JPH1026099A - Motor-driven blower - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a motor-driven blower to reduce incurring of a loss of an air current sucked from a blast fan and be high in blast efficiency. SOLUTION: A motor-driven blower comprises a blast fan 6 rotationally driven by a motor 1; a bracket 5 to which a guide vane 9 to guide an air flow sucked from the blast fan 6 to a motor 1 is fixed and to the peripheral edge part of which a fan cover 10 to cover the blast fan is fixed; an exhaust port 4a to exhaust an air flow from the guide vane 9', a motor frame 4 at the interior of which the motor 1 is fixed; and a plurality of exhaust ports 5a formed in the top surface on the motor frame 4 side of the bracket 5. An air flow from the blast fan 6 is discharged from both the exhaust ports 4a and 5a of the bracket 5 and the motor frame 4.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to an electric blower used for a vacuum cleaner or the like.

[0002]

2. Description of the Related Art FIG. 4 is a sectional view showing a conventional electric blower. Reference numeral 1 denotes a motor having an exhaust port 4a, a motor frame 4 having a stator 2 and a rotor 3 rotating at a high speed therein, a motor comprising a bracket 5 fixed to the motor frame 4, and the like. A blower fan 9 fixed to a shaft 7 of the shaft 3 by a nut 8 and rotating together with the rotor 3; 9 is a guide blade provided with a diffuser 9a for rectifying the airflow sucked from the blower fan 6 and a return guide 9b for guiding the airflow to the motor unit 1. Reference numeral 10 denotes a fan cover that covers the blower fan 6 and is press-fitted and fixed to the bracket 5.

[0003]

According to the conventional electric blower constructed as described above, the airflow sucked from the blower fan is, as indicated by the arrow in the figure, at the fan cover and the inner peripheral wall of the bracket. It turned 180 degrees, all passed through the inside of the motor, and were discharged from the exhaust port of the motor frame. For this reason, when the airflow is turned by 180 ° on the inner wall of the outer periphery of the fan cover and the bracket, a pressure loss occurs, which causes a decrease in the air blowing efficiency.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and reduces a pressure loss due to turbulent flow when an airflow sucked from a blower fan is turned on a fan cover and an inner wall of an outer peripheral portion of a bracket. The purpose is to obtain an electric blower having a high blowing efficiency.

[0005]

In an electric blower according to the present invention, a blower fan driven to rotate by a motor, guide blades for guiding an airflow sucked from the blower fan to the motor, and the guide blades are fixed. A bracket on which a fan cover for covering the blower fan is fixed at a peripheral portion thereof, and a motor frame fixed to the bracket and having an exhaust port for exhausting airflow from the guide blades, and the motor being fixed therein. And a plurality of exhaust ports are provided on the top surface of the bracket on the motor frame side, and airflow from the blower fan is discharged from both the bracket and the exhaust frame of the motor frame.

In addition, the total area of the exhaust port provided on the top surface of the bracket on the motor frame side is smaller than the total area of the exhaust port of the motor frame.

Further, a blower fan driven to rotate by a motor, a guide blade provided with a return guide for guiding an air flow sucked from the blower fan to the motor, the guide blade is fixed, and the blower fan is attached to a peripheral portion. An electric blower, comprising: a bracket to which a fan cover to be fixed is fixed; and an exhaust port fixed to the bracket and having an exhaust port for exhausting an airflow from the guide blade, and a motor frame in which the motor is fixed. A plurality of exhaust ports are provided on a top surface of the bracket on the motor frame side, and an outer peripheral edge of the exhaust port provided on the bracket is substantially aligned with an outer peripheral end of the return guide, and suction is performed by the blower fan. The airflow is discharged from both the bracket and the exhaust port of the motor frame.

[0008]

BEST MODE FOR CARRYING OUT THE INVENTION

Embodiment 1 FIG. FIG. 1 is a sectional view of an electric blower showing a first embodiment of the present invention, and FIG. 2 is a second embodiment of the present invention.
It is a perspective view of the electric blower shown in FIG. In the figure, 1 is a motor having a stator 2 and a rotor 3 rotating at a high speed, 4 is a motor frame to which the motor 1 is fixed, 5 is fixed to the motor frame 4 and 5 is a motor frame to which the motor 1 is fixed. A motor composed of a bracket 5 and the like having a plurality of exhaust ports 5a on the top surface of the side; a blower 6 fixed to a shaft 7 of a rotor 3 of the motor 1 by a nut 8 and rotating together with the rotor 3; The guide vanes 10 each include a diffuser 9 a for rectifying the airflow sucked from the blower fan 6 and a return guide 9 b for guiding the airflow to the motor unit 1.
And a fan cover press-fitted and fixed to the bracket 5.

The total area of the exhaust port 5a of the bracket 5 is slightly smaller (70-80%) than the total area of the exhaust port 4a of the motor frame 4.

In the electric blower constructed as described above, when the motor 1 is driven, the blower fan 6 attached to the rotor 3 and the shaft 7 rotates, and the airflow sucked from the blower fan 6 is shown in FIG. As indicated by the arrow, the air passes through the inside of the blower fan 6, is rectified by the diffuser 9 a of the guide blade 9, turns about 90 ° between the fan cover 10 and the inner peripheral wall of the bracket 5, and is discharged from the exhaust port 5 a of the bracket 5. The airflow turns 180 ° and is guided into the motor 1 by the return guide 9 b of the guide blade 9, and is separated into an airflow discharged from the exhaust port 4 a of the motor frame 4 while cooling the motor 1. At this time, about half of the airflow sucked from the blower fan 6 is exhausted from the exhaust port 5a of the bracket 5 having a small turning angle according to the experimental result.

Therefore, the loss of pressure at the turning portion is reduced and high air blowing efficiency is obtained as compared with the case where the air flow is turned by 180 degrees and all air is guided to the motor frame side as in the conventional example. be able to.

Further, by making the total area of the exhaust port 5a of the bracket 5 smaller than the total area of the exhaust port 4a of the motor frame 4, and reducing the exhaust resistance from the exhaust port 4a of the motor frame 4, a motor having a small exhaust resistance is provided. Since the airflow sucked from the blower fan easily flows into the frame 4 side, the temperature rise of the motor can be suppressed.

Although the airflow flowing through the motor frame 4 is reduced and the cooling efficiency is slightly reduced, the experimental results show that the temperature is within the temperature range of the characteristic conditions of the motor.

Further, the airflow discharged from the exhaust port 5a of the bracket 5 is discharged along the side surface of the motor frame 4 so that a guide or the like is attached to the exhaust port 5a of the bracket 5 to suppress a rise in motor temperature. Can be.

Embodiment 2 FIG. 3 is a plan view of an electric blower according to Embodiment 3 of the present invention. In the figure,
Reference numeral 5 denotes a bracket having an exhaust port 5a. Reference numeral 9b denotes a return guide provided on guide vanes for guiding the airflow sucked from the blower fan into the inside of the motor 1. The return guide is provided on the outer peripheral side edge 12 of the exhaust port 5a provided on the bracket 5. , And substantially coincide with the outer peripheral end 11 of the return guide.

In the electric blower constructed as described above, the airflow sucked from the blower fan passes through the diffuser 9a of the guide blade 9, and the airflow turned on the fan cover 10 and the inner peripheral wall of the bracket 5 has a swirl component. Therefore, there are ones that exhaust from the exhaust port 5 a of the bracket 5 and ones that collide with the inner wall of the return guide 9 b of the guide blade 9.

Since the airflow discharged from the exhaust port 5a has a small turning angle, it is about half of the airflow sucked from the blower fan, and the airflow sucked from the blower fan is turned by 180 °, and all the airflow is guided to the motor frame side. The pressure loss at the turning portion is halved as compared with that of the turning portion, and a high air blowing efficiency can be obtained.

Further, since the outer peripheral edge 12 of the exhaust port 5a provided on the bracket 5 is made substantially coincident with the outer peripheral end 11 of the return guide, the airflow colliding with the inner wall of the return guide 9b of the guide blade 9 is reduced. Inner circumference 13 of return guide 9b
Can flow along the motor frame 4 side, and the temperature rise of the motor can be suppressed.

[0019]

According to the present invention, a blower fan driven to rotate by a motor, a guide blade for guiding an airflow sucked from the blower fan to the motor, the guide blade is fixed, and the blower fan is provided at a peripheral portion. A bracket to which a fan cover is fixed, and an exhaust port which is fixed to the bracket and exhausts airflow from the guide blade,
An electric blower including a motor frame in which the motor is fixed, a plurality of exhaust ports provided on a top surface of the bracket on the motor frame side, and an airflow from the blower fan is exhausted from the bracket and the motor frame. B), the airflow sucked from the blower fan is reduced in pressure loss due to turbulent flow when the airflow turns on the fan cover and the inner peripheral wall of the bracket, and an electric blower with high blowing efficiency can be obtained. .

Further, since the total area of the exhaust port provided on the top surface of the bracket on the motor frame side is smaller than the total area of the exhaust port of the motor frame, about half of the airflow sucked from the blower fan is turned. Since the air is discharged from the exhaust port of the bracket having a small angle and easily flows into the motor frame side having a low exhaust resistance, it is possible to obtain an electric blower having high air blowing efficiency and also suppress a rise in the temperature of the motor.

Further, a blower fan which is driven to rotate by a motor, a guide blade provided with a return guide for guiding the air flow sucked from the blower fan to the motor, the guide blade is fixed, and the blower fan is attached to a peripheral portion. An electric blower, comprising: a bracket to which a fan cover to be fixed is fixed; and an exhaust port fixed to the bracket and having an exhaust port for exhausting an airflow from the guide blade, and a motor frame in which the motor is fixed. A plurality of exhaust ports are provided on the top surface of the bracket on the motor frame side, and the outer peripheral edge of the exhaust port provided on the bracket is substantially aligned with the outer peripheral end of the return guide, and suction is performed from the blower fan. Since the airflow was discharged from both the bracket and the exhaust port of the motor frame, the airflow sucked from the blower fan , With about half of which is exhausted from the exhaust port of a small bracket of turning angle, since the flow into the motor frame side along the inner periphery of the return guide,
An electric blower with high blowing efficiency can be obtained, and a rise in motor temperature can be suppressed.

[Brief description of the drawings]

FIG. 1 is a cross-sectional view of an electric blower showing a first embodiment of the present invention.

FIG. 2 is a perspective view of the electric blower showing the first embodiment of the present invention.

FIG. 3 is a plan view of an electric blower showing a second embodiment of the present invention.

FIG. 4 is a sectional view showing a conventional electric blower.

[Explanation of symbols]

1 motor, 2 stator, 3 rotor, 4 motor frame, 4a exhaust port, 5 bracket, 5a exhaust port
6 blower fan, 7 axis, 8 nut, 9 guide blade,
9a diffuser, 9b return guide, 10
Fan cover, 11 Return guide outer peripheral end, 12
Bracket exhaust port outer peripheral edge.

Claims (3)

[Claims] 1. A blower fan that is driven to rotate by a motor, a guide blade that guides an airflow sucked from the blower fan to a motor, and a fan cover that fixes the guide blade and covers the blower fan at a peripheral edge portion. A motor frame having a bracket fixed to the bracket, and an exhaust port fixed to the bracket for exhausting airflow from the guide vanes, and a motor frame in which the motor is fixed. An electric blower, comprising: a plurality of exhaust ports on a top surface thereof, wherein airflow from the blower fan is exhausted from both the bracket and an exhaust roller of the motor frame. 2. The electric blower according to claim 1, wherein the total area of the exhaust port provided on the top surface of the bracket on the motor frame side is smaller than the total area of the exhaust port of the motor frame. 3. A blower fan rotated by a motor, a guide blade provided with a return guide for guiding an airflow sucked from the blower fan to the motor, and the guide blade is fixed and the blower fan is mounted on a peripheral portion. An electric blower comprising: a bracket to which a fan cover to be fixed is fixed; and an exhaust port fixed to the bracket, which has an exhaust port for exhausting airflow from the guide vanes, and a motor frame in which the motor is fixed. A plurality of exhaust ports are provided on a top surface of the bracket on the motor frame side, and an outer peripheral edge of the exhaust port provided on the bracket is substantially aligned with an outer peripheral end of the return guide, and suction is performed by the blower fan. An electric blower, wherein airflow is discharged from both the bracket and an exhaust port of the motor frame.