KR20130051306A - Low temperature storage apparatus - Google Patents

Abstract

PURPOSE: A low temperature storage unit is provided to separate an air conditioning room from a storage, thereby being generally used by connecting the cooling cycle of the air conditioning room to other devices. CONSTITUTION: A low temperature storage unit comprises a storage(200) which stores products, and an air conditioning room(300) which is combined with the storage by screw jointing to be attachable in order to supply cool air to the storage. The storage comprises support rails(230), trays(240), an air outlet(220), an exhaust fan(221), and an opening and closing member(222). The air conditioning room comprises fixing angles(311,312); a compressor(370), a condenser(350), an evaporator(330), a reservoir, a blower(360), a heater(380), an inhalation hole(320), a suction fan(321), and an opening and closing member(322).

Description

Low temperature storage apparatus

The present invention relates to a low temperature storage device, and more particularly, to a low temperature storage device capable of dehumidifying and drying a dry item such as agricultural and marine products at low temperature using a refrigeration cycle.

In general, low-temperature storage is a low-temperature storage using a certain space and special conditions in order to provide a long-term supply of harvested agricultural products or fruits or various flowers.

Since the produce continues to metabolize breathing after harvesting, changes in body components, fragrance, tissue, color, and water loss occur, which is a major cause of deterioration of the quality of the produce. On the other hand, vegetables and various fruits are suppressed at low temperatures to prevent the consumption of body components and to suppress the propagation of decaying bacteria, so that all physical and chemical changes are delayed, so cold storage is a useful means of safe storage. .

Such a conventional low temperature reservoir is composed of a compressor, a condenser, an expansion valve, an evaporator, and the like, as introduced in [Document 1]. By absorbing the heat of the refrigerant is vaporized into a gas is sucked into the compressor.

[Document 1] Republic of Korea Patent Publication No. 10-0560835 (Name: Cold Storage), Registered Date: 2006.03.07.

However, such a conventional low temperature storage room has a disadvantage that the general purpose of the refrigeration cycle is impossible because the storage cycle is integrally formed in the storage.

In addition, the conventional low-temperature storage room is a storage for storing articles (agriculture and aquatic products), so that the temperature inside the storage is kept constant only by the refrigeration cycle, so that not only a lot of power consumption is generated due to the constant driving of the refrigeration cycle. There is also a problem that occurs a lot of maintenance costs.

Therefore, the present invention has been made to solve the problems of the prior art as described above, it is possible to separate the air conditioning chamber from the storage compartment by detachably combining the air storage chamber consisting of the reservoir and the refrigeration cycle in which the article is stored in the air conditioning chamber It is an object of the present invention to provide a cold storage device that can be used for general purpose by connecting a refrigeration cycle to another device or device.

Another object of the present invention is to provide an exhaust port capable of discharging the air inside the reservoir, and to open the exhaust port only when necessary so that the internal temperature of the reservoir can be naturally maintained at a constant temperature. It is to provide a cold storage device.

The above object is that the cold storage device includes a reservoir in which an article is stored, and an air conditioning chamber detachably coupled by screwing the reservoir and a fixing screw to supply cold air to the reservoir,

The reservoir, the support rail is installed spaced apart up and down on the inner side; A tray provided on the support rail, the upper surface of which includes a storage item; An exhaust port penetratingly installed on an upper surface of the reservoir; An exhaust fan installed at the exhaust port and discharging air in the reservoir; And an opening and closing member installed at the exhaust port to open and close the exhaust port.

The air conditioning chamber, the fixed angle spaced apart vertically in the interior; A compressor installed outside the air conditioning chamber to compress the refrigerant; A condenser installed on an upper surface of the upper fixed angle, connected to a compressor to condense the refrigerant, and dehumidifying by heating the air passing through the compressor; An evaporator installed on an upper surface of the upper fixed angle so as to face a reservoir, the evaporator connected to a condenser and a compressor through an expansion valve to heat and condense the condensed refrigerant passing through the refrigerant; A storage tank installed between the condenser and the expansion valve to reduce the load of the compressor by lowering the pressure and temperature of the high temperature and high pressure refrigerant; A blower installed on an upper surface of the lower fixed angle to supply air discharged through an air outlet to the condenser; A heater installed below the fixed angle to heat and dehumidify the air discharged from the air outlet; An air inlet formed through an upper surface of the air conditioning chamber; An intake fan installed at the intake port and sucking outside air into the air conditioning chamber; And an opening / closing member installed at the intake port to open and close the intake port.

According to the low temperature storage device of the present invention, the storage compartment and the air conditioning compartment are detachably configured by screwing, so that the air conditioning compartment in which the refrigeration cycle is configured can be separated from the storage compartment and connected to another device or device, thereby achieving generalization of the refrigeration cycle. do.

In addition, according to the present invention, an exhaust port for discharging air in the reservoir is provided through the reservoir, and the exhaust port is provided with an opening and closing member for opening and closing the exhaust port. The cold air is discharged to the outside or the outside air is introduced so that the internal temperature of the reservoir can be kept constant by natural convection.

1 is a block diagram of a cold storage device according to the present invention.
2 is an exploded view of a storage compartment and an air conditioning chamber according to the present invention.
Figure 3 is a front configuration view showing the inside of the cold storage device according to the present invention.
4 is a block diagram of a refrigeration cycle configured in a cold storage device according to the present invention.

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

1 to 4 illustrate a cold storage device according to the present invention.

As shown in FIG. 1, the cold storage device 100 according to the present invention includes a storage 200 in which an object to be stored (hereinafter referred to as “agricultural products”) is stored, and the storage 200 and a fixing screw 313. And an air conditioning chamber 300 detachably screwed to provide cold air to the reservoir 200.

Doors that can open and close one side of the storage room 200 and the air conditioning room 300 are rotatably installed, and although not shown in the drawing, the heat loss is prevented on the inner surfaces of the storage room 200 and the air conditioning room 300. It is preferable that the heat insulating material for is comprised.

The insulation may be separately installed on the inner surfaces of the storage 200 and the air conditioning chamber 300, but each panel of the storage 200 and the air conditioning chamber 300 may be formed as a sandwich panel having a heat insulating function to achieve insulation. .

The air conditioning chamber 300 includes a blower 360, a heater 380, and a refrigeration cycle, and supplies cold air into the storage 200 according to the internal temperature of the storage 200.

Meanwhile, as shown in FIG. 2, the storage 200 and the air conditioning chamber 300 may be detachably installed by screwing the air conditioning chamber 300 as a fixing screw 313 to one side of the storage 200. The storage structure 200 and the air conditioner 300 of the detachable structure is not only composed of the above-described fixing screw 313, but also reveals that it can be configured in various structures and forms by any number of fastening means.

The upper and lower ends of the reservoir 200 and the air conditioning chamber 300 coupled as described above are provided with an air supply port 260 and an air discharge port 250 through which air can flow.

Therefore, the air conditioning chamber 300 as described above is generalized because it can be used in combination with other devices or devices as well as the cold storage device 100 of the present invention.

The reservoir 200 and the air conditioning chamber 300 will be described in detail with reference to FIG. 3.

The reservoir 200 is provided on the support rail 230 spaced up and down on the inner side, the support rail 230, the tray 240 is provided with agricultural and marine products on the upper surface, and the reservoir ( An exhaust port 220 penetrated on the upper surface of the 200, an exhaust fan 221 installed in the exhaust port 220 and forcibly discharging the air inside the reservoir 200 and the exhaust port 220 are provided in the exhaust port 220 It includes an opening and closing member 222 to open and close).

The reservoir 200 is divided into two compartments in which the interior thereof is in communication with each other, and a pair of support rails 230 installed on left and right sides of the compartment 200 are spaced apart in the vertical direction.

On each of the left and right pairs of support rails 230, both side ends of the trays 240 on which the agricultural and marine products are mounted are movably spread and provided in a stacked state.

In particular, since the support rail 230 supporting the tray 240 is composed of two rails instead of an integral plate structure, the cold wind can easily flow to the center thereof, thereby improving the drying efficiency of agricultural and marine products.

In addition, the exhaust port 220 is a hollow tube formed on the upper surface of the reservoir 200, an exhaust fan 221 for forcibly discharging the air in the reservoir 200 to the outside is installed at the inner lower portion, the upper portion The opening and closing member 222 that opens and closes the exhaust port 220 is installed.

Here, the opening and closing member 222 may be composed of a damper having a structure such as a conventional shutter or may be composed of a valve means, the opening and closing member 222 configured as described above is controlled by a controller (not shown), When the opening and closing member 222 is configured as a damper as shown in FIG. 3 of the present embodiment, a normal motor (not shown) and a link means (not shown) may be further configured to automatically drive the damper.

Therefore, during the low temperature storage process, the temperature inside the storage 200 slightly exceeds the set temperature (approximately 0 ° C. in which the article is frozen) (that is, when the limit of the set temperature range is reached or is just over) or occurs during the low temperature storage process. When the humidity inside the reservoir 200 slightly exceeds the set humidity (that is, when the limit of the set temperature range is reached or just exceeded) due to moisture, the controller does not operate the refrigeration cycle or the heater 380. By operating the opening and closing member 222 and the exhaust fan 221 of the exhaust port 220 to forcibly discharge the air inside the reservoir 200 to the outside to control the temperature and humidity to a constant temperature, constant humidity to save energy as possible Will be.

Here, although not shown in the figure inside the reservoir 200, a temperature sensor and a humidity sensor for measuring the temperature and humidity inside the reservoir 200 is installed.

The air conditioning chamber 300 is coupled to communicate with the reservoir 200, the compressor 370 constituting the refrigeration cycle, the condenser 350, expansion valve 340, the evaporator 330 is installed therein, For easy installation of the refrigeration cycle a plurality of fixed angles (311), 312 for partitioning the inner space of the air conditioning chamber 300 up and down are installed spaced up and down.

The compressor 370 is installed outside the air conditioning chamber 300 to compress the refrigerant, and the condenser 350 is installed on the upper surface of the upper fixed angle 311 while connected to the compressor 370 to condense the refrigerant and condenser. The air passing through the 350 is dehumidified, and the expansion valve 340 forms the high temperature and high pressure refrigerant of the liquid discharged from the condenser 350 at low temperature and low pressure, and the evaporator 330 is a reservoir 200. While installed inclined on the upper surface of the upper fixed angle (311) facing the condensed refrigerant passing through the inside and the air supplied to the reservoir 200 is heat-exchanged to be supplied to the cold wind. Thereafter, the refrigerant passing through the evaporator 330 is reflowed into the compressor 370 connected to the evaporator 330 and compressed.

On the other hand, as described above, the evaporator 330 formed to be inclined on the upper surface of the upper fixed angle 311 has a larger amount of air by maximizing the contact area with the air discharged from the condenser 350 (more than when vertically set up). It is possible to cold wind.

And, a blower 360 is installed on the upper surface of the lower fixed angle 312, the blower 360 is forced to circulate the air discharged from the reservoir 200 to the condenser 350 side.

A heater 380 is installed below the lower fixing angle 312, and the heater 380 may be operated separately from the refrigeration cycle by the controller. The controller detects the temperature and humidity of the storage 200 through the temperature sensor and the humidity sensor, and operates the heater 380 or the refrigeration cycle according to the detected value. That is, the controller increases the temperature by operating the blower 360 and the heater 380 of the air conditioning room 300 when the temperature of the storage 200 is lower than the set temperature, and the heater when the temperature of the storage 200 is higher than the set temperature. 380 is stopped to operate the refrigeration cycle to supply the cold air to the reservoir (200).

In addition, an intake port 320 formed of a hollow tube is installed on an upper surface of the air conditioning chamber 300, and an intake fan 321 capable of sucking air from the outside of the air conditioning chamber 300 inside the lower portion of the intake port 320. It is installed, the opening and closing member 322 for opening and closing the inlet port 320 is installed on the upper portion of the inlet port (320). Since the opening and closing member 322 performs the same structure and operation as the opening and closing member 222 of the above-described storage 200, repeated description thereof will be omitted.

The air intake means of the air conditioning chamber 300 may be operated in conjunction with the exhaust means of the reservoir 200, or may be operated separately.

In addition, a monitoring window (not shown) for observing the inside of the air conditioning chamber 300 may be formed between one side of the air conditioning chamber 300, that is, the evaporator 330 and the condenser 350, and the air conditioning chamber 300 may be formed. The controller may control the operation of the air conditioning room 300 by setting a constant temperature and humidity value to the controller according to the type of agricultural and marine products introduced into the storage 200.

On the other hand, the refrigeration cycle configured in the air conditioning chamber 300 as described above, the compressor 370 for compressing the refrigerant circulating the refrigeration cycle, the condenser 350 for condensing the refrigerant, the high temperature and high pressure refrigerant condensed liquefied low temperature low pressure The expansion valve 340, the evaporator 330 for evaporating the refrigerant expanded by the expansion valve 340, the high temperature and high pressure of the refrigerant flow reservoir 390 is included.

The compressor 370 serves as a pump that circulates the refrigerant, and the pressure is reduced to a saturation pressure so as to suck the refrigerant of low temperature and low pressure evaporated and evaporated in the evaporator 330 to condense and liquefy in the next condenser 350. It will act to increase.

In addition, the condenser 350 heat-exchanges the high-temperature, high-pressure refrigerant in the gaseous phase discharged from the compressor 370 with the surrounding air to release the heat of the refrigerant, thereby liquefying condensation into the liquefied high-temperature and high-pressure refrigerant and surrounding air. It serves to heat.

The expansion valve 340 serves to convert the high-temperature, high-pressure refrigerant gas liquefied in the condenser 350 to the low-temperature low-pressure refrigerant by expanding the throttling (release quickly through a narrow place to a wide place).

The evaporator 330 serves to lower the temperature by absorbing heat contained in the surrounding air while changing the low temperature low pressure refrigerant of the liquid state passing through the expansion valve 340 into a vaporized low temperature low pressure refrigerant gas. .

As such, the compressor 370, the condenser 350, the expansion valve 340, and the evaporator 330 constitute a refrigerating cycle that enables compression, condensation, expansion, and evaporation of the circulating refrigerant. By circulating in the order of compressor 370 → condenser 350 → expansion valve 340 → evaporator 330, the surrounding air is heated or absorbs heat from the surrounding air. It can be sent to the interior of the reservoir 200, and the moisture in the air discharged from the reservoir 200 can be removed.

That is, after cooling the air by using a cold heat source of the evaporator 330, the cooled cold air is supplied into the reservoir 200 to store and store the agricultural and marine products at low temperature, and the air discharged from the reservoir 200 is a heater ( 380 or dehumidified by heating through the condenser 330, the condensation water (water) generated in the dehumidification process can be discharged by forming a drain means in the air conditioning chamber (300).

Meanwhile, as shown in FIG. 3, a storage tank 390 including a capillary tube (not shown) is connected and installed between the condenser 350 and the expansion valve 340 to store the vaporized high temperature and high pressure refrigerant in the storage tank ( As the pressure and temperature decrease while passing through the capillary of 390, the load of the compressor 370 can be reduced.

The operation of the cold storage device 100 of the present invention configured as described above will be described.

First, the agricultural and marine products such as red pepper or dynamics are placed on the tray 240 of the cellar 200, and each tray 240 is put on the support rail 230 of the cellar 200, and then the corresponding agricultural and aquatic product through the controller. Set the storage temperature and humidity conditions, and the like, and operate by applying power to the low-temperature storage device (100).

Then, the controller continuously detects the temperature and humidity inside the reservoir 200 through the temperature sensor and the humidity sensor. If the detected temperature of the reservoir 200 is lower than the set temperature, the controller stops the refrigeration cycle. In order to operate the blower 360 and the heater 380 to circulate the cold air in the reservoir 200 to the air conditioning room 300 side. At this time, the opening and closing member 322 installed in the inlet port 320 of the air conditioning chamber 300 is opened by the controller and the intake fan 321 is operated to suck outside air into the air conditioning chamber 300.

Therefore, the warm outside air sucked by the intake fan 321 is supplied to the air supply port 260 communicated with the air conditioning chamber 300 and the reservoir 200 by the blower 360, and the lower air outlet 250. The air discharged through the air is converted into hot air by the heating of the heater 380 and is supplied to the inner upper portion of the reservoir 200 through the air supply port 260 of the upper portion by the blower 360.

As the warm outside air and hot air supplied as shown by the arrow in FIG. 3, the inside of the reservoir 200 is maintained at a constant temperature and humidity while being moved from the inner upper portion to the lower portion of the reservoir 200.

This drying operation is continued until the set temperature of the reservoir 200 is reached, and when the internal temperature of the reservoir 200 reaches the set temperature, the controller closes the opening / closing member 322 of the intake port 320. In addition, the operation of the heater 380 is stopped.

Then, when the temperature inside the reservoir 200 is higher than the set temperature, the controller operates the refrigeration cycle of the air conditioning chamber 300, the cold air cooled by the evaporator 330 is supplied to the air supply port 260 by the blower 360 After being supplied to the upper inside of the reservoir 200 through heat exchange and heat exchanged through the lower air outlet 250 to the lower portion of the air conditioning chamber (300).

The discharged air is sent back to the condenser 350 by the blower 360, heated and dehumidified by passing through the condenser 350, cooled again by the evaporator 330, and then re-supplied to the reservoir 200. , The internal temperature and humidity of the storage 200 is lowered and eventually maintains a constant temperature and humidity.

In addition, when the internal temperature and humidity of the reservoir 200 are just outside the constant temperature and humidity range such that the heater 380 or the refrigeration cycle does not need to be driven, the controller may include an opening / closing member installed in the exhaust port 220 of the reservoir 200. 222 is operated to open the exhaust opening 220. Thereafter, when the temperature and humidity are lower than the set value, the exhaust fan 221 is not operated so that outside air flows naturally through the exhaust port 220, and when the temperature and humidity are higher than the set value, the exhaust fan 221 is operated. By forcibly discharging the air inside the reservoir 200, it is possible to maintain a constant temperature, humidity.

Therefore, it is possible to more efficiently maintain the temperature and humidity of the cold storage device 100 at low temperature constant temperature and humidity while minimizing energy consumption.

100: cold storage 200: storage
220: exhaust port 221: exhaust fan
222: opening and closing member 230: support rail
240: tray 250: air outlet
260: air supply port 300: air conditioning room
311,312: Fixed angle 313: Fixed screw
320: intake vent 321: intake fan
322: opening and closing member 330: evaporator
340: expansion valve 350: condenser
360: blower 370: compressor
380: heater 390: reservoir

Claims (1)

The cold storage device includes a reservoir in which an article is stored, and an air conditioning chamber detachably coupled by screw coupling of the reservoir and a fixing screw to supply cold air to the reservoir,
The reservoir, the support rail is installed spaced apart up and down on the inner side; A tray provided on the support rail, the upper surface of which includes a storage item; An exhaust port penetratingly installed on an upper surface of the reservoir; An exhaust fan installed at the exhaust port and discharging air in the reservoir; And an opening and closing member installed at the exhaust port to open and close the exhaust port.
The air conditioning chamber, the fixed angle spaced apart vertically in the interior; A compressor installed outside the air conditioning chamber to compress the refrigerant; A condenser installed on an upper surface of the upper fixed angle, connected to a compressor to condense the refrigerant, and dehumidifying by heating the air passing through the compressor; An evaporator installed on an upper surface of the upper fixed angle so as to face a reservoir, the evaporator connected to a condenser and a compressor through an expansion valve to heat and condense the condensed refrigerant passing through the refrigerant; A storage tank installed between the condenser and the expansion valve to reduce the load of the compressor by lowering the pressure and temperature of the high temperature and high pressure refrigerant; A blower installed on an upper surface of the lower fixed angle to supply air discharged through an air outlet to the condenser; A heater installed below the fixed angle to heat and dehumidify the air discharged from the air outlet; An air inlet formed through an upper surface of the air conditioning chamber; An intake fan installed at the intake port and sucking outside air into the air conditioning chamber; And an opening and closing member installed at the intake port to open and close the intake port.

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