• 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 present invention relates to a control method of a microwave oven capable of cooking rice, a time setting step of setting a cooking time thereafter according to the required time of the first cooking step to perform cooking at the time of cooking according to the cooking setting, the first cooking step, Including a second cooking step of adjusting the output of the magnetron for a quick cooking for a time set in the time setting step, by increasing the output of the microwave after a predetermined time in the steaming process to enable fast cooking and accordingly preliminary cooking Since the time can be reduced, the power consumption is reduced.
    公开号:KR20030066932A
    申请号:KR1020020006695
    申请日:2002-02-06
    公开日:2003-08-14
    发明作者:이성호;김철;조영원;김태수
    申请人:삼성전자주식회사;
    IPC主号:
    专利说明:

    Control method of microwave oven {Control method of micro-wave oven}
    [15] The present invention relates to a control method of a microwave oven capable of cooking rice.
    [16] In general, a microwave oven is a device that cooks a food by frictional heat between molecules by radiating a high frequency of 2450 MHz fundamental wave from the magnetron into the cooking chamber and repeatedly converting the molecular arrangement of moisture contained in the food. Recently, in order to meet various demands of consumers, microwave ovens having a humidity sensor capable of automatically cooking food by detecting water vapor generated from a food through a humidity sensor are commercially available.
    [17] The conventional microwave oven is provided with a separate cooking menu for cooking.
    [18] By the way, the conventional cooking menu of the microwave oven is a cooking program based on cooking of at least 2 to 4 servings or more, and when cooking for 1 serving, the output of the microwave according to cooking for 1 serving is not controlled. There is a problem such as long cooking time because it is not steamed properly or become uncooked rice, or because the output of the microwave can not be adjusted when steaming.
    [19] Therefore, an object of the present invention for solving this problem is to provide a method for controlling a microwave oven which can take quick cooking and moxibustion when cooking rice.
    [1] 1 is a plan sectional view for explaining the structure of a microwave oven according to the present invention.
    [2] 2 is a block diagram for explaining the configuration of a microwave oven according to the present invention;
    [3] 3 is a graph for explaining output control according to the present invention;
    [4] 4 is a flowchart illustrating a control method of the present invention.
    [5] 5 is a detailed flowchart illustrating the initialization step according to the present invention.
    [6] 6 is a detailed flowchart for explaining a first cooking step according to the present invention.
    [7] 7 is a detailed flowchart for explaining a second cooking step according to the present invention;
    [8] * Description of the symbols for the main parts of the drawings *
    [9] 11: electrical equipment room 12: cooking room
    [10] 20: outer case 30: inner case
    [11] 34: Inlet 35: Main exhaust vent
    [12] 36: Sub-exhaust vent 51: Cooling fan
    [13] 60: humidity sensor 70: guide
    [14] 80: storage unit 90: control unit
    [20] Microwave oven according to the present invention for achieving the above object, according to the cooking time of the cooking setting step, cooking time according to the cooking time according to the first cooking step, cooking time according to the cooking setting, the following cooking time And a second cooking step of adjusting the output of the magnetron for quick cooking during the time set in the time setting step and time setting step.
    [21] Hereinafter, one preferred embodiment according to the present invention will be described in detail with reference to the accompanying drawings.
    [22] As illustrated in FIG. 1, the microwave oven forms a main body 10 having an external shape and is formed such that the cooking chamber 12 and the electrical equipment compartment 11 are partitioned therein, and the cooking chamber 12 is hinged to the main body 10. It is provided with a door 13 for opening and closing the control panel 14, the control panel 14 is provided on the front surface of the main body 10 is provided with a plurality of operation buttons, and the humidity sensor 17 for detecting the state of the cooking chamber (12).
    [23] The cooking chamber 12 is formed to have an open front, and a turntable type cooking dish 12a is installed at the bottom thereof, and a motor for rotating the cooking dish 12a is installed at the bottom of the cooking dish 12a. In addition, an inlet opening 15a is formed in front of one side wall 15 of the cooking chamber 12 to communicate with the electrical equipment compartment 11, and the rear of the cooking chamber 12 is located behind the other side wall 16 of the cooking chamber 12. An exhaust port 16a is formed so that air is discharged to the outside.
    [24] The electronics compartment 11 has a magnetron 11a for oscillating high frequency, a cooling fan 11b for sucking external air to cool the electronics, and a guide duct for guiding air in the electrical equipment compartment 11 to the inlet port 15a. 11c and the like are provided. The cooling fan 11b is disposed between the magnetron 11a and the rear wall surface of the electrical equipment compartment 11, and the suction port 11d is perforated innumerably so that external air flows into the rear wall surface of the electrical equipment compartment 11.
    [25] And the humidity sensor 17 is provided in the other side wall 16 of the cooking chamber 12 adjacent to the exhaust port 16a so that it may be located on the exhaust flow path of the cooking chamber 12 air. Therefore, the humidity sensor 17 senses the humidity of the cooking chamber 12 air discharged through the exhaust port 16a, which is electrically connected to a control unit described later incorporated in the control panel 14.
    [26] 2 is a block diagram illustrating a microwave oven according to the present invention.
    [27] 2, the microwave oven according to the present invention includes a control unit 30 for controlling the overall operation, the input unit 14a provided in the control panel 14 to receive an operation command from the user control unit 30 And a weight sensor 12c installed under the humidity sensor 17 for detecting humidity and a lower portion of the cooking dish 12a for sensing the weight of the food, and a temperature sensor 18 for detecting temperature. 30). In addition, the microwave oven according to the present invention includes a storage unit 20 for storing data, and the storage unit 20 is electrically connected to the control unit 30. In addition, the control unit and the motor drive unit 43 for driving the magnetron drive unit 41 for driving the magnetron 11a, the fan drive unit 42 for driving the cooling fan 11b and the motor 12b for rotating the cooking dish 12a. The display driver 44 which is provided on the panel 14 and drives the display unit 14b for displaying information is electrically connected to the control unit 30.
    [28] The storage unit 20 stores various factor values preset in accordance with the type and amount of food and various data generated during cooking.
    [29] In the microwave oven according to the present invention configured as described above, when the food is placed on the cooking plate 12a and operated by operating the input unit 14a of the control panel 14, the high frequency oscillated from the magnetron 11a is cooked in the cooking chamber 12. It is radiated to cook food.
    [30] In addition, due to the operation of the cooling fan 11b during the cooking operation of the microwave, the outside air is sucked into the electrical equipment compartment 11 through the inlet 11d to cool the electrical equipment, and the guide duct 11c and the inlet 15a are It is supplied to the cooking chamber 12 through. Subsequently, the air in the cooking chamber 12 is discharged to the outside through the exhaust port 16a together with the water vapor generated from the food, as shown by the arrow direction in FIG. 1, thereby removing the smell and the steam in the cooking chamber 12. At this time, since the cooking chamber 12 air is discharged to the outside while contacting the humidity sensor 17, the humidity sensor 17 detects the water vapor contained in the discharged air and transmits it to the control unit 30.
    [31] And the control unit 30, based on the electrical signal transmitted from the humidity sensor 17 (including the output signal of the weight sensor 12c and the temperature sensor 18), the magnetron 11a, the motor 12b, the cooling fan Drive 11b to automatically cook food.
    [32] Hereinafter will be described a method of controlling the output of the magnetron when cooking rice in the microwave oven according to the present invention.
    [33] 3 is a graph illustrating an output control concept according to the present invention.
    [34] In the beginning of cooking, the magnetron output is set to the maximum output, and cooking is performed for a predetermined time until the water boils. When the set time elapses, the output of the magnetron is lowered to cook until the water boils. If water boils at this time, it will be set as the 1st cooking time T1 of the time to that time, and the 2nd cooking time T2 is computed by the time and a preset factor.
    [35] The second cooking time T2 is a steaming process, and the magnetron is operated at a low power required for the steaming for a predetermined time set in advance, and after a predetermined time, the output of the magnetron is raised to cook and the second cooking time T2 is performed. After the elapse of time, the cooking ends.
    [36] 4 to 5 are flowcharts illustrating a method for controlling a microwave oven according to the present invention.
    [37] First, food is placed on the cooking plate 12a of the cooking chamber 12. And while the door 13 is closed, cooking operation is performed by operating the operation button of the input unit 14a provided in the control panel 14 (S10).
    [38] Accordingly, the controller 30 determines whether the rice is cooked according to the information input through the input unit 14a (S20). When it is determined in step S20 that the rice is cooked, the controller 30 determines whether a cooking start command is input through the input unit 14a (S30).
    [39] If it is determined that the cooking start command is input in step S30, the controller 30 performs an initialization operation (S40). In order to perform the initialization operation in step S40, the controller 30 controls the fan driver 42 to operate the cooling fan 11b for a predetermined time. At this time, the controller 30 does not operate the magnetron 11a.
    [40] After the initialization operation for a predetermined time is completed in step S40, the control unit 30 performs the first cooking operation (S50). After performing the first cooking operation, the controller 30 sets the second cooking time T2 according to a factor value stored in the storage unit 20 in advance according to the time T1 and cooking type of the first cooking S50. (S60). The controller 30 performs a second cooking S70 during the second cooking time T2. When the second cooking S70 is completed, the control unit 30 controls the magnetron driver 41 to stop the operation of the magnetron 11a, and controls the fan driver 42 to stop the operation of the cooling fan 11b. Complete the cooking (S80).
    [41] The initialization step (S40) is shown in Figure 5 as follows.
    [42] The controller 30 determines whether a predetermined time has elapsed after applying power (S41). If it is determined in step S41 that the predetermined time has elapsed, the controller 30 executes a first initialization step of driving only the cooling fan 11b for a preset time (S42). However, if it is determined in step S41 that the predetermined time has not elapsed, the controller 30 executes the second initialization step S43 for initializing for a longer time than the first initialization time.
    [43] The first cooking step S50 is shown in FIG. 6 and is as follows.
    [44] The control unit 30 controls the magnetron driver 41 to drive the magnetron 11a at maximum output (S51). When the magnetron 11a is operated, high frequency is radiated from the magnetron 11a to the cooking chamber 12, and the cooked food irradiated at the high frequency is processed by frictional heat by rapid molecular conversion of water. In addition, as the cooling fan 11b is driven, the external air is sucked into the electrical equipment room 11 through the suction hole 11d to cool the magnetron 11a and the high pressure transformer (not shown) and the guide duct 11c. The inlet 15a is supplied to the cooking chamber 12. Subsequently, the air entering the cooking chamber 12 is discharged to the outside through the exhaust port 16a together with the steam generated as the cooking proceeds.
    [45] The controller 30 determines whether the water is boiled through the humidity sensor 17 (S52). If it is determined in step S52 that the water is boiling, the control unit 30 determines whether a predetermined time has elapsed (S53). If it is determined in step S53 that the predetermined time has elapsed, the controller 30 sets the required time to the first cooking time T1 until now (S54). In addition, the controller 30 sets the second cooking time T2 according to the set first cooking time T1 (S55). In step S55, the second cooking time T2 is set by the sum of the first cooking time T1 and a predetermined predetermined time, or the preset factor is set according to the first cooking time T1 and the type of food. The second cooking time T2 is set by the product.
    [46] On the other hand, if it is determined in step S32 that the predetermined time has not elapsed, the controller 30 sets the second cooking time T2 to a preset minimum time (S56) and returns.
    [47] The second cooking step S60 is as shown in FIG. 7 and will be described in detail below.
    [48] The second cooking step (S60) is a process for inducing moxibustion. First, the controller 30 controls the magnetron driver 41 so that the output of the current magnetron 11a becomes a preset moxibustion output (S61).
    [49] The control unit 30 determines whether a preset reference time (ΔT in FIG. 3) has elapsed for declining (S62). If it is determined in step S62 that the reference time DELTA T has elapsed, the controller 30 controls the magnetron driver 41 to increase the output of the magnetron 11a for rapid cooking (S63). Accordingly, the cooking can be completed quickly, thereby reducing the overall cooking time.
    [50] The controller 30 determines whether the second cooking time T2 has ended while increasing the output of the magnetron 11a and proceeding with cooking (S64). At this time, the cooking time which is performed after increasing the output of the magnetron 11a is equal to the time obtained by subtracting the preset reference time DELTA T from the second cooking time T2.
    [51] If it is determined in step S64 that the second cooking time T2 has ended, the control unit 30 returns.
    [52] As described in detail above, according to the control method of the microwave oven according to the present invention, by increasing the output of the microwave after a predetermined time in the degassing process, it is possible to quickly cook, thereby reducing the pre-cooking time consumption It has the effect of reducing power.
    权利要求:
    Claims (8)
    [1" claim-type="Currently amended] In the control method of the microwave oven provided with the cooking chamber in which cooking is performed, the cooling fan which circulates air, the magnetron which generate | occur | produces a high frequency, and the humidity sensor which detects the humidity of the said cooking chamber,
    A cooking setting step of performing cooking setting,
    A first cooking step of cooking at the time of cooking according to the cooking setting;
    A time setting step of setting a second cooking time according to the required time of the first cooking step;
    And a second cooking step of adjusting the output of the magnetron for the quick cooking during the second cooking time set in the time setting step.
    [2" claim-type="Currently amended] The method of claim 1,
    And a initialization step of operating only the cooling fan for a preset time before the cooking step.
    [3" claim-type="Currently amended] The method of claim 2,
    The initialization step may include a time calculation step of calculating a power-on time, a first initialization step of operating only the cooling fan by a preset first initialization time when the power-on time is less than or equal to a preset reference time, and the power-on time. And a second initialization step of operating only the cooling fan by a second initialization time that is set to be shorter than the first initialization time when the reference time is longer than the reference time.
    [4" claim-type="Currently amended] The method of claim 1,
    The first cooking step,
    Operating the magnetron at maximum output, and detecting water boiling through the humidity sensor, and if the water boiling is detected, executing the time setting step.
    [5" claim-type="Currently amended] The method of claim 4, wherein
    The time setting step is a microwave oven, characterized in that for setting the second cooking time by the product of a predetermined factor according to the required time of the first cooking step, the time until the boiling water is detected and the type of food. Control method.
    [6" claim-type="Currently amended] The method of claim 4, wherein
    The time setting step is the control method of the microwave oven, characterized in that for setting the second cooking time by the sum of the required time of the first cooking step which is the time until the boiling water is detected and a predetermined predetermined time.
    [7" claim-type="Currently amended] The method of claim 4, wherein
    The time setting step may include determining whether the required time of the first cooking step, which is the time until the boiling of water is detected, has passed a preset reference time, and if it is determined that the reference time has not elapsed, the second time. And controlling the cooking time to a predetermined minimum time.
    [8" claim-type="Currently amended] The method of claim 1,
    The second cooking step,
    Setting the output of the magnetron to a preset steaming output and performing cooking; determining whether a preset heating time has elapsed; and if the heating time has elapsed, the output of the magnetron is greater than or equal to the steaming output. And controlling whether the cooking time set in the time setting step has ended, and stopping the operation of the magnetron and the cooling fan when the cooking time is determined to be completed and completing cooking. How to control a microwave oven.
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    同族专利:
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    JP3971272B2|2007-09-05|
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    US6878913B2|2005-04-12|
    JP2003232526A|2003-08-22|
    US20030146210A1|2003-08-07|
    DE60234902D1|2010-02-11|
    ES2340366T3|2010-06-02|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    法律状态:
    2002-02-06|Application filed by 삼성전자주식회사
    2002-02-06|Priority to KR20020006695A
    2003-08-14|Publication of KR20030066932A
    2004-10-15|Application granted
    2004-10-15|Publication of KR100453244B1
    优先权:
    申请号 | 申请日 | 专利标题
    KR20020006695A|KR100453244B1|2002-02-06|2002-02-06|Control method of micro-wave oven|
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