KR20070033678A - Detection method of wind pressure sensor abnormality in air proportional control boiler using wind pressure sensor - Google Patents

Abstract

The present invention relates to a wind pressure sensor abnormality detection method in an air proportional control boiler using a wind pressure sensor, the air supply and exhaust hose is connected between the blower and the wind pressure sensor, the controller of the air sucked by the blower and the air supply hose In the proportional control boiler for performing combustion control by adjusting the gas discharge amount of the proportional control valve according to the output value according to the differential pressure of the wind pressure sensor for measuring the pressure, the controller for checking whether the current boiler is the combustion stop state And a second step of receiving a wind pressure sensor output value when there is no blower output if it is determined that the boiler combustion is stopped in the first step, and the output value of the wind pressure sensor input in the second step is for a predetermined time. A third step of determining whether or not a predetermined value is exceeded and an output value of the wind pressure sensor as a result of the determination of the third step; If the abnormal output value exceeds this predetermined value, the wind pressure sensor is regarded as having a problem, and according to an error occurrence, the boiler is stopped in a combustion state and an error occurs. By checking the output value of the wind pressure sensor during stop, it detects an abnormality of the wind pressure sensor and displays an alarm indicating that an error occurs when the wind pressure sensor is abnormal, thereby preparing for a safety abnormality of the boiler.

 Blower, wind pressure sensor, boiler, air proportional control type

Description

Air pressure sensor abnormality detection method in air proportional control boiler using wind pressure sensor {AIR PRESSURESENSOR ERROR SENSING METHOD IN AIR PROPORTIONALITY TYPE BOILER USING AIR PRESSURESENSOR}

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

2 is an operation flowchart showing a wind pressure sensor abnormality detection method in an air proportional control boiler using the wind pressure sensor according to the present invention.

Figure 3 is a graph showing the output value of the blower RPM and the wind pressure sensor according to a certain time when performing the wind pressure sensor abnormality detection method in the air proportional control boiler using the wind pressure sensor 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 wind pressure sensor abnormality detection method in an air proportional control boiler using a wind pressure sensor, in particular in an air proportional control boiler using a wind pressure sensor, the abnormality of the wind pressure sensor by checking the output value of the wind pressure sensor during the combustion of the boiler The present invention relates to a method for detecting an abnormality in a wind pressure sensor in an air proportional control boiler using a wind pressure sensor to prepare for a safety abnormality of a boiler by displaying an alarm indicating that an error occurs when the wind pressure sensor is abnormal.

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.

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 it, 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. Next, since the fuel is supplied to the burner in proportion to the measured air pressure, by supplying a more precise amount of fuel in response to the pressure of the inflow air, the combustion efficiency is increased and the emission of harmful gases is suppressed to the maximum to prevent environmental pollution. Can be.

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, 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 to perform the combustion control of the boiler by adjusting the gas discharge amount of the air proportional control valve in accordance with the change in the air pressure Done.

On the other hand, in the combustion control of the boiler using the wind pressure sensor as described above, if a problem occurs due to the aging of the wind pressure sensor or defective parts inside the wind pressure sensor, and the output value changes, according to the accurate differential pressure Since the output value is not output to the controller, the combustion control of the boiler becomes unstable, and thus there is a problem that an error occurs in the safety of the boiler combustion.

The present invention is to solve the above problems, the purpose of the air proportional control boiler using a wind pressure sensor, the output value of the wind pressure sensor at the time of the constant time constant by checking the output value of the wind pressure sensor during the combustion stop of the boiler It detects an abnormality of the wind pressure sensor by checking if it is over the value, and an error of wind pressure sensor in an air proportional control boiler using the wind pressure sensor to prepare for the safety abnormality of the boiler by displaying an alarm when an error of the wind pressure sensor is detected. To provide a detection method.

Wind pressure sensor abnormality detection method in the air proportional control boiler using the wind pressure sensor of the present invention for achieving the above object, the air supply and exhaust hose is connected between the blower and the wind pressure sensor, the controller is the blower and the air supply hose An air proportional control boiler that performs combustion control by adjusting a gas discharge amount of an air proportional control valve according to an output value according to a differential pressure of a wind pressure sensor measuring a pressure of air sucked by A first step of checking whether the wind turbine is stopped in the first stage, and a second step of receiving a wind pressure sensor output value when there is no blower output; and a wind pressure sensor input in the second step. A third step of determining whether or not the output value of the predetermined value is equal to or greater than a predetermined value for a predetermined time; If the output value of the air pressure sensor is a predetermined value or more than the predetermined value, it is regarded as a problem occurred in the wind pressure sensor is characterized in that it comprises a fourth step of making the boiler in the combustion stop state according to the error occurrence and alarm display of the error occurrence. .

Hereinafter, a wind pressure sensor abnormality detecting method in an air proportional control boiler using the wind pressure sensor 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 using a wind pressure sensor to which the present invention is applied, and includes a blower 10 for sucking air through an intake duct and air sucked by the blower 10. A wind pressure sensor 20 for measuring the pressure and outputting the differential pressure according to the change in the air pressure as an output value, and a controller for outputting a control signal for adjusting the gas amount according to the output value according to the differential pressure output from the wind pressure sensor 20 ( 40, an 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 a display unit 60 for displaying an alarm when an error occurs.

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 air 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-described 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 part 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, a differential pressure is generated in the wind pressure sensor 20 according to a change in air pressure, and an output value according to the differential pressure is output to the controller 40 so that the controller 40 controls the air proportional control valve 50 according to the change in the air pressure. The combustion control of the boiler is performed by adjusting the gas discharge amount of the boiler.

On the other hand, in order to detect the abnormality of the wind pressure sensor according to the present invention, the controller 40 checks whether the output value of the wind pressure sensor 20 at this time is a predetermined value or more when the boiler is in a combustion stop state, the wind pressure sensor 20 Detect if there is something wrong.

That is, when the output value of the wind pressure sensor 20 is equal to or greater than a predetermined value, and there is no output of the blower 10, the value obtained by applying ± error value to the value coming out of no pressure generation inside the wind pressure sensor 20 becomes greater than or equal to the value. Considering that the wind pressure sensor 20 has a problem, the controller 40 generates an error and displays the occurrence of the error through the display unit 60 so that the user knows it so that safety measures can be taken.

2 is an operation flowchart showing a wind pressure sensor abnormality detection method in an air proportional control boiler using a wind pressure sensor according to the present invention, Figure 3 is a wind pressure sensor abnormality detection method in an air proportional control boiler using a wind pressure sensor according to the present invention. When performing, as a graph showing the output value of the RPM and the wind pressure sensor of the blower according to a predetermined time, it will be described with reference to this wind pressure sensor abnormality detection method in the controller 40 as follows.

First, the controller 40 checks whether the current boiler is in the combustion stop state (S1), and if not in the boiler combustion stop state to continue the combustion normal state, and if the boiler combustion stop state unconditionally blower 10 output If there is no wind pressure sensor 20 receives the output value (S2).

It is determined whether the output value of the wind pressure sensor 20 input in the step S2 is equal to or greater than a predetermined value for a predetermined time (S3), and the output value of the wind pressure sensor 20 is equal to or greater than a predetermined value in the graph shown in FIG. 3. Likewise, if the abnormal output value is regarded as a problem in the wind pressure sensor 20 to make the boiler in the combustion stop state according to the error occurrence to display the error occurrence through the display unit (60) (S4).

As described above, in the present invention, the output value of the wind pressure sensor 20 is unconditionally checked for a certain period of time during the stop of boiler combustion, and the output value is a constant value to which a ± error value is applied to a value coming out from the state where there is no pressure inside the wind pressure sensor 20. If the value is higher than the value, the boiler is stopped and an alarm is displayed so that the user can quickly recognize the abnormal state of the boiler so that safety measures can be taken later.

As described above, according to the present invention, in the air proportional control boiler using the wind pressure sensor, the output value of the wind pressure sensor is checked during the combustion stop of the boiler to check whether the output value of the wind pressure sensor at this time is equal to or greater than a predetermined value for a predetermined time. By detecting an abnormality of the wind pressure sensor and displaying an alarm indicating that an error has occurred when the wind pressure sensor is detected, the user can recognize the abnormal state of the boiler so that the user can take safety measures. There is a contrasting effect.

Claims (2)

The air supply and exhaust hose is connected between the blower and the wind pressure sensor, so that the controller adjusts the gas discharge amount of the air proportional control valve according to the output value according to the differential pressure of the wind pressure sensor which measures the pressure of the air sucked by the blower and the air supply hose. In the air proportional control boiler performing combustion control by, A first step of confirming whether the current boiler is stopped by the controller; A second step of receiving an output of a wind pressure sensor when there is no output of the blower if it is determined that the boiler combustion is stopped in the first step; A third step of determining whether an output value of the wind pressure sensor input in the second step is a predetermined value for a predetermined time; As a result of the determination in the third step, if the output value of the wind pressure sensor is an abnormal output value over a predetermined value, the wind pressure sensor is regarded as having a problem, and the boiler is stopped in combustion according to an error occurrence, and a fourth alarm is displayed. Air pressure sensor abnormality detection method in an air proportional control boiler using a wind pressure sensor characterized in that the step consisting of. The method of claim 1, The wind pressure sensor abnormality detection method in the air proportional control boiler using a wind pressure sensor, characterized in that in the third step, a predetermined value is a value added ± error value to a value coming out from the state that there is no pressure inside the wind pressure sensor.

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