JP2014228217A - Heating cooking system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a heating cooking system capable of actuating a ventilator device to be interlocked with a heating operation of a heating cooker without depending on the arrangement of receiving means of the ventilator device side.SOLUTION: A heating cooking system comprises: an operation unit 5 setting heating power of each of a left heating part 4a, a right heating part 4b, and a central heating part 4c; a heating cooker 100 including a control unit generating a drive signal according to the heating power set by the operation unit 5, and a first wireless adapter 10 that transmits the drive signal by wireless communication; a controller 300 transferring the drive signal from the first wireless adapter 10 by wireless communication; and a ventilator device 200 including a second wireless adapter 22 receiving the drive signal from the controller 300, and ventilation control means controlling a motor 24 to be driven based on the drive signal from the second wireless adapter 22.

Description

  The present invention relates to a heating cooking system that drives a ventilation fan of a ventilation fan device in conjunction with a heating operation of a heating cooker.

  As a conventional cooking system, a transmission means that is disposed under the top plate of the cooking device, emits infrared light with a drive signal generated according to the set thermal power, and irradiates upward through the top plate, and above the cooking device And a receiving unit that receives infrared rays from the transmission unit, and drives the ventilation fan of the ventilation fan unit based on the infrared rays received by the receiving unit (for example, Patent Document 1). reference).

JP 2003-83550 A (summary)

  In the conventional cooking system, since infrared rays are used as a transmission medium for the drive signal generated according to the set thermal power, the irradiation angle is narrow and infrared rays cannot be received depending on the arrangement of the receiving means of the ventilation fan device. In some cases, the ventilation fan device did not operate in conjunction with the heating operation of the cooking device.

  The present invention has been made to solve the above-described problems, and allows the ventilation fan device to operate in conjunction with the heating operation of the heating cooker without depending on the arrangement of the receiving means on the ventilation fan device side. An object of the present invention is to provide a cooking system that can perform cooking.

  A heating cooking system according to the present invention includes a heating means for heating an object to be heated, a heating power setting means for setting a heating power of the heating means, a control means for generating a drive signal in accordance with the heating power set by the heating power setting means, and a control A cooking device having first transmission / reception means for transmitting the drive signal generated by the means by wireless communication, a controller for transferring the drive signal from the first transmission / reception means by wireless communication, and a drive signal from the controller And a ventilation fan device having ventilation fan control means for controlling the driving of the ventilation fan based on a drive signal from the second transmission / reception means.

  According to the present invention, when the ventilation fan of the ventilation fan device is driven with a drive signal corresponding to the set thermal power, wireless communication is performed between the first transmission / reception means and the controller and between the controller and the second transmission / reception means. A drive signal is transmitted. By this wireless communication, the ventilation fan of the ventilation fan device can be driven in conjunction with the heating operation of the heating cooker without being influenced by the arrangement of the receiving means on the ventilation fan device side.

FIG. 3 is a perspective view showing an appearance of the heat cooking system according to the first embodiment. The perspective view which removes and shows the top plate of the heating cooker of FIG. The communication sequence figure which shows operation | movement of the heat cooking system of Embodiment 1. FIG. The perspective view which shows the external appearance of the heat cooking system which concerns on Embodiment 2. FIG. The perspective view which removes and shows the top plate of the heating cooker of FIG. The communication sequence figure which shows operation | movement of the heat cooking system of Embodiment 2. FIG.

Embodiment 1 FIG.
FIG. 1 is a perspective view showing the appearance of the cooking system according to Embodiment 1, and FIG. 2 is a perspective view showing the cooking device of FIG.
As shown in FIG. 1, the heating and cooking system according to Embodiment 1 includes a heating cooker 100 incorporated in a system kitchen, and a ventilation fan device 200 that is disposed above the heating cooker 100 and is installed on the wall of the kitchen. And a controller 300 installed on the wall of the kitchen. In addition, although installation of the controller 300 is made into the wall of a kitchen, the installation place of the controller 300 is not limited.

  As shown in FIG. 2, the heating cooker 100 is provided on the upper part of the main body case 1, and the top plate 2 on which the left heating unit 4a, the right heating unit 4b, and the central heating unit 4c indicating the mounting position of the pan are displayed. In the main body case 1, the heating coils 11 a, 11 b, and 11 c arranged to face the left heating portion 4 a, the right heating portion 4 b, and the central heating portion 4 c, respectively, and the main body case 1 are accommodated. And a grill cooker having a grill door 8 on the front side. In addition, although the heating cooker 100 of this Embodiment is provided with the three heating coils 11a, 11b, and 11c, this is an example and the number of the heating coils 11a, 11b, and 11c is limited. It is not a thing. Moreover, it may replace with the heating coil 11c arrange | positioned facing the center heating part 4c, and may be a radiant heater.

  The top plate 2 is made of heat-resistant tempered glass, and is attached to the upper portion of the main body case 1 with a frame-like frame 3 attached to the outer peripheral portion. The frame 3 on the front side of the top plate 2 is provided with an operation portion 5 having a heating power setting means, and the rear frame 3 of the top plate 2 covers the intake port cover 6 and the exhaust port 13 that cover the intake port 12. An exhaust port cover 7 is detachably provided.

  The operation unit 5 includes a key switch for setting the heating power of the heating coils 11a, 11b, and 11c, a key switch for instructing a heating operation of the grill cooker, and the like. Below the operation unit 5, the circuit board 14 of the operation unit 5 is arranged. Further, on one side of the circuit board 14, for example, a control unit 9 configured by a microcomputer is mounted. The control unit 9 outputs a signal based on the operation of the key switch of the operation unit 5 to the circuit boards of the heating coils 11a, 11b, and 11c and the circuit board of the grill cooker.

  A power switch 5 a of the heating cooker 100 is provided on the front surface of the main body case 1 adjacent to the grill door 8. A first wireless adapter 10 serving as a first transmission / reception means is installed at the front portion in the main body case 1. The first wireless adapter 10 is connected to the control unit 9 via a communication line (not shown).

  When the thermal power is set by the operation unit 5, the control unit 9 generates a drive signal according to the set thermal power and outputs the drive signal to the first wireless adapter 10. Moreover, the control part 9 outputs a stop signal to the 1st wireless adapter 10, when the heating operation in the heating cooker 100 is complete | finished. The first wireless adapter 10 transmits the drive signal to the controller 300 by wireless communication when a drive signal from the control unit 9 is input. When the stop signal is input, the first wireless adapter 10 transmits the stop signal to the wireless communication. To the controller 300.

  The ventilation fan device 200 includes a box-shaped hood 20 having an opening in a lower portion facing the top plate 2, an operation unit 21 provided on the front surface of the hood 20, and a second wireless device installed on the inner side of the front surface of the hood 20. An adapter 22 (second transmission / reception means), a motor 24 installed in the hood 20, for example, a sirocco fan connected to the motor 24, and a removable ventilation filter 23 provided in front of the sirocco fan of the hood 20. And a ventilation fan control unit (not shown).

  The operation unit 21 is provided with a switch for selecting “strong / medium / weak” of the air volume by rotation of the sirocco fan and a switch for “turning on / off” the power. The second wireless adapter 22 is connected to the ventilation fan control unit described above via a communication line. The second wireless adapter 22 outputs the drive signal to the ventilation fan control unit when the drive signal is received via the controller 300, and outputs the stop signal when the stop signal is received via the controller 300. Output to ventilator control unit.

  When a driving signal is input, the ventilation fan control unit controls driving of the motor 24 based on the driving signal. The control of the motor 24 differs depending on the drive signal (set heating power) generated according to the set heating power. For example, when the heating power is 2.5 kW or more, the driving of the motor 24 is controlled so that the air volume becomes “strong”, and when the heating power is 750 W or more and less than 2.5 kW, the motor 24 is controlled so that the air volume becomes “medium”. When the heating power is less than 750 W, the driving of the motor 24 is controlled so that the air volume becomes “weak”.

When the drive signal from the first wireless adapter 10 is received, the controller 300 transfers the drive signal to the second wireless adapter 22 by wireless communication, and the stop signal from the first wireless adapter 10 is received. When it is done, the stop signal is transferred to the second wireless adapter 22 by wireless communication. Wireless communication between the first wireless adapter 10 and the controller 300 and wireless communication between the controller 300 and the second wireless adapter 22 are performed by a wireless LAN or specific low power. For example, the controller 300 monitors the amount of electric power used by a home electric appliance to be controlled. If the electric power that is set is likely to be exceeded, the controller 300 automatically switches off the electric home appliance or adjusts the air conditioner according to the room temperature. It has a function to control the lighting equipment according to the brightness of the room.
The aforementioned wireless LAN is a local area network that transmits and receives data by wireless communication, and is also called a wireless LAN. Specified small power is the power of the antenna for wireless communications that is 1 W or less (originally 10 mW or less but the law was revised). The specific low-power radio can be used without the need for

The operation of the cooking system configured as described above will be described with reference to FIGS.
FIG. 3 is a communication sequence diagram illustrating the operation of the cooking system according to the first embodiment.

  When the heating cooker 100 is turned on by turning on the power switch 5a, the control unit 9 waits until the heating power set by the operation unit 5 is input. For example, when the heating power of the left heating unit 4 a is set, the control unit 9 generates a driving signal according to the set heating power and outputs the driving signal to the first wireless adapter 10.

  When a drive signal is input, the first wireless adapter 10 transmits the drive signal to the controller 300 by wireless communication. When the drive signal from the first wireless adapter 10 is received, the controller 300 transfers the drive signal to the second wireless adapter 22 by wireless communication.

  When the second wireless adapter 22 receives the drive signal from the controller 300, the second wireless adapter 22 outputs the drive signal to the ventilation fan control unit. When the drive signal is input, the ventilation fan control unit drives the motor 24 to rotate the sirocco fan, and controls the drive of the motor 24 so that the air volume according to the drive signal (set thermal power) is obtained.

  On the other hand, the control unit 9 determines whether or not the heating operation in the left heating unit 4a has been completed, and outputs a stop signal to the first wireless adapter 10 when detecting the end of the heating operation. When the stop signal is input, the first wireless adapter 10 transmits the stop signal to the controller 300 by wireless communication. When the stop signal from the first wireless adapter 10 is received, the controller 300 transfers the stop signal to the second wireless adapter 22 by wireless communication.

  When the second wireless adapter 22 receives a stop signal from the controller 300, the second wireless adapter 22 outputs the stop signal to the ventilation fan control unit. When the stop signal is input, the ventilation fan control unit stops driving the motor 24 and ends the ventilation during the heating operation in the left heating unit 4a. Note that the driving of the motor 24 may be stopped after a predetermined time has elapsed since the stop signal was input.

  As described above, according to the first embodiment, when the motor 24 of the ventilation fan device 200 is driven with the drive signal corresponding to the set thermal power, the first wireless adapter 10 and the controller 300, and the controller 300 and the second The drive signal is transmitted by wireless communication with the wireless adapter 22. By this wireless communication, the motor 24 of the ventilation fan apparatus 200 can be driven in conjunction with the heating operation of the heating cooker 100 without being influenced by the arrangement of the receiving means on the ventilation fan apparatus 200 side.

Embodiment 2. FIG.
4 is a perspective view showing the appearance of the cooking system according to Embodiment 2, and FIG. 5 is a perspective view showing the cooking device of FIG. 4 with the top plate removed. In addition, the same code | symbol is attached | subjected to the part similar to Embodiment 1 demonstrated in FIG.1 and FIG.2, and only a different part from Embodiment 1 is demonstrated.

  In Embodiment 2, LED16a, 16b (light emission means) which irradiates infrared rays is attached to the both ends of the partition plate 15 provided in the front part in the main body case 1 of the heating cooker 100. FIG. The LEDs 16a and 16b are disposed so as to face the corners on the front side of the top plate 2, and are inclined so that infrared rays are directed to an infrared light receiving unit 25 described later. The infrared light receiving unit 25 described above is attached to the lower surface of the front portion of the hood 20 of the ventilation fan device 200. The infrared light receiving unit 25 is connected to the ventilation fan control unit via a communication line.

  When the control unit 9 of the cooking device 100 generates a drive signal according to the heating power set by the operation unit 5, the drive signal is output only to the LEDs 16 a and 16 b to irradiate infrared rays corresponding to the drive signal. . Next, the control unit 9 outputs an operation signal notifying the operation of the ventilation fan device 200 to the first wireless adapter 10 and causes the controller 300 to transmit the operation signal from the first wireless adapter 10 to the controller 300 by wireless communication.

  When the infrared rays from the LEDs 16a and 16b are received, the infrared light receiving unit 25 converts the received infrared rays into a drive signal, and outputs the drive signal to the ventilation fan control unit. The ventilating fan control unit controls the driving of the motor 24 based on the input driving signal, and transmits a detection signal notifying the reception of infrared rays to the controller 300 by wireless communication.

  The controller 300 starts counting time when the operation signal is received, and when the detection signal is received before the count time t2 has passed the set time t1, the controller 300 transmits the detection signal to the first wireless adapter 10. To the control unit 9. In addition, when the detection signal is not received even after the count time t2 has passed the set time t1, the controller 300 retransmits the drive signal from the first wireless adapter 10 to the control unit 9 as an infrared light reception error. A retransmission instruction signal to be transmitted is transmitted by wireless communication. As described above, the wireless communication between the first wireless adapter 10 and the controller 300 and the wireless communication between the controller 300 and the second wireless adapter 22 are performed by a wireless LAN or specific low power.

The operation of the cooking system configured as described above will be described with reference to FIGS.
FIG. 6 is a communication sequence diagram illustrating the operation of the cooking system according to the second embodiment.

  When the heating cooker 100 is turned on by turning on the power switch 5a, the control unit 9 waits until the heating power set by the operation unit 5 is input. For example, when each heating power of the left heating unit 4a and the right heating unit 4b is set, the control unit 9 generates a driving signal according to the set heating power, and outputs the driving signal only to the LEDs 16a and 16b. Infrared rays corresponding to the drive signal are irradiated. At this time, infrared rays from the LEDs 16a and 16b pass through the top plate 2 and are irradiated upward.

  On the other hand, when the infrared rays from the LEDs 16a and 16b are received, the infrared light receiver 25 converts the infrared rays into a drive signal based on the infrared rays, and outputs the drive signal to the ventilation fan controller. When the drive signal is input, the ventilation fan control unit drives the motor 24 to rotate the sirocco fan, and controls the drive of the motor 24 so that the air volume according to the drive signal (set thermal power) is obtained. Next, the ventilating fan control unit transmits a detection signal notifying the reception of infrared rays to the controller 300 by wireless communication.

  The controller 300 starts counting time when the operation signal is received, and when the detection signal is received before the count time t2 has passed the set time t1, the controller 300 transmits the detection signal to the first by wireless communication. The detection signal is transmitted to the wireless adapter 10 and the detection signal is input to the control unit 9 from the first wireless adapter 10. When the detection signal is input, the control unit 9 determines that infrared rays have been received, and enters the determination as to whether the heating operation in the left heating unit 4a and the right heating unit 4b has been completed.

  In addition, when the detection signal is not received even when the count time t2 has passed the set time t1, the controller 300 transmits a retransmission instruction signal for causing the control unit 9 to retransmit the drive signal by wireless communication. 10, the retransmission instruction signal is input to the control unit 9 from the first wireless adapter 10. When the retransmission instruction signal is input, the control unit 9 determines that there is an infrared light reception error and outputs a drive signal generated according to the set heating power to the first wireless adapter 10. Since the subsequent operation is the same as that of the first embodiment, the description of the operation is omitted. Moreover, the control part 9 outputs a stop signal to the 1st wireless adapter 10, when the completion | finish of the heating operation in the left heating part 4a and the right heating part 4b is detected. Since the subsequent operation is the same as that of the first embodiment, the description of the operation is omitted.

  As described above, according to the second embodiment, when the infrared light irradiated from the LEDs 16a and 16b is not received by the infrared light receiving unit 25, the drive signal corresponding to the set heating power is transmitted to the first wireless adapter 10, the controller 300, and The signal is input to the ventilation fan control unit via the second wireless adapter 22. Thereby, the motor 24 of the ventilation fan apparatus 200 can be driven in conjunction with the heating operation of the heating cooker 100 without being influenced by the arrangement of the infrared light receiving unit 25 on the ventilation fan apparatus 200 side.

  In the first and second embodiments, the first wireless adapter 10 is installed in the main body case 1, but the first wireless adapter 10 may be installed on the wall similarly to the controller 300. Further, although the second wireless adapter 22 is installed inside the hood 20, the second wireless adapter 22 may be installed on the surface of the hood 20.

  1 body case, 2 top plate, 3 frame, 4a left heating unit, 4b right heating unit, 4c central heating unit, 5 operation unit, 5a power switch, 6 air inlet cover, 7 exhaust port cover, 8 grill door, 9 control , 10 1st wireless adapter, 11a, 11b, 11c Heating coil, 12 Intake port, 13 Exhaust port, 14 Circuit board, 15 Partition plate, 16a, 16b LED, 20 Hood, 21 Operation unit, 22 Second wireless Adapter, 23 Ventilation filter, 24 Motor, 25 Infrared light receiver, 100 Heating cooker, 200 Ventilation fan device, 300 Controller.

Claims (4)

Heating means for heating an object to be heated, thermal power setting means for setting the heating power of the heating means, control means for generating a drive signal in accordance with the thermal power set by the thermal power setting means, and drive generated by the control means A heating cooker having first transmission / reception means for transmitting a signal by wireless communication;
A controller for transferring a drive signal from the first transmission / reception means by wireless communication;
A second transmission / reception means for receiving a drive signal from the controller; and a ventilation fan device having a ventilation fan control means for controlling the drive of the ventilation fan based on the drive signal from the second transmission / reception means. Heating cooking system. A heating signal for heating an object to be heated, a heating power setting means for setting the heating power of the heating means, a light emitting means for emitting infrared rays, a first transmission / reception means, and a driving signal according to the heating power set by the heating power setting means. A heating cooker having control means for generating and outputting the drive signal to the light emitting means to emit infrared light, and outputting an operation signal to the first transmitting / receiving means to transmit by wireless communication;
A light receiving means for receiving infrared light from the light emitting means, a second transmitting / receiving means, and a detection for controlling the driving of the ventilation fan based on the infrared light and notifying the reception of the infrared light when the infrared light is received by the light receiving means. A ventilation fan device having a ventilation fan control means for outputting a signal to the second transmission / reception means and transmitting the signal by wireless communication;
When the operation signal is received, time counting is started. When the detection signal is not received even after the set time has elapsed, the drive signal is sent to the control means as an infrared light receiving error. A controller for transmitting an instruction signal to be transmitted to the first transmission / reception means by wireless communication,
When the instruction signal is input through the first transmission / reception unit, the control unit outputs the drive signal to the first transmission / reception unit to transmit by wireless communication.
The controller transfers the drive signal from the first transmission / reception means by wireless communication,
The second transmitting / receiving means receives the drive signal transferred from the controller,
The heating cooking system characterized in that the ventilation fan control means controls the driving of the ventilation fan based on the drive signal received by the second transmission / reception means.   The wireless communication between the first transmission / reception unit and the controller and the wireless communication between the controller and the second transmission / reception unit are performed by a wireless LAN. Cooking system.   3. The wireless communication between the first transmission / reception unit and the controller and the wireless communication between the controller and the second transmission / reception unit are performed with specific low power. Cooking system.

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