JP3266738B2 - Combustion control method and apparatus for intermittent combustion of combustion equipment with CO detection sensor - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a combustion control method and apparatus for intermittent combustion in which combustion and stoppage of combustion in a combustion device with a CO detection sensor are repeated in a short time.

[0002]

2. Description of the Related Art FIG. 5 shows a system configuration of a general water heater as a combustion device. In the figure, a water supply pipe 3 is connected to the inlet side of the heat exchanger 2. The water supply pipe 3 has an input water thermistor 10 for detecting the input water temperature, and a flow sensor 9 for flow detection means for detecting the amount of input water. Are provided. A hot water supply pipe 4 is connected to the outlet side of the heat exchanger 2,
A hot water tap 1 is provided at an outlet side of the hot water supply pipe 4.
Further, the hot water supply pipe 4 is provided with a water flow control valve 16 as a flow control means whose valve opening is controlled by a gear motor, and a tapping thermistor 11 for detecting tapping temperature.

A burner 7 serving as combustion heating means, an igniter electrode 18 for igniting the burner 7,
A flame rod electrode 19 for detecting ignition and a combustion fan 5 for supplying / exhausting gas are provided. A gas nozzle 6 is disposed opposite to a gas inlet of a burner 7, and a gas pipe 8 connected to the gas nozzle 6 is provided with a gas. A gas proportional valve 13 that controls the supply amount by the valve opening amount, and a gas solenoid valve 12 that opens and closes a pipe line
And are interposed.

A water heater of this type is provided with a control device 14. A remote control 15 is connected to the control device 14, and a button for instructing a hot water supply operation, a button for setting a hot water supply temperature, A display unit for displaying a set hot water supply temperature is provided. In addition, on the top wall of the exhaust gas, C
A CO sensor (carbon monoxide gas sensor) 20 is provided as a CO detection sensor for detecting the O concentration (carbon monoxide gas concentration), and a CO detection signal of the CO sensor 20 is applied to the control device 14.

The control device 14 includes a circuit for controlling the hot water supply combustion operation and a circuit for performing the CO safety operation. The control circuit for the hot water supply combustion operation controls the hot water supply operation of the water heater as follows. When the hot water tap 1 is opened, the flow sensor 9 detects the amount of incoming water, and receives a signal from the flow sensor 9 when the amount of incoming water becomes a certain value or more (minimum operating flow or more).
The control device 14 rotates the combustion fan 5. Then, when the rotation of the combustion fan 5 enters a predetermined rotation region, the gas solenoid valve 12 and the gas proportional valve 13 are opened to supply gas to the burner 7, and the igniter electrode 18 performs an ignition operation. When the flame rod electrode 19 detects the ignition of the gas, the control device 14 performs feedforward control so that the outlet temperature becomes the set temperature, changes the valve opening amount of the gas proportional valve 13, and controls the temperature of the outlet water from the heat exchanger 2. After the hot water temperature is stabilized, the combustion control is performed by the combined control of the feedforward control and the feedback control.

In controlling the combustion, the control device 14 is provided with a normal mode and an improved mode combustion control method. In the normal mode, when the CO detection value obtained from the CO sensor 20 falls below a predetermined reference value, gas supply is performed by controlling the opening of the gas proportional valve 13 in accordance with the required amount of heat required to raise the incoming water temperature to the set temperature. The amount is controlled, and the rotation of the combustion fan 5 is controlled so as to obtain an air amount corresponding to the gas amount. On the other hand, in the improvement mode, when the CO detection concentration detected by the CO sensor 20 exceeds the reference value, the rotational speed of the combustion fan 5 is increased by a predetermined amount in order to improve the combustion in the incomplete combustion state in the complete combustion direction. To increase the amount of combustion air and reduce the amount of CO
The combustion control is performed in the direction of decreasing the gas concentration.
As another operation of the improvement mode, there is a control method for reducing the opening amount of the gas proportional valve 13 and reducing the gas supply amount to the burner 7 to reduce the CO generation concentration.

[0007] The circuit for the CO safety operation of the control device 14 is as follows.
When the concentration of CO detected by the CO sensor 20 reaches a predetermined dangerous concentration, combustion is stopped, or the CO concentration of the CO sensor 20 is changed every predetermined sampling time.
The detection signal is sampled, and C
The CO safety operation is performed in various signal processing modes such as integrating the O detection values and stopping the combustion when the integrated value reaches a predetermined danger determination set value.

FIG. 6 is a flowchart showing a specific example of the operation of the conventional water heater. When the operation switch of the appliance is turned on, in step 101, a stop flag for judging combustion stop is cleared to zero. The fan-up flag for judging the rotation of the combustion fan 5 is cleared to zero. Note that when the stop flag is zero, it indicates a command not to stop combustion, and when the flag is set to 1, it indicates a command to stop combustion. When the fan-up flag is zero, it means an operation command for not performing the fan rotation up, and when the fan-up flag is 1, it means the fan rotation up command.

In step 102, it is determined whether or not flowing water is detected by the flow sensor 9. When running water is not detected, hot water supply combustion is stopped (hot water tap 1 is closed).
Then, both the stop flag and the fan-up flag are set to zero to prepare for the next hot water supply combustion. When it is determined in step 102 that the running water is ON, it is determined in next step 103 whether or not 1 is set in the stop flag. When 1 is set in the stop flag, it is the combustion stop command state, so that the ignition operation is not performed and the stop state of the combustion operation is maintained. On the other hand, when 1 is not set in the stop flag, that is, when the stop flag is zero, the operation proceeds to the next step 104.

At step 104, the fan-up flag is set to 1
It is determined whether or not is standing. When the fan-up flag is set to 1, the improvement mode in step 105 is selected, and when the fan-up flag is not set to 1, the normal mode is selected. In the first operation in which the operation switch is turned on, since both the stop flag and the fan-up flag are cleared to zero in step 101,
In step 106, the normal mode is selected, and in step 107, the combustion operation in the normal mode is performed.

In step 108, the CO detection value of the CO sensor 20 is equal to or higher than the dangerous concentration of 3000 ppm or 1500 ppm.
m or within the range of 1500ppm and 3000ppm. The reference value at the boundary between normal mode and improvement mode is
It is set to 1500ppm and the CO detection value is 1500pp
m or less, the combustion operation is continued in the normal mode, and when the detected CO value is between 1500 ppm and 3000 ppm, the detected CO concentration exceeds the reference value of 1500 ppm. Is set to 1, the combustion mode is shifted from the normal mode to the improvement mode, and the combustion operation is performed. When the detected CO concentration is 3000 ppm or more, which is the dangerous concentration, the stop flag 1 is set in step 110, and the combustion is immediately stopped in step 111 to ensure the safety of CO.

[0012]

FIG. 4 shows the open / closed (on / off) operation state of the hot water tap 1 of the conventional water heater, the combustion operation state of the water heater, and the CO detected by the CO sensor 20. It is a time chart showing the relationship between the detection values (CO values). In the conventional apparatus, as is apparent from the operation of step 112 in FIG. 6, when the hot water supply combustion operation is stopped (when it is determined in step 102 that running water is turned off), both the stop flag and the fan-up flag are set to zero. Therefore, regardless of whether the combustion operation mode before the combustion stop was performed in the normal mode or the improvement mode, the combustion operation is always started in the normal mode at the next combustion. The Rukoto.

Therefore, for example, as shown in FIG.
In the case of performing intermittent combustion, in which the hot water tap 1 is repeatedly opened and closed in a short time, the intermittent combustion is often used for washing dishes in a kitchen or the like, or for washing hair in a washroom. When using such intermittent combustion, for example, when the ventilation fan is turned on when the water heater is installed indoors, or when the water heater is installed outdoors and a back wind blows on the exhaust side, etc. In this case, the amount of air (air amount) supplied from the combustion fan 5 to the burner 7 tends to be insufficient, and the CO detection value may reach the reference value.

In this case, as a result of switching from the normal mode to the improvement mode and performing the combustion operation, hot-water combustion is performed without any particular problem. Next, the hot-water tap 1 is closed and the hot-water tap is re-opened within a short time. In the case where the hot water is re-opened by opening 1, the ventilation fan is continuously turned on,
Or, it is assumed that the headwind is blowing continuously, and if the combustion operation is started in the improvement mode,
Since there is no shortage of the amount of air blown by the combustion fan 5, the CO concentration in the exhaust gas does not increase. However, as described above, hot water supply combustion always starts in the normal mode at the time of re-water supply. Since the combustion is started in an incomplete combustion state from the beginning, the CO concentration in the exhaust gas may increase and exceed the dangerous concentration. In this case, CO
There was a problem that the combustion was stopped immediately after the operation of the safety circuit and the water heater could not be used continuously.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned conventional problems, and an object thereof is to stop the combustion during intermittent combustion such as hot water supply, even though the combustion operation is performed in the improvement mode. Later, when restarting the combustion operation within a short time, it is possible to eliminate the problem caused by the increase in the CO concentration by performing the combustion operation in the normal mode from the beginning and perform the intermittent combustion operation in a good combustion state. An object of the present invention is to provide a method and an apparatus for controlling combustion during intermittent combustion of a combustion device with a CO detection sensor.

[0016]

The present invention is configured as follows to achieve the above object. That is, according to the method of the present invention, a CO detection sensor for detecting the CO concentration in the exhaust gas is provided on the exhaust side of the combustion equipment, and when the CO detection concentration exceeds a preset reference value, combustion is performed in the complete combustion direction. In the combustion control method of performing combustion in the improvement mode for performing improvement and performing combustion in the normal mode when the detected CO concentration is lower than the reference value, after the combustion is stopped, the combustion control before the combustion is stopped is performed in the improvement mode. To determine whether or not, while measuring the time elapsed since the combustion was stopped,
When the combustion control before stopping the combustion is performed in the improvement mode, and the reburn operation is performed before the elapse of the predetermined standby time, the combustion operation is started in the improvement mode, and the combustion is performed after the elapse of the standby time. When the operation is performed, the combustion operation is started in the normal mode.

Further, the device of the present invention is provided with a CO detection sensor for detecting the CO concentration in the exhaust gas on the exhaust side of the combustion equipment, and when the CO detection concentration exceeds a predetermined reference value, the CO detection sensor moves in the complete combustion direction. In a combustion control device which performs combustion in an improvement mode for improving combustion and performs combustion in a normal mode when the detected CO concentration is lower than the reference value, a control mode storage for storing a combustion control mode before the combustion is stopped when the combustion is stopped. Part, time measuring means for measuring the elapsed time from the time when the combustion is stopped, and whether the elapsed time from the time when the combustion is stopped has passed a predetermined standby time when the re-burning operation is commanded after the stop of the combustion. The combustion operation is started in the improvement mode when the standby time has not elapsed and the combustion control mode before the combustion is stopped is the improvement mode. It is configured as characterized by having a combustion operation control unit to start the combustion operation in de.

[0018]

According to the present invention having the above-described structure, when the CO detection concentration detected by the CO detection sensor exceeds the reference value during the combustion operation of the combustion equipment, the combustion operation is performed in the improvement mode. When the combustion operation is performed again within the time, by starting the combustion operation in the improvement mode, incomplete combustion is avoided, and at the start of the intermittent combustion, the increase of CO gas in the exhaust gas due to the incomplete combustion is prevented. To prevent.

[0019]

Embodiments of the present invention will be described below with reference to the drawings. In the description of the present embodiment, the same reference numerals are given to the same names as those in the conventional example, and the duplicated description thereof will be omitted. The combustion device with a CO detection sensor of the present embodiment is directed to the water heater shown in FIG. 5 similarly to the conventional example, and a CO sensor 20 for detecting the CO concentration in the exhaust gas is provided on the exhaust top side of the water heater. Further, the control device 14 is provided with a circuit for controlling the combustion operation and a circuit for performing the CO safety operation. What is characteristic in the present embodiment is that the control device 14 is provided with means for controlling the combustion characteristics well when the water heater is used intermittently. This means includes, as shown in FIG. 1, a combustion operation control unit 21, a control mode storage unit 22,
It has a timer 23 as time measuring means.

When the combustion operation of the water heater is stopped, the control mode storage section 22 stores a control mode of the combustion operation before the stop, that is, whether the combustion operation was performed in the normal mode,
Alternatively, the control mode as to whether the combustion operation was performed in the improvement mode is stored. The timer 23 measures the elapsed time from when the hot water supply combustion operation is stopped, and adds a time-up signal to the combustion operation control unit 21 when a predetermined standby time (for example, 5 minutes) has elapsed.

When the combustion operation of hot water supply is instructed by the remote controller 15, the combustion operation control unit 21 calculates the required heat amount for setting the incoming water temperature to the set temperature, as in the conventional example, and obtains the required heat amount. The opening amount of the gas proportional valve 13 is controlled, the rotation of the combustion fan 5 is controlled, and when the burner 7 is ignited, the feed operation is performed by feed-forward control. Control.

Further, the combustion operation control section 21 operates the timer 23 to measure the elapsed time from the stop of the hot water supply when the hot water supply is stopped, and the remote control 15 For example, when the combustion operation of the hot water supply is instructed, it is determined whether or not a predetermined standby time (for example, 5 minutes) has elapsed since the combustion was stopped, based on the time measured by the timer 23, and the control mode is stored. The control mode stored in the section 22 is read. And the elapsed time from the stop of hot water supply combustion has not elapsed the standby time, and
Only when the previous combustion operation has been performed in the improvement mode, the re-hot water combustion operation is started in the improvement mode. Otherwise, the re-hot water combustion operation is started in the normal mode.

FIG. 2 is a flowchart showing the operation of the hot water supply intermittent operation characteristic of this embodiment. The same operation parts as those of the flowchart of FIG. 6 showing the operation of the conventional example are denoted by the same step numbers. The overlapping description is omitted. A characteristic of the operation of the present embodiment is that the step operation of SP1 for clearing the timer is added between steps 102 and 103, and when it is not determined in step 102 that the flow water is ON based on the flow rate detection signal of the flow rate sensor 9, that is, That is, when the hot-water tap 1 is in a closed state, a unique operation from step SP2 to step SP5 is added.

That is, the operation switch is turned on, the combustion operation is performed, and the CO detection value of the CO sensor 20 is set to the reference value.
Exceeds 1500 ppm, does not reach the dangerous concentration of 3000 ppm
When it is between 3000 ppm, the combustion operation is performed in the improvement mode as in the conventional example. In step 109, the fan-up flag is set to 1 and this is stored in the storage mode control unit 22. Then, when it is determined in step 102 that the combustion has stopped due to running water off, the stop flag is set to zero in step SP2, the timer 23 is started in step SP3, and the elapsed time from when the combustion was stopped is measured.

Next, in step SP4, it is determined whether or not a predetermined waiting time (for example, 5 minutes) has elapsed. When the running water is turned on in step 102, that is, when re-watering is confirmed before the standby time has elapsed, the timer is cleared in step SP1 and it is determined in step 103 whether the stop flag is set to 1 or not. In this case, since the stop flag is set to zero in step SP2,
At the next step 104, it is determined whether or not the fan-up flag is "1". In this case, if combustion was performed in the improvement mode in the previous combustion, 1 of the fan-up flag is stored in the control mode storage unit 22.
, The improvement mode is always selected. In this improvement mode, combustion of the hot water is performed in step 107.

As described above, in the present embodiment, when the combustion operation is being performed in the control mode before the combustion is stopped in the improvement mode, the improvement mode is always selected when the combustion operation of the hot water is performed within the standby time. Then, the reheating hot water combustion operation is started in the improvement mode.

The fact that the previous combustion operation mode was performed in the improvement mode means that, for example, in a water heater of an indoor installation type, it is assumed that the combustion operation is performed in a state where the ventilation fan is turned on. When the hot water is re-discharged within a short time within the standby time, it is assumed that the ventilation fan is continuously turned on. At the time of re-discharge, the combustion operation is not started in the normal mode, but is performed in the improvement mode. Is started, so that even if the ventilation fan is turned on, sufficient air is supplied by the fan rotation up, so that incomplete combustion is avoided and re-hot water is burned under good combustion conditions Becomes

FIG. 3 shows the relationship between the operation state of the hot water tap 1 in this embodiment, the combustion operation state of the water heater, and the CO detection value (CO value) detected by the CO sensor 20. As is apparent, when the CO detection value reaches the reference value and the combustion operation is performed in the improvement mode, the combustion operation is performed in the improvement mode at the time of re-watering within the next standby time, so that the CO in the exhaust gas is reduced. The concentration becomes a value smaller than the reference value, and the re-watering operation is performed in a complete combustion state.
This effect is clear from comparison with the conventional example of FIG. In the conventional example, when starting in the normal mode at the time of hot water re-starting, the CO concentration reaches the danger set value, the CO safety circuit operates, the combustion is stopped, and there is a problem that the water heater cannot be used. In this embodiment, it is possible to reliably prevent this problem.

In this embodiment, when the hot water is again supplied within the standby time, that is, when it is determined in step 102 that the running water is turned on during the standby time, the timer 23 is cleared in the next step SP1. Timer 23 during combustion operation.
Is prevented from being performed, whereby it is possible to prevent the combustion operation state in the improvement mode from suddenly switching to the normal mode combustion operation during combustion. That is, when the timer is not cleared in step SP1, even if the re-watering within the standby time is instructed and the combustion operation is started in the improvement mode, the operation of the timer 23 from step SP3 is continued. During the combustion operation in the mode, the measurement time of the timer 23 reaches the standby time,
At this time, since the fan-up flag is cleared to zero in step SP5, there is a problem that the control mode is suddenly switched from the improvement mode to the normal mode.
In this embodiment, since the timer clear operation is performed in step SP1, such a problem can be surely prevented.

In this embodiment, if the elapsed time from the previous stop of hot water supply combustion exceeds the standby time, the fan-up flag is cleared to zero in step SP5. Then, the combustion operation is started. In the state where the standby time has been exceeded since the previous hot water supply was stopped, for example, it is determined that the use of hot water by turning the ventilation fan has ended and the ventilation fan has also been stopped,
In the case of the outdoor installation type water heater, it is determined that the headwind is already stopped when the standby time has elapsed even when the headwind is blowing on the exhaust side, and the next combustion operation is performed in the normal mode. Will be.

In the combustion operation in the improvement mode, the combustion state in which the rotation of the combustion fan 5 is increased is a state in which the thermal efficiency is slightly lowered, and the gas proportional valve 13 is throttled to improve the combustion performance in the complete combustion direction. The control method in the improvement mode for reducing the gas supply amount to the burner 7 is as follows. The combustion capacity is reduced by the reduced gas supply amount, and the tapping flow rate is reduced accordingly. If both of the reduced supply methods are used, a decrease in thermal efficiency and a decrease in combustion capacity will occur, and operation in these improved modes is an emergency combustion measure to avoid temporary deterioration of combustion conditions such as turning on a ventilation fan. If the elapsed time exceeds the standby time,
This emergency measure is eliminated, and the combustion operation is started in the original normal mode.

The present invention is not limited to the above-described embodiment, but can take various embodiments. For example, in the above embodiment, the CO detection sensor is constituted by the CO sensor 20,
Although the CO concentration in the exhaust gas is directly detected, for example, the CO detection sensor is constituted by another sensor such as an O ₂ sensor or a CO ₂ sensor, and the CO concentration in the exhaust gas is indirectly detected. You may do so.

In the above embodiment, a water heater was described as an example of a combustion device. However, a combustion device with a CO detection sensor according to the present invention includes a bath kettle, an air conditioner, a heater, a cooling device, a cooling / heating device, a fan heater The present invention is applied to various other combustion devices using gas or oil as fuel.

[0034]

According to the present invention, when intermittent combustion of a combustion device, the combustion before the combustion stop is performed in the improvement mode,
When the reburn operation is performed again within a predetermined standby time, the combustion operation is started in the improvement mode without starting the combustion operation in the normal mode. Since the combustion operation is started in a state close to the combustion, the combustion deterioration state in which the CO gas increases at the time of reburning can be avoided, and the intermittent combustion operation with good combustion performance can be performed.

In the conventional example, even if the combustion operation is performed in the improvement mode before the stop of the combustion, the combustion operation is performed in the normal mode at the time of the re-combustion. However, in the present invention, if the previous combustion operation was performed in the improvement mode, the reburn operation was performed within a short time within the standby time. When performing, the combustion operation is always started in the improvement mode and combustion is performed in the complete combustion state, so that the CO concentration in the exhaust gas is abnormally increased, the CO safety circuit is activated, and the combustion operation is not stopped. Thus, the conventional problems can be surely prevented.

[Brief description of the drawings]

FIG. 1 is a block diagram of a main part configuration showing an embodiment of the present invention.

FIG. 2 is a flowchart showing the operation of the embodiment.

FIG. 3 is a time chart of an operation state of the embodiment.

FIG. 4 is a time chart of an operation state of a conventional example.

FIG. 5 is a system diagram of a general water heater as a combustion device.

FIG. 6 is a flowchart showing the operation of a conventional water heater.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Hot water supply unit 5 Combustion fan 14 Control unit 20 CO sensor 21 Combustion operation control unit 22 Control mode storage unit 23 Timer

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int.Cl. ⁷ , DB name) F23N 5/20 103 F23N 5/24 107 F24H 9/20

Claims (2)

(57) [Claims] 1. A CO detection sensor for detecting a CO concentration in exhaust gas is provided on an exhaust side of a combustion apparatus, and when the detected CO concentration exceeds a preset reference value, combustion is improved in a complete combustion direction. In the combustion control method of performing combustion in the improvement mode and performing combustion in the normal mode when the detected CO concentration is lower than the reference value, whether or not combustion control before the combustion stop was performed in the improvement mode after the combustion was stopped. And, on the other hand, measure the time elapsed since the combustion was stopped,
When the combustion control before stopping the combustion is performed in the improvement mode, and the reburn operation is performed before the elapse of the predetermined standby time, the combustion operation is started in the improvement mode, and the combustion is performed after the elapse of the standby time. A combustion control method for intermittent combustion of a combustion device with a CO detection sensor that starts a combustion operation in a normal mode when the operation is performed. 2. An improvement mode in which a CO detection sensor for detecting a CO concentration in exhaust gas is provided on an exhaust side of a combustion device, and combustion is improved in a complete combustion direction when the CO detection concentration exceeds a preset reference value. A control mode storage unit for storing a combustion control mode before the combustion stop when the combustion is stopped, wherein the control mode storage unit stores the combustion control mode before the combustion stop when the detected CO concentration is lower than the reference value. Time measuring means for measuring the elapsed time from the time, when the re-burning operation is commanded after the combustion stop, to determine whether the elapsed time from the combustion stop has passed a predetermined standby time, Before the elapse of the standby time and when the combustion control mode before the stop of combustion is the improvement mode, the combustion operation is started in the improvement mode. Otherwise, the combustion operation is started in the normal mode. A combustion control device for intermittent combustion of a combustion device with a CO detection sensor having a combustion operation control unit.