JP3624700B2 - rice cooker - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a rice cooker used for general household or business use.
[0002]
[Prior art]
FIG. 14 shows the configuration of the first conventional example, where 1 is a commercial AC power source, 2 is a pot for storing rice cooking ingredients, 3 is a heating means for heating the pot 2, and 4 is a commercial AC power source 1 converted to DC power. DC power supply circuit, 5 is a control means for controlling the rice cooker supplied with power by the commercial AC power supply 1, 6 is a backup means for backing up the control means 5, and 7 is capable of supplying power from the commercial AC power supply 1. An energization switching means for switching to an energized state to be performed or a stopped state to stop power supply, 8 is an input means for switching the energization switching means, and 9 is a power failure detection means for detecting a power failure of the commercial AC power supply 1.
[0003]
The operation of the conventional example configured as described above will be described below. The commercial AC power source 1 is converted into DC power by the DC power circuit 4 and the heating means 3 is driven using this DC power to heat the pot 2 and cook rice. The heating means 3 is controlled by the control means 5. The energization switching means can be put into an energized state or a stopped state by input to the input means 8, and power is supplied to the control means 5 and the energization switching means 7 from the DC power supply circuit 4 when the commercial AC power supply 1 is energized. In the event of a power failure of the commercial AC power supply 1, the backup means 6 is used.
[0004]
[Problems to be solved by the invention]
However, this rice cooker has a problem that it cannot be determined whether or not the commercial AC power supply is in a power failure state when the energization switching means 7 is stopped. In addition, there is a problem that the power of the backup power source is consumed in order to change the energization switching means 7 from the stopped state to the energized state at the time of a power failure. Further, there is a problem that there is no means for the user to recognize whether the state of the energization switching unit 7 is the energized state or the stopped state. Further, there is a problem that the user cannot recognize that the power supply switching means 7 is automatically switched by the control means.
[0005]
This invention solves the said subject, and makes it the 1st objective to provide the rice cooker which has an electricity supply switching means and can determine the power failure of a commercial alternating current power supply irrespective of the state of an electricity supply switching means.
[0006]
The second purpose is in addition to the first purpose, when the energization switching means is in the energized state and the power failure detection means detects a power failure of the commercial AC power source for a predetermined time, the energization switching means is changed from the energized state to the stopped state. Is to provide a vessel.
[0007]
The third object is that, in addition to the first and second objects, the energization switching unit can be energized only when the energization switching unit is stopped and the power failure detection unit detects energization of the commercial AC power source for a predetermined time. The purpose is to provide a rice cooker.
[0008]
In addition to the first to third purposes, the fourth purpose is to detect a power failure of the commercial AC power supply, and after the energization switching means is stopped, the power failure detection means detects a return of the commercial AC power supply for a predetermined time. In this case, the energization switching means is to provide a rice cooker that is energized.
[0009]
The fifth object is to provide a rice cooker that displays the state of the energization switching means. The sixth object is to provide a rice cooker that displays the transition to the stop state by the energization display means when the energization switching means is stopped, in addition to the first to fourth objects.
[0010]
The seventh object is to provide a rice cooker provided with display means for performing display according to the state of the energization switching means.
[0011]
In addition to the first to fourth objects, an eighth object is to provide a rice cooker that displays the transition to the stopped state by the display unit when the energization switching unit is in the stopped state.
[0012]
The ninth object is to provide a rice cooker that notifies the change in state of the energization switching means by the notification means.
[0013]
[Means for Solving the Problems]
In order to achieve the first object, the present invention particularly includes a power failure detection means between the commercial AC power supply and the energization switching means.
[0014]
In order to achieve the second object described above, the present invention is particularly provided with a function for switching the energized state to the stopped state in the energization switching means.
[0015]
In order to achieve the third object described above, the present invention particularly has a function that enables the energization switching means to switch the stop state to the energized state only during energization.
[0016]
In order to achieve the fourth object, the present invention particularly provides the power switching when the power failure detection means detects the return of the commercial AC power supply after the power supply switching means is stopped due to a power failure of the commercial AC power supply. The means has a function of returning to the energized state.
[0017]
In order to achieve the fifth object, the present invention particularly includes an energization display means for displaying the state of the energization switching means.
[0018]
In order to achieve the sixth object, the present invention is provided with energization display means for displaying the transition to the stop state particularly when the stop state is reached at a predetermined time.
[0019]
In order to achieve the seventh object, the present invention particularly includes a display means having a function of performing display according to the state of the energization switching means.
[0020]
In order to achieve the eighth object, the present invention is provided with display means for displaying the transition to the stop state particularly when the stop state is reached at a predetermined time.
[0021]
In order to achieve the ninth object, the present invention is provided with notifying means for notifying the state change of the energization switching means.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
Invention of Claim 1 is a heating means which heats a pan, a direct current power circuit which converts commercial alternating current power into direct current power, a control means which controls a rice cooker supplied with electric power by the commercial alternating current power supply, Backup means for backing up the control means, and energization switching means for switching to an energized state that is arranged between the commercial AC power supply and the DC power supply circuit and that enables power supply from the commercial AC power supply or to stop the power supply And a power failure detection means arranged between the commercial AC power supply and the energization switching means to detect a power failure of the commercial AC power supply, and detects a power failure of the commercial AC power supply regardless of the state of the energization switching means. can do.
[0023]
The invention according to claim 2 has a function of switching the energized state to the stopped state when the energization switching means detects a power outage of the commercial AC power source for a predetermined time in the energized state. When the commercial AC power supply has a power failure, the energization switching means can be changed from the energized state to the stopped state.
[0024]
According to a third aspect of the present invention, the energization switching unit is switched from the stopped state to the energized state only when the energization switching unit is in a stopped state and the power failure detection unit detects energization of the commercial AC power source for a predetermined time. be able to.
[0025]
According to a fourth aspect of the present invention, when the power failure detection unit detects a return of the commercial AC power source for a predetermined time after detecting a power failure of the commercial AC power source and the energization switching unit is stopped. The energization switching means can return to the energized state.
[0026]
The invention according to claim 5 is a heating means for heating the pan, a DC power supply circuit for converting commercial AC power into DC power, and a control means for controlling the rice cooker supplied with power by the commercial AC power; Backup means for backing up the control means, and energization switching means for switching to an energized state that is arranged between the commercial AC power supply and the DC power supply circuit and that enables power supply from the commercial AC power supply or to stop the power supply And an energization display means for displaying the status of the energization switching means, and the user can recognize the status of the energization switching means.
[0027]
According to a sixth aspect of the present invention, an energization display unit that displays a state of the energization switching unit is provided, and the energization switching unit is stopped at a predetermined time after the power failure detection unit detects a power failure of the commercial AC power supply. When entering the state, the energization display means displays to the user the transition to the stop state, and the user can recognize that the energization switching means automatically shifts to the stop state.
[0028]
The invention according to claim 7 is a heating means for heating the pan, a DC power supply circuit for converting commercial AC power into DC power, a control means for controlling the rice cooker supplied with power by the commercial AC power supply, Backup means for backing up the control means, and energization switching means for switching to an energized state that is arranged between the commercial AC power supply and the DC power supply circuit and that enables power supply from the commercial AC power supply or to stop the power supply Display means for displaying the current time, menu, etc., the display means having a function of performing display according to the state of the energization switching means, and the user recognizes the state of the energization switching means it can.
[0029]
The invention according to claim 8 includes display means for displaying the current time, menu, and the like, and the energization switching means is stopped in a predetermined time after the power failure detection means detects a power failure of the commercial AC power supply. In this case, the display means displays the transition to the stop state to the user, and the user can recognize that the energization switching means automatically shifts to the stop state.
[0030]
The invention according to claim 9 is a heating means for heating the pan, a DC power supply circuit for converting commercial AC power into DC power, and a control means for controlling the rice cooker supplied with power by the commercial AC power; Backup means for backing up the control means, and energization switching means for switching to an energized state that is arranged between the commercial AC power supply and the DC power supply circuit and that enables power supply from the commercial AC power supply or to stop the power supply And a notification means such as a buzzer for notifying when the state of the power failure detection means changes, so that the user can recognize the state change of the energization switching means.
[0031]
【Example】
Next, specific examples of the present invention will be described.
[0032]
(Example 1)
An embodiment according to claim 1 of the present invention will be described below with reference to FIG. In FIG. 1, the same reference numerals as those in FIG. 14 are the same as the components described in the conventional example, and the details are omitted. In FIG. 1, the power failure detection means 9 is connected between the commercial AC power supply 1 and the energization switching means 7. With this configuration, the power failure detection means 9 can obtain an input from the commercial AC power supply 1 even when the energization switching means 7 is in a stopped state. Therefore, the power failure detection means 9 can determine whether the commercial AC power supply 1 is in a power failure state regardless of whether the energization switching means 7 is in an energized state or a stopped state.
[0033]
(Example 2)
An embodiment according to claim 2 of the present invention will be described below with reference to FIGS. The energization switching unit 7 is controlled by the control unit 5 to be energized or stopped. In FIG. 2, in step 201, it is determined by the power failure detection means 9 whether the commercial AC power supply 1 is a power failure. If the commercial AC power supply 1 has not failed, the power failure time counter is initialized at step 202. If the commercial AC power source 1 has a power failure, the process proceeds to step 203. In step 203, the process branches according to the state of the energization switching means 7. That is, if the energization switching means 7 is energized, the power failure time is counted at step 204 and the process proceeds to step 205. In step 205, it is determined whether the power failure time has passed the first predetermined time. If the first predetermined time has passed, the process proceeds to step 206. In step 206, the energization switching means 7 is changed from the energized state to the stopped state.
[0034]
(Example 3)
An embodiment according to claim 3 of the present invention will be described below with reference to FIGS. The energization switching unit 7 is controlled by the control unit 5 to be energized or stopped. In FIG. 3, in step 301, the power failure detection means 9 determines whether the commercial AC power source 1 is in a power failure. If the commercial AC power supply 1 has not failed, the process proceeds to step 302, and if the power has failed, the process proceeds to 307. In step 302, the process branches depending on the state of the energization switching means 7. That is, if the energization switching means 7 is in the energized state, the process proceeds to step 303, and if it is in the stopped state, the process proceeds to step 304. In step 303, the power failure time counter is initialized. In step 304, the energization time counter is counted, and in step 305, it is determined whether the count value of the energization time counter has passed the second predetermined time. In step 306, an energization state permission flag is set. In step 307, if the energization switching means 7 is energized, the process proceeds to step 308, and if it is stopped, the process proceeds to step 312. In step 308, the power failure time counter is counted and the process proceeds to step 309. In step 309, it is determined whether the power failure time has passed the third predetermined time. In step 310, the energization state permission flag is reset, and in step 311, the energization switching means 7 is changed to a stopped state. In step 312, the energization time counter is initialized.
[0035]
(Example 4)
An embodiment according to claim 4 of the present invention will be described below with reference to FIGS. In FIG. 4, in step 401, the power failure detection means 9 determines whether the commercial AC power source 1 is in a power failure. If the commercial AC power supply 1 has not failed, the process proceeds to step 402, and if the power has failed, the process proceeds to 412. In step 402, the process branches according to the state of the energization switching means 7. That is, if the energization switching means 7 is energized, the process proceeds to step 403, and if it is stopped, the process proceeds to step 404. In step 403, the power failure time counter is initialized. In step 404, the energization time counter is counted, and in step 405, it is determined whether the count value of the energization time counter has passed the fourth predetermined time. If it has elapsed, an energization state permission flag is set in step 406, and then the process proceeds to step 407. In step 407, it is determined whether the power failure stop flag is set. In step 408, after the power failure stop flag is reset, the process proceeds to step 409. In step 409, the process branches depending on the energization permission flag. That is, if the energization permission flag is set, the process proceeds to step 410 to change the energization switching means 7 from the stopped state to the energized state. If the energization permission flag is not set, the energization switching means 7 is stopped from the energized state in step 411. Change to state. Step 412 branches according to the state of the energization switching means 7. That is, if the energization switching means 7 is in the energized state, the process proceeds to step 413, and if it is in the stopped state, the process proceeds to step 417. In step 413, the power failure time counter is counted and the routine proceeds to step 414. In step 414, it is determined whether the power failure time has passed the fifth predetermined time. If the fifth predetermined time has elapsed, the process proceeds to step 415 to reset the energization state permission flag. In subsequent step 416, the power failure stop flag is set, and then the routine proceeds to step 409. In step 417, the energization time counter is initialized.
[0036]
(Example 5)
A first embodiment according to claim 5 of the present invention will be described below with reference to FIG. In FIG. 5, the same reference numerals as those in FIG. 14 are the same as the components described in the conventional example, and the details are omitted. Reference numeral 10 denotes energization display means connected to the energization switching means 7. The energization display means 10 includes a light emitting element such as an LED. The energization display means 10 turns on or off the light emitting element according to the state of the energization switching means 7. That is, the energization display means 10 is turned on when the energization switching means 7 is energized and is turned off when it is stopped. In the present embodiment, the energization display means 10 is composed of a light emitting element such as an LED, but it need not be a light emitting element. In this embodiment, the energization display means 10 is turned on when the energization switching means 7 is energized and is turned off when it is stopped. However, the present invention is not limited to this. The energization display means 10 depends on the state of the energization switching means 7. It is sufficient that the state of changes.
[0037]
(Example 6)
A second embodiment according to the fifth aspect of the present invention will be described below with reference to FIG. In FIG. 6, the same reference numerals as those in FIG. 14 are the same as the components described in the conventional example, and the details are omitted. Reference numeral 10 denotes energization display means connected to the control means 5. The energization display means 10 includes a light emitting element such as an LED. The control means 5 turns on or off the light emitting element of the energization display means 10 according to the state of the energization switching means 7. That is, the control means 5 turns on the energization display means 10 if the energization switching means 7 is in an energized state and turns it off if it is in a stopped state. In the present embodiment, the energization display means 10 is composed of a light emitting element such as an LED, but it may not be a light emitting element. In this embodiment, the energization display means 10 is turned on when the energization switching means 7 is energized and is turned off when it is stopped. However, the present invention is not limited to this. The energization display means 10 depends on the state of the energization switching means 7. It is sufficient that the state of changes.
[0038]
(Example 7)
An embodiment according to claim 6 of the present invention will be described below with reference to FIGS. In FIG. 7, the same reference numerals as those in FIG. 14 are the same as the components described in the conventional example, and the details are omitted. In FIG. 8, in step 801, it is determined by the power failure detection means 9 whether the commercial AC power source 1 is a power failure. If the commercial AC power source 1 has not failed, the power failure time counter and the energization display means blinking counter are initialized at step 802, and then the energization display means 11 is turned on at step 803. If the commercial AC power supply 1 has failed, the process proceeds to step 804. In step 804, the process branches according to the state of the energization switching means 7. That is, if the energization switching means 7 is in the energized state, the process proceeds to step 805, and if it is in the stopped state, the process proceeds to step 808. In step 805, the power failure time counter is counted and the process proceeds to step 806. In step 806, it is determined whether the power failure time has passed the sixth predetermined time. If the sixth predetermined time has passed, the process proceeds to step 807. In step 807, the energization switching means 7 is changed from the energized state to the stopped state. In step 808, the energization display means blinking counter is counted. In step 809, it is determined whether the power failure time has passed the seventh predetermined time. If the seventh predetermined time has elapsed, the process proceeds to step 810, and if not, the process proceeds to step 811. In step 810, an energization display means extinguishing process is performed. In step 811, the energization display means blinking process is performed. That is, the energization processing unit 10 blinks in a blink pattern of 0.3 second on and 0.7 second off by the energization display unit blinking counter value. In the present embodiment, the blinking pattern of the energization display means 10 is set to 0.3 seconds on and 0.7 seconds off, but this blinking pattern is not particularly required. In the present embodiment, the energization display means 10 is blinked after the energization switching means 7 is changed from the energized state to the stopped state. However, the present invention is not limited to this, and the energization display means 10 is blinked. Then, the energization switching means 7 may be changed from the energized state to the stopped state.
[0039]
(Example 8)
An embodiment according to claim 7 of the present invention will be described below with reference to FIG. In FIG. 9, the same reference numerals as those in FIG. 14 are the same as the components described in the conventional example, and the details are omitted. Reference numeral 11 denotes a display means composed of an LCD or the like for displaying the current time and menu. The display contents on the display means 11 are controlled by the control means 5. That is, on the display means 11, display according to each mode such as standby, rice cooking, and heat retention is performed by the control means 5. The energization display means 10 is displayed or not displayed by the control means 5 depending on the state of the energization switching means 7. That is, the energization display means 10 displays according to each mode if the energization switching means 7 is in the energized state, and does not display if it is in the stopped state. In the present embodiment, the energization display means 10 is composed of an LCD or the like, but it may not be an LCD. In this embodiment, the display means 11 displays the energization switching means 7 in the energized state and does not display it in the stopped state. However, the display means 11 does not have to be particularly limited, and depends on the state of the energization switching means 7. What is necessary is just to change the display content of the display means 11.
[0040]
Example 9
An embodiment according to claim 8 of the present invention will be described below with reference to FIGS. In FIG. 10, the same reference numerals as those in FIG. 14 are the same as the components described in the conventional example, and the details are omitted. In FIG. 11, in step 1101, it is determined by the power failure detection means 9 whether the commercial AC power source 1 is a power failure. If the commercial AC power supply 1 has not failed, the power failure time counter and the display means blinking counter are initialized at step 1102 and then the display means 11 is displayed at step 1103. If the commercial AC power supply 1 has a power failure, the process proceeds to step 1104. In step 1104, the process branches according to the state of the energization switching means 7. That is, if the energization switching means 7 is in the energized state, the process proceeds to step 1105, and if it is in the stopped state, the process proceeds to step 1108. In step 805, the power failure time counter is counted, and the process proceeds to step 1106. In step 1106, it is determined whether the power failure time has passed the eighth predetermined time. If the eighth predetermined time has elapsed, the process proceeds to step 1107. In step 1107, the energization switching means 7 is changed from the energized state to the stopped state. In step 1108, the display means blinking counter is counted. In step 1109, it is determined whether or not the ninth predetermined time has elapsed. If the ninth predetermined time has elapsed, the process proceeds to step 1110, and if not, the process proceeds to step 1111. In step 110, display means non-display processing is performed. In step 1111, display means blinking processing is performed. That is, the display means 11 is blinked in a blinking pattern of 0.3 second on and 0.7 seconds off by the display means blinking counter value. In the present embodiment, the blinking pattern of the display means 11 is set to 0.3 seconds on and 0.7 seconds off, but this blinking pattern is not particularly required. Further, in this embodiment, the blinking process of the display unit 11 is performed after the energization switching unit 7 changes from the energized state to the stopped state. However, the present invention is not limited to this, and after the blinking process of the display unit 11 is performed. The energization switching means 7 may be changed from the energized state to the stopped state.
[0041]
(Example 10)
An embodiment according to claim 9 of the present invention will be described below with reference to FIGS. In FIG. 12, the same reference numerals as those in FIG. 14 are the same as the components described in the conventional example, and the details are omitted. 12 is a notification means. In FIG. 13, in step 1301, it is determined by the power failure detection means 9 whether the commercial AC power source 1 is a power failure. If the commercial AC power supply 1 has not failed, the power failure time counter is initialized at step 1302 and the process returns to step 1301. If the commercial AC power supply 1 has a power failure, the process proceeds to step 1303. In step 1303, the process branches according to the state of the energization switching means 7. That is, if the energization switching means 7 is in the energized state, the process proceeds to step 1304, and if it is in the stopped state, the process proceeds to step 1307. In step 1304, the power failure time counter is counted and the process proceeds to step 1305. In step 1305, it is determined whether or not the tenth predetermined time has elapsed. If the tenth predetermined time has elapsed, the process proceeds to step 1306. In step 1306, the energization switching means 7 is changed from the energized state to the stopped state, and in step 1307, the notification means counter is counted. In step 1308, it is determined whether or not the eleventh predetermined time has elapsed, and if the eleventh predetermined time has elapsed, the notification means 12 is sounded in step 1309. In the present embodiment, the notification means 12 is sounded until the notification means counter elapses for the eleventh predetermined time. However, the sounding pattern of this embodiment is not particularly required. In this embodiment, the sounding process of the notifying means 12 is performed after the energization switching means 7 is changed from the energized state to the stopped state. The energization switching means 7 may be changed from the energized state to the stopped state.
[0042]
【The invention's effect】
As described above, according to the first aspect of the present invention, the power failure detection means is disposed between the commercial AC power supply and the DC power supply circuit, thereby detecting the power failure of the commercial AC power supply regardless of the state of the energization switching means. can do.
[0043]
According to the second aspect of the present invention, the energization switching means has a function of switching the energized state to the stopped state when the power failure detecting means detects a power failure of the commercial AC power source for a predetermined time in the energized state. In the case of a power failure of the commercial AC power supply, the energization switching means can be stopped.
[0044]
Further, the invention according to claim 3 can be switched from the stopped state to the energized state only when the energization switching means is in the stopped state and the power failure detecting means detects the energization of the commercial AC power source for a predetermined time. . Accordingly, since the energization switching means does not switch from the stopped state to the energized state at the time of a power failure of the commercial AC power supply, consumption of the backup power supply can be suppressed.
[0045]
According to the fourth aspect of the present invention, when the power failure detecting means detects the return of the commercial AC power supply after detecting the power failure of the commercial AC power supply and the power supply switching means is stopped, the power supply switching means is It returns to the energized state. Therefore, the energization switching means can be returned to the state before the power failure detection of the commercial AC power supply after the energization detection of the commercial AC power supply.
[0046]
According to the fifth aspect of the present invention, the energization display means for displaying the state of the energization switching means is provided. Therefore, the user can recognize the state of the energization switching means.
[0047]
According to the sixth aspect of the present invention, the power supply switching means for displaying the state of the power supply switching means is provided, and the power failure detection means is stopped in a predetermined time after a power failure of the commercial AC power supply. At this time, the energization display means displays the transition to the stop state to the user. Therefore, the user can recognize that the energization switching means shifts to the stop state.
[0048]
According to the seventh aspect of the invention, the display means for displaying the current time, menu, and the like is provided, and the display means has a function of performing display according to the state of the energization switching means. Therefore, the user can recognize that the device is in the stopped state, and can reduce the load of the backup power source in the stopped state.
[0049]
According to the invention described in claim 8, there is provided display means for displaying the current time, menu, etc., and the power supply switching means is provided after the power failure detection means detects a power failure of the commercial AC power source for a predetermined time for a predetermined time. When entering the stop state, the display means displays to the user the transition to the stop state. Therefore, the user can recognize that the energization switching means shifts to the stop state.
[0050]
According to the ninth aspect of the present invention, it is provided with notifying means such as a buzzer that rings when the state of the power failure detecting means changes. Therefore, the user can recognize the state change of the energization switching means.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a rice cooker according to a first embodiment of the present invention.
FIG. 2 is a flowchart showing a main part of the operation of the rice cooker according to the second embodiment of the present invention.
FIG. 3 is a flowchart showing a main part of the operation of the rice cooker according to the third embodiment of the present invention.
FIG. 4 is a flowchart showing a main part of the operation of the rice cooker according to the fourth embodiment of the present invention.
FIG. 5 is a block diagram showing a rice cooker according to a fifth embodiment of the present invention.
FIG. 6 is a flowchart showing the main part of the operation of the rice cooker according to the sixth embodiment of the present invention.
FIG. 7 is a block diagram showing a rice cooker according to a seventh embodiment of the present invention.
FIG. 8 is a flowchart showing a main part of the operation of the rice cooker.
FIG. 9 is a block diagram showing a rice cooker according to an eighth embodiment of the present invention.
FIG. 10 is a block diagram showing a rice cooker according to a ninth embodiment of the present invention.
FIG. 11 is a flowchart showing a main part of the operation of the rice cooker.
FIG. 12 is a block diagram showing a rice cooker according to a tenth embodiment of the present invention.
FIG. 13 is a flowchart showing a main part of the operation of the rice cooker.
FIG. 14 is a block diagram showing a rice cooker in a conventional example.
[Explanation of symbols]
1 Commercial AC power supply
2 hot pot
3 Heating means
4 DC power circuit
5 Control means
6 Backup means
7 Energization switching means
8 Input means
9 Power failure detection means
10 Energizing display means
11 Display means
12 Notification means

Claims (9)

Heating means for heating the pot, DC power supply circuit for converting commercial AC power to DC power, control means for controlling the rice cooker supplied with power by the commercial AC power supply, backup means for backing up the control means, An energization switching means arranged between the commercial AC power supply and the DC power supply circuit and switching to an energized state that enables power supply from the commercial AC power supply or a stopped state that stops power supply; the commercial AC power supply and the energized A rice cooker provided between the switching means and provided with a power failure detection means for detecting a power failure of the commercial AC power source. The rice cooker according to claim 1, wherein the energization switching unit has a function of switching the energized state to a stopped state when the power failure detection unit detects a power outage of the commercial AC power source for a predetermined time in the energized state. 3. The rice cooker according to claim 1, wherein the energization switching unit is capable of switching from the stop state to the energized state only when the power failure detection unit detects energization of the commercial AC power supply for a predetermined time in the stopped state. When the power failure detection means detects a return of the commercial AC power for a predetermined time after detecting a power failure of the commercial AC power supply and the power supply switching means is stopped, the power supply switching means returns to the power supply state. Claim | item 2 or 3 rice cooker. Heating means for heating the pot, DC power supply circuit for converting commercial AC power to DC power, control means for controlling the rice cooker supplied with power by the commercial AC power supply, backup means for backing up the control means, An energization switching means that is disposed between the commercial AC power supply and the DC power supply circuit and switches to an energized state that enables power supply from the commercial AC power supply or a stop state that stops power supply; and a state of the energization switching means Rice cooker equipped with energization display means to display. An energization display means for displaying a state of the energization switching means, and the energization display means when the energization switching means is stopped in a predetermined time after the power failure detection means detects a power failure of the commercial AC power supply. A means is a rice cooker of any one of Claims 2-4 which displays the transfer to a stop state. Heating means for heating the pot, DC power supply circuit for converting commercial AC power to DC power, control means for controlling the rice cooker supplied with power by the commercial AC power supply, backup means for backing up the control means, An energization switching means arranged between the commercial AC power supply and the DC power supply circuit to switch to an energized state that enables power supply from the commercial AC power supply or to stop the power supply, and display of current time, menu, etc. A rice cooker having a function of performing display according to the state of the energization switching means. Display means for displaying the current time, menu, and the like, and when the power cut-off means is stopped in a predetermined time after the power failure detection means detects a power failure of the commercial AC power supply, the display means The rice cooker of any one of Claims 2-4 which displays the transition to a stop state to a user. Heating means for heating the pot, DC power supply circuit for converting commercial AC power to DC power, control means for controlling the rice cooker supplied with power by the commercial AC power supply, backup means for backing up the control means, An energization switching means that is disposed between the commercial AC power supply and the DC power supply circuit and that switches between an energized state that enables power supply from the commercial AC power supply or a stop state that stops power supply, and a state of the power failure detection means. A rice cooker equipped with a notification means such as a buzzer for notifying when changing.

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