KR910006284Y1 - Dehumidifier - Google Patents

Abstract

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Description

Dehumidifier

1 is a system diagram of a pipe of the present invention.

* Explanation of symbols for main parts of the drawings

1: compressor 2: cooler

3, 4: Gramophone 5: Accumulator

6: receiver tank 7: filter drier

8: solenoid valve 9: three-way valve

10, 10 ', 10 ": Check valve 11: Sight glass

12 gas stop valve 13 expansion valve

14: Silencer 15: Flexible Tube

19 ', 20: pressure gauge 21: thermostat

22: capillary tube

The present invention relates to a dehumidifying apparatus, and more particularly, to a dehumidifying apparatus for drying an object by removing moisture contained in the air while maintaining the temperature of indoor air within a set range.

The dehumidifying apparatus refrigeration cycle according to the prior art is applied to the structure as it is, that is, by inhaling the humid air in the room to contact the surface of the cooler which is an evaporator to condense moisture in the air to make water droplets to dehumidify.

The dehumidifier has the same structure as the cooler, and simply drops the wind speed to exert the dehumidifying effect. When the temperature of the sucked indoor air is high, the dehumidifying apparatus may exert some dehumidifying effect by the temperature difference due to the cooler and heat exchange. However, if the room temperature is lowered to a certain range or less due to the cooling effect, and a sufficient dehumidifying effect cannot be expected at low temperatures such as in winter, the dehumidifying device according to the prior art may reduce the relative humidity to 60% or less. There is a flaw that cannot be.

In order to compensate for these drawbacks, conventionally, a separate heater has been proposed to heat the air after dehumidification to room temperature, but heating the air at the discharge side has no effect on the improvement of the dehumidification effect. There is a drawback that high dehumidification effect cannot be obtained.

The dehumidifier, known as Japanese Utility Model Publication No. 62-2633, eliminates these drawbacks and includes two condensers, coolers and blowers in the air distribution system, and separate condensers, compressors and receivers in addition to the air distribution system. When the two accumulators in the air distribution series and the outlet side of the compressor and the inlet side of the receiver are connected in parallel, the refrigerant flows to the two accumulators in the series when the temperature is lower than the temperature set in the summer start, In case of abnormality, the switching structure is interlocked so that the refrigerant flows to the compressors outside the series, and the air flow from the inlet to the blower is blown to make the dry air by dehumidifying the humid air introduced from the inlet by a large temperature difference. From the bottom to the back, the accumulators and coolers in the series, Which it was arranged to public morals.

However, in the dehumidification apparatus according to the prior art, the heat transfer area of the in-seat accumulator in the ventilation system is insufficient, the dehumidification effect is reduced by lowering the cooling efficiency, the relative humidity is lowered, and the pipe connection is complicated. have.

The present invention has been made to solve the above-mentioned shortcomings, and the object of the present invention is to provide a dehumidifying device that allows the pipe hole to be simple and effective in the dehumidification operation within the set temperature range.

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

The present invention is a three-way valve (9) is connected to the compressor (1) via a silencer (14), one side of the discharge of the three-way valve (9) through the check valve (10 ') Respectively connected to the installed accumulators 4, and the indoor accumulators 3 and 3 'are connected to the outdoor accumulators 4 installed through the check valve 10, 4) a plurality of capillary tubes (22) via the receiver tank (6), filter drier (7), solenoid valve (8), sight glass (11), gas stop valve (12) and swelling valve (13). ) Is connected to a cooler (2) provided, which is connected to the compressor (1) via an accumulator (5) and a flexible tube (15).

The compressor 1 and the receiver tank 6 are provided with pressure switches 16 and 18 and pressure gauges 20 and 19, respectively, and another pressure switch between the discharge side and the inlet side of the compressor 1. 17) is installed.

The following describes the effects of the present invention configured as described above.

First, when the refrigerant is compressed in the compressor 1 and discharged toward the discharge side, the discharged refrigerant passes through the silencer 14 to reach the three-way valve 9, which is an instrument not shown. The direction of the three-way valve 9 is switched according to the temperature set in the temperature sensor installed in the panel (assuming 20 ° C. in the present invention).

That is, when the room temperature is higher than 20 ° C., the refrigerant discharged from the compressor 1 passes through the three-way valve 9 and passes through the check valve 10 'toward the arrow A to the sound storage device 4 installed outdoors. The refrigerant is liquefied in the shaft 4 to radiate heat to the outside, and then the refrigerant passes through the receiver tank 6, the filter drier 7, the solenoid valve 8, the sight glass 11, and the gas stop valve. 12) and the expansion valve (13) and then through the capillary tube (10) installed in the cooler (2) flows into the cooler (2) and vaporizes to cool the air around the cooler (2) After condensation of moisture in the water to remove moisture, the refrigerant inside the cooler 2 passes through the accumulator 5 and then returns to the inside of the compressor 1 through the flexible tube 15.

Meanwhile, when the temperature sensor detects 20 ° C. or less, the refrigerant flow direction of the three-way valve 9 is switched from arrow A to arrow B. The refrigerant whose direction is changed is passed through the check valve 10 ″. The refrigerant flows into the upper and lower accumulators 3 and 3 'of the cooler 2 to radiate heat primarily, and the radiated refrigerant exits the accumulators 3 and 3' and opens the check valve 10. After the second heat dissipation is supplied to the external sound storage device 4 described above, the refrigerant passing through the condenser 4 is returned to the compressor 1 through the same process as described above.

When the indoor temperature is high in this way, the refrigerant of the compressor 1 is directly sent to the condenser 4 installed outside to release the heat of the refrigerant from the outside to lower the indoor temperature, while the indoor temperature is lower than the set temperature. The refrigerant in the mask compressor 1 heats the air dehumidified by the cooler 2 to a predetermined temperature while radiating heat from the condensers 3 and 3 'installed in the room, thereby increasing the indoor air constantly or slightly. .

Next will be described the dehumidification operation according to the present invention.

First, when the compressor 1 is supplied with refrigerant through the three-way valve 9 to the indoor storage shafts 3 and 3 ', the refrigerant liquefies and dissipates heat inside the storage shafts 3 and 3'. While the air around the condenser (3, 3 ') is heated, the refrigerant passing through the capillary tube 22 of the cooler (2) provided between the two condenser (3, 3') is The refrigerant passing through the capillary tube 22 of the cooler 2 provided between the accumulators 3, 3 ′ from the ambient air of the cooler 2 receives heat from the ambient air of the cooler 2. That is, the humidified air is cooled by the cooler 2 to the dew point temperature, and condensation occurs, and the moisture contained in the humidified air is made into water droplets and sold to the outside. The lower shaft pump (3 ') is heated again to make the dry air to the desired temperature room temperature (about (20 ℃) air to supply to the room again.

Therefore, in the present invention, when the room temperature is higher than the set value, the indoor compressors 3 and 3 'are not operated and the cooler 3 directly removes moisture from the air, while the room air temperature is lower than the temperature value. When the indoor sound storage (3, 3 ') is operated to go to increase the temperature of the indoor air dehumidified by the cooler (2).

According to the present invention as described above, one of the three-way valve (9) connected to the compressor (1) is respectively connected to the indoor sound storage (3, 3 '), the indoor condenser (3, 3') is outdoors Connected to the condenser (4), and on the other outdoor storage device (4) as the temperature of the indoor air rises or falls above the set temperature value, the indoor music storage (3, 3 ') is selectively operated The dehumidified air is maintained at a constant temperature and there is an effect that can be supplied.

Claims (1)

In the dehumidifier which dehumidifies the indoor air by the compressor (1), the cooler (2), and the condenser, the discharge side of the three-way valve (9) connected to the compressor (1) is the condenser (3, 3) of the room. '), The other side is connected to the outdoor condenser 4, respectively, the indoor condenser 3, 3' is connected to the outdoor condenser 4 via the check valve 10, the outdoor condenser Dehumidifier characterized in that (4) is connected to the cooler (2).