KR100600737B1 - Centrifugal fan for vaccum cleaner - Google Patents

Abstract

The present invention relates to the shape of the diffuser mounted on the vacuum cleaner centrifugal fan,

 The present invention includes an impeller for flowing air by being rotated by a motor; A centrifugal fan for a vacuum cleaner comprising a diffuser having a plurality of wings formed to surround an outer side of the impeller and converting a part of the kinetic energy of the impeller into pressure energy, wherein the diffuser is concentrated at the tip of the wing. Characterized in that the pressure reducing means for reducing the pressure to be formed, by forming the auxiliary wing spaced apart from the tip of the blade of the diffuser by a predetermined interval as the pressure reducing means to reduce the pressure concentrated on the tip of the blade by the impeller blades and diffusers It has the advantage of reducing the noise generated during the crossover process.

Description

Centrifugal fan for vacuum cleaner {Centrifugal fan for vaccum cleaner}             

1 is a perspective view of a general vacuum cleaner

2 is a cross-sectional view of the main body of FIG.

Figure 3 is a partial cutaway cross-sectional view of the vacuum cleaner centrifugal fan according to the prior art

Figure 4 is a cross-sectional view of the impeller and diffuser mounting portion in the centrifugal fan according to the prior art

5 is an exploded perspective view of the impeller in FIG.

6 is a perspective view of the diffuser of FIG.

7 is a partial cutaway cross-sectional view of the centrifugal fan as an embodiment according to the present invention.

8 is an exploded perspective view of the impeller in FIG.

9 is a perspective view of the diffuser of FIG.

10 is a top view of FIG. 9

Figure 11 is a graph showing the noise value generated in the centrifugal fan according to the present invention and the centrifugal fan according to the prior art

40: housing 45: motor

45a: motor shaft 50: impeller

50a: suction port 50b: discharge port

52: top plate 52a, 56a: groove

54: blade 54a: protrusion

56: bottom 60: diffuser

60b: discharge port 62: lower plate

64: wing 64a: tip

66: auxiliary wing 66a: tip

66b: rear end L: length of auxiliary wing

S: Spacing of wing and auxiliary wing

The present invention relates to a centrifugal fan of a vacuum cleaner, and more particularly, to a diffuser for reducing noise generated in a centrifugal fan of a vacuum cleaner.

1 is a perspective view of a general vacuum cleaner, FIG. 2 is a sectional view of the main body of FIG. 1, and FIG. 3 is a partial cutaway sectional view of a centrifugal fan for a vacuum cleaner according to the prior art.

As shown in FIG. 1 or FIG. 2, a general cleaner includes a suction head 1 for sucking cleaning material such as dust on the floor, and a connection part 2 for guiding the cleaning material sucked through the suction head 1. And, it comprises a main body (3) for discharging the filtered air after filtering the cleaning material guided through the connecting portion (2).

The connection part 2 is an extension pipe 2a connected to the suction head 1 and a handle part 2b connected to the extension pipe 2a and equipped with a control part 2d for controlling the main body 3. And a hose 2c connecting the handle 2b and the main body 3 to each other.

One end 2e of the hose 2c is inserted into and mounted on one side 3e of the main body 3 so that cleaning material flows into the main body 3, and the main body 3 has the hose 2c. Dust collection bag (3a) is filtered through the cleaning material introduced through, and the suction force to generate air so that air flows from the suction head (1) to the dust collection bag (3a) so that the cleaning material flows into the dust collection bag (3a) It comprises a centrifugal fan (4).

The centrifugal fan (4) is a housing (9) including a cover (5) formed with a suction port (5a) for sucking the air filtered by the dust collecting bag (3a), and is introduced through the suction port (5a) The impeller 10 which changes the flow path of the air by 90 ° and flows the air in the circumferential direction and increases the kinetic energy of the flowed air, and wraps the outer side of the impeller 10, and by the impeller 10 And a diffuser 20 for converting the increased kinetic energy of the air into pressure energy and a motor 8 for rotating the impeller 10.

Figure 4 is a cross-sectional view of the impeller and diffuser mounting portion in the centrifugal fan according to the prior art, Figure 5 is an exploded perspective view of the impeller in Figure 4, Figure 6 is a perspective view of the diffuser in Figure 3.

As shown in FIGS. 4 to 6, the conventional impeller 10 is installed inside the cover 5 so as to communicate with the suction port 5a of the cover 5.

The impeller 10 is formed in the form of a flat disc and is fixed to the rotating shaft 8a of the motor 8 to be rotated by the motor 8 and the lower plate 14 mounted on the lower plate 14 to supply air. A plurality of blades 16 flowing in the circumferential direction of the impeller 10 and an impeller inlet 12b is formed to communicate with the cover inlet 5a, and the blade 16 of the blade 16 is opposed to the lower plate 14. It is configured to include a top plate 12 is coupled to the upper side is fixed.

The blade 16 is curved like an arc shape, and has a protrusion 16a coupled to the upper plate 12 and the lower plate 14, and the upper plate 12 and the lower plate 14 are formed on the blade 16. Grooves 10a and 14a through which the protrusions 16a are fitted are formed.

In particular, the upper plate 12 is formed with a suction port 12b so that air introduced through the suction port 5a of the cover 5 flows into the impeller 10, and the lower plate 14 has the motor shaft 8a. The motor fixing portion 14b is formed at the center of the blade 16 so as to be fixed, and the outer side of the blade 16, that is, the upper plate 12, the lower plate 14, and the discharge port 10a formed by the blade 16 are formed. do.

On the other hand, the diffuser 20 wraps the impeller 10 from the outside and converts the kinetic energy of the air discharged through the discharge port (10b) to the pressure energy of the positive pressure. Thus, the diffuser 20 is formed by including a lower plate 24 and a plurality of wings 26 formed perpendicular to the edge of the lower plate 24 and formed in an arc shape along the edge.

The plurality of wings 26 is an arc shape formed by being curved from the inside to the outside along the outer circumference of the lower plate 24, and each wing 26 is formed to be spaced apart from each other by a predetermined interval, and the wing 26 and the wing (26) Air is discharged into the interspace 28, and the space 28 is formed to widen from the center of the diffuser 20 toward the outside.

The conventional vacuum centrifugal fan as described above operates as follows.

First, when a current is applied to the motor 8, the motor shaft 8a is rotated by the motor 8, and the motor shaft 8a is fixed to the motor fixing part 14b. Rotate the impeller 10 through 14). The impeller 10 is rotated by 30,000 to 40,000 rpm by the motor 8, and as the impeller 10 is rotated, air introduced through the inlet 10a is kinetic energy by the blade 16. Is discharged through the discharge port (10b) with the increase, the air discharged through the discharge port (10b) is in contact with the front end (26a) of the wing 26 by the rotating blade 16 by the interspace By being pushed to (28), some of the kinetic energy of the air is converted into pressure energy.

However, the impeller 10 is rotated at high speed, and the blade 16 is discharged while meeting the tip 26a of the blade 26 of the diffuser 20 by the impeller 10 rotated at high speed. As a result of the air pressure being pushed, the air friction with the tip 26a of the blade 26 has a problem of generating high peak noise of 85dB or more at the tip 26a due to the high pressure.

The present invention has been made to solve the above problems, an object of the present invention is to provide a vacuum cleaner diffuser for reducing the noise of the air generated in the process of being pumped by the impeller to the diffuser.

The present invention for solving the above technical problem is an impeller for flowing air by being rotated by a motor; A centrifugal fan for a vacuum cleaner comprising a diffuser having a plurality of wings formed to surround an outer side of the impeller and converting a part of the kinetic energy of the impeller into pressure energy, wherein the diffuser is concentrated at the tip of the wing. Characterized in that the pressure reducing means for reducing the pressure to be formed.

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

7 is a partial cross-sectional view of the centrifugal fan according to the embodiment of the present invention, FIG. 8 is an exploded perspective view of the impeller in FIG. 7, FIG. 9 is a perspective view of the diffuser in FIG. 7, and FIG. 10 is a plan view of FIG. 9.

As shown in FIG. 7 to FIG. 10, the centrifugal fan according to the present invention includes a housing 40, an impeller 50 mounted inside the housing 40 to receive air through the housing 40, and It comprises a motor 45 for rotating the impeller 50 to flow air, and a diffuser 60 for converting a part of the kinetic energy of the air flowing by the impeller 50 to the pressure energy.

The housing 40 includes a cover 42 forming an inlet 42a through which air is sucked, an impeller 50 is installed inside the inlet 42a, and the impeller 50 is The kinetic energy of the air introduced through the inlet 42a is increased.

The impeller 50 has an upper plate 52 having an inlet port 50a formed thereon so that air supplied through the inlet port 42a is introduced, a lower plate 56 positioned to face the upper plate 52, and the upper plate ( And a plurality of blades 54 connecting the lower plate 56 and increasing the kinetic energy to the air introduced through the suction port 50a, and the blade 54 connects the suction port 50a. The flow direction of the air introduced through the 90 ° is switched to discharge in the circumferential direction.

The blade 54 has a curved shape, and protrusions 54a are formed on the upper and lower sides thereof, and the protrusions 54a of the blades 54 are inserted into and fixed to the upper plate 52 and the lower plate 56. 52a and 56a are formed. In particular, the blade 54 is located radially from the center of the upper plate 52 and the lower plate 56, the plurality of blades 54 are arranged at regular intervals are formed by the spacing of the blade 54 Air is discharged through the discharge port 50b.

The diffuser 60 has a lower plate 62 on which the impeller 50 is seated, and a plurality of wings 64 and auxiliary wings formed in a direction perpendicular to the lower plate 62 to surround the outside of the impeller 50. And including 66.

The lower plate 62, the wing and the auxiliary wing 66 is formed integrally, the center of the lower plate 62 is formed with a hole 62a, the motor shaft 45a of the motor 45 is the hole ( Through 62a) is coupled to the lower plate 56 of the impeller 50.

The wings 64 of the diffuser 60 are formed to be curved along the circumference of the lower plate 62 as a shape surrounding the outside of the impeller 50, the plurality of wings 64 are spaced at a predetermined interval to the It is formed perpendicular to the lower plate 62. In particular, the plurality of blades 64 forms a discharge port 60b for discharging air through spaces spaced at predetermined intervals, and the discharge port 60b extends from the inside of the diffuser 60 toward the outside to extend the cross section. Is formed.

On the other hand, the diffuser 60 according to the present invention is characterized in that the auxiliary wing 66 is formed so as to be spaced apart from the front end portion 64a of the blade 64, in particular the wing 64 and the auxiliary wing 66 Spacing interval (S) of the) is characterized in that 1.5mm.

In addition, the auxiliary wing 66 is located on the extension line of the blade 64 is formed to be curved, the length (L) of the auxiliary wing 66 of the combined length of the wing 64 and the auxiliary wing 66 It is characterized by being formed in the range of 10% to 20%.

And the auxiliary wing 66 is formed with the same radius of curvature as the blade 64, the tip portion 66a of the auxiliary wing 66 is located on the extension of the blade 64, the auxiliary wing 66 Rear end portion 66b of the) is characterized in that it is formed to be separated outward on the extension line of the blade (64). As such, the rear end portion 66b of the auxiliary wing 66 is formed to be separated from the outside in order to more efficiently flow the air flowing by the impeller 50 to the discharge port 50b, and the rear end portion Even if the 66b is separated outward, the separation distance between the tip portion 64a of the blade 64 and the rear end portion 66b of the auxiliary wing 66 is maintained at 1.5 mm.

Figure 11 is a graph showing the noise value generated in the centrifugal fan according to the present invention and the centrifugal fan according to the prior art, Figure 11 is a sound pressure level graph (A) according to the prior art according to a specific frequency as shown, and the present invention According to the sound pressure level (SPL, Sound pressure level) graph (B) of the centrifugal fan. Thus, the overall sound pressure level obtained through the graphs (A) and (B) of FIG. 11 is 89.3 dBA, and the overall sound pressure level of the centrifugal fan according to the prior art is about. 91.1 dBA The centrifugal fan according to the invention is about 1.8 dBA lower than the centrifugal fan according to the prior art.

Hereinafter, the operation of the embodiment according to the present invention will be described in more detail with reference to FIGS. 7 to 10.

First, when current is applied to the motor 45, the impeller 50 also rotates in the rotational direction of the motor shaft 45a as the lower plate 56 of the impeller 50 coupled with the motor shaft 45a is rotated. do. When the impeller 50 is rotated, the blade 54 of the impeller 50 discharges the air in the circumferential direction while applying kinetic energy to the air inside the impeller 50, and is generated due to the discharged air. Due to the pressure difference, air is continuously supplied to the blade 54 through the inlets 42a and 50a.

The blade 54 discharges the air through the discharge port 50b, and as the impeller 50 rotates, the blade 54 and the blade 64 of the diffuser 60 periodically cross each other. The air discharged through the discharge port 50b by the intersection of the blade 54 and the blade 64 is compressed and at the same time a part of the kinetic energy is converted into the pressure energy to discharge the discharge port 60b of the diffuser 60. Is discharged through. At this time, the pressure generated in the process of crossing the blade 54 and the blade 64 is reduced by the auxiliary blade 66 formed on the extension of the blade 64, the tip portion 64a of the blade 64 By reducing the concentration of the concentration in the noise generated in the centrifugal fan can be reduced by about 1.8dBA on the basis of the overall sound pressure level (Overall Sound presure level).

The centrifugal fan for vacuum cleaner according to the present invention forms an auxiliary wing so as to be spaced apart from the tip of the blade of the diffuser by a predetermined distance to reduce the pressure concentrated on the tip of the blade, thereby reducing the noise generated in the process of crossing the blade of the impeller and the diffuser blade. Has the advantage of letting.

Claims (6)

An impeller for flowing air by being rotated by a motor; It is configured to include a diffuser is formed to surround the outer side of the impeller, a plurality of wings are formed to convert some of the kinetic energy of the impeller into pressure energy, The diffuser is provided with an auxiliary wing spaced apart from the tip of the blade by a predetermined distance on the extension line of the blade. delete delete The method of claim 1, Centrifugal fan of the vacuum cleaner, characterized in that the tip of the auxiliary blade is located on the extension line of the blade is formed to be curved and the rear end of the auxiliary blade is formed on the outside of the extension line delete The method according to claim 1 or 4, The length of the auxiliary blade is a centrifugal fan for a vacuum cleaner, characterized in that 10% to 20% of the length (C) of the wing and the auxiliary wing combined

Images