KR20040020587A - Rapid freezing apparatus for living body tissue - Google Patents

Abstract

PURPOSE: An apparatus for rapidly freezing the living body tissue is provided which has an pre-freezing device and needs a trace amount of liquified nitrogen gas, thereby decreasing the amount of nitrogen to be used for freezing. CONSTITUTION: An apparatus for rapidly freezing the living body tissue comprises a gas supplying device(2) for supplying liquified propane gas; a coil element(6) connected to the gas supplying device(2) via a hose(4); a pre-freezing device(3) holding the coil element(6); a holding device(7) continuously connected to the coil element(6); a storing tank(20) consisting of a cover and a body and storing the living body tissue rapidly frozen in the holding device(7); and a freezing tank(1) surrounding the holding device(7).

Description

Rapid freezing apparatus for living body tissue

The present invention relates to a cryogenic rapid freezing apparatus of biological tissue. In general, biological tissue rapid freezing apparatus used for medical use is mainly used by rapidly freezing the biological tissue at a very low temperature using liquefied nitrogen (-196 ℃) or liquefied propane (-185 ℃). In general, liquefied propane or liquefied freon cools biological tissue faster than liquid nitrogen. Therefore, liquefied propane is primarily used for liquefied propane, and biological tissues that have been rapidly frozen can be transferred to liquefied nitrogen for long-term storage. Do.

Examples of the importance of this device include sperm and egg storage, stem cells, and other microorganisms for artificial delivery of humans and animals, and living organisms for research and allografts. Is essential for storage. However, when the cells are frozen, they must be stored in cryogenic conditions without physical damage so that the living body can be used when needed. If rapid freezing is not performed during the freezing process and temperature difference occurs during freezing or the body is frozen due to time difference, it may cause problems such as cell death due to ice crystals and cell death. . In other words, the vitrification structure should freeze the cells without any change in volume. If the ice builds up in the cell due to slow freezing, the volume increases, causing the cells to die and die.

In the conventional rapid freezing apparatus, a separate large capacity liquefied nitrogen gas cylinder is installed, and liquid nitrogen is introduced from the liquefied nitrogen cylinder so that propane gas is introduced into the center of the refrigeration tank connected thereto. The temperature of the liquid nitrogen is about -196 ℃ and liquefied propane gas is -185 ℃. Although the temperature is -9 ° C lower than the liquid nitrogen, the cooling rate is about 5 times faster than that of the liquid nitrogen (5,000 ° C / sec). Therefore, in a liquid propane container, the body (cells and tissues) are rapidly frozen first and stored in a liquid nitrogen container.

The container used in this conventional device is simply formed in a cylindrical shape with a low height, so the preliminary cooling with liquefied nitrogen takes about 30 minutes to 1 hour, which takes a very long time and consumes a lot of liquefied nitrogen. For this purpose, liquefied nitrogen is prepared 2-3 days in advance so that the pressure in the liquefied nitrogen container rises in a closed step so that the liquefied nitrogen is ejected at the expanded pressure. However, if the constant pressure in the liquefied nitrogen container is not reached or the internal pressure is reduced due to repeated use, the liquefied nitrogen is not ejected and it is not a cryogenic environment, so the liquefied propane is not ejected and becomes vaporized propane gas.

In addition, these conventional devices have a disadvantage in that a large amount of liquefied nitrogen and propane have to be used, and since the liquefied nitrogen container must be installed at a fixed place at all times, it is difficult to move to a place where biological tissue is required.

In addition, the conventional apparatus must be used in a fixed type fixed to the table in a place with a ventilation facility in consideration of the stability of the liquefied nitrogen and the exhaust of propane gas.

The present invention has been invented to solve the above disadvantages and problems, the object of the present invention is to make it easy to move the bio-rapid refrigeration apparatus to a place where the biological tissue is required to collect the living tissue and also the It is easy to use and the amount of liquefied nitrogen or liquefied propane gas used can be absolutely reduced, thereby reducing costs, and the preparation time for freezing can be performed within 5 minutes of the conventionally required 2-3 days. In addition, it is an object of the present invention to provide a device capable of safe storage of the frozen living body in a container.

1 is a view for explaining the overall configuration of the apparatus according to the present invention

2 is a view for explaining the structure and assembly of the storage box 20 and the stacking box 70 according to the present invention.

3A and 3B are perspective and bottom views of the storage box;

4 is a storage tong used in the present invention

The main constitution of the present invention for achieving the above object of the present invention comprises: a gas supply body 2 for supplying liquefied propane gas; A coil body 6 connected to the hose 4 of the gas supply body 2; A precooling device (3) for accommodating the coil body (6); A receiver (7) connected in series with the coil body (6); A storage box (20) consisting of a lid (21) and a body (22) for receiving a quick-frozen body from the container (7); It characterized in that it comprises a refrigeration tank (1) surrounding the receptor (7).

Other features and structures other than those described above will be described below in conjunction with the accompanying drawings.

1 is an exemplary view showing the configuration of an apparatus according to the present invention.

As shown, in the present invention, the preliminary freezing chamber 3 is provided between the refrigeration tank 1 and the liquefied propane gas supply body 2. The connection between the gas supply 2 and the prefreezing chamber 3 is made of a flexible insulating hose 4. The hose 4 may be coated with a tube 5 made of a soft material having low heat transfer capability, as the outer side may be a soft heat shield. The inside of the tube 5 is formed in a spiral shape of a flexible copper material free of bending. However, any other material can be used. However, it is safe from ultra low temperature to use a tube having a low heat transfer capability. The coil body 6 is formed inside the precooling device 3.

The coil body 6 is densely helically twisted to achieve the widest possible surface area. The reason for this is to maximize the ejection of liquefied propane by increasing the contact area with liquefied nitrogen so as to maximize the cooling efficiency in a short time. And this coil body 6 extends to the refrigeration tank 1 continuously.

In the middle of the refrigeration tank (1) is provided with a receptor (7), the hose (4) is extended and connected to the receptor (7). It is very important to make the height of the upper end of the container 7 and the freezing tank 1 horizontally the same height. The reason for this is that if there is a difference in height, the temperature is higher than room temperature based on the insulating cover 8 and the temperature around the receptor 7 is lower than -196 ° C. Although it is a short time, rapid freezing is difficult due to time difference.

The coil of the hose 4 generally uses a copper material, and may be a metal such as titanium, platinum, or silver having good thermal conductivity. The connection of the hose to the receptor 7 connects to the bottom or top of the receptor 7. The liquefied propane gas can then be supplied quietly without much shaking. Alternatively, it may be made to be supplied to the top of the receptor (7). In this case, instead of free-falling, it may be configured to stably supply a certain amount of liquefied gas through another buffer device.

FIG. 2 shows a configuration of a refrigerator compartment 20 and a stacker 70 that can be stacked and accommodated. One of the storage box 20 is made of a lid 21 and the body 22, as shown in the figure, the lid 21 is an upper projection 23 is formed in the center of the upper side and the side protrusion 87 is formed on the side And the lower projection 24 is formed at the bottom. And the middle of the through hole 81 is formed. And the body 22 has a through-hole 26 is formed in the center and the receiving groove 25 around the circumference is installed around the circumference and the receiving groove corresponding to the position just below the position of the side projection 87 28 is formed. The accommodating groove 25 contains a living body frozen at the receptor 7.

After inserting the living body into the receiving groove 25, as shown in Figure 3a, the lid 21 and the body 22 is fastened with a fastener 27, such as a bolt. Concave grooves 82 are formed crosswise at the bottom of the body (22). FIG. 3B is an inverted view of FIG. 3A and its bottom view in plan view. As shown, the hatched portion consists of a concave groove. That is, concave grooves 82 are formed in the four surroundings, which in turn are connected to circular grooves 83 therein. In addition, in addition to the intermediate through hole 26, the fixing groove 85 is formed to be slightly deeper at the side thereof.

Fixing groove 85 is not limited to the above position can also be formed in the outermost outer circumference. The role of the fixing groove 85, as shown in Figure 2, in the state coupled with the fastener 84, the lid When opening or locking the lid 21 by rotating the fastener 27 formed on the 21, the fastener 27 is rotated by using a screwdriver or the like. The body 22 is held in place by the turning force. It is to prevent rotation

The circular groove 83 is preferably located below the position where the receiving groove 25 of the body 22 is formed. The reason is that when the liquefied nitrogen is filled, the refrigerant penetrates into the circular groove 83 through the concave groove 82 to sufficiently cool the living body embedded in the accommodation groove 25 of the body 22. The unit storage box 20 of the above configuration may be stacked in a plurality of sequentially as shown in the figure. That is, the upper projection 23 is fitted into the through hole 26 of the body 22 placed thereon.

On the other hand, in the center of the receptor (7), the projection (71) is coupled by screwing, and the fastener (84) is also fixed by screwing on its side. Therefore, the through holes 26 and the fixing grooves 85 of the body 22 are fitted into the protrusions 71 and the fasteners 84, and the storage boxes 20 having the same shape are stacked on top of each other. At this time, the side protrusion 87 is formed in the upper portion of the lid 21, and the receiving body 28 is formed in the other body 22 corresponding thereto, and from above two layers, the secondary safe lamination is made by the combination thereof. .

The usage example by the above structure is demonstrated below.

Liquefied nitrogen is thrown into the precooling device 3 with the coil body 6 having a large surface area. And liquefied nitrogen is thrown in between the outer periphery of the container 7 for containing liquefied propane and the inner periphery of the freezing tank 1. That is, the liquefied nitrogen is charged into the precooling device 3 and the freezing tank 1 so that the temperature of the coil body 6 and the liquefied propane receptor 7 connected to the liquefied propane gas supply 2 is about -196. The liquefied propane in the liquefied propane gas feeder 2 at room temperature is moved to the coil body 6 and moved into the receptor 7 which is a biological tissue freezing device. That is, in the precooling device 3, the propane gas is contained in the container 7 in a liquefied state while the temperature of the liquefied propane gas is lowered to a temperature lower than -185 ° C. The principle is that if the temperature in the vessel is rapidly reduced to very low temperature, the volume of the air volume becomes extremely small, so that negative pressure is generated. Next, the principle is to move to the receptor (7).

When the appropriate amount enters the receptor 7, further supply from the liquefied propane feed 2 is blocked. The liquefied propane in the receptor (7) is initially affected by the cryogenic temperature of liquefied nitrogen around the receptor (7) over time in a transparent liquid such as clear water, the liquefied propane appears frozen from around the receptor (7). At this time, the temperature becomes lower than the original liquefied propane temperature, -185 ° C, and is in a state suitable for rapidly freezing the biological tissue. At this time, the biological tissues are taken and rapidly frozen, and the frozen tissues are put into the receiving grooves 25 of the storage body 20 and the body 22 in the stacking box 70 and then fixed by closing the lid 21, and then repeating. By stacking a plurality of biological tissues storage box (20) to be processed so that the liquefied nitrogen (92) is stacked in the stack (70) to temporarily store or transfer to a cryogenic large biological tissue storage container can be stored for a necessary time or stored forever Do. At this time, when transporting or removing the storage box 20 to a large cryogenic large tissue storage container, using a long forceps 90 as shown in Figure 4, both ends of the forceps 90 is made of a semi-circular groove The groove 91 formed in the upper projection 23 shown in FIG. 2 can be picked up. Using the tongs 90 makes it easy to transport the storage box 20 and has the advantage of handling the cryogenic storage box 20 safely.

In addition, the storage box 20 is designed to be efficiently stored in an ultra low temperature state, so that the liquid nitrogen enters the inside of the container 7 of FIG. 2 so as to be cooled by the liquid nitrogen, and the concave groove formed at the bottom of the storage box 20 ( 82 and the circular groove 83 are filled with liquid nitrogen. It also comes up through the central through hole 26. That is, even when the storage box 20 is stacked, a large number of storage boxes 20 stacked by liquefied gas are configured to communicate upward through a central through hole 26 formed in the storage box 20.

According to the present invention as described above, since only a very small amount of liquefied nitrogen is required by the configuration of the preliminary cooling device (3) has the effect of reducing the consumption of nitrogen to be supplied in large quantities to make the conventional refrigeration temperature conditions to a minimum have

In addition, according to the present invention, since the preliminary preparation time for freezing is lowered in a short time to -196 ℃ within 1 to 5 minutes, there is a very rapid effect in the preparation work.

In addition, according to the present invention, a nitrogen tank which requires a sufficient amount of liquefied nitrogen is unnecessary, and only the configuration of the precooling device 3, the refrigeration tank 1, and the gas supply body 2 constituted almost integrally. Because it is made, it can be made very compact and has the advantage of being free to move to the desired place.

In addition, according to the present invention, there is no need to carry or install a bulky liquid nitrogen container, and the installation space of the device is not required.

Also, according to the present invention, the flexible hose 4 has a structure, and the precooling device 3 and the refrigeration tank 1 are hooded (propane gas is an explosive dangerous substance, so the operation is performed under good ambient conditions. It should be equipped with a normal hood, etc.) or in a well-ventilated place arbitrarily flexible flexibly set the position can be conveniently done work can increase the efficiency of work.

Claims (4)

A gas supply body 2 for supplying liquefied propane gas; A coil body 6 connected to the hose 4 of the gas supply body 2; A precooling device (3) for accommodating the coil body (6); A receiver (7) connected in series with the coil body (6); A storage box (20) consisting of a lid (21) and a body (22) for receiving a quick-frozen body from the container (7); Ultra-low temperature rapid freezing apparatus of a living tissue, characterized in that it comprises a freezing tank (1) surrounding the receptor (7) According to claim 1, wherein the storage box 20 is composed of a lid 21 and the body 22, it is configured to be fastened by a fastener 27, the lid is an image projecting upward The body 22 includes a protrusion 23 and a side protrusion 87, a lower protrusion 24 protruding from the lower end thereof, and a through hole 81 penetrating the upper and lower protrusions 23 and 24. Is made to be able to be stacked in the stacking box 70, including a plurality of receiving grooves 25 formed on the upper surface, a through hole 26 formed in the middle and a receiving groove 28 formed on the outer periphery of the lower side. Ultra-low temperature freezing device of biological tissue The concave concave groove 82 is formed in the bottom of the storage box 20, and a circular groove 83 communicating with the concave groove 82 is formed therein. Ultra-low temperature rapid freezing apparatus of a biological tissue, characterized in that the fixing groove 85 is formed for fixing to the stacking box 70) According to claim 1, wherein the stacking box 70 is formed so as to fasten the storage box 20 by forming a fastening protrusion 71 in the center thereof, and a fastener 84 that can be fastened to the side thereof. Ultra-low temperature freezing device of biological tissue