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EP3371528B1 - Refrigeration device having a flexible compartment - Google Patents

Refrigeration device having a flexible compartment Download PDF

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Publication number
EP3371528B1
EP3371528B1 EP16779116.9A EP16779116A EP3371528B1 EP 3371528 B1 EP3371528 B1 EP 3371528B1 EP 16779116 A EP16779116 A EP 16779116A EP 3371528 B1 EP3371528 B1 EP 3371528B1
Authority
EP
European Patent Office
Prior art keywords
compartment
evaporator
fan
defrost heater
heat
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Not-in-force
Application number
EP16779116.9A
Other languages
German (de)
French (fr)
Other versions
EP3371528A1 (en
Inventor
Thomas Bischofberger
Thomas Guffler
Alexander Müller
Torsten Eschner
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
BSH Hausgeraete GmbH
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BSH Hausgeraete GmbH
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Publication date
Application filed by BSH Hausgeraete GmbH filed Critical BSH Hausgeraete GmbH
Publication of EP3371528A1 publication Critical patent/EP3371528A1/en
Application granted granted Critical
Publication of EP3371528B1 publication Critical patent/EP3371528B1/en
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Anticipated expiration legal-status Critical

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25DREFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
    • F25D17/00Arrangements for circulating cooling fluids; Arrangements for circulating gas, e.g. air, within refrigerated spaces
    • F25D17/04Arrangements for circulating cooling fluids; Arrangements for circulating gas, e.g. air, within refrigerated spaces for circulating air, e.g. by convection
    • F25D17/06Arrangements for circulating cooling fluids; Arrangements for circulating gas, e.g. air, within refrigerated spaces for circulating air, e.g. by convection by forced circulation
    • F25D17/062Arrangements for circulating cooling fluids; Arrangements for circulating gas, e.g. air, within refrigerated spaces for circulating air, e.g. by convection by forced circulation in household refrigerators
    • F25D17/065Arrangements for circulating cooling fluids; Arrangements for circulating gas, e.g. air, within refrigerated spaces for circulating air, e.g. by convection by forced circulation in household refrigerators with compartments at different temperatures
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25DREFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
    • F25D31/00Other cooling or freezing apparatus
    • F25D31/005Combined cooling and heating devices

Definitions

  • the present invention relates to a refrigeration appliance, in particular a household refrigeration appliance, with a compartment which can be used at greatly differing setpoint temperatures, typically as required by a user as a refrigerated compartment or as a freezer compartment, also referred to as a flexible compartment or flex compartment.
  • the energy efficiency of this method is especially questionable if a single evaporator other than the flex compartment must cool other subjects, since if one of the other subjects refrigeration needs, the heating of the Flexfachs interrupted and cooled down the evaporator chamber at least to the desired temperature of the other compartment and then has to be heated again. It is therefore desirable to be able to completely carry out the heating of the flex compartment between two cooling operating phases.
  • the object of the present invention is to further accelerate the heating of the flex compartment and to make it more energy efficient.
  • a refrigerator in particular domestic refrigerator, with a flexible compartment operable at different temperatures, one housed in a separate evaporator chamber evaporator, a steamer associated with the evaporator and a fan for driving an air flow between the evaporator chamber and the Compartment in which a control unit is arranged to operate simultaneously in a heating operation phase after raising a set temperature of the flexible compartment for heating the flexible compartment fan and defrost heater.
  • a control unit is arranged to operate simultaneously in a heating operation phase after raising a set temperature of the flexible compartment for heating the flexible compartment fan and defrost heater.
  • the controller is preferably further configured to control a defrost operation prior to simultaneous operation of the fan and defrost heater.
  • a defrost operation prior to simultaneous operation of the fan and defrost heater.
  • the fan When defrosting is complete and the control unit does so e.g. detected by a measured value of a temperature sensor arranged on the evaporator, the fan can be switched on without switching off the defrost heater.
  • switch-on phases in which the fan and the defrosting heater are in operation can alternate with switch-off phases in which the fan and defrosting heater are out of operation.
  • a switch-on phase at the beginning of the heating-up phase is longer than a switch-on phase towards the end of the heating-up phase.
  • the change of the setpoint temperature can be made manually on a controller of the control unit; however, the control unit may also be arranged to increase the set temperature at a predetermined time to bring the contents of the flexible compartment to a consumption or processing temperature at a given time.
  • the defrost heater can be operated without the fan in order to defrost the evaporator.
  • precooling of other compartments of the refrigeration device may take place in order to maximize the time until the occurrence of cooling demand in these compartments.
  • Fig. 1 shows a schematic section through the lower part of a household refrigerator.
  • a body 1 and doors 2, 3, 4 limit several storage compartments, here a freezer compartment 5 and a flexible compartment 6, and an evaporator chamber 7.
  • the evaporator chamber 7 is here edgewise arranged between the storage compartments 5, 6 and a rear wall 8 of the body 1; an arrangement on a horizontal partition between two storage compartments would also be considered.
  • a horizontal partition wall 9 between the flexible compartment 6 and a normal refrigeration compartment 10 only partially shown may extend from the doors 3, 4 continuously to the rear wall 8; in which case a separate evaporator can be provided for the normal cooling compartment 10.
  • the evaporator chamber 7 and an evaporator 11 housed therein may also be provided to cool all three compartments 5, 6, 10, in which case a vertical dividing wall 12 enclosing the evaporator chamber 7 of the subjects 5, 6 separates, can extend up to the level of the normal refrigeration compartment 10 and the horizontal partition wall 9 expands to the rear only to the vertical partition wall 12.
  • Flaps 13, 14 in the vertical partition wall 12 between the evaporator chamber 7 and the adjacent to the partition wall 12 storage compartments 5, 6 and possibly 10 control the distribution of cold air from the evaporator chamber 7 on the storage compartments.
  • the evaporator chamber 7 is subdivided by a wall 15 into an area in which the evaporator 11 and a defrost heater 16 are accommodated, and a distributor area 17, to which the flaps 13, 14 are connected.
  • a fan 18 is mounted on a passage of the wall 15 to suck air through channels, not shown, in the walls of the body 1 from the storage compartments into the evaporator chamber 7 and through the evaporator 11 and over the manifold portion 17 and the flaps 13, 14 in FIG to pump back the storage compartments.
  • An electronic control unit 19 is connected to temperature sensors 20, 21, 22, 23 in the storage compartments 5, 6, 10 and the evaporator 7 and to a compressor 24, the fan 18 and the defrost heater 16, to the latter on the basis of the temperatures measured by the sensors be controlled so that the temperatures of the storage compartments 5, 6, 10 each remain within a tolerance interval by a predetermined user by the desired temperature.
  • this user interface may in particular comprise a display element indicating an excessive deviation between the current temperature and target temperature of a compartment and as a result, is turned on by the control unit 19 in response to a sufficiently large change in the target temperature and is turned off again when the shelf temperature is equalized to the target temperature.
  • the flexible compartment 6 is characterized by the fact that its target temperature T soll is adjustable to a particularly great extent, between the temperature Tf of the freezer compartment 5 and the normal refrigeration compartment 10 or even beyond the latter.
  • control unit 19 If wants to use as a freezer compartment 6, the user otherwise the shed 6 by operation of the flexible compartment and for T set up sets, the control unit 19 the following with reference to the flow chart of Fig. 2 perform the described method.
  • step S2 If an increase of T soll was detected by a user or made by the control unit 19 on the basis of a time programming itself in step S1, it is first checked in step S2 whether the difference ⁇ T between the old and the new target temperature T soll is large enough, to justify active heating of the flexible compartment 6, or if it is only a minor correction. Only in the former case, the method goes to step S3 or, in a simplified variant of the method, to step S6, and the display element of the user interface is turned on.
  • step S3 it is checked whether the compressor 24 is in operation because of existing refrigeration needs in one of the storage compartments, the same evaporator 11 as the flexible compartment 6, ie at least the freezer compartment 5, possibly also the normal refrigeration compartment 10. If so, then the process remains at this step until the off-threshold temperature of that compartment is reached.
  • step S4 the current temperature Tf of the freezing compartment 5 is compared with the switch-off threshold temperature Tf off , in which the control unit 19 terminates the cooling of the freezer compartment 5 during normal operation. If the current temperature is higher by a predetermined minimum difference .DELTA., Then it makes sense first to turn on the compressor 24 (S5) and to cool the freezer compartment 5 by the period of time thereafter for a heating of the flexible compartment 6 which is undisturbed by the refrigeration requirement of other compartments is available to make as long as possible. Of course, such preventive cooling also take place for the normal cooling compartment 10, if the evaporator 11 is used to cool it.
  • step S5 the compressor 24 is turned off and in step S6 the defrost heater 16 is turned on Defrost evaporator 11 in a conventional manner.
  • the defrost heater 16 for example, operated as long until the temperature sensor 24 at the evaporator 11 indicates a temperature above 0 ° C., which indicates that the evaporator 11 is completely free from ice.
  • the flaps 13, 14 are meanwhile closed.
  • step S7 If it is determined in step S7 that the defrost termination condition is met, the defrost heater 16 will still operate, and the fan 18 will operate and the door 14 will be opened to vent air to the defrost heater 16 and heated by her evaporator 11 heated to blow in the flexible compartment 6.
  • the amount of time the defrost heater 16 is expected to run to bring the flexible shelf 6 to the new setpoint temperature T soll can be estimated in advance from the performance of the defrost heater 16, the heat capacity of the flexible shelf 6, and the difference between the old and new setpoint temperatures , and a predetermined fraction of this time period is set as the duration t1 of a first switch-on phase of defrost heater 16 and fan 18.
  • step S9 If it is determined in step S9 that this first switch-on phase has elapsed, defrost heater 16 and fan 18 are switched off in step S10 in order to allow temperature compensation between different regions of flexible compartment 6 in the subsequent switch-off phase of duration t '.
  • step S12 If it turns out in the turn-off phase (S12) that the new target temperature has been reached, the process ends and the display element of the user interface is switched off. If this does not happen, then, when the end of the switch-off phase is reached in step S11, a new switch-on phase is initiated (S13), whose duration t2, however, is shorter than t1. If the end of this switch-on phase is detected in step S14, the fan and the defrost heater are turned off again, and the process returns to step S11. Thus switch-off and short switch-on phases alternate with each other until the new setpoint temperature T setpoint is reached.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Physics & Mathematics (AREA)
  • Mechanical Engineering (AREA)
  • Thermal Sciences (AREA)
  • General Engineering & Computer Science (AREA)
  • Defrosting Systems (AREA)

Description

Die vorliegende Erfindung betrifft ein Kältegerät, insbesondere ein Haushaltskältegerät, mit einem Fach, das bei stark unterschiedlichen Solltemperaturen, typischerweise je nach Bedarf eines Benutzers wahlweise als Kühlfach oder als Gefrierfach, nutzbar ist, auch als flexibles Fach oder Flexfach bezeichnet.The present invention relates to a refrigeration appliance, in particular a household refrigeration appliance, with a compartment which can be used at greatly differing setpoint temperatures, typically as required by a user as a refrigerated compartment or as a freezer compartment, also referred to as a flexible compartment or flex compartment.

Wenn ein Benutzer ein solches Flexfach von Gefrier- auf Normalkühlbetrieb umschalten will, verstreicht lange Zeit, bis die neue Solltemperatur allein durch Wärmezustrom aus der Umgebung erreicht ist. Solange die neue Solltemperatur noch nicht erreicht ist, ist es riskant, das Flexfach zu benutzen, denn das eingeladene Kühlgut könnte bei zu niedriger Temperatur Schaden nehmen.When a user wants to switch such a flex compartment from freeze to normal refrigeration mode, it takes a long time for the new setpoint temperature to be reached solely by heat input from the environment. As long as the new target temperature is not reached, it is risky to use the flex compartment, because the loaded refrigerated goods could be damaged if the temperature is too low.

In WO 2009/061076 A2 ist deshalb vorgeschlagen worden, eine Abtauheizung einzusetzen, um nach einer Heraufsetzung der Solltemperatur das Flexfach schneller zu erwärmen.In WO 2009/061076 A2 Therefore, it has been proposed to use a defrost heater to heat the flex tray faster after raising the set temperature.

Die Energieeffizienz dieser Methode ist vor allem dann fraglich, wenn ein einziger Verdampfer außer dem Flexfach noch andere Fächer kühlen muss, da, wenn eines der anderen Fächer Kältebedarf hat, das Aufheizen des Flexfachs unterbrochen und die Verdampferkammer wenigstens auf die Solltemperatur des anderen Fachs heruntergekühlt und anschließend wieder aufgeheizt werden muss. Es ist daher wünschenswert, das Aufheizen des Flexfachs zwischen zwei Kühlbetriebsphasen komplett durchführen zu können.The energy efficiency of this method is especially questionable if a single evaporator other than the flex compartment must cool other subjects, since if one of the other subjects refrigeration needs, the heating of the Flexfachs interrupted and cooled down the evaporator chamber at least to the desired temperature of the other compartment and then has to be heated again. It is therefore desirable to be able to completely carry out the heating of the flex compartment between two cooling operating phases.

Aufgabe der vorliegenden Erfindung ist, die Aufheizung des Flexfachs weiter zu beschleunigen und energieeffizienter zu machen.The object of the present invention is to further accelerate the heating of the flex compartment and to make it more energy efficient.

Die Aufgabe wird zum einen gelöst durch ein Kältegerät, insbesondere Haushaltskältegerät, mit einem bei verschiedenen Temperaturen betreibbaren flexiblen Fach, einem in einer von dem Fach getrennten Verdampferkammer untergebrachten Verdampfer, einer dem Verdampfer zugeordneten Abtauheizung und einem Lüfter zum Antreiben eines Luftstroms zwischen der Verdampferkammer und dem Fach, bei dem eine Steuereinheit eingerichtet ist, in einer Aufheizbetriebsphase nach Heraufsetzen einer Solltemperatur des flexiblen Fachs zum Aufheizen des flexiblen Fachs Lüfter und Abtauheizung gleichzeitig zu betreiben. So kann das Temperaturgefälle zwischen Verdampferkammer und flexiblem Fach klein gehalten werden, und Wärmeabflüsse aus der Verdampferkammer in andere Fächer des Kältegeräts, in denen eine Erwärmung unerwünscht ist, können gering gehalten werden.The object is achieved on the one hand by a refrigerator, in particular domestic refrigerator, with a flexible compartment operable at different temperatures, one housed in a separate evaporator chamber evaporator, a steamer associated with the evaporator and a fan for driving an air flow between the evaporator chamber and the Compartment in which a control unit is arranged to operate simultaneously in a heating operation phase after raising a set temperature of the flexible compartment for heating the flexible compartment fan and defrost heater. Thus, the temperature gradient between the evaporator chamber and flexible compartment can be kept small, and heat flows from the evaporator chamber into other compartments of the refrigerator, in which heating is undesirable, can be kept low.

Die Steuereinheit ist vorzugsweise ferner eingerichtet, vor einem gleichzeitigen Betrieb von Lüfter und Abtauheizung einen Abtauvorgang zu steuern. So kann ein Transport von Wasserdampf vom Verdampfer in das flexible Fach und ein Kondensieren des Dampfs in dem flexiblen Fach weitestgehend verhindert werden.The controller is preferably further configured to control a defrost operation prior to simultaneous operation of the fan and defrost heater. Thus, transport of water vapor from the evaporator into the flexible compartment and condensation of the steam in the flexible compartment can be largely prevented.

Wenn das Abtauen beendet ist und die Steuereinheit dies z.B. anhand eines Messwerts von einem am Verdampfer angeordneten Temperatursensors erfasst, kann ohne Ausschalten der Abtauheizung der Lüfter zugeschaltet werden.When defrosting is complete and the control unit does so e.g. detected by a measured value of a temperature sensor arranged on the evaporator, the fan can be switched on without switching off the defrost heater.

Um ein Überschießen der Temperatur im flexiblen Fach über den heraufgesetzten Sollwert hinaus zu vermeiden, können in einer Aufheizbetriebsphase Einschaltphasen, in denen Lüfter und Abtauheizung in Betrieb sind, mit Ausschaltphasen, in denen Lüfter und Abtauheizung außer Betrieb sind, abwechseln.In order to avoid overshooting the temperature in the flexible compartment above the increased setpoint, in a heating-up phase, switch-on phases in which the fan and the defrosting heater are in operation can alternate with switch-off phases in which the fan and defrosting heater are out of operation.

Um die neue Solltemperatur dennoch zügig zu erreichen, ist es zweckmäßig, dass eine Einschaltphase zu Beginn der Aufheizbetriebsphase länger ist als eine Einschaltphase gegen Ende der Aufheizbetriebsphase.Nevertheless, in order to achieve the new target temperature quickly, it is expedient that a switch-on phase at the beginning of the heating-up phase is longer than a switch-on phase towards the end of the heating-up phase.

Die Änderung der Solltemperatur kann manuell an einem Regler der Steuereinheit vorzunehmen sein; die Steuereinheit kann aber auch eingerichtet sein, die Solltemperatur zu einem vorab festgelegten Zeitpunkt heraufzusetzen, um den Inhalt des flexiblen Fachs zu einem gegebenen Zeitpunkt auf eine Verzehr- oder Verarbeitungstemperatur zu bringen.The change of the setpoint temperature can be made manually on a controller of the control unit; however, the control unit may also be arranged to increase the set temperature at a predetermined time to bring the contents of the flexible compartment to a consumption or processing temperature at a given time.

Die Aufgabe wird ferner gelöst durch ein Verfahren Betreiben eines Kältegerätes mit einem bei verschiedenen Temperaturen betreibbaren flexiblen Fach, einem in einer von dem Fach getrennten Verdampferkammer untergebrachten Verdampfer, einer dem Verdampfer zugeordneten Abtauheizung und einem Lüfter zum Antreiben eines Luftstroms zwischen der Verdampferkammer und dem Fach, mit den Schritten:

  • a) Heraufsetzen einer Solltemperatur des Fachs, und
  • d) gleichzeitiges Betreiben des Lüfters und der Abtauheizung, um das Fach auf die Solltemperatur zu erwärmen.
The object is further achieved by a method of operating a refrigeration device with a flexible compartment which can be operated at different temperatures, an evaporator accommodated in an evaporator chamber separate from the compartment, one of the evaporators Evaporator associated defrost heater and a fan for driving an air flow between the evaporator chamber and the tray, with the steps:
  • a) increase a target temperature of the compartment, and
  • d) operating the fan and defrost heater simultaneously to heat the shelf to the set temperature.

Zwischen den Schritten a) und b) kann in einem Schritt c) die Abtauheizung ohne den Lüfter betrieben werden, um den Verdampfer abzutauen.Between steps a) and b), in a step c), the defrost heater can be operated without the fan in order to defrost the evaporator.

Vor dem Schritt d) und vorzugsweise auch vor dem Schritt c) kann ein Vorkühlen anderer Fächer des Kältegeräts stattfinden, um die Zeit bis zum Auftreten von Kühlbedarf in diesen Fächern zu maximieren.Before step d), and preferably also before step c), precooling of other compartments of the refrigeration device may take place in order to maximize the time until the occurrence of cooling demand in these compartments.

Weitere Merkmale und Vorteile der Erfindung ergeben sich aus der nachfolgenden Beschreibung von Ausführungsbeispielen unter Bezugnahme auf die beigefügten Figuren. Es zeigen:

Fig. 1
einen schematischen Teilschnitt durch ein erfindungsgemäßes Kältegerät; und
Fig. 2
ein Flussdiagramm eines Betriebsverfahrens des Kältegeräts.
Further features and advantages of the invention will become apparent from the following description of embodiments with reference to the accompanying figures. Show it:
Fig. 1
a schematic partial section through an inventive refrigerator; and
Fig. 2
a flowchart of an operating method of the refrigerator.

Fig. 1 zeigt einen schematischen Schnitt durch das Unterteil eines Haushaltskältegeräts. Ein Korpus 1 und Türen 2, 3, 4 begrenzen mehrere Lagerfächer, hier ein Gefrierfach 5 und ein flexibles Fach 6, sowie eine Verdampferkammer 7. Die Verdampferkammer 7 ist hier hochkant zwischen den Lagerfächern 5, 6 und einer Rückwand 8 des Korpus 1 angeordnet; eine Anordnung an einer horizontalen Trennwand zwischen zwei Lagerfächern käme auch in Betracht. Fig. 1 shows a schematic section through the lower part of a household refrigerator. A body 1 and doors 2, 3, 4 limit several storage compartments, here a freezer compartment 5 and a flexible compartment 6, and an evaporator chamber 7. The evaporator chamber 7 is here edgewise arranged between the storage compartments 5, 6 and a rear wall 8 of the body 1; an arrangement on a horizontal partition between two storage compartments would also be considered.

Eine horizontale Trennwand 9 zwischen dem flexiblen Fach 6 und einem nur teilweise dargestellten Normalkühlfach 10 kann sich von den Türen 3, 4 durchgehend bis zur Rückwand 8 erstrecken; wobei dann für das Normalkühlfach 10 ein eigener Verdampfer vorgesehen sein kann. Alternativ können die Verdampferkammer 7 und ein darin untergebrachter Verdampfer 11 aber auch vorgesehen sein, um alle drei Fächer 5, 6, 10 zu kühlen, wobei in diesem Fall eine vertikale Trennwand 12, die die Verdampferkammer 7 von den Fächern 5, 6 trennt, sich bis in Höhe des Normalkühlfachs 10 erstrecken kann und die horizontale Trennwand 9 sich nach hinten nur bis zur vertikalen Trennwand 12 ausdehnt.A horizontal partition wall 9 between the flexible compartment 6 and a normal refrigeration compartment 10 only partially shown may extend from the doors 3, 4 continuously to the rear wall 8; in which case a separate evaporator can be provided for the normal cooling compartment 10. Alternatively, however, the evaporator chamber 7 and an evaporator 11 housed therein may also be provided to cool all three compartments 5, 6, 10, in which case a vertical dividing wall 12 enclosing the evaporator chamber 7 of the subjects 5, 6 separates, can extend up to the level of the normal refrigeration compartment 10 and the horizontal partition wall 9 expands to the rear only to the vertical partition wall 12.

Klappen 13, 14 in der vertikalen Trennwand 12 zwischen der Verdampferkammer 7 und den an die Trennwand 12 angrenzenden Lagerfächern 5, 6 und eventuell 10 steuern die Verteilung von Kaltluft aus der Verdampferkammer 7 auf die Lagerfächer.Flaps 13, 14 in the vertical partition wall 12 between the evaporator chamber 7 and the adjacent to the partition wall 12 storage compartments 5, 6 and possibly 10 control the distribution of cold air from the evaporator chamber 7 on the storage compartments.

Die Verdampferkammer 7 ist durch eine Wand 15 unterteilt in einen Bereich, in dem der Verdampfer 11 und eine Abtauheizung 16 untergebracht ist, und einen Verteilerbereich 17, an den die Klappen 13, 14 anschließen. Ein Lüfter 18 ist an einem Durchgang der Wand 15 angebracht, um Luft über nicht dargestellte Kanäle in den Wänden des Korpus 1 aus den Lagerfächern in die Verdampferkammer 7 und durch den Verdampfer 11 zu saugen und über den Verteilerbereich 17 und die Klappen 13, 14 in die Lagerfächer zurückzupumpen.The evaporator chamber 7 is subdivided by a wall 15 into an area in which the evaporator 11 and a defrost heater 16 are accommodated, and a distributor area 17, to which the flaps 13, 14 are connected. A fan 18 is mounted on a passage of the wall 15 to suck air through channels, not shown, in the walls of the body 1 from the storage compartments into the evaporator chamber 7 and through the evaporator 11 and over the manifold portion 17 and the flaps 13, 14 in FIG to pump back the storage compartments.

Eine elektronische Steuereinheit 19 ist mit Temperatursensoren 20, 21, 22, 23 in den Lagerfächern 5, 6, 10 und am Verdampfer 7 und mit einem Verdichter 24, dem Lüfter 18 und der Abtauheizung 16 verbunden, um letztere anhand der von den Sensoren gemessenen Temperaturen so zu steuern, dass die Temperaturen der Lagerfächer 5, 6, 10 jeweils in einem Toleranzintervall um eine vom Benutzer vorgegebene Solltemperatur bleiben. Eine in der Fig. 1 nicht dargestellte Benutzerschnittstelle der Steuereinheit 19, an der ein Benutzer die Solltemperaturen der Fächer einstellen kann, ist an gut zugänglicher Stelle an der Front des Geräts vorgesehen, diese Benutzerschnittstelle kann insbesondere ein Anzeigeelement umfassen, das eine übermäßige Abweichung zwischen aktueller Temperatur und Solltemperatur eines Fachs anzeigt und infolgedessen von der Steuereinheit 19 in Reaktion auf eine ausreichend große Änderung der Solltemperatur eingeschaltet wird und wieder ausgeschaltet wird, wenn die Fachtemperatur an die Solltemperatur angeglichen ist.An electronic control unit 19 is connected to temperature sensors 20, 21, 22, 23 in the storage compartments 5, 6, 10 and the evaporator 7 and to a compressor 24, the fan 18 and the defrost heater 16, to the latter on the basis of the temperatures measured by the sensors be controlled so that the temperatures of the storage compartments 5, 6, 10 each remain within a tolerance interval by a predetermined user by the desired temperature. One in the Fig. 1 not shown user interface of the control unit 19, at which a user can set the target temperatures of the fan is provided at a readily accessible location on the front of the device, this user interface may in particular comprise a display element indicating an excessive deviation between the current temperature and target temperature of a compartment and as a result, is turned on by the control unit 19 in response to a sufficiently large change in the target temperature and is turned off again when the shelf temperature is equalized to the target temperature.

Das flexible Fach 6 zeichnet sich dadurch aus, dass seine Solltemperatur Tsoll in besonders weitem Umfang, zwischen der Temperatur Tf des Gefrierfachs 5 und der des Normalkühlfachs 10 oder sogar noch über letztere hinaus verstellbar ist.The flexible compartment 6 is characterized by the fact that its target temperature T soll is adjustable to a particularly great extent, between the temperature Tf of the freezer compartment 5 and the normal refrigeration compartment 10 or even beyond the latter.

Wenn nach Betrieb des flexiblen Fach 6 als Gefrierfach der Benutzer das Fach 6 anderweitig nutzen möchte und dafür Tsoll heraufsetzt, kann die Steuereinheit 19 das nachfolgend anhand des Flussdiagramms der Fig. 2 beschriebene Verfahren ausführen.If wants to use as a freezer compartment 6, the user otherwise the shed 6 by operation of the flexible compartment and for T set up sets, the control unit 19 the following with reference to the flow chart of Fig. 2 perform the described method.

Wenn in Schritt S1 eine Heraufsetzung von Tsoll durch einen Benutzer erfasst oder von der Steuereinheit 19 auf der Grundlage einer Zeitprogrammierung selbst vorgenommen worden ist, wird zunächst in Schritt S2 geprüft, ob die Differenz ΔT zwischen alter und neuer Solltemperatur Tsoll groß genug ist, um ein aktives Aufheizen des flexiblen Fach 6 zu rechtfertigen, oder ob es sich lediglich um eine geringfügige Korrektur handelt. Nur in ersterem Falle geht das Verfahren weiter zu Schritt S3 oder, in einer vereinfachten Variante des Verfahrens, zu Schritt S6, und das Anzeigeelement der Benutzerschnittstelle wird eingeschaltet.If an increase of T soll was detected by a user or made by the control unit 19 on the basis of a time programming itself in step S1, it is first checked in step S2 whether the difference ΔT between the old and the new target temperature T soll is large enough, to justify active heating of the flexible compartment 6, or if it is only a minor correction. Only in the former case, the method goes to step S3 or, in a simplified variant of the method, to step S6, and the display element of the user interface is turned on.

In Schritt S3 wird geprüft, ob der Verdichter 24 wegen bestehenden Kältebedarfs in einem der Lagerfächer, die denselben Verdampfer 11 wie das flexible Fach 6 nutzen, also wenigstens des Gefrierfachs 5, eventuell auch des Normalkühlfachs 10, in Betrieb ist. Wenn ja, dann verharrt das Verfahren an diesem Schritt, bis die Ausschalt-Grenztemperatur des betreffenden Fachs erreicht ist.In step S3, it is checked whether the compressor 24 is in operation because of existing refrigeration needs in one of the storage compartments, the same evaporator 11 as the flexible compartment 6, ie at least the freezer compartment 5, possibly also the normal refrigeration compartment 10. If so, then the process remains at this step until the off-threshold temperature of that compartment is reached.

In Schritt S4 wird die aktuelle Temperatur Tf des Gefrierfachs 5 mit der Ausschalt-Grenztemperatur Tfaus verglichen, bei der die Steuereinheit 19 im Normalbetrieb das Kühlen des Gefrierfachs 5 beendet. Wenn die aktuelle Temperatur um eine vorgegebene Mindestdifferenz Δ höher liegt, dann ist es sinnvoll, zunächst den Verdichter 24 einzuschalten (S5) und das Gefrierfach 5 zu kühlen, um die Zeitspanne, die anschließend für ein durch Kältebedarf anderer Fächer ungestörtes Aufheizen des flexiblen Fachs 6 zur Verfügung steht, möglichst lang zu machen. Natürlich kann eine solche vorbeugende Kühlung auch für das Normalkühlfach 10 stattfinden, wenn zu dessen Kühlung auch der Verdampfer 11 genutzt wird.In step S4, the current temperature Tf of the freezing compartment 5 is compared with the switch-off threshold temperature Tf off , in which the control unit 19 terminates the cooling of the freezer compartment 5 during normal operation. If the current temperature is higher by a predetermined minimum difference .DELTA., Then it makes sense first to turn on the compressor 24 (S5) and to cool the freezer compartment 5 by the period of time thereafter for a heating of the flexible compartment 6 which is undisturbed by the refrigeration requirement of other compartments is available to make as long as possible. Of course, such preventive cooling also take place for the normal cooling compartment 10, if the evaporator 11 is used to cool it.

Wenn in Schritt S4 keine Notwendigkeit zum vorbeugenden Kühlen festgestellt worden ist oder das betreffende Lagerfach 5 oder 10 bis zum Erreichen seiner Ausschalt-Grenztemperatur heruntergekühlt worden ist, wird in Schritt S5 der Verdichter 24 aus- und in Schritt S6 die Abtauheizung 16 eingeschaltet, um den Verdampfer 11 in an sich bekannter Weise abzutauen. Dazu kann die Abtauheizung 16 z.B. so lange betrieben werden, bis der Temperatursensor 24 am Verdampfer 11 eine Temperatur über 0°C anzeigt, die auf vollständige Eisfreiheit des Verdampfers 11 schließen lässt. Die Klappen 13, 14 sind derweil geschlossen.If in step S4, no need for preventive cooling has been determined or the relevant storage compartment 5 or 10 has been cooled down to reaching its switch-off temperature limit, in step S5 the compressor 24 is turned off and in step S6 the defrost heater 16 is turned on Defrost evaporator 11 in a conventional manner. For this purpose, the defrost heater 16, for example, operated as long until the temperature sensor 24 at the evaporator 11 indicates a temperature above 0 ° C., which indicates that the evaporator 11 is completely free from ice. The flaps 13, 14 are meanwhile closed.

Wenn in Schritt S7 festgestellt wird, dass die Bedingung für eine Beendigung des Abtauens erfüllt ist, bleibt die Abtauheizung 16 dennoch in Betrieb, und es wird der Lüfter 18 in Betrieb genommen und die Klappe 14 geöffnet, um Luft, die sich nun an der Abtauheizung 16 bzw. dem von ihr beheizten Verdampfer 11 erwärmt, in das flexible Fach 6 zu blasen.If it is determined in step S7 that the defrost termination condition is met, the defrost heater 16 will still operate, and the fan 18 will operate and the door 14 will be opened to vent air to the defrost heater 16 and heated by her evaporator 11 heated to blow in the flexible compartment 6.

Die Zeitspanne, die die Abtauheizung 16 voraussichtlich laufen muss, um das flexible Fach 6 auf die neue Solltemperatur Tsoll zu bringen, kann vorab anhand der Leistung der Abtauheizung 16, der Wärmekapazität des flexiblen Fachs 6 und der Differenz zwischen alter und neuer Solltemperatur abgeschätzt werden, und ein vorgegebener Bruchteil dieser Zeitspanne wird als die Dauer t1 einer ersten Einschaltphase von Abtauheizung 16 und Lüfter 18 festgelegt.The amount of time the defrost heater 16 is expected to run to bring the flexible shelf 6 to the new setpoint temperature T soll can be estimated in advance from the performance of the defrost heater 16, the heat capacity of the flexible shelf 6, and the difference between the old and new setpoint temperatures , and a predetermined fraction of this time period is set as the duration t1 of a first switch-on phase of defrost heater 16 and fan 18.

Wenn in Schritt S9 festgestellt wird, dass diese erste Einschaltphase verstrichen ist, werden Abtauheizung 16 und Lüfter 18 in Schritt S10 ausgeschaltet, um in der sich anschließenden Ausschaltphase der Dauer t' einen Temperaturausgleich zwischen verschiedenen Regionen des flexiblen Fachs 6 zu ermöglichen.If it is determined in step S9 that this first switch-on phase has elapsed, defrost heater 16 and fan 18 are switched off in step S10 in order to allow temperature compensation between different regions of flexible compartment 6 in the subsequent switch-off phase of duration t '.

Wenn sich in der Ausschaltphase herausstellt (S12), dass die neue Solltemperatur erreicht ist, endet das Verfahren, und das Anzeigeelement der Benutzerschnittstelle wird ausgeschaltet. Geschieht dies nicht, so wird, wenn in Schritt S11 das Ende der Ausschaltphase erreicht ist, eine neue Einschaltphase eingeleitet (S13), deren Dauer t2 allerdings kürzer ist als t1. Wenn in Schritt S14 das Ende dieser Einschaltphase festgestellt wird, werden Lüfter und Abtauheizung abermals abgeschaltet, und das Verfahren kehrt zu Schritt S11 zurück. So wechseln Ausschalt- und kurze Einschaltphasen einander ab, bis die neue Solltemperatur Tsoll erreicht ist.If it turns out in the turn-off phase (S12) that the new target temperature has been reached, the process ends and the display element of the user interface is switched off. If this does not happen, then, when the end of the switch-off phase is reached in step S11, a new switch-on phase is initiated (S13), whose duration t2, however, is shorter than t1. If the end of this switch-on phase is detected in step S14, the fan and the defrost heater are turned off again, and the process returns to step S11. Thus switch-off and short switch-on phases alternate with each other until the new setpoint temperature T setpoint is reached.

Idealerweise sollte dies geschehen, ohne dass zwischenzeitlich in einem Lagerfach Kühlbedarf auftritt, da zum Kühlen des Fachs das Verfahren der Fig. 2 unterbrochen, der Verdampfer heruntergekühlt und anschließend wieder aufgeheizt werden muss, um das Beheizen des flexiblen Fachs 6 fortzusetzen. Falls eine solche Unterbrechung nötig wird, kann das Verfahren anschließend in Schritt S2 wiederaufgenommen werden, so dass, wenn zum Wiederaufnahmezeitpunkt die Differenz ΔT zwischen aktueller Temperatur und Solltemperatur kleiner als ΔTmin ist, ein neuerliches Aufheizen der Verdampferkammer unterbleibt und die noch nötige Erwärmung des Fachs 6 dem Zustrom von Umgebungswärme durch die Wände des Fachs überlassen bleibt.Ideally, this should be done without any need for cooling in a storage compartment in the meantime, as the method of cooling the compartment is used Fig. 2 interrupted, the evaporator must be cooled down and then reheated to the Heating the flexible compartment 6 to continue. If such an interruption is necessary, the method can then be resumed in step S2, so that if the difference .DELTA.T between the current temperature and target temperature is less than .DELTA.T min at the resumption time, a renewed heating of the evaporator chamber is omitted and the still heating the compartment 6 is left to the influx of ambient heat through the walls of the compartment.

BEZUGSZEICHENREFERENCE NUMBERS

11
Korpuscorpus
22
Türdoor
33
Türdoor
44
Türdoor
55
Gefrierfachfreezer
66
flexibles Fachflexible compartment
77
Verdampferkammerevaporator chamber
88th
Rückwandrear wall
99
horizontale Trennwandhorizontal partition
1010
NormalkühlfachNormal refrigeration compartment
1111
VerdampferEvaporator
1212
vertikale Trennwandvertical partition
1313
Klappeflap
1414
Klappeflap
1515
Wandwall
1616
Abtauheizungdefrost heater
1717
Verteilerbereichdistribution area
1818
LüfterFan
1919
Steuereinheitcontrol unit
2020
Temperatursensortemperature sensor
2121
Temperatursensortemperature sensor
2222
Temperatursensortemperature sensor
2323
Temperatursensortemperature sensor
2424
Verdichtercompressor

Claims (9)

  1. Refrigeration appliance, in particular household refrigeration appliance, having a flexible compartment (6) which can be operated at different temperatures selectively as a refrigerator compartment or as a freezer compartment, an evaporator (11) accommodated in an evaporator chamber (7) separated from the compartment (6), a defrost heater (16) assigned to the evaporator (11) and a fan (18) for driving an air flow between the evaporator chamber (7) and the compartment (6), wherein a control unit (19) is designed to simultaneously operate the fan (18) and defrost heater (16) in a heat-up mode phase (S8-S12) after increasing (S1) a target temperature (Tsoll ) of the flexible compartment (6) in order to heat up the flexible compartment (6), characterised in that in a heat-up mode phase (S8-S12) switch-on phases (S8-S10, S13-S15), in which the fan (18) and defrost heater (16) are in operation, alternate with switch-off phases (S15-S13), in which the fan (18) and defrost heater (16) are not in operation.
  2. Refrigeration appliance according to claim 1, characterised in that the control unit is designed to control a defrost process (S6, S7) prior to simultaneously operating the fan (18) and the defrost heater (16).
  3. Refrigeration appliance according to claim 1 or 2, characterised in that a switch-on phase (S8-S10) is longer at the start of the heat-up mode phase (S8-S12) than a switch-on phase (S13-15) toward the end of the heat-up mode phase.
  4. Refrigeration appliance according to one of the preceding claims, characterised in that the control unit (19) is designed to increase the target temperature at a previously fixed point in time.
  5. Refrigeration appliance according to one of the preceding claims, characterised by a display element for displaying the end of the heat-up mode phase.
  6. Refrigeration appliance according to one of the preceding claims, characterised in that it has at least one further compartment (5), which can be cooled by the evaporator (11).
  7. Method for operating a refrigeration appliance with a flexible compartment (6) which can be operated at different temperatures selectively as a refrigerator compartment or as a freezer compartment, an evaporator (11) accommodated in an evaporator chamber (7) separated from the compartment (6), a defrost heater (16) assigned to the evaporator (11) and a fan (18) for driving an air flow between the evaporator chamber (7) and the compartment (6), having the steps:
    a) increasing (S1) a target temperature (Tsoll ) of the compartment (6) and in a heat-up mode phase alternately
    d) switch-on phases in which the fan (18) and defrost heater (16) are in operation and switch-off phases in which the fan (18) and defrost heater (16) are not in operation, in order to heat the compartment (6) to the target temperature (Tsoll ).
  8. Method according to claim 7, in which after step a) and before step d) a step (S6, S7) c) of defrosting the evaporator (11) is carried out without the fan (18) by operating the defrost heater (16).
  9. Method according to claim 7 or 8, in which after step a) and before step d) a step b) of precooling (S5) a further compartment (5) takes place.
EP16779116.9A 2015-11-04 2016-10-11 Refrigeration device having a flexible compartment Not-in-force EP3371528B1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE102015221667.5A DE102015221667A1 (en) 2015-11-04 2015-11-04 Refrigeration unit with flexible compartment
PCT/EP2016/074341 WO2017076586A1 (en) 2015-11-04 2016-10-11 Refrigeration device having a flexible compartment

Publications (2)

Publication Number Publication Date
EP3371528A1 EP3371528A1 (en) 2018-09-12
EP3371528B1 true EP3371528B1 (en) 2019-08-28

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EP16779116.9A Not-in-force EP3371528B1 (en) 2015-11-04 2016-10-11 Refrigeration device having a flexible compartment

Country Status (4)

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EP (1) EP3371528B1 (en)
CN (1) CN108351148B (en)
DE (1) DE102015221667A1 (en)
WO (1) WO2017076586A1 (en)

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP6985308B2 (en) * 2019-01-23 2021-12-22 日立グローバルライフソリューションズ株式会社 refrigerator
WO2023160779A1 (en) 2022-02-23 2023-08-31 Electrolux Appliances Aktiebolag Refrigerator and method for controlling the temperature thereof

Family Cites Families (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2002188877A (en) * 2000-12-19 2002-07-05 Hitachi Ltd Refrigerator
KR100453236B1 (en) * 2001-11-27 2004-10-15 삼성전자주식회사 Refrigerator having a multipurpose room thereof control method
JP2007139296A (en) * 2005-11-18 2007-06-07 Sharp Corp Refrigerator
KR101387522B1 (en) * 2007-11-05 2014-04-23 엘지전자 주식회사 Refrigerator and Controlling method for the same
DE102008054934A1 (en) * 2008-12-18 2010-07-01 BSH Bosch und Siemens Hausgeräte GmbH Refrigeration device and method for controlling the temperature in a refrigeration device
ITPD20110072A1 (en) * 2011-03-07 2012-09-08 Irinox S P A METHOD FOR THE TREATMENT OF FOOD AND DEVICE TO REALIZE THIS METHOD
KR101849103B1 (en) * 2011-10-06 2018-06-01 삼성전자주식회사 Refrigerator and control method thereof
CN104807279B (en) * 2015-04-29 2019-01-18 青岛海尔股份有限公司 A kind of fridge-freezer and its defrosting control method

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
None *

Also Published As

Publication number Publication date
EP3371528A1 (en) 2018-09-12
DE102015221667A1 (en) 2017-05-04
CN108351148B (en) 2022-02-08
CN108351148A (en) 2018-07-31
WO2017076586A1 (en) 2017-05-11

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