KR102567307B1 - Cooling storage apparatus for rancidity managing omega-3 fatty acid - Google Patents

Abstract

The refrigerator for omega-3 fatty acid rancidity management according to an embodiment of the present invention forms a storage space and refrigerates the stored omega-3 fatty acid in the refrigerator for omega-3 fatty acid rancidity management, the upper and lower sides of which are opened. A main body portion forming a space, an opening and closing portion that covers and closes the upper opening of the main body portion, and a partition portion mounted in the receiving space of the main body portion and partitioning the receiving space into an upper storage space and a lower installation space. , Connected to the lower side of the body portion, it may include a bottom forming portion covering the lower opening of the body portion and a cooling module installed in the installation space to cool the storage space.

Description

Refrigeration storage apparatus for omega-3 fatty acid rancidity management {Cooling storage apparatus for rancidity managing omega-3 fatty acid}

The present invention relates to a refrigeration storage device before omega-3 rancidity control that slows down the rancidity of omega-3 fatty acids and edible oils of the series at an optimized storage temperature, and more specifically, to store omega-3 oils at an optimized temperature. It relates to a refrigerator using a semiconductor device (Peltier) to maintain an optimized storage space and an optimized storage temperature for the storage space.

Recently, a variety of specialized small refrigerators considering product characteristics, such as refrigerators exclusively for storing wine and refrigerators for cosmetics, have been developed and marketed.

The function of omega 3 and the importance of its intake are widely recognized for the promotion of national health.

As modernization progressed rapidly, the problem of food and nutrition became a social issue, and various metabolic diseases such as myocardial infarction, diabetes, blood pressure, and stroke increased rapidly, and research on this was also conducted. The World Health Organization recommends 1:1 to 1:4 ratio of omega 3 to omega 6, which has been studied as a problem of modern people's metabolic diseases, but in the case of Korean diets, the ratio of omega 3 to omega 6 is 1:30 or more. It turns out that the intake of omega-3 fatty acids is very insufficient because it shows an extreme imbalance.

The lack of omega 3 is difficult to produce and distribute due to rancidity that proceeds immediately after extraction. In particular, in the case of animal omega 3 fatty acids sold in capsule form, most of them are extracted from fish meat, but heavy metal pollution and microplastics in the world's oceans make it difficult for consumers to choose. are reluctant

As an alternative to this, the intake of vegetable omega-3 fatty acids is emphasized. The delay in rancidity of vegetable omega 3 can be solved by the storage optimization temperature, thereby extending the distribution and consumption period after extraction to achieve healthy and safe intake of omega 3 fatty acids.

For this purpose, the development of a storage device with an optimized temperature that delays the rancidity of omega-3 fatty acids is required.

Korean Patent Registration No. 10-1387522

The purpose of the present invention was devised to solve the above problems, and is an optimal semiconductor in configuring a micro-refrigeration storage device to maintain an optimized storage temperature (2 to 15 ° C) that delays the oxidation of omega-3 fatty acids. Maximizing the cooling efficiency of the device, minimizing the temperature change in the storage space to maximize the storage period and minimizing the change in physical properties through a cooling storage device using a semiconductor device cooling module, Its purpose is to provide a refrigeration storage device for the storage of healthy and safe omega-3 fatty acids by implementing an optimized storage temperature (2 ~ 15 ℃).

The refrigerator for omega-3 fatty acid rancidity management according to an embodiment of the present invention forms a storage space and refrigerates the stored omega-3 fatty acid in the refrigerator for omega-3 fatty acid rancidity management, the upper and lower sides of which are opened. A main body portion forming a space, an opening and closing portion that covers and closes the upper opening of the main body portion, and a partition portion mounted in the receiving space of the main body portion and partitioning the receiving space into an upper storage space and a lower installation space. , Connected to the lower side of the body portion, it may include a bottom forming portion covering the lower opening of the body portion and a cooling module installed in the installation space to cool the storage space.

The compartment part of the refrigerator for managing omega-3 fatty acid rancidity according to an embodiment of the present invention, the first compartment piece installed on the inner surface of the main body part and the inner surface of the main body part, the first compartment piece and It is provided with second partition pieces that are arranged in parallel and form a spaced space, the first partition piece has a first communication hole penetrating in the height direction, and the second partition piece penetrates in the height direction. A second communication hole disposed parallel to the first communication hole is formed, and the cooling module includes a first cooling part formed of a thermoelectric semiconductor element having a heat generating part and a heat absorbing part, and cool air generated by the heat absorbing part. A cooling fan for inflowing into the storage space, a second cooling unit for cooling the heat generated by the heat generating unit, and a cooling fan for introducing external air into the first cooling unit, wherein the cooling fan is provided in the separation space , it is arranged to face the storage space, and cool air generated by the heat absorbing portion can be introduced into the storage space.

The bottom forming part of the refrigerator for omega-3 fatty acid rancidity management according to an embodiment of the present invention is formed in a size corresponding to the lower opening of the main body part and is disposed in parallel with the second compartment piece. An air inlet formed through the plate portion and arranged in parallel with the first communication hole and the second communication hole, a filter part for filtering foreign substances in the air flowing in from the outside while being covered by the air inlet, and the A ventilation part formed through the plate part, the first cooling part, the second cooling part, and the cooling fan are located in the installation space, and the air inlet part is disposed on the lower side of the cooling fan , Allows external air to easily flow into the cooling fan, and the ventilation unit can provide a passage through which the installation space and the outside communicate with each other for heat circulation and cooling in the installation space generated by the heating unit. there is.

Refrigerator for omega-3 fatty acid rancidity management according to an embodiment of the present invention is disposed in a spaced space between the first compartment and the second compartment, except for the cold air fan disposed in the spaced space. The main body part is formed of a double layer structure of a main body insulating material composed of a body frame and a heat insulating material, and the opening and closing part includes an opening and closing frame and a heat insulating material. It is formed of a double-layer structure of an opening and closing insulation material composed of, and the compartment part is formed of a double-layer structure of a compartment insulation material composed of a compartment frame and an insulation material, and the opening and closing part further includes an airtight part formed along an edge, and is mounted on the main body part. In this case, the upper opening of the body part may be sealed by the airtight part.

Refrigerator for managing omega-3 fatty acid rancidity according to an embodiment of the present invention is installed on the front of the main body, and includes a control button for setting the temperature inside the storage space, installed on the front of the main body, and the storage space. A display panel for displaying internal temperature and an opening/closing display unit installed in the main body and displaying whether or not the opening/closing unit is attached to the main body, wherein the opening/closing display unit includes It may further include a mounting portion that emits a warning light of different colors depending on whether or not it is installed, and in which a storage container containing omega-3 fatty acids is seated while being accommodated in the storage space.

The mounting portion of the refrigerator for managing omega-3 fatty acid rancidity according to an embodiment of the present invention includes a seating portion on which the omega-3 fatty acid storage container is seated and an auxiliary holder providing a space in which the seating portion is mounted. The part is composed of a circularly formed upper edge, a circularly formed lower edge, and a connection portion connecting the upper edge and the lower edge, and the connection portion is formed so that the size of the vertical cross-sectional area gradually increases from the center toward the upper edge. And, it is formed so that the size of the longitudinal section gradually increases from the center toward the lower edge, and the auxiliary holder is formed with a plurality of openings spaced apart, and the seating portion may be mounted in each opening.

The refrigerator for omega-3 fatty acid rancidity management according to an embodiment of the present invention is connected to the lower side of the reinforcing part and the reinforcing part for maintaining the shape of the lower part of the main body while being attached to the lower edge of the main body, Further comprising a support part for transmitting the load of the body part to the ground and separating the bottom forming part and the ground to facilitate air circulation to the air inlet part or the ventilation part, wherein the support part is formed in a horseshoe shape It can be composed of a plurality of support pieces.

According to the present invention, after extraction of vegetable omega-3 fatty acids, the distribution and storage period are significantly extended to have a positive effect on the expansion of production and extension of shelf life of vegetable omega-3 fatty acids, thereby contributing to the intake of high-quality functional vegetable omega-3 fatty acids. Also, with the body size and design of the optimized capacity, it is possible to secure the efficiency of the arrangement space in the consumer's kitchen.

1 is a schematic perspective view showing a refrigerator for managing omega-3 fatty acid rancidity according to an embodiment of the present invention.
Figure 2 is a schematic diagram for explaining a refrigerator for omega-3 fatty acid rancidity management according to an embodiment of the present invention.
Figure 3 is a schematic diagram for explaining a refrigeration module of a refrigerator for managing omega-3 fatty acid rancidity according to an embodiment of the present invention.
Figure 4 is a schematic diagram for explaining the mounting portion of the refrigerator for managing omega-3 fatty acid rancidity according to an embodiment of the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. However, the spirit of the present invention is not limited to the presented embodiments, and those skilled in the art who understand the spirit of the present invention may add, change, delete, etc. other elements within the scope of the same spirit, through other degenerative inventions or the present invention. Other embodiments included within the scope of the inventive idea can be easily proposed, but it will also be said to be included within the scope of the inventive concept.

In addition, components having the same function within the scope of the same idea appearing in the drawings of each embodiment are described using the same reference numerals.

1 is a schematic perspective view showing a refrigerator for managing omega-3 fatty acid rancidity according to an embodiment of the present invention, and FIG. 2 is a schematic diagram illustrating a refrigerator for managing omega-3 fatty acid rancidity according to an embodiment of the present invention. am.

3 is a schematic diagram illustrating a refrigeration module of a refrigerator for managing omega-3 fatty acid rancidity according to an embodiment of the present invention, and FIG. 4 is a refrigeration module for managing omega-3 fatty acid rancidity according to an embodiment of the present invention. It is a schematic diagram for explaining the mounting part of the storage device.

1 to 4, a refrigerator for omega-3 fatty acid rancidity management (1, hereinafter referred to as a refrigerator) according to an embodiment of the present invention forms a storage space to refrigerate stored omega-3 fatty acids. may be a device.

A refrigerator 1 according to an embodiment of the present invention may include a main body 10, an opening/closing unit 20, a partitioning unit 30, a bottom forming unit 40, and a cooling module 50. .

The body portion 10 may form an accommodation space S having upper and lower sides open. The body portion 10 may be formed in a square pillar shape as shown in the drawing, but may be manufactured in a circular shape and various designs.

The opening/closing part 20 may be sealed while covering the upper opening of the main body part 10 .

Since the refrigerator storage device 1 of the present invention is a storage device exclusively for omega-3 fatty acids and has a very small capacity, the opening/closing part 20 is formed on the upper part of the main body part 10 rather than being formed on the front surface of the main body part 10. to be detachable. In addition, if the opening/closing part 20 is formed on the front of the body part 10, the front space for the operation of the opening and closing part 20 is required, but when it is formed on the upper part of the body part 10 as in the present invention, Since front space for operation is not required, space utilization can be increased.

The opening/closing part 20 may be installed on the main body part 10 using a hinge or may be configured in a detachable form separated from the main body part 10 . The opening/closing part 20 may be formed with a handle so that it can be easily attached or detached from the main body part 10 .

The compartment 30 is mounted in the accommodation space S of the main body 10, and divides the accommodation space S into an upper storage space S1 and a lower installation space S2. can do. The compartment part 30 may be integrally formed or separated from the main body part 10 .

In the storage space (S1), omega-3 fatty acid-based edible fat and oil are accommodated, and in the installation space (S2), a cooling module 50 including a thermoelectric semiconductor element and parts such as a printed circuit board required to drive devices such as temperature control are accommodated. This is installed, and can provide an appropriate space for heat treatment generated in the cooling module 50.

The internal capacity of the storage space (S1) is preferably one to store about 2 to 4 bottles based on a storage container or other products with a capacity of 180 ml to 360 ml, but is not limited thereto.

The partition part 30 is installed on the inner surface of the first partition piece 31 and the main body part 10 installed on the inner surface of the body part 10, the first partition piece 31 and While being arranged in parallel, it may be provided with a second partition piece 32 forming a separation space (S3).

The first partition piece 31 is formed with a first communication hole 311 penetrating in the height direction, and the second partition piece 32 penetrates in the height direction, and the first communication hole 311 A second communication hole 321 arranged in parallel with may be formed.

Since the first communication hole 311 and the second communication hole 321 are cool air flow passages by the cold air fan 53 to be described later, they may be formed in a shape corresponding to that of the cold air fan 53 .

The bottom forming part 40 may be connected to the lower side of the main body part 10 to cover the lower opening of the main body part 10 .

The bottom forming part 40 may include a plate part 41, an air inlet part 43, a filter part, and a ventilation part 47.

The plate portion 41 is formed to a size corresponding to the lower opening of the body portion 10 and may be disposed parallel to the second partition piece 32 .

The air inlet 43 is formed through the plate portion 41 and may be disposed parallel to the first communication hole 311 and the second communication hole 321 .

The filter unit, while being covered by the air inlet unit 43, can filter foreign substances in the air introduced from the outside, remove impurities in the air, and at the same time protect the cold air fan 53 to be described later. noise can be reduced.

Specifically, the filter part fills the opening formed by the air inlet part 43, and filters foreign substances in the air when air from the outside passes through the air inlet part 43 with a filter formed with a plurality of air gaps. can do.

In addition, a protector cover for injecting cold air into the storage space S1 while protecting the cold air fan 53 may be further installed above the cold air fan 53 .

The ventilation part 47 may be formed to pass through the plate part 41 and provide a passage through which the heat generated in the cooling module 50 is circulated to the outside and treated.

The cooling module 50 may be installed in the installation space S2 to cool the storage space S1.

The cooling module 50 may include a first cooling unit 51 , a cold air fan 53 , a second cooling unit 55 and a cooling fan 57 .

The first cooling unit 51 may be formed of a thermoelectric semiconductor element having a heating unit and a heat absorbing unit. By the first cooling unit 51, the storage space S1 can be maintained at an optimized storage temperature (2 to 15° C.) for omega-3 edible fat and oil.

The cold air fan 53 may introduce cold air generated by the heat absorbing part into the storage space S1.

Specifically, the cold air fan 53 is disposed to face the storage space S1 while being disposed in the separation space S3, and directs the cool air generated by the heat absorbing part to the storage space S1. can be introduced.

The second cooling unit 55 may cool heat generated by the heating unit.

The cooling fan 57 may include a cooling fan 57 for introducing external air into the first cooling unit 51 .

The first cooling unit 51, the second cooling unit 55, and the cooling fan 57 may be located in the installation space S2.

The air inlet 43 is disposed on the lower side of the cooling fan 57 so that external air can be easily introduced into the cooling fan 57 .

The ventilation part 47 may provide a passage through which the installation space S2 and the outside communicate with each other for heat circulation and cooling within the installation space S2 generated by the heating part.

On the other hand, the refrigerator storage device 1 according to an embodiment of the present invention includes a heat insulating unit, a control button unit 71, a display panel unit 72, an opening/closing display unit 73, a holding unit 80, a reinforcing unit ( 91) and a support part 93 may be further included.

The heat insulating part is disposed in the separation space S3 between the first partition piece 31 and the second partition piece 32, except for the cooling fan 53 disposed in the separation space S3. It is filled in, it is possible to minimize the heat exchange between the storage space (S1) and the installation space (S2).

The body portion 10 may be formed in a double layer structure of a body frame and a body heat insulating material composed of a heat insulating material. At this time, the thickness of the body insulation (not shown) may be formed to 2 ~ 3cm.

The opening/closing unit 20 may be formed in a double layer structure of an opening/closing frame and an opening/closing insulating material composed of an insulating material. At this time, the thickness of the opening and closing insulation (not shown) may be formed to 2 ~ 3cm.

The partition part 30 may be formed in a double layer structure of a partition frame and a partition insulation material composed of a heat insulating material. At this time, the thickness of the partition insulation (not shown) may be formed to 2 ~ 3cm.

The double-layered structure of the main body 10, the opening/closing unit 20, and the partitioning unit 30 can increase refrigerating efficiency in the storage space S1 and reduce power consumption due to heat loss.

The opening/closing part 20 may further include an airtight part formed along a rim so that the upper opening of the main body part 10 is sealed by the airtight part when mounted on the body part 10 .

The control button unit 71 is installed on the front of the body unit 10 and can set the temperature inside the storage space S1.

The display panel unit 72 is installed on the front surface of the body unit 10 and can display the temperature inside the storage space S1.

The opening/closing display unit 73 is installed on the main body 10 and can display whether the opening/closing unit 20 is attached to the main body 10 .

Specifically, the opening/closing display unit 73 may emit warning lights of different colors depending on whether the opening/closing unit 20 is attached to the main body 10 or not. For example, when the opening/closing part 20 is mounted on the body part 10, green lighting is implemented, and when the opening/closing part 20 is unmounted from the main body part 10, red lighting can be implemented. there is.

The refrigerator storage device 1 of the present invention may further include a weight measurement unit for measuring weight on the upper side of the compartment 30, and the weight value measured by the weight measurement unit is displayed on the display panel unit 72. more can be displayed. The user can check the amount of storage items stored in the storage space S1 according to the weight value displayed on the display panel unit 72 .

In the holding part 80, in the refrigerator 1, a storage container containing omega-3 fatty acids may be seated while the holding part 80 is accommodated in the storage space S1.

The mounting unit 80 may include a seating unit 81 in which the omega-3 fatty acid storage container is seated and an auxiliary holder 83 providing a space in which the seating unit 81 is mounted.

The seating portion 81 may include a circularly formed upper edge 811, a circularly formed lower edge 812, and a connecting portion 813 connecting the upper edge 811 and the lower edge 812. there is.

The connecting portion 813 is formed so that the size of the vertical cross-sectional area gradually increases from the center toward the upper edge 811, and the size of the vertical cross-sectional area gradually increases from the center toward the lower edge 812. can

The auxiliary holder 83 is formed with a plurality of openings 813 spaced apart from each other, and the seating portion 81 may be mounted in each opening 813 .

The reinforcing part 91 is a component for maintaining the shape of the lower part of the body part 10 while being attached to the lower edge of the body part 10 .

The support part 93, connected to the lower side of the reinforcing part 91, transmits the load of the body part 10 to the ground, and separates the floor forming part 40 from the ground, so that the air Air circulation to the inlet 43 or the ventilation unit 47 may be facilitated.

The support part 93 may be composed of a plurality of support pieces formed in a horseshoe shape.

In the above, the configuration and characteristics of the present invention have been described based on the embodiments according to the present invention, but the present invention is not limited thereto, and various changes or modifications can be made within the spirit and scope of the present invention. It is apparent to those skilled in the art, and therefore such changes or modifications are intended to fall within the scope of the appended claims.

1: Refrigerator for omega-3 fatty acid rancidity management 10: Main body
S: storage space S1: storage space
S2: installation space S3: separation space
20: opening and closing part 30: compartment
31: first division section 311: first communication port
32: second section 321: second communication port
40: bottom forming part 41: plate part
43: air inlet 47: ventilation
50: cooling module 51: first cooling unit
53: cold air fan 55: second cooling unit
57: cooling fan 71: control button
72: display panel unit 73: open/close display unit
80: mounting part 81: seating part
83: auxiliary cradle 91: reinforcement
93: support

Claims (7)

In the refrigerator for omega-3 fatty acid rancidity management, which forms a storage space and refrigerates stored omega-3 fatty acids,
a body portion forming an accommodation space with upper and lower openings;
an opening and closing portion that covers and closes the upper opening of the body portion;
Doedoe mounted in the accommodation space of the main body, the compartment partitioning the accommodation space into an upper storage space and a lower installation space;
a bottom forming portion connected to a lower side of the main body and covering the lower opening of the main body;
a cooling module installed in the installation space to cool the storage space;
a control button unit installed on the front surface of the body unit and setting the temperature inside the storage space;
a display panel unit installed on the front surface of the main body unit and displaying the temperature inside the storage space; and
It includes; an opening and closing display unit installed on the main body and displaying whether or not the opening and closing parts are attached to the main body,
the compartment,
A first partition piece installed on the inner surface of the main body part and a second partition piece installed on the inner surface of the main body part and arranged in parallel with the first partition piece to form a spaced space,
The first partition piece is formed with a first communication hole penetrating in the height direction,
The second partition piece penetrates in the height direction, and a second communication hole disposed parallel to the first communication hole is formed,
The cooling module,
A first cooling unit formed of a thermoelectric semiconductor element having a heating unit and a heat absorbing unit;
A cooling fan for introducing the cool air generated by the heat absorbing unit into the storage space;
A second cooling unit for cooling the heat generated by the heating unit; and
A cooling fan for introducing external air into the first cooling unit is provided;
The cold air fan is disposed to face the storage space while being disposed in the spaced space, and introduces cold air generated by the heat absorbing unit into the storage space;
The bottom forming part,
A plate portion formed in a size corresponding to the lower opening of the main body portion and disposed in parallel with the second partition piece;
An air inlet formed through the plate portion and disposed in parallel with the first communication hole and the second communication hole;
A filter unit for filtering foreign substances in the air introduced from the outside while being covered by the air inlet unit; and
A ventilation portion formed through the plate portion is provided,
The first cooling unit, the second cooling unit, and the cooling fan are located in the installation space,
The air inlet,
It is disposed on the lower side of the cooling fan so that external air can easily flow into the cooling fan.
The ventilation part,
Provide a passage through which the installation space communicates with the outside for heat circulation and cooling in the installation space generated by the heating unit;
an insulator disposed in the spaced space between the first partition piece and the second partition piece, filled in an area excluding the cold air fan disposed in the spaced space, and minimizing heat exchange between the storage space and the installation space; Including more,
The body portion is formed of a double layer structure of a body frame and a body insulation material composed of a heat insulation material,
The opening and closing part is formed of a double layer structure of an opening and closing frame and an opening and closing insulation material composed of an insulation material,
The compartment part is formed of a double layer structure of a compartment insulation material composed of a compartment frame and an insulation material,
The opening and closing part further includes an airtight portion formed along a rim so that the upper opening of the body portion is sealed by the airtight portion when mounted on the main body portion,
The opening and closing display unit,
Further comprising: a mounting portion that emits a warning light of a different color depending on whether the opening/closing portion is attached to the body portion, and in which a storage container containing omega-3 fatty acids is seated while being accommodated in the storage space,
The holding part,
It is provided with a seating portion on which the omega-3 fatty acid storage container is seated and an auxiliary cradle providing a space for mounting the seating portion,
the attachment part,
Consisting of a circular upper edge, a circular lower edge, and a connecting portion connecting the upper edge and the lower edge,
The connecting portion is formed so that the size of the longitudinal cross-sectional area gradually increases from the center toward the upper edge, and the size of the vertical cross-sectional area gradually increases from the center toward the lower edge,
The auxiliary holder is formed with a plurality of openings spaced apart from each other, and the seating portion is mounted in each opening.
delete delete delete delete delete According to claim 1,
A reinforcing part for maintaining the shape of the lower side of the body while being attached to the lower edge of the body; and
A support part connected to the lower side of the reinforcing part, transmitting the load of the main body part to the ground, and separating the bottom forming part and the ground to facilitate air circulation to the air inlet part or the ventilation part; further comprising and
the support,
A refrigerator for managing omega-3 fatty acid rancidity, characterized in that it consists of a plurality of support pieces formed in a horseshoe shape.

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