DE102005030362B3 - Thermo-accumulator for cool or warm box, has temperature storage medium whose aggregate condition change is reverted from liquid to solid, where temperature range for change of condition lies between specified degree Celsius - Google Patents

Abstract

The accumulator (1) has a temperature storage medium whose aggregate condition change is reverted from liquid to solid, and a thermo-radiating surface (12). The temperature range for the aggregate condition change lies between 40 and 60 degree Celsius. The accumulator is arranged detachably within a region of a thermo-radiator of a cool box and is fastened to the radiator in the form of a bag by holding or strutting unit.

Description

The The invention relates to a method for maintaining a desired Temperature by means of a thermal battery in a thermal container according to the preamble of claim 1, in particular in one by means of Peltier elements operated cooling or heat box, being in the thermal box in an active tempering by means of a thermocouple with a Thermoabstrahler the desired Temperature due to a temperature difference to the outside temperature is generated and wherein in a passive tempering the thermocouple not operated.

Further The invention relates to a thermal battery for a thermal container, in particular for a means Peltier element operated cooling or heat box, according to the generic term of claim 6. Hereinafter, the thermal container thermally insulated walls and at least one thermocouple with at least one thermo-radiator on.

The use of cold batteries with cooling pockets for temperature control of the interior is a known measure. These cold batteries usually have an optimum range of use between -20 ° to a maximum of 0 ° C. They have inside a thermo medium, such as H ₂ O. This thermo medium performs in the said temperature range between about 0 ° and -20 ° C a Aggregatszu state change from solid to liquid and vice versa. For H ₂ O this change takes place between ice and water at 0 ° C. For a change of the state of aggregation from solid to liquid, energy is needed, whereby the medium does not heat itself. To convert ice from 0 ° C to water at 0 ° C, energy must be added to the ice. The required energy usually comes from the ambient heat and thus cools the environment accordingly.

To the Reuse of such a thermal battery must the thermo medium be returned to the solid state of aggregation. This will become conventional in a stationary freezer executed because of this Again, a temperature between 0 ° and -20 ° C or lower is needed. This is about the same temperature range, in which the aggregate change from liquid to solid takes place.

The Most thermal containers have no active cooling themselves on. Thus, when using such refrigerated batteries with thermal containers, only a single use of the cooling batteries possible. After that, the cooling battery must be in a stationary one Freezer cooled again to be ready for use again.

conventional electrically operated coolers have for electrical use usually use electrical energy storage on. These energy stores are heavy, reducing the overall weight of the thermo box elevated becomes. Also, these thermal containers do not reach the low Refrigeration temperatures, to cool down and re-insertion of a known cooling battery are necessary.

Out EP 1 302 410 A1 a container is known for transporting blood samples. This container has a double wall. Within this wall is a latent heat storage.

In DE 200 13 855 U1 an energy-optimized Peltier cooling element is described. In this case, in addition to a battery cold storage in the interior are provided to serve as additional energy storage.

Of the Invention is based on the object, a method and an apparatus with which in mobile, for example electrically operated, thermal containers, Without supplying external energy a desired temperature for a longer time simply and can be maintained effectively.

The The object is achieved by a Method with the features of claim 1 and a thermal battery for thermal containers solved with the features of claim 6.

Further advantageous embodiments are in the dependent dependent claims specified.

The inventive method to maintain a desired Temperature in a thermo box is characterized in that for a thermal battery, a temperature storage medium chosen becomes, in which the change of the state of aggregation in the positive degree Celsius area performed is, and that in the passive tempering about the temperature difference, which has been achieved in the thermocouple in the active tempering in by a change of the state of aggregation of the temperature storage medium especially from solid to liquid in thermal battery over a longer one Time is essentially maintained.

A basic idea of the invention is not to use conventional cold accumulators which only resume the solid state of aggregation at lower minus temperatures, but to use newer temperature storage media, which already execute this state of aggregate change in the positive temperature range. Electric coolers reach a temperature difference of approx. 20 ° C. At + 25 ° C ambient temperature, a maximum of + 5 ° C can be achieved inside the box. At + 5 ° C, conventional temperature storage media do not undergo a state change from liquid to solid state. The temperature storage medium used, which may be, for example, certain paraffins, but already in this temperature range, the aggregate state change in the solid state. This makes it possible that during the network-bound operation of an electric cool box, the state of aggregation of the temperature storage medium is carried out in the solid state. In this way it is possible, after the separation of the thermal container, such as an electric cooler from the supply network to produce an additional cooling effect by a state of aggregate change from solid to liquid, whereby the temperature reached in the thermal container longer without additional energy, for example two to four hours, can be sustained, than without such a rechargeable battery. With sufficiently large dimensions of such a thermal battery, a cool box can therefore be held turniveau on the cooled tempera for two to four or more hours. This also depends on the internal volume, the quality of the external insulation, the outside temperature and similar factors. However, it is also possible to use any other state change of state, such as from the gaseous to the solid state.

Basically it is possible the thermo-battery anywhere in the thermo box, So in a cooling or heat box, to arrange. It is according to the invention, if in the active tempering the temperature storage medium in the Thermoakku, especially in the vicinity of the Thermoabstrahlers in Thermo box, arranged becomes.

Besides that is it is preferred if in the temperature storage medium of the thermal battery in the active temperature phase a change of state of aggregation, in particular of liquid after firm, about in the desired Temperature range, realized in the positive degree Celsius range becomes. Basically it is possible the inventive method also to carry out that the thermal battery in an external cooling device, a freezer, the change of state of aggregation from liquid to solid state performs. But it is quite advantageous if this state change in network-bound operation of the thermal box are performed can. This is eliminated the need for an external cooling device.

Of the Temperature range in which the change of the state of aggregation of the Temperature storage medium can take place close to the maximum, achievable Extreme temperature of the thermo box, like a cool box, chosen to ensure a particularly good cooling or heat effect to enable. Another possibility is the cool battery with the thermo medium so that it is also in the solid state further cooled down becomes. As a result, in the passive phase, the cold energy of the battery.

In order to the change of the state of aggregation of the temperature storage medium from liquid performed too firmly well and safely is, the thermal battery is placed in the vicinity of the Thermoabstrahlers. Here is the desired or a slightly lower temperature through the Thermoabstrahler radiated without passing through the air inside the container significantly influenced, heated or chilled would. In the area of the radiator, it is, depending on the mode, especially cold with a cool box or warm with a heat box.

in principle is any desired Shape of a thermal battery possible. Since the thermal battery but during the passive tempering also acts as a cold or heat radiator is it is advantageous if the volume of the temperature storage medium in a surface-enlarged thermal battery is provided. This can be a particularly good thermal radiation be achieved. Possible Here is, for example, a wave-like or sawtooth-like Surface basic form.

Becomes the method with a thermal container, which, for example is operated by means of Peltier element, executed, it is advantageous if the change of the state of aggregation of the temperature storage medium in the temperature range between + 3 ° C and + 12 ° C, especially between + 5 ° C and + 10 ° C, preferably at about + 8 ° C chosen becomes. in principle the temperature storage medium can be selected so that the state of aggregate change carried out at the temperature which can be achieved as extreme temperature. This means, the coldest Temperature, if the thermal battery is intended for cooling, or the maximum Achievable temperature, if used for keeping warm. But also the temperature range, when cooling over, and while warming are below the respective extreme temperature. So must the corresponding Temperature for aggregate state change can only be achieved.

Furthermore, it is advantageous if, in the active tempering phase, a high temperature transmission capacity is created by the spatial arrangement and envelope structure of the thermal battery. This can be achieved, for example, in that the thermal battery has direct contact with the thermocouple of the Peltier element. In such a method, the temperature storage medium in the thermal battery change the state of aggregation, for example, from liquid to solid, particularly good by.

One Thermoaccumulator according to the invention is characterized in that it comprises at least one temperature storage medium in which the change of state of aggregation also for cooling in po sitive degree Celsius range and that the thermal battery is removable is arranged in the region of the thermal radiator.

in principle For example, the temperature storage medium and its melting point can be chosen such that the change of the state of aggregation in any temperature range takes place. It is preferred that the temperature range between + 3 ° C and + 12 ° C, in particular between + 5 ° C and + 10 ° C, and especially at about + 8 ° C lies. These areas are preferred because they are the minimum achievable with a Peltier cooler Internal temperature describe, in the still a state of aggregate change the temperature storage medium can be performed. One possible, therefor suitable temperature storage medium, are paraffins. By choice this temperature range can also provide the benefit that the state of aggregate change in the passive cooling phase very early takes place in the direction of positive temperatures, and so the cooling effect of the thermal battery very early starts. This maintains a low temperature for a long time. But it is also conceivable, the cooling effect the aggregate state change can be used later.

Becomes such a cooler for heating or it is used to maintain warm temperatures preferred if the temperature range for the change of state of aggregation between + 40 ° C and + 60 ° C lies. When choosing this temperature range plays crucial the desired temperature to be kept in the interior of the thermo box a role. The state of aggregation when warming may be a few degrees above the desired be provided to be maintained temperature. This may vary depending on the purpose between + 40 ° C and + 60 ° C or between + 45 ° C and + 55 ° C or in the range around + 50 ° C.

Basically such a thermal box with every kind of cooling or heating device operate. But it is particularly advantageous to the container with operate a thermocouple in the form of a Peltier element, which as a cooling element or heat element executed and / or can be switched.

Instead of a Peltier element are also other cold or heat generating devices used. Such is the use of refrigeration compressor technology conceivable.

Peltier thermocouples offer the advantage that with them both a cooling and heating effect can be achieved. Furthermore they have little or no noise and take little in comparison to devices of other cooling techniques Place one.

in principle Is it possible, the thermo-battery anywhere in the thermo box to arrange. However, it is preferred if the thermal battery in positive contact with the thermo-radiator, in particular the radiating fins of the thermo-radiator, stands. This ensures that the through the thermal device Temperature produced on the thermo radiator particularly well on the Thermoakku passes. Thus, the desired State of aggregation, usually the solid state, in the active tempering phase achieved quickly and effectively. Through an intensive positive contact can Also insulating air layers between the radiating fins and the Thermoakku be avoided.

As well it is also possible that the thermal battery in the form of a bag, in particular an aluminum bag is formed and by holding and Verspannmittel on Thermoabstrahler is attached. So is a particularly simple and flexible attachment of the thermo bag on the thermocouple possible. Due to the detachable attachment the thermal battery offers the possibility in principle to cool the thermal battery even in external cooling devices, though this with the described cool box or the method according to the invention is not necessary. Also, the thermal box, if it is only in stationary use with power connection, is used without the space-taking thermal battery be used, creating a larger internal volume to disposal stands. But it is the basic shape of the thermal battery no limits.

Around in the passive tempering phase, the temperature caused by the thermal battery maintained or "generated", especially to radiate well, is provided that the thermal battery has a relatively large thermal surface, in particular Thermo receiving surface and thermal radiation surface having. As a result, the internal temperature is particularly good the thermal battery can be influenced. Such area enlargement can for example, realized by a waveform or a sawtooth-like basic shape become.

Furthermore, it is preferred if the container is designed as a minibar. This offers the advantage in hotels, for example, that the minibar can only be cooled by electricity at night, and during the day by means of it Thermoaccum according to the invention to provide for a temperature. As a result, cheaper night stream can be used for cooling. It is also possible to actively cool during the day in the case of noisier minibars and passively heat them at night through thermal batteries in order to avoid any operating noise.

The Invention will be described below with reference to preferred embodiments and schematic drawings closer explained. In these drawings show:

1 a perspective view of a portion of a cool box with a thermal battery according to the invention;

2 a perspective view of a thermal battery according to the invention; and

3 a sectional side view of a cool box with thermal battery according to the invention.

In 1 is a cool box 2 with a thermal battery according to the invention 1 displayed. The thermocouple is located at this cool box 2 in the lid 3 , As the thermo radiator 22 (not visible here) also on the lid 3 is attached, is the thermal battery according to the invention 1 installed there. The thermo-battery shown here 1 has a sawtooth surface an increased Thermoabstrahlfläche 12 on. This serves to better exchange the temperature with the air and objects inside the cooler. The thermo box 2 also has an insulated wall 4 on, whereby the generated temperature difference to the environment can be better maintained.

Through the recess of the thermal battery 1 It is possible when attaching this thermal battery 1 , as in 2 shown a positive contact with the Thermoabstrahler 22 to reach the thermocouple. This results in a very good heat or cold transmission between the Thermoabstrahler 22 and the thermal battery 1 reached. So the aggregate state change, for example, from liquid to solid, in the active thermophase is particularly easy to implement. The fact that the battery is not firmly connected to the cool box, it can be easily removed, for example, to pre-cool it in an external cooling device. It is also possible in network operation of the cooler, during which the mobile cooling effect of the Ak kus is not needed to remove it, and thus to obtain more space in the interior.

The thermal battery 1 has a U-shaped cross-section 14 on. In its interior is a canal 13 educated. This serves to accommodate the Thermoabstrahlers 22 , In the embodiment shown here is the cooling battery 1 designed so that the thermal radiator 22 full of the thermal battery 1 is recorded. But it is also conceivable, only a part of the Thermoabstrahlers 22 through the thermal battery 1 and the remaining surface of the Thermoabstrahlers 22 directly with the air of the inside of the thermo box 2 keep in touch.

In 3 is a sectional side view of the thermal box 2 out 1 shown. For illustration is located inside the thermo box 2 a bottle 23 , The thermal battery 1 is in positive contact with the thermal radiator 22 , Because of the thermal battery 1 not the entire long side of the thermo box 2 It is possible, even higher bottles 23 in the cool box 2 to cool. The better the insulation of the wall 4 is designed, the longer it can with the thermal battery 1 the interior should be kept at the desired temperature. The ventilation slots 24 are used for air exchange with the interior of the remote side of the Peltier element. The larger and better the air flow is here, the higher the performance of the Peltier element. The ventilation slots are therefore closely related to the design of the temperature of the physical state change of the thermal storage medium in the thermal battery 1 ,

With the method according to the invention and the thermal battery according to the invention, Is it possible, the temperature inside a thermo box without external power supply easy and effective about a longer one Maintain period.

Claims (13)

Method for maintaining a desired temperature by means of a thermal battery ( 1 ) in a thermo box ( 2 ), in particular in a Peltier element operated cooling or heat box, - in the thermal box ( 2 ) in an active tempering phase by means of a thermocouple with Thermoabstrahler ( 22 ) the desired temperature is generated due to a temperature difference to the outside temperature, and - wherein in a passive tempering the thermocouple is not operated, characterized in that - that for the thermal battery ( 1 ) A temperature storage medium is selected, in which the change of the state of aggregation in the positive degree Celsius range, in particular from liquid to solid and vice versa, is performed, - that in the passive tempering about the temperature difference in the active temperature phase in the thermo box ( 2 ) was achieved by changing the state of aggregation, in particular from solid to liquid, the temperature storage medium in the thermal battery ( 1 ) is maintained substantially for a long time, and - that in the active tempering the temperature storage medium in the thermal battery ( 1 ) in the vicinity of the thermal radiator ( 22 ) is placed in the thermo box. A method according to claim 1, characterized in that in the temperature storage medium of the thermal battery ( 1 ) In the active temperature phase, a change of the state of matter, in particular from liquid to solid, is realized in the desired temperature range, in the positive degree Celsius range. A method according to claim 1 or 2, characterized in that the volume of the temperature storage medium in a surface-enlarged thermal battery ( 1 ) is provided. Method according to one of claims 1 to 3, characterized that the change of the state of aggregation of the temperature storage medium in Temperature range between + 3 ° C and + 12 ° C, in particular between + 5 ° C and + 10 ° C, preferably at about + 8 ° C, chosen becomes. Method according to one of claims 1 to 4, characterized in that in the active tempering phase by spatial arrangement and envelope structure of the thermal battery ( 1 ) a high temperature transmission capacity is created. Thermal battery ( 1 ) for a thermo box ( 2 ), in particular for a Peltier element operated cooling or heat box, with thermally insulated walls ( 4 ) and at least one thermocouple, which has at least one thermal radiator ( 22 ), in particular for carrying out the method according to one of claims 1 to 5, characterized in that - the thermal battery ( 1 ) has at least one temperature storage medium, - wherein the change of the state of aggregation of the temperature storage medium, in particular from liquid to solid and vice versa, also for cooling in the positive degrees Celsius range, and - that the thermal battery ( 1 ) removable in the area of the thermo radiator ( 22 ) is arranged. Thermoelectric battery according to claim 6, characterized that the temperature storage medium is selected so that the change of State of aggregation in the temperature range between + 3 ° C and + 12 ° C, in particular between + 5 ° C and + 10 ° C, preferably at about + 8 ° C lies. Thermoelectric battery according to claim 6, characterized that the temperature range for the change of state of aggregation while maintaining the heat between + 40 ° C and + 60 ° C. Thermoelectric battery according to one of claims 6 to 8, characterized, that the thermocouple is a Peltier element and that the thermocouple as a cooling element or heat element accomplished and / or is switched. Thermoakku according to any one of claims 6 to 9, characterized in that the thermal battery ( 1 ) in positive contact with the thermal radiator ( 22 ), in particular the radiation ribs of the thermal radiator ( 22 ), stands. Thermoakku according to any one of claims 6 to 10, characterized in that the thermal battery ( 1 ) in the form of a bag, in particular an aluminum bag, by means of holding or tensioning means on the thermal emitter (US Pat. 22 ) is attached. Thermoakku according to any one of claims 6 to 11, characterized in that the thermal battery ( 1 ) with a relatively large thermal surface, in particular thermal absorption surface and Thermoabstrahlfläche ( 12 ), is trained. Thermoelectric battery according to one of claims 6 to 12, characterized that the container is designed as a minibar.