provided so as to continue from the middle of the back surface and the abdominal surface of the blade located on the front edge side of the rear edge of the blade to the rear edge of the blade. the end surface of the lower stream side, located on one plane including the end face of the lower flow side of said hub,
In the side view of the propeller fan, the blade exists between a plane including an end face on the downstream side of the hub and a plane including an end face on the upstream side of the hub, and the downstream side of the hub A propeller fan characterized in that the propeller fan is separated from a plane including the end surface of the propeller. On one end surface of the upstream side or downstream side of the hub, as well as continuous along the circumferential direction, the convex portion is provided to protrude in the axial direction, the other end surface of the upstream side or downstream side of said hub, 3. The propeller fan according to claim 1, further comprising a concave portion that is continuous along a circumferential direction and that receives the convex portion inward in the radial direction. 4. An air conditioner comprising the propeller fan according to any one of claims 1 to 3 .

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