DE2808748A1 - Thermal blocks for maintaining temp. of stored materials, e.g. blood - comprise sealed containers contg. deuterium oxide, undecyl cyanide, or bromo-decanoic acid - Google Patents

Abstract

Thermal blocks, designed to maintain a stored material within predetermined limits of temp. comprises sealable container contg. D2O (I), undecylic cyanide (II), 4-bromodecanoic acid (III) or 2-bromodecanoic acid (IV). Specifically a thermally insulating container is provided having an interior cavity in which a container of the material to be stored is held in thermally conductive contact with the thermal block. The blocks are useful for maintaining the temp. of stored materials within a narrow range over a long period, irrespective of whether this is above or below ambient temp. The blocks are esp. useful for maintaining the temp. of whole blood or blood constituents at 1-6 degrees C during transport and storage.

Description

Storage container and thermoblock therefor

The invention relates to an apparatus for storing goods that highly sensitive to deviations from a specific specific temperature and more particularly, although not exclusively, the invention relates to one such apparatus in which one or more thermal blocks, i.e. containers, which contain a single chemical substance with a suitably defined melting point, in thermally conductive connection with a closed container with high thermal conductivity are arranged, with the goods before storage to a temperature within the temperature limits tolerable for these goods are brought during the Thermoblock is brought to a temperature that depends on the tolerance temperature in the other direction is brought to an expected ambient temperature.

Such an apparatus is able to collect blood in whole or in components the same at temperatures between 10C and 60C at ambient temperatures above or below this temperature range.

It is already known that goods that are temperature sensitive are in heat-insulated containers to storage in which so-called cooling blocks in a housing are included. A simple example of such a container is that of Housewives used to store food. In this case it needs the interior of the cooling container is only kept cool for a relatively short period of time to become. For this reason and because the food comes into direct contact with it the cooling block is normally not harmful, it is sufficient to put the block in front of it Use to cool to the required temperature.

The block can, for example, be used in a domestic refrigerator on the required Temperature can be cooled.

In their simplest form, the cooling blocks are simply filled with water filled which, when frozen, has a high heat of fusion and therefore in the Is able to keep the food in a cool environment for a considerable period of time to keep. Such an apparatus is effective in keeping foods below wholesome Conditions to hold or drink for a period of time at ambient temperatures, that are above the desired storage temperature to keep cool.

In the case of storage or transport of blood, blood components and many other substances, living and dead, such as certain Organisms, vaccines, serum, bacteriological and biological substances, Enzymes, pharmacological substances, electronic parts of movies and chemical substances, but measures must be taken to ensure that the object to be stored (hereinafter referred to as the goods) is constant in a predetermined specific temperature range can be maintained, often with extremely tight tolerance limits. Blood, among which predominantly transfusion blood understood must be in a narrow temperature range between + 10C and + 60C while its transition between the giver and the receiver are kept.

The above-mentioned apparatus using cooling blocks, which Filled with water may not be tolerable for storage of blood within Temperature ranges to be considered, especially in the case when the ambient temperature falls below the specified storage temperature because the latent heat of fusion of water in the formation of ice is not released until the temperature drops below OOC. In addition, hypothermic phenomena easily occur.

Another temperature-resistant device for storage and transport of goods which are temperature sensitive is described in US Pat. No. 2,989,856. The apparatus comprises a thermally insulated container in which a cavity for the goods to be stored and for heat-absorbing and heat-emitting substances, which are enclosed in Tllermoblocks, is provided, wherein the thermal blocks are arranged in layers on two opposite walls. According to this Patented can be a desired one Temperature of 4.40C with thermoblocks which is a mixture of the salts sodium chloride and potassium chloride and of the hydrated salt sodium sulphate (Na2S04 10H20).

In practice, however, it has been found that such an apparatus and the mixtures (Eutectica) proposed to stabilize this temperature are not are able to effectively treat temperature-sensitive goods over longer periods of time store, still keep the stored goods at the required temperature. It has been found in practice to be within the stored goods after lapse some time a noticeable rise in temperature occurs and that the stabilizing Control medium can not prevent the temperature of the stored goods within for a reasonable period of time beyond the specified tolerance limits.

Blood banks were set up to ensure that one patient was High quality blood supplied is blood banks and similar institutions usually have unlimited access to electrical energy, highly effective temperature controlled Storage rooms and control facilities, making it possible to keep blood very safe there can be stored. However, there are serious difficulties with the transfer of the Blood from blood banks to sites distant from them is connected as blood is destroyed when its temperature falls below +1 0C, and is also quickly impaired when its temperature rises above + 60C.

The problems with transporting individual containers that are not Form of energy source and control instruments, to remote hospitals, Hospitals and other places where blood transfusions may be required pose a problem difficult to solve, especially because of the ambient temperature can vary greatly during transport. These problems cannot be related to the above-mentioned water-containing cooling blocks, the freezing point of which is + O C, can be dissolved. Also, the apparatus cannot be solved by the apparatus mentioned in the above US-P is described because this apparatus does not guarantee that the temperature of the blood stored in it remains constant, and since it does not allow that To store blood undisturbed for the required period of time.

To reduce the risk of blood being destroyed by excessive cooling and to be able to store it within the required temperature range, it was proposed to fill the cooling blocks with salt solutions, their solidification points are more appropriate in relation to the temperature range in question.

In this case the heat of fusion was used to prevent overheating of the Prevent blood. Although these thermoblocks are subject to certain conditions Proven satisfactory, they were under long-term storage of goods strong Besides, they are not effective in varying climatic conditions Able to maintain a constant temperature environment within specific limits Eutectic mixtures do not always melt and solidify an exact solidification temperature, but rather melt and solidify in practice at temperatures outside those at which blood is safely stored An aim of the invention is to get an improved storage container, in which the occurrence of temperature gradients in the stored goods is inhibited or is prevented According to another aspect, the invention consists in a storage container, which has at least two releasably interconnected sections, of which each is made of a heat insulating material and has such a recess, that a cavity is formed in this container when the two sections are brought together be, which also a storage container for a storage box made of a thermally conductive Material which is fitted into this cavity and a thermal block has, which has high thermal conductivity and in thermally conductive contact is arranged with at least one wall of this container or box and the Has the shape of a closable vessel containing deuterium oxide, undecyl cyanide, 4-bromo-capric acid or contains 2-bromocapric acid.

The invention will now be described in detail with reference to the drawing described. In the drawing: Figure 1 means an exploded perspective Representation of a storage and transport device with an insertable container according to of the invention, with the various parts of the device separated from each other FIG. 2 shows a vertical section through that shown in FIG Device, the individual parts of the device in their position of use are located, and Figure 3 is a perspective view of a temperature stabilizing Thermoblocks, part of which is broken away for explanatory purposes.

The explained device for storage and transport temperature-sensitive Goods comprises a container made of a heat insulating material and two parts 10, 11, which in the illustrated embodiment have identical construction and are thus interchangeable. The two parts 10, 11 are designed so that then, if they are placed on top of each other, they will be closed and well insulated cavity 15 is formed, in which temperature-sensitive goods can be stored and in which an insert container or insert box according to the invention, the or the two thermoblocks 16 can be used to control the temperature in the To stabilize cavity 15.

Each thermal block 16 has the shape of a container with a heat absorbing and / or heat-emitting medium is provided, the nature of which depends on the desired Storage temperature of the device depends. The thermoblock consists of one material with good thermal conductivity, such as aluminum, and is provided with a filling cavity 17, which can be tightly closed with a plug 18. The stored goods are allowed are in no way affected by the medium in the thermal block 16, and consequently the block should be so constructed and so carefully sealed after filling be that no contact can take place between the medium and the goods0 In the Practice has found that the temperature of the stored in such a device Goods can be kept approximately constant over a certain period of time. if however, deviations in the temperature of various parts of the goods from a specific one Temperature cannot be tolerated and if the goods are over a long period of time, how several days should be stored in extreme weather conditions such an apparatus is not fully effective. As a result of varying degrees of Heat flow to and from the surrounding parts and from and to various parts of the storage cavity between the thermal blocks and the stored goods a temperature difference between different parts of the goods can easily occur. By providing the heat-insulating container 10, 11 with an insert container 20, it is possible to improve the conditions in various ways. The insert container is made of thermally conductive material, such as aluminum or copper, and is with a closable lid 19 is provided. As can easily be seen, there is local heat flow Initially no noticeable change from outside or inside the container cause the temperature of the container, but have the consequence that the heat flow as a result of the high coefficient of thermal conductivity of the container over the entire container walls is distributed. The thermal blocks 16 have flat surfaces, which extend at right angles to each other and their dimensions in relation to each other on the dimensions of the insert container 20 are such that the thermal blocks in thermal contact with this container on all sides of the same with the exception one stand, whereby this exempted side is the one that corresponds to the stored Goods is facing.

In this way, any local change in the temperature of the Insert container primarily absorbed and balanced by the thermoblock, and the stored goods are not affected by such temperature changes, until the entire heat capacity of the blocks is expended.

The lid 19 of the container 20 tightly closes the opening of this Container and thus prevents the temperature in the container from falling if its Air content is saturated with vapors resulting from the evaporation of the stored goods come.

The outer surfaces of the container 20 are expediently polished or with heat-reflecting layers in such a way that heat radiation is as great as possible Extent is reflected around heat flow to and from the stored goods and to and from To reduce the walls of the insert container, the inner walls of the container and the inner surface of the lid 19 with strips of a material with a low coefficient of thermal conductivity, such as cork or plastic foamsD provided so as to be directly thermally conductive To prevent contact of the walls and the lid with the stored goods.

The strips are either contiguous or axial in shape spaced apart sections, and the strips on the vertically extending Sides of the container extend parallel to each other and form between there are air gaps, with the air in the tips forming an insulating layer. the Strips also allow limited convection, which compensates for local temperature gradients between different Parts of the container walls supported. In The sides of the thermoblocks that lead to the stored goods are correspondingly are directed towards, provided with strips 21.

Figure 2 shows the air gap between the strips. The appearance of temperature gradients can also be reduced by the fact that the insert container 20 gives a slightly smaller dimension than the cavity 15 in the thermally insulated one Container so that a gap is formed around the container on all sides of the same. Such a gap is provided with the reference number 22 in FIG. 2. The width of this The air gap is preferably between 5 and 15 mm, whereby the heat transfer is achieved to and from the container 20 to a minimum. The insert container 20 is in a predetermined position in the container 10, 11 with the aid of a plurality held by spacers 23 on the top, bottom and sides of the Container are provided.

In the illustrated embodiment, the spacers 23 are in the molded thermally insulated container. The spacers 23 between the insert container 20 and the container 10, 11 are made of such a material and have such Form that heat transfer by conduction is effectively reduced. Preferably located the spacers 23 are essentially in line contact with the container 20 so that they have as little as possible of the air gap 22 around the container take in.

The heat-insulated container 10, 11 is expediently made of foamed Polyurethane suitably containing / or any heavy gas other material with a very low coefficient of thermal conductivity O In Fig0 2, the insert container 20 is constructed so that there are two thermal blocks 16 in such a way takes up that a parallelepipedic space between opposing Walls of the thermal blocks and the container 20 is limited. Alternatively, the insert container 20 be designed so that it is only adapted to the goods to be stored, and in In this case, the thermoblocks outside the insert container are in a more thermally conductive manner Contact with two opposite sides of the same arranged.

The outer and inner surfaces of the container are expedient 10, 11 constantly against wear and tear. This can be achieved, for example be made by foaming the insulation forming material from one piece, In addition the container should be constructed in such a way that parts 10 and 11 are diffusion-free are.

As mentioned above, blood and blood components must be at one temperature between 100 and 60C when transported0 For this purpose, the thermal blocks with a heat-absorbing and heat-emitting X temperature stabilizing medium filled, examples of such Medium are deuterium oxide, undecyl cyanide, 4-bromo-capric acid and 2-bromo-capric acid. These Substances are homogeneous chemical substances that have a more clearly defined attachment temperature / enamel than have previously known control substances for storage devices. The temperature stabilizing Substances listed in the above-mentioned US-PS are eutectic mixtures, i.e. different mixtures of salt solutions. The temperature stabilizing Substances according to the invention have solidification and melting points that are very close at 4 ° C, which is the temperature required for storing transfusion blood in the permissible temperature range of 1 0C to 6 ° C is required. These substances can also be stored for a long time without decomposition and can be handled safely without the need for special protective devices.

Despite the fact that the above-mentioned substances according to the invention if they have good properties for their intended purpose, they have a relatively low one Thermal conductivity.

As a result, temperature gradients can occur in the stored substance occur, causing a heat exchange between the substance in the thermal block and the goods becomes difficult. The risk of such temperature gradients is after Invention switched off by placing a thermally conductive, expediently in the thermoblock metallic part in the form of grooved or corrugated plates 24 provides. Alternatively can the thermoblocks with flanges, metal wire nets or inserts in the form of Lattice structures can be provided for the same purpose. These inserts or parts can be attached free-standing or either wholly or partially with the walls of the thermoblock must be connected to it in intimate, thermally conductive contact.

In practice it has been found that with a thermoblock that is equipped with a filled with the above-mentioned chemical substances, a hypothermia phenomenon in cold Environments occurs, the release of the latent heat of attachment is with such Hypothermia delayed, with the result that the temperature of some parts of the stored goods can fall below the permissible storage temperature 0 So that the Heat of solidification can be exploited in an early stage of the supercooling process can, so as to keep the temperature of the storage of goods in the required temperature range To keep the thermal blocks 16 shown in Fig. 3 with a solidification introductory device 25 provided the submicroscopic metals used during of supercooling occur arbitrarily, obtained by the solidification initiating Establishment of additional energy, and this increases the thermal movement of the crystals, so that they approach each other in a catfish that a sufficiently large crystal is formed to allow further growth.

An example of a suitable solidification initiating device is a radioactive preparation, like pollonium, enclosed in a suitable casing is.

Another example of one that initiates solidification Device is a temperature control bimetallic element, which at a predetermined Temperature assumes such a position that a bow spring or a double bent Diaphragm causes a tongue-like element to strike a contact surface, and the blow causes the substance to solidify before the hypothermia has progressed too far. Such a temperature controlled element works like a microswitch.

To avoid the disadvantages associated with using a radioactive Substance or a device based on mechanical movement with the possible Risk of aging, the thermoblock can be equipped with a device be provided, which uses the heat transport to something like a seed crystal to form, which in turn causes further crystallization of the substance. The advantage obtained with such a seed crystal is that it is formed can be before the temperature of the thermoblock or the stored goods has fallen an inappropriately low value before the temperature stabilizes to within the desired temperature range.

A seed crystal generating device is shown in FIG. In The illustrated embodiment is the plug 18 with a continuous Bore provided through which a tubular sleeve 26 made of a material from relatively low thermal conductivity extends.

A pin 27 extends through the sleeve 26, this pin is arranged in the sleeve so that only the tip 29 of the same in direct Contact with the control substance 28 is. In the illustrated embodiment extends the pin 27 moves up through the wall of the thermoblock housing, the plug 18 and beyond this plug into a recess that is close in the container wall the pin in the closed position of the container0 Although the Pin is shown to have a head 30 and a collar 32, the latter rests tightly against the wall, which is designated here with 31, is understandable, that the head and the collar are only optional measures0 The pin 27 exists made of a material with high thermal conductivity, such as aluminum. Do you take one If the ambient temperature drops to -25 ° C, the temperature in the recess falls to about 80C, and consequently the temperature at the tip 29 changes accordingly and thus causes a seed crystal to grow at this tip. Instead of this the end of the pen that is away from that tip may touch extend with a face of the wall0 The heat-insulating housing 31, which is used for the use of the temperature-stabilizing properties of the thermoblock in the storage room is required in advance, causes in the event of a cold Environment that the front of the temperature gradient slowly inward through the housing migrates, after which a noticeable gradient remains in the continuity state. Consequently in the part which lies in the insulated housing 31, the pin 27 becomes an essential one exposed to a lower temperature than prevails in the substance 28, so that than Result of the thermal conductivity of the pen and the low thermal conductivity of the sleeve 26 and the substance in a short time a seed crystal at the point 29 of the Pin 27 is formed.

Claims (19)

Storage containers and thermoblocks for this are patent claims characterized by at least two interconnected sections (10, 11), each of which is made of a heat insulating material and such depressions comprises that a cavity (15) is formed in the storage container when the sections (10, 11) are brought together, a Storage container (20) from there is thermally conductive material and is fitted into this cavity (15), and one Thermoblock (16) with high thermal conductivity, which is in thermally conductive contact with a wall of the storage container (20) is arranged and a tightly closable one Vessel which comprises deuterium oxide, undecyl cyanide, 4-bromo-capric acid or 2-bromo-capric acid contains. 2. Storage container according to claim 1, characterized in that the Interior of the vessel is provided with heat-conducting devices (21F), which the increase effective surface inside. 3. Storage container according to claim 1 and 2, characterized in that the heat conducting means (24) in direct contact with the walls of the vessel stand. 4. Storage container according to claim 1 to 3, characterized in that the thermoblock also has a device to initiate crystallization (27, 29) contains. 5. Storage container according to claim 1 to 4, characterized in that the device initiating a crystallization is a pin (27) with a relative high thermal conductivity, which is characterized by a sleeve (26) with a relatively low Thermal conductivity extends, wherein the sleeve (26) extends sealingly through one wall of the thermal block (16) extends, a land (29) of the pen (27) protrudes from the sleeve in such a way that it is in direct contact with the substance (28) stands, and the other end (30) of the pin extends over one wall and extends into a cavity in the vicinity of the wad (31) of the storage container to the pin in the closed position of this section or is formed in engagement with this wall (31). 6. Storage container according to claim 1 to 5, characterized by devices (23) holding the storage container (20) in a predetermined position in the cavity keep. 7. Storage container according to claim 1 to 6, characterized in that the inwardly directed surfaces of at least two mutually opposite Walls of the storage container (20) with strips (21) made of a material lower Thermal conductivity, these strips are insulating between them Limit air gaps. 8. Storage container according to claim 7, characterized in that the Strips of cork are made. 9. Storage container according to claim 7, characterized in that the Strips made of foamed polyurethane. 10. Storage container according to claim 1 to 9, characterized in that the thermoblock (16) in this way in the storage container (20) arranged is that all sides of the thermal block except one in contact with cooperating Sides of the storage container (20) stand, this one side with strips a material of low thermal conductivity is provided, the insulating between them Limit air gaps. 11. Storage container according to claim 1 to 10, characterized in that that the storage container (20) is smaller than the cavity in the sections (10, 11) and so a heat-insulating gap is formed around the storage container (20). 12. Storage container according to claim 11, characterized in that the Gap has a width of 5 to 15 mm. 13. Thermoblock to maintain the temperature of stored goods in a predetermined temperature range and for use in a storage container according to claims 1 to 12, characterized in that it is a tightly closable Vessel comprises the deuterium oxide, undecyl cyanide, 4-bromo-capric acid or 2-bromo-capric acid contains. 14. Thermoblock according to claim 13, characterized in that the Inside the vessel is provided with heat-conducting devices (24), which the effective Enlarge the surface of the inside of the thermoblock. 15. Thermoblock according to claim 14, characterized in that the heat conducting means (24) in direct contact with the walls of the vessel (16) stand. 16. Thermoblock according to claim 13 to 15, characterized in that it also rises a device (27, 29) which initiates the crystallization. 17. Thermoblock according to claim 16, characterized in that the a crystallization inducing device a pin (27) with a relatively high Thermal conductivity that extends through a sleeve (26) with relatively low thermal conductivity extends, wherein the pin (27) and the sleeve (26) sealingly through extending one wall of the vessel (16) and one end of the pin out of the sleeve in such a way protrudes that it is in direct contact with the substance (28) and the other End of the pen extends beyond this one wall and in contact with it a thermally insulated surface. 18. Thermoblock according to claim 13 to 17, characterized in that it is provided with spacers with low thermal conductivity on one of its sides is. 19. Thermoblock according to claim 18, characterized in that its Spacers of a continuous continuous strip or of axially spaced apart Strip sections are formed.