KR20020014224A - Fan assembly of Window type Air conditioner - Google Patents

Abstract

PURPOSE: A blower fan assembly of a window type air conditioner is provided to blow air efficiently without increase of volume a blower fan or rpm of a turbo fan by extending a path of a scroll case. CONSTITUTION: A blower fan assembly comprises a scroll case(23) and a turbo fan(24) embedded in the scroll case. The scroll case has a recessed portion(231) at a lower portion, and the turbo fan is placed in the recessed portion. The distance between a shroud of the turbo fan and an inlet(23a) is increased. An auxiliary recessed portion(232) communicated with the recessed portion is formed near the recessed portion to have the air toward an outlet(23b) flows smoothly. Therefore, the amount of intake air and discharge air is increased. An operating noise is reduced by reducing the rpm of the turbo fan.

Description

Fan assembly of Window type Air conditioner

The present invention relates to a blower fan assembly, and more particularly to a blower fan assembly that is applied to a window type air conditioner.

In general, a window type air conditioner includes a compressor 12 for pressurizing a refrigerant in one case 10 as shown in FIG. 1, a condenser 14 for condensing the refrigerant pressurized by the compressor 12, and lowering the temperature thereof. The air conditioner is configured to have an evaporator 16 for exchanging heat by using a refrigerant having a lower temperature by the condenser 14.

The window-type air conditioner has an inner space of the case 10 divided into an interior part and an outdoor part based on the diaphragm panel 18, and an indoor part is blown to circulate through the evaporator 16 and the indoor air through the evaporator 16. The fan assembly 20 is mounted, and the axial fan 30, which performs the cooling operation of the condenser 14 by using the compressor 12, the condenser 14, and outdoor air, is located in the outdoor part.

Here, the blower fan assembly 20 includes a scroll case 22 forming a flow path as shown in FIG. 2, and a turbo fan 24 embedded in the scroll case 22.

As shown in FIGS. 3 and 4, a bell mouth-shaped suction port 22a through which outside air flows into the inside of the scroll case 22 is formed, and a discharge port 22b is formed at one side of the suction port 22a. It is.

The turbo fan 24 is connected to the drive motor 40, the plurality of blades 242 and a plurality of blades 242 disposed at regular intervals on the hub 241 and the hub 241, each from the opposite side of the hub 241 The shroud 243 is commonly attached to the tip of the blade 242.

According to the blower fan assembly as described above, the hot air in the room passes through the evaporator 16 by the rotation operation of the turbo fan 24, and then is cooled and sucked into the scroll case 22 through the inlet port 22a and sucked in air. Is pressed by the blade 242 and discharged out of the scroll case 22 through the discharge port 22b, so that the air temperature of the room is appropriately cooled.

At this time, the cold air discharged to the outside of the scroll case 22 is not re-inhaled into the scroll case 22 immediately by the static pressure increase effect of the inside of the scroll case 22 by the shroud 243, and is spread out at a long distance.

The refrigerant having a high temperature in contact with the hot air in the evaporator 16 is cooled again by the outdoor air introduced into the outdoor unit by the operation of the axial fan 30 in the course of passing through the condenser 14 to continue the circulation.

Meanwhile, in constructing a blower fan assembly in a conventional window type air conditioner, a sirocco fan (not shown) may be used in place of the turbo fan 24. The sirocco fan may have a small size due to the large amount of air blowing. However, compared with the turbo fan 24 also has the disadvantage that the operating efficiency is low because the power consumption compared to the same blowing amount is large.

Accordingly, recently, a turbo fan 24 having a higher efficiency than that of a sirocco fan is mainly used for a blower fan assembly. Since the turbo fan 24 has a larger volume than that of a sirocco fan having the same blowing amount, a scroll case is required for efficient blowing. Blowing oil passages in (22) are also to be secured.

Therefore, since the size of the air conditioner to which the turbo fan 24 is applied is larger than the air conditioner to which the sirocco fan of the same blowing amount is applied, as described above, the blower fan assembly including the turbo fan 24 has a problem of minimizing the air conditioner. have.

Further, when the rotational speed of the turbo fan 24 is increased for efficient blowing while maintaining the same size of the scroll case 22 as compared to the blowing fan assembly to which the sirocco fan is applied, the operation noise of the driving motor 40 is increased. This problem also arises.

The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a blower fan assembly of a window type air conditioner, which is capable of efficient blowing without expanding the overall volume and increasing the rotational speed of the turbo fan by expanding the flow path of the scroll case. .

1 is a schematic cross-sectional view showing the structure of a general window type air conditioner.

Figure 2 is a perspective view showing the structure of a conventional blowing fan assembly applied to a general window type air conditioner.

Figure 3 is a horizontal cross-sectional view of Figure 2 showing the structure of a conventional blower fan assembly.

Figure 4 is a vertical cross-sectional view of Figure 2 showing the structure of a conventional blower fan assembly.

5 is a front perspective view showing the structure of a blowing fan assembly according to an embodiment of the present invention.

6 is a rear perspective view showing the structure of a blowing fan assembly according to an embodiment of the present invention.

7 is a horizontal cross-sectional view of FIG. 5 showing the structure of a blower fan assembly according to an exemplary embodiment of the present invention.

8 is a vertical cross-sectional view of FIG. 5 showing the structure of a blower fan assembly according to an exemplary embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

10: case 12: compressor

14: Condenser 16: Evaporator

18: diaphragm panel 20: blowing fan assembly

23: scroll case 23a: inlet

23b: discharge port 231: depression

232: auxiliary recess 24: turbo fan

241 hub 242 blade

243: shroud 30: axial fan

40: drive motor

The blower fan assembly of the window type air conditioner provided to achieve the above object is a scroll case, a plurality of blades which are embedded in the scroll case and connected to a drive motor, and are arranged at a predetermined interval on the hub and the hub, and the opposite side of the hub It comprises a turbo fan consisting of a shroud is commonly attached to the front end of each blade, the bottom of the scroll case is formed with a depression whose diameter exceeds the outer diameter of the turbo fan, the turbo fan is biased toward the depression side By positioning, the flow path between the shroud of the turbofan and the suction port of the scroll case is enlarged.

In addition, one side of the depression of the scroll case is characterized in that the wedge-shaped auxiliary depression is further formed in the depth is gradually shallow so that the flow rate of the air discharged from the turbo fan is faster.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 5 to 8, and the same reference numerals will be given to the same parts as in the prior art.

First, the blowing fan assembly of the window type air conditioner according to the embodiment of the present invention comprises a scroll case 23 and a turbo fan 24 embedded in the scroll case 23 as shown in FIG.

As shown in FIG. 6, the scroll case 23 has a recess 231 formed on a bottom thereof, and the turbo fan 24 is biased toward the recess 231 of the scroll case 23. The space between the shroud 243 and the intake port 23a of the turbofan 24 is widened (see FIG. 7).

As shown in FIGS. 7 and 8, the depression 231 has a depth H of 10 to 20% of the width of the scroll case W, and a diameter Dc of the turbofan outer diameter (connection lines of the respective blade outer ends). 100-110% of (D), extrusion angle ( ) Has a structure of 35 to 45 °.

An auxiliary recess 232 is formed at one side of the recess 231 of the scroll case 23 so as to communicate with the recess 231 so that the flow rate of the air discharged from the turbo fan 24 is increased.

Here, the auxiliary recess 232 is a wedge shape of which the depth gradually becomes shallower and the width narrows, and the distance L between the end point and the center of the recess 231 is 140 ~ of the turbofan outer diameter D. 160% of the structure.

According to the blower fan assembly according to the exemplary embodiment of the present invention configured as described above, the size of the scroll case 23 does not increase as compared with the conventional scroll case 22 (see FIG. 3), and the turbo fan 24 does not increase. Only the state moves to the rear of the scroll case 23. Therefore, the interval between the shroud 243 of the turbofan and the suction port 23a of the scroll case 23 is increased, thereby increasing the amount of intake air.

In addition, through the auxiliary depression 232 formed on one side of the depression 231, the flow of air toward the discharge port 23b side through the turbo fan 24 is made more smoothly, corresponding to the increased intake air amount Therefore, the amount of exhaust air is also increased.

That is, according to the blower fan assembly according to the present embodiment, even if the rotational speed of the turbo fan 24 is reduced in comparison with the conventional blower fan assembly, since the blowing amount is kept the same, the rotational speed of the turbofan 24 is increased. By reducing the operating noise of the drive motor 40 can also be reduced.

According to the blower fan assembly of the window type air conditioner according to the present invention, first, in the structure of the scroll case and the mounting position of the turbofan, the blowing amount is increased without increasing the overall volume, and secondly, when the blowing amount is the same as compared with the conventional blowing fan assembly, the rotation is performed. The lower speed has the advantage that the operating noise of the drive motor is reduced.

Claims (4)

With a scroll case, A turbo fan built in the scroll case and connected to a driving motor, the hub and a plurality of blades arranged at regular intervals on the hub, and a shroud commonly attached to the tip of each blade on the opposite side of the hub; In the blower fan assembly of the window type air conditioner comprising a; The bottom surface of the scroll case is formed with a depression whose diameter exceeds the outer diameter of the turbo fan, the turbo fan is biased to the depression side, characterized in that the flow path between the shroud of the turbo fan and the suction port of the scroll case is expanded Blower fan assembly of window air conditioner. The method of claim 1, One side of the depression of the scroll case blowing fan assembly of the window type air conditioner, characterized in that the wedge-shaped auxiliary recess is further formed to gradually decrease the depth so that the flow rate of the air discharged from the turbo fan is increased. The method of claim 1, wherein the depression A blower fan assembly for a window type air conditioner, wherein the depth is 10-20% of the width of the scroll case, the diameter is 100-110% of the outer diameter of the turbofan, and the protrusion angle is 35-45 °. The method of claim 2, wherein the auxiliary recessed portion A blower fan assembly for a window type air conditioner, wherein the distance between the tip and the center of the depression portion is 140 to 160% of the outer diameter of the turbofan.