This application claims the priority of Spanish Patent Application, Serial No. P201830008, filed Jan. 8, 2018, pursuant to 35 U.S.C. 119(a)-(d), the disclosure of which is incorporated herein by reference in its entirety as if fully set forth herein.
The invention relates to a method for a cooktop, in particular for producing and/or operating a cooktop.
Cooktops are known to have variable cooking surfaces that can be partitioned into a plurality of heating zones to which a heat output is assigned in each case in a location-dependent manner in order to heat a cooking utensil that is deposited on the heating zone. In this case, a problem nonetheless exists that when using large cooking utensils, the heat output of heating zones that are situated in a peripheral region of the cooking surface cannot be set unless the cooking utensil projects beyond the cooking surface.
It would be desirable and advantageous to provide n improved method for a cooktop and to obviate prior art shortcomings, in particular in respect of flexibility.
According to one aspect of the present invention, a method for a cooktop, in particular for producing and/or operating a cooktop, includes partitioning a variable cooking surface of the cooktop in an operating mode along a partitioning direction into a plurality of heating zones by taking into account a cooking utensil characteristic in a peripheral region of the cooking surface, and assigning a heating parameter to each of the heating zones in a location-dependent manner in order to heat a cooking utensil deposited on the heating zone.
In accordance with the present invention, cooktops in particular can be produced and/or operated in a flexible manner. It is advantageously possible to produce cooktops which are adapted to a specific cooking utensil characteristic. It is particularly advantageous that the control unit of the cooktop can detect the cooking utensil characteristic of the deposited cooking utensil, and adapt the cooking surface to the cooking utensil characteristic.
A “variable cooking surface” is understood in particular to mean a cooking surface which is intended to form at least one cooking zone which is adapted to at least one deposited cooking utensil. In particular, the cooking surface is a section of a cooktop plate. The variable cooking surface is preferably intended to form at least two, in particular at least three, advantageously at least four, preferably at least five, independent cooking zones in at least one operating mode. In particular, the variable cooking surface differs from a cooking surface whose cooking zones are permanently preset, in particular by means of markings on the cooktop plate. In particular, the cooktop has at least one heating element matrix and/or at least one mobile heating element, in particular an induction heating element. An “induction heating element” is understood in particular to mean a heating element which is intended to convert at least 100 W, in particular at least 500 W, advantageously at least 1000 W, preferably at least 2000 W of electrical heat output into an electromagnetic radiation field, preferably having a frequency between 10 kHz and 150 kHz, in particular between 20 kHz and 100 kHz, which is intended to be converted into heat in at least one cooking utensil, in particular at least the base thereof, as a result of magnetic reversal and eddy current effects. Alternatively, resistance heating elements, radiant elements and/or similar are conceivable. A “heating element matrix” is understood in particular to mean an arrangement which is preferably two-dimensional and advantageously regular, in particular in a square or hexagonal pattern, of at least four, in particular at least ten, advantageously at least twenty, heating elements, in particular induction heating elements. A “mobile” heating element is understood in particular to mean a heating element which is intended to be moved within at least one section of the variable cooking surface by means of at least one actuator of the variable cooking surface. The cooktop advantageously has at least one sensor unit, which is formed by the heating elements themselves in particular and is intended to detect deposited cooking utensils, in particular by means of measuring at least one inductance and/or at least one capacitance. In particular, the variable cooking surface is intended to assign a cooking zone to a detected cooking utensil, the cooking zone being adapted to a bearing surface and/or position of the cooking utensil. In particular, the cooktop has at least one control unit, which is preferably intended to evaluate measured values of the sensor unit, to calculate at least one cooking zone, and to determine heating elements which heat this cooking zone. In particular, the control unit of the cooktop is intended to activate power electronics and to set a requested heat output for a cooking zone.
A “heating zone” is understood in particular to mean a section of the variable cooking surface, to which at least one heating parameter is assigned in each case in a location-dependent manner in order to heat a cooking utensil that is deposited on the heating zone. The heating parameter can advantageously be set by a user. In particular, the heating zone has a surface which differs from cooking zone. A “location-dependent assignment” is understood in particular to mean an assignment which takes a position of an object into account. In particular, the position can take the form of an absolute position and/or relative position. An “absolute position” is understood in particular to mean a position which is defined by a distance from a reference point that is valid for all objects. A “relative position” is understood in particular to mean a position which is defined by a distance from a reference point that is defined for the respective object.
A “partitioning” of the cooking surface is understood in particular to mean that the cooking surface is broken down into a plurality of sections, which together form the entire cooking surface. In particular, the cooktop can have at least two cooking surfaces. At least one of the cooking surfaces is advantageously partitioned into heating zones. The partitioning can be effected in particular by means of setting hardware. The partitioning is preferably effected by at least one control unit of the cooktop. A “partitioning direction” is understood in particular to mean a direction perpendicular to adjoining edges of two adjacent heating zones.
A “peripheral region” of the cooking surface is understood in particular to mean a section which extends from a demarcation of the cooking surface over a distance having a maximum length of 20 cm, advantageously 15 cm, particularly advantageously 10 cm and preferably 5 cm in the direction of the cooking surface.
A “cooking utensil characteristic” is understood in particular to mean a characteristic which characterizes a property of a cooking utensil. The cooking utensil characteristic can in particular take the form of a cooking utensil material and/or a cooking utensil weight. The cooking utensil characteristic preferably takes the form of a cooking utensil extent. A “cooking utensil extent” is understood in particular here to mean a maximum spatial spread of the cooking utensil in at least one direction parallel to the cooking surface. In particular, in the case of a round cooking utensil, the cooking utensil extent can be understood to mean a diameter of the cooking utensil. The cooking utensil extent particularly preferably takes the form of a maximum extent of the cooking utensil parallel to the partitioning direction.
“Intended” is understood in particular to mean specifically programmed, configured and/or equipped. An object being intended for a specific function is understood in particular to mean that the object satisfies and/or executes this specific function in at least one application mode and/or operating mode.
A “method for producing a cooktop” is understood in particular to mean a method which is carried out before initial use of the cooktop. In particular, the method has at least one production step in which, during partitioning of the cooking surface into the heating zones in the peripheral region of the cooking surface, at least one cooking utensil characteristic is taken into account, in particular in a fixed manner.
A “method for operating a cooktop” is understood in particular to mean a method which is carried out during at least one operating mode of the cooktop. In particular, the method has an operating step in which, during partitioning of the cooking surface into the heating zones in the peripheral region of the cooking surface, at least one cooking utensil characteristic is taken into account, in particular in a flexible manner, and in particular depending on a deposited cooking utensil.
It is additionally proposed that the cooking surface can be partitioned along a vertical and/or horizontal partitioning direction. In particular, the heating zones extend over the entire horizontal extent of the cooking surface in the case of a vertical partitioning direction, and over the entire vertical extent of the cooking surface in the case of a horizontal partitioning direction. It is also conceivable to partition the cooking surface into superordinate zones, each of which is partitioned along a vertical and/or horizontal partitioning direction. It is further conceivable to arrange the heating zones concentrically relative to each other. It is thereby possible in particular to increase operating convenience. The heating zones can advantageously be embodied in an optically distinctive manner.
It is further proposed that at least one cooking utensil extent, in particular along the partitioning direction, can be taken into account during the partitioning. In particular, the cooking utensil extent can be detected by the sensor unit and transferred to the control unit. It is thereby possible in particular to increase operating convenience. It is advantageously possible to provide cooktops which are suitable for various sizes of a cooking utensil that has been deposited.
It is furthermore proposed that a cooking utensil extent which corresponds to at least twice an extent of at least one heating element of the cooktop in the peripheral region along the partitioning direction, can be taken into account during the partitioning. In particular, a minimum extent of the heating zone corresponds to the extent of the heating elements along the partitioning direction. It is conceivable for all heating elements of the cooking surface to have an identical extent in each direction. It is then possible in particular to take the cooking utensil extent into account in an advantageous manner. The cooking utensil extent that is taken into account can advantageously be selected such that it is large enough to be accurately identified, in particular despite possible tolerances of the detection means that are used.
It is moreover proposed that a cooking utensil extent of at least 15 cm, in particular at least 20 cm, advantageously at least 25 cm and particularly advantageously at least 30 cm along the partitioning direction can be taken into account during the partitioning. It is then possible in particular to take the cooking utensil extent into account in a particularly advantageous manner. The cooking utensil extent that is taken into account is advantageously large enough to be accurately identified, in particular despite possible tolerances of the detection means that are used.
It is furthermore proposed that the partitioning can be carried out in the operating mode. The partitioning is advantageously carried out in the operating mode by the control unit. The control unit can conceivably be intended to take a predefined cooking utensil characteristic into account during the partitioning. The control unit is preferably intended to take a plurality of cooking utensil extents into account during the partitioning. It is thereby possible in particular to ensure flexible partitioning of the cooking surface. Identical control units can advantageously be used in different cooktops, wherein the control units can take different cooking utensil characteristics into account in each case during the partitioning, the cooking utensil characteristics being ascertained by a respective program. In the operating mode, the program can ascertain the cooking utensil characteristic that is to be taken into account in a particularly advantageous manner by means of an ID of the cooktop and/or measured values of the sensor unit.
It is additionally proposed that the partitioning of the cooking surface can be determined during production of the cooktop. It is conceivable for the partitioning to be determined by the setting of the hardware. The cooking surface advantageously has markings which characterize the partitioning. It is conceivable for the cooking surface to have a display unit which generates the markings. For example, the display unit could have a plurality of LEDs for generating the marking. The cooking utensil characteristic to be taken into account is preferably defined during the production. The control unit is advantageously equipped during the production with the program for determining the cooking utensil characteristic that is to be taken into account. It is thereby possible in particular to ensure simple and economical partitioning of the cooking surface. It is advantageously possible to ensure an optically distinctive partitioning of the cooking surface.
According to another advantageous feature of the present invention, it is proposed that the partitioning can be carried out in the operating mode in a variable manner depending on the cooking utensil characteristic. In particular, a cooking utensil characteristic that is detected by the sensor can be taken into account during the variable partitioning by the control unit in the operating mode. It is conceivable for the display unit to generate a variable marking of the cooking surface depending on the cooking utensil characteristic. It is thereby possible in particular to ensure flexible partitioning of the cooking surface. It is advantageously possible to produce and/or operate a cooktop which is suitable for cooking utensils having different cooking utensil characteristics.
It is moreover proposed that the cooking surface viewed along the partitioning direction can be partitioned into at least one peripheral heating zone and at least one inner heating zone, and that the peripheral heating zone can be so embodied as to be larger than the inner heating zone. An “inner heating zone” is understood in particular to mean a heating zone which borders other heating zones on both sides along the partitioning direction. A “peripheral heating zone” is understood in particular to mean a heating zone which borders other heating zones on exactly one side along the partitioning direction. A difference in size between the peripheral heating zones and the inner heating zones is preferably proportional to the cooking utensil characteristic that is taken into account. It is thereby possible in particular to increase operating convenience. It is advantageously possible to avoid the problem that is known from the prior art, namely that available peripheral heating zones are too small for large cooking utensils, making it impossible to deposit a large cooking utensil on the peripheral heating zone unless the cooking utensil projects beyond the cooking surface. The partitioning allows the cooking surface to be adapted to large cooking utensils in a particularly advantageous manner, by enlarging the peripheral heating zones in such a way that the cooking utensil can be deposited on the peripheral heating zones without projecting beyond the cooking surface.
It is also proposed that in at least one further operating mode, which can be in particular identical to the operating mode, partitioning of the cooking surface into heating zones can be carried out separately for each of the cooking utensils in the event that at least two cooking utensils are deposited. The separate partitionings can advantageously differ from each other. It is particularly advantageously possible to cancel and/or effect the partitioning separately for one of the cooking utensils concerned. It is conceivable for the display unit to generate a marking of the cooking surface separately for each of the cooking utensils, it being possible to combine or switch between the markings. It is thereby possible in particular to increase operating convenience and flexibility. The cooking surface can advantageously be adapted to a plurality of cooking utensils which are deposited separately from each other.
It is further proposed that during the partitioning into the heating zones, cooking utensil characteristics of both cooking utensils can be taken into account separately in each case. It is thereby possible in particular to increase operating convenience and flexibility. The cooking surface can advantageously be adapted to a plurality of cooking utensils which have different cooking utensil characteristics and are deposited separately from each other.
According to another aspect of the present invention, a cooktop includes a variable cooking surface configured such that in an operating mode the cooking surface is partitioned along a partitioning direction into a plurality of heating zones by taking into account a cooking utensil characteristic in a peripheral region of the cooking surface, and configured such that a heating parameter is assigned to each of the heating zones in a location-dependent manner in order to heat a cooking utensil deposited on the heating zone.
In accordance with the present invention, it is thereby possible in particular to provide a flexible cooktop.
According to another advantageous feature of the present invention, the cooktop can include a control unit which is intended to carry out a method according to the invention. It is thereby possible in particular to achieve a simple structural design of the cooktop.
According to still another advantageous feature of the present invention, a system includes a cooking utensil and a cooktop as set forth above. As a result, an effective partitioning of the cooking surface can be achieved.
Further advantages are derived from the following description of the drawings. Exemplary embodiments of the invention are illustrated in the drawings. The drawings, the descriptions and the claims contain numerous features in combination. A person skilled in the art will also regard the features individually and use them to form further effective combinations as appropriate.
If it is difficult for the control unit 28a and/or the sensor unit to detect that the same cooking zone is still involved when the cooking utensil 24a is moved a significant distance over the cooking surface 12a, a conceivable approach to the solution would be for the control unit 28a to request an input from a user via the operating unit 26a, in order to confirm that the same cooking zone is still involved.
The cooking surface 12a is partitioned into a plurality of heating zones 16a in at least one operating mode, in particular a so-called “Power Move” operating mode. A partitioning into the heating zones 16a extends along a partitioning direction 18a which is aligned parallel to a depth direction of the cooking surface 12a. Alternatively, the partitioning could extend along a width direction of the cooking surface 12a. The partitioning is carried out in the operating mode by the control unit 28a. The actual type of partitioning is however determined during production of the cooktop 10a, and in particular is programmed into the control unit 28a. During the production of the cooktop 10a, the control unit 28a is equipped with a program for defining the cooking utensil characteristic that is to be taken into account. As a result, the same cooking utensil characteristic is always taken into account during the partitioning by the control unit 28a. The cooking utensil characteristic takes the form of a cooking utensil extent. The cooking utensil characteristic takes the form of a diameter of the cooking utensil 24a. Alternatively, the cooking utensil characteristic could take the form of a cooking utensil material or a cooking utensil weight. The cooking utensil extent is greater than twice an extent of the heating elements 14a along the partitioning direction 18a. The cooking utensil extent is greater than 15 cm.
A heat output is assigned to each of the heating zones 16a. Alternatively, a reference temperature could be assigned to the heating zones 16a. The heat output is assigned to the heating zones 16a depending on an absolute position on the cooking surface 12a. If the position of the cooking utensil 24a is arranged within one of the heating zones 16a, the heat output assigned to the heating zone 16 is set for the heating elements 14a of the cooking zone which corresponds to the cooking utensil 24a. The heating zones 16a can be partitioned into peripheral heating zones 22a and inner heating zones 20a. The peripheral heating zones 22a are so embodied as to be larger than the inner heating zones 20a. The cooking utensil extent of the cooking utensil 24a is thereby taken into account. By virtue of the larger peripheral heating zones 22a, the cooking utensil 24a can be positioned within the peripheral heating zones 22a without projecting beyond the cooking surface 12a. Since the program defines the cooking utensil extent that is to be taken into account, the program indirectly defines a ratio of extents of the peripheral heating zones 22a and inner heating zones 20a.
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ES201830008 | Jan 2018 | ES | national |
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Entry |
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20190215913 A1 | Jul 2019 | US |