KR100980543B1 - Air conditioner using radiation panel - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner, in particular, having a radiation panel which enables selective operation by using a radiation panel and an indoor unit of an air conditioner.

An air conditioner having a radiation panel according to the present invention includes: a compressor for increasing the pressure of evaporated refrigerant and then sending the refrigerant to a high pressure refrigerant; A condenser for making the high pressure refrigerant gas into a high temperature and high pressure liquid refrigerant through heat dissipation; First and second expansion valves connected to the condenser to convert the high temperature and high pressure liquid refrigerant into low temperature and low pressure; A radiation heat exchanger comprising an evaporator connected to the first expansion valve and a radiation panel cooled by the evaporator to perform heat radiation exchange; And an indoor unit connected to the second expansion valve to perform convective heat exchange using an evaporation stroke of the liquid refrigerant.

Air Conditioner, Indoor Unit, Radiation Panel, Compressor, Condenser, Expansion Valve, Evaporator

Description

Air conditioner using radiation panel

1 is a view showing the cooling effect by the radiation heat exchange in the tunnel.

2 is a graph showing the heat release rate of the human body.

3 is a schematic configuration diagram of an air conditioner having a conventional radiation panel.

Figure 4 is a block diagram showing a heat exchanger by a conventional radiation panel.

5 is a block diagram of an air conditioner having a radiation panel according to an embodiment of the present invention.

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

110.Compressor 120 ... Condenser

131,132 ... Expansion valve 140 ... Copy heat exchanger

141 ... Evaporator 142 ... Copy Panel

150 ... Indoor 160 ... Human

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an air conditioner, in particular having a radiation panel which enables efficient operation using a radiation panel and an indoor unit of an air conditioner.

As an example of cooling by radiant heat exchange, as shown in FIG. 1, the inside of the tunnel 1 may feel cool even when the temperature is not low, in a hot summer sun. This is because heat of the human body 2 is released by radiant heat exchange with the tunnel wall surface 1a.

The radiative cooling is a method of cooling through radiant heat transfer between the human body and the surface of a cold radiative cooling system. Figure 2 is a graph showing the heat release rate of the human body in the office. In the case of office workers, about 45% of the heat emitted by the human body to the outside is about 45%, which is about twice the heat dissipation (about 23%) due to convection.

Since the radiant cooling is directly radiant heat exchange with the human body, the comfort is superior to the convection cooling method, and the noise is less than that of the convective heat exchange.

In addition, with the growing interest in environmentally friendly and energy efficient cooling of cooling systems, advanced countries have already been actively researching various types of radiative cooling systems.

3 is a schematic diagram of a conventional radiant heat exchange apparatus.

Referring to Figure 1, the compressor (COMPRESSOR MOTOR) 10, the condenser 20, expansion valve 30, the radiation heat exchanger 40 is composed of, the radiant heat exchanger 40 is the evaporator 41 And a radiation panel 42.                         

The compressor 10 increases the pressure to a saturation pressure corresponding to the condensation temperature so as to suck the low-temperature low-pressure gas refrigerant evaporated in the evaporator 41 to liquefy condensation in the next condenser 20, and condenser (CONDENSER) 20 is a high-temperature, high-pressure gas refrigerant discharged from the compressor 10 to heat the surrounding air or cooling water to release the heat of the gas refrigerant to condensate the liquid, the expansion valve (EXPANSION VALVE) 30 When the condensed liquefied refrigerant is rapidly released through a narrow place (crossing), the refrigerant is released from the pressure and begins to evaporate, and adjusts an appropriate amount to absorb sufficient heat from the evaporator 41.

As shown in FIG. 4, the evaporator 41 of the radiation panel unit 40 introduces low-temperature low-pressure refrigerant passing through the expansion valve 30 to exchange heat with the object to be cooled, thereby evaporating heat of the refrigerant. To perform the purpose of refrigeration.

Here, the radiation panel 42 is used as the object to be cooled of the evaporator 41. The radiation panel 42 is brought into contact with the evaporator 41 to cool it. At this time, the cooled radiation panel 42 radiant heat exchanges with the human body 60 existing in the room as shown in FIG. 4, thereby cooling the human body by releasing heat.

However, since the radiation panel 42 diffuses the heat in all directions due to the diffuse reflection, the area of the radiation panel 42 needs to be enlarged in order to transfer heat in a specific direction and a certain amount.

 The present invention has been made to solve the above problems, to provide an air conditioner having a radiation panel to be able to cooperate with the air conditioning indoor unit and the selective operation using the radiation panel.

Another object is to provide an air conditioner having a radiation panel that is connected to the indoor unit and the radiation panel unit by one pipe to be linked to one outdoor unit.

Another object of the present invention is to provide an air conditioner having a radiation panel for controlling a proper refrigerant flow by installing a plurality of expansion mechanisms for configuring a flow and cycle of a refrigerant in an air conditioner outdoor unit.

Air conditioner having a radiation panel according to the present invention for achieving the above object,

A compressor for increasing the pressure of the evaporated refrigerant and then sending the refrigerant to a high pressure refrigerant;

A condenser for making the high pressure refrigerant gas into a high temperature and high pressure liquid refrigerant through heat dissipation;

First and second expansion valves connected to the condenser to convert the high temperature and high pressure liquid refrigerant into low temperature and low pressure;

A radiation heat exchanger comprising an evaporator connected to the first expansion valve and a radiation panel cooled by the evaporator to perform radiant heat exchange;

And an indoor unit connected to the second expansion valve to perform convective heat exchange using an evaporation stroke of the liquid refrigerant.

Preferably, the air conditioner is characterized by operating by switching the radiant heat exchanger and the indoor unit.

Preferably, each of the indoor unit and the radiator heat exchanger is connected to the evaporator, characterized in that the capacity of the variable treatment.

And, the air conditioner having a radiation panel according to another embodiment of the present invention,

A single outdoor unit; An indoor unit connected to the outdoor unit by different pipes, an radiant heat exchanger performing radiant heat exchange, and an indoor unit performing convection heat exchange; And a control unit for switching the operation mode of the radiant heat exchanger and the indoor unit.

Hereinafter, with reference to the accompanying drawings as follows.

5 is a configuration diagram of an air conditioner having a radiation panel according to an embodiment of the present invention.

5, the compressor 110 and the condenser 120, the first and second expansion valves (131, 132) connected to the condenser 120; One side is connected to each of the first expansion valve 131 and the second expansion valve 132, and the other side is connected to the condenser 110, the radiant heat exchanger 140 and the indoor unit to perform heat exchange of the room, respectively ( 150).

Referring to the accompanying drawings, an air conditioner having a radiation panel according to the present invention configured as described above is as follows.

Referring to FIG. 5, the compressor 110 is connected to a pipe branched to each of the evaporator 141 of the radiant heat exchanger 140 and the evaporator (not shown) of the indoor unit 150 by a single pipe, and the evaporator 141. And a low temperature low pressure gas refrigerant evaporated from the evaporator inside the indoor unit 150 to increase the pressure to a saturation pressure corresponding to the condensation temperature so as to liquefy the condensation in the condenser 120. Here, the compressor 110 has a variable capacity so as to handle both the evaporator 141 of the radiant heat exchanger 140 and the evaporator of the indoor unit.

The condenser 120 heat-exchanges the high-temperature, high-pressure gas refrigerant discharged from the compressor 110 with ambient air or cooling water to release heat of the gas refrigerant to condense the liquid.

In addition, the expansion valves 131 and 132 are connected to the condenser 120 by a branched pipe, and rapidly discharge the condensed liquid refrigerant from the condenser 120 to a wide place through a narrow place. At this time, the refrigerant is released from the pressure begins to evaporate, and adjusts the appropriate amount to absorb enough heat in the evaporator.

That is, the first expansion valve 131 is connected between the condenser 120 and the evaporator 141 of the radiant heat exchanger 140, and the evaporator 141 is attached to the rear surface of the radiation panel 142. Accordingly, the low temperature low pressure refrigerant is discharged to the evaporator 141 of the radiant heat exchanger 140 in the cooling mode using the radiant heat exchanger 140. At this time, the evaporator 141 of the radiation heat exchanger 140 injects the refrigerant of low temperature and low pressure passing through the first expansion valve 131 to cool the radiation panel 142, which is the object to be cooled, and the cooled radiation panel. Radiation heat exchange with the human body 142 performs the purpose of refrigeration using the evaporation and radiant heat of the refrigerant.

On the other hand, the second expansion valve 132 is connected between the condenser 120 and the indoor unit 150, and discharges the low-temperature low-pressure refrigerant to the evaporator of the indoor unit 150 in the cooling mode using the indoor unit 150. Then, the evaporator of the indoor unit 150 is the low-temperature low-pressure refrigerant passing through the second expansion valve 132 is introduced into the heat exchange is the cold air discharged into the room by the fan, thereby performing the purpose of freezing.

That is, the radiant heat exchanger 140 and the indoor unit 150 are connected to only one air conditioner outdoor unit, that is, the condenser, the compressor, and the expansion valves 110, 120, 131 and 132, and the two expansion valves 131 and 132 for the flow and cycle configuration of the refrigerant. To control the flow of refrigerant as appropriate.

The cooling mode of the air conditioner is the first cooling mode or the second when the operation mode by the radiant heat exchanger 140 is the first cooling mode and the operation mode by the indoor unit 150 is the second cooling mode. Alternating cooling modes or operating at different locations (or places) at the same time or at regular time intervals can be operated. The control unit (not shown) switches the two cooling modes according to the external environment, place, or temperature. Alternatively, the operation may be controlled by each alone.

For example, in humid and hot weather, the second cooling mode using the indoor unit 150 of the air conditioner is operated first to maximize the removal of moisture from the indoor humid air, and after the air of a certain room is maintained, the radiation panel 141. By switching to the second cooling mode using), the cooling is continued.

And, in the case of sleeping at night, when the radiation panel 141 is installed in the place where the bed is located to perform the cooling in the second cooling mode using the same, the air conditioning device in the operation mode of the radiation panel only during sleep The discomfort caused by the indoor unit wind is eliminated, enabling optimal air conditioning.                     

Such an air conditioner may be selectively operated by providing a plurality of heat exchangers, that is, a radiant heat exchanger and an indoor unit, using a single outdoor unit. In an embodiment, the common control unit may be used to control the operation mode of the radiant heat exchanger and the indoor unit. On the contrary, the independent controller can be used to operate in the independent operation mode.

According to the air conditioner having a radiation panel according to the present invention as described above, there is an effect that can solve the unpleasant to the wind of the air conditioner indoor unit at the same time to solve the insufficient heat when heat exchange only with the radiation panel.

In addition, there is an effect that can be controlled in the optimal air conditioning according to the indoor environment and time zone using the cooling mode of the radiation panel and the indoor unit.

Claims (4)

A compressor for increasing the pressure of the evaporated refrigerant and then sending the refrigerant to a high pressure refrigerant; A condenser for making the high pressure refrigerant gas into a high temperature and high pressure liquid refrigerant through heat dissipation; First and second expansion valves connected to pipes branched to the condenser, and converting the high temperature and high pressure liquid refrigerant into low temperature and low pressure; A radiation heat exchanger comprising an evaporator connected to the first expansion valve and a radiation panel cooled by the evaporator to perform radiant heat exchange; An indoor unit connected to the second expansion valve to perform convective heat exchange using an evaporation stroke of the liquid refrigerant, Refrigerant discharged from the condenser flows branched to the first expansion valve and the second expansion valve, the evaporator of the radiant heat exchanger is introduced into the refrigerant passing through the first expansion valve, the evaporator of the indoor unit is 2 An air conditioner having a radiation panel, characterized in that the refrigerant flowing through the expansion valve is introduced. The method of claim 1, The air conditioner is an air conditioner having a radiation panel, characterized in that for operating by switching control the radiant heat exchanger and the indoor unit. The method of claim 1, The compressor is connected to the evaporator of the indoor unit and the radiant heat exchange unit, respectively, and the air conditioner having a radiation panel, characterized in that the processing capacity vary. A single outdoor unit; An indoor unit connected to the outdoor unit by different pipes, an radiant heat exchanger including a radiation panel for radiant heat exchange, and an indoor unit for convection heat exchange; A control unit for switching and controlling an operation mode of the radiant heat exchanger and an indoor unit, A first expansion valve is connected between the outdoor unit and the radiant heat exchanger, and a second expansion valve is connected between the outdoor unit and the indoor unit, radiant heat exchange by the radiant heat exchanger and convection heat exchange by the indoor unit. Air conditioning apparatus having a radiation panel, characterized in that can be performed at the same time.

Images