KR20090115279A - A Fan - Google Patents

Abstract

PURPOSE: A ventilation fan increasing air volume is provided to reduce turbulent noise generated by the counter flow of discharged air. CONSTITUTION: A ventilation fan increasing air volume comprises a fan housing(110), a fan(120) and an air inlet. An inlet port is formed on the fan housing. The fan is installed in the inside of the fan housing. The air inlet is located in one of the fan or the fan housing to prevent the air discharged from entering the fan.

Description

Blower Fan {A Fan}

The present invention relates to a blower fan, and more particularly, to a blower fan that can reduce the flow noise due to backflow.

Blowing fan is a device used to transfer air, there are several kinds of products according to the purpose and use of the blower fan is known as the structure shown in FIG.

FIG. 1 is a side view of a conventional blowing fan, and a part of a main part is cut away, and FIG. 2 is a perspective view of a main part of FIG. 1.

As shown in these drawings, the blower fan 1 includes a fan housing 10 having a suction port 11 through which external air is suctioned and a discharge port 13 through which suction air is discharged, and the fan housing 10. It is provided with a fan 20 for forcibly convection air.

The fan housing 10 is formed with a cutoff 17 which forms a starting point at which the air sucked from the inlet 11 is discharged. The cutoff 17 restores the dynamic pressure of the air flowing in the fan housing 10 to a constant pressure, and thus is a part where a sudden change in pressure occurs periodically.

And the shroud 15 is installed at the edge of the inlet 11 of the fan housing 10. The shroud 15 has a form of surrounding a part of the fan 20 from the outside as shown in FIG. 2 and serves to guide the sucked air to the fan 20.

The fan 20 is installed inside the fan housing 10, and a plurality of blades 21 rotated to cause air flow, and a rim connecting the plurality of blades 21. 23).

Here, the plurality of blades 21 are arranged radially to form a circle, the rim 23 forms the upper end of the fan 20 while connecting the blades 21 in the circumferential direction. At this time, the upper surface of the rim 23 and the blade 21 has the same height.

When the fan 20 is rotated, the blower fan 1 configured as described above sucks outside air through the inlet port 11 in which the shroud 15 is installed as shown in FIG. 1, and the sucked air is fan housing. It operates to flow through the discharge port 13 like the Y direction through the cutoff 17 while flowing inside the (10).

On the other hand, a gap S having a predetermined size exists between the shroud 15 and the fan 20 installed in the fan housing 10. This gap (S) is inevitably occurred in the coupling structure between the fan 20 and the shroud 15 is installed so that the upper surface of the rim 23 and the blade 21 has the same height, and rotates inside the fan housing 10. Done.

However, FIG. 3 is a view showing the air flow for the main part of FIG. 2, and as shown therein, air flowing through the inlet 11 is discharged to the toe outlet 13 while flowing by the fan 20. A back flow occurs in which part of the back flows into the gap S between the shroud 15 and the fan 20 from the inside of the fan housing 10.

As such, when the backflow phenomenon occurs in the blower fan, the amount of air discharged to the discharge port is reduced, and turbulent noise is generated due to the backflow, which causes a problem of lowering the performance of the blower fan.

SUMMARY OF THE INVENTION An object of the present invention is to provide a blower fan which prevents the backflow of discharged air due to the gap between the fan housing and the fan to increase the air volume and reduce the turbulent noise generated by the backflow.

In order to achieve the above object, the present invention provides a fan housing inlet; A fan installed inside the fan housing; And it provides a blowing fan comprising an air inlet prevention portion provided in at least one of the fan or the fan housing to prevent the air discharged from the fan is re-introduced into the fan.

The fan includes a plurality of blades and a rim that combines the blades, and further includes a shroud provided at an inlet of the fan housing, and the air inflow prevention part is provided on the rim to narrow the gap between the fan and the shroud. Can be formed.

The air inflow prevention unit may include a slope inclined downward toward the edge of the shroud.

The air inflow prevention unit may be coupled to the upper portion of the blades to be stepped with the rim.

The air inlet prevention unit may extend from the shroud toward the fan.

Referring to the effects of the blower fan according to the present invention described above are as follows.

First, because the gap between the fan housing and the fan can be reduced, it can not only prevent the backflow phenomenon of the discharged air, but also increase the air volume and reduce the turbulent noise generated by the backflow, thereby improving the performance of the blower fan. .

Second, by simply changing the structure of the blower fan, it is possible to remarkably improve the problem of reducing the amount of blown air and turbulent noise.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention that can specifically realize the above object will be described.

4 is a perspective view illustrating main parts of a blowing fan according to a first exemplary embodiment of the present invention, and FIG. 5 is a view illustrating air flow for the main part of FIG. 4.

The blowing fan 101 according to the first embodiment of the present invention includes a fan housing 110, a shroud 115 provided at the suction port 111 of the fan housing 110, and the fan housing 110. A fan 120 installed in the fan 120 and generating the flow of air and provided in the fan 120 to prevent re-flow of discharged air between the fan housing 110 and the fan 120. 130 can be made.

The fan housing 110 includes a suction port 111 opened in a circular shape so that external air is introduced therein, and a discharge port (not shown) disposed perpendicular to the inflow direction of the suction port 111 and discharging air to the outside. do.

And the shroud 115 having a form surrounding the portion of the fan 120 from the outside is installed on the edge of the inlet 111 of the fan housing 110 and guides the air sucked into the inlet 111 to the fan 120 do.

The fan 120 is installed inside the fan housing 110, and includes a plurality of blades 121 that rotate to cause a flow of air, and a rim 123 that connects the plurality of blades 121. Can be.

 The plurality of blades 121 may all have the same size and may be arranged radially to be spaced apart from each other, and the upper regions of the respective blades 121 may be connected by the rim 123. In this case, the rim 123 may have a ring shape to connect all of the upper regions of the plurality of blades 121.

On the other hand, the air inlet prevention unit 130 serves to reduce the size of the gap generated between the fan 120 and the inlet 111 region of the fan housing 110 due to the coupling structure of the fan 120 and the fan housing 110. Do it.

In this embodiment, the air inflow prevention unit 130 reduces the size of the gap generated between the shroud 115 and the fan 120 installed in the fan housing 110, the fan 120 and the shroud 115 It serves as a barrier to prevent discharged air from flowing in between.

The air inflow prevention unit 130 may be coupled to at least one of the fan 120 or the shroud 115. However, in the present embodiment, the fan 120 is provided to be integrally formed with the rim 123.

That is, the air inflow prevention unit 130 may be formed of a portion extending from the rim 123 connecting one side upper surface of the plurality of blades 121 to the shroud 115 at a predetermined height. . The air inflow prevention unit 130 increases the height of the rim 123 than the height of the blade 21 and the size of the conventional gap that occurs because the upper surface of the conventional rim 23 and the blade 21 has the same height. Can be reduced.

In this case, the upper portion of the rim 123 adjacent to the shroud 115 may form the air inflow prevention part 130 to extend to a position where the fan 120 does not contact the shroud 115 when the fan 120 rotates. .

As the blower fan 101 configured as described above, when the fan 120 rotates, the outside air is sucked through the inlet 111 in which the shroud 115 is installed, and the sucked air flows through the inside of the fan housing 110. It is operated to be discharged through the discharge port 113.

Here, the air inlet prevention unit 130 is provided to reduce the gap between the shroud 115 and the fan 120 to extend to a position that does not contact the shroud 115 when the fan 120 rotates. Since the fan 120 is formed at 123, the fan 120 may rotate smoothly in the fan housing 110.

In addition, as shown in FIG. 5, when the blower fan 101 operates, the shroud 115 is formed from the inside of the fan housing 110 while the air flowing through the inlet 111 flows by the fan 120. Even if it is to be introduced into the gap between the fan and the fan 120, since the large amount of flow that was re-introduced into the conventional gap is blocked by the air inflow prevention unit 130, it is possible to significantly improve the back flow phenomenon (Back Flow) ( 3).

Accordingly, the problem that the amount of air discharged to the discharge port is reduced while the reverse flow phenomenon occurs in the conventional blower fan can be solved, and the problem of reducing the performance of the blower fan by reducing the amount of turbulent noise generated by the reverse flow can be solved.

As described above, the present invention can significantly improve the problem of reducing the amount of blowing and generating turbulent noise by simply changing the structure of the blowing fan.

FIG. 6 is a perspective view of main parts of a blowing fan according to a second embodiment of the present invention. In the present embodiment, only portions different from those of the above-described embodiment will be described.

In the blower fan 101 of the present embodiment, the air inflow prevention part 131 is similar to the rim 123 implemented as in the above-described embodiment, but the rim 123 constituting the air inflow prevention part 131 has an inner upper portion. On the edge 116 of the shroud 115, the inclined surface 131a inclined downward is different.

 In other words, the air inflow prevention part 131 has a portion located inside the fan housing 110 parallel to the longitudinal direction of the blade 121, while the portion facing the inlet 111 has a form inclined downward from the top. .

Since the air inflow prevention unit 131 can reduce the gap between the shroud 115 and the fan 120 as in the above-described embodiment, it is possible to solve the problem of decreasing the air volume and increasing the turbulence noise.

In addition, in this embodiment, the inclined surface 131a formed on the air inflow prevention part 131 is inclined downward to the edge 116 of the shroud 115, so that the edge 116 and the air inflow prevention part ( 131 may be implemented in a shape corresponding to each other. Therefore, since the fan 120 rotating below the shroud 115 may rotate smoothly than the above-described embodiment, there is an effect of reducing turbulence during rotation.

FIG. 7 is a perspective view illustrating main parts of a blowing fan according to a third embodiment of the present invention. In this embodiment, only portions different from those of the above-described embodiment will be described.

In the blower fan 103 of the present embodiment, the air inflow prevention part 132 is not implemented in the rim, but is provided separately to extend the upper portions of the blades 121 and is connected to the rim 123 in a stepped shape.

In this case, the air inflow prevention unit 132 may be located closer to the edge 116 of the shroud 115 than the above-described embodiments and arranged side by side to correspond to the shape of the edge 116 of the shroud 115. Can be.

Therefore, in the present embodiment, the air inflow prevention part 132 may reduce the vertical gap between the shroud 115 and the fan 120 and also reduce the horizontal gap with the edge 116 of the shroud 115.

FIG. 8 is a perspective view of main parts of a blowing fan according to a fourth embodiment of the present invention. In this embodiment, only portions different from those of the above-described embodiment will be described.

In the blowing fan 104 of the present embodiment, the air inflow prevention part 133 is not implemented in the fan 120 as in the above-described embodiment, but provided in the shroud 115.

That is, the air inflow prevention unit 133 reduces the gap between the shroud 115 and the fan 120 while extending from the lower portion of the shroud 115 toward the rim 123 by a predetermined length. Of course, it is understood that the length of the air inflow prevention part 113 may be implemented to the extent that the fan 120 can rotate smoothly.

Hereinafter, a preferred embodiment of the present invention with reference to the drawings, but the scope of the present invention is not limited thereto.

In the above-described embodiment, the air inflow prevention part has been described in any one of the fan or the fan housing (shroud), but through the combination of the above embodiments, the air inflow prevention part may be provided in both the fan and the fan housing (shroud). There will be.

As such, the present invention is not limited to the above-described embodiments, and can be modified by those skilled in the art without departing from the spirit of the present invention, and such modifications will fall within the scope of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a side view of a conventional blower fan with a partial cutaway view;

2 is a perspective view of main parts of FIG. 1;

3 is a view showing air flow for the main part of FIG. 2;

4 is a perspective view of main parts of a blowing fan according to a first embodiment of the present invention;

FIG. 5 shows the airflow for the main part of FIG. 4; FIG.

6 is a perspective view of main parts of a blowing fan according to a second embodiment of the present invention;

7 is a perspective view of main parts of a blowing fan according to a third embodiment of the present invention; And

8 is a perspective view of main parts of a blowing fan according to a fourth exemplary embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

101: blower fan 110: fan housing

111: suction port 115: shroud

116: Shroud Border 120: Fan

121: blade 123: rim

130, 131, 132, 133: air inflow prevention part

Claims (5)

A fan housing having a suction port formed therein; A fan installed inside the fan housing; And Blowing fan comprising an air inlet prevention portion provided in at least one of the fan or the fan housing to prevent the air discharged from the fan is re-introduced into the fan. The method of claim 1, The fan includes a plurality of blades and a rim joining the blades, Further comprising a shroud provided in the inlet of the fan housing, Blowing fan, characterized in that formed in the rim so as to narrow the gap between the fan and the shroud. The method of claim 2, The air inflow prevention unit is a blowing fan, characterized in that it comprises a slope inclined downward toward the edge of the shroud. The method of claim 2, Blowing fan, characterized in that the air inlet prevention unit is coupled to the upper portion of the blades to be stepped with the rim. The method according to any one of claims 1 to 4, And the air inflow prevention part extends from the shroud toward the fan.

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