EP4101261A1 - Dispositif de cuisson - Google Patents

Dispositif de cuisson

Info

Publication number
EP4101261A1
EP4101261A1 EP21700785.5A EP21700785A EP4101261A1 EP 4101261 A1 EP4101261 A1 EP 4101261A1 EP 21700785 A EP21700785 A EP 21700785A EP 4101261 A1 EP4101261 A1 EP 4101261A1
Authority
EP
European Patent Office
Prior art keywords
inductors
inductor
inverter
switching
switching element
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.)
Pending
Application number
EP21700785.5A
Other languages
German (de)
English (en)
Inventor
Manuel Fernandez Martinez
Ignacio Garde Aranda
Oscar Gracia Campos
Paul Muresan
Daniel Palacios Tomas
Diego Puyal Puente
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 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 Hausgeraete GmbH filed Critical BSH Hausgeraete GmbH
Publication of EP4101261A1 publication Critical patent/EP4101261A1/fr
Pending legal-status Critical Current

Links

Classifications

    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B6/00Heating by electric, magnetic or electromagnetic fields
    • H05B6/02Induction heating
    • H05B6/06Control, e.g. of temperature, of power
    • H05B6/062Control, e.g. of temperature, of power for cooking plates or the like
    • H05B6/065Control, e.g. of temperature, of power for cooking plates or the like using coordinated control of multiple induction coils
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B6/00Heating by electric, magnetic or electromagnetic fields
    • H05B6/02Induction heating
    • H05B6/06Control, e.g. of temperature, of power
    • H05B6/062Control, e.g. of temperature, of power for cooking plates or the like
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B2213/00Aspects relating both to resistive heating and to induction heating, covered by H05B3/00 and H05B6/00
    • H05B2213/03Heating plates made out of a matrix of heating elements that can define heating areas adapted to cookware randomly placed on the heating plate

Definitions

  • the invention relates to a cooking appliance device, in particular a hob device, according to the preamble of claim 1.
  • a hob is already known from the prior art, which has two inverters and four inductors, with half of the inductors each being assigned to one of the inverters. Alternatively, half of the inductors can be assigned to both inverters, but in this state the other half of the inductors are not assigned.
  • the object of the invention is in particular, but not limited to, to provide a generic device with improved properties in terms of flexibility.
  • the object is achieved according to the invention by the features of claim 1, while advantageous configurations and developments of the invention can be found in the subclaims.
  • the invention is based on a cooking appliance device, in particular a Kochfeldvor direction, with at least one inverter, at least one further inverter, at least one inductor, at least one set of further inductors, which has at least one first further inductor and at least one second further inductor, and at least one Switching arrangement which assigns the inverter to the inductor in at least one operating state.
  • the further inverter in the operating state can be assigned to at least any further inductor of the set of further inductors, for example the first and / or the second further inductor, by means of the switching arrangement.
  • Such a configuration can, in particular, achieve improved properties with regard to flexibility.
  • a cooking device device can thereby be provided which has improved properties with regard to a flexible allocation of inductors and thus in particular a flexible distribution of heating power.
  • the heating power in particular with regard to a Cookware configuration, can be assigned more flexibly to the respective cookware.
  • a larger number of possible cooking utensil configurations can be operated by means of the cooking device, in particular due to the increased flexibility of the cooking device.
  • a single cooking appliance device can be used to operate greater flexibility, in particular with regard to a combination of larger and smaller cookware. In this way, in particular, a high degree of flexibility can be made available to a user of the cooking appliance device.
  • the user can distribute cooking utensils more flexibly on a hob plate.
  • a high degree of flexibility can be achieved by means of a particularly cost-effective number of components.
  • the cooking appliance device can in particular be adapted to the increasingly different sizes and properties of cooking utensils available on the market.
  • limitations with regard to possible cookware configurations can be reduced and / or eliminated.
  • the cooking appliance device could, for example, be an oven device, advantageously a hob device and particularly advantageously an induction hob device.
  • a "cooking device”, in particular a “oven device”, before geous under a “hob device” and particularly advantageously under an “induction onskochfeldvoriques” should in particular at least a part, in particular a subassembly, of a household appliance, in particular a cooking device, advantageously a cook field and particularly advantageously an induction hob.
  • a cooking device having the cooking device device could, for example, be an oven and / or a microwave and / or a grill device and / or a steam cooking device.
  • a domestic appliance designed as a cooking appliance is a hob and preferably an induction hob.
  • a “hob device”, in particular an “induction hob device”, should be understood to mean in particular at least a part, in particular a subassembly, of a hob, in particular an induction hob, in which case accessory units for the hob can also be included, such as a sensor unit for external measurement of a temperature of a cookware and / or a product to be cooked.
  • the hob device in particular the induction hob device, can also include the entire hob, in particular the entire induction hob.
  • the cooking appliance device advantageously has an inductor and a set of further inductors, wherein in particular the inductor and the further inductors of the set of further inductors can be designed to be at least substantially identical to one another.
  • the inductor and the further inductors of the set of further inductors can in particular have identical components.
  • the inductor and the other inductors differ only in their circuit arrangement.
  • “at least substantially” is to be understood in particular to mean that a deviation from a predefined value deviates in particular by less than 25%, preferably less than 10% and particularly preferably less than 5% of the predefined value.
  • An “inductor” is to be understood here in particular as an element which has at least one induction coil and / or is designed as an induction coil and which is provided to supply energy, in particular in the form of an alternating magnetic field, to at least one receiving element in at least one operating state .
  • the receiving element is designed in particular as a part and / or a subassembly group of a receiving unit and is provided in particular to receive the energy provided by at least one inductor.
  • the recording unit can in particular be part of the cooking appliance device. Alternatively, it is conceivable that the receiving unit is designed as a unit that is independent of the cooking device device and / or as part of a further device that is independent of the cooking device device.
  • the receiving unit can in particular be provided to be set up in an area above the inductor and / or the further inductor.
  • the receiving unit could for example be designed as a cookware and in particular have at least one secondary coil as a receiving element for receiving the energy provided by the inductor and / or the further inductor.
  • the receiving element could also be designed as a metallic heating means, in particular as an at least partially ferromagnetic heating means, for example as a ferromagnetic base of cooking utensils, in which eddy currents and / or magnetic reversal effects caused by the inductor when the heating unit is in an operating state that are converted into heat.
  • a “set of further inductors” is to be understood as meaning, in particular, a group of further inductors which, in particular, have at least one first further inductor has ductor and in particular at least one second further inductor.
  • the further inductors of the set of further inductors could differ, for example with regard to the envisaged power consumption and / or the envisaged power output and / or with regard to their geometry and / or their size.
  • the further inductors of the set of further inductors are advantageously designed to be at least essentially identical to one another. It is particularly advantageous that at least a large part of the further inductors of the set of further inductors are formed from at least essentially the same electrical components.
  • the cooking appliance device has exactly one inverter and exactly one further inverter.
  • the cooking appliance device advantageously has two further inverters, particularly advantageously three further inverters and preferably at least four further inverters.
  • An “inverter” is to be understood in particular as an electrical unit which, in at least one operating state, provides a particularly high-frequency alternating current, in particular for the inductor and / or the set of further inductors.
  • the inverter can have inverter switching elements, which can be designed in particular as IGBT, MOSFET, HEMT, JFET and / or as TRIAC.
  • the inverter switching elements can be formed at least partially from a semiconductor material, such as silicon, silicon carbide and / or gallium nitride and / or from another semiconductor material that appears sensible to a person skilled in the art.
  • the inverter and the further inverter could differ, for example with regard to the intended power consumption and / or the intended power output and / or with regard to their geometry, and / or their size and / or with regard to electronic components that form the respective inverter.
  • the inverter and the further inverter are advantageously designed to be at least essentially identical to one another. At least a large part of the inverter and the further inverter are particularly advantageously formed from at least essentially the same electrical components.
  • a “switching arrangement” is to be understood in particular as an electrical unit which, in particular, has a plurality of switching elements.
  • the switching arrangement is provided to convert the inverter and / or further inverters to the inductors and / or further inductors of the set of further inductors. assign to.
  • a “switching element” is to be understood in particular as an electronic element which is provided to establish and / or separate an electrically conductive connection between two points, in particular contacts of the switching element.
  • the switching element preferably has at least one control contact via which it can be switched.
  • the switching element is designed as a semiconductor switching element, in particular as a transistor, advantageously as a bipolar transistor with a preferably insulated gate electrode (IGBT).
  • the switching element is designed as a mechanical and / or electromechanical switching element, in particular as a relay.
  • the cooking appliance device could have a control unit which controls the switching arrangement, in particular a configuration switching unit of the switching arrangement and / or a parallel switching unit of the switching arrangement, as a function of a cooking utensil configuration.
  • the control unit establishes operating states, in particular by controlling the switching arrangement.
  • a “control unit” is to be understood in particular as an electronic unit which is preferably at least partially integrated in a control and / or regulating unit of a cooking appliance and which is preferably provided for this purpose, in particular at least the inverters and / or the further inverters and / or to control and / or regulate a switching arrangement.
  • the control unit preferably comprises a computing unit and, in particular, in addition to the computing unit, a memory unit with a control and / or regulating program stored therein which is provided to be executed by the computing unit.
  • a “cooking utensil configuration” is to be understood as meaning, in particular, a number and / or a position and / or a nature of the cooking utensils set up, in particular cooking utensils set up on the hob.
  • a large number of possible cookware configurations is conceivable.
  • the cooking utensil configuration is a combination of the number and / or position and / or nature of the cooking utensils set up.
  • control unit controls the switching arrangement, in particular a configuration switching unit of the switching arrangement and / or a parallel switching unit of the switching arrangement, depending on the Garge dish configuration so that an assignment of the inductors and / or the further inductors of the set of further inductors to the inverter and / or the further inverter at least essentially corresponds to the cookware configuration.
  • control unit is intended in particular to control the switching Control order depending on the cooking utensil configuration in such a way that set up cooking utensils can be operated individually and heated at least substantially over the entire surface and with the heating power desired by the user, in particular in an operating state.
  • An “operating state” is to be understood in particular as a state of the cooking appliance device in which in particular at least one inductor and / or a further inductor of the set of further inductors, in particular for heating the cooking utensils, is operated.
  • a large number of operating states are possible, which differ in particular with regard to the assignment of inverters to inductors.
  • at least the inductor that is being operated is assigned to an inverter, for example the at least one inverter and / or the at least one further inverter.
  • the further inverter in the operating state in which the inverter is assigned to the inductor, can be assigned to at least one further inductor of the set of further inductors, for example the first and / or the second further inductor, by means of the switching arrangement.
  • the switching arrangement is provided to assign the additional inverter to any additional inductor of the set of additional inductors, for example the first and / or the second additional inductor.
  • any further inductor of the set of further inductors for example the first and / or the second further inductor, can be operated in particular by the alternating current provided by the further inverter.
  • an inverter is assigned to an inductor is intended to mean in particular that the inverter is electrically connected to the inductor by means of the switching arrangement, in particular in order to achieve the operating state. In particular, this should also be understood by an assignment in the opposite direction.
  • the fact that an inverter can be assigned to an inductor should in particular be understood to mean that the inverter can be electrically connected to the inductor by means of the switching arrangement, in particular in order to be able to achieve a further operating status.
  • “Provided” is to be understood in particular as specifically programmed, designed and / or equipped.
  • the fact that an object is provided for a specific function is to be understood in particular to mean that the object fulfills and / or executes this specific function in at least one application and / or operating state.
  • the set of further inductors have at least one third further inductor.
  • a cooking appliance device can in particular be made available which, in particular, has a particularly high degree of flexibility, in particular with regard to possible cooking utensil configurations.
  • the set of further inductors has at least one fourth further inductor, preferably at least one fifth further inductor.
  • the set of further inductors particularly preferably has any number of further inductors.
  • the further inverter in the operating state, can be assigned to all further inductors of the set of further inductors at the same time by means of the switching arrangement.
  • the further inverter in the Radiozu can supply all further inductors of the set of further inductors at the same time.
  • the switching arrangement in the operating state in which the switching arrangement in particular assigns the inverter to the inductor, can assign the switching order to the further inverter at the same time to all further inductors of the set of further inductors.
  • the inductor in the operating state, in particular through the assignment by means of the switching arrangement, can be operated by the inverter and, at the same time, all further inductors of the set of further inductors can be operated by the wide ren inverter.
  • a high degree of flexibility in particular with regard to possible cookware configurations, can be achieved. Since a more flexible cooking appliance device can be provided to a user, user satisfaction in particular can be increased. In addition, this makes it possible in particular to dispense with multiplexing, as a result of which, in particular, efficiency can be increased.
  • any two adjacent inductors for example the inductor and / or a further inductor of the set of further inductors, can each be assigned to different inverters.
  • At least two cooking pans can be set up in any position, and each can be operated by inductors that are assigned to other inverters.
  • inductors For example, one of the inductors could be assigned to the inverter and another inductor of the set of further inductors could be assigned to the further inverter.
  • two adjacent cookware ie two cookware, which are placed adjacent to any position on the hob plate, can be operated with an individual heating power in each case.
  • any two adjacent inductors can be assigned to different inverters at the same time by means of the switching arrangement.
  • the switching arrangement has at least one configuration switching unit, by means of which each of the inductors can be individually electrically separated from the inverters.
  • a “configuration switching unit” is to be understood in particular as an electrical unit which is provided to electrically separate each of the inductors individually from the inverters in at least one operating state and to electrically connect each of the inductors individually to the inverters in at least one further operating state.
  • the configuration unit is provided to electrically isolate each inductor, which cannot be operated in the operating state, from the inverters.
  • the configuration unit is provided to electrically connect each inductor, which is to be operated in the operating state, to the inverters.
  • the configuration unit can electrically separate each of the inductors in any combination from the inverters and / or connect them to the inverters.
  • the configuration unit can electrically disconnect each of the inductors from the inverters at the same time and / or connect them to the inverters.
  • the configuration switching unit has at least one configuration switching element, which is shown in a circuit diagram between at least one of the in- ductors and at least one further switching element, in particular a parallel switching element of the switching arrangement, is arranged.
  • the configuration switching element can in particular be designed as a switching element.
  • the configuration switching element is connected directly to the at least one further switching element, which can in particular be a parallel switching element, or to a resonance capacitance.
  • the further switching element which can in particular be a parallel switching element, is not installed.
  • the configuration switching unit then has at least one configuration switching element which is arranged in a circuit diagram between at least one of the inductors and a resonance capacity of the cooking appliance device.
  • a “resonance unit” is to be understood in particular as a unit that includes at least one resonance capacity, which is preferably formed by at least one capacitor, which is different from a damping capacity and / or a capacity that is connected in parallel to a switching element is.
  • a resonance capacitance is formed by a combination of series and parallel connections of several capacitors.
  • the resonance capacitance is, in particular, a component of an electrical oscillating circuit, in particular an electrical series oscillating circuit.
  • the resonance capacitance is preferably connected in series with the inductor in at least one operating state, in particular via the configuration switching element, and is particularly advantageously provided to be charged via the inductor by at least one of the inverters.
  • the resonance capacitance is arranged in particular on a side of the inductor facing away from the inverter when viewed in the direction of a conduction path.
  • at least one and preferably each of the inductors and / or at least one of the further inductors of the set of further inductors is operated in a full bridge circuit.
  • the inductor is in common with a resonance capacitance, preferably connected in series with the inductor, between two voltage dividers formed by inverters in the bridge arm.
  • At least one and preferably each of the inductors and / or at least one of the further inductors of the set of further inductors is preferably operated in a half-bridge circuit.
  • the inductor is arranged in the bridge branch between a voltage divider formed by at least one inverter and a voltage divider formed by two resonance capacitances.
  • the configuration switching unit advantageously has at least two configuration switching elements, particularly advantageously at least three configuration switching elements, preferably at least four configuration switching elements and particularly preferably at least five configuration switching elements.
  • the number of configuration switching elements could correspond to a number of inductors.
  • the switching arrangement has at least one parallel switching unit, by means of which the inverter and the further inverter can be switched in parallel.
  • a “parallel switching unit” should be understood to mean an electrical unit which is provided to connect at least the inverter and the further inverter in parallel in at least one operating state.
  • the inverters in at least the operating state in which the inverter and the further inverter are connected in parallel by means of the parallel switching unit of the switching arrangement, the inverters can simultaneously supply at least the inductor and / or one further inductor of the set of further inductors with alternating current.
  • a particularly high heating output can be achieved hereby. Since a particularly high heating output can be made available to the user as a result, in particular user satisfaction can also be increased as a result. Furthermore, a higher flexibility can be achieved in this way, in particular with regard to possible assignments of inverters to inductors.
  • the parallel switching unit has at least one parallel switching element which is arranged in a circuit diagram between at least one of the inverters and at least one further switching element of the switching arrangement, in particular the configuration switching element.
  • the inverter and the further inverter can be connected in parallel with particular component efficiency.
  • a particularly high degree of flexibility can be achieved in this way, in particular with regard to possible cooking utensil configurations.
  • a cookware can thereby be supplied with energy from several inverters. In this way, in particular, user satisfaction can thus be provided.
  • the at least one parallel switching element could, for example, be designed as a switching element.
  • the parallel switching unit has at least one parallel switching element which, in a circuit diagram, is between at least the inductors and / or a further inductor of the set of further inductors and at least one further switching element of the switching arrangement, in particular the configuration switching element, is arranged.
  • the parallel switching unit advantageously has at least two parallel switching elements, particularly advantageously at least three parallel switching elements, preferably at least four parallel switching elements and particularly preferably at least five parallel switching elements.
  • the number of parallel switching elements could correspond to a number of inverters.
  • any number of inductors can be assigned to each of the inverters by means of the switching arrangement.
  • a high degree of flexibility in particular with regard to a possible number of inductors, which are operated in particular with the same heating power, in particular by the same inverter, can be achieved.
  • a number of inductors that are operated by a common inverter can be selected with maximum flexibility as a result.
  • each of the inverters can supply any number of inductors with alternating current by means of the switching arrangement.
  • the inductors and / or the further inductors of the set of further inductors can be assigned to each of the inverters in any number and / or combination by means of the switching arrangement.
  • any number of inverters could be assigned to each of the inductors by means of the switching arrangement.
  • At least one and preferably at least a large part of the inductors can be assigned to each of the inverters simultaneously or alternatively by means of the switching arrangement.
  • the fact that at least one and preferably at least a large part of the inductors can be ordered “simultaneously or alternatively” to each of the inverters should be understood in particular to mean that the inductor and / or at least one further inductor of the set of further inductors in an operating state simultaneously can be electrically connected to each of the inverters of the cooking appliance device and, in a further operating state, individually to one inverter and / or any desired combination of inverters.
  • the phrase “at least a large part of the inductors” should be understood to mean in particular a number of at least 50% of all inductors of the cooking appliance device. In particular, this makes it possible to achieve a particularly high level of flexibility, in particular with regard to the heating power required individually on a respective inductor.
  • the cooking appliance device is not intended to be restricted to the application and embodiment described above.
  • the cooking appliance device can have a number of individual elements, components and units that differs from a number of individual elements, components and units mentioned herein in order to fulfill a mode of operation described herein.
  • Fig. 1 A hob with a cooking device, which is designed as a hob device, in a partially transparent plan view
  • Fig. 2 the cooking device with an inverter, with another inverter, with an inductor, with a set of further inductors and with a switching arrangement , in a circuit diagram
  • Fig. 4 is an overview of possible operating states of the Garellavorrich device
  • FIG. 5 shows a further exemplary embodiment of a cooking appliance device with a switching arrangement in a circuit diagram
  • FIG. 6 shows an overview of possible switching elements of the switching arrangement from FIG. 5,
  • FIG. 7 shows a further exemplary embodiment of a cooking appliance device with a switching arrangement in a circuit diagram
  • FIG. 8 an overview of possible switching elements of the switching arrangement from FIG. 7, 9 shows a further exemplary embodiment of a cooking appliance device with a switching arrangement in a circuit diagram; and FIG. 10 shows a further exemplary embodiment of a cooking appliance device with a switching arrangement in a circuit diagram.
  • FIG. 1 shows a household appliance 42a, in particular a cooking appliance, which is designed as a hob 44a, in particular as an induction hob.
  • the hob 44a has two cooking device devices 10a designed as hob devices.
  • the hob devices are designed as induction hob devices.
  • parts of the cooking appliance device 10a are shown in more detail in FIG. 2 using a circuit diagram.
  • the cooking appliance device 10a has an inverter 12a. In addition, the cooking appliance device 10a has a further inverter 14a. The cooking appliance device 10a has an inductor 16a. The cooking appliance device 10a has a set of further inductors 18a. In the example shown, the set of further inductors 18a has a first further inductor 20a, a second further inductor 22a and a third further inductor 24a.
  • a first connection of the inductor 16a is connected to a first resonance capacitance 70a of the cooking appliance device 10a.
  • a first connection of the first further inductor 20a is connected to the first resonance capacitance 70a.
  • a first connection of the second further inductor 22a is connected to a second resonance capacitance 72a.
  • a first connection of the third further inductor 24a is connected to the second resonance capacitance 72a.
  • the cooking appliance device 10a has a switching arrangement 26a.
  • the switching arrangement 26a assigns the inverter 12a to the inductor 16a.
  • the further inverter 14a can be assigned to any further inductor 20a, 22a, 24a of the set of further inductors 18a by means of the switching arrangement 26a.
  • the further inverter 14a can operate any further inductor 20a, 22a, 24a of the set of further inductors 18a by means of the assignment by the switching arrangement 26a.
  • the further inverter 14a can be simultaneously assigned to all further inductors 20a, 22a, 24a of the set of further inductors 18a by means of the switching arrangement 26a.
  • 20a, 22a, 24a can each be assigned to different inverters 12a, 14a.
  • one of the inductors 16a, 20a, 22a, 24a can also be assigned simultaneously or alternatively to each of the inverters 12a, 14a.
  • Any number of inductors 16a, 20a, 22a, 24a can also be assigned to each of the inverters 12a, 14a by means of the switching arrangement 26a.
  • the switching arrangement 26a has a configuration switching unit 28a, by means of which each of the inductors (16a, 20a, 22a, 24a) can be individually electrically separated from the inverters (12a, 14a).
  • the configuration switching unit 28a has a configuration switching element 30a.
  • the configuration switching unit 28a has a second configuration switching element 46a, a third configuration switching element 48a and a fourth configuration switching element 50a.
  • the switching arrangement 26a has a parallel switching unit 36a, by means of which the inverter 12a and the further inverter 14a can be connected in parallel.
  • the parallel switching unit 36a has a parallel switching element 38a.
  • the parallel switching unit 36a has a second parallel switching element 56a.
  • a first connection of the configuration switching element 30a is electrically connected to the inductor 16a.
  • a second connection of the configuration switching element 30a is connected to the second configuration switching element 46a, to the second parallel switching element 56a and to the inverter 12a.
  • a first connection of the second configuration switching element 46a is electrically connected to the first further inductor 20a and to the parallel switching element 38a.
  • a second connection of the second configuration Onsschaltelements 46a is connected to the configuration switching element 30a and to the inverter 12a.
  • a first connection of the third configuration switching element 48a is electrically connected to the second further inductor 22a and to the second parallel switching element 56a.
  • a second connection of the third configuration switching element 48a is connected to the fourth configuration switching element 50a and to the further inverter 14a.
  • a first connection of the fourth configuration switching element 50a is electrically connected to the third further inductor 24a.
  • a second connection of the fourth configuration switching element 50a is connected to the third configuration switching element 48a, to the parallel switching element 38a and to the further inverter 14a.
  • FIG. 3 shows an overview of possible switching elements, in particular relays, which in particular can form the configuration switching elements 28a and / or the parallel switching elements 36a of the switching arrangement 26a.
  • the possible switching elements can be grouped into a first group 76a, into a second group 78a and into a third group 80a of switching elements.
  • the first group 76a comprises changeover switches, which can each be designed as a normally closed version or normally open version and can be installed in any direction.
  • the second group 78a comprises on / off switches.
  • the third group 80a includes, in particular, toggle switches with a bridging connection.
  • the switching elements of the configuration switching unit and the parallel switching unit shown in this exemplary embodiment, in particular in FIG. 2, can each be designed as a switching element of the first group 76a and / or as a switching element of the second group 78a.
  • the cooking appliance device has a control unit 40a, which is shown schematically in FIG.
  • the control unit 40a is provided to control the switching arrangement 26a as a function of a cooking utensil configuration 82a, 84a, 86a.
  • FIG. 4 shows an exemplary selection of possible cookware configurations 82a, 84a, 86a in each of the operating states.
  • a first cookware 88a and a second cookware 90a are set up on the hob 44a.
  • the control unit 40a controls the switching arrangement 26a with regard to the respectively required assignment of inductors and inverters.
  • the first cooking utensil configuration 82a shows a first cooking utensil 88a, which in the operating state shown is heated by three further inductors of the set of further inductors (not shown in detail), all of which are assigned to the further inverter (schematized by the hatching).
  • the first cooking utensil configuration 82a also shows a second cooking utensil 90a which, in the operating state shown, is heated by the inductor (not shown in detail) which is assigned to the inverter (schematized by the hatching).
  • the second cooking utensil configuration 84a shows a first cooking utensil 88a which, in the operating state shown, is heated by the inductor (not shown in more detail) which is assigned to the inverter (schematized by the hatching).
  • the second cooking utensil configuration 82a also shows a second cooking utensil 90a which, in the operating state shown, is heated by two further inductors of the set of further inductors (not shown in detail), all of which are assigned to the further inverter (schematized by the hatching).
  • FIGS. 5 to 12 Four further exemplary embodiments of the invention are shown in FIGS. 5 to 12. The following descriptions are essentially limited to the differences between the exemplary embodiments, reference being made to the description of the other exemplary embodiments, in particular FIGS. 1 to 4, with regard to components, features and functions that remain the same.
  • the letter a in the reference symbols of the exemplary embodiment in FIGS. 1 to 4 is replaced by the letters b, c, d and e in the reference symbols in the exemplary embodiments in FIGS. 5 to 12.
  • FIG. 5 shows a further exemplary embodiment of a cooking appliance device 10b.
  • the cooking appliance device 10b has a configuration switching unit 28b and a parallel switching unit 36b.
  • the configuration switching unit 28b has a configuration switching element 30b, a second configuration switching element 46b, a third configuration switching element 48b, a fourth configuration switching element 50b, a fifth configuration switching element 52b and a sixth configuration switching element 54b.
  • the configuration switching element 30b, the second configuration switching element 46b, the third configuration switching element 48b, the fourth configuration switching element 50b, the fifth configuration switching element 52b and the sixth configuration switching element 54b are each circuit diagram between an inductor 16b, 20b, 22b, 24b of the cooking device device 10b and a further switching element 32b the switching arrangement 26b angeord net.
  • the parallel switching unit 36b has a parallel switching element 38b and a second parallel switching element 56b.
  • the parallel switching element 38b and the second parallel switching element 56b are arranged in a circuit diagram between one of the inverters 12b, 14b of the cooking appliance device 10b and at least one further switching element 34b of the switching arrangement 26b.
  • FIG. 6 shows an overview of possible switching elements, in particular relays, which in particular can form the configuration switching elements of the configuration switching unit 28b and / or the parallel switching elements of the parallel switching unit 36b of the switching arrangement 26b.
  • the possible switching elements can be grouped into a first group 76b, into a second group 78b and into a third group 80b of switching elements.
  • the first group 76b comprises changeover switches, which can each be designed as a normally closed version or normally open version and can be installed in any direction.
  • the second group 78b includes on / off switches.
  • the third group 80b includes in particular changeover switches with a bridging connection.
  • the parallel switching elements of the parallel switching unit 36b are each designed as one of the possible switching elements of the first group 76b and / or as one of the possible switching elements of the third group 80b.
  • the configuration switching elements of the configuration switching unit 28b are each designed as one of the possible switching elements of the first group 76b and / or as one of the possible switching elements of the second group 78b.
  • FIG. 7 shows a further exemplary embodiment of a cooking appliance device 10c.
  • the cooking appliance device 10c has a configuration switching unit 28c and a parallel switching unit 36c.
  • the configuration switching unit 28c has a configuration switching element 30c, a second configuration switching element 46c, a third configuration switching element 48c and a fourth configuration switching element 50c.
  • the parallel switching unit 36c has a parallel switching element 38c and a second parallel switching element 56c.
  • the configuration switching element 30c is arranged in a circuit diagram between an inverter 12c of the cooking appliance device 10c.
  • the fourth configuration switching element 50c is arranged in a circuit diagram between a further inverter 14c of the cooking appliance device 10c.
  • the second configuration switching element 46c is arranged in a circuit diagram between the parallel switching element 38c and a first further inductor 20c of the cooking device device 10c.
  • the third configuration switching element 48c is arranged in a circuit diagram between the second parallel switching element 56c and a second further inductor 22c of the cooking appliance device 10c.
  • FIG. 8 shows an overview of possible switching elements, in particular relays, which in particular can form the configuration switching elements of the configuration switching unit 28c and / or the parallel switching elements of the parallel switching unit 36c of the switching arrangement 26c.
  • the possible switching elements can be grouped into a first group 76c, a second group 78c and a third group 80c of switching elements.
  • the first group 76c comprises changeover switches, which can each be designed as a normally closed version or normally open version and can be installed in any direction.
  • the second group 78c comprises on / off switches.
  • the third group 80c includes in particular changeover switches with a bridging connection.
  • the parallel switching elements 38c of the parallel switching unit 36c are each designed as one of the possible switching elements of the first group 76c.
  • the configuration switching elements 30c of the configuration switching unit 28c are each designed as one of the possible switching elements of the first group 76c and / or as one of the possible switching elements of the second group 78c.
  • FIG. 9 shows a further exemplary embodiment of a cooking appliance device 10d with a switching arrangement 26d in a circuit diagram.
  • the switching arrangement 26d additionally has a third parallel switching element 58d and a fourth parallel switching element 60d.
  • the cooking appliance device 10d is in particular a generalization of the previous exemplary embodiments, in particular with regard to the switching arrangement 26d, which in particular allows any number of further inductors of a set of further inductors 18d of the cooking appliance device 10d (represented by the dots).
  • FIG. 10 a further exemplary embodiment of a cooking appliance device 10e with a switching arrangement 26e is shown in a circuit diagram.
  • the switching arrangement 26e additionally has a fifth parallel switching element 62e, a sixth parallel switching element 64e, a seventh parallel switching element 66e and an eighth parallel switching element 68e.
  • the cooking appliance device 10e also has a third resonance capacitance 74e.
  • the cooking appliance device 10e has two further inverters 14e.
  • the cooking device device 10e is in particular a generalization of the previous exemplary embodiment, in particular with regard to the switching arrangement 26e, which in particular allows any number of further inductors of a set of further inductors 18e of the cooking device device 10e and / or further inverters (by the points shown).

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  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Induction Heating Cooking Devices (AREA)

Abstract

L'invention est basée sur un dispositif de cuisson (10a-e), en particulier une table de cuisson, comprenant au moins un onduleur (12a-e), au moins un autre onduleur (14a-e), au moins une bobine d'induction (16a-e), au moins un ensemble d'autres bobines d'induction (18a-e) qui comprend au moins une première bobine d'induction supplémentaire (20a-e) et au moins une seconde bobine d'induction supplémentaire (22a-e), et au moins un agencement de commutation (26a-e) qui, dans au moins un état de fonctionnement, attribue l'onduleur (12a-e) à la bobine d'induction (16a-e). Afin d'obtenir des propriétés améliorées pour ce qui est de la flexibilité, l'invention propose que, dans l'état de fonctionnement, l'autre onduleur (14a-e) peut être attribué à au moins une autre bobine d'induction arbitraire (20a-e, 22a-e, 24a-e) de l'ensemble d'autres bobines d'induction (18a-e) au moyen de l'agencement de commutation (26a-e).
EP21700785.5A 2020-02-07 2021-01-21 Dispositif de cuisson Pending EP4101261A1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
EP20382080 2020-02-07
PCT/EP2021/051278 WO2021156065A1 (fr) 2020-02-07 2021-01-21 Dispositif de cuisson

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EP4101261A1 true EP4101261A1 (fr) 2022-12-14

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EP21700785.5A Pending EP4101261A1 (fr) 2020-02-07 2021-01-21 Dispositif de cuisson

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US (1) US20230031284A1 (fr)
EP (1) EP4101261A1 (fr)
WO (1) WO2021156065A1 (fr)

Family Cites Families (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
ES2347403B1 (es) * 2008-12-19 2011-08-17 Bsh Electrodomesticos España, S.A. Campo de coccion por induccion y procedimiento para accionar un campode coccion por induccion.
ES2538605B1 (es) * 2013-12-20 2016-04-15 Bsh Electrodomésticos España, S.A. Dispositivo de campo de cocción
US10660162B2 (en) * 2017-03-16 2020-05-19 Whirlpool Corporation Power delivery system for an induction cooktop with multi-output inverters

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WO2021156065A1 (fr) 2021-08-12

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