KR19990032273A - Airflow Compensation Structure of Sirocco Fan - Google Patents

Abstract

In the airflow compensation structure of the sirocco fan according to the present invention, since a dead zone in which air is not discharged or no air flow is formed on the suction side and the central side of the fan is conventionally made, the size of the sirocco fan becomes large. In addition, in the present invention, a plurality of main blades are arranged in a cylindrical shape on a disk to which the drive shaft of the driving means is inserted and rotated, so that the air sucked in the linear direction is centrifugally. In the discharging sirocco fan, the fan is integrally formed with the disc to be formed on the fan without increasing the size of the fan by adding an auxiliary wing for increasing the suction flow rate of the air or increasing the internal flow. By minimizing the dead zone, it is possible to significantly increase the air volume and the air pressure of the discharged air.

Description

Airflow Compensation Structure of Sirocco Fan

The present invention relates to a sirocco fan, and more particularly, to an airflow compensation structure of a sirocco fan suitable for increasing the air flow rate by additionally integrating a separate auxiliary wing in addition to a plurality of main wings.

In general, the sirocco fan is mainly installed in the indoor unit of a window air conditioner or the hood of a gas range which is commonly used in homes, and is mainly used to discharge cold air to the inside or to discharge smoke generated from cooking food to the outside. On the other hand, the air volume is designed to be increased while being smaller.

In view of this situation, an example of a conventional sirocco fan is illustrated in FIGS. 1A and 1B.

As shown therein, the conventional sirocco fan 1 includes a disc 2 forming a skeleton of the fan, a plurality of wings 3 arranged in a cylindrical shape on the disc 2, and a central portion of the disc 2. A hub (4) formed in the shaft and inserted into the shaft of the driving motor (M), and a reinforcing rib provided at the distal end of the suction part side, precisely opposite the disc (2), in order to prevent the twist of the arrangement of the blade (3); It consists of 5).

In the conventional sirocco fan 1 configured as described above, the disc 2 and the blade 3 are rotated by the driving motor M, and the fan 1 is rotated by the blade 3. Negative pressure was generated inside the air, and air was sucked from the suction side and discharged in the centrifugal direction through the blades 3.

On the other hand, as a result of the flow visualization experiment with the sirocco fan 1 as described above, air is not discharged from the suction side to the 'P-P' plane corresponding to about 20% of the fan width. (dead zone) was formed, and in the center portion of the disc 2 side of the fan 1, almost no air flowed, and the velocity distribution of the exit side of the blade 3 (arrow shown above in FIG. 1B) ), The speed is gradually increasing toward the disc (2) side.

However, in the conventional sirocco fan 1 as described above, since the dead zone in which air is not discharged or no air flow is formed on the suction side and the central side of the fan is formed, the sirocco fan 1 ) Increases in size or decreases the amount of air discharged and the air pressure.

That is, in the dead zone, since no air is discharged or no flow of air is generated, the width of the sirocco fan 1 (indicated by 'B' in FIG. 1B) must be formed long to satisfy the required air volume. In contrast, when the size of the sirocco fan 1 is reduced in size, the fan 3 does not sufficiently suck the outside air and of course, the air that is not discharged to the outside is discharged. The amount of wind and the wind pressure were to fall.

Accordingly, the present invention has been made in view of the above-described problems of the conventional sirocco fan, minimizing the dead zone formed in the sirocco fan, miniaturizing the sirocco fan itself, as well as the amount of air and the air pressure of the discharged air It is an object of the present invention to provide a flow rate compensation structure of the sirocco fan that can significantly increase the.

Figure 1a is a side view showing the configuration of a conventional sirocco fan.

Figure 1b is a longitudinal sectional view showing the air flow of the conventional sirocco fan.

Figure 2 is a longitudinal sectional view showing the configuration and air flow for an example of a sirocco fan according to the present invention.

Figure 3a is a longitudinal cross-sectional view showing the configuration and air flow for a modified example of the sirocco fan according to the present invention.

Figure 3b is a longitudinal sectional view showing the configuration and air flow for another variant of the sirocco fan according to the present invention.

Explanation of symbols on the main parts of the drawings

11,21,31: Drive motor 12,22,32: Disc

13,23,33: main wing 14,24,34: auxiliary wing

In order to achieve the object of the present invention, in the sirocco fan for discharging the air sucked in a straight direction in the centrifugal direction by a plurality of main blades are arranged in a cylindrical shape in a disk to which the drive shaft of the drive means is inserted and rotated, the disc The airflow compensation structure of the sirocco fan is provided, wherein the auxiliary wing is added to increase the suction flow rate of the air or increase the internal flow while rotating together with the main blade.

Hereinafter, the airflow compensation structure of the sirocco fan according to the present invention will be described in detail based on the embodiment shown in the accompanying drawings.

Figure 2 is a longitudinal cross-sectional view of the sirocco fan equipped with the airflow compensation structure according to the present invention, as shown in this, the sirocco fan 10 according to the present invention is the disk to which the drive shaft 11a of the drive motor 11 is rotated (12) and a plurality of main blades (13) arranged in a cylindrical shape on the disc (12) and discharging air sucked in a straight direction in a centrifugal direction, and mounted on opposite sides of the disc (12) from the outside. It consists of the propeller 14 which inhales air.

In the figure, reference numeral 12a is a hub.

In the sirocco fan 10 according to the present invention configured as described above, when the disc 12 is rotated by the drive of the drive motor 11, the main blade 13 and the propeller (attached to the disc 12) ( 14 is rotated together, such that the main blade 13 and the propeller 14 is rotated, the negative pressure is generated inside the fan 10, the outside air is sucked to the suction side and at the same time the main wing 13 It is discharged in the centrifugal direction through.

At this time, since not only the main blade 13 but also the propeller 14 is rotated together by the drive motor 11, the amount of air introduced from the outside is significantly increased, and the amount of air discharged is also greatly increased.

If there is a modification according to the present invention is as shown in Figure 3a.

That is, in the above-mentioned example, although the propeller 14 which rotates with the main blade 13 on the opposite side of the original plate 12 was installed and the air inflow volume from the outside was increased, the discharge flow volume was remarkably increased. The sirocco fan 20 according to the modification is to form the auxiliary wing 24, such as the bottom wing of the washing machine, on the inner surface of the disc 22 instead of the propeller, which is easier to manufacture than the above-described example Only the cost is reduced, the operation and action is almost the same.

In the drawings, reference numeral 21 denotes a drive motor, and 23 denotes a main wing.

In addition, there is another modification according to the present invention is as shown in Figure 3b.

That is, in the above-described examples and modifications, in order to increase the flow rate of air introduced from the outside, a propeller 14 is added to the opposite sides of the discs 12 and 22, or a bottom wing (in the inner surface of the disc 22) 24), but in the sirocco fan 30 according to the present modification, the efficiency of the fan is improved by increasing the wind pressure of the introduced air, and toward the suction side toward the center of the inner surface of the disc 32. The conical screw-shaped blade 34 gradually decreases in diameter so that the introduced air is wound up and discharged.

In the drawings, reference numeral 31 denotes a drive motor and 33 denotes a main blade.

This causes the air in the dead zone (that is, the stagnation section) formed in the central portion of the fan 30 to be forcedly discharged to discharge the air flowing in from the outside while being circulated smoothly.

As described above, in the airflow compensating structure of the sirocco fan according to the present invention, a plurality of main wings are arranged in a cylindrical shape on a disc in which the drive shaft of the driving means is rotated so as to discharge air sucked in a linear direction in a centrifugal direction. In the fan, a dead zone formed in the fan without expanding the size of the fan by adding an auxiliary wing for increasing the intake flow rate of the air or increasing the internal flow while rotating with the main blade integrally with the disc. By minimizing it, it is possible to significantly increase the air volume and the air pressure of the discharged air.

Claims (4)

In a sirocco fan in which a plurality of main blades are arranged in a cylindrical shape on a rotating disk to which the driving shaft of the driving means is inserted, discharging air sucked in a linear direction in a centrifugal direction. Air flow compensation structure of the sirocco fan, characterized in that the auxiliary wing is added to increase the suction flow rate or increase the internal flow. The airflow compensating structure of a sirocco fan according to claim 1, wherein the auxiliary wings are propellers mounted on opposite sides of the disc to suck air from the outside. The airflow compensating structure of a sirocco fan according to claim 1, wherein the auxiliary blade is formed on an inner surface of the disc and is a bottom blade for sucking air from the outside. The airflow compensating structure of a sirocco fan according to claim 1, wherein the auxiliary wing is a conical screw blade mounted on an inner surface of the disc to force flow of sucked air.