KR20060009469A - A water leakage automatic detection method and apparatus of heating pipe laying in gas boiler - Google Patents

Abstract

The automatic detection of leaks in the heating pipes of a gas boiler and its apparatus are for automatically detecting the leaks of heating pipes of a gas boiler accurately and without errors. According to the present invention, when the low water level of the water tank is detected, the automatic water supply valve is opened to supply water to the water tank, and after detecting the high water level, the time when the low water level is detected again and the temperature of the heating water at the time of detecting the high water level and the low water level are changed. The temperature difference is compared with the reference temperature difference, and as a result of the comparison, when the water level change temperature difference is less than or equal to the reference temperature difference, that is, when the temperature at the low water level is not lowered or increased by the set reference value than the temperature at the high water level, the time interval between the water level change and the reference time interval is In comparison, when the water level change time interval is smaller than the reference time interval, it is determined that the water pipe is abnormal, and when it is determined that the water pipe is longer than a predetermined number of times, an alarm is sounded. Therefore, the present invention determines the leakage of the heating pipe by considering the temperature and time interval at the time when the low water level and the high water level are detected, thereby reliably distinguishing the water level drop in the normal pipe state from the water level drop in the heating pipe leak state. It provides the effect that can detect the abnormality of the heating pipe without error.

Gas boiler, heating piping, water leakage, temperature change temperature difference, water level change time interval

Description

A water leakage automatic detection method and apparatus of heating pipe laying in gas boiler}

1 is a block diagram showing an automatic heating pipe leak detection device of a gas boiler according to the present invention,

2 is a flowchart illustrating a method for automatically detecting a leak in a heating pipe of a gas boiler according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: controller 20: water level detector

30: automatic water supply valve 40: water tank

50: overflow hose 60: temperature sensor

70: memory 80: timer

90: alarm unit

The present invention relates to a gas boiler, and more particularly, a leak of a heating pipe is automatically compared by comparing a time interval at which a low water level and a high water level signal is generated and a temperature at that time with a reference time and temperature, respectively. The present invention relates to a method for automatically detecting a leak in a heating pipe of a gas boiler and a device thereof.

Boilers used in homes and public buildings are used for heating or hot water.

Most of these boilers use oil or gas as fuel to burn through a burner, and then heat water using the combustion heat generated in the combustion process, and circulate the heated water (hot water) into a heating pipe in a room. Heating or supplying hot water to the bathroom, sink, etc. according to the needs of the user.

Pipes used for heating piping include synthetic resin pipes such as PVC (Poly Vinyl Chloride), copper pipes, and metal pipes such as nickel. Since these pipes are susceptible to corrosion, they may be damaged by corrosion and leaks if used for a long time. Leaks can reduce the efficiency of heat transfer and adversely affect the operation of hot water heaters.

As a prior art for detecting a leak of such a heating pipe, a method for automatically determining a piping error of a hot water heater is disclosed in Korean Patent Application No. 99-23204 (June 19, 1999) for determining a pipe error by determining a time interval at which a low water level signal is generated. And its device ". In this prior art, when the low water level of the water tank is detected, the solenoid valve is opened to supply water to the water tank, and the high water level is detected. Then, the time of detecting the low water level is counted again. Determine. In more detail, when the time interval between the low water level signal of the water tank is generated is compared with the preset reference time, the water pipe error signal is output when the time interval is less than the reference time, and the water pipe error signal is inputted more than the reference number of times. If the water pipe abnormality alarm signal is outputted.

However, the method presented in this prior art poses a significant problem which will be described later.

Most gas boilers have a built-in water tank. The function of the water tank is to absorb the volume expansion of the water as the temperature rises. That is, a considerable amount of water is contained as a heat transfer medium in a heating pipe of a house in which a gas boiler is installed. When the temperature rises due to the operation of a boiler during heating, the total volume of the water increases. This increased volume acts to increase the water level in the water tank. Normally, the water tank is designed in consideration of the amount of expandable water when the gas boiler is installed as a standard. However, the amount of water introduced into the heating pipe may vary greatly depending on the heating area and the like under actual use conditions. Therefore, most of the water tanks are equipped with an overflow hose in case the volume expansion amount due to the temperature rise of the water in the heating pipe exceeds the water level increase margin of the water tank.

Considering the actual operation of the gas boiler, the water tank level change is explained as follows.

① When the gas boiler is installed for the first time or when the low water level signal is generated when the temperature of the heating water is low, the controller normally supplies power to the automatic water supply valve and fills the water in the heating pipe until the high water level signal occurs.

② After the user inputs a heating use signal, the boiler performs a predetermined combustion stroke to increase the temperature of the heating water.

③ As the temperature of the heating water rises, the volume of the water expands, and when the volume expands above the limit level of the water tank, the heated water is discharged little by little through the overflow hose.

④ The boiler is extinguished when the predetermined heating water target temperature is reached or the user inputs the heating stop signal.

⑤ The temperature of the heating water is lowered according to the heat dissipation of the heating pipe after the fire extinguishing of the boiler, and thus the volume of water is reduced, so the water level is lowered.

⑥ If the temperature of the heating water falls to the level before the combustion stroke of ② due to the discharge through the overflow hose of the expanded water in ③, the water tank level may be lower than the low water level detection level.

⑦ The phenomenon of ⑥ may occur even if the strokes of ② to ⑤ are repeated several times.

As described above, although there is no leakage of the heating pipe, it is common that the low water level detection signal is periodically output even in a normal use state of the gas boiler. If the time interval at which the normal low water level detection signal is output is smaller than the reference time interval previously set in the above-mentioned prior art, the gas boiler outputs an incorrect water pipe abnormal signal even though there is no abnormality in the heating pipe. There is. In addition, if this phenomenon is repeated several times and a water pipe error signal is outputted after the reference number of times, a water pipe error alarm signal is generated. Thus, the user and the gas boiler manufacturer may be mistaken for a heat pipe error even though there is no problem with the heating pipe. Is there.

Accordingly, an object of the present invention is to solve the above-mentioned problems, by considering the temperature and time interval at the time when the low water level signal and the high water level signal is generated, the water level in the normal pipe state and the heating pipe leakage state The present invention provides a method and apparatus for automatically detecting a leak in a heating pipe of a gas boiler for identifying a pipe abnormality by reliably distinguishing a water level drop.

According to the present invention, a method for automatically detecting a leak of a heating pipe of a gas boiler according to the present invention includes: (1) a method of controlling a gas boiler that automatically supplies and blocks water by detecting a low water level and a high water level of a water tank; Storing the heating water temperature at the moment when the high water level detection of the water tank is last made, counting the water level lowering time, and (2) storing the heating water temperature at the moment the low water level of the water tank is detected, and lowering the water level. (3) comparing the temperature difference between the stored heating water temperature at the high water level and the heating water temperature at the low water level with a preset reference temperature difference, and if the temperature difference is greater than the reference temperature difference, Determining and comparing the counted time with a preset reference time interval if the reference temperature difference is equal to or less than the reference temperature difference; If it is greater than the quasi time interval, it is determined that the water level is lowered in the normal pipe state, and if it is less than the reference time interval, it is determined that the water pipe abnormality, and (5) the predetermined number of times the number of counted by counting the water pipe abnormality judgment count If more than the number of times includes the step of determining the leakage of the heating pipe.

Automatic heating pipe leakage detection device for a gas boiler for achieving the object of the present invention, in the device for automatically detecting the heating pipe leakage of the gas boiler, water level detection unit for detecting the water tank level of the gas boiler, and heating A temperature sensor for detecting the water temperature, a memory for storing the heating water temperature detected by the temperature sensor at the high and low water levels of the water tank, and a change in the water level from the high water tank to the low water level A timer for obtaining a time interval, and overall control of the gas boiler operation according to a user's operation, wherein the heating water temperature at the high and low water levels stored in the memory and the water level change time interval obtained at the timer are respectively referred to a reference temperature and a reference. It includes a controller for detecting a leak in the heating pipe compared to the time.

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

1 is a block diagram of the automatic detection of the heating pipe leakage of the gas boiler according to the present invention. The detection device shown in FIG. 1 is a low water level detector 21 and a high water level detector 22 for detecting the low and high water levels of the water tank 40, respectively, to supply water to the water tank 10, the water tank 10 It is provided with an automatic water supply valve 30, and an overflow hose 50 for discharging the water to the outside of the boiler when water is excessively supplied to the water tank (10). The detection device of FIG. 1 also includes a temperature sensor 60 for detecting the heating water temperature, a memory 70 for storing the heating water temperature detected by the temperature sensor 60, and a timer for checking the water level fall time. 80 is provided. On the other hand, the detection device of Figure 1 is an alarm unit 90 for ringing an alarm in the event of a heating pipe abnormality, the controller to perform the overall control of the boiler operation and to control each component for automatic detection of heating pipe leaks and to determine the abnormality of the heating pipe ( 10). The operation of the automatic detection of the gas boiler heating pipe leakage of the apparatus having such a configuration will be described in detail with reference to FIG. 2.

The water level detector 20 includes a high water level detector 21 and a low water level detector 22, and the low water level detector 22 is installed at the low water level of the water tank 40 to detect the low water level at which the operation of the gas boiler is prohibited. The detection unit 21 is installed at the high water level of the water tank 40 to prevent the water tank 40 from overflowing.

When the low water level signal is input from the low water level detector 22 to the controller 10, the controller 10 applies power to the automatic water supply valve 30 to replenish water in the heating pipe until a high water level signal is input. When the user inputs a heating use signal by operating an operation panel on each room or main room cone, the controller 10 performs a predetermined combustion stroke in the boiler to increase the temperature of the heating water. As the temperature of the heating water rises, the volume of the water expands, and when the volume expands above the limit level of the water tank 40, the heated water expanded through the overflow hose 50 little by little. In this case, since the water level will continue to maintain more than the high water level, the high water level detection output is continuously generated through the high water level detection unit 21.

When the predetermined heating water target temperature is reached or the user inputs a heating stop signal, the controller 10 extinguishes the boiler. The temperature of the heating water is lowered according to the heat dissipation of the heating pipe after the fire extinguishing of the boiler, and thus the volume of the water is reduced and the water level is lowered. When the water level falls below the high level detection level, generation of the high level detection output is stopped.

The controller 10 determines whether the high water level is detected by the high water level detecting unit 21 of the water level detecting unit 20 (step 201). When the high water level is detected as a result of the determination in step 201, the controller 10 "offs" the automatic water supply valve 30 (step 202), and then resets the timer 80 to "0" and at this time, the temperature sensor ( The heating water temperature T _H detected at 60 is stored in the memory 70 (step 203). If the high water level is not detected as a result of the determination of step 201, the controller 10 starts operation of the timer 80 (step 204). That is, the controller 10 stores the temperature T _H of the heating water in the memory 70 through the temperature sensor 60 installed at the moment when the occurrence of the high water level detection output is made last, and at the same time the timer 80 " ON " to count the level fall time. The memory 70 stores the heating water temperature T _H at the high water level, and the timer 80 checks the time until the water level changes from the high water level to the low water level.

When the temperature of the heating water is lowered to the level before the combustion stroke, the water level of the water tank 40 may be lowered below the low water level detection level. Thus, the controller 10 determines whether the low water level is detected in the low water level detecting unit 22 of the water level detecting unit 20 (step 205). When the low water level is detected as a result of the determination in step 205, the controller 10 detects the temperature T _L of the heating water detected by the temperature sensor 60 at the moment when the low water level detection output occurs, that is, the heating water temperature T _L at the low water level. ) Is stored in the memory 70 and at the same time the timer 80 is stopped (step 206). If the low water level is not detected as a result of the determination in step 205, the controller 10 repeats step 205 until the low water level is detected. The controller 10 stores the difference between the heating water temperature T _H at the high water level and the heating water temperature T _L at the low water level stored in the memory 70, that is, the “water level change temperature difference T _H -T _L ” and The " water level change time interval (Timer) &quot;, which is the time counted by the timer 80, that is, the time from the high water level to the low water level is calculated. The controller 10 calculates the water level change temperature difference T _H -T _L by subtracting the heating water temperature T _L at the low water level from the heating water temperature T _H at the high water level. The controller 10 determines whether the calculated water level change temperature difference T _H -T _L is equal to or greater than a preset reference temperature difference T _REF (step 207). Here, the reference temperature difference T _REF is set in consideration of the volume shrinkage caused by the temperature decrease in consideration of the total volume of the heating water in a normal pipe installation state. If the water level change temperature difference T _H -T _L is greater than or equal to the reference temperature difference T _REF (T _H -T _L) > T _REF ), which is a case where the temperature at the low water level is lower than the temperature at the high water level by a certain level or more, and the controller 10 determines that the cause of the water level is reduced by the volume shrinkage caused by the temperature decrease of the heating water. ) Is "ON" (step 208) and the process returns to step 201 to repeat the step. If the determination of step 207 and the water level change temperature difference (T _H -T _L ) are less than or equal to the reference temperature difference (T _REF ), this means that the temperature at the low water level is not lower or higher than the set reference value than the temperature at the high water level. 10 compares the water level change time interval Timer with a preset reference time interval Timer _REF (step 209). As a result of the comparison in step 209, if the water level change time interval is equal to or greater than the reference time interval (Timer> Timer _REF ), the controller 10 "ONs" the automatic water supply valve 30 (step 208), and returns to step 201. Repeat the steps. When the water level change time interval Timer is less than the reference time interval Timer _REF as a result of the comparison in step 209, the controller 10 increments the water pipe abnormality counter once to count the number of water pipe abnormalities (step 210). Then, the controller 10 determines whether the number of times of the water pipe abnormality counter is greater than or equal to a preset reference number (step 211). As a result of the determination in step 211, if the number of times of the water pipe abnormality counter is greater than or equal to the reference number, the controller 10 determines that the heating pipe leaks and drives the alarm unit 90 to sound an alarm (step 212). If it is determined in step 211 that the number of abnormal water pipe abnormality counters is less than or equal to the reference number, the controller 10 returns to step 208 to perform the step.

As described above, the automatic detection of leaks in the heating pipe of the gas boiler according to the present invention and the device, in consideration of the time interval from the high water level to the low water level as well as the heating water temperature difference in the detection of the high water level and low water level heating pipe By judging the leak, the water level drop in the normal pipe state and the water level drop in the heat pipe leak state can be reliably distinguished, so that the leak of the heating pipe can be detected automatically without a mistake.

Claims (12)

In the control method of the gas boiler which detects the low water level and the high water level of the water tank to automatically supply and block water, (1) storing the heating water temperature at the moment when the high water level detection of the water tank is last made, and counting the water fall time; (2) storing the heating water temperature at the moment when the low water level of the water tank is detected, and stopping the water level fall time counting; (3) Compare the temperature difference between the stored heating water temperature at the high water level and the heating water temperature at the low water level with a preset reference temperature difference to determine that the water level is lowered in the normal piping state if the temperature difference is higher than the reference temperature difference, and if the temperature difference is lower than the reference temperature difference. Comparing the counted time with a preset reference time interval; (4) determining that the water level is lowered in a normal pipe state when the counted time is greater than the reference time interval, and determining that the water pipe is greater than the reference time interval when the counted time is smaller than the reference time interval; And (5) a method for automatically detecting a leak of a heating pipe, comprising determining a leak of a heating pipe when the number of times of determining the water pipe abnormality is counted and the counted number exceeds a predetermined number of times. The method of claim 1, wherein step (1) (1a) determining whether a high level detection signal is input; (1b) stopping the water supply to the water tank when a high water level signal is input and storing the detected heating water temperature at this time; And (1c) repeating the high water level determination, if the high water level signal is not input, the step of counting the time from this time, automatic heating pipe leakage detection method of the gas boiler characterized in that it comprises. The method of claim 1, wherein step (2) (2a) determining whether a low water level signal is input; And (2b) If the low water level signal is not detected, the low water level input determination is repeated, and if the low water level signal is detected, the heating pipe leakage of the gas boiler characterized in that it comprises the step of storing the detected water temperature and stopping the time counting. Detection method. The method of claim 1, wherein step (3) (3a) calculating a water level change temperature difference by subtracting the heating water temperature at the low water level stored in the step (2) from the heating water temperature at the high water level stored in the step (1); (3b) comparing the calculated water level change temperature difference with a preset reference temperature difference; And (3c) when the water level change temperature difference is more than the reference temperature difference, the water level is determined to be the case where the water level is lowered due to the volume shrinkage due to the temperature decrease of the heating water, and when the water level change temperature difference is less than the reference temperature difference, And comparing the counted time with a preset reference time interval from the high water level to the low water level change time interval, wherein the heating pipe leak is automatically detected. The method of claim 4, wherein the reference temperature difference of step (3b) is set in consideration of the volume shrinkage caused by the temperature decrease in consideration of the total volume of the heating water in the pipe installation state. 5. The water supply system according to claim 4, wherein the step (4) supplies water to the water tank when the water level change time interval is greater than the reference time interval, and if the water level change time interval is smaller than the reference time interval, the water pipe abnormality counter is repeated once. Automatic detection of leaks in heating piping of a gas boiler, characterized in that for increasing. 7. The method of claim 6, wherein step (5) (5a) comparing the number of abnormal water pipe abnormality counters with a preset reference number; (5b) supplying water to the water tank when the number of abnormal water pipe abnormality counters is less than or equal to the reference number, and determining water leakage when the number of bad water pipe abnormality counters is greater than or equal to the reference number of times; And And (5c) detecting a leak of the heating pipe of the gas boiler, characterized in that it comprises a step of generating an alarm if it is determined that the leak of the pipe. In the device for automatically detecting the leakage of the heating pipe of the gas boiler, A water level detector for detecting a water tank level of the gas boiler; A temperature sensor for detecting a heating water temperature; A memory for storing the heating water temperature detected by the temperature sensor at the high water level and the low water level of the water tank, respectively; A timer for obtaining a water level change time interval from the high water level to the low water level of the water tank; And The control of the operation of the gas boiler is performed according to a user's operation, and the leakage of the heating pipe is compared with the reference temperature and the reference time by comparing the heating water temperature at the high water level and the low water level stored in the memory with the water temperature change time interval obtained from the timer, respectively. Automatic heating pipe leakage detection device for a gas boiler comprising a controller for detecting the. The apparatus of claim 8, further comprising an alarm unit that generates an alarm when the controller detects a leak of the heating pipe. The temperature sensor according to claim 8 or 9, wherein the controller cuts off the water supply to the water tank, resets the timer when the high water level is detected in the water level detecting unit, and at the moment when the high water level detection is finally made. Automatic heating device leakage detection device for a gas boiler characterized in that for storing the temperature of the heating water at the high water level detected in the memory and at the same time starting the timer. The memory of claim 10, wherein the controller stores the heating water temperature at the low water level detected by the temperature sensor at the moment when the low water level is detected in the water level detection unit, and stops the timer operation. The water temperature change temperature difference is calculated by subtracting the heating water temperature at the low water level from the heating water temperature at the low water level, and compared with a preset reference temperature difference. When the water level change temperature difference is equal to or less than the reference temperature difference, the water level change time interval obtained through the timer is preset. Automatic detection of heating pipe leakage of the gas boiler, characterized in that for detecting the leakage of the heating pipe compared to the set reference time interval. 12. The method of claim 11, wherein the controller determines that the water level change time interval is smaller than the reference time interval, the water pipe abnormality, and every time the water pipe abnormality is determined, the number of times is determined so that the number of water pipe abnormality determination is more than the reference number of times. Automatic detection of heating pipe leakage of the gas boiler, characterized in that when determining the leakage of the pipe to drive the alarm unit.

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