KR20010035933A - Motor for vacuum cleaner - Google Patents

Abstract

PURPOSE: A motor removes gap between a motor cover and a fan guide to prevent suction air from flowing backward and leaking through the gap to prevent the loss of the suction force of the motor. CONSTITUTION: An air leakage preventing member(38) which is ring shaped and made of rubber of plastics and so on has the same thickness as the gap between a motor cover(19) and a fan guide(24) and is installed between the upper side of the fan guide(24) and the motor cover(19) to prevent suction air from leaking. the air leakage preventing member(38) is engaged with an inlet side blade of the fan guide(24) by fusion splicing method or adhesives.

Description

Motor for vacuum cleaner

The present invention relates to a vacuum cleaner motor, and more particularly, to a vacuum cleaner motor that is improved to prevent leakage due to backflow of air to be sucked.

In general, a vacuum cleaner performs cleaning by suctioning external debris into the cleaner by the suction force generated by the motor, filtering the filter, and then discharging only clean air to the outside.

As shown in FIGS. 1 and 2, the motor generating the suction force in the vacuum cleaner has a stator 17 fixed to the inner circumferential surface of the motor housing 18, and the rotor 14 inside the stator 17. Is rotatably supported. The rotating shaft 14a is press-fitted to the rotor 14, and an impeller 22 is attached to the tip of the rotating shaft 14a. The impeller 22 sucks outside air while rotating at high speed. In addition, the motor housing 18 is equipped with a fan guide 24 for guiding the air sucked by the impeller 22 to the inside of the motor housing 18, the upper portion of the air intake hole (19a) The formed motor cover 19 is mounted. Here, the motor cover 19 is coupled to the motor housing 18 so as to surround the outside of the impeller 22 and the fan guide 24, the impeller 22 and the fan guide 24 together with the impeller ( A flow path of air sucked by 22 is formed.

On the other hand, the fan guide 24 has a disk-shaped body 32 on which the impeller 22 is seated, and a plurality of inlet blades 34 are formed at the edge of the body 32. Thus, the air discharged from the impeller 22 flows into the plurality of inlets 35 formed by the respective inlet side blades 34. In addition, a plurality of exit blades (not shown) are formed on the lower surface of the body 32. The exit blade extends from the outside of the lower surface of the body 32 toward the center thereof with a predetermined curvature.

In the vacuum cleaner motor as described above, the impeller 22 rotates at high speed together with the rotor 14, whereby external air is sucked from the center of the impeller 22 and discharged to the edge. The discharged air flows into the inlet 35 of the fan guide 24 and flows into the inside of the motor housing 18 through a plurality of outlets formed along the outlet side blade, and finally the air outlet formed in the motor housing 18. Ejected through 16. By this action, the suction force is generated.

However, in the conventional vacuum cleaner motor as described above, as shown in Fig. 2, the inlet blades of the motor cover 19 and the fan guide 24 due to the structure of the motor cover 19 made of the press material. There are many cases where a gap exists between (34). Accordingly, the air flowing into the inlet of the fan guide from the impeller flows backward through the gap as indicated by the dotted arrow in FIG. 2, and thus, the suction force loss of the motor cannot be avoided. there is a problem.

The present invention has been made to solve the above problems, an object of the present invention is to reduce the suction power loss of the motor by preventing the air leakage through the gap between the motor cover and the fan guide.

1 is an exploded perspective view showing a conventional vacuum cleaner motor.

2 is a cross-sectional view of a conventional vacuum cleaner motor.

3 is a cross-sectional view of a vacuum cleaner motor according to an embodiment of the present invention.

4 is a plan view of a fan guide that is a main portion of a vacuum cleaner motor according to an embodiment of the present invention.

5 is a cross-sectional view of FIG. 4.

* Description of the symbols for the main parts of the drawings *

14: Stator 17: Corrector

18: housing 19: motor cover

22: Impeller 24: Fan Guide

34: Inlet side blade 38: Air leakage preventing member

The above object is a stator fixed to the inner circumferential surface of the motor housing and a rotor rotatably supported inside the stator, the rotary shaft is press-fitted, an impeller mounted on the end of the rotary shaft to suck outside air, And a fan guide supported by the motor housing to guide the air sucked by the impeller into the motor housing, and a motor cover mounted to the motor housing to surround the impeller and the fan guide and having an air suction hole in the center thereof. In the vacuum cleaner motor, an air leakage preventing member is installed between the upper side of the fan guide and the motor cover to prevent leakage of intake air. Is achieved.

The air leakage preventing member has a ring shape, the thickness of which is formed in the same size as the gap between the motor cover and the fan guide, plastic or rubber may be used. Preferably injection molded plastics are preferred.

In addition, the air leakage preventing member may be attached to the inlet blade of the fan guide using an adhesive, or may be coupled to the inlet blade of the fan guide by fusion.

According to this, since the air leakage preventing member blocks the gap between the motor cover and the fan guide, air leakage through this gap does not occur. Therefore, it is possible to prevent loss of adsorption force due to air leakage.

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

3 is a cross-sectional view of a vacuum cleaner motor according to an embodiment of the present invention, FIG. 4 is a plan view of a fan guide which is an essential part of the present invention, and FIG. 5 is a cross-sectional view of the fan guide. In describing the embodiments of the present invention, the same reference numerals refer to the same parts as those in the related art.

As shown, a vacuum cleaner motor according to an embodiment of the present invention includes a motor housing 18, a stator 17 fixed to an inner circumferential surface of the motor housing 18, and an interior of the stator 17. Is supported by the rotor 14 rotatably supported by the rotor 14 and the rotary shaft 14a press-fitted, an impeller 22 mounted on an end of the rotary shaft 14a to suck outside air, and the motor housing 18. A fan guide 24 which guides the air sucked by the impeller 22 into the motor housing 18, and the motor housing 18 to surround the impeller 22 and the fan guide 24. Mounted to cover the gap between the motor cover 19 and the fan guide 24 and the motor cover 19, the air inlet hole (19a) is formed in the center to prevent air leakage through this portion Leakage preventing member 38 is included.

The fan guide 24 has a disc-shaped body 32 on which the impeller 22 is seated, and a plurality of inlet blades 34 are formed at the edges of the body 32 at a constant interval. . The air leakage preventing member 38 is attached to an upper portion of the plurality of inlet blades 34. On the other hand, although not shown, a plurality of exit blades extending from the outside toward the center on the lower surface of the body 32 is formed. The air sucked from the impeller 22 flows into the inlet 35 formed by the inlet blade 34 of the fan guide 24 and flows out to the outlet formed by the outlet blade of the lower surface.

Here, the air leakage preventing member 38 is formed in a ring shape, and is formed to the same thickness as the gap between the motor cover 19 and the fan guide 24. The material of the air leakage preventing member 38 is not necessarily limited, but is preferably rubber or plastic.

The air leakage preventing member 38 may be attached to the inlet blade 34 of the fan guide 24 by an adhesive or may be joined by fusion. It can also be attached by other bonding methods.

In the vacuum cleaner motor according to the present invention configured as described above, the impeller 22 rotates at a high speed together with the rotor 14 like a normal motor, whereby external air is discharged from the center of the impeller 22. The suctioned air is discharged to the edge, and the discharged air flows into the inlet 35 of the fan guide 24 and flows into the inside of the motor housing 18 through a plurality of outlets formed along the outlet side blade, and finally, the motor housing. The suction force is generated by the action of being discharged through the air discharge port 16 formed in (18).

At this time, since the air leakage preventing member 38 is provided between the motor cover 19 and the fan guide 24, no gap is generated in this portion, and as a result, it is sucked through the gap as in the prior art. It is possible to prevent the phenomenon of leakage while the air flows back. That is, the air flowing through the inlet 35 of the fan guide 24 may be guided to the outlet side without leakage.

As described above, in the vacuum cleaner motor according to the present invention, since the air leakage preventing member is provided between the motor cover and the fan guide, there is no gap between the motor cover and the inlet blade of the fan guide. Do not. Therefore, it is possible to prevent the intake air leakage through the gap as in the prior art, it is possible to prevent the loss of the suction force of the motor.

In the above, certain preferred embodiments of the present invention have been illustrated and described. However, the present invention is not limited to the above-described embodiment, and various modifications can be made by those skilled in the art without departing from the gist of the present invention as claimed in the claims.

Claims (3)

A stator fixed to an inner circumferential surface of the motor housing, a rotor rotatably supported inside the stator, and having a rotary shaft pressed therein, an impeller mounted at an end of the rotary shaft to suck external air, and supported by the motor housing A fan guide for guiding air sucked by an impeller into the motor housing, and a motor cover mounted to the housing to surround the impeller and the fan guide and having an air suction hole formed at a center thereof. In A vacuum cleaner motor, wherein an air leakage preventing member is installed between the upper side of the fan guide and the motor cover to prevent leakage of intake air. The vacuum cleaner motor according to claim 1, wherein the air leakage preventing member has a ring shape and has a thickness equal to a gap between the motor cover and the fan guide. The vacuum cleaner motor according to claim 1, wherein the air leakage preventing member is fused to the inlet blade of the fan guide.