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WO2023221224A1 - 烤箱的加热控制方法及烤箱 - Google Patents

烤箱的加热控制方法及烤箱 Download PDF

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Publication number
WO2023221224A1
WO2023221224A1 PCT/CN2022/099537 CN2022099537W WO2023221224A1 WO 2023221224 A1 WO2023221224 A1 WO 2023221224A1 CN 2022099537 W CN2022099537 W CN 2022099537W WO 2023221224 A1 WO2023221224 A1 WO 2023221224A1
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WO
WIPO (PCT)
Prior art keywords
baking
heating
temperature
oven
heating device
Prior art date
Application number
PCT/CN2022/099537
Other languages
English (en)
French (fr)
Inventor
李北河
Original Assignee
鹤山市恒凯电器有限公司
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Filing date
Publication date
Application filed by 鹤山市恒凯电器有限公司 filed Critical 鹤山市恒凯电器有限公司
Publication of WO2023221224A1 publication Critical patent/WO2023221224A1/zh

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    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J37/00Baking; Roasting; Grilling; Frying
    • A47J37/06Roasters; Grills; Sandwich grills
    • A47J37/0623Small-size cooking ovens, i.e. defining an at least partially closed cooking cavity
    • A47J37/0629Small-size cooking ovens, i.e. defining an at least partially closed cooking cavity with electric heating elements
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J37/00Baking; Roasting; Grilling; Frying
    • A47J37/01Vessels uniquely adapted for baking
    • A47J37/015Vessels uniquely adapted for baking electrically heated
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J37/00Baking; Roasting; Grilling; Frying
    • A47J37/06Roasters; Grills; Sandwich grills
    • A47J37/0623Small-size cooking ovens, i.e. defining an at least partially closed cooking cavity
    • A47J37/0629Small-size cooking ovens, i.e. defining an at least partially closed cooking cavity with electric heating elements
    • A47J37/0641Small-size cooking ovens, i.e. defining an at least partially closed cooking cavity with electric heating elements with forced air circulation, e.g. air fryers
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P60/00Technologies relating to agriculture, livestock or agroalimentary industries
    • Y02P60/80Food processing, e.g. use of renewable energies or variable speed drives in handling, conveying or stacking

Definitions

  • the invention relates to the field of ovens, and in particular to a heating control method for an oven and an oven.
  • the maximum temperature of ovens in the prior art can only be set at 230°C, so it takes a long time to make pizza, steak and other foods, usually more than 20 minutes, which cannot meet the user's need for quick baking of food.
  • the present invention aims to solve at least one of the technical problems existing in the prior art. To this end, the present invention proposes a heating control method for an oven, which can shorten the food preparation time.
  • the present invention also proposes an oven with the above heating control method.
  • the oven includes a box and a heating device.
  • a baking cavity is provided in the box.
  • the size of the baking cavity in the vertical direction is smaller than the size of any side of the baking cavity in the horizontal direction.
  • the heating device is located on the baking cavity.
  • the baking cavity is arranged in a horizontal direction;
  • control methods include:
  • control the heating device to heat the baking cavity with a first power
  • control the heating device When the temperature of the baking cavity is greater than or equal to the preheating temperature, control the heating device to perform heat preservation operation at the preheating temperature;
  • controlling the heating device to enter the rapid heating mode includes controlling the heating device to heat the baking cavity with a second power
  • the heating device When the temperature of the baking cavity is greater than or equal to the baking temperature, the heating device is controlled to perform heat preservation operation at the baking temperature, wherein the baking temperature is greater than or equal to the preheating temperature;
  • the heating device After the heating device enters the rapid heating mode for a first preset time period, the heating device is controlled to stop heating, or to perform heat preservation operation at a preset temperature, wherein the preset temperature is smaller than the preheating temperature.
  • the baking cavity is flat, which brings the heating device closer to the food, which can speed up the cooking efficiency of the food.
  • preheat the oven at medium-high temperature After the preheating is completed, when the user puts in the food and starts the fast heating mode, the oven heats at the second power, and the food is heated at high temperature, which can greatly shorten the cooking time of the food. time, and the surface of the food is instantly browned under high temperature, and it can retain the moisture inside the food and enhance the taste of the food.
  • the oven further includes a baking pan, the baking pan is installed in the baking cavity, the heating device includes an upper heating tube and a lower heating tube, the upper heating tube and the The lower heating tubes are respectively located above and below the baking pan;
  • Controlling the heating device to enter a rapid heating mode according to the baking instruction includes:
  • the upper heating tube is controlled to be heated with a third power
  • the lower heating tube is controlled to be heated with a fourth power
  • the baking temperature is 350°C to 370°C.
  • the first preset time length is 3 minutes to 8 minutes.
  • the oven further includes a baking pan installed in the baking cavity, and the heating device includes an upper heating tube located above the baking pan. ;
  • Controlling the heating device to enter a rapid heating mode according to the baking instruction includes:
  • the upper heating tube is controlled to be heated with the second power.
  • the baking temperature is 400°C to 410°C.
  • the first preset time length is 2 minutes to 6 minutes.
  • the method further includes:
  • the heating device When the heating device performs heat preservation operation at the preheating temperature for a second preset time period, the heating device is controlled to stop heating.
  • the second preset time length is 5 minutes to 20 minutes.
  • the second power is greater than the first power.
  • the preheating temperature is 200°C to 400°C.
  • the baking temperature is 300°C to 450°C.
  • the first preset time length is 0.5 minutes to 8 minutes.
  • the oven further includes a fan installed on the inner wall of the box;
  • the controlling the heating device to enter the rapid heating mode also includes:
  • the operation of the fan is controlled to speed up the air circulation of the baking cavity.
  • An oven according to a second embodiment of the present invention includes: a memory with a computer program stored on the memory;
  • a processor which executes the computer program to implement the heating control method of an oven according to any one of the first aspects.
  • the baking cavity is flat, which brings the heating device closer to the food, which can speed up the cooking efficiency of the food.
  • preheat the oven at medium-high temperature After the preheating is completed, when the user puts in the food and starts the fast heating mode, the oven heats at the second power, and the food is heated at high temperature, which can greatly shorten the cooking time of the food. time, and the surface of the food is instantly browned under high temperature, and it can retain the moisture inside the food and enhance the taste of the food.
  • Figure 1 is a schematic diagram of the overall structure of an oven provided by an embodiment of the present invention.
  • Figure 2 is a schematic structural diagram of the hidden part of the oven provided by an embodiment of the present invention.
  • FIG. 3 is a schematic diagram of the baking pan being extracted according to an embodiment of the present invention.
  • Figure 4 is a cross-sectional view of an oven provided by an embodiment of the present invention.
  • Figure 5 is a flow chart of a heating control method for an oven provided by an embodiment of the present invention.
  • Figure 6 is a flow chart of a heating control method for an oven provided by another embodiment of the present invention.
  • Figure 7 is a flow chart of a heating control method for an oven provided by another embodiment of the present invention.
  • Figure 8 is a flow chart of a heating control method for an oven to execute a first mode instruction provided by an embodiment of the present invention
  • Figure 9 is a flow chart of a heating control method for an oven to execute second mode instructions according to an embodiment of the present invention.
  • Figure 10 is a flow chart of an oven heat preservation control method provided by an embodiment of the present invention.
  • Box 100 baking cavity 110; box door 120;
  • Heating device 200 upper heating tube 210; lower heating tube 220;
  • orientation descriptions such as up, down, front, back, left, right, etc., are based on the orientation or position relationships shown in the drawings and are only In order to facilitate the description of the present invention and simplify the description, it is not intended to indicate or imply that the device or element referred to must have a specific orientation, be constructed and operate in a specific orientation, and therefore should not be construed as a limitation of the present invention.
  • an oven 1000 according to an embodiment of the present invention is shown, which can be used to bake food.
  • the oven 1000 uses a step-by-step heating control method to speed up the cooking of food.
  • the oven 1000 includes a box 100, a door 120, a heating device 200, a baking pan 300 and a fan 400.
  • a baking cavity 110 is provided in the box 100, and the baking cavity 110 is used to accommodate food.
  • the baking pan 300 is installed in the baking cavity 110 and is used to support food.
  • the door 120 is rotatably connected to the box body 100 to open or close the baking cavity 110 .
  • the heating device 200 is disposed in the baking cavity 110 and is used to heat the baking cavity 110 .
  • the size of the baking cavity 110 in the vertical direction is smaller than the size of any side of the baking cavity 110 in the horizontal direction, that is, the baking cavity 110 is flat.
  • the heating device 200 is arranged in the horizontal direction, so the food can be closer to the heating device 200 during the baking process, thereby speeding up the cooking of the food.
  • the fan 400 is installed on the inner wall of the box 100. The fan 400 is used to speed up the hot air circulation in the baking cavity 110 to make the temperature distribution in the oven 1000 more uniform.
  • the heating control method of the oven 1000 based on the above embodiment includes the following steps:
  • Step S501 Obtain preheating instructions.
  • the preheating command can be generated after the user selects the corresponding preheating button and presses it according to the control panel on the oven 1000, or it can be generated after the user controls the oven 1000 online through the mobile APP and selects the preheating function, or it can be generated after the oven 1000 is set.
  • the preheating function is scheduled to start, and a preheating command is generated after the set time is reached. An appropriate solution is selected based on the actual situation, and the present invention is no longer specifically limited here.
  • Step S502 According to the preheating instruction, control the heating device 200 to heat the baking cavity 110 with the first power. It is understandable that the purpose of preheating is to improve the efficiency of heating food and effectively prevent the food from becoming dry and brittle due to excessive moisture loss during the long heating process. After the baking cavity 110 is preheated, the food is put in. The surface of the food is instantly browned under high temperature, and the moisture inside the food can be retained to improve the taste of the food.
  • the first power is used for heating.
  • the setting of the first power is adapted to the preheating temperature of the oven 1000 .
  • the preheating temperature is 200°C to 400°C, such as 250°C, which is higher than the maximum temperature of 230°C of the oven 1000 in the related art, thereby providing favorable conditions for the next step of rapid baking.
  • the first power is the total power of the heating device 200
  • the heating device 200 includes an upper heating tube 210 and a lower heating tube 220 , that is, the first power is the sum of the powers of the upper heating tube 210 and the lower heating tube 220 .
  • the upper heating tube 210 and the lower heating tube 220 can be preheated with the same power to ensure that the temperature of the preheated baking cavity 110 is more uniform.
  • the fan 400 can work during the preheating stage to further improve the efficiency of preheating.
  • the oven 1000 in the related art usually does not have an independent preheating knob. The user generally selects the corresponding temperature for preheating by rotating the heating knob.
  • the oven 1000 in the embodiment of the present invention is equipped with an independent preheating button.
  • the size of the preheating temperature It can be preset by a program, and the user only needs to press the preheat button to preheat the baking cavity 110 to the set temperature.
  • the preheating temperature can also be customized by the user. After selecting the corresponding temperature, the baking cavity 110 is heated to the user-defined temperature.
  • Step S503 Obtain the temperature of the baking cavity 110.
  • the temperature of the baking cavity 110 can be detected through a temperature sensor.
  • the temperature sensor detects the temperature at the center of the baking cavity 110 and feeds the detected parameters back to the processor.
  • multiple temperature sensors may be used to detect the temperatures at multiple different locations in the baking cavity 110, and the detected temperatures at multiple locations may be fed back to the processor, and an average value may be obtained for calculation.
  • An appropriate solution is selected based on the actual situation, and the present invention is no longer specifically limited here.
  • Step S504 When the temperature of the baking cavity 110 is greater than or equal to the preheating temperature, control the heating device 200 to perform heat preservation operation at the preheating temperature. It can be understood that after preheating is completed, the user may not be able to put the food into the baking cavity 110 immediately, so the heating device 200 needs to be kept warm.
  • the control logic of the heat preservation operation may be: when the temperature of the baking cavity 110 is greater than or equal to the preheating temperature, the heating device 200 stops working. After a certain period of time, the temperature sensor detects that the temperature at the center of the baking cavity 110 is lower than the preheating temperature. , then the heating device 200 is controlled to reheat, and the power during heating may be operated at the first power or lower than the first power.
  • the control logic of the heat preservation operation can also be: when the temperature of the baking cavity 110 is greater than or equal to the preheating temperature, the heating device 200 operates with a smaller power, so that the heat dissipation of the oven 1000 is approximately equal to the heating amount, thereby achieving the heat preservation effect. Effect.
  • baking prompts such as buzzers, light flashes, etc.
  • the oven 1000 can be equipped with a buzzer.
  • the buzzer is controlled to sound a buzzer to remind the user.
  • the oven 1000 can also be equipped with a signal light, which lights up when preheating is completed, or other methods using signal lights to prompt, which are no longer specifically limited here. Or, install both a buzzer and a signal light.
  • the preheating completion information may also be sent to the user's mobile APP, prompting the user that the preheating is completed and food can be put in for baking.
  • Step S505 Obtain baking instructions.
  • the baking instruction can be generated after the user selects the corresponding baking button and presses it according to the control panel on the oven 1000, or can be generated after the user controls the oven 1000 online through the mobile APP and selects the baking function.
  • An appropriate solution is selected based on the actual situation, and the present invention is no longer specifically limited here.
  • Step S506 According to the baking instruction, control the heating device 200 to enter the rapid heating mode, where controlling the heating device 200 to enter the rapid heating mode includes controlling the heating device 200 to heat the baking cavity 110 with the second power.
  • controlling the heating device 200 to enter the rapid heating mode includes controlling the heating device 200 to heat the baking cavity 110 with the second power.
  • the heating device 200 continues to heat the baking cavity 110 with the second power, heating the baking cavity 110 to a higher temperature.
  • the high temperature can speed up the cooking of the food.
  • the heating device 200 intermittently heats the baking cavity 110 with the second power. For example, every time the heating device 200 heats for 1 minute, it stops heating for 10 seconds, and then heats for another 1 minute.
  • intermittent heating can also be non-periodic heating.
  • the heating device 200 first continues heating for 5 minutes, then stops heating for 10 seconds, and then heats again for 2 minutes.
  • the appropriate heating logic is specifically selected according to the actual situation, and the present invention is no longer specifically limited here.
  • step S206 after controlling the heating device 200 to enter the rapid heating mode, it may also include:
  • the fan 400 is controlled to speed up the air circulation of the baking cavity 110 .
  • the fan 400 is used to speed up the hot air circulation in the baking cavity 110 to make the temperature distribution in the oven 1000 more uniform. It should be noted that whether the fan 400 is turned on depends on the food being baked. When the food needs to be dry, such as grilling steaks and biscuits, the fan 400 is turned on; when the food needs to retain moisture, such as baking pizzas and cakes, the fan 400 is turned off. .
  • Step S507 When the temperature of the baking cavity 110 is greater than or equal to the baking temperature, the heating device 200 is controlled to perform heat preservation operation at the baking temperature, where the baking temperature is greater than the preheating temperature. It is understandable that if the temperature is too high, it will easily cause carbonization of the food surface and loss of moisture. Therefore, after the temperature of the baking cavity 110 rises to the baking temperature, it needs to be kept warm at the baking temperature.
  • the baking temperature is 300°C to 450°C. It should be noted that the baking temperature needs to meet the conditions greater than the preheating temperature. For example, if the preheating temperature is 250°C, the baking temperature can be 300°C; if the preheating temperature is 400°C, the baking temperature can be 410°C.
  • the baking instruction also includes parameter information of a preset baking temperature value, for example, the baking temperature is 350-410°C.
  • the baking temperature can be preset by a program, and the user only needs to press the baking button to heat the baking cavity 110 to the set temperature.
  • the baking temperature is set to a lower range for vegetables, pastries, small amounts of meat, etc.; for some large pieces of meat, such as steaks, lamb chops, roast chicken, etc., the baking temperature is set to a higher range. scope.
  • the baking temperature can also be customized by the user. After selecting the corresponding temperature, the baking cavity 110 is heated to the user-defined temperature.
  • step S509 may also be included: when the temperature of the baking cavity 110 is greater than or equal to the baking temperature, the heating device 200 is controlled to perform heat preservation operation at the baking temperature, where the baking temperature equal to the preheat temperature.
  • the temperature of the oven 1000 is directly raised to 350-410°C, and after the food is put into the baking cavity 110, baking is continued at this temperature. Therefore, the time required for the stage from preheating temperature to baking temperature is reduced, which can further shorten the time for food preparation.
  • Step S508 After the heating device 200 enters the rapid heating mode for the first preset time period, control the heating device 200 to stop heating.
  • the first preset time length is 0.5 minutes to 8 minutes, and the first preset time length, or baking time, of ovens on the market is usually more than 20 minutes.
  • the baking temperature of the oven 1000 in the embodiment of the present invention is usually higher than that of the oven 1000 on the market.
  • the high temperature can make the surface of the food become crispy and the interior of the food still maintains a certain amount of moisture, the baking time should not be exceeded. long to prevent the surface of the food from being burnt and causing a poor taste after drying. Therefore, after entering the rapid heating mode and reaching the first preset time period, the heating needs to be stopped to prevent the food from being scorched and to prevent the outer surface temperature of the box 100 from being too high, thereby improving the safety of the oven 1000.
  • step S510 may also be included: after the heating device 200 enters the rapid heating mode for the first preset time period, the heat preservation operation is performed at the preset temperature, wherein the preset temperature is less than the preset temperature. heat temperature.
  • the preheating temperature is 250°C
  • the preset temperature is 65°C.
  • the preset temperature of 65°C can serve as a heat preservation function to prevent the food from becoming cold and affecting the taste after being left for a long time.
  • the heating control method of the oven 1000 mainly includes two stages: a preheating stage and a continuing heating stage.
  • the main function of the preheating stage is to put food in after preheating.
  • the food can be instantly grilled at high temperature, browning the surface, retaining the moisture inside the food, and improving the taste.
  • the main function of the continuous heating stage is to speed up the cooking of food, make the surface of the food crispy, and shorten the user's waiting time.
  • the second power is greater than the first power.
  • the first power of the heating device 200 may be 1600W during preheating, and the second power of the heating device 200 may be 1800W during baking. Since the temperature of the heating device 200 itself is already high enough during the preheating stage, when heating is performed with higher power in the later stage, the temperature in the baking cavity 110 rises faster. For example, the time required to heat to 250°C in the preheating stage is 10-15 minutes, and when it is heated to 400°C in the later stage, it only takes 4-5 minutes. Therefore, the second power being greater than the first power can speed up the heating rate of the baking cavity 110 and speed up the cooking of the food.
  • the oven 1000 further includes a baking pan 300 and a fan 400.
  • the baking pan 300 is installed in the baking cavity 110, and the baking pan 300 is used to support food.
  • the fan 400 is installed on the inner wall of the box 100. The fan 400 is used to speed up the hot air circulation in the baking cavity 110 to make the temperature distribution in the oven 1000 more uniform.
  • the heating device 200 includes an upper heating tube 210 and a lower heating tube 220. The upper heating tube 210 and the lower heating tube 220 are respectively located above and below the baking pan 300.
  • the upper heating tube 210 mainly heats the upper part of the food
  • the lower heating tube 220 mainly heats the upper part of the food. Heating takes place underneath the food.
  • the heating device 200 is controlled to enter the rapid heating mode according to the baking instruction, which specifically includes the following steps:
  • Step S801 If the baking command is a first mode command, control the upper heating tube 210 to heat with a third power, and control the lower heating tube 220 to heat with a fourth power. For example, the upper heating tube 210 continues to be heated with the third power, and the lower heating tube 220 continues to be heated with the fourth power. The sum of the third power and the fourth power is the second power.
  • the first mode command is generally used for baking pastries and other foods, such as cakes, pizza, etc.
  • the preheating temperature of baking pizza can be 250°C.
  • the first mode instruction is obtained, that is, the user presses the function button of the first mode.
  • the first mode instruction includes various preset parameters required for baking pizza, such as baking temperature, baking time, control logic of the upper heating tube 210 and the lower heating tube 220, and the control logic of the upper heating tube 210 and the lower heating tube.
  • the upper heating tube 210 is controlled to continue heating with the third power, and the lower heating tube 220 is controlled to continue heating with the fourth power.
  • the fan 400 does not work. It is understandable that grilled pizza needs to be soft and able to be drawn to maintain the taste of the pizza. If the fan 400 is turned on when baking pizza, it is easy to cause the moisture loss on the surface of the pizza to accelerate. Therefore, the pizza baked with the fan 400 turned on is dry and has a bad taste.
  • the upper heating tube 210 can be intermittently heated with a third power, and the lower heating tube 220 can be intermittently heated with a fourth power. Referring specifically to the foregoing embodiments, this embodiment will not be described in detail here.
  • the baking temperature of the pizza is 350-370°C
  • the baking time that is, the first preset time is 3-8 minutes. It can be understood that, using the heating control method of the embodiment of the present invention, the pizza can be baked within 3-8 minutes. Generally speaking, vegetable pizza takes less time, while meat pizza takes longer. For ordinary ovens on the market, the temperature for baking pizza is maintained at around 200°C, and the required time is generally 15-25 minutes. For example, baking a pizza with the same ingredients and size only takes 8 minutes using the heating control method of the present application, while it takes 25 minutes using the heating method of the prior art. Therefore, by adopting the heating control method of the embodiment of the present invention, the pizza can be baked faster and the user's waiting time can be shortened.
  • the oven 1000 further includes a baking pan 300 and a fan 400.
  • the baking pan 300 is installed in the baking cavity 110, and the baking pan 300 is used to support food.
  • the fan 400 is installed on the inner wall of the box 100.
  • the fan 400 is used to speed up the hot air circulation in the baking cavity 110 to make the temperature distribution in the oven 1000 more uniform.
  • the heating device 200 includes an upper heating tube 210 and a lower heating tube 220.
  • the upper heating tube 210 and the lower heating tube 220 are respectively located above and below the baking pan 300.
  • the upper heating tube 210 mainly continues to heat the upper part of the food, and the lower heating tube 220 mainly heats the upper part of the food. Continuously heat the underside of the food. Since the baking cavity 110 is flat, the fan 400 is disposed on the inner wall of the box 100 to unify the overall structure of the oven 1000 .
  • the heating device 200 is controlled to enter the rapid heating mode according to the baking instruction, which specifically includes the following steps:
  • Step S901 If the baking command is a second mode command, control the upper heating tube 210 to heat with the second power, and control the fan 400 to work to speed up the air flow circulation of the baking cavity 110.
  • the second mode command is generally used for meat foods, such as steak, lamb chops, etc. Taking grilled steak as an example, the preheating temperature of grilled steak can be 250°C. When the preheating temperature is reached, the second mode command is obtained, that is, the user presses the function button of the second mode.
  • the second mode command includes various preset parameters required for baking the steak, such as baking temperature, baking time, control logic of the upper heating tube 210 and the lower heating tube 220 and whether the fan 400 is working, etc. Therefore, steaks can be grilled with one click, reducing the user's operating steps and improving the user experience.
  • the upper heating tube 210 is controlled to heat the baking cavity 110, the lower heating tube 220 is not heated, and the fan 400 is controlled to work.
  • the fan 400 is disposed on the left or rear side of the baking cavity 110, that is, one side in the length direction of the baking cavity 110, so that it is convenient to blow the heat generated by the upper heating tube 210 and the lower heating tube 220 from the end close to the fan 400.
  • the fan 400 can better solve this problem.
  • the fan 400 can make the temperature distribution in the baking cavity 110 more uniform, making up for the insufficient temperature of the lower surface of the steak; and the fan 400 can speed up the loss of food moisture, so It is easy to make the surface of the steak crispy, and the sauce will be added to the steak after it is cooked.
  • the oven 100 may not have the lower heating pipe 220 .
  • the baking temperature of the grilled steak is 400-410°C
  • the baking time that is, the first preset time is 2-6 minutes.
  • the grilling time is different according to the different doneness required by the user. Of course, it is also related to the thickness of the steak. In ordinary ovens on the market, the temperature for grilling steak is maintained at around 210°C, and the required time is generally 17-25 minutes. For example, when steaks have the same thickness and size, using the heating control method of the embodiment of the present invention, the time required to grill a piece of steak is 6 minutes, while using the prior art method, the required time is 25 minutes. Therefore, by adopting the heating control method of the embodiment of the present invention, the steak can be cooked faster and the user's waiting time can be shortened.
  • the oven 1000 When the oven 1000 is preheated, if the user does not perform further operations, maintaining the heat preservation state is a high power consumption behavior and can easily reduce the service life of the oven 1000. Therefore, after the oven 1000 has been kept warm for a period of time and the user does not bake food, you need to The heating device 200 is controlled to stop heating. Therefore, referring to Figure 10, in the embodiment of the present invention, after controlling the heating device 200 to perform heat preservation operation at the preheating temperature, it also includes:
  • Step S1001 When the heating device 200 performs heat preservation operation at the preheating temperature for a second preset time period, control the heating device 200 to stop heating.
  • the second preset time length is 5-20 minutes. It should be noted that the second preset time length may be a parameter that has been determined after the oven 1000 leaves the factory, or may be a parameter set by the user. An appropriate solution is selected based on the actual situation, and the present invention is no longer specifically limited here.
  • An embodiment of the present invention also provides an oven 1000.
  • the oven 1000 includes: a memory, a processor, and a computer program stored in the memory and executable on the processor.
  • the processor and memory may be connected via a bus or other means.
  • memory can be used to store non-transitory software programs and non-transitory computer executable programs.
  • the memory may include high-speed random access memory and may also include non-transitory memory, such as at least one magnetic disk storage device, flash memory device, or other non-transitory solid-state storage device.
  • the memory may optionally include memory located remotely from the processor, and the remote memory may be connected to the processor via a network. Examples of the above-mentioned networks include but are not limited to the Internet, intranets, local area networks, mobile communication networks and combinations thereof.
  • the non-transient software programs and instructions required to implement the oven control method in the above embodiment are stored in the memory.
  • the oven control method in the above embodiment is executed, for example, the above-described FIG. 5 is executed.
  • Method steps S501 to S508 in FIG. 6 , method step S509 in FIG. 6 , method step S510 in FIG. 7 , method step S801 in FIG. 8 , method step S901 in FIG. 9 , and method step S1001 in FIG. 10 are stored in the memory.
  • the device embodiments described above are only illustrative, and the units described as separate components may or may not be physically separate, that is, they may be located in one place, or they may be distributed to multiple network units. Some or all of the modules can be selected according to actual needs to achieve the purpose of the solution of this embodiment.

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Abstract

一种烤箱(1000)的加热控制方法及烤箱(1000)。控制方法包括:获取预热指令(S501);根据预热指令控制加热装置(200)以第一功率加热烘烤腔(110)(S502);获取烘烤腔(110)的温度(S503);当烘烤腔(110)的温度大于或等于预热温度时以预热温度保温运行(S504);获取烘烤指令(S505);根据烘烤指令,控制加热装置(200)进入快速加热模式,包括控制加热装置(200)以第二功率加热烘烤腔(110)(S506);当烘烤腔(110)的温度大于或等于烘烤温度,控制加热装置(200)以烘烤温度进行保温运行,烘烤温度大于或等于预热温度(S507);在加热装置(200)进入快速加热模式达到第一预设时长后,控制加热装置(200)停止加热(S508),或以预设温度进行保温运行,预设温度小于或等于预热温度(S510)。当用户将食物放进烘烤腔(110)并启动相应的按钮,加热装置(200)继续加热,能够将烤箱(1000)升温至更高的温度,加快食物烤熟,缩短所需时间。

Description

烤箱的加热控制方法及烤箱 技术领域
本发明涉及烤箱领域,特别是涉及一种烤箱的加热控制方法及烤箱。
背景技术
现有技术的烤箱最高温度只能设置在230℃,因此制作披萨、牛排等食物所需要的时间较长,一般为20分钟以上,无法满足用户对于快速烘烤食物的需要。
发明内容
本发明旨在至少解决现有技术中存在的技术问题之一。为此,本发明提出一种烤箱的加热控制方法,能够缩短食物的制作时间。
本发明还提出一种具有上述加热控制方法的烤箱。
根据本发明第一方面实施例的烤箱的加热控制方法,
所述烤箱包括箱体和加热装置,所述箱体内设有烘烤腔,所述烘烤腔沿竖直方向的尺寸小于其沿水平方向的任一边的尺寸,所述加热装置设于所述烘烤腔且沿水平方向布置;
所述控制方法包括:
获取预热指令;
根据所述预热指令,控制所述加热装置以第一功率加热所述烘烤腔;
获取所述烘烤腔的温度;
当所述烘烤腔的温度大于或等于预热温度,控制所述加热装置以所述预热温度进行保温运行;
获取烘烤指令;
根据所述烘烤指令,控制所述加热装置进入快速加热模式,其中,所述控制所述加热装置进入快速加热模式包括控制所述加热装置以第二功率加热所述烘烤腔;
当所述烘烤腔的温度大于或等于烘烤温度,控制所述加热装置以所述烘烤温度进行保温运行,其中,所述烘烤温度大于或等于所述预热温度;
在所述加热装置进入快速加热模式达到第一预设时长后,控制所述加热装置停止加热,或以预设温度进行保温运行,其中,所述预设温度小于所述预热温度。
根据本发明实施例的烤箱的加热控制方法,至少具有如下有益效果:
烘烤腔呈扁平状,使加热装置与食物的距离更接近,能加快食物的烹饪效率。在制作食物前先将烤箱在中高温下进行预热,预热完成后,当用户放入食物并启动快速加热模式,烤箱以第二功率进行加热,食物在高温下加热,能够大大缩短食物烹饪的时间,而且在高温下食物表面瞬间炙烤成焦黄,并且能够保留食物内部的水分,提升食物的口感。
根据本发明的一些实施例,所述烤箱还包括烤盘,所述烤盘安装于所述烘烤腔内,所述加热装置包括上加热管和下加热管,所述上加热管和所述下加热管分别位于所述烤盘的上方和下方;
所述根据所述烘烤指令,控制所述加热装置进入快速加热模式,包括:
若所述烘烤指令为第一模式指令,控制所述上加热管以第三功率加热,并控制所述下加热管以第四功率加热。
根据本发明的一些实施例,所述烘烤温度为350℃至370℃。
根据本发明的一些实施例,所述第一预设时长为3分钟至8分钟。
根据本发明的一些实施例,所述烤箱还包括烤盘,所述烤盘安装于所述烘烤腔内,所述加热装置包括上加热管,所述上加热管位于所述烤盘的上方;
所述根据所述烘烤指令,控制所述加热装置进入快速加热模式,包括:
若所述烘烤指令为第二模式指令,控制所述上加热管以所述第二功率加热。
根据本发明的一些实施例,所述烘烤温度为400℃至410℃。
根据本发明的一些实施例,所述第一预设时长为2分钟至6分钟。
根据本发明的一些实施例,所述控制所述加热装置以所述预热温度进行保温运行之后,还包括:
在所述加热装置以所述预热温度进行保温运行达到第二预设时长,控制所述加热装置停止加热。
根据本发明的一些实施例,所述第二预设时长为5分钟至20分钟。
根据本发明的一些实施例,所述第二功率大于所述第一功率。
根据本发明的一些实施例,所述预热温度为200℃至400℃。
根据本发明的一些实施例,所述烘烤温度为300℃至450℃。
根据本发明的一些实施例,所述第一预设时长为0.5分钟至8分钟。
根据本发明的一些实施例,所述烤箱还包括风机,所述风机安装于所述箱体的内侧壁;
所述控制所述加热装置进入快速加热模式,还包括:
控制所述风机工作以加快所述烘烤腔的气流循环。
根据本发明第二方面实施例的烤箱,包括:存储器,所述存储器上存储有计算机程序;
处理器,所述处理器执行所述计算机程序实现如第一方面任一项所述的烤箱的加热控制方法。
根据本发明实施例的烤箱,至少具有如下有益效果:
烘烤腔呈扁平状,使加热装置与食物的距离更接近,能加快食物的烹饪效率。在制作食物前先将烤箱在中高温下进行预热,预热完成后,当用户放入食物并启动快速加热模式,烤箱以第二功率进行加热,食物在高温下加热,能够大大缩短食物烹饪的时间,而且在高温下食物表面瞬间炙烤成焦黄,并且能够保留食物内部的水分,提升食物的口感。
本发明的附加方面和优点将在下面的描述中部分给出,部分将从下面的描述中变得明显,或通过本发明的实践了解到。
附图说明
下面结合附图和实施例对本发明做进一步的说明,其中:
图1是本发明一种实施例提供的烤箱整体结构示意图;
图2是本发明一种实施例提供的烤箱隐藏部分结构示意图;
图3是本发明一种实施例提供的烤盘抽出的示意图;
图4是本发明一种实施例提供的烤箱剖视图;
图5是本发明一种实施例提供的烤箱的加热控制方法流程图;
图6是本发明另一种实施例提供的烤箱的加热控制方法流程图;
图7是本发明另一种实施例提供的烤箱的加热控制方法流程图;
图8是本发明一种实施例提供的烤箱执行第一模式指令的加热控制方法流程图;
图9是本发明一种实施例提供的烤箱执行第二模式指令的加热控制方法流程图;
图10是本发明一种实施例提供的烤箱保温控制方法的流程图。
附图标记:
烤箱1000;
箱体100;烘烤腔110;箱门120;
加热装置200;上加热管210;下加热管220;
烤盘300;
风机400。
具体实施方式
下面详细描述本发明的实施例,所述实施例的示例在附图中示出,其中自始至终相同或类似的标号表示相同或类似的元件或具有相同或类似功能的元件。下面通过参考附图描述的实施例是示例性的,仅用于解释本发明,而不能理解为对本发明的限制。
在本发明的描述中,需要理解的是,涉及到方位描述,例如上、下、前、后、左、右等指示的方位或位置关系为基于附图所示的方位或位置关系,仅是为了便于描述本发明和简化描述,而不是指示或暗示所指的装置或元件必须具有特定的方位、以特定的方位构造和操作,因此不能理解为对本发明的限制。
在本发明的描述中,若干的含义是一个或者多个,多个的含义是两个以上,大于、小于、超过等理解为不包括本数,以上、以下、以内等理解为包括本数。如果有描述到第一、第二只是用于区分技术特征为目的,而不能理解为指示或暗示相对重要性或者隐含指明所指示的技术特征的数量或者隐含指明所指示的技术特征的先后关系。
本发明的描述中,除非另有明确的限定,设置、安装、连接等词语应做广义理解,所属技术领域技术人员可以结合技术方案的具体内容合理确定上述词语在本发明中的具体含义。
参照图1、图2和图3,为本发明一种实施例的烤箱1000,可以用来烘烤食物。为了缩短食物的制作时间,烤箱1000通过分步升温的加热控制方法,来加快食物的烤熟。
继续参照图1、图2和图3,本发明的实施例中,烤箱1000包括箱体100、箱门120、加热装置200、烤盘300和风机400。箱体100内设置有烘烤腔110,烘烤腔110用于容纳食物。烤盘300安装在烘烤腔110内,烤盘300用于承托食物。箱门120转动连接于箱体100,以打开或封闭烘烤腔110。加热装置200设置在烘烤腔110内,用于对烘烤腔110进行加热。其中,烘烤腔110沿竖直方向的尺寸小于烘烤腔110沿水平方向任意一边的尺寸,也就是烘烤腔110呈扁平状。而加热装置200沿水平方向布置,因此食物在烘烤过程中能更靠近加热装置200,从而加快食物烤熟。风机400安装于箱体100的内侧壁,风机400用于加快烘烤腔110内的热风循环,以使烤箱1000内的温度分布更均匀。
参照图5,基于上述实施例的烤箱1000的加热控制方法,包括下列步骤:
步骤S501:获取预热指令。预热指令可以是用户根据烤箱1000上的控制面板,选择相应的预热按钮按下后产生,也可以是通过手机APP在线控制烤箱1000,并选择预热功能后产生,或者是烤箱1000设定了定时启动预热功能,达到设定时间后产生预热指令。具体根据实际情况选择合适的方案,本发明在此不再具体限定。
步骤S502:根据预热指令,控制加热装置200以第一功率加热烘烤腔110。可以理解的是,预热的目的是提高食物加热的效率,有效避免食物在长时间的加热过程中水分损失过大而变干发脆。烘烤腔110预热后再放入食物,高温下食物表面瞬间炙烤成焦黄,并且能够保 留食物内部的水分,提升食物的口感。
预热过程中采用第一功率加热,本实施例中第一功率的设置与烤箱1000的预热温度相适配。本发明的实施例中,预热温度为200℃至400℃,例如250℃,该温度高于相关技术的烤箱1000的最高温度230℃,从而能够为下一步快速烘烤提供有利的条件。需要说明的是,第一功率为加热装置200的总功率,加热装置200包括上加热管210和下加热管220,即第一功率为上加热管210和下加热管220的功率之和。可以理解的是,上加热管210和下加热管220可采用相同的功率进行预热,以保证预热后的烘烤腔110的温度更为均匀。需要说明的是,预热阶段风机400可以工作,进一步提高预热的效率。此外,相关技术的烤箱1000通常没有独立的预热旋钮,用户一般通过加热旋钮旋转选择相应的温度进行预热,而本发明实施例的烤箱1000设有独立的预热按钮,预热温度的大小可以是程序预先设定的,只需要用户按下预热按钮即可将烘烤腔110预热至设定的温度。本发明的另一种实施例中,预热温度的大小也可以是由用户自定义的,选择相应的温度后,烘烤腔110被加热至用户自定义的温度。
步骤S503:获取烘烤腔110的温度。可以通过温度传感器检测烘烤腔110的温度,温度传感器检测烘烤腔110中心处的温度,并将检测到的参数反馈至处理器。也可以是通过多个温度传感器,检测烘烤腔110内多个不同位置的温度,并将检测到的多个位置的温度反馈至处理器,取平均值进行计算。具体根据实际情况选择合适的方案,本发明在此不再具体限定。
步骤S504:当烘烤腔110的温度大于或等于预热温度,控制加热装置200以预热温度进行保温运行。可以理解的是,预热完成后,用户可能不能第一时间将食物放进烘烤腔110,因此需要加热装置200保温运行。保温运行的控制逻辑可以是:当烘烤腔110的温度大于或等于预热温度,加热装置200停止工作,经过一定时间后,温度传感器检测到烘烤腔110中心处的温度低于预热温度,则控制加热装置200重新加热,加热时的功率可以是以第一功率运行,也可以是低于第一功率运行。保温运行的控制逻辑还可以是:当烘烤腔110的温度大于或等于预热温度,加热装置200以一个较小的功率运行,以使烤箱1000的散热量大致等于加热量,从而达到保温的效果。
需要说明的是,当烘烤腔110的温度大于或等于预热温度,还可以发出烘烤提示,例如蜂鸣、灯闪等等。烤箱1000可以安装蜂鸣器,当预热完成,也就是烘烤腔110的温度大于或等于预热温度,控制蜂鸣器发出蜂鸣,以提醒用户。烤箱1000也可以安装信号灯,当预热完成时信号灯亮,或者是其他采用信号灯提示的方式,在此不再具体限定。或者,同时安装蜂鸣器和信号灯。在本发明的另一种实施例中,也可以是将预热完成的信息发送至用户的手机APP,提示用户预热完成,可以放入食物进行烘烤。
步骤S505:获取烘烤指令。烘烤指令可以是用户根据烤箱1000上的控制面板,选择相 应的烘烤按钮按下后产生,也可以是通过手机APP在线控制烤箱1000,并选择烘烤功能后产生。具体根据实际情况选择合适的方案,本发明在此不再具体限定。
步骤S506:根据烘烤指令,控制加热装置200进入快速加热模式,其中,控制加热装置200进入快速加热模式包括控制加热装置200以第二功率加热烘烤腔110。例如,快速加热模式中,加热装置200持续以第二功率对烘烤腔110进行加热,将烘烤腔110内加热至更高的温度,高温能加快食物烤熟。本发明的另一种实施例中,加热装置200以第二功率断续对烘烤腔110进行加热,例如,加热装置200每加热1分钟,则停止加热10秒,后续再加热1分钟,周期循环,断续加热。或者,断续加热也可以是非周期加热,例如,加热装置200先持续加热5分钟,后停止加热10秒,后再加热2分钟。具体根据实际情况选择合适的加热逻辑,本发明在此不再具体限定。
可以理解的是,步骤S206中,控制加热装置200进入快速加热模式之后,还可以包括:
控制风机400工作以加快所述烘烤腔110的气流循环。风机400用于加快烘烤腔110内的热风循环,以使烤箱1000内的温度分布更均匀。需要说明的是,风机400是否开启根据烘烤的食物决定,当需要食物口感较干时,开启风机400,例如烤牛排、饼干;当需要食物保留水分时,关闭风机400,例如烤披萨、蛋糕。
步骤S507:当烘烤腔110的温度大于或等于烘烤温度,控制加热装置200以烘烤温度进行保温运行,其中,烘烤温度大于预热温度。可以理解的,温度太高容易造成食物表面碳化,水分流失,因此在烘烤腔110的温度升高至烘烤温度后需要以烘烤温度保温运行。本发明的实施例中,烘烤温度为300℃至450℃。需要说明的是,烘烤温度需要满足大于预热温度的条件,例如预热温度为250℃,则烘烤温度可以为300℃;预热温度为400℃,则烘烤温度可以为410℃。
需要说明的是,烘烤指令还包括预设烘烤温度数值的参数信息,例如烘烤温度为350-410℃。需要说明的是,烘烤温度的大小可以是程序预先设定的,只需要用户按下烘烤按钮即可将烘烤腔110升温至设定的温度。例如对于蔬菜、糕点、少量的肉类等烘烤温度设定在较低的范围;对于一些大块的肉类,例如牛排、羊排、烤鸡等,烘烤温度则设定在较高的范围。烘烤温度的大小也可以是由用户自定义的,选择相应的温度后,烘烤腔110被加热至用户自定义的温度。
可以理解的是,参照图6,步骤S506之后,还可以包括步骤S509:当烘烤腔110的温度大于或等于烘烤温度,控制加热装置200以烘烤温度进行保温运行,其中,烘烤温度等于预热温度。例如预热阶段直接将烤箱1000的温度升温至350-410℃,后续将食物放进烘烤腔110后,继续以此温度进行烘烤。因此减少了从预热温度升温至烘烤温度这一阶段所需的时间, 能进一步缩短食物制作的时长。
步骤S508:在加热装置200进入快速加热模式达到第一预设时长后,控制加热装置200停止加热。本发明的实施例中,第一预设时长为0.5分钟至8分钟,而市面上的烤箱的第一预设时长,或者说烘烤时长通常在20分钟以上。可以理解的是,本发明实施例的烤箱1000的烘烤温度通常高于市面上的烤箱1000,虽然高温能使食物表面变得焦脆,其内部仍旧保持一定的水分,但是烘烤时间不宜过长,以免食物表面焦黑,烘干后口感不佳。因此在进入快速加热模式达到第一预设时长后,需要停止加热,以免食物烤焦,且防止箱体100外表面温度过高,提高烤箱1000的安全性。
可以理解的是,参照图7,步骤S507之后,还可以包括步骤S510:在加热装置200进入快速加热模式达到第一预设时长后,以预设温度进行保温运行,其中,预设温度小于预热温度。例如预热温度为250℃,而预设温度为65℃。当食物没有第一时间取出时,预设温度为65℃可以起到保温作用,避免食物在长时间的放置下变凉,影响口感。
可以理解的是,烤箱1000的加热控制方法主要包括两个阶段:预热阶段和继续升温阶段。预热阶段的主要作用是:预热后再放入食物,食物能瞬间在高温下炙烤,表面焦黄,保留食物内部的水分,提升口感。继续升温阶段的主要作用是:加快食物烤熟,使食物表面焦脆,缩短用户的等待时间。
本发明的实施例中,第二功率大于第一功率。例如,当烤箱1000的整机功率为2000W,预热时,加热装置200的第一功率为1600W,而烘烤时,加热装置200的第二功率可以是1800W。由于预热阶段加热装置200自身的温度已经足够高,因此后期以更高功率进行加热时,烘烤腔110内的温度上升较快。例如,预热阶段加热到250℃所需时间为10-15分钟,后期升温至400℃时,仅需要4-5分钟。因此第二功率大于第一功率能加快烘烤腔110的升温速率,加快食物烤熟。
参照图2、图3和图4,本发明的实施例中,烤箱1000还包括烤盘300和风机400,烤盘300安装在烘烤腔110内,烤盘300用于承托食物。风机400安装于箱体100的内侧壁,风机400用于加快烘烤腔110内的热风循环,以使烤箱1000内的温度分布更均匀。加热装置200包括上加热管210和下加热管220,上加热管210和下加热管220分别位于烤盘300的上方和下方,上加热管210主要对食物上方进行加热,下加热管220主要对食物下方进行加热。
参照图8,基于上述实施例的烤箱1000的加热控制方法,根据烘烤指令,控制加热装置200进入快速加热模式,具体包括下列步骤:
步骤S801:若烘烤指令为第一模式指令,控制上加热管210以第三功率加热,并控制下加热管220以第四功率加热。例如,上加热管210持续以第三功率加热,下加热管220持续 以第四功率加热。第三功率和第四功率之和为第二功率。
第一模式指令一般用于烘烤糕点一类的食物,例如蛋糕、披萨等。以烘烤披萨为例,烤披萨的预热温度可以是250℃,当达到预热温度,获取第一模式指令,也就是用户按下第一模式的功能按钮。其中,第一模式指令中包括了烘烤披萨所需的各种预置参数,例如烘烤温度,烘烤时间,上加热管210和下加热管220的控制逻辑以及上加热管210和下加热管220的加热功率大小等等。因此能一键烤制披萨,减少用户的操作步骤,提高用户的使用体验。
当获取第一模式指令,控制上加热管210持续以第三功率加热,并控制下加热管220持续以第四功率加热,此时风机400不工作。可以理解的是,烤披萨需要软熟,能够拉丝,以保持披萨的口感。如果烤披萨时启动风机400,容易导致披萨表面的水分流失加快,因此开风机400烤制的披萨较干,口感不好。本发明的另一种实施例中,上加热管210可以断续以第三功率加热,下加热管220断续以第四功率加热。具体参照前文实施例,本实施例在此不再赘述。
本发明的一种实施例中,烤披萨的烘烤温度为350-370℃,而烘烤的时间,也就是第一预设时长在3-8分钟。可以理解的是,采用本发明实施例的加热控制方法,披萨可以在3-8分钟内烤熟。通常来说,蔬菜类的披萨所需时间较短,肉类披萨所需时间较长。而市面上的普通烤箱,烤制披萨的温度维持在200℃左右,所需时长普遍为15-25分钟。例如,烤制具有相同食材、大小的披萨,采用本申请的加热控制方法,仅需要8分钟,而采用现有技术的加热方法,需要25分钟。因此,采用本发明实施例的加热控制方法,能加快披萨烤熟,缩短用户的等待时间。虽然高温会加快水分的流失,但是由于烤披萨只需要3-8分钟,时间不长,水分流失少,烤制出来的披萨不会太干。因此用户在缩短等待时间的前提下,同时保证披萨的口感,提高了用户的使用体验。
参照图2、图3和图4,本发明的实施例中,烤箱1000还包括烤盘300和风机400,烤盘300安装在烘烤腔110内,烤盘300用于承托食物。风机400安装于箱体100的内侧壁,风机400用于加快烘烤腔110内的热风循环,以使烤箱1000内的温度分布更均匀。加热装置200包括上加热管210和下加热管220,上加热管210和下加热管220分别位于烤盘300的上方和下方,上加热管210主要持续对食物上方进行加热,下加热管220主要持续对食物下方进行加热。由于烘烤腔110呈扁平状,因此将风机400设置在箱体100的内侧壁,以使烤箱1000的整体结构统一。
参照图9,基于上述实施例的烤箱1000的加热控制方法,根据烘烤指令,控制加热装置200进入快速加热模式,具体包括下列步骤:
步骤S901:若烘烤指令为第二模式指令,控制上加热管210以第二功率加热,并控制风 机400工作以加快烘烤腔110的气流循环。
第二模式指令一般用于肉类食物,例如牛排、羊排等。以烘烤牛排为例,烤牛排的预热温度可以是250℃,当达到预热温度,获取第二模式指令,也就是用户按下第二模式的功能按钮。其中,第二模式指令中包括了烘烤牛排所需的各种预置参数,例如烘烤温度,烘烤时间,上加热管210和下加热管220的控制逻辑以及风机400是否工作等等。因此能一键烤制牛排,减少用户的操作步骤,提高用户的使用体验。
当获取第一模式指令,控制上加热管210加热烘烤腔110,下加热管220不加热,且控制风机400工作。风机400设置在烘烤腔110的左侧或者后侧,也就是烘烤腔110长度方向的一侧,因此便于将上加热管210和下加热管220产生的热量从靠近风机400的一端吹向远离风机400的一端,以加快烘烤腔110的热风循环,使热风遍布烘烤腔110的绝大部分位置,进而使烘烤腔110内部的温度分布更均匀,加快肉类食物的烘烤速度,提升烹饪的质量。
可以理解的是,烤牛排时要求牛排上表面焦脆,下表面刚熟,因此下加热管220不加热,但是牛排的下表面不能夹生。而开风机400可以较好的解决这个问题,风机400能将烘烤腔110内的温度分布变得更均匀,弥补牛排下表面温度不足的情况;且开风机400可以加快食物水分的流失,因此容易使牛排的表面焦脆,而牛排会在烤熟后再加入调味汁进行入味。需要说明的是,本发明的另一种实施例中,由于不需要下加热管220加热,因此烤箱100可以没有下加热管220。
本发明的实施例中,烤牛排的烘烤温度为400-410℃,而烘烤的时间,也就是第一预设时长在2-6分钟。可以理解的是,采用本发明实施例的加热控制方法,牛排可以在2-6分钟内烤熟,根据用户需要的不同熟度,烤制的时间不同,当然,也和牛排的厚薄有关。而市面上的普通烤箱,烤制牛排的温度维持在210℃左右,所需时长普遍为17-25分钟。例如,在牛排具有相同厚度、大小的情况下,采用本发明实施例的加热控制方法,烤制一块牛排的时间为6分钟,而采用现有技术的方法,所需时间为25分钟。因此,采用本发明实施例的加热控制方法,能加快牛排烤熟,缩短用户的等待时间。
当烤箱1000预热完成,若用户没有进一步操作,一直保持保温状态是高耗电的行为,且容易降低烤箱1000的使用寿命,因此烤箱1000在保温一段时间后,用户没有烤制食物,则需要控制加热装置200停止加热。因此,参照图10,本发明的实施例中,控制加热装置200以预热温度进行保温运行之后,还包括:
步骤S1001:在加热装置200以预热温度进行保温运行达到第二预设时长,控制加热装置200停止加热。
本发明的实施例中,第二预设时长为5-20分钟。需要说明的是,第二预设时长可以是烤 箱1000在出厂后就已经确定的参数,也可以是由用户自行设定的参数。具体根据实际情况选择合适的方案,本发明在此不再具体限定。
本发明的一个实施例还提供了一种烤箱1000,该烤箱1000包括:存储器、处理器及存储在存储器上并可在处理器上运行的计算机程序。处理器和存储器可以通过总线或者其他方式连接。
存储器作为一种非暂态计算机可读存储介质,可用于存储非暂态软件程序以及非暂态性计算机可执行程序。此外,存储器可以包括高速随机存取存储器,还可以包括非暂态存储器,例如至少一个磁盘存储器件、闪存器件、或其他非暂态固态存储器件。在一些实施方式中,存储器可选包括相对于处理器远程设置的存储器,这些远程存储器可以通过网络连接至该处理器。上述网络的实例包括但不限于互联网、企业内部网、局域网、移动通信网及其组合。
实现上述实施例的烤箱的控制方法所需的非暂态软件程序以及指令存储在存储器中,当被处理器执行时,执行上述实施例中的烤箱的控制方法,例如,执行以上描述的图5中的方法步骤S501至步骤S508、图6中的方法步骤S509、图7中的方法步骤S510、图8中的方法步骤S801、图9中的方法步骤S901、图10中的方法步骤S1001。
以上所描述的装置实施例仅仅是示意性的,其中作为分离部件说明的单元可以是或者也可以不是物理上分开的,即可以位于一个地方,或者也可以分布到多个网络单元上。可以根据实际的需要选择其中的部分或者全部模块来实现本实施例方案的目的。
上面结合附图对本发明实施例作了详细说明,但是本发明不限于上述实施例,在所属技术领域普通技术人员所具备的知识范围内,还可以在不脱离本发明宗旨的前提下作出各种变化。

Claims (10)

  1. 烤箱的加热控制方法,其特征在于:所述烤箱包括箱体和加热装置,所述箱体内设有烘烤腔,所述烘烤腔沿竖直方向的尺寸小于其沿水平方向的任一边的尺寸,所述加热装置设于所述烘烤腔且沿水平方向布置;
    所述控制方法包括:
    获取预热指令;
    根据所述预热指令,控制所述加热装置以第一功率加热所述烘烤腔;
    获取所述烘烤腔的温度;
    当所述烘烤腔的温度大于或等于预热温度,控制所述加热装置以所述预热温度进行保温运行;
    获取烘烤指令;
    根据所述烘烤指令,控制所述加热装置进入快速加热模式,其中,所述控制所述加热装置进入快速加热模式包括控制所述加热装置以第二功率加热所述烘烤腔;
    当所述烘烤腔的温度大于或等于烘烤温度,控制所述加热装置以所述烘烤温度进行保温运行,其中,所述烘烤温度大于或等于所述预热温度;
    在所述加热装置进入快速加热模式达到第一预设时长后,控制所述加热装置停止加热,或以预设温度进行保温运行,其中,所述预设温度小于所述预热温度。
  2. 根据权利要求1所述烤箱的加热控制方法,其特征在于,所述预热温度为200℃至400℃。
  3. 根据权利要求1或2所述烤箱的加热控制方法,其特征在于,所述烘烤温度为300℃至450℃。
  4. 根据权利要求1所述烤箱的加热控制方法,其特征在于,所述第一预设时长为0.5分钟至8分钟。
  5. 根据权利要求1所述烤箱的加热控制方法,其特征在于,所述第二功率大于所述第一功率。
  6. 根据权利要求1所述烤箱的加热控制方法,其特征在于:所述烤箱还包括烤盘,所述烤盘安装于所述烘烤腔内,所述加热装置包括上加热管和下加热管,所述上加热管和所述下加热管分别位于所述烤盘的上方和下方;
    所述根据所述烘烤指令,控制所述加热装置进入快速加热模式,包括:
    若所述烘烤指令为第一模式指令,控制所述上加热管以第三功率加热,并控制所述下加 热管以第四功率加热。
  7. 根据权利要求1所述烤箱的加热控制方法,其特征在于:所述烤箱还包括烤盘,所述烤盘安装于所述烘烤腔内,所述加热装置包括上加热管,所述上加热管位于所述烤盘的上方;
    所述根据所述烘烤指令,控制所述加热装置进入快速加热模式,包括:
    若所述烘烤指令为第二模式指令,控制所述上加热管以所述第二功率加热。
  8. 根据权利要求1所述烤箱的加热控制方法,其特征在于:所述烤箱还包括风机,所述风机安装于所述箱体的内侧壁;
    所述控制所述加热装置进入快速加热模式,还包括:
    控制所述风机工作以加快所述烘烤腔的气流循环。
  9. 根据权利要求1所述烤箱的加热控制方法,其特征在于,所述控制所述加热装置以所述预热温度进行保温运行之后,还包括:
    在所述加热装置以所述预热温度进行保温运行达到第二预设时长,控制所述加热装置停止加热。
  10. 烤箱,其特征在于,包括:
    存储器,所述存储器上存储有计算机程序;
    处理器,所述处理器执行所述计算机程序实现如权利要求1至9任一项所述的烤箱的加热控制方法。
PCT/CN2022/099537 2022-05-17 2022-06-17 烤箱的加热控制方法及烤箱 WO2023221224A1 (zh)

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