KR0157000B1 - Method of protecting instruments accompanied with efficient post-purge performance - Google Patents

Abstract

The present invention relates to a method for protecting a gas boiler mechanism such as a circulation pump or an exhaust fan. More specifically, before performing a post-purge stroke during a fire extinguishing stroke, it is first determined whether the exhaust gas is generated and the exhaust gas is exhausted. If is not generated relates to a mechanism protection method that can prevent idling by stopping the operation of the circulation pump or the exhaust fan.

The apparatus protection method of the present invention operates a gas valve (1) for supplying gas to a burner, a circulation pump (8) for circulating heating water, and an exhaust fan (41) for discharging harmful gas from the boiler. In the gas boiler including the exhaust fan drive unit 4 and the control microcomputer 11, the fire extinguishing stroke command is inputted by the user, and the on / off state of the primary valve of the gas valve is sensed. If the primary valve is on, the exhaust piece is driven to perform a post-purge stroke. If the primary valve is off, no post-purge stroke is performed.

Description

Mechanism protection method by efficient post-purge

1 is a schematic configuration diagram of a gas boiler conventionally used.

2 is a partial block diagram of a circuit used in the present invention.

3 is a flowchart for explaining the method of the present invention.

* Explanation of symbols for main parts of the drawings

1: gas valve 2: burner

3: heat bridge cooler 4: exhaust fan drive unit

5: Flow valve 6: Direct water supply pipe

7: hot water supply pipe 8: circulation pump

9: three-way side 11: micom

41: exhaust fan

The present invention relates to a method for protecting a gas boiler mechanism such as a circulation pump or an exhaust fan. More specifically, before performing a post-purge stroke during a fire extinguishing stroke, it is first determined whether the exhaust gas is generated and the exhaust gas is exhausted. If is not generated relates to a mechanism protection method that can prevent idling by stopping the operation of the circulation pump or the exhaust fan.

Gas boilers use clean fuel gas to prevent environmental pollution and are increasingly being used due to their convenience in operation.

1 shows a schematic configuration of a conventionally used gas boiler, and an operation state thereof will be described with reference to this. Gas whose gas supply amount is controlled by the gas valve 1 is supplied to the burner 2 through the gas supply pipe. The gas supplied to the burner 2 is ignited and combusted by the flame discharged from the spark igniter operated by the control signal output from the main controller M. The hot heat generated by the combustion heats the heat exchanger 3 located on the upper side.

The gas valve 1 determines the gas pressure in the main controller M according to the temperature set by the user, and opens the gas valve 1 by applying a predetermined current value to the gas valve 1 to generate the determined gas pressure. do. The proportional control gas valve as described above includes primary, secondary, and proportional valves operated at different times. The operation sequence of the valves is first operated in the order of the proportional valve, the secondary valve, and the primary valve, which is performed in accordance with a control signal from the microcomputer.

Thereafter, the main controller M outputs a control signal to the exhaust fan 41 so as to rotate the exhaust fan 41 at a predetermined rotation speed in order to supply the air volume suitable for the gas pressure.

In the heating mode, the heating water heated in the heat exchanger (3) is moved through a pair of pipes installed on the side. That is, the heated heating water passes through the heating pipe installed in the room through the pipe S, and returns through the pipe R again. After the returned heating water flows into the water tank, it passes through the pipe S again through the three-way side 9 and flows into the heat exchanger 3. The pipe S is a heating water supply pipe, the pipe R is a heating return pipe, and the pipe B is a discharge pipe.

On the other hand, when hot water is supplied, direct water (cold water) flows into the heat exchanger (3) through the direct water supply pipe (6), and is heated by heat exchange with heating water in the heat exchanger (3) and then through the hot water supply pipe (7). Supplied to the user. Reference numeral 5 is a flow valve that detects the inflow of direct water and informs the main controller (M).

At this time, the operation state of the three-way valve 9 shuts off the moving path through the pipe B, so that the heating water is closed in the pipe S, the three-way valve 9, the circulation pump 8, and the heat exchanger 3. It was configured to circulate.

In the conventional gas boiler having the above configuration, in the initial stroke, a pre-purge stroke is performed to forcibly operate the exhaust fan for a predetermined time (about 10 seconds) in order to discharge the harmful gas remaining in the gas boiler. When the stroke is performed, a post-purge stroke is also performed to operate the exhaust fan and the circulation pump for a predetermined time (about 30 seconds).

However, the conventional post-purge is performed unconditionally when performing the extinguishing stroke irrespective of whether the entire stage of the gas boiler is ignited or the extinguishing state in which exhaust gas is not generated.

Therefore, no harmful gas remains inside the gas boiler, and the circulation pump and the exhaust fan operate for a predetermined time even when the hot water is not stagnant, thereby reducing the life of the apparatus.

The present invention has been made to solve the above problems, an object of the present invention is to prevent the unnecessary idle by performing post-purge only when the combustion gas is generated in the previous step when the extinguishing stroke is carried out to prevent equipment To provide a way to protect.

The apparatus protection method of the present invention for achieving the above object, the gas valve (1) for supplying gas to the burner, the circulation pump (8) for circulating the heating water, and the exhaust gas to discharge the harmful gas from the boiler In the gas boiler including the exhaust fan drive unit 4 for operating the fan 41 and the control microcomputer 11, a fire extinguishing command input by the user is sensed and the ON / OFF of the primary valve of the gas valve is detected. When the primary valve is in the on state, the exhaust fan is driven to perform a post-purge stroke, and when the primary valve is in the off state, the post-purge stroke is not performed.

Hereinafter, with reference to the accompanying drawings will be described in detail the method of protecting the instrument according to the efficient post-purge of the present invention.

The method of the present invention is to prevent the deterioration of the equipment caused by the post-purge by operating the exhaust fan and the circulating pump unconditionally during the extinguishing stroke even in the burner of the gas boiler to extend the life.

For a block diagram of a circuit used for this purpose, referring to FIG. 2, a gas valve 1 for supplying gas at a constant pressure to the burner 2 and a high temperature heating heated by the heat exchanger 3. A circulation pump (8) for forcibly circulating water, an exhaust fan driver (4) for operating the exhaust fan (41) for discharging the exhaust gas burned in the burner from the boiler, and a microcomputer (11) do. It should be understood that the block diagram only selects the components necessary for carrying out the present invention from the circuit of the entire gas boiler.

The method of the present invention carried out by the block circuit diagram above; When the user inputs the extinguishing stroke command to the microcomputer 11 from the key input unit, the user detects this, and detects the on / off state of the primary valve of the gas valve 1, and if the primary valve is on, the exhaust fan 41 And the circulation pump 8 to perform the post-purge stroke, and when the primary valve is off, the operation of the exhaust fan 41 and the circulation pump 8 is stopped to perform the post-purge stroke. to be.

The method of the present invention will be described in detail with reference to FIGS. 2 and 3 as follows. When the user stops the operation of the gas boiler, a post-purge stroke is performed to operate the circulation pump 8 and the exhaust fan 41 after combustion is performed. The reason for operating the circulation pump 8 is to prevent the hot water from stagnation in the heat exchanger and the pump and causing the heat exchanger to be broken by stopping the pump.

However, for example, when the operation of the gas boiler is stopped, such as the pre-purge stage, the operation of the gas boiler may be stopped due to a factor such as a user or a failure. At this time, the post-purge stroke is conventionally performed for about 30 seconds unconditionally, but according to the present invention, the microcom 11 first detects the final combustion state in the gas boiler.

That is, when a command is input by the user to perform a fire extinguishing stroke from the key input unit or after the heating of the normal gas boiler is finished, the microcomputer 11 first determines whether combustion is performed in the gas boiler. This is performed by sensing the operation state of the previous stage of the microcomputer 11, and determines whether the control signal is output to open the primary valve of the gas valve 1 in the microcomputer 11 to determine.

In the combustion state, since the primary valve of the gas valve 1 should be maintained in the open state, it is detected and judged. The gas valve 1 is provided with primary, secondary, and proportional valves, which are operated in the order of the proportional valve, the secondary valve, and the primary valve to finally supply the gas to the burner. Because must open.

The installation position of the valves is the primary valve is located on the side where the gas is supplied from the gas container or the gas supply pipe, the secondary valve in the middle of the gas valve 1, and finally to supply the fine gas to the burner (2) In order of proportional valve. In order to know the operating state of the gas valve 1, the microcomputer 11 preferably stores this final operating state in the internal memory when the primary valve of the gas valve 1 is operated by an internal program.

If it is determined by the microcomputer 11 that the primary valve is opened in the final combustion state, the microcomputer 11 determines that noxious gas remains inside the boiler and drives the exhaust fan 41 to drive the exhaust fan 41. Outputs a control signal to the exhaust gas. At the same time, the circulation pump 8 is operated to protect the heat exchanger 3 so that the heating water is circulated to prevent the hot water from stagnation. The post-purge stroke at this time is performed for essentially the same time as that used conventionally.

When the post-purge stroke is completed, the microcomputer 11 stops the operation of the exhaust fan 41 and the circulation pump 8 and enters the standby state waiting for a command input from the user.

As described above, when the extinguishing stroke is performed according to the present invention, there is an advantage that the apparatus may be protected by performing post-purge only when combustion gas is generated in the previous stage.

Although the invention has been described in detail only with respect to the described embodiments, it will be apparent to those skilled in the art that modifications and variations can be made within the spirit and scope of the invention, and such variations or modifications will belong to the appended claims. .

Claims (2)

A gas valve 1 for supplying gas to the burner 2 at a constant pressure, a circulation pump 8 for forcibly circulating high temperature heating water heated by the heat exchanger 3, and exhaust gas burned by the burner In the gas boiler including an exhaust fan drive unit 4 for operating the exhaust fan 41 to discharge gas from the boiler, and a control microcomputer 11, a microcomputer (after a key input unit or a normal combustion stroke is completed by a user) 11) When the extinguishing stroke command is inputted, it is sensed and the on / off state of the gas valve 1 is sensed. If the primary valve is on, the exhaust piece 41 and the circulation pump 8 are driven to post- According to the efficient post-purge performance, the purge stroke is performed, and if the primary valve is in the off state, the operation of the exhaust fan 41 and the circulation pump 8 is stopped to terminate without performing the post-purge stroke.Gumul protection. 2. Method according to claim 1, characterized in that the detection of the on / off state of the gas valve (1) is the on / off state of the primary valve of the gas valve.