KR100206754B1 - Combustion proportional control method for a gas boiler - Google Patents

Abstract

The present invention relates to a combustion proportional control method of a gas boiler having a proportional control function of a gas amount, and frequent fluctuations in the opening and closing amount of a gas valve during the proportional control of the gas become a factor in which the flame in the combustion furnace becomes unstable. The technical task is to make the flame as stable as possible even during combustion, because the durability of the system is weakened. If the present temperature falls between the set temperature and the reset temperature (set temperature + △ T ℃), the gas valve should be stabilized by not changing the switching amount.

Description

Combustion proportional control method of gas boiler

1 is a configuration diagram of a general gas boiler.

2 is a detailed block diagram of a control circuit part according to FIG. 1;

3 is a conventional combustion control flow diagram.

4 is a combustion control characteristic diagram according to FIG.

5 is a waveform diagram of each part according to FIG.

6 is a combustion proportional control flow chart of the present invention.

7 is a combustion proportional control characteristic diagram according to FIG.

* Explanation of symbols for main parts of the drawings

1: control circuit part 2: burner

3: heat exchanger 4: blower fan

5 gas valve 6 exhaust duct

7: temperature sensor 11: power supply

12: Key part 13: Temperature sensing part

14: micom 15: relay drive unit

16: fan control unit 17: gas valve control unit

18: display unit

The present invention relates to a combustion control method that achieves an optimal combustion state using a temperature sensor, and in particular, changes in a small amount of heat by controlling a blower fan and a valve to detect a temperature of a gas boiler so as to combust in a range less than a preset temperature. The present invention relates to a combustion proportional control method of a gas boiler which can reduce an increase in combustion noise and deterioration of durability due to flame instability.

A typical gas boiler includes a gas valve 5 for supplying gas, a blowing fan 4 for supplying combustion air, a burner 2 for burning a mixture of fuel and air, as shown in FIG. It consists of a heat exchanger (3), an exhaust duct (6) for discharging combustion gases, a temperature sensor (7) for sensing the current temperature during combustion, and a control circuit section (1) for controlling the gas boiler.

FIG. 2 is a detailed block diagram of the control circuit unit 1 of FIG. 1, and as shown therein, a power supply unit 11 for supplying the input AC power AC to a power required for the operation of the microcomputer 14 and the microcomputer 14. Control the overall operation of the control unit (1) and the temperature sensing unit (13) for detecting the temperature of the room and the temperature of the boiler itself using the key unit (12) for inputting the set temperature to A microcomputer 14 to control the relay, a relay driver 15 for driving various relays under the control of the microcomputer 14, and a fan controller 16 for detecting and controlling a change in the air volume according to the rotation speed of the blower fan 4; And a gas valve control unit 17 for adjusting the gas valve 5 to supply an appropriate amount of gas, and a display unit 18 for indicating an operation state of the key unit 12, a state of a boiler, and the like.

In the combustion control method of the gas boiler configured as described above, as shown in FIG. 3, when power is applied from the power supply unit 11 and an operation key is input from the key unit 12, the system is started to perform preprocessing for t seconds. performed there is then the pre-treated for t seconds discharging the waste gas in the burner (2) t give turns on the igniter for _one second after t ₁ seconds have elapsed there is a by giving opening the gas valve (5) ignition to detect the status of the ignition If ignition has occurred, turn off the igniter after t ₂ seconds, and if ignition fails, turn off all terminals and repeat again from the beginning. And after performing process (A) for reduction and having a slight delay time for controlling the combustion, press the operation off key during combustion to process the extinguishing process to stop the operation of the boiler. Let it cold

However, in the conventional combustion control method as described above, in the case where the control is performed at each delay time as in the combustion control process A, the driving voltage of the gas valve is changed at every delay time as shown in FIG. The control of the fan to be adjusted also needs to be changed, and the change of the fan causes the burner flame to become unstable, which may cause problems such as deterioration in durability of the system and increased combustion noise.

In view of such a conventional problem, the present invention improves durability and makes combustion sound by changing the opening and closing degree of the gas valve only when the combustion control method deviates from a certain period and temperature deviation in performing combustion control. Invented a method of controlling the combustion proportion of the gas boiler to reduce, described in detail by the accompanying drawings as follows.

6 is a combustion proportional control flow chart of the present invention, which improves the combustion control process A in the conventional combustion control flow diagram shown in FIG.

As shown in the flow chart of FIG. 6, after the initial ignition is performed, the set temperature is compared with the present temperature, and if the set temperature is high, the gas amount is increased, otherwise, that is, the set temperature + constant temperature (T ° C.) (where T = The temperature set to 2 ° C.) is compared with the present temperature again so that the amount of gas does not change when the set temperature is high, and the amount of gas decreases when the present temperature is higher so that the entire combustion control is controlled with a certain delay time. Therefore, as shown in FIG. 7, when the present temperature falls between the set temperature and the set temperature + 2 ° C, the driving voltage of the gas valve is not changed and is in a straight line so that the flame of the burner alone is constantly stabilized.

As described in detail above, the present invention provides a system surface through the stability of the flame by performing proportional combustion control to change the opening and closing degree of the gas valve only when deviation of a certain period and temperature in performing the combustion control of the gas boiler. It can enhance durability and reduce combustion noise.

Claims (1)

Determining whether the present temperature falls within the range (△ T ℃) by setting a range (△ T ℃) between the set temperature and the set temperature constant temperature (T ℃) during combustion control of the gas boiler, and the range (△ T ℃) If it does not change, the opening and closing amount of the gas valve is not changed, and the opening and closing amount of the gas valve is increased or decreased only when it is outside the range (ΔT ° C), and the control is performed every time for a predetermined period. Combustion proportional control method of a gas boiler.