KR101468739B1 - Air conditioner and Fan assembly thereof - Google Patents

Abstract

The present invention relates to an air conditioner and a fan assembly of an air conditioner.

According to the fan assembly of the air conditioner and the air conditioner according to the embodiment of the present invention, the flow noise generated in the fan driving process is reduced.

Fans, hubs, blades

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a fan assembly for an air conditioner and an air conditioner,

The present invention relates to an air conditioner and a fan assembly of an air conditioner.

The air conditioner is a device that keeps the room air temperature lower or higher than the outdoor temperature through heat exchange between the refrigerant and the room air.

In detail, the inside of the air conditioner is provided with a refrigerant cycle, and a phase-change refrigerant and outside air are heat-exchanged through the refrigerant cycle. The refrigerant cycle includes a compressor for compressing the refrigerant at a high temperature and a high pressure, a condenser for exchanging heat with the outdoor air through the refrigerant passed through the compressor, an expansion valve for expanding the refrigerant passing through the condenser at a low temperature and a low pressure, And an evaporator in which a refrigerant exchanges heat with indoor air. Here, when the air conditioner is used as a cooler, the condenser corresponds to an outdoor heat exchanger, and the evaporator corresponds to an indoor heat exchanger.

More specifically, in the case of an air conditioner for air conditioning, the evaporator is mounted on an indoor unit, and the condenser is mounted on an outdoor unit. The compressor and the expansion valve are mounted on the outdoor unit.

Generally, an air conditioner can be divided into an integrated air conditioner in which a condenser and an evaporator are housed in a single case, and a separate type air conditioner in which a condenser and an evaporator are housed in separate cases. The indoor unit of the air conditioner is classified into a standing type, a wall-mounted type, and a ceiling type according to the installation mode, and classified into cooling, heating, and cooling and heating depending on functions.

1 is a partial cross-sectional view of a hub constituting a conventional fan assembly.

Referring to FIG. 1, a hub 1 constituting a conventional fan assembly, particularly a turbofan, has a shape in which the thickness t thereof is uniformly extended as shown in the figure.

In addition, a tangent line passing through the bottom surface of the lower end of the hub 1 extends orthogonally to the central axis of the hub 1, that is, the rotational axis of the fan assembly. In other words, the lower end of the hub 1 has a horizontally extending structure.

According to the conventional fan assembly structure having the above structure, the flow noise is increased during the air suction process. In other words, the hub 1 has a shape in which the straightness of the horizontal cross section increases toward the lower end.

More specifically, when the cross section of the hub 1 is viewed, the hub 1 extends up to an angle of between a horizontal line and a vertical line until immediately before the lower end, and horizontally extends at a lower end. Therefore, air radially spreading down from the upper side to the lower side along the surface of the hub 1 is suddenly discharged in the horizontal direction at the lower end of the hub 1. Then, as the discharge direction is switched horizontally, a collision phenomenon occurs between the hub 1 and the air, and a flow noise is generated.

In addition, since the thickness of the hub 1 is kept constant from the upper end portion to the lower end portion, the upper end portion is relatively weaker in strength than the lower end portion. In other words, since the total weight of the hub 1 is supported at the upper end of the hub 1, the strength at the upper end of the hub 1 and the strength at the lower end need to be maintained differently. Nevertheless, since the thickness of the hub 1 remains the same, there is a disadvantage that the strength is not easily maintained.

The present invention has been proposed in order to solve the above problems, and it is an object of the present invention to provide a fan assembly of an air conditioner in which the structure of a blowing fan hub is improved to reduce flow noise, .

According to an aspect of the present invention, there is provided a fan assembly of an air conditioner and an air conditioner, comprising: a hub having a horizontal cross section having a larger diameter toward a lower end; A plurality of blades arranged on an outer periphery of the hub, and a bell mouth seated on an upper end of the blade, wherein a lower end of the hub is inclined downward with respect to a horizontal plane.

According to another aspect of the present invention, there is provided a fan assembly for an air conditioner and an air conditioner, comprising: a conical hub having a wider width toward the lower side; And a plurality of blades fixedly arranged on an outer side of the hub, wherein a thickness of an upper end portion of the hub is different from a thickness of a lower end portion of the hub.

According to the fan assembly of the air conditioner and the air conditioner according to the embodiment of the present invention, the flow noise generated in the fan driving process is reduced.

In addition, the structure in which the thickness of the hub of the blowing fan becomes thinner toward the outside increases the strength of the hub.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. It is to be understood that the spirit and scope of the present invention are not limited to the embodiments and drawings, and that various changes, additions and deletions may be made within the scope of the present invention.

FIG. 2 is a perspective view showing an appearance of a ceiling-type air conditioner indoor unit having a fan assembly according to an embodiment of the present invention, and FIG. 3 is a longitudinal sectional view of the indoor unit.

Hereinafter, to describe the structure of the indoor unit of the air conditioner according to the embodiment of the present invention, a portion where the room air inlet is formed is defined as an upper surface and a portion where the fan assembly is seated is defined as a lower surface.

2 and 3, an indoor unit 10 of a ceiling-type air conditioner according to an embodiment of the present invention includes a cabinet 11 surrounding an outer appearance of the cabinet 11, A base 13 attached to a bottom surface of the case 12 and provided in the case 12 so as to be spaced inwardly from the case 12, And a drain pan which receives the condensed water formed on the surface of the heat exchanger 14 and is mounted on the upper side of the heat exchanger 14, A control box 21 provided on the inner side of the drain pan 15 for guiding indoor air suction; a control box 21 mounted on an edge of the shroud 22; And a front panel 18 which is seated on the drain pan 15 and covers the case 12.

In detail, the heat exchanger 14 functions as an evaporator in a cooling mode. The fan assembly includes a fan motor 17 and a blowing fan 16 connected to the rotary shaft of the fan motor 17 to draw indoor air while rotating. The air blowing fan 16 may be a centrifugal fan that sucks air in the axial direction and discharges the air in a radial direction, and a turbo fan can be applied thereto. The fan motor 17 is fixedly mounted on the base 13 by a motor mount.

A suction grill 19 for sucking indoor air is mounted on the front panel 18 and a filter 20 for purifying indoor air sucked is mounted on the bottom surface of the suction grill 19. On the four sides of the front panel 18, a discharge port 182 through which the inhaled indoor air is discharged is provided, and the discharge port 182 is selectively opened and closed by the louver 181.

A depression 152 is formed in the bottom surface of the drain pan 15 to receive the lower end of the heat exchanger 14. In detail, the depressed portion 152 is a space in which the condensed water generated on the surface of the heat exchanger 14 is dropped and accumulated, and a drain pump (not shown) for draining the condensed water is mounted on the depressed portion 152. A discharge port 151 having a predetermined length is formed at a position apart from the depression 152. Accordingly, the room air sucked by the blowing fan 16 is cooled while passing through the heat exchanger 14, and then is discharged to the room again through the discharge port 151. [ The cooling air having passed through the discharge port 151 is discharged to the room through the discharge port 182 of the front panel 18.

An orifice 22 is formed at an inner side of the shroud 22 so as to minimize a flow resistance in the process of sucking indoor air. The orifice (22) extends in a cylindrical shape in the direction of the blowing fan (16).

The case 12 may be made of a heat insulating material such as styrofoam, and the cabinet 11 may be made of a metal plate to reinforce the strength of the case 12. The base 13 is made of a metal plate so as to support the fan motor 17, and a forming portion for reinforcing the strength is formed.

More specifically, the blowing fan 16 is provided with a worm-type hub 161 having a larger diameter toward the lower end, a blade 162 arranged at a predetermined interval on the outer circumferential surface of the hub 161, And a bell mouth 163 which is seated on the top.

More specifically, the upper end of the hub 161 is formed lower than the upper end of the blade 162, and the rotation shaft of the fan motor is coupled to the bottom of the upper end of the hub 161. The blade 162 extends radially from the center of the hub 161 at a predetermined distance from the center of the hub 161, and is bent in a cyclone shape toward the outer side.

The bell mouth 163 is formed to be rounded to the outside of the hub 161. Accordingly, the indoor air sucked through the orifice formed at the central portion of the shroud 22 is guided to be radially discharged along the hub 161 and the blade 162.

4 is a partial cross-sectional view illustrating a hub structure of a fan assembly according to an embodiment of the present invention.

Referring to FIG. 4, the hub 161 constituting the blowing fan 16 of the fan assembly according to the embodiment of the present invention is formed in a conical shape whose diameter increases toward the lower side as described above.

In detail, an end portion of the hub 161 extends in a downwardly extending manner, and an angle? Formed by a tangent line passing through a bottom surface of the end portion to the rotation center axis of the blowing fan 16 is 90 degrees or more, As shown in FIG. As described above, the end of the hub 161 is radially expanded, and at the same time, the lower portion of the hub 161 is further inclined downward than the horizontal portion, so that the flow of the air descending along the surface of the hub 161 is smoothly continued. If the end of the hub 161 is extended in a horizontal state, the flow of the downwardly moving air is horizontally changed, which may result in a speed reduction due to the flow resistance. In addition, the air flowing along the surface of the hub 161 can not be guided to the lowermost end of the heat exchanger 14.

On the other hand, since the end of the hub 161 is formed to be inclined downward than the horizontal state, the air flowing along the surface of the hub 161 is not subjected to flow resistance. The air flowing along the surface of the hub 161 is guided downward to reach the lowermost end of the heat exchanger 14. This can be clearly seen from the sectional view of FIG.

5 is a partial cross-sectional view illustrating a hub structure of a fan assembly according to another embodiment of the present invention.

Referring to FIG. 5, the hub 161 of the blowing fan 16 constituting the fan assembly according to the embodiment of the present invention is formed so that the thickness thereof decreases toward the outside.

Specifically, the thickness t1 of the upper end of the hub 161 is greater than the thickness t2 of the lower end. The entire load of the hub 161 is concentrated at the central portion, that is, the upper end portion serving as the rotation center of the blowing fan 16. Therefore, it is preferable to set the thickness of the hub 161 so that the strength of the center of the upper end of the hub 161 becomes the largest. From the above reason, it is advantageous in terms of strength to make the thickness of the hub 161 gradually increase toward the center from the end portion of the hub 161.

The thickness of the hub 161 is made thinner from the center to the end and the lower end of the hub 161 is inclined downwardly by 90 degrees or more from the center axis of rotation so as to reinforce the strength of the blowing fan 16, The flow resistance and the noise due to the air sucked in the rotation of the fan 16 can be reduced.

1 is a partial cross-sectional view of a hub constituting a conventional fan assembly;

2 is a perspective view showing an appearance of a ceiling-type air conditioner indoor unit having a fan assembly according to an embodiment of the present invention.

3 is a longitudinal sectional view of the indoor unit.

4 is a partial cross-sectional view illustrating a hub structure of a fan assembly according to an embodiment of the present invention;

5 is a partial cross-sectional view showing a hub structure of a fan assembly according to another embodiment of the present invention;

Claims (8)

A fan motor having a rotary shaft; A hub connected to the rotating shaft of the fan motor and having a larger horizontal cross-sectional diameter toward the lower end; A plurality of blades arranged on an outer periphery of the hub; A bellmouth mounted on the top of the blade and extending roundly outwardly of the hub, Wherein the lower end of the hub extends downwardly to a horizontal plane, Wherein an angle formed by a tangent line passing through a bottom surface of the lower end of the hub and a rotation axis of the fan motor is greater than 90 degrees, Wherein an outer diameter of the lower end of the hub is smaller than or equal to an inner diameter of the bell mouth. The method according to claim 1, Wherein the hub is thinner toward the lower end of the fan assembly. delete delete delete delete delete An air conditioner comprising the fan assembly according to claim 1.

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