KR102620429B1 - Multi-parameter water quality measuring instrument with the function of removing foreign substances and air bubbles - Google Patents

Abstract

The present invention discloses a multi-item water quality measuring instrument with the function of removing foreign substances and air bubbles. The disclosed multi-item water quality instrument with the function of removing foreign substances and air bubbles flows in sample water for water quality measurement, removes foreign substances and air bubbles by lowering the flow rate of the sample water, and discharges the sample water, including a sample water foreign matter removal unit, It is characterized by having a water quality measurement unit that is connected to the foreign matter removal unit and passes through a plurality of sensor units in order to measure the water quality of the sample water as sample water for measurement flows in and circulates, and a display unit that displays information measured by the water quality measurement unit. Do it as Therefore, the present invention can prevent measurement errors and water quality distortions in water quality measurement due to blockage of the water quality measurement channel for measurement in an environment where foreign substances and bubbles exist, or precipitation or floating of foreign substances, and can prevent various types of water quality measurement. Using sensors, various items such as residual chlorine, turbidity, hydrogen ions, electrical conductivity, water temperature, dissolved oxygen, suspended solids, oxidation-reduction potential, etc. can be accurately measured.

Description

{Multi-parameter water quality measuring instrument with the function of removing foreign substances and air bubbles}

The present invention relates to a multi-item water quality measuring instrument with a function of removing foreign substances and air bubbles. More specifically, in an environment where foreign substances and air bubbles are present, the flow path of the water quality measuring unit for measurement is blocked or due to precipitation or floating of foreign substances. It can prevent measurement errors and water quality distortion caused by water quality measurement, and can measure various items such as residual chlorine, turbidity, hydrogen ion, electrical conductivity, water temperature, dissolved oxygen, suspended solids, oxidation-reduction potential, etc. by using various types of sensors. It is about a multi-item water quality measuring instrument that has the function of removing foreign substances and air bubbles to enable accurate measurement.

Environmental problems are becoming more serious day by day due to rapid industrial development and population concentration, and recently, due to serious environmental pollution, systematic protection of water sources and management and regulation of pollutant emissions are being implemented at the national level.

In particular, in the field of water quality management for the supply of clean drinking water, samples for water quality investigation are periodically collected from various points in the water and sewage sources to investigate the water quality of water and sewage sources and tributaries, and the samples collected at each point are tested with experimental equipment. The water quality is analyzed using various types of sensors by transporting it to a specific location, such as a research laboratory equipped with the equipment.

And the water quality meter used for such water quality analysis measures the water quality of the measured water using a water quality meter composed of sensors for each measurement item, which is the sensitivity of light or potential difference that indicates the mass for each water quality item. Each measurement sensor is different, and existing integrated water quality meters also use a method of gathering each measurement sensor in one place in the form of a module and measuring it.

With these existing water quality analysis methods, it is difficult to manage water quality in real time because it takes a long time to obtain results and requires manual labor and chemicals.

In addition, the test method itself causes the problem of secondary contamination of waste fluid due to strong oxidizing agents. As electrochemical sensors and various measurement technologies are being developed to overcome the shortcomings of process testing methods using oxidizing agents, methods for measuring the turbidity of samples using light have recently been developed. In other words, it is possible to quickly measure changes in water quality in real time using a turbidity meter, and quickly respond to changes in water quality through continuous monitoring.

However, in the water quality meter of the prior art as described above, technology is applied to increase the residence time to remove foreign substances or to slow the flow to the measuring unit through the overflow wall structure. However, in an environment with many foreign substances, sedimentation of suspended substances causes the sample to be damaged. There are problems such as the flow path discharging water becoming blocked. In addition, as the transport speed of the sample water decreases due to the overflow wall, the foreign matter that settles and accumulates consumes the remaining chlorine, and when the foreign matter resuspenses, water quality distortion occurs, such as affecting the turbidity measurement of the sample water quality. I do it.

In addition, when conventional water quality meters artificially use physical methods such as brushes or compressed air to remove foreign substances, the pressure of the compressed air may impact the sensor and damage the sensor, especially when inorganic substances are present. In the environment, measurement performance deteriorates due to physical deterioration such as wear and scratches on the measurement part. Therefore, in an environment where foreign substances exist, changes in the measurement environment and water quality distortion must be reduced through a structure that can minimize phenomena affecting measurement, and the amount and inflow point of foreign substances must be checked to proceed with cleaning and affect the sensor. The measurement environment must be maintained stably by smoothly discharging foreign substances.

Meanwhile, Domestic Registered Patent No. 10-1692677 (registration date: December 28, 2016) discloses “an intelligent turbidity measurement device with a multiple diffraction channel type bubble removal unit using flow pressure difference,” and Registered Patent No. 10-1745660 ( Registration date: 2017.06.02) discloses “Multi-item automatic water quality measurement device and method using flow and hydraulic pressure control functions”, and Registration Patent No. 10-2214543 (registration date: 2021.02.03) discloses “Multi-item water quality measurement device "is disclosed.

The present invention was created in response to the above-mentioned need, and prevents errors in water quality measurement and water quality distortion due to blockage of the water quality measuring unit flow path for measurement in a water quality environment where foreign substances exist, or precipitation or suspension of foreign substances, etc. It allows accurate measurement of various items such as residual chlorine, turbidity, hydrogen ion, electrical conductivity, water temperature, dissolved oxygen, suspended solids, oxidation-reduction potential, etc., and can be operated by additionally deploying sample stabilization equipment when necessary. The purpose is to provide a multi-item water quality instrument with a bubble removal function.

In order to achieve the above object, a multi-item water quality meter with a function of removing foreign substances and air bubbles according to an aspect of the present invention introduces sample water for measuring water quality, and reduces the flow rate of the sample water to remove foreign substances and air bubbles. a sample water foreign matter removal unit that discharges sample water, a water quality measurement unit connected to the sample water foreign matter removal unit, through which sample water for measurement flows in and circulates, sequentially passing through a plurality of sensor units for measuring the water quality of the sample water; It is characterized by including a display unit that displays information measured by the water quality measurement unit.

In addition, in the present invention, the sample water foreign matter removal unit includes a sample water tank having a sample water inlet for introducing sample water on one side and a rectification amount controller for controlling the transfer speed of the sample water on the other side; A plurality of partition walls are provided inside the sample water tank to reduce the transfer speed of the sample water, and the sample water tank is located below the partition wall to prevent foreign substances from settling in the sample water that rises after descending while being transported along the partition walls. It is characterized in that it includes a first inclined portion formed to be inclined at the bottom of the sample water tank, and a second inclined portion including a sample water outlet portion provided inside the sample water tank and connected to the water quality measurement portion.

In addition, in the present invention, the sample water foreign matter removal unit is provided on the first slope and further includes an automatic tank cleaning valve that selectively discharges water from the sample water tank according to the state of the water quality detected by the water quality measurement unit. It is characterized by including.

In addition, in the present invention, the water quality meter includes a measuring body*measuring body into which sample water for measurement flows, a membrane-mounted sensor measuring unit that is obliquely coupled to the measuring body and has a membrane for filtering foreign substances, and the membrane A plurality of auxiliary sensor units provided in the measurement main body to measure the number of samples passing through the mounted sensor measuring unit, an optical measuring unit provided in the measuring main body to detect the number of samples passing through the auxiliary sensor unit, and a plurality of auxiliary sensor units provided in the measuring main body, It is characterized by including an automatic cleaning valve for the instrument to discharge sample water and foreign substances in the reverse direction.

In addition, in the present invention, the measuring body includes a first sensor mounting part having an inner diameter larger than the diameter of the membrane so that the membrane-mounted sensor measuring part is mounted, and having an inclined mounting surface for installing the membrane-mounted sensor measuring part at an angle; It is formed to be gradually inclined upward from the first sensor mounting part to mount the auxiliary sensor part, is formed to mount a second sensor mounting part having a bubble discharge port, and the optical measuring part, and has a circular shape to increase the residence time of the sample water. It is characterized by comprising an optical sensor mounting unit having a flow path, and a sample water stabilizing unit for increasing the residence time of the sample water transferred from the second sensor mounting unit to the optical sensor mounting unit.

In addition, in the present invention, the water quality measuring instrument further includes an optical cleaning valve provided on the measuring body to communicate with the optical sensor mounting portion and selectively cleaning the optical measuring portion and the optical sensor mounting portion.

As described above, the multi-item water quality measuring instrument with the function of removing foreign substances and air bubbles according to one aspect of the present invention, unlike the prior art, uses foreign substances in sample water for measurement in an environment where foreign substances and air bubbles exist in the sample water. By precipitating foreign substances using the removal unit and supplying sample water to the water quality measurement unit, it is possible to prevent measurement errors and water quality distortion in water quality measurement due to blockage of the flow path of the water quality measurement unit for measurement, settling or floating of foreign substances, etc. In addition, by installing various types of sensors in the water quality measurement unit, it has the effect of accurately measuring various items such as residual chlorine, turbidity, hydrogen ions, electrical conductivity, water temperature, dissolved oxygen, suspended solids, oxidation-reduction potential, etc.

Figure 1 is a schematic diagram illustrating a multi-item water quality measuring instrument with a function of removing foreign substances and bubbles according to an embodiment of the present invention.
Figure 2 is an enlarged view of main parts for explaining a sample water foreign matter removal unit according to an embodiment of the present invention.
Figure 3 is a schematic diagram for explaining a water quality measuring unit according to an embodiment of the present invention.
Figure 4 is a perspective view for explaining a water quality measuring unit according to an embodiment of the present invention.
Figure 5 is a cross-sectional view showing the installation state of the membrane-mounted sensor measuring unit and the auxiliary sensor unit of the water quality measuring unit according to an embodiment of the present invention.

Hereinafter, a preferred embodiment of a multi-item water quality measuring instrument with a function of removing foreign substances and bubbles according to the present invention will be described with reference to the attached drawings. In this process, the thickness of lines or sizes of components shown in the drawing may be exaggerated for clarity and convenience of explanation.

In addition, the terms described below are terms defined in consideration of functions in the present invention, and may vary depending on the intention or custom of the user or operator. Therefore, definitions of these terms should be made based on the content throughout this specification.

Figure 1 is a schematic diagram for explaining a multi-item water quality meter with a function of removing foreign substances and air bubbles according to an embodiment of the present invention, and Figure 2 is a main part for explaining a sample water foreign matter removal unit according to an embodiment of the present invention. This is an enlarged view.

In addition, Figure 3 is a schematic diagram for explaining a water quality measuring unit according to an embodiment of the present invention, Figure 4 is a perspective view for explaining a water quality measuring unit according to an embodiment of the present invention, and Figure 5 is an implementation of the present invention. This is a cross-sectional view showing the installation status of the membrane-mounted sensor measuring unit and the auxiliary sensor unit of the water quality measuring unit according to an example.

Referring to Figures 1 to 5, a multi-item water quality measuring instrument with a function of removing foreign substances and air bubbles according to an embodiment of the present invention stably measures the state of water quality not only in power plants using seawater but also in environments where foreign substances exist. To enable measurement, it largely includes a sample water impurity removal unit 100, a water quality measurement unit 200, and a display unit 300.

The multi-item water quality meter with the function of removing foreign substances and air bubbles according to this embodiment first removes foreign substances and air bubbles from the sample water for measurement in the sample water foreign matter removal unit 100, and first removes the first treated sample water. is supplied to the water quality measurement unit 200 in a constant and quantitative amount, and the measurement information of the sample water measured by the water quality measurement unit 200 is displayed through the display unit 300.

In this embodiment, the sample water foreign matter removal unit 100 includes a sample water tank 110 for introducing sample water, a partition wall 120 for reducing the flow of sample water to allow foreign matter to settle, and a sample water tank 110 for introducing sample water into the sample water. It includes a first inclined part 130 for, a second inclined part 140 for discharging the sample water to the water quality measuring part 200, and an automatic tank cleaning valve 150 for cleaning the tank.

The sample water tank 110 is provided with a sample water inlet 111 for the introduction of sample water at the upper end of one side, and a rectification amount control unit 113 for stable transfer of sample water at the lower end of the other side. This sample water tank 110 is for precipitation of foreign substances by increasing the residence time of the sample water flowing into the interior through the sample water inlet 111. By maintaining the transport downward, residence time increases. At this time, the rectification amount control unit 113 controls the discharge rate of stream water discharged from the sample water tank 110 to control the transfer speed of sample water within the sample water tank 110.

The partition 120 maintains the transfer direction of the sample water up and down within the sample water tank 110 to remove foreign substances and air bubbles that interfere with the sample water measurement, thereby reducing the transfer speed. For this purpose, the partition 120 includes a first partition located above the first slope 130 and a second partition located between the first slope 130 and the second slope 140. do. At this time, the first partition of the partition 120 has a space formed on its lower side to maintain the downward flow of sample water, and the second partition wall has a space formed on its upper side to maintain the upward flow of sample water.

The first inclined portion 130 is formed to be inclined at the bottom of the sample water tank 110 to be located on the lower side of the partition wall portion 120 to allow foreign matter to settle in the sample water that rises after falling while being transported along the partition wall portion 120. . The tank automatic cleaning valve 150 is connected to this first inclined portion 130, and foreign substances accumulating inside can be removed through the tank automatic cleaning valve 150.

The second inclined part 140 is formed inclined at the inner bottom of the sample water tank 110 and has a sample water outlet 141 connected to the water quality measurement unit 200.

The tank automatic cleaning valve 150 is provided on the first slope 130 and selectively discharges sample water from the sample water tank 110 according to the water quality of the sample water detected by the water quality measurement unit 200. Through this, the state of the sample water in the sample water tank 110 can be maintained constant at all times.

The sample water foreign matter removal unit 100 according to this embodiment stabilizes the state of stream water flowing into the sample water tank 110, removes foreign substances and air bubbles, and supplies it to the water quality measurement unit 200. Through this, it is possible to prevent non-turbid substances from flowing into the water quality measurement unit 200 along with the sample water, thereby enabling accurate measurement of the sample number by the water quality measurement unit 200.

The water quality measuring unit 200 is connected to the sample water outlet 141, and the sample water from which foreign substances are primarily removed flows in and circulates inside, and measures the water quality of the circulating sample water. For this purpose, the water quality measuring unit 200 largely consists of a measuring body 210, a membrane-mounted sensor measuring unit 220, a plurality of auxiliary sensor units 230, an optical measuring unit 240, and an automatic measuring instrument cleaning valve ( 250) and an optical cleaning valve 260.

The measuring body 210 is connected to the sample water inlet 111 and receives sample water from which foreign substances are primarily removed. A circulation passage for circulation of the sample water is formed inside, and a membrane-mounted sensor is installed along the circulation passage. A measuring unit 220, a plurality of auxiliary sensor units 230, and an optical measuring unit 240 are installed in order.

This measurement body 210 includes a first sensor mounting part 211 for installing the membrane-mounted sensor measuring part 220, a second sensor mounting part 213 for installing a plurality of auxiliary sensor parts 230, and an optical It includes an optical sensor mounting unit 215 for installing the measuring unit 240, and a sample stabilizing unit 217 for stabilizing the sample transferred to the optical measuring unit 240.

In addition, the measuring body 210 is provided with a sample water inlet valve 210a connected to the sample water outlet 141 on one side, and the sample water flowing in through the sample water inlet valve 210a is supplied to the first sensor mounting unit ( 211), the second sensor mounting unit 213, the sample water stabilization unit 217, and the optical sensor mounting unit 215 are transferred in that order. And since the measuring body 210 is periodically cleaned by the measuring instrument automatic cleaning valve 250 and the optical cleaning valve 260, clogging of the internal flow path can be prevented.

In particular, the measuring body 210 allows stream water from the sample water tank 110 to flow in through the water pressure within the sample water tank 110, and passes through each sensor while circulating through the flow path.

The first sensor mounting part 211 has a flow path larger than the membrane diameter of the membrane-mounted sensor measuring part 220 so that the membrane-mounted sensor measuring part 220 can be installed obliquely, and has an inclined mounting surface 211a so that the membrane can be installed obliquely. ) is formed. The membrane-mounted sensor measuring unit 220 is fixed to the inclined mounting surface 211a. That is, the first sensor mounting portion 211 is formed to be inclined at a specific angle by expanding the inner diameter of the flow path. This is to ensure a smooth transport and discharge structure of sample water.

In addition, the first sensor mounting portion 211 has a waterproof structure to prevent water leakage due to water pressure.

The second sensor mounting part 213 is equipped with an auxiliary sensor part 230 that is less affected by air bubbles and foreign substances, and the first sensor mounting part 211 is installed so that the sample water passing through the flow path of the first sensor mounting part 211 is smoothly transferred and discharged. It is formed to gradually slope upward at 211, and is provided with a bubble discharge port 213a at the end for discharging air bubbles. This second sensor mounting portion 213 can maintain a stable flow and discharge of sample water while preventing precipitation of foreign substances, and clean foreign substances are removed due to the slope when cleaning by operating the automatic cleaning valve 250 of the instrument.

The sample water stabilizing unit 217 has an inclined structure to increase the residence time of the sample water transferred from the second sensor mounting unit 213 to the optical sensor mounting unit 215, and forms a flow path of the second sensor mounting unit 213. By controlling the inner water level, sufficient sample water is provided for measuring water quality. That is, the sample water stabilization unit 217 has an inclined surface structure that can increase the residence time over a narrow section to reduce the error of the optical measurement unit 240 due to air bubbles. Similar to the sample water stabilizing part 217 or the second sensor mounting part 213, the inclined structure of the flow path allows clean removal of foreign substances when the measuring instrument automatic cleaning valve 250 is operated.

The optical sensor mounting unit 215 is formed on the measurement body 210 to mount the optical measuring unit 240, and has a circular flow path to increase the residence time of the sample water. For example, the optical sensor mounting unit 215 is provided with a circular flow path to remove air bubbles while increasing the submission time of the sample water transferred to the optical measurement unit 240 using a circular rotation structure, and optically measures the sample water. It has a structure that can be transferred up and down in the unit 240. This makes it possible to measure the quality of sample water while minimizing the effect of air bubbles.

The membrane-mounted sensor measuring unit 220 is installed at an angle to the first sensor mounting unit 211 and is equipped with a membrane for filtering foreign substances in the sample water. At this time, since the membrane of the membrane-mounted sensor measuring unit 220 has a diaphragm with a fine lattice structure, measurement errors occur when air bubbles pass through or foreign substances attach, so it is inserted at an angle into the flow path of the first sensor mounting unit 211. .

The auxiliary sensor unit 230 may be comprised of a residual chlorine sensor, turbidity sensor, hydrogen ion sensor, electrical conductivity sensor, water temperature sensor, dissolved oxygen sensor, etc., which are relatively less affected by air bubbles and foreign substances. At least two of these auxiliary sensor units 230 may be sequentially installed on the second sensor mounting unit 213.

The optical measurement unit 240 is coupled to the optical sensor mounting unit 215 to detect the number of samples passing through the auxiliary sensor unit 230, and measures the sample number with the influence of air bubbles minimized in the optical sensor mounting unit 215. do.

The measuring instrument automatic cleaning valve 250 is provided in the measuring body 210 and discharges sample water and foreign substances in the reverse direction to remove foreign substances from the measuring body 210. The operation of this measuring instrument automatic cleaning valve 250 is selectively controlled based on the degree of precipitation of foreign substances in the sample water, the state of water quality, and the set time.

The optical cleaning valve 260 is provided in the measurement body 210 to communicate with the optical sensor mounting portion 215, and selectively cleans the optical measuring portion 240 and the optical sensor mounting portion 215 according to control.

The operation of the multi-item water quality measuring instrument with the function of removing foreign substances and air bubbles according to an embodiment of the present invention configured as described above will be described.

First, before measuring the water quality of the sample water, the tank automatic cleaning valve 150, the instrument automatic cleaning valve 250, and the optical cleaning valve 260 are controlled to control the sample water tank 110 and the water quality measurement unit 200. ) Remove all foreign substances and air bubbles.

Then, the sample water inlet 111 is opened to supply sample water for measurement to the sample water tank 110, and the sample water from which foreign substances and air bubbles are primarily removed is supplied to the sample water tank 110 using hydraulic pressure. It is supplied to the water quality measurement unit 200.

Then, as the sample water flowing into the water quality measuring unit 200 circulates through the flow path of the measuring body 210, foreign substances and air bubbles are secondarily removed, and the membrane-mounted sensor measuring unit 220, the auxiliary sensor unit 230, and the optical measuring unit Water quality status is measured by sequentially going through (240).

At this time, the water quality measurement unit 200 has an anti-adhesion structure, a residence time increase structure, a sedimentation prevention structure, a sedimentation induction structure, a bubble degassing structure, and a cleaning structure to minimize the influence of foreign substances and bubbles. This minimizes the number of samples, making it possible to measure the sample number more accurately, and automatic cleaning is possible depending on the condition, resulting in excellent measurement performance, stability, and accuracy.

The automatic cleaning function can be achieved by moving the electrically conductive sensor. When foreign matter accumulates and comes into contact with the electrically conductive sensor, it can be detected and the cleaning function can be automatically activated.

The present invention has been described with reference to the embodiments shown in the drawings, but these are merely exemplary, and those skilled in the art will recognize that various modifications and other equivalent embodiments are possible therefrom. You will understand.

Therefore, the true technical protection scope of the present invention should be determined by the scope of the patent claims.

100: sample water foreign matter removal unit 110: sample water tank
111: Sample water inlet 113: Rectification amount control unit
120: Bulkhead section 130: First slope section
140: second slope 141: sample water outlet
150: tank automatic cleaning valve 200: water quality measurement unit
210: Measuring body 211: First sensor mounting part
211a: Inclined mounting surface 213: Second sensor mounting portion
213a: bubble outlet 215: optical sensor mounting part
217: Sample water stabilization unit 220: Membrane-mounted sensor measurement unit
230: Auxiliary sensor unit 240: Optical measurement unit
250: measuring instrument automatic cleaning valve 260: optical cleaning valve
300: Display unit

Claims (6)

A water quality measuring unit where sample water flows in and circulates, and where the sample water flowing inside sequentially passes through a plurality of sensor units for measuring water quality; And a display unit that displays information measured by the water quality measurement unit,
The water quality measuring unit includes a measuring body into which sample water for measurement flows; a membrane-mounted sensor measuring unit that is obliquely coupled to the measuring body and includes a membrane including a fine lattice-structured diaphragm for filtration of foreign substances; a plurality of auxiliary sensor units provided in the measurement body to measure the number of samples passing through the membrane-mounted sensor measurement unit; An optical measuring unit provided in the measuring body to detect the number of samples passing through the auxiliary sensor unit; And an automatic measuring instrument cleaning valve provided in the measuring body to discharge sample water and foreign substances in the reverse direction,
The measuring body includes: a first sensor mounting part having an inner diameter larger than the diameter of the membrane so that the membrane-mounted sensor measuring part is mounted, and having an inclined mounting surface for installing the membrane-mounted sensor measuring part at an angle;
a second sensor mounting part that is gradually inclined upward from the first sensor mounting part to mount the auxiliary sensor part, and has a bubble outlet;
An optical sensor mounting unit formed to mount the optical measurement unit and having a circular flow path to increase the residence time of sample water; and
a sample water stabilization unit for increasing the retention time of sample water transferred from the second sensor mounting unit to the optical sensor mounting unit;
A multi-item water quality measuring instrument with a function of removing foreign substances and air bubbles, characterized in that it includes a.
According to claim 1,
The sample water is supplied to the water quality measurement unit through the sample water foreign matter removal unit to remove foreign substances and air bubbles,
The sample water foreign matter removal unit includes a sample water tank having a sample water inlet for introducing sample water on one side and a rectifying amount adjuster for controlling the transfer speed of sample water on the other side;
a plurality of partition walls provided inside the sample water tank to reduce the transfer speed of the sample water;
a first inclined portion formed at an angle at the bottom of the sample water tank to be located below the partition wall portion to allow foreign matter to settle in the sample water that rises after being transported along the partition wall; and
a second inclined portion provided inside the sample water tank and having a sample water outlet connected to the water quality measurement portion;
A multi-item water quality measuring instrument with a function of removing foreign substances and air bubbles, characterized in that it includes a.
According to claim 2,
The sample water foreign matter removal unit includes an automatic tank cleaning valve provided on the first slope and selectively discharging water from the sample water tank according to the state of water quality detected by the water quality measurement unit;
A multi-item water quality measuring instrument with a function of removing foreign substances and air bubbles, further comprising:
delete delete According to claim 1,
The water quality measuring unit includes: an optical cleaning valve provided on the measuring body to communicate with the optical sensor mounting unit and selectively cleaning the optical measuring unit and the optical sensor mounting unit;
A multi-item water quality measuring instrument with a function of removing foreign substances and air bubbles, further comprising: