KR200289240Y1 - Wireless Auto Water Level Control Apparatus - Google Patents

Abstract

The present invention relates to a wireless automatic level control device, the pumping means for withdrawing the raw water from the wells or pressurized field; A water supply pipe for supplying raw water withdrawn from the pumping means; Hydraulic pressure sensing means for sensing the hydraulic pressure formed in the water pipe and outputting the electrical signal; A controller for receiving a signal input from the pressure sensing means and a radio signal, comparing and determining the data with the set data, and outputting driving power for controlling the pumping means; Water flow sensing means for sensing the flow of raw water at the end of the water pipe and outputting the electrical signal; Storage means for storing raw water supplied from the water pipe; Water level detection means for sensing the water level of the raw water to the storage means and output as an electrical signal; And a control box for converting the detection signal of the water level in the water level detection means and the water flow detection means in the water flow detection means into a wireless signal, and transmitting the radio signal. When the water level is set when supplying and storing water, it is to recognize and control it accurately.

Description

Wireless Auto Water Level Control Apparatus}

The present invention relates to a wireless automatic water level control device, and more particularly, to an apparatus for automatically adjusting the water level remotely by accurately recognizing this when the water level set when storing the raw water taken from the water well in the storage means.

1 is a device for conventionally controlling the water level of the raw water stored in the remote storage means wirelessly, the water well (10) for taking raw water from the pressurized field, such as underground raw water or stored raw water or water, and the water well A water supply pipe 4 for remotely transmitting the raw water collected from the water, a storage means 20 for storing the raw water received through the water pipe, and an end of the water pipe introduced into the storage means, to the storage means And a pressurizing valve 6 for boosting the water pressure in the water supply pipe to control the water level of the raw water to be stored.

Furthermore, the water intake well 10 includes a well 8 for intake of raw water, a water pressure sensing means 3 mounted in the water supply pipe 4, and a pressure signal sensed by the water pressure sensing means 3. It is determined that the controller 1 for turning on or off the driving power applied to the pumping means (2) is included.

In order to adjust the water level of the raw water stored in the remote storage means as described above, first, driving power is applied to the pumping means 2 under the control of the controller 1, and the pumping means 2 is driven by the driving power. The raw water is withdrawn and the withdrawn raw water is sent to the remote storage means 20 through the water pipe 4. Feed water is stored in the storage means 20, the water level is raised, the float 7 is raised by the rise of the water level, the rise of the float 7 is a pressure valve 6 configured at the end of the water pipe (4) ) Is pressurized while blocking the water pipe (4). At this time, the water pressure of the raw water being delivered through the water pipe (4) is increased, the pressure sensing means (3) installed in the water pipe (4) detects and converts it into an electrical signal and inputs it to the controller (1). . The controller 1 judges the input signal and compares it with a set value (a value in which a preset position (or storage amount) to be stored in the storage means is set in advance). Therefore, the controller 1 continuously monitors the pressure rise of the water supply pipe 4 by the pressure valve 6, and when the set value is reached, shuts off the driving power applied to the pumping means 2 so that the pumping means 2 Stop the drive. Therefore, when the pumping means 2 stops the intake, the raw water that has been delivered through the water supply pipe 4 is cut off, so that no further raw water is supplied. In addition, when the raw water stored in the storage means 20 is discharged through the water supply pipe 9 and lowered below the set water level, the water pressure sensing means 3 of the water supply pipe 4 is connected to the water storage means through the water pressure sensing pipe 5. The water level in 20 is sensed, the detected signal is transmitted to the controller 1, and the controller 1 determines the input signal to determine whether to drive the pumping means 2.

As described above, when the raw water is collected and supplied to the remote storage means through the water pipe, even if the raw water stored in the storage means is set to a high level, if the controller does not stop the driving of the pumping means, the pumping means continues to be driven and stored. The enemy stored in the Sudan is flooded. In addition, even in the case of low water level, if the water pressure sensing means does not accurately determine the low water level, there is a problem that the pumping means cannot retake water and thus cannot supply the raw water to the storage means.

The present invention has been devised to solve the above problems, it is possible to detect the water flow in the water pipe so as to accurately recognize the set high and low water level, and accurately detect the storage state of the raw water in the storage means to remotely signal An object of the present invention is to provide an automatic water level control device capable of transmitting and receiving.

1 is a schematic configuration diagram of a general wireless automatic water level control device,

2 is a block diagram of a wireless automatic water level control device according to the present invention,

3 is a block diagram showing an embodiment of a storage means of the present invention,

4 is a configuration diagram showing another embodiment of the storage means of the present invention,

Figure 5 is a cross-sectional view of the operation of the water flow detection means of the present invention.

♣ Description of the main parts of the drawing ♣

1: controller 2: pumping means

3: pressure sensing means 4: water pipe

5: pressure sensing pipe 6: pressure valve

7: Bug 8: Prosecutor

9: water pipe 10: water inlet

11, 41: signal processor 12: microcomputer

13, 43: power supply 14, 44: memory

15, 45: signal conversion section 16: demodulation section

17: receiver 18, 48: transmit and receive antenna

20: storage means 30: water flow detection means

32: detection bar 40: control box

46: modulator 47: transmitter

50, 52: water level detection means

The present invention for the above purpose, the pumping means for withdrawing the raw water from the well or pressurized field; A water supply pipe for supplying raw water withdrawn from the pumping means; Hydraulic pressure sensing means for sensing the hydraulic pressure formed in the water pipe and outputting the electrical signal; A controller for receiving a signal input from the pressure sensing means and a radio signal, comparing and determining the data with the set data, and outputting driving power for controlling the pumping means; Water flow sensing means for sensing the flow of raw water at the end of the water pipe and outputting the electrical signal; Storage means for storing raw water supplied from the water pipe; Water level detection means for sensing the water level of the raw water to the storage means and output as an electrical signal; It characterized in that it comprises a control box for converting the detection signal of the water level in the water level detection means and the water flow detection means in the water flow detection means to a wireless signal for transmission.

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

2 is a block diagram of an automatic water level control device according to the present invention. The same reference numerals apply to the same parts as in the prior art.

The pumping means 2 is for withdrawing raw water from the well 8 or the pressurized field, and the pumping means 2 is buried underground to pump groundwater or installed in the pressurized field to pump water. As the pumping means 2, it is preferable to apply a vacuum motor pump or an underwater motor pump.

Water pipe 4 is for supplying the raw water taken by the pumping means 2 to the remote storage means 20, connected from the pumping means 2 to the storage means 20, buried underground It is preferred to be connected to the ground or ground.

The pressure sensing means 3 detects the water pressure formed in the water pipe 4 and outputs the electric pressure as an electrical signal, and detects the water pressure of the raw water stored in the storage means 20. As for the hydraulic pressure sensing means 3, what has a measurement sensitivity to Kg / cm <^2> -Kg / m <^2> is applied.

The controller 1 receives a signal inputted from the hydraulic pressure sensing means 3 and a radio signal, and outputs driving power for controlling the driving of the pumping means 2 by comparing and judging with the set data. The controller 1 aims at overall control of the automatic water level control device, and is installed in the water intake well 10. The controller 1 preferably includes a key input unit for various controls and a display unit for visually displaying the operation state.

Water flow detecting means 30 is to detect the flow of raw water to the end portion of the water pipe (4) and output as an electrical signal, referring to Figures 5a and 5b, the flow of raw water in the water pipe (4) The sensing bar 32 flowing in accordance with, and the switching switch (not shown) is turned on or off by the flow of the sensing bar (32). The sensing bar 32 is in the form of a rod or plate and turns on or off the changeover switch according to the flow of raw water. For example, the switching switch is applied to a micro switch or the like, and is connected to the sensing bar 32 so as to be turned on or off according to the operation of the water flow sensing bar 32.

The water level detecting means (50, 52) is to detect the water level of the raw water to the storage means 20 to output as an electrical signal, it is configured in the storage means 20 as shown in Figs. The water level detecting means 50 and 52 are resistance elements whose resistance values vary depending on the water level, and the resistance elements may include one or more.

The control box 40 converts the detection signal regarding the water level of the raw water from the water level detection means 50 and 52 and the detection signal regarding the water flow by the water flow detection means 30 into a wireless signal, and transmits it. It is comprised on the top or one side of 20.

The control box 40 is a power supply 43 for supplying the power required to drive the device, and the signal input from the water flow detection means 30 and the water level detection means (50, 52) amplified and converted into a digital signal A signal processor 41 for outputting the control signal, a microcomputer 42 for outputting a control signal by judging a signal input from the signal processor, a program connected to the microcomputer, and storing or storing the input data A memory unit 44 for outputting a signal, a signal converter 45 for converting a data signal output from the microcomputer, and a modulator 46 for modulating and outputting a signal output from the signal converter into a wireless signal. And a transmitter 47 for transmitting the radio signal modulated by the modulator as a signal amplified through a transmission antenna.

In addition, the controller 1 includes a power supply unit 13 for supplying power required for driving the device, a signal processor 11 for converting a signal input from the water pressure sensing means 3 into a digital signal, and outputting the digital signal; A receiver 17 for receiving the radio signal induced by the control box 40 from the control box 40, a demodulator 16 for demodulating the radio signal received at the receiver, and converting the demodulated data into a digital signal; A signal converting unit 15 to determine a signal input from the signal processing unit and the signal converting unit, and a control unit 12 to output a control signal; A memory unit 14 for outputting the stored data is included.

Referring to the operation of the present invention having such a configuration, first, by operating the controller 1 of the water intake well 10 for the intake of raw water by the user, the controller 1 is the pumping means (2) The driving power is applied to drive the pumping means 2. The raw water is withdrawn from the well (or pressurized field) 8 by the driving of the pumping means 2, and the water is fed through the water pipe 4. The flow of raw water delivered through the water pipe 4 is detected by the water flow sensing means 30 installed at the end of the water pipe 4 while being supplied to the storage means 20. That is, as shown in Figure 5b, the sensing bar 32 of the water flow detection means 30 installed in the water pipe 4 is rotated in the water flow direction by the raw water flowing along the water pipe 4, the detection bar 32 By the rotation of the switch configured on the inside of the water flow detection means 30 is turned on. When the switch is turned on, the microcomputer 42 of the control box 40 determines the state of the switch input through the signal processor 41 and outputs a control signal. The control signal outputs the information data indicating that the supply of raw water is normally performed to the signal converter 45, and the data converted by the signal converter 45 is modulated by the modulator 46 and then transmitted by the transmitter 47. After being amplified, it is transmitted to the air as a radio signal through the transmitting antenna 48.

The radio signal transmitted to the air is transmitted to the receiving antenna 18 of the controller 1 of the water intake well 10, and the received radio signal is input to the demodulator 16 after being received and amplified by the receiver 17. . The demodulator 16 demodulates the input radio signal, and the demodulated signal is converted into a digital signal by the signal converter 15 and input to the controller 12. Therefore, the controller 12 determines that the raw water taken by the pumping means 2 is normally supplied to the storage means 20 through the water pipe 4.

At this time, if it is determined that the supply of raw water is not made in the received radio signal, that is, the pumping of the raw water is driven by the driving of the pumping means 2, but the water flow detecting means 30 If the flow is not detected, it is determined that the raw water is leaked or the water pipe 4 is blocked by foreign matter or the pumping means 2 is broken, and the pumping means 2 is stopped. To output However, for the time taken after the pumping means 2 is driven by the control of the control unit 12, that is, the time taken to be sent to the storage means 20 after the raw water is collected by the pumping means 2, this is described. It is desirable to count. The information regarding such time setting should be set in the memory unit 14.

On the other hand, if the raw water is normally pumped by the detection of the water flow detection means 30, the microcomputer 42 of the control box 40 is the amount of raw water stored in the storage means 20 level detection means 50 , 52) continuously detected, and when it is determined that the information about the detected water level is a set water level (high water level) compared with the data stored in the memory unit 44, the information data on the water level in the same manner as described above The signal is converted into a radio signal and transmitted to the controller 1 of the water extraction well 10. Therefore, the controller 1 determines the received radio signal to stop the driving of the pumping means 2.

In addition, when the raw water is used through the water supply pipe 9 of the storage means 20 after the raw water set in the storage means 20 is filled, information data on the use of the raw water is also controlled from the control box 40 by the controller of the water intake well 10. Transmitted and received by 1), the controller 1 continuously checks the level or amount of raw water of the storage means 20. At this time, when the water level or amount of the raw water stored in the storage means 20 is below the set level or amount, the controller 1 restarts the pumping means 2 to refill the storage means 20 with the intake and supply of the raw water. do. Thus, the flow and level of the raw water is detected by the water flow sensing means 30 and the water level sensing means 50 and 52 and transferred to the remote controller 1 via the control box 40 to continue in the controller 1. It is possible to monitor the water level or the amount of raw water in the storage means (20).

The sensing bar 32 of the water flow detecting means 30 rotates only in the direction of flow of raw water supplied through the water pipe 4, that is, the direction from the pumping means 2 to the storage means 20. This prevents the sensing bar 32 of the water flow detecting means 30 from rotating backward due to the backflow of raw water when the driving of the pumping means 2 is stopped momentarily. In addition, the sensing bar 32 is preferably such that the switch configured in the water flow sensing means 30 is in an off state when raw water is not supplied through the water pipe 4, and is turned on when raw water is supplied. Do. The sensing bar 32 is provided so as not to install a stopper inside the water pipe 4 or to configure the contact of the switch in the water flow detection means 30 so as not to rotate in reverse by the instantaneous reverse flow of raw water, In the case where the sensing bar 32 has a plate shape such that reverse rotation does not occur, it is preferable to form a plurality of holes in the plate.

Furthermore, in the present invention, when there is one water level detecting means 50 and 52 as shown in FIG. 3, the water level of the storage means 20 can be linearly sensed. It will be possible to accurately monitor the high and low levels of the raw water or to adjust it according to the required level.

As described above, the wireless automatic water level control device of the present invention makes it possible to easily adjust the water level or amount of raw water of the storage means by wirelessly transmitting the raw water taken from the well of the water well to the remote storage means, and through the water pipe Is carried out to determine whether or not the pumping means is inadvertently driven, thereby improving the durability of the pumping means and accurately controlling the level and amount of raw water stored in the storage means. It is not limited only to an example, A person skilled in the art can easily change or substitute.

Claims (6)

Pumping means for withdrawing raw water from the wells or pressurized fields; A water supply pipe for supplying raw water withdrawn from the pumping means; Hydraulic pressure sensing means for sensing the hydraulic pressure formed in the water pipe and outputting the electrical signal; A controller for receiving a signal input from the pressure sensing means and a radio signal, comparing and determining the data with the set data, and outputting driving power for controlling the pumping means; Water flow sensing means for sensing the flow of raw water at the end of the water pipe and outputting the electrical signal; Storage means for storing raw water supplied from the water pipe; Water level detection means for sensing the water level of the raw water to the storage means and output as an electrical signal; And a control box for converting the sensing signal of the raw water level in the water level sensing means and the sensing signal of the water flow in the water flow sensing means into a wireless signal for transmission. The method of claim 1, wherein the controller A power supply for supplying power for driving the device, A signal processor for converting a signal input from the pressure sensing means into a digital signal and outputting the digital signal; A receiver which receives the radio signal induced by the antenna for reception from the control box; A demodulator for demodulating the radio signal received by the receiver; A signal converter converting the demodulated data into a digital signal; A controller which determines a signal input from the signal processor and the signal converter and outputs a control signal; And a memory unit connected to the control unit for storing a program required for control and input data or outputting the stored data. The method of claim 1, wherein the water flow detection means Detection bar flowing in accordance with the flow of raw water in the water pipe, Wireless automatic water level control device characterized in that it comprises a switch for switching on or off by the flow of the sensing bar. 2. The wireless automatic water level adjusting device according to claim 1, wherein the water level detecting means comprises one or more. 5. The wireless automatic water level adjusting device according to claim 1 or 4, wherein the water level detecting means is a resistance element whose resistance value varies depending on the water level. The method of claim 1, wherein the control box A power supply for supplying power for driving the device, A signal processor for converting the signal inputted from the water flow sensing means and the water level sensing means into amplification and digital signals, and outputting the digital signal; A microcomputer for determining a signal input from the signal processor and outputting a control signal; A memory unit connected to the microcomputer to store a program and input data required for control or to output stored data; A signal converter converting the data signal output from the microcomputer; A modulator for modulating and outputting a signal output from the signal converter into a wireless signal; And a transmitter for transmitting a radio signal modulated by the modulator as an amplified signal through a transmission antenna.