KR100845972B1 - System for remote-control the water lever of the tank - Google Patents

Abstract

A remote water lever control system for a reservoir is provided to keep water level in the reservoir by a predetermined level by using a plurality of water level sensors, a remote transmitter, and a remote receiver. A remote water lever control system for a reservoir comprises a plurality of water level sensors(5), a water level sensing unit(15), and a pump controller(20). The water level sensors are attached to the reservoir vertically at regular intervals to sense water level. The water level sensing unit is installed on the reservoir to receive water level signals from the water level sensors, and transmit the signals to a remote transmitter(19). The pump controller is connected with a motor pump by wires, and provided with a remote receiver(24) to communicate with the remote transmitter. The pump controller outputs motor pump control signals to operate the motor pump.

Description

Wireless remote water level control system of water tank {SYSTEM FOR REMOTE-CONTROL THE WATER LEVER OF THE TANK}

1 is a block diagram of a wireless remote water level control system of the reservoir of the present invention.

* Description of the main parts of the drawings *

1: motor pump 2: water supply pipe

3: water tank 5: water level sensor

15: water level detection device 19: wireless transmitter

20: pump controller 24: wireless receiver

25: flow meter 26: switchgear

The present invention pumps water from a water supply source such as groundwater or a reservoir, and stores it in a remote reservoir to supply water to a user when needed. Control system.

In general, rural and rural areas where water supply is not spread, the groundwater or surface water is used to raise groundwater or surface water and store it in a reservoir, and then use it to supply water to houses scattered over long distances.

Most liver water supply facilities include a motor pump that pumps water from a water supply; A water supply pipe for supplying water pumped from the motor pump; A reservoir for storing water supplied from the water supply pipe; It is composed of a controller that controls the motor pump according to the signal of the water level sensor so that the water tank level is kept within a certain range by controlling the operation of the motor pump so that the water level of the water tank is in the proper range of the upper and lower limits.

Also, in most cases, the reservoir is located in a high area for easy water supply to various scattered houses, so it is usually installed at a position far from the water source where the motor pump is installed.

Conventional simple water supply facilities used in this way is to control the motor pump using a wired line between the motor pump and the reservoir of the water source, or flow rate detection means for detecting the flow rate of water supplied to the water supply pipe or to detect the pressure state of the water The pressure sensing means may be used to control the motor pump under the pressure or flow of water supplied to the reservoir, and the wireless receiver may be provided inside the controller provided in the motor pump of the water supply source to detect the signal detected by the water level sensing means. Accordingly, there has been a configuration in which a wireless transmitter for transmitting a wireless signal is configured to receive a signal transmitted from the wireless transmitter and to control the driving of the motor pump.

In the case of using the wired line, it is not possible to operate normally due to frequent disconnection, short circuit, or leakage due to landslides, floods, digging, etc.

When the flow rate or pressure sensing means is used, the operation is performed by the action of water directly applied. Therefore, when the pipe is old or the pumped water contains a large amount of foreign matter, the foreign matter may operate normally. In addition to giving a designation, there was a problem causing frequent failures.

On the other hand, in the case of using the radio signals transmitted and received, when the radio receiver of the reservoir or the pump controller malfunctions or malfunctions, water cannot be stored in the reservoir, or water in the reservoir overflows. As a result, the user may have difficulty in receiving the water supply, and there is a hassle of checking the abnormality of the motor pump and the reservoir of the water source located at a remote location from time to time.

In particular, adjusting the water level of the water tank to an appropriate range is essential for living the daily lives of the residents, and above all, reliability and maintainability should be considered, but the designs using the radio signal are overlooked, which may cause deterioration and damage of parts. When the circuit breaks down, it leads to a water supply interruption, causing inconvenience and distrust to the residents.

An object of the present invention for solving the above problems, in controlling the motor pump by wirelessly transmitting and receiving a signal between the motor pump of the water source and the remote reservoir to store water, the water level sensor of the reservoir to 5 levels It is to provide a wireless remote water level control system of a reservoir configured by subdividing.

In addition, an object of the present invention is to provide a wireless remote water level control system of a reservoir for providing a flow meter on one side of the water supply pipe, measuring the flow rate with the flow meter to stably adjust the water level of the reservoir.

As described above, in the water level sensing system of the water tank, a plurality of sensors are attached to the sides of the water tank in the longitudinal direction in order to generate a water level signal by switching electrical contacts when the water level reaches each sensor. A water level sensor 5 configured; A water level detecting device 15 mounted on the water tank and receiving a water level signal of the water level sensor 5 to detect a waveform state and transmit the wave state to the wireless transmitter 19; It is connected to the motor pump (1) by wire and has a wireless receiver (24) for wireless communication with the wireless transmitter (19), and receives the water level signal from the wireless transmitter (19) wirelessly and accordingly accordingly. After determining that the water level has been reached is achieved by the wireless remote water level control system of the water reservoir characterized in that it comprises a pump controller 20 for outputting the motor pump (1) control signal to operate the motor pump (1). .

In addition, in the present invention, it is preferable that the water level sensor 5 is attached to the water tank wall surface so that each sensor is distributed densely in the upper and lower water levels of the water tank.

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In addition, in the present invention, the waveform state detection of the water level detection device 15, the water level detection sensor (5) of the water level detection sensor (5) for transmitting a level detection signal that is changed within a set time is the target The sensors sense the moment when they touch the water in order to transmit the signal to the water level sensor (15), the water level sensor (15) is a time difference between the sequence of the sensor that the water touches and the moment the water touches each sensor It is preferable to determine the state of the waveform by calculating.

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Hereinafter will be described in more detail through the accompanying drawings for the wireless remote water level control system of the reservoir of the present invention.

1 is a block diagram of a wireless remote water level control system of the reservoir of the present invention, as shown in the figure, the water level sensor 5 is five sensors attached to the side of the reservoir tank.

The water level sensor 5 is a common product that the electrical contact is switched when the water level reaches each sensor.

That is, the water level sensor 5 is divided into five levels to measure the water level, so that each sensor is arranged at uniform intervals according to the height of the water tank 3 so as to more accurately grasp the water level of the water tank 3.

The water level sensor 5 detects the presence or absence of contact with water and continuously transmits the signal to the water level sensor 15. The water level sensor 15 receives the signal of the water level sensor 5. Through the water level detection sensor (5) to determine the sensor corresponding to which position of the reservoir tank inner wall to determine the height of each level is filled up.

Further, in another embodiment, each sensor of the water level sensor 5 is attached so as to be densely distributed in the upper and lower water levels of the water tank, and in this state, when the water in the water tank is generated by the natural force, the actual water tank is attached to the water tank. To avoid the inability to measure the exact amount of water that is collected, operate the water level sensing device 15 to ignore the signals if the sensors in dense distribution differ in their signal within a set time (in seconds), or Or it is determined to determine the current state of the reservoir (3) through the sensor signal to be changed.

In other words, when the water in the reservoir changes the water level detection value of the sensor from time to time according to the waveform, it is to sense that it is a temporary height due to the waveform, not the actual water level.

For example, when a wave is formed in the water collected at the high water level in the water reservoir 3, the sensors concentrated in the upper water level sense the order in the order of the water contact and transmit the signal to the water level detecting device 15. These sequences and time differences are used to measure the magnitude of the waveform.

The level sensor 15 is connected to an amplifier for amplifying the signals to generate the waveform state data or the level signals and transmit them wirelessly.

The amplifier amplifies these signals and forwards them to the radio transmitter 19.

The wireless transmitter 19 is mounted on the reservoir 3 and receives a level signal detected by the water level sensor 5 in the reservoir 3 to load a code with a predetermined algorithm and output the signal at predetermined time intervals. Built-in transmitter central processing unit, and transmits a radio signal according to the output signal of the transmitter central processing unit.

In addition, the wireless transmitter 19 has a built-in lightning protection device for lightning strikes.

The water level sensor 5, the water level sensor 15, and the wireless transmitter 19 are operated by supplying power from a power supply device. The power supply device is a water level sensor 5 and a water level sensor 15. Connected with The power supply device may be a self-powered device using a solar cell or a device equipped with a separate battery.

The motor pump 1 is a conventional motor pump installed in a water source area remote from the reservoir and submerged in the water source to transfer the water collected in the water source to the reservoir.

In addition, the water supply pipe (2) is connected to the motor pump (1) and the reservoir tank is a conventional underground pipe that allows the water of the water supply to be discharged into the reservoir by the pumping operation of the motor pump (1).

The pump controller 20 is connected to the motor pump 1 in a wired manner and includes a wireless receiver 24 to perform wireless communication with the wireless transmitter 19, thereby receiving a water level signal from the wireless receiver 24. After receiving wirelessly, it is determined that the proper level is reached accordingly, and then the motor pump 1 outputs a control signal and transmits the operation state of the device to the outside.

That is, it is determined whether the water in the reservoir overflows based on the waveform state information and the water level information determined by the water level sensing device 15.

The transmission and reception of the radio signal uses a natural frequency of the low power FM band instead of weak radio waves in terms of communication distance extension and reliability inventory.

Accordingly, the pump controller 20 issues a command so that the motor pump 1 is turned on / off.

The flow meter 25 is connected to the pump controller 20 in a wired manner, and is coupled between the water supply pipes 2 connected from the motor pump so that a water supply pumped from the motor pump 1 passes through the water supply pipe. When the flow meter 25 measures the flow rate, and transmits the measured flow rate data to the pump controller 20 is connected by wire.

One side of the flow meter 25 is provided with a switch 26, the switch 26 is manually operated to prevent or open the water source pumped through the motor pump (1) to enter the reservoir (3). Device.

When the natural water is collected in the water source, the pump controller 20 outputs an operation command of the motor pump 1 to operate the motor pump 1.

When the motor pump 1 is operated so that water from the water supply source flows out through the water supply pipe, the flow meter 25 connected to the water supply pipe measures its flow rate and is connected to the pump controller 20 connected by wire. It will transmit data.

When opening the switch 26 so that the water of the water source flows into the reservoir 3, the water of the water source is collected into the reservoir along the water supply pipe buried underground.

Accordingly, the water in the reservoir is gradually filled, and the five-level water level sensor 5 is operated to transmit the water level signal of the reservoir to the wireless transmitter 19.

The radio transmitter 19 transmits the received water level signal to the pump controller 20, and the radio receiver 24 of the pump controller 20 receives the output signal and transmits the output signal to the pump controller 20. do .

Through the water level signal, the pump controller 20 detects the current water level and the waveform state of the water reservoir 3, and after determining that the reference water level is reached, issues the command to stop the operation of the motor pump 1.

According to the operation stop command of the motor pump 1, the motor pump 1 stops operation, and water of the constant source is not pumped any more, so the flow rate of the flow meter 25 is measured to 0 to the pump controller 20. Is sent.

As described in detail above, the wireless remote water level control system of the reservoir according to the present invention controls a motor pump by wirelessly transmitting and receiving a signal between a motor pump of a water source and a remote reservoir of water to store water. By subdividing into five levels, it is possible to detect the water level in the reservoir more precisely.

Although the technical idea of the wireless remote water level control system of the water storage tank of the present invention has been described with the accompanying drawings, this is illustrative of the best embodiment of the present invention and is not intended to limit the present invention. In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

Claims (5)

delete delete delete In the wireless remote water level control system of the reservoir, A water level sensor (5) attached to the side of the water tank in a longitudinal direction, the electrical contact being switched when the water level reaches each sensor, the water level sensor comprising a plurality of sensors to generate a water level signal; A water level detecting device 15 mounted on the water tank and receiving a water level signal of the water level sensor 5 to detect a waveform state and transmit the wave state to the wireless transmitter 19; It is connected to the motor pump (1) by wire and has a wireless receiver (24) for wireless communication with the wireless transmitter (19). After determining that the water level has been reached, characterized in that it comprises a pump controller 20 for outputting the motor pump (1) control signal to operate the motor pump (1), The water level sensor (5) is characterized in that a plurality of sensors are attached to the wall of the water tank so that each sensor is distributed densely in the upper and lower water level of the water tank, Waveform state detection of the water level detection device 15 targets the water level detection sensors 5 that transmit the water level detection signal that is changed within a set time of the water level detection sensors 5 and the moment when the sensors touch water. In order to transmit the signal to the water level sensor 15, the water level sensor 15 calculates the order of the sensors to reach the water and the time difference between the moment the water touches each sensor to determine the state of the waveform Wireless remote water level control system, characterized in that the judging. delete

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