DE102004022159B3 - Vacuum-insulated cryocontainer - Google Patents

Abstract

The invention relates to a vacuum-insulated cryocontainer with at least one latent storage, a storage room and a temperature measuring, storage and data transmission system for the storage and transport of temperature-sensitive material. It is an object of the invention to propose a vacuum-insulated cryocontainer, in which thermal bridges are so significantly reduced that service lives of more than ten days without recharging the energy storage can be achieved at approximately stable temperatures in a range of -90 ° C to -60 ° C , The vacuum-insulated cryocontainer according to the invention consists essentially of two containers each having a plurality of walls, with their openings mutually occluding, wherein a first of these multi-walled containers is slipped into the second container so that the first container closes the second container. Locking and / or spacer means spaced the inner wall of a container from the outer wall of the other container, so that do not touch the respective inner and outer surfaces of the two double-walled container in the closed state of the cryocontainer. The inner atmosphere of the first and second containers is evacuated to high vacuum.

Description

The The invention relates to a vacuum-insulated cryo-container at least one latent storage, one storage room and one temperature measurement, storage and data transmission system for the Storage and transport of temperature-sensitive material.

It are different, usually double-walled containers for storage different Media or materials, for the storage of low-boiling liquefied gases, but also as Combined transport and storage containers for temporary storage a predetermined temperature range for hot or cold keeping or cold or cooling system known. These containers have very different insulating components, such as Polyurethane, styrofoam, cork slabs, evacuated spaces and / or Vacuum insulation panels as a sheath on. So containers are known for fresh fish transport, for food, living organs, microorganisms and other materials in one be stored and / or transported certain temperature range have to. When storing such materials, there are generally none Problems keeping them in a specific temperature range there at stationary containers a compensation of occurring temperature differences on site easily possible is. The situation is different with transport containers. So can with a transport from biological material over long distances - z. B. an intercontinental flight - maintaining a constant Temperature range over a predetermined period of time can only be guaranteed if relative size and therefore also expensive containers Find use.

Thus, WO 02/28741 A2 discloses a transport system for long-term transport and a transport container, preferably for long-term transport. The transport container described consists of an insulating vessel with energy storage, various thermally insulating components, wherein the container wall is formed as a high vacuum super insulator. On the basis of this described transport container exchangeable temperature containers have been further developed, as described in the patents DE 101 13 183 C1 and DE 101 48 586 C1 are described. The described exchangeable temperature-capable containers have a storage space with an internal energy storage, wherein the storage space is surrounded by a evacuated to the high vacuum region hollow body. Special emphasis is placed in these described containers on the frontal edge surfaces near the connection of the outer and inner tube to prevent thermal bridges. For this purpose, formations or necklaces are provided which act with at least two degrees of freedom as spring or expansion elements and extend the heat path.

Even though the described changeable temperature-capable containers due to their special Construction have very good insulation properties and already Allow life in cryogenic conditions up to 100 hours, without the energy storage must be charged or recharged, are she's for one over 100 hours Transport not suitable. In the edge areas, where foot parts with the vacuum insulation or the lid are connected to the vacuum insulation, there are still thermal bridges, after a certain storage period to a rapid increase in temperature lead in the storage room.

A collapsible, thermally insulating container, in particular for a latent heat storage or for a cool box, is in the DE 195 27 465 C2 described. The container consists of two cup-shaped, double-walled part insulation bodies on the basis of a gas-tight enveloped, evacuated fiber or powder material, wherein the inner cross section of a partial insulation body corresponds approximately to the outer cross section of the other partial insulation body, so that both partial insulation body can fit together to form a closed container to build. The outer circumferential surface of the internally arranged partial insulation body rests on the inner circumferential surface of the externally arranged partial insulation body. The lateral surfaces consist of a thin sheet metal or of metal foil and form a thermal bridge between the part insulator body arranged on the inside and the part insulator body arranged on the outside. The filling of the evacuated space between the walls of the partial insulation body preferably consists of powder fiber, aerogels and tempered fiber materials. The filling must be such that it can absorb the atmospheric loading pressure due to the thin sheet thicknesses. Because of its structural design of the very thin and thus very sensitive lateral surfaces and its design-dependent, small dimensions of such a collapsible, thermally insulating container not as a transport or storage container for biological materials, especially in the low temperature range below -100 ° C with a lifetime of more than 40 hours in an approximately constant temperature range, can be used.

It is an object of the invention to propose a vacuum-insulated cryocontainer in which thermal bridges are so significantly reduced that life of more than ten days without recharging the energy storage can be achieved at approximately stable temperatures in a range of -90 ° C to -60 ° C.

The solution This object is achieved with the features of claim 1. Advantageous Embodiments are described in the subclaims. The vacuum-insulated invention cryocontainers consists essentially of at least two multi-walled, pot-shaped or trough-shaped containers a first of these multi-walled containers with its opening in the opening a second multi-walled container added is, so that the bottom of the first container closes the opening of the second container and the second container the first container in its vertical extent at least up to its half Height, preferably Completely, surrounds and thereby in the closed state of the cryocontainer the respective inner and outer surfaces of two double-walled containers do not touch. Arretierungs- and / or spacer means spaced from the inner wall of the a container from the outside wall the other container. Corresponds to the bottom of the first container a cover with means for closing. The interior atmosphere between the respective inner and outer walls of the first and second containers is evacuated to high vacuum.

With a novel construction of different insulation components is a vacuum-insulated cryogenic container with at least one latent storage, a storage room and a temperature measuring and storage system for storage and the transport of temperature-sensitive material proposed, which has highly effective insulation properties and critical Zones, especially the transition areas of interior and exterior walls, the opening areas and the transition areas different materials, protects against incoming heat.

• – Hochvakuum-Superisolation in Edelstahlbehältern,
• – formstabiler Schaumstoff-Isolation,
• – Reflexionsmaterialien mit Abstandhaltern zwischen Innen- und Außenwand der Hochvakuum-Superisolation,
• – der Anwendung an sich bekannter Getterung des evakuierten Innenraums.
• – der Anwendung materialschwacher bombierter Behälterwandungen aus Edelstahl sowie
• – materialschwacher und langgestreckter, in mindestens zwei Freiheitsgraden bewegbarer Übergänge von Innen- und Außenwandungen aus Edelstahl zur Verminderung bzw. Verlängerung des Wärmeflusses
• – und der Verlagerung des Überganges von der Innenatmosphäre des Lagerraumes zur Umgebungsatmosphäre in den unteren Abschnitt des zweiten Behälters, so dass erst am Rand der Öffnung des zweiten Behälters eine sehr geringfügige Materialbrücke als Wärmebrücke zur Umgebungsatmosphäre besteht.

The construction according to the invention, in particular the elements with vacuum insulation based on the coordinated use of

• - high vacuum superinsulation in stainless steel tanks,
• - dimensionally stable foam insulation,
• - Reflective materials with spacers between inner and outer wall of the high vacuum superinsulation,
• - The application of known gettering of the evacuated interior.
• - the use of material-poor cambered container walls made of stainless steel and
• - material-weak and elongated, in at least two degrees of freedom movable transitions of inner and outer walls made of stainless steel to reduce or extend the heat flow
• - And the shift of the transition from the inner atmosphere of the storage room to the ambient atmosphere in the lower portion of the second container, so that only at the edge of the opening of the second container is a very small material bridge as a thermal bridge to the ambient atmosphere.

The each have multi-walled, preferably double-walled, pot or trough-shaped containers an outer wall, an inner wall and a floor. In the cryogenic container is a storage room with at least one source of cold and / or a cold storage arranged. The respective gap between outer wall and inner wall of the pot or trough-shaped containers is evacuated to high vacuum. According to the invention is the source of cold and / or the cold storage from a first of these pot- or trough-shaped containers, the following here as lidded container is designated, highly insulating enclosed, so that by the Cold source and / or the cold storage flowing down cold interior atmosphere penetrates the storage room. Because the storage room is essentially vertical from the inner and outer wall of the lidded container is enclosed, the cold indoor atmosphere, the storage room only at the bottom leave the storage room and between the outer wall of the lidded container and the inner wall of the second pot or trough-shaped container, here below as a storage container designated, ascend. Only at the top of the storage container meets the cold interior atmosphere on material bridges between the lid container and the storage container. Here, therefore, the immediately first thermal bridge for the rising cold interior atmosphere to the ambient atmosphere arises.

As already mentioned above, becomes the lid container with his mouth in the opening of the storage container inverted and in the cryogenic container arranged locking and / or spacer means space the Inner wall of the storage container from the outside wall of the lidded container. Further distance and / or locking means also space the interior of the storage container, So the actual storage room and the cold source and / or the cold storage from the inner wall of the lidded container, so that only a very small heat exchange as radiant heat over the arranged spaced and evacuated to high vacuum interiors of storage containers and inverted cover container can be done.

The bottom of the storage container consists of an internally arranged plate and an externally arranged plate, wherein the internally arranged plate with the inner wall and the outer plate arranged hermetically connected to the outer wall of the storage container, preferably welded. This so formed double ground consists of de Finishes preformed cambered floor panels. For this purpose, the floor panels are flanged at the edge approximately arcuate at right angles before the days of storage of the storage container and have been provided to its center with a curvature or with beads. Due to the hermetic connection of the inner and outer walls with the respective floor panel and the hermetic connection of the frontal upper ends of the inner and outer panels of the storage container, the continuous interior space is created, which, as already emphasized, is evacuated to the high-vacuum area. Likewise, the covering bottom of the lid container is pretreated with an inside cover sheet and an outside cover sheet and connected to the inner or with the outer wall of the lid container.

Of the Bottom of the storage container is additionally full-surface with a stainless steel floor provided to the outer arched or domed floor panel and the connections of the outer floor panel with the outer wall of the storage container To give protection. In addition protected Floor panels are knobbed Feet incorporated, the same time as stacking aid when stacking several cryocontainers serve. The nap-shaped ones rest here Feet in the Cover unit on.

Of the Covering bottom of the lidded container and the bottom of the storage container, the, as described, with the interior between the respective Connected interior and exterior walls are also evacuated up to the high vacuum range were designed so that their inner and outer sheaths continue are spaced apart, so that here a correspondingly good Insulation ensured by the high vacuum in the interior between the raised floors is.

The front end pieces the connection of the inner and outer wall of the lid container and the storage container are provided with formations or necklaces. These ends have at least two degrees of freedom and thus act as a spring or expansion element. These ends are through their material processing weaker material, direct therefore to a lesser extent Heat and extend through their formations the heat path.

in the Inside of the cryobank at least one shielding means is arranged. This shielding agent has the task of the actual storage room and / or the room for Introduction of a cold source and / or a cold storage delineate. Formed between the shielding and the inner wall of the storage container thus a gap, which allows easy insertion of the cover container in the storage container guaranteed. Such a shielding means may be a shaft insert of preferably tubular Be shape, wherein the diameter of the shielding slightly smaller is the inner diameter of the lidded container.

alternative the shielding means may be a container in whose working space the biological material to be stored and / or the cold source and / or the cold storage are arranged. Such a container is used when on the one hand the goods to be stored should be specially shielded and on the other hand, if it is intended to have this container after one appropriate transport in the cryogenic container to take out of this and in a temporary storage, for example in a freezer, continue should be stored. Also, the application of such a container Of particular advantage, if it is intended to be stored Good together with the cold storage in liquid Nitrogen to the desired Temperature to cool down.

Becomes such a container for uses the described uses, so this serves on the one hand as a shielding agent and on the other hand as a spacer. To are on the container in its lower and / or upper area spacer in the form of pimples, beads and / or rings which, if attached at the top, are make a corresponding distance to the inner wall of the lid container and, if they are attached below, a distancing to the inner wall of the storage container make. If such a container application, so is unnecessary the use of insulating materials on the inner Bottom of the storage container be placed because the container expediently designed with feet is that only punctiform get up on the inner floor panel of the storage room and thus a Ensure insulation pads from air. Are distance and / or locking means for spacing the inner wall of the lid container to the outer wall the shielding means arranged at the upper edge of the shielding means, so serve these distance and / or locking means at the same time as Mounts for one or more sources of cold and / or cold storage.

The mentioned Shielding means, preferably in the form of a described shaft insert or of a container, at least extend in their vertical extent up to half the height of the storage container, but are preferably dimensioned so that they are closed Condition of the cryocontainer until just below the inside arranged cover sheet of the covering Bottom of the invaginated cover container pass.

For distancing the outer wall of the lid container from the inner wall of the storage container or the shielding to the inner wall of the lid container inventively find more distance medium application. Thus, the outer wall of the lidded container is provided with several circumferential, inwardly directed beads, wherein the inner wall of the storage container is preferably designed smooth. Alternatively, it is provided that the outer wall of the lid container and the inner wall of the storage container to be provided with beads, that the two walls are parallel wavy in their vertical extension. Thus, the heat path in the material of the walls is significantly extended. Also in this case, in order to obtain a sufficient spacing between the outer wall of the lid container to the inner wall of the storage container and to ensure easy insertion, the diameter of the outer wall of the lid container is kept correspondingly smaller than the inner diameter of the inner wall of the storage container.

Becomes a shielding means in the form of a shaft insert already described used, so it is appropriate, either directly on the bottom of the storage container or with an intermediate one Isolation disc insert a spacer ring. In this spacer ring Now the shaft insert is made and this is through the spacer ring exactly to the inner wall of the storage container spaced, so given the custom-fit introduction space for the lid container is.

The cold source and / or the cold storage depending on the customer's request or type of use with and without shielding in the storage room of the cryocontainer brought in. It can the cold source and / or the cold storage vertically arranged annularly around the storage room or the utility room or be arranged vertically in the storage room, that to be stored Good for the cold source and / or the cold storage annular is arranged around. Also, an arrangement of the cold source and / or the cold storage at the bottom of the storage room or utility room conceivable. Most advantageous but is the attachment of the cold source and / or the cold storage on the upper edge of the shielding means, if a manhole insert Use or in the upper segment of a container. These Arrangement has the advantage that according to the invention of the cold source and / or the cold storage the cold interior atmosphere, as described above, in the below the cold source and / or the cold storage lying Nutz- or storage room flows. This will be at the shaft insert or the container spacing and / or locking means arranged at the same time as brackets for the cold source and / or the cold storage serve. It is also advantageous, above the in-bay use or in the container to be arranged cold source and / or cold storage still provide a cover, so that the radiation upwards is reduced. Depending on the desired temperature and life in the cryocontainer one or more sources of cold placed, mounted and / or coupled together. As a cold storage At least one latent memory should be used.

from cover container were so far essentially only the high insulating effect causing functional parts described. To the lid container still to give a further insulation is on the outside covering bottom plate of the lidded container a lid unit mounted. This cover unit sits with her Insulating board directly on the covering floor panel. Is centered in her a handle for the handling of the lidded container arranged and at the outer edge a stacking aid. The stacking aid is round-the-clock and creates a height compensation to the seated handle and takes a temperature measurement, storage and transmission system on. The temperature measuring, storage and transmission system works optionally wired or wireless. In the all-round Stacking aid depressions are arranged, which when stacking several cryobanks the feet of the bottom one placed on cryogenic container take up.

To the lid unit belongs also one from the outside wall of the lidded container in the upper edge shaped step. This outwardly shaped Stage arises in the manufacture of the outer wall of the lidded container by the outer wall about arched at right angles outward domed and in turn is formed arcuate upward at right angles. Through this multiple material processing is an essential material taper and the heat path is extended. The stage is used when the cryocontainer is closed another locking means, placing them on an isolation ring is placed, the edge on the formation of the inner wall of the storage container rests. This isolation ring is designed as a hollow ring and This has a higher Insulating effect.

A another feature of the invention on the lid unit is an outside from the stacking aid vertically down over the outwardly formed Level reaching torus. This torus isolated on the one hand the junction of the outer wall of the lid container with the covering outer floor panel, serves to accommodate closure elements and is at its bottom Edge ring-shaped worked out as lid margin. This ring-shaped edge of the lid lies with closed cryocontainer firmly on the upper connecting seam of inner and outer wall of the storage container only linear on. This ensures that that in the connection of lid container via its cover unit for storage containers least possible thermal bridges exist, at the same time the important function of locking the lidded container in Take over storage container.

The outward Shaped step not only reduces the heat path across the walls, but serves at the same time due to its special shape and lower material thickness as a spring or expansion element. This level is in at least two Degrees of freedom movable and thus resembles the considerable pressure and temperature differences in the lid container.

to Use and handling of the vacuum-insulated cryocontainer according to the invention the storage container and the lid container as well as the cold storage to be used or cold sources and the shielding means in the form of the tray insert or a container cleaned and disinfected. Depending on the desired storage temperature and the required service life is the cooling down of the individual functional parts in liquid Nitrogen or in a freezer. For example, a biological sample in a temperature range below -60 ° C over ten to transport up to eleven days, the individual functional parts by means of liquid Nitrogen cooled down to -189 ° C to -184 ° C. From The advantage here is the use of the described container, in Both the biological material to be stored and a or several latent memory are arranged. Also this container will cooled down and upon reaching the desired Low temperature set in the likewise cooled storage container and immediately with the lid container locked. At the end of the transport route, the container can be removed, be stored deep in an intermediate store and the vacuum insulated cryocontainers goes back to its destination.

 It is also within the scope of the invention, this vacuum insulated cryocontainer in to use other temperature ranges, wherein in the application in higher Temperature ranges also another storage means in the cold source or used in latent memory.

The Invention will be described below with reference to the drawing embodiment explained in more detail and described. To be taken from the drawing and the description Features can in other embodiments the invention individually for to be used in one or more combinations.

The Drawing shows in

1 the front view of a vacuum-insulated cryogenic container with detail views of a first pot or trough-shaped container and with detail views of a second pot or trough-shaped container, which is embedded with its opening in the opening of the first pot or trough-shaped container and closes it.

According to this embodiment, a vacuum-insulated cryocontainer made of stainless steel is described. The cryocontainer consists essentially of two each double-walled, pot-shaped or trough-shaped containers. The first of these double-walled, pot-shaped or trough-shaped containers is hereinafter referred to as a lidded container 1 and the second of these double-walled, pot-shaped or trough-shaped containers is hereinafter referred to as storage container 2 designated. In the closed state of the cryocontainer is the lid container 1 so with its opening in the opening of the storage container 2 inverted that cover the bottom 3 of the lidded container 1 the opening of the storage container 2 closes and the storage container 2 the lid container 1 almost completely encloses in its vertical extent. The storage container 2 consists of an outer wall 4 , an interior wall 5 and a floor 6 , being from the outer wall 4 and the inner wall 5 and the floor 6 a hermetically sealed interior 7 is formed, the inner atmosphere is evacuated to the high vacuum region.

To avoid heat losses are the front ends 8th in the transition from the outer wall 4 to the inner wall 5 at the opening of the storage container 2 formed circumferentially thinner and have elongated and one or more curved ends, which are vacuum-tight welded together. These ends have at least two degrees of freedom and thus act as a spring or expansion element. These formations or Aushalsungen the front ends 8th from outer wall 4 and inner wall 5 form an imaginary circumferential annular chamber, which has the farm of a body, which results in the movement of a plane figure along a closed curve - for example, by their rotation about the axis, which lies in the plane of this figure and does not intersect. The circumferential formations or Aushalsungen on the front sides of the inner wall 5 and the outer wall 4 have different shapes and are preferably formed double sinusoidal or s-shaped or circular arc. In any case, the formations or extensions extend the heat path between the connection of the inner wall 5 and outer wall 4 ,

The floor 6 of the storage container 2 is from an internally arranged sheet metal 6 '' and an outside sheet metal 6 '' closed, with the inside arranged sheet 6 ' with the inner wall 5 and the outside sheet metal 6 '' with the outer wall 4 of the storage container 2 hermetically connected - preferably welded - is. This double floor thus formed 6 consists of defined preformed cambered floor panels. By the Hermetic Connection of the inner wall 5 and the outer wall 4 with the respective floor panel creates the continuous interior 7 which, as already described, is hermetically sealed and thus forms the cavity which has an inner atmosphere evacuated up to the high-vacuum region. Before installation in the storage container 2 are the floor plates 6 '; 6 '' Bordered approximately at right angles arcuately edge-shaped and provided to its center with one or more vaults or beads. At the flanged edge, the hermetic welding of the floor panels 6 '; 6 '' with the inner or outer wall 5 ; 4 of the storage container 2 , Alternatively, the floor panels 6 '; 6 '' as the formations or Aushalsungen the upper front ends 8th from outer wall 4 and inner wall 5 be educated.

The storage container 2 is encased in its bottom area by a foot part. The foot can be used as an outer shell of dimensionally stable plastic, a stainless steel shell or a floor 6 protective stainless steel sheet 9 exist, as it is in the 1 is shown. In the stainless steel sheet 9 are knobbed feet 10 incorporated.

To close the cryocontainer is in the storage container 2 the lid container 1 so with its opening in the opening of the storage container 2 inverted that cover the bottom 3 of the lidded container 1 the opening of the storage container 2 closes and thus the storage container 2 the lid container 1 almost completely encloses in its vertical extent. Also the lid container 1 is a stainless steel double-walled container made of an outer wall 12 , an interior wall 11 , an inside cover sheet 3 ' and an outside cover sheet 3 '' exists, with the two cover sheets 3 '; 3 '' with the inner wall 11 or with the outer wall 12 hermetically connected - preferably welded - are.

This from the two sheets 3 '; 3 '' existing covering floor 3 consists of preformed domed sheets, as well as the storage container 2 Bordered around at right angles arcuate edge and are provided to its center with one or more vaults or with beads. At the flanged edge, the hermetic welding of the covering soil takes place 3 forming sheets 3 '; 3 '' with the inner or with the outer wall 11 ; 12 of the lidded container 1 ,

In the upper part of the lidded container 1 is with the outer cover sheet 3 '' of the covering floor 3 a lid unit 14 connected. This cover unit 14 consists of peripherally arranged stacking aids 15 a handle 16 with handle holder 17 , a torus 18 and an insulating plate 19 , The cover unit 14 is made of stainless steel sheet according to this embodiment and is in its cavity, in particular in the stacking aid 15 , provided with an insulating material. In the side wall of the stacking aid 15 is a temperature measuring, storage and data transmission system 20 taken in, the, the temperature of the storage room 21 measures, stores and transmits. On top of the circular stacking aid 15 one or more groove grooves - not shown in the figure - can be arranged, which when stacking a plurality of cryocontainers one above the other a locking of a stacked cryocontainer by means of its knob-shaped feet 10 allows. The handle 16 is by means of handle holder 17 , which in turn on the outside arranged cover sheet 3 '' is welded, with the lid container 1 connected. The torus 18 the lid unit 14 is located on the periphery below the annular stacking aid 15 and leads over the edge area 21 of the lidded container 1 down and forms the annular lid edge 22 which in turn is on the frontal end 8th of the storage container 24 rests.

The outer wall 12 of the lidded container 1 is all-round in the lid area with an outward-facing step 23 Mistake. This outward all-around step 23 is folded at its periphery approximately at right angles to the top and goes to the final edge area 21 above. The border area 21 corresponds in turn with the outside of the edge area 21 subsequent annular bead 18 the lid unit 14 ,

The stage 23 serves, as will be described in more detail later, the locking of the lid container 1 with its lid unit 14 on an isolation ring 25 which is on a lining of the inner wall 5 of the storage container 2 rests. At the same time fulfills the outward step 23 an insulating function, as it extends the heat path. On the side wall of the stacking aid 15 the lid unit 14 are at the level of the annular bead 18 Closing elements for closing the lid unit 14 of the lidded container 1 with the storage container 2 arranged.

Also, the front end of the lid container 1 are in transition from the inner wall 11 to the outside wall 12 like the storage container 1 , provided with formations or Aushalsungen as spring and expansion elements and welded at their ends. These formations or Aushalsungen are movable in at least two degrees of freedom. The so between the inner wall 11 and the outer wall 12 as well as the two sheets 3 '; 3 '' formed interior 13 is evacuated to high vacuum.

Inside the storage container 2 is the storage room 24 , At the bottom of the storeroom 24 lies according to this embodiment ganzflä chig a slice 26 from a good insulating plastic material. From preferably just such insulating material is on the disc 26 a spacer ring 27 , Within the spacer ring 27 stands on a round profile rubber a shaft insert 28 , This bunker insert 28 shields the storage room 24 and reaches within the inverted lidded container 1 almost to the inside arranged cover sheet 3 ' of the covering floor 3 , Above the upper edge of the shaft insert 28 lie brackets 29 in which one or more latent storage 30 are hung up. Come several latent storage 30 for use, these are coupled to one another by means of fastening elements. The brackets 29 on the upper edge of the shaft insert 28 are formed so that they simultaneously as a locking means and spacer means for spacing the inner wall 11 of the lidded container 1 to the outer wall of the shaft insert 28 serve and lock the shaft insert 28 even as a shield around the storage room 24 ,

If a cryocontainer described in this way is used, it is prepared as follows and charged with a biological material: After disinfecting the lidded container 1 , the storage container 2 , the latent storage 30 and the disc to be inserted 26 with spacer ring 27 and the bunker insert 28 become the latent memory 30 cooled in liquid nitrogen at -196 ° C to about -185 ° C. In the appropriately prepared and cooled storage container 2 be the disc 26 with spacer ring 27 inserted and the shaft insert 28 within the spacer ring 27 on the disc 26 switched off. The cooled to about -185 ° C latent storage 30 be by means of brackets 29 in the shaft insert 28 hooked. Immediately before, in the storage room 24 stored and stored for a multi-day transport biological material stored.

On the Aushalsungen or formations in the transition region of the outer wall 4 and the inner wall 5 of the storage container 2 becomes an isolation ring 25 placed on top and fit the lid container 1 between the inner wall 5 of the storage container 2 and the bunker insert 28 in an introductory room 31 introduced. The introductory room 31 , as a space between the outer wall of the shaft insert 28 and the inner wall 5 of the storage container 2 , allows easy insertion of the lidded container 1 in the storage container 2 while ensuring a spacing of the inner wall 5 of the storage container 2 from the outside wall 12 of the lidded container 1 ,

In the closed state of the cryocontainer, the lid unit is located 14 only linear with its edge area 21 of the torus 18 on the front ends 8th the connection of outer wall 4 and inner wall 5 of the storage container 2 on. By precisely fitting insertion and locking of the lid container 1 between the shaft insert 28 and the inner wall 5 of the storage container 2 arises only far above the actual storage room 24 a slight thermal bridge at the point where the lid unit 14 the insulating ring 25 pressed on mentioned shaping or necking or on the support of the edge region 21 on the front ends 8th of the storage container 2 ,

To support the high vacuum in the storage container 2 and the lid container 1 is in the interstices of the walls a per se known reflection material arranged with corresponding spacers. A gettering the evacuated interiors is also provided.

The inner and / or outer walls of the storage container 2 and the lid container 1 are provided with inwardly and / or outwardly arched circumferential beads to support the necessary spring and expansion effects, which arise on the one hand by the high vacuum and on the other hand by the large temperature differences between the inner and outer walls.

The inventive concept of the vacuum-insulated cryocontainer with each double-walled containers whose openings are mutually closed, ensures a high isolation effect and is therefore for the long-term storage and transport of biological material in a temperature range from -90 ° C to -60 ° C and for life of more than ten days without recharging the energy storage suitable. Shorter life, up to five days, in a temperature range between -185 ° C and -100 ° C without recharging the energy storage are possible with the cryocontainer according to the invention. The temperature control with appropriate warning device via the temperature measuring, storage and data transmission system 20 , which preferably in the cover unit 14 is arranged. By the use of the vacuum-insulated cryocontainer according to the invention with the functional parts described, in particular the contactless mounting of the lidded container 1 in the storage container 2 , there is almost complete thermal decoupling between the working space and the outside atmosphere.

Claims (27)

Vacuum-insulated cryocontainer having at least two, in each case multi-wall, pot-shaped or trough-shaped containers, each with an outer wall ( 4 ; 12 ), an inner wall ( 5 ; 11 ) and a floor ( 3 ; 6 ), with at least one storage room ( 24 ), with at least one cold source and / or a cold storage and one between the respec external walls ( 4 ; 12 ) and inner walls ( 5 ; 11 ) lying evacuated interior ( 7 ; 13 ), wherein the cold source and / or the cold storage of a first of these multi-walled container as a lid container ( 1 ) is arranged so highly insulating and enclosing, that from the cold source and / or the cold storage, the downwardly flowing cold indoor atmosphere the storage room ( 24 ) penetrates and from the bottom of the storage room ( 24 ), outside the storeroom ( 24 ) between the outer wall ( 12 ) of the lidded container ( 1 ) and the inner wall ( 5 ) of the second container as storage container ( 2 ) rises and in the region of the upper edge of the storage container ( 2 ), with the there arranged small material bridges between lid container ( 1 ) and storage containers ( 2 ), a thermal bridge exists for the rising cold indoor atmosphere to the ambient atmosphere. Vacuum-insulated cryocontainer with at least two each multi-walled, pot-shaped or trough-shaped containers, each with an outer wall ( 4 ; 12 ), an inner wall ( 5 ; 11 ) and a floor ( 3 ; 6 ), with at least one storage room ( 24 ), with at least one cold source and / or a cold storage and between the respective outer walls ( 4 ; 12 ) and inner walls ( 5 ; 11 ) lying evacuated interior ( 7 ; 13 ), wherein the lid container ( 1 ) with its opening in the opening of the storage container ( 2 ) is slipped and in the closed state of the cryocontainer locking and / or spacer the inner wall ( 5 ) of the storage container ( 2 ) from the outer wall ( 12 ) of the lidded container ( 1 ). Vacuum-insulated cryocontainer according to claims 1 and 2, wherein the interior ( 7 ) of the storage container ( 2 ) and the interior ( 13 ) of the lidded container ( 1 ) are evacuated to high vacuum. Vacuum-insulated cryocontainer according to claims 1 and 2, wherein the lid container ( 1 ) is double-walled and preferably of a hollow cylindrical shape, at least two different outer diameters and an inner wall ( 11 ) and an outer wall ( 12 ) and the upper opening of the hollow cylinder by a covering bottom ( 3 ) with an inner cover sheet ( 3 ' ) and an outer cover sheet ( 3 '' ) is closed, wherein the inside arranged cover sheet ( 3 ' ) with the inner wall ( 11 ) and the outer cover plate ( 3 '' ) with the outer wall ( 12 ) and at the lower opening of the lidded container ( 1 ) the inner wall ( 11 ) with the outer wall ( 12 ) are hermetically interconnected and thus have a continuous interior ( 13 ) between the outer wall ( 12 ), the inner wall ( 11 ) and the cover sheets ( 3 '; 3 '' ) form. Vacuum-insulated cryocontainer according to claims 1 and 2, wherein the storage container ( 2 ) is double-walled and preferably of a hollow cylindrical shape, at least two different outer diameters and an inner wall ( 5 ) and an outer wall ( 4 ) and the lower opening of the hollow cylinder by a closing bottom ( 6 ) with an internally arranged sheet metal ( 6 ' ) and an outside sheet ( 6 '' ) is closed, wherein the internally arranged sheet ( 6 ' ) with the inner wall ( 5 ) and the outside sheet ( 3 '' ) with the outer wall ( 4 ) and at the upper opening of the storage container ( 2 ) the inner wall ( 5 ) with the outer wall ( 4 ) are hermetically interconnected and thus have a continuous interior ( 7 ) between the outer wall ( 4 ), the inner wall ( 5 ) and the sheets ( 6 '; 6 '' ) form. Vacuum-insulated cryocontainer according to one or more of the preceding claims, wherein inside the cryocontainer at least one shielding means is arranged so that between this and the inner wall ( 5 ) of the storage container ( 2 ) such a distance as an introduction space ( 31 ), the trouble-free insertion of the lid container ( 1 ) in the storage container ( 2 ) guaranteed. A vacuum-insulated cryocontainer according to claim 6, wherein the shielding means comprises a shaft insert ( 28 ) of preferably tubular shape, which is approximately the inner diameter of the lidded container ( 1 ) and preferably the storage room ( 24 ) encloses in a vertical extent. Vacuum-insulated cryocontainer according to claim 6, wherein the shielding means is a container, preferably with a centering bottom and in the usable space of the container to be stored Good and / or the cold source and / or the cold storage are arranged and the container outside of the storage container ( 2 ) is adjustable by means of liquid nitrogen or in a heat exchanger to a desired temperature. Vacuum-insulated cryocontainer according to one or more of the preceding claims, wherein the shielding means comprises spacer means in the form of knobs, beads and / or rings and the spacer means are preferably arranged at the lower edge or the bottom of the shielding means and in each case only punctiformly the inner wall ( 5 ) and / or the inside arranged sheet metal ( 6 ' ) of the soil ( 6 ) touch. Vacuum-insulated cryocontainer according to one or more of the preceding claims, wherein the shielding means in its vertical extent at least to half the height of the storage container ( 2 ) and in the closed state of the cryocontainer, preferably to just below the inside arranged cover plate 3 ' of the covering floor 3 of the inverted lidded container ( 1 ) enough. Vacuum-insulated cryocontainer according to one or more of the preceding claims, wherein at the upper edge of the shielding means spacer means and / or locking means for spacing the inner wall ( 11 ) of the lidded container ( 1 ) are arranged to the outer wall of the shielding means and preferably these spacer means at the same time as a locking means, namely as brackets ( 29 ) are formed, on the one hand in the shielding means a cold source and / or a cold storage supported and on the other hand, the outer wall of the shielding means to the inner wall ( 11 ) is spaced. Vacuum-insulated cryocontainer according to claim 2, wherein as spacer means the inner wall ( 5 ) of the storage container ( 2 ) and the outer wall ( 12 ) of the lidded container ( 1 ) are designed differently. Vacuum-insulated cryocontainer according to claim 2, wherein as a spacer means the outer diameter of the outer wall ( 12 ) of the lidded container ( 1 ) is smaller than the inner diameter of the storage container ( 2 ). Vacuum-insulated cryocontainer according to one or more of the preceding claims, wherein as a spacer means the outer wall ( 12 ) of the lidded container ( 1 ) and the inner wall ( 5 ) of the storage container ( 2 ) are provided with beads, that the two walls are parallel wavy in their vertical extent. Vacuum-insulated cryocontainer according to claim 2, wherein at the bottom of the storage container ( 2 ) a further spacer means, preferably in the form of a spacer ring ( 27 ), is arranged from a good insulating plastic material. Vacuum-insulated cryogenic container after one or more the aforementioned claims, being the cold source and / or the cold storage seated on the upper edge of the shielding means and the shielding means closes. Vacuum-insulated cryocontainer according to one or more of the preceding claims, wherein the cold source and / or the cold storage vertically to the storage room ( 24 ) or to the work space, preferably annular, is arranged. Vacuum-insulated cryocontainer according to one or more of the preceding claims, wherein the cold source and / or the cold storage vertically in the storage room ( 24 ) or in the work space is arranged so that the material to be stored around the cold source and / or the cold storage, preferably annular, is arranged. Vacuum-insulated cryocontainer according to one or more of the preceding claims, wherein the cold source and / or the cold storage below the storage space ( 24 ) or the usable space is arranged. Vacuum-insulated cryogenic container after one or more the aforementioned claims, being several sources of cold and / or cold storage coupled to each other. Vacuum-insulated cryocontainer according to one or more of the preceding claims, wherein the cold source and / or the cold storage at least one latent storage ( 30 ). Vacuum-insulated cryocontainer according to one or more of the preceding claims, wherein the lid container ( 1 ) a lid unit ( 14 ) substantially consisting of one with the coverable bottom ( 3 ) connected insulating plate ( 19 ), a stacking aid ( 15 ), a handle ( 16 ) and an outwardly formed step ( 23 ) reaching annular bead ( 18 ) consists. Vacuum-insulated cryocontainer according to claim 22, wherein the annular bead ( 18 ) over a border area ( 21 ) of the outwardly formed step ( 23 ) is curved and in the closed state of the cryocontainer on a further locking means, namely a frontal, upper end ( 8th ) of the storage container ( 2 ), only linear with its annular edge of the lid ( 22 ) rests. Vacuum-insulated cryocontainer according to one or more of the preceding claims, wherein the outer wall ( 12 ) of the lidded container ( 1 ) in the region of the covering soil ( 3 ) circumferentially around so by the outwardly shaped step ( 23 ) and in the material thickness was reduced so that the stage ( 23 ) in conjunction with the outside cover plate ( 3 '' ) is movable in at least two degrees of freedom as a spring or expansion element Vacuum-insulated cryocontainer according to one of the preceding claims, wherein in the cover unit ( 14 ), preferably in the stacking aid ( 15 ), a temperature measuring, storage and transmission system ( 20 ) is arranged. Vacuum-insulated cryocontainer according to one or more of the preceding claims, wherein the in the lid unit ( 14 ) arranged temperature measuring, storage and transmission system ( 20 ) transmits measured values wirelessly to a central processing unit. Vacuum-insulated cryocontainer according to one or more of the preceding claims, wherein in the closed state of the cryocontainer, the locking and / or spacing means enclose the inner wall ( 5 ) of the storage container ( 2 ) from the outer wall ( 12 ) of the lidded container ( 1 ) over the entire surface.