KR0134851B1 - Incomplete combustion detecting device for combustion - Google Patents

Abstract

The present invention provides an incomplete combustion detection device for a combustion device that can extend the number of years of use of the CO sensor and make accurate incomplete combustion determination, and the CO sensor 20 is installed on the exhaust side of the combustion device A. The incomplete combustion determination means 24 which determines incomplete combustion of the combustion apparatus A by the output of the CO sensor 20 is provided, and based on the determination of the incomplete combustion determination means 24, the combustion apparatus ( Combustion control means 22 for controlling the combustion state of A) is provided. The CO sensor control means 23 starts to energize the CO sensor 20 after the combustion device A starts to operate and stops energization of the CO sensor 20 until the operation of the combustion device A ends. ) Is installed, and the incomplete combustion determining means 24 is to start the determination of incomplete combustion after a predetermined time has elapsed since the energization of the CO sensor 20 is started.

Description

Incomplete combustion detection device of combustion equipment

1 is an explanatory cross-sectional view of a hot water heater equipped with an incomplete combustion detection device according to an embodiment of the present invention.

2 is a flowchart for explaining the operation of the incomplete combustion detection apparatus according to an embodiment of the present invention.

3 is a flowchart for explaining a part of the operation of the incomplete combustion detection device shown in FIG.

* Explanation of symbols for main parts of the drawings

А: Hot water heater 1: Combustion housing (combustion chamber)

2: gas burner (burner) 17: proportional solenoid valve (fuel supply means)

18: igniter (ignition means) 20: CO sensor

22: combustion control means 23: CO sensor control means

24: incomplete combustion determination means

The present invention relates to an incomplete combustion detection device using a CO sensor applicable to a combustion device, especially a hot water heater. In the conventional type of incomplete combustion detection device, a CO sensor is installed in an exhaust passage connected to a combustion chamber of a hot water heater, and incomplete combustion determination means for determining incomplete combustion of a burner provided in the combustion chamber by the output of the CO sensor is provided. do. In addition, the CO sensor is connected to the power cord of the combustion device, and at the same time, power is also supplied to the CO sensor. As a result, the CO sensor can detect the CO concentration in the energized state. At the same time, the incomplete combustion determining means performs the incomplete combustion determination operation in accordance with the output of the CO sensor at that time. The incomplete combustion determining means immediately stops the operation of the hot water heater when it is determined that the burner combustion state is incomplete combustion. Normally, the CO sensor is provided with a heater therein, and as the electric current is supplied to the internal heater, the sensor itself is heated to about 400 ^° C., and the CO concentration can be detected in the heated state. Therefore, since the CO sensor is always in a heated state, there is a disadvantage that the CO sensor is not usable even though the combustion device can be used for about three years. Therefore, the method of conducting the energization of the CO sensor only while starting the operation of the hot water heater and burning the burner is considered. When the detection of the CO concentration is necessary, the time from when the burner starts combustion until the burner is extinguished. It is a period, and accordingly, it is possible to shorten the energization time of the CO sensor, thereby extending the number of years of use of the CO sensor. However, when the operation of the hot water heater is started so that the burner energizes the CO sensor when the burner burns, the temperature rise by the internal heater of the CO sensor is always performed whenever the burner performs combustion. The CO sensor is difficult to detect the correct CO concentration in the temperature riser of the internal heater immediately after energization. If the incomplete combustion determining means performs the incomplete combustion determination operation in this state, the incomplete combustion determination operation is also caused by the unstable output of the CO sensor. It becomes inaccurate, for example, since an incorrect CO detection signal is sent from the CO sensor to the incomplete combustion determination means at the time when the burner starts combustion, the incomplete combustion determination means misjudges incomplete combustion and stops the operation of the hot water heater. There is a risk of hampering driving. In addition, the CO sensor has a disadvantage in that it is difficult to detect accurate CO concentration due to the attachment of soot or dust or CO to the surface of the hot water heater, and shorten the life of the CO sensor. The present invention has been made to solve the above disadvantages, and an object of the present invention is to provide an incomplete combustion detection apparatus for a combustion device that can extend the number of years of use of a CO sensor and to accurately determine incomplete combustion. In order to achieve the above object, according to the present invention, there is provided a burner installed in a combustion chamber, fuel supply means for supplying fuel to the burner, ignition means for igniting the burner, and an exhaust cylinder installed downstream of the combustion chamber. On the basis of the determination of the CO sensor disposed in the exhaust passage, the incomplete combustion determination means for determining incomplete combustion of the combustion apparatus by the output of the CO sensor, and the incomplete combustion determination means. In an incomplete combustion detection device having a combustion control means for controlling a combustion state of the combustion device, the energization of the CO sensor is started after the operation of the combustion device is started, while the operation of the combustion device is terminated. And a CO sensor control means for stopping the energization of the CO sensor, wherein the incomplete combustion determining means has a predetermined time from the start of energization of the CO sensor. It is characterized by initiating the determination of incomplete combustion after the passage of time. In addition, the CO sensor control means performs self-cleaning of the CO sensor after the time when the CO sensor is operated after the start of energization of the CO sensor, and the incomplete combustion determining means is after the self-cleaning is finished. The determination is started. According to the present invention, the CO sensor control means conducts electricity to the CO sensor only during operation of the combustion device, and the incomplete combustion determining means is incomplete combustion in a state where a predetermined time has elapsed after the CO sensor is energized. The determination of is started. In other words, the incomplete combustion determining means does not start the determination of incomplete combustion until the CO sensor becomes a state capable of accurate detection. In addition, after a predetermined time elapses from immediately after energizing the CO sensor to accurate detection, the CO sensor is self-cleaned, and the self-cleaned material is, for example, fumed on the surface by heating the temperature to about 500 ^° C. This will extinguish dust or CO. After the completion of the self-cleaning, the incomplete combustion determining means starts the determination, thereby making it possible to accurately determine the incomplete combustion state. Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. 1 is an explanatory cross-sectional view of a hot water heater provided with an incomplete combustion detection apparatus according to a temporary embodiment of the present invention, and FIG. 2 is a flowchart for explaining the operation of the incomplete combustion detection apparatus according to an embodiment of the present invention. FIG. Is a flowchart for explaining a part of the operation of the incomplete combustion detection device shown in FIG. As shown in FIG. 1, in the forced combustion gas hot water heater A, a gas burner 2 that burns in the combustion housing 1 is disposed, and a gas burner is installed in the combustion housing 1 by a combustion fan 3. The combustion air X of (2) is supplied. In addition, in the hot water heater A, the gas supply to the gas burner 2, the ignition of the gas burner 2, and the control of the combustion fan 3 are performed by the combustion control device 4. The combustion housing 1 is provided with an inlet (not shown) of the combustion air X at the lower side and an outlet 6 for discharging the combustion exhaust gas Z to the outside. In addition, a heat exchanger 7 is disposed above the gas burner 2 in the combustion housing 1, and the gas burner 2 includes a burner group 8 that forms a flame, and a burner group 8 below the burner group 8. It consists of a nozzle tube 10 having a spout 9 is located, the gas burner 2 is supplied with a fuel gas (Y) through a gas pipe 11, the combustion fan 3 is a turbo blade Will be equipped. The combustion controller 4 includes a water regulator 12, a water sensor 13, a thermistor 14, a raw gas solenoid valve 15, a main solenoid valve 16, a governor type gas proportional solenoid valve 17 ), An igniter 18, a frame rod 19, a CO sensor 20, and a control circuit 21 for controlling them. The incomplete combustion detection apparatus according to the present invention comprises a CO sensor 20 and a control arc 21, the control circuit 21 of the combustion control means 22 and CO sensor control means 23 and incomplete combustion determination means. A microcomputer with 24 is employed. Next, the basic operation of the control circuit 21 of the combustion control device 4 will be described. The control circuit 21 detects the open state of the hot water supply opening and closing device (not shown) by the water quantity sensor 13, and the combustion control means 22 uses the source gas solenoid valve 15 and the main solenoid valve ( 16), the gas proportional solenoid valve 17 is controlled to be opened to supply fuel gas to the gas burner 2, and the combustion fan 3 is driven to ignite and burn the gas burner 2, and also the frame rod. When the flame is detected by (19), the CO sensor control means 23 to start the energization of the CO sensor 20. Incidentally, the start of energization of the CO sensor 20 may be made until the ON signal is output from the water quantity sensor 13, and the timing can be changed as appropriate without departing from the gist of the present invention. The control circuit 21 detects the state by the water quantity sensor 13 when the hot water supply / closing device is in a closed state, and the source gas solenoid valve 15 and the main solenoid valve 16 are proportional to each other by the combustion control means 22. While controlling the solenoid valve 17 to close, the combustion fan 3 is driven to extinguish the gas burner 2. In addition, the control circuit 21 operates the combustion control means 22 by the incomplete combustion determining means 24 when the CO sensor 20 detects the CO concentration according to a predetermined reference during the combustion of the gas burner 2. By controlling the source gas solenoid valve 15, the main solenoid valve 16, and the proportional solenoid valve 17 to be closed to stop the combustion fan 3 to extinguish the gas burner 2, and to control the CO sensor. By 23, the energization of the CO sensor 20 is stopped. In the present invention, as described in the related art, immediately after the start of energization of the CO sensor 20, the burner 2 is ignited to extend the life of the CO sensor 20, and immediately after the gas volume proportional control. The energization of the CO sensor 20 is started. Subsequently, as shown in FIG. 2, the 30 second timer times up as the incomplete combustion determining means 24 starts the 30 second timer, and the CO sensor control means 23 starts the 20 second timer. During this time, the energization voltage to the CO sensor 20 is increased to perform self-cleaning, and when the 20 second timer is timed up, the incomplete combustion determining means 24 starts the determination operation. That is, the determination of incomplete combustion of the incomplete combustion determining means 24 is first delayed until 30 seconds have elapsed from the start of energization of the CO sensor 20, and during the delay time, the CO sensor 20 is shown in its internal heater (not shown). Heating is completed, and accurate CO concentration can be detected. After that, self-cleaning is performed until 20 seconds have elapsed so that the incomplete combustion determining means 24 can reliably determine the incomplete combustion. Here, in the present embodiment, the delay time is set to 30 seconds. For example, when using a CO sensor having a high temperature rise speed, a shorter delay time may be set, and the time of self-cleaning may also depend on the characteristics of the CO sensor 20. You may change it. Therefore, after the CO sensor is enabled to detect the CO concentration, the incomplete combustion determining means 24 starts the determination of incomplete combustion, thereby making it possible to accurately determine the incomplete combustion. The operation of the self-cleaning will be described in detail. As shown in FIG. 3, the 20-second timer is started by the CO sensor control means 23 immediately after the 30-second timer of the incomplete combustion determining means 24 times up. However, the self cleaning of the CO sensor 20 is performed in the period until the 20 second timer is timed up, but the magnetic cleaning is performed by using the internal heater of the CO sensor 20, so that the entire CO sensor 20 is 500 ^o C. It is heated to the extent that the smoke attached to the surface of the CO sensor 20, or the dust or CO to evaporate or burn to extinguish. Accordingly, while the CO sensor 20 can be maintained in a state where the CO concentration is accurately detected, the life of the CO sensor 20 can be extended. In this embodiment, since the self-cleaning of the CO sensor 20 is performed for each hot water heater A operation, as shown in FIG. 2 and FIG. 3, the self-cleaning is judged when the self-cleaning is completed. The flag is set in the CO sensor control means 23. Accordingly, when the self cleaning is already confirmed in the loop from the gas amount proportionality control to the incomplete combustion detection operation, the CO sensor control means 23 erases the magnetic cleaning. When the hot water supply / closing device is closed, the combustion control means 22 which detects the state by the water quantity sensor 13 sends a signal to the CO sensor control means 23, and the CO sensor control means 23 The flag is returned to its initial state. Therefore, when the primary hot water supply opening and closing device is opened, the CO sensor control means 23 performs self-cleaning of the CO sensor 20. Although not shown, the CO sensor 20 may be controlled by the CO sensor control means 23 to perform self-cleaning every predetermined time (for example, 10 minutes) after the hot water heater is operated. At this time, the incomplete combustion detection operation by the incomplete combustion determination means 24 is stopped in the self-cleaning of the CO sensor 20, and accordingly, the misjudgment of incomplete combustion due to the unstable output by the CO sensor 20 in the self-cleaning is stopped. Is prevented. As can be seen from the above, according to the present invention, since the incomplete combustion determination means starts the determination of incomplete combustion after a predetermined time after the CO sensor is energized, that is, an indeterminate operating time of the CO sensor, immediately after the CO sensor is energized. The unstable output of can be ruled out. In addition, since the self-cleaning of the CO sensor is performed after the predetermined time has elapsed, the incomplete combustion determining means can accurately determine the incomplete combustion at the time of operation of the combustion device, and can extend the life of the CO sensor. have. Therefore, according to the present invention, it is possible to provide an incomplete combustion detection device capable of improving the number of years of use of a CO sensor and determining accurate incomplete combustion.

Claims (2)

The exhaust passage provided in a combustion apparatus having a burner installed in a combustion chamber, fuel supply means for supplying fuel to the burner, ignition means for igniting the burner, and an exhaust passage provided downstream of the combustion chamber. Combustion control means for controlling the combustion state of the combustion apparatus based on the determination of the CO sensor disposed therein, the incomplete combustion determination means for determining incomplete combustion of the combustion apparatus by the output of the CO sensor, and the incomplete combustion determination means; An incomplete combustion detection device comprising: a CO sensor control means for starting the energization of the CO sensor after starting the operation of the combustion device, and stopping the energization of the CO sensor until the operation of the combustion device is finished; The incomplete combustion determining means is configured to start the determination of incomplete combustion after a predetermined time has elapsed since the start of energization of the CO sensor. Incomplete combustion detection apparatus according to the combustion device according to claim. The method of claim 1, wherein the CO sensor control means performs self-cleaning of the CO sensor after the time that the CO sensor is operable after the start of energization of the CO sensor, the incomplete combustion determination means is incomplete after the end of the self-cleaning Incomplete combustion detection apparatus for a combustion apparatus, characterized in that to start the determination of the combustion.