KR20000032151A - Method of controlling gas boiler to prevent boiling - Google Patents

Abstract

PURPOSE: A control method of a gas boiler is provided to reduce noise and to prevent reliability from being reduced by preventing a circulating pump from being continuously driven through the prevention of boiling generated by latent heat of a combustion chamber. CONSTITUTION: A gas boiler is controlled by the steps of: deciding if the post-purge of a ventilating fan is finished depending upon the fire-extinguishing stroke of a gas boiler; deciding if the temperature of heating water is higher than 85°C through a signal from a temperature sensor; driving the ventilating fan and a circulating fan and deciding if the temperature of heating water is fallen lower than 82°C; stopping driving the circulating pump and deciding whether the temperature of heating water is fallen lower than 80°C; stopping driving the ventilating fan if the temperature of heating water is fallen lower than 80°C; deciding if the temperature of heating water is raised again if the temperature of heating water is not fallen lower than 80°C; and driving the circulating pump if the temperature of heating water is raised again.

Description

A method for controlling the gas boiler to order to prevent ebulition

The present invention relates to a control method of a gas boiler, and more particularly, a gas boiler control method for preventing boiling caused by controlling a circulation pump and a blowing fan to prevent boiling phenomenon caused by latent heat of a combustion chamber after combustion. It is about.

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 bathroom or kitchen.

3 is a view for explaining the internal configuration of the gas boiler operating as described above, the combustion chamber 10 for heating the heating water using the combustion heat of the gas is formed inside the main body 1, this combustion chamber ( A burner 11 is installed at the bottom of the burner 11 to burn the gas introduced therein, and a main heat exchanger 12 is mounted at the top of the burner 11 to heat the heating water by using combustion heat generated when the gas is burned. have.

On the other hand, the upper part of the main body 1 is provided with an air supply port 2 for sucking air necessary for combustion of gas and an exhaust port 3 for exhausting the exhaust gas of the combustion chamber 10 to the outside, respectively. Air sucked through) is supplied into the combustion chamber 10 by the blowing fan 20.

In addition, an ignition transformer 30 generating a high voltage necessary for igniting the gas supplied to the burner 11 is fixed to the inner rear surface of the main body 1, and the high voltage generated in the ignition transformer 30 is a combustion chamber ( It is supplied to the spark plug 31 fixed to one side of 10).

On the other hand, a predetermined portion of the gas supply pipe 4 for supplying the external gas to the burner 11 is equipped with a gas valve 40 for controlling the amount of gas supplied, the heating water heated in the main heat exchanger 12 It is supplied to the auxiliary heat exchanger (50). The auxiliary heat exchanger 50 converts the direct water introduced through the direct water supply pipe 5 into hot water.

In addition, the heating water and the direct water supplied to the auxiliary heat exchanger (50) is supplied to the heating pipe of the room through the heating water supply pipe (6) or heat exchanged according to the operation of the circulation pump (60) to heat through the hot water supply pipe (7). The heated water supplied to the molten metal or the kitchen and passed through the heating pipe of the room is returned to the water tank 70 through the heating water return pipe 8, and all these operations are controlled by the control circuit unit 9.

In the conventional gas boiler configured as described above, the temperature of the heating supply water is 98 ° C. or more for a predetermined time (about 5 seconds) according to the temperature of the heating supply water detected by the temperature detection sensor mounted on the outlet side of the main heat exchanger 12. In the case of combustion, the fire extinguishing stroke is automatically performed, and when the circulation pump 60 is in the hot water state, it is converted into a heating state.

However, when the temperature of the heating supply water rises more than 85 ° C. due to latent heat after the boiler is extinguished, the circulation pump 60 is driven to circulate the heating supply water to prevent the temperature increase of the heating supply water. Only the circulating pump 60 is continuously driven until the temperature of the heating supply water is lowered to 80 ° C. or lower, so that the temperature control time is increased due to boiling, and the noise is generated by the continuous driving of the circulating pump 60. The deterioration of boiler reliability has been pointed out as a problem.

Accordingly, the present invention has been invented to solve the above problems, by preventing the circulating pump and the blowing fan to prevent the boiling phenomenon caused by the latent heat of the combustion chamber after combustion, it is possible to prevent the continuous operation of the circulation pump circulation It is an object of the present invention to provide a gas boiler control method for preventing the occurrence of boiling, which can reduce the noise caused by the continuous operation of the pump and prevent the degradation of reliability.

In order to achieve the above object, the present invention provides a gas boiler control method comprising: a first step of determining whether a post purge of a blower fan is terminated according to a gas boiler's extinguishing stroke; When the post purge of the blower fan is finished in the first step, the control unit determines whether the temperature of the heating water is 85 ° C. or higher based on a detection signal applied from a temperature detection sensor that detects the temperature of the heating water. ; In the second step, if the temperature of the heating supply water is 85 ° C. or higher, the controller drives the blower fan at a controlled medium speed and simultaneously controls the circulation pump to drive the temperature of the heating supply water detected by the temperature detection sensor to 82 ° C. or less. A third step of determining whether it is lowered; In the third step, when the temperature of the heating supply water is 82 ° C. or lower, the control unit stops the operation by controlling the circulation pump and then determines whether the temperature of the heating supply water detected by the temperature detection sensor is lowered to 80 ° C. or lower. 4 steps; A fifth step of controlling the blowing fan to stop driving of the blowing fan when the temperature of the heating supply water is lowered to 80 ° C. or lower in the fourth step; A sixth step of determining whether the temperature of the heating supply water is raised again if the temperature of the heating supply water is not lowered to 80 ° C. or lower in the fourth step; When the temperature of the heating supply water rises again in the sixth step, the control unit controls the circulation pump to drive the circulation pump, and if the temperature of the heating supply water does not rise, the seventh step of returning to the fifth step is characterized in that it comprises a It is done.

1 is a block diagram schematically showing a gas boiler to which the present invention is applied;

2 is a flow chart showing a gas boiler control method for preventing boiling according to the present invention;

3 is a view for explaining the internal configuration of a general gas boiler.

Explanation of symbols for main parts of the drawings

100: operation switch 110: RPM detection unit

120: temperature detection sensor 130: control unit

140: blower fan 150: circulation pump

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

1 is a block diagram showing a gas boiler to which the present invention is applied, a temperature detection sensor mounted at an outlet of an operation switch 100 and a main heat exchanger for driving and stopping a gas boiler ( The RPM detection unit 110 for detecting the RPM of the 120 and the blower fan 140 is connected to the controller 130, and the circulation pump 150 for circulating the heating water and the outside required for exhaust gas discharge and combustion in the combustion chamber. The blowing fan 140 which supplies air is connected so that it may be controlled by the control part 130, respectively.

Next, a gas boiler control method for preventing boiling occurring according to the present invention applied to the gas boiler configured as described above will be described in detail with reference to the flowchart of FIG. 2.

When the operation switch 100 is turned off by the user's selection, the controller 130 performs a fire extinguishing stroke of the gas boiler 101, and in this process, a blowing fan 140 for discharging the exhaust gas in the combustion chamber to the outside. It is determined whether the post purge of) is completed. This is determined by the control unit 130 through the detection signal applied from the RPM detection unit 110 for detecting the RPM of the blowing fan 140 (102).

When the post purge of the blower fan 140 is terminated through the detection signal applied from the RPM detection unit 110, the control unit 130 detects the detection signal applied from the temperature detection sensor 120 for detecting the temperature of the heating supply water. Through the determination of whether the temperature of the heating supply water is more than 85 ℃ (103).

When the temperature of the heating supply water applied through the temperature detection sensor 120 is 85 ° C. or more, the controller 130 controls the blowing fan 140 to maintain and drive the rotational speed of the blowing fan 140 at a medium speed. The latent heat in the combustion chamber is discharged to the outside (104), then the circulation pump 150 is controlled to circulate the heating supply water (105), the temperature of the heating supply water detected through the temperature detection sensor 120 is 82 ℃ It is determined whether or not it is lowered below (106).

When the temperature of the heating supply water is lowered to 82 ° C. or less by driving the blower fan 140 and the circulation pump 150, the controller 130 controls the circulation pump 150 to stop driving (107), and It is determined whether the temperature of the heating supply water detected by the temperature detection sensor 120 is lowered to 80 ° C. or less (108).

When the temperature of the heating supply water detected by the temperature detection sensor 120 is lowered to 80 ° C. or less, the controller 130 controls the blower fan 140 to stop driving the blower fan 140, thereby causing boiling. The control according to this step is terminated (109).

On the other hand, if the temperature of the heating supply water detected through the temperature detection sensor 120 is not lowered below 80 ° C, the controller 130 constants the temperature of the heating supply water detected through the temperature detection sensor 120. The time is counted to determine whether the temperature of the heating supply water rises again (110).

In the above judgment, when the temperature of the heating supply water rises again, the controller 130 controls the circulation pump 150 to circulate the heating supply water to adjust the temperature, and if the temperature of the heating supply water does not rise again, the heating supply water again. The process returns to the step of determining whether the temperature is 82 ° C or less (111).

As described above, the present invention detects the temperature of the heating feed water after the combustion of the gas boiler, and when the temperature of the heating feed water rises due to latent heat, it controls the blower fan and the circulation pump to perform temperature regulation, thereby rapidly boiling. It is possible to prevent, and at the same time exerts the effect of preventing the degradation of reliability caused by the driving noise of the circulation pump generated by continuously driving only the circulating pump when the temperature rises.

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)

A control method of a gas boiler, the first step (101 to 102) of determining whether the post purge of the blower fan 140 is finished in accordance with the gas boiler fire extinguishing stroke; When the post purge of the blower fan 140 is finished in the first step, the control unit 130 has a temperature of the heating supply water through a detection signal applied from the temperature detection sensor 120 that detects the temperature of the heating supply water. A second step 103 of determining whether the temperature is higher than or equal to ° C; When the temperature of the heating supply water is 85 ° C. or higher in the second step, the controller 130 drives the blower fan 140 at a controlled medium speed and simultaneously controls and drives the circulation pump 150 to drive the temperature detection sensor 120. A third step (104 to 106) of determining whether the temperature of the heating supply water detected through the temperature is lowered to 82 ° C or less; In the third step, if the temperature of the heating supply water is 82 ° C. or less, the controller 130 stops driving by controlling the circulation pump 150 and then the temperature of the heating supply water detected by the temperature detection sensor 120 is 80 A fourth step (107 to 108) for determining whether the temperature is lower than or equal to ℃; A fifth step 109 of stopping the driving of the blowing fan 140 by controlling the blowing fan 140 when the temperature of the heating supply water is lowered to 80 ° C. or lower in the fourth step; If the temperature of the heating supply water is not lowered below 80 ° C in the fourth step, the control unit 130 determines whether the temperature of the heating supply water rises again; When the temperature of the heating supply water rises again in the sixth step, the controller 130 controls the circulation pump 150 to drive the circulation pump 150 and returns to the fifth step again when the temperature of the heating supply water does not rise. Gas boiler control method for preventing the occurrence of boiling, characterized in that it comprises a seventh step (111).