KR100271319B1 - How to adjust fire power of gas boiler - Google Patents

Abstract

The present invention relates to a method of adjusting the fire power of a gas boiler, and in particular, by detecting the opening degree of the gas valve and the rotational speed of the blower fan to maintain the fire power of the burner during combustion, and storing it in the memory unit and determining whether to apply the power adjustment command. When the thermal power adjustment command is applied in the first step (101 to 102) and the first step, the opening degree of the gas valve and the rotation of the blowing fan by the predetermined size (ΔG, ΔF) from the data stored in the memory unit A second step (103 to 106) for increasing or decreasing the speed and determining whether the burner's firepower has reached the firepower set by the user; and a predetermined time if the firepower of the burner has not reached the firepower set by the user in the second step A third step of sequentially increasing or decreasing the opening degree of the gas valve and the rotational speed of the blowing fan by a predetermined size (ΔG, ΔF) until the thermal power set by the user is reached at the interval ΔT. As with a system 107, it is possible to prevent the phenomenon of Blowout flame generated due to the operation time difference of the fan to adjust the quantity of air for combustion and the gas valve to control the heating power adjustment amount of gas.

Description

A method for adjusting the caloric of a gas boiler

The present invention relates to a method for adjusting the fire power of a gas boiler, and in particular, the flames generated by the operation time difference between the gas valve for adjusting the amount of gas supplied to the burner and the blower fan for adjusting the amount of air for combustion when the thermal power of the boiler is being burned. The present invention relates to a fire control method of a gas boiler which prevents a phenomenon and stabilizes a combustion state of a boiler.

In general, a gas boiler burns liquefied petroleum gas (LPG), liquefied natural gas (LNG), or city gas inside, heats water using combustion heat generated during the combustion process, and then heats the circulated pump. It is a device that circulates through the heating pipe in the room and heats the room or supplies it to the bath or kitchen.

4 is a front view showing the internal structure of the gas boiler operating as described above, the combustion chamber 210 for heating the heating water using the combustion heat of the gas is formed inside the main body 200, the combustion chamber 210 At the bottom of the burner is mounted a burner 211 for burning the incoming gas, and the top of the burner 211 is equipped with a main heat exchanger 212 for heating the heating water using the heat of combustion generated during combustion of the gas.

On the other hand, the upper portion of the main body 200 is provided with an air supply port 201 for sucking the air necessary for the combustion of gas and an exhaust port 202 for discharging the exhaust gas of the combustion chamber 210 to the outside, respectively, Air sucked through) is supplied into the combustion chamber 210 by the blowing fan 250.

In addition, an ignition transformer 220 that generates a high voltage necessary to ignite the gas supplied to the burner 211 is fixed to the inner rear surface of the main body 200, and the high voltage generated in the ignition transformer 220 is a combustion chamber ( It is supplied to the spark plug 221 fixed to one side of the 210.

On the other hand, a predetermined portion of the gas supply pipe 207 for supplying the external gas to the burner 211 is equipped with a gas valve 240 for controlling the amount of gas supplied, the heating water heated in the main heat exchanger 212 is Supplied to the auxiliary heat exchanger (270). The auxiliary heat exchanger 270 exchanges the direct water introduced through the direct water supply pipe 205 and converts it into hot water.

In addition, the heating water and the direct water supplied to the subsidiary heat exchanger 270 are supplied to the heating pipe of the room through the heating water supply pipe 203 or heat exchanged according to the operation of the circulation pump 260, and the heat is supplied through the hot water supply pipe 204. The heating water supplied to the molten metal or the kitchen and passed through the heating pipe of the room is returned to the water tank 240 through the heating water return pipe 206, and all these operations are controlled by the control circuit unit 230.

When the conventional gas boiler configured as described above is driven, the blower fan 250 rotates at a high speed to ventilate the inside of the combustion chamber 210, and then rotates at a low speed. At this time, the gas valve 240 is opened to supply gas to the burner 211. The supplied gas is ignited by the high pressure discharge of the spark plug 221. Therefore, the heating water or hot water heated or heat-exchanged by the combustion heat of the gas is supplied to the heating pipe or the bathroom or kitchen of the room.

The gas boiler operating as described above is variable in the fire power according to the user's operation. That is, when the user operates the control switch to change the indoor heating temperature or the hot water tapping temperature, the opening degree of the gas valve and the rotational speed of the blowing fan are changed to adjust the amount of gas supplied to the burner and the amount of combustion air. The firepower is variable.

However, when adjusting the thermal power of the boiler, the operation timings of the gas valve and the blowing fan are different from each other as shown in FIG. 5. In other words, the opening degree of the gas valve is changed at a rapid speed, while the blowing speed of the blower fan is instantaneously changed as the rotation speed of the blowing fan is changed to a gentle speed.

Therefore, the present invention has been invented to solve the above problems, and the rotational speed of the blower fan for adjusting the opening degree of the gas valve for adjusting the amount of gas supplied to the burner and the amount of air for combustion is adjusted when the thermal power of the boiler is being burned. It is an object of the present invention to provide a method of adjusting the firepower of a gas boiler that is sequentially added or subtracted by the size of the flame to prevent sparking.

In order to achieve the above object, the present invention, in the control method of the gas boiler, detects the degree of opening of the gas valve and the rotational speed of the blowing fan to maintain the thermal power of the burner during combustion, storing in the memory unit and adjusting the thermal power In the first step of determining whether the command is approved, and when the thermal power control command is applied in the first step, the opening degree of the gas valve and the rotational speed of the blowing fan are increased or decreased by a predetermined size from the data stored in the memory unit. A second step of determining whether the burner thermal power has reached the thermal power set by the user; and if the thermal power of the burner has not reached the thermal power set by the user in the second step, the thermal power set by the user is reached at a predetermined time interval. And a third step of sequentially increasing or decreasing the opening degree of the gas valve and the rotational speed of the blowing fan by a predetermined size until It characterized.

1 is a block diagram showing a thermal power control apparatus of a gas boiler to which the present invention is applied;

2 is a flow chart showing a thermal power control method of the gas boiler according to the present invention;

3 is a signal waveform diagram for explaining a thermal power control method according to the present invention;

Figure 4 is a front view showing the internal configuration of a typical gas boiler,

5 is a signal waveform diagram for explaining a conventional method for adjusting the thermal power of a gas boiler.

Explanation of symbols for main parts of the drawings

10: key input unit 20: salt voltage detection unit

30: control unit 40: gas valve

50: blower fan 60: memory

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

1 is a block diagram illustrating a gas boiler thermal power control apparatus to which the present invention is applied, and a key input unit 10 for varying a heating temperature of a room and a tapping temperature of hot water is connected to a control unit 30, and further includes a control unit ( 30 is connected to a salt voltage detector 20 for detecting the ignition state of the burner and the fire power of the ignited burner.

On the other hand, the control unit 30 outputs a control signal for adjusting the fire power of the burner according to the user's control command applied through the key input unit 10, the gas valve for adjusting the amount of gas supplied to the burner in accordance with the control signal Rotational speed of the blowing fan 50 for adjusting the opening degree of the 40 and the amount of combustion air is variable, and the opening degree of the gas valve 40 and the rotation of the blowing fan 50 to maintain the adjusted fire power of the burner. Data related to the speed is stored in the memory unit 60.

Next, a thermal power control method of the gas boiler according to the present invention applied to the thermal power control device configured as described above will be described in detail with reference to FIGS. 2 and 3.

2 is a flow chart illustrating a method of adjusting the fire power of the gas boiler according to the present invention. When the user operates the gas boiler via the key input unit 10 (101), the controller 30 maintains the fire power of the burner during combustion. The opening degree of the gas valve 40 and the rotation speed of the blower fan 50 are detected and stored in the memory unit 60 (102).

If the user operates the adjustment switch of the key input unit 10 to adjust the thermal power of the gas boiler in operation, that is, to change the heating temperature of the room or the tapping temperature of the hot water (103), the control unit 30 is shown in FIG. As shown in FIG. 4, the opening degree of the gas valve 40 and the rotational speed of the blower fan 50 are increased or decreased from the data stored in the memory unit 60 by a predetermined size ΔG and ΔF (104 to 105). In operation 106, the burner voltage detection unit 20 determines whether the burner thermal power has reached the thermal power set by the user.

When the thermal power of the burner detected by the salt voltage detection unit 20 reaches the thermal power set by the user, the control unit 30 maintains the opening degree of the variable gas valve 40 and the rotation speed of the blowing fan 50, At this time, the opening degree of the gas valve 40 and the rotation speed of the blowing fan 50 are stored in the memory unit 60 (101 to 102).

On the other hand, if the thermal power of the burner does not reach the thermal power set by the user, the control unit 30 reaches the gas valve 40 until the thermal power set by the user is reached at a predetermined time interval ΔT, for example, at 0.5 second intervals. ) And the rotational speed of the blower fan 50 are sequentially increased or decreased by a predetermined size (ΔG, ΔF).

As described above, the present invention is to prevent the blowing of the flame caused by the operation time difference between the gas valve for adjusting the amount of gas supplied to the burner and the blowing fan for adjusting the amount of air for combustion when the thermal power of the boiler during combustion is adjusted. Can stabilize the combustion state.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be defined only by the appended claims.

Claims (1)

In the control method of the gas boiler, the degree of opening of the gas valve 40 and the rotational speed of the blower fan 50 are detected and stored in the memory unit 60 to apply the thermal power adjustment command. The first step (101 to 102) for determining whether or not, and if the thermal power adjustment command is applied in the first step, the gas valve 40 by a predetermined size (ΔG, ΔF) from the data stored in the memory unit 60 The second step (103 to 106) to increase or decrease the opening degree of the fan and the rotational speed of the blower fan 50 and determine whether the burner thermal power has reached the thermal power set by the user; If the thermal power does not reach the preset thermal power, the opening degree of the gas valve 40 and the rotational speed of the blower fan 50 are set to the predetermined size (ΔG) until the thermal power set by the user is reached at a predetermined time interval (ΔT). , Third step sequentially increasing by ΔF) Thermal power adjusting method of a gas boiler comprising the 107.