KR0146011B1 - Combustion terminating device in incomplete combustion of combustion instrument - Google Patents

Abstract

The present invention provides a combustion stop device at the time of incomplete combustion of a combustion apparatus that can stop the combustion by discriminating the temporary incomplete combustion state and the permanent incomplete combustion state due to strong wind or the like in the case of incomplete combustion state.

To this end, the present invention integrates the output of the ball full combustion detection means 20 for a predetermined time by the calculation means 25 and compares the result with the determination value by the comparison means 26 of the incomplete combustion determination means 24. When it is determined that the stationary abnormality is determined, the combustion control means 22 stops the combustion of the combustion device. In addition, the output of the incomplete combustion detection means 20 is always compared with the determination value by the comparison means 26 of the incomplete combustion determination means 24, and the combustion control means when the state beyond the determination value continues for a predetermined time. Stop the combustion of the combustor.

Description

Combustion stop device during incomplete combustion 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 an explanatory diagram of control means according to the first aspect of the present invention;

3 is a basic flowchart for explaining the operation of FIG. 1 and FIG.

4 is a flowchart for explaining the operation of FIG. 1 and FIG.

5 and 8 and 9 are views for explaining various incomplete combustion state determination,

6 is an explanatory view of a control means according to an embodiment of the second aspect of the present invention;

FIG. 7 is a flowchart for explaining the operation of FIG. 1 and FIG.

* Explanation of symbols for main parts of the drawings

8: combustion group (burner group), 20: incomplete combustion detection means (CO sensor),

22: combustion control means, 24: incomplete combustion determination means,

25: calculation means, 26: comparison means,

28: means for changing the judgment value,

The present invention relates to a combustion stop device for incomplete combustion of a combustion device, and more particularly to a combustion stop device for incomplete combustion using a CO (carbon monoxide) sensor in a gas water heater.

Conventionally, in this type of apparatus, a CO sensor is provided in an open passage connected to a combustion chamber of a gas water heater, and an incomplete combustion state is detected by the output of the CO sensor, and combustion is stopped by the detected state. If a strong wind is sucked into the combustion chamber while the hot water heater is in use, the air supply to the combustion chamber is inhibited and the CO concentration temporarily increases, resulting in an incomplete combustion state. However, since the CO sensor does not distinguish between the incomplete combustion state caused by the temporary increase in the CO concentration and the dangerous continuous incomplete combustion state such as the disposal of the exhaust passage or the supply passage, it is necessary to stop the combustion. If there is no problem, the combustion is stopped.

In addition, when the amount of combustion in the combustion chamber changes depending on the use condition, the incomplete combustion state may be temporarily resolved when the combustion amount decreases when the combustion amount is large, and the incomplete combustion state cannot be properly detected. There is a problem that combustion continues.

Accordingly, the present invention has been made to solve the above problems, it is possible to exclude the malfunction due to the temporary incomplete combustion state due to the influence of the wind, so that the combustion stop device during incomplete combustion operating properly in the case of dangerous incomplete combustion state The purpose is to provide.

A first aspect of the present invention for achieving the above object is an incomplete combustion detection means for detecting incomplete combustion of the combustion section, the determination means for determining the incomplete combustion state by the output of the incomplete combustion detection means, and this determination means A combustion apparatus comprising a combustion control means for stopping combustion of a combustion unit in accordance with the determination of the present invention, comprising: calculating means for integrating the output of the detecting means for a predetermined time, wherein the determining means determines an integrated value of the calculating means by a predetermined determination value. Compared with the characterized in that the incomplete combustion status is determined. In addition, integrating is included to integrate the output of the detection means.

Further, the second aspect of the present invention is the incomplete combustion detection means for detecting incomplete combustion of the combustion portion, the determination means for determining the incomplete combustion state by the output of the incomplete combustion detection means, and the combustion of the combustion portion in accordance with the determination of the determination means A combustion apparatus equipped with a combustion control means for stopping an engine, the combustion means comprising: a comparison means for always comparing a determination value indicating an incomplete combustion state with an output of the detection means, and the output means having an output equal to or larger than the determination value by a predetermined time; Characterized in that the combustion control means stops combustion when it continues for a while.

Furthermore, according to the second aspect, after the output of the incomplete combustion detecting means is greater than or equal to the determination value, the determination value changing means for changing the determination value of the determination means in accordance with the combustion amount of the combustion section is provided. It features.

According to the first aspect of the present invention, the output of the incomplete combustion detecting means is accumulated for a predetermined time, and the incomplete combustion state is determined by comparing this with the judgment value of the source. Here, the predetermined time is set to be longer than the continuous time of the strong wind which is normally generated temporarily, so that the combustion unit is not stopped in case of practical incomplete combustion by the strong wind or the like.

Then, according to the second aspect of the present invention, the output of the incomplete combustion detecting means is always compared whether or not the comparing means of the determining means is greater than or equal to the determination value, and is referred to as an incomplete state when the state greater than or equal to the determination value is continued for a predetermined time. Determine. Here, the predetermined time is set to be equal to or more than the duration of the strong wind that is normally generated temporarily, so that the combustion unit is not stopped when the temporary incomplete combustion is caused by the strong wind or the like.

Furthermore, according to the third aspect of the present invention, since the determination value of the determination means is changed in accordance with the combustion amount of the combustion portion after the output of the incomplete combustion detection means is more than the determination value, it is incomplete according to the decrease in the temporary combustion amount of the combustion portion. The combustion does not continue due to the elimination of the combustion state.

EMBODIMENT OF THE INVENTION Hereinafter, one Embodiment of this invention is described with reference to drawings. 1 is an explanatory cross-sectional view of a hot water heater provided with the present embodiment, and FIG. 2 is an explanatory view of the control means of the embodiment according to the first aspect of the present invention, and FIGS. 3 and 4 are views of FIGS. 5 and 8 and 9 are explanatory diagrams of various determination means, and FIG. 6 is an explanatory diagram of control means according to an embodiment of the second aspect of the present invention, and FIG. 1 and 6 are flowcharts for explaining the operation of FIG.

As shown in FIG. 1, the gas burner 2 which burns in the combustion housing 1 is arrange | positioned in the forced combustion type gas water heater A, and the blower fan 3 understands the gas burner as the combustion housing 1 by the gas burner. The combustion air X of (2) is supplied. In addition, the hot water heater (A) is a gas supply to the gas burner (2), the ignition of the gas burner (2) is controlled by the combustion control device (4). The combustion housing 1 is provided with an inlet port (not shown) of combustion air X at the lower side and an outlet port 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. The gas burner 2 is comprised of the burner group 8 which forms a flame, and the nozzle tube 10 provided in the lower part of this burner group 8, and equipped with the blower outlet 9. As shown in FIG. In addition, the gas burner 2 is supplied with the fuel gas Y through the gas pipe 11. The blowing fan 3 is equipped with a turbo blade. The combustion control device 4 includes a water regulator 12, a water sensor 13, a thermistor 14, a raw gas solenoid valve 15, a main solenoid valve 16, and a governor type gas ratio valve. It consists of a valve 17, an igniter 18, a frame rod 19, a CO sensor 20 and a controller 21 for controlling them. The incomplete combustion detection tee of the present invention is composed of a CO sensor 20 and a controller 21. The controller 21 includes a combustion control means 22, a CO sensor control means 23, and an incomplete combustion determination means 24. It is equipped with a microcomputer. As shown in FIG. 2, the incomplete combustion determining means 24 includes computing means 25 for integrating the output value of the CO sensor 20, and comparing means for comparing the integrated value of the calculation means 25 with a predetermined reference value ( 26) and timer means (27).

Next, the basic operation of the controller 21 of the combustion control device 4 will be described. The controller 21 detects the open state of the hot water stopper (not shown) by the water quantity sensor 13, and the raw gas solenoid valve 15, the kettle valve 16, and the proportional solenoid valve by the combustion control means 22. (17) is controlled to open, fuel gas is supplied to the gas burner (2) to drive the blowing fan (3) to ignite and burn the gas butter (2). In addition, when the hot water stopper is closed, the controller 21 detects this by the water quantity sensor 13, and the combustion control means 22 uses the source gas solenoid valve 15, the kettle valve 16, and the proportional solenoid valve ( 17) to close, and the blower fan 3 is stopped to extinguish the gas burner 3. When the ignition of the gas burner 2 is completed, the controller 21 starts the operation of the CO sensor 20 by the CO sensor control means 23 so that the CO sensor 20 is predetermined during the combustion of the gas burner 2. When the CO concentration is detected according to the reference, the combustion control means 22 is operated by the incomplete combustion determining means 24 to close the source gas solenoid valve 15, the kettle valve 16, and the proportional solenoid valve 17. And the operation of the blower fan 3 is stopped to extinguish the gas burner 2 and the operation of the CO sensor 20 is stopped by the CO sensor control means 23. In addition, the start of the operation of the CO sensor 20 may be a time point at which the on-signal is output from the water quantity sensor 13, or a time point when a predetermined time has elapsed after detecting the flame.

Moreover, the combustion stop operation during incomplete combustion will be described with reference to FIG. When the operation switch is turned on, the hot water heater is opened, and when the combustion fan 3 is driven, the source gas solenoid valve 15, the kettle valve 16, and the proportional solenoid valve 17 supplying fuel gas together with the on operation of the igniter 18. ), The burner group 8 is ignited, the ignition completion is detected by the frame rod 19, the igniter 18 is turned off, the combustion is continued, and the amount of combustion is controlled by the proportional solenoid valve 17. To control. After the ignition of the burner group 8 is completed, the CO sensor 20 is turned on by the CO sensor control means 23 to detect the combustion state. Thereafter, when the incomplete combustion determining means 24 determines that the incomplete combustion state is in accordance with the output of the CO sensor 20 as described later, the combustion stop operation is performed by the combustion control means 22 as described above.

Next, the operation of determining incomplete combustion in the embodiment of the first aspect according to the present invention will be described with reference to FIG. When the CO sensor 20 is turned on, the timer means 27 is started, the output of the CO sensor 20 is integrated by the calculation means 25, and the integrated value is determined by the comparison means 26 with the predetermined determination value. When it is determined that the value is equal to or larger than the determined value, the combustion stop operation is performed by the combustion control means 22. At this time, the determination value is set by the enemy ((S; S)) of the threshold value (for example, 2000 ppm) for discriminating the incomplete combustion and the operation time of the timer means. On the other hand, the calculation means within the operation time t of the timer means 27. If the integrated value of (25) does not exceed the determined value, the integrated value of the calculation means 25 is cleared, the timer means 27 is started again, the output of the CO sensor 20 is accumulated, and the operation as described above is repeated. do.

As indicated by reference numeral a in FIG. 5, in the case where the exhaust passage continues to be incompletely burned, such as the disposal (closed state) of the exhaust passage, the integrated value of the output of the CO sensor 20 is equal to or greater than the determination value S. FIG. On the other hand, as indicated by reference numeral b in FIG. 5, when the output value of the CO sensor 20 temporarily exceeds the limit value under the influence of strong wind or the like, the integrated value of the output of the CO sensor 20 is greater than or equal to the determination value S. It does not become. Accordingly, it is possible to exclude the combustion apparatus from being stopped when it is temporarily incompletely burned under the influence of strong wind or the like.

Next, an embodiment of the second aspect of the present invention will be described with reference to FIG. 1, FIG. 3, and FIG. 6 to FIG. The configuration of the combustion apparatus A in this embodiment is the same as in FIG. 1, the basic combustion control is the same as in FIG. 3, and only the combustion stop operation of the incomplete combustion conditioner is different. Therefore, the descriptions of FIGS. 1 and 3 will be omitted, and only the configuration of the controller 21 and the determination operation of incomplete combustion will be described. In this embodiment, the controller 21 has the configuration shown in FIG. The controller 21 is a microcomputer equipped with a combustion control means 22, a CO sensor control means 23, and incomplete combustion determination means 24. The incomplete combustion determination means 24 changes the determination value according to the combustion amount of the comparison means 26, the detection timer means 27, and the burner group 8 which compares the output value of the CO sensor 20 with a predetermined determination value. The determination value changing means 28 is provided.

Next, the operation of determining incomplete combustion in the embodiment of the second aspect according to the present invention will be described with reference to FIG. When the CO sensor 20 is turned on, its output is understood and compared to the initial determination value (level) set by the determination value changing means 28 and the comparison means 26, and when it is equal to or more than the initial determination value (level), detection The timer means 27 starts to operate. Subsequently, the determination value changing means 28 continuously changes the determination value (level) according to the output by the supply amount of fuel gas from the current value of the proportional solenoid valve 17 of the combustion control means 22, and the determination value (level) ) Is input to the comparison means 26, after which the output of the CO sensor 20 is compared based on this changed determination value (level). When the output of the CO sensor 20 is equal to or higher than the determination value (level), the combustion is stopped by the combustion control means 22 as an incomplete combustion state when the state of the output of the CO sensor 20 continues until the end of the timer operation time t of the sensitization timer means 27. The operation is made. Then, an error indication is made to inform the user that this combustion stop operation is due to incomplete combustion, and the necessity of maintenance of the apparatus is understood. However, if the output of the CO sensor 20 falls below the determination value (level) during the operation of the detection timer means 27, the operation of the detection timer means 27 is stopped and the above-described operation is repeated.

FIG. 8 is an explanatory view of the operation of determining incomplete combustion in a state in which the combustion amount is constant, that is, in a state where the determination value (level) is not changed. As shown in reference numeral c in the figure, once the exhaust passage is discarded, When the output of the sensor 20 exceeds the determination value (level), and this state continues until the timer operation time t ends, it is determined as an incomplete combustion state. However, when the determination value (level) of the CO sensor 20 falls below the timer operation time t as shown by reference numeral d in the figure, it is not determined as an incomplete combustion state because it is a temporary incomplete combustion state. As a result, the combustion is not stopped when it is temporarily incompletely burned under the influence of strong wind or the like.

FIG. 9 is an explanatory view of the operation of determining incomplete combustion when the combustion amount is changed, that is, when the determination value (level) is changed halfway. Therefore, even when a state that temporarily falls below the initial determination value (level) occurs, the determination value (level) changes depending on the combustion amount, so that an incomplete combustion state can be detected regardless of such a change in the combustion amount. .

This invention is not limited to the said Example, A change is possible suitably in the range which does not deviate from the summary of this invention.

As can be seen from the above description, according to the present invention, when the combustion of the combustion device is stopped in the incomplete combustion state, the combustion is unnecessarily stopped by the incomplete combustion state that is temporarily generated by the influence of strong wind or the like. It can be prevented. Furthermore, the reduction of the combustion amount makes it possible to erroneously determine that the combustion is completely completed even though it is originally incomplete combustion, and to stop the combustion without continuing the combustion.

Claims (3)

Combustion comprising incomplete combustion detection means for detecting incomplete combustion of the combustion section, determination means for determining an incomplete combustion state in accordance with the output of the incomplete combustion detection means, and combustion control means for stopping combustion of the combustion section in accordance with the determination of the determination means. A device, comprising: computing means for integrating the output of said detecting means for a predetermined time so as to determine an incomplete combustion state when said determining means compares the integrated value of said computing means with a predetermined judgment value or more, and determines that it is equal to or larger than a judgment value. A combustion stop device during incomplete combustion of a combustion device. Combustion comprising incomplete combustion detection means for detecting incomplete combustion of the combustion section, determination means for determining an incomplete combustion state in accordance with the output of the incomplete combustion detection means, and combustion control means for stopping combustion of the combustion section in accordance with the determination of the determination means. In the apparatus, the judging means includes comparison means for always comparing the judgment value indicating the incomplete combustion state with the output of the detection means, and the comparison means compares the output of the detection means for a predetermined time. A combustion stop device during incomplete combustion of a combustion apparatus, characterized in that the combustion control means stops combustion when it is continued. 3. The apparatus according to claim 2, further comprising: determination value changing means for changing the determination value of the determination means in accordance with the combustion amount of the combustion section after the output of the incomplete combustion detection means is greater than or equal to the determination value. Combustion stop device during incomplete combustion of combustion equipment.