PL160940B2 - Tank or cryostat for storage of cryogenic liquids - Google Patents

Abstract

A container or a cryostat for storing cryogenic liquids equipped with a hermetic casing and the proper container together with a sorbent container suspended inside the casing on an elongated neck, the proper container together with a sorbent container being coated with insulation, and the space between the casing and the proper container constitutes vacuum insulation, characterised in that the proper container (2) has an additional flat bottom (5) with at least one hole (7) and a cutting element (11) with a blade (12) mounted at the hole (7) to the flat bottom (5), the blade (12) being placed at a small distance from the hole (7) covered tightly with an elastic cover (9), and the space delimited by the bottom (4) of the proper container (2) and the flat bottom (5) is filled with sorbent (6).<IMAGE>

Description

OBJECTS OF THE INVENTION There is a reservoir or a cryostat for storing cryogenic liquids, in particular a biological reservoir for storing living tissues.

The design of each cryo-liquid storage tank should ensure (an unbelievable liquid between the surroundings and the liquid, thus minimizing the loss of liquid on evaporation). between the wall of the casing and the actual tank, it is a vacuum insulation, which is also a place of embedding the layer of insulation, called sυpolysolocation. □ the space is placed with a container with ιϊθγΙ ^ ϊιΙθι sorption to remove residual gases. during pumping out of the vacuum space. The container with the sorbent is attached to the outer wall of the proper container so that the sorbent is separated from this wall only by a thin coating of the container. The outer surface of the proper container, including the sorbent container, is covered with tightly adhering insulation layered.

In the known designs of tanks, it is troublesome to release the sorbent from the container in a vacuum space in order to absorb the residual gases. Activation of the sorbent consists in breaking the shell of the container and mechanically connecting the air space of the container with the vacuum space. Currently, the coating either breaks through the shell before embedding the shell, or it breaks through the vacuum valve just before the vacuum space is pumped out. In both cases, the sorbent is released prematurely and absorbs ambient gases for some time.

According to the invention, the vessel or the vessel has a sealed casing and a main vessel suspended therein on an elongated neck. The essence of this invention is the provision of an additional flat bottom with at least one hole and a cutting element with a blade. The cutting element in particular is attached to the slender surface of the flat bottom next to the opening

160 940 or holes, and the blade It is placed at a short distance from the hole * The hole is covered with a tight elastic coating. The space limited by the bottom of the proper reservoir 1 Its flat bottom is filled with sorbent. It is advantageous to fill the opening in the flat bottom with a net and to stiffen the flat bottom with a connector connecting the bottom with the flat bottom.

Such a structure of the reservoir enables the release of sorbent only during pumping out of the vacuum space. Sorbent ιγμΙοΙι is automatic by cutting the elastic coating with the blade of the cutting element. During pumping, a significant pressure difference is created on both sides of the shell protecting the hole or holes, which causes it to deform and move towards the cutting element blade. The advantage of this separation is also the direct contact of the sorption material with the cold wall * of the proper reservoir.

The object of the invention is described in the embodiment and in the drawing, in which Fig. 1 shows a biological reservoir for storing tissues in a vertical section, and Fig. 2 shows a detailed view of a part of the reservoir.

The biological tank has a rigid cylinder-shaped housing 1. The inside of the casing 1 is seated There is a proper container 2 for a thread and a container with living tissues, suspended in the casing 1 by means of an elongated neck 3. An elliptical bottom upside down 4 2ι ^ πι {1ι Is a flat bottom 5 from the bottom, tightly attached to it . The space limited by the bottom 4 and the flat bottom 5 is a container for the sorbent 6. In the flat bottom 5, there is an eccentric rectangular opening 7, covered with a mesh 8 on the sorbent side 6, and with a tight elastic coating on the side of the sorbent. of the sorbent container 6 there is a connector 10 joining the flat bottom 5 with the bottom 4. The connector 10 is attached to the deep axis of the tank and serves to stiffen the flat bottom 5 ". On the outer surface of the flat bottom 5, next to the opening 7, it is fixed the cutting element 11 from the blade 12. The blade 12 is placed at an angle of ^ m 7, and a short distance of about 1 - 1.5 mm from the surface of the resilient shell 9. Moreover, the Aurora Borealis 2, including the cutting element 11, is covered with sandwich insulation 13 and the casing 1 is equipped with a vacuum valve 14, serving to seal the space between the casing and the tank 2. After pumping, this space is a vacuum insulation. The wrapping of the sorbent 6 takes place, and during the pumping of the vacuum space, it is saiozhinned through the opening of the deforming coating 9 on the blade 12 of the cutting element 11.

Claims (4)

Patent claim 1. Vessel or cryostat for storing cryogenic liquids, equipped with a sealed casing and a proper container suspended in it on an elongated neck, together with a sorbent container, the main container with a sorbent container is covered with a layer insulation, and the space between the housing and the proper container is a vacuum insulation, characterized by in that the main tank / 2 / has an additional flat bottom / 5 / with at least one hole / 7 / and a cutting element / 11 / with a blade / 12 / attached next to the opening / 7 / to the outer surface of the flat bottom / 5 /, which the blade / 12 / is placed at a short distance from the hole / <7 / covered with a tightly elastic coating / 9 /, and the space limited by the bottom / 4 / of the proper tank / 2 / and a flat bottom / 5 / filled with sorbent / 6 /. 2. Tank or cryostat according to claim 1, with n a bi and e n n y vol y m that hole or holes / 7 / in flat days / 5 / they are filled with mesh / θ / • 3. Tank or cryostat according to claim 1, with n a η 1 and n n y vol y B, that has a hyphen / 10 / joining flat bottom / 5 /; with a bottom / 4 /. 4. Tank or cryostat according to claim 1, with n a m 1 and n n y vol y m. behind cutting element / 11 / It is fixed to the flat bottom / 5 / next to the hole or holes / 7 /.