KR20030070765A - The centrifugal blower for a cleaner - Google Patents

Abstract

PURPOSE: A centrifugal blower for a vacuum cleaner is provided to reduce the flow resistance of air and to improve blowing efficiency by forming an inclined air passage. CONSTITUTION: A suction port(52a) is formed at the upper center of a cone-shaped impeller cover(52). An impeller(54) is rotatably installed at the inside of the impeller cover. A blade(54c) inclines to a rotary shaft, and the impeller sucks air obliquely and reduces the flow resistance of air. A motor(60) is connected to the impeller by the rotary shaft, and rotates the impeller. A diffuser(56) is installed at the outer circumference of the impeller, and supplies air passed through the impeller. A guide vane(58) is located at the lower part of the diffuser, and guides the air into the motor.

Description

Centrifugal blower for vacuum cleaners {The centrifugal blower for a cleaner}

The present invention relates to a centrifugal blower for vacuum cleaners, and more particularly, to a centrifugal blower for vacuum cleaners having an inclined flow path in order to reduce the flow resistance of the air being blown.

In general, a vacuum cleaner is a vacuum cleaner that generates suction power and removes foreign substances such as dust by suction power. Recently, the vacuum cleaner is focused on developing a low noise and high absorption input product.

1 is a perspective view showing a general vacuum cleaner, Figure 2 is a cross-sectional view taken along the line A-A of Figure 1, Figure 3 is a cross-sectional view showing a centrifugal blower for a vacuum cleaner according to the prior art.

Generally, the vacuum cleaner is detachably equipped with a main body 4 having a dust collecting bag 2 and a centrifugal blower 20 and the like inserted into the insertion hole 4a of the main body, as shown in FIGS. 1 and 2. Connecting part (5) and the suction hose (6) that is inserted and installed, and the handle portion (8) integrally provided with a control unit (7) which is detachably installed at the other end of the suction hose (6) and controls the operation of the vacuum cleaner. And an extension pipe 10 detachably installed at the other end of the handle 8 and a suction part 12 detachably installed at the other end of the extension pipe 10 to suck dust.

Here, a dust collecting bag 2 for filtering dust and the like from the air sucked along the suction passage is installed inside the main body 4, and the air is sucked in the rear of the dust collecting bag 2. The centrifugal blower 20 for generating a suction force can be mounted.

Air passing through the centrifugal blower 20 in this way exits through the exhaust port 4b formed at the rear of the main body 4.

In particular, the centrifugal blower 20 has an impeller 24 installed inside the impeller cover 22 having a large suction port 22a formed at the upper end thereof, as shown in FIG. 3, and is connected to the lower end of the impeller cover 22 and has a side surface. A motor 30 is installed inside the motor housing 23 having a plurality of discharge ports 23a formed therein to rotate the impeller 24.

Here, the impeller 24 is provided with a plurality of blades 24c in the circumferential direction inside the disk-shaped upper and lower covers 24a and 24b.

In addition, a diffuser 26 is formed between the impeller 24 and the motor 30 to pump air from the outlet 24e of the impeller, and the air pumped by the diffuser 26 is formed thereon. A disk-shaped support portion 27 having a guide vane 28 for guiding toward the motor 30 side is provided.

Here, the motor 30 is composed of a stator 32 fixed to the motor housing 23, a rotor 34 installed at a predetermined interval inside the stator 32, and the motor 30 and The impeller 24 is connected by the rotation shaft 29.

Looking at the operation of the prior art configured as described above are as follows.

First, when the motor 30 is operated, while the impeller 24 connected to the motor 30 is rotated, air is sucked into the inlet portion 24d of the impeller through a 90 ° flow through the inlet port 22a, and the blade ( Out through the outlet portion 24e of the impeller along 24c).

Thereafter, the air discharged through the outlet portion 24e of the impeller is pushed by the diffuser 26, and the air pushed by the diffuser 26 is introduced into the guide vane 28 by bending the 180 ° flow. The air introduced into the guide vanes 28 is guided to the motor 30 along the guide vanes 28.

The air introduced to the motor side is cooled while passing through the rotor 34 and the stator 32 which operate at a high speed, and then discharged through the discharge port 23a of the motor housing 23.

However, the vacuum blower centrifugal blower according to the prior art has a 90 ° flow break when air is introduced into the impeller through the suction port, and also 180 ° flow break occurs when the air flows into the guide vane through the diffuser As a result, there is a problem in that a large flow loss and noise are generated due to a collision.

The present invention has been made to solve the above problems of the prior art, by increasing the blowing efficiency by reducing the flow path resistance of the air by forming a flow path through which the air flowing through the inlet through the impeller, diffuser and guide vane gently The purpose of the present invention is to provide a centrifugal blower for a vacuum cleaner that can reduce noise and reduce the diameter of an impeller.

1 is a perspective view of a typical vacuum cleaner,

2 is a cross-sectional view taken along the line A-A of FIG.

3 is a cross-sectional view showing a centrifugal blower for a vacuum cleaner according to the prior art,

4 is a cross-sectional view showing a first embodiment of a centrifugal blower for a vacuum cleaner according to the present invention;

5 is a perspective view showing a diffuser and a guide vane mounted on the first embodiment of the centrifugal blower for a vacuum cleaner according to the present invention;

6 is a cross-sectional view showing a second embodiment of the centrifugal blower for vacuum cleaners according to the present invention;

7 is a perspective view showing a diffuser and a guide vane mounted in a second embodiment of the centrifugal blower for a vacuum cleaner according to the present invention.

<Explanation of symbols on main parts of the drawings>

52: impeller cover 54: impeller

56 diffuser 57 support

58: guide vane 60: motor

The vacuum blower centrifugal blower according to the present invention for solving the above problems is disposed inside the impeller cover in which the suction port is formed so that the blade has a predetermined angle of inclination with respect to the rotation axis and the air inclined suction to reduce the flow resistance of the air and ,

A motor connected to the impeller and a rotating shaft to rotate the impeller;

A diffuser positioned at an outer circumference of the impeller and for conveying air passing through the impeller;

And a guide vane positioned below the diffuser to guide the air compressed by the diffuser to the motor side.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 4 is a cross-sectional view showing a first embodiment of the centrifugal blower for vacuum cleaners according to the present invention, Figure 5 is a perspective view showing a diffuser and a guide vane mounted on the first embodiment of the centrifugal blower for a vacuum cleaner according to the present invention to be.

In the first embodiment of the centrifugal blower for a vacuum cleaner according to the present invention, as shown in FIG. 4, an inlet port 52a is formed at the center of the upper surface, and a hollow conical impeller cover 52 and the impeller cover 52 are provided. Impeller 54 and rotatably installed inside the blade 54c is disposed to have a predetermined inclination angle with respect to the rotation axis 59 to intake the air inclined to reduce the flow resistance of the air, and the impeller cover 52 A motor housing 53 coupled to a lower end and having a plurality of discharge ports 53a formed on a side thereof, and installed inside the motor housing 53 and connected by the impeller 54 and the rotation shaft 59 to the impeller 54. It is configured to include a motor (60) for rotating.

And, between the impeller 54 and the motor 60, a diffuser 56 for pumping air passing through the impeller 54 is formed on the upper surface, the air compressed by the diffuser 56 on the lower surface of the The support part 57 in which the guide vane 58 which guides to the motor 60 side is formed is provided.

Here, the impeller 54 has a plurality of blades 54c curved in the circumferential direction between the upper and lower covers 54a and 54b of the hollow cone shape having a predetermined inclination angle α with respect to the rotation axis 59. The air introduced from the suction port 52a is blown toward the diffuser 56 provided outside the impeller 54 along the inclined upper and lower covers 54a and 54b and the blade 54c.

In particular, the upper and lower cover (54a, 54b) of the impeller is formed to have a predetermined inclination angle (α) with respect to the rotation axis 59, the inclination angle (α) is formed to be inclined 95 ° to 120 ° inlet ( When the air sucked through 52a) passes through the impeller 54, the flow resistance can be reduced.

In addition, the blade 54c of the impeller is also formed such that the inlet portion 54d into which air is introduced has a predetermined angle of inclination β with respect to the rotation axis 59, and the angle of inclination β is 5 ° to 25 °. It is formed to be, and the outlet portion 54e of the blade is also formed to have a predetermined inclination angle (γ) with respect to the rotation axis 59, the inclination angle (γ) is formed so as to be 5 ° to 20 ° intake port ( The air introduced from 52a is smoothly flowed in and out to the blade 54c side.

Meanwhile, as shown in FIG. 5, the support part 57 has a disk shape, and a hole 57h is formed in the center thereof so that the rotation shaft 59 can penetrate therethrough, and a plurality of diffusers 56 are arranged in the circumferential direction around the upper and lower surfaces thereof. ) And guide vanes 58 are formed, and the inlet portion 56a of the diffuser has a predetermined inclination angle with respect to the rotating shaft 59 connected to the motor 30 so as to face the inclined shape of the impeller outlet portion 54e. θ).

Therefore, the air passing through the impeller 54 formed to be inclined with respect to the rotation shaft 59 may smoothly flow into the inlet portion 56a of the diffuser formed to be inclined with respect to the rotation shaft 59, thereby reducing the flow resistance.

Figure 6 is a cross-sectional view showing a second embodiment of the vacuum blower centrifugal blower according to the present invention, Figure 7 is a perspective view showing a diffuser and a guide vane mounted on a second embodiment of the vacuum blower centrifugal blower according to the present invention to be.

The second embodiment of the centrifugal blower for a vacuum cleaner according to the present invention also has the same configuration as the first embodiment, but as shown in Figs. 6 and 7, a plurality of diffusers 76 and guides in the circumferential direction, respectively, on the upper and lower surfaces. The support 77 having the vanes 78 formed therein is formed in a hollow cone shape having a predetermined inclination angle δ with respect to the rotation axis 59 connecting the motor 60 and the impeller 54 to pass through the impeller 54. One air flows smoothly into the diffuser 76 side.

Of course, the inlet portion 76a of the diffuser 76 is formed to be inclined at a predetermined angle θ with respect to the rotation axis 59.

In addition, the guide vanes 78 formed around the lower surface of the support part 77 may have an upper end inclined upwardly so that the upper end thereof is coupled to the lower end of the support part 77.

Therefore, since the space between the rotary shaft 59 and the guide vanes 58 is widened, the air passing through the guide vanes 78 is sufficiently mixed in the space R and flows into the motor 60. The cooling efficiency of the motor 60 can be improved.

Looking at the operation of the present invention configured as described above are as follows.

First, when the motor 60 is operated, while the impeller 54 connected by the motor 60 and the rotating shaft 59 is rotated, the air is sucked into the inlet portion 54d of the impeller and tilted while the impeller 54 is rotated. It exits through the outlet part 54e of the impeller along the installed blade 54c.

Here, since the inlet portion 54d of the impeller is formed to have a predetermined inclination angle β with respect to the rotation axis 59, air separation does not occur, and smoothly flows into the blade 54c side of the impeller.

In addition, since the impeller 54 is also installed to have a predetermined inclination angle α with respect to the rotation shaft 59, air is diffused 56 along the gentle slope of the blade 54c and the upper and lower covers 52a and 52b. Blowing to the) side can increase the blowing efficiency.

Next, the air exiting the outlet portion 54e of the impeller flows into the inlet portion 56a of the diffuser formed to have a predetermined inclination angle θ with respect to the rotating shaft 59 and passes through the diffuser 56. It is pressed to the guide vane 58 side.

Therefore, the air exiting the outlet 54e of the impeller may not only reduce noise because the time that the air enters the upper and lower sides of the diffuser 56 is different when the air is introduced into the inlet 56a of the diffuser. Since air is introduced into the diffuser 56 without colliding with the inlet portion 56a of the diffuser, it is possible to improve the blowing efficiency.

Thereafter, the air pressurized by the diffuser 56 is guided by the guide vanes 58 and mixed in the space R between the rotary shaft 59 and the guide vanes 58 and flows into the motor 60. do.

In this way, the air introduced into the motor 60 is cooled while passing through the rotor 64 and the stator 62 which operate at a high speed, and then discharged through the discharge port 53a of the motor housing 53.

The centrifugal blower for vacuum cleaners according to the present invention configured as described above has an impeller in which blades are disposed to have a predetermined inclination angle with respect to a rotating shaft connected to a motor, so that the air introduced through the intake port has an impeller, a diffuser and a guide vane. Since a gentle flow path is formed, the flow path resistance of the air is reduced to increase the blowing efficiency, and the impeller is installed to be inclined with respect to the rotating shaft, thereby reducing the diameter.

In addition, since the inlet portion of the diffuser is inclined, when the air passing through the impeller flows into the diffuser side, the time that the air flows into the upper and lower sides of the diffuser is changed to reduce noise.

In addition, the upper and lower surfaces, respectively, the support portion is provided with a diffuser and the guide vane is formed to have a predetermined inclination angle with respect to the rotation axis, the guide vane is formed in the upper end is inclined so as to be installed on the lower end of the support portion between the rotating shaft and the guide vane Since the air is sufficiently mixed in the inflow to the motor side, there is an advantage to increase the cooling efficiency of the motor.

Claims (8)

An impeller in which an inlet is formed so that a blade has a predetermined inclination angle with respect to a rotating shaft inside the impeller cover, and the inlet sucks the air obliquely to reduce the flow resistance of the air; A motor connected to the impeller and a rotating shaft to rotate the impeller; A diffuser positioned at an outer circumference of the impeller and for conveying air passing through the impeller; And a guide vane positioned below the diffuser to guide the air conveyed by the diffuser to the motor side. The method of claim 1, The impeller is a centrifugal blower for a vacuum cleaner, characterized in that a plurality of blades are provided in the circumferential direction between the upper and lower cover of the hollow conical shape having a predetermined inclination angle with respect to the rotation axis. The method of claim 2, The upper and lower covers of the impeller is a centrifugal blower for a vacuum cleaner, characterized in that formed inclined 95 ° to 120 ° with respect to the rotation axis. The method of claim 2, Blade of the impeller is a centrifugal blower for a vacuum cleaner, characterized in that the inlet portion to which the air is introduced is inclined 5 ° to 25 ° with respect to the rotation axis. The method of claim 2, Blade of the impeller is a centrifugal blower for a vacuum cleaner, characterized in that the outlet portion in which the air is discharged inclined 5 to 20 ° with respect to the rotation axis. The method of claim 1, The diffuser is a centrifugal blower for a vacuum cleaner, characterized in that the inlet portion is formed to have a predetermined inclination angle with respect to the rotation axis of the motor so as to face the inclined shape of the impeller outlet portion. The method of claim 1, The diffuser is formed at the top and the support vane formed at the lower end of the centrifugal blower of the vacuum cleaner, characterized in that the hollow conical shape so that it can be installed opposite the blade installed to have a predetermined inclination angle with respect to the rotation axis . The method of claim 7, wherein The guide vane is a centrifugal blower for a vacuum cleaner, characterized in that the upper end is inclined upwardly to be coupled to the lower end of the support.