KR20230021327A - Water quality inspection apparatus having a pipe washing function and method thereof - Google Patents

Abstract

The present invention relates to a water quality inspection apparatus having a pipe cleaning function and a method thereof. The water quality inspection apparatus, according to the present invention, comprises: a water tank; a first inlet pipe; a first valve; a second valve; a flow meter; a water quality measurement means; a second inlet pipe; a drainpipe; a third valve; a pump; a fourth valve; a discharge pipe; a fifth valve; and a control part. Therefore, a decrease in the accuracy of inspecting the water quality of water to be inspected can be resolved.

Description

Water quality inspection apparatus having a pipe washing function and method thereof}

The present invention relates to a water quality inspection device and method having a customs cleaning function for measuring the quality of water passing through a supply pipe.

In general, cleanly treated water at a waterworks treatment plant flows along a waterworks pipe and is distributed and supplied to apartments, houses, shopping malls, factories, etc., which are demanded.

If such water is contaminated by contaminants such as foreign substances or chemicals contained in wastewater, and people use the water containing the contaminants as it is, it may adversely affect the body and health. In addition, when water containing pollutants used by people flows into rivers, rivers, and the sea, it can adversely affect the ecosystem and environment.

Therefore, in order to check whether the water flowing along the water supply pipe, such as the water supply pipe, contains contaminants, and to respond quickly to the inspection result, a water quality test is periodically performed on the water flowing along the water supply pipe, Water quality must be carefully managed.

To this end, the quality of the water supplied through the water supply pipe is systematically managed by periodically measuring it using a water quality measurement tool suitable for the measurement item according to the purpose of use.

Recently, however, with the development of communication technology, the water quality of water is conveniently managed in an automated manner by converting, storing, and managing the measured values according to the measurement items in the water quality inspection device and providing them to the outside through wired and wireless communication.

That is, in a state where the inlet pipe is connected to one side of the water supply pipe and the water quality measuring means is connected to the end of the inlet pipe, a part of the water passing through the water supply pipe flows into the inlet pipe and is stored in the measuring tank of the water quality measuring means to measure water quality. Water quality is measured through means.

However, when measuring the water quality for a long period of time in the above state, if various foreign substances are generated inside the inlet pipe, the water stored in the measuring tank of the water quality measuring means is not stored with sufficient capacity for normal water quality measurement, so the water quality for the water quality There is a problem in that the measurement is not performed accurately, which lowers the reliability of the water quality measurement result.

Therefore, in order to increase the accuracy of water quality measurement for water, development of a water quality inspection device capable of washing the inlet pipe so that when the water flows into the inlet pipe and is stored in the measuring tank of the water quality measuring means, the water is stored in a sufficient capacity required for water quality measurement need this

Republic of Korea Patent Registration No. 10-1296199, 2013.08.14. Republic of Korea Patent Registration No. 10-1621449, 2016.05.17.

The present invention was invented to solve the above problems, and when water is stored in the measuring tank of the water quality measuring means through the inlet pipe to ensure the reliability of the water quality measurement result by increasing the accuracy of measuring the water quality of the test object, the water quality An object of the present invention is to provide a water quality testing device and method having a water purification function capable of resolving a decrease in the flow rate of the water to be tested due to various foreign substances present inside the inlet pipe so that the water is stored with a sufficient capacity required for measurement.

The object of the present invention is not limited to the purpose mentioned above, and other objects not mentioned above can be clearly understood from the description below and can be sufficiently included in the object of the present invention.

Water quality inspection apparatus having a customs cleaning function according to the present invention for achieving the above object is connected to the water supply pipe through which the test subject passes, the water tank filled with the test subject to a certain water level therein; a first inlet pipe having one end connected to the water tank and through which the test subject water flows; a first valve connected to one end of the first inlet pipe; a second valve connected to the other end of the first inlet pipe; a flow meter connected to the first inlet pipe between the first valve and the second valve to measure the flow rate of the test subject; a water quality measurement means connected to the first inlet pipe at the rear end of the second valve and storing the water to be tested flowing into the first inlet pipe in a measuring tank to measure the water quality of the water to be tested; a second inlet pipe having one end connected to the water tank and the other end connected to the first inlet pipe between the flowmeter and the second valve, through which the test subject water flows; a water discharge pipe connected to the first inlet pipe between the first valve and the flow meter; a third valve connected to the water discharge pipe; a pump connected on the end of the downpipe; a fourth valve connected to the second inlet pipe; a discharge pipe connecting the water quality measurement means and the water discharge pipe; A fifth valve connected to the discharge pipe; and when the flow rate measured by the flowmeter is smaller than a predetermined critical flow rate value in a state where the third valve, the fourth valve, and the fifth valve are closed, the first inlet pipe is washed with the test subject water contained in the water tank. It may be composed of; a control unit that performs a first control operation to control to do.

The control unit may perform the first control operation by closing the first valve, the second valve, and the fifth valve, opening the third valve and the fourth valve, and driving the pump.

The control unit may perform a second control operation for controlling the discharge of the number of test subjects stored in the measurement tank to the outside before the first control operation.

The control unit may perform the second control operation by closing the first valve, the second valve, the third valve, and the fourth valve, opening the fifth valve, and driving the pump.

The water quality measuring means is composed of a plurality of water quality measuring devices according to water quality inspection items, and the plurality of water quality measuring devices mediate a branch pipe branching from the other end of the first inlet pipe to a number corresponding to the measuring means. As such, it may be connected in parallel to the other end of the first inlet pipe, respectively.

In order to achieve the above object, the water quality inspection method having a customs cleaning function according to the present invention is connected to a water supply pipe through which the test subject passes, a water tank containing the test subject, a first inlet pipe connected to the water tank, and a first inlet pipe. A flow meter connected to the phase, a water quality measuring means connected to an end of the first inlet pipe, a second inlet pipe having one end connected to the water tank and the other end connected to the first inlet pipe, and a water quality measuring device connected to the first inlet pipe. A water quality inspection device having a custom cleaning function consisting of a water downpipe, a pump connected to an end of the water downpipe, and a discharge pipe connecting the water quality measuring means and the water downpipe, wherein the number of test subjects contained in the water tank is measured in the first storing water in the water quality measuring means through the inlet pipe and measuring the flow rate and quality of the water to be inspected through the flow meter and the water quality measuring means, respectively; comparing the measured flow rate value of the number of objects to be inspected with a predetermined critical flow rate value, and determining that the first inlet pipe needs cleaning when the flow rate value is smaller than the critical flow rate value; When it is determined that the first inlet pipe needs to be cleaned, the number of test subjects contained in the water tank flows into the second inlet pipe to wash the first inlet pipe, and then the number of test subjects contained in the water tank is passed through the first inlet pipe. storing water in the water quality measuring means again; measuring the water quality of the test subject water stored in the water quality measuring means again; and outputting a water quality measurement value of the measured number of test subjects to complete the water quality test.

Between the step of determining that the first inlet pipe needs to be washed and the step of storing the water in the water quality measurement means, when it is determined that the first inlet pipe needs to be cleaned, the number of test subjects stored in the water quality measuring means discharging; may be further included.

The water quality inspection apparatus and method having the customs cleaning function according to the present invention according to the above configuration can expect the following effects.

First, if it is determined that cleaning of the first inlet pipe is necessary according to the result of comparing the flow rate value of the test subject flowing into the first inlet pipe from the water tank with the preset critical flow rate value, the number of test subjects contained in the water tank is transferred to the first inlet pipe and the first inlet pipe. After washing the first inlet pipe by flowing it into the connected second inlet pipe, the water to be tested is introduced into the first inlet pipe and stored in the measuring tank of the water quality measurement means, and then the water quality of the water to be tested is measured through the water quality measuring means. 1Can solve the decrease in accuracy of water quality inspection of the number of inspection subjects due to contamination of the inlet pipe.

And, if it is determined that cleaning of the first inlet pipe is necessary according to the result of comparing the flow rate value of the test subject water flowing into the first inlet pipe from the water tank with the preset critical flow rate value, the water quality measuring means is measured before washing the first inlet pipe. By completely emptying the measuring tank of the water quality measuring means by discharging the test target water already stored in the measuring tank to the outside, the water quality of the test target water stored in the measuring tank of the water quality measuring device can be more accurately measured.

1 is a diagram showing the overall configuration of a water quality inspection device having a customs cleaning function according to a preferred embodiment of the present invention.
FIG. 2 is a diagram showing an operation state of discharging the water to be tested by the water quality testing device having a customs cleaning function according to a preferred embodiment of the present invention.
3 is a diagram showing a first inlet pipe cleaning operation state of a water quality inspection device having a customs cleaning function according to a preferred embodiment of the present invention.
Figure 4 is a flow chart showing a water quality inspection method having a customs cleaning function according to a preferred embodiment of the present invention.

The present invention relates to a water quality testing apparatus and method having a customs cleaning function for measuring the quality of water to be tested supplied to a consumer through a supply pipe.

In particular, in the water quality inspection apparatus and method having a customs washing function according to the present invention, when the water to be tested is stored in the measuring tank of the water quality measuring means, the inspection table is caused by various foreign substances present in the inlet pipe so that it is stored in a capacity sufficient for measuring water quality. Its main feature is that it can solve the decrease in the flow rate of constant water.

Hereinafter, a water quality inspection apparatus and method having a customs cleaning function according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, the water quality inspection apparatus having a customs cleaning function according to a preferred embodiment of the present invention remotely and conveniently and accurately measures the quality of the inspection subject water supplied to the place of use through the water supply pipe (P), thereby inspecting the subject. It is for effectively managing the quality of water, and as shown in FIG. 1, the water tank 10, the first inlet pipe 20, the first valve 30, the second valve 40, the flow meter 50, the water quality Measuring means 60, second inlet pipe 70, outlet pipe 80, pump 90, third valve 100, fourth valve 110, discharge pipe 120, fifth valve 130 , It may be composed of a control unit 140 and an output unit 150.

The water tank 10 is connected to the water supply pipe (P), and the test subject water passing through the water supply pipe (P) can flow into the inside and be filled.

One end of the first inlet pipe 20 is connected to one side of the lower part of the water tank 10 so that the test subject contained in the water tank 10 may be introduced.

The first valve 30 is connected to one end of the first inlet pipe 20 and can control the inflow of the test subject flowing into the first inlet pipe 20 from the water tank 10 . Also, the first valve 30 is connected to the second output port OUT2 of the control unit 140, and the opening and closing operation can be controlled by a control signal output from the second output port OUT2 of the control unit 140.

The second valve 40 is connected to the other end of the first inlet pipe 20 and can control the number of inspection subjects flowing into the first inlet pipe 20 and passing through. Also, the second valve 40 is connected to the seventh output port OUT7 of the control unit 140, and the opening and closing operation can be controlled by a control signal output from the seventh output port OUT7 of the control unit 140.

The flowmeter 50 is connected on the first inlet pipe 20 between the first valve 30 and the second valve 40 and the number of inspection subjects flowing into the first inlet pipe 20 from the water tank 10 flow can be measured. In addition, the flow meter 50 is connected to the first input port IN1 of the control unit 140, and the flow rate value of the number of objects measured by the flow meter 50 is input to the control unit 140 through the first input port IN1. can

The water quality measurement means 60 is connected to the first inlet pipe 20 at the rear end of the second valve 40 and can measure the water quality of the test subject flowing into the inside through the first inlet pipe 20 .

Here, the water quality measuring unit 60 may include a turbidity meter 61 for measuring the turbidity of the water to be tested, and a chlorine meter 62 for measuring the amount of residual chlorine in the water to be tested.

Further, the turbidity meter 61 and the chlorine meter 62 may be connected in parallel to the other end of the first inlet pipe 20 through the first branch pipe 21 and the second branch pipe 22, respectively.

On the other hand, the turbidity meter 61 and the chlorine meter 62 are provided with a first measuring tank 611 and a second measuring tank 621 for storing the water to be inspected by flowing into the inside, respectively, and the first measuring tank 611 and A turbidity sensor 612 and a chlorine sensor 622 may be respectively installed in the second measuring tank 621 .

In addition, the first measuring tank 611 of the turbidity sensor 612 may be made of a material capable of transmitting light so that the turbidity can be measured using light.

In addition, the turbidity sensor 612 includes a light emitting part 612a installed on the outer lower surface of the first measuring tank 611 and emitting light upward, and a light emitting part 612a installed on the inner upper side of the first measuring tank 611 to emit light upward. ) may include a light receiving unit 612b that emits light from the first measuring tank 611 and receives light passing through the number of test subjects contained in the first measuring tank 611 . That is, the turbidity sensor 612 may measure the turbidity of the object to be inspected according to the difference between the amount of light emitted by the light emitting unit 612a and the amount of light received by the light receiving unit 612b.

Here, the turbidity sensor 612 is connected to the second input port IN2 of the control unit 140, and the turbidity value of the test subject measured by the turbidity sensor 612 is transmitted to the control unit 140 through the second input port IN2. can be entered.

In addition, the chlorine sensor 622 is connected to the third input port (IN3) of the control unit 140, and the residual chlorine value of the test subject measured by the chlorine sensor 622 is transmitted to the control unit 140 through the third input port (IN3). can be entered as

The fact that the turbidity sensor 612 includes the light emitting unit 612a and the light receiving unit 612b is only one embodiment, and the present invention is not limited to the type of turbidity sensor.

The second inlet pipe 70 has one end connected to the other side of the lower part of the water tank 10 and the other end connected to the first inlet pipe 20 between the flow meter 50 and the second valve 40 so that the water tank 10 The number of test subjects contained in may flow in.

The water outlet pipe 80 may be connected to the first inlet pipe 20 between the first valve 30 and the flowmeter 50 so as to discharge the water to be inspected flowing into the first inlet pipe 20 to the outside. .

The pump 90 may be connected to an end of the drain pipe 80 so that the test subject water flowing into the first inlet pipe 20 is discharged to the outside through the drain pipe 80 . In addition, the pump 90 is connected to the fifth output port OUT5 of the control unit 140, and driving may be controlled by a control signal output through the fifth output port OUT5 of the control unit 140.

The third valve 100 is connected to the water drain pipe 80 and can regulate the number of inspection subjects discharged to the outside through the water drain pipe 80 . Also, the third valve 100 is connected to the third output port OUT3 of the control unit 140, and the opening and closing operation can be controlled by a control signal output from the third output port OUT3 of the control unit 140.

The fourth valve 110 is connected to the second inlet pipe 70 and can control the number of inspection subjects flowing into the second inlet pipe 70 from the water tank 10 . And the fourth valve 110 is connected to the first output port OUT1 of the control unit 140, and the opening and closing operation can be controlled by a control signal output through the first output port OUT1 of the control unit 140. .

The discharge pipe 120 connects the first measuring tank 611 of the turbidity meter 61 and the second measuring tank 621 of the chlorine meter 62 to the discharge pipe 80 so that the first measuring tank 611 and the second measuring tank 611 are connected to each other. The test target water stored in each of the two measuring tanks 621 may be discharged to the outside through the water discharge pipe 80 according to the operation of the pump 90 .

However, the discharge pipe 120 may be connected to the water discharge pipe 80 between the front end of the pump 90 and the rear end of the third valve 100.

The fifth valve 130 may be connected to the discharge pipe 110 and control the number of inspection subjects passing through the discharge pipe 110 . In addition, the fifth valve 130 is connected to the sixth output port OUT6 of the control unit 140, and the opening and closing operation can be controlled by a control signal output through the sixth output port OUT6 of the control unit 140. .

The control unit 140 controls the first measuring water tank ( 611) and the test target water stored in the second measuring tank 621 of the chlorine meter 62 are discharged to the outside through the discharge pipe 120, and then the first inlet pipe 20 is used as the test target water stored in the tank 10 It is possible to control the operation of the first valve 30, the second valve 40, the third valve 100, the fourth valve 110, the fifth valve 130 and the pump 90 to clean.

That is, the control unit 140 controls that the first valve 30 and the second valve 40 are open at the first point in time for the first time, and the third valve 100, the fourth valve 110 and the second valve 130 are open. ) is closed, the flow rate value of the test subject flowing into the first inlet pipe 20 from the water tank 10 may be input from the flow meter 50 through the first input port I141.

In addition, the controller 140 passes through the first inlet pipe 20 and controls the number of test subjects stored in the first measuring tank 611 of the turbidity meter 61 and the second measuring tank 621 of the chlorine meter 62, respectively. The turbidity value and the residual chlorine value may be received from the turbidity sensor 612 and the chlorine sensor 622 through the second input port I142 and the third input port I143, respectively.

Then, the control unit 140 compares the turbidity value and the residual chlorine value of the test subject with each preset normal measurement range, and compares the flow rate value of the test subject input from the flow meter 50 with a preset critical flow rate value to test water quality. It can be determined whether or not it is in a state in which it can be normally performed.

That is, the control unit 140 determines that the water quality test can be performed normally when the turbidity value and the residual chlorine value of the test subject are within each preset normal measurement range and the flow rate of the test subject is greater than the preset critical flow rate value. The turbidity value and the residual chlorine value of the water to be tested can be input as the result of the water quality test.

In contrast, the control unit 140 determines that the inside of the first inlet pipe 20 is foreign matter when the flow rate of the test subject is smaller than the preset critical flow rate value even if the turbidity value and the residual chlorine value of the test subject are within each preset normal measurement range. The first valve 30, the second valve 40, the third valve 100, the fourth valve 110, and the fifth valve 130 are determined to be in a state in which the water quality test cannot be normally performed due to contamination with And by controlling the operation of the pump 90, the first measuring tank 611 and the second measuring tank 621 may be emptied and the first inlet pipe 20 may be washed.

In addition, the control unit 140 controls the turbidity meter 61 and the chlorine meter when the turbidity value and the residual chlorine value of the test subject are not within the respective preset normal measurement ranges despite the fact that the flow rate value of the test subject is greater than the preset critical flow rate value. In (62), it is determined that the water quality test cannot be normally performed due to a measurement error, etc., and the water quality test is stopped and the measurement error information can be stored.

Here, the normal measurement range represents the range that can be output as a measured value from each of the turbidity meter 61 and the chlorine meter 62 regardless of the degree of contamination of the inspection subject. If the inspection subject is out of range, the first inlet pipe 20 ) may mean that the first measurement tank 611 and the second measurement tank 621 are not sufficiently stored due to foreign substances or that the measurement value is abnormal due to a device error.

In addition, the critical flow rate value represents the minimum flow rate required to measure the water quality of the test subject. If it is smaller than this value, the first measurement tank 611 and the second measurement tank It may mean that the water quality test accuracy is not reliable because the water is not sufficiently stored in 621.

Therefore, as shown in FIG. 2, the control unit 140 controls the first valve 30, the second valve 40, and the third valve 100 during the second time from the second time point after the first time has elapsed from the first time point. ) and the fourth valve 110 are closed, the fifth valve 130 is opened, and the pump 90 is driven so that the number of test subjects stored in the first measuring tank 611 and the second measuring tank 621 is discharged through the discharge pipe ( 120) and the discharge pipe 80 to be discharged to the outside.

And, as shown in FIG. 3, the controller 140 controls the first valve 30, the second valve 40, and the fifth valve 130 for a third time at a third time point after the second time has elapsed from the second time point. ) is closed, the third valve 100 and the fourth valve 110 are opened, and the pump 90 is driven to pass the test subject water flowing into the second inlet pipe 70 from the water tank 10 to the first inlet pipe ( 20) and wash the first inlet pipe 20, the test subject water can be controlled to be discharged to the outside through the drain pipe 80.

Then, the water to be tested, which is stored in the first measuring tank 611 and the second measuring tank 621, respectively, and the water quality cannot be measured is discharged to the outside, and the first inlet pipe 20 is washed to remove foreign substances that interfere with water quality measurement to the outside. By discharging to the first measurement tank 611 and the second measurement tank 621, respectively, it is possible to accurately measure the water quality of the test subject water stored again.

Then, the control unit 140 opens the first valve 30 and the second valve 40 for a fourth time after the fourth time when the third time has elapsed from the third time, and opens the third valve 100 and the fourth time. By closing the valve 110 and the fifth valve 130, the test target water stored in the water tank 10 is transferred to the first measuring tank 611 and the second measuring tank 621 through the first inlet pipe 20, respectively. After storing the water again, the turbidity value and the residual chlorine value of the water to be tested measured by the turbidity meter 61 and the chlorine meter 62 can be output as the water quality test result.

The control unit 140 may contain various control programs that internally perform control operations by receiving sensing signals from the input ports IN1 to IN3.

The control unit 140 has a first control program for performing a first control operation based on the sensing signal from the flowmeter 50.

The control unit 140 has a second control program for performing a second control operation based on the sensing signal from the turbidity sensor 612 and the sensing signal from the chlorine sensor 622.

The output unit 150 is connected to the fourth output port OUT4 of the control unit 140, and the turbidity value and residual chlorine value of the test subject water measured by the turbidity meter 61 and the chlorine meter 62 from the control unit 140 can be input and output as a water quality test result.

The output unit 150 may receive and output measurement error information from the control unit 140 .

As shown in FIG. 4, the water quality inspection method (S100) with a customs cleaning function according to a preferred embodiment of the present invention includes a measurement step (S10), a determination step (S20), an error information output step (S30), and a discharge step ( S40), cleaning step (S50), inspection step (S60) and output step (S70).

In the measuring step (S10), the first valve 30 and the second valve 40 are opened for a first time at a first time, and the third valve 100, the fourth valve 110 and the fifth valve 130 is closed so that the test target water contained in the tank 10 is stored in the first measuring tank 611 of the turbidity meter 61 and the second measuring tank 621 of the chlorine meter 62, respectively. While flowing into the test object, the flow rate of the test subject water through the flow meter 50 and the turbidity and residual chlorine amount of the test subject water can be measured through the turbidity meter 61 and the chlorine meter 62, respectively.

In the determination step (S20), the step (S21) of comparing the turbidity value and the residual chlorine value of the test subject measured in the measurement step (S10) with each preset normal measurement range, and the flow rate value of the test subject to a preset critical flow value It is composed of a step (S22) of comparing with, it is possible to determine whether the water quality test of the number of objects to be tested is possible.

That is, if the turbidity value and residual chlorine value of the test subject are in the normal measurement range and the flow rate of the test subject is greater than the preset critical flow rate value, it is determined that the water quality test for the test subject is in a normal state in which the water quality test can be normally performed, and the output step ( S70) may be immediately performed to output the turbidity value and residual chlorine value of the water to be tested as the water quality test result.

On the other hand, if the flow rate of the test object is smaller than the preset critical flow rate value even though the turbidity value and residual chlorine value of the test object are within the normal measurement range, the test object may be affected due to foreign substances present inside the first inlet pipe 20. It is determined that the first inlet pipe 20 needs to be cleaned because it is not possible to measure the water quality for the water, and the discharge step (S40), the washing step (S50), the inspection step (S60), and the output step (S70) are sequentially performed. can do.

In addition, if the turbidity value and residual chlorine value of the water to be inspected are not within the respective preset normal measurement ranges despite the fact that the flow rate of the test subject is greater than the preset critical flow rate, the turbidity meter 61 and the chlorine meter 62 measure water quality It is determined that the measurement cannot be performed properly, and the error information output step (S30) and the output step (S70) are sequentially performed, and the water quality test may be terminated. That is, after outputting the measurement error information in the error information output step (S30), the turbidity value and residual chlorine value of the water to be tested measured in the output step (S70) can be output as the water quality test result.

In the discharge step (S40), the first valve 30, the second valve 40, the third valve 100, and the fourth valve 110 for a second time at a second time when the first time has elapsed from the first time. ) is closed, the fifth valve 130 is opened, and the pump 90 is driven to store water in the first measuring tank 611 of the turbidity meter 61 and the second measuring tank 621 of the chlorine meter 62, respectively. The tested number of objects may be discharged to the outside through the discharge pipe 120 and the discharge pipe 80.

In the washing step (S50), the first valve 30, the second valve 40, and the fifth valve 130 are closed for a third time at a third time when the second time has elapsed from the second time, and the third valve 100 and the fourth valve 110 are opened, and the pump 90 is driven to allow the test subject water contained in the water tank 10 to flow into the second inlet pipe 70 to clean the first inlet pipe 20. there is.

In the inspection step (S60), the first valve 30 and the second valve 40 are opened for the fourth time at the fourth time when the third time has elapsed from the third time, and the third valve 100 and the fourth valve are opened. (110) and the fifth valve (130) are closed to introduce the test target water contained in the tank (10) into the first inlet pipe (20), and the first measuring tank (611) and the chlorine meter (62) of the turbidity meter (61) ) It is possible to measure the turbidity and residual chlorine amount of the water to be tested by storing the water again in the second measuring tank 621.

In the output step (S70), the first valve 30 and the second valve 40 are opened after the 4th time elapses from the 4th time point, and the 3rd valve 100, the 4th valve 110 and the 5th valve (130) is closed and the turbidity value and residual chlorine value of the test subject measured in the inspection step (S50) or the turbidity value and residual chlorine of the test subject measured in the measurement step (S10) according to the judgment result of the judgment step (S20) The water quality test can be completed by outputting the value as the water quality test result.

The above embodiment is merely an example, and other embodiments variously modified therefrom are possible to those skilled in the art.

Therefore, the true technical protection scope of the present invention should include not only the above embodiments but also variously modified other embodiments according to the technical spirit of the invention described in the claims below.

10: water tank
20: first inlet pipe
21: first branch pipe
22: second branch pipe
30: first valve
40: second valve
50: flow meter
60: water quality measuring means
61: turbidity meter
611: first measuring tank
612: turbidity sensor
612a: light emitting part
612b: light receiving unit
62: chlorine meter
621: second measuring tank
622: chlorine sensor
70: second inlet pipe
80: downpipe
90: pump
100: third valve
110: fourth valve
120: discharge pipe
130: fifth valve
140: control unit
IN1: 1st input port
IN2: 2nd input port
IN3: 3rd input port
OUT1: 1st output port
OUT2: 2nd output port
OUT3: 3rd output port
OUT4: 4th output port
OUT5: 5th output port
OUT6: 6th output port
OUT7: 7th output port
150: output unit
P: supply pipe

Claims (7)

A water tank connected to a water supply pipe through which the number of inspection subjects passes and filled with the number of inspection subjects to a certain water level therein;
a first inlet pipe having one end connected to the water tank and through which the test subject water flows;
a first valve connected to one end of the first inlet pipe;
a second valve connected to the other end of the first inlet pipe;
a flow meter connected to the first inlet pipe between the first valve and the second valve to measure the flow rate of the test subject;
a water quality measurement means connected to the first inlet pipe at the rear end of the second valve and storing the water to be tested flowing into the first inlet pipe in a measuring tank to measure the water quality of the water to be tested;
a second inlet pipe having one end connected to the water tank and the other end connected to the first inlet pipe between the flowmeter and the second valve, through which the test subject water flows;
a water discharge pipe connected to the first inlet pipe between the first valve and the flow meter;
a third valve connected to the water discharge pipe;
a pump connected on the end of the downpipe;
a fourth valve connected to the second inlet pipe;
a discharge pipe connecting the water quality measurement means and the water discharge pipe;
A fifth valve connected to the discharge pipe; and
In a state where the third valve, the fourth valve, and the fifth valve are closed, when the flow rate measured by the flowmeter is smaller than a predetermined critical flow rate value, the test subject water contained in the water tank is used to wash the first inlet pipe. A water quality testing device with a customs cleaning function, characterized in that it consists of; a control unit that performs a first control operation for controlling. According to claim 1,
The control unit
The first control operation is performed by closing the first valve, the second valve, and the fifth valve, opening the third valve and the fourth valve, and driving the pump. Water quality inspection device with According to claim 1,
The control unit
The water quality testing device having a water-cleaning function, characterized in that performing a second control operation for controlling the water to be tested stored in the measurement tank to be discharged to the outside before the first control operation. According to claim 3,
The control unit
The second control operation is performed by closing the first valve, the second valve, the third valve, and the fourth valve, opening the fifth valve, and driving the pump. Device. According to claim 1,
The water quality measurement means
It consists of a plurality of water quality measuring devices according to the water quality inspection items,
The plurality of water quality measuring devices
Water quality inspection with a custom cleaning function, characterized in that connected to the other end of the first inlet pipe in parallel to the other end of the first inlet pipe through a branch pipe branching from the other end of the first inlet pipe to a number corresponding to the measuring means. Device. A water tank connected to the water supply pipe through which the water to be inspected passes and containing the water to be inspected, a first inlet pipe connected to the water tank, a flowmeter connected to the first inlet pipe, and a water quality measuring means connected to the end of the first inlet pipe. , a second inlet pipe having one end connected to the water tank and the other end connected to the first inlet pipe, a water outlet pipe connected to the first inlet pipe, a pump connected to an end of the water outlet pipe, and the water quality measuring means; As using a water quality inspection device having a customs cleaning function consisting of a discharge pipe connecting the water downpipe,
storing the water to be tested in the water tank in the water quality measurement means through the first inlet pipe, and measuring the flow rate and quality of the water to be tested through the flow meter and the water quality measuring means, respectively;
comparing the measured flow rate value of the number of objects to be inspected with a predetermined critical flow rate value, and determining that the first inlet pipe needs cleaning when the flow rate value is smaller than the critical flow rate value;
When it is determined that the first inlet pipe needs to be cleaned, the number of test subjects contained in the water tank flows into the second inlet pipe to wash the first inlet pipe, and then the number of test subjects contained in the water tank is passed through the first inlet pipe. storing water in the water quality measuring means again;
measuring the water quality of the test subject water stored in the water quality measuring means again; and
Completing the water quality test by outputting the measured water quality measurement value of the number of objects to be tested; According to claim 6,
Between the step of determining that the first inlet pipe is in a state in which cleaning is required and the step of storing the water in the water quality measurement means again,
Discharging the test subject water stored in the water quality measuring means when it is determined that the first inlet pipe needs to be washed;

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