• 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:
    The invention relates to a cooking method and a cooking appliance which makes it possible to obtain a complete cooking of different types of ingredients at the end of the same cooking time without the external action of a user.
    公开号:FR3039388A1
    申请号:FR1557335
    申请日:2015-07-30
    公开日:2017-02-03
    发明作者:Olivier Delrue;Francois Letain
    申请人:SEB SA;
    IPC主号:
    专利说明:

    COOKING PROCESS FOR COOKING APPARATUS WITH CORRECTING MEANS AND CORRESPONDING COOKING APPARATUS
    The present invention relates to the technical field of cooking processes for electric cooking appliances comprising a riddling means arranged in a food receiving means and the corresponding cooking appliances.
    The present invention relates in particular, but not exclusively, to a cooking method for electrical appliances intended for brewing and cooking pieces of food, such as French fries or pieces of chicken, comprising a stirring means arranged in an arranged bowl in a housing housing a hot air heater, wherein the riddling means and the vessel are adapted to be moved relative to one another so as to stir and stir the food and fat in the tank. WO2006 / 000699 discloses such cooking appliances.
    The document FR 3004630 discloses a cooking method that uses a cooking appliance of the aforementioned type comprising a stirring blade rotated in a container. A disadvantage with this process is that it is suitable for cooking a single type of ingredient at a particular cooking level. Indeed the process allows to cook ingredients covered with breadcrumbs, by controlling the set temperature of the device and the riddling of the ingredient and this in order not to degrade the ingredients.
    If it is desired to cook several ingredients at the same time and at different levels of cooking, as is the case in an elaborate recipe, these must be cooked one after another by adding them to the cooking medium. reception as cooking progresses. Such cooking is however long since it requires at each step of a recipe to turn off the device to add the following ingredients, and then turn on the device to continue cooking once the new ingredients placed in it. In addition the organoleptic results of the ingredients can be altered since the cooking is not homogeneous in time partly due to the various manipulations.
    An object of the present invention is to provide an improved cooking method for cooking several ingredients arranged together in the receiving means, each at different cooking levels.
    An object of the present invention is to also provide a cooking process for cooking several ingredients at different cooking levels more quickly and optimally.
    An object of the present invention is to provide a cooking process for cooking several ingredients arranged together at different cooking levels while maintaining the organoleptic qualities of the ingredients.
    An object of the present invention is to provide a cooking appliance for cooking quickly and optimally, several ingredients arranged together at different cooking levels.
    An object of the present invention is to provide a cooking appliance for cooking several ingredients arranged together at different cooking levels while maintaining the organoleptic qualities of food.
    These objects are achieved by a cooking process for a cooking appliance comprising a receiving means provided for receiving ingredients, a riddling means disposed within the receiving means, at least one main heating means, at least one cooking motor. ventilation for generating a heating flux, the receiving means and the riddling means being adapted to be driven by a relative rotational movement at a certain speed, the apparatus comprising at least one interface for controlling the relative rotational movement, at least one main heating means and at least one ventilation motor, characterized in that the cooking method comprises at least the following steps: an initial step in which at least one type of ingredient is arranged in a precise arrangement in at least two separate cooking zones of the receiving means where one of the two zones is at least partially directly below the heating flow ; - A first firing step during which the relative rotational movement of the receiving means and the riddling means is neutralized, at least one main heating means is controlled to regulate the temperature according to a first set value and at least one control motor. ventilation is controlled to regulate the heating flux at a first rate of circulation; a second firing step during which the relative rotational movement of the reception means and the riddling means is active according to a first speed of the relative rotational movement of the reception means and the riddling means and at least one main heating means; is controlled to regulate the temperature according to a second setpoint value, greater than or equal to the first and at least one ventilation motor is controlled to regulate the heating flux at a second speed of circulation.
    In this way, depending on the cooking zones, the cooking of a first type of ingredient will take place mainly during the first cooking step and the cooking of a second type of ingredient will mainly take place during of the second cooking step, at the same time as the cooking of the first type of ingredient will be finalized during this second cooking step. This cooking process has the effect that types of ingredients having different cooking profiles can be cooked in the same overall cooking time and in the same apparatus so as to obtain at the end of the overall cooking time, ingredients which all are well cooked.
    Advantageously, the second firing step is repeated with a third setpoint temperature, a third flow rate of the heating flow and a second speed of the relative rotational movement of the receiving means and the stirring means. The effect of being able to repeat the second cooking step makes it possible to cook more finely the ingredients which have been stirred in order to obtain improved taste qualities.
    Advantageously, the first setpoint is between 80 ° C. and 150 ° C. The effect of having a set value between these values is to be able to cook fragile foods during cooking.
    Advantageously, the second setpoint is between 100 ° C. and 200 ° C. The effect of having a set value between these values is to be able to cook foods that are not very fragile.
    Advantageously, the cumulative cooking time of the two cooking stages corresponds to the cooking time selected by a user.
    In this way the cooking of the different types of ingredients is finished at the end of the cooking time selected by the user.
    Advantageously, the first or the second speed of the relative rotational movement of the receiving means and the riddling means is between 0 and 10 rpm.
    This allows the different types of ingredients to be brewed together during the second baking step and all the ingredients can be cooked.
    Advantageously, the first flow rate of the flow is between 10 and 25 m / s.
    Such flow velocity flow allows a good heat exchange with the ingredients.
    Advantageously, the second flow rate of the flow is between 10 and 25 m / s.
    Such flow velocity flow allows a good heat exchange with the ingredients.
    Advantageously, the cooking appliance comprises a communication module that is configured to receive one or more control signals from a terminal (TER) or said signals comprising at least one datum of the first and / or second temperature setpoint, and / or data on the relative rotational movement of the receiving means and the stirring means and / or data on the first and second flow velocity and / or cooking time data . The effect of deporting the control of the device from a terminal is to be able to reduce the costs of electronic means to implement in the device and also to increase the autonomy of a user.
    These objects are also achieved with a computer program product comprising code instructions arranged to implement the steps of a method set forth above, when said program is executed on a control interface of a cooking appliance.
    These objects are also achieved with a cooking appliance comprising a control interface having in memory the code instructions of a computer program product as described above and arranged to execute such a computer program product. Other advantages and features of the present invention will appear in the description of the embodiments given by way of non-limiting example and illustrated by the drawings in the appendix where: - Figure 1 is a longitudinal sectional view of a first embodiment of a cooking appliance for implementing the method according to the invention, - Figure 2 is a top view of a second embodiment of a cooking appliance for implementing the method according to the invention. FIG. 3 is a diagram illustrating the communication between the cooking appliance and a remote terminal according to the two embodiments, FIG. 4 is a flow chart showing the steps of a cooking process of a cooking appliance. cooking according to both embodiments. The cooking apparatus shown in FIG. 1 comprises a receiving means 1 provided for receiving the ingredients, a riddling means 2 disposed within the receiving means 1. The receiving means 1 has an upper opening 3. The means of 1 and the riddling means 2 are designed to be driven by a relative rotational movement relative to each other.
    More particularly, the receiving means 1 is arranged in a housing 4. The housing 4 defines a housing 5 in which the receiving means 1 is arranged. The housing 4 comprises a body 6 surmounted by a cover 7. The appliance cooking comprises at least one main heating means 10. As shown in Figure 1, the main heating means 10 generates a heating flow 11 entering the receiving means 1 through the upper opening 3.
    More particularly, the cooking apparatus comprises a fan 12 designed to suck the air present in the housing 5 by an air intake 13 and to propel the air on a heating element 14 arranged in a duct 15. The duct 15 is extended by an outlet nozzle 16 which opens into the housing 5 at an outlet 40. In the first embodiment the outlet 40 of the outlet nozzle 16 is positioned above the receiving means 1 and is configured in such a way that the air opens mainly into a first zone 41 of the receiving means 1 positioned directly under this outlet 40. This has the effect that the ingredients positioned below the outlet 40 and in the first zone 41 are subjected to a high calorific intake and cook so fast. On the other hand, the receiving means 1 comprises a second zone 42 which is eccentric from the outlet 40 of the outlet nozzle 16, that is to say which is not positioned directly beneath it and where the ingredients are not therefore not directly exposed to the flow of hot air coming out. The ingredients positioned in this second zone 42 thus generally cook less rapidly than those positioned in the first zone 41, since the receiving means 1 and the riddling means 2 are not driven by a relative rotational movement. one part compared to the other.
    In the second variant shown in Figure 2, the cooking appliance is equivalent to that shown in Figure 1, with the difference that the outlet 40a of the outlet nozzle 16 is positioned on the side of the receiving means. However, the outlet 40a of the outlet nozzle 16 is configured so that the air mainly hits a first zone 41a of the receiving means 1 positioned directly adjacent this outlet 40a. This has the effect that the ingredients positioned at the first zone 41a next to the outlet 40a are subjected to a large heat input and thus cook faster. Still in the variant illustrated in Figure 2, the receiving means comprises a second zone 42a which is positioned opposite the outlet 40a of the outlet nozzle 16. In this case the ingredients are not exposed directly to the flow of hot air and therefore cook generally slower than those positioned in the first zone 41a since the receiving means 1 and the riddling means 2 are not driven by a relative rotational movement on the one hand relative to the other.
    More particularly, the receiving means 1 is formed by a tank 20 comprising a bottom 21 and a side wall 22. According to the variant embodiment of FIG. 1, the bottom 21 is inclined downwards in the direction of the side wall 22. The tank 20 has a central opening 23 provided for the passage of a drive shaft 24 rotated by a motor 25. A chimney 26 is mounted on the central opening 23. The riddling means 2 is mounted on the drive shaft 24. The riddling means 2 has a hooking member 27 designed to engage a retaining member 28 formed in the chimney 26. The tank 20 is advantageously made of metal material, preferably metal material coated or stainless steel. The receiving means 1 comprises a support 29 fixed to the tank 20. The receiving means 1 comprises a handle 8. The handle 8 is for example mounted articulated on the support 29.
    The receiving means 1 is removably mounted relative to the housing 4.
    According to the invention, the riddling means is rotated by a motor in mechanical connection with the drive shaft 24.
    The motor is controlled by an electronic control interface C ensuring activation or neutralization of the motor and therefore the rotation of the riddling means 2. The average speed of rotation of the riddling means 2 is between 0 and 10 rpm.
    Similarly, the control interface C supplies power to the heating means 10 of the apparatus. In particular, the electronic control interface is shaped to ensure the operation of the device in at least two temperature levels and it allows in particular to turn on the appliance, to choose, change or cancel a pre-programmed cooking mode in the oven. electronic control interface. The apparatus also includes a computer program product that includes code instructions. These code instructions are stored in the control interface and are arranged to implement the steps of the method which will be detailed below. The computer program is executed by the control interface of the cooking appliance.
    As shown in FIG. 3, the cooking appliance may comprise a communication module which is connected to the control interface. This communication module makes it possible to receive control signals or information from a remote device or terminal (TER) such as a computer or a smartphone. The communication between these devices can be done by any known communication protocol (corn), including WIFI, Bluetooth ® or radio frequency.
    The control signal (s) may be control instructions that include a set of data necessary for carrying out the method according to the invention. The transmitted data may relate in particular to the setpoint temperature, the relative rotational movement of the receiving means 1 and the riddling means 2 as well as the speed of rotation, the flow velocity of the flow or a time relative to the various stages of the flow. process or operations that the cooking apparatus has to perform during the steps of the method. Alternatively, other types of heating means 10 may be envisaged, in particular a radiative heating means generating a radiant heating flux 11 entering the reception means 1 through the upper opening 3, or a means of heating. heating element arranged in or under the receiving means 1. If desired the heating means may be integral with the receiving means 1. Alternatively, the riddling means 2 is not necessarily rotated in the receiving means 1 In particular, the receiving means can be rotatably mounted, if desired in a housing. Alternatively, the receiving means 1 is not necessarily formed by a tank. The receiving means preferably has a bottom and a side wall. The receiving means may in particular be formed by a perforated basket.
    To better understand the method according to the invention, the operation and use of the apparatus are described in detail below.
    According to the invention, the electronic control interface C allows to implement a particular cooking process for simultaneously cooking different ingredients with different levels of cooking according to each ingredient. In addition, the process makes it possible to preserve the organoleptic qualities of the various ingredients.
    With reference to FIG. 4, the cooking process comprises three main stages. An initial step (E0) of the method consists in positioning the different ingredients in the defined zone or zones of the receiving means. In this way, some ingredients will be at least partly directly under the heating flow which will result in them being subjected to a higher heat input than the other ingredients positioned in the other zone during the first step (E1 ) Cooking.
    This first step (E1) consists, for a determined duration, of neutralizing the relative rotational movement of the receiving means 1 and the stirring means 2, to maintain the temperature inside the apparatus at a first temperature value and controlling the heating means to regulate the heating flux at a first rate of flow.
    According to the first step, the non-rotation of the riddling means 2 makes it possible to expose only certain ingredients directly to the heating flux, those which are positioned in the zone of the receiving means lying under or next to the outlet of the nozzle. In this step, the speed of the heating flow is controlled. The fact of being able to control the speed of this flow makes it possible to control the speed and the kinetics of cooking of these foods so as to cook them while preserving their organoleptic qualities.
    This is very interesting when we have, in the means of reception, ingredients that require very different cooking times as we will see later. At the end of this first stage, the foods requiring the greatest cooking time, and positioned in the first cooking zone, are partly already cooked and it is necessary to finish cooking them while cooking the foods positioned in the second zone of the cooking zone. means of reception. This operation is performed during the second stage (E2) of cooking.
    Indeed, the second step of the method consists in simultaneously activating the relative rotational movement of the receiving means 1 and the riddling means 2, maintaining the temperature inside the apparatus at a second temperature value greater than or equal to the temperature of the first step and controlling the heating means so as to regulate the heating flow at a second flow rate.
    The second step corresponds to the cooking phase of the different ingredients together. The riddling of the food in the container no longer distinguishes the different ingredients and the cooking is done in the same way for all the ingredients that are mixed in this step. The circulation speed of the flow chosen for this second stage makes it possible to refine the cooking of the already cooked ingredients of the first zone and to cook the ingredients of the second zone completely.
    The relative rotational movement of the riddling means and the receiving means may be continuous or intermittent.
    According to an alternative embodiment, the temperature of the first step is between 80 ° C and 150 ° C. The temperature of the second stage is between 100 ° C and 200 ° C.
    The choice of temperatures depends in particular on the types of ingredients to be cooked. The invention is used in the manner that will be described below: The user sets up the receiving means 1 in the housing 5 of the housing 4, mounts the riddling means 2 in the receiving means 1, has the ingredients in the receiving means 1 and add if desired fat or oil using a spoon 36.
    According to the desired recipe, the user places the ingredients in a particular arrangement in at least two separate cooking zones of the receiving means so that at least one ingredient is at least partly directly below the heating flow. In general, the ingredients that require the longest cooking time are placed in the area that is directly above or next to the exit of the outlet nozzle.
    When the appliance is switched on, the user selects the appropriate cooking mode and selects the cooking time via the control interface. According to another variant, a predetermined duration can be displayed and modified by the user depending on the food and or recipe. By way of example, the total duration of the cooking cycle is between 10 and 50 minutes. According to yet another variant, the cooking mode and the cooking time are transferred from the remote device (TER) to the cooking appliance.
    When the cooking cycle starts, the first method step according to the invention is triggered by the control interface. This controls the heating means 10 to generate the heating flow 11 entering the receiving means 1 through the upper opening 3 and the outlet nozzle. On the other hand, the motor 25 rotating the stirring means 2 in the receiving means 1 is not activated. The temperature regulation according to the first temperature value is provided for example by means of a sensor of the CTN (negative temperature coefficient) type. The heating means are also activated so as to regulate the heating flux at a first air velocity. When the duration of the first step has elapsed, the second step of the method according to the invention begins.
    According to this second step, the heating means are kept active. The control temperature is changed and increased to a second value. Simultaneously, the motor 25 rotating the stirring means 2 in the receiving means 1 is activated by the electronic control interface C and the heating means are now regulated so that the heating flow has a second speed of circulation air.
    The riddling means 2 helps to mix the ingredients together in order to standardize the recipe.
    When the total duration of the cooking cycle has elapsed, the heating means and the motor are deactivated. The user can remove the receiving means 1 from the casing 4 by using the handle 8.
    The present invention is not limited to the embodiments described, but encompasses many modifications within the scope of the claims.
    权利要求:
    Claims (11)
    [1" id="c-fr-0001]
    A method of cooking for a cooking apparatus comprising a receiving means (1) for receiving ingredients, a stirring means (2) arranged within the receiving means (1), at least one main heating means ( 10), at least one ventilation motor for generating a heating flow (11), the receiving means (1) and the riddling means (2) being adapted to be driven by a relative rotational movement at a certain speed, the apparatus comprising at least one control interface C of the relative rotational movement, the at least one main heating means and the at least one ventilation motor, characterized in that the cooking process comprises at least the following steps: an initial step (E0) in which at least one type of ingredient is disposed in a precise arrangement in at least two separate cooking zones of the receiving means, where one of the two zones is at least partially directly below the flow high; - A first firing step (E1) during which the relative rotational movement of the receiving means (1) and the riddling means (2) is neutralized, at least one main heating means (10) is controlled to regulate the temperature according to a first setpoint and at least one ventilation motor is controlled to regulate the heating flux at a first speed of circulation; a second firing step (E2) during which the relative rotational movement of the reception means (1) and the stirring means (2) is active according to a first speed of the relative rotational movement of the reception means and the means of riddling and at least one main heating means (10) is controlled to regulate the temperature according to a second setpoint value, greater than or equal to the first and at least one ventilation motor is controlled to regulate the heating flux at a second speed of circulation.
    [2" id="c-fr-0002]
    2. Cooking method according to claim 1, characterized in that the second step (E2) of cooking is reiterated with a third setpoint temperature, a third flow rate of the heating flow and a second speed of the relative rotational movement of the medium. reception and riddling means.
    [3" id="c-fr-0003]
    3. Cooking method according to one of the preceding claims, characterized in that the first set value is between 80 ° C and 150 ° C.
    [4" id="c-fr-0004]
    4. Cooking method according to one of the preceding claims, characterized in that the second setpoint value is between 100 ° C and 200 ° C.
    [5" id="c-fr-0005]
    5. Cooking method according to one of claims 1 to 4 characterized in that the cumulative cooking time of the two cooking steps corresponds to the cooking time selected by a user.
    [6" id="c-fr-0006]
    6. Cooking method according to one of claims 1 to 5 characterized in that the first or the second speed of the relative rotational movement of the receiving means (1) and the riddling means (2) is between 0 and 10 rev / min.
    [7" id="c-fr-0007]
    7. Cooking method according to one of claims 1 to 6 characterized in that the first flow rate of the flow is between 10 and 25 m / s.
    [8" id="c-fr-0008]
    8. Cooking method according to one of claims 1 to 7 characterized in that the second flow rate of the flow is between 10 and 25 m / s.
    [9" id="c-fr-0009]
    9. Cooking method according to one of claims 1 to 8 characterized in that the cooking appliance comprises a communication module which is configured to receive one or more control signals of a terminal (TER) the one or more signals. comprising at least one datum of the first and / or second temperature setpoint, and / or a datum on the relative rotational movement of the receiving means (1) and the riddling means (2) and / or a given on the first and second flow velocity and / or cooking time data.
    [10" id="c-fr-0010]
    A computer program product comprising code instructions arranged to implement the steps of a method according to one of claims 1 to 9, when said program is executed on a control interface C of a cooking appliance. .
    [11" id="c-fr-0011]
    11. Cooking apparatus comprising a control interface C having in memory the code instructions of a computer program product according to the preceding claim and arranged to execute such a computer program product.
    类似技术:
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    FR2776494A3|1999-10-01|Memory card operated automatic food cooker
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    同族专利:
    公开号 | 公开日
    CN106388550A|2017-02-15|
    EP3328250B1|2020-05-27|
    US20180220842A1|2018-08-09|
    EP3328250A1|2018-06-06|
    CN106388550B|2020-08-28|
    CA2992535A1|2017-02-02|
    PT3328250T|2020-07-07|
    FR3039388B1|2017-09-01|
    WO2017017356A1|2017-02-02|
    ES2801248T3|2021-01-08|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    DE202005021931U1|2005-06-08|2011-08-04|Seb S.A.|Deep fat fryer with automatic fat coating|
    CN201332970Y|2008-10-20|2009-10-28|威斯达电器制造有限公司|Multifunctional bread maker|
    CA2805606A1|2010-07-13|2012-01-19|Seb S.A.|Cooking appliance having two areas|
    WO2014068225A1|2012-10-31|2014-05-08|Seb S.A.|Electric cooking apparatus having an air flow|
    WO2014125200A1|2013-02-15|2014-08-21|Seb S.A.|Appliance for cooking by air flow|
    FR3004630A1|2013-04-19|2014-10-24|Seb Sa|COOKING PROCESS FOR COOKING APPARATUS WITH CORRECTING MEANS AND CORRESPONDING COOKING APPARATUS|
    US5074201A|1989-05-12|1991-12-24|Matsushita Electric Industrial Co., Ltd.|Apparatus for manufacturing tonyu and tofu|
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    FR2945200B1|2009-05-05|2016-02-05|Seb Dev|COOKING APPARATUS WITH REMOTE MEANS|
    US9610553B2|2012-06-22|2017-04-04|Mark E. Goodson|Beverage mixing system and method|
    CN202820881U|2012-08-14|2013-03-27|付逊|Electric cooker separated into chambers|
    CN204181488U|2014-09-26|2015-03-04|浙江苏泊尔家电制造有限公司|The electric cooker of Electromagnetic Heating|IT201600099527A1|2016-10-04|2018-04-04|De Longhi Appliances Srl|AUTONOMOUS APPARATUS FOR COOKING FOOD AND ITS METHOD|
    CN110250935A|2017-08-09|2019-09-20|沙克忍者运营有限责任公司|Cooking system|
    USD914436S1|2018-06-19|2021-03-30|Sharkninja Operating Llc|Air diffuser with food preparation pot|
    USD903413S1|2018-08-09|2020-12-01|Sharkninja Operating Llc|Cooking basket|
    USD883014S1|2018-08-09|2020-05-05|Sharkninja Operating Llc|Food preparation device|
    USD883015S1|2018-08-09|2020-05-05|Sharkninja Operating Llc|Food preparation device and parts thereof|
    USD934027S1|2018-08-09|2021-10-26|Sharkninja Operating Llc|Reversible cooking rack|
    US20190254476A1|2019-02-25|2019-08-22|Sharkninja Operating Llc|Cooking device and components thereof|
    JP1677688S|2019-06-06|2021-01-25|
    USD918654S1|2019-06-06|2021-05-11|Sharkninja Operating Llc|Grill plate|
    CN110584500A|2019-09-06|2019-12-20|火星人厨具股份有限公司|Casserole stewing mode used in oven and oven thereof|
    US20210121012A1|2020-03-30|2021-04-29|Sharkninja Operating Llc|Cooking device and components thereof|
    法律状态:
    2016-07-29| PLFP| Fee payment|Year of fee payment: 2 |
    2017-02-03| PLSC| Search report ready|Effective date: 20170203 |
    2017-07-31| PLFP| Fee payment|Year of fee payment: 3 |
    2018-07-27| PLFP| Fee payment|Year of fee payment: 4 |
    2019-07-31| PLFP| Fee payment|Year of fee payment: 5 |
    2020-07-31| PLFP| Fee payment|Year of fee payment: 6 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1557335A|FR3039388B1|2015-07-30|2015-07-30|COOKING PROCESS FOR COOKING APPARATUS WITH CORRECTING MEANS AND CORRESPONDING COOKING APPARATUS|FR1557335A| FR3039388B1|2015-07-30|2015-07-30|COOKING PROCESS FOR COOKING APPARATUS WITH CORRECTING MEANS AND CORRESPONDING COOKING APPARATUS|
    US15/748,483| US20180220842A1|2015-07-30|2016-07-21|Cooking method for a cooking appliance including a stirring means, and corresponding cooking appliance|
    PCT/FR2016/051906| WO2017017356A1|2015-07-30|2016-07-21|Cooking method for a cooking appliance including a stirring means, and corresponding cooking appliance|
    CA2992535A| CA2992535A1|2015-07-30|2016-07-21|Cooking method for a cooking appliance including a stirring means, and corresponding cooking appliance|
    ES16753411T| ES2801248T3|2015-07-30|2016-07-21|Cooking procedure for cooking appliance with stirrer and corresponding cooking appliance|
    EP16753411.4A| EP3328250B1|2015-07-30|2016-07-21|Cooking method for a cooking appliance including a stirring means, and corresponding cooking appliance|
    PT167534114T| PT3328250T|2015-07-30|2016-07-21|Cooking method for a cooking appliance including a stirring means, and corresponding cooking appliance|
    CN201610608015.5A| CN106388550B|2015-07-30|2016-07-28|Cooking method for a cooking device and corresponding cooking device|
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