DE19834710A1 - Low temperature storage device for biological material - Google Patents

Abstract

The storage device has a number of polygonal storage containers (L21,L31) arranged in at least one plane and closely packed together in a honeycomb configuration, with only the exposed side faces of the outermost storage containers enclosed by a thermal insulation layer. The thermal insulation may be provided by plastics vacuum insulation panels, the storage containers being rectangular in the case of a paternoster storage device, or hexagonal in the case of a ring storage device.

Description

The invention relates to a device for the deep temperature storage of biological material in particular.

For low temperature storage, i.e. H. Cryo storage, are called La vascular cylindrical storage containers in use. As ther mixed insulation vacuum is used. The noble Steel vacuum insulation is relatively expensive, but achieves ho insulation values, vacuum insulation corresponds to 4 cm about a PU foam insulation of 80 cm thickness.

If from several such cylindrical storage containers a larger warehouse is to be built or if a best one existing warehouse to be expanded by some such containers the surface of the Ge to be thermally insulated increases samtsystems linear with the number of storage containers.

The object of the invention is a device for low temperature ratur Storage of biological material in particular to form that if several storage vessels are provided, the insulation effort for the overall system is minimized.

According to the invention, this object is achieved in that several polygonal storage vessels in at least one egg ner level are strung together like a honeycomb and that only the free sides of the storage vessels provide thermal insulation have high quality. Due to the high packing density of the ge velvet furnishings is also a good option for automa Handling and storage technology possible.

This is a first advantageous embodiment of the invention characterized in that as a thermal insulation plastic vacuum Umisolierpaneele are provided. Such panels have rockwool mineral fiber as filler material, welded in  thin aluminum-polyethylene film under vacuum. Are there if necessary also getters to prevent diffusion used. These panels have very little heat conductivity and can therefore be made relatively thin become.

If as a means of storing and transporting the actual Chen storage units for the biological material paternoster are provided in the storage vessels, these can be of interest a high space economy should be square.

If as storage and means of transport in the ring storage vessels memory are provided, it offers a good space use to form these hexagonal.

Embodiments of the invention are shown in the drawing and are explained in more detail below. Here zei gene:

Fig. 1 shows a first device for low-temperature storage,

Fig. 2 shows a second device for low-temperature storage,

Fig. 3 two storage vessels with paternoster and

Fig. 4 two storage vessels with ring memories.

In the illustration of FIG. 1 is a device for playing in liquid nitrogen-cooled low-temperature storage with multiple storage vessels is shown L11 to L1n formed in two rows. For example, storage vessels L1a and L1b stand side by side as a pair. The resulting outer contour of all storage vessels L11 to L1n forms the outer side A1, while all internally abutting sides of the storage vessels L11 to L1n form the resulting inner side I1. A strong line indicates that the outer side A1 is thermally insulated, while the resulting inner side I1, as indicated by thin lines, does not have to meet high thermal requirements.

In the illustration according to FIG. 2 it is shown that several storage vessels L21 to L2n can also be hexagonal, this shape leading to a thermally unstressed resulting inside I2 and to a thermally stressed outside A2, whereby here also by the Strength of the lines the thermal insulation ability is indicated.

In the representation of FIG. 3 is shown in side view how the storage vessels L1a and L1b are formed in the individual. For example, the storage vessel L1a contains a paternoster Pa, which can store and transport storage units LE1 to LEn in circulation. A similarly designed paternoster Pb can be provided in the storage vessel L1b. An operator can access the storage units, for example the storage units LE1 and LEn, through openings O1 and O2.

In the representation of FIG. 4 is interpreted with reference to the La gergefäß L21, the honeycomb-shaped array of storage vessels in, wherein as shown ge by a further storage vessel L31, here two levels of honeycomb assemblies are present. The same as the paternoster Pa and Pb in the example according to FIG. 3, storage and transport of positional units is provided here, so the storage unit LE2 is provided in two ring memories R1 and R2. The ring memories R1 and R2 contain ka russell-like mechanisms that can be moved via a drive A. The storage units LE2 can be brought in or outsourced via closable openings O3 or O4.

Claims (4)

1. Device for low-temperature storage of biological material in particular, characterized in that several polygonal storage vessels (L11, L1a, L1b, L1n, L21, L2n, L31) are arranged in a honeycomb-like manner in at least one level and that only the free sides (A1, A2) of the storage vessels (L11, L1a, L1b, L1n, L21, L2n) have high quality thermal insulation. 2. Device according to claim 1, characterized ge indicates that as thermal insulation Plastic vacuum insulation panels are provided. 3. Device according to one of the preceding claims, characterized in that the La vessels (L11, L1a, L1b, L1n) each for receiving Paterno star (Pa, Pb) are square. 4. Device according to claim 1 or 2, characterized characterized that the storage vessels (L21, L2n) designed to accommodate ring memories (R1, R2) hexagonal are.