RU1802252C - Cryogenic chamber - Google Patents

Abstract

The invention is applied in cryogenic technology, as well as in stationary reservoirs intended for studying 2 the effect of cryogenic temperatures on the behavior and properties of various biological materials, as well as for storing them at these temperatures. SUMMARY OF THE INVENTION: The cryogenic chamber contains an inner vessel and a casing made with parallel mounted flexible walls, thermal insulation between them. What is new in the chamber is the use of carrier insulation obtained by placing the fibrous material in the sheath and compressing it with atmospheric pressure until the shrinkage ceases. 1 tablet, 2 ill.

Description

The invention relates to the construction of stationary reservoirs for studying the effect of cryogenic temperatures on the properties of biological materials and can be used to store these materials at these temperatures.

The purpose of the invention is to reduce heat input.

On Fig, 1 shows a longitudinal section of a cryogenic chamber; in FIG. 2 - thermal insulation package.

The cryogenic chamber includes an inner vessel 1 into which a cryogenic liquid is poured and biological material, evacuated thermal insulation 2, a casing 3 are placed. The inner vessel 1 and the casing 3 are made of thin metal sheet or other gas-tight material. Thermal insulation 2 receives the load from atmospheric pressure transmitted to it by the thin flexible walls of the chamber.

The heat-insulating bag consists of fibrous material 4, for example, heat-insulating mats of the type АТМ-10с-20, enclosed in an airtight case made of plastic film 5. The case has one or several pumping nozzles 6.

The assembled chamber is previously evacuated and its inner vessel 1 is cooled to a temperature below -70 ° C. After the destruction of the polyethylene covers 5, the final evacuation of the insulating cavity is carried out.

The insulation withstands without noticeable shrinkage the atmospheric pressure load transmitted to it by the walls.

The thermal conductivity coefficients of several types of insulation from fibrous materials were experimentally determined. The tests were carried out on a calorimeter with a movable warm wall, which made it possible to transfer the load to the sample. The test results of insulation samples at a load of 1 kgf / cm2 in the temperature range 300-77 K are given in the table.

The data obtained show that the coefficient of thermal conductivity of fibrous insulation under a load of 1 kgf / cm2 in 2-2.5

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times less than the thermal conductivity of perforated foam under the same conditions.

Claims (1)

SUMMARY OF THE INVENTION A cryogenic chamber, comprising an inner vessel and a casing made with parallel mounted flexible walls, and thermal insulation located between the walls, which is provided with that, in order to reduce heat inflows, the thermal insulation is made of fibrous material and has a sealed cover with a return pipe, while the cover is made of a polyethylene film with a brittle temperature of at least -70 ° C and compressed by atmospheric pressure when the cover is evacuated until shrinkage ceases with subsequent sealing of the discharge pipe,