CN111750388B - Heating Cooker - Google Patents

Abstract

The invention provides a heating cooker. When the heating operation unit receives the 1 st operation, the heating unit starts heating and the heating switch is turned on, electric power is supplied from the power supply to the heating control unit to enable the heating control unit to control the operation of the heating unit, electric power is supplied from the power supply to the communication control unit to enable the communication control unit to control the operation of the communication unit, and when the communication operation unit receives the 2 nd operation in a state in which the heating switch is turned off, the communication switch is turned on in a state in which the heating unit does not start heating and electric power is not supplied from the power supply to the heating control unit, and electric power is supplied from the power supply to the communication control unit to enable the communication control unit to control the operation of the communication unit. Accordingly, when the heating cooker is aimed at communicating with an external terminal, not for heating an object to be heated, it is possible to prevent the heating from being started.

Description

Heating cooker

Technical Field

The technology disclosed in the present specification relates to a heating cooker.

Background

Patent document 1 discloses a control device for a gas burner. The control device of patent document 1 has a microcomputer (microcomputer), a power supply for supplying electric power to the microcomputer, an ignition/flameout switch, and a cooking selection switch. In the control device of patent document 1, electric power is supplied to the microcomputer both when the ignition/extinction switch is turned on and when the cooking selection switch is turned on.

[ Prior Art literature ]

[ Patent literature ]

Patent document 1: japanese patent laid-open publication No. 2001-254950

Disclosure of Invention

[ Problem ] to be solved by the invention ]

In recent years, a heating cooker capable of communicating with an external terminal such as a smart phone has been developed. In such a heating cooker, when the power switch of the heating cooker is turned on, electric power is supplied from the power source of the heating cooker to the control unit, whereby communication with the external terminal is enabled.

In addition, in the conventional heating cooker, there is a heating cooker in which an ignition/extinction switch of the heating cooker serves as a power switch. In this structure, when the ignition/extinction switch is turned on (i.e., when the power switch is turned on), a stove burner (stove burner) of the heating cooker is ignited, and electric power is supplied from a power source of the heating cooker to the control section.

Here, in the heating cooker having the above two configurations (i.e., a heating cooker capable of communicating with an external terminal and the ignition/extinction switch also serving as a power switch), the ignition/extinction switch (i.e., the power switch) of the heating cooker needs to be turned on in order to communicate with the external terminal. When the ignition/extinction switch is turned on, electric power is supplied from the power supply of the heating cooker to the control unit, and thereby the heating cooker is placed in a state in which communication with an external terminal is possible. However, in such a heating cooker, by turning on the ignition/extinction switch, not only is the heating cooker placed in a state in which communication with an external terminal is possible, but also the range burner of the heating cooker is ignited. Although the purpose is to communicate with an external terminal instead of igniting the stove burner, the stove burner must also be ignited by having the ignition/extinction switch on. Accordingly, problems may occur. For example, the following problems occur: although the user does not intend to start cooking, since the range burner is ignited, heating is started without any purpose, resulting in a failure to make delicious dishes or the like.

In view of the above, the present invention provides a heating cooker that can prevent heating from being started when communication with an external terminal is aimed at, but not when heating an object to be heated is aimed at.

[ Solution to the technical problem ]

The heating cooker disclosed in the present specification may have a heating section capable of heating an object to be heated, a communication section, a heating operation section, a communication operation section, a heating control section, a communication control section, a power supply, a heating switch, and a communication switch; the communication unit is capable of communicating with an external terminal; the heating operation unit receives a1 st operation for starting heating by the heating unit; the communication operation unit receives a2 nd operation for enabling the communication unit to perform communication; the heating control part controls the operation of the heating part; the communication control part controls the operation of the communication part; the power supply supplies electric power to the heating control section and the communication control section; the heating switch is connected to the power supply in series with the heating control unit and the communication control unit, and is turned on in conjunction with the 1 st operation received by the heating operation unit; the communication switch is connected to the power supply in series with the communication control unit, and is connected to the power supply in parallel with the heating control unit, and is turned on in conjunction with the 2 nd operation received by the communication operation unit. In this heating cooker, when the heating operation unit receives the 1 st operation, the heating unit may be started to heat, the heating switch may be turned on, electric power may be supplied from the power source to the heating control unit to control the operation of the heating unit, and electric power may be supplied from the power source to the communication control unit to control the operation of the communication unit. Further, when the communication operation unit receives the 2 nd operation with the heating switch turned off, the communication switch may be turned on in a state where the heating unit does not start heating and no electric power is supplied from the power source to the heating control unit, and the communication control unit may be configured to be able to control the operation of the communication unit by supplying electric power from the power source to the communication control unit.

According to this configuration, when the heating operation portion receives the 1 st operation for starting heating by the heating portion, heating by the heating portion is started. When the heating operation unit receives the 1 st operation, the heating switch is turned on in conjunction with the operation, and the heating control unit is supplied with electric power from the electric power source, so that the heating control unit is in a state in which the operation of the heating unit can be controlled. Therefore, for example, the heating control unit can control the heating amount and heating time of the heating unit according to the automatic cooking program and the cooking recipe information, and thus can perform automatic cooking. When the heating switch is turned on, electric power of the power supply is supplied to the communication control unit, so that the communication control unit can control the operation of the communication unit. Accordingly, the heating cooker can communicate with an external terminal, for example, can receive cooking recipe information for automatic cooking from the external terminal.

In addition, according to the above configuration, when the communication operation unit receives the 2 nd operation for enabling communication by the communication unit in a state where the heating switch is turned off, the communication switch is turned on in conjunction with the 2 nd operation, and the communication control unit is supplied with electric power of the electric power source to enable control of the operation of the communication unit. Accordingly, the heating cooker can communicate with an external terminal, for example, can receive cooking recipe information for automatic cooking from the external terminal. On the other hand, even if the communication switch is turned on, the heating switch is turned off, so that electric power of the power supply is not supplied to the heating control unit. In addition, the heating unit does not start heating.

Accordingly, according to the above configuration, even if the communication operation unit receives the 2 nd operation for enabling communication between the heating cooker and the external terminal, the heating unit does not start heating. Therefore, when the heating cooker is aimed at communicating with an external terminal, not for heating the object to be heated, heating can be prevented from being started.

The heating control section may have a1 st storage section. The communication control section may have a 2 nd storage section. The communication control unit may store the received information in the 2 nd storage unit when the communication unit receives the information from the external terminal when the heating switch is in an off state and the communication switch is in an on state. The heating control unit may acquire the information stored in the 2 nd storage unit and store the information in the 1 st storage unit when the heating switch is turned on.

According to the above configuration, when electric power of the power supply is not supplied to the heating control section (when heating is not started by the heating section), the communication control section can temporarily store the information received from the external terminal in the 2 nd storage section. After that, when the heating switch is turned on to supply electric power of the power supply to the heating control section, the information received from the external terminal can be moved from the 2 nd storage section to the 1 st storage section. Therefore, information can be reliably acquired from the external terminal.

The power source may be a dry cell. In the case where the power supply for supplying electric power to the heating control section and the communication control section of the heating cooker is a dry battery, it is desirable that no additional electric power is consumed because the electric power of the dry battery is limited. When the purpose of the heating cooker is to communicate with an external terminal, rather than to heat the object to be heated, the electric power of the dry battery is not supplied to the heating control section, and therefore, consumption of additional electric power can be suppressed. This is effective when the power source is a dry cell.

Drawings

Fig. 1 is a diagram showing an outline of a heating cooker system according to the present embodiment.

Fig. 2 is a block diagram of the heating cooker system according to the present embodiment.

Fig. 3 is a line drawing (PIPING DRAWING) of the heating cooker according to the present embodiment.

Fig. 4 is a circuit diagram of the heating cooker according to the present embodiment.

Fig. 5 is a flowchart of communication control-side processing performed by the heating cooker system according to the present embodiment.

Fig. 6 is a flowchart of a heating control side process performed by the heating cooker system according to the present embodiment.

[ Reference numerals description ]

1: A heating cooker system; 10: a heating cooker; 10a: a main body; 12a: a stove burner; 14a: a stove display part; 18a: stove spark plug; 30: a communication button; 32: a battery housing part; 34: a dry cell; 40a: a stove gas supply passage; 42a: a stove safety valve; 44a: a stove flow regulating valve; 61a: a stove heating amount operation part; 62a: a stove panel operation part; 70: heating a control substrate; 72: a heating control unit; 74: a1 st memory; 80: a communication control substrate; 82: a communication control unit; 84: a 2 nd memory; 86: BT interface (interface); 90: a heating switch; 92: a communication switch; 100: an external terminal; 102: a display operation unit; 120: a terminal control substrate; 122: a terminal control unit; 124: a terminal memory; 126: BT interface.

Detailed Description

A heating cooker system 1 according to an embodiment will be described with reference to the drawings. As shown in fig. 1, the heating cooker system 1 has a heating cooker 10 and an external terminal 100.

Wireless communication can be performed between both the heating cooker 10 and the external terminal 100 by Bluetooth (registered trademark). That is, when the distance between the heating cooker 10 and the external terminal 100 approaches a predetermined distance or less, a bluetooth wireless connection is established between the heating cooker 10 and the external terminal 100, so that wireless communication is possible with each other. Hereinafter, bluetooth is sometimes simply referred to as "BT". In addition, wireless communication according to the BT scheme is sometimes referred to as "BT communication". In other examples, the heating cooker 10 and the external terminal 100 are not limited to the BT method, and wireless communication may be performed in other manners (for example, wi-Fi (registered trademark) method, other short-range wireless communication method, and the like).

(Structure of heating cooker 10; FIGS. 1 and 2)

The heating cooker 10 is a gas-fired built-in stove assembled in a whole kitchen (SYSTEM KITCHEN) for use. The heating cooker 10 has a main body 10a, three range burners 12a, 12b, 12c, and one oven burner (grill burner) 12d. The heating cooker 10 includes three oven heating amount operating portions 61a, 61b, and 61c, one oven heating amount operating portion 61d, three oven panel operating portions 62a, 62b, and 62c, and one oven panel operating portion 62d. In addition, the heating cooker 10 has a range display 14a, an oven display 14b, and a communication button 30. In the following, a description will be focused mainly on one stove burner 12 a. The same technique can be applied to the other two stove burners 12b, 12c and one oven burner 12d.

The main body 10a has a battery housing portion 32, and the battery housing portion 32 houses a dry battery 34 serving as a power source of the heating cooker 10. A communication button 30 is disposed on the front surface of the main body 10 a. A range burner 12a is disposed at an upper portion of the main body 10 a.

The communication button 30 is a button for enabling BT communication between the heating cooker 10 and the external terminal 100. The communication button 30 receives an on operation and an off operation. The on operation refers to an operation for enabling BT communication between the heating cooker 10 and the external terminal 100. The disconnection operation refers to an operation for disconnecting the BT communication.

The stove burner 12a is a burner capable of heating an object to be heated (for example, a pan). The range heating amount operating portion 61a is an operating portion for performing ignition and extinction of the range burner 12a, and adjusting the heating amount of the range burner 12 a. When an operation for moving the stove heating amount operating portion 61a from the flameout position to the ignition position (hereinafter referred to as "ignition operation") is performed by the user, the stove burner 12a is ignited. When an operation for moving the stove heating amount operation portion 61a from the ignition position to the flameout position (hereinafter referred to as a "flameout operation") is performed by the user, the stove burner 12a is flameout. The ignition position is a position where the front surface of the stove heating amount operation portion 61a protrudes forward from the front surface of the main body 10a, and the flameout position is a position where the stove heating amount operation portion 61a is housed in the main body 10 a. In addition, in a state where the range heating amount operating portion 61a is located at the ignition position, the user can adjust the heating amount of the range burner 12a by operating the range heating amount operating portion 61a in the clockwise direction or the counterclockwise direction. The stove top plate operating unit 62a is an operating unit capable of receiving settings for automatic cooking by the stove burner 12a, and the like.

The range display 14a is a display (display) for displaying the operating states of the three range burners 12a, 12b, 12c and information related to the functions in progress (for example, cooking recipe (recipe) information for automatic cooking, cooking mode, etc.). The oven display 14b is a display for displaying the operating state of the oven burner 12d and information related to the function in progress.

As shown in fig. 3, the heating cooker 10 has three range gas supply passages 40a, 40b, 40c and one oven (grill) gas supply passage 40d. In addition, the heating cooker 10 has three oven safety valves 42a, 42b, 42c, one oven safety valve 42d, three oven flow rate adjustment valves 44a, 44b, 44c, and one oven flow rate adjustment valve 44d. In addition, the heating cooker 10 has three oven spark plugs 18a, 18b, 18c and one oven spark plug 18d.

The stove gas supply path 40a supplies gas from a gas supply source (not shown) to the stove burner 12 a. A range safety valve 42a and a range flow rate adjustment valve 44a are provided in the range gas supply path 40a. The range safety valve 42a is used to open and close the range gas supply passage 40a. When the range safety valve 42a is opened, gas is supplied to the range burner 12a, and when the range safety valve 42a is closed, gas is not supplied to the range burner 12a any more. The range safety valve 42a operates in conjunction with the range heating amount operating unit 61 a. The range safety valve 42a is opened when the range heating amount operating portion 61a is operated by ignition, and the range safety valve 42a is closed when the range heating amount operating portion 61a is operated by flameout.

The stove flow rate adjustment valve 44a is used to adjust the flow rate of the gas flowing in the stove gas supply path 40 a. The stove flow rate adjustment valve 44a adjusts the opening degree by rotation operation of a stepping motor (Stepping motor) (not shown). The stove flow rate adjustment valve 44a operates in conjunction with the stove heating amount operation unit 61 a. For example, when the range heating amount operating portion 61a is rotated clockwise, the opening degree of the range flow rate adjusting valve 44a increases, and the flow rate of the gas supplied to the range burner 12a increases. When the stove heating amount operation unit 61a is rotated in the counterclockwise direction, the opening degree of the stove flow rate adjustment valve 44a becomes smaller, and the flow rate of the gas supplied to the stove burner 12a becomes smaller.

The stove spark plug 18a is a device that ignites the gas supplied to the stove burner 12a by generating an electric spark. When a heating switch 90 described later is turned on, the stove ignition plug 18a generates an electric spark. When the stove heating amount operation portion 61a is operated by ignition, a heating switch 90, which will be described later, is turned on.

As shown in fig. 2, the heating cooker 10 further includes a heating control substrate 70 and a communication control substrate 80. The heating control substrate 70 and the communication control substrate 80 are disposed in the body 10a in a state of being separated from each other. In addition, if the circuits for supplying electric power to the heating control substrate 70 and the communication control substrate 80 are different, the heating control substrate 70 and the communication control substrate 80 may be disposed on the same substrate.

The heating control board 70 has a heating control unit 72 including a CPU. The heating control unit 72 has a 1 st memory 74 composed of ROM, RAM, hard disk (hard disk), and the like. The heating control portion 72 is electrically connected to the above-described range burner 12a, range heating amount operating portion 61a, range panel operating portion 62a, and range display portion 14a, and can control the operations of the above-described respective constituent elements.

The communication control board 80 has a BT interface 86 and a communication control portion 82 including a CPU. Hereinafter, the interface will be abbreviated as "I/F". The BTI/F86 is an I/F for enabling BT communication between the heating cooker 10 and the external terminal 100. That is, when the heating cooker 10 and the external terminal 100 approach each other to a predetermined distance, a BT connection (see a broken line arrow in fig. 1 and 2) is established between the heating cooker 10 and the external terminal 100 via the BTI/F86 and the BTI/F126 (described later). When the BT connection is established, the heating cooker 10 and the external terminal 100 can mutually perform BT communication through the BT connection.

The communication control section 82 has a2 nd memory 84 composed of ROM, RAM, hard disk, and the like. The communication control unit 82 is electrically connected to the BTI/F86, and can control the operation of the BTI/F86.

As shown in fig. 4, the heating control board 70 and the communication control board 80 are electrically connected to the dry cell 34. The heating control board 70 and the communication control board 80 are connected in series to the dry cell 34 via the heating switch 90. The communication control board 80 is connected to the dry cell 34 via a communication switch 92. The communication switch 92 is connected to the dry cell 34 in parallel with the heating control board 70 and the heating switch 90.

The heating switch 90 is mechanically connected to the stove heating amount operating portion 61a. The heating switch 90 is turned on/off in association with an operation received by the stove heating amount operation unit 61a. When the stove heating amount operation unit 61a receives an ignition operation, the heating switch 90 is turned on. When the stove heating amount operation unit 61a receives the flameout operation, the heating switch 90 is turned off. When the heating switch 90 is turned on, electric power of the dry cell 34 is supplied to the heating control unit 72 provided on the heating control substrate 70 (see fig. 2). Further, electric power of the dry cell 34 is supplied to a communication control unit 82 provided on the communication control board 80 (see fig. 2). The heating control unit 72 is supplied with electric power from the dry battery 34, and thereby can control the operations of the stove burner 12a, the stove display unit 14a, and the like. The communication control unit 82 is supplied with electric power from the dry cell 34, and thereby can control the operation of the BTI/F86.

The communication switch 92 is mechanically connected to the communication button 30. The communication switch 92 is switched on/off in association with an operation received by the communication button 30. When the communication button 30 receives an on operation, the communication switch 92 is turned on. When the communication button 30 receives an off operation, the communication switch 92 is turned off. When the communication switch 92 is turned on, electric power of the dry cell 34 is supplied to the communication control unit 82 provided on the communication control board 80 (see fig. 2). When the communication switch 92 is turned on, the electric power of the dry cell 34 is supplied to the communication control unit 82 even when the heating switch 90 is turned off. The communication control unit 82 is supplied with electric power from the dry cell 34, and thereby can control the operation of the BTI/F86. The communication control unit 82 can turn off the communication switch 92 when predetermined (S24 in fig. 5 described below). The communication control unit 82 can determine whether the heating switch 90 is in the on state or the off state. On the other hand, in the state where the heating switch 90 is turned off, even if the communication switch 92 is turned on, no electric power of the dry cell 34 is supplied to the heating control unit 72.

(Structure of external terminal 100; FIGS. 1 and 2)

The external terminal 100 is, for example, a smart phone. In other examples, the external terminal 100 may be a tablet terminal, a desktop computer, a notebook computer, or the like. As shown in fig. 1, the external terminal 100 has a display operation section 102. The display operation unit 102 functions as a touch panel (touch panel). The display operation unit 102 can display various information. The display operation unit 102 can accept various operations.

As shown in fig. 2, the external terminal 100 includes a terminal control board 120. The terminal control board 120 has a BTI/F126 and a terminal control section 122 including a CPU.

The BTI/F126 is an I/F for enabling BT communication between the external terminal 100 and the heating cooker 10. As described above, when the heating cooker 10 approaches the external terminal 100 to a predetermined distance, the BT connection is established (see the dotted arrow in fig. 1 and 2). When the BT connection is established, the heating cooker 10 and the external terminal 100 can mutually perform BT communication via the BT connection.

The terminal control unit 122 is electrically connected to the BTI/F126, and can control the operation of the BTI/F126. The terminal control unit 122 has a terminal memory 124 composed of a ROM, a RAM, a hard disk, and the like. The terminal memory 124 stores cooking recipe information for automatic cooking.

(Communication control side processing; FIG. 5)

Next, a communication control side process performed by the above-described heating cooker system 1 will be described. When the communication button 30 of the heating cooker 10 receives an on operation (when the user of the heating cooker 10 performs the on operation of the communication button 30), the communication control side processing shown in fig. 5 is started.

When the communication button 30 receives the on operation, the communication switch 92 is turned on in conjunction with this operation (S10). When the communication switch 92 is turned on with the heating switch 90 turned off, power supply to the communication control unit 82 is started. The electric power of the dry cell 34 is supplied to the communication control unit 82 (see fig. 2 and 4). Accordingly, the communication control unit 82 can control the operation of the BTI/F86. Further, in a case where the heating switch 90 is in an on state, the electric power of the dry cell 34 has been supplied to the communication control section 82.

In the state where the heating switch 90 is turned off, the electric power of the dry cell 34 is not supplied to the heating control unit 72 (see fig. 2 and 4). The case where the heating switch 90 is turned off means that the stove heating amount operation unit 61a does not receive an ignition operation. Therefore, heating is not started by the range burner 12 a.

In S12 following S10, the communication control unit 82 sets a timer (timer) for measuring the time when the communication switch 92 is turned off. The predetermined time set by the timer is, for example, 3 minutes.

In the next step S14, the communication control unit 82 determines whether or not cooking recipe information is received from the external terminal 100 through the BTI/F86. When the cooking recipe information is received, the communication control unit 82 determines that it is yes and proceeds to S16. If the cooking recipe information is not received, the communication control unit 82 determines no and proceeds to S22.

In the next step S16, the communication control unit 82 determines whether or not the heating switch 90 is in the on state. When the heating switch 90 is in the on state, the communication control unit 82 determines yes and proceeds to S20. When the heating switch 90 is not in the on state, the communication control unit 82 determines no and proceeds to S18.

In S20 following yes in S16, the communication control unit 82 stores the cooking recipe information received in S14 in the 1 st memory 74 provided on the heating control board 70 (see fig. 2). That is, when the electric power of the dry cell 34 is supplied to the heating control unit 72, the communication control unit 82 stores the received cooking recipe information in the 1 st memory 74. On the other hand, in S18 after no in S16, the communication control unit 82 stores the cooking recipe information received in S14 in the 2 nd memory 84 (see fig. 2) provided on the communication control board 80. That is, when the electric power of the dry battery 34 is not supplied to the heating control section 72 but only the electric power of the dry battery 34 is supplied to the communication control section 82, the communication control section 82 stores the received cooking recipe information in the 2 nd memory 84.

In the next step S22, the communication control unit 82 determines whether or not the predetermined time (for example, 3 minutes) set by the timer in step S12 has elapsed. When the predetermined time has elapsed, the communication control unit 82 determines that the signal is yes and proceeds to S24. If the predetermined time has not elapsed, the communication control unit 82 determines no and returns to S14. The communication control unit 82 keeps the communication switch 92 in an on state until a predetermined time elapses.

In the next step S24, the communication control unit 82 turns off the communication switch 92. When the communication switch 92 is turned off, the electric power of the dry cell 34 is no longer supplied to the communication control section 82. Accordingly, the communication control side processing ends.

(Heating control side process; FIG. 6)

Next, a heating control side process performed by the above-described heating cooker system 1 will be described. When the stove heating amount operation portion 61a receives an ignition operation (when the user of the heating cooker 10 performs an ignition operation of the stove heating amount operation portion 61 a), the heating control side processing shown in fig. 6 is started.

When the stove heating amount operation portion 61a receives an ignition operation, the stove burner 12a ignites. Accordingly, the heating of the object to be heated is started by the range burner 12 a. When the stove heating amount operation unit 61a receives an ignition operation, the heating switch 90 is turned on in conjunction with the ignition operation (S30). When the heating switch 90 is turned on, power supply to the heating control section 72 and the communication control section 82 is started. The electric power of the dry cell 34 is supplied to the heating control unit 72 and the communication control unit 82 (see fig. 2 and 4). Accordingly, the heating control unit 72 can control the operation of the stove burner 12 a. The communication control unit 82 is capable of controlling the operation of the BTI/F86. Further, when the communication switch 92 is turned on, electric power of the dry cell 34 is already supplied to the communication control section 82.

In S32 following S30, the heating control unit 72 determines whether or not the cooking recipe information is stored in the 2 nd memory 84 provided in the communication control board 80. When the communication control unit 82 stores the cooking recipe information in the 2 nd memory 84 in S18 (see fig. 5), the cooking recipe information is stored in the 2 nd memory 84. When the cooking recipe information is stored in the 2 nd memory 84, the heating control section 72 determines yes and proceeds to S34. When the cooking recipe information is not stored in the 2 nd memory 84, the heating control section 72 determines no and proceeds to S36.

In the next step S34, the heating control unit 72 acquires the cooking recipe information stored in the 2 nd memory 84 and stores the cooking recipe information in the 1 st memory 74. The heating control section 72 moves the cooking recipe information from the 2 nd memory 84 to the 1 st memory 74. The heating control section 72 can perform automatic cooking based on the cooking recipe information stored in the 1 st memory 74. After the cooking recipe information is moved to the 1 st memory 74, the heating control unit 72 deletes the cooking recipe information from the 2 nd memory 84. After that, when the stove heating amount operation unit 61a receives the flameout operation, the heating switch 90 is turned off (S36). In addition, the stove burner 12a is turned off. Accordingly, the heating control side processing ends.

The heating cooker system 1 and the heating cooker 10 according to the embodiment are described above. According to the above-described configuration, when the purpose of the heating cooker 10 is to communicate with the external terminal 100 instead of heating the object to be heated (for example, a pan), heating can be not started. In addition, if such a configuration is used for the oven burner 12d, even if the communication button 30 receives an on operation for enabling communication between the heating cooker 10 and the external terminal 100 in a state where the heating switch 90 is turned off, heating is not started by the oven burner 12d, and thus unintended heating by the user who starts heating the cooker 10 can be avoided. When heating is started by the oven burner 12d although it is intended to enable communication between the heating cooker 10 and the external terminal 100, for example, a problem arises in that deliciousness of dishes cannot be made, and according to the above configuration, since unintended heating is not started, such a problem can be suppressed.

In the heating cooker 10 described above, when the heating switch 90 is turned off and the communication switch 92 is turned on, if the communication control unit 82 receives the cooking recipe information from the external terminal 100 via the BTI/F86, the received cooking recipe information is stored in the 2 nd memory 84. When the heating switch 90 is turned on, the heating control unit 72 acquires the cooking recipe information stored in the 2 nd memory 84 and stores the cooking recipe information in the 1 st memory 74. According to this structure, when electric power of the dry battery 34 is not supplied to the heating control section 72, the communication control section 82 can temporarily store the cooking recipe information received from the external terminal 100 in the 2 nd memory 84. After that, when the heating switch 90 is turned on to supply the electric power of the dry battery 34 to the heating control unit 72, the cooking recipe information received from the external terminal 100 can be moved from the 2 nd memory 84 to the 1 st memory 74. Therefore, the cooking recipe information can be reliably acquired from the external terminal 100.

In addition, in the heating cooker 10 described above, since the dry cell 34 is used as a power source, it is desirable not to consume additional electric power. In the heating cooker 10, when the purpose is to communicate with the external terminal 100, rather than to heat the object to be heated, by performing the on operation only on the communication button 30, communication with the external terminal 100 is possible without supplying electric power of the dry cell 34 to the heating control unit 72. Therefore, consumption of additional electric power can be suppressed. This is particularly effective in the case where the dry cell 34 is used as a power source.

(Correspondence relation)

The stove burner 12a is an example of a "heating portion". The BTI/F86 is an example of a "communication unit". The stove heating amount operation portion 61a is an example of a "heating operation portion". The communication button 30 is an example of a "communication operation unit". The dry cell 34 is an example of a "power supply". The ignition operation by the stove heating amount operation portion 61a is an example of "1 st operation". The on operation performed by the communication button 30 is an example of "operation 2". The 1 st memory 74 is an example of a "1 st memory unit". The 2 nd memory 84 is an example of a "2 nd memory unit".

The embodiments have been described in detail above, but these are merely examples and do not limit the scope of the technical solution. The techniques described in the claims include techniques for variously changing or modifying the specific examples described above.

In the above embodiment, the "power supply" is the dry cell battery 34, but in other embodiments, the "power supply" may be a household AC power supply.

In other embodiments, the heating cooker 10 may be an IH-in (built-in) stove or the like.

The technical elements described in the present specification or the drawings are not limited to the combinations described in the claims at the time of application, and may be used alone or in various combinations. In addition, the embodiments illustrated in the present specification and drawings can achieve a plurality of objects at the same time, and one of the objects is technically practical.

Claims (3)

1. A heating cooker is characterized in that,

Comprises a heating part, a communication part, a heating operation part, a communication operation part, a heating control part, a communication control part, a power supply, a heating switch and a communication switch,

The heating unit is capable of heating an object to be heated;

the communication unit is capable of communicating with an external terminal;

The heating operation unit receives a1 st operation for starting heating of the heating unit;

the communication operation unit receives a2 nd operation for enabling the communication unit to perform communication;

the heating control part controls the operation of the heating part;

the communication control part controls the operation of the communication part;

the power supply supplies electric power to the heating control section and the communication control section;

The heating switch is connected to the power supply in series with the heating control unit and the communication control unit, and is turned on in conjunction with the 1 st operation received by the heating operation unit;

the communication switch is connected to the power supply in series with the communication control unit, is connected to the power supply in parallel with the heating control unit, is turned on in conjunction with the 2 nd operation received by the communication operation unit,

When the heating operation unit receives the 1 st operation, the heating unit is started to heat, the heating switch is turned on, electric power is supplied from the power supply to the heating control unit to control the operation of the heating unit, electric power is supplied from the power supply to the communication control unit to control the operation of the communication unit,

When the communication operation unit receives the 2 nd operation with the heating switch turned off, the communication switch is turned on in a state where the heating unit does not start heating and electric power is not supplied from the power source to the heating control unit, and electric power is supplied from the power source to the communication control unit to enable the communication control unit to control the operation of the communication unit.

2. The heating cooker as claimed in claim 1, wherein,

The heating control part is provided with a 1 st storage part,

The communication control section has a2 nd storage section,

The communication control unit stores the received information in the 2 nd storage unit when the communication unit receives information from the external terminal when the heating switch is in an off state and the communication switch is in an on state,

The heating control unit acquires the information stored in the 2 nd storage unit and stores the information in the 1 st storage unit when the heating switch is turned on.

3. The heating cooker as claimed in claim 1 or 2, wherein,

The power supply is a dry battery.