KR20000032686A - Method of indicating water leakage of pipeline for gas boiler - Google Patents

Abstract

PURPOSE: A method of indicating a water leakage of a pipeline for a gas boiler is provided to inform a user rapidly of a water leakage of a pipeline by indicating it on a room controller. CONSTITUTION: A signal is transmitted if water is not sufficiently supplied. If set time goes by, the water is not supplied, or another signal is transmitted. Then, a signal is transferred to a normal mode if the water is finished supplying by the second signal. If the water is continuously supplied, it is decided again if the water supply is finished. A signal is transmitted again if an error indicating mode of a pipeline leakage is not performed. It is decided again whether time goes by as the set time does not go by. Finally, a signal is transmitted to supply water again after the set time.

Description

How to mark plumbing leaks in gas boilers

The present invention relates to a pipe leak display method of a gas boiler, and more particularly, a leak detection method of a gas boiler that detects when a leak occurs in the pipe circulating heating water to be displayed on the room cone to be quickly recognized by the user It is about.

In general, a gas boiler includes a gas inlet pipe 10 through which gas is introduced into a burner 12 positioned below the heat exchanger 18, a gas valve 11 for adjusting a pressure of gas, and a gas boiler 11. In addition, the exhaust fan 14 for exhausting the flue gas of the flue 13 to the outside and the outside air for combustion flows in, and the heating return pipe 15 for returning the heating water through the piping in the room and An expansion tank (16) for temporarily storing the returned heating water, a three-way valve (26) for changing the flow of the heating water according to the use of heating or hot water, a circulation pump (17) for circulating the heating water, A heating water supply pipe 19 through which the heated heating water is supplied to the heating pipe while passing through the heat exchanger 18, a water supplement pipe 20 through which the water is supplied into the expansion tank 16, and an automatic replenishment water valve ( 21, a direct water supply pipe 22 for supplying direct water to the heat exchanger 18, and heated hot water are supplied. When the hot water to supply pipe (23), a flow switch 24 for detecting the flow of the water stream which, in the fullness excessive heating pipe, consisted of an overflow pipe 17 to be discharged to the outside part.

And when the water in the boiler is insufficient to replenish the heating water, the float switch in the expansion tank 16 detects the water level, if the water level is below a certain level, the reed switch is turned on (on) and the automatic replenishment water valve 21 Water is supplied to the expansion tank 16, and when water is supplied to raise the water level to a certain level, the reed switch is turned off to stop the operation of the automatic replenishment water valve 21, thereby refilling the water. It will stop.

The water replenishment of the conventional gas boiler, as shown in Figure 2, when the float switch in the expansion tank is turned on (on), the make-up water valve is operated to supply the direct water into the expansion tank for a predetermined time, the float switch is turned off (off) ), The make-up water valve was stopped.

Also, if the float switch was turned off even after the set time had elapsed, the refill water valve was stopped. If the float switch was not turned off after the set time had elapsed, the refill water valve was restarted. . If the float switch does not turn off after the set time has elapsed, the operation of the replenishment water valve is stopped and an error is displayed on the room cone of the room.

By the way, in the case of the above water leakage occurs in the heating pipe by automatically performing the water replenishment, the amount of water leakage increases the floorboard or wallpaper of the indoor floor, and at the same time there was a problem that the mold occurs when severe.

In addition, if water replenishment is not completed after a certain time, the water replenishment is forcibly turned off to protect the replenishment water valve.In the case of single water, the water replenishment is stopped, water is not displayed in the room cone, and the boiler is operated. There was also a problem that causes inconvenience to the user by stopping.

The present invention has been made in consideration of the above circumstances, and an object thereof is to detect a leak in a pipe in which heating water is circulated and to display it on a room cone so that the user can quickly recognize the pipe leakage of a gas boiler. To provide.

The present invention is a gas boiler having a step of performing a water replenishment to prevent overheating when the heating water in the boiler is insufficient in order to achieve the above object, if the replenished water after the step is a suitable level of time A proper level determination step of transmitting a signal in another time-lapse step if it is not a proper level; A time-lapse determination step of transmitting a signal to the water replenishment termination determination step when the time set by the signal elapses, and transmitting a signal to another water replenishment step if the set time has not elapsed; The water replenishment termination determination step of determining whether the water replenishment is terminated by the signal, when it is terminated, transmits a signal in a normal mode indicating that it is normal, and sends a signal to re-determine whether the water replenishment is terminated when it is not terminated. ; A water replenishment determining step of transmitting a signal to a pipe leakage error display mode indicating that the pipe is leaked when it is performed by determining whether the water is replenished by the signal of the step; And judging whether the time set by the signal of the step has elapsed, and if not, determine whether the time has elapsed by feedback, and if time elapses, send a signal to the water replenishment step to perform water replenishment again. The present invention provides a method for displaying a leak in a pipe of a gas boiler which is determined.

1 is a schematic configuration diagram of a general gas boiler,

2 is a flow chart according to the water replenishment of the conventional gas boiler,

3 is an overall flow chart of the method according to the invention.

* Explanation of symbols on the main parts of the drawings *

10 ... gas inlet 11 ... gas valve

12 ... burner 16 ... expansion tank

17 ... circulation pump 18 ... heat exchanger

20 ... Water fill line 21 ... Automatic fill water valve

22 ... direct supply line 24 ... flow switch

25 ... overflow pipe 26 ... three way valve

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

3 is a flowchart illustrating a pipe leakage display method of a gas boiler according to the present invention, which includes a conventional water replenishment step S1.

In addition, the water replenishment is performed for 1 to 2 hours due to water pressure difference during the operation of the initial boiler, and when the boiler starts operation, the water remaining in the pipe due to the flow of the heating water circulated due to the operation of the circulation pump. Bubbles are removed by the bubble removing device, and dissolved oxygen in the heating water is also separated from the heating water and removed by the bubble removing device by the temperature rising as the boiler operation time increases.

After a certain period of time after the initial operation of the boiler, the process of replenishing the insufficient heating water by this cause is terminated, and the water replenishment due to the lack of heating water that occurs after a considerable time has elapsed. Therefore, when a certain time has not elapsed, water replenishment occurs and if there is no abnormality in other parts, water leakage occurs in the pipe.

Therefore, in the proper water level determination step (S2), it is determined whether the heating water replenished in the expansion tank is full after the water replenishment step (S1) is finished. If the heating water replenished in the expansion tank is determined to be the proper level, it is determined that a predetermined time has elapsed by the operation of the timer. The determination of the passage of time is that it takes considerable time for water shortage to occur due to the above-described causes (bubble removal, etc.) from the completion of the initial water replenishment to the expansion tank until the next water replenishment. to be.

Therefore, the time required to elapse may be set by measuring the time required for the initial water replenishment, or may be controlled by inputting a predetermined time (for example, about 24 hours) at the time of designing the product. It is appropriate to set the time more than the time required by measuring the time required for the initial water replenishment.

If it is determined that the water level is full in the appropriate level determination step (S2) and the time elapses in the time-lapse determination step (S3), the signal is sent to the next water replenishment termination determination step (S4) to determine the water replenishment termination step ( In S4), the water replenishment is controlled by the feedback until the end, and when the end is terminated by sending a signal to the normal mode (S5). That is, after sufficient time has elapsed until the next water replenishment has occurred, the water replenishment is a normal boiler operation.

If it is determined that the time has not elapsed in the time-lapse determination step (S12), a signal is sent to the water replenishment determination step (S6), and it is determined whether the water replenishment is generated by such a signal. If it is determined that water replenishment occurs, a signal is sent to the pipe leak error display step S7 to indicate that a leak occurs in the pipe on the display unit. That is, after the initial water replenishment, sufficient time has not elapsed until the next water replenishment occurs, and there is no abnormality in other parts, but the water replenishment is performed due to leakage through the pipe.

If it is determined in the water replenishment determination step (S6) that the water replenishment is not performed, the signal is sent again to the time-lapse determination step (S5) to continue measuring whether the set time has elapsed. The progress of this sequence is to measure the progress of the set time with some kind of feedback and at the same time measure the operation of other functions within the set time to determine whether there is a failure.

Additionally, if it is determined that the water level is not a proper amount in the expansion tank in the appropriate level determination step (S2), the signal is sent to another time-lapse determination step (S8), and the time set in the time-lapse determination step (S8) The feedback is controlled by the feedback until the elapse of (e.g., about 1 hour). When the set time elapses, a signal is sent to the water replenishing step S1 to replenish the insufficient water in the expansion tank.

This control is to stop the water replenishment by shutting off the power supply of the replenishment water valve to prevent the automatic replenishment water valve failure after a certain period of time (about 20 minutes) with the water level in the expansion tank not reaching the proper level. This is because the boiler is shut down when the boiler overheats because of no water replenishment. That is, the boiler is not stopped even if proper water replenishment is not performed due to the hydraulic pressure difference.

As described above, according to the present invention, when a leak occurs in the piping of the boiler, the user can recognize the error promptly by an error indication, so that repair can be performed before damage occurs, such as lifting of a floor or mold, etc. If the replenishment is not made, the water replenishment is performed at regular intervals so that the operation of the boiler is not interrupted, thereby removing the inconvenience of using the boiler.

Claims (1)

In the gas boiler having a step (S1) for performing a water replenishment to prevent overheating when the heating water in the boiler is insufficient, If the water replenished after the step (S1) is an appropriate level of water, the appropriate level determination step (S2) for transmitting a signal in one time elapsed step, another time elapsed step if not the appropriate level; When the time set by the signal has elapsed, the signal is sent to the water replenishment determination step (S4), and if the set time has not elapsed, a time-lapse judgment step of transmitting a signal to another water replenishment step (S6) ( S3); When the water supplement is terminated by determining whether the water replenishment is terminated by the signal, the signal is sent to the normal mode (S5) indicating that it is normal. End determination step (S4); In the case of performing the water replenishment by the signal of the step (S3) is carried out in the pipe leakage error display mode (S7) to indicate that the pipe is leaking, if not performed to send the signal back to the time-lapse determination step (S3) Water replenishment determination step (S6); And if it is determined that the time set by the signal of the step S2 has elapsed, and if it does not pass, it is determined whether or not the time has elapsed by feedback, and if the time has elapsed, the signal is sent to the water replenishment step S1 to replenish the water again. Pipe leakage indication method of the gas boiler consisting of a time-lapse determination step (S8) to perform.