KR100912526B1 - Assembly of fan and shroud - Google Patents

Abstract

The present invention is to block the air leakage between the band and the shroud of the fan, thereby improving the efficiency and cooling performance of the fan, the hub coupled to the drive shaft of the motor, and the outer peripheral surface of the hub A fan having a plurality of blades inclined and inclined at intervals, a band in contact with the tip of the blade, at least one rib attached to an air inlet side of an outer circumferential surface of the band, and a rotational track of the blade end An assembly of a fan and shroud comprising a shroud having a housing portion formed therein.

Description

Assembly of fan and shroud

1 is a cross-sectional view showing a conventional fan and shroud assembly,

2 is a cross-sectional view of a fan shroud assembly according to an embodiment of the present invention;

3 is a perspective view showing a fan according to an embodiment of the present invention,

4 to 6 each show different embodiments of the ribs according to the invention,

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

30; Fan 31; Herb

32; Blade 33: band

33a: bend 34: rib

40; Shroud 41: housing

42: airflow guide I: air inlet

O: air outlet L: leaked air

B: air barrier

The present invention relates to a fan having a band connecting the blade end and the fan and shroud assembly.

In general, in an air conditioner of a vehicle, a blower unit is provided with a fan and a shroud driven by a motor. The fan has a hub coupled to the rotating shaft of the electric motor or the engine, and has a plurality of blades which are inclined at a predetermined angle on an outer circumferential surface of the hub. The shroud is spaced apart from the blade end of the fan by a predetermined distance to surround the entire blade with a predetermined width, and a plurality of ends connected to one side of the housing part and a motor support part for supporting the driving motor of the fan. Two stators.

The fan and shroud assembly thus constructed flows in from the low pressure side (inlet side) to the high pressure side (discharge side) as the fan rotates. At this time, as the fan rotates, the blade is driven in an inclined direction with respect to the shaft, and air flow is generated, and with this flow, air exits the assembly through the discharge side.

By the way, in the conventional fan and shroud assembly as described above, the air flow discharged from the edge of the fan is discharged at a predetermined angle outward with respect to the axial direction and hit the inner surface of the housing portion of the shroud, and further from the fan It generates a large static pressure that inhibits the blowing force generated. The generation of such static pressure not only lowers the blowing efficiency of the fan, but also causes noise. In particular, this noise is further increased by the vortices generated at the blade tip.

In order to solve this problem, a fan having a band attached to the end of the blade as shown in FIG. 1 was developed and used. The fan and shroud assembly has a band 13 attached to the tip of the blade 12 attached to the hub 11, and a band from the discharge side O end to the housing 21 of the shroud 20. The airflow guide part 22 bent in the (13) direction is provided. The airflow guide portion 22 is provided in the shroud 20 toward the band 13 so that the airflow discharged toward the edge of the fan 10 impinges on the housing portion 21 of the shroud 20. To increase fan efficiency.

However, even in the fan and shroud assembly as described above, air discharged to the discharge side O leaks through the gap between the band 13 and the airflow guide 22, as can be seen in the partial enlarged view of FIG. This results in a loss of air volume (L), and thus there remains a problem of lowering the overall efficiency and cooling performance.

The present invention has been made to solve the above problems, to provide a fan and shroud assembly that can block the air leakage between the band and the shroud of the fan, thereby improving the efficiency and cooling performance of the fan. Its purpose is to.

In order to achieve the above object, the present invention is a hub coupled to the drive shaft of the motor, a plurality of blades inclined and inclined at a predetermined interval on the outer peripheral surface of the hub, a band in contact with the tip of the blade, the band And a fan having at least one rib attached to an inlet side of the air on an outer circumferential surface thereof, and a shroud having a housing portion formed along a rotational trajectory of the blade end. do.

According to another feature of the invention, the plurality of ribs may be provided to be installed at the same interval as the spacing of the blade.

According to another feature of the invention, the ribs can be installed in the same direction as the inclined direction of the blade, can be installed in the reverse direction to the inclined direction of the blade, or can be installed in the axial direction of the hub. have.

In the present invention, the inlet end of the band is bent to the outside and the discharge port side, the rib can be such that it is installed inside the bent portion.

In addition, the shroud has an air flow guide portion formed by bending the discharge port side end of the housing portion from the discharge port side to the inlet side at a predetermined distance from the outer circumferential surface of the band, and the rib is formed with the inlet side end of the air flow guide. It may be installed to be spaced apart a predetermined distance.

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

Figure 2 shows an embodiment of a fan and shroud assembly according to the present invention.

The assembly of the fan and shroud according to the preferred embodiment of the present invention as shown is a fan 30 for causing a flow of air flow, a motor 50 for rotating the fan 30, and a fan ( And a shroud 40 that encloses 30 radially outward to inhibit the recirculation of air.

The fan 30 has a hub 31 coupled to the drive shaft 52 of the motor 50, as shown in Figures 2 and 3, the outer peripheral surface of the hub 31 a plurality of blades at equal intervals 32 is provided, and the band 33 which connects them mutually is provided in the edge part of this blade 32. As shown in FIG. The band 33 connecting the ends of the blade 32 is joined to all or part of the leading edge portion 32a and trailing edge portion 32b at the tip of the blade 32. In the drawing, the width of the band 33 is formed to be equal to the distance between the leading edge portion 32a and the trailing edge portion 32b of the blade 32, but is not necessarily limited thereto, and may be formed to be narrower than this. It may be. In addition, the band 33 may be bent to the outside and the air discharge port (O) side of the air inlet (I) side to form a bent portion (33a), at this time, of the bent portion (33a) The outer circumferential surface does not contact the inner circumferential surface of the shroud 40.

On the other hand, the shroud 40 is formed with a housing portion 41 so as not to contact the outermost end along the rotational trajectory of the outermost end of the blade 32, the inner surface of the housing portion 41 An airflow guide 42 is formed. According to a preferred embodiment of the present invention, the air flow guide portion 42 has an end portion of the air outlet port O side of the housing part 41 from the outlet port O side to the air inlet port I side. Is bent to form a predetermined interval with the outer peripheral surface of the). At this time, the end portion of the air inlet portion I side of the airflow guide portion 42 is spaced apart from the end portion of the bent portion 33a of the band 33 by a predetermined interval. The housing part 41 and the airflow guide part 42 are not limited to the above-described embodiment, and any structure may be used as long as it can prevent the inflow resistance of the air and the reverse flow of the blown air.

In the fan and shroud assembly as described above, at least one rib 34 is installed on the outer circumferential surface of the band 33 connecting the ends of the blades 32 to the air inlet port I. According to a preferred embodiment of the present invention, the rib 34 may be installed inside the bent portion 33a of the band 33, as shown in Figs. At this time, the rib 34 is preferably installed to be spaced apart from the inlet (I) side end portion 42a of the airflow guide portion 42 of the shroud 40 by a predetermined distance.

Such ribs 34 act as elements of resistance to air as the fan 30 rotates, and thus a predetermined air barrier B is formed at the front end of the ribs 34. Therefore, the air barrier B can prevent the air from leaking out between the end portion 42a of the airflow guide 42.

Therefore, as long as the rib 34 can form a predetermined air barrier B by its rotation on the outer circumferential surface of the band 33, the number thereof may be any number at all. That is, the air barrier B may be formed by the rotation of the fan 30 even by a single rib 34. However, in one preferred embodiment of the present invention, as shown in Figure 3, a plurality of ribs, can be formed, it can be installed at the same interval as the interval that the blade 32 is installed.                     

As shown in FIG. 4, the installation direction of the ribs 34 may be installed in the same direction as the inclined direction in which the blades 32 are installed. As shown in FIG. 5, the ribs 34 may be installed in the opposite direction to the inclined direction. can do. In addition, as can be seen in Figure 6, it may be installed in the axial direction of the hub, that is, the direction perpendicular to the circle center of the band 33.

Referring to the operation of the fan and shroud assembly according to the present invention configured as described above are as follows.

In the fan and shroud assembly according to the present invention, as the fan 30 is rotated by the motor 50, the blade 32 is driven in an inclined direction with respect to the drive shaft 52 to generate air flow. In addition, air flows from the air inlet port I side to the air outlet port O side.

As the fan 30 rotates as described above, the rib 34 formed on the outer circumferential surface of the band 33 also rotates, and the air flow is impeded at the front end of the rib 34 by the rotation of the rib 34. Due to which an air barrier B is formed. Therefore, the space between the airflow guide 42 end portion 42a of the shroud 40 and the bent portion 33a of the band 33 is further reduced by this air barrier B. FIG.

On the other hand, as the air is introduced by the rotation of the fan 30, the air inlet port I side becomes the low pressure side, and the air discharge port O side becomes the high pressure side. Therefore, some of the discharged air flows back into the band 33 between the airflow guide 42 of the shroud 40. However, in the present invention, the air flowing back between the band 33 and the airflow guide portion 42 of the shroud 40 is blocked by the air barrier B formed by the rib 34, and the air inlet ( It does not leak to I) side. In addition, the air barrier (B) serves to guide the leaked air to the air discharge port (O) side.

As the air barrier B is formed between the band 33 and the shroud 40 by the ribs 34, the leakage of air is blocked, thereby further increasing the efficiency of the fan and improving the cooling performance. It can be.

The fan and shroud assembly according to the present invention configured as described above has the following effects.

First, an air barrier can be formed between the band of the fan and the airflow guide of the shroud by the ribs to block the leaking air.

Second, by blocking the leaking air, the efficiency of the fan can be increased, and at the same time, the cooling performance can be improved.

In the present specification, the present invention has been described with reference to limited embodiments, but various embodiments are possible within the spirit of the present invention. And although not described, equivalent means will be included in the present invention. Therefore, the true scope of the present invention will be defined by the claims below.

Claims (7)

A hub coupled to the drive shaft of the motor, a plurality of blades inclined at predetermined intervals on the outer circumferential surface of the hub, a band in contact with the tip of the blade, and at least one attached to an air inlet side of the outer circumferential surface of the band A fan having at least ribs; And And a shroud having a housing portion formed along a rotational trajectory of the blade end. The method of claim 1, The rib is provided with a plurality of assembly of the fan and shroud, characterized in that installed at the same interval as the blade. The method of claim 1, The rib assembly of the fan and shroud, characterized in that installed in the same direction as the inclined direction of the blade. The method of claim 1, The rib assembly of the fan and shroud, characterized in that installed in the opposite direction to the inclined direction of the blade. The method of claim 1, And the rib is installed in the axial direction of the hub. The method according to any one of claims 1 to 5, The air inlet side end portion of the band is bent to the outer side and the air discharge port side is bent portion is formed, the rib assembly of the fan and shroud, characterized in that provided in the inside of the bent portion. The method according to any one of claims 1 to 5, The shroud has an airflow guide portion formed by bending the discharge port side end of the housing portion from the discharge port side to the inlet side at a predetermined distance from the outer peripheral surface of the band, wherein the rib has a predetermined distance from the inlet side end of the airflow guide portion. Assembly of the fan and shroud, characterized in that installed so as to be spaced apart.

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