JP3494057B2 - Outer rotor type magnet generator with regulator - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an outer rotor type magnet generator with a regulator.

[0002]

2. Description of the Related Art FIGS. 5 (A), 5 (B) and 6 show the structure of a conventional outer rotor type magnet generator with a regulator. In this outer rotor type magneto-generator with a regulator, a stator 3 in which a magneto coil 2 is wound around each salient pole 1a on the outer circumference of an annular stator core 1, and the outer circumference of the stator 3 is surrounded by a cylindrical portion 4a of a rotor yoke 4. Rotor 6 having a permanent magnet 5 supported on the inner circumference of the cylindrical portion 4a.
And a cylindrical boss 7 fixing the annular stator core 1 to the outer periphery, and rotation attached to the center of the bottom portion 4b of the rotor yoke 4 so as to rotatably penetrate the inner periphery of the boss 7 via a plurality of bearings 8. The shaft 9, a stator mounting plate 10 that is integrally provided at the end of the boss 7 in a direction orthogonal to the rotation shaft 9 on the opening end side of the rotor yoke 4 and rotatably penetrating the rotation shaft 9, and the rotor yoke 4. Ventilation ports 11a and 11b, which are provided in the stator mounting plate 10 and the rotor yoke 4 at predetermined intervals in the circumferential direction so that the cooling air can pass through the cylindrical portion 4a of the rotor 4a, and the ventilation ports 11a. , 11b, and the cylindrical portion 4a of the rotor yoke 4
A fan 13 provided with a plurality of blades 12 fixed to the inner peripheral portion of the rotor yoke 4 so that cooling air can pass through the inside.
A pulley 14 fixed to the rotary shaft 9 of a bolt structure protruding to the outside on the bottom 4b side of the rotor yoke 4 by utilizing its head 9a; and a stator mounting plate 1
The structure is provided with a regulator 16 mounted on the 0 side through a metal regulator holder 15 and adjusting the power generation output from the power generation coil 2. The regulator 16 has a structure in which the regulator main body 17 is housed in the recess 15a of the regulator holder 15 and is molded with resin 18, and is attached by fixing the regulator holder 15 to the stator mounting plate 10 with screws 19. . The regulator 16 has a plurality of input terminals 20 for inputting the output of the power generation coil 2 and a plurality of output cords 2 for outputting the output from the regulator 16.
1 and are provided.

The stator core 1 is fixed to the stator mounting plate 10 with screws (not shown). Each bearing 8
Are positioned on the outer circumference of the rotary shaft 9 by a plurality of collars 22. The tip of the rotary shaft 9 having a bolt structure projects into the recess 23 of the stator mounting plate 10, and the flat washer 2
4, Hexagon nut 26 is fastened to the base end of boss 9 via spring washer 25. The stator mounting plate 10 includes a tubular portion 10a that surrounds the outer circumference of the tubular portion 4a of the rotor yoke 4, a bottom portion 10b that closes one end of the tubular portion 10a on the opening side of the tubular portion 4a of the rotor yoke 4, and an outer circumference of the tubular portion 10a. The bottom flange 10b has a plurality of ventilation holes 11a on one side and is radially provided at predetermined intervals in the circumferential direction. These ventilation openings 11a are each formed by slits between a plurality of ribs 27 radially provided by the bottom portion 10b. The other ventilation ports 11b are provided at the ends of the cylindrical portion 4a of the rotor yoke 4 near the bottom portion 10b. The regulator holder 15 is fixed to the bottom portion 10b of the rotor yoke 4 with screws 19 while being in contact with the outer ends of a plurality of ribs 27 provided radially.

In such an outer rotor type magneto-generator with a regulator, each blade 12 of the fan 13 is rotated as the rotor yoke 4 rotates, and these blades 12 are rotated.
By the air blowing action by the rotation of the outside air, the outside air is sucked through each ventilation port 11a provided in the stator mounting plate 10, and the outside air is introduced into the cylindrical portion 4a of the rotor yoke 4 by the rotating shaft 9a.
Through the gaps between the salient poles 1a, thereby cooling the stator 3 and the permanent magnets 5, and exhaust gas passing through the inside of the cylinder portion 4a is exhausted at the end of the cylinder portion 4a near the bottom portion 10b of the rotor yoke 4. It is discharged from 11b to the outside. The ribs 27 provided on the stator mounting plate 10 act as cooling fins to cool the heat generated from the regulator 16 via the regulator holder 15.

[0005]

However, in the outer rotor type magneto-generator with a regulator having such a structure, the regulator 16 is cooled by using each rib 27 provided on the stator mounting plate 10 as a cooling fin. It goes through the holder 15,
The regulator 16 is not directly cooled, and there is a problem that the cooling efficiency is poor.

An object of the present invention is to provide an outer rotor type magnet generator with a regulator which can directly cool the regulator.

[0007]

SUMMARY OF THE INVENTION According to the present invention, a stator in which a generator coil is wound around an annular stator core, and a cylindrical portion of a rotor yoke surrounds the outer circumference of the stator, and a permanent magnet is provided on the inner circumference of the cylindrical portion. A supported rotor, a cylindrical boss that fixes an annular stator core to the outer circumference, a rotary shaft that is attached to the center of the bottom of the rotor yoke and rotatably penetrates the inner circumference of the boss through bearings, and the rotor yoke The stator mounting plate is integrally provided at the end of the boss in a direction orthogonal to the rotation axis on the opening end side of the rotor and rotatably pierces the rotation axis, and the cooling air flows in the direction of the rotation axis in the cylinder of the rotor yoke. On the rotor yoke side so that the cooling air can pass through the ventilation holes provided in the stator mounting plate and the rotor yoke so that the cooling air can pass through the inside of the cylindrical portion of the rotor yoke. A fan provided, is intended to improve the outer rotor magnet generator with regulator and a regulator for adjusting the power output from the generator coil provided in the stator mounting plate side.

In the outer rotor type magneto-generator with regulator according to the present invention, a plurality of radiation fins are formed in the regulator holder of the regulator, and a plurality of cooling air is sent between these radiation fins to the ventilation holes of the stator mounting plate. A ventilation passage is formed.

According to such a structure, the regulator is directly cooled by the cooling air passing through the ventilation passage between the plurality of radiating fins formed in the regulator holder, so that the regulator can be cooled efficiently. You can Further, the cooling air can be efficiently passed through the ventilation passages between the radiating fins by the suction action of the fan provided in the rotor. Furthermore, since the cooling air for cooling the regulator is the cooling air before cooling the stator and the like, the temperature does not rise and the regulator can be cooled efficiently.

According to the present invention, the regulator is fixed to the stator mounting plate with the recess of the regulator holder facing the stator mounting plate side, and the regulator holder is covered with a cover for covering each radiating fin. You can With this configuration, even if each heat radiation fin is open outward, the cover covers the ventilation passages between the heat radiation fins to close the cooling air flow along the surface of the regulator holder. Can be reliably sent to the ventilation port.

Further, according to the present invention, the regulator may have a structure in which the radiator fin of the regulator holder is brought into contact with the stator mounting plate to be fixed to the stator mounting plate. With this configuration, the ventilation passages between the respective heat dissipating fins are closed by the stator mounting plate, and cooling air can be sent to the ventilation holes of the stator mounting plate along the surface of the regulator holder.
Further, in the case of this structure, a cover for covering each radiating fin becomes unnecessary.

[0012]

DETAILED DESCRIPTION OF THE INVENTION FIGS. 1A and 1B and 2A.
1B shows a first example of an embodiment of an outer rotor type magnet generator with a regulator according to the present invention, and FIGS. 1A and 1B show an outer rotor type magnet generator with a regulator of this example. 2 is a vertical sectional view and bottom view of FIG.
(A) and (B) are the front view and bottom view of the regulator used in this example. The parts corresponding to those in FIGS. 5A and 5B described above are denoted by the same reference numerals.

In the outer rotor type magneto-generator with a regulator of this example, a plurality of ribs 27 _a1 and a plurality of ventilation passages 11 _a1 are provided in parallel with each other at the center of the bottom portion 10b of the stator mounting plate 10. 27 _a1 and one of the sides of the portion where the ventilation passage 11 _a1 is not provided, the ribs 27 _a1 and air passage 11 _a1 plurality of ribs in orthogonal orientation with respect to the 27 _a2 and a plurality of ventilation passages 11 _a2 Are provided in parallel. In other words, air passage 11a, in the present embodiment is composed of a ventilation passage 11 _a1 and air passage 11 _a2.

In the regulator 16 mounted on the side of the stator mounting plate 10 for adjusting the power generation output from the power generation coil 2, the regulator main body 1 is provided in the recess 15a of the regulator holder 15 made of metal such as aluminum.
7 is incorporated and molded with a resin 18, a plurality of heat radiation fins 28 are formed on the surface of the regulator holder 15 opposite to the concave portion 15a, and the heat radiation fins 2
A plurality of ventilation passages 29 for sending the cooling air to the ventilation holes 11 _a2 of the stator mounting plate 10 are formed between the rotors 8, and mounting flanges 30 are projected on the side surfaces parallel to the respective heat radiation fins 28. In such a regulator 16, the recess 15a of the regulator holder 15 is provided in the stator mounting plate 1
The bottom portion 10 of the stator mounting plate 10 facing the 0 side
It is fixed by a screw 19 penetrating the collar 30 attached to b. The regulator holder 15 is covered and fixed with a cover 31 that covers each of the outwardly facing radiation fins 28.

According to such a structure, the regulator 1
6 is directly cooled by the cooling air passing through the ventilation passage 29 between the plurality of heat radiation fins 28 formed in the regulator holder 15, and the regulator 15 can be cooled efficiently. In this case, since the regulator holder 15 is covered with the cover 31 that covers the heat radiation fins 28, even if the heat radiation fins 28 are open outward, the cover 31 covers the heat radiation fins 28.
The periphery of the ventilation passage 29 between them is closed, and the cooling air can be reliably sent to the ventilation port 11 _a2 of the stator mounting plate 10 along the surface of the regulator holder 15.
In addition, in the ventilation passage 29 between the radiation fins 28, the rotor 6
The cooling air can be efficiently passed by the suction action of the fan 13 provided in the. In addition, the regulator 16
Since the cooling air for cooling is the cooling air before cooling the stator 3 and the like, the temperature does not rise and the regulator can be cooled efficiently. Therefore, the cooling effect is improved as compared with the conventional one, the regulator 16 can be downsized, and the control capacity of the regulator 16 can be increased. A magnet generator can be obtained.

FIGS. 3A and 3B and FIGS. 4A and 4B show a second example of the embodiment of the outer rotor type magnet generator with a regulator according to the present invention.
(A) and (B) are a longitudinal sectional view and a bottom view of the outer rotor type magneto-generator with a regulator of this example, and FIGS.
[Fig. 3] is a front view and a bottom view of the regulator used in this example. In addition, the above-mentioned FIG. 1 (A) (B) and FIG. 2 (A)
Portions corresponding to (B) are designated by the same reference numerals.

In the outer rotor type magneto-generator with regulator of this example, the structure of the bottom portion 10b of the stator mounting plate 10 is the same as that of the first example.

In the regulator 16 mounted on the side of the stator mounting plate 10, the regulator main body 17 is incorporated in the recess 15a of the metal regulator holder 15 made of aluminum or the like and molded with the resin 18. A plurality of heat radiation fins 28 are formed on the surface opposite to the recess 15a, and the stator mounting plate 10 is provided between the heat radiation fins 28.
Ventilation passages 29 for sending cooling air to the ventilation openings 11 _a2 of the
Is formed, and a mounting flange 30 is provided on the side surface parallel to each heat radiation fin 28 in the same manner as in the first example.

In the regulator 16 of the present embodiment, each radiating fin 28 of the regulator holder 15 is brought into contact with the bottom portion 10b of the stator mounting plate 10 and the screw 19 penetrating the collar 30 into the bottom portion 10b of the stator mounting plate 10. It is fixed at. The regulator holder 15 has a cover portion 1 so that the cooling air passing through each ventilation passage 29 is sent to the ventilation port 11 _a2 of the stator mounting plate 10.
5b is provided. In this example, the open surface side of the ventilation passage 29 of the regulator holder 15 is closed by the bottom portion 10b of the stator mounting plate 10.

Even with such a structure, the regulator 16 is directly cooled by the cooling air passing through the ventilation passage 29 between the plurality of heat radiation fins 28 formed in the regulator holder 15, so that the regulator 15 can be efficiently cooled. It can be performed. In this case, regulator holder 1
In FIG. 5, the open surfaces of the ventilation passages 29 between the radiating fins 28 are in contact with the bottom portion 10b of the stator mounting plate 10. Therefore, the periphery of the ventilation passages 29 between the radiating fins 28 is temporarily closed to cool the cooling air. Along the surface of the regulator holder 15 with the ventilation port 11 _a2 of the stator mounting plate 10.
Can be sent to. In addition, in the ventilation passage 29 between the radiation fins 28, the fan 13 provided on the rotor 6 is provided.
Cooling air can be efficiently passed by the suction action of.
Furthermore, since the cooling air for cooling the regulator 16 is also the cooling air before cooling the stator 3 and the like in this example, the temperature does not rise and the regulator can be cooled efficiently. Therefore, also in this example, the cooling effect is improved as compared with the conventional one, the regulator 16 can be downsized, and the control capacity of the regulator 16 can be increased. It is possible to obtain an outer rotor type magneto-generator. In particular,
In the case of the structure of this example, unlike the first example, the cover 31 that covers the respective radiation fins 28 is unnecessary.

In each of the above examples, each blade portion 12 of the fan 13 is
In the above, an example is shown in which the blade is fixed to the inner surface of the rotor yoke 4 separately from the rotor yoke 4, but each blade portion 12 can be formed integrally with the rotor yoke 4 by cutting and raising it from the rotor yoke 4. .

[0022]

In the outer rotor type magneto-generator with regulator according to the present invention, the regulator is directly cooled by the cooling air passing through the ventilation passage between the plurality of radiation fins formed in the regulator holder, and the efficiency is improved. The regulator can be cooled well. Further, the cooling air can be efficiently passed through the ventilation passages between the radiating fins by the suction action of the fan provided in the rotor. Furthermore, since the cooling air for cooling the regulator is the cooling air before cooling the stator and the like, the temperature does not rise and the regulator can be cooled efficiently.
Therefore, according to the present invention, the cooling effect is improved as compared with the conventional one, and the size of the regulator can be reduced.
In addition, it is possible to increase the control capacity of the regulator, and it is possible to obtain a compact and high-output outer rotor type magneto-generator with a regulator.

[Brief description of drawings]

1A and 1B are a first embodiment of an outer rotor type magnet generator with a regulator according to the present invention.
An example is shown, (A) is a longitudinal sectional view and (B) is a bottom view.

2A and 2B are a front view and a bottom view of a regulator used in the first example.

3 (A) and 3 (B) are the second embodiment of the outer rotor type magnet generator with a regulator according to the present invention.
An example is shown, (A) is a longitudinal sectional view and (B) is a bottom view.

4A and 4B are a front view and a bottom view of a regulator used in a second example.

5A and 5B show a conventional outer rotor type magneto-generator with a regulator, FIG. 5A being a vertical sectional view and FIG. 5B being a bottom view.

FIG. 6 is a partial arrow view seen from the X direction in FIG.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 stator core 1a salient pole 2 generator coil 3 stator 4 rotor yoke 4a cylinder part 4b bottom part 5 permanent magnet 6 rotor 7 boss 8 bearing 9 rotating shaft 9a head part 10 stator mounting plate 10a cylinder part 10b bottom part 10c mounting flange parts 11a, _11a1 , 11 _a2 , 11b Ventilation port 12 Blade part 13 Fan 14 Pulley 15 Regulator holder 15a Recess 15b Cover 16 Regulator 17 Regulator body 18 Resin 19 Screw 20 Input terminal 21 Output cord 22 Collar 24 Recess 24 Flat washer 25 Spring washer 26 Hexagon nut 27, 27 _a1 , 27 _a2 Rib 28 Radiating fin 29 Ventilation passage 30 Mounting flange 31 Cover

Claims (3)

(57) [Claims] 1. A stator in which a generator coil is wound around an annular stator core, a rotor in which a cylindrical portion of a rotor yoke surrounds the outer periphery of the stator, and a permanent magnet is supported on the inner periphery of the cylindrical portion, and the annular portion. A cylindrical boss that fixes the stator core to the outer periphery, a rotary shaft that is attached to the center of the bottom of the rotor yoke and rotatably penetrates the inner periphery of the boss via a bearing, and the open end side of the rotor yoke. And a stator mounting plate integrally provided at an end portion of the boss in a direction orthogonal to the rotation axis and rotatably penetrating the rotation axis, and cooling in a direction of the rotation axis in a cylindrical portion of the rotor yoke. Ventilation openings provided in the stator mounting plate and the rotor yoke so that the air can pass through, and the cooling air flows in the cylindrical portion of the rotor yoke through the ventilation openings. A fan provided on the rotor yoke side so as to pass through, and a regulator provided on the stator mounting plate side for adjusting the power generation output from the power generation coil, the regulator has a regulator main body incorporated in a recess of a regulator holder. In the outer rotor type magneto-generator with a regulator, which is molded with resin, a plurality of heat radiation fins are formed on a surface of the regulator holder opposite to the recess, and the stator mounting plate is provided between the heat radiation fins. An outer rotor type magnet generator with a regulator, characterized in that a plurality of ventilation passages for sending cooling air are formed in the ventilation opening. 2. The regulator is fixed to the stator mounting plate with the recess of the regulator holder facing the stator mounting plate side, and the regulator holder is covered with a cover for covering each of the radiation fins. The outer rotor type magnet generator with a regulator according to claim 1. 3. The outer rotor with a regulator according to claim 1, wherein the regulator is fixed to the stator mounting plate by bringing each of the heat radiation fins of the regulator holder into contact with the stator mounting plate. Type magnet generator.