JPS6149931A - Burning control circuit - Google Patents

Abstract

PURPOSE:To ensure a resetting even when the operation is suspended due to a misfire by inserting a non-lock switch, which, in a sequence control circuit of a heat exchanger, is interlocked with a power switch so as to be turned off only when the power switch is turned on or off, in series with afore-said switch and a low-temperature thermostat which are arranged parallelly. CONSTITUTION:A non-lock switch 5b, which is opened only at the moment when a lock switch 5a is turned on or off and maintains its ON condition thereater, is connected to a low-temperature thermostat 6 and a lock switch which are parallelly connected. By such a constitution, even if a sequence control circuit 9 suspends its operation due to a misfire for some reason while the low-temperature thermostat 6 stays on, the resetting operation can easily be done by operating the main switch 5 only to restart the sequence circuit 9.

Description

[Detailed Description of the Invention] [Technical Field of the Invention] This finding is that in order to prevent the heat exchanger from freezing when the outside temperature is low, combustion starts when the low temperature thermostat is activated even if the main switch is off. In the combustion control circuit of a fuel feeder configured to run, if the sequence stops due to a misfire for some reason, the sequence can be reset by turning on/off the sequence and easily restarting the sequence. This relates to a combustion control circuit.

[Prior art]

A conventional circuit of this type has a configuration shown in FIG. 1, for example. In this figure, 1 is a plug for an AC 100V power supply, 2 is a power transformer, and the secondary side is equipped with an intermediate tap. 3.4 is the rectifier quiode, 5 is the main switch,
6 is a low-temperature thermostat for freezing prevention, 7 is a smoothing capacitor, and 8 is a three-terminal regulator that supplies 9KDC power to the sequence control circuit. Reference numerals 10 and 11 are the respective power supply terminals and ground terminals of the sequence control circuit 9. 12 is a bar force, and 13 is a detection circuit.

Next, the operation of the conventional combustion control circuit shown in FIG. 1 will be explained.

First, when the main switch 5 is turned on, the secondary side of the power transformer 2 becomes a closed circuit, and the DC voltage generated by rectifying with the diode 3 or 4 and smoothing with the capacitor 7 is input to the three-terminal regulator 7-8. A constant DC voltage is generated on the output side. This constant DC voltage is applied from the power supply terminal 10 to the sequence control circuit 9. Then, the sequence control circuit 9 determines that the voltage of the power supply terminal 10 is "from L'v bell".
When it rises to H'bell, the reset is ignored and the operation is intercepted.

The sequence control circuit 9, which has started operating in this way, issues a combustion command to the burner 12 if the hot water temperature is below a certain set temperature, and the burner 12 starts combustion in response to the command. The flame detection circuit 13 determines whether or not combustion is occurring normally based on the state of the flame, and sends the result to the sequence control circuit 9. If the fire does not start from the beginning or if the fire goes out for some reason during combustion, the flame detection circuit 13 sends the signal to the sequence control circuit 9, and the sequence control circuit 9 receives the signal and immediately supplies fuel. and stop the sequence.

In this way, if the sequence stops due to a misfire, temporarily turn off the main switch 5, reduce the power to the sequence control circuit 9 to "L" vpel, and then
If you turn on the main switch 5 again and increase the power to 1H'' level, the voltage at the power terminal 10 will be ``L'' - ``H''.
Therefore, a reset is applied and the combustion sequence restarts from the beginning. Note that if the hot water temperature becomes equal to or higher than the set temperature, combustion will still stop, but since the sequence control circuit 9 is operating normally, when the temperature falls below the set temperature again, the combustion sequence will start again.

Further, a low temperature thermostat 6 is attached to the heat exchanger section and turns on when the temperature of the heat exchanger becomes low (and there is a risk of freezing). Since the low temperature thermostat 6 is connected in parallel with the main switch 5, even if the main switch 5 is turned off and the secondary side circuit of the power transformer 20 is opened, it will be the same as turning on the main switch 5 by turning on the low temperature thermostat 60. K. Close the secondary side circuit of power transformer 2 and turn on power terminal 10'ft'L'-f'H'.
The sequence control circuit 9 is operated to start combustion, thereby preventing the heat exchanger from freezing.

Here, the low temperature thermostat 6 is turned on while the main switch 5 is turned off, thereby causing the sequence: u
Consider a state in which the lJ control circuit 9 is operating and combustion is occurring. At this time, if a misfire were to occur for some reason, the sequence control circuit 9 would immediately stop the supply of fuel and stop the sequence operation in step 7. Since the combustion stops, the temperature of the heat exchanger section further decreases, and the low temperature thermostat 6 remains on. Low temperature thermostat 6
If the sequence stops due to a misfire when the switch is off, +i
il As described above, the sequence control circuit 9 can be restarted by resetting it by operating the main switch 5.

However, if the low temperature thermostat 6 is on and the sequence stops due to a misfire,
When operating the main switch 5, the power terminal 10 or “L”//
Since there is no reset, the sequence control circuit 9 cannot be restarted. That is, in order to restart the sequence control circuit 9, it is necessary to unplug the AC 100V power supply plug 1 from the outlet, turn off the AC 100V power supply, and then plug it in again to reset the sequence control circuit 9. Conventional circuits had drawbacks in operability.

[Summary of the invention]

This invention was made to eliminate the drawbacks of the conventional ones as described above, and even if the low-temperature thermostat misfires for some reason and stops the operation of the sequence control circuit while it is turned on, The present invention provides a combustion control circuit for a water heater having a configuration in which the operation of a sequence control circuit can be restarted by bypassing a reset by operating a main switch. This invention will be explained below.

[Embodiments of the invention]

FIG. 2 is a circuit diagram showing an embodiment of the present invention. 1st
The main switch 5' of the conventional combustion control circuit shown in the figure? :, 2
two interlocking switches, i.e. p-switch 5a
Then, the lock switch 5a is replaced with a non-lock switch 5b that is open only at the moment when it is turned on or off, and then remains on, and the low temperature thermostat 6 is connected in parallel to the p-switch 5a. There is.

Next, the operation will be explained. In the interlocking switch, the non-lock switch 5b is turned off only at the moment when the lock switch 5a is turned on or off, and when the lock switch 5a is in a steady state of being on or off, the non-lock switch 5b is turned on. Therefore, a description of the normal combustion sequence will be omitted since the circuit state is exactly the same as that of the conventional one, and only the case when the low temperature thermostat 6 for freezing prevention is turned on will be described.

When the main switch 5 is off, the temperature of the heat exchanger becomes low and the low temperature thermostat 6 turns on.
Suppose that the sequence control circuit 9 starts operating but misfires for some reason and the sequence control circuit 9 stops its operation. At this time, if the lock switch 5att is turned on, the non-lock switch 5b will be turned off when the lock switch 5a is switched from off to on, and this non-lock switch 5b will turn on the low temperature thermostat 6.
Since the low-temperature thermostat 6 remains on, the power supply terminal 10 falls to the -tan"L'v level. When the lock switch 5a becomes on, the non-lock switch 5b also turns on. After returning, the power supply terminal 10 becomes the "H'v" level again, so it is reset, and the sequence control circuit 9 restarts its operation.

As described above, in the combustion control circuit of the water heater according to the present invention, when the low temperature thermostat 6 is turned on,
Even if the sequence control circuit 9 or its operation is stopped due to a misfire for some reason, the sequence control circuit 9 can be easily reset by simply operating the main switch 5. have

FIG. 3 shows another embodiment of the present invention, in which an interlocked non-lock switch 5C and a resistor 14 are added to the two interlocked lock switch 5a and non-lock switch 5b in FIG. be. The non-lock switch 5C is non-lock like the non-lock switch 5b, but its on/off timing is completely opposite to that of the non-lock switch 5b. That is, when the lock switch 5a is turned on or off, the non-lock switch 5b is turned off, and the non-lock switch 5cf1 is turned off.
Turn on. When the lock switch 5a is turned on or off, the non-lock switch 5b
is turned on, and the non-lock switch 5c is turned off.

In the embodiment shown in FIG. 2, when the switch is operated quickly, the non-lock switch 5b remains off for only a short time, and during that time, the charge accumulated in the capacitor T cannot be fully discharged. , that is, the power terminal 10
Since the voltage did not drop to the "L" level, there was a possibility that the sequence control circuit 9 would not be able to be reset.

Therefore, with the configuration shown in FIG. 3, even if the lock switch 5a is operated quickly, the non-lock switch 5C turns on at the same time as the non-lock switch 5b turns off. ．． Since the battery is quickly discharged in a short period of time via the non-lock switch 5C, the voltage at the power supply terminal 10 sufficiently drops to "L"/pel, allowing the sequence control circuit 9 to be reset. Here, the resistor 14 has a sufficiently small resistance value to discharge the charge of the capacitor 7 in a very short time.

〔Effect of the invention〕

As explained in detail above, the present invention provides the sequence f
Ti! A non-locking switch that is interlocked with a switch that supplies power to the BI control circuit, turns off only when the switch is turned on or off, and remains on when the switch is turned on or off, is connected to the BI switch and the low-temperature switch. Since it is inserted in series with the thermostat, there is an advantage that even if the sequence circuit stops operating due to a misfire, it can be reliably reset simply by turning on the switch.

[Brief explanation of the drawing]

1 is a combustion control circuit diagram of a conventional water heater, FIG. 2 is a circuit diagram showing one embodiment of the present invention, and FIG. 3 is a circuit diagram showing another embodiment of the present invention. 1 is AC100V power plug, 2 is power transformer, 3.4 is diode,
5 is the main switch, 5a is the single switch, 5b, 5
c is a non-lock switch, 6 is a low temperature thermostat, 7
8 is a capacitor, 8 is a three-terminal gun controller, 9 is a signal control circuit, 10.11 is a power terminal, a ground terminal, 12 is a burner, 13 is a flame detection circuit, and 14 is a resistor. Note that the same reference numerals in the figures indicate the same or corresponding parts. Agent Masuo Oiwa (2 others) Figure 1 Figure 2 Figure 3

Claims (1)

[Claims] A switch that supplies power to the sequence control circuit, a sequence control circuit that is reset when the power is turned on and starts combustion operation, and a switch that is installed in the heat exchanger section in parallel with the switch, and when the temperature of the heat exchanger decreases. It is equipped with a low temperature thermostat that operates from off to on, and when the temperature is low enough to cause the heat exchanger to freeze, the low temperature thermostat turns on to supply power to the sequence control circuit, performs a combustion operation, and freezes the heat exchanger. In the combustion control circuit, a non-locking switch is connected to the low temperature thermostat and is linked to the switch and is turned off only when the switch is turned on or off, and is turned on when the switch is turned on or off. A combustion control circuit characterized by being inserted in series with a parallel body.