KR100900717B1 - Remote control monitoring system of valve for water supply pipe line and method the same - Google Patents

Abstract

A system for remotely controlling/monitoring a valve a water supply pipe line and a method thereof are provided to control the opening/closing of the valve individually by storing data, set by a user, in a remote terminal. A valve controls the flow of water passing through the pipe path of water supply. A sensor measures states of the valve and water supply path. A remote terminal includes a processor for controlling the opening/closing of the valve. A main controller monitors the states valve and water supply path. The processor individually opens/closes the value according to the data stored in a memory to automatically control the flow of water within the water supply pipe line according to a set target value.

Description

REMOTE CONTROL MONITORING SYSTEM OF VALVE FOR WATER SUPPLY PIPE LINE AND METHOD THE SAME

The present invention relates to a remote control monitoring system and method for a water supply pipeline, and more particularly, to a water supply pipeline that analyzes information received from a remote site through a wired or wireless communication network to control a water treatment system. The present invention relates to a remote control monitoring system and a method thereof.

Generally, water supply refers to a facility that sends drinking water or industrial / fireproof water to a home or industrial facility through a water pipe.

Water supply facilities for managing tap water used in homes and industrial facilities, such as water intake intake of raw water, water intake in the intake and the mixing ground to control the amount and level of water coming from the intake, mixed with mixed water to mix the wells, Agglutination paper which causes the chemicals and foreign substances to entangle with each other, a sedimentation basin which dissolves the agglomerates in the water and discards the debris and sends only the clear water to the filter paper, a filter paper which filters very small agglomerates which have not been removed from the sedimentation basin, and removes various bacteria in the water. A water purification plant for temporarily storing clean water passing through the chlorine injection chamber, the filter paper and the chlorine input chamber, a drainage reservoir for storing water from the water purification plant and sending it to each household, and when water from the water purification plant is sent to a drainage reservoir (transmission process) Pressurized water by pumping and a pressurized water station and a relay pumping station for relay water are included.

In order to manage such water supply facilities, it is necessary to measure, control, and monitor the pressure and flow rate in the pipelines. To this end, currently operated water management systems are used in each local facility (e.g., intake, water purification, drainage, pressurization, and relay pumping stations). Etc.) and separate communication networks and systems are established and operated for remote control and monitoring of each facility (pump or valve, etc.).

In particular, in order to maximize the use efficiency of water when water is supplied to each household through the water pipe from the drainage and to reduce the leakage caused by the aging of the pipe, the remote control monitoring system of the pipeline valve is applied to the drainage. The remote control monitoring system of the valve includes a valve for controlling the flow of water through the pipeline, a remote terminal for controlling the flow of water in the pipeline by opening and closing the valve, and measuring the state of the valve and the pipeline, and manually controlling the valve. It is configured to include a main control unit for transmitting a signal for automatic control to the remote terminal and monitoring the state of the valve and the pipeline.

The remote control monitoring system of the pipeline valve configured as described above can control the amount of water flowing in the pipeline while monitoring the remote terminal remotely located at the main control unit through the communication network. Even if it is possible to supply adequate amount of water to each household or industrial facility.

However, the conventional pipeline valve remote control monitoring system as described above has a problem in that the entire system becomes uncontrollable when the communication network is disconnected because the remote terminal and the valve operate only by the operation of the main control unit.

Therefore, when the communication network is broken, it is difficult to deal with an emergency situation because the worker has to go to the site directly and deal with the emergency situation.However, even when arriving at the site, it is necessary to analyze where the problem occurred and to rectify the situation. There was an uncomfortable problem that the operator had to manually adjust the valve on site.

In order to solve the above problems, an object of the present invention is to control the pipeline valve automatically even in a state in which communication between the main control unit and the remote terminal is interrupted to prevent problems that may occur in an emergency situation in advance. The present invention provides a remote control monitoring system for a water supply pipeline valve and a method thereof.

In order to achieve the above object, the remote control monitoring system of the water supply pipeline valve of the present invention, the valve for controlling the flow of water through the water supply pipe; A remote terminal including sensing means for measuring and transmitting the state of the valve and the pipe, and a processor for controlling opening and closing of the valve; The main control unit for receiving the signal measured by the sensing means of the remote terminal to monitor the state of the valve and the conduit, and controls the processor, the remote terminal is a separate data set by the user It further comprises a memory is stored, The processor is characterized in that the automatic control of the flow of water in the conduit to the set target value by opening and closing the valve independently according to the data stored in the memory.

In addition, the sensing means of the remote terminal is characterized in that it comprises a pressure sensor and a flow sensor and the opening and closing sensor for measuring the pressure and flow rate and the valve opening and closing degree in the pipeline.

In addition, the memory of the remote terminal is characterized in that the algorithm for automatically controlling the opening and closing of the valve in consideration of the water usage of the season, monthly, day of the week, specific days every year is stored.

In addition, the processor of the remote terminal is characterized in that a program for sampling the data measured by the sensing means and stored in the memory, and transmits the stored value to the main control unit.

In addition, the main control unit records an error time when communication with the remote terminal is lost, and after the communication is restored, a program receiving data stored in the communication disconnection from the memory is accommodated. .

In order to achieve the above object, the remote control monitoring method of the water supply pipeline valve of the present invention, the setting and storing process for storing the data set by the user to the remote terminal; A registration process of registering the remote terminal with the main control unit; A connection attempt process in which the main control unit attempts to connect to the remote terminal to monitor the state of the valve and the conduit; After determining whether the connection is successful in the connection step, if the connection is successful, the remote terminal unit transmits the measured and stored data to the main control unit to monitor the state of the valve and the pipe. A connection judgment process of recording an error time of the; And a recovery process of receiving data stored at the time of connection failure from the remote terminal when communication is restored when the connection fails in the connection determination process.

In addition, the setting storage step is characterized in that it comprises an algorithm for automatically controlling the opening and closing of the valve in consideration of the water consumption by season, monthly, day of the week, specific day every year.

The present invention configured and acting as described above has the advantage that the data set by the user is stored in the remote terminal to control the opening and closing of the valve independently, so that the remote terminal does not fall into control when communication with the main control unit is lost. There is this.

In addition, since the pipeline valve is automatically controlled in the problem solving process due to communication interruption, there is an advantage that can analyze the situation after closely analyzing where the problem occurred regardless of time.

In addition, since the data stored in the memory of the remote terminal is transmitted to the main control unit after the communication is restored during the time when communication is lost, it is possible to identify the state of valves and pipelines during the time when communication is lost, and to take immediate action in case of problems. There is this.

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

The features and advantages of the present invention will become more apparent from the following detailed description of preferred embodiments based on the accompanying drawings.

Prior to this, the terms or words used in the present specification and claims are defined in the technical spirit of the present invention on the basis of the principle that the inventor can appropriately define the concept of the term in order to explain his invention in the best way. It must be interpreted to mean meanings and concepts.

In addition, it will be apparent to those skilled in the art that the present invention may be practiced without specific details such as specific components in the following description.

1 is a block diagram illustrating a remote control monitoring system for a valve for a water supply pipe according to an exemplary embodiment of the present invention.

1, a remote control monitoring system for a water supply pipeline of the present invention includes a valve for controlling the flow of water through the water supply pipe; A remote terminal including sensing means for measuring and transmitting the state of the valve and the pipe, and a processor for controlling opening and closing of the valve; And a main control unit for receiving the signals measured by the sensing means of the remote terminal to monitor the state of the valve and the conduit and to control the processor.

The valve is installed in the required position according to the purpose, such as hydraulic control valve, flow control valve, temperature control valve, etc., various valves such as pilot valve or solenoid valve may be selected for each purpose.

Preferably, the sensing means of the remote terminal includes a pressure sensor, a flow sensor, and an opening / closing sensor for measuring the pressure, the flow rate, and the valve opening / closing degree in the conduit, and the valve and the conduit through the values measured by the respective sensors. The status of the monitor will be monitored by the main controller.

The main control unit serves to integrally manage valves and remote terminals divided into several places, and controls each valve and remote terminal manually or automatically through a wireless or wired communication network.

The present invention configured and acting as described above can transmit and monitor the value measured by the sensor of the remote terminal to the main control unit so that the administrator can control the entire system without going directly to the field.

In addition, since each component of such a system is already known matters belonging to the general matter in the relevant field, a detailed description thereof will be omitted, and the features of the present invention will be described in detail below.

 Preferably, the remote terminal further includes a memory in which separate data set by a user is stored, and the processor automatically opens and closes a valve in accordance with the data stored in the memory to automatically adjust the flow of water in the pipeline according to a set target value. To control.

Such data is stored as algorithm data in a memory configured in a remote terminal, which is operated by a processor such as a microprocessor unit (MCU), and various kinds of processors may be selected by those skilled in the art. Of course.

As described above, the present invention stores the data set by the user in the remote terminal to control the opening and closing of the valve independently, so that the remote terminal does not fall into uncontrollability even when communication with the main control unit is lost. In the solution process, the pipeline valve is automatically controlled, so it is possible to solve the situation after closely analyzing where the problem occurred regardless of time.

The processor of the remote terminal unit preferably samples a data measured by the sensing means and stores the data in the memory, and transmits the stored value to the main controller.

The main control unit records an error time when communication with the remote terminal is lost, and after the communication is restored, a program for receiving data stored in the communication disconnection from the memory is accommodated.

In the present invention as described above, the main control unit records the time when communication is lost, and the data stored in the memory of the remote terminal is transmitted to the main control unit after the communication is restored during the time when communication is lost. By grasping the state of valves and pipelines, there is an advantage that can be quickly acted when a problem occurs.

FIG. 2 is a detailed flowchart illustrating an algorithm for automatically controlling opening and closing of a valve in consideration of water usage according to seasons, months, days of the week, and specific days according to an embodiment.

As can be seen with reference to the accompanying drawings, the above algorithm allows the user to directly input the data analyzed by the statistical analysis of water consumption every one year, and automatically controls the opening and closing of the valve by the input data, It would be possible to provide daily water supply to homes and industrial facilities without any manual operation.

As the change of season and the change of water consumption on a specific date, the year is divided into a number of sections, and the data can be set and applied separately on a specific date so that the user can set up a more detailed automation system. .

In addition, the algorithm as described above is to send a warning text message when an error occurs, so that the administrator can immediately grasp the emergency matters even when not in another region.

The CDMA module is installed to send the alert text message, and the mobile phone number of the alert text receiver can be entered and managed through a simple program.

The accompanying drawings are algorithm models applied in detail according to one embodiment, and specific names and order of each block may be easily interpreted by those skilled in the art, and thus detailed descriptions thereof will be omitted.

In addition, since the detailed items and methods in such an algorithm may be variously changed by those skilled in the art, the present invention is not limited only to the accompanying drawings, and the components and circuit configurations necessary for such an operation are already known. Omit it.

3 is a detailed flowchart illustrating a step of connecting a main control unit to a remote terminal according to an exemplary embodiment of the present invention.

Such a remote control and monitoring system for a water supply pipeline of the present invention includes a setting storage process of storing data set by a user in the remote terminal; A registration process of registering the remote terminal with the main control unit; An access attempt process in which the main control unit attempts to connect to the remote terminal to monitor the state of the valve and the conduit; After determining whether the connection is successful in the connection step, if the connection is successful, the remote terminal unit transmits the measured and stored data to the main control unit to monitor the state of the valve and the conduit, and if the connection fails, the main control unit loses communication. A connection judgment process of recording an error time of the; And a recovery process of receiving data stored at the time of connection failure from the remote terminal when communication is restored when the connection fails in the connection determination process.

The set-storing process includes an algorithm that automatically controls the opening and closing of valves in consideration of water usage by season, month, day of the week, and specific days every year, so that the water supply as usual is supplied to each household and industrial facility without manual operation by the operator. You will be able to do it without difficulty.

The present invention configured as described above operates independently without the operation of the main control unit, and at the same time, the remote terminal stores the sample measured by the sensor.

The stored values are stored in a separate memory included in the remote terminal and are transmitted to the main controller so that they can be monitored in real time. The measured values are stored in the memory as before, even when the communication is lost. Therefore, when communication is restored later, the data stored in the memory of the remote terminal is transmitted to the main controller so that it can be used as valuable information later.

At this time, the data to be stored is preferably recorded / stored in the flash memory. When the data reaches the capacity of roll writing, the data is stored by deleting the oldest data.

In addition, when an abnormal symptom occurs, the main control unit executes an administrator call and sends a text message at the same time as an alarm occurs, thereby enabling immediate action from the administrator.

To this end, in the present invention, if a variable value according to a communication delay time is input to the main control unit and communication with the remote terminal unit does not communicate for a predetermined time, it is determined that a problem occurs in the communication line, and accordingly, a manager call and a text message are sent. Is carried out.

The accompanying drawings are algorithm models applied in detail according to one embodiment, and specific names and order of each block may be easily interpreted by those skilled in the art, and thus detailed descriptions thereof will be omitted.

In addition, since the detailed items and methods in such an algorithm may be variously changed by those skilled in the art, the present invention is not limited only to the accompanying drawings, and the components and circuit configurations necessary for such an operation are already known. Omit it.

The remote control monitoring system of the water supply line valve of the present invention described above is generally compatible with and compatible with SCADA (Supervisory Control And Data Acquisition), which is used in the art, Of course, it can be utilized in many ways.

The foregoing has outlined rather broadly the features and technical advantages of the present invention in order that the claims of the invention that follow may be better understood.

It should be appreciated by those skilled in the art that the above-described concepts and specific embodiments of the present invention can be used immediately as a basis for designing or modifying other shapes for carrying out similar objects to the present invention.

In addition, the above-described embodiment is only one embodiment according to the present invention, and various modifications and changes may be made by those skilled in the art within the scope of the technical idea of the present invention.

Such various modifications and changes will also fall within the scope of the claims as set forth below within the scope of the spirit of the present invention.

1 is a block diagram illustrating a remote control monitoring system and method of a valve for a water supply pipeline according to an exemplary embodiment of the present invention.

FIG. 2 is a detailed flowchart illustrating an algorithm for automatically controlling opening and closing of a valve in consideration of water usage according to seasons, months, days of the week, and specific days according to an embodiment of the present invention.

3 is a detailed flowchart illustrating a step of connecting a main control unit to a remote terminal according to an exemplary embodiment of the present invention.

Claims (7)

A valve for controlling the flow of water through the pipeline of the tap water; A remote terminal including sensing means for measuring and transmitting the state of the valve and the pipe, and a processor for controlling opening and closing of the valve; In the remote control monitoring system for a valve for water supply pipelines, including; a main control unit for receiving the signal measured by the sensing means of the remote terminal to monitor the state of the valve and the pipeline, and controls the processor, The remote terminal stores data that statistically analyzes the water usage every one year set by the user, and automatically valves in consideration of the water usage according to the data of the season, month, day of the week, specific days every one year The memory for controlling the opening and closing of the memory further includes; The processor automatically opens and closes the valve according to the data stored in the memory to automatically control the flow of water in the conduit according to the set target value, The main control unit records an error time when the communication with the remote terminal is lost, and after the communication is restored, a program for receiving the state data of valves and pipes stored in the memory when the communication is lost from the memory is executed. Remote control monitoring system for water supply valve, characterized in that accommodated. delete delete delete delete In the remote control monitoring method of the valve for the water supply pipeline for monitoring the state of the valve and the pipeline measured by the remote terminal in the main control unit, Data that statistically analyzes the water usage at a yearly interval set by the user is stored, and automatically controls the opening and closing of the valve in consideration of the water usage according to the data of the season, month, day of the week, and specific days every year. A setting storing step of storing an algorithm in the remote terminal; A registration process of registering the remote terminal with the main control unit; A connection attempt process in which the main control unit attempts to connect to the remote terminal to monitor the state of the valve and the conduit; After determining whether the connection is successful in the connection attempt process, if the connection is successful, the remote terminal unit transmits the measured and stored data to the main controller to monitor the state of the valve and the conduit, and if the connection fails, the main controller communicates. A connection judgment process of recording an error point of a break; And a restoration process of receiving the state data of valves and pipelines stored in a memory at the time of connection failure from the remote terminal when communication is restored when the connection fails in the connection determination process. Remote control monitoring method for pipeline valve. delete

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