KR0139853Y1 - Air flow system - Google Patents

Abstract

In order to improve the cooling and heating efficiency of the air conditioner, the present invention includes an indoor unit 110 in which the first heat transfer coil 111 and the first fan 112 are embedded, the second heat transfer coil 121, and the second heat transfer coil. And a flow duct 140 for guiding the outdoor unit 120, the compressor 130, and the air circulating in the indoor side to the indoor unit 110 and the outdoor unit 120, in which the fan 122 is built in. The flow duct 120 has a first guide duct 141 communicated with the indoor unit 110 and the remaining air of the indoor side so that a part of the air on the indoor side can be introduced into the indoor unit 110. It provides a heat pump of the air conditioner having a second guide duct 142 in communication with the outdoor unit 120 to be introduced into the outdoor unit 120.

Description

Air flow system of heat pump for air conditioner

The present invention relates to a heat pump of an air conditioner that cools and heats an air conditioner so that indoor air can be adjusted to a comfortable state, and in particular, improves the cooling and heating efficiency of an air conditioner by using air that is cooled and heated. And an air flow system of a heat pump for an air conditioner.

In general, complete air conditioning by the air conditioner is performed by moving, removing and purifying heat by the heat pump and circulating the air. That is, the refrigerant flowing through the condenser of the heat pump releases heat to heat the surrounding air, while the refrigerant flowing through the evaporator of the heat pump absorbs heat to cool the surrounding air.

The duct system transfers hot water and steam for heating or cold and cold air for cooling to the space when the air conditioner for cooling and heating the indoor air is far from the space to be cooled and heated. It is used to make.

Meanwhile, after the indoor space is cooled and heated by the air conditioner, a part of the air circulating in the indoor space is exchanged with external air in order to keep the air in the indoor space fresh. At this time, a part of the air in the indoor space that has been cooled and heated by the air conditioner is discharged into the atmosphere through the exhaust port of the duct, and new air is introduced from the outside.

Therefore, the energy consumption increases and the cooling and heating efficiency is lowered when cooling and heating the newly introduced air by the conventional air conditioner.

For example, when cooling the indoor space by the air conditioner, the refrigerant circulating in the device is radiated using outdoor air in an outdoor condenser, where the refrigerant exchanges heat with atmospheric air, resulting in low condensation efficiency and energy consumption. In addition, when heating, the heating load is obtained by obtaining evaporative heat from the atmospheric air and releasing it into the room, where the evaporative heat must be obtained from a relatively low atmospheric temperature. By gaining energy consumption is increased.

Therefore, an object of the present invention is to improve the cooling and heating efficiency of the air conditioner, when the air in the indoor space is ventilated through the exhaust vent of the duct, the indoor air is cooled and heated to the outdoor unit of the air conditioner It is to provide an air flow system of the heat pump of the air conditioner for introducing.

According to the present invention, an air flow system of a heat pump of an air conditioner includes an indoor unit having a first heat transfer coil and a first heat sink, an outdoor unit having a second heat transfer coil and a second heat pump, and a compressor and an indoor side. And a flow duct for guiding air circulating to the indoor unit and the outdoor unit, wherein the flow duct is in communication with the indoor unit so that a part of the air on the indoor side is introduced into the indoor unit. And a second guide duct communicating with the outdoor unit so that the remaining air from the indoor side can flow into the outdoor unit.

According to an embodiment of the present invention, the air of some of the air introduced into the flow duct after being cooled and heated by the operation of the air conditioner is introduced into the indoor unit via the first guide duct while the remaining air Is introduced into the outdoor unit via the second guide duct.

Figure is a flow chart showing the flow path of air and refrigerant flowing in accordance with the air flow system of the heat pump according to the present invention.

* Explanation of symbols for main parts of the drawings

100: heat pump 110: indoor unit

120: outdoor unit 140: flow duct

141: first guide duct 142: second guide duct

Hereinafter, with reference to the accompanying drawings will be described the flow path of the air and the refrigerant flowing through the air flow system of the heat pump according to the present invention.

Referring to the accompanying drawings, the air flow system of the heat pump 100 according to the present invention is the indoor unit 110 and the second heat transfer coil (110) in which the first heat transfer coil 111 and the first fin 112 is built-in ( 121 and the first guide duct 141 for guiding a part of air circulating in the outdoor unit 120, the compressor 130, and the indoor side, into which the indoor unit 110 and the second fan 122 are introduced. ) And a flow duct 140 including a second guide duct 142 for guiding the remaining air on the indoor side to be introduced into the outdoor unit 120.

On the other hand, the arrows displayed inside the first and second heat transfer coils 111 and 121 represent the flow of the circulating refrigerant and hatched arrows are introduced into the indoor unit 110 and the outdoor unit 120. The flow of indoor air and atmospheric air is shown.

Here, the first heat transfer coil 111 acts as a condenser and the second heat transfer coil 121 acts as an evaporator when heating the room to be air-conditioned, while cooling the room. The first heat transfer coil 111 acts as an evaporator and the second heat transfer coil 121 acts as a condenser.

At this time, as indicated by the arrows in the first and second heat transfer coils 111 and 121, the refrigerant circulating through the first heat transfer coils 111 passes through the compressor 130. The refrigerant flows to the second heat transfer coil and circulates, and the refrigerant circulating through the second heat transfer coil 121 flows to the first heat transfer coil 111 via the compressor 130 and circulates.

In addition, when cooling or heating the room by an air conditioner, the circulation paths of the refrigerant circulating through the two heat transfer coils 111 and 121 are reversed so that the heat flow is also reversed. It is also possible to use a 4-way reversing valve.

Meanwhile, in the present specification, since the structure and operation of the reversing valve are well known to those skilled in the art, the detailed description thereof will be omitted, and the flow path of atmospheric air flowing into the room to ventilate the indoor air will also be provided to those skilled in the art. Since it is well known, detailed description thereof will be omitted.

Therefore, in the early stage of operation of the air conditioner for heating the air-conditioned room, the air flowing into the outdoor unit 120 is supplied from the atmosphere by the rotation of the second fan 122 built in the outdoor unit 120. The air is circulated around the second heat transfer coil 121 acting as an evaporator, transfers heat to a refrigerant flowing through the inside of the second heat transfer coil 121, and then is released into the atmosphere. The refrigerant heated while flowing inside the two-row moving coil 121 flows to the first row-moving coil 111, which is built in the indoor unit 110 and functions as a condenser, via the compressor 130. .

At this time, the indoor air introduced into the indoor unit 110 by the rotation of the first fan 112 embedded in the indoor unit 110 circulates around the first heat transfer coil 111 and the first air. The heat is taken from the refrigerant in the heated state flowing through the inside of the heat transfer coil 111, heated, and then flows back to the room.

At this time, when the air of the part of the air flowing in the room in the heated state to ventilate the air in the air condition is discharged into the atmosphere, the part of the air to the flow duct 140 according to the present invention Inflow, and then to the outdoor unit 120 via the second guide duct (142). As a result, the air circulating around the second heat transfer coil 121 of the outdoor unit 120 is relatively low temperature air introduced from the atmosphere and the relative flow introduced from the room via the second guide duct 142. Since the high temperature air is mixed, the refrigerant flowing inside the second heat transfer coil 121 serving as the evaporator is heated faster than the initial start of the air conditioner.

In addition, since water droplets generated on the surface of the second heat transfer coil acting as an evaporator become ice when the temperature of the air is below the freezing point, the ice is melted by the indoor air introduced into the outdoor unit from the room, and thus, There is no need to use a heating device.

As described above, the case where the air in the room is heated by using the air conditioner according to the present invention has been exemplified, but the air conditioner may also be applied in the case of cooling the air in the room.

That is, when cooling the indoor air, since the first heat transfer coil 111 embedded in the indoor unit 110 acts as an evaporator, the refrigerant flowing inside the first heat transfer coil 111 is the indoor. The heat is desorbed from the air and then circulated to the second heat transfer coil 121 embedded in the outdoor unit 120 to the outdoor unit 120 at the time of ventilation of atmospheric air and indoor air introduced into the outdoor unit 120. Since heat is dissipated to the air of the air-conditioned room that is introduced, it is possible to improve the cooling efficiency of the room.

Therefore, according to the air conditioner according to the present invention, since the indoor air discharged from the room to the atmosphere to the outdoor unit to ventilate the indoor air to the outdoor unit can improve the cooling and heating efficiency of the air conditioner, and also energy You can save.

Claims (1)

The indoor unit 110 having the first heat transfer coil 111 and the first shock 112 and the outdoor unit 120 and the compressor having the second heat transfer coil 121 and the second shock 122 are built-in. In the air flow system of the heat pump 100 of the air conditioner consisting of 130, the flow duct 140 for guiding the air circulating in the indoor side to the indoor unit 110 and the outdoor unit 120, respectively The flow duct 120 includes a first guide duct 141 communicating with the indoor unit 110 and the rest of the indoor side such that a part of air on the indoor side may be introduced into the indoor unit 110. Air flow system of a heat pump, characterized in that it has a second guide duct (142) in communication with the outdoor unit (120) so that air can be introduced into the outdoor unit (120).