KR20030059662A - The centrifugal blower for a cleaner - Google Patents

Abstract

PURPOSE: A centrifugal blower used in a vacuum cleaner is provided to reduce noise generated between a blade of an impeller and a diffuser by restricting an interaction between the lower end of the blade of the impeller and a lower end of the diffuser. CONSTITUTION: A centrifugal blower includes an impeller(54) rotatably installed in an impeller cover(52) formed at an upper surface thereof with a suction port(52a). A motor housing(53) having a plurality of exhaust ports(53a) is coupled to a lower portion of the impeller cover(52). A motor(60) is installed at an inner portion of the motor housing(53) in order to rotate the impeller(54). The impeller(54) has upper and lower covers(54a,54b) having a disc shape and a plurality of blades(54c) arranged between the upper and lower covers(54a,54b). A diffuser(56) is provided to convey air. A guide vane(58) guides air towards the motor(60).

Description

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

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a centrifugal blower for a vacuum cleaner, and more particularly to a vacuum centrifuge for reducing the interaction between the impeller and the diffuser which is periodically met by widening the gap between the lower edge of the blade and the lower end of the diffuser where air is rapidly discharged. It is about a blower.

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.

In general, the vacuum cleaner has a main body 4 in which the dust collecting bag 2 and the centrifugal blower 20, etc. are built, and one end is inserted into the insertion hole 4a of the main body 4, as shown in FIGS. Connecting part 5 and the suction hose 6 is inserted detachably installed, and the handle portion integrally formed on the other end of the suction hose 6 and the control unit 7 for controlling the operation of the cleaner. (8), an extension tube (10) detachably installed at the other end of the handle portion (8), and an inlet portion (12) detachably installed at the other end of the extension tube (10) to suck in dust. It is composed.

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 installed in a plurality of blades 24c curved in the circumferential direction inside the upper and lower covers 24a and 24b and is connected by the motor 30 and the rotating shaft 29.

And, between the impeller 24 and the motor 30, a diffuser 26 for pumping the air through the outlet of the impeller 24 is formed on the upper side, the air pumped by the diffuser 26 is The disk body 27 in which the guide vane 28 which guides to the motor 30 side at the lower side is provided.

Here, the outlet of the impeller 24 and the inlet of the diffuser 26 are provided with a minimum distance so that the air passing through the impeller 24 is pumped by the diffuser 26 and the velocity energy is converted into pressure energy. A diffuser 26 is installed outside the impeller 24 so as to periodically meet.

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

First, when the motor 30 is operated, the air is sucked into the inlet of the impeller 24 while the flow is bent 90 ° through the upper inlet port 22a while the impeller 24 connected to the motor is rotated. It exits through the outlet of the impeller 24.

Thereafter, the air exiting the outlet of the impeller 24 flows into the inlet of the diffuser 26, which periodically meets the outlet of the blade 24c at minimum intervals, and is compressed by the diffuser 26. The air pressurized by the diffuser 26 is rotated 180 ° and guided to the motor 30 through the guide vane 28 formed at the lower end of the diffuser 26.

In this way, the air introduced into the motor 30 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, when the vacuum cleaner centrifugal blower according to the prior art periodically meets the blades and diffusers of the impeller at a minimum interval, the air passing through the impeller flows into the diffuser to generate noise by the interaction of the blades and the diffuser of the impeller. do.

In particular, the air flows into the impeller side through the upper suction port, and the 90 ° flow is bent and discharged in the radial direction of the impeller, so the air discharged to the lower end of the blade of the impeller is faster, so the interaction between the lower edge of the blade of the impeller and the bottom of the diffuser There is a problem that the noise is greatly generated by.

The present invention has been made in order to solve the above problems of the prior art, it occurs between the lower end of the blade and the lower end of the diffuser as the air is rapidly discharged as the air introduced into the impeller through the inlet is discharged in a radial direction by 90 ° It is an object of the present invention to provide a centrifugal blower for a vacuum cleaner that can reduce the noise generated between the blade and the diffuser of the impeller by reducing the interaction.

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 centrifugal blower for a vacuum cleaner according to the present invention;

5 is a perspective view of the impeller of the vacuum cleaner centrifugal blower according to the present invention,

6 is a perspective view showing a diffuser of the centrifugal blower for the vacuum cleaner according to the present invention.

<Explanation of symbols on main parts of the drawings>

54 impeller 54c blade

54e: blade outlet 56: diffuser

56a: diffuser inlet 60: motor

α: inclination angle of blade outlet β: inclination angle of diffuser inlet

The centrifugal blower for a vacuum cleaner according to the present invention for solving the above problems is an impeller cover formed with a suction port, an impeller rotatably installed inside the impeller cover and formed with a plurality of blades to suck air, and the impeller cover And a motor housing having a discharge port formed therein, a motor connected to the inside of the motor housing by an impeller and a rotating shaft to rotate the impeller, and a guide vane installed at an outer circumference of the impeller to guide the air passing through the impeller to be discharged. In the vacuum cleaner centrifugal blower comprising a pressure diffuser, the impeller and the diffuser is the outlet of the blade or the inlet of the diffuser so that the interaction of the blade and the diffuser of the impeller caused by the rotation of the impeller is reduced Predetermined relative to the axis of rotation It is formed to have an inclination angle of.

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

4 is a cross-sectional view showing a centrifugal blower for a vacuum cleaner according to the present invention, Figure 5 is a perspective view showing an impeller of a centrifugal blower for a vacuum cleaner according to the present invention, Figure 6 is a centrifugal blower for a vacuum cleaner according to the present invention Is a perspective view of the diffuser.

The centrifugal blower for a vacuum cleaner according to the present invention is an impeller cover 52 having an inlet 52a formed on an upper surface thereof, as shown in FIG. 4, and an impeller 54 rotatably installed inside the impeller cover 52. And a motor housing 53 coupled to the lower side of the impeller cover 52 and having a plurality of discharge ports 53a formed at a side thereof, and installed inside the motor housing 53 to the impeller 54 and the rotating shaft 59. It is configured to include a motor 60 connected by rotating the impeller 54.

Here, the impeller 54 has a radius of air sucked from the suction port 52a while being rotated as a plurality of blades 54c are installed in a circumferential direction between the upper and lower covers 54a and 54b of a disk shape. In the direction of discharge.

Further, a plurality of diffusers 56 are disposed on the upper surface of the disc body 57 in the circumferential direction so as to be located at the outer circumference of the impeller 54 to pump air passing through the impeller 54, and the disc body ( A plurality of guide vanes 58 are disposed on the lower surface of the lower surface 57 in a circumferential direction to guide the air conveyed by the diffuser 56 toward the motor 60.

Normally, the centrifugal blower used in the vacuum cleaner is designed so that the outlet portion 54e of the blade and the inlet portion 56a of the diffuser meet periodically at a minimum distance w, which is due to the performance of the centrifugal fan. Only the smallest spacing (w = 0.5% to 2% of the impeller outer diameter) is designed to be small.

Therefore, when the impeller 54 is rotated, when the outlet portion 54e of the blade and the inlet portion 56a of the diffuser meet at minimum intervals, strong noise is generated because the intensity of interaction is disturbed while repeating the strength and weakness. Generate.

As described above, the angle of inclination α with respect to the rotation axis 59 is raised so that the exit portion 54e of the blade protrudes from the top to reduce the interaction between the outlet portion 54e of the blade and the inlet portion 56a of the diffuser. Or the inlet portion 56a of the diffuser is formed to have a predetermined inclination angle β with respect to the rotation shaft 59 so that the upper end thereof protrudes.

The inlet inclination angle α of the blade and the inlet inclination angle β of the diffuser are formed to be between 15 ° and 45 ° with respect to the rotation axis.

As described above, each blade outlet portion 54e or each diffuser inlet portion 56a is uniformly formed within a given range to reduce noise, as well as the inclination angle α of the blade exit portion and the diffuser. By alternately arranging 15 ° and 45 ° based on the inclination angle β of 30 °, the noise can be further reduced.

At this time, the distribution of the angle used as the inlet inclination angle α of the blade and the inlet inclination angle β of the diffuser may be arbitrarily different within a given range.

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

First, when power is supplied to the motor 60, air is introduced into the inlet portion 54d of the impeller while the rotating shaft 59 is rotated by the motor 60 and the impeller 54 is rotated.

The air flowing into the inlet portion 54d of the impeller breaks through 90 ° and is discharged to the outlet portion 54e of the blade along the blade 54c of the impeller and flows into the inlet portion 56a of the diffuser.

At this time, since the speed of the air exiting through the lower end than the upper end of the outlet portion 54e of the blade is faster, the outlet portion 54e of the blade and the inlet portion 56a of the diffuser periodically meet at a minimum interval w. At the bottom of the outlet portion 54e of the blade, the interaction between the blade 54c and the diffuser 56 is strongly formed.

However, the blade portion 54c is formed by the inlet portion 56a of the blade or the inlet portion 56a of the diffuser being inclined to form a wide gap between the lower portion of the outlet portion 54e of the blade and the lower portion of the inlet portion 56a of the diffuser. And the interaction between the diffuser 56a.

As described above, the air introduced into the inlet portion 56a of the diffuser is pumped while passing through the diffuser 56, and the air compressed by the diffuser 56 is rotated by 180 degrees to form the lower end of the diffuser 56. Guide vanes 58 are guided to the motor 60 side.

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 a predetermined inclination angle with respect to the rotation axis of the blade outlet portion and the diffuser of the impeller so that the air introduced into the impeller side through the suction port is 90 ° in the radial direction. As the discharge is performed, the noise generated between the blade and the diffuser of the impeller may be reduced by reducing the interaction generated between the lower end of the outlet of the blade and the lower end of the inlet of the diffuser.

Claims (5)

An impeller cover having a suction port, an impeller rotatably installed inside the impeller cover and having a plurality of blades formed therein, a motor housing coupled to the impeller cover and having a discharge port formed therein, an impeller and a rotating shaft inside the motor housing; In the centrifugal blower for vacuum cleaner comprising a motor connected to the rotating impeller, and a diffuser is installed on the outer periphery of the impeller, the diffuser for feeding to the guide vane for guiding the air passing through the impeller, The impeller and the diffuser is a vacuum characterized in that the outlet of the blade or the inlet of the diffuser is formed to have a predetermined inclination angle with respect to the rotation axis so that the interaction of the blade and the diffuser of the impeller generated by the rotation of the impeller Centrifugal blower for cleaners. The method of claim 1, The impeller and the diffuser is a centrifugal blower for a vacuum cleaner, characterized in that it has a predetermined inclination angle with respect to the rotation axis so that the top of the outlet of the blade and the top of the inlet of the diffuser. The method of claim 2, The blade outlet and the diffuser inlet inclination angle of the vacuum cleaner, characterized in that formed so as to be between 15 ° to 45 ° with respect to the rotation axis. The method of claim 2, The inlet angle of the blade outlet and the diffuser inlet is a centrifugal blower for a vacuum cleaner, characterized in that alternately arranged with the 15 ° and 45 ° based on the 30 °. The method of claim 2, The inlet angle of the blade outlet and the diffuser inlet is a centrifugal blower for a vacuum cleaner, characterized in that randomly distributed randomly between 15 ° and 45 °.