KR19980038336A - Defrost Control Method for Air Conditioning - Google Patents

Abstract

The present invention relates to a combined air-conditioning and air conditioner, and more particularly, to a method for controlling a defrosting air-conditioning combined air conditioner to perform a defrosting operation without stopping a heating operation.

In particular, the present invention is to install a drip tray, a water tank, a watering member to circulate the condensed water in an outdoor heat exchanger, a heater for heating the condensed water to a predetermined temperature, a pump for circulating the condensed water, and a thermistor for sensing the temperature of the condensed water. In the air-conditioning combined air conditioner, after the condensate is stored in the water tank by heating circulation in the heating operation mode, sensing the temperature of the condensate, raising the condensate temperature to the set temperature by the heater control, Determining whether or not defrosting, and if it is determined in the defrost step circulating the condensed water with a predetermined pumping force to remove the idea of the outdoor heat exchanger to the end of the defrost, characterized in that the heating capacity is There is a further improved advantage.

Description

Defrost Control Method for Air Conditioning

The present invention relates to a combined air-conditioning and air conditioner, and more particularly, to a method for controlling a defrosting air-conditioning combined air conditioner to perform a defrosting operation without stopping a heating operation.

General air-conditioning combined air conditioner is formed as shown in FIG.

1 shows heating operation. That is, the refrigerant discharged from the compressor 1 passes through the outdoor heat exchanger 2, the expansion valve 3, the indoor heat exchanger 4, and the like, and is returned to the compressor 1 as indicated by the arrow. The refrigerant at this time is condensed in the indoor heat exchanger 2 and evaporated in the outdoor heat exchanger 4 on the other side. In addition, each heat exchanger (2) (4) is provided with an indoor fan (5) and outdoor fan (6) to improve the thermal efficiency, respectively.

When this heating operation is performed, since the temperature difference between the indoor and the outdoor is severe, the phenomenon of freezing in the outdoor heat exchanger 4 occurs.

In order to solve the above-mentioned frost phenomenon, the frost was removed by switching to a cooling operation which raises the surface temperature of the outdoor heat exchanger 4 which became conventionally frosted.

However, the above-mentioned icing removal method has the disadvantage that the temperature of the indoor heat exchanger 2 is reduced to about -30 ° C to -20 ° C on the other side, so that the heating operation in which the indoor fan is off does not proceed anymore.

The present invention was developed in view of the above-mentioned matters, and an object thereof is to provide a defrosting control method of a combined air-conditioning and heating system to perform defrosting without stopping heating operation even during defrosting.

In addition, another object of the present invention is to provide a defrosting control method of a combined air-conditioning and air conditioning system that improves heating capacity as well as fast defrosting time by automatically condensed water heated to a predetermined temperature when the outside temperature drops below zero. Is in.

1 is an exemplary view showing a heating flow of a general air-conditioning combined air conditioner,

2 is a control configuration diagram of the present invention air-conditioning combined air conditioner,

3 is a control block diagram of the defrosting apparatus of the present invention;

4 is a detailed circuit diagram illustrating an example of FIG. 3;

5 is a flowchart showing a defrost control procedure of the air conditioner of the present invention.

* Explanation of symbols for main parts of the drawings

2: outdoor heat exchanger 4: indoor heat exchanger

5: drip tray 6: water tank

7: microcomputer 8: water temperature detection unit

9: heater driving unit 10: pump driving unit

The present invention for achieving the above object is to install a drip tray, a water tank, a watering member to circulate the condensed water in an outdoor heat exchanger, and a heater for heating the condensed water to a predetermined temperature, a pump for circulating the condensed water, and sensing the temperature of the condensed water. In the air-conditioning combined air conditioner equipped with a thermistor, after the condensate is stored in the water tank in the heating circulation in the heating operation mode, the step of sensing the temperature of the condensate, and raising the condensate temperature to the set temperature by the heater control, Determining whether or not the defrost in the state of the appropriate temperature, and if it is determined in the defrost step characterized in that the condensed water circulating with a predetermined pumping force to remove the idea of the outdoor heat exchanger until the end of the defrost.

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

2 is a control block diagram of an air conditioning and air conditioning system of the present invention, FIG. 3 is a control block diagram of the present invention defrosting device, FIG. 4 is a detailed circuit diagram showing an example of FIG. 3, and FIG. 5 is a defrost control procedure of the present invention air conditioner. It is a flow chart. The same technical elements as the prior art will be described with the same reference numerals.

In FIG. 2, the refrigerant discharged from the compressor 1 is sequentially returned to the compressor 1 through the outdoor heat exchanger 2, the expansion valve 3, the indoor heat exchanger 4, and the like as indicated by the arrow. The refrigerant at this time is condensed in the indoor heat exchanger 2 and evaporated in the outdoor heat exchanger 4 on the other side. The above description is a general configuration, and in the present invention, the bottom of the outdoor heat exchanger 2 is provided with a drip tray 5 in which condensate generated in the heat exchanger is accumulated, and the bottom of the drip tray 5 has a predetermined amount of water. The water tank 6 to store is installed.

In addition, a pump (P) for circulating the condensed water stored in the water tank (6) with a predetermined pumping force is provided to the outside of the water tank (6), the condensed water circulated by the pump (P) directly to the heat exchanger surface The watering member 11 is installed above the outdoor heat exchanger (2).

In addition, the water tank 5 is provided with a heater HT, which is a heating heating element, is wound several times, and is provided with a thermistor TH, which is a water temperature sensor that senses the water temperature of condensate.

Circuits for driving the heater HT, thermistor TH, and pump P are configured as shown in FIGS. 3 and 4. That is, the microcomputer 7, which will be described later, by the thermistor TH, which is composed of voltage divider R1, R2, and thermistor TH connected to the voltage Vcc and has a variable resistance value according to a temperature change of condensate. It is input to the input terminal (P1) of the water temperature sensing unit (8) for detecting the condensate water temperature, and the overall control of the air conditioning combined with air conditioning, input stage (P1) and output stage (P2-P3) is provided to the input stage during heating operation ( The microcomputer 7 receives the temperature from P1) and appropriately controls the output stage to maintain the proper temperature of the condensate and remove the heat exchanger, and the inverter I1 that inverts the control signal of the microcomputer 7, inverted. Inverter configured as a relay (RY1) on / off by a signal to invert the control signal of the microcomputer (7) and the heater drive unit 9 and the heater HT power is cut off or applied in accordance with the interruption of the relay (RY1) (I2), the relay consists of a relay (RY2) that is turned on and off by the inverted signal According to the disconnection of the (RY2) consists of a pump (P) driving the pump (10) for power supply is cut off or is applied to perform a spray operation.

Figure 5 is a flow chart showing the defrost control procedure of the air conditioner of the present invention, after starting the heating operation, detecting the temperature of the condensate (S1-S2), and raising the condensate temperature to the set temperature by the heater control (S3-S5) ), And determining whether the defrost in the state of the appropriate temperature (S6-S7), and if it is determined that the defrost in the step (S7) to circulate the condensed water with a predetermined pumping force to remove the idea of the outdoor heat exchanger until the end of the defrost. It consists of the steps (S8-S10). Here, the appropriate temperature is preferably set to about 60 ° C-70 ° C.

Referring to the operation of the present invention configured as described above are as follows.

When the heating operation is started in the initial heating operation mode (S1), the refrigerant discharged from the compressor 1 passes through the outdoor heat exchanger 2, the expansion valve 3, and the indoor heat exchanger 4 in sequence as indicated by the arrow. The refrigerant is then refluxed to the compressor 1 to condense in the indoor heat exchanger 2 and evaporate in the outdoor heat exchanger 4 on the other side.

Thus, the condensed water falls into the drip tray 5, and the accumulated water is gradually stored in the water tank 6.

When the heating proceeds in such a manner that water is accumulated in the water tank 6 to a certain degree, the microcomputer 7 receives a variable voltage input to the input terminal P1 by the thermistor TH having a variable resistance value according to the temperature change of the condensate. The temperature is input from the temperature sensing unit 8 (S2). At this time, if the temperature is lower than the set temperature of 60 ° C-70 ° C (S3), a high potential signal is applied to the output terminal P1 and inverted by the inverter I1. By supplying the power source AC to the heater HT by energizing the relay RY1 with the low potential signal, the condensed water temperature is increased by the heater heating operation S5, while the output terminal (S5) is determined to reach the set temperature. The low potential signal is applied to P1) to de-energize the relay RY1 with the high potential signal inverted by the inverter I1 to stop the heating of the heater HT to avoid further heating (S4).

In this control operation, the temperature of the condensate water is always maintained at an appropriate temperature (S6), which is frozen in the outdoor heat exchanger 4, that is, an frost is generated and defrost is necessary (S7). 7 immediately applies a high potential signal to the pump driver 10 to energize the relay RY2 with the low potential signal inverted by the inverter I2 to operate the pump P (S8). Accordingly, the water warmed at the proper temperature in the water tank 6 by the pumping force due to the driving of the pump (P) is discharged from the sprinkling member 11 to remove the freezing phenomenon (S10).

After the defrost is finished, the microcomputer 7 applies the low potential signal to the pump driver 10 to de-energize the relay RY2 with the high potential signal inverted by the inverter I2 to stop the pump P. (S9). Of course, the watering operation of the watering member 11 also stops due to the pump off.

As described above, the present invention allows the defrosting to be performed without stopping the heating operation even during the defrosting, and when the outside temperature drops below zero, the condensed water heated to a predetermined temperature is automatically sprayed on the heat exchanger, so that the defrosting time is fast. The heating capacity is also improved.

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

Claims (2)

In the air-conditioner combined with a heat sink, a water tank and a water spray member to circulate the condensate in an outdoor heat exchanger, a heater for heating the condensate to a predetermined temperature, a pump for circulating the condensate, and a thermistor for sensing the temperature of the condensate. After the condensate is stored in the water tank by heating circulation in the heating operation mode, sensing the temperature of the condensate, raising the condensate temperature to the set temperature by the heater control, and determining whether to defrost at the proper temperature. And defrosting the outdoor heat exchanger until the end of the defrost by circulating the condensed water with a predetermined pumping force if it is determined that the defrost in the step. The method of claim 1, wherein the proper temperature is set to about 60 ° C-70 ° C.