KR100420517B1 - A fan housing - Google Patents

Abstract

The present invention relates to a fan housing in which a blower fan installed in an apparatus such as an air conditioner or a cleaner generates a blowing force is installed therein. In particular, the structure of the bell mouse is improved, so that the air sucked in the direction of rotation of the blower fan is provided. It relates to a fan housing that swirls and flows in to reduce flow losses.

The fan housing according to the present invention has a blower fan installed therein, a main body portion having an inlet formed on one side thereof, a hopper portion extending from one side of the main body portion to form a discharge port, and installed at an edge of the inlet port In the fan housing including a bell mouse to form a convex curved portion forward to prevent the generation of turbulence in the air, the bell mouse has a plurality of guides formed on the curved portion is the air flowing into the blowing fan Rotating in the same direction is characterized in that to be introduced.

Description

Fan housing {A fan housing}

The present invention relates to a fan housing in which a blower fan installed in an apparatus such as an air conditioner or a cleaner generates a blowing force is installed therein. In particular, the structure of the bell mouse is improved, so that the air sucked in the direction of rotation of the blower fan is provided. It relates to a fan housing that swirls and flows in to reduce flow losses.

1 is a front view and a plan view showing a fan housing according to the prior art.

As described above, the fan housing according to the related art includes a main body part 2 formed in a circular shape to surround the blower fan 30, and one side of the main body part 2 is formed on the side of the main body part 2. And the hopper part 4 which discharge area becomes gradually wider.

Here, the main body portion 2 and the hopper portion 4 are integrally formed to communicate with each other, and form a front shape shown in FIG. 1, the front panel 10 having the suction port 12 formed at the center thereof, and the front surface thereof. The rear panel 20 is formed in the same shape and arranged to maintain a predetermined interval, and is arranged to connect end portions of the front panel 10 and the rear panel 20 except the upper surface to form an inner space of the fan housing, The side panel is formed so that the discharge port 16 is formed on the upper side.

In addition, the side panel has a corner is formed in the portion connected to the front panel 10 and the rear panel 20, the chamfered shape is formed on the corner generated on the front side of the main body portion 2 bar This part is referred to as cutoff 6, which is intended to prevent the air discharged by the blower fan 30 from colliding with the inner wall of the discharge port 16 by the centrifugal force to generate vortices.

In addition, the suction port 12 formed on the front surface of the main body 2 is formed to be biased toward the side where the cutoff 6 is formed, and a blower fan 30 and a motor (not shown) are installed inside the suction port 12.

In addition, a bell mouse 14 having a semicircular cross section is installed at the edge of the inlet 12 to prevent the air flowing into the fan housing from generating turbulence by the edge end of the inlet 12. do.

Looking at the operation of the fan housing according to the prior art configured as described above are as follows.

First, when power is applied, the motor is driven to drive the blower fan 30 connected to the motor, and the air introduced through the suction port 12 by the blower fan 30 is driven by the blower fan 30. The direction of movement is switched in the circumferential direction and is moved to the hopper part 4 along the inner surface of the main body part 2 of the fan housing.

At this time, the incoming air is prevented from generating turbulence by the bell mouse 14, the discharged air is discharged after moving to the discharge port 16 along the flow path gradually enlarged from the cutoff (6) position Discharge to the outside of the discharge port 16 while restoring the dynamic pressure to the positive pressure around the (16).

However, in the fan housing according to the related art, the air flowing through the bell mouse 14 is formed because the cross-sectional shape of the bell mouse 14 forms a semicircle, and the cross-sectional shape is formed in the same shape over the entire surface of the bell mouse 14. Is flowed at a certain amount of angular velocity at the outlet of the fan through the blowing fan 30, which is a linear motion after flowing in the axial direction of the blowing fan 30, so that the flow loss in the process of converting air from the linear motion to the rotational motion There is a problem that occurs.

The present invention has been made to solve the above problems of the prior art, the structure of the bell mouse is improved, so that the air flowing through the bell mouse in the direction of rotation of the blowing fan before the moving direction is switched by the blowing fan The purpose of the present invention is to provide a fan housing in which the vortex is generated, thereby reducing the flow loss generated by changing the direction of movement of the air inside the fan housing, thereby improving the blowing efficiency.

1 is a front view and a plan view of a fan housing according to the prior art,

2 is a front view and a plan view of a fan housing according to the present invention.

<Explanation of symbols on main parts of the drawings>

52: body portion 54: hopper portion

56: cutoff 60: front panel

62: suction port 64: Bell Mouse

64a: guide 66: discharge port

70: rear panel 80: blower fan

The fan housing according to the present invention for solving the above problems is a blower fan is installed inside, the main body portion formed with a suction port on one side; A hopper part extending from one side of the main body part to form a discharge hole; In the fan housing is installed at the edge of the inlet port to include a bell mouse to form a convex curved portion forward to prevent the generation of turbulence in the incoming air; The bell mouse is characterized in that a plurality of guides having a curved shape inclined in the same direction as the rotation direction of the blowing fan so that the incoming air is rotated in the same direction as the rotation direction of the blowing fan is formed. do.

Hereinafter, an embodiment of the fan housing according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a front view and a plan view showing a fan housing according to the present invention.

The fan housing according to the present invention includes a main body portion 52 formed in a circular shape so as to surround the blower fan 80, and is formed to be biased to one side on an upper side of the main body portion 52, and the main body portion so as to gradually increase the discharge area. And a hopper portion 54 extending from 52.

Here, the main body portion 52 and the hopper portion 54 are integrally formed to communicate with each other. As shown in FIG. 2, the front panel 60 having the air inlet 62 through which air is introduced is formed, and the The rear panel 70 is formed in the same shape as the front panel 60 and disposed to maintain a predetermined distance from the front panel 60, and the front panel 60 and the rear panel 70 except for an upper surface thereof. The fan housing is made by the side panel which connects all the ends and forms the inside of the fan housing and the discharge port 66.

In addition, an edge is formed at a portion at which the side panel and the other panel are connected, and a slanted surface having a chamfered shape is formed at an edge generated above the front surface of the main body 52. This portion is referred to as cutoff 56, which is intended to prevent the air discharged by the blowing fan 80 from hitting the inner wall of the discharge port 66 by its centrifugal force to generate turbulence.

As described above, the front panel 60 has a suction port 62 formed at the center of the main body 52, and a semicircular cross section is formed at the end of the suction port 62 so as to cause vortex of the inflow air. A bell mouse 64 having a plurality of guides 64a formed therein is installed.

Here, the bell mouse 64 is installed so that the end portion is inserted into the suction hole of the blower fan 80 by a predetermined amount to prevent turbulence generated between the suction port 62 of the fan housing and the suction hole of the blower fan 80. do.

In addition, the guide 64a is formed by protruding forward of the fan housing from the curved portion of the bell mouse 64 having a semicircular cross-section, and between the protruding guide 64a and the curved portion of the bell mouse 64. The step formed in the spiral shape is formed in a curved surface in the same direction as the direction in which the blowing fan 80 is rotated.

As a result, the air flowing into the blower fan 80 is suppressed by the generation of turbulence by the curved portion of the bell mouse 64, and the direction of movement of the blower fan 80 is changed by the blower fan 80 by the guide 64a. Before the vortex is generated and aspirated.

In addition, the suction port 62 formed on the front surface of the main body part 52 is formed to be biased toward the side where the cutoff 56 is formed, and an inner side of the blower fan 80 and a motor are installed.

Looking at the action of the fan housing according to the present invention configured as described above are as follows.

First, when power is applied, a motor is driven to introduce air through the inlet port 62, and the inflow air is changed in a moving direction by the blower fan 80 so that the outlet port 66 is formed along the inner wall of the fan housing. Is discharged through.

At this time, the bell mouth 64 formed at the end of the suction port 62 is blown to prevent the inflow of air from interfering with the edge of the suction port 62 and the edge of the suction hole of the blower fan 80. The efficiency can be improved.

In addition, the guide 64a is generated when the intake air is introduced while being rotated in the same direction as the rotation direction of the blowing fan 80 so that the linearly moving air comes into contact with the blowing fan 80 and is converted into rotational motion. The flow loss can be reduced to improve the blowing efficiency.

Fan housing according to the present invention configured as described above is formed by a plurality of spiral guides on the curved portion of the bell mouse installed in the inlet, the air flowing through the bell mouse vortex along the guide flows in the direction of movement There is an advantage that the flow loss generated during this conversion is reduced to improve the blowing efficiency.

Claims (3)

A main body having a blowing fan installed therein and having a suction port formed at one side thereof; A hopper part extending from one side of the main body part to form a discharge hole; In the fan housing is installed at the edge of the inlet port to include a bell mouse to form a convex curved portion forward to prevent the generation of turbulence in the incoming air; The bell mouse is characterized in that a plurality of guides having a curved shape inclined in the same direction as the rotation direction of the blowing fan so that the incoming air is rotated in the same direction as the rotation direction of the blowing fan is formed. Fan housing. The method of claim 1, The guide is a fan housing, characterized in that the protruding a predetermined amount forward from the curved portion of the bell mouse. delete