SU1446430A1 - Chamber for freezing biological objects - Google Patents

Abstract

The invention relates to a cryogenic technique, namely to chambers for freezing biological objects. The aim of the invention is to reduce refrigerant consumption. Containers 6 with a bioobject are placed in the working channel 5, case 1 is closed with a lid 8, and a coolant is fed into the input channel 2, which then enters the additional annular channel 3, cools the cylindrical shell 9, enters the working channel 5, where it cools the biological object containers 6 to the set temperature. The spent refrigerant from the working channel 5 enters the annular channel 13 of the rotary disk 11 and through the channels 7 of the outlet in in the rotary disks 11 and 12 enters the atmosphere. 1 il.

Description

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The invention relates to a cryogenic technique, namely to chambers for freezing biological objects.

The purpose of the invention is to reduce the refrigerant charge.

The drawing shows a freezing chamber for biological objects, a longitudinal section,

The camera for freezing biological objects contains a thermally insulated housing 1 with a serially connected channel 2 for introducing a refrigerant j in the lower part of the housing 1 and located in the center of the housing 1 J by an additional annular channel 3j reported by a collector 4 with a refrigerant input channel 2, an annular working channel 5 for placing a container b with a bioobject, channels 7 output and cover 8, Additional channel 3 is formed between a cylindrical shell 9, extracted from a material with a high thermal conductivity coefficient, ialno ustanovlen- hydrochloric working channel 5 and thermally insulated partition 10, situated above the channel 2 input. Channels 7 output of the refrigerant is made in the rotary disks 11 and 12 in the form of coaxial holes communicated with the working channel 5, the annular channel 13, located in the rotary disk 11 about

The camera is operated in a & 1 way.

Containers b with a bioobject are placed in working channel 5 and closed with a lid 8, and then coolant is fed into the input channel, which enters the additional channel 3, cools the cylindrical shell 9, enters the working channel 5, where it is filled with containers bioobject

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to the set temperature. The spent refrigerant from the working channel 5 enters the annular channel 13 of the rotary disk 1 and through the channels 7 of the output in the rotary disks 11 and 12 goes into the atmosphere.

The proposed chamber allows more efficient use of the refrigerant, which leads to a decrease in its consumption for cooling down due to the fact that the refrigerant takes energy twice: by the outer wall of the working channel AND inside the working channel, which, in addition, increases the uniformity of the temperature field.

Claims (1)

Invention Formula The dL freezing chamber of bioobjects, containing a heat-insulated body, serially connected channel for entering the refrigerant, located in the center of the body in its lower part, an annular working channel for placing the bio-object and channels for outputting the refrigerant, located in the bottom of the body along its perimeter, For the purpose of consumption of refrigerant, the chamber contains an additional channel, which is connected to the collector with the inlet channel, formed between the cylindrical shell, coaxially installed in the working canal e and thermally insulated partition mounted on the input channel, wherein a cylinder eska shell is heat insulated and installed to form the partition between the NS-1I annular gap for passage of the refrigerant Ka, Nala for its input. Compiled by "Konstantinov" Editor G.Gerber Tehred I.WeresZakaz 6736/44 Circulation 482Subscription VNIIGSh of the USSR State Committee for inventions and discoveries 113035, Moscow,, Raushsk nab., 4/5 Proofreader G. Reshetnik