KR20140087197A - Multi-blade Fan - Google Patents

Abstract

The present invention relates to a multi-blade fan which reduces vibration and noise generated during operation. The multi-blade fan comprises a case which has an inlet formed in the middle of the side, a fan receiving part having a space part for receiving a fan, and a discharge guide part having an outlet connected to the fan receiving part to guide an air flow induced by the fan to the outside; the fan arranged inside the fan receiving part of the case, connected to an operation part to be rotated so as to generate an air flow; and the operation part for rotating the fan, wherein the outlet starts from a cut portion of the fan receiving part, and the multi-blade fan further comprises a first pressure changing part extending from the cut portion along the curvature of the fan in order to gradually cause change in pressure by blades.

Description

Multi-blade Fan}

The present invention relates to a multi-purpose fan with reduced vibration and noise. Specifically, the present invention improves the shape of the fan case including a plurality of blades and the shape of the specific discharge port, thereby reducing the vibration and noise caused by the rotation of the fan. Lt; / RTI >

Generally, the multi-fan has larger air volume than other blowing fans of the same circumferential speed and is widely applied to air conditioners, air conditioners, general industrial blowers, and the like.

The conventional multi-purpose fan includes a fan housing 12 in which a fan is accommodated and a case 35 connected to the fan housing 12 and including a discharge port 35 for guiding the airflow induced by the fan 50 to the outside A fan 50 disposed inside the fan housing 12 of the case and connected to the driving unit 40 and including a plurality of blades 51 for generating an air flow, And a driving unit 40 for rotationally driving.

The fan 50 connected thereto is rotated by the rotation of the driving unit 30 and the blade 51 of the fan 50 is rotated so that the air introduced from the suction port 30 formed at the central portion of the fan flows into the inside of the case 10 And then escapes to the discharge port 35 formed at one side of the case 10. That is, the air introduced into the suction port 30 is discharged to the discharge port 35 formed in the pen case.

In the conventional case, the discharge port 35 starts from a cut-out portion 20 formed in the fan housing portion 12 and having a rectangular shape with sides parallel to the blades of the cylindrical case 10 (Figs. 1 and 2 Reference).

However, in the case of the discharge port 35 having such a shape, since the blade 51 of the pen 50 and the cutout portion 20 are parallel to each other, the pressure suddenly changes, and noise or vibration . That is, as shown in FIG. 3, the pressure fluctuates and vibration and noise are generated.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made to solve the above problems occurring in the prior art, and it is an object of the present invention to provide a multi-purpose fan capable of reducing vibration and noise generated during operation by changing the shape of a cut- .

In order to achieve the above object, the present invention provides the following multi-

One embodiment of the present invention is a case including a fan accommodating portion formed with a suction port at the center of the side surface and forming a space for accommodating the fan, and a discharge port connected to the fan accommodating portion to guide the air flow induced by the fan to the outside ; A fan disposed inside the fan housing of the case and connected to the driving unit and including a plurality of blades for generating an air flow; And a drive unit for rotating the fan, wherein the discharge port starts from a cut-out portion of the fan accommodating portion, and the first pressure generated in the cut-off portion along the curvature of the fan such that the pressure change by the blade progressively occurs And provides a multi-panel including a switching portion.

Also, in an embodiment of the present invention, the first pressure switching portion may be positioned in front of the rotation direction of the fan of the incision portion.

In addition, a second pressure switching unit may be further provided behind the fan of the cutout.

In one embodiment of the present invention, the first and second pressure switching portions include inclined surfaces with respect to the blade.

In addition, the first and second pressure switching portions may have a parallelogram shape or a hexagonal shape.

In another embodiment of the present invention, the fan receiving portion has a curvature corresponding to the fan in the discharge port region, and the first pressure switching portion may be a groove formed at an edge of the cutout portion.

According to the present invention, it is possible to reduce the vibration and noise generated during the operation by changing the shape of the cut-out portion which is the start portion of the discharge port.

By using such a multi-purpose fan, no noise is generated in the case of the air conditioner, satisfaction can be provided to the user, and the discomfort due to vibration can also be reduced.

In addition, the case load due to the vibration and the load on the mounting structure are reduced, and the service life of the device is also increased.

1 is a perspective view showing a conventional multi-purpose fan.
2 is a schematic view of a cut-out of a conventional multi-purpose pan;
3 is a graph showing a change in pressure with time in a discharge unit of a conventional multi-purpose fan.
4 is a sectional view of the multi-purpose fan of the present invention.
Figs. 5 (a) to 5 (f) are schematic views of the cut-out portion of the multi-purpose pan of the present invention.
6 is an exploded perspective view of a case of a multi-part fan according to another embodiment of the present invention.

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

The multi-purpose fan 1 of the present invention includes a fan accommodating portion 12 in which a fan 50 is accommodated and a discharge port (not shown) connected to the fan accommodating portion 12 and guiding the air flow induced by the fan 50 to the outside A plurality of blades 51 disposed inside the fan accommodating portion 11 of the case 10 and connected to and rotated by a driving unit 40 such as a motor to generate an air flow, And a driving unit 40 for driving the fan 50 to rotate.

The case 10 has a suction port 30 formed in a side face 11 (see FIG. 1), and air is sucked through the suction port 30 by the air flow induced by the blades 51 of the fan 50 And the sucked air is discharged to the discharge port 35 by the blade 51. The outlet 35 extends from the cutout 20 of the fan case 10.

In this multi-purpose fan 1, the blades 51 are aligned parallel to the axial direction of the fan 50, which is parallel to at least one side of the rectangular cut 20 as mentioned in the prior art. Therefore, as the fan 50 rotates, the area where the blade 51 is opened by the cutout 20 is abruptly changed, and this abrupt change causes a change in the pressure, so that vibration and noise are generated.

Accordingly, in the present invention, the first pressure switching portion (not shown) positioned in front of the rotation of the fan 50 of the cutout portion 20 so that the area where the blade 51 is opened by the cutout portion 20 is continuous, And a second pressure switching unit 25 located behind the fan 50 in the rotational direction. That is, the shape of the incision portion 20 is determined by the shape of the first pressure switching portion 21 and the second pressure switching portion 25.

Meanwhile, in the present invention, the first pressure switching portion 21 and the second pressure switching portion 25 are formed with a predetermined curvature. That is, the first and second pressure switching parts 21 and 25 extend in the interior of the case 10 with a curvature, thereby suppressing the abrupt change in the pressure described above. In particular, the first pressure switching portion 21 extends from the inner surface of the case 10 with a radius of curvature R.

In the present invention, the first pressure switching portion 21 is first encountered in the rotating direction of the blade 51, and the pressure is changed by the first pressure switching portion 21. [ However, such a pressure change may be caused by the first pressure switching portion 21 corresponding to the radius of curvature of the blade 51, that is, the radius R corresponding to the radius of the fan 50, Is formed as a curved surface.

5, various shapes of the shape of the cutout portion 20 formed by the first pressure switching portion 21 and the second pressure switching portion 25 are shown.

As shown in Figs. 5 (a) to 5 (f), the first and second pressure switching portions 21 and 25 have slopes or curved surfaces in the direction B parallel to the blades 51, The pressure exerted by the blade 51 passing through the blade 20 can be gradually changed.

4, the blade 51 and the first pressure switching unit 21 are connected to each other in the region passing through the inclined surface or the curved surface, and the first pressure switching unit 21 is formed with a predetermined curvature, Can be maintained constant, whereby the pressure difference can be gradually switched. However, when the first pressure switching portion 21 is linearly formed, the gap between the blade 51 and the first pressure switching portion 21 is opened. This is because the shape of the first pressure switching portion 21 A pressure change occurs due to the gap between the first pressure switching portion 21 and the blade 51 regardless of the shape of the first pressure switching portion 21, .

On the other hand, the second pressure switching unit 25 operates in the same manner as the first pressure switching unit 21 on the same principle. However, in the case of the second pressure switching unit 25, the influence on the noise and vibration is smaller than that of the first pressure switching unit 21. [

5 (a) to 5 (d), the first and second pressure switching parts 21 and 25 have different heights at the center and the opposite ends. 5 (b) and 5 (c), the height of the central portion of the first pressure switching portion 21 may be higher, and the height of the first pressure switching portion 21 May be higher than the height of both ends. 5 (b) and 5 (d), the height of the central portion of the second pressure switching portion 25 may be as high as that of the second pressure switching portion 25, May be high.

5 (e), the height of the first and second pressure switching parts 21 and 25 may be continuously changed from one end to the other end. As shown in FIG. 5 (f) ≪ / RTI >

6 shows another embodiment of the present invention. 6 shows only the case 10 except for the configuration of the fan 50, the blade 51, and the driving unit 40. [ 6, the configuration of the case 10 is similar to that of the embodiment of FIG. 4, but the first and second pressure switching portions 21 and 25, which determine the shape of the cutout portion 20 in FIG. 6, And the grooves 22 and 26 are formed at both ends.

6, when the grooves 22 and 26 are formed, the blast 51 passing through the first pressure switching portion 21 is preferentially moved by the groove 22 so that the pressure is firstly changed The pressure is changed later, so that the pressure may not change suddenly as in the conventional case. Therefore, the pressure switching due to the rotation of the fan 50 is performed stepwise, so that the ejection pressure non-uniformity and thus the vibration inducing to the surrounding structure can be reduced.

Further, in the case of the structure as shown in Fig. 6, it can be formed by forming the grooves 22 and 26 in the conventional structure, so that the ease of manufacture can be secured.

Although the first and second pressure switching parts 21 and 25 are integrally extended from the case 10 in the present invention, the first and second pressure switching parts 21 and 25 of the present invention may include a case 10, but it can be attached by means of welding or engaging means.

1: Multi-fan 10: Fan case
20: incision section 21: first pressure switching section
22, 26: groove 25: second pressure switching portion
30: Suction port 35:
40: driving part 50: fan
51: Blade

Claims (6)

A case having a fan accommodating portion having a suction port formed at a side of the side and forming a space for accommodating the fan, and a discharge port connected to the fan accommodating portion and guiding the air flow induced by the fan to the outside;
A fan disposed inside the fan housing of the case and connected to the driving unit and including a plurality of blades for generating an air flow; And
And a driving unit for rotationally driving the fan,
Wherein the discharge port starts from a cut-out portion of the fan receiving portion,
And a first pressure switching portion formed on the cut-out portion along the curvature of the fan, the first pressure switching portion configured to gradually change the pressure by the blade.
The method according to claim 1,
Wherein the first pressure switching portion is located in front of the rotation direction of the fan of the cut-out portion.
3. The method according to claim 1 or 2,
Further comprising a second pressure switching portion (20) behind the rotating direction of the fan of the cut-out portion.
The method of claim 3,
Wherein the first and second pressure switching portions include inclined surfaces with respect to the blade.
5. The method of claim 4,
Wherein the cutout portion has a parallelogram shape or a hexagonal shape by the first and second pressure switching portions.
3. The method of claim 2,
Wherein the fan receiving portion has a curvature corresponding to the fan in the discharge port region,
Wherein the first pressure switching portion includes grooves formed at both ends.

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