KR200308988Y1 - System for monitoring water leakage - Google Patents

Abstract

The present invention provides a leak monitoring system that can automatically detect a leak by detecting a drop in pressure in the feed water supplied for each generation. The leak monitoring system includes a plurality of control valves for regulating the supply of cold water, hot water and heating water supplied through respective supply pipes; A plurality of pressure sensors installed in a supply pipe near each control valve to measure water pressure therein; Each control valve and pressure sensor are connected, and the reference pressure value for comparing the measured pressure value received from the pressure sensor is set, controlling the opening and closing of each control valve, and the measured pressure is higher than the reference pressure. As low or gradually lowered as the control panel judging a leak; And a remote monitoring device for controlling the control panel at a remote location, and transmitting a leakage signal from the control panel to the central control system to warn the administrator.

Description

System for monitoring water leakage

The present invention relates to a leak monitoring system, and more particularly, to a leak monitoring system that can accurately detect leaks for each generation and quickly follow up to prevent damage.

In general, homes, companies or other industrial sites are supplied with drinking water as well as water that can be used for various purposes. For example, water that can be used as drinking water or water is supplied through a water pipe, and general water or industrial water can be supplied through a pipe connected to an underground water pipe or a storage tank.

Such water supply is performed by a control valve installed at a loading position of each supply pipe and an opening / closing valve or cock provided at the end of each supply pipe. That is, the water supplied through each supply pipe is supplied to the actual consumer through each valve or cock by hydraulic pressure.

On the other hand, in an assembly building such as an apartment, a cold water supply pipe for supplying tap water or drinking water from a monastery, a hot water supply pipe for supplying used water from a hot water supply source, and heating water for supplying hot water supplied from a boiler for heating in winter Supply pipes are installed, and each supply pipe is installed for each household and receives the corresponding supply water.

However, it was shown that some problems occur in receiving the supply water from each supply pipe installed for each generation. First, when a leak occurs in each supply pipe installed in each generation, there is a problem that can not be detected until the indoor resident finds with the naked eye.

In addition, if the detection of the leak is delayed, there is a problem that causes serious damage as the follow-up action is delayed.

In addition, due to the constant or increased water pressure inside the supply pipe, water leaks naturally occur in various apparatuses such as toilets of toilets, and the amount of water leaks increases, and the amount of water leaks due to failure to detect leaks in a timely manner. There is a problem that the economic loss is increased.

Accordingly, the present invention is designed to solve the above-mentioned problems, and an object of the present invention is to provide a leak monitoring system that can automatically detect leaks of various feed water supplied for each generation.

Another object of the present invention is to provide a leak monitoring system that can prevent damage due to leakage.

Another object of the present invention is to provide a leak monitoring system that can prevent the occurrence or increase of leaks and the resulting economic loss.

1 is a block diagram showing a leak monitoring system according to the present invention.

♣ Explanation of symbols for the main parts of the drawing ♣

10: cold water supply pipe 12, 22, 32: control valve

14, 24, 34: pressure sensor 20: hot water supply pipe

40: control panel 42: display

44: warning light 50: remote monitoring device

60: switch C: central control system

These objects, in the leakage monitoring system installed in conjunction with the cold water supply pipe for supplying drinking water or water, the hot water supply pipe for supplying hot water, and the heating water supply pipe for circulating the heating water for providing heating, respectively A plurality of control valve for regulating the supply of cold water, hot water and heating water supplied through the supply pipe of; A plurality of pressure sensors installed in a supply pipe near each control valve to measure water pressure therein; Each control valve and pressure sensor are connected, and the reference pressure value is set to compare the measured pressure value received from the pressure sensor. A control panel for controlling the opening and closing of each control valve and determining a leakage when the measured pressure is lower than the reference pressure or gradually lower than the reference pressure; And a remote monitoring device connected to control the control panel at a remote location and transmitting a leak signal from the control panel to the central control system to warn the administrator.

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

First, according to the water supply system to which the leak detection and control system according to the present invention is applied, predetermined water is supplied by a cold water supply pipe 10 for supplying general water, such as drinking water or tap water, and a heating means such as a boiler B. It is provided with a hot water supply pipe 20 for supplying the water heated to a temperature, and a heating water supply pipe 30 for circulating the hot water heated to a predetermined temperature by the boiler (B) for controlling the temperature of the room.

In particular, according to one main feature of the present invention, each supply pipe (10; 20; 30) is provided with a control valve for controlling the supply of cold water, hot water and heating water supplied or circulated through the respective supply pipe . That is, the control valve 12 is installed in the cold water supply pipe 10, the control valve 22 is installed in the hot water supply pipe 20, and the control valve 32 is installed in the heating water supply pipe 30. Each control valve (12; 22; 32) is preferably formed of an electric valve for automatically adjusting the supply amount or automatic opening and closing as described below.

In addition, according to another main feature of the present invention, each supply pipe (10; 20; 30), more specifically, each supply pipe (adjacent) of the control valve (12; 22; 32) installed in each supply pipe ( The pressure sensor for detecting or measuring the water pressure or the supply pressure of the cold water, the hot water, and the heating water which is discharged through the 10; 20; 30 and passed through each of the control valves 12; 22; 32 is installed. That is, the pressure sensor 14 is installed in the vicinity of the control valve 12 of the cold water supply pipe 10, the pressure sensor 24 is installed in the adjacent part of the control valve 22 of the hot water supply pipe 20, The pressure sensor 34 is installed in the vicinity of the control valve 32 of the heating water supply pipe 30.

On the other hand, the control valve (12; 22; 32) and the pressure sensor (14; 24; 34) installed in each supply pipe (10; 20; 30) is connected to the control panel 40 installed for each generation. The control panel 40 is configured to control the opening and closing angles of the control valves 12 and 22 and 32 as well as their opening angles according to various variables and input information. In particular, each pressure sensor (14; 24; 34) is connected to the control panel 40 to receive the pressure value from them, and serves to check the leakage by analyzing each received pressure value.

Optionally, the control panel 40 is provided with a display 42 which can indicate to the occupant or meter reader the supply state of the cold water, hot water and heating water supplied through the respective supply pipes 10; 20; 30, and the operation state of the control panel. do. In addition, a warning light 44 is provided for visually notifying when the cold water, the hot water, or the circulating water leaked through the respective supply pipes 10; 20; 30 is leaked. Of course, the control panel 40 is connected to a power source 46 for supplying power for driving and operating the components or devices of the control device as described above.

In particular, the control panel 40 inputs or sets a reference pressure value for comparison with the measured pressure value detected from each pressure sensor, and an allowable range is input when the measured pressure value is smaller than the reference pressure value. . Accordingly, as will be described later, when the water pressure in the supply pipe is gradually or significantly lowered and is out of the allowable range, the control panel 40 determines that a leak has occurred.

The control panel 40 is connected to a remote monitoring device 50 that communicates with the control panel 40. The remote monitoring device 50 is provided in every situation of the control panel 40, that is, each supply pipe 10; Cold water, hot water and heating water supply status, leakage status, warning status through a remote signal and serves to monitor this. Of course, this remote monitoring device 50 is configured to be connected to the central control system (C) or to form part of the central control system (C), so that it can be remotely controlled or monitored in the central control system.

In addition, the control panel 40 is connected to the switch 60 so that the user can arbitrarily adjust the supply of cold water. That is, the switch 60 turns on the control valve 12 when the cold water is to be supplied while the control valve 12 of the cold water supply pipe 10 is turned off, for example, in the late night time zone. Conversely, after use, it serves to turn off the control valve 12 in the on state. Of course, the switch 60 may be installed at a suitable position in the room so that the user can easily use. Optionally, in this embodiment, only one switch 60 is illustrated as being installed for supply of cold water, but the control valves 22 and 32 installed in the other two supply pipes 20 and 30 can be arbitrarily operated. It is obvious that more switches can be installed.

Hereinafter, the operation of the leak monitoring system configured as described above and its operation mode will be described in detail.

For example, in the normal water supply state, that is, at the time except the late night time when all residents of the household sleep, the control valves 12; 22; 32 installed in the respective supply pipes 10; 20; 30 are all kept in the on state, Cold water is supplied, hot water is supplied, and heating water is optionally supplied or circulated. Of course, during the summer or when no heating is required, the heating water supply pipe 30 is cut off in the central control room. In this case, the control valve 32 may be open or closed.

As such, in the state in which each of the control valves 12 and 22 and 32 is opened, a constant water pressure or a supply pressure is applied to each supply pipe so that cold water is finally supplied through operation of a cock or other open / close valve or hot water. It can be supplied, and in winter it can be provided with heating heat.

In this state, the pressure sensors 14; 24 and 34 installed in the respective supply pipes 10 and 20 and 30 detect the water pressures of the cold water, the hot water, and the heating water supplied through the respective supply pipes. Is sent to the control panel 40, stored and analyzed.

On the other hand, in the late-night time zone or the time when the residents are not active, each control valve (12; 22; 32) installed in each supply pipe (10; 20; 30) is automatically or manually turned off to block the water supply. Of course, in winter, the control valve 32 installed in the heating water supply pipe 30 may be provided with heating even during bedtime by separately maintaining the on state.

As such, even when the control valves 12; 22 or 32 are closed, the water pressure in each of the supply pipes 10; 20 and 30 is measured by the respective pressure sensors 14; 24 or 34 to the control panel 43. Is sent. The control panel 40 compares the measured water pressure of each of the supply pipes with the reference pressure, and determines that it maintains a normal lock state in which no leakage occurs when the difference from the reference pressure is maintained within the tolerance range. Of course, such a state is transmitted to and checked by the remote monitoring apparatus 50 or the central control system C in which the monitoring apparatus is installed.

However, when the measured water pressure measured in each supply pipe (10; 20; 30) is lower than or gradually lower than the reference pressure, the control panel 40 indicates that a leak occurs in the corresponding supply pipe of the supply pipe (10; 20; 30) To judge.

In addition, the monitoring device 50 connected to the control panel 40 receives the leak occurrence signal and delivers it to the central control system C or to the central manager to take follow-up measures. In addition, the monitoring device 50 flashes or lights the corresponding warning light among the warning lights 44 installed in the control panel 40 to warn the user or the meter reader of the leak. Of course, after that, the operator or manager finds the leak location of the supply pipe and seals or replaces it to repair it to its normal state.

On the other hand, when the user, for example, to receive or use cold water during the late-night time, by pressing the switch 60 connected to the control panel 40 to turn on and open the control valve 12 installed in the cold water supply pipe 10, You can drink cold water by using cock or valve and drink or use it. Of course, if the switch 60 is pressed again after use, the control valve 12 is turned off to maintain the closed state.

Accordingly, it is possible to automatically detect leaks during the late hours or when the cold water, hot water or heating water is not used, and in particular, the water pressure from the control valve to a device such as a toilet in which cold or hot water is actually used is kept relatively low. Natural leakage is significantly reduced.

As a result, according to the leak monitoring system according to the present invention, it is possible to detect the drop in the pressure of the supply water supplied for each generation to automatically detect the leak and take follow-up measures, thereby improving reliability and productability. .

In addition, there is an advantage that can automatically detect this when the leakage of the supply water is quickly alerted, and minimize the subsequent damage.

In addition, the increase in the water pressure in the supply pipe during the non-use time period by the control valve is off, there is an advantage that can minimize the natural leakage through each water use mechanism.

Although a preferred embodiment according to the present invention has been described above, it will be understood by those skilled in the art that various modifications and variations can be made without departing from the scope of the appended claims.

Claims (4)

Each of the supply pipes for detecting and warning leaks from the cold water supply pipe for supplying drinking water or water, the hot water supply pipe for supplying hot water, and the heating water supply pipe for circulating the heating water for providing heating. In the leak monitoring system installed, A plurality of control valves for controlling the supply of cold water, hot water and heating water supplied through the respective supply pipes; A plurality of pressure sensors installed in supply pipes adjacent to each of the control valves to measure water pressure therein; Each of the control valve and the pressure sensor is connected, and the reference pressure value for comparing the measured pressure value received from the pressure sensor is set. A control panel which controls the opening and closing of each of the control valves and determines a leak when the measured pressure is lower than the reference pressure or gradually lower than the reference pressure; And And a remote monitoring device linked to control the control panel at a remote location, and transmitting a leakage signal from the control panel to a central control system to alert an administrator. The water leakage monitoring control system according to claim 1, wherein each of the control valves is an electric valve that is automatically opened and closed. The display of claim 1, wherein the control panel has a display for indicating a supply state of cold water, hot water and heating water supplied through the respective supply pipes, and an operation state of the system, and a warning when a leak occurs in each of the supply pipes. A leakage monitoring system comprising a plurality of warning lights for. The water leakage monitoring system according to claim 1, wherein the control panel is connected to a switch for arbitrarily adjusting the opening and closing of the respective control valves.