KR101138001B1 - Chlorination chemicals injection system using artificial intelligence - Google Patents

Abstract

The present invention is a water tank; Chlorine injector; And a chlorine sensor comprising: an automatic liquid chlorine input device using artificial intelligence, wherein the chlorine injector distributes the groundwater of the main pipe through the inflow subpipe and flows out of the main pipe through the outflow subpipe to the main pipe; It is installed in the liquid chlorine reservoir to discharge the liquid chlorine into the outflow subpipe in proportion to the groundwater flow rate of the flow rate box, and it is installed in the inflow subpipe to control the opening and closing of the inflow check valve to control the inflow of the groundwater flow into the flow box. An artificial intelligence control device; A wireless transceiver for receiving measurement signals of the water level sensor and the chlorine sensor; And a control signal for operating the pump pump so that the water level is set when the water level is out of the set level by receiving the measurement signal of the water level sensor from the wireless transceiver, and the real time measuring signal of the chlorine sensor to set the residual chlorine. The control unit further comprises an artificial intelligence central control computer for operating a chlorine injector so as to set a predetermined amount to transmit a control signal for intelligently controlling the chlorine injection amount to the artificial intelligence control device.

Chlorine input, artificial intelligence, controller, wireless, control computer, water level sensor, chlorine sensor

Description

Chlorination chemicals injection system using artificial intelligence

The present invention relates to an automatic liquid chlorine dosing device using artificial intelligence to automatically inject the liquid chlorine to sterilize the microorganisms present in the water tank of the farm or fishing villages in proportion to the flow of groundwater.

Generally, there are no water supply facilities in farming and fishing villages, so the groundwater is pumped with a pump and the groundwater is stored in the water tank through the main pipe and then supplied to each household. To do this, liquid chlorine is added to the water tank to disinfect the stored groundwater with safe drinking water.

As such, if the amount of liquid chlorine added for disinfection is not appropriate, that is, if the concentration of liquid chlorine is low, there is no sterilizing effect. If the concentration of liquid chlorine is high, the chlorine is excessively infused, so it is not suitable for drinking chlorine in drinking water. not.

However, since humans regularly dispose of an appropriate amount of liquid chlorine for sterilization according to the quantity stored in the water tank, the liquid chlorine is automatically added to the water tank to remove the amount of discomfort. An automatic chlorine dosing device is used to automatically inject liquid chlorine in proportion to the quantity of water tank measured.

However, this simple proportional chlorine injection method without considering chlorine disinfection capability cannot disinfect groundwater at optimal conditions. In other words, it does not matter where the water is consumed in a day due to high water consumption, but in areas where water consumption is less than one day, the chlorine dissolved in the water evaporates and residual chlorine does not come out. There was a problem.

An object of the present invention is to control the amount of groundwater flowing into the water tank by automatically operating the pump according to the amount of residual chlorine in the water tank using an artificial intelligent control device, and the chlorine injector so that the liquid chlorine input is proportional to the amount of groundwater flow. It is to provide an automatic liquid chlorine injection device using artificial intelligence to operate.

The object of the present invention described above

A water tank in which groundwater pumped by the pump is stored through the main pipe; A water level sensor for measuring the water level of the water tank; A chlorine injector providing liquid chlorine to the water tank; And a chlorine sensor for measuring the amount of residual chlorine in the water tank fed by the chlorine injector.

The chlorine injector is a flow rate box for circulating the groundwater of the main pipe through the inflow subpipe and outflows to the main pipe through the outflow subpipe, and a liquid chlorine is installed in the flow rate box in proportion to the flow rate of groundwater in the flow box. Consists of a liquid chlorine reservoir

An intelligent control device installed in the inflow subpipe to control the opening and closing of the inflow check valve to regulate the inflow of the groundwater flow into the flow box; A wireless transceiver for receiving measurement signals of the water level sensor and the chlorine sensor; And a control signal for operating the pump to set the water level when the water level is out of the set level by receiving the measurement signal of the water level sensor from the wireless transceiver and a real time measuring signal of the chlorine sensor. By the liquid chlorine automatic injection device using artificial intelligence further comprising an artificial intelligence central control computer for transmitting a control signal for intelligent control of the chlorine input amount by operating the chlorine injector to the set amount when out of Is achieved.

In the automatic liquid chlorine injection device using the artificial intelligence of the present invention, the flow rate box is controlled by an artificial intelligence control device through the outflow check valve opened up and down by operating up and down by the amount of groundwater flow flowing through the open inflow check valve A diaphragm for outflowing groundwater; An injection rod that operates up and down according to the up and down movement of the diaphragm; And an injection pump for discharging the liquid chlorine in the liquid chlorine reservoir into the outflow subpipe by the downward operation of the injection rod.

In the automatic liquid chlorine dosing device using the artificial intelligence of the present invention, the liquid chlorine storage amount of the liquid chlorine reservoir is measured by a weight sensor and transmitted to the intelligent control device, and when the storage amount is less than the set amount, it is transmitted to the intelligent central control computer. The intelligent central control computer is characterized by sending an SMS text message to the administrator's mobile phone.

By the above-described technical configuration of the present invention, the amount of residual chlorine in the water tank is always kept within the standard value, so that normal chlorine disinfection is achieved even in a region where water consumption is low, and no chlorine disinfection smell is generated.

Hereinafter, on the basis of the conceptual diagram of the liquid chlorine automatic injection device using the artificial intelligence of the present invention of Figure 1 with the technical configuration of the present invention will be described in detail.

The automatic chlorine input device using the artificial intelligence of the present invention includes a water tank 10, a water level sensor 20, a chlorine injector 30, a chlorine sensor 40, the water tank 10, the pump pump 50 Groundwater pumped by the main pipe 60 is stored, the water level sensor 20 is installed in the water tank to measure the water level of the water tank, the chlorine injector 30 provides liquid chlorine in the water tank, The chlorine sensor 40 measures the amount of residual chlorine in the water tank fed by the chlorine injector 30.

The automatic chlorine input device using the artificial intelligence of the present invention further includes an artificial intelligence control device 70, a wireless transceiver 80, and an artificial intelligence central control computer 90.

In the present invention, the chlorine injector 30 includes a flow rate box 31 and a liquid chlorine reservoir 32.

The flow rate box 32 distributes the groundwater of the main pipe 60 through the inflow subpipe 61 and flows out through the outflow subpipe 62 to the main pipe 60. The diaphragm 33 installed in the flow rate box The ground water (liquid chlorine) flows out into the main pipe 60 (outflow subpipe 62) by the injection rod 34 and the injection pump 35. The diaphragm 33 is operated by the intelligent control device 70 and is operated up and down by the flow amount of groundwater flowing through the open inflow check valve 71. The diaphragm 33 receives the groundwater through the outflow check valve 63 opened during the upward operation. The injection rod 34 is vertically operated according to the vertical movement of the diaphragm 33, and the injection pump ejects the liquid chlorine in the liquid chlorine reservoir 32 by the downward operation of the injection rod 34. Blows into the outflow subpipe (62).

The injection pump is a device that delivers a small amount of liquid chlorine in a quantitative manner.

Formula Q = 3.14 × (d / 2) ² × L

Where d (m / m) is the infusion pump inner diameter, L (m / m) is one up and down stroke stroke of the injection rod, and Q (cc) is one up and down reciprocating liquid chlorine discharge amount.

The liquid chlorine reservoir 32 is installed in the flow rate box 31 to eject the liquid chlorine to the outflow subpipe 62 through the discharge pipe 36 in proportion to the groundwater flow rate of the flow rate box. The liquid chlorine storage amount of the liquid chlorine reservoir ejected in this way is measured by the weight sensor 100 and transmitted to the intelligent control device 70, and when the storage amount is less than the set amount is transmitted to the artificial intelligence central control computer 90, The intelligent central control computer sends SMS text messages to the administrator's mobile phone to refill the liquid chlorine.

The intelligent control device 70 is installed in the inflow subpipe 61 to control the opening and closing of the inflow check valve 71 that regulates the inflow of the groundwater flow into the flow rate box 31.

The wireless transceiver 80 receives the measurement signals from the water level sensor 20 and the chlorine sensor 40 and transmits them to the artificial intelligence central control computer 90.

The intelligent central control computer 90 receives the measurement signal of the water level sensor 20 from the wireless transceiver 80 and controls the pump pump 50 to operate when the water level is out of the set water level. While transmitting the signal wirelessly to the intelligent control device 70, while receiving a real-time measurement signal of the chlorine sensor 40, if the residual chlorine is out of the set amount, the chlorine injector 30 is operated so that the set amount becomes a set amount. The control signal for intelligently controlling the wireless transmission to the intelligent control device 70.

Looking at the overall operation of the automatic liquid chlorine injection device using the artificial intelligence of the present invention configured as described above are as follows.

The measurement signal measured from the water level sensor 20 and the chlorine sensor 40 is transmitted to the intelligent central control computer 90 through the wireless transceiver 80, and the water level of the water level sensor 20 is lower than the set water level. Intelligent control device for controlling the opening and closing of the inlet check valve 71 installed in the inlet subpipe 61 of the flow rate box 31 by the intelligent central control computer 90 to supply the ground water to the water tank 10 When the control signal is sent to 70, the intelligent control device 70 operates the pump pump 50 according to the received control signal and opens the closed inflow check valve 71 with an opening width in accordance with the control signal to the main pipe. The groundwater flowing through 60 is introduced into the inflow subpipe 61 to introduce groundwater into the flow rate box 31 through the open inflow check valve 71.

The groundwater introduced into the flow rate box 31 is introduced into the space above the diaphragm 33, and the diaphragm 33 is operated in a vertical reciprocating motion by the flow of the introduced groundwater, and the diaphragm 33 is downward. In operation, the injection rod 34 attached below the diaphragm is operated downward to press the discharge button (not shown) of the injection pump, and then the liquid chlorine is discharged from the liquid chlorine reservoir 32 to inject the injection pump 35. Through the discharge pipe 36 through the discharge subpipe 62 and the diaphragm 33 is operated upward while the groundwater inflow is closed when the outflow check valve 63 is opened through the outflow check valve 63 It is discharged to the outflow subpipe 62.

Here, the intelligent control device 70 controls the amount of groundwater flow into the flow rate box 31 by controlling the opening width of the inflow check valve 71, which flows into the space above the diaphragm 33 of the flow rate box 31. Since the downward operation degree of the diaphragm 33 is also adjusted according to the amount of groundwater flow, the amount of liquid chlorine injected into the outflow subpipe 62 eventually controls the opening width of the inflow check valve 71 of the intelligent control device 70. Controlled by

That is, the amount of liquid chlorine is controlled in proportion to the amount of groundwater flow in such a way that the amount of liquid chlorine increases if the groundwater flow increases according to the amount of groundwater that operates the chlorine injector 30, and the amount of liquid chlorine decreases when the groundwater flow decreases. .

As described above, the liquid chlorine injected into the outflow subpipe 62 flows into the water tank 10 through the main pipe 60 in proportion to the amount of groundwater flow.

Thereafter, when the water level in the water tank and the residual chlorine amount thus reach a desired value, the pump pump 50 is stopped.

Here, the preferred value is the amount of residual chlorine that is appropriate for each village by storing the characteristics of each village in the central control computer in consideration of the operating time of the pumping pump according to the characteristics of the water usage time in each farm and fishing village or mountain village. Can be maintained.

The chlorine injector 30 of the present invention described above uses the principle of a diaphragm pump. The diaphragm pump moves a diaphragm (diaphragm) up and down by a fluid flowing into the diaphragm pump, thereby increasing or decreasing the volume of the fluid. The inlet check valve is closed at the discharge and the outflow check valve is closed at the inhalation. The diaphragm is operated downward by the fluid sucked through the inlet check valve, increasing the internal volume and decreasing the volume again. The diaphragm acts upward in the direction to discharge fluid to the outflow check valve.

The amount of residual chlorine in the introduced water tank is measured in real time by the chlorine sensor 40 and transmitted to the intelligent central control computer 90. When the amount of residual chlorine measured in real time is less than 1 ppm, the groundwater is not normally disinfected. The control computer sends the control signal to the intelligent control device 70 to increase the opening width of the inflow check valve 71 to increase the amount of groundwater flow to the flow rate box 31 to increase the vertical movement of the diaphragm 33. By increasing the number of up and down operation of the injection pump 35 to increase the liquid chlorine input amount, if the residual chlorine amount is more than 4ppm, the residual amount of liquid chlorine is high, so that the user can feel the disinfection smell, the artificial intelligence-type central control computer 90 is artificial The flow rate box 31 sends a control signal to the intelligent control device 70 to reduce the opening width of the inflow check valve 71 and open it. By reducing the flow rate of ground water by reducing the vertical momentum of the diaphragm 33 reduces the number of times up and down operation of the injection pump 35, thereby reducing the amount liquid chlorine.

As described above, the present invention is not simply a method of injecting a liquid chlorine into an appropriate amount of water tank in proportion to the quantity of water tank as in the related art, but the amount of residual chlorine in the water tank 10 measured by the chlorine sensor 40 in real time is determined by the AI center. When the control computer 90 receives the residual amount of chlorine less than 1 ppm or more than 4 ppm, the AI-type central control computer 90 transmits an open width adjustment control signal to the AI-type control device 70 so that the AI-type control device ( 70) controls the opening width of the inflow check valve 71 according to the opening width adjustment control signal so that the liquid chlorine is appropriately mixed with the groundwater according to the groundwater flow amount, so that the normal drinking water without normal chlorine disinfection and chlorine disinfection odor can be supplied. (1ppm ~ 4ppm) is maintained.

Accordingly, in the case of a region where water consumption is small and consumed more than one day, the chlorine dissolved in the water evaporates and microorganisms multiply when the amount of residual chlorine measured by the chlorine sensor falls below 1 ppm, in which case As shown, the injection pump is operated by the diaphragm to increase the liquid chlorine input, thereby enabling normal disinfection.

1 is a conceptual diagram of a liquid chlorine automatic injection device using the artificial intelligence of the present invention.

DESCRIPTION OF REFERENCE NUMERALS

20: water level sensor 30: chlorine injector

31 flow rate box 32 liquid chlorine reservoir

33: diaphragm 34: injection rod

35: injection pump 36: ejection pipe

40: chlorine sensor 61: inflow subpipe

62: outflow subpipe 63: outflow check valve

70: intelligent control device 71: inflow check valve

80: wireless transmission and reception device 90: artificial intelligence central control computer

100: weight sensor

Claims (3)

A water tank in which groundwater pumped by the pump is stored through the main pipe; A water level sensor for measuring the water level of the water tank; A chlorine injector for providing liquid chlorine to the water tank; A chlorine sensor for measuring the amount of residual chlorine in the water tank fed by the chlorine injector; A control device installed in the inflow subpipe to control the opening and closing of the inflow check valve for controlling the inflow of the groundwater flow into the flow box; A wireless transceiver for receiving measurement signals of the water level sensor and the chlorine sensor; And a control signal for operating the pump pump so that the water level is set when the water level is out of the set level by receiving the measurement signal of the water level sensor from the wireless transceiver, and the real time measuring signal of the chlorine sensor to set the residual chlorine. In the liquid chlorine automatic dosing device comprising a central control computer for operating a chlorine dosing machine to a set amount when the deviation is out of the way, and transmits a control signal for controlling the amount of chlorine to the control device, The chlorine injector is a flow rate box for circulating the groundwater of the main pipe through the inflow subpipe and outflows to the main pipe through the outflow subpipe, and a liquid chlorine is installed in the flow rate box in proportion to the flow rate of groundwater in the flow box. Consists of ejecting liquid chlorine reservoirs, The flow rate box is controlled by a control device, and the diaphragm is configured to discharge groundwater through an outflow check valve opened up and down by operating up and down by an amount of groundwater flow introduced through an open inflow check valve; An injection rod that operates up and down according to the up and down movement of the diaphragm; And an injection pump for ejecting the liquid chlorine in the liquid chlorine reservoir into the outflow subpipe by the downward operation of the injection rod. delete delete

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