KR100629780B1 - Error correction method of air pressure sensor in air proportionality type boiler - Google Patents

Abstract

A method of compensating error of a wind pressure sensor in an air proportion control boiler is provided to prevent decrease of combustion efficiency of the boiler smoothly controlling a blower. A method of compensating error of a wind pressure sensor in an air proportion control boiler includes the steps of measuring a temperature in the boiler during a normal operation of the boiler(S1), determining whether an inner temperature of the boiler is increased more than a reference temperature(S2), determining whether an output value of the wind pressure sensor is within a compensation value range(S3), and compensating the output value of the wind pressure sensor when the inner temperature is in the compensation value range and outputting an abnormal signal when being higher than the compensation value(S6).

Description

ERROR CORRECTION METHOD OF AIR PRESSURE SENSOR IN AIR PROPORTIONALITY TYPE BOILER}

1 is a view showing a simplified configuration of an air proportional control boiler to which the present invention is applied.

2 is an operation flowchart showing an error compensation method of a wind pressure sensor in an air proportional control boiler according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: blower 20: wind pressure sensor

31: supply hose 32: exhaust hose

40: controller 50: air proportional control valve

60: display unit

The present invention relates to a method for compensating an error of a wind pressure sensor in an air proportional control boiler, and more particularly, in an air proportional control boiler using a wind pressure sensor, a boiler calorie temperature is estimated to predict a boiler internal temperature or a separate temperature sensor is used. The internal temperature of the boiler is measured by using the boiler, and if the predicted or measured boiler temperature rises above the standard temperature, it compensates the output value of the wind pressure sensor when the blower is stopped. The present invention relates to an error compensation method of a wind pressure sensor in an air proportional control boiler.

Recently, general households use gas boilers that use liquefied natural gas (LNG), which is low in air pollution and easy to use, as heating and hot water boilers. This gas boiler is usually condensed according to a heat exchanger that heats heating water. And non-condensing. The double-condensing gas boiler maximizes thermal efficiency by directly heating the heating water using combustion heat and absorbing the latent heat of condensation of the exhaust gas again.

That is, when looking at the condensing gas boiler, a burner is installed at the upper part to ignite and burn down the gas mixed with air, and the heating water is heated by using a high temperature combustion gas in the heating heat exchanger installed at the lower part, and thus the heated heating Heating is performed by circulating the water indoors.

In addition, when using hot water, the hot water supplied to the room is cut off using a three-way valve, and switched to a hot water supply heat exchanger installed in parallel and used as a heating source, and for hot water supply to other parts of the hot water heat exchanger that is blocked and contacted. The hot water is heated while supplying and returning the hot water, and the warmed hot water is used for washing and bathing.

Meanwhile, the condensing gas boiler as described above may be classified into a current proportional control method and an air proportional control method according to the control method. In particular, the air proportional control method measures the pressure of air introduced from the outside, unlike the current proportional control method. Then, since the fuel is supplied to the burner in proportion to the measured air pressure, the fuel is supplied in a more accurate amount in response to the pressure of the inflow air, thereby improving combustion efficiency and suppressing the emission of harmful gases to the maximum, thereby reducing environmental pollution. It can be prevented.

In this case, in order to measure the pressure of the air introduced from the outside according to the air proportional control method, a wind pressure sensor is used in the air proportional control boiler.

That is, in the air proportional control boiler using the wind pressure sensor, when the blower operates under the control of the controller and the intake of external air is made, the air flows through the air supply hose between the air supply terminal of the blower and the air supply hose attachment part of the wind pressure sensor. Air flowing into the wind pressure sensor is discharged to the blower through an exhaust hose between the exhaust hose attachment portion of the wind pressure sensor and the exhaust terminal of the blower.

At this time, when the differential pressure is generated in accordance with the change in the air pressure in the wind pressure sensor, and outputs the output value according to the differential pressure to the controller, the controller sends a PWM signal for controlling the rotational speed of the blower by the output value input from the wind pressure sensor By outputting the air pressure by changing the air pressure as desired, the combustion control of the boiler is performed by adjusting the gas discharge amount of the air proportional control valve according to the change of the air pressure.

On the other hand, in performing the combustion control of the boiler using the wind pressure sensor as described above, if the internal temperature of the boiler rises, the wind pressure sensor generates a component error due to the increase of the internal temperature.

That is, if the wind pressure sensor generates a component error due to an increase in the internal temperature of the boiler, the output value according to the correct differential pressure cannot be output to the controller. Therefore, the control error is very large when controlling the boiler combustion, resulting in a decrease in boiler combustion efficiency. Done.

The present invention is to solve the above problems, the object of the air proportional control boiler using a wind pressure sensor, to obtain the heat quantity of the boiler to predict the internal temperature of the boiler or to determine the internal temperature of the boiler using a separate temperature sensor If the predicted or measured boiler internal temperature rises above the reference temperature, it is determined whether the output value of the wind pressure sensor is within the compensable reference value when the blower is stopped, and if it is within the reference value, the output value of the wind pressure sensor is compensated by the increase of the internal temperature. Compensation for the error of the wind pressure sensor due to the increase in the boiler's internal temperature, and the error compensation of the wind pressure sensor in the boiler with the air proportional control type that prevents the boiler combustion efficiency from deteriorating by allowing the smooth control of the blower. To provide a way.

The error compensation method of the wind pressure sensor in the proportional control boiler according to the present invention for achieving the above object, the supply and exhaust hose is connected between the blower and the wind pressure sensor, the controller is sucked by the blower and the supply hose In the proportional control boiler for controlling the rotation speed of the blower in accordance with the output value according to the differential pressure of the wind pressure sensor for measuring the pressure of the air, and the combustion control by adjusting the gas discharge amount of the air proportional control valve, the boiler in the controller A first step of measuring a temperature inside the boiler in a normal operation state; a second step of determining whether the boiler internal temperature measured in the first step rises above a reference temperature; and, in the second step, the boiler internal temperature If the temperature rises above the standard temperature, check the output value of the wind pressure sensor when the blower is stopped. The third step of determining whether the reference value is within the compensable reference value, and if the output value of the wind pressure sensor is within the compensable reference value in the third step, the output value of the wind pressure sensor is compensated as the boiler internal temperature is increased; And a fourth step of outputting the abnormal signal.

Hereinafter, an error compensation method of the wind pressure sensor in the air proportional control boiler according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing a simplified configuration of an air proportional control boiler to which the present invention is applied, by measuring a blower 10 for sucking air through an intake duct and the pressure of air sucked by the blower 10. Wind pressure sensor 20 for outputting the differential pressure according to the change in air pressure as an output value, a control signal for adjusting the amount of gas according to the output value according to the differential pressure output from the wind pressure sensor 20 and the number of revolutions of the blower 10 Controller 40 for outputting a control signal for controlling the control, the air proportional control valve 50 for adjusting the discharge amount of the gas in accordance with the gas amount control signal output from the controller 40, and when an error occurs to display an alarm It is configured to include a display unit 60.

The blower 10 is provided with an air supply terminal and an exhaust terminal, and the air pressure sensor 20 is provided with an air supply hose attachment portion and an exhaust hose attachment portion, and the air supply terminal and the air pressure sensor 20 of the blower 10 are provided. Between the air supply hose attachment portion of the air supply hose 31 is connected, and between the exhaust hose attachment portion of the wind pressure sensor 20 and the exhaust terminal of the blower 10 is connected via an exhaust hose (32).

In the boiler having the above configuration, when the outside air is sucked by the blower 10, the air supply hose 31 between the air supply terminal of the air blower 10 and the air supply hose attaching portion of the wind pressure sensor 20 is disconnected. Air is introduced into the wind pressure sensor 20, and the air introduced into the wind pressure sensor 20 is passed through the exhaust hose 32 between the exhaust hose attachment portion of the wind pressure sensor 20 and the exhaust terminal of the blower 10. Exit to the blower (10).

At this time, when the differential pressure is generated in accordance with the change in the air pressure in the wind pressure sensor 20, and outputs the output value according to the differential pressure to the controller 40, the controller 40 by the output value input from the wind pressure sensor 20 By outputting a PWM signal for controlling the rotation speed of the blower 10 to the blower 10 to change the air pressure as desired, by adjusting the gas discharge amount of the air proportional control valve 50 in accordance with the change in the air pressure Combustion control is performed.

On the other hand, in order to compensate for the error of the wind pressure sensor 20 according to the present invention, the controller 40 obtains the heat quantity of the boiler and predicts the internal temperature of the boiler or measures the internal temperature of the boiler using a separate temperature sensor. Alternatively, when the measured boiler internal temperature rises above the reference temperature, it is determined whether the output value of the wind pressure sensor 20 is within the compensable reference value when the blower 10 is stopped. Compensate for ascension.

2 is an operation flowchart showing an error compensation method of the wind pressure sensor in the air proportional control boiler according to the present invention. Referring to this, the wind pressure sensor error compensation method in the controller 40 will be described below.

First, the controller 40 predicts or measures the temperature inside the current boiler in the normal operation of the boiler (S1).

In other words, the boiler calorific value is calculated by calculating the boiler operation time and the stop time, and then the calorific value of the boiler is converted to predict the boiler internal temperature or the boiler internal temperature is measured by using a separate temperature sensor.

At this time, the operating time and the stop time of the boiler can be obtained through Equation 1 below.

Uptime = 20 (Minimum Uptime) + X-time × 3

Stop time = 35 (max stop time) + X-time × 3

X-time = (average calorie wind voltage-minimum calorie wind voltage)

         ÷ [(Max. Calorie wind voltage-Min calorie wind voltage) ÷ 10]

Subsequently, it is determined whether the boiler internal temperature predicted or measured in step S1 has risen above the reference temperature (S2).

When the internal temperature of the boiler rises above the reference temperature in step S2, the output value of the wind pressure sensor 20 is checked at the time when the blower is stopped (S3), and the output value of the checked wind pressure sensor 20 can be compensated. It is determined whether the reference value is within (S4).

If the output value of the wind pressure sensor 20 is within the compensable reference value in the step (S4), the output value of the wind pressure sensor 20 is compensated as the inner temperature of the boiler is increased (S5). By judging, the boiler abnormal signal is output in the alarm display form of the display unit 60 (S6).

On the other hand, when the boiler is stopped in combustion (S7) if the output value of the wind pressure sensor 20 is not at all (S8), it is determined that the hose of the wind pressure sensor 20 is missing or the wind pressure sensor 20 is broken (S6). As such, the boiler abnormal signal is output in the form of an alarm display of the display unit 60.

As described above, the present invention compensates the error of the wind pressure sensor 20 due to the increase in the boiler internal temperature by compensating the output value of the wind pressure sensor 20 as the internal temperature increases when the boiler internal temperature rises above the reference temperature. I can do it.

As described above, the present invention, in the air proportional control boiler using a wind pressure sensor, by calculating the heat of the boiler to predict the internal temperature of the boiler or by measuring the internal temperature of the boiler using a separate temperature sensor, Alternatively, if the measured boiler internal temperature rises above the reference temperature, it is determined whether the output value of the wind pressure sensor is within the compensable standard value when the blower is stopped. There is an effect that can compensate for the error of the wind pressure sensor due to the rise.

Accordingly, it is possible to smoothly control the blower due to the output value according to the precise differential pressure of the wind pressure sensor to prevent the boiler combustion efficiency from being lowered.

Claims (5)

Supply and exhaust hoses are connected between the blower and the wind pressure sensor, so that the controller controls the rotation speed of the blower according to the output value according to the differential pressure of the wind pressure sensor that measures the pressure of the air sucked by the blower and the supply hose, In the air proportional control boiler performing combustion control by adjusting the gas discharge amount of the proportional control valve, A first step of measuring a temperature in a current boiler in a state in which the boiler is normally operated by the controller; A second step of determining whether the boiler internal temperature measured in the first step rises above a reference temperature; A third step of determining whether the internal temperature of the boiler rises above the reference temperature in the second step by checking the output value of the wind pressure sensor when the blower is stopped; If the output value of the wind pressure sensor is within the compensable reference value in the third step, the output value of the wind pressure sensor is compensated as the boiler internal temperature is increased, and if it is above the compensable reference value, the boiler abnormal signal is output. Error compensation method of wind pressure sensor in air proportional control boiler. The method of claim 1, The method of compensating for the error of the wind pressure sensor in the air proportional control boiler characterized in that the calorific value of the boiler is calculated by calculating the boiler operation time and the stop time in the first step, and then the internal temperature of the boiler is measured by converting the calorific value of the boiler. . The method of claim 1, Compensating the error of the wind pressure sensor in the air proportional control boiler, characterized in that for measuring the internal temperature of the boiler using a separate temperature sensor in the first step. The method of claim 1, Compensating the error of the wind pressure sensor in the air proportional control boiler, characterized in that the boiler further comprises a fifth step of determining whether there is no output value of the wind pressure sensor in the combustion stop state, and outputting a boiler abnormal signal when there is no output value. Way. The method according to claim 1 or 4, Error compensation method of the wind pressure sensor in the air proportional control boiler characterized in that for outputting the boiler error signal in the form of alarm display.

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