SU1723417A1 - Container for low-temperature conservation of biological objects - Google Patents

Abstract

The invention relates to devices for cooling and transporting biological objects, such as blood samples taken in the field, or hunting and fishing products. The purpose of the invention is to provide accommodation in a container of objects of various sizes and increase the reliability of its operation. The container includes a housing with a base. The invention relates to devices for cooling and transporting biological objects, such as blood samples taken from E field conditions, or from hunting and fishing products. A known container for low-temperature preservation of biological objects (suspensions), made from plan. For example, polyethylene, for example, polyethylene, with a wall thickness of about 400-500 microns, followed by welding individual parts. walls and a lid, inside the body is placed a cylinder with compressed carbon dioxide. The walls of the housing are made of separate annular inflatable elements placed one above the other from elastic airtight fabric, the cavities of which are communicated by means of openings with spring-loaded non-return valves. Inside the case there is a flexible shell, the upper edge of which is tightly connected with the upper element, and the lower one with the base, made of heat-insulating material. The bottom element has a fitting, and the elements located above are equipped with exhaust valves. The space formed between the housing and the flexible wall is communicated with the internal cavity of the container and the atmosphere through openings with non-return valves. A cylinder of carbon dioxide is placed on the base and connected by means of a thermostatic valve with a thermal sensor located in the internal cavity of the container, 1 hp. f-ly, 3 ill. The disadvantage of this container is the impossibility of cooling and storing biological objects of various sizes in field conditions. A container for low temperature canning is known, comprising a housing with a base, walls and a lid, inside of which is placed a cylinder of compressed carbon dioxide with a reducer. The disadvantages of the known container are the impossibility of placing in it biological objects of various dimensions and insufficient reliability of operation. Yo you cj i4 i

Description

The purpose of the invention is to provide accommodation in a container of objects of various sizes and increase the reliability of its operation.

Fig. 1 shows a container for low-temperature preservation of biological objects, a general view; figure 2 is the same, top view; FIG. 3 is a diagram of the temperature regulation of the container.

The container includes a housing 1 with a base 2, walls 3, a lid 4, a cylinder 5 with compressed carbon dioxide with a gearbox 6 is placed inside the housing 1, and the walls of the housing 1 are made of separate annular inflatable elements placed one above the other airtight fabric. The cavities of the annular elements are interconnected by means of openings with spring-loaded non-return valves 8. Inside the casing there is a flexible sheath 9, the upper edge of which is tightly connected to the upper annular element 7, and the lower one to the base 2 made of thermally insulating material. The lower annular element 7 has an air inlet 10, and the main elements located above it are provided with exhaust valves 11, the space formed between the housing 1 and the flexible sheath 9 communicating with the internal cavity of the container and the atmosphere by means of openings with spring-loaded non-return valves 12 , and the carbon dioxide cylinder 5 is placed on the base 2 and is connected by means of a thermostat 13 to a thermal sensor 14 located inside the container. At the output nozzle of the gearbox 6, an impeller 15 with a hollow hub can be placed in which the blades of the driving turbine 16 are mounted.

The container works as follows.

Before placing a biological object into the container, air is pumped through fitting 10 into the lower annular element 7. When the pressure in it exceeds a predetermined pressure, a spring-loaded non-return valve 8 opens and air passes through the openings with valves 8 into the elements 7 above. the size of the biological object is placed on the base 2 of the container, the lid 4 is closed and the thermostat 13 is turned on. This opens the outlet nozzle of the gearbox 6 and the carbon dioxide goes into space GUSTs formed inside flexible membrane 9, to cool the temperature sensor 14. The expiring of the gear 6 carbon

the gas causes the impeller 15 to rotate, which allows the inner cavity of the container to be quickly and uniformly filled with gas and to achieve rapid cooling. When overpressure in the cavity is reached, a part of carbon dioxide through an opening with a valve 12 moves into the space between the inner surface of the housing 1 and the flexible sheath 9, and its excess in the indicated space flows through the spring-loaded non-return valve 12 to the atmosphere. When the required temperature inside the container container is reached, the temperature sensor 14 through the thermostat 13 closes the outlet nozzle of the cylinder 6 reducer 5. The container is reduced in size by venting the air through the exhaust valves 11. When the temperature inside the tank rises, the temperature sensor 14 is heated and opens the nozzle 6 through the temperature regulator 13 cylinder 5 with carbon dioxide to cool the biological object.

The ring-shaped elements 7 of the empty container are placed in the traveling state in the base 2 and their position is fixed with a container-size restrictor (not shown).

Under field conditions in the absence of sources of electrical energy, the proposed container provides the possibility of long-term storage and transportation of biological medical objects (blood, blood substitutes, conserved organs and tissues, material for laboratory research, etc.), food, hunting and fishing trophies.

The changing volume of the container allows for minimal refrigerant consumption to cryopreserve biological objects of various sizes. Economy of the refrigerant is achieved due to the content in the container of the double insulating layer - the air contained in the elements, and the layer of cooled carbon dioxide contained in the space between the casing and the wall of the container.

The valve system in the ring-shaped elements makes it possible to ensure the necessary rigidity of the structure and to avoid mechanical damage to the preserved object.

Claims (2)

1. A container for low-temperature preservation of biological objects, including a housing with a base, walls and a lid, inside which is placed a cylinder with compressed carbon dioxide with a gearbox, characterized in that, in order to accommodate objects of various dimensions in the container and increase its reliability, the container equipped with a flexible shell located inside the case, the walls of which are made of separate annular inflatable elements placed one above the other from elastic airtight The upper edge of the flexible shell is tightly connected to the upper ring-shaped element, and the lower edge to the base, which is made of a thermally insulating material, while the lower ring-shaped element has a nozzle for air inlet, and the elements located above it are equipped with exhaust valves; communicated among themselves, and the space formed between. flexible shell and casing reported from the internal cavity of the container and the atmosphere through openings with non-return valves, the cylinder with compressed carbon dioxide being placed on the base and connected by means of a thermostat with thermal sensor located inside the container. 2. Container according to claim 1, characterized in that an impeller with a hollow is placed on the output nozzle of the reducer. a hub in which the drive turbine blades are installed.