JP2018013054A - Centrifugal fan - Google Patents

Abstract

A centrifugal fan capable of reducing variation in the flow rate of gas blowout in the height direction of a blower outlet. A centrifugal fan 1 of the present invention includes a housing 10 having an intake port 11a for taking in gas on one end side in the direction of a rotating shaft 33, and an impeller 20 disposed in the housing 10. Includes a base portion 21 and a plurality of blades 25, and the surface of the base portion 21 on the intake port 11a side has an inclined surface 22 inclined toward the rotary shaft 33 and the intake port 11a. The blade 25 is provided on the inclined surface 22, and the width of the blade 25 in the radial direction increases from the intake port 11 a side toward the inclined surface 22. [Selection] Figure 1

Description

  The present invention relates to a centrifugal fan.

  Conventionally, by rotating the impeller provided in the housing with a motor, the gas is taken in from the intake port for taking in gas such as air provided on the upper surface or the lower surface of the housing, and is taken in from the air outlet provided on the side surface of the housing. A centrifugal fan that sends out gas is known (see Patent Document 1).

JP2013-53634A

By the way, an impeller having a relatively low height with respect to the diameter is used for the centrifugal fan, and the height of the air outlet of the housing is the same as or slightly higher than the height of the impeller.
And when the height of a blower outlet is calculated | required, the height of an impeller will be made high according to making the height of the blower outlet high, but the height of an impeller according to the height of a blower outlet It has been found that there is a problem that the flow rate of the gas in the height direction of the air outlet does not become uniform only by increasing the height.

  This invention is made | formed in view of the said situation, and it aims at providing the centrifugal fan which can reduce the dispersion | variation in the blowing flow volume of the gas in the height direction of a blower outlet.

The present invention is grasped by the following composition in order to achieve the above-mentioned object.
(1) The centrifugal fan of the present invention includes a housing having an intake port for taking in gas on one end side in the rotation axis direction, and an impeller disposed in the housing, and the impeller includes a base portion, A plurality of blades, and the surface of the base portion on the intake port side has an inclined surface inclined toward the rotary shaft and the intake port, and the plurality of blades are formed on the inclined surface. The width of the blade in the radial direction is increased from the inlet side toward the inclined surface.

(2) In the configuration of (1), a ratio H / W of the impeller length Hmm in the rotation axis direction to the impeller length Wmm in the radial direction is 0.55 or more.

(3) In the configuration of (1) or (2) above, the length of the impeller in the radial direction is not less than 30 mm and not more than 110 mm.

(4) In the configuration of any one of (1) to (3) above, the plurality of blades on the base side with respect to the inner distance D1 mm inside the plurality of blades on the intake port side. The distance D2mm of the inner inner shape is D1 × 0.9 or less.

(5) In the configuration of (4), the distance D2 mm is not less than the distance D1 × 0.4 mm.

(6) In any one configuration of the above (1) to (5), the height of the top of the inclined surface is lower than the center of the impeller.

(7) In any one of the constitutions (1) to (6), in the rotational axis direction, the wings have the same radius of curvature, and the wings have inner end portions that are inside the impeller. It is continuously connected from the inlet side toward the base part side.

(8) In the configuration of any one of (1) to (7), the impeller includes a ring portion that connects ends of the plurality of blades on the intake port side, and the base in the radial direction The outer peripheral part of the part is inside the inner peripheral part of the ring part.

(9) In any one configuration of (1) to (8), the outer peripheral portions of the plurality of blades extend along the direction of the rotation axis.

(10) The structure according to any one of (1) to (9), further including a motor having a rotating shaft coupled to the impeller, wherein the base portion is opposite to the surface on the intake port side and the surface. A surface on the side, and the surface on the opposite side is an inclined surface.

  ADVANTAGE OF THE INVENTION According to this invention, the centrifugal fan which can reduce the dispersion | variation in the blowing flow volume of the gas in the height direction of a blower outlet can be provided.

It is the perspective view which showed the centrifugal fan of embodiment which concerns on this invention. It is the perspective view which showed the centrifugal fan which removed the cover part of embodiment which concerns on this invention. It is the top view seen from the side used as the inlet side of the impeller of embodiment which concerns on this invention. It is sectional drawing seen from the B direction when an impeller is cut | disconnected along the line which connects between AA shown in FIG. It is a top view which shows the motor for rotating the impeller of the centrifugal fan of embodiment which concerns on this invention.

DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments for carrying out the present invention (hereinafter referred to as “embodiments”) will be described in detail with reference to the accompanying drawings.
Note that the same number is assigned to the same element throughout the description of the embodiment.

FIG. 1 is a perspective view showing a centrifugal fan 1 according to an embodiment of the present invention.
1 indicates the rotation direction of the impeller 20, and the Z-axis indicates the rotation axis direction.
As shown in FIG. 1, the centrifugal fan 1 includes a housing 10 having an intake port 11 a that takes in a gas such as air on one end side in the rotation axis direction Z, and an impeller 20 accommodated in the housing 10. ing.

(housing)
The housing 10 includes a bottom portion 12 and a cover portion 11 that covers the impeller 20 disposed on the bottom portion 12.
The cover 11 includes a cover 11b having an inner periphery that forms an opening, and a side wall 11c that surrounds the outer periphery of the impeller 20 along the outer periphery of the cover 11b.
An opening formed in the inner peripheral portion of the cover 11b is an intake port 11a, and is formed in a circular shape.

Further, the housing 10 is provided with an air outlet 13.
The blower outlet 13 is formed by a part of the cover part 11 and a part of the bottom part 12 extending in the circumferential direction.
A part of the cover 11 extends in a circumferential direction from a part of the impeller 20 in a direction orthogonal to the rotation axis direction Z.

FIG. 2 is a perspective view showing the centrifugal fan 1 with the cover 11 removed.
In FIG. 2 as well, the arrow T indicates the rotation direction of the impeller 20 as in FIG.
As shown in FIG. 2, a step 12 a is provided on the bottom 12 along the outer shape of the cover 11.
The step portion 12a lowers the step by one step from the outer peripheral portion of the bottom portion 12 toward the inside.
By providing this stepped portion 12a, alignment when the cover portion 11 is attached can be easily performed.

The bottom portion 12 is provided with a hole portion 12 b through which a screw is passed when the cover portion 11 is fixed to the bottom portion 12.
On the other hand, as shown in FIG. 1, the cover part 11 has the fixing | fixed part 11d integrally provided in the side wall part 11c so that it may extend toward the outer side from the side wall part 11c.
The fixing portion 11d is provided with a hole portion 11da corresponding to the hole portion 12b.
The cover portion 11 is disposed on the bottom portion 12 so that the hole portion 11da of the cover portion 11 is positioned on the hole portion 12b of the bottom portion 12.

  Accordingly, the cover portion 11 can be fixed to the bottom portion 12 by screwing a screw (or a bolt) into the hole portion 12b of the bottom portion 12 and the hole portion 11da of the cover portion 11 and screwing a nut to the tip portion of the screw. .

  In addition, a groove to be screwed into the screw is formed in the inner peripheral surface of the hole 12b of the bottom 12 in a spiral shape, and the cover 11 is fixed to the bottom 12 by screwing the screw into the hole 12b. You may make it do.

(Impeller)
As shown in FIG. 2, the impeller 20 includes a base portion 21 and a plurality of blades 25.
The surface of the base portion 21 on the intake port 11a side is an inclined surface 22 (see FIG. 4) that is inclined toward the rotation shaft and the intake port.
The base portion 21 is located on the opposite side of the housing 10 from the intake port 11a (see FIG. 1).
The plurality of blades 25 are provided on the surface of the base portion 21 (see the inclined surface 22 in FIG. 4) on the intake port 11a side, and are provided in the rotational direction.

3 is a plan view of the impeller 20 viewed from the inlet 11a side, and FIG. 4 is a cross-sectional view of the impeller 20 viewed from the B direction when the impeller 20 is cut along the line connecting AA shown in FIG. It is.
Note that the upper side of FIG. 4 is the intake port 11 a side of the housing 10.

The impeller 20 has a ratio H / W of 0.55 or more of the length Hmm in the rotation axis direction Z (see FIG. 1) and the length Wmm in the radial direction.
Specifically, as shown in FIG. 4, the length Wmm in the radial direction of the impeller 20 is not less than 30 mm and not more than 110 mm (for example, the length Wmm in the radial direction is about 70 mm). The ratio H / W obtained by dividing the length Hmm (the length of the impeller 20 in the rotation axis direction Z is hereinafter treated as the height direction) by the length Wmm in the radial direction is about 0.6.
The height of the impeller 20 of this embodiment is larger than the height of the impeller whose ratio H / W is less than 0.5, and the height of the air outlet 13 is increased by that amount.
The length Wmm in the radial direction of the impeller 20 is formed by connecting the outer end portions of the outer peripheral portion 25c (see FIG. 2) connecting the outer end portions of the plurality of blades 25 in the radial direction (each of the outer end portions of the plurality of blades 25). The diameter of the circle).
Further, the outer diameters of the plurality of blades 25 are the same outer diameter at any position in the height direction of the impeller 20. Specifically, the difference between the outer diameters of the plurality of blades 25 has an upper limit of + 5% and a lower limit of −5%, preferably an upper limit of + 5% and a lower limit of −5 with respect to a predetermined outer diameter. % Range.

Hereinafter, each part of the impeller 20 will be described more specifically.
As shown in FIG. 4, the base portion 21 includes an annular portion 21a, an inclined portion 21b, and a fixing portion 21c.
In addition, the annular part 21a, the inclined part 21b, and the fixing part 21c are connected integrally.
The annular portion 21 a is located on the outer peripheral side of the base portion 21.
The inclined portion 21b is inclined from the inner peripheral portion of the annular portion 21a toward the center and is inclined toward the intake port 11a (upper side in FIG. 4) of the housing 10.
The fixing portion 21c is located on the most central side (center portion of the base portion) with respect to the annular portion 21a.
Moreover, the fixing | fixed part 21c fixes the rotating shaft 33 of the motor 30 (refer FIG. 5).
The base portion 21 is formed of an inclined portion 21b positioned on the outer peripheral side of the base portion 21 and a fixed portion 21c positioned at the center of the base portion, omitting the annular portion 21a. Also good.

A hole 21ca into which the rotating shaft 33 (see FIG. 5) of the motor 30 (see FIG. 5) is inserted is provided at the center of the fixed portion 21c.
The rotation shaft 33 of the motor 30 is inserted and fixed in the hole 21ca.
As the rotating shaft 33 of the motor 30 fixed to the fixed portion 21c rotates, the impeller 20 having the fixed portion 21c rotates.

The plurality of blades 25 include a first surface 25a that receives gas and a second surface 25b that is a surface opposite to the first surface 25a in the rotation direction, and the first surface 25a and the second surface 25b are adjacent to each other. The surface 25b is opposed.
As shown in FIG. 4, the width of the first surfaces 25a of the plurality of blades 25 in the radial direction increases from the intake port 11a side (upper side in FIG. 4) of the housing 10 toward the base portion 21 side. The area of the first surface 25a that receives the gas is relatively large.
In the present embodiment, as shown in FIG. 4, the area of the second surface 25 b also increases from the inlet 11 a side (upper side in FIG. 4) of the housing 10 toward the base portion 21 side.

  The inner ends of the plurality of blades 25 on the base portion 21 side with respect to the longest distance D1 mm of the inner shape connecting the inner ends of the plurality of blades 25 on the intake port 11a side (hereinafter sometimes referred to as the inner shape D1 mm). The longest distance D2 mm of the inner shape connecting the parts (hereinafter, sometimes referred to as the inner shape D2 mm) is D1 × 0.9 mm or less.

In the present embodiment, as indicated by a dotted circle X in FIG. 3, the inner shape connecting the inner ends of the plurality of blades 25 on the intake port 11a side is a circle.
For this reason, the distance D1 mm is the diameter of the inner peripheral portion connecting the inner ends of the plurality of blades 25 on the intake port 11a side.

Similarly, as indicated by a dotted circle Y in FIG. 3, the inner shape connecting the inner end portions of the plurality of blades 25 on the base portion 21 side is a circle.
For this reason, the distance D2 mm is the diameter of the inner peripheral portion that connects the inner ends of the plurality of blades 25 on the base portion 21 side.

More specifically, as shown in FIG. 3, when viewed from the side of the housing 10 on the intake port 11a side (plan view), the inner peripheral portion of each of the plurality of blades 25 on the intake port 11a side is shown. The inner diameter of the inlet side to be connected (the inner diameter of the circle X indicated by the dotted line) is D1 mm (see FIG. 4), and the inner diameter of the base portion (the circle indicated by the dotted line) connecting the inner peripheral parts of the plurality of blades 25 on the base part 21 side. The inner diameter of Y) is referred to as D2 mm (see FIG. 4).
The base portion side inner diameter D2 mm is formed to be equal to or less than the intake port side inner diameter D1 × 0.9 mm.

Moreover, it forms so that the width | variety of the 1st surface 25a of the blade | wing 25 in radial direction may become large toward the base part 21 side from the intake port 11a side.
In the present embodiment, the width of the second surface 25b of the blade 25 in the radial direction increases from the intake port 11a side toward the base portion 21 side.

  In the rotation axis direction, the width (in the radial direction) of the end portion of the blade 25 on the base portion 21 side is larger than the width (in the radial direction) of the end portion of the blade 25 on the intake port 11a side. The width (in the radial direction) of the end portion of the blade 25 on the side of the base portion 21 is larger than the width (in the radial direction) of the blade 25 at a position intermediate between the base portion 21 and the base portion 21.

  For example, as an example when the length Wmm in the radial direction of the impeller 20 is about 70 mm, the inlet side inner diameter D1 mm is about 60 mm, the base portion side inner diameter D2 mm is about 46 mm, and the inlet side inner diameter D1 mm is The relationship of the base portion side inner diameter D2 mm is such that D2 mm = D1 × 0.77 mm.

  Further, as shown in FIG. 4, the end portion of the blade 25 on the base portion 21 side is provided on the inclined surface 22 of the base portion 21.

As described above, by increasing the intake port side inner diameter D1, the inside of the plurality of blades 25 is provided while reducing the area for receiving the gas of the blades 25 of the impeller 20 on the intake port 11a side of the housing 10. Increase the width of the space (inlet side).
Further, by reducing the base portion side inner diameter D2, the width of the internal space (base portion side) is reduced while increasing the area for receiving the gas of the blade 25 toward the base portion 21 side.

With such a configuration, since the width of the internal space on the intake port 11a side is large, the gas flowing in the center of the internal space may not be taken into the housing 10 on the way and pass through the internal space to the base portion 21 side. It can be taken into the housing 10 on the base portion 21 side.
That is, a part of the gas passing through the central side of the internal space flows to the base portion 21 side without being taken into the housing 10 by the blades 25.

Further, coupled with the fact that the width (radial direction) of the blades 25 on the base portion 21 side is larger than the width (radial direction) of the blades 25 on the intake port 11a side, the gas becomes closer to the base portion 21 side from the intake port 11a side. The suction power to suck in is strong. For this reason, gas can be inhaled well to the base part 21 side.
Further, as the width (radial direction) of the internal space becomes smaller toward the base portion 21 side, the gas flowing in the internal space is sequentially taken into the housing 10 by the blades 25.

  Furthermore, since the gas is smoothly guided to the blade 25 side along the inclined surface 22 on the base portion 21 side, the gas is efficiently taken into the housing 10 on the base portion 21 side.

  For this reason, even if the height of the impeller 20 is relatively large, the gas is sucked up to the base portion 21 side, and the gas can be sufficiently taken into the housing 10 from the base portion 21 side. The internal pressure in 10 is made uniform, and the gas flowing in the housing 10 is uniformly blown out from the outlet 13 without being biased.

On the other hand, in the centrifugal fan in which the height of the impeller is simply increased, the suction force for taking in the gas to the base portion side in the internal space becomes insufficient as the height of the impeller increases.
For this reason, the gas flowing in the internal space before reaching the base portion side is taken into the housing by the blades, and the gas to be taken into the housing may be reduced on the base portion side.

  In this case, the gas is not sufficiently taken into the bottom side in the housing, and the internal pressure on the bottom side in the housing is lowered.

In the centrifugal fan, the distance from when the gas is taken into the housing and blown out from the outlet is not long.
Furthermore, since gas is open | released at a blower outlet, the flow velocity of gas falls as it goes to a blower outlet.
In combination, the gas blows out from the outlet when the gas is biased toward the bottom of the housing in accordance with the distribution of the internal pressure.
If it does so, in the blower outlet, the blowing flow volume of gas will increase toward the bottom part side.

  Therefore, by adopting the configuration of the impeller 20 of the present embodiment, even when the height of the impeller 20 is large, the internal pressure in the housing 10 in the direction of the rotation axis can be made uniform. When only the height is increased, it is possible to suppress the amount of gas blown out from the outlet from increasing toward the bottom side of the housing.

  Moreover, it is preferable that the base part side internal diameter D2mm is more than the intake port side internal diameter D1 * 0.4mm by the point which can take in gas to the base part 21 side.

  Note that, from the viewpoint of suppressing the gas intake amount from being excessively reduced, the inner side of the plurality of blades 25 on the intake port 11a side of the housing 10 is connected to the length Wmm in the radial direction of the impeller 20. The inlet-side inner diameter D1 mm is preferably a length Wmm × 0.7 mm or more in the radial direction of the impeller 20.

  As shown in FIG. 4, in the rotation axis direction, the inclined surface 22 of the base portion 21 is such that the top position h closest to the intake port 11 a of the housing 10 is higher than the center MH of the impeller 20. It is preferable that the internal space on the side of the base portion 21 is not too small so as to be on the side.

  On the other hand, even if the centrifugal fan is required to have a height at the air outlet 13, the height of the centrifugal fan itself is required to be low. Therefore, the overall height of the centrifugal fan is preferably as low as possible.

Therefore, as shown in FIG. 4, the center side of the base portion 21 may be the inclined portion 21 b, and the back surface located on the opposite side of the inclined surface 22 may be the inclined surface 23 having the same inclination as the inclined surface 22. In the case of having the same inclination, for example, the difference in the inclination angle of the inclined surface 23 with respect to the inclination angle of the inclined surface 22 is within the range of, for example, an upper limit of + 5% and a lower limit of −5%.
Specifically, as shown in FIG. 5, the surface 31 of the motor 30 facing the base portion 21 (the surface 31 of the motor main body portion 32) is set along the inclined surface 23 on the back surface of the base portion 21. Further, at least part or all of the motor main body 32 is accommodated in the inclined portion 21 b of the base portion 21.
With such a configuration, it is preferable to reduce the height of the entire centrifugal fan 1 including the motor 30.

  The specific drive mechanism of the motor 30 is the same as that of a general motor, and a stator and a rotor for constituting the motor drive unit are housed in the motor main body 32, as shown in FIG. The rotation shaft 33 of the rotor is led out from the center of the surface 31 facing the base portion 21 of the motor main body 32, and the portion of the motor main body 32 located on the side opposite to the side from which the rotation shaft 33 is led out. A pair of power supply terminals 34 for supplying electric power to the motor 30 is derived from.

As described with reference to FIG. 4, the rotor rotation shaft 33 is fixed to the hole 21 ca of the fixing portion 21 c provided on the center side of the base portion 21.
The method for fixing the rotating shaft 33 to the hole 21ca is not particularly limited. For example, a screwing groove is formed in the hole 21ca and the screwing groove is screwed into the tip side of the rotating shaft 33. Threading grooves to be formed may be formed, and press-fitting or adhesive fixing may be used.

  Although the shape and the like of the impeller 20 have been specifically described above, from the viewpoint of manufacturing cost, the impeller 20 is preferably formed by integrally molding the base portion 21 and the blades 25 with resin. Therefore, it is necessary to consider the shape of the impeller 20 in a shape that takes into account the post-molding of the mold used when the impeller 20 is integrally formed. Hereinafter, the shape of the impeller 20 based on this viewpoint will be described.

As described above, since the impeller 20 of the present embodiment has a high height, the blade 25 may be bent by the wind pressure.
And in order to prevent such a bending from occurring, in the impeller 20 of the present embodiment, as shown in FIG. 2, the outer peripheral side of the end portion on the intake port 11a side of the housing 10 of the plurality of blades 25 is provided. The connecting ring portion 26 is provided.
However, if the ring part 26 and the base part 21 are in a position where they overlap, it is difficult to design the mold.

Therefore, as shown in FIGS. 3 and 4, the outer periphery 24 (outer peripheral portion) of the base portion 21 is positioned closer to the center side (inner side in the radial direction) than the inner periphery 26 a (inner peripheral portion) of the ring portion 26. I have to.
That is, the outer diameter of the base portion 21 is designed to be smaller than the inner diameter of the ring portion 26.

  As can be seen from FIG. 3, the blade 25 has an inner end portion 27 that is located on the inner side of the impeller 20 of the blade 25 on the center side toward the base portion 21 side, and increases the area of the blade 25 that receives the gas. The blade 25 is continuously connected from the intake port 11a side to the base portion 21 side so as to maintain the same radius of curvature as the cross section of the housing 10 on the intake port 11a side.

  In other words, the blade 25 has the same radius of curvature at any position in the height direction of the impeller 20, and the blade 25 has an inner end 27 that is the inner side of the impeller 20 in the radial direction, and the intake port 11 a of the housing 10. It is continuously connected from the side toward the base portion 21 side. As the same radius of curvature, for example, the difference between the radius of curvature of the blade 25 on the intake port 11a side and the radius of curvature of the blade 25 on the base portion 21 side is in the range of an upper limit of + 5% and a lower limit of −5%. Is mentioned.

  The blades 25 are almost equal in thickness at any position in the height direction of the impeller 20, and all the blades 25 have the same design, and the pitch on the base portion 21 in the rotation direction is also substantially equal. As an example where the thickness is substantially equal or the pitch is substantially equal, the upper limit of the difference in thickness and the difference in pitch is in the range of + 5%, and the lower limit is in the range of −5%.

  If it does in this way, resin will be inject | poured into a metal mold | die together with the 2nd metal mold | die of the 1st metal mold | die provided in the inlet 11a side of the housing 10, and the 2nd metal mold | die provided in the base part 21 side. After the impeller 20 is molded, the pulling direction when pulling out the first mold and the second mold (for example, the direction of the inlet 11a if the first mold, the direction of the base 21 if the second mold) There is no part that interferes with the mold when the mold is removed, and a good mold can be extracted.

  Therefore, from the viewpoint of formability, the blades 25 have substantially the same radius of curvature at any position in the height direction of the impeller 20, and the inner end portion 27 that is the inner side of the impeller 20 is from the intake port 11 a side of the housing 10. It is preferable that the outer diameter of the base portion 21 is smaller than the inner diameter of the ring portion 26 while being continuously connected toward the base portion 21 side.

  However, when the ring portion 26 is manufactured as a separate part and the ultrasonic welding is performed later so as to connect the blades 25, the outer diameter of the base portion 21 does not need to be smaller than the inner diameter of the ring portion 26. Thus, when producing the impeller 20 without performing integral molding, it does not necessarily need to be as mentioned above.

  The present invention has been described based on the embodiments. However, the present invention is not limited to the embodiments, and various modifications can be made without departing from the gist of the present invention. It is clear from the description of the range.

DESCRIPTION OF SYMBOLS 1 ... Centrifugal fan, 10 ... Housing, 11 ... Cover part, 11a ... Intake port, 11b ... Cover, 11c ... Side wall part, 11d ... Fixed part, 11da ... Hole part, 12 ... Bottom part, 12a ... Step part, 12b ... Hole part, 13 ... Air outlet, 20 ... Impeller, 21 ... Base part, 21a ... Ring part, 21b ... Inclined surface, 21c ... Fixed part, 21ca ... Hole part, 22 ... Inclined surface, 23 ... Inclined surface, 24 ... Outer periphery, 25 ... Wings, 25a ... First surface, 25b ... Second surface, 25c ... Outer peripheral portion, 26 ... Ring portion, 26a ... Inner periphery, 27 ... Inner end, 30 ... Motor, 31 ... Surface, 32 ... Motor Body part 33... Rotating shaft 34... Power supply terminal, h... Position, Z.

Claims (10)

A housing having an intake port for taking in gas at one end side in the direction of the rotation axis;
An impeller disposed in the housing,
The impeller is
A base part;
A plurality of wings,
The surface of the base portion on the intake port side has an inclined surface inclined toward the rotation shaft and the intake port,
The plurality of wings are provided on the inclined surface,
A centrifugal fan in which a width of the blade in the radial direction is increased from the intake port side toward the inclined surface.   The centrifugal fan according to claim 1, wherein a ratio H / W of a length Hmm of the impeller in the rotation axis direction and a length Wmm of the impeller in the radial direction is 0.55 or more.   The centrifugal fan according to claim 1 or 2, wherein a length of the impeller in the radial direction is not less than 30 mm and not more than 110 mm.   The distance D2mm of the inner shape inside the plurality of wings on the base side is D1 × 0.9 or less with respect to the distance D1mm inside the plurality of wings on the intake side. The centrifugal fan according to any one of claims 1 to 3.   The centrifugal fan according to claim 4, wherein the distance D2 mm is equal to or greater than the distance D1 × 0.4 mm.   The centrifugal fan according to any one of claims 1 to 5, wherein a height of a top portion of the inclined surface is lower than a center of the impeller. In the rotational axis direction, the wings have the same radius of curvature;
7. The blade according to claim 1, wherein in the radial direction, an inner end portion that is an inner side of the impeller is continuously connected in a radial direction from the intake port side toward a base portion side. Centrifugal fan. The impeller has a ring portion that connects ends of the plurality of blades on the intake port side,
The centrifugal fan according to any one of claims 1 to 7, wherein an outer peripheral portion of the base portion is inside an inner peripheral portion of the ring portion in a radial direction.   The centrifugal fan according to any one of claims 1 to 8, wherein outer peripheral portions of the plurality of blades extend along a direction of a rotation axis. A motor having a rotating shaft connected to the impeller;
The base portion includes a surface on the intake port side and a surface on the opposite side to the surface,
The centrifugal fan according to any one of claims 1 to 9, wherein the surface on the opposite side is an inclined surface.

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