• 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:
    Battery and cooking system. In order to provide a generic cooking battery with better properties in terms of greater comfort, a cooking battery (10a-d) with a driving unit (12a-d) is proposed, which is intended to drive at least a consumer (14a-d), and with a receiving unit (16a-d), which is intended to receive energy without contact and to supply power to the driving unit (12a-d). The cooking system includes a cooking battery (10a-d) and a cooking field device (42a-d), with an induction unit. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2590381A1
    申请号:ES201530699
    申请日:2015-05-21
    公开日:2016-11-21
    发明作者:José Andrés GARCÍA MARTÍNEZ;Sergio Llorente Gil;Teresa Del Carmen MARZO ÁLVAREZ;Jorge Mir Bel;Julio Rivera Pemán;Francisco Javier SANCHO DÍAZ;Beatriz Villanueva Valero
    申请人:BSH Hausgeraete GmbH;BSH Electrodomesticos Espana SA;
    IPC主号:
    专利说明:

    image 1 COOKING BATTERY DESCRIPTION
    The invention refers to a cooking battery according to claim 1 and a cooking system according to claim 12.
    5 From the state of the art a cooking battery is already known which is intended to be supported on a cooking field plate of a cooking field device to execute a heating process. During the heating process, the cooking battery is heated by induction heating elements, which are arranged under the cooking field plate of the cooking field device and
    10 planned to heat the cooking battery. A consumer disposed above the cooking field plate must be operated manually and / or by a separate drive unit.
    The invention solves the technical problem of providing a generic cooking battery with better properties in terms of greater comfort. According to the invention, this
    The technical problem is solved by the features of claim 1, while advantageous embodiments and improvements of the invention can be extracted from the secondary claims.
    A cooking battery is proposed with a driving unit, which is intended to drive at least one consumer, and with a receiving unit, which is intended to receive energy, namely electromagnetic energy, without contact and to supply energy to the drive unit. The term "cooking battery" includes the concept of a unit that is intended to house at least one food in at least one operating state and to be in direct contact with said food in at least one operating state. The food could be, for example, a food that must be cooked, in particular, a cooking product, and / or a food that must be mechanically processed, advantageously, in a way that goes beyond mere heating. . The cooking battery is intended to be supported on a cooking field plate for a heating process to run. A cooking field device of a cooking system having the cooking battery has at least one induction heating element, which is intended to provide and / or supply at least energy, in particular, in the form of an electromagnetic field. alternately, to the cooking battery for the execution of the heating process. The term "cooking field plate" includes the concept of a unit that in at least one operating state is intended to support at least one cooking battery, and which is intended to form a part of an outer housing of a cooking field of a cooking field device and / or of a cooking field having a cooking field device 5. The cooking field plate is composed largely or entirely of glass and / or ceramic hob. The term "in large or complete" includes the concept of at least 70%, preferably, at least 80%, advantageously, at least 90% and, preferably, 95% as minimum. In at least one operating state, the driving unit is intended to supply the consumer with at least driving power that is generated, in particular, obtained and / or diverted and / or provided, by the driving unit from the energy received by The receiving unit The term "consumer" includes the concept of a constructive unit that differs from a mere liquid, and which is intended to be set in motion at least partially by the driving unit. In at least one operating state, the receiving unit is provided to advantageously absorb the electromagnetic energy provided by at least one induction unit. Preferably, the receiving unit is provided to feed the driving unit by means of partially or completely absorbed energy, preferably, in large part or completely and, advantageously, completely. As an example, the receiver unit could be provided for inductive energy transmission and / or for capacitive energy transmission and / or for electromagnetic energy transmission and / or for laser energy transmission and / or for The transmission of energy through sound. The term “planned” includes the concept of programmed, conceived and / or provided specifically. The expression that an object is intended for a particular function includes the concept
    image2
    25 relating to the object satisfying and / or performing this function determined in one or more application and / or operating states.
    Through the embodiment according to the invention, great comfort can be achieved, making it particularly possible to have a high flexibility in terms of the positioning position of the cooking battery and / or in terms of the type of energy transmitted. Through
    30 the drive unit, it is possible to feed multiple different consumers.
    It is also proposed that the receiving unit has at least one inductor. The receiving unit has at least one coil, which is intended to be magnetized in dependence on at least one magnetic field, in particular, an alternating electromagnetic field, provided by at least one induction unit, and / or to generate at least 35 an induction current. The receiving unit could present at least two, so
    image3
    advantageously, at least three, advantageously, at least five and, preferably, more inductors. In this way, an economic realization can be achieved, and it is possible to transmit a large amount of power.
    In addition, it is proposed that the drive unit be provided to provide at least one
    5 magnetic field to boost the consumer. The drive unit is intended to transform the energy provided by the receiving unit into electromagnetic energy in large or in part. By way of example, the driving unit could be provided to directly supply the consumer with electromagnetic energy and drive the consumer through said electromagnetic energy, such as by means of a
    10 magnetic field. Alternatively, the driving unit could be provided to transform electromagnetic energy into another form of energy, such as mechanical energy, and provide the consumer with the other form of energy and, advantageously, drive the consumer through the other form of energy In this way, the consumer can be propelled in a particularly advantageous manner, and a
    15 great efficiency.
    It is also proposed that the drive unit has at least one electric motor, which is intended to boost the consumer. The drive unit has at least one axle. In this case, the shaft is preferably provided to connect the electric motor and the consumer to each other at least in the assembled state. Preferably, the drive unit 20 is intended to drive the consumer through the electric motor through the shaft, which passes through an inner housing part of a cooking battery housing unit directed towards a food housing space. In an alternative embodiment, the drive unit could have at least one permanent magnet, which could be connected to the electric motor through the shaft at least in a state of operation. The permanent magnet could be provided to supply and / or generate the magnetic field provided by the drive unit, and the drive unit could be provided to drive the consumer through the magnetic field supplied by the permanent magnet. In particular, the permanent magnet could be provided to interact in at least one operating state with at least one consumer magnet element and, advantageously, to supply this magnet element with the magnetic field to drive it. In another alternative embodiment, the drive unit could have at least two electromagnets, which could be provided to supply the magnetic field to drive the consumer. The term "electric motor" includes the concept of a construction unit that is intended to transform electrical energy into kinetic energy. Advantageously, the drive unit is intended to supply the energy
    image4
    electromagnetic inside the electric motor and, advantageously, to transform it into kinetic energy to a large or complete extent and transmit this kinetic energy to the consumer. The drive unit is intended to set in motion and / or to keep the consumer moving. The movement is a rotating movement that rotates at least
    5 essentially around an axis of rotation. In this way, standardized components can be used, which makes it possible for costs to be low. In addition, great reliability is achieved.
    In another embodiment, it is proposed that, to drive the consumer, the drive unit is provided to provide a rotating magnetic field at least essentially around at least one axis of rotation and that partially or completely penetrates into a housing space. for food The food accommodation space is intended to accommodate at least one food. The term "rotating magnetic field at least essentially around at least one axis of rotation" includes the concept of a magnetic field whose polarity moves from temporal average around the axis of rotation. By way of example, the magnetic field could rotate at least essentially continuously around the axis of rotation. In addition, the magnetic field could rotate around the axis of rotation gradually, in particular, in small stages, for example, discrete. The term magnetic field "that penetrates partially or completely into a food accommodation space" includes the concept of a magnetic field whose lines of
    20 fields penetrate at least in part into the food accommodation space and are present therein so that they are measurable, where another part of the field lines could be arranged outside the food accommodation space. In this way, a particularly advantageous impulse of the consumer is made possible.
    Likewise, it is proposed that the cooking battery present at least the consumer, which
    25 is made as a food processing unit. The term "food processing unit" includes the concept of a unit that is intended to process at least one state of operation in at least one food, which is arranged in the food accommodation space, in a way that goes beyond of a mere heating, and which has at least one processing tool that
    30 is intended to be in direct contact with the food in at least one operating state. The processing tool is provided in at least one operating state to process, in particular, mix and / or stir and / or grind and / or crush and / or intermix and / or emulsify and / or knead and / or chop, when minus one food arranged in the food accommodation space. Also, the processing tool is
    35 provided in at least one operating state for, starting from at least one state
    image5
    stationary, set in motion and / or to, starting from a moved state, keep moving at least one food arranged in the food accommodation space. In at least one state of operation of the food processing unit, at least a part of the food processing unit, in particular, the processing tool 5, is provided to be in direct contact with the food. The food processing unit is intended to process different types and / or consistencies of foods such as, for example, mass and / or liquid and / or at least partially fluid materials and / or sauces and / or at least partially solid foods. The food processing unit has two or more, preferably three or more, advantageously, five or 10 more and, preferably, seven or more different processing tools. In this way, great comfort can be achieved. Likewise, high energy efficiency is possible thanks to the movement of a food at least partially fluid to be cooked. It also makes possible a comfortable and / or simple maneuverability, being able to easily control and / or influence the cooking parameters, as well as a great flexibility. It is also achieved that the probability of burning the food is low and / or a brief swelling time, whereby a high resistance and / or a lasting realization of a cooking battery within which the food processing unit. By means of a movement of at least partially fluid food that has to be cooked, results of
    20 reproducible cooking and / or a small lack of homogeneity in a food to be cooked.
    In addition, it is proposed that the consumer present at least one magnet element, which is intended to interact with the magnetic field. The magnet element is provided to absorb the magnetic field and, depending on the magnetic field, make a rotation movement around the axis of rotation. By way of example, the magnet element 25 could be a permanent magnet and / or an electromagnet and / or an inductor. The magnet element could be made, for example, in a piece with the processing tool, which could have at least one magnet and be provided to receive the magnetic field generated by the drive unit. Alternatively, the magnet element and the processing tool could be made as separate elements and be linked together.
    30 mechanically in at least the assembled state. In this way, it can be avoided that there is an emptying in the inner housing part that delimits the food accommodation space and / or a simple cleaning is possible.
    As an example, the cooking battery could have at least one electronic unit, which could be carried out separately from a cooking field control unit 35 and, advantageously, intended to activate and / or operate the unit motor with
    Independence of the control instructions of the cooking field control unit. The electronics unit could be provided, for example, to activate and / or operate the drive unit depending on a control input made by means of a cooking battery control unit. As an alternative, the cooking battery could have an electronic unit that has at least one filter, and which could be provided to filter at least the high frequency signals. A cooking field control unit could be provided to activate and / or operate the driving unit depending on a control input made by means of a cooking field control unit. However, the cooking battery preferably has at least one electronic unit, which is intended to receive control instructions from a cooking field control unit. The electronics unit is intended to activate and / or operate the drive unit depending on at least one command of the cooking field control unit. The cooking field control unit and the electronics unit could communicate with each other via bluetooth and / or infrared and / or through a local radio transmission network. The term "electronic unit" includes the concept of an electronic unit that presents a calculation unit and, in addition to the calculation unit, a storage unit with an operating program stored therein, which is intended to be executed by the unit of calculation The term "cooking field control unit" includes the concept of an electronic unit that is preferably integrated, at least partially, into a control and / or regulator unit of a cooking field, and which is preferably intended to direct and / or regulate at least one power supply electronics that is intended to feed at least one induction unit and / or at least one induction heating element. Preferably, the cooking field control unit comprises a calculation unit and, in addition to the calculation unit, a storage unit with a control and / or regulation program stored therein, which is intended to be executed by the unit of calculation. As an example, the cooking field control unit could be provided to transmit command instructions by autonomous signals and / or by modulated signals. In this way, great comfort of use can be achieved, since the control of at least one consumer operating parameter can be performed through a cooking field control unit of a cooking field device that is part of a cooking field and / or a cooking field system. Also, the complexity of the electronics unit can be advantageously kept low.
    5
    10
    fifteen
    twenty
    25
    30
    35
    The cooking battery preferably has at least one cooking battery housing unit, within which at least the receiving unit (s) and, additionally, the driving unit is arranged, at least in the assembled state. The cooking battery housing unit defines the food accommodation space, and has at least one inner housing part, which is arranged directed towards the food accommodation space and which advantageously defines it largely or completely , and at least one outer casing piece, which is arranged opposite the food accommodation space and which advantageously defines an outer conformation of the cooking battery housing unit and, in particular, of the cooking battery, visible for the user in an operating state. At least in the assembled state, the outer shell part and the inner shell piece are mechanically connected to each other and delimit at least one intermediate space. In the operating state, the receiving unit is wrapped by the cooking battery housing unit, it is arranged largely or completely between the outer housing part and the inner housing part, in particular, in the intermediate space, and is advantageously integrated in the cooking battery, in the cooking battery housing unit. In this way, a protected arrangement of the receiving unit can be achieved, as well as great stability.
    Likewise, it is proposed that the cooking battery housing unit has at least one outer housing piece opposite the food housing space and at least one inner housing piece directed towards the food housing space, which are composed of Materials with different magnetic properties. The inner shell part is composed largely or completely of a metal, namely, a magnetic metal, advantageously, a ferromagnetic metal. As an example, the inner shell part could be composed largely or entirely of iron and / or ferromagnetic steel. The outer shell part is composed largely or completely of a nonmetal. As an example, the outer shell part could be composed largely or entirely of plastic and / or ceramic material. In this way, the heating can be restricted to the areas provided for it and, advantageously, it can make it possible to transmit energy approximately or exactly simultaneously to other areas provided for it. In addition, great flexibility is achieved in terms of configuration possibilities.
    In addition, it is proposed that the outer shell part and the inner shell piece define at least one intermediate space, which is filled with a large or complete insulating material. The cooking battery housing unit has at least the insulating material, which is arranged in at least the assembled state between the outer housing part and the inner housing part. The insulating material is composed largely or completely of a material with a low thermal conductivity. By way of example, the insulating material could be composed largely or entirely of plastic material and / or mineral wool and / or Teflon. In this way, great efficiency is possible, being
    image6
    5 It is possible that construction units that are arranged in the intermediate space are housed and protected.
    The cooking battery could comprise at least one sensor, which could be provided to detect at least one component of the movement, in particular at least one torque and / or at least one moment of acceleration and / or one moment of rotation and / or the speed of rotation of the food processing unit. By way of example, the sensor could be provided to transmit to the cooking field control unit at least one sensor parameter that characterizes the movement component of the food processing unit. In particular, the sensor could be provided for the optical detection of the movement component of the food processing unit and made, for example, as a photocell. Alternatively or additionally, the sensor could be provided to detect the movement component of the food processing unit by means of a magnetic field, which could exit the magnet element. The cooking field control unit could be provided to determine a modification of a component of the movement of a food to be processed depending on the sensor parameter, and to carry out at least one automatic processing process and / or at least one process automatic cooking Alternatively or additionally, the sensor could be provided to detect the temperature and / or the pH value and / or the weight and / or the cooking state such as, for example, cooking and / or simmering and / or cooking. boiling and / or excessive cooking of a food arranged in the accommodation space for 25 foods. As an example, the sensor could be an infrared sensor and / or a resistance sensor, for example, an NTC (Negative Temperature Coefficient) resistor and / or a PTC (Positive Temperature Coefficient) resistor, and / or an acoustic sensor , for example, a microphone, and / or a pressure sensor and / or a weight sensor for detecting the weight of the food arranged in the food accommodation space and / or a volume sensor
    30 for the detection of the volume of the food arranged in the food accommodation space.
    In another embodiment, a cooking system is proposed with at least one cooking battery according to the invention and with at least one cooking field device, in particular, an induction cooking device, which has at least an induction unit that is intended to supply power for the receiver unit of the cooking battery. The term "cooking field device" includes the concept of at least a part, in particular, a construction subgroup, of a cooking field, in particular, of an induction cooking field. The cooking field device may also comprise the entire cooking field, in particular, the entire induction cooking field. 5 The term "induction unit" includes the concept of a unit that is intended to provide at least one state of operation in at least one alternating electromagnetic field for the transmission of energy. In at least one operating state, the induction unit is intended to generate and / or cause at least one induction current in the receiver unit of the cooking battery by means of the alternating electromagnetic field. The cooking field device has at least one cooking field control unit, which is intended to introduce at least one processing parameter, in particular, the rotation speed and / or the start time of the processing and / or the time of completion of the processing and / or the duration of the processing, of the food processing unit. Also, the cooking field control unit is provided to provide and / or indicate to the user at least two, preferably, at least three, advantageously, at least four and, preferably, at least five processing parameters to select from among them. Also, the cooking field device has at least one cooking field control unit that is intended to activate at least the electronic unit and / or the driving unit. In particular, the cooking field control unit is intended to control and / or regulate the processing parameter of the food processing unit by activating the electronics unit and / or the driving unit, and to activate the electronics unit and / or the drive unit depending on a control input made by means of the cooking field control unit. In this way, you get a great
    image7
    25 comfort.
    Likewise, it is proposed that the induction unit has at least one energy transmission element, performed differently with respect to an induction heating element, which is intended to supply the energy for the receiving unit in at least one state. of operation. The power transmission element
    30 has at least one inductor and / or at least one coil, and is intended to supply in at least one state of operation the energy for the receiving unit at least by means of inductive energy transmission. In this way, a large amount of power can be provided compared to the use of a permanent magnet.
    In addition, it is proposed that the induction unit has at least one induction heating element, which is intended to supply the energy for the receiving unit in at least one operating state. In at least one operating state, in addition to the power supply for the receiving unit, the induction heating element is provided to heat at least a part of the cooking battery, in particular at least a part of the housing part inside the cooking battery. The term "induction heating element" includes the concept of an element that is intended to generate an alternating electromagnetic field with a frequency between 20 kHz and 100 kHz, which is intended to be transformed into heat by inducing currents in swirl and / or magnetic inversion effects on the metal base, preferably ferromagnetic, of a cooking battery resting on top. In this way, great flexibility can be achieved, particularly in relation to the positioning position of the cooking battery and / or in relation to the tasks of the induction heating element, and additional construction units can be dispensed with, in particular, in the form of at least one energy transmission element and / or at least one additional induction heating element, so that a compact embodiment and / or low costs can be advantageously achieved.
    The cooking battery and the cooking system described are not limited to the application or to the embodiment described above, and may in particular have 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: Figure 1 shows a cooking system 40a, made as an induction cooking system, with a cooking battery 10a and with a cooking field device 42a, made as an induction cooking device. The cooking field device 42a comprises a cooking field plate 50a which, in the assembled state, forms a part of an outer housing of the cooking field. The cooking field plate 50a is provided to support the cooking battery 10a.
    Fig. 1 a cooking system with a cooking battery and with a device
    of cooking field, in a schematic section representation,
    Fig. 2 the cooking system with the cooking field device and with the
    cooking battery, in schematic top view,
    Fig. 3 an enlarged section of figure 2,
    Fig. 4 a cooking field control unit of the field device
    cooking, in schematic top view,
    image8
    Fig. 5 an alternative cooking system with a field device
    alternative cooking and with a cooking battery, in top view
    schematic,
    Fig. 6 an enlarged section of figure 5,
    Fig. 7 an alternative cooking system with a field device
    cooking and with a cooking battery, in a representation of
    schematic section, and
    Fig. 8 an alternative cooking system with a field device
    cooking and with a cooking battery, in a representation of
    schematic section
    The cooking battery 10a has a cooking battery housing unit 32a, which defines a food housing space 22a and has an outer housing part 34a, opposite the food housing space 22a, and an inner housing part 36a, directed towards the food accommodation space 22a.
    The outer shell part 34a and the inner shell part 36a are composed of materials with different magnetic properties. The outer shell part 34a is largely composed of a nonmetal, and the inner shell part 36a is largely composed of a ferromagnetic metal.
    The outer shell part 34a and the inner shell part 36a define an intermediate space 38a. The cooking battery 10a has an insulating material (not shown), the intermediate space 38a being largely filled with the insulating material.
    The cooking battery 10a has a consumer 14a. In the assembled state, the consumer 14a is disposed within the food accommodation space 22a and realized as a food processing unit 24a. The food processing unit 24a has a processing tool 68a, which is intended to process the food arranged in the food accommodation space 22a. In the assembled state, the processing tool 68a is arranged in the food accommodation space 22a, and the consumer 14a is arranged in an area close to the base of the inner housing part 36a.
    The cooking battery 10a has a drive unit 12a, which drives the consumer 14a of the cooking battery 10a in an operating state. In the assembled state, the drive unit 12a is disposed within the cooking battery housing unit 32a, namely, in the intermediate space 38a, in an area close to the base of the inner housing part 36a. The drive unit 12a and the consumer 14a are separated from each other in the state mounted by the base of the inner housing part 36a.
    In the assembled state, a receiver unit 16a of the cooking battery 10a is disposed in the intermediate space 38a in addition to the drive unit 12a. The cooking battery 10a has the receiving unit 16a, which is intended to receive contactless energy. In the assembled state, the receiving unit 16a is arranged in an area close to the base of the outer housing part 34a.
    The receiving unit 16a has an inductor. In the operating state, the receiving unit 16a is intended to be magnetized by an alternating electromagnetic field. The receiving unit 16a is intended to receive energy transmitted by inductive energy transmission. In the operating state, the receiving unit 16a is provided for power supply to the driving unit 12a.
    In the operating state, the drive unit 12a provides a magnetic field to drive the consumer 14a. The drive unit 12a has an electric motor 18a and, in the operating state, provides the magnetic field to drive the consumer 14a into the electric motor 18a. The electric motor 18a generates a rotation movement around an axis of rotation 20a by the magnetic field. In the operating state, the electric motor 18a drives the consumer 14a through the rotational movement.
    The cooking battery 10a has an axis 56a, which connects the electric motor 18a and the consumer 14a together in the assembled state. In the operating state, the shaft 56a transmits to the consumer 14a the rotational movement generated by the electric motor 18a.
    In the assembled state, the shaft 56a is partially arranged in the intermediate space 38a. The inner housing part 36a has a recess (not shown). In the assembled state, the shaft 56a goes through the emptying of the inner housing part 36a. Between the axis 56a and a lateral delimitation of the emptying a gasket is arranged, which prevents the food arranged in the food accommodation space 22a from entering the intermediate space 38a.
    image9
    The cooking battery 10a has an electronic unit 28a, which is arranged in the state mounted inside the cooking battery housing unit 32a, specifically, in the intermediate space 38a. In the operating state, the electronics unit 28a is provided to activate the drive unit 12a, manages the energy supplied by the receiving unit 16a for power supply, and regulates the power supply of the receiving unit 16a to the driving unit. 12th
    The cooking field device 42a has an induction unit 44a (see Figures 1 to 3), which is intended to supply power for the receiving unit 16a of the cooking battery 10a. In the operating state, the induction unit 44a provides an alternating electromagnetic field for the power supply for the receiving unit 16a. The induction unit 44a supplies power to the receiving unit 16a through the transmission of inductive energy.
    In the present embodiment, the induction unit 44a forms a variable cooking surface area 58a. The induction unit 44a has several induction heating elements 46a. Only one of each of the objects present several times is accompanied by a reference symbol in the figures. The induction heating elements 46a are arranged in matrix form. Alternatively, the induction heating elements could form a classic cooking field, in which, through the position of the induction heating elements, there could be defined, predetermined fixed heating zones, which could be marked on the cooking plate.
    In the present embodiment, the induction unit 44a has forty-eight induction heating elements 46a. Next, only one of the induction heating elements 46a is described. The induction heating element 46a is provided to heat the cooking battery 10a resting on the cooking field plate 50a above the induction heating element 46a. In the operating state, the induction heating element 46a supplies the energy for the receiving unit 16a.
    The cooking field device 42a has a cooking field control unit 54a for entering and / or selecting operating parameters, for example, the heating power and / or the heating power density and / or the cooking zone. heating. Likewise, the cooking field control unit 54a is intended to give the user the value of an operating parameter.
    image10
    Also, the cooking field device 42a has a cooking field control unit 30a, which is intended to execute actions and / or modify settings depending on the operating parameters introduced by the cooking field control unit 54a . For the execution of a heating process, the cooking field control unit 30a regulates the power supply to the induction unit 44a, and the cooking battery 10a is intended to be supported on the cooking field plate 50a.
    In the operating state, the cooking field control unit 30a sends control instructions to the electronics unit 28a of the cooking battery 10a, and the electronic unit 28a receives the operating instructions from the field control unit Cooking 30a. In the operating state, the electronics unit 28a communicates with the cooking field control unit 30a, and regulates the power supply of the receiving unit 16a to the driving unit 12a depending on the control instructions received from the cooking field control unit 30a.
    In the present exemplary embodiment, the food processing unit 24a is made as a blender unit, and is intended to beat the food arranged within the food accommodation space 22a.
    The cooking field control unit 54a is provided to enter the rotation speed of the food processing unit 24a (see Figure 4). In the present exemplary embodiment, the cooking field control unit 54a has a contact sensitive control element for entering the speed of rotation of the food processing unit 24a. In addition, the cooking field control unit 54a has an indicating unit, whereby it provides the user with a selection of rotational speeds. The indicating unit is intended to represent in increasing the rotation speed selected by the user.
    As an example, the cooking field control unit could activate the driving unit to direct the speed of rotation of the food processing unit depending on a command input made by the cooking field command unit. Alternatively, the cooking field control unit could transmit at least one command instruction to the electronics unit, which could be provided
    5
    10
    fifteen
    twenty
    25
    30
    to activate the drive unit to direct the speed of rotation of the food processing unit depending on the command instruction.
    In Figures 5 to 8, other embodiments of the invention are shown. The following descriptions are essentially limited to the differences between the embodiments, where, in relation to components, characteristics and functions that remain the same, reference can be made to the description of the embodiment of Figures 1 to 4. For the differentiation of Examples of embodiment, the letter "a" of the reference symbols of the embodiment example of Figures 1 to 4 has been replaced by the letters "b" to "d" in the reference symbols of the embodiment example of Figures 5 to 8. In relation to components indicated in the same way, in particular, as regards components with the same reference symbols, it is also possible to refer basically to the drawings and / or to the description of the embodiment of figures 1 to 4.
    Figure 5 shows an alternative cooking system 40b with an alternative cooking field device 42b. The cooking field device 42b has several elements of induction heating 46b. A part of the induction heating elements 46b defines a variable cooking surface area 58b. In an operating state, the variable cooking surface area 58b is provided to heat the cooking battery 10b resting on a cooking field plate 50b above the variable cooking surface area 58b.
    A part of the induction heating elements 46b forms a classic cooking field 60b. The variable cooking surface area 58b and the classic cooking field 60b are arranged side by side. The induction heating elements 46b of the variable cooking surface area 58b and the induction heating elements 46b of the classic cooking field 60b are made differently; the induction heating elements 46b of the classic cooking field 60b have a round conformation, and the induction heating elements 46b of the variable cooking surface area 58b have an oval conformation.
    Next, one of the induction heating elements 46b of the classic cooking field 60b is described by way of example. The induction heating elements 46b of the variable cooking surface area 58b could be made analogously to those.
    An induction unit 44b of the cooking field device 42b has several energy transmission elements 48b, of which only one is described below.
    The energy transmission element 48b is made differently with respect to the induction heating element 46b. The induction unit 44b has several coil supports 62b, presenting a coil support 62b for each induction heating element 46b. Next, only one of the coil holders 62b is described.
    The induction heating element 46b and the energy transmission element 48b are mounted on the same coil support 62b, and the induction heating element 46b is concentrically arranged around the energy transmission element 48b. In the operating state, the power transmission element 48b supplies the power for a receiver unit 16b of a cooking battery 10b.
    Figure 7 shows an alternative cooking system 40c, with an alternative cooking field device 42c. In an operating state, a driving unit 12c of the cooking field device 42c drives a consumer 14c, for which the driving unit 12c provides a magnetic field. The drive unit 12c has an electric motor 18c, which is intended to drive the consumer 14c.
    In the present embodiment, the drive unit 12c has a permanent magnet 64c which, in the assembled state, is rotatably housed around an axis of rotation 20c. In addition, the drive unit 12c has a transmission element 66c, which joins the electric motor 18c and the permanent magnet 64c together, and is made as an axis.
    The electric motor 18c is intended to drive the permanent magnet 64c. In the operating state, the transmission element 66c transmits to the permanent magnet 64c a rotational movement produced by the electric motor 18c, and the permanent magnet 64c generates the magnetic field to drive the consumer 14c.
    To drive the consumer 14c, the drive unit 12c provides a magnetic field that essentially revolves around an axis of rotation 20c. In the operating state, the magnetic field provided by the drive unit 12c partially penetrates a food housing space 22c of a cooking battery 10c. The drive unit 12c provides the magnetic field to drive the consumer 14c through the rotational motion of the permanent magnet 64c.
    The consumer 14c has a magnet element 26c, which is made in one piece with a processing tool 68c of a food processing unit 24c. In the operating state, the magnet element 26c interacts with the magnetic field provided by the drive unit 12c.
    The magnet element 26c and the permanent magnet 64c are made correspondingly with each other. In the operating state, the magnet element 26c and the permanent magnet 64c interact with each other. The permanent magnet 64c has at least one first magnetic pole 72c and at least one second magnetic pole 74c, and the magnet element 26c has at least one first magnetic pole 76c and at least one second magnetic pole 78c. By way of example, the permanent magnet and the magnet element could have several first magnetic poles and several second magnetic poles, in particular, in a first case.
    In a first case, the magnetic poles 72c, 74c of the permanent magnet 64c could be made essentially identical to each other, and the magnetic poles 76c, 78c of the magnet element 26c could be made essentially identical to each other. By way of example, the magnetic poles 72c, 74c of the permanent magnet 64c could be arranged directed towards the cooking field plate 50c in the installation position, and the magnetic poles 76c, 78c of the magnet element 26c could be arranged directed towards the cooking field plate 50c in the installation position. Also by way of example, the magnetic poles 72c, 74c of the permanent magnet 64c could be made as south poles and, the magnetic poles 76c, 78c of the magnet element 26c, as north poles. Alternatively, the magnetic poles 72c, 74c of the permanent magnet 64c could be made as north poles and, the magnetic poles 76c, 78c of the magnet element 26c, as south poles.
    In a second case, the magnetic poles 72c, 74c of the permanent magnet 64c could be made differently. The first magnetic pole 72c of the permanent magnet 64c could be made as the north pole and the second magnetic pole 74c of the permanent magnet 64c, as the south pole. Also the magnetic poles 76c, 78c of the magnet element 26c could be made differently. The first magnetic pole 76c of the magnet element 26c could be made as the south pole and the second magnetic pole 78c of the magnet element 26c, as the north pole.
    Figure 8 shows an alternative cooking system 40d, with an alternative cooking field device 42d. In an operating state, a driving unit 12d of the cooking field device 42d drives a consumer 14d, for which the driving unit 12d provides a magnetic field.
    image11
    To drive the consumer 14d, the drive unit 12d provides in a state of operation a magnetic field that essentially revolves around an axis of rotation.
    5 20d. In the operating state, the magnetic field provided by the drive unit 12d partially penetrates a food housing space 22d of a cooking battery 10d.
    In the present embodiment, the drive unit 12d has at least two electromagnets 70d. The drive unit 12d has several electromagnets 70d. Then,
    10 starts from the fact that the drive unit 12d has an amount of n electromagnets 70d.
    In the assembled state, the electromagnets 70d are arranged uniformly and essentially in a plane around the axis of rotation 20d. In the plane, the electromagnets 70d are arranged, starting from the axis of rotation 20d, around an angle of approximately 360 ° / n about the axis of rotation 20d.
    15 In an operating state, the electronics unit 28d of the cooking battery 10d is provided to activate the electromagnets 70d depending on the control instructions transmitted by a cooking field control unit 30d. The electronics unit 28d drives the electromagnets 70d in the operating state. In the operating state, the electronics unit 28d activates the electromagnets 70d by
    20 pulse duration modulation, with signals offset by approximately 360º / n. Depending on the activation by the electronics unit 28, the electromagnets 70d provide the rotating magnetic field essentially around the axis of rotation 20d to drive the consumer 14d.
    The drive unit 12d has no moving parts. In the operating state, the unit
    25 motor 12d drives the magnet element 26d of the consumer 14d. In the present embodiment, the magnet element 26d has a first magnetic pole 76d and a second magnetic pole 78d. The first magnetic pole 76d is made as the south pole, and the second magnetic pole 78d is made as the north pole.
    Reference symbols
    Cooking battery
    12 Drive unit
    14 Consumer
    16 Receiving unit
    18 Electric motor
    Axis of rotation
    22 Food accommodation space
    24 Food processing unit
    26 Magnet element
    28 Electronics unit
    Cooking Field Control Unit
    32 Cooking battery housing unit
    3. 4 Outer shell part
    36 Inner Shell Part
    38 Intermediate space
    Cooking system
    42 Cooking Field Device
    44 Induction unit
    46 Induction heating element
    48 Power transmission element
    Cooking Field Plate
    54 Cooking Field Control Unit
    56 Axis
    58 Variable cooking surface area
    Classic Cooking Field
    62 Coil holder
    64 Permanent magnet
    66 Transmission element
    68 Processing tool
    Electromagnet
    72 First magnetic pole
    74 Second magnetic pole
    76 First magnetic pole
    78 Second magnetic pole
    权利要求:
    Claims (13)
    [1]
    image 1
    1. Cooking battery with a drive unit (12a-d), which is intended to drive at least one consumer (14a-d), and with a receiving unit (16a-d), which is intended to receive power without contact and to supply power to the unit
    5 motor (12a-d).
    [2]
    2. Cooking battery according to claim 1, characterized in that the receiving unit (16a-d) has at least one inductor.
    10 3. Cooking battery according to one of the preceding claims, characterized in that the drive unit (12a-d) is provided to provide at least one magnetic field to drive the consumer (14a-d).
    [4]
    4. Cooking battery according to one of the preceding claims,
    15 characterized in that the drive unit (12a-c) has at least one electric motor (18a-c), which is intended to drive the consumer (14a-c).
    [5]
    5. Cooking battery according to at least claim 3, characterized in that, to drive the consumer (14c-d), the drive unit (12c-d) is provided for
    20 providing a rotating magnetic field at least essentially about at least one axis of rotation (20c-d) and that partially or completely penetrates a food accommodation space (22c-d).
    [6]
    6. Cooking battery according to one of the preceding claims,
    25 characterized by the consumer (14a-d), which is made as a food processing unit (24a-d).
    [7]
    7. Cooking battery according to claims 5 and 6, characterized in that the
    consumer (14c-d) has at least one magnet element (26c-d), which is intended to interact with the magnetic field.
    [8]
    8. Cooking battery according to one of the preceding claims, characterized by an electronic unit (28a-d), which is intended to receive control instructions from a cooking field control unit (30a
    35 d). 22
    image2
    [9]
    9. Cooking battery according to one of the preceding claims, characterized by at least one cooking battery housing unit (32a-d), within which at least the receiving unit (16a-d) is arranged at least in the state mounted.
    [10]
    10. Cooking battery according to claim 9, characterized in that the cooking battery housing unit (32a-d) has at least one outer housing part (34a-d) opposite the food accommodation space (22a-d) and the minus one piece of inner casing (36a-d) directed towards the food accommodation space (22a-d), which are composed of materials with different magnetic properties.
    [11]
    eleven. Cooking battery according to claim 10, characterized in that the outer shell part (34a-d) and the inner shell part (36a-d) define at least one intermediate space (38a-d), which is filled with a material insulator largely or completely.
    [12]
    12. Cooking system with at least one cooking battery (10a-d) according to one of the preceding claims and with at least one cooking field device (42a-d), which has at least one induction unit (44a- d) that it is intended to supply power to the receiving unit (16a-d) of the cooking battery (10a-d).
    [13]
    13. Cooking system according to claim 12, characterized in that the induction unit (44b) has at least one energy transmission element (48b), performed differently with respect to an induction heating element (46b), which is intended to supply power to the receiving unit (16b) in at least one operating state.
    [14]
    14. Cooking system according to claim 12, characterized in that the induction unit (44a) has at least one induction heating element (46a), which is intended to supply the energy for the receiving unit (16a) in at least one state of operation.
    2. 3
    类似技术:
    公开号 | 公开日 | 专利标题
    ES2759911T3|2020-05-12|Cooking battery
    ES2769913T3|2020-06-29|Cooking battery
    CN105916421B|2018-12-11|Blade body, container and heating device with blade body
    ES2339887T3|2010-05-26|SYSTEM AND PROCEDURE INTENDED FOR FOOD PREPARATION.
    ES2319031B1|2010-02-03|COOKING FIELD WITH A MOVABLE HEATING ELEMENT.
    EP3146875B1|2020-03-18|Food blender with safety protection mechanism
    CA2710290A1|2009-07-09|Automatic milk foamer
    CN103796558A|2014-05-14|Induction heating device for heating a liquid
    KR101235163B1|2013-02-20|Induction tilting type kettle
    JP2006236856A|2006-09-07|Heating device of metallic can
    ES2673674B1|2019-05-14|Cooking appliance device
    ES2590382A1|2016-11-21|Cooking field device, cooking system with said device and cooking battery for said system |
    JP2011156200A|2011-08-18|Electric rice cooker
    WO2015106762A1|2015-07-23|Induction heating and stirring device
    JP2013017498A|2013-01-31|Rice cooker
    ES2590405B1|2017-09-08|Cooking field device, cooking field and cooking system with said device and cooking battery for said system
    KR100570804B1|2006-04-17|Cooking vessel equipped with automatic gas shutoff device due to water level change
    KR101904652B1|2018-10-05|smart electric range
    ES2714403A1|2019-05-28|Cooking system |
    JP2000257873A|2000-09-22|Microwave oven
    ES2713405T3|2019-05-21|Cooking machine with a heatable container
    ES2590404A1|2016-11-21|Cookware, cooking field device and cooking system |
    JP2014220182A|2014-11-20|Induction heating cooker
    ES2618798B1|2018-04-06|Home appliance system with cooking range and functional unit
    ES2736018B2|2021-11-02|Kitchen system and procedure for putting a kitchen system into operation
    同族专利:
    公开号 | 公开日
    ES2759911T3|2020-05-12|
    EP3298860A1|2018-03-28|
    US20180146516A1|2018-05-24|
    CN107637165A|2018-01-26|
    ES2590381B1|2017-09-07|
    EP3298860B1|2019-10-16|
    WO2016185305A1|2016-11-24|
    CN107637165B|2021-04-09|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US3761668A|1972-03-01|1973-09-25|Gen Electric|Small electrical apparatus powered by induction cooking appliances|
    US4038518A|1976-05-24|1977-07-26|Morton Richard F|Dining table combined with food warming apparatus|
    US5549382A|1995-04-27|1996-08-27|Correia, Ii; Bernard A.|Stirrer for food preparation|
    US20060221765A1|2005-04-05|2006-10-05|Andersson Per-Olof K|Ultraclean magnetic mixer|
    US20090251113A1|2008-04-02|2009-10-08|Puthalath Koroth Raghuprasad|Cordless power transfer|
    ES2393378A1|2011-06-07|2012-12-20|Electrodomésticos Taurus, S.L.|Kitchen worktop with rotary actuation means and cooking receptacle that can be used with said worktop|
    EP2757660A1|2011-09-14|2014-07-23|Panasonic Corporation|Non-contact power feed device and non-contact power transmission device|
    WO2014056785A1|2012-10-11|2014-04-17|Arcelik Anonim Sirketi|A wireless cooking appliance operated on an induction heating cooktop|
    FR2701093B1|1993-02-02|1995-04-14|Moulinex Sa|Cooking appliance comprising a browning device and a microwave energy generation device and method for controlling cooking of such a device.|
    FR2728132B1|1994-12-09|1997-02-28|
    CN101627661B|2007-03-12|2012-05-23|松下电器产业株式会社|Induction cooking device|
    ES2367281B1|2010-03-16|2012-09-04|Electrodomésticos Taurus S.L.|KITCHEN HOBBY WITH OPERATING MEANS FOR ROTATING BLADES AND KITCHEN HOB ASSEMBLY AND KITCHEN CONTAINER WITH ROTATING BLADES.|
    ES2371809B1|2010-06-18|2012-12-04|Electrodomésticos Taurus, S.L.|MOTORIZED KITCHEN HOB AND KITCHEN CONTAINER USED WITH SUCH HOB|
    US20150237682A1|2012-10-11|2015-08-20|Arcelik Anomim Sirketi|Wireless cooking appliance operated on an induction heating cooktop|
    US20160374501A1|2015-01-13|2016-12-29|Twin Harbor Labs, LLC|Intelligent Cooking Apparatuses and Methods|TR201604473A2|2016-04-06|2017-10-23|Arcelik As|OVEN INDUCTION HEATER WITH KITCHEN DEVICE ON|
    ES2673130B1|2016-12-19|2019-03-28|Bsh Electrodomesticos Espana Sa|DOMESTIC COOKING DEVICE FOR INDUCTION WITH A MATRIX OF HEATING ELEMENTS|
    ES2724125A1|2018-03-02|2019-09-06|Bsh Electrodomesticos Espana Sa|Cooking system |
    WO2020234105A1|2019-05-20|2020-11-26|BSH Hausgeräte GmbH|Cooking vessel device|
    DE102020109480A1|2020-04-06|2021-10-07|Miele & Cie. Kg|Inductive kitchen system|
    法律状态:
    2017-09-07| FG2A| Definitive protection|Ref document number: 2590381 Country of ref document: ES Kind code of ref document: B1 Effective date: 20170907 |
    2020-09-03| MH2A| Renunciation|Effective date: 20200828 |
    优先权:
    申请号 | 申请日 | 专利标题
    ES201530699A|ES2590381B1|2015-05-21|2015-05-21|Cooking battery|ES201530699A| ES2590381B1|2015-05-21|2015-05-21|Cooking battery|
    US15/571,507| US20180146516A1|2015-05-21|2016-04-27|Cooking utensil|
    CN201680029468.0A| CN107637165B|2015-05-21|2016-04-27|Cooking utensil|
    EP16721012.9A| EP3298860B1|2015-05-21|2016-04-27|Cooking utensil|
    ES16721012T| ES2759911T3|2015-05-21|2016-04-27|Cooking battery|
    PCT/IB2016/052368| WO2016185305A1|2015-05-21|2016-04-27|Cooking utensil|
    [返回顶部]