KR910008663Y1 - Defrosting control circuit for dehumidifier - Google Patents

Abstract

No content.

Description

Defrost Control Circuit of Dehumidifier

1 is a piping diagram showing a refrigerant flow of a typical dehumidifier.

2 is a schematic cross-sectional view showing the internal structure of a general dehumidifier.

3 is a circuit diagram of a conventional dehumidifier.

4 is a circuit diagram of a dehumidifier by the defrost control circuit of the present invention.

* Explanation of symbols for main parts of the drawings

1: compressor 2: condenser

3: strainer 4: capillary tube

5: evaporator 6: solenoid valve

7: hot capillary tube 14: fan motor for air circulation

24: defrost timer

The present invention relates to a dehumidifier that removes moisture from the room even when the temperature of the indoor air is high temperature (15 ° or more) as well as low temperature (15 ° or less). It relates to a defrost control circuit of the dehumidifier to remove the frost attached to the evaporator when operating the dehumidifier in one state.

In general, the dehumidifier circulates the condenser (2), the strainer (3), the capillary tube (4) and the evaporator (5) to the compressor (1) by the refrigerant compressed and discharged from the compressor (1) as shown in FIG. In addition, the refrigerant discharged from the compressor 1 is circulated so that the refrigerant discharged from the compressor 1 circulates through the solenoid valve 6, the HOT capillary tube 7, and the evaporator 5 operated according to the detection temperature of the evaporator 5. Piped to flow back to 1).

And, Figure 2 is a schematic cross-sectional view showing the internal structure of the dehumidifier, as shown therein, the compressor 1 is fixed to the inside of the main body 10, the front grill 11 and the rear grill (12) on the front and rear upper part 12. ) Are respectively installed, and the humidity detector 13 for adjusting and detecting indoor humidity is fixed to the upper part of the front grill 11, and the evaporator 5, the condenser 2, and the air circulation for the inside of the rear grill 12. The fan motor 14 is installed so that the thermostat 15 for detecting the surface temperature of the evaporator 5 is fixed to the surface of the evaporator 5, and a drain hole 16 is formed at the lower part of the evaporator 5, so that the drain hole ( 16 is formed and the drip tray 17 is provided in the lower part of the drain opening 16. As shown in FIG.

In the operation of the dehumidifier having such a configuration, conventionally, when indoor air is low temperature and high humidity and the frost is attached to the evaporator 5, since only the hot refrigerant is supplied to the evaporator 5 and defrosted, there is a problem in defrost efficiency. .

That is, in the circuit of the conventional dehumidifier, as shown in FIG. 3, the power plug 20 is connected to the movable terminal of the water level detection switch 21 for detecting the water level of the drip tray 17, so that the water level detection switch 21 One fixed terminal 21a is connected to the full-water lamp 22, and the other fixed terminal 21b is connected to the overload relay 23, the compressor 1, and the starting relay connected in series after the humidity controller 13 is connected. 24, the motor 25a of the defrost timer 25, and the movable terminal of the switch of the power relay 26, and the connection points thereof are the coils 26C and the mosslet 15 of the power relay 26. It is connected to the switch (26b) of the defrost timer (25) through, one side and the other fixed terminal (26a, 26b) of the switch of the power relay 26 is a solenoid valve (6) and air circulation fan motor (14) ).

In the above-described water level detection switch 21, the water level of the drip tray 17 is about If it is about, the movable terminal is connected to the fixed terminal 21a of one side, the humidity controller 13 is connected when the humidity is higher than the set humidity and the defrost timer 25 is driven by the motor 25a Accordingly, the switch 25b repeats connection and opening at regular time intervals, and the power relay 26 is connected to the fixed terminal on one side of the movable terminal of the switch when it is driven.

In the circuit of the conventional dehumidifier configured as described above, the water level of the drip tray 17 in the state where the operating power is applied to the power plug 20 is increased. Assuming that the indoor humidity is higher than the set humidity below, the movable terminal of the water level detection switch 21 for detecting the water level of the drip tray 17 is connected to the other fixed terminal 21b, and the humidity regulator 13 is connected. The operating power of the power plug 20 is applied to the motor 25a of the defrost timer 25 through the water level detection switch 21 and the humidity controller 13 to drive the defrost timer 25 and the overload relay 23. The compressor 1 is applied to the start relay 24 again to operate the start relay 24, and the compressor 1 is driven to compress the refrigerant.

Here, assuming that the room temperature is a high temperature of 15 ° C. or more, the surface temperature of the evaporator 5 is usually 5 ° C. or more, and the thermostat 15 that detects the surface temperature of the evaporator 5 continues to be opened. Since the power relay 26 does not operate regardless of the operation of the defrosting timer 25, the movable terminal of the switch is connected to the other fixed terminal 26b, and the air circulation fan motor 14 is driven. .

Accordingly, the refrigerant compressed and discharged according to the driving of the compressor 1 is circulated to the compressor 1 through the condenser 2, the strainer 3, the capillary tube 4, and the evaporator 5, and an air circulation fan. As the motor 14 is driven, humid air in the room passes through the rear grille 12, and after the moisture is removed while passing through the evaporator 5, the compressor 1 is cooled and discharged through the front grill 11. The indoor humidity is controlled.

If the indoor temperature is a low temperature of 15 ° C. or less, the surface temperature of the evaporator 5 is about 5 ° C. or less, so that frost is attached and the thermostat 15 is in a connected state. As the switch 25a is opened and connected by the driving of the 25a, the power relay 26 is stopped and driven so that the movable terminal of the switch is fixed to the other fixed terminal 26b and the one fixed terminal 26a for a predetermined time interval. The fan motor 14 and the solenoid 6 for air circulation are alternately driven.

Therefore, when the fan motor 14 for air circulation is driven, the dehumidifying operation is performed as in the case of the high temperature, and when the solenoid valve 6 is driven, the compressor 1 is compressed to increase the temperature. The hot refrigerant flows directly into the evaporator 5 through the solenoid valve 6 and the hot capillary tube 7 to remove the frost attached to the evaporator 5.

In addition, as the dehumidification operation is performed in the above, water droplets generated in the evaporator 5 are drained to the drain port 16 to enter the drip tray 17, and the water level of the drip tray 17 is In this case, since the movable terminal of the water level detection switch 21 is connected to one fixed terminal 21a, the dehumidification operation of the dehumidifier is stopped, and the full water lamp 22 is turned on to indicate that the water in the drip tray 17 should be removed. Done.

However, in the conventional dehumidifier circuit as described above, when the defrosting operation is performed, the compressor 1 continues to be driven, but the driving of the air circulation fan motor 14 is stopped and the high temperature generated in the compressor 1 cannot be cooled. Since the compressor 1 is operated under an overload condition, the service life of the compressor 1 is shortened, the use efficiency is lowered, and a lot of defrosting time is required, and the hot refrigerant discharged from the compressor 1 is evaporator 5. There was a variety of problems, such as the noise caused by the refrigerant flows directly to give a lot of discomfort to the user.

Accordingly, an object of the present invention is to provide a defrost control circuit that prevents the overload of the compressor and reduces the refrigerant noise by driving the fan motor for air circulation during dehumidification as well as during defrosting.

When the dehumidification operation is performed, the present invention has the purpose of driving a compressor to circulate a refrigerant as well as driving a fan motor for air circulation to dehumidify and cool the compressor as in the prior art.

During the defrosting, the solenoid valve is repeatedly driven at a predetermined time interval according to the operation of the defrosting timer to allow the hot refrigerant discharged from the compressor to flow into the evaporator and to drive the air circulation fan motor to cool the compressor.

In particular, the present invention shortens the defrosting time by driving the air circulation fan motor during defrosting, and the refrigerant noise as the hot refrigerant is introduced into the evaporator is resonated by the air circulation fan motor to reduce the refrigerant noise. do.

Hereinafter, with reference to the accompanying drawings of Figure 4 will be described in detail the defrost control circuit of the present invention.

As shown in FIG. 4, the power plug PL is connected to the movable terminal of the water level detection switch 21 so that one fixed terminal 21a of the water level detection switch 21 is connected to the full water lamp 22 and the other side. After the fixed terminal 21b passes through the humidity controller 13, the motor 25a of the overload relay 23, the compressor 1, the movable relay 24, and the defrost timer 25 connected in series, and the air circulation The connection point was connected to the switch 25b of the defrost timer 25 via the solenoid valve 6 and the thermostat 15, while also connecting to the fan motor 14 for the motor.

According to the present invention configured as described above, when the operation terminal of the water level detection switch 21 is connected to the fixed terminal 21a on one side, and the humidity controller 13 is connected, the operating power is applied to the power plug 20, Since the compressor 1 is driven and the fan motor 14 for air circulation is driven, the refrigerant discharged from the compressor 1 passes through the condenser 2, the strainer 3, the capillary tube 4, and the evaporator 5. As it is circulated to (1), the humid air is dehumidified while passing through the evaporator 5 as the fan motor 14 for air circulation is driven, and the compressor 1 is cooled and then discharged.

When the room temperature is low and frost is attached to the evaporator 5 and the thermostat 15 is connected, the switch 25b is connected at regular intervals by driving the motor 25a of the defrost timer 25. Accordingly, since the solenoid valve 6 is driven, the hot refrigerant discharged from the compressor 1 flows into the evaporator 5 through the solenoid valve 6 and the hot capillary tube 7 to perform a defrosting operation. Since the fan motor 14 is continuously driven, the indoor air passes through the evaporator 5 to assist in defrosting operation, and is cooled and discharged after the compressor 1 is cooled, and the refrigerant as the hot refrigerant flows into the evaporator 5. Noise is reduced by resonating with the fan motor 14 for air circulation.

As described in detail above, the present invention prevents the overload of the compressor by cooling the compressor by driving a fan motor for air circulation during dehumidification as well as during defrosting, thereby extending its service life as well as improving use efficiency and defrosting time. Not only is it shortened, there is an effect such that the user can use the dehumidifier more comfortably by reducing the refrigerant noise.

Claims (1)

The overload relay 23, the compressor 1, and the movable relay 24 are connected to the water level detection switch 21 connected to the power plug 20, the humidity controller 13, and the power relay 26 is connected. In the dehumidifier having a defrost function, which is configured to selectively connect the defrost timer 25, the moss 15, the solenoid valve 26, and the air circulation fan motor 14, the water level detection switch 21. And a dehumidification timer (25), a demustard (15), a solenoid valve (6) and an air circulation fan motor (14) directly connected to a humidity controller (13).