KR200236273Y1 - Control system for water tank - Google Patents

Abstract

The present invention relates to a reservoir control system, and more specifically, to ground water, leachate or waste water, etc., by sensing a water level of each of the raw water or the storage tank by a storage tank located at a predetermined distance, and wirelessly controlling it. The present invention relates to a water reservoir control system.

An object of the present invention is to provide a reservoir control system that can easily detect the water level of a water well or a storage means by the conduction of a power source having a predetermined voltage, and also prevent the damage of the device due to freezing in advance.

The configuration of the present invention for achieving the above object, in the water supply system for storing the raw water pumped by the motor pump in a predetermined storage means through the water pipe, groundwater level detection unit for detecting the level of the water intake well with the raw water ( 40); A motor driving part 30 controlling the driving of the motor 31 for pumping the ground water; A control unit 10 for controlling the groundwater level detecting unit 40 and the motor driving unit 30; A first power supply unit 20 for supplying power to the respective parts; A water tank level sensing unit 70 for sensing the level of the storage means for storing the raw water; A temperature sensor 80 for sensing the temperature of the raw water of the water tank; An RF transmitter 60 for converting the water tank water level detection signal and the temperature signal wirelessly and transmitting the same; A second power supply unit 90 for supplying power to the RF transmitter 60, the water tank level sensor 70, and the temperature sensor 80; It is characterized in that consisting of the RF receiving unit 50 for receiving a signal from the RF transmitter 60 to transmit to the control unit 10.

Also preferably, the groundwater level detection unit and the water tank level detection unit may install a negative electrode conductor 43 having a predetermined voltage to detect the high water level 41 and the low water level 42 below the low water level 42, and the cathode The low water level positive electrode conductor 44 which can conduct with the conductor 43 is installed at the portion where the low water level 42 starts, and the high water level positive electrode conductor 45 which is another positive electrode conductor is provided at the portion where the high water level 41 starts. And the second power supply unit comprises a solar cell, a general battery, or a storage battery. The control unit supplies power to the motor driving unit 30 from the first power supply unit 20. As a control, one side end of the motor drive unit malfunction is connected in series with the groundwater level detection signal 40 and the water tank water level detection signal 70 and operated by a signal due to a malfunction or a short circuit of the motor driver 30. No. 32 in series and configured to connect the other end, the switch is OFF when the temperature of the sensing signal (80) is connected when the said respective input signal is characterized in that for stopping the driving of the motor.

Description

Reservoir Control System {Control system for water tank}

The present invention relates to a reservoir control system, and more specifically, to ground water, leachate or waste water, etc., by sensing a water level of each of the raw water or the storage tank by a storage tank located at a predetermined distance, and wirelessly controlling it. The present invention relates to a water reservoir control system.

In general, water pipes from the point where constant water, leachate, or wastewater containing ground water (hereinafter referred to as raw water) to storage means installed at a predetermined position Many devices have been developed for transferring through.

And when the distance is a long distance (for example, tens of meters to several kilometers), the sensing means mounted on the water intake and storage means detects each level and sends it wirelessly or wired to automatically determine and control the storage amount of raw water. .

Conventionally, a device for remotely controlling the water level is composed of a storage means having a predetermined capacity for storing the raw water supplied through a water pipe for supplying the raw water with a predetermined distance by pumping the raw water with a pumping means.

The storage means and the sensing means for detecting the amount or level of the stored raw water means for transmitting the information about the detected raw water as an electrical signal and controlling the driving of the pumping means by determining the signal detected by the sensing means Consists of a controller for

That is, after the raw water is collected from the intake well (reservoir, reservoir or basement) by a pumping means such as a motor pump, it is supplied through a water pipe to a storage means installed at a predetermined distance, and the storage means detects the amount or level of stored raw water. The sensor senses the means and outputs it to the controller through the wire, and the controller determines the received detection signal to control the driving of the pumping means.

However, in the related art, if the amount of raw water of the intake well is not constant, the pumping means pumps the raw water and the raw water is not continuously supplied. In case that raw water is not detected properly or transmitted through wire, if the detected signal about the level of raw water stored by the short circuit or disconnection cannot be transmitted to the controller, the controller cannot control the pumping means normally. There was a problem of the enemy flooding. In addition, since the wiring is buried in the ground, there are many difficulties such as maintenance in case of a short circuit and overload, and there are problems such as the need to replace the old cable at any time.

The present invention has been made to solve the above problems, the object of the present invention is to easily detect the water level of the water well or the storage means by the conduction of the power supply having a predetermined voltage, and also to prevent damage to the device due to freezing in advance It is to provide a reservoir control system that can be prevented.

The configuration of the present invention for achieving the above object, in the water supply system for storing the raw water pumped by the motor pump in a predetermined storage means through the water pipe, groundwater level detection unit for detecting the level of the water intake well with the raw water ( 40); A motor driving part 30 controlling the driving of the motor 31 for pumping the ground water; A control unit 10 for controlling the groundwater level detecting unit 40 and the motor driving unit 30; A first power supply unit 20 for supplying power to the respective parts; A water tank level sensing unit 70 for sensing the level of the storage means for storing the raw water; A temperature sensor 80 for sensing the temperature of the raw water of the water tank; An RF transmitter 60 for converting the water tank water level detection signal and the temperature signal wirelessly and transmitting the same; A second power supply unit 90 for supplying power to the RF transmitter 60, the water tank level sensor 70, and the temperature sensor 80; It is characterized in that consisting of the RF receiving unit 50 for receiving a signal from the RF transmitter 60 to transmit to the control unit 10.

Also preferably, the groundwater level detection unit and the water tank level detection unit may install a negative electrode conductor 43 having a predetermined voltage to detect the high water level 41 and the low water level 42 below the low water level 42, and the cathode The low water level positive electrode conductor 44 which can conduct with the conductor 43 is installed at the portion where the low water level 42 starts, and the high water level positive electrode conductor 45 which is another positive electrode conductor is provided at the portion where the high water level 41 starts. And the second power supply unit comprises a solar cell, a general battery, or a storage battery. The control unit supplies power to the motor driving unit 30 from the first power supply unit 20. As a control, one side end of the motor drive unit malfunction is connected in series with the groundwater level detection signal 40 and the water tank water level detection signal 70 and operated by a signal due to a malfunction or a short circuit of the motor driver 30. No. 32 in series and configured to connect the other end, the switch is OFF when the temperature of the sensing signal (80) is connected when the said respective input signal is characterized in that for stopping the driving of the motor.

1 is a control block diagram of a reservoir control system according to the present invention,

2 is a schematic use state diagram of the reservoir control system according to an embodiment of the present invention,

3 is a structural diagram of the water level detecting unit of FIG. 1;

4 is a control diagram of the controller of FIG. 1.

<Description of Symbols for Main Parts of Drawings>

10: control unit 20: first power supply unit

30: motor drive part 31: motor

40: groundwater level detection unit 50: RF receiver

60: RF transmitter 70: water tank level detection unit

80: temperature sensor 90: second power supply

Hereinafter, the reservoir control system of the present invention will be described in detail with reference to the accompanying drawings.

1 is a control block diagram of a reservoir control system according to the present invention.

Referring to Fig. 1, an intake well (reservoir, reservoir or basement) having constant water, leachate, or wastewater (hereinafter referred to as raw water) including groundwater And groundwater level sensing unit 40 for sensing the level of the groundwater), a motor 31 for pumping the groundwater, and a motor driving unit 30 for controlling the driving of the motor 31. And a control unit 10 for controlling the groundwater level detecting unit 40 and the motor driving unit 30, a first power supply unit 20 for supplying power to the respective units, and a control signal for storing means described later. It consists of a radio receiver (hereinafter referred to as RF receiver, 50) including an antenna.

In addition, the water tank level detection unit 70 for detecting the water level of the storage means for storing the raw water (hereinafter referred to as the water tank), the temperature sensor 80 for sensing the temperature of the raw water of the water tank, and the water tank An RF transmitter 60 for transmitting a water level detection signal and a temperature signal to the RF receiver 50, a power source for supplying power to the RF transmitter 60, the water tank level sensor 70, and the temperature sensor 80; It consists of two power supply units 90.

The first power supply unit 20 is composed of a conventional circuit for rectifying and boosting or boosting or reducing the power appropriately to match the drive of the motor 31, the control unit 10 and the respective parts, the second power supply unit 90 It may be composed of a solar cell or a common battery or storage battery, the present invention will be described as a preferred embodiment of the solar cell.

FIG. 2 is a schematic state diagram of a reservoir control system according to an embodiment of the present invention, FIG. 3 is a structural diagram of the water level sensing unit of FIG. 1, and FIG. 4 is a control diagram of the controller of FIG. 1.

Referring to FIG. 2, a preferred embodiment of the present invention is described, and there is an oil supply pipe 110 for pumping raw water into a groundwater tank 100 located at a predetermined depth of the ground 300, and the oil supply pipe 110 A motor 31, a motor driver 30, a controller 10, and an RF receiver 51 for pumping raw water are formed at predetermined positions.

In addition, a water tank 200 for storing the raw water pumped through the oil supply pipe 110 and a water tank 200 and a water supply pipe 210 for discharging the raw water from the upper portion are installed, and the water tank 200 An RF transmitter 61 and an antenna for transmitting a water level detection signal of the water tank 200 and a temperature sensor 80 and a solar cell 91 for detecting a temperature of the water tank 200 are located at predetermined positions of the upper surface of the water tank 200. It consists of.

1 to 4, the operation and effects of the present invention will be described. First, as shown in FIG. 3, the groundwater level detecting unit 40 or the water tank level detecting unit 70 is a high water level 41. In order to sense the low water level 42, a negative electrode 43 having a predetermined voltage is provided below the low water level 42, and the low water level anode conductor 44 capable of conducting with the negative electrode 43 is a low water level 42. It is installed at the beginning of the part, and also configured to install the high water level anode conductor 45, which is another anode conductor, at the part where the high water level 41 starts.

Each of the conductors is preferably composed of a conductor that is resistant to corrosion of raw water and is not easily oxidized and reduced in reaction between the anode and the cathode, and the conductor connected to the conductor is preferably a waterproof conductor.

That is, the low water level detecting unit detects the low water level 42 by being connected with the low water level anode power supply 44 at the common power supply negative electrode 43 in the case of the low water level 42, and in the case of the high water level 41, the negative power supply ( 43 and the high-level positive power source 45 are also conducted to sense that the high-level 41 is high.

In addition, the water tank level detection unit 70 has a raw water supply detection anode 73 as a third positive electrode on the outlet of the water supply pipe 210 through which the raw water is discharged, so that the raw water is supplied with the cathode power supply 43. It will detect that you are busy.

In other words, the groundwater level of the groundwater tank 100 detects the water level through the groundwater level sensor 40 and outputs it to the control unit 10 to drive the motor 31 through the motor driving unit 30. When the supply is supplied to the water supply pipe 210 through the water supply pipe 110, and the groundwater level detection unit 40 outputs a low water level 42 signal, the control unit 10 stops driving the motor 31 to Overheating of (31) is prevented.

In addition, the water level inside the water tank 200 is detected through the water tank water level detection unit 70, the detection signal is the RF through the RF transmitter 61 installed in the upper predetermined position of the water tank 200 Transmit to receiver 51. At this time, it will be apparent to those skilled in the art that the transmitted signal type can be varied.

In addition, when the temperature of the water tank 200 is sensed and the temperature in the water tank 200 is less than or equal to the freezing temperature, the freezing temperature detection signal is transmitted through the RF transmitter 61, and also to the water supply pipe 210. The raw water supply or not signal by the connected raw water supply sensing anode 73 is transmitted through the RF transmitter 61.

At this time, the operating power of the RF transmitter 61, the temperature sensor 80 and the water tank water level detecting unit 70 is preferably supplied using a solar cell 91, and further includes a battery or storage battery not shown. It can be easily configured.

In addition, the temperature sensor 80 may be installed in the groundwater tank 100. In this case, in the case of groundwater, after the operation of the temperature sensor 80 that detects the freezing temperature due to the characteristics of the groundwater, the water temperature (0) Or more), it is preferable to have a timer to stop the continuous operation.

In addition, the water tank level detection signal, the temperature signal, and the raw water supply signal through the RF transmitter 61 are received through the RF receiver 50 connected to the controller 10 and transmitted to the controller 10. The central processing unit of 10) controls the supply of the power of the first power supply unit 20 to the motor driving unit 30 as shown in FIG. 4, and at one end, the groundwater level detection signal 40 and the water tank level. It is connected in series with the detection signal 70 and in series with the motor driver malfunction signal 32 which is operated by a signal due to a malfunction or a short circuit of the motor driver 30. And the other end is connected to the temperature detection signal (80).

That is, the operation of the controller 10 is a negative active operation in which the switch is turned off when the respective signals are input so that the groundwater level detection signal 40 is the low level 42 or the water tank. Even when the water level detection signal 70 is the high water level 41 or when the motor driving unit 30 malfunctions, the supply of power is interrupted to stop the driving of the motor. When measured below the freezing temperature, the driving of the motor is stopped by the operation of the temperature sensor 80.

As described above, according to the present invention, the water level of the reservoir can be easily measured by measuring the conduction between two conductors having a predetermined voltage, and the structure is simple by simply measuring the external freezing temperature. It is easy to install the equipment and it is effective to supply an efficient water tank control system at low cost.

Claims (4)

In a water supply system for storing the raw water pumped by the motor pump in a predetermined storage means through the water pipe, An underground water level detecting unit 40 for detecting the level of the intake well with the raw water; A motor driving part 30 controlling the driving of the motor 31 for pumping the ground water; A control unit 10 for controlling the groundwater level detecting unit 40 and the motor driving unit 30; A first power supply unit 20 for supplying power to the respective parts; A water tank level sensing unit 70 for sensing the level of the storage means for storing the raw water; A temperature sensor 80 for sensing the temperature of the raw water of the water tank; An RF transmitter 60 for converting the water tank water level detection signal and the temperature signal wirelessly and transmitting the same; A second power supply unit 90 for supplying power to the RF transmitter 60, the water tank level sensor 70, and the temperature sensor 80; Receiving the signal of the RF transmitter 60, the reservoir control system comprising an RF receiver (50) for transmitting to the control unit (10). The groundwater level detection unit and the water tank level detection unit, The low-level positive electrode conductor 44 capable of conducting contact with the negative-electrode conductor 43 by installing a negative-electrode conductor 43 having a predetermined voltage or less to detect the high-water level 41 and the low-water level 42. Is installed at the portion where the low water level 42 starts, and the high water level anode conductor 45, which is another anode conductor, is installed at the portion where the high water level 41 starts. The method of claim 1, wherein the second power supply unit, Reservoir control system comprising a solar cell or a common battery or storage battery. The method of claim 1, wherein the control unit, The power supply of the first power supply unit 20 is controlled to supply to the motor driving unit 30, one end of which is connected in series with the groundwater level detection signal 40 and the water tank water level detection signal 70 in addition to the motor driving unit 30 is connected in series with the motor drive part malfunction signal 32 operating by a signal due to a malfunction or a short circuit, and the temperature sensing signal 80 is connected to the other end so that the switch is input when the respective signals are input. A reservoir control system, which is turned off to stop driving of a motor.