• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Cooking field device and procedure for the start-up of a cooking field device. The present invention relates to a cooking field device, in particular, to an induction cooking field device, with a support unit (10a; 10b) which is provided to support on it at least one battery element of cooking (12a; 12b) to be heated and, in at least one state of heating operation, to be arranged between the cooking-battery element (12a; 12b) and a cover plate (14a). In order to increase its efficiency, it is proposed that the cooking field device comprises a sensor unit (16a; 16b) which is intended to detect at least one support parameter of the support unit (10a; 10b) in a state of stationary operation of the support unit (10a; 10b). (Machine-translation by Google Translate, not legally binding)
    公开号:ES2684179A1
    申请号:ES201730505
    申请日:2017-03-30
    公开日:2018-10-01
    发明作者:Javier Lasobras Bernad;Sergio Llorente Gil;Jorge Mir Bel;Julio Rivera Peman
    申请人:BSH Hausgeraete GmbH;BSH Electrodomesticos Espana SA;
    IPC主号:
    专利说明:

    image 1 COOKING FIELD DEVICE AND PROCEDURE FOR THE COMMISSIONING OF A COOKING FIELD DEVICE
    DESCRIPTION
    The present invention refers to a cooking field device according to the preamble of claim 1 and a method for putting into operation a cooking field device according to the preamble of claim 12.
    Through the state of the art, induction cooking field devices are already known for use with an induction cooking field, which comprise a support unit made as a support mat, which serves to make rest on it a cooking battery element to be heated, and it is arranged in a heating operating state between the cooking battery element and a cover plate. Such support units may additionally comprise electronics components incorporated therein, which may serve, for example,
    15 to detect the temperature. However, it must be ensured that the support unit is correctly positioned and / or oriented to ensure that these electronics components work efficiently and without failures. Furthermore, the support units mentioned above have limited functionality, so it is desirable that said support unit functionality be increased.
    The invention solves the technical problem of providing a generic cooking field device with better properties relative to its efficiency. According to the invention, this technical problem is solved by the features of claims 1 and 12, while advantageous embodiments and improvements of the invention can be extracted from the secondary claims.
    The present invention refers to a cooking field device, in particular, to an induction cooking field device, with a support unit that is intended to support on it at least one cooking battery element that has of heating and, in at least one operating state of heating, to be arranged between the cooking battery element and a cover plate, where the device of
    The cooking field comprises a sensor unit that is intended to detect at least one support parameter of the support unit in a stationary operating state of the support unit. By this embodiment, a cooking field device with better properties can be provided in terms of its efficiency, in particular, the efficiency relative to its operation, the efficiency relative to the power, its energy efficiency and / or its efficiency of costs. Here, an advantageously exact and / or precise support unit placement can be achieved. In addition, an advantageously flexible support unit can be provided, which can be advantageously adapted to different heating conditions, requirements and / or operating states. Likewise, the safety of operation and / or functionality can be increased.
    image2
    The term "cooking field device" includes the concept of at least one part, namely, a construction subgroup, of a device for use with a cooking field, in particular, with an induction cooking field. The term "intended" includes the concept of specifically conceived and / or provided. The expression that an object is intended for a particular function includes the concept that the object satisfies and / or performs this particular function in one or more application and / or operating states. The term "support unit" includes the concept of a unit, realized as an underlying unit and preferably mobile and / or portable, which is intended to be supported and / or placed on the cover plate in at least one state of application to accommodate at least one cooking battery element, in order to heat the cooking battery element. Preferably, the support unit is flat, and in the heating operating state it forms a base for the cooking battery element to be heated and / or heated. The support unit advantageously has an extension and / or extensions, in particular, a diameter, which is adapted to an extension and / or extensions, in particular, to the diameter, of the cooking battery element. The term "cover plate" includes the concept of an element that is intended to cover partially or completely, preferably, largely or completely and, particularly preferably, completely, at least one heating unit that it is provided in the heating operating state to inductively heat the cooking battery element. The cover plate can be made as a cooking field plate, for example, as a ceramic hob, and / or as a countertop, for example, as a kitchen countertop. The expression “in large or in full” includes the concept of at least 55%, advantageously, at least 65%, preferably, at least 75%, particularly preferably, in the At least 85% and, particularly advantageously, at least 95%.
    image3
    The term "sensor unit" includes the concept of a unit in effect connection with the support unit, which is intended to detect once, for example, by manual operation, and / or, preferably, permanently, the parameter of support of the support unit. The sensor unit comprises at least one sensor. In addition, the sensor unit can also advantageously comprise several sensors, preferably at least essentially of the same construction, for example, at least two, at least three and / or at least four sensors. The term "at least essentially the same construction" objects includes the concept of objects that have external shapes made at least essentially identical to each other, but which can be differentiated from each other in at least one characteristic, for example, their internal structure, its material composition and / or its mode of operation. However, regardless of production tolerances and / or within the framework of the technical possibilities of production and / or within the framework of standardized tolerances, objects at least essentially of the same construction are preferably identical to each other. The term "support unit support parameter" includes the concept of a parameter correlated with the operation, placement and / or use of the support unit and / or a parameter correlated with an object supported on the support unit. Support, for example, the cooking battery element. The term "steady state of operation" includes the concept of a state of operation in which the support unit is stationary and / or without moving and is not actively moved, for example, by the user. In the steady state of operation, the support unit is preferably supported on the cover plate and / or arranged on the cover plate.
    The sensor unit could be arranged separately from the support unit and / or next to the surface of the support unit. However, the sensor unit is preferably integrated in the support unit partially or completely, preferably, largely or completely and, particularly preferably, completely, so that an arrangement of the unit can be achieved. sensor with which space is advantageously saved and / or operation safety can be increased thanks to the advantageous protection of the sensor unit. Preferably, the sensor unit is embedded in the support unit.
    If the sensor unit and, advantageously, other electronics units, are arranged in an area of the support unit that is away from the cooking battery element in the heating operating state, it can advantageously prevent the sensor unit and / or the other electronics units from overheating.
    image4
    According to another embodiment of the invention, it is proposed that the support parameter be correlated with the gravitational field of the support unit area. Preferably, the sensor unit is provided in this case at least to indirectly detect and / or, advantageously, directly, the gravitational field. The expression "area of an object" includes the concept of the volume of the imaginary parallelepiped minor that completely envelops the object. In this way, an advantageously simple detection of the support parameter in the steady state of operation can be achieved.
    Likewise, it is proposed that the support parameter be correlated with the orientation of the support unit relative to the cover plate, in particular, with the inclination and / or the inclination angle of the support unit relative to the cover plate and / or with the orientation of the support unit relative to the cover plate, for example, up / down. In this case, the sensor unit is preferably provided at least to detect directly and / or, advantageously, indirectly, the orientation of the support unit relative to the cover plate. Particularly preferably, the sensor unit is provided to detect the orientation of the support unit relative to the cover plate by means of the gravitational field of the area of the support unit. Thus, it can be achieved that the support unit is placed correctly and / or securely. In particular, it can be ensured that the upper side and / or the heating side of the support unit are directed towards the cooking battery element in the heating operating state. In addition, foreign objects between the support unit and the cover plate can be advantageously recognized, which could impair, for example, the heating power and / or the safety of operation.
    Alternatively or additionally, it is proposed that the support parameter be correlated with the vibrations, shocks and / or shocks transmitted to the support unit by the cooking battery element. In this case, the sensor unit is preferably provided at least to detect directly and / or indirectly the vibrations, shocks and / or shocks transmitted to the support unit by the cooking battery element. Advantageously, the vibrations, shocks and / or shocks transmitted to the support unit by the cooking battery element are correlated with a cooking process and / or with a boiling process of a food and / or product of cooking, in particular, a liquid, disposed within the cooking battery element. In this way, the cooking processes can be advantageously controlled, and overflows can be prevented by excessive cooking and / or it can be indicated that an overflow by excessive cooking will occur imminently.
    image5
    The sensor unit may comprise at least one optical sensor, at least one resistive sensor, at least one magnetic sensor, at least one piezoelectric sensor and / or at least one acoustic sensor. However, the support parameter can be detected particularly easily if the sensor unit comprises at least one capacitive sensor. The sensor unit can also be made as a capacitive sensor.
    Likewise, the sensor unit may comprise, for example, at least one sensor made as a distance sensor, as a pressure sensor, as a fissure sensor, as an angular sensor and / or as a humidity sensor. However, in a particularly preferred embodiment, it is proposed that the sensor unit comprises at least one sensor made as an inertia sensor and, advantageously, at least one sensor made as an acceleration sensor, whereby the detection of the parameter Support can be advantageously accurate. In addition, advantageously high functionality can be achieved. The sensor unit can also be made as an inertia sensor and, advantageously, as an acceleration sensor.
    Preferably, the support unit is made in a stable manner, so it is possible to achieve an advantageous handling thereof. The expression "object with stable form" includes the concept of an object whose external form does not vary at least within the framework of the defined tolerances and applying a maximum force below a limit value, with which the object is permanently deformed and / or be destroyed. Preferably, the support unit is partially or completely composed, preferably, largely or completely and, particularly preferably, completely, by a mechanically stable and / or rigid material, in particular, a ceramic , a metal, a ceramic hob and / or, preferably, a plastic material such as, for example, polyether ether ketone (PEEK) and / or, advantageously, polyphenylene sulfide (PPS).
    In addition, it is proposed that the cooking field device comprises an evaluation unit that is intended to evaluate the support parameter and to generate and, advantageously, emit by means of an output unit of the cooking field device, once, for example, by manual operation, and / or, preferably, in a constant and / or permanent way, at least one warning message correlated with the support parameter, in at least one operating state in which the support parameter differs from a theoretical support parameter, in which the support parameter reaches the theoretical support parameter and / or in which the support parameter matches the support parameter
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    theoretical. In this way, the user can be informed advantageously about a correct placement, use and / or other parameters of the operation of the support unit. The term "evaluation unit" includes the concept of an electrical and / or electronic unit, specifically, an electronic unit, in effect connection with the support unit, which presents an input of information, an information processing, and an output of the information. Advantageously, the calculation unit also has at least one processor, at least one memory, at least one operating program, at least one regulatory routine, at least one control routine and / or at least one calculation routine. The evaluation unit could be integrated here in an external electronic device, for example, a smartphone, a tablet, a laptop, or the like and / or be arranged next to the surface of the support unit. However, the evaluation unit is preferably integrated in the support unit and, particularly advantageously, embedded in the support unit, partially or completely, preferably, largely or completely and, particularly preferably , completely. The term "output unit" includes the concept of a unit, specifically, an electronic unit, in effect connection with the evaluation unit, which is intended to emit the warning message tactically, acoustically and / or optically. The output unit can be connected here with the support unit and / or integrated in an external electronic device, for example, a smartphone, a tablet, a laptop, or the like. In the latter case, the evaluation unit may present a communication element, which may be provided, for example, to send the warning message to the output unit. However, the output unit is preferably integrated in the support unit and, particularly advantageously, embedded in the support unit, partially or completely, preferably, largely or completely and, particularly preferably , completely, so that an advantageously compact and / or independent cooking field device can be provided.
    Also, the present invention refers to a cooking system, which comprises at least the cooking field device. In addition, the cooking system may comprise a cover plate, advantageously, the cover plate already mentioned above, a heating unit, advantageously, the heating unit already mentioned above, arranged below the cover plate, which is provided to inductively heat the cooking battery element inductively in the heating operating state, at least one cooking battery element, advantageously, the cooking battery element mentioned above, which is preferably composed of at least partially a magnetic material, and / or at least one external electronic device, advantageously, the electronic device mentioned above. Thus, efficiency, in particular, efficiency relative to operation, efficiency relative to power, energy efficiency and / or cost efficiency can be increased.
    image6
    Furthermore, the present invention refers to a method for putting into operation a cooking field device, in particular an induction cooking device, where the cooking field device comprises a support unit that is provided to support on it at least one cooking battery element to be heated and, in at least one heating operating state, to be disposed between the cooking battery element and a cover plate, where, in a state of stationary operation of the support unit, at least one support parameter of the support unit is detected. In this way, efficiency can be increased, in particular, efficiency relative to operation, efficiency relative to power, energy efficiency and / or cost efficiency. Here, an advantageously exact and / or precise support unit placement can be achieved. In addition, an advantageously flexible support unit can be provided, which can be advantageously adapted to different heating conditions, requirements and / or operating states. Likewise, the safety of operation and / or functionality can be increased.
    The cooking field device and the procedure for putting into operation the cooking field device described are not limited to the application or the embodiment described above, in particular being able to present a number of elements, components, and particular units that differ from the amount mentioned in this document, as long as the purpose of fulfilling the functionality described here is pursued.
    Other advantages are taken from the following description of the drawing. Examples of embodiment of the invention are shown in the drawing. The drawing, description and claims contain numerous features in combination. The person skilled in the art will consider the characteristics advantageously also separately, and will gather them in other reasonable combinations.
    They show:
    Fig. 1 a cooking system comprising a cooking field device with a support unit, in a perspective representation,


    Fig. 2a-b a sensor unit of the cooking field device, in representations
    in perspective,
    Fig. 3 the support unit and the sensor unit integrated in the support unit, in
    a first operating state, in perspective representation,
    Fig. 4 the support unit and the sensor unit integrated in the support unit, in
    a second operating state, in schematic representation, and
    Fig. 5 another embodiment of a cooking system with a device of
    cooking field comprising a support unit and a sensor unit
    integrated in the support unit, in perspective representation.
    Figure 1 shows an example of a cooking system 22a, in perspective view. The cooking system 22a comprises at least one cooking battery element 12a. In this case, the cooking battery element 12a is made by way of example as a cooking pot. The cooking battery element 12a is made as a cooking battery element suitable for induction and is composed of a magnetic material at least partially. In the present case, at least the base of the cooking battery element 12a is composed of a magnetic material at least partially. Alternatively, the cooking system could also comprise various cooking battery elements and / or other cooking battery elements.
    The cooking system 22a further comprises a cover plate 14a. In this case, the cover plate 14a is made as a countertop, in particular, as a kitchen countertop. The cover plate 14a is provided at least to support the cooking battery element 12a and thus absorb the force of the weight of the cooking battery element 12a. However, the cover plate could also be made as an alternative like any other hob and / or cooking field plate.
    In addition, the cooking system 22a comprises a heating unit 24a. The heating unit 24a is arranged under the cover plate 14a and is made as an induction heating unit. In this case, the heating unit 24a comprises multiple heating elements arranged as a matrix (not shown). In at least one heating operating state, the heating unit 24a is provided to inductively heat the cooking battery element 12a. Alternatively, the heating unit could have at least one heating element that conforms to a fixed heating zone. In addition, the heating unit could have two, three, four, five and / or six separate heating elements, each of which is intended to heat a cooking battery element.
    image7
    The cooking system 22a further comprises a cooking field device. The cooking field device comprises at least one support unit 10a. The support unit 10a is flat, and is made separately from the cover plate 14a and the cooking battery element 12a. In addition, the support unit 10a is mobile, is made as a support mat, and is stably. In this case, the support unit 10a is composed largely or completely of a plastic, namely, polyphenylene sulfide (PPS). The support unit 10a is made as an underlying unit and, being observed in a direction perpendicular to the main extension plane of the support unit 10a, is circular. In addition, the support unit 10a has a diameter that is adapted to the diameter of the cooking battery element 12a.
    The support unit 10a is intended to be supported and / or placed on the cover plate 14a, specifically, above the heating unit 24a. In addition, the support unit 10a is provided so that the cooking battery element 12a rests on it. In the heating operating state, the support unit 10a is provided to be arranged between the cooking battery element 12a and the cover plate 14a. In this case, the support unit 10a forms in the heating operating state a base for the cooking battery element 12a heated and / or to be heated, so that the cover plate 14a can be advantageously protected against to excessive heating. However, the support unit could also be carried out as an alternative with flexible form. In addition, the support unit could also be oval or rectangular and / or composed of another material, for example, polyether ether ketone (PEEK), a silicone, or a ceramic.
    Also, the cooking field device comprises a sensor unit 16a (see also Figures 2a and 2b). The sensor unit 16a is integrated in the support unit 10a. In this case, the sensor unit 16a is embedded in the support unit 10a. The sensor unit 16a is arranged in the support unit 10a in an off-center manner. Also, the sensor unit 16a is arranged in an area of the support unit 10a that is away from the cooking battery element 12a in the heating operating state (see Figure 3). The sensor unit 16a is provided to detect at least one support parameter of the support unit 10a. In addition, the sensor unit 16a is provided to detect the at least one support parameter of the support unit 10a in a stationary operating state of the support unit 10a, in particular, in a
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    operating state in which the support unit 10a is resting on the cover plate 14a. The support parameter is correlated with the gravitational field of the area of the support unit 10a. In addition, the support parameter is correlated with the orientation of the support unit 10a relative to the cover plate 14a.
    To detect the support parameter, the sensor unit 16a comprises at least one sensor 18a. In this case, the sensor unit 16a comprises exactly one sensor 18a. The sensor 18a is made as a capacitive sensor, in particular as an inertia sensor. In addition, the sensor 18a is made as an acceleration sensor, in this case, as a 3-axis acceleration sensor. The sensor 18a is provided to directly detect the gravitational field of the area of the support unit 10a. In addition, the sensor 18a is provided to indirectly detect the orientation of the support unit 10a relative to the cover plate 14a. The sensor 18a is provided at least to detect the orientation of the support unit 10a relative to the cover plate 14a by means of the gravitational field of the area of the support unit 10a. However, the sensor unit could also have several sensors as an alternative. In addition, at least one sensor of the sensor unit could be realized as an optical sensor, as a resistive sensor, as a magnetic sensor and / or as a piezoelectric sensor. In addition, it is conceived that at least one sensor of the sensor unit is made as a distance sensor, as a pressure sensor, as a fissure sensor, as an angular sensor and / or as a humidity sensor. Likewise, it is conceived that the sensor unit and / or at least one sensor of the sensor unit are made and / or arranged separately from a support unit. In addition, the sensor unit could also be provided to detect at least two different support parameters. Here, at least one of the support parameters could also be correlated, for example, with the vibrations, shocks and / or shocks transmitted to the support unit by a cooking battery element.
    The cooking field device further comprises an evaluation unit 20a. The evaluation unit 20a is carried out as an electronic unit, in particular, as an electrical and / or electronic calculation unit. The evaluation unit 20a is integrated in the support unit 10a, in this case, it is embedded in the support unit 10a. The evaluation unit 20a is disposed off-center in the support unit 10a, and in the area of the support unit 10a that is away from the cooking battery element 12a in the heating operating state (see Figure 3). Also, the evaluation unit 20a is arranged in an area close to the sensor unit 16a. The evaluation unit 20a has an effect connection with the sensor unit 16a. The evaluation unit 20a is intended to receive and evaluate the support parameter detected by the unit
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    16th sensor. In addition, the evaluation unit 20a is intended to generate at least one warning message correlated with the support parameter in at least one operating state in which the support parameter differs from a theoretical support parameter. However, as an alternative, the evaluation unit could also be carried out separately from the support unit and integrated, for example, in an external electronic device. In addition, the evaluation unit could be provided to generate a warning message correlated with the support parameter in at least one operating state in which a support parameter coincides with a theoretical support parameter.
    Also, the cooking field device comprises an output unit 26a. The output unit 26a is made as an electronic unit, in this case, as an acoustic and / or tactile output unit. The output unit 26a is integrated in the support unit 10a, in this case, it is embedded in the support unit 10a. The output unit 26a is disposed off-center in the support unit 10a, and in the area of the support unit 10a that is away from the cooking battery element 12a in the heating operating state (see Figure 3). Also, the output unit 26a is arranged in an area close to the evaluation unit 20a and the sensor unit 16a. The output unit 26a has an effect connection with the evaluation unit 20a. The output unit 26a is intended to receive and issue at least one warning message. In this case, the output unit 26a is provided to emit an acoustic signal and / or a vibrating signal in the operating state in which the support parameter differs from the theoretical support parameter. However, as an alternative, the output unit could also be made separately from the support unit and integrated, for example, in an external electronic device. In this case, the output unit could also be provided, for example, to optically issue a warning message.
    In the present case, the sensor unit 16a is provided to detect the orientation of the support unit 10a relative to the cover plate 14a by means of the gravitational field of the area of the support unit 10a (see Figure 3). The sensor 18a is here arranged in such a way that the measurement signal of the sensor 18a amounts, for example, to 1 g = 9.81 m / s2, if the support unit 10 is arranged on the cover plate 14a in such a way that the area of the support unit 10a in which the sensor unit 16a is arranged, the evaluation unit 20a and / or the output unit 26a is disposed on a side directed towards the cover plate 14a. In addition, the measurement signal of the sensor 18a amounts as an example to - 1 g = - 9.81 m / s2, if the support unit 10a is arranged on the cover plate 14a such that the area of the unit of support 10a in which the sensor unit 16a, the evaluation unit 20a and / or the output unit are arranged


    26a is disposed on a side away from the cover plate 14a. In the latter case, the evaluation unit 20a is intended to generate a warning message and issue it via the output unit 26a, so that the user can be warned that the support unit 10a is incorrectly placed.
    In addition, the sensor unit 16a is provided to detect an inclination of the support unit 10a relative to the cover plate 14a by means of the gravitational field of the area of the support unit 10a (see Figure 4). If the support unit 10a encloses an inclination angle with the cover plate 14a, for example, as a result of a foreign object 28a disposed between the support unit 10a and the cover plate 14a, the sensor measuring signal 18a will then differ from the examples of values 1 g = 9.81 m / s2 and - 1 g = - 9.81 m / s2. If the deviation exceeds a fixed and / or settable limit value, the evaluation unit 20a is then provided to generate another warning message and issue it via the output unit 26a, so that the user can be warned about the presence of the object stranger 28a between the support unit 10a and the cover plate 14a. However, as an alternative, the sensor unit could also be provided only to detect the orientation or inclination of a support unit. In addition, the sensor unit and / or a sensor could be provided to provide another measurement signal.
    In Figure 5, another embodiment of the invention is shown. The following description and the drawings are essentially limited to the differences between the embodiments, where, in relation to components indicated in the same way, in particular, in terms of components with the same reference symbols, it can also be basically referred to the drawing and / or the description of the other embodiment of figures 1 to
    4. For the differentiation of the embodiments, the letter "a" is postponed to the reference symbols of the embodiment example of Figures 1 to 4. In the embodiment example of Figure 5, the letter "a" has been replaced by the letter "b".
    The embodiment example of figure 5 differs from the previous embodiment example at least basically in the support parameter of the support unit 10b detected by the sensor unit 16b.
    In this case, the support parameter is correlated with the vibrations, shocks and / or shocks transmitted to the support unit 10b by the cooking battery element 12b. Vibrations, shocks and / or shocks transmitted to the support unit 10b by the cooking battery element 12b are caused by a food and / or cooking product, disposed within the cooking battery element 12b, during a process from


    cooking and / or a boiling process. Therefore, the sensor unit 16b is intended to detect the vibrations, shocks and / or transmitted shocks of the cooking battery element 12b to the support unit 10b.
    In addition, an evaluation unit 20b is provided to evaluate the support parameter and
    5 to generate at least one warning message correlated with the support parameter and issue it through an output unit 26b in at least one operating state, in which the support parameter reaches a theoretical support parameter.
    In this case, the evaluation unit 20b is provided to deduce the cooking state by means of the intensity of the vibrations, the blows and / or the shocks transmitted to the
    10 support unit 10b for the cooking battery element 12b. If the intensity exceeds a fixed and / or settable value, the evaluation unit 20b is then provided to generate a warning message and issue it via the output unit 26b, so that the user can be warned about the imminence of an overflow by excessive cooking.
    Additionally, it is conceived that the sensor unit is intended to detect in a state
    15 stationary operation of the support unit at least two support parameters, in particular, a support parameter correlated with the orientation of the support unit relative to the cover plate, and a support parameter correlated with the vibrations , the shocks and / or the shocks transmitted to the support unit by the cooking battery element, so that the two examples of
    20 embodiment exposed.
    Reference symbols
    10 12 14 16 18 20 22 24 26 28 Support unit Cooking battery element Cover plate Sensor unit Sensor Evaluation unit Cooking system Heating unit Output unit Foreign object
    权利要求:
    Claims (9)
    [1]
    image 1
    1. Cooking field device, in particular induction cooking device, with a support unit (10a; 10b) that is intended to support at least one cooking battery element (12a; 12b) on it to be heated
    5 and, in at least one heating operating state, to be arranged between the cooking battery element (12a; 12b) and a cover plate (14a), characterized by a sensor unit (16a; 16b) which is provided to detect at least one support parameter of the support unit (10a; 10b) in a stationary operating state of the support unit (10a; 10b).
    10
    [2]
    2. Cooking field device according to claim 1, characterized in that the sensor unit (16a; 16b) is partially or completely integrated in the support unit (10a; 10b).
    A cooking field device according to claims 1 or 2, characterized in that the sensor unit (16a; 16b) is arranged in an area of the support unit (10a; 10b) that is away from the cooking battery element ( 12a; 12b) in the heating operating state.
    20 4. Cooking field device according to one of the preceding claims, characterized in that the support parameter is correlated with the gravitational field of the area of the support unit (10a).
    [5]
    5. Cooking field device according to one of the stated claims
    25, characterized in that the support parameter is correlated with the orientation of the support unit (10a) relative to the cover plate (14a).
    [6]
    6. Cooking field device according to one of the stated claims
    30, characterized in that the support parameter is correlated with the vibrations, shocks and / or shocks transmitted to the support unit (10b) by the cooking battery element (12b).
    [7]
    7. Cooking field device according to one of the stated claims
    35, characterized in that the sensor unit (16a; 16b) comprises at least one capacitive sensor (18a).
    16
    image2
    [8]
    8. Cooking field device according to one of the preceding claims, characterized in that the sensor unit (16a; 16b) comprises at least one sensor (18a) made as an acceleration sensor.
    [9]
    9. Cooking field device according to one of the preceding claims, characterized in that the support unit (10a; 10b) is made with a stable shape.
    5
    10 10. Cooking field device according to one of the preceding claims, characterized by an evaluation unit (20a; 20b) which is intended to evaluate the support parameter and to generate at least one message status in at least one operating state. warning correlated with the support parameter.
    fifteen
    [11]
    eleven. Cooking system (22a), which comprises at least one cooking field device according to one of the preceding claims.
    [12]
    12. Procedure for the commissioning of a field device
    20 according to one of claims 1 to 10, wherein the cooking field device comprises a support unit (10a; 10b) which is provided to support on it at least one cooking battery element (12a; 12b) which it must be heated and, in at least one operating state of heating, to be arranged between the cooking battery element (12a; 12b) and a cover plate
    25 (14a), characterized in that, in a steady state of the support unit (10a; 10b), at least one support parameter of the support unit (10a; 10b) is detected.
    17
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    KR20110086761A|2011-07-29|Temperature controlling device of electromagnetic heating type implementation
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    同族专利:
    公开号 | 公开日
    ES2684179B1|2019-07-29|
    DE102018203229A1|2018-10-04|
    DE102018203249A1|2018-10-04|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    ES2366514A1|2009-05-15|2011-10-21|Bsh Electrodomesticos España S.A.|Device for placing on a field of cooking by induction. |
    EP2693127A1|2012-08-03|2014-02-05|E.G.O. ELEKTRO-GERÄTEBAU GmbH|Measurement device and system|
    EP2824393A1|2013-07-09|2015-01-14|BSH Bosch und Siemens Hausgeräte GmbH|Hotplate device|
    WO2016071802A1|2014-11-03|2016-05-12|BSH Hausgeräte GmbH|Cooktop device|
    KR20210010195A|2019-07-19|2021-01-27|엘지전자 주식회사|Method and heating apparatus for estimating status of heated object|
    DE102020001783A1|2020-03-18|2021-09-23|Diehl Ako Stiftung & Co. Kg|Hob support system|
    法律状态:
    2018-10-01| BA2A| Patent application published|Ref document number: 2684179 Country of ref document: ES Kind code of ref document: A1 Effective date: 20181001 |
    2019-07-29| FG2A| Definitive protection|Ref document number: 2684179 Country of ref document: ES Kind code of ref document: B1 Effective date: 20190729 |
    优先权:
    申请号 | 申请日 | 专利标题
    ES201730505A|ES2684179B1|2017-03-30|2017-03-30|COOKING FIELD DEVICE AND PROCEDURE FOR THE COMMISSIONING OF A COOKING FIELD DEVICE|ES201730505A| ES2684179B1|2017-03-30|2017-03-30|COOKING FIELD DEVICE AND PROCEDURE FOR THE COMMISSIONING OF A COOKING FIELD DEVICE|
    DE102018203249.1A| DE102018203249A1|2017-03-30|2018-03-05|Hob device and method of operating a Hob device|
    DE102018203229.7A| DE102018203229A1|2017-03-30|2018-03-05|Hob device and method of operating a Hob device|
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