KR102348017B1 - Supercooled storage - Google Patents

Abstract

Provided is a supercooled storage comprising: a cooling apparatus (200) which includes an evaporator installed in a storage main body (10) with a door for introducing or discharging a subject to be cooled into or from an internal accommodation space and cooling the air in the accommodation space; an upper supply duct (300) which supplies the cold air cooled in the cooling apparatus (200) to an upper side; and side surface supply ducts (400) which are extended toward a lower side of side surfaces and connected, and include an adjustment unit (500) capable of adjusting the volume of the cold air blown to an upper layer unit, a middle layer unit, and a lower layer unit of the accommodation space. The cooling apparatus (200) includes: a frame (250) having a square pipe shape made by a lower plate (210), a front plate (220) and a rear plate (230), which are folded from the lower plate toward an upper side, and an upper cover plate (240); a partition (260) installed in the center for dividing the inside of the frame (250) into a left part and a right part; evaporators (270) respectively installed in the inside of the two parts divided by the partition (260); and a plurality of air blower fans (280) on the evaporator (270). The air blower fans (280) are installed to be inclined at an obtuse angle (a) based on the lower plate (210) in order to absorb the air from the accommodation space (A) and blow the air toward an upper side in an inclined direction through the evaporators, and include a control unit (500) capable of respectively controlling the plurality of air blower fans (280). The present invention aims to provide a supercooled storage which is capable of improving cooling efficiency.

Description

Supercooled storage

The present invention relates to a supercooled storage, and more particularly, to a supercooled storage capable of maintaining an object to be cooled in a supercooled state.

In general, supercooling refers to a phenomenon in which a phase change does not occur even though the temperature of the material is lowered to below the phase change temperature in the process of cooling the material.

In recent years, with the development of refrigeration technology, by utilizing this supercooling phenomenon, a technology for storing fish, meat, fruits, vegetables and other processed foods has been developed.

As a prior art using the above-described supercooling phenomenon, a refrigerator has been disclosed in Korean Patent Registration No. 10-1205822. The conventional refrigerator includes a cooling chamber for accommodating a beverage container, a heat exchanger for cooling the air in the cooling chamber, a cooling duct having a built-in heat exchanger, an intake port and a cold air outlet installed in the cooling duct, and cold air for circulating air in the cooling chamber Disclosed are a supply duct, an inlet provided on one end of the cold air supply duct, a vent hole for guiding air in the cold air supply duct to a cooling chamber, and a fan mounted on an inlet of the cold air supply duct.

However, since the conventional refrigerator or freezer has a structure in which the cold air that has passed through the heat exchanger or evaporator is directly injected into the cooling chamber or the storage chamber, the temperature distribution inside the cooling chamber or the storage chamber is not uniform and the cold air is concentrated on the upper portion, Due to this, there is a problem in that the temperature of the receptors inside is different, so that the freezing phenomenon occurs.

In addition, while the temperature around the center of the storage chamber is low, the temperature is relatively high as it approaches the outer wall, and thus the temperature non-uniformity is also high, so that the temperature stability and energy efficiency are lowered, and the supercooling rate is also lowered.

Korean Patent Publication No. 10-1581936 Korean Patent Publication No. 10-2159133 Korean Patent Publication No. 10-0844622

Therefore, the present invention has been devised to solve the problems of the prior art as described above, and cold air is blown into the upper supply duct to uniformly cool the object to be cooled located in the cooling chamber regardless of its location in the storage room. It is to provide a supercooling storage that can reduce cooling efficiency and cooling time by further supplying cold air to the outside of the accommodation space by installing a volleyball.

The side supply duct of the storage according to the present invention further includes a damper capable of adjusting the amount of cold air supplied according to the location so as to reduce the temperature deviation according to the location to provide a supercooled storage in which the temperature deviation according to the location is removed.

The present invention for achieving the above object is a storage body 10 in which a door is installed to bring in or take out an object to be cooled into the receiving space (A) inside, the front part 11 of the receiving space (A) and The rear part 12, the side part 13, etc. are all formed to be assembled with an insulating panel.

A cooling device 200 including an evaporator installed inside the main body 10 to cool the air in the accommodation space is provided.

In addition, the cold air cooled by the cooling device 200 is supplied to the upper portion of the accommodation space, and the upper supply duct 300 guiding to the side and the upper supply duct 300 extend in the lower side direction to communicate with each other, A side supply duct 400 having a control unit 500 capable of adjusting the amount of cold air blown to the upper, middle and lower layers of the accommodation space is provided.

The cooling device 200 has a square pipe shape with a lower plate 210, a front plate 220 and a rear plate 230 bent upward from the lower plate, and an upper cover plate 240 when the surface on which the door is installed is referred to as the front. A frame 250 with

A partition 260 installed in the center to divide the inside of the frame 250 into left and right halves, an evaporator 270 installed inside both sides of the partition 260, and the evaporator 270 include a plurality of circulation A fan 280 is provided.

In addition, the circulation fan 280 is installed inclined at an obtuse angle (a) with respect to the lower plate 210 so as to suck air from the receiving space (A) and blow it obliquely upward through the evaporator, and also installed in plurality. It is characterized in that a control unit 500 capable of controlling each of the circulation fans 280 is provided.

In addition, the upper supply duct 300 is further provided with a cold air distribution port 340 that can distribute the cold air blown through the evaporator 270 to the front 310, the rear 320, and the center 330, have.

The cold air distribution hole 340 is further provided with a first cold air guide plate 341, a second cold air guide plate 342, and a third cold air guide plate 343 for guiding the cold air blown through the evaporator 270, The first cold air guide plate 341 and the third cold air guide plate 343 have a narrow outlet side, but the first cold air guide plate 341 is inclined in the front direction, and the third cold air guide plate 343 is inclined in the rear direction. It is formed so that the supplied cold air can be more supplied to the front side 310 and the back side 320 than the center 330 .

In addition, the side supply duct 400 includes side supply parts 410 and 420 and a central space part through which the cold air supplied from the upper supply duct 300 is supplied to the front part 11 and the rear part 12 of the receiving space ( 13) consists of a central supply unit 430 supplied to,

The side supply parts 410 and 420 are provided with supply holes 411 and 421 for supplying cold air at regular intervals, and the central supply part 430 has the upper part when the side supply duct 400 is divided into an upper part and a central lower part. The number of the ventilation holes 431 is greater than the center, and the number of the ventilation holes in the lower part is formed less than the center.

In addition, the side supply duct 400 is further provided with a damper 600 that can control the cold air supplied into the duct, the damper 600 is the temperature measured by the temperature sensor 510 installed inside the receiving space. Accordingly, the control unit 500 controls each to be operated.

And the temperature sensor 510 is called an upper sensor 511, an intermediate sensor 512 depending on the installation position, and the damper 600 is also called an upper damper 610, an intermediate damper 620 depending on the installation position, When the temperature measured by the upper sensor 511 is equal to or lower than the set temperature, the control unit 500 opens the upper damper 610 and the intermediate damper 620, stops the refrigerant supplied to the evaporator, and the circulation fan 280. only operates, and when the temperature measured by the upper sensor 511 is higher than the set temperature, both the upper damper 610 and the intermediate damper 620 are closed, the refrigerant supplied to the evaporator is supplied, and the circulation fan 280 is operated. control so that

In addition, when the temperature measured by the intermediate sensor 512 is equal to or lower than the set temperature, the control unit 500 opens the upper damper 610 and closes the intermediate damper 620. The refrigerant supplied to the evaporator is supplied. The circulation fan 280 is operated, and when the temperature measured by the intermediate sensor 512 is higher than the set temperature, the upper damper 610 and the intermediate damper 620 are opened, and the refrigerant supplied to the evaporator is supplied and circulated. The fan 280 is controlled to operate.

The present invention sucks cold air from the upper part of the accommodation space and discharges it through the upper duct and the side supply ducts installed on both sides, but adjusts the cold air supplied to the corresponding position from the side supply duct according to the temperature difference for each internal location to accommodate Depending on the location of the space, it is possible to prevent an imbalance of cooling in which the object to be contained is cooled excessively.

In addition, by limiting cooling through the side supply duct so that cold air can be supplied to the location where the temperature difference occurs, resistance due to cold air circulation can be minimized to improve cooling efficiency and save energy, as well as accommodating space All objects to be cooled can be uniformly supercooled regardless of the location of

In addition, a plurality of circulation fans installed in the cooling device are installed to blow air obliquely to the upper side, so that the blown cold air can reach the lower part of the side supply duct along the outer surface. Energy efficiency can be improved because it is supplied in a controlled manner.

1 is a cross-sectional view and a plan view of a front surface of a supercooled storage according to the present invention.
2 is a perspective view schematically showing the cooling system of the supercooled storage according to the present invention.
3 is a perspective view and a cross-sectional view illustrating detailed configurations of a cooling device according to the present invention.
Figure 4 is a perspective view that can show the upper supply duct detailed configurations according to the present invention.
5 is a perspective view that can show the detailed configuration of the side supply duct according to the present invention.

The supercooled storage of the present invention is discharged through the upper duct and the side supply ducts installed on both sides, but according to the temperature difference for each internal position, the cold air supplied to the corresponding position from the side supply duct is adjusted according to the location of the receiving space. It was invented so that all objects to be cooled can be uniformly supercooled regardless of the location of the accommodation space by preventing imbalance.

Hereinafter, the features of the configuration of the supercooled storage according to the present invention will be understood by the embodiments described in detail with reference to the accompanying drawings.

Since the present invention can have various changes and can have various forms, embodiments will be described in detail in the text. However, this is not intended to limit the present invention to the specific disclosed form, it should be understood to include all modifications, equivalents and substitutes included in the spirit and scope of the present invention.

The supercooled storage according to the present invention includes a storage body 10 in which a door is installed to bring an object to be cooled into or out of the storage space inside the storage as shown in FIG. A cooling device 200 including an evaporator for cooling is provided.

In addition, the cold air cooled by the cooling device 200 is supplied to the upper portion of the accommodation space, and the upper supply duct 300 guiding to the side and the upper supply duct 300 extend in the lower side direction to communicate with each other, , and a side supply duct 400 having a control unit 500 capable of adjusting the amount of cold air blown to the upper, middle and lower layers of the receiving space.

Hereinafter, the supercooled storage according to the present invention will be described in detail with reference to the accompanying drawings. It can be omitted so as not to scatter.

In addition, the terms or words used in the present specification and claims described below should not be construed as being limited to conventional or dictionary meanings, and meanings consistent with the technical spirit of the present invention so that the present invention can be most appropriately expressed. and should be interpreted as a concept.

Throughout the specification, when a part "includes" a certain element, it means that other elements may be further included, rather than excluding other elements, unless otherwise stated. In addition, terms such as "... unit" and "... group" described in the specification mean a unit that processes at least one function or operation.

2 to 5 are schematic diagrams for explaining the supercooled storage according to the present invention.

The supercooled storage according to the present invention includes a storage body 10 in which a door is installed to bring in or out of an object to be cooled into an internal accommodation space, and an evaporator installed inside the main body 10 to cool the air in the accommodation space A cooling device 200 is provided.

In addition, the air cooled by the cooling device 200, that is, cold air is supplied to the upper portion of the accommodation space, and extends in the lower side direction from the upper supply duct 300 and the upper supply duct 300 for guiding to the side. and a side supply duct 400 having a control unit 500 that communicates with each other and can control the amount of cold air blown to the upper, middle, and lower layers of the accommodation space.

The cooling device 200 has a square pipe shape with a lower plate 210, a front plate 220 and a rear plate 230 bent upward from the lower plate, and an upper cover plate 240 when the surface on which the door is installed is referred to as the front. It is provided with a frame 250 having a.

The partition 260 installed in the center so that the inside of the frame 250 of the square pipe shape can be divided into left and right halves as described above, the evaporator 270 installed in both sides of the partition 260, and the evaporator 270 ) is provided with a plurality of circulation fans (280).

In addition, the square pipe-shaped frame 250 has a lower plate 210 to suck air from the receiving space A, and the front plate 220 and the rear plate 230 have suction holes 211 and 221 on both sides of the partition 260. , 231 are installed in plurality, the air in the accommodation space (A) can be blown to the evaporator 270 through the suction holes (211, 221, 231) to be circulated.

In addition, the circulation fan 280 is installed inclined at an obtuse angle (a) greater than 90 degrees with respect to the lower plate 210 so as to suck air from the receiving space (A) and blow it obliquely upward through the evaporator, The cold air recovered from the is blown to the evaporator 270 , and the blown cold air is supplied to the side supply duct 400 through the upper supply duct 300 along the inner surface of the storage body 10 .

In addition, a control unit 500 capable of controlling each of the plurality of circulation fans 280 is provided.

In this way, each of the circulation fans 280 can be controlled, so that the air volume and wind speed of the circulation fan 280 installed in the front or rear side can be differently controlled according to the deviation of the accommodation space (A).

In addition, the upper supply duct 300 is further provided with a cold air distribution port 340 that can distribute the cold air blown through the evaporator 270 to the front 310, the rear 320, and the center 330, have.

The cold air distribution hole 340 is further provided with a first cold air guide plate 341, a second cold air guide plate 342, and a third cold air guide plate 343 for guiding the cold air blown through the evaporator 270, The first cold air guide plate 341 and the third cold air guide plate 343 have a narrow outlet side, but the first cold air guide plate 341 is inclined in the front direction, and the third cold air guide plate 343 is inclined in the rear direction. It is formed so that the supplied cold air can be more supplied to the front side 310 and the back side 320 than the center 330 .

In addition, the upper supply duct 300 is provided with a plurality of upper supply holes 350 for supplying cold air to the upper side of the accommodation space (A).

In addition, although the outer wall of the receiving space (A) is insulated, external heat can be transferred to the inside through the front and rear surfaces, so that the cold air supplied to the front 310 and the rear 320 is more than the central 330. It can be supplied so that it can be uniformly supercooled regardless of the location of the receiving space.

In addition, the side supply duct 400 includes side supply parts 410 and 420 and a central space part through which the cold air supplied from the upper supply duct 300 is supplied to the front part 11 and the rear part 12 of the receiving space ( 13) is composed of a central supply unit 430 supplied to.

The side supply parts 410 and 420 are provided with supply holes 411 and 421 for supplying cold air at regular intervals, and the central supply part 430 has the upper part when the side supply duct 400 is divided into an upper part and a central lower part. The number of the ventilation holes 431 is greater than the center, and the number of the ventilation holes in the lower part is formed less than the center.

As described above, as the number of ventilation holes 431 is increased so that a large amount of cold air can be supplied toward the upper side rather than the lower side of the receiving space (A) depending on the location, the area through which the cold air passes is also formed wider toward the upper side. It is possible to uniformly supercool by preventing the phenomenon of the bottom from being overcooled.

In addition, the side supply duct 400 is further provided with a damper 600 that can control the cold air supplied into the duct, and the damper 600 is measured by a temperature sensor 510 installed inside the receiving space. According to the temperature, the control unit 500 controls to be operated by the operation motor 630 provided in the damper 600, respectively.

And the temperature sensor 510 is called an upper sensor 511, an intermediate sensor 512 depending on the installation position, and the damper 600 is also called an upper damper 610, an intermediate damper 620 depending on the installation position, When the temperature measured by the upper sensor 511 is equal to or lower than the set temperature, the control unit 500 opens the upper damper 610 and the middle damper 620, stops the refrigerant supplied to the evaporator, and the circulation fan 280. only operates, and when the temperature measured by the upper sensor 511 is higher than the set temperature, both the upper damper 610 and the intermediate damper 620 are closed, and the refrigerant supplied to the evaporator is supplied and the circulation fan 280 is operated. control to do so.

In addition, when the temperature measured by the intermediate sensor 512 is equal to or lower than the set temperature, the control unit 500 opens the upper damper 610 and closes the intermediate damper 620. The refrigerant supplied to the evaporator is supplied. The circulation fan 280 is operated, and when the temperature measured by the intermediate sensor 512 is higher than the set temperature, the upper damper 610 and the intermediate damper 620 are opened, and the refrigerant supplied to the evaporator is supplied and circulated. The fan 280 is controlled to operate.

Although the present invention has been described in detail through specific examples, it is intended to describe the present invention in detail, and the present invention is not limited thereto. It is clear that the modification or improvement is possible.

All simple modifications and variations of the present invention fall within the scope of the present invention, and the specific scope of protection of the present invention will be clarified by the appended claims.

10: storage body 11: front part
12: rear part 200: cooling device
210: lower plate 220: front plate
250: frame 260: partition
270: evaporator 280: circulation fan
300: upper supply duct 340: cold air distribution port
400: side supply duct 410, 420: side supply unit
430: central supply unit 500: control unit
510: temperature sensor 600: damper
A : Accommodation space

Claims (6)

A storage body 10 in which a door is installed to bring in or take out an object to be cooled into the receiving space inside;
a cooling device 200 including an evaporator installed inside the body 10 to cool the air in the accommodation space;
An upper supply duct 300 that supplies cool air cooled by the cooling device 200 to the upper portion of the accommodation space and guides it to the side,
The upper supply duct 300 extends in the lower side direction and communicates, and the side supply duct 400 having a control unit 500 capable of adjusting the amount of cold air blown to the upper, middle, and lower layers of the accommodation space. is provided,
The cooling device 200
When referring to the face on which the door is installed,
A frame 250 having a square pipe shape with a lower plate 210, a front plate 220 and a rear plate 230 bent upward from the lower plate, and an upper cover plate 240, and
A partition 260 installed in the center so as to divide the inside of the frame 250 into left and right halves;
An evaporator 270 installed in both sides of the partition 260, respectively;
The evaporator 270 is provided with a plurality of circulation fans 280,
The circulation fan 280 is installed to be inclined at an obtuse angle (a) with respect to the lower plate 210 so as to suck air from the receiving space (A) and blow it obliquely upward through the evaporator,
In addition, a control unit 500 capable of controlling each of a plurality of installed circulation fans 280 is provided,
The upper supply duct 300 is further provided with a cold air distribution port 340 capable of distributing the cold air blown through the evaporator 270 to the front 310, the rear 320, and the center 330,
The cold air distribution port 340 is further provided with a first cold air guide plate 341, a second cold air guide plate 342, and a third cold air guide plate 343 for guiding the cold air blown through the evaporator 270,
The first cold air guide plate 341 and the third cold air guide plate 343 are formed to have a narrow outlet width, but the first cold air guide plate 341 is in the front direction, and the third cold air guide plate 343 is in the rear direction. Supercooled storage, characterized in that it is formed to be inclined so that the supplied cold air can be more supplied to the front side 310 and the back side 320 than the center 330. According to claim 1,
The side supply duct 400 is
The side supply parts 410 and 420 through which the cold air supplied from the upper supply duct 300 is supplied to the front part 11 and the rear part 12 of the receiving space, and the central supply part 430 supplied to the central space part 13. is made up of
Supply holes 411 and 421 for supplying cold air at regular intervals are installed in the side supply parts 410 and 420,
In the central supply unit 430, when the side supply duct 400 is divided into an upper portion and a lower center, the number of ventilation holes 431 in the upper portion is greater than the number in the center, and the number of ventilation holes in the lower portion is formed less than the center. . 3. The method of claim 2,
The side supply duct 400 is further provided with a damper 600 that can control the cold air supplied into the duct,
The damper (600) is a supercooled storage, characterized in that it is controlled to be operated by the control unit (500) according to the temperature measured by the temperature sensor (510) installed inside the receiving space. 4. The method of claim 3,
The temperature sensor 510 is called an upper sensor 511, an intermediate sensor 512 depending on the installation location,
The damper 600 is also referred to as an upper damper 610 and an intermediate damper 620 depending on the installation location,
When the temperature measured by the upper sensor 511 is equal to or lower than the set temperature, the control unit 500 opens the upper damper 610 and the middle damper 620, stops the refrigerant supplied to the evaporator, and the circulation fan 280. only works,
When the temperature measured by the upper sensor 511 is higher than the set temperature, both the upper damper 610 and the intermediate damper 620 are closed, the refrigerant supplied to the evaporator is supplied, and the circulation fan 280 is controlled to operate. Supercooled storage, characterized in that. 5. The method of claim 4,
In addition, when the temperature measured by the intermediate sensor 512 is equal to or lower than the set temperature, the control unit 500 opens the upper damper 610 and closes the intermediate damper 620. The refrigerant supplied to the evaporator is supplied. and operates the circulation fan 280,
When the temperature measured by the intermediate sensor 512 is higher than the set temperature, the upper damper 610 and the intermediate damper 620 are opened, and the refrigerant supplied to the evaporator is supplied and the circulation fan 280 is operated. Supercooled storage, characterized in that.
delete

Images