KR19980058338U - Outdoor heat exchanger defroster for air conditioners - Google Patents

Abstract

The present invention is to defrost the heat generated in the outdoor heat exchanger by using a heater when heating and operating the air conditioner having both cooling and heating functions in the outdoor heat exchanger defrosting device of the air conditioner. In order to provide a dehumidifier for an outdoor heat exchanger of an air conditioner that maximizes the efficiency of the air conditioner, the refrigerant compressed in the compressor is circulated to the indoor heat exchanger, and the refrigerant condensed in the indoor heat exchanger is recirculated to the compressor through a capillary tube and an outdoor heat exchanger. In the heating or reverse circulation to perform the cooling function, the heater is installed in the outdoor heat exchanger, the temperature sensing means for detecting a temperature change of the outdoor heat exchanger, and receives the detection result of the temperature sensing means Microcomputer and the compressor on / off by the control signal of the microcomputer The key includes a compressor driving means, an indoor fan driving means for driving an indoor fan and an outdoor fan with the control signal of the microcomputer, and an outdoor fan driving means, and a heater driving means for turning the heater on / off with the control signal of the microcomputer. It is characterized by.

Description

Outdoor heat exchanger defroster for air conditioners

The present invention relates to a defroster of an outdoor heat exchanger of an air conditioner, and more particularly, to prevent unnecessary heat loss by defrosting the frost generated in an outdoor heat exchanger by using a heater when heating and operating an air conditioner having both cooling and heating functions. In addition, the present invention relates to an outdoor heat exchanger defrosting device for an air conditioner that enables the full performance of the air conditioner.

A general air conditioner performs cooling and heating functions using a refrigeration cycle, and is separated into an indoor unit having an indoor heat exchanger and an outdoor unit having an outdoor heat exchanger and a compressor.

The air conditioner cools the air by circulating the low temperature low pressure refrigerant to the indoor heat exchanger mainly through the cooling function in summer, and supplies cool air to the room, and in the winter time, the refrigerant cycle is reversely circulated to cool the high temperature and high pressure refrigerant to the indoor heat exchanger. By circulating to provide warm air to the room to perform the heating function.

When described in detail with reference to the accompanying drawings, such a conventional air conditioner as follows.

1 is a schematic view showing an outdoor heat exchanger defrosting apparatus of a conventional air conditioner, in which an indoor heat exchanger (2) is installed in an indoor unit.

The indoor heat exchanger (2) absorbs the heat of the surroundings while the refrigerant flowing therein evaporates, thereby cooling the indoor air as the refrigerant itself becomes a high temperature and the surrounding air is cooled to a low temperature.

In addition, the indoor fan (2a) is installed behind the indoor heat exchanger (2) by blowing a strong wind to the indoor heat exchanger (2) to activate the heat exchange action.

On the other hand, the outdoor unit is a compressor (1) connected from the indoor heat exchanger (2) through the refrigerant pipe (6) and compresses the refrigerant inside at a high temperature and high pressure, and an outdoor heat exchanger that introduces the refrigerant into the inside and exchanges heat with the outdoor air. (4) is provided, and an outdoor fan (4a) for circulating outdoor air to the rear of the outdoor heat exchanger (4) is provided.

In addition, a capillary tube 3 is formed between the other outdoor heat exchanger 4 and the indoor heat exchanger 2 of the compressor 1 to reduce the refrigerant to a low pressure.

On the other hand, a temperature sensor 5 for sensing the temperature of the outdoor heat exchanger 4 is provided in the outdoor unit.

Figure 2 is a block diagram of a conventional outdoor heat exchanger defroster of the air conditioner, a temperature sensing means 10 for sensing the surface temperature of the outdoor heat exchanger (4), the microcomputer 20 is applied to the sensing of the temperature sensing means (10). ) Is provided.

On the other hand, the operation control by the microcomputer 20 is driven by the compressor driving means 30 for driving the compressor 1, and the microcomputer 20 is operated under the control of the strong external wind exchanger (2) (4) An indoor fan driving means 40 and an outdoor fan driving means 50 are provided for operating the indoor fan 2a and the outdoor fan 4a to blow air.

With such a configuration, first, when cooling is performed, the refrigerant is compressed to high temperature and high pressure in the compressor 1 of the outdoor unit and circulated to the outdoor heat exchanger 4. The outdoor heat exchanger 4 receives the high temperature and high pressure refrigerant introduced from the compressor. Condensation with low temperature refrigerant through heat exchange with outdoor air.

That is, the microcomputer 20 controls the compressor driving means 30 to operate the compressor 1 to circulate the high temperature and high pressure refrigerant into the refrigerant pipe 6, and also through the outdoor fan driving means 50. By rotating (3), the outdoor air passes through the outdoor heat exchanger (2) to dissipate the heat of the refrigerant circulated therein to the outside to condense it into a liquid at room temperature.

On the other hand, the refrigerant passing through the outdoor heat exchanger (2) is converted into a low-temperature low-pressure liquid refrigerant through the capillary tube (3) and then circulated to the indoor heat exchanger (5) of the indoor unit.

In this process, the low temperature refrigerant in the indoor heat exchanger (5) is evaporated and converted to room temperature by absorbing the heat of the indoor air, and at the same time the indoor air is cooled.

Therefore, by operating the indoor fan driving means 40 under the control of the microcomputer 20, the indoor fan 2a is rotated, and the air is cooled down by discharging the cooled air through the heat exchange process to the room.

On the other hand, during the heating operation, the refrigerant compressed at high temperature and high pressure in the compressor 1 is circulated to the indoor heat exchanger 2 through the refrigerant pipe under the control of the microcomputer 20.

The indoor heat exchanger (2) heat-exchanges the refrigerant introduced from the compressor (1) with the indoor air blown by the rotation of the indoor fan (2a) to condense the high temperature and high pressure refrigerant into the low temperature refrigerant.

At this time, the refrigerant inside the indoor heat exchanger (2) dissipates its own heat to condense to a liquid state at room temperature, and is blown after the indoor air is heated by the high heat radiated from the indoor heat exchanger (2). The room is heated.

Thereafter, the refrigerant changed to low temperature through the heat exchange process is circulated to the outdoor heat exchanger 4 of the outdoor unit, and the outdoor fan driving means 50 is turned on so that the outdoor fan 4a is rotated so that the outdoor air is changed to the outdoor heat exchanger ( 4) is blown.

At this time, the refrigerant in the outdoor heat exchanger (4) is evaporated by absorbing the external heat is converted to room temperature, after which the refrigerant having passed through the outdoor heat exchanger (4) is recirculated back to the compressor (1) to a high temperature and high pressure refrigerant Is compressed.

Accordingly, the air conditioner is repeatedly heated such that the room is heated by continuously discharging the heated air from the indoor heat exchanger 2 to the room.

Typically, the heating function as described above is performed mostly in winter when the outside air temperature is low, the surface temperature of the outdoor heat exchanger (4) to evaporate the refrigerant during the heating function is lowered, especially the outdoor temperature of 0 ~ 5 ℃ When the temperature is low, frost is generated on the surface of the outdoor heat exchanger 4.

At this time, the temperature sensor 5 of the temperature sensing means 10 detects this and applies it to the microcomputer 20 to perform the defrosting operation to remove the defrost.

That is, the microcomputer 20 stops the rotation of the indoor fan 2a and the outdoor fan 4a by turning off the indoor fan driving means 40 and the outdoor fan driving means 50, and drives only the compressor 1 to drive the refrigerant. By reverse circulation, the high temperature and high pressure refrigerant compressed from the compressor 1 flows to the outdoor heat exchanger 4.

Therefore, the outdoor heat exchanger 4 performs a defrosting function of dissipating high heat and removing defrost on the surface of the outdoor heat exchanger 4 as the heat.

The conventional air conditioner is a heat generated in the outdoor heat exchanger itself by reverse circulation to remove the frost generated on the surface of the outdoor heat exchanger during the heating operation, so as to remove the frost on the surface, during the defrosting period There was a problem that the heating of the room is not made.

In addition, since the heating is not performed during the defrosting period, the room temperature is about 10 to 20 ° C. lower than usual, and the heating efficiency is lowered, thereby causing another heat loss.

The present invention was created in view of the above problems. When heating and operating a heating and cooling system having both cooling and heating functions, the heater is used to defrost the frost generated in the outdoor heat exchanger, thereby preventing unnecessary heat loss and The object of the present invention is to provide an outdoor heat exchanger defrosting device of an air conditioner that can maximize the performance.

1 is a schematic view showing an outdoor heat exchanger defrost apparatus of a conventional air conditioner.

Figure 2 is a block diagram of an outdoor heat exchanger defroster of a conventional air conditioner.

Figure 3 is a schematic diagram showing an outdoor heat exchanger defrost apparatus of the present invention air conditioner.

Figure 4 is a block diagram of the outdoor heat exchanger defroster of the present invention air conditioner.

Figure 5 is a flow chart showing the operation state of the outdoor heat exchanger defrosting device of the present invention air conditioner.

Explanation of symbols for the main parts of the drawings

1-compressor, 2-indoor heat exchanger,

2a- indoor fan, 3-capillary tube,

4-outdoor heat exchanger, 4a-outdoor fan,

7-heater, 10-temperature sensing means,

20-microcom, 30-compression drive means,

40-outdoor fan drive, 50-outdoor fan drive,

60-heat drive means.

In order to achieve the above object, the present invention is a refrigerant compressed in the compressor is circulated toward the indoor heat exchanger and the refrigerant condensed in the indoor heat exchanger is recycled to the compressor through a capillary tube and an outdoor heat exchanger to perform a heating function or In the reverse circulation to perform the cooling function, the heater is installed in the outdoor heat exchanger, the temperature sensing means for sensing the temperature change of the outdoor heat exchanger, the microcomputer receiving the sensing result of the temperature sensing means, and the control of the microcomputer Compressor driving means for turning on / off the compressor by a signal, indoor fan driving means and outdoor fan driving means for driving an indoor fan and an outdoor fan with the control signal of the microcomputer, and a heater on / off with the control signal of the microcomputer. It characterized in that the heater driving means to be provided.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 is a schematic diagram showing an outdoor heat exchanger defroster of the present invention air conditioner, Figure 4 is a block diagram of an outdoor heat exchanger defroster of the present invention air conditioner.

By introducing a refrigerant gas compressed at high temperature and high pressure to condense to room temperature, the indoor heat exchanger (2) that generates heat, and blows wind to heat-exchange heat generated by the indoor heat exchanger (2) with indoor air forcibly radiating heat. The indoor fan 2a is installed in the indoor unit.

Meanwhile, a capillary tube 3 for reducing the refrigerant passing through the indoor heat exchanger 2 at low pressure, and an outdoor heat exchanger for absorbing external heat by evaporation of refrigerant gas having a low temperature and low pressure introduced through the capillary tube 3. (4) and a compressor (1) for compressing the refrigerant having passed through the outdoor heat exchanger (4) to high temperature and high pressure and recirculating it to the indoor heat exchanger (4) through the refrigerant pipe (6) are respectively installed in the outdoor unit.

In addition, an outdoor fan 4a for blowing wind is provided at the rear of the outdoor heat exchanger 4, a temperature sensor 5 for sensing a temperature of the outdoor heat exchanger 4, and the outdoor heat exchanger 4. A heater (7) is provided in the vicinity of the outdoor heat exchanger (4) to heat defrosting to perform defrosting.

On the other hand, as shown in Figure 4 is provided with a temperature sensing means 10 for sensing the surface temperature of the outdoor heat exchanger (4), the microcomputer 20 is applied to the sensing of the temperature sensing means (10).

In addition, the compressor is driven by the microcomputer 20, the compressor driving means 30 for driving the compressor 1 and the microcomputer 20 is operated under the control of the strong external wind exchanger (2) (4) An indoor fan driving means 40 and an outdoor fan driving means 50 are provided for operating the indoor fan 2a and the outdoor fan 4a to blow air.

In addition, the heater driving means 60 for heating the heater 7 by the drive signal of the microcomputer 20 during defrosting is provided.

And, Figure 5 is a flow chart showing the operating state of the outdoor heat exchanger defrosting device of the present invention air conditioner, heating is started (101-102) in which the compressor 1, the indoor fan (2a) and the outdoor fan (4a) is turned on And (103-105) performing defrosting of the outdoor heat exchanger (4) by turning on the heater (7) by determining whether the defrost start temperature is applied, and turning off the heater (7) by determining defrost completion temperature application. Completion of steps 106-108 is completed.

Referring to the operation of the subject innovation configured as described above in detail.

In general, when the heating function of the air conditioner in the winter, the defrost occurs on the surface of the outdoor heat exchanger (4) has been described above.

Therefore, in order to explain the defrosting apparatus of the present invention, a heating function is performed. First, a driving signal is applied from the microcomputer 20 to the compressor driving means 30 so that the compressor 1 is driven to compress the refrigerant to a high temperature and high pressure. (101), the compressed refrigerant then passes through the indoor heat exchanger (2), wherein the indoor heat exchanger (2) converts the high temperature and high pressure refrigerant into a low temperature refrigerant.

In addition, the microcomputer 20 sends a drive signal to the indoor fan driving means 40 and the outdoor fan driving means 50 to rotate the indoor fan 2a and the outdoor fan 4a, respectively (102).

Therefore, the heat generated by the wind generated by the rotation of the indoor fan 2a dissipates the heat of the refrigerant passing through the inside of the indoor heat exchanger 2 to the room, and condenses the liquid at room temperature. The heat to be radiated is blown into the room to be heated in the room.

Thereafter, the refrigerant passing through the indoor heat exchanger 2 is converted into a low pressure liquid state while passing through the capillary tube 3 and flows into the outdoor heat exchanger 4.

In the outdoor heat exchanger (4), the refrigerant in the liquid state is absorbed by the blowing air of the outdoor fan (4a), and is then circulated to the compressor (1) to be compressed at a high temperature and high pressure.

During the heating operation as described above, when the outdoor temperature is lowered to 0 to 5 ° C. or less, defrost occurs on the surface of the outdoor heat exchanger 4 due to the temperature difference, and the temperature value thereof is sensed by the temperature sensor 5.

Therefore, when the temperature sensing means 10 applies the temperature value to the microcomputer 20, the microcomputer 20 determines the start of defrosting and turns on the heater driving means 60 to heat the heater 7.

At this time, the heat generated from the heater 7 is blown to the surface of the outdoor heat exchanger 4 through the outdoor fan (4a) to perform the defrost operation to remove the defrost (104-105).

In addition, since the compressor 1 and the indoor and outdoor fans 2a and 4a continue to operate while the defrosting operation is performed as described above, the heating function is continuously performed in the room.

Then, when the surface temperature of the outdoor heat exchanger 4 rises, the temperature sensing means 10 senses the temperature value and applies it to the microcomputer 20, and the microcomputer 20 determines that the defrosting completion temperature is the heater driving. The means 60 is turned off to stop the heater 7.

Therefore, the heater 7 is stopped, so that the defrost is completed and only the normal heating function is continued (107-108).

The above description is only one embodiment of the present invention and can be changed as many as possible within the scope of the present invention.

The present invention does not need to temporarily stop the heating function for defrosting because it does not reverse cycle the refrigeration cycle in order to remove the frost generated in the outdoor unit during the heating operation. There is a possible effect.

In addition, there is another effect of improving energy use efficiency by reducing unnecessary heat loss due to reverse circulation of the refrigeration cycle.

Claims (1)

The refrigerant compressed in the compressor (1) is circulated toward the indoor heat exchanger (2) and the refrigerant condensed in the indoor heat exchanger (2) is returned to the compressor (1) via the capillary tube (3) and the outdoor heat exchanger (4). In the circulation to perform the heating function or in reverse circulation to perform the cooling function, the heater 7 is installed in the outdoor heat exchanger 4, A temperature sensing means 10 for detecting a temperature change of the outdoor heat exchanger 4, A microcomputer 20 receiving the detection result of the temperature sensing means 10; Compressor driving means 30 for turning on / off the compressor 1 by the control signal of the microcomputer 20, An indoor fan driving means 40 and an outdoor fan driving means 50 for driving the indoor fan 2a and the outdoor fan 4a by the control signal of the microcomputer 20; And a heater driving means (60) for turning on / off the heater (7) by the control signal of the microcomputer (20).