KR100479115B1 - High Efficiency Air Conditioner_ - Google Patents

Abstract

Since the present invention has a problem in that the secondary air is generated while the air conditioner outdoor unit passes through a flow path in which air introduced through the air inlet of the cabinet is suddenly enlarged and flow energy is lost, efficiency is lowered and noise is increased.

An air conditioner including a condenser installed in the cabinet, a fan that blows air to the condenser to help heat dissipation of the condenser, and a shroud installed inside the cabinet to guide the flow of air introduced through the air inlet of the cabinet. In the outdoor unit of the flow, the flow guide means for guiding the flow of air between the cabinet and the end of the shroud is added,

The present invention relates to a high-efficiency air conditioner that improves efficiency and reduces noise due to secondary flow since air passing through the air inlet of the cabinet does not meet the enlarged flow path, thereby reducing the secondary flow.

Description

High efficiency air conditioner

The present invention relates to an outdoor unit part for condensing a refrigerant in an air conditioner that cools indoors by discharging the indoor air and then discharging the indoor air. Particularly, the cooling performance is improved by improving the air flow of the outdoor unit part to improve condensation efficiency. One relates to high efficiency air conditioners.

In general, the main part of the air conditioner is composed of an evaporator for absorbing the heat of the ambient air to cool the air, a condenser for dissipating the heat of the refrigerant to condense the refrigerant, and a compressor for compressing the refrigerant into a high-temperature, high-pressure gas refrigerant. Therefore, when cooling the room, a condenser and a compressor for radiating heat are installed outdoors, and an evaporator for cooling the air is installed in the room.

The outdoor unit of the conventional air conditioner as shown in Figure 1, the condenser 12 installed in the cabinet 10, the fan 13 to help the heat dissipation action of the condenser 12 by blowing air to the condenser 12, A motor 14 driving the fan 13, a compressor 11 installed inside the cabinet 10, and an air inlet 10 ′ of the cabinet 10 installed inside the cabinet 10. It consists of a shroud 15 to guide the flow of air flowing through.

The outdoor unit of the conventional air conditioner configured as described above allows the fan to blow air into the condenser to help the heat dissipation of the condenser.

When the air conditioner is operated, the compressor 11 is driven to circulate the refrigerant, and the circulated refrigerant is condensed through the heat radiation action in the condenser 12. Simultaneously with the operation of the compressor 11, the motor 14 is driven to rotate the fan 13. As the fan 13 rotates, air outside the cabinet 11 flows through the air inlet 10 ′. It is moved towards condenser 12. Therefore, the air heated by the heat radiation action of the condenser 12 is discharged to the outside and the new air is supplied to the condenser 12 to improve the heat radiation effect in the condenser 12.

At this time, the shroud 15 induces a flow of air so that the air introduced through the air inlet 10 ′ of the cabinet 10 flows toward the fan 13 with minimal resistance, and the fan 13 is The introduced air is blown to the condenser 12.

However, the conventional air conditioner outdoor unit configured as described above has a problem in that efficiency is lowered and noise is increased because secondary flow is generated while the air flowing through the air inlet of the cabinet is suddenly enlarged and flow is lost. .

That is, the air flowing through the air inlet 10 'of the cabinet 10 is in contact with a flow path that is enlarged immediately after passing through the inlet 10', so that the corner of the cabinet 10 or the cabinet 10 and the shroud Secondary flow takes place in the spaces between (15). When secondary flow is generated, some loss of energy required for the primary flow of air formed by the fan 13 is inevitable, so that the efficiency of the fan 13 is lowered and the heat radiation efficiency is also lowered.

The present invention has been made to solve the above problems of the prior art, by changing the shape of the air inlet portion of the outdoor unit to reduce the flow loss, to provide a high efficiency air conditioner is improved efficiency and noise is reduced.

The present invention for achieving the above object is a condenser installed in the cabinet, a fan that blows air to the condenser to help the heat dissipation of the condenser, and installed inside the cabinet of the air introduced through the air inlet of the cabinet In the outdoor unit of the air conditioner including a flow guide the shroud, characterized in that the flow guide means for guiding the flow of air between the cabinet and the end of the shroud is added.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

The outdoor unit of the high-efficiency air conditioner according to the present invention, as shown in Figure 2, the fan condenser 52 installed in the cabinet 50, the air to blow the air to the condenser 52 to help the heat dissipation of the condenser 52 ( 53), a shroud 55 installed inside the cabinet 50 to guide the flow of air flowing through the air inlet 50 'of the cabinet 50, and a curved surface of the shroud 55 A portion is further installed at the end of the shroud 55 so as to extend to the cabinet 50 is composed of an auxiliary shroud 60 to guide the flow of air toward the fan 53.

3 is a view showing another embodiment of the present invention, by installing a streamlined structure 70 without installing an auxiliary shroud between the cabinet 50 and the end of the shroud 55, the streamlined structure 70 The air introduced through the air inlet 50 ′ of the cabinet 50 is guided toward the fan 53.

The high efficiency air conditioner of the present invention configured as described above improves efficiency by reducing secondary flow by preventing the air passing through the air inlet of the cabinet from passing through the enlarged flow path.

When the air conditioner is operated, the compressor 51 is driven to circulate the refrigerant, and the circulated refrigerant is condensed through the heat radiation action in the condenser 52. As the compressor 51 is operated and the motor 54 is driven to rotate the fan 53, air outside the cabinet 50 flows through the air inlet 50 ′ as the fan 53 rotates. And moved toward the condenser 52. Therefore, new air is continuously supplied to the condenser 52 to improve the condensation efficiency of the condenser 52 by discharging the air heated by the heat radiating action of the condenser 52 to the outside of the cabinet 50.

The shroud 55 induces an air flow such that the air introduced through the air inlet 50 ′ of the cabinet 50 is moved with minimal resistance within the cabinet 50, and the air inlet of the cabinet 50 is provided. Secondary flow occurs because the secondary shroud 60 or streamlined structure 70 installed between the 50 'and the shroud 55 removes the rapid enlargement where air is introduced through the air inlet 50'. Will not be. Therefore, the loss of the flow energy in the cabinet 50 is not generated and the air flow becomes active to improve the efficiency.

As described above, the high-efficiency air conditioner of the present invention has the advantage of improving efficiency and reducing noise due to the secondary flow since the air passing through the air inlet of the cabinet does not meet the enlarged flow path, thereby reducing the secondary flow.

1 is a view showing an air flow state in the outdoor unit of the conventional air conditioner,

2 is a block diagram showing an outdoor unit of the high efficiency air conditioner according to the present invention;

3 is a block diagram showing another embodiment of the present invention.

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

50: cabinet 51: compressor

52: condenser 53: fan

54: motor 55: shroud

60: auxiliary shroud 70: streamlined structure

Claims (3)

An air conditioner including a condenser installed in the cabinet, a fan that blows air to the condenser to help heat dissipation of the condenser, and a shroud installed inside the cabinet to guide the flow of air introduced through the air inlet of the cabinet. In the outdoor unit of, High efficiency air conditioner characterized in that the flow guide means for guiding the flow of air between the cabinet and the end of the shroud is added. The method of claim 1, The flow guide means is a high efficiency air conditioner, characterized in that the auxiliary shroud further installed so that the curved surface of the shroud extends to the wall surface of the cabinet. The method of claim 1, The flow guide means is a high efficiency air conditioner, characterized in that the streamlined structure installed between the end of the shroud and the cabinet.