EP3714211B1 - Verfahren zu einer montage eines garsystems - Google Patents

Verfahren zu einer montage eines garsystems Download PDF

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Publication number
EP3714211B1
EP3714211B1 EP18811364.1A EP18811364A EP3714211B1 EP 3714211 B1 EP3714211 B1 EP 3714211B1 EP 18811364 A EP18811364 A EP 18811364A EP 3714211 B1 EP3714211 B1 EP 3714211B1
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EP
European Patent Office
Prior art keywords
unit
heating unit
relative
installation
heating
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Application number
EP18811364.1A
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German (de)
English (en)
French (fr)
Other versions
EP3714211A1 (de
Inventor
Manuel Almolda Fandos
Tomas Cabeza Gozalo
Sergio Llorente Gil
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
BSH Hausgeraete GmbH
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BSH Hausgeraete GmbH
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Publication date
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Publication of EP3714211A1 publication Critical patent/EP3714211A1/de
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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24CDOMESTIC STOVES OR RANGES ; DETAILS OF DOMESTIC STOVES OR RANGES, OF GENERAL APPLICATION
    • F24C7/00Stoves or ranges heated by electric energy
    • F24C7/06Arrangement or mounting of electric heating elements
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24CDOMESTIC STOVES OR RANGES ; DETAILS OF DOMESTIC STOVES OR RANGES, OF GENERAL APPLICATION
    • F24C15/00Details
    • F24C15/10Tops, e.g. hot plates; Rings
    • F24C15/108Mounting of hot plate on worktop
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24CDOMESTIC STOVES OR RANGES ; DETAILS OF DOMESTIC STOVES OR RANGES, OF GENERAL APPLICATION
    • F24C15/00Details
    • F24C15/10Tops, e.g. hot plates; Rings
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24CDOMESTIC STOVES OR RANGES ; DETAILS OF DOMESTIC STOVES OR RANGES, OF GENERAL APPLICATION
    • F24C7/00Stoves or ranges heated by electric energy
    • F24C7/06Arrangement or mounting of electric heating elements
    • F24C7/067Arrangement or mounting of electric heating elements on ranges
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B6/00Heating by electric, magnetic or electromagnetic fields
    • H05B6/02Induction heating
    • H05B6/10Induction heating apparatus, other than furnaces, for specific applications
    • H05B6/12Cooking devices
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B6/00Heating by electric, magnetic or electromagnetic fields
    • H05B6/02Induction heating
    • H05B6/10Induction heating apparatus, other than furnaces, for specific applications
    • H05B6/12Cooking devices
    • H05B6/1209Cooking devices induction cooking plates or the like and devices to be used in combination with them

Definitions

  • the invention relates to a method for assembling a cooking system according to claim 1.
  • a method for assembling a cooking system is already known from the prior art, in which a heating unit of the cooking system is arranged below a mounting plate of the cooking system. In the course of aligning a position of the heating unit relative to the target set-up position, a fitter manually aligns the heating unit relative to the target set-up position using markings on the mounting plate.
  • the pamphlet EP 2 208 436 A2 discloses a method for assembling a cooking system according to the preamble of claim 1.
  • the publication DE 10 2007 032757 A1 discloses a cooking device with an induction unit.
  • the pamphlet GB 1 041 366 A discloses a cooktop which is aligned by non-automatic adjustment.
  • a cooking system which has an induction coil whose distance from a cooking vessel can be changed and which performs power optimization in which a distance between the induction coil and the cooking utensil is changed until a maximum heat output is reached.
  • the object of the invention is, in particular, to provide a method for assembling a generic system with improved properties in terms of assemblability.
  • the object is achieved according to the invention by the features of claim 1, while advantageous refinements and developments of the invention can be found in the dependent claims.
  • a method for assembling a cooking system which has at least one heating unit and at least one installation plate, which defines at least one target installation position for at least one installation unit, in which, in the course of an alignment of a position of the heating unit relative to the target installation position, in particular during an installation and/or assembly and advantageously on site and/or at an operator's home, at least one alignment parameter is determined at least partially automatically, in particular electronically and/or avoiding manual determination, by an alignment parameter determination unit of the cooking system and during the alignment of the position of the heating unit relative to the Target installation position is taken into account.
  • the configuration according to the invention makes it possible to achieve particularly advantageous properties with regard to assembly. Furthermore, a high level of assembly comfort can be achieved in particular. In particular, a precise alignment of a location Heating unit are allowed relative to the Sollaufstellposition, whereby optimal cooking results and / or low power losses can be achieved especially in subsequent cooking processes. In particular, an optimal alignment of a position of the heating unit relative to the desired set-up position can be guaranteed.
  • simple assembly can be achieved, in particular with regard to a relative position of the heating unit to the target installation position, in particular with regard to a vertical distance of the heating unit from the target installation position, and/or with regard to a relative angular orientation of the heating unit to the target installation position .
  • maximum efficiency and/or maximum energy transfer from the heating unit to a cooking utensil to be heated and/or optimum coupling between the heating unit and at least one cooking utensil that has been set up can be made possible.
  • a “cooking system” is to be understood in particular as a system that has at least one cooking appliance that is intended for cooking food, such as an oven and/or a hob and/or a microwave, and which in particular also has at least one further structural unit could have, which is designed differently from a cooking appliance, such as in particular a cleaning appliance and/or a refrigerating appliance and/or a mobile appliance and/or at least one contact module and/or at least one installation unit.
  • the cooking system is intended to have at least one structural unit which is intended to be arranged in a kitchen.
  • the cooking system could, for example, have at least one accessory unit for the cooking appliance, such as a sensor unit for externally measuring a temperature of a cooking utensil and/or an item to be cooked and/or a positioning unit.
  • the cooking system could have at least one installation unit, in particular the installation unit, and/or at least one cooking utensil.
  • a “heating unit” is to be understood in particular as a unit which is intended to supply energy to at least one cooking utensil and/or at least one standing unit in at least one operating state for the purpose of heating the cooking utensil and/or the standing unit.
  • the heating unit could be designed as a resistance heating unit and be provided in particular to convert energy into heat and supply it to the cooking utensil and/or the installation unit for the purpose of heating the cooking utensil and/or the installation unit.
  • the heating unit could be designed as an induction heating unit and be provided in particular to supply energy in the form of an alternating electromagnetic field to the cooking utensil and/or the installation unit, the cooking utensil and/or the energy supplied to the installation unit could be converted into heat, in particular in the cooking utensil and/or in the installation unit.
  • the cooking system has at least one mounting plate, which is provided in particular for mounting at least one cooking utensil and/or at least one mounting unit.
  • a “support plate” should be understood in particular as at least one unit, in particular a plate-like unit, which is provided for setting up at least one cooking utensil and/or for setting up at least one setting unit and/or for placing at least one item to be cooked on it for the purpose of heating.
  • the mounting plate could be designed, for example, as a partial area of at least one worktop, in particular at least one kitchen worktop, in particular of the cooking system. Alternatively or additionally, the mounting plate could be designed as a hob plate.
  • the mounting plate designed as a hob plate could, in particular, form at least part of an outer hob housing and, in particular, together with at least one outer housing unit, with which the mounting plate designed as a hob plate could be connected in at least one assembled state, at least to a large extent form the outer housing of the hob.
  • the installation plate could, for example, be made at least to a large extent of glass and/or glass ceramic and/or neolith and/or dekton and/or wood and/or marble and/or stone, in particular natural stone, and/or laminate and/or made of metal and/or plastic and/or ceramic. “At least for the most part” is to be understood as meaning in particular a proportion, in particular a mass proportion and/or volume proportion, of at least 70%, in particular at least 80%, advantageously at least 90% and preferably at least 95%.
  • a "target set-up position” is to be understood in particular as a position at which a set-up unit, in particular at least one cooking utensil of a set-up unit, can be heated, in particular optimally, in particular with maximum energy transfer from the heating unit to the set-up unit and/or with minimal power losses, and /or below which the heating unit is arranged in an installation position and/or which is identified, in particular marked and/or emphasized, by at least one identifier in at least one operating state.
  • the mounting plate could have at least one marking to identify the target mounting position.
  • the marking could, for example, be at least one imprint on at least one base body of the mounting plate and/or at least one coating on at least one base body of the mounting plate.
  • the cooking system could alternatively or additionally have, for example, at least one display unit which, in particular, in at least an operating state could identify the target installation position.
  • the display unit could have at least one light source and advantageously at least one light source for illuminating the target set-up position.
  • a target set-up position "for" a set-up unit is to be understood in particular as meaning that the target set-up position is provided for setting up the set-up unit and/or that the set-up unit is set up at the target set-up position in at least one operating state.
  • a “installation unit” is to be understood in particular as a unit which is provided for coupling to the heating unit and which receives and/or absorbs energy from the heating unit in at least one operating state in particular in the course of coupling to the heating unit.
  • the set-up unit could have at least one cooking utensil, for example.
  • the positioning unit could have at least one underlay device, which could be provided in particular for positioning at least one cooking utensil, in particular the cooking utensil.
  • the set-up unit has at least one coupling unit, which is provided in particular for coupling to the heating unit.
  • the coupling unit has in particular at least one coupling element which is provided in particular for coupling to the heating unit.
  • the coupling element could be designed in particular as a coil.
  • the set-up unit could have at least two, advantageously at least three, preferably at least five and particularly preferably several coupling elements, which could be provided in particular for coupling to the heating unit.
  • an “alignment parameter” is to be understood in particular as a parameter which characterizes and/or characterizes a position of the heating unit relative to the desired set-up position.
  • a “position” of the heating unit relative to the target set-up position is to be understood in particular as a relative position of the heating unit relative to the target set-up position and/or a relative angular orientation of the heating unit relative to the target set-up position.
  • the relative position of the heating unit relative to the target installation position could, in particular when viewed perpendicularly to a main extension plane of the installation plate, in an installed position, in particular a horizontal distance between the heating unit and the target installation position, in particular a degree of overlap of the heating unit with the target installation position.
  • the horizontal distance between the heating unit and the target set-up position is, in particular when viewed perpendicularly to a main extension plane of the set-up plate, in particular a shortest connection between a center and/or center of gravity of the heating unit and a center and/or center of gravity of the target set-up position.
  • the relative position of the heating unit relative to the target set-up position is advantageous in an installation position, in particular a vertical distance between the heating unit and the target installation position.
  • the vertical distance between the heating unit and the desired set-up position is in particular aligned at least substantially perpendicular to a main extension plane of the set-up plate.
  • the relative angular orientation of the heating unit relative to the target installation position could be, for example, a relative orientation of a main extension plane of the heating unit relative to a main extension plane of the installation plate and/or a tilting of the heating unit relative to the target installation position.
  • a "main extension plane" of an object is to be understood in particular as a plane which is parallel to a largest side surface of the smallest imaginary geometric cuboid which just completely encloses the object and in particular runs through the center point of the cuboid.
  • the expression that at least one alignment parameter is determined at least "semi-automatically” in the course of aligning a position of the heating unit relative to the target set-up position is intended to mean in particular that in the course of aligning a position of the heating unit relative to the target set-up position, the alignment parameter is determined at least for one Part is determined automatically and in addition could be determined manually at least to a further part. “Automatically” is to be understood in particular as automatically and/or with the avoidance of manual involvement.
  • the cooking system has at least one alignment parameter determination unit, which determines the alignment parameter in particular when aligning a position of the heating unit relative to the target installation position and takes the alignment parameter into account in particular when aligning the position of the heating unit relative to the target installation position.
  • the alignment parameter determination unit has in particular at least one control unit, which determines the alignment parameter in particular when aligning a position of the heating unit relative to the target installation position and takes the alignment parameter into account in particular when aligning the position of the heating unit relative to the target installation position.
  • control unit is to be understood in particular as an electronic unit which is preferably provided to control and/or regulate at least the heating unit and/or at least part of the cooking appliance.
  • the control unit could be a control and/or regulating unit of at least one cooking appliance, in particular a hob, at least partially integrated and in particular intended to control and/or regulate at least one functional unit of the cooking appliance, which could in particular be intended to carry out a main function of the cooking appliance .
  • the control unit has an arithmetic unit and, in particular, in addition to the arithmetic unit, a memory unit with a control and/or regulation program stored therein, which is intended to be executed by the arithmetic unit.
  • the alignment parameter determination unit determines at least one installation alignment parameter, in particular before aligning a position of the heating unit relative to the target installation position and advantageously when aligning a position of the installation unit relative to the heating unit, and takes the installation alignment parameter into account, in particular when aligning the position of the installation unit relative to the heating unit.
  • the setup orientation parameter has at least one relative position of the setup unit relative to the heating unit and/or at least one relative angular orientation of the setup unit relative to the heating unit.
  • Provided should be understood to mean, in particular, specially programmed, designed and/or equipped.
  • the fact that an object is provided for a specific function is to be understood in particular to mean that the object fulfills and/or executes this specific function in at least one application and/or operating state.
  • the alignment parameter includes at least a relative position of the heater unit relative to the target deployment position.
  • a “relative position” of the first object relative to at least one second object should be at least a vertical distance between the first object and the second object in an installation position and/or at least a horizontal distance between the first object when viewed perpendicularly to a main extension plane of the mounting plate to the second object and/or at least an overlap of the first object with the second object. In this way, optimal cooking results can be achieved, in particular following an alignment of the position of the heating unit relative to the desired set-up position.
  • the alignment parameter has at least one relative angular orientation of the heating unit relative to the desired set-up position.
  • a "relative angular orientation" of a first Object relative to at least one second object is to be understood in particular as a relative orientation of a main extension plane of the first object relative to a main extension plane of the second object and/or a tilting of the first object relative to the second object.
  • the alignment parameter When aligning the position of the heating unit relative to the target set-up position, the alignment parameter could, for example, be determined automatically, in particular fully automatically, in particular internally in the alignment parameter determination unit, and taken into account automatically, in particular fully automatically, such as in the case of a machine, for example by at least one control unit made alignment of a position of the heating unit relative to the target installation position. In this case, in particular, an output of the alignment parameter via at least one output unit of the cooking system could be dispensed with.
  • the alignment parameter is preferably output via at least one output unit, in particular optically and/or acoustically and/or haptically.
  • the alignment parameter could be output fully automatically and/or at least partially automatically.
  • the cooking system has at least one output unit, in particular the output unit.
  • An "output unit" is to be understood in particular as a unit which is intended to provide an operator, in particular optically and/or acoustically and/or haptically, with at least one parameter, such as information and/or a time indication and/or an operator prompt and/or or a call to action and/or a choice.
  • the output unit could be provided to output at least one acoustic signal and/or in particular at least one acoustic sequence, such as a ringtone and/or a warning signal and/or a prompt in the form of a particular prefabricated sentence.
  • the output unit could be provided to provide a visual output, such as a display of at least one image and/or at least one text and/or at least one number and/or at least one animation.
  • the output unit could have at least one loudspeaker.
  • the output unit could have a display unit, in particular with at least one light source, advantageously an LED, and/or a display, in particular a backlit display, in particular a matrix display and/or an LCD display, an OLED display and/or electronic paper.
  • the output unit has at least one liquid crystal display.
  • the alignment parameter determination unit is provided in particular for communication and/or interaction with the user, in particular via the output unit and/or via at least one user interface.
  • the alignment parameter determination unit is provided in particular to control the output unit in at least one operating state and in particular to output the alignment parameter to an operator and/or to a fitter by means of the output unit.
  • the cooking system has at least one user interface, which in particular could be at least partially part of the cooking appliance. In this way, in particular, a comfortable alignment of the heating unit relative to the desired set-up position can be made possible.
  • the output unit could, for example, be at least partially part of the cooking appliance, in particular at least one user interface.
  • the output unit could have at least one display, in particular a liquid crystal display.
  • the output unit could be at least partially part of an external display, such as a computer display and/or a television display.
  • the external screen could in particular be connected to the cooking appliance and/or to the set-up unit and/or communicate with the cooking appliance and/or with the set-up unit, in particular wirelessly.
  • the output unit is preferably at least partially part of a mobile device.
  • the alignment parameter could be output in particular via at least one application.
  • a first object is "at least partially" part of a second object should be understood in particular to mean that the first object has at least one sub-area, in particular at least one element and/or at least one unit, which is part of the second object and in particular, in addition to the sub-area, could have at least one further sub-area, which in particular could be part of at least one third object that is different from the second object.
  • the mobile device could be a mobile phone and/or a mobile phone and/or a laptop and/or a tablet, for example. In this way, in particular, a comfortable assembly can be achieved, since in particular the output unit can always be positioned within reach and/or within sight, regardless of the assembly location.
  • one position of the heating unit when aligning the position of the heating unit relative to the target set-up position, one position of the heating unit could be kept constant and one position of the target set-up position to be changed.
  • a position of the heating unit is preferably changed and a position of the desired set-up position is kept constant.
  • the cooking system has at least one movement unit, which is provided in particular to move the heating unit and/or at least one heating unit carrier unit, specifically in particular relative to the desired set-up position and/or relative to at least one carrier unit, the position of which is kept constant in particular.
  • the cooking system has at least one heating unit carrier unit which, in an installation position, absorbs in particular a weight of the heating unit and in particular transmits it to at least one further unit, in particular to at least one carrier unit and/or to at least one piece of furniture and/or to at least one housing unit of the cooking system .
  • the cooking system has at least one carrier unit which, in an installation position, absorbs in particular a weight force of the heating unit and/or the heating unit carrier unit and in particular transmits it to at least one further unit, in particular to at least one piece of furniture and/or to at least one housing unit of the cooking system.
  • the movement unit connects in particular the heating unit and/or the heating unit carrier unit to the carrier unit.
  • the movement unit could have at least one hexapod and/or by means of at least one smart pot, which could be provided in particular to move the heating unit and/or the heating unit carrier unit.
  • the movement unit could have at least one movement element, which could be provided in particular to move the heating unit and/or the heating unit carrier unit.
  • the movement element could in particular be connected to the heating unit and/or to the heating unit carrier unit by means of at least one thread and move these in particular by means of the thread.
  • the thread could have a metric in a range of three to eight. In this way, in particular, simple and/or quick and/or uncomplicated assembly can be made possible, since in particular the heating unit can be moved more easily than the desired set-up position, during which movement the entire set-up plate in particular would have to be moved.
  • the alignment parameter determination unit has at least one sensor unit, which detects at least one coupling parameter when a position of the heating unit is aligned relative to the desired set-up position.
  • a sensor unit should in particular a unit is to be understood which has at least one sensor and/or detector for detecting the coupling parameter and/or the alignment parameter and/or the installation alignment parameter and which is provided for the purpose of identifying a coupling parameter and/or the alignment parameter and/or the installation alignment parameter to output a value, the coupling parameter and/or the alignment parameter and/or the installation alignment parameter advantageously being a physical and/or chemical variable.
  • Detect should be understood to mean, in particular, measuring and/or determining.
  • a "coupling parameter” is to be understood in particular as a parameter, in particular an electrical and/or electronic and/or magnetic and/or electromagnetic parameter, which characterizes and/or characterizes a coupling of the heating unit and the installation unit.
  • the heating unit could be at least partially part of the alignment parameter determination unit, in particular the sensor unit of the alignment parameter determination unit.
  • the installation unit, in particular the coupling unit of the installation unit could be part of the sensor unit and could be at least partially part of the alignment parameter determination unit, in particular the sensor unit of the alignment parameter determination unit.
  • the coupling parameter could be, for example, at least one inductance and/or at least one induced voltage and/or an impedance and/or a ratio of a real part and an imaginary part of an impedance and/or a magnetic flux and/or an alternating electromagnetic field.
  • the alignment parameter determination unit compares in particular a current coupling parameter detected by the sensor unit in particular with at least one reference value for the coupling parameter.
  • the alignment parameter determination unit could have at least one memory unit in which in particular at least one reference value for the coupling parameter could be stored.
  • a large number of reference values are advantageously stored in the memory unit of the alignment parameter determination unit, which could be stored in tabular form and/or in the form of at least one mathematical function.
  • the alignment parameter determination unit matches in particular a current coupling parameter detected by the sensor unit with the reference value for the coupling parameter and thereby aligns the heating unit in particular relative to the target set-up position.
  • the alignment parameter determination unit controls the heating unit in particular and provides an alternating electromagnetic field by means of the heating unit.
  • the Coupling unit of the installation unit provided by the heating unit electromagnetic alternating field, in particular by changing at least the coupling parameter.
  • the alignment parameter determination unit determines the alignment parameter in particular on the basis of the coupling parameter, in particular on the basis of a change in the coupling parameter.
  • the alignment parameter determination unit could determine the alignment parameter, which has at least one relative position of the heating unit relative to the target set-up position, which in particular has at least a vertical distance of the heating unit from the target set-up position in an installation position, using a coupling parameter which, in particular, has an inductance and/or a ratio a real part and an imaginary part of an impedance.
  • the alignment parameter determination unit could determine the alignment parameter, which has at least one relative angular orientation of the heating unit relative to the desired set-up position, using a coupling parameter, which could in particular be an induced voltage.
  • the alignment parameter can be determined in a technically simple and/or reliable manner.
  • the alignment parameter determination unit uses the heating unit to provide at least one alternating electromagnetic field, in particular for heating at least one set-up unit set up at the target set-up position.
  • the alignment parameter determination unit in particular the sensor unit of the alignment parameter determination unit, detects a progression of an energy supplied to the installation unit, in particular as a function of a frequency.
  • the alignment parameter determination unit compares in particular the curve of energy supplied to the set-up unit with at least one reference value for the curve of energy supplied to the set-up unit.
  • the reference value for the course of an energy supplied to the installation unit could be stored in particular in the storage unit of the alignment parameter determination unit, specifically in tabular form and/or in the form of at least one mathematical function. This makes it possible to achieve a particularly high level of operating convenience, since the alignment of the heating unit relative to the target installation position can be corrected in particular if the check detects an incorrect alignment of the heating unit relative to the target installation position.
  • the same set-up unit could be set up as for the alignment of the position, for example of the heating unit relative to the target set-up position.
  • a further installation unit that is different from the installation unit is preferably used.
  • the further set-up unit could, for example, be constructed at least partially and advantageously completely identically to the set-up unit and in particular have at least one cooking utensil and/or at least one underlay device.
  • the set-up unit and the further set-up unit could be designed differently from one another.
  • the further set-up unit could, for example, have at least one cooking utensil and in particular be embodied as the cooking utensil. In this way, in particular, a possible incorrect alignment of the heating unit relative to the desired set-up position, which could result in particular from a faulty set-up unit, can be avoided.
  • a particularly high level of operating comfort can be achieved in particular by an unstressed cooking system, which is assembled using a method for assembling a cooking system.
  • the heating unit In an installation position and in particular in an aligned state of a position of the heating unit relative to the target set-up position, the heating unit has a vertical distance from the target set-up position of at least 10 mm, in particular of at least 15 mm, advantageously of at least 20 mm, particularly advantageously of at least 25 mm and preferably at least 30 mm.
  • the heating unit in an installed position and in particular in an aligned state of a position of the heating unit relative to the target installation position, has a vertical distance from the target installation position of at most 60 mm, in particular at most 55 mm, advantageously at most 50 mm, particularly advantageously at most 45 mm and preferably of a maximum of 40 mm.
  • the cooking system has at least one alignment parameter determination unit, which is provided for determining the alignment parameter.
  • the alignment parameter determination unit determines the alignment parameter when a position of the heating unit is aligned relative to the desired set-up position. In this way, in particular, a high level of operating convenience and/or optimum cooking results can be provided.
  • the alignment parameter determination unit has the heating unit.
  • the heating unit is in particular at least partially part of the alignment parameter determination unit, in particular the sensor unit of the alignment parameter determination unit. In this way, in particular, a compact design and/or a small number of components can be made possible.
  • the cooking system has at least one installation unit, which is at least partially part of the alignment parameter determination unit, in particular the sensor unit of the alignment parameter determination unit, whereby the alignment parameter can in particular be determined particularly reliably, since in particular properties of the installation unit are known and can therefore be taken into account in particular by the alignment parameter determination unit.
  • the set-up unit has at least one cooking utensil.
  • the set-up unit can be used particularly flexibly, in particular both when aligning a position of the heating unit relative to the target set-up position and during at least one cooking process.
  • the positioning unit could, for example, only have the coupling unit in addition to the cooking utensil and in particular be free of an underlay device.
  • the installation unit preferably has at least one underlay device, which is provided for installing at least one cooking utensil, in particular the cooking utensil of the installation unit.
  • a "underlay device” is to be understood in particular as a device which is provided in particular for placing, in particular for placing, on the mounting plate and for setting up at least one cooking utensil and which, in particular in at least one heating operating state, at least partially forms a base for the cooking utensil . In one installation position, the underlay device is intended in particular to be placed above the heating unit.
  • the underlay device is intended to absorb at least one thermal energy coming from a set cooking utensil and/or to prevent it from reaching the set-up plate.
  • the mounting plate can be protected against damage, particularly in at least one heating operating state, which could be caused in particular by overheating due to energy being transferred from the cooking utensil to the mounting plate, which means that a durable design can be achieved in particular.
  • the method for assembling a cooking system and/or the cooking system should not be limited to the application and embodiment described above.
  • the method for assembling a cooking system and/or the cooking system for fulfilling a function described herein can have a number of individual elements, components and units that differs from the number specified herein, the scope of protection being defined by the claims.
  • the cooking system 10a has a mounting plate 14a.
  • the installation plate 14a defines a target installation position 16a for an installation unit 18a (cf. also 2 ).
  • the mounting plate 14a forms a visible surface which, in a mounted state, is arranged facing in particular an operator.
  • the mounting plate 14a is provided for setting up the mounting unit 18a, in particular a cooking utensil 26a and/or an underlay device 28a of the mounting unit 18a, in particular at the desired mounting position 16a for heating (cf. Figures 1 and 2 ).
  • the mounting plate 14a is designed as a worktop, in particular as a kitchen worktop.
  • the cooking system 10a has an operator interface 30a for entering and/or selecting operating parameters, for example a heating power and/or a heating power density and/or a heating zone.
  • the operator interface 30a is provided for outputting a value of an operating parameter to an operator.
  • the cooking system 10a has a control unit 32a.
  • the control unit 32a is provided for carrying out actions and/or changing settings depending on operating parameters entered by means of the user interface 30a. In a heating operating state, the control unit 32a regulates an energy supply to at least one heating unit 12a.
  • the cooking system 10a has several heating units 12a (cf. Figures 1 and 2 ), of which only one is shown in the figures and of which only one is described below becomes.
  • the heating unit 12a is intended to heat cookware 26a placed on the mounting plate 14a above the heating unit 12a and in particular at the desired mounting position 16a.
  • the heating unit 12a is designed as an induction heating unit.
  • the heating unit 12a is arranged in an installation position below the mounting plate 14a, specifically below the target mounting position 16a.
  • the cooking system 10a has a heating unit carrier unit 80a per heating unit 12a (cf. 2 ).
  • the heating unit support unit 80a supports the heating unit 12a in an installation position.
  • the heating unit support unit 80a could have a coil support and/or a shielding element and/or a housing unit, for example.
  • the cooking system 10a has a carrier unit 36a (cf. 2 ).
  • the carrier unit 36a is arranged in an installed position below the mounting plate 14a. In one installation position, the heating unit 12a is supported on the carrier unit 36a. In an installed position, the carrier unit 36a absorbs a weight of the heating unit 12a and/or the heating unit carrier unit 80a. In an installation position, the carrier unit 36a forwards a weight of the heating unit 12a and/or the heating unit carrier unit 80a to at least one further unit, such as a housing unit and/or a piece of furniture.
  • the cooking system 10a has a movement unit 38a (cf. 2 ).
  • the moving unit 38a is provided for moving the heating unit 12a and/or the heating unit carrier unit 80a.
  • the movement unit 38a supports the heating unit 12a, in particular the heating unit carrier unit 80a, on the carrier unit 36a.
  • the movement unit 38a connects the heating unit 12a, in particular the heating unit carrier unit 80a, and the carrier unit 36a to one another.
  • the movement unit 38a has at least one movement element 40a.
  • the movement unit 38a has, in particular, four movement elements 40a per heating unit 12a, of which 2 only two are shown. Of the objects that are present several times, only one is provided with a reference number in each of the figures.
  • One moving element 40a each is arranged in a corner region of the heating unit 12a, in particular in a corner region of the heating unit support unit 80a, when viewed perpendicularly to a main extension plane of the heating unit 12a.
  • the movement unit 38a is provided, in particular by means of the movement elements 40a, for changing a relative position of the heating unit 12a, in particular the heating unit carrier unit 80a, relative to the desired set-up position 16a.
  • the movement unit 38a is capable of changing a relative angular orientation, in particular by means of the movement elements 40a of the heating unit 12a, in particular the heating unit carrier unit 80a, is provided relative to the set installation position 16a. Only one of the movement elements 40a is described below.
  • the carrier unit 36a is arranged in an installed position below the heating unit 12a and/or below the mounting plate 14a.
  • a main plane of extension of the carrier unit 36a and a main plane of extension of the mounting plate 14a are aligned essentially parallel to one another.
  • the movement unit 38a in particular the movement element 40a of the movement unit 38a, extends partially through the carrier unit 36a (cf. 2 and 3 ).
  • the movement unit 38a in particular the movement element 40a of the movement unit 38a, extends partially through a partial area of the heating unit 12a, in particular through a partial area of the heating unit carrier unit 80a.
  • the movement unit 38a in particular the movement element 40a of the movement unit 38a, and the carrier unit 36a are connected to one another via a thread.
  • a relative position of the heating unit 12a relative to the target set-up position 16a and/or a relative angular orientation of the heating unit 12a relative to the target set-up position 16a can be changed by means of the thread, in particular by means of the movement unit 38a.
  • the carrier unit 36a could be arranged partially to the side of the heating unit 12a, in particular of the heating unit carrier unit 80a (cf. 4 ).
  • a main plane of extension of the carrier unit 36a and a main plane of extension of the mounting plate 14a could be aligned substantially perpendicular to one another.
  • the carrier unit 36a could be formed partially in one piece with a housing wall and/or with a furniture wall.
  • the carrier unit 36a could, for example, be part of a housing wall and/or a furniture wall.
  • the heating unit 12a is aligned relative to the target set-up position 16a.
  • a set-up unit 18a is set up on the set-up plate 14a, in particular in the vicinity of the desired set-up position 16a.
  • the installation unit 18a is provided specifically for the method of assembling the cooking system 10a.
  • the cooking system 10a has the installation unit 18a (cf. 2 and 5 to 7 ).
  • the installation unit 18a has a cooking utensil 26a.
  • the positioning unit 18a has an underlay device 28a.
  • the underlay device 28a is provided for setting up the cooking utensil 26a.
  • an alignment parameter is determined semi-automatically in the course of aligning a position of the heating unit 12a relative to the target set-up position 16a, in particular by an alignment parameter determination unit 24a.
  • the cooking system 10a has the alignment parameter determination unit 24a (cf. 2 and 5 to 7 ).
  • the alignment parameter determination unit 24a is provided for determining the alignment parameter.
  • the heating unit 12a and the positioning unit 18a are coupled to one another.
  • the alignment parameter determination unit 24a detects a coupling parameter between the heating unit 12a and the installation unit 18a.
  • the coupling parameter characterizes a coupling of the heating unit 12a and the positioning unit 18a.
  • the coupling parameter is an electrical parameter.
  • the installation unit 18a has a coupling unit 42a (cf. Figures 5 to 7 ).
  • the coupling unit 42a is provided for coupling to the heating unit 12a.
  • the coupling unit 42a couples to the heating unit 12a.
  • the coupling unit 42a has nine coupling elements 44a.
  • the coupling elements 44a are arranged substantially uniformly distributed over a surface extension of the installation unit 18a when viewed perpendicularly onto a main extension plane of the installation plate 14a.
  • the coupling unit 42a has three coupling elements 44a.
  • the coupling elements 44a are arranged substantially uniformly distributed over a surface extension of the installation unit 18a when viewed perpendicularly onto a main extension plane of the installation plate 14a. When viewed perpendicularly onto a main extension plane of one of the coupling elements 44a, the coupling elements 44a have a circular shape.
  • the coupling unit 42a has four coupling elements 44a.
  • the coupling elements 44a are arranged substantially uniformly distributed over a surface extension of the installation unit 18a when viewed perpendicularly onto a main extension plane of the installation plate 14a.
  • the coupling elements 44a When viewed perpendicularly onto a main extension plane of one of the coupling elements 44a, the coupling elements 44a have the shape of a sector of a circle, in which, in particular, a tip of the sector of the circle is cut off.
  • the coupling element 44a is partially part of the underlay device 28a. Alternatively or additionally, the coupling element 44a could be part of the cooking utensil 26a.
  • the coupling element 44a is designed as a coil. When viewed perpendicularly onto a main extension plane of the coupling element 44a, the coupling element 44a has a circular shape.
  • the alignment parameter determination unit 24a has the heating unit 12a.
  • the heating unit 12a is part of the alignment parameter determination unit 24a.
  • the alignment parameter determination unit 24a has the installation unit 18a, specifically in particular the coupling unit 42a of the installation unit 18a.
  • the installation unit 18a is part of the alignment parameter determination unit 24a, specifically in particular in the form of the coupling unit 42a of the installation unit 18a.
  • the alignment parameter is taken into account when aligning the position of the heating unit 12a relative to the target set-up position 16a.
  • the alignment parameter is output via an output unit 20a when the position of the heating unit 12a is aligned relative to the target set-up position 16a.
  • the cooking system 10a has the output unit 20a.
  • the cooking system 10a has a mobile device 22a.
  • the output unit 20a is partly part of the mobile device 22a.
  • the output unit 20a could in particular additionally be part of the operator interface 30a.
  • a relative position of the heating unit 12a is determined relative to the installation unit 18a, specifically by the alignment parameter determination unit 24a.
  • the alignment parameter shows a relative position of the heating unit 12a relative to the set installation position 16a (cf. Figures 8 to 12 ).
  • an installation alignment parameter is determined semi-automatically, in particular by the alignment parameter determination unit 24a.
  • the alignment parameter determination unit 24a is provided for determining the set-up alignment parameter.
  • a relative position of the set-up unit 18a relative to the heating unit 12a is determined, in particular by the alignment parameter determination unit 24a.
  • the deployment orientation parameter shows a relative position of the positioning unit 18a relative to the heating unit 12a (cf. Figures 8 to 10 ).
  • the relative position of the installation unit 18a relative to the heating unit 12a has a horizontal spacing of the installation unit 18a relative to the heating unit 12a when viewed perpendicularly to a main extension plane of the installation plate 14a.
  • the horizontal spacing of the installation unit 18a relative to the heating unit 12a corresponds to an overlap of the installation unit 18a with the heating unit 12a when viewed perpendicularly onto a main extension plane of the installation plate 14a.
  • alignment parameter determination unit 24a When a position of installation unit 18a is aligned relative to heating unit 12a, alignment parameter determination unit 24a outputs the position of heating unit 12a and/or target installation position 16a and a current position of installation unit 18a, in particular relative to target installation position 16a, via output unit 20a. Depending on the installation alignment parameter, a position of the installation unit 18a is changed and a position of the target installation position 16a and/or a position of the heating unit 12a is kept constant. The position of the installation unit 18a is changed until the position of the installation unit 18a and the position of the target installation position 16a and/or the position of the heating unit 12a overlap when viewed perpendicularly on a main extension plane of the installation plate 14a (cf. Figures 8 to 10 ).
  • a relative position of the heating unit 12a relative to the target set-up position 16a is determined, specifically by the alignment parameter determination unit 24a.
  • the alignment parameter shows a relative position of the heating unit 12a relative to the set installation position 16a (cf. 11 and 12 ).
  • the relative position of the heating unit 12a relative to the target set-up position 16a has a vertical spacing of the heating unit 12a from the target set-up position 16a in an installed position (cf. 11 and 12 ).
  • the vertical distance between the heating unit 12a and the target set-up position 16a is aligned essentially perpendicular to a main extension plane of the set-up plate 14a.
  • alignment parameter determination unit 24a When a position of heating unit 12a is aligned relative to target set-up position 16a, alignment parameter determination unit 24a outputs a target position for heating unit 12a and a current position of heating unit 12a, in particular relative to the target position for heating unit 12a, via output unit 20a (cf. 11 ). When a position of the heating unit 12a is aligned relative to the desired set-up position 16a, the alignment parameter determination unit 24a outputs a movement direction in which the heating unit 12a moves is to move in particular to move the heating unit 12a from the current position of the heating unit 12a to the target position for the heating unit 12a and in particular to enable the heating unit 12a to be arranged in the target position for the heating unit 12a.
  • a position of the heating unit 12a is changed and a position of the set installation position 16a is kept constant.
  • the position of the heating unit 12a is changed, in particular by means of the movement unit 38a, until the position of the heating unit 12a and the target position for the heating unit 12a are arranged to overlap (cf. 11 and 12 ).
  • the orientation parameter has a relative angular orientation of the heating unit 12a relative to the target set-up position 16a (cf. Figures 13 to 16 ).
  • the alignment parameter determination unit 24a outputs the relative angular orientation of the heating unit 12a relative to the target installation position 16a and/or relative to the target position for the heating unit 12a via the output unit 20a, in particular in at least two different views (cf. 12 ).
  • alignment parameter determination unit 24a When a position of heating unit 12a is aligned relative to target set-up position 16a, alignment parameter determination unit 24a outputs a position of moving element 40a, in particular of each moving element 40a, relative to a target position of moving element 40a, in particular relative to a target position of each moving element 40a (cf . 14 ).
  • the position of the heating unit 12a is changed, in particular by means of the movement unit 38a, until the position of the heating unit 12a and the target position for the heating unit 12a are arranged to overlap (cf. Figures 13 to 16 ).
  • the alignment parameter determination unit 24a determines a coupling parameter between the heating unit 12a and the further installation unit 82a.
  • the alignment parameter determination unit 24a outputs the coupling parameter via the output unit 20a (cf. 18 ).
  • the alignment parameter determination unit 24a outputs a percentage agreement of the coupling parameter with a target value for the coupling parameter, in particular with a target profile for the coupling parameter, via the output unit 20a.
  • FIG. 19 shows a diagram in which several curves of the coupling parameter for the case of one, in particular when viewed perpendicularly to a main extension plane the heating unit 12a, horizontal distance between the heating unit 12a and the mounting unit 18a are shown.
  • the coupling parameter is plotted on an ordinate axis 46a.
  • a frequency is plotted on an abscissa axis 48a.
  • the coupling parameter has a maximum heat output that can be transmitted from the heating unit 12a to the installation unit 18a.
  • Each of the curves of the coupling parameter represents a horizontal distance between the positioning unit 18a and the heating unit 12a.
  • a course 50a of the coupling parameter shown in dense dotted lines represents a horizontal distance of the installation unit 18a from the heating unit 12a of essentially 0 mm and thus corresponds to an overlap of the heating unit 12a and the installation unit 18a when viewed perpendicularly to a main extension plane of the installation plate 14a.
  • a curve 52a of the coupling parameter shown with two dash-dotted lines represents a horizontal distance of the positioning unit 18a from the heating unit 12a of essentially 20 mm.
  • a course 54a of the coupling parameter shown with large dots represents a horizontal distance of the installation unit 18a from the heating unit 12a of essentially 40 mm.
  • a curve 56a of the coupling parameter shown as a wide dashed line represents a horizontal distance between the installation unit 18a and the heating unit 12a of essentially 60 mm.
  • a profile 58a of the coupling parameter shown as a narrow dashed line represents a horizontal distance between the positioning unit 18a and the heating unit 12a of essentially 80 mm.
  • a curve 60a of the coupling parameter shown in dot-dash lines represents a horizontal distance between the installation unit 18a and the heating unit 12a of essentially 100 mm. It can be seen that as the horizontal distance between the installation unit 18a and the heating unit 12a increases, the maximum heat output that can be transmitted from the heating unit 12a to the installation unit 18a decreases.
  • FIG. 12 shows a diagram in which several curves of the coupling parameter are shown for the case of a vertical distance between the heating unit 12a and the target set-up position 16a.
  • the coupling parameter is plotted on an ordinate axis 62a.
  • a frequency is plotted on an abscissa axis 64a.
  • the coupling parameter has a maximum heat output that can be transmitted from the heating unit 12a to the installation unit 18a set up at the desired installation position 16a.
  • Each of the curves of the coupling parameter represents a vertical distance of the heating unit 12a from a target set-up position 16a.
  • a progression 66a of the coupling parameter shown as a solid line represents a vertical distance of the heating unit 12a from the target set-up position 16a of essentially 30 mm.
  • a curve 68a of the coupling parameter represented by dense dotted lines a vertical distance of the heating unit 12a to the desired set-up position 16a of essentially 32 mm.
  • a curve 70a of the coupling parameter shown with two dash-dotted lines represents a vertical distance of the heating unit 12a from the target set-up position 16a of essentially 34 mm.
  • a course 72a of the coupling parameter shown with large dots represents a vertical distance of the heating unit 12a from the desired set-up position 16a of essentially 36 mm.
  • a curve 74a of the coupling parameter shown as a wide dashed line represents a vertical distance of the heating unit 12a from the target set-up position 16a of essentially 38 mm.
  • a profile 76a of the coupling parameter shown as a narrow dashed line represents a vertical distance of the heating unit 12a from the target set-up position 16a of essentially 40 mm.
  • a curve 78a of the coupling parameter shown in dot-dash lines represents a vertical distance of the heating unit 12a from the desired set-up position 16a of essentially 42 mm. It can be seen that as the vertical distance between the heating unit 12a and the set-up position 16a increases, the maximum heat output that can be transmitted from the heating unit 12a to the set-up unit 18a decreases.
  • FIGS Figures 1 to 20 another embodiment of the invention is shown.
  • the following descriptions are essentially limited to the differences between the exemplary embodiments, with regard to components, features and functions that remain the same on the description of the exemplary embodiment of FIG Figures 1 to 20 can be referred.
  • the letter a is in the reference numerals of the exemplary embodiment in FIGS Figures 1 to 20 by the letter b in the reference numerals of the embodiment of FIG Figures 21 to 30 replaced.
  • Figures 21 to 30 show an implementation of a method for assembling an alternative cooking system 10b, which has a plurality of heating units 12b, which are carried by a common heating unit carrier unit 80b.
  • the Figures 21 to 30 show a transmission of the to the Figures 1 to 20 method described using a single heating unit 12a to an alternative cooking system 10b with a larger number of heating units 12b.
  • the method for assembling a cooking system 10b, which has four heating units 12b, is described below by way of example.
  • the cooking system 10b which has several heating units 12b.
  • the cooking system 10b has four heating units 12b.
  • the heating units 12b are in an installation position of a common heating unit carrier unit 80b worn. In one installation position, the heating units 12b are arranged below an installation plate 14b.
  • the mounting plate 14b is part of the cooking system 10b.
  • the mounting plate 14b defines four target mounting positions 16b.
  • the installation plate 14b defines a target installation position 16b for each heating unit 12b.
  • a positioning unit 18b of the cooking system 10b is positioned in the vicinity of each of the target positioning positions 16b.
  • a position of a respective installation unit 18b which is to be heated by the heating unit 12b, is aligned relative to the corresponding heating unit 12b.
  • an installation alignment parameter is determined semi-automatically in each case by means of an alignment parameter determination unit 24b of cooking system 10b and is taken into account when aligning the position of installation unit 18b relative to the corresponding heating unit 12b.
  • the installation alignment parameter is output via an output unit 20b of the cooking system 10b, which is in particular part of a mobile device 22b of the cooking system 10b (cf. Figures 22 to 24 ).
  • alignment parameter determination unit 24b uses output unit 20b to indicate the position of heating unit 12b and/or target installation position 16a and a current position of installation unit 18b, in particular relative to heating unit 12b and/or to the set-up position 16b.
  • a position of a first of the installation units 18b is changed as a function of the installation alignment parameter and a position of the corresponding desired installation position 16b and/or a position of the corresponding heating unit 12b is kept constant.
  • the position of the first erection unit 18b is changed until the position of the first erection unit 18b and the position of the corresponding target erection position 16b and/or the position of the corresponding heating unit 12b overlap when viewed perpendicularly to a main extension plane of the erection plate 14b (cf. Figures 22 to 24 ).
  • each of the installation units 18b is then changed one after the other in the same way until the position of the respective installation unit 18b and the position of the corresponding target installation position 16b and/or the position of the corresponding heating unit 12b when viewed perpendicularly onto a main extension plane of the installation plate 14b are arranged overlapping.
  • a position of each of the heating units 12b is aligned relative to the corresponding target installation position 16b, which is assigned to the heating unit 12b.
  • an alignment parameter is determined semi-automatically by an alignment parameter determination unit 24b of the cooking system 10b and taken into account when aligning the position of the respective heating unit 12b relative to the corresponding target installation position 16b.
  • a relative position of the respective heating unit 12b relative to the corresponding target set-up position 16b is determined, in particular by the alignment parameter determination unit 24b.
  • the alignment parameter includes a relative position of the respective heating unit 12b relative to the corresponding set-up position 16b (not shown).
  • the relative position of the respective heating unit 12b relative to the corresponding target set-up position 16b has a vertical spacing of the respective heating unit 12b relative to the corresponding target set-up position 16b in an installation position (not shown).
  • a relative angular orientation of the respective heating unit 12b relative to the corresponding target set-up position 16b is determined.
  • the alignment parameter has a relative angular orientation of the respective heating unit 12b relative to the corresponding set-up position 16b (cf. Figures 25 to 28 ).
  • the alignment parameter determination unit 24b uses the output unit 20b to output a result of the alignment check, specifically for a respective heating unit 12b.
  • an additional installation unit 82b that differs from the installation unit 18b is used (cf. 30 ).
  • FIG. 30 shows the cooking system 10b 21 in an aligned state of a position of the respective heating unit 12b relative to the corresponding set-up position 16b following the method for assembling the cooking system 10b.
  • a main extension plane of the heating unit carrier unit 80b is aligned essentially parallel to a main extension plane of the mounting plate 14b following an alignment of a position of the respective heating unit 12b relative to the corresponding target installation position 16b.
  • a main extension plane of the heating unit carrier unit 80b is aligned obliquely relative to a main extension plane of the mounting plate 14b.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Electric Stoves And Ranges (AREA)
  • Induction Heating Cooking Devices (AREA)
EP18811364.1A 2017-11-20 2018-11-16 Verfahren zu einer montage eines garsystems Active EP3714211B1 (de)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
ES201731338A ES2713379A1 (es) 2017-11-20 2017-11-20 Procedimiento para el montaje de un sistema de coccion
PCT/IB2018/059038 WO2019097467A1 (de) 2017-11-20 2018-11-16 Verfahren zu einer montage eines garsystems

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EP3714211B1 true EP3714211B1 (de) 2022-11-02

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CN111356878A (zh) 2020-06-30
US20210199304A1 (en) 2021-07-01
EP3714211A1 (de) 2020-09-30
CN111356878B (zh) 2022-07-08
WO2019097467A1 (de) 2019-05-23
ES2713379A1 (es) 2019-05-21

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