DE202007001852U1 - Fridge and / or freezer - Google Patents

Abstract

Cooling and / or Freezer, that in a cooling mode and is operable in a defrost mode, with a magnetic cooler, with a cold heat exchanger (20) for cooling of the cooling and / or freezer compartment of the appliance, with a warm heat exchanger (50) for cooling the heat transfer medium, with a pump (100) for pumping the heat transfer medium and with control means, wherein the control means are designed such that in the cooling mode of the device that in the magnetic cooler (10) refrigerated Heat transfer medium the cold heat exchanger (20) supplied is characterized in that the control means further executed in such a way are that in the defrost mode of the device by means of one or the Pump (100) warm heat transfer medium of the warm heat exchanger (50) to the cold heat exchanger (20) becomes.

Description

The Invention relates to a cooling and / or freezer, that in a cooling mode and which is operable in a defrost mode, with a magnetic cooler, with a cold heat exchanger for cooling the Cooling and / or Freezer compartment of the appliance, with a warm heat exchanger for cooling the heat transfer medium, with a pump for promotion the heat transfer medium and with control means, wherein the control means are designed such that in the cooling mode of the device that in the magnetic cooler chilled Heat transfer medium that cold heat exchanger supplied becomes.

at the magnetic cooling becomes due to the so-called magnetocaloric effect Heat transfer medium heated and cooled. The thereby running process steps are common the magnetization, the heat extraction, the Demagnetization and the use of cold, which are repeated continuously. To carry out these process steps Different methods are known. It is conceivable, for example, a fixed magnetocaloric material and one or more to use rotating magnets that magnetocaloric material periodically magnetize and demagnetize, this one Warming and a cool down experiences. The warming or cooling The magnetocaloric material is used to make that through the magnetic cooler flowing Heat transfer medium to warm up or to cool.

One conceivable refrigeration cycle comprises a so-called cold heat exchanger, said magnetic cooler, a warm heat exchanger and a pump for pumping the heat transfer medium through the cooling circuit. While the magnetization of the magnetocaloric material experiences this a warming. The heat is transferred to the heat transfer medium flowing through the magnetic cooler, which thereby heated. The Heat transfer medium is then conveyed by means of the pump in the warm heat exchanger, in it cooled down becomes. After that the further cooling takes place the heat transfer medium in the demagnetized region of the magnetic cooler. The cooled in this way Heat transfer medium flows through then the cold heat exchanger, the for cooling of the cooling and / or frozen food serves. The heat transfer medium heats up and is then fed again to the magnetic cooler and during the magnetization of the magnetocaloric Materials further heated by this. It then finally returns to the pump to the warm heat exchanger.

During the Operation, it can happen that the cold heat exchanger, in or in the area of the cooling and / or freezer compartment is iced so the need exists to defrost this. The defrosting is usually done when switched off Pump and with the magnetic cooler off and on until a certain temperature value is reached or exceeded. Subsequently, will the cooling circuit as described above again put into operation and there is a cooling of the cooling or freezer compartment by means of the flowed through by the cold heat transfer medium cold Heat exchanger.

Of the The present invention is based on the object, a cooling and / or freezer of the type mentioned in the further that the defrost duration is reduced.

These The task is performed by a cooling and / or freezer solved with the features of claim 1. After that it is planned that the Control means are further designed such that in the Defrost mode of the device by means of the pump at least temporarily warm heat transfer medium from the warm heat exchanger to the cold heat exchanger promoted becomes. The present invention is therefore based on the idea warm heat transfer medium from the warm heat exchanger directly or indirectly to promote the cold heat exchanger to the defrosting process of the cold heat exchanger to accelerate. This promotion is by means of a during the defrosting at least temporarily in operation pump made, which is preferably the said pump the cooling circuit which is in cooling mode the promotion of the heat transfer medium.

at Deviating from the prior art devices is deviating during the During the defrost phase, both the magnetic cooler and the pump are switched off.

Conceivable is it that the Control means carried out in such a way are that the Pump during promotes the entire duration, in which the device in the defrost mode or even during one or more time periods while the defrosting phase.

In Another embodiment of the invention provides that the control means executed in such a way are that the Promotes pump at least in the initial phase of defrosting. In This period is located in the warm heat exchanger heat transfer medium comparatively warm and is therefore particularly suitable to the defrost time of the cold heat exchanger to reduce.

During the final phase of the defrosting phase, it may happen that the heat transfer medium located in the warm heat exchanger has largely cooled and therefore only has a comparatively low temperature, so that may be provided in this case, turn off the pump or this only slightly heated heat transfer medium not to promote in the cold heat exchanger.

however it is alternative or in addition possible, that the Control means carried out in such a way are that the pump promotes at least in the final phase of defrosting. In This phase is the temperature gradient between the cold heat exchanger and the surrounding air comparatively small, so it just then makes sense, the defrosting by the supply of warm heat transfer medium from the warm heat exchanger to promote.

Conceivable is to provide a temperature sensor, which the temperature of the warm heat exchanger or the heat transfer medium flowing through the warm heat exchanger recorded directly or indirectly. The control unit can in this Trap executed in such a way be that she the pump in dependence of which operates the temperature of the warm heat exchanger or in this located or flowing through this Heat transfer medium having. It is conceivable, for example, the promotion of the warm heat transfer medium from the warm to the cold heat exchanger only as long as that in the warm heat exchanger located heat transfer medium one certain temperature does not fall below.

In A further embodiment of the invention provides that the control means carried out in such a way are that the heat transfer medium from the warm heat exchanger over the / the when switching from the cooling mode on the defrost mode warm unit / area of the magnetic chiller to the cold heat exchanger guided becomes. The magnetic cooler has in this embodiment of the invention a cold and a warm area or a cold and a warm unit that is up alternately in the demagnetized or magnetized, i. in in the cold or warm state. In this embodiment The invention is now provided that the flow guidance of the out of the warm heat exchanger flowing Heat carrier too the last warm area or the last warm unit of the magnetic cooler and from there to the thawed cold heat exchanger takes place to a preferably high temperature of the warm heat transfer medium to maintain.

In Another embodiment of the invention is provided that the magnetic cooler in the defrost mode of the device is off.

Further Details and advantages are illustrated by means of a drawing embodiment explained.

With the reference number 10 The magnetic cooler is characterized by two heat exchanger units 12 . 14 includes, which may be designed as a structural unit or separated from each other.

The heat exchanger units 12 . 14 consist of a magnetocaloric material or have such a material.

They are cyclically magnetized and demagnetized, including an unrepresented to the heat exchanger units 12 . 14 rotating magnet is provided. Depending on the position of the magnet, the heat exchanger units 12 . 14 magnetized or demagnetized, causing their heating or cooling and thus also the heating or cooling of the heat transfer medium through the heat exchanger units 12 . 14 flowing.

The refrigerator and freezer also has a cold heat exchanger 20 on, which is arranged in or in the region of the refrigerator or freezer compartment of the device and ensures its cooling. A warm air-cooled heat exchanger 50 is arranged on the outside of the device and is used for heat removal from the heat transfer medium into the environment.

The pump 100 ensures the flow through the illustrated cooling circuit with the heat transfer medium.

Downstream of the cold heat exchanger 20 is a valve 40 arranged and downstream of the warm heat exchanger 50 is another valve 30 arranged. The valves are, for example, bistable or monostable valves.

The valves 30 . 40 be controlled during the cooling operation such that the heat transfer medium from the warm heat exchanger 50 always in the heat exchanger unit 12 . 14 which has just been cooled or demagnetized and from there into the cold heat exchanger 20 arrives. The valve 40 is controlled such that the heat transfer medium, the cold heat exchanger 20 has flowed through, the heat exchanger unit 12 / 14 is supplied, which is magnetized state and is therefore heated.

For the purpose of defrosting is now provided in the context of this embodiment, that the magnetic cooler is turned off, that is, no periodic magnetization and demagnetization of the heat exchanger units 12 . 14 stattfin det. The pump 100 However, it continues to operate, with the result that during the defrosting the warm, in the warm heat exchanger 50 located heat transfer medium via the valve 30 and over the switched off magnetic cooler 10 in the cold heat exchanger 20 passes and this heated. This will defrost the cold heat exchanger 20 accelerated accordingly. About the valve 40 the heat transfer medium returns to the magnetic cooler 10 and from there by means of the pump 100 again to the warm heat exchanger 50 ,

During defrosting, the valves can 30 . 40 However, this is not necessary for the defrosting process according to the invention, as are switched back and forth during the cooling operation. The invention thus also includes that the valves are not switched during defrosting.

The pump 100 can be controlled so that it is in operation during the entire defrosting process or even during one or more sections of the defrosting phase. As stated above, it is conceivable that the pump as a function of the temperature of the heat transfer medium in the warm heat exchanger 50 is operated.

Also It is conceivable that the warm heat transfer medium bypassing the magnetic cooler by means of the pump of the warm to the cold heat exchanger and back from this to the warm heat exchanger guided becomes. Can do this bypass lines be provided, which bypass the magnetic cooler. In this case can the magnetic cooler while the defrosting phase on or off be turned off.

Claims (8)

Refrigerator and / or freezer operable in a cooling mode and in a defrost mode, with a magnetic cooler, with a cold heat exchanger ( 20 ) for cooling the refrigerator and / or freezer compartment of the appliance, with a warm heat exchanger ( 50 ) for cooling the heat transfer medium, with a pump ( 100 ) for conveying the heat transfer medium and with control means, wherein the control means are designed such that in the cooling mode of the device that in the magnetic cooler ( 10 ) cooled heat transfer medium the cold heat exchanger ( 20 ), characterized in that the control means are further designed such that in the defrost mode of the device by means of one or the pump ( 100 ) warm heat transfer medium from the warm heat exchanger ( 50 ) to the cold heat exchanger ( 20 ). Cooling and / or freezing appliance according to claim 1, characterized in that the control means are designed such that the pump ( 100 ) during the entire period (defrosting phase) in which the device is in the defrosting mode or during a period of time shorter than the defrosting phase. Cooling and / or freezing appliance according to one of the preceding claims, characterized in that the control means are designed such that the pump ( 100 ) promotes at least at the beginning of the defrosting phase. Cooling and / or freezing appliance according to one of the preceding claims, characterized in that the control means are designed such that the pump ( 100 ) promotes at least the end of defrosting. Cooling and / or freezing appliance according to one of the preceding claims, characterized in that the control means are designed such that the pump ( 100 ) does not promote at the beginning and / or end of the defrosting phase. Cooling and / or freezing appliance according to one of the preceding claims, characterized in that a temperature sensor is provided which determines the temperature of the warm heat exchanger or the temperature of the hot heat exchanger ( 50 ) detected by the heat transfer medium and that the control means are designed such that they the pump ( 100 ) operate as a function of the temperature value determined by means of the temperature sensor. Cooling and / or freezing appliance according to one of the preceding claims, characterized in that the control means are designed such that the heat transfer medium from the hot heat exchanger ( 50 ) about the unit warm when switching from the cooling mode to the defrosting mode ( 12 . 14 ) of the magnetic cooler ( 10 ) to the cold heat exchanger ( 20 ) to be led. Cooling and / or freezing appliance according to one of the preceding claims, characterized in that the refrigerator and / or freezer is designed such that the magnetic cooler ( 10 ) is switched off in defrost mode.