KR200167116Y1 - Iynition process of a gas boiler - Google Patents

Abstract

The present invention relates to a gas boiler ignition system of the first-day combustion method, in particular, when power is applied during ignition, the air supply fan operates to discharge residual gas remaining in the burner to the exhaust port, and when the air supply fan is stopped for a certain time, The power is applied to the gas valve to open the first solenoid valve and the second solenoid valve, and the gas supply amount set by the offset control unit that can adjust the gas supply amount regardless of the opening of the first solenoid valve and the second solenoid valve. By supplying the gas to the burner to ignite when a certain amount is accumulated, the ignition can be accurately performed irrespective of each change value of the air supply fan and the gas valve.

Description

Ignition process of a gas boiler

The present invention relates to a gas boiler ignition system of the first-day combustion method, and in particular, the ignition failure to minimize the ignition failure by allowing the ignition to be achieved only by the adjustment amount of the offset control unit irrespective of each change value of the air supply fan and the gas valve. It relates to a combustion type gas boiler ignition system.

Conventional gas boilers use a Bunsen burner and a modulating gas valve, which open the first and second solenoid valves of the gas valve at the moment the air supply fan rotates and the igniter splashes the spark at RPM suitable for the combustion conditions during the initial ignition. In addition, the current difference of the modulating gas valve is controlled by the microcomputer to perform ignition and combustion stroke.

However, these conventional gas boilers have a separate control system for controlling the amount of gas and air, so there is a disadvantage in that the ignition is not normally performed when a change occurs in the supply fan and the gas valve.

Therefore, the object of the present invention was devised in view of the conventional problems as described above, so that the ignition failure can be minimized by allowing the ignition to be made only by the adjustment amount of the offset control unit regardless of each change value of the air supply fan and the gas valve. To provide a first-generation combustion gas boiler ignition method.

1 is a configuration diagram showing a state in which a gas valve is installed in a gas boiler according to the present invention;

Figure 2 is a graph showing a state of setting the offset control unit of the gas valve according to the present invention.

(Explanation of symbols for the main parts of the drawing)

100; Air supply fan 110; Inlet 120; outlet

200; Gas pipe 300; Burner 400; Gas valve

410; Offset adjusting unit 420; First solenoid valve 430; Second solenoid valve

440; Nozzle 500; Air damper

As a means for achieving the above object, the present invention, when the power is applied at the time of ignition, the air supply fan is operated to discharge the remaining gas remaining in the burner to the discharge port, when the air supply fan is stopped for a certain time to the gas valve When the power is applied, the first solenoid valve and the second solenoid valve are opened, and the gas is supplied as much as the gas supply amount set by the offset adjuster which can adjust the gas supply amount regardless of the opening of the first solenoid valve and the second solenoid valve. The ignition method, which supplies ignition when a certain amount is accumulated by supplying to a burner, is a basic feature of the technical configuration.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram showing a state in which a gas valve according to the present invention is installed in a gas boiler, Figure 2 is a graph of the present invention.

In the present invention, as shown in FIG. 1, the gas boiler 10 has an inlet 110 connected to the gas pipe 200, and discharges the gas and air sucked through the inlet 110 to the burner 300. The air outlet fan 100 is formed and forms a negative pressure of a high load during operation, and when the air supply fan 100 is operated, the first solenoid valve 420 in the open state of the offset control unit 410 is opened. The second solenoid valve 430 is sequentially opened at the same time as the opening and the gas valve 400 to suck the gas discharged into the air supply fan 100 through the nozzle 440, the gas pipe 200, and When the gas is discharged from the gas valve 400 is composed of an air damper 500 for forced suction mixing and mixing the gas and the outside air to the burner 300 side,

When the gas boiler 10 is supplied with power during ignition, the air supply fan 100 operates to discharge residual gas remaining in the burner 300 to the outlet 120, and the air supply fan 100 is stopped for a predetermined time. At this time, power is applied to the gas valve 400 to open the first solenoid valve 420 and the second solenoid valve 430, and regardless of the opening of the first solenoid valve 420 and the second solenoid valve 430. By supplying gas to the burner 300 as much as the gas supply amount set by the offset adjusting unit 410 that can adjust the gas supply amount has a ignition system to ignite when a certain amount is accumulated.

That is, in the gas valve 400, when the offset adjusting unit 410 is set to '0' as shown in FIG. 2A, the air and gas amounts are A ₁ : G ₁ = 1: 1 so that the first and second solenoid valves ( 420,430 is not open, gas does not come out, and as shown in Fig. 2b, if the offset adjustment unit is set to Y ₁ and the _first and second solenoid valves (420,430) are open, A ₁ : G ₂ = 1 + ΔY ₁ , ΔY _As much gas as ₁ will come out.

When power is applied to the air supply fan 100 while the offset control unit 410 is open as described above, the air supply fan 100 operates to form a high pressure negative pressure, and the negative pressure is a gas valve 400 and a nozzle. At 440, the gas pipe 200 and the air damper 500 generate negative pressure.

At this time, while the first solenoid valve 420 of the gas valve 400 is opened and the second solenoid valve 430 is sequentially opened, the gas is discharged, and the discharged gas is a nozzle 440, the gas pipe 200, the suction port. The air is forced into the air supply fan 100 through the 110, and the outside air is forced into the air supply fan 100 through the air damper 500 at the same time, so that the gas and the air are inside the air supply fan 100. The air and gas sucked by 1: 1 and inhaled are introduced into the burner 300 through the outlet 120 in a pre-mixed state and ignited by the igniter.

As described above, according to the present invention, the air supply fan is stopped for several seconds when ignited in the gas boiler of the primary combustion type, and the gas valve to which electricity is applied discharges the gas by a regulated offset amount. By adopting the ignition method to make the ignition after, there is an effect that the ignition can be precisely made irrespective of each change value of the air supply fan and the gas valve.

And while the present invention as described above has been described through a representative embodiment, the present invention is not necessarily limited to the embodiment thereof, and if it is provided with the configuration requirements of the present invention to achieve the purpose and expect the effect of action within a variety of ranges It can be done.

Claims (1)

In the first-generation combustion gas boiler, when power is applied during ignition, the air supply fan 100 operates to discharge residual gas remaining in the burner 300 to the outlet 120, and the air supply fan 100 is fixed. When the time is stopped, power is applied to the gas valve 400 to open the first solenoid valve 420 and the second solenoid valve 430, and the first solenoid valve 420 and the second solenoid valve 430 All-day combustion method characterized in that the ignition occurs when a certain amount is accumulated by supplying gas to the burner 300 by the gas supply amount set by the offset control unit 410 that can adjust the gas supply amount irrespective of opening. Gas boiler ignition system.