EP1611396A1 - Method for operating a baking oven - Google Patents

Method for operating a baking oven

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Publication number
EP1611396A1
EP1611396A1 EP04721518A EP04721518A EP1611396A1 EP 1611396 A1 EP1611396 A1 EP 1611396A1 EP 04721518 A EP04721518 A EP 04721518A EP 04721518 A EP04721518 A EP 04721518A EP 1611396 A1 EP1611396 A1 EP 1611396A1
Authority
EP
European Patent Office
Prior art keywords
temperature
heating
muffle
oven
circulating air
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.)
Granted
Application number
EP04721518A
Other languages
German (de)
French (fr)
Other versions
EP1611396B1 (en
Inventor
Ramona Haberkamm
Martin Keller
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
Original Assignee
BSH Bosch und Siemens Hausgeraete GmbH
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by BSH Bosch und Siemens Hausgeraete GmbH filed Critical BSH Bosch und Siemens Hausgeraete GmbH
Publication of EP1611396A1 publication Critical patent/EP1611396A1/en
Application granted granted Critical
Publication of EP1611396B1 publication Critical patent/EP1611396B1/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24CDOMESTIC STOVES OR RANGES ; DETAILS OF DOMESTIC STOVES OR RANGES, OF GENERAL APPLICATION
    • F24C7/00Stoves or ranges heated by electric energy
    • F24C7/08Arrangement or mounting of control or safety devices
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24CDOMESTIC STOVES OR RANGES ; DETAILS OF DOMESTIC STOVES OR RANGES, OF GENERAL APPLICATION
    • F24C15/00Details
    • F24C15/32Arrangements of ducts for hot gases, e.g. in or around baking ovens
    • F24C15/322Arrangements of ducts for hot gases, e.g. in or around baking ovens with forced circulation
    • F24C15/325Arrangements of ducts for hot gases, e.g. in or around baking ovens with forced circulation electrically-heated

Definitions

  • the invention relates to a method for operating a baking oven and to an oven for carrying out this method, provided with a closable, thermally insulated oven muffle, with a circulating air blower arranged inside a blower room of the oven muffle, with at least one arranged near the muffle walls outside the blower room Thermal heating element and with a control device with which the at least one heating element and the circulating air fan can be switched on and off in accordance with a predetermined temperature / time profile during the oven operation consisting of the heating phase and the heating phase.
  • a so-called heating phase is carried out to heat the oven from room temperature to a selectable cooking temperature, which is followed by a control device to switch to a continued heating phase after reaching an oven temperature approximating the selected target temperature.
  • the aim is often to keep the heating phase as short as possible.
  • the heating phase preceding a continued heating phase with several intermediate heating phases is carried out with the circulating air blower continuously switched on and with the heating elements switched on continuously in order to bring as much thermal energy as possible into the cooking chamber in the shortest possible time.
  • the circulating air fan is switched on in cycles between the individual intermediate heating phases with the heating switched off.
  • the present invention is therefore based on the object of designing a method for operating a baking oven of the type mentioned at the outset in such a way that with simple control means at the end of the heating phase, that is to say when the heating element or elements are switched off at the beginning of the continuous heating control phase in the center of the Oven muffle a cooking temperature approximated as close as possible to the set target temperature is obtained.
  • This object is achieved according to the invention in a method of the type described in the introduction in that the at least one heating element is preferably switched on continuously during the heating phase and in that the circulating air fan corresponds to a time profile which is at least partially dependent on the predetermined switch-off temperature of the heating element at the end of the heating phase is switched on temporarily.
  • this one-time or multiple connection of the circulating air fan is only briefly z. B. with a turn-on time of about 30 seconds.
  • a convection during the heating phase in the oven muffle the only more or less first spatially distributed unevenly forced heated air circulation, which leads to a more uniform heat distribution in the muffle "cavities.
  • the temperature sensor which is usually not located in the immediate radiation area of the heating elements (e.g. top heat, bottom heat), is significantly reduced or prevented beyond the selected target temperature. The result is that the current temperature in the center of the muffle adapts very quickly to the ideal temperature profile during the heating phase.
  • the circulating air blower is switched on at least once during the heating-up phase to one of the level of the switch-off temperature and / or the operating mode and arrangement of the at least one heating element and at least once more by the temperature gradient of the respective heating profile.
  • the aforementioned method features are used separately.
  • the fact is taken into account that a temperature rise in the lower temperature range takes place faster than in a high temperature range.
  • the time profile during the heating phase is advantageously brought into dependence on the operating mode of the oven, e.g. B. with one or more heating elements, and of the arrangement of the heating element or elements relative to the temperature sensor.
  • FIG. 1 shows a schematic representation of an oven for carrying out the method according to the invention
  • FIG. 2 shows a diagram showing the temperature profile over time of different operating processes of the oven
  • Figure 3 is a diagram with a temperature profile over time according to the inventive method.
  • Figure 1 shows a schematic and perspective view of the cuboid oven muffle 5 of an oven, consisting of side muffle walls 6, 7, an upper muffle wall 8, a lower muffle wall 9 and a rear, vertical muffle wall 10.
  • an intermediate wall 12 which forms a blower room 13 which is largely separate from the rest of the muffle room and in which a motor-operated air circulation fan 14 is arranged.
  • This blower chamber communicates with the rest of the muffle space 11 via side blow-out openings, not shown, shown in FIG. 1 by air flow arrows 15.
  • a heating element 16 also called top heat, which is designed as a radiant heater
  • a further heating element 17 is arranged as a so-called bottom heat.
  • Air flow arrows 18 and 19 in FIG. 1 indicate that air flows from the circulating air blower 14 flow in the direction of the aforementioned heating elements 16, 17, are heated there on the heating elements or on the adjacent muffle walls, and are circulated by the circulating air blower 14 via a central suction opening in the intermediate wall 12 of the blower chamber 13 are sucked in again. Operation of heating elements within the blower chamber 13 is not provided here.
  • a temperature sensor 20 which is spatially and functionally connected to a conventional control device for the oven, which is not shown in more detail.
  • This temperature sensor 20 is located in the vicinity of the upper muffle wall 8 and is fastened, for example, to the rear muffle wall 10 and penetrates the intermediate wall 12 of the blower chamber 13. Thus, as usual, this temperature sensor 20 is located far outside the treatment center of the furnace muffle 5, in which the food to be treated is located.
  • the oven muffle 5 is surrounded by a thermal insulating compound (not shown) and can be closed tightly by an oven door (also not shown) during oven operation.
  • FIG. 2 uses a family of curves to illustrate the problems with which the present invention is concerned.
  • the diagram shows - just like FIG. 3 - the process sequence of the oven with the abscissa as the time axis and the ordinate as the temperature axis.
  • the family of curves shows curve 1, which shows the real temperature profile at the temperature sensor 20 arranged outside the treatment center of the furnace muffle 5 (FIG. 1), without the circulating air blower 14 being switched on during the heating phase 0 - 13, that is to say only the heating elements 16. 17 are continuously switched on.
  • the time t3 is the point in the temperature / time profile at which the heating elements 16, 17 at When the heating tip is reached for the first time (switch-off temperature), the heating-up phase has ended and the heating-up phase t3 - tx begins with the known, cyclical control cycle of heating elements and circulating air blowers, controlled by a conventional control device (not shown).
  • Curve 2 shows a desired, ideal profile of the temperature profile on the temperature sensor with reference to a selected target temperature Tsoll in the treatment center, which at time t3 is relatively far away from the temperature actually measured at the temperature sensor, i. H. the measured temperature at the temperature sensor overshoots the ideal temperature.
  • the curves in FIG. 2 clearly show that a relatively long time would pass during the continued heating phase t3-tx in order to achieve the ideal temperature profile of curve 2 in the area tx in the operating mode according to curve 1.
  • Curve 3 is intended to illustrate the ideal temperature profile in the treatment center of the oven, in which treatment center there is no temperature sensor of the control device. At time t3, this ideal treatment temperature is at least largely approximated to the target temperature Tsoll, and there is only a minimal difference to the ideal temperature of the ideal curve 2 at this time t3.
  • Curve 4 is intended to illustrate a corrected temperature / time profile in accordance with the described invention, in which the temperature profile at temperature sensor 20 at time t3 is approximated to the ideal temperature profile according to curve 2 by preferably repeatedly actuating the air blower 14 (FIG. 1). As a result, in the continued heating phase t3-tx, the corrected temperature profile reaches the ideal temperature profile in a shorter time, as FIG. 2 clearly shows.
  • FIG. 3 Such a temperature / time profile is illustrated in FIG. 3 by curve 5.
  • the circulating air blower 14 (FIG. 1) is temporarily, for example at times t1 and t.2. B. for 30 seconds, turned on.
  • FIG. 3 shows, by means of curve 6, a temperature / time profile as would be the case without the method according to the invention, ie here the heating curve would rise continuously and uninterruptedly until a switch-off time when a heating peak was reached at the end of the heating phase.
  • Curve 5 illustrates the above-mentioned activation of the circulating air blower at times t1 and t2.
  • the ideal time profile according to the invention is achieved in that the time profile is determined by the level of the switch-off temperature at t3 and / or by the operating mode and arrangement of the heating element or elements 16, 17 (FIG. 1).
  • This first switch-on time t1 in the time profile is preferably a fixed percentage value relative to the heating peak or the switch-off temperature at the end of the heating phase 0 - 13.
  • the second switch-on time t2 is preferably determined by the temperature gradient of the respective heating profile which is dependent on the selected target or switch-off temperature ,

Landscapes

  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Muffle Furnaces And Rotary Kilns (AREA)
  • Tunnel Furnaces (AREA)
  • Furnace Details (AREA)
  • Devices That Are Associated With Refrigeration Equipment (AREA)
  • Defrosting Systems (AREA)
  • Control Of High-Frequency Heating Circuits (AREA)

Abstract

A baking oven and a method of operating the baking oven. The baking oven including a thermally insulated muffle, a circulating fan arranged inside of a fan compartment in the muffle, a least one heating device outside of the fan compartment and adjacent the walls of the muffle. The baking oven further including a control device for switching the heating device and circulating fan off and on, in accordance with a pre-determined temperature/time profile during the operation of the baking oven. The operation of the baking oven compensates for the difference in temperature between a temperature sensor adjacent a wall of the baking oven and the center of the muffle.

Description

ei ahren zum Betreiben eines Backofens eggs for operating an oven
Die Erfindung bezieht sich auf ein Verfahren zum Betreiben eines Backofens sowie auf einen Backofen zur Durchführung dieses Verfahrens, versehen mit einer verschließbaren, thermisch isolierten Ofenmuffel, mit einem innerhalb eines Gebläseraumes der Ofenmuffel angeordneten Umluftgebläse, mit wenigstens einem in Nähe der Muffelwände außerhalb des Gebläseraumes angeordneten thermischen Heizelement und mit einer Steuereinrichtung, mit welcher während des aus Anheizphase und Fortheizphase bestehenden Backofenbetriebs das wenigstens eine Heizelement und das Umluftgebläse entsprechend einem vorbestimmten Temperatur-/Zeitprofil an- und abschaltbar sind.The invention relates to a method for operating a baking oven and to an oven for carrying out this method, provided with a closable, thermally insulated oven muffle, with a circulating air blower arranged inside a blower room of the oven muffle, with at least one arranged near the muffle walls outside the blower room Thermal heating element and with a control device with which the at least one heating element and the circulating air fan can be switched on and off in accordance with a predetermined temperature / time profile during the oven operation consisting of the heating phase and the heating phase.
Ein Backofen mit in einem rückseitigen Gebläseraum der Ofenmuffel angeordneten Umluftgebläse sowie mit außerhalb dieses Gebläseraumes angeordneten thermischen Heizelementen in Form einer Oberhitze und einer Unterhitze ist bekannt (DE 19640237A1).An oven with a circulating air blower arranged in a rear blower chamber of the furnace muffle and with thermal heating elements in the form of an upper heat and a lower heat arranged outside this blower chamber is known (DE 19640237A1).
Es sind unterschiedliche Betriebsarten solcher Backöfen bekannt, bei denen zum Aufheizen des Backofens von der Raumtemperatur bis auf eine wählbare Gartemperatur eine sogenannte Anheizphase durchgeführt wird, auf die nach Erreichen einer der gewählten Solltemperatur angenäherten Backofentemperatur mittels einer Steuereinrichtung eine Umschaltung auf eine Fortheizphase folgt. Zur Verkürzung der Gesamtdauer des Backofenbetriebs wird oft angestrebt, die Anheizphase möglichst kurz zu halten. So wird bei einem bekannten Verfahren zum Garen in einem Heißluftgerät (DE 3510680C2) die einer Fortheizphase mit mehreren Zwischenaufheizphasen vorlaufende Anheizphase durchgeführt mit dauernd angeschaltetem Umluftgebläse und mit dauernd eingeschalteten Heiz- elementen, um möglichst viel Wärmeenergie in möglichst kurzer Zeit in den Garraum zu bringen. Danach wird in der Zeit zwischen den einzelnen Zwischenaufheizphasen das Umluftgebläse bei ausgeschalteter Heizung taktweise eingeschaltet.Different modes of operation of such ovens are known, in which a so-called heating phase is carried out to heat the oven from room temperature to a selectable cooking temperature, which is followed by a control device to switch to a continued heating phase after reaching an oven temperature approximating the selected target temperature. To shorten the overall duration of oven operation, the aim is often to keep the heating phase as short as possible. In a known method for cooking in a hot air device (DE 3510680C2), the heating phase preceding a continued heating phase with several intermediate heating phases is carried out with the circulating air blower continuously switched on and with the heating elements switched on continuously in order to bring as much thermal energy as possible into the cooking chamber in the shortest possible time. Afterwards, the circulating air fan is switched on in cycles between the individual intermediate heating phases with the heating switched off.
Versuche haben nun ergeben, dass es für das Backergebnis, bei negativem Verlauf ins- besondere erkennbar an Heizelemente-Mustern, z. B. an Flachgebäcken, auch aufgrund von schon während der Anheizphase erfolgenden biochemischen Vorgängen im Gargut von essentieller Bedeutung ist, dass zu dem Zeitpunkt der Umschaltung von Anheizphase in die Fortheizphase im Behandlungszentrum des Backofens, also etwa in dessen Mittelbereich eine der eingestellten Solltemperatur zumindest angenäherte Behandlungstempe- ratur (Fortheiztemperatur) erreicht wird. Dies ist mit den bekannten Backöfen nicht optimal erreichbar, insbesondere aufgrund des Umstands, dass wegen immer besser werdenden Wärmeisolierungen der Backöfen eine natürliche Konvektion im Backofen nicht mehr in nennenswertem Ausmaß stattfindet und dass aufgrund der üblicherweise außermittigen Anordnung des Temperaturfühlers der Steuereinrichtung eine nicht unwesentliche Tem- peraturdifferenz zwischen der am Temperaturfühler gemessenen und die Funktion der Steuereinrichtung prägenden Temperatur und der das Backergebnis prägenden Temperatur im Zentrum des Backofens vorhanden ist. Speziell bei sogenannten konventioneilen Betriebsarten mit Erhitzung der Umluft ausschließlich durch eine Oberhitze und/oder eine Unterhitze, also durch Heizelemente außerhalb des Gebläseraumes, ist diese Tempera- turdifferenz so groß, dass am Ende der Anheizphase und somit am Anfang der eigentlichen Regelungsphase während der Fortheizphase sehr ungünstige Verhältnisse für den Beginn der Fortheizphase vorherrschen.Experiments have now shown that for the baking result, in the case of a negative course, particularly recognizable by heating element patterns, e.g. B. on flat baked goods, also due to biochemical processes already taking place in the food to be cooked during the heating phase, it is essential that at the time of switching from the heating phase to the heating phase in the treatment center of the oven, that is to say, in the central area, a treatment temperature at least approximated to the set target temperature - temperature (heating temperature) is reached. This is not optimal with the known ovens achievable, in particular due to the fact that due to the ever better heat insulation of the ovens, natural convection in the oven no longer takes place to any appreciable extent and that due to the usually eccentric arrangement of the temperature sensor of the control device, a not insignificant temperature difference between that measured at the temperature sensor and that Function of the control device defining temperature and the temperature defining the baking result is present in the center of the oven. Especially in so-called conventional operating modes with heating of the circulating air exclusively through an upper heat and / or a lower heat, i.e. through heating elements outside the blower room, this temperature difference is so great that at the end of the heating phase and thus at the beginning of the actual control phase during the continued heating phase unfavorable conditions prevail for the start of the heating phase.
Der vorliegenden Erfindung liegt daher die Aufgabe zugrunde, ein Verfahren zum Betrei- ben eines Backofens der eingangs genannten Art so auszugestalten, dass mit einfachen steuertechnischen Mitteln am Ende der Anheizphase, also beim Abschalten des oder der Heizelemente bei Beginn der Fortheiz-Regelphase im Zentrum der Ofenmuffel eine der eingestellten Solltemperatur möglichst weitgehend angenäherte Gartemperatur erhalten wird.The present invention is therefore based on the object of designing a method for operating a baking oven of the type mentioned at the outset in such a way that with simple control means at the end of the heating phase, that is to say when the heating element or elements are switched off at the beginning of the continuous heating control phase in the center of the Oven muffle a cooking temperature approximated as close as possible to the set target temperature is obtained.
Diese Aufgabe wird gemäß der Erfindung bei einem Verfahren der eingangs beschriebenen Art dadurch gelöst, dass während der Anheizphase das wenigstens eine Heizelement vorzugsweise fortlaufend angeschaltet ist und dass das Umluftgebläse entsprechend einem von der vorbestimmten Abschalttemperatur des Heizelements am Ende der Anheiz- phase zumindest teilweise abhängigen Zeitprofil temporär angeschaltet wird. Vorzugsweise wird diese einmalige oder mehrfache Anschaltung des Umluftgebläses jeweils nur kurzzeitig z. B. mit einer Anschaltdauer von etwa 30 Sekunden erfolgen.This object is achieved according to the invention in a method of the type described in the introduction in that the at least one heating element is preferably switched on continuously during the heating phase and in that the circulating air fan corresponds to a time profile which is at least partially dependent on the predetermined switch-off temperature of the heating element at the end of the heating phase is switched on temporarily. Preferably, this one-time or multiple connection of the circulating air fan is only briefly z. B. with a turn-on time of about 30 seconds.
Durch das erfindungsgemäße Verfahren wird während der Anheizphase in der Ofenmuffel eine Konvektion der zunächst räumlich nur mehr oder weniger ungleichmäßig verteilten, erhitzten Umluft erzwungen, die zu einer gleichmäßigeren Wärmeverteilung im Muffel- " räum führt. Dadurch ergibt sich eine, wenn überhaupt, dann sehr geringe Temperaturdifferenz zwischen der am Temperaturfühler, also außerhalb des Muffelzentrums gemessenen Temperatur und der Temperatur im Zentrum der Ofenmuffel, also in der Umgebung des zu behandelnden Gargutes. Ein üblicherweise zu beobachtendes Überschwingen der Temperatur in Folge des meist nicht im unmittelbaren Strahlungsbereich der Heizelemente (z. B. Oberhitze, Unterhitze) angeordneten Temperaturfühlers über die gewählte Solltemperatur hinaus ist deshalb wesentlich vermindert bzw. verhindert. Die Folge ist, dass innerhalb der Fortheizphase sehr rasch eine Anpassung der aktuellen Temperatur im Muf- felzentrum an den idealen Temperaturverlauf stattfindet.By the inventive method, a convection during the heating phase in the oven muffle the only more or less first spatially distributed unevenly forced heated air circulation, which leads to a more uniform heat distribution in the muffle "cavities. This results in an, if at all, very low Temperature difference between the temperature measured at the temperature sensor, ie outside the muffle center, and the temperature in the center of the oven muffle, ie in the vicinity of the food to be treated As a result of the temperature sensor, which is usually not located in the immediate radiation area of the heating elements (e.g. top heat, bottom heat), is significantly reduced or prevented beyond the selected target temperature. The result is that the current temperature in the center of the muffle adapts very quickly to the ideal temperature profile during the heating phase.
Gemäß einer vorteilhaften Ausgestaltung des erfindungsgemäßen Verfahrens wird während der Anheizphase das Umluftgebläse wenigstens einmal zu einem von der Höhe der Abschalttemperatur und/oder der Betriebsart und Anordnung des wenigstens einen Heiz- elementes und wenigstens ein weiteres Mal zu einem durch den Temperaturgradienten des jeweiligen Anheizprofils angeschaltet. Selbstverständlich ergeben sich auch Vorteile bei separater Anwendung der vorgenannten Verfahrensmerkmale. Insbesondere durch die Abhängigkeit des Zeitpunktes der zweiten oder weiteren temporären Anschaltung des Umluftgebläses von dem vorgenannten Temperaturgradienten wird dem Umstand Rech- nung getragen, dass ein Temperaturanstieg im unteren Temperaturbereich schneller vonstatten geht als in einem hohen Temperaturbereich. Das Zeitprofil während der Anheizphase wird vorteilhaft auch in Abhängigkeit gebracht von der Betriebsart des Backofens, z. B. mit einem oder mehreren Heizelementen, und von der Anordnung des oder der Heizelemente relativ zum Temperaturfühler.According to an advantageous embodiment of the method according to the invention, the circulating air blower is switched on at least once during the heating-up phase to one of the level of the switch-off temperature and / or the operating mode and arrangement of the at least one heating element and at least once more by the temperature gradient of the respective heating profile. Of course, there are also advantages when the aforementioned method features are used separately. In particular, due to the dependence of the time of the second or further temporary connection of the circulating air blower on the aforementioned temperature gradient, the fact is taken into account that a temperature rise in the lower temperature range takes place faster than in a high temperature range. The time profile during the heating phase is advantageously brought into dependence on the operating mode of the oven, e.g. B. with one or more heating elements, and of the arrangement of the heating element or elements relative to the temperature sensor.
Die Erfindung wird anhand eines in der Zeichnung dargestellten Ausführungsbeispiels nachstehend erläutert.The invention is explained below using an exemplary embodiment shown in the drawing.
Es zeigt:It shows:
Figur 1 die schematische Darstellung eines Backofens zur Durchführung des erfindungsgemäßen Verfahrens,FIG. 1 shows a schematic representation of an oven for carrying out the method according to the invention,
Figur 2 ein Diagramm mit Darstellung des zeitlichen Temperaturverlaufs unterschiedlicher Betriebsabläufe des Backofens,FIG. 2 shows a diagram showing the temperature profile over time of different operating processes of the oven,
Figur 3 ein Diagramm mit einem zeitlichen Temperaturverlauf gemäß dem erfindungsgemäßen Verfahren. Figur 1 zeigt in schematischer und perspektivischer Darstellung die quaderföfmige Ofenmuffel 5 eines Backofens, bestehend aus seitlichen Muffelwänden 6, 7, einer oberen Muffelwand 8, einer unteren Muffelwand 9 und einer rückwärtigen, senkrechten Muffelwand 10. Am rückwärtigen Ende des Muffelraums 11 mit Abstand zur hinteren Muffelwand 10 befindet sich eine Zwischenwand 12, die einen vom übrigen Muffelraum weitgehend getrennten Gebläseraum 13 bildet, in dem ein motorbetriebenes Umluftgebläse 14 angeordnet ist. Dieser Gebläseraum kommuniziert mit dem übrigen Muffelraum 11 über nicht weiter dargestellte seitliche Ausblasöffnungen, in Figur 1 dargestellt durch Luftströmungspfeile 15. Innerhalb des Muffelraums 11 und in unmittelbarer Nähe der oberen Muffelwand 8 ist angeordnet ein als Strahlungsheizkörper ausgebildetes Heizelement 16, auch Oberhitze genannt, während unterhalb der unteren Muffelwand 9 ein weiteres Heizelement 17 als sogenannte Unterhitze angeordnet ist. Durch Luftströmungspfeile 18 und 19 ist in Figur 1 angedeutet, dass vom Umluftgebläse 14 ausgehend Luftströmungen in Richtung der vorerwähnten Heizelemente 16, 17 strömen, dort an den Heizelementen bzw. an den be- nachbarten Muffelwänden erhitzt werden und vom Umluftgebläse 14 über eine zentrale Ansaugöffnung in der Zwischenwand 12 des Gebläseraums 13 wieder angesaugt werden. Hierbei ist ein Betrieb von Heizelementen innerhalb des Gebläseraums 13 nicht vorgesehen. Im Muffelraum 11 ist weiterhin angeordnet ein Temperaturfühler 20, der räumlich und funktional verbunden ist mit einer nicht weiter dargestellten, an sich üblichen Steuerein- richtung für den Backofen. Dieser Temperaturfühler 20 befindet sich in Nähe der oberen Muffelwand 8 und ist beispielsweise befestigt an der rückwärtigen Muffelwand 10 und durchdringt die Zwischenwand 12 des Gebläseraums 13. Damit befindet sich dieser Temperaturfühler 20 - wie üblich - weit außerhalb des Behandlungszentrums der Ofenmuffel 5, in welchem sich das zu behandelnde Gargut befindet. Die Ofenmuffel 5 ist umgeben von einer nicht dargestellten thermischen Isoliermasse und ist durch eine ebenfalls nicht dargestellte Ofentür während des Backofenbetriebs dicht verschließbar.Figure 3 is a diagram with a temperature profile over time according to the inventive method. Figure 1 shows a schematic and perspective view of the cuboid oven muffle 5 of an oven, consisting of side muffle walls 6, 7, an upper muffle wall 8, a lower muffle wall 9 and a rear, vertical muffle wall 10. At the rear end of the muffle space 11 at a distance from the rear Muffle wall 10 there is an intermediate wall 12 which forms a blower room 13 which is largely separate from the rest of the muffle room and in which a motor-operated air circulation fan 14 is arranged. This blower chamber communicates with the rest of the muffle space 11 via side blow-out openings, not shown, shown in FIG. 1 by air flow arrows 15. Inside the muffle space 11 and in the immediate vicinity of the upper muffle wall 8 there is a heating element 16, also called top heat, which is designed as a radiant heater, while below the lower muffle wall 9, a further heating element 17 is arranged as a so-called bottom heat. Air flow arrows 18 and 19 in FIG. 1 indicate that air flows from the circulating air blower 14 flow in the direction of the aforementioned heating elements 16, 17, are heated there on the heating elements or on the adjacent muffle walls, and are circulated by the circulating air blower 14 via a central suction opening in the intermediate wall 12 of the blower chamber 13 are sucked in again. Operation of heating elements within the blower chamber 13 is not provided here. In the muffle room 11 there is also a temperature sensor 20, which is spatially and functionally connected to a conventional control device for the oven, which is not shown in more detail. This temperature sensor 20 is located in the vicinity of the upper muffle wall 8 and is fastened, for example, to the rear muffle wall 10 and penetrates the intermediate wall 12 of the blower chamber 13. Thus, as usual, this temperature sensor 20 is located far outside the treatment center of the furnace muffle 5, in which the food to be treated is located. The oven muffle 5 is surrounded by a thermal insulating compound (not shown) and can be closed tightly by an oven door (also not shown) during oven operation.
Die Figur 2 verdeutlicht anhand einer Kurvenschar, mit welcher Problematik sich die vorliegende Erfindung befasst. Das Diagramm zeigt - ebenso wie Figur 3 - den Verfahrens- ablauf des Backofens mit der Abszisse als Zeitachse und der Ordinate als Temperaturachse. Die Kurvenschar zeigt die Kurve 1 , die den realen Temperaturverlauf an dem außerhalb des Behandlungszentrums der Ofenmuffel 5 (Figur 1) angeordneten Temperaturfühler 20 anzeigt und zwar ohne, dass während der Anheizphase 0 - 13 das Umluftgebläse 14 angeschaltet wird, also nur die Heizelemente 16, 17 fortlaufend angeschaltet sind. Der Zeitpunkt t3 ist der Punkt im Temperatur-/Zeitprofil, in dem die Heizelemente 16, 17 beim Erreichen der Aufheizspitze erstmals abgeschaltet werden (Abschalttemperatur), die Anheizphase beendet ist und die Fortheizphase t3 - tx beginnt mit bekanntem, taktweisem Regelspiel von Heizelementen und Umluftgebläse, gesteuert durch eine übliche, nicht dargestellte Steuereinrichtung.FIG. 2 uses a family of curves to illustrate the problems with which the present invention is concerned. The diagram shows - just like FIG. 3 - the process sequence of the oven with the abscissa as the time axis and the ordinate as the temperature axis. The family of curves shows curve 1, which shows the real temperature profile at the temperature sensor 20 arranged outside the treatment center of the furnace muffle 5 (FIG. 1), without the circulating air blower 14 being switched on during the heating phase 0 - 13, that is to say only the heating elements 16. 17 are continuously switched on. The time t3 is the point in the temperature / time profile at which the heating elements 16, 17 at When the heating tip is reached for the first time (switch-off temperature), the heating-up phase has ended and the heating-up phase t3 - tx begins with the known, cyclical control cycle of heating elements and circulating air blowers, controlled by a conventional control device (not shown).
Die Kurve 2 zeigt einen angestrebten, idealen Verlauf des Temperaturprofils am Temperaturfühler in Bezug auf eine gewählte Solltemperatur Tsoll im Behandlungszentrum, die zum Zeitpunkt t3 relativ weit entfernt ist von der real gemessenen Temperatur am Temperaturfühler, d. h. es findet ein Überschwingen der messtechnisch erfassten Temperatur am Temperaturfühler gegenüber der idealen Temperatur statt. Die Kurven in Figur 2 zeigen deutlich, dass während der Fortheizphase t3 - tx relativ viel Zeit vergehen würde, um in der Betriebsweise gemäß Kurve 1 den idealen Temperaturverlauf der Kurve 2 im Bereich tx zu erreichen.Curve 2 shows a desired, ideal profile of the temperature profile on the temperature sensor with reference to a selected target temperature Tsoll in the treatment center, which at time t3 is relatively far away from the temperature actually measured at the temperature sensor, i. H. the measured temperature at the temperature sensor overshoots the ideal temperature. The curves in FIG. 2 clearly show that a relatively long time would pass during the continued heating phase t3-tx in order to achieve the ideal temperature profile of curve 2 in the area tx in the operating mode according to curve 1.
Die Kurve 3 soll den idealen Temperaturverlauf im Behandlungszentrum des Backofens verdeutlichen, in welchem Behandlungszentrum sich kein Temperaturfühler der Steuereinrichtung befindet. Zum Zeitpunkt t3 ist diese ideale Behandlungstemperatur zumindest weitgehend angenähert an die Solltemperatur Tsoll, und es besteht nur eine minimale Differenz zur Idealtemperatur der Idealkurve 2 zu diesem Zeitpunkt t3.Curve 3 is intended to illustrate the ideal temperature profile in the treatment center of the oven, in which treatment center there is no temperature sensor of the control device. At time t3, this ideal treatment temperature is at least largely approximated to the target temperature Tsoll, and there is only a minimal difference to the ideal temperature of the ideal curve 2 at this time t3.
Mit der Kurve 4 soll verdeutlicht werden ein korrigiertes Temperatur-/Zeitprofil entsprechend der beschriebenen Erfindung, bei dem durch vorzugsweise mehrfaches Zutakten des Umluftgebläses 14 (Figur 1) der Temperaturverlauf am Temperaturfühler 20 zum Zeitpunkt t3 dem idealen Temperaturverlauf gemäß Kurve 2 angenähert wird. Als Folge erreicht in der Fortheizphase t3 - tx der korrigierte Temperaturverlauf in kürzerer Zeit den idealen Temperaturverlauf, wie Figur 2 deutlich zeigt.Curve 4 is intended to illustrate a corrected temperature / time profile in accordance with the described invention, in which the temperature profile at temperature sensor 20 at time t3 is approximated to the ideal temperature profile according to curve 2 by preferably repeatedly actuating the air blower 14 (FIG. 1). As a result, in the continued heating phase t3-tx, the corrected temperature profile reaches the ideal temperature profile in a shorter time, as FIG. 2 clearly shows.
Ein solches Temperatur-/Zeitprofil ist in Figur 3 durch die Kurve 5 verdeutlicht. Hierbei wird während der Anheizphase 0 - 13 das Umluftgebläse 14 (Figur 1) zu Zeitpunkten t1 und t.2 temporär, z. B. 30 Sekunden lang, angeschaltet. Figur 3 zeigt in Gegenüberstellung hierzu durch die Kurve 6 ein Temperatur-/Zeitprofil, wie es ohne das erfindungsgemäße Verfahren verlaufen würde, d. h. hier würde die Anheizkurve kontinuierlich und ununterbrochen bis zu einem Abschaltzeitpunkt bei Erreichen einer Anheizspitze am Ende der Anheizphase ansteigen. Die Kurve 5 hingegen verdeutlicht die erwähnte Zutaktung des Umluftgebläses zu den Zeitpunkten t1 und t2. Damit ergibt sich der vorteilhafte Effekt, dass der Temperaturanstieg am außerhalb des Behandlungszentrum des Backofens angeordneten Temperaturfühlers, der für die Temperaturregelung und letztlich für das Backergebnis verantwortlich ist, bei jedem Zutakten bei t1 und t2 kurzzeitig verlangsamt wird (Kurve 5) erkenntlich an der kurzzeitigen Unterbrechung des ansonsten linearen Temperaturanstiegs (Temperaturgradient), d. h. am partiell schleifenartigen Verlauf der Kurve 5 in Höhe des Zeitpunkt Z1 und t2 , so dass die Temperatur im Behandlungszentrum die Möglichkeit hat, infolge der kurzzeitigen erzwungenen Luftkonvektion die vorherrschende Temperaturdifferenz zwischen Temperaturfühler und Behandlungszentrum auszugleichen.Such a temperature / time profile is illustrated in FIG. 3 by curve 5. During the heating phase 0 - 13, the circulating air blower 14 (FIG. 1) is temporarily, for example at times t1 and t.2. B. for 30 seconds, turned on. In contrast to this, FIG. 3 shows, by means of curve 6, a temperature / time profile as would be the case without the method according to the invention, ie here the heating curve would rise continuously and uninterruptedly until a switch-off time when a heating peak was reached at the end of the heating phase. Curve 5, on the other hand, illustrates the above-mentioned activation of the circulating air blower at times t1 and t2. This results in the advantageous effect that the temperature rise at the temperature sensor located outside the treatment center of the oven, which is responsible for the temperature control and ultimately for the baking result, is briefly slowed down with each addition at t1 and t2 (curve 5), recognizable by the brief interruption of the otherwise linear temperature rise (temperature gradient) , ie on the partially loop-like course of curve 5 at times Z1 and t2, so that the temperature in the treatment center has the possibility of compensating for the prevailing temperature difference between the temperature sensor and treatment center as a result of the brief forced air convection.
Steuertechnisch wird das ideale Zeitprofil gemäß der Erfindung dadurch erreicht, dass das Zeitprofil bestimmt ist durch die Höhe der Abschalttemperatur bei t3 und/oder durch die Betriebsart und Anordnung des oder der Heizelemente 16, 17 (Figur 1). Vorzugsweise ist dieser erste Einschaltzeitpunkt t1 im Zeitprofil ein fester Prozentwert relativ zur Auf- heizspitze bzw. der Abschalttemperatur am Ende der Anheizphase 0 - 13. Vorzugsweise wird der zweite Einschaltzeitpunkt t2 bestimmt durch den Temperaturgradienten des jeweiligen, von der gewählten Soll- oder Abschalttemperatur abhängigen Anheizprofils.In terms of control technology, the ideal time profile according to the invention is achieved in that the time profile is determined by the level of the switch-off temperature at t3 and / or by the operating mode and arrangement of the heating element or elements 16, 17 (FIG. 1). This first switch-on time t1 in the time profile is preferably a fixed percentage value relative to the heating peak or the switch-off temperature at the end of the heating phase 0 - 13. The second switch-on time t2 is preferably determined by the temperature gradient of the respective heating profile which is dependent on the selected target or switch-off temperature ,
Selbstverständlich ergeben sich die Vorteile der vorliegenden Erfindung gleichermaßen sowohl bei einem zeitlichen Voreilen der Temperatur am Temperaturfühler gegenüber der Temperatur im Behandlungszentrum als auch umgekehrt beim zeitlichen Nachlaufen der Temperatur am Temperaturfühler gegenüber der Temperatur im Behandlungszentrum. Of course, the advantages of the present invention result equally when the temperature at the temperature sensor leads over time in relation to the temperature in the treatment center and vice versa when the temperature at the temperature sensor overtakes the temperature in the treatment center over time.

Claims

Patentansprüche claims
1. Verfahren zum Betreiben eines Backofens, versehen mit einer verschließbaren, thermisch isolierten Ofenmuffel (5), mit einem innerhalb eines Gebläseraums (13) der Ofenmuffel angeordneten Umluftgebläse (14), mit wenigstens einem in Nähe der Muffelwände (6 bis 10) außerhalb des Gebläseraums (13) angeordneten thermischen Heizelement (16, 17) und mit einer Steuereinrichtung, mit welcher während des aus Anheizphase (0 - 13) und Fortheizphase (t3 - tx) bestehenden Backofenbetriebs das wenigstens eine Heizelement (16, 17) und das Umluftgebläse (14) entsprechend eines vorbestimmten Temperatur-/Zeitprofils an- und abschaltbar sind, dadurch gekennzeichnet, dass während der Anheizphase (0 - 13) das wenigstens eine Heizelement (16, 17) vorzugsweise fortlaufend angeschaltet ist und dass das Umluftgebläse (14) entsprechend einem von der vorbestimmten Abschalttemperatur des Heizelements am Ende der Anheizphase zumindest teilweise abhängigen Zeitprofil temporär angeschaltet wird.1. Method for operating an oven, provided with a closable, thermally insulated oven muffle (5), with a circulating air blower (14) arranged inside a blower chamber (13) of the oven muffle, with at least one near the muffle walls (6 to 10) outside the Blower room (13) arranged thermal heating element (16, 17) and with a control device with which the at least one heating element (16, 17) and the circulating air fan (16) during the oven operation consisting of heating phase (0 - 13) and continuing heating phase (t3 - tx) 14) can be switched on and off according to a predetermined temperature / time profile, characterized in that during the heating phase (0 - 13) the at least one heating element (16, 17) is preferably switched on continuously and that the circulating air blower (14) corresponds to one of the predetermined switch-off temperature of the heating element is temporarily switched on at least partially dependent time profile at the end of the heating phase.
2. Verfahren nach Anspruch 1 , dadurch gekennzeichnet, dass das Zeitprofil bestimmt ist durch die Höhe der Abschalttemperatur und/oder der Betriebsart und Anordnung des wenigstens einen Heizelements (16, 17).2. The method according to claim 1, characterized in that the time profile is determined by the level of the switch-off temperature and / or the operating mode and arrangement of the at least one heating element (16, 17).
3. Verfahren nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, dass das Zeitprofil bestimmt ist durch den Temperaturgradienten des jeweiligen, von der gewählten Soll- oder Abschalttemperatur abhängigen Anheizprofils.3. The method according to any one of the preceding claims, characterized in that the time profile is determined by the temperature gradient of the respective heating profile, which is dependent on the selected target or switch-off temperature.
4. Verfahren nach einem der vorhergehenden Ansprüche,, dadurch gekennzeichnet, dass das Umluftgebläse (14) während der Anheizphase (0 - 13) wenigstens zwei Mal kurzzeitig angeschaltet wird.4. The method according to any one of the preceding claims, characterized in that the circulating air blower (14) is briefly switched on at least twice during the heating phase (0 - 13).
5. Verfahren nach Anspruch 1 bis 4, dadurch gekennzeichnet, dass während der Anheizphase (0 - 13) das Umluftgebläse (14) wenigstens einmal zu einem von der Höhe der Abschalttemperatur und/oder der Betriebsart und Anordnung des wenigstens einen Heizelements (16, 17) und wenigstens ein weiteres Mal zu einem durch den Temperaturgradienten des jeweiligen Anheizprofils abhängigen Zeitpunkt angeschaltet wird.5. The method according to claim 1 to 4, characterized in that during the heating phase (0 - 13) the circulating air blower (14) at least once to one of the level of the switch-off temperature and / or the operating mode and arrangement of the at least one heating element (16, 17th ) and is switched on at least one more time at a time dependent on the temperature gradient of the respective heating profile.
6. Backofen insbesondere zur Durchführung des Verfahrens nach einem der vorher- gehenden Ansprüche, dadurch gekennzeichnet, dass innerhalb einer thermisch isolierten, verschließbaren Ofenmuffel (5) ein Gebläseraum (13) mit einem Umluftgebläse (14) und nahe der Muffelwände (6 bis 10) und vorzugsweise außerhalb des Gebläseraums wenigstens ein thermisches Heizelement (16, 17) vorgesehen ist und dass eine Steuereinrichtung, deren Temperaturfühler (20) sich außerhalb des Behandlungszentrums der Ofenmuffel (5) befindet, derart ausgebildet ist, dass während einer, einer Vorteilsphase (t3 - tx) vorgeschalteten Anheizphase (0 - 13) der Ofenmuffel (5) das Umluftgebläse (14) entsprechend einem von der vorbestimmten Abschalttemperatur des Heizelements am Ende der Anheizphase (t.3) zumindest teilweise abhängigen Zeitprofil temporär anschaltbar ist. 6. Oven in particular for carrying out the method according to one of the preceding claims, characterized in that within a thermally insulated, closable furnace muffle (5), a blower chamber (13) with a circulating air blower (14) and near the muffle walls (6 to 10) and preferably outside the blower chamber at least one thermal heating element (16, 17) is provided and that a control device, the temperature sensor (20 ) is located outside the treatment center of the furnace muffle (5), is designed such that during a heating phase (0 - 13) preceding the furnace muffle (5), the circulating air blower (14) corresponds to one of the predetermined switch-off temperature during an advantageous phase (t3 - tx) of the heating element at the end of the heating phase (t.3) at least partially dependent time profile can be switched on temporarily.
EP04721518A 2003-03-27 2004-03-18 Method for operating a baking oven Expired - Lifetime EP1611396B1 (en)

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ES2314388T3 (en) 2009-03-16
ATE410644T1 (en) 2008-10-15

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