KR101064547B1 - Low temperature freezer using adiabatic material - Google Patents

Abstract

A low temperature freezer for storing aging materials such as liquid compositions for electronic materials, fine chemicals, pharmaceuticals and the like is disclosed. The low temperature freezer is provided with a cooling tube for cooling, made of a housing and an insulating material to form an internal space for storing goods, and includes a separator for separating the two or more internal spaces. The insulation material may be selected from foamed polystyrene plates, plate / fireproof insulation, and heat reflection insulation, wherein the separator comprises wrapping the outside of the non-insulating separator with insulation. In addition, the freezer of the present invention detects the temperature change of the interior space of the housing for the thermocouple sensor for controlling the operation of the freezer, the internal space in a close position for a long-term storage storage, set the internal space located in the distant short-term storage storage do.

Freezer, Low Temperature Freezer, Low Temperature Storage Stability, Aging Material

Description

Low temperature freezer using adiabatic material             

1 is a view showing a change in the air flow inside the freezer when the second internal space of the four-stage separate cold freezer.

The present invention relates to a freezer for storing aging materials, such as liquid compositions for electronic materials, fine chemicals, pharmaceuticals, and the like, and more particularly, to low-temperature freezers having improved temperature stability by using an insulating material as an inner space separator of a housing. It is about.

Aging materials that react at room temperature, such as liquid compositions for electronic materials, fine chemicals, and pharmaceuticals, are a type of product with a defined expiration date, which deteriorate the characteristics of the product after a certain period of time. It is important to keep it at low temperature and uniform temperature for extension and quality maintenance. In particular, in the case of the reactive material in the aging material, the low temperature storage of -10 ℃ to -40 ℃ is mandatory depending on the characteristics of the product. In general, a freezer, which is used to store aging materials at a low temperature, that is, a housing of a freezer, is provided with a cooling tube for cooling to allow cooling in up, down, left and right directions, and to maintain a set temperature. The thermocouple sensor is also located anywhere in the housing to detect temperature changes in the internal space and to control the operation of the refrigerator. Most freezers can use more than just the desired interior space by separating two or more interior spaces and doors in each separate interior space in order to load more products efficiently and to minimize temperature changes throughout the freezer. It is supposed to be. However, as shown in Figure 1, when opening the door of the second internal space for the entry / export of the product, the external hot air flows in the temperature of the second internal space is raised, where the thermal equilibrium of the entire freezer As the cold air in the first, third, and fourth inner spaces of which the doors are closed moves to the second inner space in which the temperature rises, the temperatures of the first, third and fourth inner spaces of which the doors are closed also increase, so that the reactive material stored in the freezer. Is subjected to thermal shock and loses its properties.

In order to solve the above problems, the cooling method is used to reduce the size of the freezer or to control the temperature of the internal spaces, but if the size of the freezer is reduced, the storage capacity of the product is also reduced, so the cost of having a large freezer increases. In the case of the freezer of the cooling method that controls the temperature of the internal spaces, the improvement effect is not satisfactory compared to the high price.

Accordingly, it is an object of the present invention to provide a low temperature freezer that can maintain temperature stability by preventing a sudden temperature change of the separated internal spaces.

Another object of the present invention is to provide a low temperature freezer for maintaining the characteristics and extending the life of the reactive material.

Yet another object of the present invention is to provide a low temperature freezer in which the storage can be selected according to the storage period.

In order to achieve the above object, the present invention is provided with a cooling tube for cooling, consisting of a housing and an insulating material to form an internal space for storing goods, and includes a separator for separating the two or more internal spaces. To provide a low temperature freezer. The insulation material may be selected from foamed polystyrene plates, plate / fireproof insulation, and heat reflection insulation, wherein the separator comprises wrapping the outside of the non-insulating separator with insulation. In addition, the freezer of the present invention detects the temperature change of the interior space of the housing for the thermocouple sensor for controlling the operation of the freezer, the internal space in a close position for a long-term storage storage, set the internal space located in the distant short-term storage storage do.

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

Insulation material is a material to reduce the heat loss or heat inflow to the outside by covering the outside of the desired portion to maintain a constant temperature, it is divided into inorganic, organic, composite insulation according to the type used. Inorganic insulation materials include rock wool, glass wool, vermiculite, perlite and diatomaceous earth, and organic insulation materials include polystyrene, cork, polyurethane and urea, and composite insulation materials are a mixture of various materials such as polystyrene, perlite, vermiculite and silica. There is an adiabatic mortar added to the back. Insulation is also divided into cell-type (bubble) insulation and reflective insulation depending on the physical structure. First of all, the cellular insulation is formed by sealing or emptying a part of the solid material, which is made by sealing these spaces, and the reflective insulation is made of a multi-layered flat board or thin metal piece having high reflectance. Each board or piece is spaced to reflect radiant heat. The present invention uses such a heat insulating material to separate the interior of the freezer into a plurality of spaces. Referring to Figure 1, when describing the low temperature freezer according to the present invention, the insulating material used as the separator 20 for partitioning the inner space of the housing 10 may be selected from foamed polystyrene plate, plate / fireproof insulation, and heat reflection insulation. Can be. The separator 20 partitioning the inside of the housing 10 is directly manufactured by the insulating material, or by using the outside of the separator made of stainless steel, aluminum, or the like by using the insulating material, and thus, a sudden occurrence of opening and closing of the low temperature freezer door is achieved. It is possible to prevent thermal shock of reactive materials due to temperature changes.

In the case of reactive materials such as liquid compositions for electronic materials, fine chemicals, and pharmaceuticals, storage below a certain temperature is essential for quality stability, but the temperature inside the low temperature freezer storing the reactive materials may vary by up to 7 ° C. Can be. This temperature difference is proportional to the capacity of the low temperature freezer and represents a temperature difference of about 2 to 6 ° C. depending on the distance from the thermocouple sensor installed in the freezer. Therefore, even if the temperature of the internal space in which the thermocouple sensor of the low temperature freezer is located is an appropriate temperature range, the temperature of the internal space far from the thermocouple sensor may deviate from the set temperature, which may degrade the quality and life of the stored product. In the present invention, the temperature difference inside the freezer occurs according to the distance to the thermocouple sensor as described above, located near the thermocouple sensor, the internal space having excellent temperature stability for long-term storage, away from the temperature stability The falling internal space is set as a short term storage.

The thermocouple sensor measures the temperature by using a minute voltage difference generated by the temperature difference between two different metals. When both ends of dissimilar metals are bonded to each other and a temperature difference is given to both junctions, thermoelectric power is generated. In the circuit, the temperature is measured using the principle that a thermal current flows. Thermocouple sensors have different output voltage characteristics depending on the type of metal used. Therefore, select the type of metal according to the temperature range. Examples of the metal include platinum, platinum-rhodium alloys, nickel alloys, nickel-chromium alloys, nickel-silicon alloys, iron, copper, copper, and constantal.

Hereinafter, the present invention will be described in more detail with reference to specific examples and comparative examples. The following examples are intended to illustrate the present invention more specifically, but the scope of the present invention is not limited by the following examples.

Example 1

The general separator of the four-stage low temperature freezer shown in FIG. 1 was replaced with a separator made of expanded polystyrene. A thermocouple sensor is positioned in the third internal space of the low temperature freezer, and cooling tubes are installed on the walls of the first, second, third and fourth internal spaces of the low temperature freezer, and the set storage temperature is -25 ° C. First, before opening the door, measure the temperature of each of the first, second, third, and fourth internal spaces, and then open the first internal space door, and open the door at the time of 1 minute, 1 minute 30 seconds, and 2 minutes. 1 The temperature of the inner space and the second, third and fourth inner spaces in which the doors were closed were measured. In the same manner as above, the doors of the second, third, and fourth internal spaces were sequentially opened, and the values of the remaining internal spaces were measured, and their values are shown in Table 1.

From Table 1, it can be seen that when the expanded polystyrene as a heat insulating material is used as a separator of a freezer, when the second inner space is opened for 2 minutes, the third and fourth inner spaces maintain a temperature of −20 ° C. or lower. , 4 When the inner space was opened, it was confirmed that all the inner spaces except the first inner space maintained a constant temperature of -20 ° C or lower. Through this, it can be seen that the third internal space in which the thermocouple sensor is located and the second and fourth internal spaces adjacent thereto are superior in temperature stability to the first internal space located far from the thermocouple sensor. Therefore, the third internal space in which the thermocouple sensor is located, the second internal space adjacent to the fourth internal space, and the fourth internal space may be used as the storage for the long term, and the first internal space located far from the thermocouple sensor may be set as the storage for the short term. Preferably, the third internal space and the fourth internal space may be set as a storage for long term storage, and the first internal space and the second internal space may be set as short term storage. This is because the second and fourth internal spaces are located at the same distance from the thermocouple sensor located in the third internal space, but the second internal space is located farther from the freezer where cold air is generated than the fourth internal space. This is because the temperature stability decreases when the door is opened.

Comparative Example 1

The same low temperature freezer as in Example 1 was used except that a freezing space separator made of general stainless steel or aluminum was used. First, after measuring the temperature of each of the first, second, third, and fourth interior spaces before opening the door, the first interior space door is opened, and the first interior space in which the door is opened at the second time and the second, 3, 4 the temperature of the internal space was measured. In the same manner as above, the doors of the second, third, and fourth internal spaces were opened in turn, and the values of the remaining internal spaces were measured, and their values are shown in Table 2.

Condition
Opening hours Housing interior temperature (℃) Remarks First
Interior space 2nd
Interior space The third
Interior space 4th
Interior space Internal space below -20 ℃ First interior space
Opening Before opening -22.2 -24.6 -25.9 -28.5 3, 4
Interior space 2 minutes +1.4 +20.2 -24.3 -22.7 2nd interior space
Opening Before opening -21.1 -24.8 -25.6 -27.6 3, 4
Interior space 2 minutes +19.4 +2.6 -23.1 -24.1 3rd interior space
Opening Before opening -21.7 -25.2 -26.0 -27.4
3rd interior space 2 minutes +12 +18 -22.2 -19.5 4th internal space
Opening Before opening -22.3 -25.1 -26.1 -27.2
none 2 minutes +8.1 +13.6 -17.2 -17.6

Table 2 shows that in the case of the low temperature freezer using a conventional separator, when the first inner space and the second inner space are opened for 2 minutes, the third inner space and the fourth inner space maintain a temperature of -20 ° C or lower. When the third internal space is opened, only the third internal space maintains a temperature of -20 ° C or lower, and when the fourth internal space is opened, all internal spaces including the fourth internal space exhibit a temperature of -20 ° C or higher. It can be seen. Therefore, when the fourth internal space is used, storage materials stored in the entire freezer (first, second, third, and fourth internal spaces) may suffer from thermal shock due to rapid temperature change, which may result in deterioration and shortening of life. .

As described above, the present invention provides a low temperature freezer having excellent temperature stability against rapid temperature change, thereby maintaining the properties of the reactive materials, such as liquid compositions for electronic materials, fine chemicals, and pharmaceuticals, and extending the lifespan. For example, the choice of storage for storage periods allows for more effective management of reactive materials.

Claims (4)

A housing having a cooling tube for cooling therein and forming an inner space for storing the article; And It is made of a heat insulating material, and includes a separator for separating the interior space into two or more, The insulation material is selected from the group consisting of expanded polystyrene plates, plate / fireproof insulation, and heat reflection insulation, The thermocouple sensor for controlling the operation of the refrigerator by sensing the temperature change of the internal space of the housing, the low temperature, characterized in that the internal space of the adjacent position is set as a storage for long-term storage, the internal space located at a remote location for short-term storage freezer. delete The low temperature freezer according to claim 1, wherein the separator wraps the outside of the non-insulating separator with a heat insulating material. delete

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