KR101342746B1 - Cooling fan - Google Patents

Abstract

The present invention relates to a cooling fan. The cooling fan comprises a cylindrical hub connected to a driving shaft of a driving motor; a plurality of main rotary blades radially connected to the outer circumference of the hub; and a plurality of auxiliary rotary blades connected to the outer circumference of the hub by being arranged in a gap between the main rotary blades. Each main rotary blade includes a removal unit of which a part which is close to the hub is removed. Each auxiliary rotary blade is characterized by being smaller than the main rotary blade.

Description

Cooling fan

The present invention relates to a cooling fan, and more particularly, consisting of a plurality of main rotary blades radially arranged and partially removed about the rotation axis and a small auxiliary rotary blade disposed between each of the main rotary blades, The cooling fan is capable of forming a certain amount of air as a whole in the middle as well as the center.

The cooling fan is composed of a hub and rotating blades coupled radially to the outer circumferential surface of the hub to rotate and generate air flow, that is, wind. An electric motor is provided inside the hub, and the electric motor is fixed to the frame.

The cooling fan is mounted on an electronic device such as a computer, and is used for cooling the heat of various built-in heating parts by forcibly flowing the surrounding air.

Rotating blades provided in the conventional cooling fan, the width is gradually increased or a constant shape while extending in the radial direction from the portion coupled to the hub. In the conventional cooling fan, when the amount of heat to be cooled is large, in order to generate a strong wind, a cooling fan including a large rotary blade is used or the rotation speed of the rotary blade is increased.

However, since the space for mounting the cooling fan is usually limited, there is a problem in that the length and width of the rotary blades are limited. In addition, if the rotation speed is increased, the noise is greatly increased, and the amount of electricity consumed is also increased. High speed rotation also has the disadvantage of shortening the life of the cooling fan.

In addition, in the case of the conventional cooling fan, due to the limitation of the shape of the rotary blade gradually widens away from the hub, there is a problem that the flow of air is extremely small in the center close to the hub.

In order to solve this problem, some prior arts have secured a space in the center of the rotary blade, and have tried to provide a separate small rotary blade in this space, but such a conventional technique is complicated in construction and effective. The problem is that it is not enough.

Publication No. 10-2010-0004740

The present invention, in order to solve the above-mentioned problems, provided with auxiliary rotary blades between the main rotary blades, a portion close to the hub side is removed, the generation of sufficient air flow not only in the outer portion of the rotary wing but also in the central portion close to the hub It is an object of the present invention to provide a cooling fan.

The cooling fan of the present invention, the cylindrical hub coupled to the drive shaft of the drive motor; A plurality of main rotary blades radially arranged and coupled to an outer circumferential surface of the hub; And a plurality of auxiliary rotating blades disposed between each of the main rotating blades and coupled to the outer circumferential surface of the hub, wherein each of the main rotating blades is provided with a removal portion from which a portion near the hub is removed. Each of the auxiliary rotary blades, characterized in that smaller than the size of the main rotary blades.

According to the cooling fan of the present invention, by providing the main rotary blades and the auxiliary rotary blades, it is possible to obtain the effect that the amount of air flow in the outer portion as well as the inner portion is sufficient.

Moreover, according to the cooling fan of this invention, compared with the conventional cooling fan which produces | generates an equal air flow, the effect that a total diameter is comparatively small can be acquired. In addition, compared to the conventional cooling fan that produces the same amount of air flow, it is possible to obtain the effect of less noise.

1 is a perspective view of a cooling fan of one embodiment according to the present invention,
2 is a perspective view of the cooling fan of FIG. 1 viewed from below;
3 is a front view of the cooling fan of FIG.
4 is a plan view of the cooling fan of FIG. 1 as viewed from above;
FIG. 5 illustrates that the cooling fan of FIG. 1 includes a frame.

Referring to the accompanying drawings, a cooling fan 1 of an embodiment according to the present invention will be described.

The cooling fan 1 of this embodiment is provided with the main rotor blade 20 and the auxiliary rotor blade 30 centering on the hub 10, and is characterized by being capable of generating a constant amount of air as a whole including the center portion. On the other hand, the cooling fan 1 is configured to include a frame 40 (see Fig. 5) and a drive motor (not shown). However, the conventional technology is applied to the frame and the driving motor, and thus further description thereof will be omitted.

The hub 10 is a cylindrical member coupled to the drive shaft of the drive motor. The hub 10 has an outer circumferential surface 11 and an upper surface 12 that are side surfaces, and has a cylindrical shape with an open lower surface. Referring to FIG. 2, which looks at the cooling fan 1 from below, the center of the hub 10 is provided with a cylindrical member 14 passing through the rotation axis C.

The main rotor blade 20 is provided with a plurality, is radially arranged and coupled to the outer peripheral surface 11 of the hub (10). The main rotor blade 20 and the auxiliary rotor blade 30 rotates in a counterclockwise direction about the rotation axis (C) in Figure 1, to create a flow of air from top to bottom. In this case, the term “up” means the top of the top surface 12 of the hub 10 in FIG. 1.

Each main rotor blade 20 includes a removal unit 22. The removal unit 22 means a space in which a portion near the hub side located at the center of the main rotor blade 20 is removed. In the case of this embodiment, the removal part 22 is provided in the rear of the rotation direction of the said main rotary blade 20. As shown in FIG.

That is, referring to FIG. 4, which is a plan view of the cooling fan 1 of FIG. 1 from above, the cooling fan rotates counterclockwise around the rotation axis C. The removal unit 22 has a forward direction in the rotation direction. It is not located rear.

Referring to FIG. 4, in the case of the present embodiment, the removal unit 22 is approximately half the length of the radial length L1 of the main rotary blade 20, and the width in the rotation direction is the main rotation. The width | variety of the width | variety W1 of the width | variety W1 of the wing | blade 20 in radial direction is made. On the other hand, the meaning of the value of '1/2' here means that approximately half of the length, rather than half of the mathematically exact meaning.

When the removal unit 22 is assumed to divide the main rotor blade 20 into four parts by imaginary lines passing through their respective centers in the longitudinal direction and the rotational direction, the divided part is closer to the center and rotates in the direction of rotation. The part located in the rear of the will be removed.

On the other hand, according to the embodiment, the length in the radial direction of the removal portion is approximately 1/3 or more and 2/3 or less of the radial direction length L1 of the main rotary blade, and the width in the rotation direction is the main rotary blade. It is also possible to become approximately 1/3 or more and 2/3 or less of the width W1 in the radial direction. That is, the removal unit may be configured to correspond to about 33% to 66% of the length of the main rotor blade, corresponding to about 33% to 66% of the width.

The auxiliary rotary blade 30 is provided with a plurality, is disposed between the main rotary blades 20, is coupled to the outer peripheral surface 11 of the hub (10). Since the auxiliary rotor blades 30 are arranged one by one in the main rotor blade 20, the number of the main rotor blade 20 is the same. Each of the auxiliary rotary blades 30 is smaller than the size of the main rotary blades 20. Here, 'size' means the area by the length and width.

In the present embodiment, the length L2 in the radial direction of the auxiliary rotary blade 30 is approximately 1/2 of the radial length L1 of the main rotary blade 20, and the auxiliary rotary blade 30 is rotated. Direction width W2 is comprised by about 1/2 of the rotation direction width W1 of the main rotary blade 20. As shown in FIG. In fact, each length and width is slightly smaller than 2/1 of the main rotor blade.

On the other hand, according to the embodiment, the length in the radial direction of the auxiliary rotary blade is about 1/3 or more and 2/3 or less of the radial direction length L1 of the main rotary blade, and the width in the rotation direction is the main rotary blade. It is also possible to become approximately 1/3 or more and 2/3 or less of the width W1 in the radial direction of the cross section. That is, the auxiliary rotary wing may be configured to correspond to about 33% to 66% of the length of the main rotary wing, about 33% to about 66% of the width.

On the other hand, by the experiment, when the removal unit 22 and the auxiliary rotary wing 30 having the same size as the present embodiment, it was confirmed that the optimum state in consideration of the distribution of air volume, the degree of noise and the like.

In the present embodiment, when the main rotor blade 20 is viewed from the rotation axis (C) direction, the auxiliary rotor blade 30 is disposed so as to be located in the removal unit 22 of the main rotor blade 20. The shape of the main rotor blade 20 viewed from the direction of the rotation axis C is the shape shown in the plan view of FIG. 4. Although the main rotary blades 20 and the auxiliary rotary blades 30 are in a shape that is inclined with the rotating plane perpendicular to the rotation axis C, when viewed in plan view, the removal portions 22 of the respective main rotary blades 20. It can be seen that the auxiliary rotary wing 30 corresponding to the space provided by the spaced apart without overlapping each other. By having such a structure, when manufacturing the cooling fan which consists of the hub 10, the main rotor blade 20, and the auxiliary rotor blade 30 using a metal mold | die, it is possible to remove a metal mold | die easily in a vertical direction, and to be high productivity There is an advantage that can be provided.

On the other hand, in the present embodiment, the angle of the auxiliary rotary blade 30 and the rotation surface perpendicular to the rotation axis (C) is configured to be larger than the angle formed by the main rotary blade 20 and the rotation surface. The rotation plane refers to a plane formed by the rotating blades, and is a plane parallel to a plane including the top surface 12 of the hub 10.

Referring to FIG. 3, the angle A1 of the auxiliary rotary blade 30 with the rotating surface is combined to have a larger value than the angle A1 with the main rotary blade 20 with the rotating surface. That is, the auxiliary rotary blade 40 is coupled to be inclined than the main rotary blade 20. By having such a configuration, it is possible to increase the flow of air that can be generated by the auxiliary rotor blade of a relatively small size.

In general, when the rotor blade is inclined more, the flow of air increases but the resistance becomes severe, but the noise is generated. However, in the case of the present invention, the size of the auxiliary rotor blade is relatively small. In this case, satisfactory air flow is generated in the central part where the flow rate is weak.

According to the cooling fan 1 having the above-described configuration, a satisfactory flow of air is produced not only in the outside but also in the center, and thus, there is an advantage in that a constant amount of air is formed over the entire cooling fan. The conventional cooling fan overcomes the disadvantage that the air flow in the center is small or hardly formed.

This advantage can be obtained by having a removal portion with a portion removed at the center of the main rotation blade, and by arranging the auxiliary rotation blade in the space of the removal portion. In addition, when the auxiliary rotary blade is configured to be more inclined than the main rotary blade with respect to the rotating surface, this effect is even higher.

In addition, by providing the removal portion and the auxiliary rotary wing, there is an advantage that the noise and the life of the cooling fan can be long compared to the conventional cooling fan required to obtain a similar amount of air flow.

In addition, when viewed from the top view, by looking at the main rotor blades and the auxiliary rotor blades so as not to overlap with each other, in the production using a mold, there is an advantage that high productivity, mass production is possible.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

1 ... cooling fan 10 ... hub
20 ... main rotor blade 22 ... removal part
30 ... auxiliary rotor blade 40 ... frame

Claims (6)

A cylindrical hub coupled to the drive shaft of the drive motor;
A plurality of main rotary blades radially arranged and coupled to an outer circumferential surface of the hub; And
It is configured to include; a plurality of auxiliary rotary blades disposed between each of the main rotary blades coupled to the outer peripheral surface of the hub,
Each of the main rotor blades is provided with a removal portion from which a portion near the hub side is removed,
Each of the auxiliary rotary blade is smaller than the size of the main rotary blade,
The removal unit is provided in the rear of the rotation direction of the main rotary blade,
The radial direction length of the said removal part is 1/3 or more and 2/3 or less of the length in the radial direction of the said main rotating blade,
The rotation direction width of the said removal part is 1/3 or more and 2/3 or less of the width in the rotation direction of the said main rotary blade,
Looking at the main rotary blade in the direction of the rotation axis, the auxiliary rotary blade is characterized in that located in the removal portion of the main rotary blade cooling fan. delete delete The method of claim 1,
The length in the radial direction of the auxiliary rotary blade is 1/3 or more and 2/3 or less of the length in the radial direction of the main rotary blade,
And a width in the rotational direction of the auxiliary rotary blade is 1/3 or more and 2/3 or less of the width in the rotational direction of the main rotary blade. In the fourth aspect,
The length in the radial direction of the removal unit is 1/2 of the length in the radial direction of the main rotary blade,
The width in the rotational direction of the removal unit is 1/2 of the width in the rotational direction of the main rotary blade,
The length in the radial direction of the auxiliary rotary blade is 1/2 of the length in the radial direction of the main rotary blade,
And a width in the rotational direction of the auxiliary rotary blade is 1/2 of a width in the rotational direction of the main rotary blade. The method of claim 1,
Cooling fan, characterized in that the angle formed by the auxiliary rotary blade and the rotation surface perpendicular to the rotation axis, larger than the angle of the main rotation blade and the rotation surface.

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