JP5479229B2 - Fan motor - Google Patents

Description

  The present invention relates to a small fan motor.

  Conventionally, as a technology in such a field, there is Utility Model Registration No. 3081775. The fan motor described in this publication has a structure in which a motor and an impeller portion rotated by the motor are accommodated in a flat housing (shell) having an opening on the front surface, the rear surface, and one side surface. This is a side flow type fan motor with so-called double-sided intake, in which air is sucked from the front and rear openings by the rotation of the impeller and discharged from the side openings.

  In the fan motor, the impeller portion includes a boss portion (disk) that covers the motor, and a plurality of blades extending radially outward at the periphery of the boss portion, and each of the plurality of blades includes: A convex portion (flow guide portion) that protrudes in the rotation direction of the impeller portion is provided. The structure having such a convex portion prevents the air sucked from the opening on the front face from passing through the opening on the rear face, thereby improving the efficiency of intake and exhaust.

Utility Model Registration No.3081775

  Such a fan motor is required to be able to sufficiently exhibit static pressure and air volume. However, it has been difficult to obtain sufficient static pressure and air volume with the above-described conventional fan motor.

  An object of this invention is to provide the fan motor which can obtain sufficient static pressure and air volume.

  The fan motor according to the present invention includes first and second air inlets formed in the first and second wall portions facing each other, and first and second wall portions between the first wall portion and the second wall portion. 3, a housing having an exhaust port formed in the wall portion, a base portion located in the center of the second intake port and projecting inward from the second wall portion, and a base portion in the housing In the fan motor including the motor unit fixed to the motor unit and the impeller unit that is attached to the motor unit and rotates about the rotation axis of the motor unit, the impeller unit is a boss unit in which the motor unit is disposed. And a plurality of blades extending radially outward from the periphery of the boss portion, and at least one of the plurality of blades protrudes in the rotational direction in the vicinity of the second wall portion and has a diameter. A convex portion extending in the direction is provided, and the base portion communicates with the second air inlet, and the second portion Wherein the recess for enlarging the inlet to the rotation axis direction is provided.

  According to the fan motor of the present invention, the impeller portion rotates around the rotation axis of the motor portion, whereby the first and second walls formed on the first wall portion and the second wall portion of the housing, respectively. The gas is sucked from the air intake port and the gas is discharged from the exhaust port formed in the third wall portion of the housing. Here, since at least one of the plurality of blades of the impeller portion is provided with a convex portion that protrudes in the rotational direction and extends in the radial direction in the vicinity of the second wall portion, the first intake port The sucked gas is prevented from dissipating to the second wall side, and the sucked gas is efficiently discharged from the exhaust port. Therefore, the static pressure of the gas can be sufficiently increased. Furthermore, since the base portion protruding inward from the second wall portion is provided with a recess portion that communicates with the second air inlet and expands the second air inlet in the rotation axis direction. Then, the gas is sucked through the second intake port enlarged by the hollow portion, and the amount of intake air from the second intake port can be increased. Therefore, the gas air volume can be sufficiently increased. As described above, the present invention can achieve both a sufficient static pressure and an air volume.

  Here, the convex portion extends from the outer end in the radial direction of the blade toward the inner end to the middle of the end on the second wall portion side along the end on the second wall portion side of the blade. It is preferable that In this case, the end of the blade on the second wall side has a portion where no protrusion is provided near the inner end in the radial direction of the blade, so that the flow of gas sucked from the second air inlet is convex. It is prevented from being obstructed by the part. Therefore, a sufficient intake amount from the second intake port can be ensured by cooperation with the above-described recess portion of the base portion.

  According to the present invention, sufficient static pressure and air volume can be obtained.

It is the perspective view which looked at the fan motor concerning a 1st embodiment from the cover side. It is the perspective view which looked at the fan motor of FIG. 1 from the other side of the cover. It is a longitudinal cross-sectional view of the fan motor of FIG. It is a top view of an impeller part. It is a bottom view of an impeller part. It is the perspective view which looked at the fan motor which concerns on 2nd Embodiment from the other side of the cover. It is a longitudinal cross-sectional view of the fan motor of FIG. It is a longitudinal cross-sectional view of the conventional fan motor.

  Hereinafter, a fan motor according to an embodiment of the present invention will be described with reference to the drawings. In the description of the drawings, the same elements are denoted by the same reference numerals, and redundant descriptions are omitted.

(First embodiment)
As shown in FIGS. 1 to 3, the fan motor 1 is built in a device such as a notebook computer, a digital video camera, or a car navigation system, and is a side flow type blower type fan with double-sided intake used for cooling these devices. It is a motor.

  The housing 6 of the fan motor 1 faces the housing main body 6a in which the third wall portion 4 is vertically connected to the periphery of the substantially circular second wall portion 3 and the second wall portion 3. And a cover 2 that closes a part of the opening of the housing body 6a. Hereinafter, the second wall portion 3 and the third wall portion 4 are simply referred to as wall portions 3 and 4. The cover 2 is formed with a circular air inlet 2a, and the wall 3 is formed with three air inlets 3a facing the air inlet 2a around the wall center 3b. In addition, a rectangular exhaust port 4 a is formed in a part of the wall portion 4.

  In addition, the fan motor 1 is fixed in the housing 6 and generates a rotational force when energized. The fan motor 1 is attached to the motor unit 7 and rotates about the rotation axis A by the rotational force generated by the motor unit 7. And a resin impeller portion 8 to be made. The motor unit 7 and the impeller unit 8 are accommodated in the housing 6. The fan motor 1 sucks air from the intake ports 2a and 3a and discharges air from the exhaust port 4a by the rotation of the impeller 8.

  Here, the housing 6 has a base portion 10 that is located in the center of the three air inlets 3 a and protrudes inward of the housing 6 from the wall portion center 3 b. The base portion 10 is a base for fixing the motor portion 7 in the housing 6. The base portion 10 is integrally formed with the housing body 6 a by three connecting pieces 11 extending as a part of the wall portion 3. The base portion 10 includes a base plate 10a whose tip protrudes in a disk shape centering on the rotation axis A, and a cylindrical bearing holding portion 10b that is erected perpendicularly to the center of the base plate 10a on the base plate 10a. And a quadrangular prism-shaped leg portion 10d bulged from the connecting piece 11 in the direction of the rotation axis A.

  By adopting the leg portion 10d, the base portion 10 having such a structure is formed with three recess portions 10c that communicate with the intake port 3a and expand the intake port 3a in the direction of the rotation axis A and in the radial direction. Yes. By forming the recess 10c in the base plate 10a in this way, the air inlet 3a is formed on the back side of the base plate 10a.

  The motor unit 7 is fixed by being overlapped on the base plate 10a, and a flux plate 12 for restricting the stop position of the impeller unit 8 is fixed by being overlapped on the flux plate 12, and is substantially the same as the base plate 10a. And two coils 14 arranged symmetrically on the circuit board 13 with the bearing holding portion 10b interposed therebetween. The circuit board 13 is mounted with a Hall element (not shown) for detecting magnetism, and power supply to each coil 14 is controlled based on an electrical signal from the Hall element.

  Furthermore, the motor unit 7 is inserted into the bearing holding portion 10b and is inserted into the cylindrical oil-impregnated bearing 16 fixed to the bearing holding portion 10b by press-fitting and the shaft hole 16a of the oil-impregnated bearing 16. And a shaft 17 that extends in the vertical direction and is rotatable with respect to the oil-impregnated bearing 16. That is, the bearing holding portion 10b, the oil-impregnated bearing 16, and the shaft 17 are arranged coaxially with the rotation axis A as the center. In the fan motor 1, the base portion 10, the flux plate 12, the circuit board 13, the coil 14, and the oil impregnated bearing 16 constitute a stator.

  A cap-like boss portion 18 constituting the center portion of the impeller portion 8 is fixed to the upper end of the shaft 17 by press-fitting or bonding. An annular plate-shaped back yoke 19 is disposed on the back surface side of the boss portion 18, and an annular magnet 20 is fixed to the lower surface side of the back yoke 19 in the boss portion 18 by adhesion or the like. Has been. The magnet 20 forming a part of the motor unit 7 faces the coil 14 at a position slightly separated from the coil 14 in the direction of the rotation axis A. In the fan motor 1, the shaft 17, the impeller unit 8, the back yoke 19, and the magnet 20 constitute a rotor.

  The impeller portion 8 includes the boss portion 18 in which the motor portion 7 is disposed, and a plurality of blades 21 extending radially outward from the periphery of the boss portion 18, which are integrally molded. It is molded by. The impeller portion 8 is rotated in the rotation direction B around the shaft 17 by the shaft 17, the boss portion 18, the back yoke 19, the magnet 20, and the plurality of blades 21 as a unit by the rotational force generated in the motor portion 7. The air is sucked in from the intake ports 2a and 3a and the air is discharged from the exhaust port 4. Note that the intake air amount from the intake port 2a is larger than the intake air amount from the intake port 3a.

  FIG. 4 is a plan view of the impeller unit 8, and FIG. 5 is a bottom view of the impeller unit 8. As shown in FIGS. 4 and 5, 19 blades 21 are equally arranged in the circumferential direction on the periphery of the boss portion 18. Each blade 21 extends along the rotation axis A direction from the cover 2 toward the wall portion 3 and extends while curving in the rotation direction B from the boss portion 18 outward in the radial direction. That is, each blade 21 has a convex shape upstream in the rotational direction B.

  Further, along the end 21a of each blade 21 on the wall 3 side, there is provided a convex portion 22 that protrudes in the rotational direction B and extends in the radial direction in the vicinity of the wall 3. This convex portion 22 extends from the outer end in the radial direction of the blade 21 toward the inner end to the middle of the end portion 21 a on the wall 3 side of the blade 21.

  In the state where the impeller portion 8 configured as described above is incorporated in the housing 6, most of the end portion on the cover 2 side of the blade 21 is exposed in the air inlet 2 a (FIG. 1). FIG. 3). On the other hand, in the end 21a on the wall 3 side of the blade 21, the convex portion 22 is opposed to the wall portion 3, the portion where the convex portion 22 is not provided is opposed to the intake port 3a, and the convex portion 22 is provided. Is slightly exposed in the air inlet 3a (see FIGS. 2 and 3).

  According to the fan motor 1 of the present embodiment, the impeller portion 8 rotates around the rotation axis A of the motor portion 7, whereby the air inlets 2 a and 3 a formed in the cover 2 and the wall portion 3 of the housing 6. Air is sucked from the air and air is discharged from the exhaust port 4 a formed in the wall portion 4 of the housing 6. Here, since the plurality of blades 21 of the impeller portion 8 are provided with convex portions 22 that protrude in the rotation direction B and extend in the radial direction in the vicinity of the wall portion 3, air sucked from the air inlet 2 a The air is prevented from escaping to the wall 3 side, and the sucked air is efficiently discharged from the exhaust port 4a. Therefore, the static pressure of air can be sufficiently increased. Further, since the base portion 10 that protrudes inward from the wall center 3b is provided with a recess portion 10c that communicates with the intake port 3a and expands the intake port 3a in the direction of the rotation axis A. Air is sucked in through the intake port 3a enlarged by the depression 10c, and the intake amount from the intake port 3a can be increased (see arrow C in FIG. 3). Thus, the air volume can be sufficiently increased.

  Moreover, since the convex part 22 is extended in the middle of the edge part 21a toward the inner end from the radial direction outer edge of the blade | wing 21 along the edge part 21a by the side of the wall part 3 of the blade | wing 21, The portion 21 a has a portion where the convex portion 22 is not provided near the inner end in the radial direction, and the flow of air sucked from the air inlet 3 a is prevented from being obstructed by the convex portion 22. Therefore, a sufficient intake amount from the intake port 3a can be ensured by the cooperation of the convex portion 22 and the recess portion 10c of the base portion 10.

  In the conventional fan motor 30 shown in FIG. 8, the blade 40 constituting the impeller portion 80 is not provided with a convex portion, so that the air sucked from the intake port 2a is dissipated to the wall portion 3 side, and the blade 40 The wall portion 3 side end portion 40a and the wall portion 3 entered the gap. Therefore, it has been difficult to sufficiently increase the static pressure of air. Further, since the recess portion is not provided in the base portion 50 and the intake port 3a is narrow without being enlarged, it is difficult to increase the intake amount from the intake port 3a (arrow D in FIG. 8). reference).

  However, according to the fan motor 1 of the present embodiment, sufficient static pressure and air volume can be achieved as described above.

(Second Embodiment)
As shown in FIGS. 6 and 7, the fan motor 1A is different from the fan motor 1 of the first embodiment in that it protrudes from the wall 3 instead of the base 10 having the base plate 10a and the legs 10d. A point provided with a base portion 15 having a tapered (conical shape) base plate 15a whose radius gradually increases toward the direction and a triangular pyramid-shaped leg portion 15d bulging from the connecting piece 11 in the direction of the rotation axis A. It is. That is, the base portion 15 is formed with three recess portions 15b that communicate with the intake port 3a and expand the intake port 3a in the direction of the rotation axis A and in the radial direction.

  According to the fan motor 1 </ b> A of the present embodiment, the same operations and effects as the fan motor 1 can be obtained.

(Experimental example)
The static pressure and the air volume were actually measured when the fan motor 1 according to the first embodiment was used and when the conventional fan motor 30 shown in FIG. 8 was used. The rotation speed of the blades 21 is 6500 min ⁻¹ in any case. As a result, it was confirmed that in the fan motor 1, the static pressure increased by 10.6% and the air volume increased by 13% compared to the case where the conventional fan motor 30 was used.

  In the case where only the convex portion 22 is provided in the fan motor 1 and the hollow portion 10c is not provided, the static pressure is increased by 10% as compared with the case where the conventional fan motor 30 is used, but the air volume is 3%. Only a slight increase. Further, in the case where only the recess 10c is provided in the fan motor 1 and the convex portion 22 is not provided, the static pressure is only slightly increased by 3% and the air volume is 9% compared to the case where the conventional fan motor 30 is used. Increased by 3%.

  As mentioned above, although embodiment of this invention was explained in full detail, this invention is not limited to the said embodiment. For example, the protrusion 22 is not limited to the case where it extends along the end 21 a on the wall 3 side of the blade 21, but rotates at an intermediate position between the end on the cover 2 side and the end on the wall 3 side. May protrude in the direction and extend in the radial direction. Further, the shapes of the intake ports 2a and 3a and the exhaust port 4a in the housing 6, the shape and the number of the blades 21 in the impeller portion 8, and the like can be appropriately designed according to the performance required for the fan motor. Further, the convex portions 22 are not limited to being provided on all the blades 21, and may be provided on some of the blades 21.

  DESCRIPTION OF SYMBOLS 1,1A ... Fan motor, 2 ... Cover (1st wall part), 2a ... Intake port, 3 ... 2nd wall part, 3a ... Intake port, 4 ... 3rd wall part, 4a ... Exhaust port, 6 ... Housing, 7 ... Motor part, 8 ... Impeller part, 10 ... Base part, 10c ... Indented part, 15 ... Base part, 15b ... Indented part, 18 ... Boss part, 21 ... Blade, 22 ... Convex part, A ... Rotation Axis, B ... direction of rotation.

Claims (2)

1st and 2nd inlet formed in each of the 1st and 2nd wall part which faces each other, and it forms in the 3rd wall part between the 1st wall part and the 2nd wall part A housing having an exhaust port and a base portion located in the center of the second intake port and projecting inward from the second wall portion;
A motor portion fixed to the base portion in the housing;
In the fan motor provided with the impeller unit that is attached to the motor unit and rotates around the rotation axis of the motor unit,
The impeller portion includes a boss portion in which the motor portion is disposed, and a plurality of blades extending radially outward from a peripheral edge of the boss portion, and at least one of the plurality of blades Is provided with a convex portion projecting in the rotation direction and extending in the radial direction in the vicinity of the second wall portion,
The fan motor according to claim 1, wherein the base portion is provided with a recess that communicates with the second air inlet and expands the second air inlet in the rotation axis direction.   The convex part extends from the outer end in the radial direction of the blade toward the inner end along the end of the blade on the second wall side to the middle of the end on the second wall side. The fan motor according to claim 1, wherein the fan motor extends.

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