KR102062623B1 - an air conditioner with defrosting and controling coolant - Google Patents

Abstract

The present invention relates to an air conditioner with a defrosting function, which can operate a compressor of the air conditioner periodically or selectively in accordance with an outdoor temperature condition when in use in the winter to transfer a high-pressure refrigerator at high temperature to an outdoor unit. Accordingly, damage to the outdoor unit caused by freezing of the refrigerant can be prevented.

Description

Air conditioner with defrosting function {an air conditioner with defrosting and controling coolant}

The present invention has a defrost function to prevent the malfunction of the outdoor unit due to freezing of the refrigerant by selectively operating the compressor of the air conditioner according to the periodic or external temperature conditions during winter use to transfer the high temperature and high pressure refrigerant to the outdoor unit. It relates to an air conditioner.

In general, a heat pump includes an indoor unit, an expansion unit, an outdoor unit, a compressor, and a four-way valve, and when operating in a winter heating circuit, when the humidity of the air flowing into the outdoor unit is high and the temperature is low, an frost is generated in the outdoor unit. The function of the machine will be lost.

In this case, defrosting of the outdoor unit is required, and a defrosting method of removing the frost attached to the outdoor unit by removing the frost attached to the outdoor unit by operating the heat pump as a cooling circuit and operating the outdoor unit as a condenser and the indoor unit as an evaporator to flow high-temperature and high-pressure liquid refrigerant to the outdoor unit. use.

However, in this case, since the indoor unit operates as an evaporator, there is a problem that further indoor heating becomes impossible.

In order to improve such a problem, a technology of a heat pump is proposed in Patent No. 712196, and its configuration is as shown in FIG. 1, when the heat pump operates as a heating circuit, the refrigerant having a high temperature and high pressure from the compressor 200 is Through the four-way valve 210 and the control valve 250 is introduced into the indoor unit coil 320 to operate as a condenser and the indoor heating is performed by the operation of the indoor unit blower (300).

In addition, the refrigerant passing through the indoor unit coil 320 is reduced in the heating expansion valve 230 and then flows into the outdoor unit main coil 220 which operates as an evaporator, and the refrigerant evaporates smoothly by the operation of the outdoor unit blower 270. The refrigerant passing through the outdoor unit main coil 220 passes through the four-way valve 210 and the accumulator 280 and flows back into the compressor 200 to complete the heating operation.

In addition, a part of the high-temperature and high-pressure refrigerant exiting the compressor 200 by the switching of the four-way valve 210 flows into the outdoor unit main coil 220 to melt frost formed on the surface of the outdoor unit main coil 220, and at the same time, the compressor ( Some of the high temperature and high pressure refrigerant from 200 flows into the indoor unit coil 320 to perform defrost and indoor heating at the same time, and the refrigerant passing through the outdoor unit main coil 220 and the refrigerant passing through the indoor unit coil 320 are expanded by heating. After being combined at the front end of the valve 235, the heating expansion valve 235 and the control valve 250 are introduced into the outdoor unit auxiliary coil 260 serving as an evaporator, and the refrigerant evaporated from the outdoor unit auxiliary coil 260 is again a control valve. Through the 250 and the four-way valve 210, the accumulator 280 is introduced into the multi-compressor 200 is completed defrosting and heating operation.

However, such a heat pump is difficult to use in cold weather or extreme temperature conditions due to the rapid defrosting, it is difficult to easily cope with the volume change of the refrigerant according to the season, it is difficult to maintain a uniform compression efficiency, The heating is made at the same time there is a disadvantage that can not bring the desired defrost or heating efficiency.

An object of the present invention for improving the conventional problems as described above, it is possible to use in cold or extreme temperature conditions, and to continuously supply the appropriate amount of refrigerant to the refrigerant cycle in response to the volume change of the refrigerant with the season. In addition, the present invention provides an air conditioner having a defrost function to solve the problem of increasing the efficiency of the compressor to lower the cooling and heating effect.

In order to achieve the above object, the present invention provides an air conditioner having a defrost function installed to transfer a refrigerant of high temperature and high pressure to an outdoor unit by selectively operating a compressor according to periodic or external temperature conditions when the refrigeration cycle for an air conditioner is not used in winter. Provide a flag.

In addition, the present invention is made of a double pipe shape in which the first line supplied from the indoor unit to the outdoor unit and the second line supplied from the outdoor unit to the indoor unit cross each other. Provided is an air conditioner having a defrosting function to be installed.

In addition, when one end of the refrigerant control pipe is connected between the compressor and the outdoor unit and between the outdoor unit and the indoor unit, respectively, the other end of the refrigerant control pipe has a defrost function connected to a supplemental water tank having a compressor to selectively form a constant negative pressure or a static pressure. It provides an air conditioner having.

In addition, the compressor and the four sides provides an air conditioner having a defrost function that is installed to form a refrigerant flow from the compressor to the outdoor unit during operation of the compressor while operating by a predetermined program.

As described above, according to the present invention, continuous defrosting and heat transfer are possible, and can be used in cold or extreme temperature conditions, and continuously supplying an appropriate amount of refrigerant to the refrigerant cycle in response to seasonal volume change of the refrigerant. And, by using only the defrosting function to bring a quick defrosting effect, to improve the efficiency of the compressor to solve the problem of lowering the heating and cooling effect, there is an effect to increase the cooling effect by the selective use of expansion valve.

1 is a circuit diagram showing a conventional air conditioner having a defrost function.
2 is a circuit diagram showing an air conditioner according to the present invention.
3 is a circuit diagram showing an air conditioner in another embodiment of the present invention.

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

Figure 2 is a circuit diagram showing an air conditioner according to the present invention, Figure 3 is a circuit diagram showing an air conditioner in another embodiment of the present invention.

The present invention is installed to selectively operate the compressor 110 according to the periodic or external temperature condition by the signal of the control unit 200 when the refrigeration cycle 100 for the air conditioner in winter is not used.

In this case, the controller 200 is connected to a temperature sensor 210 and a timer 230 for sensing an external temperature.

In addition, the compressor 110 is installed to deliver the high temperature and high pressure refrigerant to the outdoor unit 130, and the control unit 200 is pre-inputted so that the external temperature is lowered below a setting or installed to automatically move at a predetermined cycle. do.

In addition, the refrigeration cycle 100 of the present invention, the first line 310 supplied to the outdoor unit 130 from the indoor unit 150 and the second line 330 supplied to the indoor unit 150 from the outdoor unit 130 are double pipes. It is installed to have a shape that crosses each other through (350).

In this case, the first line and the second line form a supply line 300 extending integrally.

Then, the front end and the rear end of the expansion valve 170 from the indoor unit 150 toward the outdoor unit 130 is connected to install a check valve 190 on one side thereof.

At this time, the refrigerant flow passing through the outdoor unit during defrosting passes through the indoor unit 150 without passing through the expansion valve 170 and is supplied to the compressor by the operation of the check valve 190 by opening of the second three-way valve 470. It is installed all the time.

In addition, when one end of the refrigerant control pipe 390 is connected between the compressor 110 and the outdoor unit 130, and between the outdoor unit 130 and the indoor unit 150, the other end of the refrigerant control pipe 390 has a constant negative pressure or It is connected to a make-up water tank 400 having a make-up water compressor 410 to selectively form a positive pressure.

At this time, the refrigerant control pipe is installed to have a refrigerant flow toward the supply line or the refrigerant control pipe through the first three-way valve (450).

In addition, the compressor 110, the four-sided 140 and the supplemental water compressor 410 is installed to form a refrigerant flow from the compressor to the outdoor unit during operation of the compressor 110 while operating by a predetermined program.

In addition, the replenishment water tank is also installed to operate in conjunction with or separately from the compressor 110 while operating by a predetermined program.

In addition, the replenishment water tank 400 is connected to the indoor unit 150 through a heat transfer coil 490 is installed to enable the transfer of heat.

 The operation of the present invention having the above configuration will be described.

2 and 3, the present invention selectively operates the compressor 110 according to periodic or external temperature conditions by a signal of the controller 200 when the refrigeration cycle 100 for an air conditioner is not in use. By supplying the high temperature and high pressure refrigerant to the outdoor unit to realize the defrost effect.

At this time, the control unit 200 is connected to the temperature sensor 210 and the timer 230 for sensing the external temperature to operate according to the external temperature or to operate at a predetermined cycle by a program that is input in advance.

In addition, the refrigeration cycle 100 of the present invention, the first line 310 supplied to the outdoor unit 130 from the indoor unit 150 and the second line 330 supplied to the indoor unit 150 from the outdoor unit 130 are double pipes. The second line 330 may be installed to have a shape that intersects each other through the 350 to be delivered to the indoor unit without passing through the expansion valve.

At this time, the first line and the second line form a supply line 300 extending integrally to allow simultaneous use of cooling and heating during forward and reverse operation by opening the four-way valve.

In addition, by connecting the front and rear ends of the expansion valve 170 from the indoor unit 150 toward the outdoor unit 130 to install the shock valve 190 on one side thereof, it is not necessary to pass through the expansion valve when defrosted. The calories are reused.

That is, the refrigerant flow passing through the outdoor unit during defrosting through the indoor unit 150 without passing through the expansion valve 170 is supplied to the compressor by the operation of the check valve 190 by opening of the second three-way valve 470. Do it.

In addition, when one end of the refrigerant control pipe 390 is connected between the compressor 110 and the outdoor unit 130, and between the outdoor unit 130 and the indoor unit 150, the other end of the refrigerant control pipe 390 has a constant negative pressure or It is connected to the replenishment water tank 400 having the replenishment water compressor 410 to selectively form a positive pressure to recover all the refrigerant in the supply line when the temperature increases sharply during winter to prevent freezing.

At this time, the refrigerant control pipe is installed to have a refrigerant flow toward the supply line or the refrigerant control pipe through the first three-way valve 450 to introduce the refrigerant, the supplemental water compressor to form a vacuum to suck the refrigerant of the outdoor unit Save it.

In addition, the compressor 110, the four-sided 140, and the supplemental water compressor 410 operate by a predetermined program to form a refrigerant flow from the compressor to the outdoor unit during the operation of the compressor 110.

In addition, the replenishment water tank 400 is connected to the indoor unit 150 through the heat transfer coil 490, so that the heat can be transferred, thereby enabling efficient utilization.

Refrigerant cycle 110 Compressor
130 ... outdoor 150 ... indoor
190 ... 첵 valve 200 ... control unit
300 ... supply line

Claims (4)

In the air conditioner consisting of a compressor, a four-way valve, an indoor unit and a connection structure of an expansion valve and an outdoor unit,
When the refrigeration cycle for the air conditioner is not used in winter, the compressor is selectively operated according to periodic or external temperature conditions to install a high temperature and high pressure refrigerant to the outdoor unit.
The first line supplied from the indoor unit to the outdoor unit and the second line supplied from the outdoor unit to the indoor unit have a double tube shape in which heat transfer is performed while a part thereof crosses each other when forming a supply line extending integrally.
A two-way valve is installed on one side of the valve to open the flow path by connecting the front and rear ends of the expansion valve from the indoor unit to the outdoor unit. The flow path is installed to open the flow path, and the valve operates by opening the second three-way valve. When defrosting, the refrigerant flows through the outdoor unit, passes through the indoor unit without passing through the expansion valve, and is installed to be supplied to the compressor.
One end of the refrigerant control tube is connected between the compressor and the outdoor unit and between the outdoor unit and the indoor unit, respectively, and one side of the refrigerant control tube is connected to a supplemental water tank having a supplemental water compressor to selectively form a constant negative pressure or a positive pressure.
The refrigerant control pipe is provided with a first three-way valve is installed to have a refrigerant flow toward the supply line or the refrigerant control pipe, the make-up water tank is connected through the indoor unit and the heat transfer coil to enable heat transfer by the indoor unit,
The compressor and the four-sided and the supplemental water compressor is operated by a predetermined program to form a refrigerant flow from the compressor to the outdoor unit during the operation of the compressor,
An air conditioner having a defrost function installed to introduce refrigerant from an outdoor unit into a replenishment water tank or deliver replenishment water to a supply line. delete delete delete

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