KR100725813B1 - Centrifugal fan - Google Patents

Abstract

A centrifugal fan is provided to flow the air in an axial direction of the centrifugal fan without any specific element, with increasing flow rate and lowering noise. A centrifugal fan includes a blade plate(20), a plurality of blades(30), and a shroud(10). The blade plate has a hub formed at a center part thereof to be coupled to a rotary shaft of a drive motor. The plurality of blades is disposed at an outer periphery of the blade plate in a radial direction at predetermined intervals. The shroud is coupled to each blade in a ring shape to prevent vibration and guide fluid. The blade plate includes the hub, and a connection boss. The connection boss is formed to insert the rotary shaft of the drive motor. The blade receives a rotational force from the drive motor to be rotated with the blade plate to generate a centrifugal force.

Description

Centrifugal Fan

1 is a perspective view showing the structure of a conventional centrifugal fan.

FIG. 2 is a schematic cross-sectional view taken along the line II of FIG. 1.

3 is a perspective view showing the structure of a centrifugal fan according to the present invention.

4 is a schematic cross-sectional view taken along the line II-II of FIG. 3.

5 to 7 is a chart comparing the performance of the conventional centrifugal fan and the centrifugal fan according to the present invention by experiment.

       Explanation of symbols on the main parts of the drawings

        10 ... shroud 20 ... wingplate

        30 ... blade 35 ... negative pressure surface

        36 ... Pressure plane R ... Direction of centrifugal fan rotation.

        W ... direction of discharged air θ ... angle of inclination of the blade.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a centrifugal fan, and more particularly, to a centrifugal fan installed in home appliances such as an air conditioner or other manufacturing facilities, and capable of guiding gas in the axial direction with high air volume and low noise.

In general, various types of blower fans forcibly blowing gas are installed in a ventilation system of household appliances such as an air conditioner or a factory facility, and these blower fans are classified into axial fans and centrifugal fans according to the flow characteristics of the blower gas. can do.

An axial fan is a blower fan in which gas flow occurs in parallel with a rotational axis, and a centrifugal fan is a blower fan in which a blade inlet flow is generally generated in a radial direction perpendicular to the axis of rotation while an outlet flow is perpendicular to the axis of rotation.

Republic of Korea Patent Publication No. 10-2005-0110255 is provided for the circulation of air in the upper part of the main body of the air cleaner, and a blower for sucking air from the intake part of the lower part of the main body and discharges it toward the exhaust part of the upper surface is installed, A configuration in which a purifying unit for purifying circulating air is provided. A blower is disclosed, wherein the blower comprises an axial fan.

Such an axial fan has a disadvantage in that its static pressure performance is very low in structure. Therefore, in the case of the axial fan, the size of the blade or the rotation speed of the fan should be increased to increase the static pressure performance.

However, in the case of home appliances such as air purifiers, the size of the product is limited, and instead of increasing the size of the blade to increase the static pressure performance has been mainly dependent on the rotational speed of the fan.

However, when the rotation speed of the fan is increased in this way, the pressure wave between the air and the blades increases, causing a problem in that noise is greatly generated.

Therefore, in recent years, in order to solve the disadvantages of the axial fan as described above, when the size of the product is limited while the flow in the axial direction is required, there is an increasing trend of products employing centrifugal fans having high static pressure performance instead of the axial fan. to be.

As shown in FIG. 1, the centrifugal fan has a circular wing plate 2 provided with a hub 2a coupled to a rotating shaft of a drive motor (not shown) at the center thereof, and the outer circumferential portion of the wing plate 2. It comprises a plurality of blades (3) arranged radially to form an interval and a ring-shaped shroud (1) coupled to the upper surface of the blade (3) to guide the intake of gas.

The inner end 3a and the outer end 3b of the plurality of blades 3 have a two-dimensional shape orthogonal to the wing plate 2 and the shroud 1, and the negative pressure surface 3c on the gas suction side thereof and It is divided into a pressure surface 3d, which is an opposite side of the negative pressure surface 3c, which flows along the negative pressure surface 3c and forms air between the blades 3 in the rotational direction R of the fan.

The discharging direction of the gas by the centrifugal fan is that when the fan rotates in the counterclockwise direction (R), the pressure is lowered in the center of the fan and the gas is centered in the axial direction (z) by the pressure difference from the outside. Sucked gas is pushed to the negative pressure surface 3c side of the blade 3 by the centrifugal force by the rotation of the blade 3 arranged on the outer circumferential portion of the blade 2, the negative pressure of the blade 3 The gas pushed toward the surface 3c side receives the force in the normal direction W perpendicular to the pressure surface 3d of the rotating blade 3, as shown in FIG. Discharge in the radial direction perpendicular to (z).

However, when the above centrifugal fan is used in the case where axial flow is required, there are the following problems.

First, since a guide or the like must be separately provided to the outside of the fan to change the direction of the gas discharged in the direction perpendicular to the axial direction of the fan again, the structure of the centrifugal fan is complicated and the number of parts is difficult to manufacture. In addition, manufacturing costs are high.

 Next, there is a problem in that the flow volume is greatly generated in the process of converting the gas discharged in the direction perpendicular to the axial direction of the fan again in the axial direction, thereby reducing the amount of air.

Finally, the gas discharged in a direction perpendicular to the axial direction of the fan collides with the guide, there is a problem that the noise is greatly generated.

The present invention is to solve such a problem, the object of the present invention is to provide a centrifugal fan that can flow the gas in the axial direction without adding a separate configuration in the structure required to flow in the axial direction. It is.

In addition, it is to provide a centrifugal fan that can increase the air volume and reduce the noise than conventional.

The present invention for achieving the above object, the wing plate having a boss connected to the drive means, a plurality of blades radially installed on the wing plate, one end of the plurality of blades corresponding to the blade plate opposite side In the centrifugal fan comprising a shroud connected to the portion, the blade is characterized in that the gas discharged from the centrifugal fan is installed inclined at a predetermined angle so as to have a vector component in the direction of the rotation axis of the drive means.

In addition, the blade is characterized in that it is inclined backward with respect to the rotation direction of the centrifugal fan.

In addition, the blade has an inclination angle of about 15 ° to 20 ° with the rotation axis.

In addition, the inner portion of the blade is formed to span the wing plate. The remaining portion of the blade that does not span the wing plate is characterized in that it protrudes in the outward direction of the wing plate.

In addition, in the centrifugal fan having a plurality of blades radially installed between the wing plate and the shroud, the blade is such that each blade has a constant angle per unit height according to the axial height so that the gas discharged has an axial component It is characterized by inclined.

Hereinafter, one preferred embodiment of the present invention will be described in detail with reference to the drawings.

As shown in FIG. 3, the centrifugal fan according to the present invention includes a wing plate 20 having a hub 22 formed therein so as to be coupled to a rotating shaft of a driving motor (not shown) in the center, and a wing plate 20. It comprises a plurality of blades 30 radially arranged on the outer circumferential side and a shroud 10 coupled to the upper portion of each of the plurality of blades 30 in a ring shape to prevent vibration and to guide the fluid.

Wing plate 20 is formed in a disk shape of a predetermined thickness, the hub 22 is provided in the center for connection with the drive motor (not shown), and the rotation axis of the drive motor (not shown) in the center of the hub 22 It comprises a connecting boss 21 provided to be inserted.

The hub 22 is formed to protrude in a dome shape toward the shroud 10 portion relatively from the wing plate 20 so that a space in which a driving motor (not shown) can be inserted is provided at the rear side, and the sucked gas is It serves to guide the blade 30 side along the dome-shaped curve.

The blade 30 receives the rotational force due to the driving motor (not shown) and rotates with the wing plate 20 to generate centrifugal force so that the gas sucked in the axial direction is discharged to the discharge hole 40 between the blades 30. A plurality of radially arranged at equal intervals on the outer circumferential side of the wing plate 20 so as to be discharged.

An inner portion of this blade 30 is formed to span the wing plate 20. The remaining portion of the blade 30 that does not span the wing plate 20 is formed to protrude in an outward direction of the wing plate 20. That is, only a portion of the inner end side 31 of the blade 30 extends over the wing plate 20, and the outer end 32 side of the blade 30 protrudes outward of the wing plate 20. It is coupled to the wing plate 20 in a state. This is for the gas discharged from the centrifugal fan by the inclined blade 40 to be described later to smoothly flow in the rotation axis direction (z) component.

In addition, the shroud 10 is provided by connecting each blade 30 in a ring shape on the top of the blade (30). The shroud 10 is formed to be bent in the rotation axis direction z so that the diameter becomes smaller toward the suction port side 11, which will be described later.

In this case, a suction port 11 through which gas is introduced is provided at the center of the shroud 10. In addition, the discharge port 40 formed between the blades 30 is formed on the side of the centrifugal fan, that is, the outer side of the flow path formed between the plurality of blades 30 and the wing plate 20 and the shroud 10. Therefore, when the centrifugal fan is rotated by the driving motor (not shown), the external gas is sucked through the suction port 11 formed in the shroud 10 by the rotational force, and the sucked gas flows between the blades 30. It is discharged to the discharge port 40 side along.

The centrifugal fan configured as described above is a turbo fan which has a backward curved blade having a curve curved backward with respect to the rotational direction R of the rotation shaft, thereby inducing a high air volume.

In addition, the centrifugal fan as described above may be coupled to the wing plate 20 by ultrasonic welding after the plurality of blades 30 are manufactured separately from the wing plate 20, but may also be integrally formed by injection. It is possible.

The plurality of blades 30 included in the centrifugal fan according to the present invention are predetermined between the shroud 10 and the wing plate 20 so that the gas discharged to the discharge port 40 has a vector component in the rotation axis direction z. It is arranged to be inclined to have an angle of.

That is, the inner end 31 and the outer end 32 of the plurality of blades 30 are inclined at a predetermined angle between the wing plate 20 and the shroud 10. In more detail, each blade 30 basically follows the shape of the centrifugal fan in order to see the effect of the centrifugal fan on a certain height of the blade, and each cross section of each blade is united according to the height in the axial direction. It is a three-dimensional shape arranged inclined to have a constant angle per height, the discharge gas is configured to have a vector component in the rotation axis direction (z).

 In addition, the blade 30 is a negative pressure surface 35 for guiding the gas sucked into the center of the centrifugal fan between the blades 30 and the above to push the gas flowing along the negative pressure surface 35 in the rotational direction of the fan. It is divided into the negative pressure surface 35 and the pressure surface 36 which is the opposite side.

 3 and 4, the inclination direction of the blade 30 is configured to be inclined backward with respect to the rotational direction R of the centrifugal fan. That is, the gas flowing between the blades 30 by the rotation of the centrifugal fan is inclined so as to be discharged in the direction of the rotation axis direction z by receiving a force from the pressure surface 36 of the rotating blade. More specifically, when the side surface of the centrifugal fan in which the blades 30 are arranged is viewed from the front, it is connected to the shroud 10 when the centrifugal fan is rotated counterclockwise (R) as shown in FIG. The upper end 33 of the blade 30 faces the right side, and the lower end 34 of the blade connected to the wing plate 20 is configured to be inclined to the left side. If the centrifugal fan rotates clockwise, the upper end 34 of the blade 30 connected to the shroud 10 faces to the left, and the lower end 34 of the blade connected to the wing plate 20 faces to the right. Inclined to

An operation and effects of the axial centrifugal fan configured as described above will be described with reference to FIGS. 4 to 7.

4 is a schematic cross-sectional view taken along line II-II of the centrifugal fan according to the present invention shown in FIG. The x direction is a radial direction perpendicular to the rotation axis, and the z direction is the rotation axis direction. As shown in the drawing, when the centrifugal fan is rotated counterclockwise (R) by the drive motor, the pressure is lowered at the center of the fan, and the gas is sucked into the center of the fan through the suction port by the pressure difference with the outside. The gas is pushed toward the negative pressure surface 35 side of the blade 30 by the centrifugal force by the rotation of the blade 30 arranged on the outer circumferential portion of the wing plate 20, and toward the negative pressure surface 35 side of the blade 30. The pushed-out gas is forced in the normal direction W perpendicular to the pressure plane 36 of the blade 30 inclined at a predetermined angle between the wing plate 20 and the shroud 10.

Here, when the direction (W) of the air discharged from the centrifugal fan is decomposed into a vector component, it is decomposed into a vector component in the axial direction (z) having a negative value and a vector component in the radial direction (x) perpendicular to the rotation axis. do. That is, it is ejected obliquely between the x-axis having a positive value and the z-axis having a negative value on the z-x plane.

Figure 5 is a graph comparing the discharge static pressure according to the flow rate of the conventional general centrifugal fan and the axial flow centrifugal fan according to the present invention by the experiment. As shown, it can be seen that the discharge static pressure of the axial centrifugal fan according to the present invention is significantly increased than the conventional general centrifugal fan under the condition that the air volume is maintained to be substantially the same.
Figure 6 is a graph comparing the air flow rate according to the rotation speed of the conventional general centrifugal fan and the axial flow centrifugal fan according to the present invention by the experiment. As shown, it can be seen that the amount of air flow by the axial centrifugal fan according to the present invention in the case of the rotational speed of the same motor significantly increased than the conventional general centrifugal fan.

Figure 7 is a graph comparing the generation of noise according to the air flow rate under the same conditions of the conventional general centrifugal fan and the axial flow type centrifugal fan according to the present invention. As shown, when the same air volume occurs, it can be seen that the noise caused by the axial centrifugal fan according to the present invention is significantly reduced than the conventional general centrifugal fan.

As described in detail above, the axial centrifugal fan according to the present invention has the effect of having the axial component of the air discharged from the centrifugal fan by simply changing the shape of the blade without adding a separate configuration.

Therefore, by adopting the axial centrifugal fan according to the present invention in the product requiring the axial direction, it is possible to reduce the size of the product, as well as to implement a higher air volume and a fixed pressure than when using a conventional general centrifugal fan, Noise is greatly reduced.

Claims (5)

A centrifugal fan including a wing plate having a boss connected to the driving means, a plurality of blades radially installed on the wing plate, and a shroud connected to one end of the plurality of blades opposite to the wing plate. To The blade is inclined at a predetermined angle so that the gas discharged has a vector component in the direction of the rotation axis of the drive means, The blade is a centrifugal fan, characterized in that having an inclination angle of about 15 ° ~ 20 ° with the rotation axis. The centrifugal fan according to claim 1, wherein the blade is inclined backward with respect to the rotational direction of the centrifugal fan. delete       The inner portion of the blade is formed to span the wing plate. Centrifugal fan, characterized in that the remaining portion of the blade that does not span the wing plate protrudes in the outward direction of the wing plate. A centrifugal fan including a wing plate having a boss connected to the driving means, a plurality of blades radially installed on the wing plate, and a shroud connected to one end of the plurality of blades opposite to the wing plate. To The blade is inclined at a predetermined angle so that the gas discharged has a vector component in the direction of the rotation axis of the drive means,  An inner portion of the blade is formed to span the wing plate. Centrifugal fan, characterized in that the remaining portion of the blade that does not span the wing plate protrudes in the outward direction of the wing plate.

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