KR102576339B1 - Apparatus for measuring line parameter - Google Patents

Abstract

The present invention relates to a water purification efficiency alternating circulation measuring device. In order to increase the efficiency of water purification at a water purification plant and reduce water purification costs, raw water, sediment water, filtered water, and purified water are alternately circulated and water quality measurement data is transmitted to the manager to efficiently This is to enable management.
The present invention includes a measurement water reservoir 130 in which measurement water of raw water, sedimentation water, filtered water, and purified water is stored, and when the measurement water stored in the measurement water storage container 130 is supplied, the water quality of the measurement water is inspected and inspected. A measurement unit 150 that transmits one data to the control unit, a measurement water opening valve 140 that alternately injects the measurement water stored in the measurement water reservoir 130 into the measurement unit 150, and a measurement water reservoir 130 ), a control unit 110 that controls the measuring unit 150 and the opening valve 140 and transmits the received data to the manager terminal, and a touch screen 120 that operates the control unit 110; It is characterized by

Description

Water purification efficiency alternating circulation measuring device {Apparatus for measuring line parameter}

The present invention relates to a water purification efficiency alternating circulation measuring device. In order to increase the efficiency of water purification in large water purification plants and reduce purification costs, raw water, sediment water, filtered water, and purified water are alternately circulated and water quality measurement data is transmitted to the manager. It is about a water purification efficiency alternating circulation measuring device that allows for efficient management.

In general, when purifying water at a water purification plant, raw water is received into the water purification plant's settling basin, chemicals are put into the settling basin, impurities are precipitated by combining the impurities and the chemical, foreign substances are drawn into the filter paper and filtered, and the filtered water is purified for general purification. It is supplied with tap water.

At this time, the degree of purification of the water to be purified is determined by controlling the input of chemicals into the settling tank. The chemicals in the settling tank are added taking into account the turbidity of the raw water.

For example, the raw water entering the dry water period has low water turbidity, so the chemical input requirement is small. In the flood season, the turbidity of the raw water increases, so the chemical input amount must be adjusted accordingly. However, in the prior art, such chemical input amount cannot be properly adjusted. There was a problem.

Republic of Korea Patent Publication No. 2022-0018109 (published on February 15, 2022)

The present invention is intended to solve conventional problems and has the following purposes.

The present invention measures the turbidity of raw water, filtered water, and purified water in a water purification plant and uses the data to control the input of chemicals into the sedimentation tank, thereby making it possible to purify water efficiently and reduce the cost of water purification by saving the input of chemicals. The purpose is to make it happen.

The present invention for achieving the above-described object is a measurement water storage tank in which measurement water of raw water, sedimentation water, filtered water, and purified water is stored for measurement, and when measurement water stored in the measurement water storage tank is supplied, the quality of the measurement water is inspected and inspected. A measuring unit that transmits one data to the control unit, a measuring water opening valve that alternately injects the measuring water stored in the measuring water reservoir into the measuring unit, and a manager terminal that controls the measuring water reservoir, measuring unit, and opening valve and transmits the received data to the measuring unit. It is characterized in that it includes a control unit that transmits data to and a touch screen that operates the control unit.

As described, the present invention is applicable to all water treatment facilities that purify water, such as drinking tap water, power plant water treatment, private medium and large-sized water treatment plants, and medium and large-sized seawater desalination plants, and monitors and controls the water purification process to improve water purification efficiency and reduce water purification costs. Effort can be reduced and water analysis experiments can be replaced, reducing experimental costs and manpower.

1 is a front view illustrating the structure of a water purification efficiency alternating circulation measuring device according to an embodiment of the present invention.
Figure 2 is a side view illustrating the structure of a water purification efficiency alternating circulation measuring device according to an embodiment of the present invention.
Figure 3 is a diagram for explaining the structure of the measurement water storage tank among the structures of the water purification efficiency alternating circulation measuring device according to an embodiment of the present invention.
Figure 4 is a diagram for explaining the structure of the measuring part of the structure of the water purification efficiency alternating circulation measuring device according to an embodiment of the present invention.
Figure 5 is a diagram for explaining the operating state of the water purification efficiency alternating circulation measuring device according to an embodiment of the present invention.

In the following description of the present invention, if a detailed description of a related known function or configuration is judged to unnecessarily obscure the gist of the present invention, the detailed description will be omitted. In addition, the terms described below are terms established in consideration of the function in the present invention, and these terms may vary depending on the intention or custom of the producer producing the product, and the definitions of the terms should be made based on the content throughout the specification. .

The water purification efficiency alternating circulation measuring device 100 of the present invention supplies a measurement water reservoir 130 in which raw water, sediment water, filtered water, and purified water for measurement are stored, and measurement water stored in the measurement water reservoir 130. a measuring unit 150 that tests the water quality of the measured water and transmits the tested data to the control unit, and a measuring water opening valve 140 that alternately injects the measured water stored in the measuring water reservoir 130 into the measuring unit 150. ) and a control unit 110 that controls the measurement water reservoir 130, the measurement unit 150, and the opening valve 140 and transmits the received data to the manager terminal, and a control unit 110 that operates the control unit 110. Includes a touch screen 120.

In addition, the measured water storage tank 130 is divided into a separator 133 to store raw water, settled water, filtered water, and purified water, and is provided inside the drain tank 132, where the measured water drained from each storage tank is stored. do.

In addition, the measurement unit 150 is supplied with measurement water through a supply pipe 154 linked to the distributor 141 of the measurement water opening valve 140, and includes a measurement water container 151 in which the measurement water is stored, and a measurement water container 151. It is provided with a measurement sensor 152 that measures the water quality of the measurement water flowing into the system, and a second drain pipe 161-2 for discharging the drained measurement water.

The water purification efficiency alternating circulation measuring device 100 including the above configuration supplies and stores raw water, settled water, filtrated water, and purified water being purified through the measurement water input pipe 134 to the measurement water storage tank 130.

And the measurement water stored in the measurement water reservoir 130 is supplied to the measurement water container 151 of the measurement unit 150 by alternately opening the measurement water opening valve 140 provided at the bottom.

And when the water is supplied to the top of the measurement tank 151 of the measurement unit, the water quality (turbidity) of the measurement water is detected by the measurement sensor 152 provided at the top and transmitted to the control unit 110.

In particular, the measurement water supplied from the measurement water reservoir 130 to the measurement water container of the measurement unit can be visually confirmed through the transparent supply pipe 154.

In addition, the measurement water overflowing in the measurement water reservoir 130 and the measurement water container 151 is discharged to the outside through the drain water outlet 135a through the first drain pipe 161-1 and the second drain pipe 161-2. Emission takes place.

And the measurement water reservoir 130 is divided and stored through a separator 133 so that the individual measurement waters introduced are not mixed.

In addition, the operation and stop of the measuring device 100, measurement time, and valve opening can be set through the touch screen 120.

The operation of the measuring device is based on the setting time, and it is desirable to proceed sequentially in shifts as long as the setting time.

Hereinafter, a structure according to an embodiment of the present invention will be described with reference to the attached drawings.

(Example)

The attached drawings Figure 1 is a front view for explaining the structure of a water purification efficiency alternating circulation measuring device according to an embodiment of the present invention, and Figure 2 is a side view for explaining the structure of a water purifying efficiency alternating circulation measuring device according to an embodiment of the present invention. 3 is a diagram illustrating the structure of the measurement water storage tank among the structures of the water purification efficiency alternating circulation measuring device according to an embodiment of the present invention, and Figure 4 is a diagram showing the structure of the water purifying efficiency alternating circulation measuring device according to an embodiment of the present invention. Figure 5 is a diagram for explaining the structure of the measuring unit, and Figure 5 is a diagram for explaining the operating state of the alternating circulation measuring device for water purification efficiency according to an embodiment of the present invention.

As shown in Figures 1 and 2, the water purification efficiency alternating circulation measuring device 100 (hereinafter referred to as "measuring device") is a measuring water storage tank in which measuring water of raw water, settled water, filtrated water, and purified water for measurement is stored. (130), a measurement unit 150 that tests the water quality of the measurement water when the measurement water stored in the measurement water reservoir 130 is supplied and transmits the tested data to the control unit, and the measurement stored in the measurement water reservoir 130 Controls the measurement water opening valve 140, which alternately injects water into the measurement unit 150, the measurement water reservoir 130, the measurement unit 150, and the opening valve 140, and transmits the received data to the administrator terminal. It is provided with a control unit 110 that operates the control unit 110 and a touch screen 120 that operates the control unit 110.

The control unit 110 opens/closes the opening valve 140 provided in each measurement water reservoir to alternately circulate the measurement water stored in the measurement water reservoir 130 to the measurement unit 150, The measured data is transmitted from the measurement unit 150, stored, and transmitted to the manager's terminal as needed.

And operation control input of the control unit 110 can be input through the touch screen 120.

Meanwhile, the measured water storage tank 130 is partitioned through a separator 133, and the divided compartments store measured water such as raw water, settled water, filtered water, and purified water, and each storage tank is used to supply measured water. Measurement water input pipes 134 are individually provided.

In addition, at the bottom of each measurement water reservoir 130, a measurement water opening valve 140 is provided to supply the stored measurement water to the measurement unit 150, and this measurement water opening valve 140 is controlled by the control unit. It is desirable to open/close it through .

In addition, each opening valve 140 is connected to one distributor 141, and the distributor 141 is connected to a supply pipe 154 connected to the measuring water tank 151 of the measuring unit 150.

At this time, the supply pipe 154 is preferably made of a transparent material so that the flowing measurement water can be visually identified.

In addition, a drain tank 132 is provided on the outside of the measurement water reservoir 130 to recover the supplied measurement water when it is drained.

In addition, the measured water drained into the drain tank 132 is discharged to the outside through the first drain pipe 161-1.

Meanwhile, the measurement unit 150 inspects the measurement water supplied from the measurement water reservoir 130. When the supplied measurement water flows to the top, the water quality (turbidity) of the measurement water is measured through the measurement center 152 provided at the top. is made to measure and transmit the measured data to the control unit 110.

In addition, a second drain pipe (161-2) is provided on the side of the measurement water tank (151) to discharge excess measurement water to the outside, and the excess measurement water passes through the second drain pipe (161-2). Discharge occurs to the outside.

As shown in FIG. 5 of the accompanying drawing, the measuring device 100 of the present invention supplies raw water, settled water, filtered water, and purified water to each measurement water reservoir 130 through the measurement water input pipe 134, By opening the measurement water opening valve 140, the water is supplied to the measuring unit 150 and the water quality (turbidity) is tested.

For example, if the order of setting the object to be measured and inspected through the touch screen 120 is 10 seconds for raw water inspection, 10 seconds for sedimentation water inspection, 10 seconds for filtered water inspection, and 10 seconds for purified water inspection, the measurement water reservoir 130 containing raw water The measurement water opening valve 140 is opened for 10 seconds to initially test the quality of the raw water. At the same time, the opening valve of the measurement water reservoir containing the raw water is closed, and the measurement water of the measurement water reservoir 130 containing the sediment water is released. The opening valve 140 is opened to inspect the sediment.

In this way, through continuous rotation, the inspection of the measured water is automatically inspected by setting, and the inspection contents can be transmitted and received.

In other words, it has the advantage of providing real-time water quality status information from drinking water purification plants to managers by collecting water quality management data from water purification plants in real time and providing filter management time notification functions and contaminant blocking warning notification functions to managers.

In particular, it is applied to all water treatment facilities that purify water, including drinking tap water, power plant water treatment, private medium- and large-sized water treatment plants, and medium- and large-sized seawater desalination facilities. Monitor and control the water treatment process to improve water purification efficiency, reduce water purification costs and effort, and analyze water. By replacing experiments, it is possible to expect reductions in experiment costs and manpower.

Additionally, by collecting water quality data from water purification plants and doing backdata, it has the advantage of being able to analyze the correlation between water quality at water purification plants and health conditions and use it for commercialization by identifying water quality conditions across the country.

Above, specific embodiments of the present invention have been described.

However, the spirit and scope of the present invention are not particularly limited to these specific embodiments, and it is common knowledge in the technical field pertaining to the present invention that various modifications and variations can be made without changing the gist of the present invention. Anyone who has this should understand.

Accordingly, the above-described embodiments are provided to fully inform those skilled in the art of the present invention of the scope of the invention, and should be understood in all respects as illustrative and not restrictive, and the present invention is only defined by the scope of the claims.

100: measuring device 110: control unit
120: Touch screen 130: Measurement water reservoir
131: storage container 132: drain container
133: Separator plate 134: Measurement water input pipe
140: Measurement water opening valve 141: Distributor
150: Measuring part 151: Measuring water container
152: Measuring sensor 154: Transparent tube

Claims (6)

A measurement water storage tank (130) in which measurement water of raw water, sedimentation water, filtered water, and purified water for measurement is stored;
When the measured water stored in the measured water reservoir 130 is supplied, a measuring unit 150 that tests the water quality of the measured water and transmits the tested data to the control unit;
A measurement water opening valve 140 that alternately injects the measurement water stored in the measurement water reservoir 130 into the measurement unit 150;
A control unit 110 that controls the measurement water reservoir 130, the measurement unit 150, and the opening valve 140 and transmits the received data to the administrator terminal; and
Includes a touch screen 120 that operates the control unit 110,
The measurement water storage tank 130 is divided and formed through a separator 133 to store raw water, settled water, filtered water, and purified water, respectively.
The measurement water storage tank 130 is divided into sections and is provided inside the drain tank 132, where the measurement water drained from each storage tank is stored,
The drain tank 132 is provided with a first drain pipe 161-1 for discharging the drained measurement water to the outside.
The measurement unit 150 is supplied with measurement water through a supply pipe 154 linked to the distributor 141 of the measurement water opening valve 140, and is connected to a measurement water container 151 in which the measurement water is stored, and a measurement water container 151. It is equipped with a measurement sensor 152 to measure the water quality of the inflow measurement water, and a second drain pipe 161-2 to discharge the drain measurement water,
The supply pipe 154 is a water purification efficiency alternating circulation measuring device, characterized in that it is formed as a transparent pipe so that the water quality of the incoming measured water can be visually confirmed. delete delete delete delete delete

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