KR101303014B1 - a multi funtional chilly wind drying machine with both overheat protection and auto thermostatic control - Google Patents

Abstract

The present invention relates to a cold air dryer, and more particularly, to a cold air dryer or a cold air dryer having a high efficiency to operate stably without a drop in the evaporator even at a low temperature and to prevent overheating of the refrigerant compressor even during a high temperature operation or a long time operation. .
In addition, the present invention relates to a cold air dryer that significantly reduces the failure rate of the cold air drying apparatus and also significantly increases the efficiency compared to the same inflow energy.
The present invention comprises a drying circulation chamber and a drying chamber, and comprises a refrigerant circulation system including an evaporator, a compressor, a condenser, and a receiver, wherein the evaporator is a dehumidifying evaporator having a function of removing moisture from the dryer and discharging it to the outside of the dryer. Provides a versatile cold wind dryer characterized by the above.
In addition, the condenser is provided with an internal condenser installed inside the dryer and an external condenser installed outside the dryer, and automatically controls the temperature of the inside of the dryer by controlling the flow rate of refrigerant into the internal condenser and the external condenser by a proportional control valve system. Provides a versatile cold air dryer to control.
In addition, a refrigerant cooling device is provided in the piping between the receiver and the evaporator, and a proportional control valve system operated by the temperature sensor is provided in the distribution pipe of the refrigerant cooling device by providing a temperature sensor in the piping between the evaporator and the compressor. It provides an overheating versatile cold air dryer.
The present invention also provides a versatile cold air dryer having an air filter at an air outlet of a dry inner compartment, a space blower at a dry outer compartment space, and an inlet blower at a dry indoor compartment air inlet.

Description

Multi funtional chilly wind drying machine with both overheat protection and auto thermostatic control}

The present invention relates to a cold air dryer, and more particularly, to a cold air dryer or a cold air dryer having a high efficiency to operate stably without a drop in the evaporator even at a low temperature and to prevent overheating of the refrigerant compressor even during a high temperature operation or a long time operation. .

In addition, the present invention relates to a cold air dryer that significantly reduces the failure rate of the cold air drying apparatus and significantly increases the efficiency against the same inflow energy.

In general, the cold air dryer heat exchanges the refrigerant flowing inside the evaporator with the internal air of the drying target space in a device forming a refrigerating cycle, thereby condensing moisture in the internal air and discharging the condensed moisture outside the drying target space. It is an apparatus for drying a drying object.

Conventional cold air dryer is used while maintaining the temperature of the drying space in the range of 22 ~ 30 ℃, the reason is that when keeping below the temperature range excessive dropping occurs in the evaporator, the heat exchange efficiency is significantly reduced. That is, in order to keep the temperature of the drying target space low, the temperature of the evaporator must be kept lower enough to condense the moisture contained in the internal air, but in this case, excessive dropping occurs in the evaporator to stop the operation of the compressor. Serious problems arise that must be stopped from time to time.

In addition, the use of ordinary stainless steel as a dryer constitutes a problem that the effect of thermal cut on the internal temperature of the dryer is lowered and energy is excessively consumed.

In addition, when the temperature inside the dryer is maintained at a temperature between 20 to 70 degrees Celsius, the efficiency of the refrigerant evaporated in the evaporator is maintained as the refrigerant condensed by the refrigerant compressor is maintained at a high temperature and high pressure when the temperature is maintained higher than room temperature. Falls and thus the dehumidification function is significantly reduced.

In addition, the refrigerant evaporated in the evaporator has a problem that the frequent failure of the compressor and the situation of operating interruption occurs as the excessive load is applied to the compressor as it is maintained in a relatively overheated state.

In addition, the conventional cold air dryer is difficult to operate a constant internal temperature due to the lack of a device configuration that maintains a constant temperature inside the dryer, or the operation is too complicated to make the internal temperature constant There was a problem in doing so.

The present invention solves the above problems of the prior art,

It is an object of the present invention to provide a cold air dryer that significantly prevents a drop in the evaporator even when the cold air dryer is operated in a low temperature range.

In addition, when the cold air dryer maintains a wide range of temperature of 20 ° C. to 70 ° C., that is, a temperature higher than room temperature, the refrigerant condensed by the refrigerant compressor is maintained as a liquid of high temperature and high pressure, thereby reducing the efficiency of the refrigerant vaporized in the evaporator. Accordingly, an object of the present invention is to provide a cold air dryer that significantly prevents a problem of a deterioration of a dehumidifying function.

In addition, when the cold air dryer is used for a long time or operated at a high range of temperature, the vaporized refrigerant in the evaporator is kept relatively overheated, resulting in excessive load on the compressor, resulting in frequent failure of the compressor and interruption of operation. There is a problem that a situation occurs, and to provide a cold air dryer that can prevent this actively and effectively.

In another aspect, the present invention is to provide a cold air dryer that can be controlled simple yet effective in maintaining a constant temperature of the cold air dryer.

In order to solve the above problems,

It is composed of a refrigerant circulation system including a dry outer chamber and a dry inner chamber and including an evaporator, a compressor, a condenser, and a receiver, wherein the evaporator is a dehumidifying evaporator having a function of removing moisture from the dryer and discharging it to the outside of the dryer. Provides a versatile cold air dryer.

In addition, the condenser is provided with an internal condenser installed inside the dryer and an external condenser installed outside the dryer, and automatically controls the temperature of the inside of the dryer by controlling the flow rate of refrigerant into the internal condenser and the external condenser by a proportional control valve system. Provides a versatile cold air dryer to control.

In addition, a refrigerant cooling device is provided in the piping between the receiver and the evaporator, and a proportional control valve system operated by the temperature sensor is provided in the distribution pipe of the refrigerant cooling device by providing a temperature sensor in the piping between the evaporator and the compressor. It provides an overheating versatile cold air dryer.

The present invention also provides a versatile cold air dryer having an air filter at an air outlet of a dry inner compartment, a space blower at a dry outer compartment space, and an inlet blower at a dry indoor compartment air inlet.

The multipurpose cold wind dryer capable of preventing overheating and automatic temperature control according to the present invention has the effect of maintaining the temperature of the cold wind dryer constantly and freely controlling the temperature despite its simple configuration.

In addition, the present invention is particularly effective to prevent the overheating of the interior of the dryer using a dual condensation system, and also to maintain a constant temperature inside the dryer.

In particular, the present invention employs a proportional control valve system in the dual condensation system to adjust the amount of refrigerant flowing into the condenser inside the dryer and the condenser outside the dryer, thereby maintaining a very constant temperature inside the dryer. According to the requirements of the temperature control can be freely effected.

In addition, the present invention exhibits the effect of remarkably preventing a drop in the evaporator even when operating the cold air dryer in a low temperature range with the above configuration.

In addition, the general cold air dryer is a high temperature of the cold air dryer when operating at a high temperature or for a long time, the refrigerant is overheated, the efficiency of the dryer decreases and the overheat occurs in the compressor, causing frequent operation interruptions and failures, the present invention provides a cooling system for the refrigerant By lowering the temperature of the refrigerant by adopting the effect to significantly prevent the above-described operation interruption and failure.

In addition, by introducing a proportional control valve system to the above-mentioned refrigerant cooling system to perform the action to see the proper refrigerant temperature control effect while always maintaining the temperature of the refrigerant at an appropriate level.

In addition, in the conventional cold air dryer, dust, suspended matter, etc. are generated while drying the dry matter, thereby causing a failure by attaching or fixing to the cold air dryer device. The present invention provides an air filter between the cold air dryer inner chamber and the outer chamber. The dust and suspended solids are completely removed to prevent the occurrence of breakdown.

In addition, the conventional cold air dryer is made of a conventional iron metal dryer body, the present invention employs a three-layered stainless steel laminated plate to create the effect of maximizing the thermal barrier action of the cold air dryer.

In addition, the present invention exhibits the effect of configuring a dry boudoir induction blower so as to blow the dry boudoir appropriately and uniformly.

1 is a block diagram of a cold air dryer according to the present invention.
2 is a configuration of a cooling system of a cold air dryer according to the present invention.
3 is a configuration diagram of a refrigerant cooling system of a cooling system according to the present invention;
Figure 4 is a schematic view of the three-layer stainless laminate plate according to the present invention.
5 is a configuration diagram of a load control system of a proportional control valve system according to the present invention.

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

The present invention is characterized by including a dry outer chamber 100 and a dry inner chamber (110).

Therefore, the present invention forms a space between the dry outer chamber and the dry inner chamber, and the space part 130 formed as described above is a space through which cold air flows, thereby forming a passage through which cold air can flow into the dry inner chamber.

Accordingly, as shown in FIG. 1, the dry outer chamber may be formed to surround the dry inner chamber, but is not limited thereto. In general, the dry outer chamber may be formed as long as it forms a tubular or circular shape through which cold air may pass.

The dry boudoir means a place where the drying rack can be located as a space where the dry matter is substantially dried.

The present invention comprises an evaporator 200, a compressor 300, a condenser 400, a receiver 500, which is mounted to a portion of the dry outer chamber to provide cold air to the dry inner chamber through the space. It is a technical feature.

In the present invention, the evaporator 200 refers to an apparatus or means for absorbing the temperature outside the evaporator by vaporizing the condensed refrigerant in the gas phase using the expansion valve 210 or the like.

Therefore, the present invention functions to lower the temperature of the air passing through the dry inner chamber as shown in FIG.

In addition, the present invention is characterized in that the evaporator is a dehumidifying evaporator that can function to remove moisture contained in the air.

In the present invention, the dehumidification evaporator drops the temperature of the evaporator tube of the evaporator as the refrigerant expands, and condensation occurs in the vapor contained in the air in the evaporator tube. And means or apparatus for acting.

Therefore, the dehumidifying evaporator of the present invention may be installed to be inclined toward the dry outer room as shown in FIG. 1, and the inclination is preferably 10 to 80 degrees and preferably 30 to 75 degrees based on the ground.

For example, the dehumidifying evaporator of the present invention flows downwardly through the appearance of the condensation water condensed in the evaporation tube, and may have a condensed water receiver for collecting the naturally flowing condensate.

In addition, a dry dehumidification chamber may be configured to dehumidify the discharged condensate water taken from the dehumidification evaporator to the outside.

Compressor 300 in the present invention means a means or apparatus for compressing the refrigerant evaporated in the evaporator.

The compressor compresses the gaseous refrigerant passing through the evaporator and sends it to the condenser. Therefore, the compressor may be constituted by a conventional compressor or the like and is connected to the condenser and the pipe.

The compressor of the present invention may be configured as a system capable of controlling the compressor by additionally configuring a general high low pressure pressure software, a high pressure software or a high low pressure manometer.

The condenser of the present invention means a conventional apparatus or means for liquefying gaseous refrigerant compressed by the compressor.

In this way, heat is released by the refrigerant liquefied in the condenser, and the heat is released into the drying chamber by the blower.

The present invention can be configured by using the heat generated by the condenser and position the condenser on the evaporator as a function of preventing the accumulation of the evaporator.

With such a configuration, an effect of preventing an image phenomenon that may occur in an evaporator by heat generation of a condenser (meaning an internal condenser in a dryer) occurs.

The refrigerant liquefied through the condenser is introduced into the receiver 500. The function of the receiver is to temporarily store the liquefied refrigerant and to provide the refrigerant to the evaporator.

The present invention is a large technical feature that the condenser 400 can be installed divided into an internal condenser 410 and an external condenser 420.

The internal condenser of the present invention refers to a condenser installed inside the dryer, which means that it can be installed in the dry external chamber.

The external condenser of the present invention is installed outside the dryer to perform a function of releasing the temperature inside the dryer to the outside.

The present invention exhibits the effect of stably maintaining the internal temperature of the dryer by using a dual condenser as described above and completely preventing sudden changes in the internal temperature of the dryer and overheating.

That is, the cold air dryer of the present invention uses the above-mentioned refrigerant circulation type compressor, evaporator, condenser, etc., and uses an air blower to convert electrical energy or kinetic energy into thermal energy, thereby increasing the temperature inside the cold air dryer.

Therefore, in order to lower the rising temperature (that is, to discharge the heat inside), the external condenser is adopted to discharge the heat out of the dryer to achieve the function of lowering the temperature inside the dryer. .

By configuring such a double condenser cold air dryer is to provide an effect that can supply a continuous cold air.

Therefore, the internal condenser and the external condenser of the present invention are connected to the receiver.

The external condenser of the present invention may employ cooling means for easily releasing heat generated by condensation and protecting overheating of the external condenser, and may be equipped with a cooling blower 421 as shown in FIG. 1.

In addition, the most technical feature of the present invention is the introduction of the proportional control valve system 600 as a means for adjusting the amount of the refrigerant to be distributed to the external condenser and the internal condenser.

The present invention adopts a system for controlling the temperature of the cold air dryer by adjusting the amount of refrigerant sent to the external condenser and the internal condenser as described above. Therefore, it is most efficient and effective to use the proportional control valve system to control the amount of refrigerant sent to the external condenser for accurate temperature control in the dryer.

The proportional control valve system of the present invention refers to a valve system that functions to automatically adjust the amount of refrigerant flowing into the external condenser and the internal condenser when the temperature range of the cold air dryer is set.

As described above, the proportional control valve system of the present invention works in conjunction with a temperature sensor inside the cold air dryer.

Therefore, the proportional control valve system according to the present invention opens the valve of the refrigerant flowing into the external condenser when the temperature of the dryer exceeds 32 degrees Celsius when the internal temperature of the cold air dryer is set to 30 to 32 degrees Celsius. Dispersion flow into the external condenser and the internal condenser, and when the temperature is lowered to less than 30 degrees includes closing the inlet valve of the external condenser to function to flow the refrigerant only into the internal condenser.

In addition, when the internal temperature of the dryer is set to 25 degrees Celsius, when the internal temperature of the dryer is higher or lower than the set temperature, the internal temperature of the dryer is adjusted by adjusting the opening area of the valve of the external condenser to which the refrigerant is sent accordingly. It is meant to include a valve that functions as returned.

The present invention can be used by applying the proportional control valve system for the general flow control to the steam connection pipe. In addition, the present invention can be configured by employing a solenoid proportional control valve for flow control.

Therefore, the proportional control valve system for controlling the flow rate of the present invention takes the configuration of controlling the temperature inside the cold wind dryer by the amount of steam, so that the temperature sensor is configured in the dryer, which is connected to the temperature sensor to automatically control the flow rate of the steam. It takes a configuration.

By controlling the magnitude of the power supplied to the solenoid valve according to the temperature set as an example of the proportional control valve system of the present invention, it is possible to control the magnitude of the electromagnetic force induced in the movable core, thereby controlling the moving distance of the spool It is called.

Therefore, according to the object of the control, the pressure proportional control valve for controlling the pressure and the flow rate proportional control valve for controlling the flow rate can be divided into two. The present invention adopts a flow control method.

The proportional control valve system of the present invention may use a load control system to supply a uniform power by minimizing the fluctuation range of the input voltage for precise control of the steam flow rate.

In the load control system of the present invention, the constant voltage circuit 10 using the constant voltage regulator 13 as shown in FIG. 5 may be used.

The constant voltage circuit 10 as described above changes the external voltage inputted through the voltage input port 11 to a constant voltage through the constant voltage regulator 13 and outputs it to the outside through the voltage output port 15 to externally the valve. The proportional control valve 20 is supplied.

Here, the constant voltage regulator 13 means a device or a device designed to maintain a constant output voltage even when the input voltage and the output load change.

Such a flow control proportional control valve system of the present invention boasts an effect of more precisely controlling the internal temperature of the dryer as the load control system is used.

The present invention employs the dual condenser system and the proportional control valve system as described above to maintain the temperature of the cold air dryer stably and exhibits no trouble.

In addition, another big technical feature of the present invention is that it is possible to perform a function of controlling the temperature of the refrigerant by employing a dual cooling system in the refrigerant supplied to the evaporator from the receiver.

In general, when the refrigerant is condensed by using a compressor and a condenser, a liquid refrigerant having a high temperature and high pressure is generated. When the high temperature and high pressure refrigerant flows into the evaporator through the expansion valve, not only the heat exchange efficiency decreases, but also the refrigerant in the expanded gas phase is overheated, and when the superheated refrigerant flows back into the compressor, the compressor is overheated. .

As described above, as the operation time becomes longer, a vicious cycle is repeated, causing a failure of the compressor and a decrease in efficiency.

Therefore, the present invention adopts a refrigerant cooling system capable of completely preventing overheating and failure of the compressor as described above.

The dual refrigerant cooling system of the present invention includes employing the refrigerant cooling device 700 in the connection pipe between the receiver and the evaporator.

As described above, the refrigerant cooling device of the present invention vaporizes the refrigerant drawn out through the distribution pipe 710 for supplying the high temperature and high pressure refrigerant supplied from the receiver and introduced into the evaporator. Means a device or means for unloading.

Therefore, the present invention acts as an automatic system that does not need to introduce a separate external cooling system in order to lower the temperature of the refrigerant flowing into the evaporator.

Refrigerant cooling device of the present invention is configured in the tube connected to the evaporator from the receiver, and comprises a refrigerant cooling evaporator having a refrigerant cooling expansion valve 720.

Therefore, the refrigerant flowing into the refrigerant cooling evaporator is provided from a distribution pipe 710 derived from a tube connected to the refrigerant cooling device and the evaporator of the present invention. The distribution system may employ a valve system to control the amount of refrigerant flowing into the refrigerant cooling evaporator.

In addition, the vaporized refrigerant passing through the refrigerant cooling device is taken back into the compressor through a distribution inlet pipe 711 connected to the pipe connecting the compressor and the evaporator.

In this case, the distribution inlet pipe may adopt a one-way valve 712 for flowing the fluid in only one direction, thereby preventing the refrigerant gas from flowing back.

Due to the one-way valve configuration, the vaporized refrigerant passing through the refrigerant cooling device is prevented from flowing back to the refrigerant cooling device. Therefore, backflow to the valve system of the distribution pipe is prevented.

As the refrigerant flowing into the evaporator is cooled through the above configuration, the heat exchange efficiency of the vaporized refrigerant in the evaporator is significantly increased. In addition, the dehumidification effect is also significantly increased by this remarkable heat exchange efficiency.

In addition, the present invention may employ a proportional control valve system 713 in the distribution pipe in order to control the amount of refrigerant flowing into the refrigerant cooling device to stably and efficiently control the temperature of the refrigerant flowing into the evaporator. have.

The proportional control valve system is operated in conjunction with a temperature sensor 714 installed in the pipe connected to the evaporator and the compressor.

Since the proportional control valve system installed in the distribution pipe of the present invention has the same or similar configuration as the aforementioned proportional control valve system, it will be omitted here.

Due to the proportional control valve system of the distribution pipe as described above, the effect of stably maintaining the temperature of the refrigerant gas passing through the evaporator is obtained.

In addition, due to the stable temperature of the refrigerant gas passing through the evaporator, the temperature of the refrigerant gas flowing into the compressor is introduced without being overheated, so that the compressor can be stably operated without being overheated, and thus, the failure of the compressor is significantly reduced. Effect is created.

The dual refrigerant cooling system of the present cold air dryer including the refrigerant cooling device configured as the proportional control valve system of the present invention provides an active dehumidification function by compressing the stable gas refrigerant, preventing overheating of the compressor, and maximizing the efficiency of the evaporator. Will be achieved.

In addition, in the refrigerant circulation system of the present invention, as shown in FIG. 1, the filter drier 510 and the side glass 520 may be configured between the receiver and the evaporator.

In addition, as described above, the evaporator has an expansion valve configured to expand the refrigerant.

The present invention can configure a refrigerant shutoff valve between the receiver and the evaporator to open the valve to distribute the refrigerant at the start of operation of the cold air dryer of the present invention and to add a function of blocking the refrigerant from being distributed at the end of the operation. have.

In addition, such a refrigerant shutoff valve may be configured as a proportional control shutoff valve system 530, but preferably configured as a pressure control system to block or release the flow of refrigerant due to the pressure difference of the refrigerant at the start and end of operation. have.

In addition, a liquid separator 310 is additionally formed between the evaporator and the compressor to separate the liquid refrigerant and the gaseous refrigerant and act to introduce the compressor.

In addition, the suction filter 320 and the flexible tube may be configured between the liquid separator and the compressor to allow a smooth inflow of the gas refrigerant into the compressor.

In addition, according to the present invention, the blower 800 may be installed in a space portion between the dry outer chamber and the dry inner chamber in order to transfer heat generated from the internal condenser or / and the compressor to the dry inner chamber.

Preferably, a blower is installed above the internal condenser to transmit warm air to the drying chamber using the generated heat of the internal condenser, and to obtain an effect of smoothing the flow of air discharged from the drying chamber.

Such a space blower allows the flow of air through the space to be carried out very effectively and smoothly.

In addition, the present invention may be installed in addition to the above-described space blower, the dry indoor indoor guidance blower 810 may perform a function that can effectively provide air to the dry indoor room.

Conventional cold wind dryer does not employ a blower that is introduced into the dry compartment, turbulent flow (eddy flow) phenomenon of the air occurs, there is a disadvantage that does not properly flow air into the dry compartment.

However, the present invention significantly solves the above problems by employing a dry boudoir induction blower at the inlet through which air is introduced into the dry boudoir.

Moreover, this invention can employ | adopt auxiliary heating means in a cold air dryer.

The auxiliary heating means can work with the function of rapidly raising the desired temperature when the cold wind dryer is operated.

The auxiliary heating means of the present invention can be installed by employing a common heater or the like and can be installed in a dry outer chamber or a dry inner chamber.

Another technical feature of the present invention is to configure the air filter 900 at the outlet of the air in the drying chamber to dry the dry matter in the drying chamber to filter the dust, dust, etc. of the air containing a large amount of moisture The state can work.

The function of the air filter is to remove dust, dust or suspended matter from the dry matter by the air circulated by the blower in the drying chamber.

Such an air filter serves to remove evaporators, internal condensers or other factors that adversely affect the piping of the refrigerant circulation system of the present invention.

The air filter of the present invention may use a general air purification filter, it is preferable that the filter that can be filtered while minimizing the resistance to the flow of air.

The air filter may be a metal filter, a filter made of a material such as a fiber or a polymer compound.

In addition, the present invention has a technical feature in the material of the dry outer chamber and the dry inner chamber.

In the present invention, in manufacturing the dry outer chamber and the dry inner chamber, a stainless laminate plate having at least three layers is used to significantly increase the thermal insulation effect.

As shown in FIG. 4, the three-layered stainless laminate of the present invention is characterized by comprising a high molecular material foam filler 1100 filled with a stainless steel 1000 attached to both sides and foamed with a polymer compound therein.

As the polymer compound, polyethylene, polypropylene, or polyurethane may be used, and it is preferable to use a foamed polyurethane.

The present invention preferably has a thickness of the dry outer chamber and the dry outer chamber composed of the above-described three-layered stainless laminate, which is 25 to 150 mm, which is very good in terms of efficiency and economical aspect.

The present invention exhibits an effect of two or more times higher efficiency than the conventional cold air dryer due to the configuration of the three-layered stainless laminate.

The present invention is a very useful invention in the industry of manufacturing, selling, and using a device for drying agricultural products such as red pepper, seaweed, seaweed, ginseng.

In addition, the present invention is a very useful invention in the industry of manufacturing, selling, and using a drying apparatus that can be used as a storage for storing the agricultural and marine products at low temperatures.

100: dry room 110: dry room
130: space part
200: evaporator 210: expansion valve
300: compressor 310: liquid separator
320: suction filter
400: condenser 410: internal condenser
420: external condenser 421: cooling blower
500: receiver 510: filter drier
520: side glass 530: proportional control block valve system
600: proportional control valve system
700: refrigerant cooling device 710: distribution pipe
711: distribution inlet pipe 712: one-way valve
713: distribution system proportional control valve system 714: temperature sensor
720: refrigerant cooling expansion valve
800: blower 810: dry indoor induction blower
900: air filter
1000: stainless steel 1100: foam filling

Claims (5)

delete delete delete Equipped with a dry outer chamber and a dry inner chamber,
Consisting of a refrigerant circulation system comprising an evaporator, a compressor, a condenser and a receiver,
The evaporator is a dehumidification evaporator having a function of removing the moisture in the dryer to discharge to the outside of the dryer,
The condenser is provided with an internal condenser installed inside the dryer and an external condenser installed outside the dryer,
The internal temperature of the dryer is controlled by controlling the flow rate of the refrigerant into the internal condenser and the external condenser by a proportional control valve system.
The proportional control valve system which is provided by the refrigerant cooling device in the piping of the receiver and the evaporator, and the temperature sensor in the piping of the evaporator and the compressor, and operated by the temperature sensor is provided in the distribution pipe of the refrigerant cooling device,
The refrigerant cooling device is provided with a refrigerant cooling evaporator having a refrigerant cooling expansion valve, the refrigerant flows into the refrigerant cooling evaporator in the distribution pipe,
The vaporized refrigerant passing through the refrigerant cooling device has a structure flowing into the compressor through a distribution inlet pipe,
The distribution inlet pipe is composed of a one-way valve to flow the fluid in only one direction,
The dry outer chamber and the dry inner chamber are made of a three-layered stainless steel laminate formed of a polymeric material filled with a stainless steel attached to both sides and foamed with a polymer compound therein. Versatile cold wind dryer to carry out.
5. The method of claim 4,
An air filter is provided at the air outlet of the dry compartment.
A versatile cold air dryer comprising a blower in a space in a dry outer compartment and an inlet blower in a dry indoor air inlet.

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