KR102055220B1 - Apparatus for detecting fire in gas range - Google Patents

Abstract

The present invention relates to an apparatus for detecting fire in a gas stove. According to the present invention, the apparatus uses a cooking vessel bottom temperature sensor detecting the temperature of the bottom surface of a cooking vessel when coming in contact with the cooking vessel and a position sensor which is turned on upon vertical movement of the cooking vessel bottom temperature sensor and informs detection of the cooking vessel to determine whether the cooking vessel exists after an ignition operation input of an ignition/extinction operation unit and determine flame-on or flame-out in accordance with a change in the detection temperature of the cooking vessel bottom temperature sensor. Moreover, when flame-out is determined, the apparatus sets a different waiting time value for preventing an ignition explosion caused by a reignition operation in accordance with whether the cooking vessel exists. Accordingly, a conventional flame sensor is not required, thereby resolving a problem that gas ejected through a flame hole is extinguished during ignition combustion by incorrect flame detection when a conventional flame sensor is used. In particular, the flame sensor is not used, and thus, a decrease in the number of parts of the gas stove and improvement in design of a burner body can be expected. According to the present invention, the apparatus comprises a cooking vessel bottom temperature sensor, position sensor, and micro control unit (MCU).

Description

Apparatus for detecting fire in gas range

The present invention relates to a gas range, and more particularly to a gas range ignition detection device.

The pan bottom temperature sensor of the gas range disclosed in Patent Literature 1 is installed so that the head portion covering the thermistor moves up and down along the support pipe, and interlocks with the up and down movement of the head portion in the support pipe internal space. And a reed switch disposed on an outer circumferential surface of the support pipe and the magnet that slides in a direction, and turned on when the magnet is close to the detection position, and turned off when it is far from the detection position.

The gas range disclosed in Patent Literature 1 determines the presence or absence of a pot by turning on / off the reed switch corresponding to the vertical movement of the magnet, and the spark plugs on the outer periphery of the burner body generate flame near a specific flame hole. When discharged, the flame detection sensor arranged outside the flame hole detects the combustion flame to determine whether it is ignited, that is, whether gas is burned.

In the gas range disclosed in Patent Document 1, when an ignition operation is performed in the ignition control unit, a high voltage is applied to the spark plug by an igniter assembled in the main body of the gas range to discharge the spark in the vicinity of the flame hole. When the gas ejected from the flame hole is ignited and combusted, the gas ejection amount is appropriately adjusted in accordance with the thermal power set by the ignition operation unit from this time.

In the conventional gas range equipped with the above-described flame detection sensor, when the flame is detected due to the presence of airflow during the flame detection or the foreign matter stuck to the flame detection sensor due to boiling of the food, the ignition of the ignition control unit Even if there is an operation, there is a problem in that the gas ejected into the flame hole is extinguished during ignition combustion, and the flame detection sensor is located on the outer periphery of the burner body, thereby reducing the beauty of the design.

KR 10-1720419 B1

The present invention is to solve the conventional problems as described above, an object of the present invention is to provide a cooking vessel bottom temperature sensor and the cooking vessel bottom temperature sensor for sensing the bottom surface temperature of the cooking vessel in contact with the cooking vessel; After ignition operation of the ignition control unit is input by using the position sensor that is turned on when moving up and down, the ignition or misfire is judged according to the presence or absence of cooking vessel and the change of sensing temperature of the bottom temperature sensor of the cooking vessel. It is to provide a gas range ignition detection device for setting the explosion ignition prevention waiting time to a different value to prevent explosion ignition by re-ignition operation depending on the presence or absence.

In order to achieve the object of the present invention as described above, the gas range ignition detection device according to the present invention, the cooking vessel bottom temperature sensor for sensing the bottom surface temperature of the cooking vessel in contact with the cooking vessel; A position sensor which is turned on when the cooking vessel bottom temperature sensor is moved up and down to indicate the cooking vessel detection; After the ignition operation is input to the ignition operation part of the gas range, the ignition or misfire is judged according to the presence or absence of the cooking vessel and the sensing temperature change of the bottom temperature sensor of the cooking vessel. And a micro-control unit (MCU) for setting a waiting time for preventing explosion ignition by re-ignition operation according to the presence or absence of cooking vessel at a different value.

In the gas range ignition detecting apparatus according to the present invention, the microcontrol unit (MCU) is to set the second waiting time when the cooking vessel is shorter than the first waiting time when there is a cooking vessel when determining misfire. It features.

In the gas range ignition detecting apparatus according to the present invention, the microcontrol unit (MCU) is to store the current detected temperature of the current cooking vessel bottom temperature sensor as the initial temperature when the power is supplied after the ignition operation input of the ignition operation unit of the gas range Next, the gas supply amount control valve (for example, proportional control valve) for controlling the gas ejection amount supplied to the burner of the gas range is opened and the spark is discharged by operating an igniter to determine whether there is a current cooking vessel. It is done.

In the gas range ignition detecting apparatus according to the present invention, the micro-control unit (MCU) operates a igniter (igniter) to discharge the flame after a predetermined time to determine whether the ignition when the present cooking vessel (eg, 10 seconds), if it is determined that the detected temperature of the cooking vessel bottom temperature sensor is greater than or equal to a predetermined first comparison temperature than the initial temperature stored immediately after the ignition operation input, it is determined that the gas supplied to the burner of the gas range is ignited and combusted and set by the ignition control unit. It is characterized by adjusting the gas ejection amount in accordance with the thermal power.

In the gas range ignition detecting apparatus according to the present invention, the micro-control unit (MCU) operates a igniter (igniter) to discharge the flame after a predetermined time to determine whether the ignition when the present cooking vessel (eg, If it is determined that the sensing temperature of the cooking vessel bottom temperature sensor is less than the first comparative temperature set after the ignition operation input within 10 seconds, it is determined that the gas supplied to the burner of the gas range is misfired and the gas supply amount control valve ( For example, it is characterized by closing the proportional control valve and stopping the spark discharge of the igniter.

In the gas range ignition detecting apparatus according to the present invention, when the microcontrol unit (MCU) determines that the gas is misfired when it is determined that the current cooking vessel is present, the first waiting time for preventing explosion ignition by re-ignition operation is After the ignition operation input is characterized in that to allow.

In the gas range ignition detecting apparatus according to the present invention, the microcontrol unit (MCU) operates a igniter (igniter) to discharge the flame after a predetermined time to determine whether the ignition when determining whether there is no cooking vessel (for example, If it is determined that the detected temperature of the bottom temperature sensor of the cooking vessel is greater than or equal to a predetermined second comparison temperature immediately after the ignition operation input within 10 seconds), it is determined that the gas supplied to the burner of the gas range is ignited and combusted. It is characterized by adjusting the gas ejection amount in accordance with the thermal power.

In the gas range ignition detecting apparatus according to the present invention, the microcontrol unit (MCU) operates a igniter (igniter) to discharge the flame after a predetermined time to determine whether the ignition when determining whether there is no cooking vessel (for example, If it is determined that the sensing temperature of the cooking vessel bottom temperature sensor is less than the predetermined second comparison temperature from the initial temperature stored immediately after the ignition operation input within 10 seconds), it is determined that the gas supplied to the burner of the gas range is misfired and the gas supply amount control valve ( For example, it is characterized in that the proportional control valve) is closed and the spark discharge of the igniter is stopped.

In the gas range ignition detecting apparatus according to the present invention, when the microcontrol unit (MCU) is determined that the gas is misfired when the current cooking vessel is not determined, the second waiting time for preventing explosion ignition by re-ignition operation is After the ignition operation input is characterized in that the allow.

According to the present invention, since there is no need to use a conventional flame detection sensor, the problem that the gas ejected into the flame hole due to the flame misdetection when using the conventional flame detection sensor is extinguished during ignition combustion can be solved. It is expected to reduce the number of parts in the gas range and improve the design of the burner body due to the absence of the detection sensor.

1 is a block diagram showing a gas range ignition detection device according to the present invention.
Figure 2 is an embodiment showing a gas range to which the gas range ignition detection device according to the present invention is applied.
Figure 3 is a flowchart illustrating the operation of the gas range ignition detection device according to the present invention.
Figure 4 is a graph showing the detection temperature change of the cooking vessel bottom temperature sensor after the ignition operation input.

Hereinafter, with reference to the accompanying drawings an embodiment of the present invention will be described in more detail.

Gas range ignition detection device according to the present invention described below is not limited to the following examples, anyone who has ordinary knowledge in the art without departing from the gist of the technology claimed in the claims The technical spirit is to the extent that it can be implemented.

Referring to FIG. 1, the gas range ignition detecting apparatus 100 according to the present invention includes a cooking vessel bottom temperature sensor 110, a position sensor 120, and a micro control unit (MCU) 130.

2 is a gas range ignition detection device 100 according to the present invention is applied to illustrate a gas range 200 without a conventional flame detection sensor.

Gas stove 200 shown in Figure 2 is installed on the upper plate 210 covering the upper surface of the main body burner 220 to burn the cooking vessel 300, such as a pan, a frying pan, wok by burning the gas, the Ignition or extinguishment to ignite or extinguish the pedestal 230 and the burner 220 is mounted on the top plate 210 and the cooking vessel 300 is raised in a state separated from the outer periphery of the burner 220 by a predetermined distance The operation part 240 is provided.

The cooking vessel bottom temperature sensor 110 detects the bottom surface temperature of the cooking vessel 300 in contact with the cooking vessel 300 mounted on the pedestal 230.

The cooking vessel bottom temperature sensor 110 is installed to protrude upward and upward in the inner space of the burner 220 installed in the center of the upper plate 210 covering the main body of the gas cooker 200 and ignition of the gas cooker 200. During operation, the bottom surface of the cooking vessel 300 is sensed in contact with the cooking vessel 300 mounted on the pedestal 230 mounted on the upper plate around the burner 220.

The cooking vessel bottom temperature sensor 110 is formed of a head portion 112 which is installed to move up and down along the support pipe 111.

The head part 112 includes a temperature sensing thermistor 112a and a coil spring 112b, and when the coil spring 112b exerts the head 112 upward, it is placed on the pedestal 230. If there is no cooking vessel 300, the upper end of the head portion 112 is raised to be more protruding than the horizontal plane corresponding to the upper surface of the pedestal 230.

On the other hand, if there is a cooking vessel 300 on the pedestal 230, the head portion 112 is pressed downward by the bottom surface of the cooking vessel 300, and at the same time, the top surface of the head portion 112 The coil spring 112b is in close contact with the bottom surface of the cooking vessel 300. For this reason, the temperature of the bottom surface of the cooking vessel 300 is sensed by the temperature sensing thermistor 112a built in the head portion 112.

The position sensor 120 is a cooking vessel bottom temperature sensor 110 for sensing the bottom surface temperature of the cooking vessel 300 in contact with the cooking vessel 300 mounted on the pedestal 230 of the gas range 200. It is turned on when moving up and down to inform the detection of cooking vessel.

As shown in FIG. 2, the position sensor 120 is interlocked with the vertical movement of the head 112 in the space inside the support pipe 111 of the bottom temperature sensor 110 of the cooking vessel 111. ) The lead is turned on when the magnet 121 is close to the detection position in a state in which the magnet 121 is installed to slide up and down inside the support pipe 111 and the detection position is located near the detection position. It is configured to include a switch 122.

The micro control unit (MCU) 130 is ignited according to the presence or absence of the cooking vessel 300 and the sensing temperature change of the cooking vessel bottom temperature sensor 110 after inputting the ignition operation of the ignition operation unit 240 of the gas range 200. Or judge the misfire, and when the ignition judges to adjust the gas ejection amount according to the fire power set in the ignition operation unit 240, and when the misfire judgment to prevent explosion ignition by re-ignition operation depending on the presence of the cooking vessel 300 Set the time to a different value.

The microcontrol unit 130 may set the second waiting time when the cooking container 300 is shorter than the first waiting time when the cooking container 300 is present when determining misfire.

The microcontrol unit (MCU) stores the detected temperature of the current cooking vessel bottom temperature sensor 110 as the initial temperature when the power is supplied after the ignition operation input of the ignition operation unit 240 of the gas range 200 and then the gas range After opening the gas supply amount control valve 250 (for example, the proportional control valve) for controlling the gas ejection amount supplied to the burner 220 of the 200 and operating the igniter 260 to discharge the flame The presence or absence of the current cooking vessel 300 is determined.

The microcontrol unit (MCU) 130 operates a igniter 260 to discharge the flame and then determines a ignition time when determining whether there is a cooking vessel 300 (eg, 10 seconds). If it is determined that the detected temperature of the cooking vessel bottom temperature sensor 110 is greater than or equal to a predetermined first comparison temperature than the initial temperature stored immediately after the ignition operation input, the gas supplied to the burner 220 of the gas range 200 is ignited and combusted. Then, the gas ejection amount is controlled by adjusting the opening degree of the gas supply amount control valve 250 in accordance with the fire power set by the ignition control unit 240.

The micro control unit (MCU) 130 operates the igniter 260 to discharge the flame, and then determines whether there is a cooking vessel within the cooking vessel within a predetermined time (eg, 10 seconds) to determine whether there is a cooking vessel. If it is determined that the sensing temperature of the floor temperature sensor 110 is less than the first comparative temperature determined from the initial temperature stored immediately after the ignition operation input, it is determined that the gas supplied to the burner 220 of the gas range 200 is misfired and the gas is supplied. The control valve 250 (eg, proportional control valve) is closed and the spark discharge of the igniter 260 is stopped.

If the microcontrol unit (MCU) 130 determines that the gas is misfired when it is determined that the cooking vessel 300 is present, the ignition operation input after the first waiting time for preventing explosion ignition by re-ignition operation has elapsed. Allow.

The micro control unit (MCU) 130 operates a igniter 260 to discharge a flame and then determines a ignition time when determining whether there is no cooking vessel 300 (eg, 10 seconds). If it is determined that the detected temperature of the cooking vessel bottom temperature sensor 110 is greater than or equal to a predetermined second comparison temperature than the initial temperature stored immediately after the ignition operation input, the gas supplied to the burner 220 of the gas range 200 is ignited and combusted. The gas ejection amount is adjusted by adjusting the opening degree of the gas supply amount control valve 250 in accordance with the fire power set by the ignition control unit 240.

The micro control unit (MCU) 130 operates a igniter 260 to discharge a flame and then determines a ignition time when determining whether there is no cooking vessel 300 (eg, 10 seconds). If it is determined that the detected temperature of the cooking vessel bottom temperature sensor 110 is less than the second comparison temperature determined from the initial temperature stored immediately after the ignition operation input, it is determined that the gas supplied to the burner 220 of the gas range 200 is misfired. The gas supply amount control valve 250 (eg, the proportional control valve) is closed and the spark discharge of the igniter 260 is stopped.

If the microcontrol unit (MCU) 130 determines that the gas is misfired when it is determined that the cooking vessel 300 is not present, the microcontrol unit 130 inputs an ignition operation after a second waiting time for preventing explosion ignition by re-ignition operation has elapsed. Allow.

The sizing control unit 240 is configured in various forms such as a handle (knob) for holding by hand and a touch button or a touch switch to operate by pressing with a finger.

Gas range ignition detection device 100 according to the present invention configured as described above operates as follows.

3 is a flowchart illustrating an operation process S100 of the gas range ignition detecting device 100 according to the present invention.

Referring to FIG. 3, when the microcontrol unit (MCU) 130 is supplied with power after the ignition operation input (S110) of the ignition operation unit 240 of the gas range 200, the current cooking vessel bottom temperature sensor 110 is present. Store the detected temperature of the initial temperature (S120).

For example, as shown in Figure 4, the result of measuring the change in the sensing temperature of the cooking vessel bottom temperature sensor 110 for the gas range 200 to which the gas range ignition detection device 100 according to the present invention is applied, the ignition operation Immediately after input, an initial temperature of approximately 20 degrees was detected.

After the initial temperature is stored as described above, the microcontrol unit (MCU) 130 next controls the gas supply amount control valve 250 for controlling the gas ejection amount supplied to the burner 220 of the gas range 200. After opening and operating the igniter (igniter) 260 to discharge the flame to determine the presence of the current cooking vessel 300 (S130).

The presence or absence of the cooking vessel 300 determines that there is a cooking vessel 300 when the reed switch 122 of the position sensor 120 is turned on, and determines that there is no cooking vessel 300 when the reed switch 122 is turned off. do.

For reference, as shown in FIG. 4, as a result of measuring a change in the sensed temperature of the cooking vessel bottom temperature sensor 110 with respect to the gas range 200 to which the gas range ignition detecting device 100 according to the present invention is applied, the ignition is performed. When the igniter 260 operates to discharge the flame immediately after the operation input, when the cooking vessel 300 is present, the cooking vessel bottom temperature sensor is approximately 10 to 15 degrees or more above the initial temperature after 10 seconds. When the sensing temperature of 110 is increased and the cooking vessel 300 is absent, the sensing temperature of the cooking vessel bottom temperature sensor 110 is increased by approximately 40 degrees or more from the initial temperature after 10 seconds.

Therefore, the microcontrol unit (MCU) 130 determines whether to be ignited when it is determined that the cooking vessel 300 is present after the spark is discharged by operating the igniter 260 in step S130. It is determined whether the sensing temperature of the cooking vessel bottom temperature sensor 110 is greater than or equal to a predetermined first comparison temperature (for example, 10 to 15 degrees) from the initial temperature stored immediately after the ignition operation input within a predetermined time (for example, 10 seconds) (S140). ).

If it is determined in step S140 that the detected temperature of the bottom temperature sensor 110 of the cooking vessel is greater than or equal to a predetermined first comparison temperature (eg, 10 to 15 degrees) than the initial temperature stored immediately after the ignition operation input, the microcontrol The unit 130 determines that the gas supplied to the burner 220 of the gas range 200 is ignited and burned (S150), and the gas supply amount control valve 250 is adjusted in accordance with the fire power set by the ignition operation unit 240. By adjusting the opening degree, the amount of gas ejected is controlled.

On the contrary, if it is determined in step S140 that the sensing temperature of the cooking vessel bottom temperature sensor 110 is less than a predetermined first comparison temperature than the initial temperature stored immediately after the ignition operation input, the microcontrol unit (MCU) 130 It is determined that the gas supplied to the burner 220 of the gas range 200 is misfired (S160), and the gas supply amount control valve 250 (eg, the proportional control valve) is closed and the spark discharge of the igniter 260 is performed. Stops.

As described above, when it is determined that the gas is misfired when it is determined that the cooking vessel 300 is present, the microcontrol unit (MCU) 130 has a first waiting time (eg, 3 seconds) to prevent explosion ignition by re-ignition operation. Allow the ignition operation input after elapsed (S161).

On the other hand, the micro-control unit (MCU) 130 to determine whether the ignition (igniter) (260) in the process of step S130 after the discharge of the flame after the current cooking vessel 300, the ignition in step S130 Within a predetermined time (eg, 10 seconds), it is determined whether the sensing temperature of the cooking vessel bottom temperature sensor 110 is greater than or equal to a predetermined second comparison temperature (eg, 40 degrees) than the initial temperature stored immediately after the ignition operation input (S170).

If it is determined in step S170 that the sensing temperature of the cooking vessel bottom temperature sensor 110 is greater than or equal to a predetermined second comparison temperature (eg, 40 degrees) than the initial temperature stored immediately after the ignition operation input, the microcontrol unit (MCU) 130 determines that the gas supplied to the burner 220 of the gas range 200 is ignited and combusted (S150) and adjusts the opening degree of the gas supply control valve 250 in accordance with the fire power set by the ignition operation unit 240. To adjust the gas volume.

On the contrary, if it is determined in step S170 that the sensing temperature of the cooking vessel bottom temperature sensor 110 is less than a predetermined second comparison temperature than the initial temperature stored immediately after the ignition operation input, the microcontrol unit (MCU) 130 It is determined that the gas supplied to the burner 220 of the gas range 200 is misfired (S180), and the gas supply amount control valve 250 (eg, the proportional control valve) is closed and the spark discharge of the igniter 260 is performed. Stops.

When the microcontrol unit (MCU) 130 determines that the gas is misfired when it is determined that the current cooking vessel 300 is not present, the microcontrol unit (MCU) 130 is configured to prevent explosion ignition by re-ignition operation. After the second waiting time (for example, 2 seconds) elapses, the ignition operation input is allowed (S181).

Since the second waiting time (eg, 2 seconds) corresponds to the determination of the absence of the cooking vessel 300, the second waiting time (eg, 2 seconds) is set to be shorter than the first waiting time (eg, 3 seconds) corresponding to the determination of the presence of the cooking vessel 300. It is desirable to.

As can be seen from the above, according to the present invention, there is no need to use the conventional flame detection sensor, so that the gas ejected into the flame hole due to the flame misdetection when using the conventional flame detection sensor is extinguished during ignition combustion. I can eliminate it.

In particular, according to the present invention can be expected to reduce the number of parts of the gas range and improve the design of the burner body due to the use of the conventional flame detection sensor.

100: gas range ignition detection device 110: cooking vessel bottom temperature sensor
111: support pipe 112: thermal head
112a: thermistor 112b: coil spring
120: position sensor 121: magnet
122: reed switch 130: micro control unit (MCU)
200: gas range 210: top plate
220: burner 230: stand
240: ignition control unit 250: gas supply control valve
260: ignition device 300: cooking vessel

Claims (9)

A cooking vessel bottom temperature sensor sensing a bottom surface temperature of the cooking vessel in contact with the cooking vessel;
A position sensor which is turned on when the cooking vessel bottom temperature sensor is moved up and down to indicate the cooking vessel detection; And
After inputting the ignition operation of the gas fired control unit, judge the ignition or fire according to the presence or absence of cooking vessel and the change of the sensing temperature of the bottom temperature sensor. The microcontrol unit (MCU) for setting the waiting time to prevent the explosion ignition by the re-ignition operation according to the presence or absence of cooking vessel when the misfire determination;
Gas range ignition detection device, characterized in that comprising a. The gas range ignition according to claim 1, wherein the microcontrol unit (MCU) sets a second waiting time when the cooking container is shorter than the first waiting time when the cooking container is present when determining misfire. Detection device. According to claim 1, wherein the microcontrol unit (MCU) after the input of the ignition operation of the ignition control unit of the gas range after storing the current sensing temperature of the bottom temperature sensor of the cooking vessel as the initial temperature and the gas blowing to the burner of the gas range A gas stove ignition detection device, characterized in that for determining the current cooking vessel after opening the gas supply amount control valve for controlling the amount and operating the igniter (igniter) to discharge the flame. The method of claim 1, wherein the micro-control unit (MCU) operates the igniter (igniter) to discharge the flame after determining whether there is a cooking vessel present in the sensing temperature of the cooking vessel bottom temperature sensor within a predetermined time to determine whether there is a fire Is determined to be greater than or equal to a predetermined first comparison temperature than the initial temperature stored immediately after the ignition operation input, it is determined that the gas supplied to the burner of the gas range is ignited and combusted, and the gas ejection amount is adjusted in accordance with the fire power set by the ignition control unit. Gas range ignition detection device. The method of claim 1, wherein the micro-control unit (MCU) operates the igniter (igniter) to discharge the flame after determining whether there is a cooking vessel present in the sensing temperature of the cooking vessel bottom temperature sensor within a predetermined time to determine whether there is a fire Is determined to be lower than the first comparison temperature set immediately after the ignition operation input, it is determined that the gas supplied to the burner of the gas range is misfired, and closes the gas supply control valve and stops the spark discharge of the igniter. Gas range ignition detection device, characterized in that. The ignition operation input of claim 5, wherein the microcontrol unit (MCU) inputs an ignition operation after a first waiting time for preventing explosion ignition by re-ignition operation when it is determined that gas is misfired when it is determined that the current cooking vessel is present. Gas range ignition detection device, characterized in that to allow. According to claim 1, wherein the microcontrol unit (MCU) operates the igniter (igniter) after the discharge of the flame after determining the absence of the current cooking vessel when the detection temperature of the cooking vessel bottom temperature sensor within a predetermined time to determine whether Is determined to be more than a predetermined second comparison temperature than the initial temperature stored immediately after the ignition operation, it is determined that the gas supplied to the burner of the gas range is ignited and combusted, and adjusts the gas ejection amount according to the fire power set by the ignition control unit. Gas range ignition detection device. According to claim 1, wherein the microcontrol unit (MCU) operates the igniter (igniter) after the discharge of the flame after determining the absence of the current cooking vessel when the detection temperature of the cooking vessel bottom temperature sensor within a predetermined time to determine whether If it is determined that the gas stored in the burner of the gas range is misfired and discharged when the fuel is judged to be lower than the predetermined second comparison temperature immediately after the ignition operation input, the gas supply control valve is closed and the spark discharge of the igniter is stopped. Gas range ignition detection device, characterized in that. The ignition operation input of claim 8, wherein the microcontrol unit (MCU) inputs an ignition operation after a second waiting time for preventing explosion ignition by re-ignition operation when it is determined that the gas is misfired when it is determined that there is no cooking vessel. Gas range ignition detection device, characterized in that to allow.

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