KR101191381B1 - Combustion controlling method for a gas boiler - Google Patents

Abstract

The present invention relates to a heating combustion control method of a gas boiler for minimizing the exhaust condensation water formed by condensation of combustion gas and water vapor at the top of the exhaust flue, and according to the present invention. Combustion control method is a gas boiler heating combustion control method according to the present invention is to measure the heating water temperature when the heating is selected after the power supply of the gas boiler, when the temperature is lower than the set temperature, a rapid increase of the temperature of the exhaust flue tower for a certain time After performing the maximum control mode, extinguishing gas combustion and satisfying the conditions of the gas reignition control mode, after stopping the gas combustion, the latent heat in the heat exchanger is recovered to rapidly increase the temperature of the exhaust flue tower. Determining an ignition control mode.

Description

Combustion controlling method for a gas boiler

The present invention relates to a heating combustion control of a gas boiler, and more particularly, condensation water formed by condensation of combustion gas and water vapor at the top of an exhaust flue occurs intensively. It relates to a control method.

In general, gas boilers are being developed in various forms according to the reduction of energy consumption and high efficiency policy.

However, due to the characteristics of the heating combustion method of the conventional gas boiler, a relatively low exhaust gas temperature is formed, and the exhaust condensation shrinkage occurs at the end of the downgraded exhaust flue.

That is, after gas combustion, the moisture in the exhaust gas that has passed through the heat exchanger is condensed on the surface of the exhaust flue when exposed to a gaseous state above the dew point temperature (70 to 80 ° C.) or at low temperature outside of the winter season.

The generation of such exhaust condensate forms icicles in weathers where the temperature drops, such as winter, causing falling ice or freezing of ice, which is a problem caused by safety accidents.

The present invention has been proposed to solve the above conventional problems,

An object of the gas boiler heating combustion control method according to the present invention is to perform a re-ignition control mode that controls the latent heat of the heat exchanger after the gas combustion is stopped, thereby preventing a large amount of exhaust condensate from rising as the tower temperature of the exhaust flue rises. .

Another object is to perform a rapid maximum control mode to control extinguishing or maximum combustion in accordance with the temperature of the heating water.

Another object is to further recover the latent heat of the heat exchanger after stopping the gas combustion, further comprising determining a gas re-ignition control mode.

Another object is to select the proportional control mode or the rapid maximum control mode according to the temperature of the heating water, including determining the gas re-ignition control mode.

Still another object is to further include a proportional control mode, to control to maintain a constant temperature of the heating water according to the change in the set temperature.

Another object is to carry out the maximum gas combustion until the temperature of the heating water reaches the set temperature, including the proportional control mode.

Another object is to perform a rapid maximum control mode when the condition of the proportional control mode is not satisfied, thereby rapidly increasing the temperature of the exhaust flue tower for a predetermined time.

Another object is to present a reference temperature of the heating water for stopping the rapid maximum control mode.

Another object is to present a temperature range of the heating water for implementing the gas reignition control mode.

Another object is to present a temperature range of the heating water for executing the proportional control mode.

Gas boiler heating combustion control method according to the present invention measures the heating water temperature when the heating is selected after the power supply of the gas boiler, when the temperature is lower than the set temperature, the rapid maximum control mode to increase the temperature of the exhaust flue tower for a certain time Performing the gas combustion and extinguishing the gas re-ignition control mode, after stopping the gas combustion, recovering the latent heat inside the heat exchanger, thereby rapidly increasing the temperature of the exhaust flue tower. Characterized in that it comprises the step of determining.

In addition, performing the rapid maximum control mode of the gas boiler heating combustion control method according to the present invention comprises the steps of fan driving, gas ignition and maximum combustion, determining whether the heating water has reached the reference temperature, if the heating water is the reference temperature If the heating water temperature reaches the reference temperature in the step of determining whether the temperature reaches to the step of extinguishing gas combustion, if the heating water temperature reaches the reference temperature in the step of determining whether the heating water temperature does not reach the reference temperature If not, checking whether the heating water temperature reaches 110% of the set temperature, and if the heating water temperature reaches 110% of the set temperature, the heating water temperature reaches 110% of the set temperature. And extinguishing gas combustion, if the heating water temperature has reached 110% of the set temperature. If cuts are not in phase to the heating temperature reached 110% of the set temperature, it characterized in that it performs the step of maintaining a maximum combustion.

In addition, the gas boiler heating combustion control method according to the present invention, after satisfying the conditions of the gas re-ignition control mode after the step of extinguishing gas combustion, after the gas combustion is stopped, the latent heat in the heat exchanger is recovered, The method may further include determining a gas re-ignition control mode for rapidly increasing a temperature, wherein the gas re-ignition control mode includes the rapid maximum control mode and a proportional control mode.

As described above, the gas boiler heating combustion control method according to the present invention performs a gas re-ignition control mode that controls the latent heat of the heat exchanger after the gas combustion is stopped, so that the large amount of exhaust condensate according to the sudden rise in the tower temperature of the exhaust flue There is an effect that can prevent the occurrence.

In addition, by performing the rapid maximum control mode, there is an effect that can control the extinguishing or maximum combustion in accordance with the temperature of the heating water.

In addition, further comprising the step of determining the gas re-ignition control mode, there is an effect that can maximize the latent heat of the heat exchanger after the gas combustion stop.

In addition, by including the step of determining the gas re-ignition control mode, there is an effect that can select and operate the proportional control mode or the rapid maximum control mode according to the temperature of the heating water.

In addition, by further including a proportional control mode, there is an effect that can be controlled to maintain a constant temperature of the heating water in accordance with the change in the set temperature.

In addition, by including the proportional control mode, there is an effect that can perform the maximum gas combustion until the temperature of the heating water reaches the set temperature.

In addition, when the condition of the proportional control mode is not satisfied, the rapid maximum control mode is performed to increase the temperature of the exhaust flue tower for a predetermined time.

In addition, there is an effect of presenting the reference temperature of the heating water for stopping the rapid maximum control mode.

In addition, there is an effect of suggesting a temperature range of the heating water for executing the gas re-ignition control mode.

In addition, there is an effect of suggesting a temperature range of the heating water for executing the proportional control mode.

1 is a general flow diagram of a gas boiler heating combustion control method according to the present invention.
Figure 2 is a detailed flowchart of the step S20 of the gas boiler heating combustion control method according to the present invention.
3 is a detailed flowchart of step S80 of the gas boiler heating combustion control method according to the present invention.
4 is a detailed flowchart of step S100 of the gas boiler heating combustion control method according to the present invention.
Figure 5 is an embodiment of the heating water temperature comparison graph of the conventional gas heating combustion control and gas boiler heating combustion control method according to the present invention.

Hereinafter, specific details for carrying out the gas boiler heating combustion control method according to the present invention will be described.

1 is an overall flowchart of a gas boiler heating combustion control method according to the present invention. First, a step of driving power of a gas boiler is performed.

Next, the step of selecting the heating drive is performed (S20).

5 is a view showing an embodiment of a conventional gas heating combustion control and a gas supply control amount comparison graph of the gas boiler heating combustion control method according to the present invention, wherein step S20 corresponds to point B1 of the graph.

Next, by measuring the temperature of the heating water, it is determined whether the temperature of the heating water is lower than the set temperature (S30).

If the temperature of the heating water is lower than the set temperature in step S30 performs the ignition stroke step (S40).

Next, a step of driving in the rapid maximum control mode is performed.

The rapid maximum control mode according to the present invention refers to a control mode for rapidly increasing the temperature of the exhaust flue tower for a predetermined time.

2 is a diagram showing the detailed flow of the step S50, and performs a fan driving, gas ignition and maximum combustion (S51).

The step S51 includes a fan pre-purge, and greatly shortens the expansion operation A2 performed for a conventional nine minutes, and includes an expansion operation B2 of 30 seconds. In the present invention, the expansion operation refers to an operation of increasing the gas supply amount until the temperature of the heating water reaches a set temperature after the gas ignition.

In some cases, the step S40 and the step S51 may be performed simultaneously.

Next, the step of determining whether the heating water has reached the reference temperature is performed (S53).

The reference temperature of step S53 refers to the case where the heating water temperature reaches 85 ° C. within 2 minutes at the maximum combustion (B3).

When the heating water temperature reaches the reference temperature in step S53, gas combustion is stopped (B4, extinguishing).

In addition, in step S60, even after the gas extinguishing is stopped, the circulation pump is continuously operated for 3 minutes, and immediately after gas extinguishing in the heat exchanger, recovering the latent heat remaining as much as possible.

If the heating water temperature does not reach the reference temperature in step S53, a step of checking whether the heating water temperature reaches 110% of the set temperature is performed.

In step S55, if the heating water temperature reaches 110% of the set temperature, step S60 is performed.

If the heating water temperature does not reach 110% of the set temperature in step S55, the step of maintaining the maximum combustion is performed.

Next, when there is no power off command (S65), it is determined whether the driving condition of the gas re-ignition control mode is satisfied (S70).

The driving condition of the gas re-ignition control mode in step S70 corresponds to the case where the heating water temperature reaches 80% or less of the set temperature (B4).

If the heating water temperature reaches 80% or less of the set temperature in step S70, the gas re-ignition mode is determined.

The gas re-ignition mode according to the present invention includes the rapid maximum control mode and the proportional control mode.

The gas re-ignition mode is a mode for recovering and controlling the latent heat in the heat exchanger after the gas combustion is stopped, and the proportional control mode is a control mode for maintaining the heating water temperature equal to the set temperature.

3 is a view showing the detailed flow of the step S80, and performs only the operation of the ignition delay and the circulation pump (S81).

The ignition delay time according to the present invention is carried out for about 2 minutes at this time, by operating only the circulating pump without a gas combustion stroke, to uniformly stabilize the heating water temperature throughout the heating load, the rapid maximum control mode or proportional gas re-ignition mode This is the process to select the control mode automatically.

Next, the step of checking whether the digestion time has passed the reference time is performed.

The reference time of the step S83 according to the present invention is based on about 15 minutes, and if the reference time has passed (B5), the process returns to the step S50 and re-executed, if the reference time has not passed (B6), proportionally It is determined whether the condition for driving the control mode is satisfied (S90).

The condition for driving the proportional control mode according to the present invention refers to a case in which the temperature of the heating water is 65% or more of the set temperature. If the condition for driving the proportional control mode is not satisfied, the process returns to step S50 and is executed again. If the condition for driving the proportional control mode is satisfied, the proportional control mode step is performed.

4 is a diagram showing a detailed flow of the step S100 according to the present invention, in the proportional control mode (B7), performs a fan driving, gas ignition and the maximum combustion step (S101).

Next, the step of determining whether the temperature of the heating water has reached the set temperature (S103).

If the temperature of the heating water reaches the set temperature in step S103, performing the step (S105) of the minimum combustion in the proportional control mode for a predetermined time, and if the temperature of the heating water did not reach the set temperature In this case, the step S101 is performed again.

Next, a step of checking whether the set proportional control time has elapsed is performed.

In the embodiment of the present invention, the proportional control time is set to about 20 minutes, and when the proportional control time passes (B8), the step S60 is performed, and when the proportional control time does not pass, the temperature of the heating water The step of determining whether has reached 110% of the set temperature (S109).

In the step S109, when the temperature of the heating water is less than 110% of the set temperature, the process returns to the step S105 and redo, and if the temperature of the heating water reaches 110% of the set temperature, the process returns to step S60.

In fact, as a result of applying the gas boiler heating combustion control method according to the present invention to the control of the actual gas boiler, as shown in the following [Table 1], the results can be derived.

The test site was conducted in a wind and electric field laboratory, and the result of comparing and analyzing 20K actual load and 2 hours heating operation.

Exhaust Condensate (g) Gas consumption amount (m ³ ) Driving rate (%) Before change 122.5 3.266 99.5 after change 53.8 3.597 93.5 increase -68.7 0.331 -6.2 % Change -56.1 10.1 -6.2

As described above, the gas boiler heating combustion control method according to the present invention controls the latent heat of the heat exchanger after the gas combustion is stopped, performing the gas re-ignition control mode that can be operated by selecting the proportional control mode and the rapid maximum control As a result, as the tower temperature of the exhaust flue rises rapidly, a large amount of exhaust condensate can be prevented.

Although the embodiments of the present invention have been described above, the technical idea of the present invention is not limited to the above embodiments and may be implemented by various gas boiler heating combustion control methods in a range that does not depart from the technical idea of the present invention.

In addition, the control mode and exhaust condensate ignition mode can be easily set by the user or service engineer on the site where there is a risk of icicles caused by exhaust condensate and freezing accident due to exhaust condensate. It can be used optionally.

Claims (10)

Performing a rapid maximum control mode in which the temperature of the exhaust flue tower is rapidly increased for a predetermined time when the heating water is selected and the heating water temperature is measured and the heating water temperature is selected after the heating of the gas boiler is selected;
Extinguishing gas combustion and
When the gas re-ignition control mode is satisfied, after the gas combustion is stopped, the latent heat in the heat exchanger is recovered to determine a gas re-ignition control mode that rapidly increases the temperature of the exhaust flue column.
Performing the rapid maximum control mode,
Fan drive, gas ignition and maximum combustion;
Determining whether the heating water reaches a reference temperature;
If the heating water temperature reaches the reference temperature in the step of determining whether the heating water has reached the reference temperature, the step of extinguishing gas combustion,
If the heating water temperature does not reach the reference temperature in the step of determining whether the heating water reaches the reference temperature, checking whether the heating water temperature reaches 110% of the set temperature;
If the heating water temperature reaches 110% of the set temperature in the step of checking whether the heating water temperature reaches 110% of the set temperature, extinguishing gas combustion;
If the heating water temperature does not reach 110% of the set temperature in the step of checking whether the heating water temperature has reached 110% of the set temperature, the gas boiler heating combustion characterized in that the step of maintaining the maximum combustion Control method. delete The method of claim 1,
The gas re-ignition control mode includes the rapid maximum control mode and the proportional control mode gas boiler heating combustion control method. The method of claim 3,
Determining the gas re-ignition control mode,
Driving only the ignition delay and the pump, and
The gas boiler heating combustion control method comprising the step of checking whether the extinguishing time has passed the reference time. The method of claim 3,
After determining the gas re-ignition control mode,
When the condition of the proportional control mode is satisfied, further comprising the step of performing a proportional control mode for maintaining the heating water temperature equal to the set temperature. The method of claim 5,
Performing the proportional control mode,
Fan drive, gas ignition and maximum combustion;
Determining whether the temperature of the heating water reaches a set temperature;
If the temperature of the heating water reaches the set temperature, performing the step of minimum combustion in the proportional control mode for a predetermined time,
And if the temperature of the heating water does not reach the set temperature, returning to the fan driving, gas ignition, and maximal combustion, and performing the gas boiler heating combustion again. The method of claim 5,
And if the condition of the proportional control mode is not satisfied, returns to the step of performing the rapid maximum control mode and re-executes the gas boiler heating combustion control method. The method of claim 1,
The step of determining whether the heating water has reached the reference temperature
A gas boiler heating combustion control method, characterized in that it is determined whether the heating water temperature reaches 85 ° C. within 2 minutes at the maximum combustion. The method of claim 3,
The gas re-ignition control mode is a gas boiler heating combustion control method, characterized in that when the temperature of the heating water reaches 80% or less of the set temperature. The method of claim 5,
The proportional control mode is a gas boiler heating combustion control method, characterized in that the temperature of the heating water is more than 65% of the set temperature.

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