JP3994932B2 - Cooking device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electric device, and more particularly to a cooking device such as a microwave oven, a microwave oven, an electric oven, or a toaster.
[0002]
[Prior art]
A cooker that eliminates wasteful power in a standby state includes a heating source for heating food, an input means for setting the operation content of the heating source, and a door open / close detection means for detecting opening / closing of the door. A control means for controlling the operation, a power supply circuit serving as a power supply for the control means, and a door switch that is interposed between the commercial power supply and the power supply circuit and that is turned on when the door is opened and turned off when the door is closed (For example, refer to Patent Document 1).
[0003]
[Patent Document 1]
JP 7-217906 A
[0004]
When this cooker detects that power is supplied to the control means through the power supply circuit, the cooker is provided with a reset circuit for resetting the control means, and is turned on to connect the commercial power supply to the power supply circuit. The opening / closing means is connected in parallel to the door switch.
[0005]
Furthermore, the control means resets the reset circuit when the door switch is turned on by the opening of the door and power is supplied from the commercial power source to the power supply circuit, and sets a predetermined timer time. When the blockage is detected, the predetermined timer time is started. When the timer time is being measured, the door opening / closing detection means does not detect the opening of the door, or the power opening / closing means is turned OFF when there is no operation input of the input means.
[0006]
[Problems to be solved by the invention]
However, since the timer time of the conventional cooking device starts timing when the door opening / closing detection means detects the closing of the door, for example, if the door is left open, the power circuit and control of the cooking device There is a problem that the circuit is energized and wastes power. Furthermore, even if the door is closed after noticing the opening of the door, the power open / close means is turned off after a predetermined time has elapsed from the time when the door is closed. There was also a problem.
[0007]
The present invention has been made to solve the problems of the related art, and achieves energy saving by eliminating wasteful power consumption of the power supply circuit and the control circuit when waiting for cooking when the door is opened for a long time. An object is to provide a cooking device that can be used.
[0008]
[Means for Solving the Problems]
  In order to achieve the above object, a cooking device according to the present invention includes a heating chamber having a door that opens and closes to store food, a heating source that heats the food in the heating chamber, and an operation content of the heating source. Input means for setting the door, door open / close detection means for detecting opening / closing of the door, control means for controlling the operation of the heating source based on the setting of the input means, power supply means for supplying power to the control means, and control means Between the commercial power supply and the power supply means, and a display means for displaying that the cooking standby mode state where the power source is supplied and the heating source is not operating or the cooking mode state where the heating source is operating A door switch that is turned on when the door is opened and turned off when the door is closed, and power switching means connected in parallel to the door switch;A physical quantity measuring means for measuring an initial physical quantity of the heating chamber and storing it in a pre-set initial physical quantity storage means when the door switch is turned on and power is supplied from the commercial power supply to the power supply means;When the door switch is turned on and power is supplied from the commercial power supply to the power supply means, the timer means for setting a predetermined timer time and starting the time measurement, and when the time measurement by the timer means reaches the timer time Mode changing means for turning off the power opening / closing means and / or turning off the display of the display means and shifting to the power saving mode state;The mode changing means turns on the power switching means when the physical quantity detected by the physical quantity measuring means changes more than a predetermined physical quantity from the initial physical quantity stored in the initial physical quantity storage means in the power saving mode state, And / or the display of the display means is turned on to shift to the cooking standby mode state, the time measurement of the timer means is reset, and the time measurement is started.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Embodiment 1 FIG.
Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is an external perspective view of a microwave oven which is a cooking device according to an embodiment of the present invention. In the figure, a microwave oven main body 1 which is a cooking device of the present embodiment includes a heating chamber 2 provided inside the microwave oven main body 1 for storing food, and a door 3 for opening and closing the front opening of the heating chamber 2. The operation unit 4 includes an input unit 5 and a display unit 6 for instructing or canceling heating of the food stored in the heating chamber 2. As the input means 5, cooking is started directly without pressing the start key 5 c, and automatic cooking is performed by a sensor (not shown) without time setting. The range key 5 b is an example of a manual setting key. A start key 5c for starting cooking, a dial 5e for rotating and setting cooking time and temperature, and the like are provided, and these correspond to cooking setting means of the present invention. Further, the cancel key 5d for canceling the setting or canceling the cooking corresponds to the canceling means of the present invention.
[0010]
FIG. 2 shows a control circuit diagram of the microwave oven in the present embodiment. As shown in the figure, a commercial AC power supply 8 as a commercial power supply includes a current fuse 9 (overcurrent protection device) and a door switch 10 (corresponding to the open / close detection means of the present invention) connected to one of the commercial AC power supply 8. The movable contact 10a is turned on to one fixed contact 10b when the door 3 is opened, and the movable contact 10a is turned on to the other fixed contact 10c when the door 3 is closed. . The door switch 10 has a monitor switch 11 for blowing the current fuse 9 when a failure occurs in which the movable contact 10a is not turned on to the one fixed contact 10b when the door 3 is opened.
[0011]
Furthermore, the microwave oven which is the cooking device of the present embodiment includes an oven lamp 12 for illuminating the heating chamber 2 during cooking, a turntable motor 13 for rotating the turntable at the bottom of the heating chamber 2, and the top surface of the heating chamber 2 An electric heater 14 (upper heater) provided on the heating chamber 2, an electric heater 15 (lower heater) provided on the bottom of the heating chamber 2, a high-frequency generation source 16 composed of a magnetron, etc., and a fan motor 17 that cools the high-frequency generation source 16 It has. The upper and lower heaters 14 and 15 and the high frequency generation source 16 correspond to the heating source of the present invention.
[0012]
The relays 18, 19, 20, and 21 are controlled by the control means 25 to turn on / off the connection of the oven lamp 12, the turntable motor 13, the upper and lower heaters 14 and 15, and the high-frequency generator 16 to the commercial AC power source 8. Is to do. The relay 22 corresponds to the power switching means of the present invention connected in parallel to the door switch 10, and is ON / OFF controlled by the control means 25. The power opening / closing means may be an infrared sensor, an ultrasonic sensor or the like as long as it can detect opening and closing of the door 3.
[0013]
The power supply circuit 23 of the control means 25 corresponds to the power supply means of the present invention, and is connected to the commercial AC power supply 8 by the parallel circuit of the door switch 10 and the relay 22 described above to generate a DC voltage. When the DC voltage rises up to a voltage at which the power supply circuit 23 is connected to the commercial AC power supply 8 and the control means 25 operates normally, the reset circuit 24 captures that and outputs a reset signal to the control means 25. Is to initialize.
[0014]
The control means 25 receives the input of the input means 5 for selecting the heating means or setting the heating time and the door open / close detection circuit 26 for detecting the open / closed state of the door 3, and is selected and set by the operation input of the input means 5. It drives and controls the display means 6 for displaying a message for the kind of heating source by cooking, heating time and the user, and the above-described relays 18 to 22. The control means 25 is provided with a timer 27 (corresponding to the timer means of the present invention) for measuring time.
[0015]
Here, the zero power consumption mode state and the power saving mode state will be described. In the zero power consumption mode state, the commercial AC power supply 8 is disconnected (the oven lamp 12, the turntable motor 13, the upper and lower heaters 14 and 15, and the high frequency generation source 16 are in the OFF state), and the control means 25 is energized from the power supply circuit 23. And the control means 25 does not generate a normal DC voltage (a state where the movable contact 10a of the door switch 10 is turned on to the other fixed contact 10c and the relay 22 is turned off). That is, the zero power consumption mode state refers to a state in which the commercial AC power supply 8 and the microwave oven are electrically disconnected and the power supply circuit 23 and the control circuit of the microwave oven do not consume useless power. In the zero power consumption mode state in FIG. 2, the relay 18 is OFF, the relay 10 is OFF (the movable contact 10a and one fixed contact 10b are OFF), and the relay 22 is OFF. Each of the relays 18, 10, and 22 is turned off when the commercial AC power supply 8 is not energized. On the other hand, in the power saving mode state, power is supplied from the power supply circuit 23 to the control means 25, the display of the display means 6 is turned off when the relay 22 is OFF, and the input means 5 inputs with little wasteful power consumption. Say waiting.
[0016]
The operation of the microwave oven with such a configuration will be described with reference to the flowcharts of FIGS. Note that the flowcharts of FIGS. 3 to 5 are connected according to the arrows between the same alphabets. First, when the user opens the door 3 to use the microwave oven when the power consumption zero mode state described above in (S1) of FIG. 3 is established (S2), the movable contact 10a of the door switch 10 is moved. The power is turned on to the one fixed contact 10b, whereby electric power is supplied from the commercial AC power supply 8 to the power supply circuit 23 without the relay 22 (S4). The reset circuit 24 outputs a reset signal to the control means 25 by catching the rise of the DC voltage that is the output from the power supply circuit 23 (S5). Upon receipt of this reset signal, the control means 25 is turned on and the operation is reset (S6), the relay 22 is turned on (S7), and the display means 6 is energized (S8). Here, the control means 25 displays “0”, which is the initial state of the cooking standby mode state, on the display means 6 and enters the cooking standby mode state (S9).
[0017]
In (S10), a predetermined time is set in the timer 27. Here, for example, the set time of the timer 27 is 5 minutes. In (S11), the timer timing operation of the timer 27 set in (S10), that is, the timer timing subtraction operation is started. Next, in (S12), it is determined whether or not the set time of the timer 27 has become 0. If the set time of the timer 27 has not become 0, the process proceeds to (S13) in FIG. Therefore, the user waits for food to enter the heating chamber 2 and to close the door 3. If the door 3 is not further closed, the process proceeds to (S14). In (S14), it is determined whether or not the user has operated the input means 5. Further, when the user does not operate the input unit 5, the process returns to (S11) in FIG.
[0018]
In FIG. 5 (S14), when the user operates the input means 5, for example, by turning the range key 5b and the dial 5e, “range” and “6:00 (6 minutes)” are set (S15). Transition to. In (S15), since it seems that there is a plan to perform cooking by pressing the start key 5c thereafter, the set time of the timer 27 is reset to 30 minutes, for example, and the process returns to (S11) in FIG. The timer 27 continues to count the timer 27 and thereafter performs the same operation as described above. Further, when the door 3 is closed in (S13) in FIG. 5, the movable contact 10a of the door switch 10 turns off the connection with the one fixed contact 10b (S16), and the timer 27 continues to count the timer ( S17).
[0019]
Next, in (S18), it is determined whether or not the start of cooking has been instructed by an operation from the input means 5. If the user has not instructed to start cooking, the process proceeds to (S19). In (S19), it is determined whether or not the set time of the timer 27 has become zero. Further, when the set time of the timer 27 is not 0, the process proceeds to (S20). In (S20), it is determined whether or not the door 3 is opened again. If the door 3 is not opened, the process proceeds to (S21). In (S21), it is determined whether or not the user has operated the input means 5. If the user has not operated the input means 5, the process returns to (S17), and the timer 27 continues to count the timer, and thereafter the same as described above. Is performed.
[0020]
In (S18), for example, when the start of cooking is instructed by an operation from the input means 5, and the instructed cooking is in the range mode, the relays 18 and 21 are turned on, and the display on the display means 6 is being cooked. The operation display is made and a transition is made to the cooking mode state (S22), and the timer 27 is stopped (S23). Next, the process proceeds to (S24), and when there is no interruption of cooking on the way, the end of cooking is determined in (S25). If cooking has not been completed yet, the process returns to (S23) to continue cooking. When it is determined in (S25) that cooking has been completed, the process proceeds to (S26), the heating end operation such as turning off the relays 18 and 21 is performed, and the process proceeds to (S27).
[0021]
In (S27), the relay 22 is turned off, and then the power supply circuit 23 is disconnected from the commercial AC power supply 8 in (S28) of FIG. However, due to the capacity of the power supply circuit 23, the control means 25 is not turned off until the reset signal is input from the reset circuit 24 for less than 1 second, and power is supplied from the power supply circuit 23. Meanwhile, in (S29), it is determined whether or not the door 3 is opened again. If the door 3 is not opened (S30), a reset signal is output from the reset circuit 24 and the control means 25 is turned off (S31). Then, the power supply to the display means 6 is turned off (S32), and the state returns to the above-described zero power consumption mode state (S33). If the door opening / closing detection means detects the opening of the door 3 in (S29), the process returns to (S7) in FIG. Although not shown, the control means 25 includes an open / close detection means.
[0022]
In (S24) of FIG. 5, when the door 3 is opened in the cooking mode state, cooking is interrupted and the process proceeds to (S34). In (S34), since it seems that there is a plan to perform cooking by pressing the start key 5c after that, the set time of the timer 27 is reset to 30 minutes, and the process returns to (S17) and the timer 27 is set. After the timer timing is restarted, the same operation as described above is performed.
[0023]
If the control means 25 detects the opening of the door 3 again in (S20), the process proceeds to (S34). In (S34), simply opening the door 3 does not indicate whether or not cooking will be performed thereafter, so the set time of the timer 27 is reset to 5 minutes, and the process returns to (S17), and the timer timing of the timer 27 is set. After the restart, the same operation as described above is performed.
[0024]
In (S21), when the user operates the input means 5, for example, when the range key 5b and the dial 5e are turned to “range” or “6:00 (6 minutes)”, the process proceeds to (S34). In (S34), since it seems that there is a plan to perform cooking by pressing the start key 5c after that, the set time of the timer 27 is reset to 30 minutes, and the process returns to (S17). After the timer timing is restarted, the same operation as described above is performed.
[0025]
  When (S12) in FIG. 3 finishes counting the time set in the timer 27, this state is determined in (S12).FIG.(S35). In (S35), the control means 25 turns off the relay 22, and then turns off the display means 6 (S36), and transitions to the power saving mode state described above (corresponding to the mode change means of the present invention) (S37).
[0026]
Thereafter, if no operation input is detected from the input means 5 in (S38) and the door 3 is not closed in (S39), the power saving mode state is continued. In (S38), the control means 25 is input to the input means. When the operation input from 5 is detected, the process returns to (S7), the relay 22 is turned on again (S7), the display means 6 is turned on (S8), and the state transitions to the cooking standby mode state. .
[0027]
Here, the display of the display means 6 in (S8) of FIG. 3 performed by the operation of the input means 5 in (S38) of FIG. 4 may be performed in response to the received operation input. You may display "0" which is the initial state of a cooking standby mode state. Moreover, when the cooking standby mode state immediately before that is during cooking setting or during cooking interruption, the display may be made first. At this time, since it seems that there is a plan to perform cooking by pressing the start key 5c thereafter, the set time of the timer 27 is reset to 30 minutes in (S10).
[0028]
When the door 3 is closed in (S39) of FIG. 4 in the power saving mode state, the movable contact 10a of the door switch 10 turns off the connection with the one fixed contact 10b (S40), and the other fixed contact 10c is moved to the side. Turn on. Thereafter, in (S28), the power supply circuit 23 performs the same operation as described above after the connection with the commercial AC power supply 8 is disconnected.
[0029]
As described above, when the timer 27 reaches the predetermined time after the door 3 is opened, the relay 22 is turned off and the display unit 6 is turned off to shift to the power saving mode state. Therefore, power consumption can be reduced without wasteful power consumption. Further, since the display means 6 is also turned off, it can be seen that the user is in the power saving mode.
[0030]
Further, when there is an operation input from the input means 5 in the power saving mode state, the relay 22 is turned on and the display means 6 is turned on. As a result, it is unnecessary to close and open the door 3 again to enter the cooking standby mode, so that the operability can be improved. At this time, since the reset signal is not output from the reset circuit 24, the control means 25 can store the state of the immediately preceding cooking standby mode, and the cooking setting state and cooking interruption state at that time are displayed again. Since it is displayed on the means 6 and cooking can be resumed easily thereafter, it is convenient.
[0031]
The relay 22 is connected in parallel to the door switch 10 and is turned on when the door switch 10 is turned on to connect the commercial AC power supply 8 to the power supply circuit 23. Therefore, in the cooking standby mode state, the relay 22 Since the commercial AC power supply 8 and the power supply means 23 are connected in all cases where the door 3 is opened and closed regardless of the charge, no reset signal is output from the reset circuit 24 to the control means 25. Since the control means 25 does not reset and clear the cooking setting state or cooking interruption state, cooking can be resumed easily thereafter, so that the operability can be greatly improved.
[0032]
In addition, when in the power saving mode state, when the opening of the door 3 is detected from being closed while the control means 25 is not reset, the relay 22 is turned on and the display means 6 is turned on. The power saving mode state is canceled even if the door 3 is closed for a time of about 1 second or more until the control means 25 is reset, and the reset signal is output from the reset circuit 24 to the control means 25 and is not opened. The cooking standby mode can be set, and the operability can be greatly improved.
[0033]
Further, when the control means 25 detects an operation input from the input means 5, the set time of the timer 27 is reset. As a result, it is possible to prevent the transition to the power saving mode state during the operation input immediately before the end of the set time of the timer 27 (just before the transition to the power saving mode state) or immediately after the operation input. Accordingly, the operation input from the input unit 5 can be continued even before the transition to the power saving mode state, and the operation can be shifted to the next operation, so that the usability can be improved.
[0034]
Further, in the cooking standby mode state, in the case of cooking setting by an operation input from the input means 5 or cooking interruption due to the opening of the door 3, the timer 27 of the timer 27 from the time when “0” is displayed as the initial state of the cooking standby mode state. Since the set time is increased to about 30 minutes, it is highly possible that cooking can be resumed thereafter, and the usability is improved.
[0035]
Further, when the cooking standby mode state is restored by the operation input from the input means 5 during the power saving mode state, the cooking standby mode state is displayed when the immediately preceding cooking standby mode state is cooking setting or cooking is interrupted. Since the subtraction time of the timer 27 is set to about 30 minutes longer than when “0” is displayed in the initial state, cooking is likely to be resumed after that, and the usability is improved.
[0036]
Embodiment 2. FIG.
The microwave oven which is the cooking device concerning other embodiment of this invention is demonstrated. The configuration is the same as in FIGS.
[0037]
The operation of such a configuration will be described with reference to the flowcharts of FIGS. In addition, since steps having the same step numbers as those described in FIGS. 3 to 5 are the same as those described above, description thereof is omitted. In the flowcharts of FIGS. 6 to 8, the same alphabet is connected according to the arrows.
[0038]
Hereinafter, a different part from the flowchart of FIG. 3 thru | or 5 is demonstrated. When the user opens the door 3 to use the microwave oven after performing (S1) in FIG. 6 (S2), the movable contact 10a of the door switch 10 turns off the connection with the other fixed contact 10c side. One of the fixed contacts 10b is turned on (S3), and power is supplied from the commercial AC power supply 8 to the power supply circuit 23 (S4). The control means 25 catches the rise of the DC voltage output from the power supply circuit 23, and the reset circuit 24 outputs a reset signal to the control means 25 (S5). In response to this reset signal, the control means 25 is turned on and the operation is reset (S6), and the relay 22 is turned on to start energizing the display means 6 (S8). Here, the control means 25 displays “0”, which is the initial state of the cooking standby mode state, on the display means 6 and enters the cooking standby mode state (S9).
[0039]
Next, when (S10) to (S12) are executed and the door 3 is closed in (S13) of FIG. 8, the movable contact 10a of the door switch 10 turns off the connection with one fixed contact 10b (S16), and then In (S41), the power supply circuit 23 is disconnected from the commercial AC power supply 8. At this time, due to the capacity of the power supply circuit 23, if the door 3 is closed in less than one second after the door 3 is opened, sufficient charge is not stored in the power supply circuit 23, and a reset signal is output from the reset circuit 24. (S42).
[0040]
In response to the reset signal, the control means 25 is turned off in (S31) of FIG. 7, the power supply to the display means 6 is turned off (S32), and the power consumption zero mode state is entered. That is, the power supply circuit 23 returns to the control means 25 to return to the zero power consumption mode state in which the control means 25 does not generate a normal DC voltage (S33). Further, if the door 3 is closed after 1 second or more after the door 3 is opened, a sufficient charge is stored in the power supply circuit 23. Therefore, in FIG. 8 (S42), a reset signal is output from the reset circuit 24. The relay 22 is turned ON (S43), the set time of the timer 27 is reset at (S44), and the timer 27 continues to count the timer (S17).
[0041]
If the display means 6 is in the cooking setting state or the cooking is interrupted in (S44), it is assumed that there is a plan to perform cooking by pressing the start key 5c thereafter. Should be set to 30 minutes.
[0042]
On the other hand, when the door 3 is closed in (S39) in FIG. 7, the movable contact 10a of the door switch 10 turns off the connection with the one fixed contact 10b (S40), and then in (S28) the power supply circuit 23 is switched to commercial AC. The connection with the power supply 8 is cut off. When the door 3 is closed after 1 second or more has elapsed since the door 3 was opened, a sufficient charge is stored in the power supply circuit 23, so that no reset signal is output from the reset circuit 24 (S30) and the relay is again performed. 22 is turned on (S45), the display means 6 is turned on (S46), and the state is changed to the cooking standby mode (S47). Next, the set time of the timer 27 is reset at (S34) in FIG. 8, and the timer 27 continues to count the timer (S17).
[0043]
Here, the display (S46) of the display means 6 by the closing of the door 3 in (S39) indicates that the cooking standby mode state immediately before that is during cooking setting or during cooking interruption, during the cooking setting, or It may be displayed that cooking is suspended, or “0”, which is the initial state of the cooking standby mode, may be displayed. At this time, since it seems that there is a plan to perform cooking by pressing the start key 5c, it is preferable to set the set time of the timer 27 to 30 minutes in (S34).
[0044]
As described above, in the power saving mode state, only the operation input by the input means 5 or the door 3 is closed, and the display on the display means 6 is automatically set to the cooking standby mode state. It is not necessary to close and open the door 3 to enter the cooking standby mode, and the operability can be greatly improved. At this time, since the reset signal is not output from the reset circuit 24, the control means 25 can store the state of the immediately preceding cooking standby mode, and the cooking setting state and cooking interruption state at that time are displayed again. Since it is displayed on the means 6 and cooking can be resumed easily thereafter, it is convenient.
[0045]
Further, when the door 3 is opened in the cooking standby mode, the movable contact 10a of the door switch 10 is turned on to the one fixed contact 10b, so that the commercial AC power supply 8 is connected to the power supply circuit 23 without using the relay 22. Therefore, it is not necessary to turn on the relay 22. Therefore, in the cooking standby mode state in which the door 3 is opened, the relay 22 is turned OFF, the blockage of the door 3 is detected, and the relay 22 is turned ON. Therefore, the power consumption to the relay 22 is deleted. can do.
[0046]
Embodiment 3 FIG.
Hereinafter, the microwave oven which is the cooking device concerning other embodiment of this invention is demonstrated using FIG. FIG. 9 is a cross-sectional view of the microwave oven of the present embodiment. In addition, since the structure of a microwave oven is the same as FIG. 1, description is abbreviate | omitted.
[0047]
In FIG. 9, the physical quantity measuring means 28 is a means for measuring the weight of the food 31, and is provided at the lower part of the turntable motor 13 that rotates the turntable 29 arranged at the bottom of the heating chamber 2 in the heating chamber 2. ing. The shaft 30 passes through the bottom of the heating chamber 2 and is fixed to the turntable 29. When the food 31 is placed on the turntable 29, the shaft 30 is lowered with the turntable 29, and when the food 31 is taken out, the turntable is removed. It rises with 29 and is displaced in the vertical direction. The physical quantity measuring means 28 includes a displacement member (not shown) that is interlocked with the displacement of the shaft 30 in the vertical direction, and a counter electrode that is displaced by the displacement of the displacement member. Thus, the weight of the food 31 is detected by changing the capacitance of the counter electrode.
[0048]
FIG. 10 shows a control circuit diagram of the microwave oven. The description of the same reference numerals as those in FIG. 2 is omitted. The initial physical quantity storage means 32 stores the initial weight (initial physical quantity) of the detected food 31 when the door switch 10 is turned ON and power is supplied from the commercial power supply 8 to the power supply circuit 23. Thereafter, the control means 25 compares the initial physical quantity (hereinafter referred to as initial food weight) stored in the initial physical quantity storage means 32 with the food weight detected by the physical quantity measuring means 28 as needed.
[0049]
The operation of such a configuration will be described with reference to the flowcharts of FIGS. Also, the steps denoted by the same step numbers as those shown in FIGS. 6 to 8 are the same as those described above, and thus the description thereof is omitted. In the flowcharts of FIGS. 11 to 13 as well, the same alphabet is connected according to the arrows.
[0050]
Hereinafter, only portions different from the flowchart described in the above-described embodiment will be described. First, (S1) to (S5) in FIG. 11 are executed (S6), and when the control means 25 is turned on, the display means 6 is energized (S8), and the physical quantity measuring means 28 sets the initial food weight W0. The initial food weight W0 is measured and stored in the initial physical quantity storage means 32 (S48), (S9) to (12) are executed, and the process proceeds to (S13) in FIG.
[0051]
If no operation input is detected from the input means 5 in (S13) in FIG. 13 (S14), the process proceeds to (S49). If there is no weight fluctuation equal to or larger than the predetermined physical quantity in (S49), the process proceeds to (S11) in FIG. When the user places the food 31 on the turntable 29 in (S49) of FIG. 13, the control means 25 uses the initial food weight W0 stored in the initial physical quantity storage means 32 and the food weight W detected by the physical quantity measurement means 28. When the difference | W−W0 | is more than a predetermined weight (in this case, 30 g is considered in consideration of the variation in the physical quantity measuring means 28), the process proceeds to (S15). In (S15), since it seems that there is a plan to perform cooking by pressing the start key 5c thereafter, the set time of the timer 27 is reset to 30 minutes, and the process returns to (S11) in FIG. After the 27 timer timing is restarted, the same operation as described above is performed.
[0052]
Also, after executing (S36) and (S37) in FIG. 12 (S38), if no operation input from the input means 5 is detected, the process proceeds to (S50), and if there is no weight fluctuation, the process proceeds to (S39). Transition. When the user places the food 31 on the turntable 29 in (S50), the control means 25 determines the difference between the initial food weight W0 stored in the initial physical quantity storage means 32 and the food weight W detected by the physical quantity measurement means 28. When | W−W0 | fluctuates more than a predetermined weight (in this case, 30 g considering variation variation of the physical quantity measuring means 28), the process returns to (S8) in FIG. Transition to a state (S9). (Omitted because of the same operation as above).
[0053]
As described above, in the power saving mode state, the display of the display unit 6 is set to the cooking standby mode state only by detecting the change in the weight of the food 31 by the physical quantity measuring unit 28, which is convenient.
[0054]
Here, the variation due to the placement of the food 31 in the heating chamber 2 is detected by the physical quantity measuring means 28, but the placement of the food 31 may be detected using other sensors. Needless to say.
[0055]
Embodiment 4 FIG.
The microwave oven which is the cooking device concerning other embodiment of this invention is demonstrated. The configuration is the same as in FIGS.
[0056]
The operation of such a configuration will be described based on the flowchart of FIG. First, when the take-off key 5d is pressed (S51), the process proceeds to (S52). If the control means 25 is not turned on, the power consumption zero mode state is set (S53).
[0057]
If the control means 25 is ON in (S52), the process proceeds to (S54) and it is determined whether or not it is in the power saving mode state. If it is determined that it is in the power saving mode state, the relay 22 is turned on (S55), the display means 6 displays that it is in the cooking standby mode state (S56), and the cooking standby mode is set (S57).
[0058]
If it is determined in (S54) that it is not in the power saving mode state, the process proceeds to (S58), and it is determined whether or not it is in the cooking mode state. When it is determined that cooking is in progress, the tear-off key 5d performs cooking cancellation processing (S59), the display 6 displays the initial value “0” in the cooking standby mode, and the cooking standby mode is set (S57). . Here, the display of the display unit 6 in the cooking standby mode state may display differently from the return from the power saving mode. However, as described above, this is a display of “0” in the initial state and during cooking setting or cooking. This is because there is a display such as suspension.
[0059]
When it is determined in (S58) that the cooking mode is not set, the process proceeds to (S60), and the cooking setting determining means (not shown) determines whether cooking is set in the cooking standby mode. If it is determined that cooking is being set, a setting cancellation process is performed (S61), the display unit 6 displays “0” in the initial state of the cooking standby mode, and the cooking standby mode is set (S57).
[0060]
If it is determined in (S60) that cooking is not being set in the cooking standby mode, the process proceeds to (S62) to determine whether cooking is being interrupted in the cooking standby mode. If it is determined that cooking is being interrupted, a setting cancellation process is performed (S61), the display unit 6 displays “0” in the initial state of the cooking standby mode, and the cooking standby mode is set (S57).
[0061]
If it is determined in (S62) that cooking is not interrupted in the cooking standby mode, the initial value "0" in the cooking standby mode is displayed on the display means 6, so the relay 22 is turned off. After (S63), the process proceeds to (S64).
[0062]
When the door 3 is closed in (S64), the power consumption zero mode state is set (S53). If the door 3 is opened in (S64), the display means 6 is turned off (S65), and the state is changed to the power saving mode (S66).
[0063]
As described above, in the cooking standby mode state, when the take-off key 5d is pressed, if it is determined that cooking is not being set or cooking is not interrupted, the relay 22 is immediately turned OFF before the predetermined time is reached, and further in that state. When the door 3 is opened, the display of the display means 6 is turned off. As a result, even if the door 3 is opened to cool the heating chamber 2 and the cooking standby mode state is entered, the user can immediately enter the power saving mode state by pressing the key 5d, thereby further reducing power consumption. be able to. Further, when the food 31 is taken out from the heating chamber 2 and the door 3 is closed, the user can immediately enter the zero power consumption mode state by pressing the key 5d, so that the power consumption can be further reduced.
[0064]
Further, the present invention is not limited to the above-described embodiments, and it goes without saying that the same effects can be obtained even when combined appropriately.
[0065]
In addition, the present invention is not limited to the microwave ovens of the above-described embodiments, but may be applied to cooking appliances such as microwave ovens, electric ovens, toasters and the like that operate with various power sources. Needless to say.
[0066]
【The invention's effect】
  As described above, according to the present invention,When the physical quantity detected by the physical quantity measuring means fluctuates by more than a predetermined physical quantity from the initial physical quantity stored in the initial physical quantity storage means in the power saving mode state, the power switching means is turned on and / or the display means is displayed. Since it is turned on and changed to the cooking standby mode state, the timing of the timer means is reset and the timing is started.For example, the door is openedIn the stateIn power saving modeEven in the case of transition, the user can transition to the cooking standby mode state simply by placing food on the turntable. Thereby, the troublesomeness of closing the door again and opening the cooking standby mode can be eliminated.
[0067]
  According to the invention of claim 2,Cooking setting determination means for determining whether cooking is being set in the cooking standby mode state or whether cooking is being interrupted, and the input means is a cooking setting means for setting the cooking time in the cooking standby mode state; Canceling means for canceling cooking in the cooking mode state and canceling the cooking setting in the cooking standby mode state, and when the operation input from the canceling means is detected in the cooking standby mode state, the cooking setting determining means sets the cooking setting. If it is determined that the cooking is not interrupted or the cooking is not interrupted, the power switching means is turned off and / or the display means is turned off before the time measured by the timer means reaches the timer time. Since the state is changed, useless power consumption can be reduced in a short time.
[0068]
  According to the invention of claim 3In the cooking standby mode state, when the timer means determines that the cooking setting is based on the operation input from the input means or the cooking is interrupted based on the detection of the opening of the door by the door opening / closing detection means, the timer time is set to the cooking time. Or, since it is longer than the timer time when cooking is not interrupted, it is highly possible that cooking can be resumed thereafter, and operability can be greatly improved.
[0069]
  According to the invention of claim 4When the operation input from the input means is detected in the power saving mode state, the timer means determines the timer time when it is determined that the immediately preceding cooking standby mode state is cooking setting or cooking is interrupted. Since it is longer than the timer time when cooking is not set or when cooking is not interrupted, the possibility that cooking can be resumed after that becomes high, and the operability can be greatly improved.
[Brief description of the drawings]
FIG. 1 is an external perspective view of a microwave oven that is a cooking device according to an embodiment of the present invention.
FIG. 2 is a control circuit diagram of a microwave oven that is a cooking device according to an embodiment of the present invention.
FIG. 3 is a flowchart showing the operation of the microwave oven as a cooking device according to one embodiment of the present invention.
FIG. 4 is a flowchart showing the operation of the microwave oven as a cooking device according to one embodiment of the present invention.
FIG. 5 is a flowchart showing the operation of the microwave oven as a cooking device according to one embodiment of the present invention.
FIG. 6 is a flowchart showing the operation of the microwave oven as a cooking device according to one embodiment of the present invention.
FIG. 7 is a flowchart showing the operation of the microwave oven as a cooking device according to one embodiment of the present invention.
FIG. 8 is a flowchart showing the operation of the microwave oven as a cooking device according to one embodiment of the present invention.
FIG. 9 is a cross-sectional view of a microwave oven that is a cooking device according to an embodiment of the present invention.
FIG. 10 is a control circuit diagram of a microwave oven that is a cooking device according to an embodiment of the present invention.
FIG. 11 is a flowchart showing the operation of the microwave oven as a cooking device according to one embodiment of the present invention.
FIG. 12 is a flowchart showing the operation of the microwave oven as a cooking device according to one embodiment of the present invention.
FIG. 13 is a flowchart showing the operation of the microwave oven as a cooking device according to one embodiment of the present invention.
FIG. 14 is a flowchart showing the operation of the microwave oven as a cooking device according to one embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Microwave Oven body, 2 Heating chamber, 3 Doors, 4 Operation part, 5 Input means, 5a Heating key, 5b Range key, 5c Start key, 5d Trimmer key, 5e Dial, 6 Display means, 8 Commercial AC power supply, 9 Current Fuse, 10 door switch, 11 monitor switch, 12 oven lamp, 13 turntable motor, 14 upper heater, 15 lower heater, 16 high frequency source, 17 fan motor, 18 relay (main), 19 relay (for upper heater), 20 relay (for lower heater), 21 relay (for high frequency generation source), 22 relay (for power supply), 23 power supply circuit, 24 reset circuit, 25 control means, 26 door open / close detection circuit, 27 timer, 28 physical quantity measurement means, 29 Turntable, 30 Shaft, 31 Food, 32 Initial Riryou storage means.

Claims (4)

A heating chamber having a door that opens and closes to store food, a heating source that heats the food in the heating chamber, input means for setting the operation content of the heating source, and door opening and closing that detects opening and closing of the door Detection means; control means for controlling the operation of the heating source based on the setting of the input means; power supply means for supplying power to the control means; and power supply to the control means to operate the heating source Display means for indicating that the cooking standby mode state is not being performed or the cooking mode state in which the heating source is operating, and is operated between the commercial power source and the power source unit, and is turned on when the door is opened. A door switch that is turned off when closed, power opening / closing means connected in parallel to the door switch, and when the door switch is turned on and power is supplied from the commercial power source to the power source means, initial A physical quantity measuring means for storing the initial physical quantity storage means provided in advance by measuring the physical quantity, when the door switch power is supplied to the power supply unit from the commercial power supply turned ON, a predetermined timer time Timer means for setting and starting timing, and when the time measured by the timer means reaches the timer time, the power switching means is turned off and / or the display on the display means is turned off to save power Mode change means for transitioning to the mode state ,
The mode changing means turns on the power switching means when the physical quantity detected by the physical quantity measuring means fluctuates more than a predetermined physical quantity from the initial physical quantity stored in the initial physical quantity storage means in the power saving mode state. And / or lighting the display of the display means to make a transition to the cooking standby mode state, resetting the time measurement of the timer means, and starting the time measurement . Cooking setting judgment means for judging whether cooking is being set in the cooking standby mode state or cooking is being interrupted;
The input means includes cooking setting means for setting cooking time or the like in the cooking standby mode state, and canceling means for canceling cooking in the cooking mode state and canceling cooking setting in the cooking standby mode state,
When the cooking setting determining means detects an operation input from the canceling means in the cooking standby mode state and determines that cooking setting is not being performed or cooking is not interrupted, the timing by the timer means is 2. The cooker according to claim 1, wherein before the timer time is reached, the power switching means is turned off and / or the display on the display means is turned off and the power saving mode state is entered.   When the timer means determines that the cooking setting based on the operation input from the input means or the cooking interruption based on the detection of opening of the door by the door opening / closing detection means in the cooking standby mode state, the timer time The cooking device according to claim 1 or 2, wherein the cooking time is set longer than a timer time during the cooking setting or when cooking is not interrupted.   When the timer means determines that the immediately preceding cooking standby mode state is cooking setting or cooking is interrupted from an operation input from the input means in the power saving mode state, the timer The cooking device according to any one of claims 1 to 3, wherein the time is set to be longer than a timer time when the cooking setting is not being performed or cooking is not interrupted.

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