KR101907669B1 - Dehumidifier and refrigerant cycle apparatus which have refrigerant equalizing system - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a refrigerant circulation apparatus and a low temperature dehumidifier used in a low temperature state, and more particularly, to a refrigerant circulation apparatus using a compressor having a constant rotation speed, when a temperature of a refrigerant discharged from a compressor falls below a certain level, A part of the refrigerant discharged from the compressor is conveyed to the front end of the compressor so that a constant load is always applied to the compressor so that even if the temperature of the refrigerant flowing into the compressor falls, And a low temperature dehumidifier using the refrigerant circulation apparatus.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a refrigerant circulating apparatus having a refrigerant equalizing unit and a low temperature dehumidifier using the refrigerant circulating apparatus.

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a refrigerant circulation device used in a low temperature state and a low temperature dehumidifier using the same, and more particularly, To a refrigerant circulating device provided with a refrigerant equalizing means capable of continuing a dehumidifying action by stopping and operating the compressor even in a low-temperature state in which the load of the refrigerant flowing into the compressor is reduced by reducing the temperature of the refrigerant flowing into the compressor, .

Normally, the dehumidifier is to lower the relative humidity by removing water vapor contained in the air. For example, in the agricultural and marine products drying area, if the condition humidity is over 70%, it will become highly humid and grow with mold and bacteria, causing corruption and disease in agricultural and marine products. Therefore, the dehumidifier should be used in the drying area of agricultural and marine products to keep the relative humidity within the range of 30 ~ 70%, so that the agricultural and marine products are dried quickly, and the corruption and disease do not occur.

Such a dehumidifier is divided into a heating dehumidifier for removing moisture by heating humid air with a heater, and a cooling dehumidifier for condensing moisture contained in the air by cooling the humid air with a refrigerant. In particular, as shown in FIG. 7, a conventional refrigerant circulation apparatus uses a refrigerant circulation apparatus. The conventional refrigerant circulation apparatus includes a compressor for compressing a low-temperature low-pressure gas refrigerant into a high-temperature high-pressure gas, An expansion valve for quickly expanding the high-temperature and high-pressure liquid-phase refrigerant to become a low-temperature low-pressure gas; and an evaporator for taking heat in the air while the refrigerant in the mist state changes into a gas .

Therefore, the humid air falls below the dew point while passing through the evaporator, and the moisture in the air condenses into water, thereby becoming dry air. The dry air is then passed through the condenser to receive the heat of condensation and is then heated to become hot-dry air. Such hot-dry air is blown to the agricultural and marine product drying area using a blower to dry the agricultural and marine products.

However, a compressor used in a conventional refrigerant circulation system is a constant speed compressor which always rotates at a constant speed. Since the constant speed compressor always rotates at a constant speed irrespective of the temperature, the compressor is liable to be damaged in a low temperature state where the temperature of the air flowing into the evaporator is low. That is, when air having a temperature of 15 ° C or lower flows into the evaporator, the temperature of the refrigerant flowing into the compressor is lowered, so that the load is likely to be low. In addition, since the refrigerant in the evaporator can not sufficiently vaporize and the refrigerant flowing into the compressor is in a liquid state, a failure occurs in the compressor when it is used for a long time.

On the other hand, recently, the temperature of the agricultural and marine products drying area has fallen below 15 ℃ due to climate change. For example, agricultural and marine products such as dried persimmons and potatoes are dried in late autumn or early fall, so the temperature of the air often falls below 15 ° C. Accordingly, in the conventional low temperature dehumidifier using the constant speed compressor, the operation of the compressor is temporarily stopped in order to protect the compressor in a low temperature state where the temperature of the air drops below 15 캜.

This would not only stop the dehumidification operation while the compressor was temporarily stopped, but also require a considerable amount of time to reach a steady state again, making it difficult to dry the agricultural products quickly. In consideration of this point, an 'inverter compressor' is used in which the rotational speed is automatically controlled according to the temperature change of the air. However, since the inverter compressor uses an electronic control device, it is not only expensive but also very sensitive to the surrounding environment, so that it is difficult to design and operate the inverter compressor, and there is a problem that the inverter compressor may generate a residual voltage.

Accordingly, there is a demand for a low temperature dehumidifier capable of continuing dehumidification even in a low temperature state where the temperature of the air is lowered to 15 캜 or less without using an expensive condenser such as an inverter compressor.

7, since the conventional dehumidifier is composed of one evaporator 30 and the condenser 40, there is a problem that dehumidification and heating are not sufficient, and the blowing amount of the blower 60 is insufficient, There is a problem in that drying of agricultural and marine products can not be smoothly performed partially due to a shortage of circulating air in the drying area.

(0001) Korean Patent Publication No. 10-0514434 (0002) Korean Utility Model No. 20-2016-0002902 Korean Patent Laid-Open Publication No. 10-2014-0013753

SUMMARY OF THE INVENTION It is a primary object of the present invention to solve the problems of the prior art, and it is a primary object of the present invention to provide a refrigerating machine capable of continuing dehumidification without stopping the operation of the compressor even in a low temperature state in which the temperature of the air, And a low temperature dehumidifier using the refrigerant circulation apparatus.

The present invention also relates to a refrigerating machine in which the operation of the compressor is stopped and the dehumidification operation is continued even in a low temperature state in which the temperature of the air flowing into the evaporator is lowered to 15 DEG C or less, And a low temperature dehumidifier using the refrigerant circulation apparatus.

The present invention also provides two heat exchangers comprising a pair of an evaporator and a condenser so that dehumidification and heating are sufficient to quickly dry agricultural and marine products, and a blower having excellent blowing capacity is used to heat the high- And the air circulation amount of the agricultural and marine products drying area is increased so that the agricultural and marine products are evenly dried.

In order to accomplish the object of the present invention, a refrigerant circulating apparatus provided with refrigerant equalizing means according to the present invention comprises a compressor for sucking refrigerant and compressing the refrigerant to a saturation pressure corresponding to a condensation temperature, a refrigerant discharged from the compressor A capillary for expanding the refrigerant condensed in the condenser; and a condenser for condensing the condensed refrigerant in the air by cooling the surrounding air while changing the refrigerant expanded in the capillary to a gaseous state, 1. A refrigerant circulation apparatus comprising: an evaporator for condensing moisture; and a gas-liquid separator for separating a liquid contained in a refrigerant discharged from the evaporator,

Wherein the compressor is a constant speed compressor rotating at a constant speed at all times regardless of a change in temperature; And a refrigerant equalizing unit that conveys a part of the refrigerant discharged from the compressor to the front end of the compressor in accordance with the temperature of the refrigerant discharged from the compressor at the front end and the rear end of the compressor, So that the dehumidifying action can be continued even in a low temperature state.

In the present invention, the refrigerant equalizing unit may include: a temperature sensor installed in a connection pipe between the compressor and the condenser so as to measure the temperature of the refrigerant discharged from the compressor; A refrigerant return line connecting the rear end and the front end of the compressor so that a part of the refrigerant discharged from the compressor can be transferred to the front end of the compressor; A refrigerant control valve installed in the refrigerant conveyance line and controlling an amount of refrigerant conveyed; And a refrigerant transport control part electrically connected to the temperature sensor and the refrigerant control valve and automatically controlling the refrigerant control valve according to the temperature of the refrigerant measured by the temperature sensor.

Wherein the refrigerant transport control unit starts to transport a part of the refrigerant discharged from the compressor to the front end of the compressor through the refrigerant transport line when the temperature of the refrigerant measured by the temperature sensor falls below 50 DEG C, When the temperature of the refrigerant measured by the temperature sensor is equal to or higher than 85 캜, the conveyance of the refrigerant through the refrigerant return line is stopped.

The refrigerant conveyance control unit starts to convey a part of the refrigerant discharged from the compressor to the front end of the compressor through the refrigerant conveyance line when the temperature of the refrigerant measured by the temperature sensor falls below 60 DEG C, And when the temperature of the refrigerant measured by the sensor is 70 ° C or more, the refrigerant is not conveyed through the refrigerant return line.

Also, the low temperature dehumidifier according to the present invention is a low temperature dehumidifier for use in a low temperature state, comprising: a case having a constant internal space; Two inlets formed on both sides of the case and through which external air is introduced; Two heat exchangers installed adjacent to the two inlets, respectively; An outlet formed on an upper surface of the case and discharging the air having passed through the two heat exchangers to the outside; A blower installed at the discharge port and blowing air passing through the two heat exchangers to the outside; And a refrigerant circulation device installed at a lower end of the case so as to supply the refrigerant to the two heat exchangers. The refrigerant circulation device always rotates at a constant speed to suck the refrigerant and compress it to a saturation pressure corresponding to the condensation temperature A compressor; A condenser for heat-exchanging the refrigerant discharged from the compressor with surrounding air to heat the surrounding air; A capillary for expanding the refrigerant condensed in the condenser; An evaporator for condensing moisture in the air by cooling the surrounding air while changing the refrigerant expanded in the capillary to a gaseous state; And a refrigerant equalizing unit that measures a temperature of the refrigerant discharged from the compressor and conveys a part of the refrigerant discharged from the compressor to the front end of the compressor in accordance with the temperature of the refrigerant, A part of the refrigerant discharged from the compressor is transferred to the front end of the compressor so that a certain level of load is applied to the inside of the compressor so that even in a low temperature state in which the temperature of the refrigerant flowing into the compressor falls, The dehumidifying action can be continued without stopping the dehumidifying operation.

In the present invention, a gas-liquid separator for separating the liquid refrigerant contained in the refrigerant discharged from the evaporator is further provided between the evaporator and the compressor.

The two heat exchangers are composed of a pair of an evaporator and a condenser which are installed in parallel and close to each other.

The upper ends of the two heat exchangers are opened to both sides and the lower ends are gathered in the middle to form a V shape so that air introduced from the two inlets is smoothly discharged to the outlets through the two heat exchangers, A condensate tray for collecting condensate generated in the evaporator and discharging the condensed water is installed in a lower portion of the heat exchanger.

The blower installed at the discharge port increases the blowing amount of the dried air passing through the two heat exchangers so as to spray the dried air toward the ceiling of the agricultural and marine product drying area, thereby increasing the air circulating amount in the drying area of agricultural and marine products.

According to the refrigerant circulating apparatus having the refrigerant equalizing means of the present invention, a part of the refrigerant discharged from the compressor is delivered to the front end of the compressor in accordance with the temperature of the refrigerant discharged from the compressor and supplied to the condenser, The dehumidifying action can be continued without stopping the operation of the compressor even in a low temperature state in which the temperature of the air flowing into the evaporator falls to 15 DEG C or less.

Further, according to the refrigerant circulating apparatus provided with the refrigerant equalizing means of the present invention, since the constant speed condenser whose rotational speed is always constant is used according to the change of the temperature, the cost of the dehumidifier is lowered, have.

Further, according to the low temperature dehumidifier having the refrigerant equalizing means of the present invention, the condensing and heating efficiency can be improved by using two heat exchangers made up of a pair of the evaporator and the condenser, and the upper ends of the two heat exchangers are spread on both sides The bottom part is gathered in the center and it is inclined at a certain angle so that the air flows smoothly and the blower having excellent blowing amount is installed at the upper part of the two heat exchangers to spray the dry air toward the ceiling of the agricultural and marine product drying area to quickly and uniformly dry Thereby enhancing the merchantability of agricultural and marine products.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing a preferred embodiment of a refrigerant circulation apparatus having a refrigerant equalizing unit according to the present invention;
FIG. 2 is an explanatory view showing a flow of a normal refrigerant circulation cycle and a refrigerant equalizing cycle in a refrigerant circulation apparatus provided with refrigerant equalizing means according to the present invention;
FIG. 3 is a perspective view showing a preferred embodiment of a low temperature dehumidifier using a refrigerant circulating apparatus having a refrigerant equalizing unit according to the present invention. FIG.
FIG. 4 is a cross-sectional view of the low temperature dehumidifier using the refrigerant circulation apparatus having the refrigerant equalizing means shown in FIG. 3,
5 is a perspective view showing a preferred embodiment of the heat exchanger according to the present invention,
FIG. 6 is a schematic cross-sectional view showing the operation of the low temperature dehumidifier having the refrigerant equalizing unit according to the present invention,
7 is a view showing an example of a conventional low temperature dehumidifier.

Hereinafter, preferred embodiments of a refrigerant circulating apparatus having a refrigerant equalizing unit according to the present invention and a low temperature dehumidifier using the refrigerant circulating apparatus will be described.

FIG. 1 is a configuration diagram showing a preferred embodiment of a refrigerant circulating apparatus having a refrigerant equalizing unit according to the present invention. FIG. 2 is a schematic view of a refrigerant circulating apparatus having a refrigerant equalizing unit according to the present invention, FIG. 7 is an explanatory diagram showing an equalizing cycle. FIG.

The refrigerant circulating apparatus 50 including the refrigerant equalizing means according to the present invention includes a compressor 51, a condenser 35, a capillary tube 52, an evaporator 33, a gas-liquid separator 53, And a refrigerant equalizing means (70).

The compressor 51 serves as a pump for circulating the refrigerant. The compressor 51 sucks the low-temperature and low-pressure gas refrigerant vaporized in the evaporator 33 and sucks the gas refrigerant in the condenser 35 to be condensed and liquefied. To increase the pressure. The compressor (51) according to the present invention is a constant speed compressor which always rotates at a constant speed. Constant-speed compressors are advantageous in that they are less expensive than inverter compressors and have a simple structure and do not generate residual stresses.

The condenser 35 heat-exchanges the high-temperature and high-pressure gas refrigerant discharged from the compressor 51 with surrounding air to condense the gas refrigerant into high-temperature, high-pressure liquid refrigerant and heat the surrounding air .

The capillary 52 serves to convert the high-temperature and high-pressure refrigerant gas liquefied in the condenser 35 to a low-temperature and low-pressure refrigerant by expanding the refrigerant gas in a narrow space.

The evaporator 33 absorbs the heat of the surrounding air while the low-temperature low-pressure liquid refrigerant that has passed through the capillary 52 changes into the low-temperature and low-pressure gas refrigerant, thereby lowering the temperature to cool the surrounding air, Condensate the contained moisture.

The gas-liquid separator 53 separates the refrigerant in the liquid state contained in the low-temperature low-pressure refrigerant discharged from the evaporator 33, so that the refrigerant in the liquid state continuously flows into the compressor 51 at a low temperature, ) Is prevented from being damaged.

2, the refrigerant circulation cycle using the refrigerant circulation apparatus 50 according to the present invention is such that the refrigerant is circulated in the order of the compressor 51, the condenser 35, the capillary tube 52, and the evaporator 33 And absorbs heat from the air passing through the evaporator 33 to remove the moisture contained in the air and heat the dehumidified cool air in the condenser 35. [

However, when the temperature of the air passing through the evaporator (33) falls below 15 ° C, the refrigerant passing through the evaporator (33) can not sufficiently vaporize. Since the temperature of the refrigerant flowing into the compressor 51 is lowered, the load applied to the compressor 51 is reduced. In addition, if the refrigerant in the evaporator 33 can not sufficiently evaporate, the refrigerant in the liquid state flows into the compressor 51. As described above, if the compressor 51 rotates at a constant speed under a low load state or refrigerant in a liquid state continuously flows, a failure occurs in the compressor 51.

In order to prevent a failure in the compressor (51) in a low temperature state, a part of the refrigerant is conveyed to the front end of the compressor (51) according to the temperature of the refrigerant discharged from the compressor (51) The load (or the temperature of the refrigerant) is kept within a predetermined range so that the operation of the compressor 51 is not interrupted.

1, the refrigerant equalizing means 70 includes a refrigerant returning line 72 for returning a part of the refrigerant discharged from the compressor 51 to the front end of the compressor 51, A compressor 51 and a condenser 35 for measuring the temperature of the refrigerant discharged from the compressor 51. The refrigerant control valve 73 controls the amount of the refrigerant supplied to the refrigerant conveyance line 71, And a temperature sensor 71 electrically connected to the temperature sensor 71 and the refrigerant control valve 73 and connected to the refrigerant control valve 73 in accordance with the temperature of the refrigerant measured by the temperature sensor 71. [ And a refrigerant transport control unit 75 for controlling the valve 73.

Specifically, the refrigerant conveyance line 72 includes a connection pipe 56a for connecting the compressor 51 and the condenser 35, a connection pipe 56a for connecting the gas-liquid separator 53 and the compressor 51, And a bypass line provided between the compressor (56b) and the compressor (51) so that part of the refrigerant discharged from the compressor (51) can be carried to the front end of the compressor (51).

The refrigerant control valve 73 is an electromagnetic valve installed in the refrigerant conveyance line 71 and controlling the amount of the refrigerant conveyed. A check valve (not shown) is further provided in the refrigerant conveyance line 71 to prevent the conveying refrigerant from flowing backward.

The temperature sensor 71 is installed in a connection pipe 56a between the compressor 51 and the condenser 35 so that the temperature of the refrigerant discharged from the compressor 51 can be indirectly measured. For example, the temperature sensor 71 may be installed in close contact with the connection pipe 56a to indirectly measure the temperature of the refrigerant flowing along the connection pipe 56a.

The refrigerant transport control section 75 is a conventional microcomputer and is electrically connected to the temperature sensor 71 and the refrigerant control valve 73 and is connected to the refrigerant control valve 73 ).

For example, when the temperature of the refrigerant measured by the temperature sensor 71 falls below 50 ° C, the refrigerant transport control unit 75 starts to convey a part of the refrigerant discharged from the compressor 51, It is possible to stop the conveyance of the refrigerant when the temperature of the refrigerant measured by the condenser 71 is 85 ° C or higher. More preferably, when the temperature of the refrigerant measured by the temperature sensor 71 falls below 60 ° C, the refrigerant starts to convey part of the refrigerant discharged from the compressor 51, It is possible to stop the conveyance of the refrigerant when the temperature of the refrigerant is 70 DEG C or more.

Therefore, in the refrigerant equalizing cycle according to the present invention, the refrigerant is conveyed in the order of the compressor 51, the refrigerant return line 72, the refrigerant control valve 73, and the compressor 51, as shown in FIG. The refrigerant transport control unit 75 controls the refrigerant control valve 73 according to the temperature of the refrigerant measured by the temperature sensor 71 to adjust the amount of the refrigerant transported through the refrigerant transport line 72, 51) within a predetermined range.

As described above, in the refrigerant circulating apparatus provided with the refrigerant equalizing means according to the present invention, the dehumidifying operation continues because the compressor 51 is not stopped even in a low temperature state. A gas-liquid separator (53) is installed between the evaporator (33) and the compressor (51) to prevent liquid refrigerant from flowing into the compressor (51).

Hereinafter, a preferred embodiment of the low temperature dehumidifier having the refrigerant equalizing unit according to the present invention will be described.

FIG. 3 is a perspective view showing the appearance of a low temperature dehumidifier having a refrigerant equalizing unit according to the present invention, FIG. 4 is a sectional view of the low temperature dehumidifier having the refrigerant equalizing unit shown in FIG. And a heat exchanger (not shown).

As shown in the figure, the low temperature dehumidifier 1 having the refrigerant equalizing means according to the present invention includes a case 10 having a certain size of internal space and a wheel at a lower end thereof, Two heat exchangers 30 installed inside the case 10 so as to be close to the two inlets 12, And a discharge port 17 installed on the upper surface of the case 10 for discharging the air inside the case 10 to the outside and a discharge port 17 provided on the discharge port 17 for discharging air that has passed through the two heat exchangers 30 to the outside And a refrigerant circulating device 50 having refrigerant equalizing means installed at the lower end of the inside of the case 10 so as to supply the refrigerant to the two heat exchangers 30.

Specifically, the case 10 has a rectangular parallelepiped box shape, and a wheel is provided at a lower end thereof so that the user can easily move the case. On both sides of the case 10, two inflow ports 12 (12a.12b) are provided so as to face each other so that external air can be introduced from both sides. A discharge port (17) is formed on the upper surface of the case (10) so that air inside the case (10) can be discharged. The outlet 17 may be formed of one or more than one.

Two heat exchangers (30) are installed in the case (10). Therefore, the air introduced through the two inlets 12 passes through the two heat exchangers 30 and is discharged to the outside through the outlets 17 formed in the upper portion.

A blower 20 is installed in the discharge port 17. The blower 20 can blow air discharged through the discharge port 17 toward the ceiling of the agricultural and marine products drying chamber. Preferably, the blower 20 is excellent in blowing air volume. That is, although the blower used in the conventional dehumidifier is mainly used with a high wind velocity, in the present invention, the air circulation amount in the agricultural and marine product drying area is increased by using a blower having a blowing amount larger than the wind speed. As described above, when the air circulation amount is increased, the agricultural and marine products in the agricultural and marine products drying area are uniformly dried.

More preferably, the case 10 is divided into an upper space and a lower space, and the two heat exchangers 30a and 30b are installed in the upper space. And a refrigerant circulation device 50 for supplying the refrigerant to the two heat exchangers 30a and 30b is installed in the lower space. The refrigerant circulation apparatus 50 can continue the dehumidification operation because the operation of the condenser is not stopped even in a low temperature state. A detailed description thereof will be omitted.

Preferably, two heat exchangers 30-30 are comprised of a pair of evaporator 33 and condenser 35. The evaporator 33 cools the passing air to remove moisture and the condenser 33 passes The evaporator 33 and the condenser 35 are installed in parallel and in close proximity to each other so that the air passing through the heat exchanger 33 becomes hot and dry air.

The upper ends of the two heat exchangers 30a and 30b extend in both directions, and the lower ends of the two heat exchangers 30a and 30b are gathered in the center to form a V-shape as a whole. Therefore, the air introduced through the inlet 12 can be smoothly discharged through the outlet 17 provided on the upper portion of the heat exchanger 30. [ A condensate tray (15) is installed at the bottom of the two heat exchangers (30). Accordingly, the condensed water generated in the condenser 33 can be collected into the condensed water tray 15 and discharged to the outside through a condensed water discharge pipe (not shown).

The low temperature dehumidifier 1 having the refrigerant equalizing means according to the present invention has two inlet ports 12 on both sides of the case 10 and a discharge port 17 on the upper surface of the case 10 And two heat exchangers (30) arranged in a V-shape inside the case (10) are provided to smooth the flow of the introduced air.

Further, the present invention is characterized in that two heat exchangers (30) consisting of a pair of evaporator and condenser are installed and the outlet (17) and the blower (20) are installed to provide sufficient condensation and drying and high temperature- It is sprayed on the ceiling so that agricultural and marine products can be dried quickly and evenly.

FIG. 6 shows an example of a farming and aquaculture product drying plant in which a low temperature dehumidifier 1 equipped with refrigerant equalizing means according to the present invention is installed.

Dried farms and dried products such as dried persimmons and pollocks have a high ceiling and relatively free flow of air. Therefore, when rain or temperature is low, when the temperature inside the agricultural and marine products drying area is lowered, the relative humidity is raised, which is a good environment for the growth of fungi and bacteria. The low temperature dehumidifier (1) equipped with the refrigerant equalizing means according to the present invention is installed on the bottom of the agricultural and marine product drying area to dry the agricultural and marine products.

As shown in the figure, the low temperature dehumidifier 1 sucks humid air from the bottom of the drying chamber. And while the humid and cold air passes through the two heat exchangers (30), the moisture is removed and the temperature is raised to high temperature-dry air.

And the hot-dry air is blown by the blower towards the ceiling of the agricultural and marine product drying area. Then, the hot-dry air sprayed toward the ceiling is lowered by gravity and dispersed evenly inside the agricultural and marine products drying area, thereby lowering the relative humidity inside the agricultural and marine products drying area and drying the agricultural and marine products quickly.

Hereinafter, the operation of the low temperature dehumidifier 1 having the refrigerant equalizing means according to the present invention will be described.

When the blower 20 installed on the upper surface of the case 10 of the low temperature and dehumidifier 1 is operated, humid and cool air inside the agricultural and marine products drying chamber is introduced into the case 10 through the inlet 12 provided on both sides of the case 10, As shown in FIG.

The air introduced through the inlet 12 passes through two heat exchangers 30 consisting of a pair of an evaporator 33 and a condenser 35. At this time, air passing through the evaporator (33) is cooled to remove moisture, and the air passing through the condenser (35) is heated to raise the temperature.

The high temperature-dried air having passed through the two heat exchangers 30 is discharged to the outside through the discharge port 17 of the case 10. The blower 20 installed at the discharge port 17 is connected to the high- To the ceiling of the agricultural and marine products drying area. Then, the hot-dried air sprayed toward the ceiling by the blower 20 is distributed to the lower part of the agricultural and marine product drying area and dispersed evenly inside the agricultural and marine product drying area, and the moisture inside the drying area of agricultural and marine products is removed to lower the relative humidity and dry the agricultural and marine products quickly .

As described above, according to the present invention, a part of the refrigerant discharged from the compressor is conveyed to the front end of the compressor in accordance with the temperature of the refrigerant discharged from the compressor to maintain the load (or the temperature of the refrigerant) The dehumidification operation can be continued without stopping the operation of the compressor even in a low temperature state where the temperature of the compressor is lowered to 15 DEG C or lower.

Further, the present invention provides an inexpensive low temperature dehumidifying device which is inexpensive using a constant-speed compressor and does not generate a residual heat, and can continue the dehumidification operation even in a low temperature state, thereby improving the drying quality of agricultural and marine products and improving the commerciality thereof.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, And is not intended to limit the scope of the invention. In addition, the present invention is not limited to the above-described embodiments, but may be embodied in various forms. These embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art to which the present invention pertains, It is only defined by the scope of the claims. Therefore, the definition should be based on the contents throughout this specification.

1: low temperature dehumidifier 2: agricultural and marine products drying area
10: Case 12: Inlet
15: Condensate tray 17: Outlet
30: Heat exchanger 33: Evaporator
35; Condenser 50: Refrigerant circulation device
51: compressor 52: capillary tube
53: gas-liquid separator 56: connection piping
70: Refrigerant equalizing means 71: Temperature sensor
72: Return piping 73: Refrigerant control valve
75: Refrigerant transport control unit

Claims (9)

delete delete delete delete A case having an inner space of a predetermined size; two inlets formed on both sides of the case and through which the outside air is introduced; two heat exchangers installed close to the two inlets; A blower installed at the outlet and blowing air having passed through the two heat exchangers to the outside, and a blower installed at the lower end of the case so as to supply the refrigerant to the two heat exchangers. A low-temperature dehumidifier including a refrigerant circulation device,
Wherein the two heat exchangers are composed of a pair of evaporators installed close to the inlet and removing moisture contained in outside air and a condenser installed in parallel with the evaporator and raising the temperature of the air having a temperature lowered while passing through the evaporator, The two heat exchangers are arranged such that the upper end thereof is opened at both sides and the lower end thereof is gathered at the center so as to have a generally U-shape so as to smoothly flow the air introduced from the two inlets, and the two heat exchangers A condensate tray for collecting and discharging condensate water is installed;
Wherein the refrigerant circulation device comprises a constant speed compressor rotating at a constant speed at all times regardless of a change in temperature, and at the front end and the rear end of the constant speed compressor are discharged from the constant speed compressor in accordance with the temperature of the refrigerant discharged from the constant speed compressor Further comprising: a refrigerant equalizing unit that conveys a part of the refrigerant to a front end of the constant-speed compressor;
Wherein the air blower increases air circulation amount in the agricultural and marine products drying area by increasing air blowing amount so that the air heated by the air passing through the two heat exchangers can be sprayed toward the ceiling of the agricultural and marine product drying area;
The refrigerant equalizing means includes a temperature sensor provided in a connection pipe between the compressor and the condenser for measuring the temperature of the refrigerant discharged from the constant speed compressor and a rear end of the compressor for conveying a part of the refrigerant discharged from the constant speed compressor to the front end of the compressor And a refrigerant control valve that controls the amount of the refrigerant supplied to and transferred to the refrigerant transfer line and a refrigerant control valve that is electrically connected to the temperature sensor and the refrigerant control valve, When the temperature of the refrigerant is lowered to 60 ° C or lower, part of the refrigerant discharged from the constant-speed compressor starts to be conveyed to the front end of the compressor through the refrigerant conveyance line, and when the temperature of the refrigerant measured by the temperature sensor is 70 ° C or higher, And a refrigerant transport control unit for stopping the transport of the refrigerant through the refrigerant transporting unit The refrigerant cycle apparatus provided with the equalizing means. delete delete delete delete

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