KR20240079888A - How to detect blockage of exhaust flue of gas boiler - Google Patents

Abstract

The present invention seeks to provide a method for detecting blockage of the exhaust flue of a gas boiler that can accurately detect abnormal signs of the exhaust flue of a gas boiler in real time.
That is, the present invention includes a negative pressure detection step (S10) of detecting the internal pressure of the outlet (1) of the gas boiler in the form of negative pressure using the venturi module (10) and controlling the operation of the NC contact wind pressure switch (20); If the sound pressure detected in the sound pressure detection step (S10) is lower than the set pressure value, it is judged as a normal operation state, and if it is equal to or greater than the set pressure value, it is judged as an abnormal operation state (S20); And if an abnormal operation condition is determined in the abnormality detection step (S20), the signal from the NC contact wind pressure switch 20 is re-received after the set time has elapsed, and if the negative pressure is equal to or greater than the set pressure value, the flue is blocked. It is characterized by including a verification step (S30) of determining that the negative pressure is lower than the set pressure value and determining the settlement operation state.
Using the gas boiler exhaust flue blockage detection method, abnormal signs of the gas boiler exhaust flue can be quickly detected in real time using an NC contact wind pressure switch operated by negative pressure to prevent asphyxiation and gas boiler overheating due to backflow of combustion gas. It has the advantage of being able to prevent safety accidents, including.

Description

How to detect blockage of exhaust flue of gas boiler {How to detect blockage of exhaust flue of gas boiler}

The present invention relates to a method for detecting blockage in the exhaust flue of a gas boiler. To describe this in more detail, it relates to a method for detecting blockage in the exhaust flue of a gas boiler that can accurately detect signs of an abnormality in the exhaust flue of a gas boiler in real time.

Gas boilers currently used in most homes burn gas using combustion air flowing in through an exhaust port, and the gas generated after combustion is configured to be discharged through an exhaust flue.

However, if the supply and exhaust air supply is unbalanced due to incomplete combustion of the boiler or blockage of the exhaust flue (corrosion due to carbon or nitrogen contained in the exhaust gas, heavy snow), the temperature inside the combustion chamber of the boiler rises, causing damage to surrounding parts. This is directly leading to safety accidents, including suffocation, due to boiler failure or combustion gases entering the room.

Accordingly, in the previously disclosed registered patent No. 10-1106934, the step of initializing the system when the combustion device is turned on after installation of the combustion device; The blower rotation speed is measured step by step and the blockage of the combustion device is determined based on this, but the blower operates in the first setting stage in which the blower rotation speed corresponding to the wind pressure stage set in the standard installation state is stored and the combustion device is installed. A step of resetting the reference value of the blower rotation speed, including a second setting step of storing the maximum possible rotation speed; By comparing the measured speed of the blower with the reset reference value, if the measured speed of the blower is 1000 RPM greater than the maximum speed of the blower in the first setting stage or exceeds the maximum speed of the blower in the second setting stage In this case, a technology including the step of determining whether the combustion device flue is blocked has been pre-registered.

In addition, in Patent No. 10-1601709, which is another prior art, an ignition process is performed according to a user-set temperature requested from the outside and a step (a) of performing temperature control to reach the user-set temperature; Step (b) determining whether the current fan speed of the driven blower exceeds the reference fan speed; If it is determined that the current fan rotation speed exceeds the standard fan rotation speed, the difference between the heating supply temperature value and the heating return temperature value detected by the temperature sensors during heating supply is calculated, and whether the calculated value is less than the preset reference temperature value. Step (c) of judging; If it is determined that the calculated value is less than the reference temperature value, step (d) of determining whether the time elapsed based on the determination time of step (c) elapses a preset setting time; And if it is determined that the elapsed time based on the judgment point of step (c) is the set time, a technology including step (e) of displaying a notification confirming the exhaust flue closure externally has been previously proposed.

However, the above prior arts attempt to determine flue blockage using blower fan rotation speed information, but when there is a change in blower rotation speed depending on operating conditions (i.e., in the case of proportional control section), flue blockage cannot be determined. Problems followed.

Meanwhile, when the flue is blocked, a safety device is applied to detect the temperature rise of the heating heat exchanger and determine whether there is an abnormal combustion condition. However, the response speed is slow and the safety device does not perform its normal function when local overheating occurs. It is impossible to do so.

KR 10-1106934 B1 (2013.03.21.) KR 10-1601709 B1 (2016.03.03.)

Accordingly, the present invention was conceived to solve the above-mentioned problems. It uses a NC (Normally Close) contact wind pressure switch operated by negative pressure to quickly detect abnormal signs of the gas boiler exhaust flue in real time and prevent backflow of combustion gas. The purpose is to provide a method for detecting blockage of the exhaust flue of a boiler that can prevent safety accidents, including suffocation and overheating of gas boilers, in advance.

In addition, the present invention detects the negative pressure value by forming a venturi tube on the outlet side of the fan, and determines normal operation when the negative pressure is lower than the set pressure value, maintaining the NC contact state of the switch without changing the contact operation. Therefore, the problem of the present invention is to provide a method for detecting blockage of the exhaust flue of a boiler that does not require frequent operation of the wind pressure switch.

In addition, although not separately described, other purposes within the scope that can be inferred considering the specific details and claims for carrying out the invention below are also included in the overall subject of the present invention.

As a specific means to solve the above-described problem of the invention, the present invention discloses a method for detecting blockage of the exhaust flue of a boiler, using a venturi module (10) to detect the internal pressure of the outlet (1) of the gas boiler in the form of negative pressure, thereby A negative pressure detection step (S10) that controls the operation of the contact wind pressure switch (20); If the sound pressure detected in the sound pressure detection step (S10) is lower than the set pressure value, it is judged as a normal operation state, and if it is equal to or greater than the set pressure value, it is judged as an abnormal operation state (S20); And if an abnormal operation condition is determined in the abnormality detection step (S20), the signal from the NC contact wind pressure switch 20 is re-received after the set time has elapsed, and if the negative pressure is equal to or greater than the set pressure value, the flue is blocked. It is characterized by including a verification step (S30) of determining that the negative pressure is lower than the set pressure value and determining the settlement operation state.

At this time, the venturi module 10 is connected to the positive pressure port 21 of the NC contact wind pressure switch 20, and the negative pressure acting on the positive pressure port 21 of the NC contact wind pressure switch 20 is compared to the set pressure value. If it is low, the wind pressure switch (20) does not operate and outputs an open signal. If the negative pressure acting on the positive pressure port (21) is equal to or greater than the set pressure value, it outputs a closed signal, and the closed signal is transmitted to the microcomputer. It is characterized by being used as a signal to control boiler operation.

In addition, in the verification step (S30), when it is determined that the flue is blocked, the microcomputer outputs a notification signal through the display, lamp, or speaker, operates the air supply fan at maximum rpm, stops the pump operation after a set time, and blocks the gas valve in the following order. It is characterized by being provided to control the boiler to stop combustion operation.

According to a specific means for solving the above-described problem, the present invention uses an NC contact wind pressure switch operated by negative pressure to quickly detect abnormal signs of the gas boiler exhaust flue in real time to prevent asphyxiation due to backflow of combustion gas and overheating of the gas boiler. It has the effect of preventing safety accidents, including accidents, in advance.

In addition, when using a wind pressure switch using only positive pressure, the contact operation status is sent as a signal to the control device each time positive pressure occurs. If this operation situation is repeated several or hundreds of times, contact damage or the lifespan of parts may be reduced. In order to overcome the problem that leads to shortening, the present invention detects the negative pressure value by forming a venturi tube on the outlet side of the fan, and when the negative pressure is lower than the set pressure value, it is judged as normal operation, so the switch is maintained without change in contact operation. Since it is maintained in the NC state, there is no need to frequently operate the wind pressure switch, which has the advantage of significantly lowering the component failure rate.

1 is a flowchart schematically showing a method for detecting blockage of an exhaust flue of a gas boiler according to an embodiment of the present invention.
Figure 2 is a configuration diagram showing the operating state of the wind pressure switch when the gas boiler according to the present invention is in a normal state.
Figure 3 is a configuration diagram showing the operating state of the wind pressure switch when the exhaust pipe of the gas boiler according to the present invention is blocked.
Figure 4 is a flow chart showing the verification steps of the method for detecting blockage of the exhaust flue of a gas boiler according to an embodiment of the present invention.
Figure 5 is a configuration diagram schematically showing the operation of a microcomputer when determining a flue blockage state in the method for detecting blockage of the exhaust flue of a gas boiler according to an embodiment of the present invention.

Hereinafter, specific details for implementing the present invention will be described with reference to the attached drawings. Also, in describing the present invention, if it is determined that related known functions may unnecessarily obscure the gist of the present invention as they are obvious to those skilled in the art, the detailed description thereof will be omitted. Additionally, the technical terms used in this specification are terms selected in consideration of their functions in the embodiments, and the meaning of the terms may vary depending on the specific embodiment of the invention.

1 is a flowchart schematically showing a preferred embodiment of a method for detecting blockage of an exhaust flue of a gas boiler provided by the present invention.

The present invention relates to a method for detecting blockage of the exhaust flue of a gas boiler, which uses an NC contact wind pressure switch operated by negative pressure to quickly and accurately detect abnormal signs of the exhaust flue of a gas boiler in real time, as shown in Figure 1. It is characterized by consisting of main steps including a sound pressure detection step (S10), an abnormality detection step (S20), and a verification step (S30), and each step will be described in detail below.

1. Sound pressure detection step (S10)

The negative pressure detection step (S10) according to the present invention is a step of controlling the operation of the NC contact wind pressure switch (20) by detecting the internal pressure of the outlet (1) of the gas boiler in the form of negative pressure using the venturi module (10).

The venturi module 10 includes a venturi tube connected to the inside of the outlet 1 of the fan connected to the inside of the combustion chamber.

When the fan operates, outside air flows in through the air supply pipe (3) and is introduced into the combustion chamber through the fan outlet (1), causing combustion, and the combustion gas is discharged to the outside through the exhaust pipe.

Therefore, in normal operating conditions where the boiler's exhaust is smooth, when the wind speed inside the outlet (1) increases, negative pressure (negative pressure) is applied inside the venturi tube formed at the outlet (1) of the fan.

The venturi module 10 is used to detect pressure fluctuations inside the outlet 1. At this time, the venturi module 10 is connected to the positive pressure port 21 of the NC contact wind pressure switch 20.

And, when the negative pressure acting on the positive pressure port 21 of the NC contact wind pressure switch 20 is lower than the set pressure value, the wind pressure switch 20 does not operate and outputs an Open (Com-NC state) signal.

On the other hand, if the sound pressure is equal to or greater than the set pressure value, it is equipped to output a Closed (Com-NO state) signal.

As it is equipped to control the operation of the NC contact wind pressure switch 20 using the negative pressure detected using the venturi module 10, the NC contact wind pressure switch 20 is opened (Com-NC state) without switching the contact operation. As the condition is maintained, life shortening phenomenon, including damage to the contact points of the NC contact wind pressure switch (20), is prevented. In particular, boiler malfunction can be prevented by detecting the internal pressure of the outlet (1) in the form of negative pressure even during the usual forced exhaust operation. there is.

2. Abnormality detection step (S20)

In the abnormality detection step (S20) according to the present invention, if the negative pressure detected in the negative pressure detection step (S10) is lower than the set pressure value, it is determined to be in a normal operation state, and if it is equal to or greater than the set pressure value, it is determined to be in an abnormal operation state. This is the judgment stage.

Figure 2 is a configuration diagram showing the operating state of the wind pressure switch when the gas boiler according to the present invention is in a normal state, and Figure 3 is a configuration showing the operating state of the wind pressure switch when the exhaust flue of the gas boiler according to the present invention is blocked. It is a degree.

First, referring to Figure 2, under normal combustion conditions with smooth exhaust, the negative pressure detected through the venturi module 10 is lower than the set pressure value, so the NC contact wind pressure switch 20 outputs an open (Com-NC state) signal. do.

And, as shown in Figure 3, when the exhaust flue (4) is blocked due to corrosion or accumulation of foreign matter, the supply and exhaust are not balanced and pressure fluctuations in the combustion chamber occur, and there are fluctuations in the pressure detected through the venturi module (10). occurs.

At this time, if the pressure value is equal to or greater than the set pressure value, the NC contact wind pressure switch (20) outputs a Closed (Com-NO state) signal, and the Closed output signal of this NC contact wind pressure switch (20) is transmitted to the microcomputer to perform combustion operation. It is used as a signal to control boiler operation, such as stopping.

3. Verification step (S30)

In the verification step (S30) according to the present invention, when an abnormal operation condition is determined in the abnormality detection step (S20), the signal from the NC contact wind pressure switch (20) is re-received after a set time has elapsed, and the sound pressure is set. If the pressure value is equal to or greater than the pressure value, the flue is judged to be blocked, and if the negative pressure is lower than the set pressure value, it is judged to be in a clearing operation state.

At this time, the reason for re-receiving the signal from the NC contact wind pressure switch 20 after the set time, for example 2 seconds, is to block the error signal from the wind pressure switch due to contact error or sensitivity error.

Figure 4 is a flow chart showing the verification steps of the method for detecting blockage of the exhaust flue of a gas boiler according to an embodiment of the present invention. Referring to this, the verification step (S30) is the starting step in which power is applied to the boiler and the fan is operated. From there, sound pressure is detected in real time or at regular intervals through the venturi module 10.

The sound pressure detected through the venturi module 10 is compared with the set pressure value, and if the sound pressure is lower than the set pressure value (NO), it is determined to be in a settlement operation state. If the pressure value is equal to or greater than the set pressure value (YES), the abnormality detection step (S20) is performed again after a predetermined time (n seconds) has elapsed. At this time, if the negative pressure is lower than the set pressure value (NO), the settlement operation state is performed. It is equipped to determine that the flue is blocked (error occurred) if it is equal to or greater than the set pressure value (YES).

Figure 5 is a configuration diagram schematically showing the operation of the microcomputer when it is determined that the flue is blocked in the verification step (S30).

In the verification step (S30), if it is determined that the flue is blocked, the microcomputer outputs a notification signal through the display, lamp, or speaker, operates the air supply fan at maximum rpm, stops the pump operation after a set time (n minutes), and closes the gas valve. It is equipped to control the boiler in a blocking sequence to stop combustion operation.

To further explain why the air supply fan is operated at the maximum rpm when determining the flue blockage, gas boilers have a maximum gas calorific value for each model, and in order to burn the maximum gas calorific value, air must be supplied in proportion to the mixed air. . At this time, the air supply fan is operated at maximum rpm to supply combustion air appropriate for the gas capacity.

As described above, when blockage of the gas boiler's exhaust flue is detected by forming a venturi tube on the outlet side of the fan to detect and prepare for negative pressure values, normal operation is judged only when the negative pressure is lower than the set pressure value, so the contact point Since the NC state of the switch is maintained without any change in operation, frequent operation of the wind pressure switch becomes unnecessary.

As a result, the component failure rate is significantly lowered, improving durability as well as reliability and safety. By quickly detecting abnormal signs in the gas boiler exhaust flue in real time, safety accidents, including suffocation due to combustion gas backflow and gas boiler overheating, are prevented. There is a preventive effect.

As described above, the most preferred embodiments of the present invention have been described in the detailed description of the present invention, but various modifications may be made without departing from the technical scope of the present invention. Therefore, the scope of protection of the present invention should not be limited to the above-mentioned embodiments, but should be recognized to the technologies in the patent claims described later and to equivalent technical means from these technologies.

1: outlet 3: air supply pipe 4: exhaust pipe
10: Venturi module
20: NC contact wind pressure switch
21: positive pressure port

Claims (3)

When the fan of the gas boiler operates, a negative pressure detection step (S10) of detecting the internal pressure of the outlet (1) of the gas boiler in the form of negative pressure using the venturi module (10) connected to the NC contact wind pressure switch (20);
If the sound pressure detected in the sound pressure detection step (S10) is lower than the set pressure value, it is judged as a normal operation state, and if it is equal to or greater than the set pressure value, it is judged as an abnormal operation state (S20); and
If an abnormal operation condition is determined in the abnormality detection step (S20), the signal from the NC contact wind pressure switch 20 is re-received after the set time has elapsed, and if the negative pressure is equal to or greater than the set pressure value, the flue is blocked. A method for detecting blockage of the exhaust flue of a gas boiler, comprising a verification step (S30) of determining that the negative pressure is lower than the set pressure value and determining the settlement operation state.
According to clause 1,
The venturi module (10) is connected to the positive pressure port (21) of the NC contact wind pressure switch (20),
If the negative pressure acting on the positive pressure port 21 of the NC contact wind pressure switch 20 is lower than the set pressure value, the wind pressure switch 20 does not operate and outputs an open signal,
If the negative pressure acting on the positive pressure port (21) is equal to or greater than the set pressure value, a Closed signal is output.
A method for detecting blockage of the exhaust flue of a gas boiler, characterized in that the Closed signal is transmitted to the microcomputer and used as a signal to control boiler operation.
According to clause 1,
In the verification step (S30), when it is determined that the flue is blocked,
A gas boiler characterized in that the microcomputer is equipped to stop combustion operation by controlling the boiler in the following order: outputting a notification signal through a display, lamp, or speaker, operating the air supply fan at maximum rpm, stopping the pump operation after a set time, and blocking the gas valve. Method for detecting blockage of exhaust flue.

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