KR20110054252A - Fan shroud - Google Patents

Abstract

PURPOSE: A fan shroud is provided to minimize noise since the conversion of airflow into a vortex shape is minimized while the airflow passes between stators. CONSTITUTION: A fan shroud comprises a housing(21), a motor support(23), and multiple stators(24). The housing comprises a blowhole on one side thereof. The motor support is formed at the center of the blowhole of the housing. The stators are extended from the edge of the motor support to the edge of the blowhole of the housing. Multiple reinforcement type ribs connect to the stators. The airflow passes through the through-hole which is formed at the center of the reinforcement type rib.

Description

Fan shroud {FAN SHROUD}

The present invention relates to a fan shroud that induces air flow generated by the fan, and more particularly, to a fan shroud capable of minimizing noise generation by minimizing vortex type air flow.

As is well known, the fan assembly consists of a fan that rotates to produce an air flow and a fan shroud that induces the air flow generated by the fan.

Such a fan assembly is used in a ventilator for ventilating a room, a blower for promoting heat dissipation of an air-cooled heat exchanger such as a radiator or a condenser of an automobile, and the like. On the other hand, such a fan assembly includes a pusher type for blowing air and a suction type for sucking air.

1 illustrates a typical fan assembly. As shown, the fan assembly includes a fan 1 that generates air flow by rotational operation, a drive motor 2 that rotates the fan 1, and an air flow generated by the fan 1 in a direction intended. It consists of an inducing fan shroud 3. On the other hand, the fan shroud 3 is formed in the center of the housing 3a installed to surround the blade 1a of the fan 1 and the ventilation hole 3f of the housing 3a, and the motor support part supporting the driving motor 2 ( 3b), the motor support portion 3b is connected to the housing 3a by a plurality of stators 3c and stators, and the plurality of stators 3c are formed in the form of ribs extending in the longitudinal direction.

The plurality of stators 3c support the motor support 3b toward the housing 3a, and the fan shroud 3 can sufficiently support the weight of the driving motor 2, and also the plurality of stators 3c. ) Also guide the airflow generated by the fan 1.

However, the conventional shroud (3) has a disadvantage in that the air flow generated by the fan is converted into a vortex while passing between the plurality of stators (3c), so that noise is greatly generated during the air blowing.

Therefore, in recent years, research and development has been conducted in the direction of minimizing the number of stators (3c), the number of stators (3c) in consideration of the stiffness of the shroud (3) and the stiffness to support the drive motor (2). There is a limitation in minimizing, and this has a disadvantage in that the design of noise minimization is not easy.

The present invention has been made in view of the above, and minimizes the generation of noise by minimizing the conversion of the air flow into the vortex-type air flow during the passage between the stators while maintaining a constant support rigidity for supporting the drive motor The goal is to provide a fan shroud that can be done.

The present invention for achieving the above object,

In a fan shroud that induces airflow generated by the fan,

A housing having a blower at one side, and a motor support formed at the center of the blower of the housing, and a plurality of stators extending from the edge of the motor support to the edge of the blower of the housing,

The stator has a plurality of reinforcing ribs are connected to each other, the center portion of each of the reinforcing ribs is formed with a through-hole through which the air flow, characterized in that each of the reinforcing ribs extending in a structure surrounding the periphery of the through portion do.

The reinforcing rib is composed of any one of a hexagonal structure, a square structure, a triangular structure, and a donut structure.

Reinforcing rib of the stator is characterized in that the cross-section is configured in a streamlined structure.

According to the present invention as described above, the stator is composed of a plurality of reinforcing ribs are connected, the center of each of the reinforcing ribs is composed of a structure is formed through the passage through which the air flow, the support rigidity for supporting the drive motor While maintaining a constant, there is an advantage that can minimize the generation of noise by minimizing the conversion of the air flow into the vortex type air flow during the passage between the stators.

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

2 and 3 illustrate a fan shroud according to an embodiment of the present invention, the fan shroud 20 is a housing 21 in which a vent 22 is formed at one side, and a center of the vent 22 of the housing 21. And a plurality of stators 24 connecting the motor support 23 and the motor support 23 to the housing 21 side.

The housing 21 is configured to surround the blade 11 of the fan 10 which is rotatably installed, and one side thereof is formed with a vent 22 for inducing the air flow generated by the fan 10.

The motor support part 23 is formed in the center part of the tuyere 22, and the drive motor 15 is supported by this motor support part 23. As shown in FIG.

Each stator 24 extends from the edge of the motor support 23 to the edge of the tuyeres 22 of the housing 21 across the tuyeres 22. In particular, each stator 24 has a plurality of reinforcing ribs 24a connected thereto, and each of the reinforcing ribs 24a has a through portion 24b through which air flow passes. That is, since the reinforcing rib 24a of the present invention is configured to extend to surround the periphery 24b, the supporting rigidity of the reinforcing rib 24a can be increased as compared with the conventional stator. As the through part 24b is formed at the center, the air flow can be more smoothly induced.

The reinforcing ribs 24a are formed in various structures such as polygons, circles, etc., such as hexagonal structures (see FIG. 2), rectangular structures (see FIG. 4), triangular structures (see FIG. 5), donut structures (see FIG. 6), and the like. May be In addition, the reinforcing rib 24a may be configured in a more diverse structure having a penetrating portion 24b at the center thereof.

As described above, according to the present invention, the stator 24 includes a plurality of reinforcing ribs 24a connected to each other, and the reinforcing ribs 24a have a structure in which a through part 24b is formed at the center thereof. Can be minimized as 2 or 3, and as the number of stators 24 is minimized, the air flow generated by the fan 10 can narrow the area in contact with the stator 24, thereby vortexing It is possible to minimize the generation of air flow in the form, there is an advantage that can minimize the generation of noise by minimizing the air flow of the vortex form.

In addition, the reinforcing rib 24a of the stator 24 according to the present invention, as shown in Figure 3, the cross-section is composed of a streamlined structure, the air flow is gentle when the air flow and the stator 24 in contact It is possible to further minimize the vortex-type air flow.

1 is an exploded perspective view showing a conventional fan assembly.

2 is a front view illustrating a fan shroud according to an embodiment of the present invention.

3 is a cross-sectional view taken along the line A-A of FIG.

4 is a front view showing a fan shroud according to another embodiment of the present invention.

5 is a front view showing a fan shroud according to another embodiment of the present invention.

6 is a front view illustrating a fan shroud according to another embodiment of the present invention.

Brief description of the main parts of the drawing

10: Fan 11: Blade

20: fan shroud 21: housing

22: air vent 23: motor support

24: Stator 24a: Reinforced Rib

24b: penetration

Claims (3)

In a fan shroud that induces airflow generated by the fan, A housing having a blower at one side, and a motor support formed at the center of the blower of the housing, and a plurality of stators extending from the edge of the motor support to the edge of the blower of the housing, The stator has a plurality of reinforcing ribs are connected to each other, the center portion of each of the reinforcing ribs is formed with a through-hole through which the air flow, characterized in that each of the reinforcing ribs extending in a structure surrounding the periphery of the through portion Fan shroud. The method of claim 1, The reinforced rib is a fan shroud, characterized in that consisting of any one of a hexagonal structure, a square structure, a triangular structure, a donut structure. The method of claim 1, Reinforcing rib of the stator fan shroud, characterized in that the cross-section is configured in a streamlined structure.

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