EP3780907A1 - Système, comprenant une plaque de cuisson inductive et un utensile de cuisson, utensile de cuisson et procédé de fonctionnement du système - Google Patents

Système, comprenant une plaque de cuisson inductive et un utensile de cuisson, utensile de cuisson et procédé de fonctionnement du système Download PDF

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Publication number
EP3780907A1
EP3780907A1 EP20185740.6A EP20185740A EP3780907A1 EP 3780907 A1 EP3780907 A1 EP 3780907A1 EP 20185740 A EP20185740 A EP 20185740A EP 3780907 A1 EP3780907 A1 EP 3780907A1
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EP
European Patent Office
Prior art keywords
installation device
sensor
hob
inductive
heating coil
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
EP20185740.6A
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German (de)
English (en)
Other versions
EP3780907B1 (fr
Inventor
Christoph Müller
Daniel Ebke
Nils Marius Gehring
Niels OHRMANN
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.)
Miele und Cie KG
Original Assignee
Miele und Cie KG
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Publication date
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Publication of EP3780907A1 publication Critical patent/EP3780907A1/fr
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Publication of EP3780907B1 publication Critical patent/EP3780907B1/fr
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    • 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
    • H05B6/10Induction heating apparatus, other than furnaces, for specific applications
    • H05B6/12Cooking devices
    • H05B6/1209Cooking devices induction cooking plates or the like and devices to be used in combination with them
    • H05B6/1236Cooking devices induction cooking plates or the like and devices to be used in combination with them adapted to induce current in a coil to supply power to a device and electrical heating devices powered in this way
    • 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
    • H05B2213/06Cook-top or cookware capable of communicating with each other

Definitions

  • the invention relates to an installation device for an inductive hob of the type mentioned in the preamble of claim 1, a system comprising an inductive hob and an installation device of the type mentioned in the preamble of claim 7 and a method for operating the system of the preamble of claim 10 mentioned Art.
  • the invention thus poses the problem of improving the use of a system comprising an inductive hob and an installation device.
  • this problem is solved by a set-up device with the features of claim 1, which is characterized in that the set-up device has at least one sensor for detecting a setting-up event or for detecting a setting-up event and for recognizing the nature of a surface on which the setting-up device has been set up , having. Furthermore, this problem is solved by a system with the features of patent claim 7 and a method with the features of patent claim 10. Advantageous refinements and developments of the invention emerge from the following subclaims.
  • the advantage that can be achieved with the invention is, in particular, that the use of a system comprising an inductive hob and a set-up device is improved. For example, the ease of use for a user of such systems is increased. Due to the automatic detection of a set-up event or a set-up event and the nature of a base on which the set-up device has been set up, it is possible to simplify the handling of the set-up device according to the invention as well as the system according to the invention. For example, it is thus possible to automatically recognize an intervention by a user and to use it for further control or regulation of the system. Furthermore, subsequent steps in the preparation of a medium located in the installation device by means of the inductive hob can be anticipated in order to simplify further preparation.
  • the invention also makes it possible, for example, to protect the inductive hob from improper handling, so that any damage to the inductive hob and possibly safety-endangering situations are effectively prevented.
  • the invention makes it possible to reduce the energy consumption of the installation device and the inductive hob, for example by the fact that a signal is only transmitted between the installation device and the hob control of the inductive hob when an installation event or an installation event and the nature of a surface on which the installation device has been placed, by means of the Sensor has / are recognized.
  • the term "installation device" is to be interpreted broadly and includes in particular all conceivable types of cookware, for example saucepans or frying pans.
  • the set-up device can be freely selected within wide suitable limits in terms of type, mode of operation, shape, material and dimensions. This also applies to the sensor of the installation device.
  • An advantageous development of the installation device according to the invention provides that the sensor is designed as a vibration sensor and / or as an acceleration sensor. In this way, the sensor is implemented in a simple and at the same time functionally reliable way. Furthermore, it is thus possible to better anticipate subsequent steps in the preparation of a medium located in the installation device by means of the inductive hob, in order to additionally simplify the further preparation.
  • the protection of the inductive hob from improper handling is further improved by means of the invention according to this development, so that any damage to the inductive hob and possibly safety-endangering situations are prevented even more effectively.
  • the at least one sensor is arranged on a handle of the set-up device and / or on a vessel of the set-up device for receiving a medium provided for preparation by means of the set-up device.
  • An arrangement of the sensor on the handle of the installation device has the advantage, for example, that the sensor is arranged in a thermally insulated area.
  • Arranging the sensor on the vessel of the set-up device in turn has the advantage that the sensor is arranged closer to the place where the force is introduced when the set-up device is set up on the base, for example a hob on the inductive hob.
  • the installation device additionally has an operating element for manual operation by the user, the functional scope of the sensor at least partially overlapping the functional scope of the operating element. This creates a redundancy for the sensor. It is also conceivable, for example, that the control element is used to switch off the installation device.
  • the installation device is designed and set up in such a way that the transmitter unit and / or the measuring unit and / or the sensor are supplied with operating energy by means of the induction coil is / are supplyable. In this way, it is possible that only a small and therefore space-saving energy store is sufficient for storing the operating energy for the installation device.
  • an advantageous development of the system according to the invention provides that the transmitter unit and / or the measuring unit and / or the sensor can be supplied with operating energy when a voltage is induced by the heating coil into the induction coil of the installation device set up on the hotplate assigned to this heating coil.
  • an advantageous development of the installation device provides that the installation device has an installation device output unit for outputting information to the user of the installation device, depending on a positioning event detected by means of the sensor or on a base detected by means of the sensor on which the installation device has been set up, information can be output to the user by means of the set-up device output unit. This enables feedback to the user of the installation device, for example about the presence of a set-up event or the condition of the base.
  • a warning signal is output as information if it has been recognized by the sensor that the surface on which the set-up device has been set up is not a hotplate of the inductive hob, but a base made of wood or fabric.
  • the inductive hob has a hob output unit for outputting information to the user of the set-up device, depending on a set-up event detected by the sensor or a base detected by the sensor on which the installation device has been set up by means of the hob output unit information can be output to the user.
  • an advantageous development of the method according to the invention also provides that, depending on a set-up event detected by means of the sensor or a base detected by means of the sensor on which the set-up device has been set up, by means of the set-up device output unit and / or by means of the hob output unit information is output to the user.
  • the control of the heating coil takes place as a function of a set-up event detected by the sensor or a base detected by the sensor on which the set-up device has been set up, so that the heating coil, for example, directly with a preparation process that is sufficient electrical power is energized.
  • the installation of the installation device on a hob of the inductive hob is detected and the installation device is swiveled excessively by means of the sensor, the supply of electrical power is automatically reduced in order, for example, to protect components of an oscillating circuit of the inductive hob from damage .
  • An advantageous further development of the method according to the invention provides that, depending on a set-up event detected by the sensor or on a base detected by the sensor on which the set-up device has been set up, a process routine for automatically assigning the set-up device to at least one hotplate of the inductive hob is started becomes.
  • a process routine for automatically assigning the set-up device to at least one hotplate of the inductive hob is started becomes.
  • this can be achieved by means of a suitable pause / performance ratio.
  • the heating coil is only energized with the electrical power sufficient for a preparation process when the process routine results in an automatic assignment of the installation device to the hotplate, which corresponds to the aforementioned heating coil. Accordingly, the security is further improved.
  • the process routine for the automatic assignment of the installation device to at least one hotplate of the inductive hob can be freely selected within wide, suitable limits.
  • An advantageous development of the aforementioned embodiment of the method according to the invention provides that output signals from the sensor are used in the method routine for automatic assignment of the installation device to at least one hotplate of the inductive hob. For example, vibrations of the installation device detected by means of the sensor could be evaluated during the process routine in order to achieve the above-mentioned assignment.
  • a further advantageous development of the method according to the invention provides that a filling quantity in the installation device and / or a state of the medium relevant to the preparation of the medium is / are detected as a function of output signals from the sensor. This further increases the functionality of the sensor. For example, as an alternative or in addition to the filling quantity of the medium in the installation device, it could also be detected whether the medium has reached its boiling point. It is also conceivable to record the boiling impression of the medium, that is to say the boiling behavior of the medium, in particular with regard to the supplied heat output.
  • the method according to the invention can be used to avoid noise emission during the preparation process.
  • a working frequency of the heating coil is adapted as a function of the output signals of the sensor in such a way that a resonance case in the individual installation device is avoided.
  • Another advantageous development of the method according to the invention provides that the evaluation of output signals from the sensor takes place in the installation device. In this way it is not necessary for the output signals of the sensor to be transmitted continuously or at least at regular time intervals from the installation device to the hob control or a third-party device. However, it is also possible for the output signals of the sensor to be evaluated at least partially in the hob control and / or in a third-party device that has a signal transmission connection with the hob control.
  • FIG. 1 an exemplary embodiment of the system 2 according to the invention for performing the method according to the invention is shown as an example and roughly schematically.
  • the system 2 has an inductively heated hob, that is to say an inductive hob 4, with a total of four hotplates 6.
  • Each of the hotplates 6 is assigned a heating coil 8 for inductive heating of an installation device set up on the respective hotplate 6 in a manner known to those skilled in the art.
  • the hob 4 has a hob control 10.
  • the inductive hob 4 is in a switch-off mode A.
  • the system 2 has a stand-up device 12 designed as a cooking pot.
  • the installation device 12 comprises an induction coil 14 which can be inductively coupled to the heating coils 8 of the hob 4 and a transmission unit 16.
  • the transmission unit 16 is designed as a Bluetooth transmitter.
  • the installation device 12 comprises a sensor 17 for detecting an installation event and for detecting the nature of a base on which the installation device 12 has been installed. See the Fig. 2 . In a simpler embodiment, it is possible that the sensor is only designed to detect a set-up event.
  • the sensor 17 is designed as an acceleration sensor, wherein vibrations can also be detected with the acceleration sensor.
  • the sensor 17 is arranged in a first variant on a handle 19 of the installation device 12 and in a second variant on a vessel 21 of the installation device 12 for receiving a medium provided for preparation by means of the installation device 12.
  • the two variants for positioning the sensor 17 on the installation device 12 are shown in FIG Fig. 2 denoted by the reference numerals 17 and 17 '.
  • the installation device 12 has an operating element 23 designed as an operating button for manual operation by a user.
  • the operating element 23 is provided in order to switch off the installation device 12. Furthermore, the functional scope of the sensor 17 overlaps at least partially with the functional scope of the operating element 23. This is explained in more detail below.
  • the installation device 12 is designed and set up such that the transmitter unit 16 and the sensor 17 can be supplied with operating energy by means of the induction coil 14.
  • the set-up device 12 also has a set-up device output unit 26 for outputting information to the user of the set-up device 12, depending on a set-up event detected by means of the sensor 17 and / or a base detected by means of the sensor 17 on which the set-up device 12 is set up has been, by means of the installation device output unit 26 information can be output to the user.
  • the inductive hob can have a hob output unit for outputting information to the user of the installation device, depending on a positioning event detected by the sensor or a base detected by the sensor on which the installation device has been set up by means of the hob output unit information can be output to the user.
  • the inductive hob 4 thus comprises at least one hotplate 6, at least one heating coil 8 assigned to the hotplate 6 and a hob control 10 for controlling the heating coil 8 in an operating mode E of the inductive hob 4 for heating a set-up device 12 set up on the hotplate 6 with a transmitter unit 16
  • the hob control 10 is designed and set up in such a way that the inductive hob 4 can also be operated in a standby mode S, control of the respective heating coil 8 in the standby mode S not being possible.
  • the hob control 10 is designed and set up in such a way that the inductive hob 4 can be operated in a standby mode B, the inductive hob 4 being able to be converted from the standby mode S to the standby mode B by means of a wake-up signal received by a receiving unit 18 of the hob control 10 .
  • the respective heating coil 8 can be controlled in standby mode B by means of the hob control 10 in such a way that, on the one hand, effective heating of the installation device 12 for a preparation process is prevented and, on the other hand, a signal transmission between the transmitter unit 16 and the receiver unit 18 by means of the heating coil 8 is enabled.
  • FIG Figs. 1 to 3 explained in more detail.
  • the method according to the invention is shown as an example using a time-signal diagram.
  • the method according to the invention basically works as follows: A user, not shown, of the system 2 places the installation device 12, which is designed as a cooking pot, on the plane in the image of FIG Fig. 1 Hotplate 6 of the hob 4 arranged at the bottom right.
  • the inductive hob 4 is in its switch-off mode A, for example in which the inductive hob 4 has been completely switched off by means of a main switch (not shown)
  • the user can use the inductive hob 4 of the system 2, for example by means of one from the prior art known operator intervention on the inductive hob 4, from the switch-off mode A directly to the operating mode E.
  • the user can then carry out a preparation process, for example a cooking process, using the system 2 in a manner known to the person skilled in the art.
  • the inductive hob 4 is in its standby mode S, that is to say in which the inductive hob 4 is not completely switched off, control of the heating coils 8 is not technically possible. To do this, the user would first have to transfer the inductive hob 4 to operating mode E, for example, in the manner explained above.
  • the inductive hob 4 of the system 2 is designed and set up to be automatically transferred from the standby mode S to the standby mode B. This requires the above-mentioned wake-up signal, which is received by means of the receiving unit 18 of the hob control 10. This wake-up signal can be generated in different ways.
  • the wake-up signal is triggered by actuating the operating element 23 arranged on the installation device 12 and in signal transmission connection with the transmitter unit 16 or by means of the sensor 17 arranged on the installation device 12 and in signal transmission connection with the transmitter unit 16 or by an actuation of an operating element arranged on the inductive hob 4 and in signal transmission connection with the receiving unit 18 of the hob control 10 or by actuation of an operating element arranged on a third device and in signal transmission connection with the receiving unit 18 of the hob control 10 is generated.
  • the inductive hob 4 can be transferred from the standby mode S to the standby mode B in very different ways, which increases the ease of use of the system 2.
  • the control element of the inductive hob 4 and the third-party device designed as a smartphone are not shown.
  • the wake-up signal is generated by actuating the operating element 23 of the installation device 12, which is arranged on the installation device 12 and is in signal transmission connection with the transmitter unit 16.
  • the user presses, for example, the operating element 23 of the set-up device 12, which is designed as a button, and places the set-up device 12 on the above-mentioned hotplate 6 of the inductive hob 4.
  • This keystroke is evaluated by means of the transmission unit 16 of the installation device 12 and converted into the wake-up signal.
  • the wake-up signal is then transmitted to the hob control 10 by means of the transmitter unit 16, the heating coil 8 and the receiver unit 18.
  • the hob control 10 then transfers the inductive hob 4 from the standby mode S to the standby mode B.
  • the transmitter unit 16 is powered by the voltage induced by the heating coil 8 into the induction coil 14 of the set-up device 12 placed on the hob 6 assigned to this heating coil 8 provided.
  • the wake-up signal can be generated automatically by means of the sensor 17 arranged on the installation device 12 and in signal transmission connection with the transmitter unit 16.
  • the sensor 17 it is automatically recognized by means of the sensor 17 that the installation device 12 has been set up by the user on the aforementioned hotplate 6 of the inductive hob 4.
  • the sensor 17 has on the one hand detected the presence of a set-up event and on the other hand the surface on which the set-up device 12 has been set up. Manual actuation of the operating element 23 is therefore not necessary.
  • the wake-up signal can also be generated by means of the operating element 23 in the manner explained above.
  • the evaluation of output signals of the sensor 17 takes place in the present embodiment directly in the installation device 12.
  • the transmitter unit 16 and the sensor 17 are induced by means of the voltage induced by the heating coil 8 in the induction coil 14 of the installation device 12 placed on the hotplate 6 assigned to this heating coil 8 supplied with operating energy.
  • the electrical power with which the hob control 10 controls the heating coil 8 in standby mode B has an average value of less than or equal to 30 W, preferably less than or equal to 15 W. Furthermore, the electrical power with which the hob control 10 controls the heating coil 8 in standby mode B has a pause power ratio of greater than or equal to 1000: 1, namely an energization in a time interval of 160 ⁇ s compared to a pause interval of 2
  • the hob control 10 starts the automatic assignment of the installation device 12 to the above-mentioned hob 6 of the inductive hob 4, which is explained in more detail below.
  • a process routine for the automatic assignment of the installation device 12 to at least one of the hotplates 6 of the inductive hob 4 is started as a function of a set-up event detected by the sensor 17 and a base detected by the sensor 17 on which the set-up device 12 has been set up .
  • the hob control 10 controls the heating coils 8 of the individual hotplates 6 one after the other, that is to say successively, with their respective performance profile. This is in the Fig.
  • the line a the control of the to the in the image plane of Fig. 1
  • the heating coil 8 corresponding to the hotplate 6 shown at the bottom left the line b the control of the to that in the image plane of Fig. 1
  • the heating coil 8 corresponding to the hotplate 6 shown at the bottom right the line c the control of the to that in the plane of the drawing Fig. 1
  • the heating coil 8 corresponding to the hotplate 6 shown at the top and the line d the control of the heating coil 8 in the plane of the drawing Fig. 1
  • the hotplate 6 shown at the top left symbolizes the corresponding heating coil 8.
  • the cooking area 6 shown at the bottom right is set up as a cooking pot 12, when the heating coil 8 assigned to this cooking area 6 is activated, a voltage is induced from this heating coil 8 in the induction coil 14 of the setting up device 12. See line b in Fig. 3 .
  • the transmission unit 16 of the saucepan 12 which is designed as a Bluetooth transmitter, is supplied with the operating energy required for transmission.
  • the induced voltage simultaneously triggers transmission of the transmission unit 16, namely the transmission of the response signal 20. See FIG Fig. 1 and 3 .
  • the response signal 20 includes, on the one hand, an identification which identifies the installation device 12 as precisely this individual installation device 12.
  • This identification of the installation device 12 can have cooking pot properties that are important for a cooking process on the inductive hob 4, for example.
  • the response signal 20 comprises at least one of the means of the heating coil 8 in the image plane of FIG Fig. 1
  • the cooking zone 6 shown at the bottom right in the induction coil 14 of the installation device 12 is a variable which correlates the power profile induced.
  • this variable can be the performance profile as such. It is also conceivable, however, that this variable is at least one electrical and / or magnetic variable that characterizes the performance profile.
  • the response signal 20 is sent to the receiving unit 18 of the hob control 10.
  • the response signal 20 received by the receiving unit 18 is then transmitted in a manner known to the person skilled in the art to the evaluation unit 22 of the hob control 10 connected to the receiving unit 18 for evaluation.
  • the response signal 20 is inter alia with the performance profile of the in the image plane of Fig. 1
  • the hotplate 6 shown at the bottom right, on which the stand-up device 12 is set up, is compared with the associated heating coil 8 with which this heating coil 8 has been controlled by means of the hob control 10.
  • the installation device 12 Since the at least one variable that correlates with this performance profile and has been transmitted with the response signal 20 from the installation device 12 to the hob control 10 corresponds to this performance profile, the installation device 12 becomes the one in the image plane of FIG Fig. 1
  • the hob 6 shown at the bottom right is automatically assigned to the hob control 10 by means of the evaluation unit 22.
  • the hob control 10 now knows that exactly this installation device 12 is set up on this hob 6 and on this basis can automatically transfer the inductive hob 4 from its standby mode B to its operating mode E and the cooking process, i.e. the preparation process, for this individual For example, control or regulate the installation device 12 by means of the control of the heating coil 8 assigned to this hotplate 6.
  • the response signal 20 is in the evaluation unit 22 with the performance profiles of the other in the Fig. 1
  • the heating coils 8 associated with the additional hotplates 6 shown are compared with which these heating coils 8 have been controlled by means of the hob control 10. However, since the installation device 12 is not set up on these hotplates 6 and thus not above the heating coils 8 assigned to these hotplates 6, the respective activation of these heating coils 8 does not lead to a response signal corresponding to one of these performance profiles.
  • the hob control 10 automatically transfers the inductive hob 4 of the system 2 from the standby mode B to the operating mode E.
  • the user can, for example, set the power for this heating coil 8 on the inductive hob 4 in a manner known to those skilled in the art.
  • the hob control 10 transfers the inductive hob 4, For example, after a predetermined time span stored in the hob control 10 has elapsed, automatically from the standby mode B back to the standby mode S.
  • An automatic assignment of the set-up device 12 to one of the hotplates 6 might not be possible, for example, because the set-up device 12 has been set up on a table on a trivet, not shown, made of wood.
  • information is output to the user by means of the installation device output unit 26 as a function of the installation event detected by means of the sensor 17 and the base detected by the sensor 17 on which the installation device 12 has been installed .
  • a warning signal is output as information if it has been detected by means of the sensor 17 that the base on which the set-up device 12 was set up is not one of the hotplates 6 of the inductive hob 4, but rather a base made of wood or fabric, for example the saucer mentioned above.
  • Information to the user can also be provided in case take place when the installation of the installation device 12 on the inductive hob 4 has been detected by means of the sensor 17.
  • control of the individual heating coils 8 of the inductive hob 4 is carried out with their respective performance profile in the standby mode B and in the operating mode E of the inductive hob 4, that is, continuously as a function of at least one predetermined time interval.
  • the invention is not limited to the present embodiment.
  • a filling quantity in the installation device and / or a state of the medium relevant to the preparation of the medium is / are detected as a function of output signals from the sensor.
  • This further increases the functionality of the sensor.
  • the filling quantity of the medium in the installation device it could also be detected whether the medium has reached its boiling point. It is also conceivable to record the boiling impression of the medium, that is to say the boiling behavior of the medium, in particular with regard to the density of the supplied heat output.
  • the method according to the invention can be used to avoid noise emission during the preparation process.
  • a working frequency of the heating coil as a function of Output signals of the sensor is adapted in such a way that a case of resonance in the individual installation device is avoided.
  • the output signals of the sensor it is also possible for the output signals of the sensor to be evaluated at least partially in the hob control and / or in a third-party device that has a signal transmission connection with the hob control.
  • An alternative to the exemplary embodiment of the automatic assignment of at least one installation device to at least one hob of the inductive hob provides, for example, that the hob control controls the heating coils with at least one assignment signal and a measuring unit of the installation device generates a vibration of the installation device that correlates with the assignment signal induced in the induction coil and the transmitting unit sends a response signal that identifies the set-up device and correlates with the detected vibration of the set-up device to the receiving unit of the hob control or a third-party device that is in signal transmission connection with the hob control and sends the response signal to an evaluation unit of the hob control or the third-party device with the Assignment signal of the at least one heating coil of this hotplate is compared and depending on this Verg the identified installation device is easily assigned to this hotplate.
  • output signals from the sensor can be used in the process routine for automatic assignment of the installation device to at least one hotplate of the inductive hob.
  • vibrations of the installation device detected by means of the sensor could be evaluated during the process routine in order to achieve the above-mentioned assignment. Accordingly, a measuring unit in addition to the sensor would not be absolutely necessary. See also the subsequently published German patent application DE 10 2018 119 969.4 of the applicant, the disclosure of which is fully incorporated into the present application.

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  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Induction Heating Cooking Devices (AREA)
  • Electric Stoves And Ranges (AREA)
EP20185740.6A 2019-08-14 2020-07-14 Système, comprenant une plaque de cuisson inductive et un utensile de cuisson, utensile de cuisson et procédé de fonctionnement du système Active EP3780907B1 (fr)

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DE102019121864.0A DE102019121864A1 (de) 2019-08-14 2019-08-14 System, umfassend ein induktives Kochfeld und ein Aufstellgerät, Aufstellgerät und Verfahren zum Betrieb des Systems

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EP3780907A1 true EP3780907A1 (fr) 2021-02-17
EP3780907B1 EP3780907B1 (fr) 2024-02-28

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GB2468348A (en) * 2009-03-06 2010-09-08 David Holborow A safety cooking pan
EP2824393A1 (fr) * 2013-07-09 2015-01-14 BSH Bosch und Siemens Hausgeräte GmbH Dispositif de plaque de cuisson
DE102015222797A1 (de) * 2015-11-18 2017-05-18 BSH Hausgeräte GmbH System mit Kochgerät und Kochgeschirr
CN206239106U (zh) * 2016-08-22 2017-06-13 佛山市顺德区美的电热电器制造有限公司 炉具组件
DE102017112945B3 (de) 2017-06-13 2018-10-25 Miele & Cie. Kg Verfahren zum Betrieb eines induktiven Kochsystems, zugehöriges induktives Kochsystem sowie Kochfeld und Kochgeschirr für ein derartiges induktives Kochsystem
US20190125120A1 (en) * 2016-02-18 2019-05-02 Meyer Intellectual Properties Limited Cooking system for tracking a cooking device
DE102018119953A1 (de) 2018-08-16 2020-02-20 Miele & Cie. Kg Vorrichtung und Verfahren zum Erkennen einer Gargerätposition eines Gargeräts auf einem Kochfeld, Gargerät mit einer Vorrichtung und Kochfeld mit einer Vorrichtung
DE102018119965A1 (de) 2018-08-16 2020-02-20 Miele & Cie. Kg Verfahren zur automatischen Zuordnung mindestens eines Aufstellgeräts zu mindestens einer Kochstelle eines induktiven Kochfelds und System zur Durchführung des Verfahrens
DE102018119969A1 (de) 2018-08-16 2020-02-20 Miele & Cie. Kg Verfahren zur automatischen Zuordnung mindestens eines Aufstellgeräts zu mindestens einer Kochstelle eines induktiven Kochfelds und System zur Durchführung des Verfahrens

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Publication number Priority date Publication date Assignee Title
WO2010080738A1 (fr) * 2009-01-06 2010-07-15 Access Business Group International Llc Appareil de cuisson intelligent
GB2468348A (en) * 2009-03-06 2010-09-08 David Holborow A safety cooking pan
EP2824393A1 (fr) * 2013-07-09 2015-01-14 BSH Bosch und Siemens Hausgeräte GmbH Dispositif de plaque de cuisson
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DE102018119953A1 (de) 2018-08-16 2020-02-20 Miele & Cie. Kg Vorrichtung und Verfahren zum Erkennen einer Gargerätposition eines Gargeräts auf einem Kochfeld, Gargerät mit einer Vorrichtung und Kochfeld mit einer Vorrichtung
DE102018119965A1 (de) 2018-08-16 2020-02-20 Miele & Cie. Kg Verfahren zur automatischen Zuordnung mindestens eines Aufstellgeräts zu mindestens einer Kochstelle eines induktiven Kochfelds und System zur Durchführung des Verfahrens
DE102018119969A1 (de) 2018-08-16 2020-02-20 Miele & Cie. Kg Verfahren zur automatischen Zuordnung mindestens eines Aufstellgeräts zu mindestens einer Kochstelle eines induktiven Kochfelds und System zur Durchführung des Verfahrens

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