KR200330868Y1 - unmanned water-supply controller - Google Patents

Abstract

The present invention provides an unmanned water supply control device including a reception control device having a first RF module and a first microcomputer to control a pump installed at the intake well side, a water supply pipe connected to the pump and transferring the intake water to a predetermined position. A transmission tank connected to an end of the water supply pipe and storing a quantity of water transferred through the water supply pipe, a water level sensor for adjusting the water level of the water storage tank, a second RF module and a second microcomputer; And a solar cell for supplying predetermined operating power to the transmission control device.

The present invention reduces the installation cost and maintenance cost of the water supply system by controlling the pump installed on the water intake side and the reservoir installed on the transmitter side by the RF module and the solar cell without the separate receiver control line and the commercial power supply of the transmitter. Can be.

Description

Unmanned water-supply controller

The present invention relates to an unmanned water supply control device, and more specifically, by using a wireless communication and a solar cell without a separate control line and power supply automatically supplies water to the inside of the reservoir that is isolated from the groundwater and at the same time the water level of the reservoir The present invention relates to an unmanned water supply control device for automatic regulation.

In general, there is no water supply in the island or the mountain wall, so it is almost dependent on the groundwater, and the water drawn from the groundwater is supplied through the water pipe to the reservoir installed in a certain area, and the water supplied to the reservoir is returned to each household. Will be supplied.

Therefore, the conventional structure and water level control method for supplying water to a storage tank installed in a predetermined area to store groundwater consists of a configuration as shown in FIG. That is, a water intake well 1 for collecting raw water, a pump 2 installed in the intake well 1 for pumping and draining raw water, and a water supply pipe 3 for transferring raw water drained from the pump 2 to a predetermined position. And a storage tank 5 installed at an end of the water supply pipe 3 to store raw water discharged through the water supply pipe 3, and mounted on an inner side or one side of the water storage tank 5 to detect a water level. The controller 7 for outputting a control signal by determining and calculating the level detected by the water level sensing means 6, the signal sensed by the water level sensing means 6, and the control signal output from the controller 7 pump 2 In order to transmit to the wire, the wiring 4 which is embedded or processed and has a predetermined length is included.

Conventional water level control device having such a configuration is to supply the raw water through the water supply pipe (3) from the intake well (1) to the reservoir (5), the drained raw water is stored in the reservoir (5) when the predetermined amount is filled, the water level The sensing means 6 detects the amount of raw water and converts the electrical signal, and the converted electrical signal is input to the controller 7 to determine the signal to drive the pump 2 through the wiring 4. Control.

That is, if the storage capacity of the reservoir 5 is filled by the set amount when draining the raw water with the pump 2 of the intake well 1 through the water supply pipe 3, the controller 7 ) Stops the driving of the pump 2 so that no more water is taken in.

In this case, in order to drain the raw water pumped from the pump through the water supply pipe, the water supply pipe is required, and the water supply pipe is connected to the processing state or buried in the ground, and at the same time, it is necessary to transmit a control signal from the controller to the pump Since wiring must be processed or buried separately, double connection work is required, and processed or buried wires are likely to be disconnected, shorted, or leaked due to external influences or conditions. Therefore, normal control signals cannot be transmitted from the controller to the pump. If there was a problem overflowing the raw water stored in the reservoir.

In addition, if the pump is always operated in an operating state, the durability of the pump is reduced, which leads to the disadvantage of shortening the life, and the electric wire accident as well as loss of leakage or leakage of electric power due to disconnection, short circuit, or leakage of the wires being wired are caused. There is also a problem that can cause the problem, and because the wiring of a separate wire was a factor that increases the cost of installation and maintenance of the water supply.

In order to solve the above problems, there are a number of sensors that can detect the water level inside the reservoir, and the output of the water level sensor to control the pump via the modem and the telephone line to manage the water supply and water level in the reservoir Although the device has been proposed, this design also has a problem of difficulty in maintenance due to disconnection or short circuit, as well as the installation cost increases because it is provided with a control line and a power supply line using a separate telephone line.

The present invention was devised to solve the above problems, and the object of the present invention is to provide a pump and a transmitter unit installed at an intake well side by an RF module and a solar battery without a separate receiver control line and a transmitter power supply. It is to provide an unmanned water supply control device that can reduce the installation cost and maintenance cost of the water supply device by controlling the installed reservoir.

A feature of the unmanned water supply control device according to the present invention for achieving the above object is a reception control device having an RF module 72 and a microcomputer 71 to control the pump 20 installed on the intake well 10 side. 70, a water supply pipe 30 connected to the pump 20 to transfer the water withdrawn to a predetermined position, and the water connected to the end of the water supply pipe 30 is transferred to the water supply pipe 30 A transmission control device 60 including a water storage tank 50 for storing a fixed amount, a water level sensor unit 64 for adjusting the water level of the water storage tank 50, an RF module 62, and a microcomputer 61; The solar cell battery 63 is configured to supply a predetermined operating power to the transmission control device 60.

The object of the present invention is the water level sensor unit 64 is installed in each of the predetermined area of the reservoir 50 to detect the reservoir position and display on the LCD display 65 and at the same time provide the detected detection signal to the microcomputer; A first microcomputer 61 for outputting a predetermined control signal according to the detection signal of the water level sensor unit 64, and a radio frequency signal of a predetermined band according to the control signal of the microcomputer 61 through the antenna; 1 is achieved by the transmission control apparatus 60 including the RF module 62 and the solar cell 63 for supplying predetermined power to each said part.

In addition, an object of the present invention is a second RF module 72 for receiving a radio frequency signal transmitted from the transmission control device 60 side through an antenna, and a predetermined control signal according to the radio frequency signal of the RF module 72 A second microcomputer 71 for outputting a power supply, a water supply motor 74 for operating a predetermined power supply according to a control signal of the microcomputer 71, and a commercial power supply unit 73 for supplying operating power to the respective units. It can be achieved by the reception control device 70 is configured to.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the unmanned water supply control device according to the present invention will be described in detail.

1 is a block diagram of a water supply device according to the prior art,

2 is a conceptual diagram of the unmanned water supply control apparatus according to the present invention,

3 is a block diagram of an unmanned water supply device according to the receiver of FIG. 2;

4 is a detailed circuit diagram of FIG. 3;

5 is a block diagram of an unmanned water supply apparatus according to the transmitter of FIG. 3,

FIG. 6 is a detailed circuit diagram of FIG. 5.

* Description of the symbols for the main parts of the drawings *

1,10: intake well 2,20: pump

3,30: water supply pipe 4: wiring

5,50: reservoir 6: water level detection means

7: controller 60: transmission control device

61, 71: Micom 62,72: RF module

63: cell battery 64: water level sensor

65,75 LCD display 70 Reception control device

73: commercial power unit ANT1, ANT2: antenna

2 is a conceptual diagram of the unmanned water supply control apparatus according to the present invention, a pump 20 for raising groundwater in the intake well 10 is installed, and a valve for controlling the discharge amount of the groundwater discharged from the pump 20, and the backflow Check valves are connected to each other to prevent the, is connected to each other and the reservoir 50 in the remote by the water supply pipe 30, the water level sensor unit (not shown) to detect the water level in the reservoir 50 step by step ) Is installed, and a reception control device 70 for controlling the pump 20 is installed on one inner wall surface of the water intake well 10.

In addition, a water level sensor unit 64 is installed inside the water tank 50 to detect the water level and photoelectrically convert the detected signal to the microcomputer, and to supply the operating power to the water level sensor unit and the microcomputer. The transmission control apparatus 60 which comprises the cell battery 63 is provided.

3 is a block diagram of an unmanned water supply device according to the receiver of FIG. 2, and FIG. 4 is a detailed circuit diagram of FIG. 3.

As shown in the drawings, the transmission control apparatus 60 of the unmanned water supply control apparatus according to the present invention is installed in a predetermined region of the reservoir 50 to sense the reservoir position and display it on the LCD display 65 at the same time. A water level sensor unit 64 for providing the detected detection signal to the first microcomputer 61, a first microcomputer 61 for outputting a predetermined control signal according to the detection signal of the water level sensor unit 64, and the first microcomputer 61; 1 The first RF module 62 for transmitting a radio frequency signal of a predetermined band through the antenna ANT1 according to the control signal of the microcomputer 61, and the solar cell 63 for supplying predetermined power to the respective parts. It is configured to include.

The water level sensor unit 64 is composed of a sensor array type in which a plurality of optocouplers and light emitting diodes are connected, and the solar battery 63 has a large capacity storage capacitor, a constant voltage IC, and a bridge diode connected in parallel.

In addition, the output terminal of the water level sensor unit 64 is connected to the input terminal of the first microcomputer 61, the output terminal of the first microcomputer 61 is connected to the input terminal of the RF module 62, the RF module 62 ) Is connected to the antenna ANT1. In addition, an LCD display 65 is connected to the input terminal of the water level sensor 64.

Therefore, the transmission control apparatus 60 of the present invention configured as described above has a predetermined control signal from the first microcomputer 61 according to a key input signal of an operation panel (not shown) or a signal detected by the water level sensor unit 64. Is output to the RF module 62.

Here, the water level sensor unit 64 detects the water level of the water tank 50 and at the same time A / D converts the detected signal to the LCD display unit 65 to provide the state of the current water tank 50 and the water supply to be described later. The operation status of the bump is displayed.

The RF module 62 outputs an RF signal having a predetermined frequency band (44.7500 to 449,2625 MHz) through the antenna ANT1 according to the control signal output from the first microcomputer 61. The RF module 62 uses a multi-channel (25 channels) as a living radio frequency band used by the public, it is possible to adjust the water level of a plurality of reservoirs installed in the same region without frequency collision.

In addition, the solar battery 63 can supply a large amount of optical energy in a large capacity capacitor during the day and charge it in the battery to supply operating power to each part of the transmitter even at night.

5 is a block diagram of the unmanned water supply control device according to the transmitter of FIG. 3, and FIG. 6 is a detailed circuit diagram of FIG. 5.

As shown in the figure, the repair control apparatus 70 of the unmanned water supply control apparatus according to the present invention receives a radio frequency signal transmitted from the transmission control apparatus 60 side as described above through a second RF module. 72, a second microcomputer 71 for outputting a predetermined control signal in accordance with the radio frequency signal of the RF module 72, and a water supply in which predetermined power is supplied and operated according to the control signal of the microcomputer 71 And a motor 74, a commercial power supply 73 for supplying operation power to the respective portions, and an LCD display portion 75 for displaying the operation states of the respective portions.

The second RF module 72 and the second microcomputer 71 are the same as those of the transmission control apparatus, and only their functions are programmed differently. That is, the second microcomputer 71 counts data initially sent from the transmission unit 60 to accurately recognize when the data (pump on / off signal, water level level signal) is sent from the transmission unit 60. It is designed to process the correct data when only the same data is received within the time (approximately 3-4 seconds).

In addition, the commercial power supply unit 73 is for supplying operating power to the water supply motor 74 is composed of a conventional transformer, a bridge diode, a constant voltage IC and a capacitor.

Therefore, the reception control apparatus 70 of the present invention configured as described above receives the data signal (water supply motor on / off signal and level control level signal) transmitted from the transmission control apparatus 60 from the second antenna ANT2, and When exported to the RF module 72, the RF module 72 sends a frequency channel of a predetermined band to the second microcomputer (71).

Then, the second microcomputer 71 outputs a pre-programmed control signal according to the data signal, and the control signal controls the optocoupler installed at the front end of the water supply motor 74 to operate the water supply motor 74. Control.

This control operation is displayed on the LCD display unit 75 as in the display device installed on the transmitter 60 side, so that the user can recognize the operation state of the water supply motor 74 and the operation state of the reservoir 50.

As described above, the unmanned water supply control apparatus of the present invention supplies a water supply by controlling a pump installed on the intake well side and a reservoir installed on the intake side by the RF module and the battery of the battery without a separate receiver control line and a commercial power supply unit of the transmitter. There is an excellent effect to reduce the installation and maintenance costs of the device.

In addition, the unmanned water supply control device according to the present invention has the effect of significantly reducing the management and installation costs, as well as the efficient control of the reservoir, as well as managing the water supply more efficiently.

Therefore, the unmanned water supply control device of the present invention is not limited to the embodiments and claims of the present invention because it is expected to change the system of each part according to the installation environment of the water supply facility, and various within the scope not departing from the technical spirit of the present invention. It is clear that modulation variations are possible.

Claims (3)

In order to control the pump 20 installed on the intake well 10 side, a receiving control device 70 having an RF module and a microcomputer, and a water supply pipe connected to the pump 20 and transferring the intake water to a predetermined position ( 30), a reservoir 50 for storing the transferred water connected to the end of the water supply pipe 30, a water level sensor 64 for adjusting the water level of the reservoir 50, RF module 62 and the microcomputer Unattended water supply control device comprising a transmission control device (60) having a (61), and a solar battery (63) for supplying power to the transmission control device (60). The microcomputer 61 of claim 1, wherein the transmission control device 60 is installed in a predetermined area of the water tank 50, respectively, and detects the water storage position and displays it on the LCD display 65. A predetermined band according to the water level sensor unit 64 provided to the control unit, a first microcomputer 61 for outputting a predetermined control signal according to the detection signal of the water level sensor unit 64, and a control signal of the microcomputer 61; And a first RF module 62 for transmitting a radio frequency signal through an antenna ANT1, and a solar cell 63 for supplying predetermined power to the respective parts. . The RF control apparatus of claim 1, wherein the reception control apparatus 70 receives a second RF module 72 that receives the radio frequency signal transmitted from the transmission control apparatus 60 through the antenna ANT1. A second microcomputer 71 for outputting a predetermined control signal in accordance with a radio frequency signal of Unmanned water supply control device, characterized in that comprises a commercial power supply 73 for supplying power.