KR100479876B1 - Door of Kim-Chi Storage is Made from Heat Conduction Plastics - Google Patents

Abstract

The present invention is prepared by using a heat conductive resin having a thermal conductivity similar to that of a jar dock (kim jangdok) lid in manufacturing a door cover located inside the door of the kimchi storage, so that the door cover is sensitive to the ambient temperature when the door is opened and closed. The present invention relates to a door of a kimchi storage room in which a heat conduction resin is applied to make an optimum temperature condition for ripening and storing kimchi by having a state that is neither insensitive nor insensitive. The present invention is in contact with the upper surface of the storage compartment 20. In the door 30 of the kimchi storage having a door cover 31 to be used, as the material of the door cover 31 using a thermal conductivity resin having a higher thermal conductivity than that of a conventional plastic, but lower than that of a metallic material or aluminum. It is characterized by manufacturing.

In this case, the thermally conductive resin refers to a resin made of a composite material that is improved so that the thermal conductivity is superior to the thermal conductivity of the plastic by mixing an inorganic material with a conventional plastic material as a main material, the thermal conductive resin is a jar dock called thermal conductivity is Onggi It has a range of about 1-2 W / m * K which is similar thermal conductivity.

Description

Door of Kim-Chi Storage is Made from Heat Conduction Plastics

The present invention relates to a door of a kimchi storage room to which a thermally conductive resin is applied, and more particularly, in the manufacture of a door cover located inside the door of the kimchi storage room, a material of which thermal conductivity resin having a thermal conductivity similar to that of a jar dock (kimjangdok) lid is used. When the door is opened and closed, the door cover is not sensitive to the ambient temperature nor is insensitive to the temperature of the kimchi cellar to which the thermal conductivity resin is applied to make the optimum temperature condition for ripening and storing kimchi. It is about.

As it is well known, recently, kimchi storage that has been matured for a certain period of time so that the fresh kimchi can be enjoyed for a certain period of time so that users can always enjoy the taste of fresh kimchi according to the user's preference regardless of the change of the season is becoming active. .

Unlike conventional refrigerators, such kimchi storages have a cooling system and a heater function to ripen kimchi for a certain period of time in a storage room or to be refrigerated for a long time at a constant temperature.

As such, kimchi storage is a home appliance that enables to store and store kimchi in the storage room through optimal temperature control necessary for the ripening and storage of kimchi using a cooling system and a heater. Recently, various kinds of products (kimchi storage) are produced and provided. It is becoming.

On the other hand, our ancestors before the Kimchi storage was developed, soaked kimchi before winter approached and stored it using the jar poison (Kimjangdok) buried in the ground. It is well known that the method of storing and storing kimchi for a long time was used as it was able to maintain a constant temperature through heat transfer.

And, based on the wisdom of storing kimchi of these ancestors, Kimchi storage is needed by the need to implement a device that can store and store kimchi for a long time more conveniently in modern urban life such as an apartment where jar jars cannot be used. Was developed.

1 is a perspective view showing one embodiment of a conventional kimchi storage provided in various ways as described above.

As shown, the conventional kimchi storage has a structure having a main body 10 having an appearance in a predetermined shape and at least one storage chamber 20 to store the kimchi inside the main body 10.

In this case, as shown in Figure 1, the storage compartment 20 is configured as an upper opening and closing storage compartment 20 having a door 30 of the upper opening and closing method so as to enter and open from the upper surface of the main body 10 to the upper side. It is normal to have one.

Of course, the storage compartment 20 may be configured as a drawer-type storage chamber that slides in and out of a drawer type.

In addition, although not shown in FIG. 1, a separate machine room is usually provided inside the main body 10 of the kimchi storage, and various accessories for a cooling system such as a compressor and a condenser are mounted in this machine room.

In addition, the front panel of the main body 10 has an operation unit 40 having a display that displays a plurality of buttons and various operating states that can be controlled to refrigerated or aged kimchi stored in the storage compartment 20 It is installed.

In addition, as shown in FIG. 2, on the door cover 31 located inside the upper open / close door 30, a deodorant accommodating part 50 provided with a deodorant 51 for removing the kimchi odor of the storage compartment 20 is installed. ) Is formed, and a gasket 60 is installed at the edge of the door cover 31 which is in contact with the upper surface of the main body 10, and when the door 30 is closed, the air gap is sealed between the storage compartment 20 and the outside. It is common to configure it to block outflow.

In addition, the kimchi storage is equipped with a variety of accessories, such as various control devices and sensors required for aging and long-term storage of kimchi, of course.

On the other hand, in the kimchi storage equipped with a variety of components as described above, one of the most important factors to determine the excellence of the product (kimchi storage), how to set the optimum temperature conditions for ripening and storage kimchi It is no exaggeration to say that it is determined by having a temperature control and temperature maintaining technique that can control and maintain the set temperature in an optimum state in various surrounding conditions (limiting conditions).

That is, kimchi stored and stored in the storage room 20 of the kimchi storage is sensitive to sudden temperature changes and unbalanced temperature distribution in the storage room 20. Such rapid temperature changes and unbalanced temperature distributions are the period of aging mode. It may act as a cause of overcooling or over ripening, and during storage mode, it may act as a cause of decreasing the taste and freshness of kimchi.

Therefore, it is most preferable that the temperature in the storage chamber 20 is maintained in an evenly distributed state without temperature deviations up and down within the set temperature range without being greatly influenced by changes in ambient temperature as much as possible.

In particular, during the process of opening and closing the door 30 of the kimchi storage, the temperature of the storage compartment 20 is easily affected by the influence of the ambient temperature (outside air temperature) higher than the temperature of the storage compartment 20.

Accordingly, it is necessary to be careful in selecting a material of the door cover 31 constituting the door 30 so as to cope with a temperature change caused by the opening and closing of the door 30.

 By the way, conventionally, the door cover 31 was manufactured by using a conventional plastic material having a low thermal conductivity (approximately, having a thermal conductivity of about 0.17 W / m · K).

In the case of manufacturing the door cover 31 using such a conventional plastic material, since the thermal conductivity is very low, the door cover 31 itself is less affected by the ambient temperature when the door 30 is opened or closed. In the state in which the door 30 is closed, it exhibits a disadvantage that it is very weak in maintaining an even temperature distribution by heat transfer in the storage compartment 20.

That is, in the sealed storage chamber 20, the temperature distribution is made by heat transfer such as air convection and conduction. Typically, the temperature distribution is caused by a predetermined temperature deviation in the temperature distribution between the upper and lower parts of the storage chamber 20. Shows an imbalance of.

This is because the heat passing through the evaporation tube (not shown), which is usually wound around the outer circumference of the inner case constituting the storage compartment 20, the refrigerant passing through the evaporation tube is evaporated as it flows from the lower side of the inner case to the upper side, so that more cold air This is because the cold air has a temperature difference between the upper and lower portions of the storage compartment 20 due to the characteristic of flowing down compared to the warm air, which acts as a cause of the imbalance of the temperature distribution.

Therefore, in view of maintaining an even temperature distribution as described above, it is more preferable to use the door cover 31 as a material having good thermal conductivity so that heat exchange by active heat conduction occurs at the upper side of the storage chamber 20. The conventional plastic material used in the related art has a problem that it is very fragile in this respect because of low thermal conductivity.

Thus, as one of the measures to improve the above problems, conventionally the material of the door cover 31 is made of aluminum (excellent thermal conductivity of about 175 W / m · K) or metal material (stainless steel) In this case, it may be produced using approximately 14 W / m · K thermal conductivity).

As described above, in the case of using an aluminum material or a metal material, since the thermal conductivity is very excellent, it can be said to have an advantage that it can work more effectively in achieving an even temperature distribution in the sealed storage compartment 20.

However, in the case of the door cover 31 using an aluminum material or a metal material, when the door 30 is opened and closed, the thermal conductivity is so good that it has a disadvantage of acting too sensitive to the influence of the ambient temperature.

That is, in the case of the door cover 31 made of aluminum or metal having good thermal conductivity, when the door 30 is opened, the door cover 31 is instantly heated by an ambient temperature (outside air temperature) higher than the temperature of the storage compartment 20. When the door 30 is closed in the heated state, the internal temperature change width of the storage compartment 20 increases due to the heated door cover 31.

In particular, in the case of the door cover 31 made of an aluminum material having a very high thermal conductivity, when the door 30 is opened while the storage compartment 20 is cooled and maintained at a low temperature, the thermal conductivity is increased due to the high temperature of the outside air. As a sudden temperature change occurs on the good door cover 31, water droplets are formed on the door cover 31 due to the temperature difference.

The present invention has been made to more effectively solve the problems caused by selecting a conventional plastic material or aluminum (or metal) as the door cover material of the kimchi storage described above, the present invention is a jar dock (Kim Jang-dok) Based on the wisdom of the ancestors of the ancestors, based on the thermal conductivity of the material that made the jar dock, the thermal conductivity of the door cover can be appropriately responded to sudden temperature changes by using a thermal conductivity resin with a thermal conductivity similar to that of the lid of the jar dock. In order to solve the unbalanced temperature distribution more effectively.

That is, an object of the present invention is to prepare a door cover of the kimchi storage using a heat conduction resin having a thermal conductivity similar to that of a jar dock (kim jang dock) lid, so that the door cover is sensitive to ambient temperature when the door is opened and closed. It is to provide a door of a kimchi storage room using a thermally conductive resin to make an optimal temperature condition for ripening and storing kimchi by having a state that is neither insensitive nor insensitive.

In addition, another object of the present invention when the door is opened in the state of manufacturing the door cover using a thermal conductivity resin having a thermal conductivity similar to the lid of the jar dock (kim jangdok) as described above, depending on the thermal conductivity of the door cover under the influence of the ambient temperature When the temperature change occurs in the door cover, the user can visually check the door of the Kimchi storage room using the heat-conductive resin that adds a cool keeper function to bring the color change according to the temperature change on the door cover. To provide.

The present invention for achieving the above object, in the door of the kimchi storage having a door cover which is in contact with the upper surface of the storage compartment, it is conventional to have a thermal conductivity higher than the thermal conductivity of the conventional plastic and lower than the thermal conductivity of the metal material or aluminum. The plastic material is used as the main material to mix the inorganic material to produce a thermally conductive resin; Kimchi to which the door cover is manufactured using a thermally conductive resin having a heat conductivity in the range of 1 to 2 W / m · K, which is similar to a jar poison, which is called onggi, among the manufactured thermally conductive resins. This is accomplished by providing a door of the reservoir.

In this case, the thermally conductive resin means that the resin is made of a composite material that is improved so that the thermal conductivity is superior to the thermal conductivity of the plastic by mixing an inorganic material with a conventional plastic material as a main material.

In particular, in the preferred embodiment of the present invention, the thermally conductive resin is characterized by having a thermal conductivity in the range of about 1 to 2 W / m · K, which is similar to a jar poison called onggi.

The cool keeper function of causing a color change according to the temperature change is added to the door cover so that the user can visually check the material property of the temperature change of the door cover.

In this case, the cool keeper function is preferably made through a film attached to the reversible Zion ink is inserted to cause a color change when a predetermined temperature or less.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, and in describing the present invention, the general structure of the kimchi reservoir is the same as that of the kimchi reservoir described in the prior art and the same name and the same reference numerals. Give it a weapon.

Figure 3 is a perspective view showing a kimchi storage to which the present invention is applied, Figure 4 is a cross-sectional view schematically showing a door of the kimchi storage according to the present invention, Figure 5 is mounted on the door cover of the kimchi storage according to the present invention Is a plan view showing a state that the cool keeper is installed in the deodorant storage.

3 and 4, the configuration of the kimchi storage to which the present invention is applied is the same as the configuration of the kimchi storage described in the prior art.

That is, the kimchi reservoir to which the present invention is applied has a structure having a main body 10 having an appearance in a predetermined shape and at least one storage chamber 20 so as to store the kimchi inside the main body 10. have.

Here, the storage compartment 20 is composed of an upper opening and closing storage compartment 20 having an upper opening and closing door 30 so as to enter and open from the upper surface of the main body 10 to the upper side.

And, as shown in Figure 4 on the door cover 31 located on the inner side of the upper opening and closing door 30, the deodorant accommodating unit 50 is provided with a deodorant 51 for removing the smell of kimchi in the storage compartment 20 ) Is formed, and when the door 30 is closed at the edge of the door cover 31 in contact with the upper surface of the main body 10, the gasket 60 is sealed between the storage compartment 20 and the outside to block the inflow and outflow of air. ) Is installed.

Of course, in addition to the kimchi storage is equipped with a cooling system and a heater required for aging and long-term storage of kimchi, according to the various accessories such as various control devices and sensors.

The present invention relates to a material change of the door cover 31 constituting the door 30 in the kimchi storage having the above components.

That is, as the material of the door cover 31, plastic or aluminum (or metal) is conventionally used. However, in the case of using plastic or aluminum (metal) as described above in the prior art, each other may be used in terms of heat conduction. Since there are various advantages and disadvantages, and each of the problems described above due to their disadvantages, the present invention is an approximation of the conventional plastic of the door cover 31 material to solve such problems. It has a thermal conductivity higher than the thermal conductivity of 0.17 (W / m · K) and lower than a metal material (for example, the thermal conductivity of stainless steel is 14 W / m · K) or less than the approximate thermal conductivity of aluminum, 175 (W / m · K). It is characterized by using a thermally conductive resin having.

Here, the thermally conductive resin is defined as the use of a composite material improved by mixing an inorganic material with a conventional plastic material as a main material so that the thermal conductivity is superior to that of the plastic.

Therefore, a metal material such as steel or stainless steel is excluded from the heat conductive resin.

In particular, it is preferable that the thermally conductive resin to be applied in the preferred embodiment of the present invention has a thermal conductivity similar to that of a lid of a jar dock, which is commonly called onggi.

This is made by baking the onggi mainly made of an inorganic material and baking it, and the thermal conductivity is found to be in the range of about 1 to 2 W / m · K. The thermal conductivity of the thermally conductive resin of the present invention is also about 1 to 2 W / m ·. This is to show characteristics such as Onggi by using a K-range.

In other words, the onggi is not sensitive to ambient temperature due to its material properties and is not insensitive. When storing kimchi in a jar poison such as onggi, it is suitable for fermentation and storage of kimchi through heat transfer with geothermal heat in the ground. It is well known that conditions can be set and stored for long periods of time.

Therefore, in the present invention, the thermal conductivity of the door cover 31 is approximately 1 to 2 W / m · K, which is the thermal conductivity of the jar dock (or pot), so that the door 30 that opens and closes the storage compartment 20 is jar dock. It is intended to reproduce the same function as the lid of.

In other words, according to the present invention, when the door 30 is opened and closed in a state in which the door cover 31 is made of a heat conductive resin having a heat conductivity of about 1 to 2 W / m · K, As the door cover 31 does not act sensitively to the ambient temperature (outer air temperature) and is not insensitive, it is more effective to give optimum conditions for fermentation and storage of kimchi in a sealed chamber. It is confirmed.

In particular, in one embodiment according to the present invention is applied to the door cover 31 by molding a thermally conductive resin having a thermal conductivity of about 1 ~ 2 W / m · K by mixing an inorganic material with a conventional plastic material as a main material I'm doing it.

FIG. 6 is an experimental diagram for showing heat transfer characteristics of a thermally conductive resin formed by mixing a plastic and an inorganic material as a main material as one embodiment according to the present invention as compared with other materials. .

That is, the diagram shown in Figure 6 shows that the thermal resistance value of the thermally conductive resin according to the present invention is in the range of the thermal resistance value of Onggi, the larger the thermal resistance value is the poor heat transfer and the better the thermal insulation. Note that the thermal resistance value is in inverse proportion to the thermal conductivity.

Meanwhile, as shown in FIG. 5, in the present invention, the door cover 31 is made of the material of the door cover 31 as described above in the state of being made of a heat conductive resin having a thermal conductivity of about 1 to 2 W / m · K. Cool Keeper (Cool Keeper) to cause a color change in accordance with the temperature change on the cover of the deodorant storage unit 50 mounted on the door cover 31 so that the user can visually check the material characteristics of the temperature change of the; 70) Add function.

Here, the function of the cool keeper 70 means that the Zion ink is attached to the film is inserted to cause a color change when the temperature is below a certain temperature, the Zion ink uses a reversible Zion ink that is colored in accordance with the temperature change.

At this time, by using the thermally conductive resin according to the present invention as the cover material of the deodorant storage unit 50, the same temperature change as the temperature change occurring in the door cover 31 under the same conditions as the door cover 31 is a cool keeper ( 70).

Of course, the cool keeper 70 can be added directly on the door cover 31, not the cover of the deodorant storage unit 50, in the embodiment of the present invention, the deodorant storage unit 50 is a door Since it is located in the central portion of the cover 31, the cool keeper 70 function is added to be positioned on the cover of the deodorant storage unit 50 in consideration of the convenience and arrangement of the work.

In addition, the cool keeper 70 may be designed to have a snow shape, which means coolness, so that the snow shape may appear according to temperature change.

As described above, according to the present invention, the door cover material of the kimchi storage room is made of a thermal conductivity resin having a thermal conductivity of 1 to 2 W / m · K to reproduce the function of the door of the kimchi storage room such as a jar dock lid, and thus, the conventional plastic material The thermal conductivity is higher than that of the storage chamber, so that the heat exchange is more smoothly in the storage room, thereby improving the temperature deviation between the upper and lower parts of the storage room in a more desirable direction, thereby helping to maintain an even temperature distribution. This has the advantage that the heat storage function is excellent.

In addition, according to the present invention, by using a conventional aluminum material with respect to the temperature change according to the opening and closing of the door is less sensitive to the ambient temperature change, there is an advantage that can solve the problem when using the conventional aluminum material have.

In particular, by adding a cool keeper function on the door cover while using the heat conductive resin as the material of the door cover, the user can directly check the temperature change and thus have the advantage of increasing the reliability of the product.

1 is a perspective view showing one embodiment of a conventional kimchi storage.

Figure 2 is a cross-sectional view schematically showing the configuration of the door in the conventional kimchi storage.

Figure 3 is a perspective view showing a kimchi storage to which the present invention is applied.

Figure 4 is a schematic cross-sectional view of the door of the kimchi storage in accordance with the present invention.

Figure 5 is a plan view showing a state in which the cool keeper is installed on the deodorant storage unit mounted on the door cover of the kimchi storage according to the present invention.

6 is a diagram schematically showing a range of heat resistance values for each material for comparing heat transfer characteristics for each material.

* Description of the symbols for the main parts of the drawings *

10: main body 20: storage room

30: door 31: door cover

40: operation unit 50: deodorant storage unit

51: deodorant 60: gasket

70: Cool Keeper

Claims (5)

In the door 30 of the kimchi storage having a door cover 31 in contact with the upper surface of the storage compartment 20,  To prepare a thermally conductive resin by mixing the inorganic material with the main material of the main plastic material so as to have a thermal conductivity higher than the thermal conductivity of the metal or aluminum, but lower than the thermal conductivity of the conventional plastic; The thermally conductive resin is characterized in that the door cover 31 is manufactured using a thermally conductive resin having a range of about 1 to 2 W / m · K, which is similar to that of a jar poison, which has a thermal conductivity of the prepared thermally conductive resin. Kimchi storage door applied. delete delete The method of claim 1, The cool keeper 70 is added to the door cover 31 to change the color according to the temperature change so that the user can visually check the material characteristics of the temperature change of the door cover 31. The door of Kimchi storage using heat conductive resin. The method of claim 4, wherein The cool keeper 70 function is a kimchi storage door applying heat conductive resin, characterized in that made by attaching a film inserted into the reversible Zion ink that causes a color change when the temperature is below a predetermined temperature.