JP3581301B2 - Electric blower - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electric blower used for a vacuum cleaner or the like and capable of sucking moisture or the like.
[0002]
[Prior art]
FIG. 6 is a cross-sectional view of a conventional electric blower disclosed in Japanese Patent Application Laid-Open No. 7-35092, which is also capable of sucking moisture and the like. In the figure, reference numeral 19 denotes an electric blower provided with a drive motor 20. The drive motor 20 includes a rotor 22 fixed to an output shaft 21 and a stator 23 for applying a rotational force to the rotor 22. Stator 23 is covered with motor frame 24. The stator 23 is fixed to the motor frame 24 by the holding member H.
[0003]
The motor frame 24 has a cylindrical shape with a rear part closed and a front part opened. A plurality of openings 24a for taking in cooling air are formed at the rear part of the motor frame 24. A bearing housing 26 for rotatably holding the output shaft 21 via a bearing 25 is formed at a rear portion of the motor frame 24, and a flange portion 27 is formed at an upper portion of the motor frame 24. Hole 28 is formed.
[0004]
A centrifugal fan 29 is attached to the distal end 21a of the output shaft 21, and discharges air sucked from a central opening 29a on the front surface of the centrifugal fan 29 from a peripheral opening 29b. The centrifugal fan 29 is covered with a fan cover 30 having an opening 30a at the center, and the fan cover 30 is attached to a flange 27 of the motor frame 24. A current plate 31 is arranged behind the centrifugal fan 29, and an annular leg 32 extending rearward is formed on the current plate 31, and the leg 32 is fixed to the flange 27 of the motor frame 24. I have. The current plate 31 is drawn by the centrifugal fan 29 and protrudes from the peripheral edge opening 29 a to guide air outward and to partition cooling air flowing in the motor frame 24.
[0005]
A bearing hole 33 is formed at the center of the current plate 31, and a bearing 34 that rotatably holds the tip 21 a side of the output shaft 21 is attached to the bearing hole 33. A centrifugal cooling fan 35 is attached to the output shaft 21 between the current plate 31 and the rotor 22 and the stator 23 of the drive motor 20, and the cooling fan 35 rotates together with the output shaft 21. The centrifugal cooling fan 35 has a central opening 36 for sucking air and a peripheral opening 37 for discharging the sucked air.
[0006]
When the centrifugal cooling fan 35 rotates, cooling air enters through an opening 24a formed in the rear part of the motor frame 24 as shown by an arrow P, and the air flows between the rotor 22 and the stator 23 as shown by an arrow Q. Cooling air passes through the gap to cool the rotor 22 and the stator 23. This cooling is sucked from the central opening 36 of the cooling fan 35 and discharged from the peripheral opening 37, and flows out of the motor frame 24 through the hole 28 of the flange 27.
[0007]
On the other hand, the air sucked from the central opening 29a by the rotation of the centrifugal fan 29 is discharged from the peripheral opening 29b. The discharged air is guided outward by the rectifying plate 31 and flows outside without entering the motor frame 24 as shown by the arrow R. As a result, it became possible to suck in moisture.
[0008]
[Problems to be solved by the invention]
However, in the conventional electric blower configured as described above, since there is no partition between the centrifugal cooling fan 35 and the drive motor 20, the air discharged from the peripheral opening 37 of the centrifugal cooling fan 35 has a central opening. A circulating airflow flowing into the cooling fan 35 was generated, and the temperature of the air flowing in the cooling fan 35 was increased by frictional heat with the cooling fan 35 rotating at a high speed.
[0009]
Further, since the bearing 34 is located on the back side of the centrifugal fan 29 and the cooling fan 35, the bearing 34 is not exposed to the cooling air, and the temperature of the bearing 34 rises. For example, the internal lubricating grease hardens and deteriorates. For example, the life of the bearing 34 is shortened.
[0010]
SUMMARY OF THE INVENTION The present invention solves the above-described problems, and improves the cooling efficiency, prevents deterioration due to a rise in the temperature of a motor portion, and further prevents the deterioration of a bearing in a motor portion due to a rise in temperature. The purpose is to obtain a life-long electric blower.
[0011]
[Means for Solving the Problems]
An electric blower according to the present invention includes a motor unit, a frame of the motor unit, a blower fan provided on a shaft of the motor unit, for discharging air sucked from a front central opening from a peripheral edge, and a rear side of the blower fan. A cooling fan that is provided on the side and discharges air sucked from the rear of the frame from the peripheral edge, and a partition member that is provided on the upstream side of the cooling fan and partitions the motor unit side and the cooling fan side, The cooling fan has a suction port formed in the center thereof, the partition member has a ventilation hole in the center, and a path of an air flow flowing inside the electric blower is formed by an air flow generated by rotation of the blower fan and cooling. is divided into an air flow generated by the rotation of the fan, the bearing located in the vicinity of the cooling fan is disposed in the vent and suction port of the cooling fan of the partition member And butterflies.
Further, an electric blower according to the present invention includes a motor unit, a frame of the motor unit, a blower fan provided on a shaft of the motor unit and discharging air sucked from a front central opening from a peripheral edge, and a blower fan. A cooling fan that is provided on the rear side and discharges air sucked from the rear of the frame from the peripheral edge, and a partition member that is provided on the upstream side of the cooling fan and separates the motor unit side and the cooling fan side. The cooling fan has a suction port formed in the center thereof, the partition member has a ventilation hole in the center, an exhaust port for discharging the air sucked by the blower fan, and the air sucked by the cooling fan. respectively a vent for discharging a bearing located in the vicinity of the cooling fan is characterized in that it is arranged to vent and suction port of the cooling fan of the partition member
[0012]
Further, the blower fan and the cooling fan are integrally formed via a plate.
[0013]
BEST MODE FOR CARRYING OUT THE INVENTION
Embodiment 1 FIG.
FIG. 1 is a half sectional view of an electric blower according to a first embodiment of the present invention, FIG. 2 is an enlarged sectional view thereof, and FIG. 3 is an exploded sectional view thereof. In the figure, reference numeral 1 denotes a bottomed cylindrical motor frame having an opening at one end side, a plurality of ventilation holes 1a on the side surface, and a bearing housing 1b at the center at the other end side, and the inside thereof is connected to the stator 2 at high speed. The rotating rotor 3 and the like are included. Reference numeral 4 denotes a bracket fixed to the opening side of the motor frame 1 and having a bearing housing 4a at a central portion. The bracket 4 has a first ventilation port 4b around the bearing housing 4a, and is provided on the outer periphery of the first ventilation port 4b. Is provided with a plurality of second vents 4c. Reference numeral 5 denotes a motor unit, and a shaft 6 of the rotor 3 is supported by bearing housings 1b and 4a of the motor frame 1 and the bracket 4 via a bearing 7. Reference numeral 8 denotes a blower fan fixed to the shaft 6 of the rotor 3 and having a suction port 8a formed at the center thereof, and rotates together with the rotor 3. Reference numeral 9 denotes a cooling fan provided on the rear side (the motor unit 5 side) of the blower fan 8 and having a suction port 9a formed at the center thereof, and rotates together with the rotor 3 like the blower fan 8. Reference numeral 10 denotes a plate formed integrally with the blade 8b of the blower fan 8 and the blade 9b of the cooling fan 9, and has a shaft hole 10a passing through the shaft 6 at the center. The blower fan 8, the cooling fan 9, and the plate 10 are fixed to the shaft 6 by screws 6a.
[0014]
In the vicinity of the suction port 9a of the plate 10 on the cooling fan 9 side, a bearing housing 4a of the bracket 4 in which the bearing 7 is accommodated is located. Reference numeral 11 denotes a partition member for partitioning the cooling fan 9 and the motor section 5. The partition member 11 has a vent 11 a having a diameter substantially equal to the suction port 9 a of the cooling fan 9 in the center, and the first vent 4 b and the second vent 4 b of the bracket 4. It has a cylindrical leg 11b for partitioning from the vent 4c, and a blade 11c for guiding the air discharged from the cooling fan 9 to the second vent 4c of the bracket 4 is provided outside the leg 11b. I have. Reference numeral 12 denotes a casing which is provided on the upper end surface of the blade 11c of the partition member 11, is press-fitted and fixed to the outer peripheral portion of the bracket 4, and partitions the blower fan 8 side and the cooling fan 9 side, and has an opening 12a in the center. ing. The peripheral portion of the opening 12 a of the casing 12 is bent toward the blower fan 8, and is provided in the annular groove 10 b via a gap so as not to contact the annular groove 10 b provided on the outer periphery of the plate 10. I have.
[0015]
Reference numeral 13 denotes a guide blade that is fixed to the casing 12 and guides air discharged from the blower fan 8 in an outer peripheral direction. Reference numeral 14 denotes a fan cover that covers the blower fan 8 and the guide blade 13, and has a suction port 14a in a central portion. In addition, a plurality of exhaust ports 14b for discharging the air guided in the outer peripheral direction by the guide blades 13 to the outside are provided on the side surface.
[0016]
Next, the operation will be described.
First, when the motor unit 5 is driven, the blower fan 8 and the cooling fan 9 attached to the shaft 6 of the rotor 3 rotate. Then, the air sucked from the blower fan 8 passes through the inside of the blower fan 8 and is discharged from the peripheral edge of the blower fan 8 as shown by an arrow A in the drawing, while being rectified by the guide blades 13 and recovering the pressure, The air is exhausted from a plurality of exhaust ports 14b provided on the side surface of the fan cover 14.
[0017]
On the other hand, the air sucked from the cooling fan 9 flows through the ventilation port 1a of the motor frame 1 as shown by an arrow B in the figure to cool the stator 2 and the rotor 3 and the like. The bearing 7 accommodated in the bearing housing 4a of the bracket 4 located on the upstream side of the opening 9a is cooled. After that, it flows into the suction port 9 a, passes through the inside of the cooling fan 9, is discharged from the peripheral edge of the cooling fan 9, is guided by the blade 11 c, and is discharged to the outside through the second ventilation port 4 c of the bracket 4.
[0018]
In this series of operations, since the annular groove 10b of the plate 10 and the bent portion 12a of the casing 12 have a sealed structure, the air discharged from the blower fan 8 does not flow into the motor unit 5 side. Even if it flows in a little, the exhaust pressure of the cooling fan 9 causes the air discharged from the cooling fan 9 and the air to be discharged to the outside through the second ventilation port 4c of the bracket 4 through the blade 11c of the partition member 11. . Therefore, suction of moisture is also possible.
[0019]
According to the first embodiment, the air sucked from cooling fan 9 cools stator 2, rotor 3, bearing 7, and the like, and is then sucked into cooling fan 9 from suction port 9 b, and the second ventilation It is discharged from the mouth 4c. Therefore, cooling of the motor unit 5 can be performed, and deterioration of grease due to a rise in the temperature of the bearing 7 can be prevented, so that a long-life electric blower can be obtained.
[0020]
Further, since the cooling fan 9 and the motor unit 5 are partitioned by the partition member 11, it is possible to prevent the air discharged from the cooling fan 9 from circulating in the motor unit 5, thereby improving the cooling efficiency. It is possible to prevent the motor section 5 from deteriorating due to a temperature rise. Therefore, a high-efficiency and long-life electric blower can be obtained.
[0021]
Embodiment 2 FIG.
FIG. 4 is an enlarged sectional view of an electric blower according to Embodiment 2 of the present invention, and FIG. 5 is an exploded sectional view thereof. In the figure, the same components as those in the first embodiment are denoted by the same reference numerals, and description thereof will be omitted. Reference numeral 15 denotes a cooling fan, and 16 denotes a blowing fan. The cooling fan 15 and the blowing fan 16 are provided via washers 17 respectively. In the first embodiment, the blade 8a of the blower fan 8 and the blade 9a of the cooling fan 9 are integrally formed on the plate 10. However, in the second embodiment, the cooling fan is provided on the rear surface of the blower fan via a washer. Shows what was attached. Reference numeral 18 denotes a washer provided between the screw 6a and the blower fan 16.
[0022]
When the motor unit 5 is driven, the cooling fan 15 and the blower fan 16 attached to the shaft 6 of the rotor 3 rotate. Then, the air sucked from the suction port 16a of the blower fan 16 passes through the inside of the blower fan 16 and is discharged from the periphery of the blower fan 16 as shown by an arrow A in the figure, and is rectified by the guide blades 13 to recover the pressure. Meanwhile, the air is exhausted to the outside through a plurality of exhaust ports 14b provided on the side surface of the fan cover 14.
[0023]
On the other hand, air sucked from the suction port 15a of the cooling fan 15 flows through the ventilation port 1a of the motor frame 1 as shown by an arrow B in the figure, and cools the stator 2, the rotor 3 and the like. The bearing 7 accommodated in the bearing housing 4a of the bracket 4 located on the upstream side of the suction port 9a of the fan 9 is cooled. After that, it flows into the suction port 15 a, passes through the cooling fan 15, is discharged from the periphery of the cooling fan 15, is guided by the blade 11 c, and is discharged to the outside through the second ventilation port 4 c of the bracket 4.
[0024]
According to the second embodiment, the same effect as that of the first embodiment can be obtained, and the cooling fan 15 and the blower fan 16 are configured as separate components. Thus, only the cooling fan 15 can be replaced.
[0025]
【The invention's effect】
As described above, according to the present invention, the cooling efficiency is improved, the deterioration of the motor unit due to the temperature rise can be prevented, and a high-efficiency and long-life electric blower can be obtained.
[0026]
In addition, since the bearing is disposed at the ventilation port of the partition member and the suction port of the cooling fan, the air sucked from the cooling fan can cool the motor part and the bearing of the motor part. Deterioration of grease can be prevented, and a long-life electric blower can be obtained.
[Brief description of the drawings]
FIG. 1 is a half sectional view of an electric blower according to Embodiment 1 of the present invention.
FIG. 2 is an enlarged sectional view of FIG.
FIG. 3 is an exploded sectional view of the electric blower showing the first embodiment of the present invention.
FIG. 4 is an enlarged sectional view of an electric blower according to Embodiment 2 of the present invention.
FIG. 5 is an exploded cross-sectional view of an electric blower according to Embodiment 2 of the present invention.
FIG. 6 is a sectional view showing a conventional electric blower.
[Explanation of symbols]
1 motor frame, 1a vent, 1b bearing housing, 2 stators,
3 rotor, 4 bracket, 4a bearing housing, 4b first vent,
4c 2nd vent, 5 motor section, 6 shafts, 7 bearings, 8 blower fan,
8a suction port, 9 cooling fan, 9a suction port, 10 plates,
11 partition member, 11a vent, 11b leg, 11c blade,
12 casing, 12a opening, 13 guide vane, 14 fan cover,
14b exhaust port, 15 cooling fan, 16 blower fan, 17 washer,
18 Washer.

Claims (3)

A motor section, a frame of the motor section, a blower fan provided on a shaft of the motor section, for discharging air sucked from a front central opening from a peripheral edge, and a blower fan provided at a rear side of the blower fan; A cooling fan that discharges air sucked from the rear from a peripheral edge, and a partition member that is provided on an upstream side of the cooling fan and separates the motor unit side and the cooling fan side, and the cooling fan has a central portion. A suction port is formed, the partition member has a vent in the center, and a path of an air flow flowing through the inside of the electric blower includes an air flow generated by rotation of the blower fan and an air flow generated by rotation of the cooling fan. And a bearing located in the vicinity of the cooling fan is disposed at a vent of the partition member and a suction port of the cooling fan . A motor section, a frame of the motor section, a blower fan provided on a shaft of the motor section, for discharging air sucked from a front central opening from a peripheral edge, and a blower fan provided at a rear side of the blower fan; A cooling fan that discharges air sucked from the rear from a peripheral edge, and a partition member that is provided on an upstream side of the cooling fan and separates the motor unit side and the cooling fan side, and the cooling fan has a central portion. A suction port is formed, the partition member has a vent in the center, and an exhaust port for discharging air sucked by the blower fan and a vent port for discharging air sucked by the cooling fan are provided , respectively . The electric blower according to claim 1, wherein a bearing located near the cooling fan is disposed at a vent of the partition member and a suction port of the cooling fan . The electric blower according to claim 1, wherein the blower fan and the cooling fan are formed integrally via a plate.

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