KR101429896B1 - Method for monitoring poor combustion of boiler - Google Patents

Abstract

The present invention relates to a method to monitor imperfect combustion of a boiler, including the steps of: when combustion starts at a burner of the boiler, calculating a target heat quantity by a control unit in proportion to a set temperature of a user, and controlling an air quantity and a fuel quantity corresponding to the target heat quantity by a means of controlling the revolutions of a blower fan and an open degree of a proportional valve; detecting a tapping temperature and a return temperature of a heating water by a temperature sensor to detect the tapping temperature and a temperature sensor to detect the return temperature to calculate an actual heat quantity by a predetermined equation; determining whether an absolute value obtained by subtracting the actual heat quantity from the calculated target heat quantity is higher than or equal to an imperfect combustion detection/determination coefficient (K); stopping the burner if the absolute value obtained by subtracting the actual heat quantity from the calculated target heat quantity is higher than or equal to the imperfect combustion detection/determination coefficient (K). Therefore, it is possible to prevent safety accident due to CO leaking which happens by an incomplete combustion caused by clogging of a burner pin or the like, thereby improving product marketability and the reliability and safety by combustion control.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a method for monitoring combustion failure of a boiler,

More particularly, the present invention relates to a method for monitoring combustion failure of a boiler, and more particularly, to a method for preventing incomplete combustion by timely detecting defective combustion due to clogging of a burner pin during combustion of a gas boiler, It was invented in order to prevent safety accidents.

Generally, a boiler is installed to supply heating and hot water. It uses heat generated by burning various fuels to heat water, directly use heated water, or to heat the home or various buildings. , It is widely developed and used from small boiler used for household use to large boiler used for industrial use according to its size, and it is divided into oil boiler and gas boiler according to the fuel used, and various kinds of boilers are developed and used ought.

It is important that stable combustion control is carried out in such a boiler in which the combustion efficiency and the stability such as burner lifting or carbon monoxide discharge are greatly influenced.

For this purpose, in the conventional boiler, when the combustion instruction signal from the control unit is inputted by the user set temperature in the heating or hot water mode and the heating or hot water temperature, the mixture ratio of air and gas supplied to the burner is calculated by the combustion heat quantity composition, Adjust the air flow rate and the gas flow rate to supply the required amount of heat.

In order to supply the gas amount and the blowing amount corresponding to the required heat quantity, the control controller outputs an appropriate output to output the blowing fan indicating value. This gas supplying quantity indicating value, the blowing fan indicating value, the proportional opening degree and the rotational speed of the blowing fan motor (FG) signals, and when they are different from each other, the control controller corrects the proportional side and blowing fan output so that the gas supply amount indication, the proportional change amount, and the blower fan instruction value and the blower fan motor rotation input value are matched.

That is, in the conventional boiler, the number of revolutions of the blowing fan and the opening amount of the proportional side are adjusted according to the temperature set by the consumer and the temperature of the hot water detected by the temperature sensor for detecting the hot water of the hot water in the heat exchanger .

However, when the boiler is operated for a long time, a drain is generated in the heat exchanger due to a temperature difference between the inside and the outside of the boiler, thereby causing corrosion in the burner pin and the like.

When drain or corrosion occurs, the fins of the burner are clogged, and the flame is turned off from a part of the burner, leading to a faulty combustion. In the conventional boiler, it is possible to detect a part of the flame- There is no problem.

1. Korean Registered Patent No. 10-0294416 (April 16, 2001) 2. Korean Registered Patent Publication No. 0154591 (Jul. 10, 1998) 3. Korean Patent Registration No. 10-0283257 (December 06, 2000)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems of the related art, and it is an object of the present invention to provide a method and apparatus for controlling the temperature of hot water of a hot water detected through a temperature sensor for tap water temperature detection, And the actually heated heat amount using the return temperature difference detected by the temperature sensor for detecting the return water temperature are compared with each other and the combustion is stopped safely when the difference between the target heat amount and the actual heated heat amount is out of a certain level, It is possible to prevent safety accidents caused by CO leakage occurring during incomplete combustion, and thus to improve the reliability and safety according to the product's commerciality and combustion control, The purpose is to provide.

In order to achieve the above object, the present invention provides a control method for a boiler, which, when combustion is started in a burner of a boiler, calculates a target calorie with respect to a set temperature of a user in a control unit, controls a rotation speed of the blower fan, Controlling an air amount and a fuel amount correspondingly; Detecting a hot water temperature and a hot water temperature of the hot water through a hot water temperature detecting temperature sensor and a hot water temperature detecting temperature sensor to calculate an actual heat amount through a predetermined formula; Determining whether an absolute value of a result obtained by subtracting the actual calorie from the target calorific value calculated above is greater than or equal to a predetermined combustion failure detection determination coefficient (K); And if the absolute value of the result obtained by subtracting the actual calorie from the target calorie is greater than or equal to the determined combustion failure detection determination coefficient K, the burner is safely stopped.

At this time, the predetermined actual calorie calculating formula is (hot water temperature - water temperature) * correction coefficient * flow coefficient number.

When the absolute value of the result obtained by subtracting the actual calorie from the target calorie is greater than or equal to a predetermined combustion failure detection determination coefficient K to safely stop the burner, And a step of forcibly stopping the operation of the control unit.

As described above, according to the burning defect monitoring method of the present invention, in the control unit of the boiler, the target calorie amount calculated beforehand with respect to the set temperature of the user, the hot water temperature of the heated water detected through the temperature sensor for detecting hot water temperature, In the case where the difference between the target calorie amount and the actually heated calorie amount deviates from a certain level, the combustion is stopped safely by comparing the actually heated amount of heat using the return water temperature difference detected by the detection temperature sensor, It is possible to prevent a safety accident caused by CO leakage occurring during incomplete combustion by preventing the combustion, and it is a very useful invention that the reliability and safety according to the product's commerciality and combustion control can be greatly improved.

1 is a schematic block diagram of a boiler to which the method of the present invention is applied;
2 is a flow chart for explaining the method of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention and their operation and effect will be described in detail with reference to the accompanying drawings.

FIG. 1 is a schematic block diagram of a boiler to which the method of the present invention is applied, and FIG. 2 is a flow chart for explaining the method of the present invention.

According to the present invention,

When the combustion is started in the burner of the boiler, the target calorie calculation unit 21 in the control unit 2 calculates the target calorific value with respect to the heating set temperature set by the user through the temperature controller 1, (S1) controlling the amount of air and the amount of fuel supplied to the burner corresponding to the target amount of heat through a method of controlling the amount of opening of the proportional side (4);

The actual heat quantity calculation unit 22 in the control unit 2 detects the hot water temperature and the heat exchange water temperature of the present heating water through the hot water temperature detecting temperature sensor 5 and the heat exchanger temperature detecting temperature sensor 6, (S2) of calculating an actual calorie quantity through the calculation;

The actual heat amount calculated through the actual heat amount calculation unit 22 is subtracted from the target heat amount calculated through the target heat amount calculation unit 21 in the combustion failure judgment unit 23 in the control unit 2, Is greater than or equal to a predetermined combustion failure detection determination coefficient (K);

If it is determined that the absolute value obtained by subtracting the actual calorie from the target calorie is greater than or equal to the determined combustion failure detection determination coefficient K, it is determined that combustion failure has occurred due to clogging of the burner pin and the step S4 is performed to stop the burner safely; .

At this time, the actual calorie calculating formula determined by the actual calorie calculating unit 22 is (the hot water temperature-the water temperature) * the correction coefficient * the flow coefficient.

When the absolute value of the result obtained by subtracting the actual calorie from the target calorie is greater than or equal to the determined combustion failure detection determination coefficient K to safely stop the burner, the combustion failure of the burner in the display portion provided in the temperature controller 1 The burner is forcedly stopped and stopped.

Reference numeral 24 denotes a set temperature input unit, 25 an air amount control unit, 26 a fuel amount control unit, 27 a hot water temperature input unit, and 28 a water temperature input unit.

The operation and effect of the burning failure monitoring method of the boiler according to the present invention will be described as follows.

FIG. 1 is a schematic block diagram of a boiler to which the method of the present invention is applied. FIG. 1 is a block diagram of a boiler according to an embodiment of the present invention. The boiler includes a temperature controller 1 for setting a heating and hot water temperature and a controller 2 for performing overall control functions of the boiler. A blowing fan 3, a proportional valve 4, a temperature sensor 5 for detecting hot water temperature, and a temperature sensor 6 for detecting a temperature for returning water.

The control unit 2 includes a target calorie calculating unit 21, an actual calorie calculating unit 22 and a combustion failure determining unit 23 to output the output signal of the temperature regulator 1 to a target calorie calculating unit 21 An air amount control unit 25 for controlling the number of revolutions of the air blowing fan 3 in accordance with the output signal of the target calorie amount calculating unit 21, A fuel amount control section 26 for controlling the opening amount of the proportional valve 4 for regulating the gas supply amount in accordance with the output signal of the hot water temperature detecting sensor 5, A hot water temperature input unit 27 for transferring the output signal to the calculation unit 22 and a return temperature input unit 28 for transmitting the output signal of the temperature sensor 6 for returning the water temperature to the actual heat amount calculation unit 22 .

2 is a flow chart for explaining the method of the present invention. When combustion is started in the burner of the boiler, the target calorie calculating unit 21 in the control unit 2 firstly calculates the target calorie value And supplies the burner to the burner through a method of controlling the number of revolutions of the blowing fan 3 and the amount of opening of the proportional side 4 in response to the target calorie amount So that the amount of air and the amount of fuel to be supplied are controlled in accordance with the target calorie amount (S1).

When the amount of air supplied to the burner and the supply amount of the gas are controlled so that the target calorie amount corresponding to the set temperature of the user is thus controlled, the actual calorie calculating unit 22 in the control unit 2 calculates the temperature 5 and the temperature sensor 6 for detecting the temperature for returning water continuously detects the hot water temperature and the water return temperature of the current heating water in real time and calculates the actual heat amount through a predetermined formula (S2).

At this time, the actual calorie calculating formula performed by the actual calorie calcu- lating unit 22 includes a correction coefficient having a hot water temperature and a return water temperature, a predetermined value (coefficient based on the heat loss of the heat exchanger, In case of using sensor, it is input value of flow sensor. When flow sensor is not used, experimental value according to instrument is fixed value. However, since characteristics are different from each other such as structure of heat exchanger, ) Is calculated by multiplying the value obtained by subtracting the return water temperature from the hot water temperature by the correction coefficient, and then multiplying again by the flow meter number, that is, (hot water temperature - water temperature) * correction coefficient * flow meter number.

Then, the combustion failure judgment unit 23 in the control unit 2 reads the target calorie amount calculated by the target calorie calculation unit 21, and then calculates the actual calorie amount calculated from the target calorie amount through the actual calorie calculation unit 22 And the absolute value of the result is determined to be equal to or greater than a predetermined combustion failure detection determination coefficient K (CO means a value which flows out above the reference value) (S3).

If the absolute value obtained by subtracting the actual calorie from the target calorie amount is greater than or equal to the determined combustion failure detection determination coefficient K as a result of the determination by the combustion failure determination unit 23 as described above, it is determined that combustion failure occurs due to clogging of the burner pin, The driving of the burner 3 is stopped and the burner is stopped stably by closing the proportional side 4 (S4).

If necessary, the absolute value of the result obtained by subtracting the actual calorie from the target calorie is greater than or equal to a predetermined determination value K of the combustion failure detection, so that when the burner is safely stopped, the display unit provided in the temperature controller 1 It is possible to indicate that the burner is forcibly stopped and stopped by the burning failure of the burner so that the user can recognize it and take necessary measures immediately.

Of course, if the absolute value obtained by subtracting the actual calorie from the target calorie amount as a result of the determination by the combustion failure determination unit 23 is smaller than the determined combustion failure detection determination coefficient K, it is recognized that the burner is normally operating, The control is returned to step S1 in which control is performed so that the amount of air and the amount of fuel supplied to the burner are supplied corresponding to the target amount of heat through a method of controlling the number of revolutions of the fan 3 and the amount of opening of the proportional side 4.

As described above, in the present invention, the control unit in the boiler uses the target calorie amount calculated in advance with respect to the set temperature of the user, the hot water temperature of the heated water detected through the temperature sensor for detecting hot water temperature, and the return water temperature difference detected by the temperature sensor for detecting the hot water temperature By comparing the actually heated calories with each other, it is possible to prevent incomplete combustion due to clogging of the burner pin by safely stopping the combustion when the difference between the target calorie amount and the actual heated calories is out of a predetermined level, thereby preventing CO leakage It is possible to significantly improve the reliability and safety of the product itself due to its commercial merit and combustion control.

Although the preferred embodiments of the present invention have been described for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. Which will be apparent to those skilled in the art.

1: Thermostat
2:
21: target calorie calculation unit 22: actual calorie calculation unit
23: Combustion failure judgment part 24: Set temperature input part
25: air amount control unit 26: fuel amount control unit
27: hot water temperature input unit 28:
3: blowing fan
4: Proportional side
5: Temperature sensor for tapping temperature detection
6: Temperature sensor for return temperature

Claims (3)

Controlling the amount of air and the amount of fuel corresponding to the target calorific value by calculating the target calorie with respect to the set temperature of the user at the control unit and controlling the number of revolutions of the ventilation fan and the opening of the proportional side when the combustion starts in the burner of the boiler ;
Detecting a hot water temperature and a hot water temperature of the hot water through a hot water temperature detecting temperature sensor and a hot water temperature detecting temperature sensor to calculate an actual heat amount through a predetermined formula;
Determining whether an absolute value of a result obtained by subtracting the actual calorie from the target calorific value calculated above is greater than or equal to a predetermined combustion failure detection determination coefficient (K);
And stopping the burner if the absolute value of the result obtained by subtracting the actual calorie from the target calorie is greater than or equal to the determined combustion failure detection determination coefficient (K).
The method according to claim 1,
Wherein the predetermined actual calorie calculating formula is (hot water temperature - water temperature) * correction coefficient * flow meter number.
The method according to claim 1,
When the absolute value of the result obtained by subtracting the actual calorie from the target calorie is greater than or equal to the determined combustion failure detection determination coefficient K,
And displaying a state in which the boiler is forcibly stopped and stopped by the burning failure of the burner on the display unit provided in the temperature controller.

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