KR101310939B1 - System for low temperature drying and refrigeration - Google Patents

Abstract

PURPOSE: A low temperature drying and refrigeration system is provided to include a damper operating refrigeration and drying modes so that the refrigeration mode is promptly changed into the drying mode, and vice versa. CONSTITUTION: In case of a low temperature drying and refrigeration system, when a low temperature drying mode is operated, a damper (21b) formed in a drying unit (21) of an air moving unit (20) is operated and a storage unit (21a) of a condenser is open. At the same time, a drying damper (22) is closed to block the air moving unit. Therefore, air circulating inside the air moving unit moves only to the storage unit of the drying unit. As a result, air flows caused by the operation of a circulating fan (F) pass through a cycle of an evaporator (33), a condenser (31), a storage space (10), and then the evaporator. When a refrigeration mode is operated, the damper formed in the drying unit of the air moving unit is operated and the storage unit of the condenser is closed. At the same time, a return grill (23) and a condenser fan (31a) are open to inhale outside air, perform heat-exchanging, and discharge the outside air to the outside when the condenser is operated. Therefore, the air moves inside the drying damper when the drying damper is open. As a result, the air flows caused by the operation of the circulating fan pass through a cycle of the evaporator, the storage space, and then the evaporator.

Description

System for low temperature drying and refrigeration

The present invention relates to a low temperature drying and refrigeration system having a low temperature drying and refrigeration function, and more particularly, to low temperature drying and refrigeration of food materials stored in a storage space through a refrigeration cycle of a heat pump, Since the low temperature drying operation is performed by the operation of the damper, the refrigerating and low temperature drying conversion can be made very quickly. During low temperature drying, the air circulating through the air moving part and the receiving space passes through the evaporator of the heat pump to dehumidify. In addition, the present invention relates to a low temperature drying and refrigeration system capable of drying at a low temperature to prevent nutrient destruction and decay of food ingredients stored in a storage space.

In general, a drying apparatus using a refrigeration cycle includes a dehumidifier for drying the room by dehumidifying and a dryer for drying a drying object.

The drying apparatus using the refrigeration cycle includes a compressor for compressing a refrigerant, a condenser in which the refrigerant compressed in the compressor is condensed by exchanging heat with the surroundings, an expansion mechanism for expanding the refrigerant condensed in the condenser, and an expansion in the expansion mechanism. And an air blower for allowing the refrigerant to exchange heat with the surroundings for evaporation, and a blower for blowing air in the room or drum to pass through the evaporator and the condenser in turn.

1 is a high temperature dryer using a Republic of Korea Patent No. 10-079354 (2008.01.14.) Refrigerant cycle system.

The high temperature dryer (100) is a blowing fan (160) that sucks air in the drying chamber and supplies it to a drying apparatus, and takes away external heat as the refrigerant evaporates water vapor of the air introduced by the blowing fan (160). An evaporator 140 for liquefying and dehumidifying water vapor in the air, a condenser 120 for raising the temperature of the dehumidified air by dissipating heat to the outside as the refrigerant of high temperature and high pressure condenses the dehumidified air, and a condenser Compressor 110 for forming a high temperature and high pressure refrigerant entering the, and an expander 130 for making a low temperature low pressure refrigerant entering the evaporator 140, and an expander 130 between the condenser 120 and the compressor 110. And an external air heat exchanger 150 installed to bypass the evaporator 140 by a different path, and two valves 151 and 152 installed in a refrigerant pipe to which the external air heat exchanger 150 is connected. Condensation The valve 131 provided between the gas 120 and the expander 130 and the valve 141 provided between the evaporator 140 and the compressor 110 are configured to change the circulation cycle.

Therefore, the conventional high temperature dryer has an effect of increasing the temperature of the condenser 120 by operating the valves 151 and 152 when the temperature of the condenser 120 falls, thereby improving thermal efficiency.

The above-mentioned high temperature dryer has a problem in that the food material should be stored in a facility that can be refrigerated or frozen again after drying the food material.

Low temperature drying and refrigeration system of the present invention for solving the above problems and a storage space for accommodating food materials; An air moving unit which is installed to circulate air in the storage space for refrigeration or drying; A heat pump disposed in the air moving part and configured to include a condenser, a compressor, an evaporator, and an expansion valve so that the refrigerant circulates to repeatedly release and inhale heat; A circulation fan formed in the air moving part and configured to circulate air to the air moving part and the accommodation space, wherein the condenser of the heat pump is disposed at a position adjacent to the circulation fan to move the air by the circulation fan. It is configured to circulate the cold air to the unit and the storage space, the air moving unit further comprises a drying unit consisting of a condenser accommodator which can be arranged a condenser of the heat pump and a damper that can open and close the condenser accommodating part By the opening and closing of the damper is characterized in that it is configured to circulate the warmth to the air moving portion and the storage space.

In the lower portion of the air moving unit of the present invention, the drying unit is formed, further comprising a drying damper that operates to close when the damper of the drying unit is opened and open when closed.

The drying unit of the air moving unit of the present invention is characterized in that it further comprises a return grill and a condenser fan so as to exchange heat with the condenser by suctioning and discharging the outside air when the damper is closed.

The present invention allows the drying and refrigeration of the food materials stored in the storage space through the refrigeration cycle of the heat pump.

In addition, the refrigeration and drying transition can be made very fast because the refrigeration and drying operations are made by the operation of the damper.

In particular, the air circulating in the air moving part and the storage space during the drying operation passes through the evaporator of the heat pump at all times to enable dehumidification and low temperature drying to prevent nutrient destruction and decay of the food materials stored in the storage space. It is a useful invention that can be done.

1 is a block diagram showing a conventional high temperature dryer.
Figure 2 is a flow chart during operation of the drying function of the low temperature drying and refrigeration system according to the present invention.
3 is a flow chart during the refrigeration function operation of the cryogenic drying and refrigeration system according to the present invention.

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

First, the storage space 10 is formed as shown in FIGS.

The storage space 10 is a configuration capable of storing food materials such as agricultural products to be described in detail with respect to the internal configuration.

However, an inlet 11 through which air can be introduced is formed on one side of the side of the accommodation space 10, and the other side has a structure in which an outlet 12 through which air is discharged is formed. You lose.

Next, the air moving part 20 is formed to circulate the air through the inlet 11 and the outlet 12 formed in the receiving space (10).

More specifically, it is formed on any one of the lower side or the upper side of the storage space 10 is configured to circulate the air, in this case, the air moving unit 20 is made easy to install and maintain It is better to form on the upper side of the storage space 10 so that.

Next, the heat pump 30 is installed in the air moving part 20 and is configured to circulate in the storage space 10 by forming cold or warm air during circulation of the air.

Such, the heat pump 30 is made of a conventional configuration such as the condenser 31, the compressor 32, the evaporator 33 and the expansion valve 34, so that description thereof will be omitted.

However, the heat pump 30 according to the present invention heats so that the cool air and warm air can be supplied to the storage space 10 when the air is circulated by the circulation fan F formed in the air moving unit 20. A separate space in which the condenser 31 is formed in the pump 30 is formed in the air moving part 20.

That is, the air moving part 20 is composed of a condenser accommodating portion 21a which can accommodate the condenser 31 of the heat pump 30 and a damper 21b which can open and close the condenser accommodating portion 21a. The part 21 is further formed.

In particular, the drying unit 21 is supplied with external air so that refrigerant circulated in the heat pump 30 when the condenser accommodating portion 21a is closed through the damper 21b may exchange heat when the condenser 31 passes. The suction grille 23 and the condenser fan 31a capable of dissipating heat from the condenser 31 to the outside are further configured.

Here, the installation position of the return grill 23 and the condenser fan 31a is installed at a position adjacent to any one of the dampers 21b of the plurality of dampers 21b formed in the drying unit 21.

More specifically, when the damper 21b is operated in the direction of opening the condenser accommodating portion 21a, the return grill 23 and the condenser fan 31a can be kept closed by the damper 21b. On the contrary, when the damper 21b operates, it is preferable to select and arrange the damper 21b in a position capable of maintaining an open state.

Next, in the present invention, a drying damper 22 is further configured inside the air moving part 20, more specifically, at a position under which the drying part 21 is formed.

The drying damper 22 may not move air through a space other than the drying unit 21 when the condenser accommodating portion 21a is opened by the operation of the damper 21b of the drying unit 21. It operates to block the inside of the air moving unit 20, and in the opposite case to operate to open.

Here, although the damper 21b and the drying damper 22 formed in the drying unit 21 of the air moving unit 20 are not shown in detail in the drawing, a solenoid valve or a device using a tension through a motor or a spring is typically used. It is configured to be operated by a power means.

Looking at the embodiment of the low-temperature drying and refrigeration system of the present invention made of a configuration as described above are as follows.

The present invention serves to prevent low-temperature drying and refrigeration of the food material contained in the air moving part 10 at a time, thereby preventing damage to the food material due to the movement of the food material and improving user convenience.

Hereinafter, look at the effect of the present invention through the embodiment according to the low temperature drying and refrigeration function.

Here, since the heat pump 30 in the present invention is a conventional refrigeration cycle, the description thereof is omitted. However, the heat pump 30 in the present invention has a structure in which the circulation of the refrigerant always moves in only one direction. Will be made.

Example 1: Low temperature drying

First, when the drying function is selected through a conventional control unit to dry the food material stored in the air moving unit 10 as shown in FIG. 2, a damper formed in the drying unit 21 of the air moving unit 20. The 21b is operated, and the condenser accommodating part 21a is opened in the air moving part 20. FIG.

At the same time, the drying damper 22 is operated in a closed state to block the air moving part 20 so that all air circulating in the air moving part 20 is condenser accommodating part 21a of the drying part 21. It does not move through any movement path except for.

At this time, the heat pump 30 is continuously operating by the refrigeration cycle, the circulation fan (F) disposed in the air moving unit 20 is also continuously operating.

Therefore, the air flow by the operation of the circulation fan F is made to circulate to the evaporator 33 → condenser 31 → receiving space 10 → evaporator 33.

Here, the present embodiment aims to dry the food material in the storage space 10 through low temperature drying.

In other words, there are those that contain moisture in the usual food materials, such food materials, when dried at a high temperature is generated a large amount of water can cause nutrient destruction and corrosion of the food materials.

Therefore, in the present invention, since air passes in the order of the evaporator 33 for supplying the cold air of the heat pump 30 and the condenser 31 for supplying the warm air, low-temperature warmth is supplied into the storage space 10 to destroy nutrients of food materials. The effect of preventing and preventing corruption can be obtained.

In particular, the air circulated by moving to the storage space 10 contains moisture, such moisture is dehumidified in the process of passing through the evaporator 33 of the heat pump 30 to dry the food material at a low temperature Will work.

Example 2 Refrigeration

In the present invention, the food material dried at a low temperature according to the first embodiment can be refrigerated in a state disposed in the storage space 10 without moving to a separate space.

That is, when the user selects the refrigeration function through the normal control unit after the low temperature drying process is completed, as shown in FIG. 3, the damper 21b of the drying unit 21 disposed in the air moving unit 20 operates. It operates in the direction of closing the condenser accommodating portion 21a.

Therefore, the return grille 23 and the condenser fan 31a are opened by the damper 21b of the drying unit 21 to suck the outside air during the operation of the condenser 31 to discharge the outside air to the outside after heat exchange. The state is switched.

Meanwhile, the condenser accommodating part 21a of the drying part 21 is closed and the drying damper 22 formed in the air moving part 20 operates to move air into the air moving part 20.

Therefore, the flow of air through the circulation fan (F) is made to circulate to the evaporator 33 → receiving space 10 → evaporator 33.

That is, in the evaporator 33, cold air is generated through heat exchange, and the generated cold air moves to the storage space 10 through the air moving part 20 to continuously circulate the cold air, thereby drying in the storage space 10. The foodstuffs can be used even if they are not transferred to a separate refrigeration facility.

Here, the drying function and the refrigerating function in the present invention are not necessarily complex.

That is, when only the drying function is desired, only the drying function can be used, and when only the refrigeration function is desired, only the refrigerating function can be used.

As described above, the present invention can perform a quick refrigerating and drying function by performing the drying and refrigerating functions without changing the refrigeration cycle flow direction of the heat pump 30, in particular, during the low temperature drying of the image material destruction of food materials Prevention and corruption can be prevented.

Although the above-described embodiments have been described with respect to the preferred embodiments of the present invention, the present invention is not limited thereto and may be modified and implemented in various forms without departing from the technical spirit of the present invention. It should be obvious to those skilled in the art.

10: storage space
11 inlet 12 outlet
20: air moving part
21: drying section 21a: condenser storage section 21b: damper
22: drying damper
23: return grill
30: heat pump
31 condenser 31a condenser fan 32 compressor 33 evaporator 34 expansion valve
F: circulation fan
50: low temperature drying and refrigeration system

Claims (3)

A storage space 10 capable of accommodating foodstuffs, having an inlet 11 through which air can be introduced and a discharge port 12 through which air can be discharged;
An air moving unit 20 installed above the storage space 10 to circulate air through the inlet 11 and the discharge port 12 formed in the storage space for refrigeration or drying;
The condenser 31, the compressor 32, the evaporator 33, and the expansion valve 34 are disposed in the air moving unit 20 so that the circulation of the refrigerant may always move in one direction so that the heat may be repeatedly released. Heat pump 30 configured to include;
A circulation fan (F) formed in the air mover (20) and capable of circulating air to the air mover (20) and the accommodation space (10);
The air moving part 20 includes a drying part including a condenser accommodating part 21a in which the condenser 31 of the heat pump 30 is disposed and a damper 21b capable of opening and closing the condenser accommodating part 21a. (21), the drying damper 22 disposed below the position where the drying unit 21 is formed, and the drying unit 21 may be heat-exchanged with the condenser 31 by sucking and discharging external air. The return grill 23 and the condenser fan 31a are comprised so that
At low temperature drying, the damper 21b formed in the drying unit 21 of the air moving unit 20 is operated so that the condenser accommodating portion 21a is opened in the air moving unit 20 and simultaneously dried. The damper 22 is operated in the closed state to block the air moving part 20, so that all air circulating in the air moving part 20 is moved only to the condenser accommodating part 21 a of the drying part 21. , The air flow by the operation of the circulation fan (F) is made to circulate to the evaporator 33 → condenser 31 → storage space 10 → evaporator 33,
During refrigeration, the return grille 23 and the condenser fan 31a are opened while the damper 21b formed in the drying part 21 of the air moving part 20 operates to close the condenser accommodating portion 21a. When the condenser 31 is operated, the air is moved into the air moving part 20 by opening the drying damper 22 while switching to a state in which it can be discharged to the outside after heat exchange again after heat exchange. Low temperature drying and refrigeration system characterized in that the flow of air by the operation of the e) is circulated to the evaporator 33 → storage space 10 → evaporator 33. delete delete

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