JP2579112C - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [0001]     [Industrial applications]   The present invention relates to a combustion device such as a gas stove. [0002]     [Prior art]   For example, in the case of a gas stove, the heating temperature of a cooked material to be heated is detected.
A control circuit including a temperature detection circuit and a combustion detection circuit that detects burner combustion / misfire
If the heating temperature detected by the temperature detection circuit becomes abnormally high,
If the burner detection circuit detects a burner misfire or a misfire,
The solenoid valve provided in the supply path is closed and the gas supply to the burner is shut off.
It is known to extinguish a fire extinguisher. [0003]   In this type of gas stove, a battery is used as a power supply for the control circuit. The use of batteries is also generally known.
The stove uses low-current solenoid valves with low power consumption.
The solenoid valve can be held open even with a small current, but the battery voltage is
If the voltage drops, the operation of the control circuit becomes unstable, and the solenoid valve closes, etc.
Battery voltage may be detected and monitored.
When the battery voltage drops to a predetermined value, the display lamp is turned on.
To let the user know that the battery needs to be replaced.
I have. In this case, the lighting of the display lamp is performed, for example, when the battery voltage is
It is performed when the voltage drops to a value near the limit value where operation becomes unstable.
You. [0004]   By the way, this type of gas stove is equipped with a sparker for ignition,
It is known that a parker uses a battery common to the control circuit as a power supply.
However, in such a gas stove, the battery voltage simply falls below a predetermined value as described above.
If the indicator lamp is turned on when it drops, the following inconveniences may occur.
Was. [0005]   That is, while the sparker is driven only during the ignition operation, it is generally turned off.
The power consumption is large, so the battery that supplies power to the sparker during ignition operation
Once the voltage drops significantly and the sparker stops driving, the battery voltage rises again
Ascend. [0006]   Therefore, the battery voltage turns on the indicator lamp only while driving the sparker.
When the sparker stops driving, the battery power is again reduced.
The pressure may increase to a value higher than the predetermined value. And in such a case
Therefore, even temporarily, the operation of the control circuit becomes unstable, and the driving of the solenoid valve is stopped.
It may not be possible to do so, so it is preferable to urge the user to replace the battery.
New [0007]   Specifically, for example, the ON / OFF operation of the ignition / extinguishing button causes the solenoid valve to oppose the spring.
It does not open the valve mechanically and keeps the valve open by energizing the solenoid.
When the ignition / extinguishing button is turned on, the sparker is activated and the battery voltage drops significantly
As a result, the operation of the control circuit becomes unstable, and the valve-holding current of the solenoid valve is reduced.
There is a risk that the flow to the solenoid may not be possible.
When the ignition operation of the ignition / extinguishing button is released according to the fire, the solenoid valve closes and the burner starts.
Extinguish fire. [0008]   Further, for example, in the case of electrically opening and holding the solenoid valve,
When the battery voltage is greatly reduced during the operation of the sparker, the operation of the control circuit
May become unstable, and the valve opening current of the solenoid valve may not be able to flow.
You. Also, in this case, even if a misfire occurs, the misfire detection by the control circuit is not performed.
It may not be possible to close the solenoid valve.
. [0009]   However, as in the conventional case, it is simply displayed when the battery voltage falls below a predetermined value.
In the case where the indicator lamp is turned on, the driving of the sparker is performed as described above.
Only when the battery voltage falls below the predetermined value, the indicator lamp is
Lights up, but the indicator lamp goes off after the sparker stops driving.
I will. For this reason, the user often overlooks the lighting of the indicator lamp, and the battery replacement
There is an inconvenience that the user cannot reliably recognize the necessity of replacement. [0010]     [Problems to be solved by the invention]   The present invention solves such inconvenience, and provides a control circuit using a battery as a power source and a spark spar.
In a combustion device such as a gas stove provided with a battery, the battery when the battery voltage drops
An object of the present invention is to provide a combustion device that can accurately and reliably perform the need for replacement.
And [0011]     [Means for Solving the Problems]   In order to achieve this object, the present invention controls the operation of the combustion unit using a battery as a power supply.
A control circuit, and a sparker that ignites the combustion unit using the battery as a power source,
During operation of the combustion device, including when driving the sparkerA battery for detecting the voltage of the battery
A battery voltage detection means, wherein the battery voltage detection means detects
Battery voltage falls below a predetermined value that is substantially equal to the operable limit value of the control circuit.
Notification means for notifying when the notification has been made, and notifying the notification by the notification means after the occurrence of the notification.
Notification continuation means for continuing irrespective of the value of the battery voltage of, The battery voltage detection
When the battery voltage detected by the informing means falls below the predetermined value,
The combustion operation is disabled and the combustion operation is performed regardless of the value of the battery voltage thereafter.
Means to prevent combustion from continuingIt is characterized by having. [0012] [0013]     [Action]   According to the present invention, the sparker is driven when the combustion unit is ignited, and
Once the voltage of the battery once drops below the predetermined value, the notification means
The user is notified by the
Even if the battery voltage rises to or above the predetermined value, it is continued by the notification continuation means. Obedience
Thus, once the battery voltage drops below the predetermined value, a continuous notification is given to the user.
This ensures that the user is aware of the need for battery replacement.
You. [0014]   further, SystemThe battery voltage is low up to the predetermined value substantially equal to the operable limit value of the control circuit.
When I drop it,SaidThe combustion operation of the combustion unit is disabled by the combustion prohibiting means,This fuel
The state in which the baking operation cannot be performed continues regardless of the value of the battery voltage thereafter.This
When the combustion device is operated at a battery voltage at which the operation of the control circuit becomes unstable,
It is prevented beforehand. [0015]     【Example】   An example of the present invention will be described with reference to FIGS. FIG. 1 shows a combustion apparatus according to this embodiment. FIG. 2 is a circuit configuration diagram of a main part of the combustion device of FIG. [0016]   1 and 2, the combustion device of the present embodiment is, for example, a gas stove,
A gas supply path 2 for supplying gas to a burner 1 serving as a baking section;
A gas amount adjusting valve 4 for adjusting the amount is provided. In this case, the solenoid valve 3
And the ignition operation of the ignition / extinguishing button 12 for performing the ignition / extinguishing operation of the burner 1.
To open mechanically against a spring (not shown) and to the solenoid 5
The open state is maintained by the energization of, and is closed by the interruption of the energization.
It has become. Further, the gas amount adjusting valve 4 is provided, for example, with an operating element 6 connected thereto.
The opening is adjusted by the operation. [0017]   Further, the gas stove of this embodiment is a control unit constituted by various electronic circuits described later.
The control unit 7 includes a solenoid 5 of the solenoid valve 3 and a
Temperature detection provided at the center of the burner 1 to detect the heating temperature of the cooked food
Detector 8 and a combustion detector provided near burner 1 to detect combustion / misfire of burner 1
9 and a sparker 1 for generating a spark discharge on an ignition electrode 10 provided near the burner 1.
1, a micro switch 18 that is opened and closed by operating the ignition / extinguishing button 12;
, Which is closed by the ON operation (ignition operation) of the ignition / extinguishing button 12
Switch 11a. [0018]   In this case, the control unit 7 uses the battery 13 (shown in FIG.
The control unit 7 is further activated via a switch 18.
LED run for notifying the user of the degree of consumption of the battery 13 (voltage state of the battery 13)
Is connected. [0019]   The sparker 11 is closed by turning on the ignition / extinguishing button 12.
It is driven by a battery 13 via a sparker switch 11a.
Then, the ON operation of the ignition / extinguishing button 12 after the ignition of the burner 1 is released.
As a result, the sparker switch 11a is opened, the sparker 11 becomes inactive, and the burner Useless operation of the sparker 11 during the ignition of 1 is stopped. Such a super sui
The opening and closing of the switch 11a is disclosed in, for example, Japanese Patent Publication No. 1-59498 by the present applicant.
As described above, it is controlled using the heart cam mechanism. The stop of the sparker 11 is, for example,
If the timer is started by turning on the ignition / extinguishing button 12,
It may be. [0020]   The temperature detector 8 has a built-in thermistor 15 (shown in FIG. 2) as a temperature sensor.
When a cooking pot or the like containing cooked food is placed on the burner 1,
At this time, and at this time, a signal corresponding to the heating temperature of the cooking pan or the like is sent to the thermistor 1.
5 to the control unit 7. [0021]   The combustion detector 9 includes a thermocouple 16 (shown in FIG. 2), which is a sensor for detecting combustion.
A signal corresponding to the calorific value of the burner 1 is provided from the thermocouple 16 to the control unit.
Output to bit 7. [0022]   Then, the control unit 7 operates in response to the ON operation of the ignition / extinguishing button 12.
It is started by the battery 13 via the micro switch 18,
Upon start-up, the solenoid 5 is energized to open the solenoid valve 3 so that the solenoid valve 3 is opened.
Supply to the public. At this time, the ignition / extinguishing
The sparker switch 11a which is closed by the ON operation (push operation) of the fire button 12 is
The sparker 11 is driven by the battery 13 via the
Thus, the burner 1 is ignited. [0023]   Although details will be described later, the control unit 7 controls the combustion / misfire of the burner 1 as described above.
The temperature detected by the output signal of the thermocouple 16 and the heating temperature of the food by the burner 1
Or the disconnection failure of the thermistor 15 is detected by the output signal of the thermistor 15,
When the misfire of the burner 1 is detected through the thermocouple 16 or through the thermistor 15
If the detected heating temperature of the food becomes higher than a predetermined reference temperature,
Alternatively, if the disconnection of the thermistor 15 is detected, the solenoid valve 3 is set to the solenoid 5 To drive the motor through the motor. [0024]   Further, the control unit 7 monitors the voltage of the battery 13, and the voltage is set to a predetermined reference value.
When the voltage drops to a voltage, the LED lamp 14 is driven, or the electromagnetic valve
3 is driven to close via a solenoid 5. [0025]   Next, a main circuit configuration of the control unit 7 will be described in detail with reference to FIG. [0026]   Referring to FIG. 2, the control unit 7 controls the opening and closing of the solenoid valve 3 as described above.
A control circuit 17 (details of which will be described later) is provided.
A power source that operates using the battery 13 as a power source and that can operate normally
If the voltage is fixed and the power supply voltage falls below the operable limit voltage,
Operation cannot be expected. Therefore, the battery 13 is depleted and its output voltage is reduced to some extent.
Then, the control circuit 17 does not operate normally and the opening / closing control of the solenoid valve 3 is normally performed.
There is a possibility that the operation cannot be performed. [0027]   Therefore, the control unit 7 sequentially monitors the voltage of the battery 13 during the operation of the gas stove.
If the voltage has dropped to some extent, the fact is used by the LED lamp 14.
The user is notified or the solenoid valve 3 is driven to close. [0028]   A configuration relating to such monitoring and control of the voltage of the battery 13 will be described below. [0029]   The battery 13 is turned on / off in conjunction with the ignition / extinguishing button 12 (see FIG. 1).
The micro switch 18 to be connected to the F is connected, and the P point
Battery voltage V_DIs supplied to the control circuit 17 as its power supply voltage.
ing. Note that the battery voltage V_DIs the spar through the sparker switch 11a.
The power is also supplied to the power 11. [0030]   Further, the battery voltage V_DAnd input a constant voltage The regulator 19 that generates the voltage is connected._R(
Hereinafter, the regulator voltage V_R) Is a comparator included in the control circuit 17.
(This will be described in detail later.)
I have. [0031]   On the other hand, the control unit 7 of the present embodiment_DThe predetermined judgment
Comparators 20 and 21 for comparing the voltage and the output of comparator 20
A blinking drive circuit 22 for blinking the LED lamp 14 and a comparator 21 output.
A lighting drive circuit 23 for lighting and driving the LED lamp 14 according to the force;
The battery voltage V is determined by the voltage of the capacitor 25 connected via the resistor 24._DIs detected,
The battery voltage V_DIs smaller than or equal to a predetermined value, a drive signal for closing the solenoid valve 3 (to be described later) (low level).
And a battery voltage monitoring circuit 26 for outputting a battery signal. [0032]   The comparators 20 and 21 constitute a battery voltage detecting means 27.
, Each of these comparators 20 and 21 has a battery voltage V_DIs connected to the point P
Input through the divided resistors 28 and 29 and the output of the regulator 19.
Through three divided resistors 30, 31, 32 connected to different levels.
The judgment voltage is input. In this embodiment, the battery voltage V in a new state of the battery 13 is_Dof
The rated value is, for example, 3 V, and the judgment voltage in the comparator 20 is, for example, 2.65.
V, and the judgment voltage in the comparator 21 is set to, for example, 1.9 V.
You. Note that the control circuit 17 determines that the comparator 21 has a determination voltage of about 1.9V.
Battery voltage V_DIt is assumed that normal operation can be performed until the value decreases. [0033]   Then, each of the comparators 20 and 21 determines its respective determination voltage and battery voltage V
_DAnd the battery voltage V_DOf the high / low binary level according to the magnitude of the judgment voltage of
Signals to the blinking drive circuit 22 and the lighting drive circuit 23, respectively.
ing. In this case, the blinking drive circuit 22 outputs the battery voltage V_DIs the judgment of the comparator 20
A signal indicating that the voltage has dropped to 2.65 V is output from the comparator 20.
When this is done, the LED lamp 14 is driven to blink. Also lit The drive circuit 23 constitutes the notification means 34 according to the present invention together with the LED lamp 14.
Battery voltage V_DIs low to the judgment voltage (1.9 V) of the comparator 21
When the comparator 21 outputs a signal indicating that the LED
The lamp 14 is driven for lighting. [0034]   In this case, the battery voltage V_DIs the judgment power of the comparator 21.
A signal indicating that the voltage has dropped to the voltage (1.9 V) is output from the comparator 21.
The latch circuit 35 that holds the output when the signal is output is connected. This latch circuit 3
5 is a notification for continuing the lighting of the LED lamp 14 by the lighting drive circuit 23.
It constitutes continuation means. [0035]   The output of the comparator 21 is a control circuit that outputs a closing drive signal of the solenoid valve 3.
The first timer circuit 17 (which will be described in detail later) is inputted. [0036]   The comparators 20 and 21, the blinking drive circuit 22, and the lighting drive circuit 23 are
Battery voltage V as in control circuit 17_DIs the power supply voltage, and the comparator 2
The battery voltage V is set to about 1.9 V, which is the judgment voltage of 1._DWorks normally until
It is possible to do. [0037]   The battery voltage monitoring circuit 26 detects the battery voltage V_DIs the power supply voltage.
In this case, the circuit 26 sets the voltage higher than 1.9 V, which is the judgment voltage of the comparator 21.
The battery voltage V is set to a lower voltage (about 1 V in this embodiment)._DNormal until
It is supposed to work. The battery voltage monitoring circuit 26 includes, for example, a battery
Voltage V_DIs reduced to 1.7 V or less, a drive signal for closing the solenoid valve 3 is transmitted to an electromagnetic valve (described later).
Output to the valve drive circuit. [0038]   Next, the configuration of the control circuit 17 will be described in detail. [0039]   In FIG. 2, the control circuit 17 uses the thermocouple 16 to generate heat of the burner 1. Thermocouple circuit 36 for generating a voltage signal corresponding to
First and second combustion detection circuits 37 and 38 for detecting the combustion / misfire of the burner 1;
A thermistor for generating a voltage signal corresponding to the heating temperature of the food by the thermistor;
The heating temperature of the food is detected based on the output signal of the star circuit 39 and the thermistor circuit 39.
Output first and second temperature detection circuits 40 and 41 and an output signal of the thermistor circuit 39
Disconnection detection circuit 42 for detecting disconnection of thermistor 15 by means of
37 and a signal from the first temperature detection circuit 40 for driving the solenoid valve 3 to open and close.
A first timer circuit 43 for outputting a signal and a signal from the disconnection detecting circuit 42
A second timer circuit 44 for outputting an open / close drive signal for the solenoid valve 3 and two switches
And an electromagnetic valve driving circuit 47 having transistors 45 and 46. [0040]   In this embodiment, the first timer circuit 43 and the solenoid valve driving circuit 47 are related to the present invention.
This constitutes the combustion inhibiting means 48. [0041]   The first and second combustion detection circuits 37 and 38 have the same configuration.
The detection circuits 37 and 38 output the output of the thermocouple circuit 36 according to the amount of heat generated by the burner 1.
A comparator 49 is provided for comparing the pressure with a reference voltage for determining combustion / misfire. So
Then, these detection circuits 37 and 38 are connected to the thermocouple circuit 36 by the comparator 49.
By comparing the output voltage of the burner 1 with the reference voltage for determining combustion and misfire, the burner 1
Detects whether it is in a burning state or a misfire state, and responds according to the detection of combustion or misfire.
A high-low binary level voltage signal is output from the parator 49. Less than,
At the time of explanation, a voltage signal of a level corresponding to the combustion state of the burner 1 is used as a combustion detection signal.
A voltage signal having a level corresponding to the misfire state of the burner 1 is referred to as a misfire detection signal. [0042]   The output of the first combustion detection circuit 37 is input to the first timer circuit 43,
The output of the combustion detection circuit 38 is input to the disconnection detection circuit 42. [0043]   The first and second temperature detection circuits 40 and 41 have the same basic configuration.
And the output voltage of the thermistor circuit 39 corresponding to the heating temperature of the food by the burner 1. A comparator 50 for comparing the pressure with a reference voltage corresponding to a reference temperature for determining overheating.
Have. These detection circuits 40 and 41 are controlled by a comparator 50.
By comparing the output voltage of the thermistor circuit 39 with a reference voltage for determining overheating,
Detecting the level of the heating temperature of the food with respect to the reference temperature, and responding to the level of the heating temperature.
The comparator 50 outputs a high-low binary level voltage signal.
In the following explanation, it corresponds to the case where the cooking temperature is higher than the reference temperature
Overheat detection signal, and responds when the temperature is lower than the reference temperature
The voltage signal at which the level is high is called a normal heating detection signal. [0044]   In this case, in the present embodiment, the reference temperature for determining overheating of the first temperature detection circuit 40 is different from the reference temperature.
And the second temperature detecting circuit 41 is set to a value different from the reference temperature for overheating determination.
In the first temperature detecting circuit 40, for example, 260 ° C.
In the temperature detection circuit 41, for example, 290 ° C. is set as a reference temperature. [0045]   The output of the first temperature detection circuit 40 is input to a first timer circuit 43,
The output of the detection circuit 41 is input to the base of the transistor 46 of the solenoid valve driving circuit 48.
Is forced. The overheating detection signal output from the second temperature detection circuit 41 and the normal heating
The heat detection signal is a low-level signal and a high-level signal, respectively.
As described later, they are used as a closing drive signal and an opening drive signal of the solenoid valve 3, respectively.
Things. Also, an overheating detection signal of the first temperature detection circuit 40 and a normal heating detection
The signal is input to the first timer circuit 43. [0046]   The disconnection detection circuit 42 includes a thermistor circuit according to the voltage between the terminals of the thermistor 15.
A comparator 51 for comparing the output voltage of the path 39 with a reference voltage for disconnection determination.
The output voltage of the thermistor circuit 39 is determined by the comparator 51 as a base for disconnection determination.
By comparing with the reference voltage, it is detected whether or not the thermistor 15 is disconnected,
In response to the detection of the disconnection / non-disconnection, the comparator 51 outputs a high / low binary level voltage signal.
No. is output. In this case, the comparator 51 indicates the second combustion
The output of the detection circuit 38 is also input. When the disconnection of the mister 15 is detected and when the second combustion detection circuit 38
Output a voltage signal of the same level as when
Is output. Hereinafter, disconnection of the thermistor 15
Alternatively, a voltage signal having a level corresponding to the misfire of the burner 1 is referred to as a disconnection / misfire detection signal.
. [0047]   The output of the disconnection detection circuit 42 is input to the second timer circuit 44.
In this case, as described above, the output of the second combustion detection circuit 38 is input to the disconnection detection circuit 42.
The disconnection detection circuit 42 and the second combustion detection circuit 38 respectively detect disconnection
Even if the signal and the misfire detection signal are output simultaneously, they are input to the second timer circuit 44.
Each signal does not cancel. [0048]   The first timer circuit 43 outputs a misfire detection signal from the first combustion detection circuit 37.
Or an overheat detection signal is output from the first temperature detection circuit 40,
Alternatively, the battery voltage V is supplied from the battery voltage monitoring comparator 21._DIs the judgment voltage (1
. 9V) when a signal indicating that the voltage has dropped to
A time constant circuit 53 having a capacitor 52 for charging and discharging,
And a comparator 54 for comparing the voltage with a reference voltage for determining output timing.
You. The time constant of the time constant circuit 53 is determined by the misfire detection signal from the first combustion detection circuit 37 or
Is an overheating detection signal from the first temperature detection circuit 40 or a comparator
Battery voltage V from 21_DFor a predetermined period of time indicating that the voltage has dropped to 1.9 V
(7 seconds in this embodiment, hereinafter referred to as timer time)
The voltage of the capacitor 52 is set to a predetermined value. [0049]   The comparator 54 that generates the output of the first timer circuit 43 outputs the
Detection signal or overheat detection signal or battery voltage V_DDrops to 1.9V
This signal is output when a signal indicating that the
The voltage is detected by the voltage of the capacitor 52, and the closing drive signal of the solenoid valve 3 is generated in response to the detection.
And at other times, an open drive signal for the solenoid valve 3 is output. You. In this case, the output of the comparator 54 is a high-low binary signal,
The close drive signal of No. 3 is at a high level, and the open drive signal is at a low level. [0050]   The basic configuration of the second timer circuit 44 is the same as that of the first timer circuit 43.
, A time constant circuit 56 having a capacitor 55 and a comparator 57.
Then, similarly to the first timer circuit 43, the second timer circuit 44 performs the disconnection detection circuit.
A predetermined time in which a disconnection / misfire detection signal is determined by the time constant of the time constant circuit 56 from the path 42
(In this embodiment, for example, 10 seconds, hereinafter referred to as timer time)
The comparator 57 outputs a drive signal for closing the solenoid valve 3 from the comparator 57.
The drive signal for opening the solenoid valve 3 is output. In this case, the comparator
The switch 57 closes the solenoid valve 3, as opposed to the comparator 54 of the first timer circuit 43.
The polarity is set such that the motion signal is at a low level and the open drive signal is at a high level. [0051]   The solenoid valve drive circuit 47 provides the solenoid 5 of the solenoid valve 3 with the switching transformer.
The transistors 45 and 46 are connected in series.
When the user is in the conductive state (ON state), the solenoid 5 is energized from the battery 13
, The mechanically opened solenoid valve 3 is kept open, and the transistors 45, 4
6 is energized to the solenoid 5 when one of them is cut off (OFF state)
And the solenoid valve 3 is driven to close. [0052]   In this case, the transistor 45 is of a PNP type, and the first timer circuit
The output of 43 is connected to the timer circuit 43 as a base input. This
The transistor 45 is a drive signal for opening the solenoid valve 3 from the first timer circuit 43.
When a low-level signal is output, the state becomes conductive, and is a drive signal for closing the solenoid valve 3.
When a high-level signal is output, a cutoff state is set. [0053]   On the other hand, the transistor 46 is of the NPN type, and the second timer circuit 44
, The output of the second temperature detection circuit 41, and the output of the battery voltage monitoring circuit 26.
Forces are connected to these circuits 44, 41, 26 as base inputs. this Accordingly, the transistor 46 includes the second timer circuit 44, the second temperature detection circuit 41,
And a high level which is an open drive signal of the solenoid valve 3 from one of the battery voltage monitoring circuits 26.
Becomes conductive when the signal is output, and the low level which is the drive signal for closing the solenoid valve 3 is output.
Is shut off when the signal is output. [0054]   In the present embodiment, the second timer circuit 44, the second temperature detection circuit 41,
These outputs are provided between the output point of the battery voltage monitoring circuit 26 and the base of the transistor 46.
The outputs of the circuits 44, 41 and 26 have a slight time delay with respect to the base of the transistor 46.
A delay circuit 58 for applying the voltage is provided. This delay circuit 58
The second timer circuit 44 includes a resistor 59 and a capacitor 60.
The output of the second temperature detection circuit 41 and the output of the battery voltage monitoring circuit 26 via the resistor 59
The capacitor 60 is charged and discharged, and the voltage of the capacitor 60 is
It is applied to the base. Thereby, the second timer circuit 44, the second temperature
The outputs of the detection circuit 41 and the battery voltage monitoring circuit 26 are equal to the resistance value of the resistor 59 and the capacitor.
With the delay of the time constant determined by the capacitance of the
Applied. Therefore, for example, the conduction state of the transistor 46 (base input is high level)
State), the second timer circuit 44, the second temperature detection circuit 41, and the battery voltage
One of the outputs of the monitoring circuit 26 momentarily changes from a high level to a low level due to noise or the like.
In such a case, the momentary low level signal is
Is not applied to the transistor 46, and the conduction state of the transistor 46 is maintained.
. [0055]   In this embodiment, the second timer circuit 44 and the second temperature detection circuit by the delay circuit 58 are used.
The delay time of the output of the circuit 41 and the battery voltage monitoring circuit 26 is set to a sufficiently short value of about several milliseconds.
Is set. [0056]   In this embodiment, the determination voltage of the battery voltage monitoring circuit 26 is 1.
Battery voltage V up to a voltage lower than 7 V (about 1.5 V in this embodiment)_DDecreases
The transistor shutoff circuit 61 for shutting off the transistor 46 It is provided at the input to the base of the transistor 46. This transistor blocking
The disconnection circuit 61 is connected to the base of the transistor 46 via the delay circuit 58.
The battery voltage V is determined by the pair of divided resistors_DThe voltage
The voltage is applied to the base of the star 46 via the delay circuit 58, and the battery
Voltage V_DIs lowered to about 1.5 V, the transistor 46 is turned off.
, So that a voltage such as this is applied to the base of the transistor 46.
63 resistance values are set. [0057]   Next, the operation of the gas stove according to the present embodiment will be described. [0058]   In the gas stove of the present embodiment, when the ignition / extinguishing button 12 is turned on,
The microswitch 18 is turned on in conjunction with this, thereby controlling the control unit.
In each circuit of the unit 7, the battery voltage V_DIs supplied to start each circuit. [0059]   At this time, the electromagnetic valve 3 springs (shown in the figure) in interlock with the ON operation of the ignition / extinguishing button 12.
At the same time as the mechanical opening of the timer circuit 43, 44
First, an open drive signal for the solenoid valve 3 is output, and the solenoid valve drive circuit 47
The transistors 45 and 46 are turned on, and the battery 1 is connected to the solenoid 5 of the solenoid valve 3.
3, the solenoid valve 3 is kept open. And opening of the solenoid valve 3
The gas supply to the burner 1 is started by the movement. In parallel with this,
Thus, the operation of the ignition / extinguishing button 12 causes the sparker 11 to
Battery voltage V via switch a_DThe ignition electrode 10 is driven by
Ignition sparks occur. [0060]   At this time, each of the combustion detection circuits 37 and 38 controls the time until the burner 1 is ignited.
In the initial stage of ignition of the fire detector 1, since the electromotive force of the thermocouple 16 is small, the misfire detection signal
And the misfire detection signal of the first combustion detection circuit 37 is input to the first timer circuit 43.
The misfire detection signal of the second combustion detection circuit 38 is sent to the second timer via the disconnection detection circuit 42.
It is input to the imma circuit 44. [0061]   Then, the first timer circuit 43 receives the misfire detection signal of the first combustion detection circuit 37 in accordance with the timer.
When the timer time (7 seconds) of the imma circuit 43 is continuously output, that is,
If the electromotive force of the thermocouple 16 does not exceed a predetermined value within the timer time, the power is turned on.
The closing drive signal (high-level signal) of the magnetic valve 3 is transferred to the transistor 4 of the solenoid valve driving circuit 47.
5 and the transistor 45 is turned off. This allows electromagnetic
The energization of the solenoid 5 of the valve 3 is cut off, and the solenoid valve 3 is driven to close.
Is shut off. [0062]   Similarly, the second timer circuit 44 controls the timer time (10
If the electromotive force of the thermocouple 16 does not exceed the predetermined value within the second), the solenoid valve 3
The closing drive signal (low-level signal) is applied to the base of the transistor 46 of the solenoid valve drive circuit 47.
And the transistor 46 is turned off to drive the solenoid valve 3 to close. still
At this time, the output of the timer circuit 44 is supplied to the transistor 46 via the delay circuit 58.
Is applied to the source, there is a slight time delay, but the delay time is
Since it is several milliseconds, which is sufficiently shorter than the timer time (10 seconds) of the road 44, almost
When the timer time elapses, a closing drive signal is applied to the base of the transistor 46. [0063]   In this case, the timer time (7 seconds) of the first timer circuit 43 is
Is usually shorter than the timer time (10 seconds) of the first timer circuit 43.
The solenoid valve 3 is driven to close in accordance with the time, and, for example, the first timer
1 When the output of the timer circuit 43 is maintained at the level of the open drive signal of the solenoid valve 3,
The solenoid valve 3 is driven to close according to the timer time of the second timer circuit 44. [0064]   In the operation at the time of ignition, the timer time of the first timer circuit 43 or
Within the timer time of the second timer circuit 44, the burner 1 is ignited and the electromotive force of the thermocouple 16 is generated.
Is greater than or equal to a predetermined value, this is the first combustion detection circuit 37 or the second combustion
The detection is detected by the detection circuit 38, and a combustion detection signal is output from these circuits 37 and 38.
Is forced. In this case, the first timer circuit 43 and the second timer circuit 44 Basically outputs the drive signal for opening the solenoid valve 3 continuously. [0065]   In the operation described above, after the burner 1 starts burning, the burner 1
The same goes for misfires. [0066]   On the other hand, when the food is heated by burning the burner 1, the heating temperature is
Detected by the first and second temperature detection circuits 40 and 41 via the thermistor circuit 39.
It is. Then, the first temperature detection circuit 40 detects that the detected heating temperature is
If the temperature exceeds 260 ° C, which is the reference temperature for heating determination, a low level of overheating
The detection signal is output to the first timer circuit 43. At this time, the first timer circuit 43
The overheating detection signal is continuously output from the first temperature detection circuit 40 for the timer time (7 seconds).
When the force is applied, a closing drive signal for the solenoid valve 3 is output to the transistor 45. to this
As a result, the transistor 45 is shut off, the solenoid valve 3 is driven to close, and the burner 1
Is stopped, and overheating is prevented. At this time, the heating temperature is set to
The temperature temporarily exceeds the reference temperature due to fluctuations in the burning flame, etc., and the first temperature detection circuit 40
Overheat detection signal may be output for a short time (<7 seconds).
The continuous output time of the overheating detection signal is the timer time of the first timer circuit 43.
, The timer circuit 43 does not output a closing drive signal, and therefore the solenoid valve 3
Are kept open. [0067]   Further, the second temperature detecting circuit 41 detects that the detected heating temperature is the first temperature detecting circuit.
If the temperature becomes 290 ° C or higher, which is higher than the reference temperature for judging overheating of No. 40,
The bell overheating detection signal is sent to the base side of the transistor 46 without passing through the timer circuit.
Output. The low-level overheating detection signal is transmitted through the delay circuit 58.
Applied to the base of transistor 46. In this case, the overheating detection signal is
Since the voltage is applied to the base of the transistor 46 via the delay circuit 58,
With a slight delay from the output of the detection signal,
However, the delay is about several milliseconds. Therefore, for example, the first timer circuit
Within the timer time of 43 (7 seconds), the heating temperature becomes the reference temperature of the first temperature detection circuit 40. If the temperature suddenly exceeds 290 ° C from a certain 260 ° C, the transient
A low level signal is applied to the base of the
Is shut off, and the solenoid valve 3 is driven to close. At this time, the noise
(2) The overheating detection signal may be output sporadically from the temperature detection circuit 41.
A single overheating detection signal such as that shown in FIG.
Is not applied to the base of the solenoid valve 46, so that the solenoid valve 3 is not driven to close.
Absent. [0068]   When the gas stove is operated as described above, the thermistor 15
Is disconnected by the disconnection detection circuit 42,
The disconnection detection circuit 42 outputs a disconnection detection signal to the second timer circuit 44. And
The second timer circuit 44 continuously outputs the disconnection detection signal for the timer time (10 seconds).
When output, a closing drive signal for the solenoid valve 3 is output to the base of the transistor 46.
. As a result, the transistor 46 is turned off, and the solenoid valve 3 is driven to close.
. [0069]   Next, the battery voltage V_DThe operation related to the monitoring of will be described. [0070]   During the operation of the gas stove as described above, the battery 13 is exhausted and its battery power is reduced.
Pressure V_DIs reduced to 2.65 V, which is the judgment voltage of the comparator 20.
Is detected by the comparator 20, and the comparator 20
Is output to the blinking drive circuit 22. At this time, the blinking drive circuit 22
The LED lamp 14 is driven to blink so that the user will soon replace the battery 13.
Recognize that the need arises. The sparker 11 using the battery 13 as a power supply
Since the burner 1 is ignited, the battery power is supplied during the ignition operation for the ignition.
Pressure V_DIs lower than the judgment voltage of the comparator 20 due to the power supply to the sparker 11.
However, the ignition operation is reduced to such a voltage that the operation of the above-mentioned various circuits may become unstable.
When the sparker 11 becomes inoperative after the operation, the battery voltage V_DRises above the judgment voltage
May be. In such a case, the LE is set only when the sparker 11 is operated. While the D lamp 14 flashes, the LED lamp 14 turns off again after the ignition operation, and
The user often overlooks the blinking of the LED lamp 14. Therefore, in this embodiment,
Sets the judgment voltage (2.65 V) of the comparator 20 relatively high,
For this purpose, the LED lamp 14 is made to blink. [0071]   When the LED lamp 14 blinks, the battery voltage V_DIs still before
Since the voltage is such that the control circuit 17 and the like can operate normally, the user continues to some extent.
Then you can use a gas stove. [0072]   Also, the battery voltage V_DIs as low as 1.9V which is the judgment voltage of the comparator 21.
In the case of a drop, this is detected by the comparator 21 and the comparator 21
Reference numeral 21 outputs a signal indicating this to the lighting drive circuit 23. At this time, the lighting drive
The circuit 23 drives the LED lamp 14 to light up, thereby providing the user with the battery 13.
Remind them that they need to be replaced. [0073]   In this case, in this embodiment, the comparator 21 determines the battery voltage V_DOnce 1.9V
When the output voltage drops to the lower level, the output is held by the latch circuit 35.
Therefore, when the ignition operation is performed, the power supply to the sparker 11 causes the battery voltage V_D
Is below the judgment voltage (1.9 V) of the comparator 21, and the operation of the above-mentioned various circuits is
The voltage drops to a value that may cause instability, and after the ignition operation, the battery voltage V_D
Is higher than the determination voltage, the battery voltage V_DHas dropped to 1.9V
Continues to be output from the comparator 21, and therefore, the LED lamp 14
Lights continuously. Thereby, the battery voltage V_DThe above-mentioned various circuits
If the voltage drops to a value that may cause unstable operation of the
It can be made sure that the pond 13 needs to be replaced. [0074]   Incidentally, the latch circuit 35 is formed of a transistor similarly to a well-known circuit.
This is a circuit having a buffer to be used. Such a latch circuit is provided on the comparator 20 side.
Can also be provided. [0075]   At this time, the battery voltage V_DComparator indicating that the voltage has dropped to 1.9V
The output of 21 is also input to the first timer circuit 43. At this time, the comparator 21
Since the output is maintained by the latch circuit 35, the first timer circuit 43
When the timer time (7 seconds) elapses from the output time of the motor 21, the closing drive signal of the solenoid valve 3 is output.
It outputs to the transistor 45 of the solenoid valve drive circuit 47. This allows the transistor
45 is shut off, the solenoid valve 3 is driven to close, and the combustion operation of the burner 1 is prohibited.
It is. [0076]   By the way, the operation of the sparker 11 as described above causes the battery voltage V_DBut temporary
In any case, the level at which the operations of the comparators 20 and 21 become unstable (for example, 1
. 8V), the comparator 21 and the first timer circuit 43
The solenoid valve 3 is not operated by the comparator 21 or the first timer circuit 43.
May not be driven to close.   However, in this embodiment, the battery voltage V of about 1 V_DCan work normally until
The battery voltage monitoring circuit 26 is provided.
Battery voltage V_DWhen the voltage drops below 1.7V, the closing drive signal (low level signal) is triggered.
The signal is output to the base of the transistor 46 via the delay circuit 58. As a result, the tiger
The transistor 46 is shut off, and the solenoid valve 3 is driven to close. [0077]   Further, in the present embodiment, in the case where the battery voltage monitoring circuit 26
Also the battery voltage V_DWhen the voltage drops to about 1.5 V, the transistor is turned off.
The circuit 61 allows the solenoid valve 3 to be driven to close. That is, the battery voltage V_DBut
When the voltage drops to about 1.5 V, the dividing resistance 63 of the transistor cutoff circuit 61
A low level voltage is applied to the base of the transistor 46 from the
The transistor 46 is turned off, and the solenoid valve 3 is driven to close. And at this time,
Since the LED lamp 14 is turned on, the user can check the battery voltage V_DFell
Therefore, it can be recognized that the operation of the gas burner has stopped. [0078]   Thus, in the gas stove of the present embodiment, the battery voltage V_DUse the drop in
The battery voltage V_DPower supply as the
The magnetic valve 3 can be driven to close. [0079]   In the above-described embodiment, the gas stove has been described.
Of course, the present invention can be applied to a combustion device such as an incubator.
You. [0080]   Further, in the present embodiment, the battery voltage V_DAs a notification means for notifying
Using the LED lamp 14, this is_DFlashes / dots depending on the degree of
The flashing and the lighting order may be reversed, or
Pond voltage V_DThe emission color of the LED lamp 14 in accordance with the degree of the
For example, the color may be changed from yellow to red.)
The battery voltage V_DChange the tone according to the degree of
You may make it. [0081]   In this embodiment, the latch circuit 35 is provided only on the comparator 21 side.
A latch circuit is also provided on the comparator 20 side, and the battery voltage V_DDecreased below the specified value
In this case, the blinking of the LED lamp 14 may be continued.
The determination level of the parator 20 may be set lower than in the present embodiment. [0082]     【The invention's effect】   As is apparent from the above description, according to the present invention, the battery voltage is detected by the battery voltage detecting means.
The known battery voltage drops below a predetermined value which is approximately equal to the limit value at which the control circuit can operate.
Notification to that effect by the notification means, and the notification by the notification continuation means.
, Irrespective of the value of the battery voltage after the generation of the notification,
The battery voltage once drops below the predetermined value due to the operation of the sparker,
Later, when the battery voltage rises again to the predetermined value or more, the notification by the notification unit is performed.
Information can be continuously provided, and the need for battery replacement when the battery voltage drops is targeted. It can be performed reliably and reliably. [0083]   Then, when the battery voltage drops to the predetermined value, the combustion operation of the combustion unit is disabled.
And the combustion operation cannot be performed regardless of the battery voltage value thereafter.
As a result, the operation of the control circuit becomes unstable due to a decrease in the battery voltage.
Such a situation can be prevented beforehand.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an explanatory system configuration diagram of an example of a combustion device of the present invention. FIG. 2 is a circuit configuration diagram of a main part of the combustion device of FIG. 1; [Description of Signs] 1 ... burner (combustion section), 13 ... battery, 17 ... control circuit, 20, 21 ... comparator (battery voltage detection means), 34 ... notification means, 48 ... combustion inhibition means.

Claims (1)

Claims: 1. A control circuit for controlling operation of a combustion unit using a battery as a power supply, a sparker for igniting the combustion unit using the battery as a power supply, and the combustion device including when the sparker is driven.
A battery voltage detecting means for detecting a voltage of the battery during the operation of the battery , wherein a battery voltage detected by the battery voltage detecting means is equal to or less than a predetermined value substantially equal to a limit value at which the control circuit can operate. Notification means for notifying when the
A notification continuation means for continuing the notification by the notification means irrespective of the value of the battery voltage after the generation of the notification; and a battery voltage detected by the battery voltage detection means.
When the temperature falls below a predetermined value, the combustion operation of the combustion section is disabled, and
A combustion prohibition means for continuing the combustion operation disabled state irrespective of the value of the battery voltage after
Combustion apparatus characterized by comprising a stage.