JPH08191554A - Outer rotor type dc induction motor with cooling fan - Google Patents

Abstract

PURPOSE: To provide an outer rotor type DC induction motor with a cooling fan for reducing the dimensions in the axial direction of the induction motor even if the cooling fan is provided. CONSTITUTION: A DC induction motor body 3 is constituted of a stator 1 and a rotor 2 arranged around the outer periphery of the stator 1 so that it can rotate freely. An electronic component mounting substrate 5 where electronic parts 4 for driving and controlling the DC induction motor body 3 are mounted is arranged at a fixing system along with the stator 1. A speed detection means 9 is constituted of a permanent magnet 7 for detecting speed being supported at the outer periphery of a yoke 6 of the rotor 2 and a magnetic sensor 8 for outputting a signal every time when it opposes the magnetic pole of the permanent magnet 7 for detecting speed while being supported by the electronic component mounting substrate 5. A cooling fan 10 for cooling, for example, the electronic parts 4, while it is rotated by the rotation of the rotor 2 is provided. The cooling fan 10 is formed by projecting a plurality of blades 10a and 10b along the periphery direction at both edges in width direction of the annular permanent magnet 7 for detecting speed.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cooling fan for cooling electronic components mounted on an electronic component mounting board which is rotated by the rotation of a rotor rotatably arranged on the outer periphery of a stator to drive and control a DC motor body. The present invention relates to an outer rotor type DC motor equipped with a cooling fan.

[0002]

2. Description of the Related Art A conventional outer rotor type DC electric motor with a cooling fan of this type, as shown in FIG. 6, includes a DC electric motor main body 3 having a stator 1 and a rotor 2 rotatably arranged around the stator 1. An electronic component mounting board 5 mounted with a stator 1 in a fixed system, on which an electronic component 4 for driving and controlling a DC motor body 3 is mounted, and a rotational speed detection supported on the outer periphery of a yoke 6 of a rotor 2 by adhesion or the like. Rotation speed detecting means 9 having a magnetic sensor 8 supported by the permanent magnet 7 and the electronic component mounting board 5 and outputting a signal each time the magnetic pole of the rotation speed detecting permanent magnet 7 is opposed, and is rotated by the rotation of the rotor 2. And a cooling fan 10 for cooling the electronic components 4, the DC motor body 3, and the like.

The stator 1 is provided with an iron core 14 with a salient pole supported on the outer periphery of a cylindrical boss 13 which is erected so as to surround the hole 12 formed in the case 11, and is wound around the salient pole of the iron core 14. And the stator winding 15 mounted therein.

The rotor 2 is passed through a cylindrical boss 13 and is rotatably supported by a bearing 16 on a rotating shaft 17.
And a bowl-shaped yoke 6 in which the center of the bottom plate portion 6a is supported by the rotary shaft 17, and a rotor driving permanent magnet 18 supported by adhesion or the like on the inner circumference of the cylindrical portion 6b of the yoke 6. It is equipped with. The bottom plate portion 6a of the yoke 6 is provided with a hole 19 for ventilation.

The electronic component mounting board 5 is loosely fitted to the outer periphery of the base of the cylindrical boss 13 and supported by the iron core 14 via the spacer 20.

The cooling fan 10 includes a bottom plate portion 6a of the yoke 6.
It is supported by the tip of a rotary shaft 17 that penetrates through the rotor 2, and is driven to rotate as the rotor 2 rotates.

In such an outer rotor type DC electric motor with a cooling fan, the cooling fan 10 is driven to rotate as the rotor 2 rotates, and the cooling air generated by the rotation of the cooling fan 10 is directed to the yoke 6 as shown in the drawing. Bottom plate 6a
Go into the yoke 6 through the holes 19 for ventilation in the
After cooling the DC motor body 3, the electronic component mounting board 5 is removed to cool the electronic component 4.

[0008]

However, in such a conventional outer rotor type DC electric motor with a cooling fan, the cooling fan 10 is supported by the tip of the rotary shaft 17 which penetrates the bottom plate portion 6a of the yoke 6. Therefore, there has been a problem that the axial dimension of the electric motor is lengthened by the thickness of the cooling fan 10.

An object of the present invention is to provide an outer rotor type DC electric motor with a cooling fan which can shorten the axial dimension of the electric motor even if it is provided with a cooling fan.

[0010]

According to the present invention, there is provided a DC motor body having a stator and a rotor rotatably arranged on the outer periphery thereof, and a DC motor body which is arranged together with the stator in a fixed system to drive and control the DC motor body. The electronic component mounting board on which the electronic component is mounted, the rotational speed detecting permanent magnet supported on the outer circumference of the yoke of the rotor, and the magnetic poles of the rotational speed detecting permanent magnet supported by the electronic component mounting board are opposed to each other. As an object of improvement, an outer rotor type DC electric motor with a cooling fan equipped with a rotation speed detection means having a magnetic sensor that outputs a signal for each time and a cooling fan that is rotated by rotation of the rotor to cool the electronic components and the like are provided. There is.

In the outer rotor type DC electric motor with a cooling fan according to the present invention, the cooling fan is provided side by side with the rotational speed detecting permanent magnet.

In this case, the cooling fan can be formed by providing blades on the rotational speed detecting permanent magnet.

The rotation speed detecting permanent magnet may be formed of a plastic magnet, and the cooling fan may be formed integrally with the rotation speed detecting permanent magnet.

The cooling fan may be made of a material different from that of the rotational speed detecting permanent magnet.

The cooling fan may have a structure including blades for cooling the electronic parts and blades for cooling the DC motor body.

[0016]

When the cooling fan is provided along with the permanent magnet for detecting the number of revolutions as described above, the cooling fan can be provided without increasing the axial dimension of the electric motor.

In particular, when the cooling fan is formed by providing the rotation speed detecting permanent magnet with blades, the cooling fan can be provided without increasing the number of parts. Moreover, the permanent magnet for detecting the rotation speed and the cooling fan can be attached together. Therefore, the cost of the outer rotor type DC electric motor with the cooling fan can be reduced.

When the rotation speed detecting permanent magnet is formed of a plastic magnet and the cooling fan is formed integrally with the rotation speed detecting permanent magnet, the rotation speed detecting permanent magnet and the cooling fan are formed together. Therefore, cost reduction can be further promoted.

If the cooling fan is made of a material different from the rotational speed detecting permanent magnet, the cooling fan can be formed by selecting a required material and a required shape.

Further, when the cooling fan has a structure including blades for cooling the electronic parts and blades for cooling the DC motor body, the cooling fan can cool down the electronic components as compared with the case of cooling the other side with the cooling air. It is possible to efficiently cool the components and the DC motor body.

[0021]

Embodiments of the present invention will now be described in detail with reference to the drawings. The parts corresponding to those in FIG. 6 described above are denoted by the same reference numerals.

FIGS. 1 and 2A and 2B show a first embodiment of the present invention. In the outer rotor type DC electric motor with the cooling fan of this embodiment, the cooling fan 10 is used.
Is attached to the permanent magnet 7 for rotation speed detection. Particularly, in the case of the present embodiment, the cooling fan 10 is formed by projecting a plurality of blades 10a, 10b along the circumferential direction at both ends of the annular rotational speed detecting permanent magnet 7 in the width direction. There is. Each blade 10a is provided for cooling the electronic component 4, and each blade 10b is provided for cooling the DC motor body 3. For this reason, each blade 10b is provided so that its tip projects before the tubular portion 6b of the yoke 6. Even in this case, by shortening the length of the tubular portion 6b by the protruding length of the blade 10b, it is possible to prevent the axial dimension of the electric motor from increasing. In the present embodiment, the rotational speed detecting permanent magnet 7 and the cooling fan 10 having such a structure are
The rotation speed detecting permanent magnet 7 is formed of a plastic magnet, and the cooling fan 10 is formed integrally with the rotation speed detecting permanent magnet 7. Other structures are shown in FIG.
Is similar to.

When the cooling fan 10 is provided along with the permanent magnet 7 for detecting the number of revolutions in this way, it is not necessary to provide the cooling fan 10 at the tip of the rotary shaft 17 that penetrates the bottom plate portion 6a of the yoke 6, and the axial dimension of the electric motor is eliminated. The cooling fan 10 can be provided without increasing the length.

In particular, when the cooling fan 10 is formed by providing the rotating speed detecting permanent magnet 7 with the blades 10a and 10b, the cooling fan 10 can be provided without increasing the number of parts. Further, the rotation speed detecting permanent magnet 7 and the cooling fan 10 can be attached together. Therefore, the cost of the outer rotor type DC electric motor with the cooling fan can be reduced.

If the rotation speed detecting permanent magnet 7 is formed of a plastic magnet and the cooling fan 10 is integrally formed with the rotation speed detecting permanent magnet 7, the rotation speed detecting permanent magnet 7 and the cooling fan 10 are formed. Can be formed together, and thus cost reduction can be further promoted.

Further, the cooling fan 10 includes blades 10a for cooling the electronic parts 4 and blades 1 for cooling the DC motor body 3.
0b makes it possible to efficiently cool the electronic component 4 and the DC motor body 3 as compared with the case of cooling the other with the air that has cooled one.

FIG. 3 shows a second embodiment of the present invention. In the outer rotor type DC electric motor with a cooling fan of the present embodiment, the blades 10a of the cooling fan 10 extend in parallel with the electronic component mounting board 5 and are formed in an inverted L shape.

In this way, the area of the blade 10a is increased, the air volume can be increased, and the electronic component 4 can be cooled more efficiently.

Although the cooling fan 10 and the rotation speed detecting permanent magnet 7 are made of the same material in the above embodiment, the cooling fan 10 and the rotation speed detecting permanent magnet 7 are made of different materials. You can also do it.

For example, as in the third embodiment shown in FIG. 4, a structure in which the rotational speed detecting permanent magnet 7 is cast and integrated when the resin cooling fan 10 is molded, or as shown in FIG. As in the fourth embodiment, the rotational speed detecting permanent magnet 7 can be fitted into the recess 10c of the molded product of the resin cooling fan 10 to form an integrated structure. The other structure is similar to that of the first embodiment shown in FIG.

Even if they are formed of different materials as in the third and fourth embodiments, if they have an integrated structure, they can be handled as one component at the time of assembly, and the assembly can be performed easily. it can. In these cases, the cooling fan 10 is supported on the inner circumference of the cylindrical portion 6b of the yoke 6 by adhesion or the like.

Alternatively, the cooling fan 10 and the rotation speed detecting permanent magnet 7 may be formed of different materials and may be attached to the inner circumference of the cylindrical portion 6b of the yoke 6 without being integrated.

Even with such a structure, the basic effect that the axial dimension of the electric motor is not lengthened can be obtained.

Further, the cooling fan 10 may omit the blade 10b. In this case, the bottom plate portion 6a of the yoke 6
It is preferable to provide holes 19 for ventilation.

Further, if the blades 10b of the cooling fan 10 are L-shaped and protrude beyond the end of the cylindrical portion 6b of the yoke 6 into the yoke 6, the DC motor body 3 can be cooled more efficiently. You can Also in this case, by shortening the length of the tubular portion 6b by the protruding length of the blades 10b, it is possible to prevent an increase in the axial dimension of the electric motor. It is as follows.

(1) A DC motor main body having a stator and a rotor rotatably disposed on the outer periphery thereof, and an electronic component mounted with the stator in a fixed system to drive and control the DC motor main body. A component mounting board, a rotation speed detecting permanent magnet supported on the outer periphery of the rotor yoke, and a magnetic sensor supported by the electronic component mounting board and outputting a signal each time the magnetic pole of the rotation speed detecting permanent magnet is opposed to the magnetic sensor. In an outer rotor type DC electric motor with a cooling fan, comprising: a rotation speed detecting unit having: and a cooling fan that is rotated by rotation of the rotor to cool the electronic components and the like, the cooling fan is a permanent magnet for detecting the rotation speed. An abduction rotor type DC motor with a cooling fan, which is attached to a magnet.

(2) The outer rotor type DC electric motor with a cooling fan according to the above item (1), wherein the cooling fan is formed by providing blades on the rotational speed detecting permanent magnet. (3) The cooling fan according to item 2, wherein the rotation speed detecting permanent magnet is formed of a plastic magnet, and the cooling fan is formed integrally with the rotation speed detecting permanent magnet. Outer rotor DC motor.

(4) The outer rotor type DC electric motor with a cooling fan according to item 1, wherein the cooling fan is made of a material different from that of the rotational speed detecting permanent magnet. (5) The outer rotor type DC electric motor with a cooling fan according to item 4, wherein the rotational speed detecting permanent magnet is cast and integrated into a molded product of the cooling fan.

(6) The outer rotor rotor type DC with a cooling fan according to the fourth aspect, characterized in that the rotational speed detecting permanent magnet is fitted into and integrated with a recess of the molded product of the cooling fan. Electric motor.

(7) The cooling fan is provided with a blade for cooling the electronic component and a blade for cooling the DC motor body, according to any one of items 1 to 6. Outer rotor type DC motor with cooling fan.

[0041]

In the outer rotor type DC electric motor with cooling fan according to the present invention, the cooling fan is provided along with the permanent magnet for detecting the number of revolutions, so that the cooling fan is provided without increasing the axial dimension of the electric motor. You can

In particular, when the cooling fan is formed by providing the rotation number detecting permanent magnet with the blades as in the second aspect of the invention, the cooling fan can be provided without increasing the number of parts. Moreover, the permanent magnet for detecting the rotation speed and the cooling fan can be attached together. Therefore, the cost of the outer rotor type DC electric motor with the cooling fan can be reduced.

When the rotation speed detecting permanent magnet is formed of a plastic magnet and the cooling fan is integrally formed with the rotation speed detecting permanent magnet, the rotation speed detecting permanent magnet is formed. Since the permanent magnet and the cooling fan can be formed together, cost reduction can be further promoted.

When the cooling fan is made of a material different from the rotational speed detecting permanent magnet as in the invention described in claim 4, the cooling fan is formed by selecting a required material and a required shape. You can

Further, when the cooling fan is structured to have the blades for cooling the electronic parts and the blades for cooling the DC motor body as in the invention described in claim 5, the cooling fan for one of them is used. Thus, the electronic components and the DC motor body can be cooled more efficiently than when the other is cooled.

[Brief description of drawings]

FIG. 1 is a vertical sectional view of a first embodiment of an outer rotor type DC electric motor with a cooling fan according to the present invention.

2A and 2B are a plan view and a side view showing a relationship between a rotation speed detecting permanent magnet used in the first embodiment and a cooling fan integrated with the permanent magnet.

FIG. 3 is a longitudinal sectional view of a main part of a second embodiment of an outer rotor type DC electric motor with a cooling fan according to the present invention.

FIG. 4 is a vertical cross-sectional view of the essential parts of a third embodiment of an outer rotor type DC electric motor with a cooling fan according to the present invention.

FIG. 5 is a longitudinal cross-sectional view of the essential parts of a fourth embodiment of an outer rotor type DC electric motor with a cooling fan according to the present invention.

FIG. 6 is a vertical sectional view of a conventional outer rotor type DC electric motor with a cooling fan.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Stator 2 Rotor 3 DC motor main body 4 Electronic component 5 Electronic component mounting substrate 6 Yoke 6a Bottom plate portion 6b Cylindrical portion 7 Rotation speed detection permanent magnet 8 Magnetic sensor 9 Rotation speed detection means 10 Cooling fan 10a, 10b Blade 10c Recess 11 Case 12 hole 13 boss 14 iron core with salient pole 15 stator winding 16 bearing 17 rotating shaft 18 rotor drive permanent magnet 19 hole for ventilation 20 spacer

Claims (5)

[Claims] 1. A DC electric motor main body having a stator and a rotor rotatably arranged on the outer periphery thereof, and an electronic component mounted with the stator in a fixed system to mount electronic components for driving and controlling the DC electric motor main body. Mounting board,
A rotation speed detection permanent magnet supported on the outer circumference of the rotor yoke, and a rotation speed detection having a magnetic sensor supported by the electronic component mounting board and outputting a signal each time the magnetic pole of the rotation speed detection permanent magnet is opposed. In an outer rotor type DC electric motor with a cooling fan, comprising: means and a cooling fan that rotates by rotation of the rotor to cool the electronic components and the like, wherein the cooling fan is provided side by side with the permanent magnet for rotation speed detection. An outer rotor type DC electric motor with a cooling fan. 2. The outer rotor type DC electric motor with a cooling fan according to claim 1, wherein the cooling fan is formed by providing blades on the rotational speed detecting permanent magnet. 3. The cooling according to claim 2, wherein the rotation speed detecting permanent magnet is formed of a plastic magnet, and the cooling fan is formed integrally with the rotation speed detecting permanent magnet. Outer rotor type DC motor with fan. 4. The outer rotor type DC electric motor with a cooling fan according to claim 1, wherein the cooling fan is made of a material different from that of the rotational speed detecting permanent magnet. 5. The cooling fan according to claim 1, wherein the cooling fan includes a blade that cools the electronic component and a blade that cools the DC motor body. Outer rotor type DC motor with