JP2021025693A - Heating cooker - Google Patents

Abstract

To provide a technology which can store data related to a heating cooker into the heating cooker even if the supply of power to a control circuit from a power supply is blocked.SOLUTION: A heating cooker comprises a first power supply, a control circuit for controlling the heating cooker by receiving power from the first power supply, a block circuit capable of blocking the supply of the power to the control circuit from the first power supply, and a wireless communication circuit for receiving the power from the first power supply. The wireless communication circuit receives the power from the first power supply even if the supply of the power to the control circuit from the first power supply is blocked by the block circuit, and when the wireless communication circuit receives data related to the heating cooker when the supply of the power to the control circuit from the first power supply is blocked by the block circuit, the wireless communication circuit stores the data to a memory which is readable by the control circuit.SELECTED DRAWING: Figure 1

Description

The techniques disclosed herein relate to cookers.

Patent Document 1 discloses a gas stove (that is, a cooking cooker). The gas stove includes a control board for controlling the gas stove. The control board receives power from the power supply when the power switch is turned on.

JP-A-2017-139846

For example, a cooking device that can receive and store data related to a cooking device (for example, automatic cooking data) from another device (for example, a terminal device) and read the data is assumed. For example, in the cooking device of Patent Document 1, it is assumed that a wireless communication circuit is mounted on a control board in order to receive data from another device. In this configuration, when the power switch is turned off, the power supply to the control board is cut off, and the power supply to the wireless communication circuit is also cut off. Therefore, when the power switch is turned off, the cooking cooker cannot receive data from other devices. That is, the user must turn on the power switch in order to store the data in the cooking cooker.

The present specification provides a technique for storing data about a cooker in the cooker even when the power supply from the power source to the control circuit is cut off.

The heating cooker disclosed in the present specification receives electric power from a first power source and the first power source to control the heating cooker, and supplies electric power from the first power source to the control circuit. Even when a cutoff circuit capable of cutoff and a wireless communication circuit that receives power from the first power source are provided and the power supply from the first power source to the control circuit is cut off by the cutoff circuit. The wireless communication circuit receives power from the first power source, and when the power supply from the first power source to the control circuit is cut off by the cutoff circuit, the wireless communication circuit performs data on the heating cooker. The wireless communication circuit stores the data in a memory that can be read by the control circuit.

According to the above configuration, the wireless communication circuit receives power from the first power source even when the power supply from the first power source to the control circuit is cut off by the cutoff circuit. Then, the wireless communication circuit can receive the data and store it in a memory that can be read by the control circuit even at the time of the interruption. For example, even when the power of the cooking cooker is turned off by the cutoff circuit, the data can be stored without turning on the power of the cooking cooker.

Further, the memory is provided in the control circuit, and when the wireless communication circuit receives data when the power supply from the first power supply to the control circuit is cut off by the cutoff circuit, the wireless communication circuit It may be configured to supply a signal for supplying power from the first power supply to the control circuit to the cutoff circuit.

According to the above configuration, even when the power supply from the first power supply to the control circuit is cut off by the cutoff circuit, the data received by the wireless communication circuit is stored in the memory provided in the control circuit. be able to.

Further, the first power source is a commercial power source, the heating cooker further includes a battery-powered second power source, and the control circuit draws power from either the commercial power source or the battery-powered second power source. It is configured to receive power, and the wireless communication circuit may be configured to receive power from a commercial power source and not from a battery-powered second power source.

According to the above configuration, by providing the battery-powered second power source, the control circuit can be driven by receiving power from the battery-powered second power source even when the commercial power source cannot be used. However, the power of the battery-powered second power source is limited. By configuring the wireless communication circuit so that it does not receive power from the battery-powered second power source as in the above configuration, the power of the battery-powered second power source is unnecessarily consumed by the wireless communication circuit. It can be suppressed.

The block diagram of the cooking apparatus of an Example is shown. The block diagram of the cooking apparatus of the comparative example is shown.

(Structure of cooking cooker 10)
The cooking device 10 of this embodiment will be described with reference to FIG. The cooking cooker 10 is a gas-burning stove. The heating cooker 10 controls a commercial power supply 12, a power conversion circuit 14, a battery-powered power supply 16, a power switch 18, a first substrate 30 for controlling the heating cooker 10, and the heating cooker 10. A second board 50 for performing wireless communication and a wireless communication circuit 60 for executing wireless communication are provided.

The power conversion circuit 14 is a circuit that converts 100 V AC power supplied from the commercial power source 12 into DC power having a predetermined voltage (for example, 13 V). The output end of the power conversion circuit 14 is connected to the connector 30a of the first board 30.

The battery-powered power supply 16 (hereinafter, referred to as “battery power supply 16”) is a so-called dry battery. The battery power supply 16 is housed in the dry battery housing unit 16a. The output end of the dry battery accommodating portion 16a is connected to the connector 30b of the first substrate 30.

In addition to the above connectors 30a and 30b, the first substrate 30 includes a connector 30c for connecting to the connector 50c of the second substrate 50 and a connector 30d for connecting to the connector 50d of the second substrate 50. .. The connector 30a to which the power conversion circuit 14 is connected is connected to the step-down circuit 34 in the first substrate 30. The step-down circuit 34 is a circuit that steps down the voltage of the DC power output from the power conversion circuit 14 (for example, 13V) to the same voltage as the output voltage (for example, 3V) of the battery-powered power supply 16. The output end of the step-down circuit 34 is connected to the connector 30c.

The connector 30b to which the battery power supply 16 is connected is connected to a power line 35 connecting the step-down circuit 34 and the connector 30c. A diode 35b is interposed between the connector 30b and the power line 35. As a result, no current flows from the step-down circuit 34 to the battery power supply 16.

The second substrate 50 includes a connector 50c for connecting to the connector 30c of the first substrate 30, and a connector 50d for connecting to the connector 30d of the first substrate 30. A booster circuit 54 is connected to the connector 50c. The booster circuit 54 uses the voltage of the DC power supplied from the connector 50c (that is, the output power of the step-down circuit 34 or the output power of the battery power supply 16) to drive the second control circuit 56 in the second substrate 50. It is a circuit for boosting to a voltage (for example, 3V). With this booster circuit 54, for example, the second control circuit 56 can be driven even when the remaining battery level of the battery power supply 16 decreases and the voltage of the battery power supply 16 falls below 3V. The output end of the booster circuit 54 is connected to the second control circuit 56.

The second control circuit 56 is a process for burning the gas burner (not shown) of the cooking cooker 10 (for example, ignition of the gas burner, adjustment of the opening degree of the adjusting valve (not shown) for adjusting the gas supply amount, etc.). Is a circuit that executes. The second control circuit 56 includes a memory 56a for storing various data. The second control circuit 56 can execute automatic cooking according to, for example, cooking data (for example, heating power, cooking time, etc.) stored in the memory 56a.

The output end of the booster circuit 54 is also connected to the connector 50d of the second substrate 50. As described above, the connector 50d is connected to the connector 30d of the first substrate 30. The connector 30d is connected to the first control circuit 36 of the first substrate 30. As a result, the DC power output from the booster circuit 54 is supplied to the first control circuit 36 of the first substrate 30.

The first control circuit 36 is a circuit for controlling a display (not shown) of the cooking cooker 10. The first control circuit 36 includes a memory 36a for storing various data. The first control circuit 36 can display, for example, a screen according to the screen data stored in the memory 36a on the display.

Further, the power switch 18 is a switch that can be operated by the user. By operating the power switch 18, the switching element 52 is switched ON / OFF. The switching element 52 is interposed in a power line 53 that connects the connector 50c of the second substrate 50 and the booster circuit 54. The control input terminal (that is, the gate terminal) of the switching element 52 is connected to the power switch 18. When the power switch 18 is turned on, the power switch 18 supplies an ON signal to the switching element 52, and the connector 50c supplies power to the booster circuit 54. On the other hand, when the power switch 18 is turned off, an OFF signal is supplied from the power switch 18 to the switching element 52, and the power supply from the connector 50c to the booster circuit 54 is cut off. That is, when the power switch 18 is turned on, power is supplied to the first control circuit 36 and the second control circuit 56, and when the power switch 18 is turned off, the first control circuit 36 and the second control are controlled. The power supply to the circuit 56 is cut off. The first control circuit 36 includes a port Po1 for outputting a hold signal Ph1 for maintaining the switching element 52 in a conductive state to the switching element 52, and the second control circuit 56 has a similar hold signal. It is provided with a port Po2 for outputting Ph2 to the switching element 52.

Further, in the first substrate 30, a diode 35a is interposed between the connection point for connecting the battery power supply 16 to the power line 35 and the step-down circuit 34. Then, the power line 60a of the wireless communication circuit 60 is connected between the step-down circuit 34 and the diode 35a. As a result, no current flows from the battery power supply 16 to the wireless communication circuit 60. That is, the wireless communication circuit 60 does not receive power from the battery power source 16.

The wireless communication circuit 60 uses wireless communication to receive data (for example, cooking data) from a terminal device (not shown). The wireless communication is, for example, communication according to the Wi-Fi method, the Bluetooth (registered trademark) method, or the like. As shown in FIG. 1, the power line 60a of the wireless communication circuit 60 is connected to the upstream side of the switching element 52. Therefore, even when the switching element 52 is OFF (that is, when the power supply from the commercial power supply 12 to the first control circuit 36 and the second control circuit 56 is cut off), the wireless communication circuit 60 can be used. , It is possible to receive electric power from the commercial power supply 12 and receive data from the terminal device.

When the wireless communication circuit 60 receives data from the terminal device, the wireless communication circuit 60 supplies an ON signal to the switching element 52 via the signal line 60b. As a result, power is supplied to the first control circuit 36 and the second control circuit 56, and the data received from the terminal device can be stored in the memory 36a of the first control circuit 36 or the memory 56a of the second control circuit 56. It becomes.

Each of the wireless communication circuit 60 and the first control circuit 36 and the wireless communication circuit 60 and the second control circuit 56 are connected by a data line (not shown). The wireless communication circuit 60 supplies the data received from the terminal device to the first control circuit 36 or the second control circuit 56 via the data line. As a result, the first control circuit 36 or the second control circuit 56 stores the data in the memory 36a or the memory 56a.

(Operation of cooking cooker 10)
The operation of the cooking cooker 10 will be described with reference to FIG. The user performs an ON operation on the power switch 18 in order to use the cooking cooker 10. As a result, an ON signal is supplied to the switching element 52, and power is supplied from the commercial power supply 12 to the first control circuit 36 and the second control circuit 56. By supplying electric power to the control circuits 36 and 56, the user can use the cooker 10. Here, power is supplied to the wireless communication circuit 60 from the commercial power supply 12 regardless of whether the power switch 18 is ON / OFF. As a result, the wireless communication circuit 60 can receive data from the terminal device, and the first control circuit 36 and the second control circuit 56 can execute processing using the data. When the commercial power supply 12 cannot be used, power is supplied from the battery power supply 16 to the first control circuit 36 and the second control circuit 56. As a result, the user can use the cooker 10 even when the commercial power source 12 cannot be used.

Further, as described above, the wireless communication circuit 60 can receive data from the terminal device even when the power switch 18 is OFF. Specifically, in the wireless communication circuit 60, when the switching element 52 is OFF (that is, when the power supply from the commercial power supply 12 to the first control circuit 36 and the second control circuit 56 is cut off), Data can be received from the terminal device. When the wireless communication circuit 60 receives data from the terminal device, the wireless communication circuit 60 supplies an ON signal to the switching element 52 via the signal line 60b. As a result, electric power is supplied from the commercial power supply 12 to the first control circuit 36 and the second control circuit 56, and data can be written to the memories 36a and 56a. After that, the wireless communication circuit 60 supplies the data (for example, cooking data) received from the terminal device to the memory (for example, the memory 56a). As a result, even when the power switch 18 is OFF, data is received from the terminal device, and the received data is stored in a memory (for example, memory 56a) that can be read by the control circuit (for example, the second control circuit 56). Can be remembered. The wireless communication circuit 60 supplies the data to the memory and then supplies the OFF signal to the switching element 52 via the signal line 60b. As a result, the power supply from the commercial power supply 12 to the first control circuit 36 and the second control circuit 56 is cut off again.

Here, FIG. 2 shows a cooker 100 of a comparative example. In the cooking cooker 100, the wireless communication circuit 60 is connected to the first control circuit 36. In this comparative example, when the power supply from the commercial power supply 12 to the first control circuit 36 is cut off by the switching element 52, the power supply from the commercial power supply 12 to the wireless communication circuit 60 is also cut off. Therefore, the user must perform an ON operation on the power switch 18 in order to store the data in the cooking cooker 10. On the other hand, in the cooking device 10 of the embodiment, the user does not need to perform the ON operation on the power switch 18 in order to store the data in the cooking device 10. User convenience is improved.

Further, as described above, the diode 35a prevents current from flowing from the battery power supply 16 to the wireless communication circuit 60. Here, the power of the battery power source 16 is limited. Since no current flows from the battery power supply 16 to the wireless communication circuit 60, it is possible to prevent the wireless communication circuit 60 from unnecessarily consuming the power of the battery power supply 16.

(Correspondence)
The commercial power supply 12 and the battery power supply 16 are examples of the “first power supply” and the “second power supply”, respectively. The first control circuit 36 and the second control circuit 56 are examples of the “control circuit”. The wireless communication circuit 60 is an example of a “wireless communication circuit”. The switching element 52 is an example of a “break circuit”. The memory 36a and the memory 56a are examples of the “memory”.

Although each embodiment has been described in detail above, these are merely examples and do not limit the scope of claims. The techniques described in the claims include various modifications and modifications of the specific examples illustrated above. Modifications of each of the above embodiments are listed below.

(Modification 1) The power line 60a of the wireless communication circuit 60 may be connected between the connector 30a and the step-down circuit 34. This configuration is effective, for example, when the wireless communication circuit 60 is driven by a voltage higher than the output voltage (for example, 3V) of the battery power supply 16.

(Modification 2) The diode 35a can be omitted. That is, the wireless communication circuit 60 may receive power from the battery power source 16.

(Modification 3) The signal line 60b can be omitted. In this case, for example, the wireless communication circuit 60 may store the data in the memory in the wireless communication circuit 60 when receiving the data from the terminal device. Then, the control circuit (for example, the second control circuit 56) reads data from the memory in the wireless communication circuit 60 when the power switch 18 is turned on, and reads the read data into the memory in the control circuit. It may be stored in (for example, memory 56a). In this modification, the memory in the wireless communication circuit 60 is an example of the "memory" of the claim.

(Modification 4) The cooking cooker 10 includes one of the first control circuit 36 and the second control circuit 56, and does not have to include the other circuit. One such circuit is an example of a "control circuit".

(Modification 5) The cooking cooker 10 does not have to include the battery power supply 16. In this modification, the "second power supply" can be omitted.

(Modification 6) The cooking cooker 10 does not have to be provided with a commercial power source 12. In this case, the diode 35a is omitted, and the wireless communication circuit 60 may receive power from the battery power source 16. In this modification, the battery power supply 16 is an example of the “first power supply”.

The technical elements described herein or in the drawings exhibit their technical usefulness alone or in various combinations, and are not limited to the combinations described in the claims at the time of filing. In addition, the techniques illustrated in the present specification or drawings can achieve a plurality of purposes at the same time, and achieving one of the purposes itself has technical usefulness.

10: Heating cooker, 12: Commercial power supply, 14: Power conversion circuit, 16: Battery power supply, 16a: Dry battery housing, 18: Power switch, 30: First board, 30a, 30b, 30c, 30d: Connector, 34 : Step-down circuit, 35: Power line, 35a: Diode, 35b: Diode, 36: First control circuit, 36a: Memory, 50: Second board, 50c, 50d: Connector, 52: Switching element, 53: Power line, 54: Booster circuit, 56: 2nd control circuit, 56a: Memory, 60: Wireless communication circuit, 60a: Power line, 60b: Signal line, 100: Heat cooker, Ph1, Ph2: Hold signal, Po1, Po2: Port

Claims (3)

It ’s a cooker,
With the first power supply
A control circuit that receives electric power from the first power source and controls the cooking cooker,
A cutoff circuit capable of cutting off the power supply from the first power supply to the control circuit,
A wireless communication circuit that receives power from the first power source,
With
Even when the power supply from the first power supply to the control circuit is cut off by the cutoff circuit, the wireless communication circuit receives power from the first power supply.
When the power supply from the first power source to the control circuit is cut off by the cutoff circuit, and the wireless communication circuit receives data regarding the heating cooker, the wireless communication circuit receives the data. A heating cooker that is stored in a readable memory of the control circuit. The memory is provided in the control circuit.
When the power supply from the first power supply to the control circuit is cut off by the cutoff circuit, when the wireless communication circuit receives the data, the wireless communication circuit controls the control from the first power supply. The heating cooker according to claim 1, wherein a signal for supplying electric power to the circuit is supplied to the cutoff circuit. The first power source is a commercial power source.
The cooker further comprises a battery-powered second power source.
The control circuit is configured to receive power from either the commercial power source or the battery-powered second power source.
The cooker according to claim 1 or 2, wherein the wireless communication circuit is configured to receive electric power from the commercial power source and not to receive electric power from the battery-powered second power source.

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