KR101990784B1 - Multi-channel turbidity meter and turbidity system using the meter - Google Patents

Abstract

The present invention relates to a multi-channel turbidity meter and a turbidity meter system using the same. The multi-channel turbidity meter includes: a plurality of turbidity sensors including an LED light source to detect turbidity and convert the detection result into a digital signal to transmit the same; and a transducer which receives detection results of the plurality of turbidity sensors, converts the detection results of each turbidity sensor into a turbidity value, and then displays the turbidity values in divided channel regions of a display unit, respectively.

Description

[0001] The present invention relates to a multichannel turbidity meter and a turbidity meter using the same,

The present invention relates to a multichannel turbidity meter and a turbidity meter system using the multichannel turbidity meter, and more particularly, to a multichannel turbidity meter and a turbidity meter system using the same, which can improve the efficiency of turbidity water quality management in a filtration plant.

In general, the turbidity meter of filter paper installed and operated in the water purification plant occupies an important measurement item of the drinking water treatment process and it is the most important measure to achieve the water quality target for safe tap water supply to the people.

In the field of water treatment process, the importance of water quality automatic meter accuracy control is increasing due to insufficient calibration and deterioration of turbidity meter due to performance deterioration. There is a need for securing it.

Since a turbidimeter using a tungsten lamp as a light source is disclosed in the registered patent 10-1010367 (registered with the low concentration turbidimeter with a microbubble eliminator, registered on January 17, 2011), the life cycle of the tungsten lamp is short, And management costs.

In addition, the conventional turbidimeter is disadvantageous in that the sensor and the transducer are individually matched to each other at 1: 1 (refer to FIG. 2 and FIG.

This is because the existing turbidimeter used in the filter paper uses a method of transmitting the data measured by the sensor part to the converter by an analog method. However, in order to construct a multichannel turbidimeter, it is necessary to develop a new concept of multichannel turbidity meter because it is not suitable for complicated wiring, low accuracy, and limited range of sensor installation.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a multichannel turbidity meter capable of greatly increasing the replacement period of a light source and a turbidity measurement system using the same.

Another object of the present invention is to provide a multichannel turbidity meter capable of increasing the efficiency of maintenance and management by allowing turbidity data detected by a plurality of filter paper to be confirmed at the same place, And a turbidity measurement system using the same.

Another technical problem to be solved by the present invention is to provide a multichannel turbidity meter for collecting and managing turbidity data of a plurality of water purification facilities at a remote site, And to provide a turbidity measurement system using the same.

Another object of the present invention is to provide a turbidimetric turbidimetric turbidimetric turbidimetric turbidimetric turbidimetric turbidimetric turbidimetric turbidimetric system capable of confirming turbidity information, And a turbidity measurement system using the same.

According to an aspect of the present invention, there is provided a multichannel turbidity meter including a plurality of turbidity sensors including an LED light source for detecting turbidity, converting the detection results into digital signals and transmitting the signals, And a converter that receives the detection result of the turbidity sensor, converts the detection result of each turbidity sensor to a turbidity value, and displays the turbidity value in the divided channel region of the display portion.

According to an embodiment of the present invention, the converter includes: a multi-channel connector section for receiving detection results of the plurality of turbidity sensors; a memory section for buffering detection results received through the multi-channel connector section; And a turbidity value converting unit for converting the detection result stored in the memory unit into a turbidity value and displaying the turbidity value on a display unit divided on a channel-by-channel basis.

According to an embodiment of the present invention, the transducer may further include a communication unit for externally transmitting the turbidity value converted by the turbidity value conversion unit.

According to an embodiment of the present invention, the transducer further includes an alarm generating unit that stores the normal turbidity value range, compares the turbidity value of the turbidity value converter with the normal turbidity value range, and generates an alarm when there is a difference .

According to an embodiment of the present invention, the alarm generating unit may display an alarm on a specific channel among the divided channels of the display unit when the turbidity value of the specific channel is not within the normal turbidity value range.

According to an embodiment of the present invention, the turbidity sensor includes a sensing unit that detects the turbidity including the LED light source and the light receiving sensor, an amplification unit that amplifies the sensing result of the sensing unit, And a conversion unit for converting the result to a digital signal.

According to another aspect of the present invention, there is provided a turbidity measurement system including a multichannel turbidity meter, a switching switching unit selectively outputting output signals of turbidity sensors or output signals of the multichannel turbidity meter, And a management server for storing and managing the output signals of the transducers or the turbidity sensors transmitted through the communication device unit can do.

According to an embodiment of the present invention, the switching switching unit may output an output signal of the turbidity sensors to the communication device unit according to an alarm occurrence of the alarm generating unit of the multichannel turbidity meter.

The multichannel turbidity meter of the present invention and the turbidity measurement system using the multichannel turbidity meter have the effect of significantly reducing the maintenance cost by prolonging the replacement period of the light source by using the LED light source.

In addition, the present invention enables turbidity data of a plurality of filter paper to be confirmed at the same place by making it possible to convert detection data of a turbidity sensor provided in a plurality of filter paper with one converter, thereby improving efficiency of maintenance and management , It simplifies the wiring and facilitates maintenance and maintenance.

The present invention is capable of collecting and managing turbidity data of a plurality of water purification facilities at a remote site using a communication device unit, and currently, turbidity information of water purification facilities of 540 water purification facilities nationwide can be managed nationwide, There is an effect that can be done.

In addition, it is possible to remotely receive the detection data detected by the turbidity sensor even when some or all of the transducers for converting the turbidity data are faulty, thereby ensuring the reliability of turbidity management.

1 is a configuration diagram of a multi-channel turbidity meter according to a preferred embodiment of the present invention.
Fig. 2 is a block diagram of Fig. 1. Fig.
3 is a result table of the steering angle adjustment test that is optimized using the turbidity sensor 100 of the present invention.
4 is a block diagram of a turbidity measurement system using a multi-channel turbidity meter according to a preferred embodiment of the present invention.

Hereinafter, the multichannel turbidity meter of the present invention and the turbidity measurement system using the same will be described in detail with reference to the accompanying drawings.

The embodiments of the present invention are provided to explain the present invention more fully to those skilled in the art, and the embodiments described below can be modified into various other forms, The scope of the present invention is not limited to the following embodiments. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the invention to those skilled in the art.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the singular forms "a", "an," and "the" include plural forms unless the context clearly dictates otherwise. Also, " comprise "and / or" comprising "when used herein should be interpreted as specifying the presence of stated shapes, numbers, steps, operations, elements, elements, and / And does not preclude the presence or addition of one or more other features, integers, operations, elements, elements, and / or groups. As used herein, the term "and / or" includes any and all combinations of one or more of the listed items.

Although the terms first, second, etc. are used herein to describe various elements, regions and / or regions, it is to be understood that these elements, parts, regions, layers and / . These terms do not imply any particular order, top, bottom, or top row, and are used only to distinguish one member, region, or region from another member, region, or region. Thus, the first member, region or region described below may refer to a second member, region or region without departing from the teachings of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the drawings schematically showing embodiments of the present invention. In the figures, for example, variations in the shape shown may be expected, depending on manufacturing techniques and / or tolerances. Accordingly, embodiments of the present invention should not be construed as limited to any particular shape of the regions illustrated herein, including, for example, variations in shape resulting from manufacturing.

FIG. 1 is a configuration diagram of a multi-channel turbidity meter according to a preferred embodiment of the present invention, and FIG. 2 is a block diagram of FIG.

1 and 2, a multichannel turbidity meter according to a preferred embodiment of the present invention includes a plurality of turbidity sensors installed on different filter paper to detect turbidity, convert the detected data into digital signals, And a converter 200 for receiving the data of the turbidity sensors 100 and analyzing and displaying the received data.

The turbidity sensor 100 includes a sensing unit 110 including an LED light source 111 and a light receiving sensor 112, an amplifying unit 120 amplifying a signal detected by the sensing unit 110, And a conversion unit 130 converting the amplified signal into a digital signal.

The transducer 200 includes a multichannel connector 210 to which a plurality of the turbidity sensors 100 are connected and a memory 220 for temporarily storing data input through the multichannel connector 210 A turbidity value conversion unit 230 for receiving and analyzing data through the memory unit 220 and converting the turbidity value to a specific turbidity value; a turbidity value conversion unit 230 for displaying turbidity values converted by the turbidity value conversion unit 230, A display unit 240 for dividing the turbidity value of the turbidity sensor 100 into the same number as that of the turbidity sensor 100 and displaying the turbidity value detected for each channel, and a communication unit 250 for transmitting the converted turbidity value to the outside.

Hereinafter, the construction and operation of the multichannel turbidity meter according to the preferred embodiment of the present invention will be described in detail.

First, the turbidity sensor 100 is installed on each filter paper to detect turbidity. The turbidity sensor 100 may be used in a state in which a sensor tube is coupled to the outside, and the sensor tube may use a hard acrylic to prevent the generation of bubbles as much as possible, and may include a bubble-preventing structure therein.

At this time, the air bubble prevention structure uses a double tube structure having an inner tube and an outer tube so that the number of the sample flowing into the lower side of the inner tube overflows and flows into the outer tube, then flows over again to the turbidity sensor 100 side .

By using the structure for repeating the overflow, it is possible to prevent air bubbles from being generated in the sample water, and air bubbles can be prevented from being generated by further including an air vent structure which is forced air.

The air bubble prevention structure applied to the present invention can employ known structures.

The sensing unit 110 of the turbidity sensor 100 uses an LED light source 111 as a light source and condenses the light of the LED using an appropriate lens to irradiate the number of bubbles removed through the air bubble prevention structure. At this time, the light irradiated by the foreign substance included in the sample number is scattered, and the scattered light is received by the light receiving section 112 to detect turbidity.

The output of the sensing unit 110 is an analog signal. The output of the sensing unit 110 varies depending on the turbidity. The amplification unit 120 amplifies and outputs the difference in order to clarify the difference.

Then, the conversion unit 130 receives the detection signal amplified by the amplification unit 120, converts it into a digital signal, and outputs the digital signal. The effect that can be obtained by converting the analog signal into the digital signal in the conversion unit 130 is that it is capable of long distance transmission, simplifies the wiring, and ensures accuracy without loss of signal.

Each of the turbidity sensors 100 is installed in a different filter paper to detect turbidity, converts the turbidity data into a digital signal, and transmits the digital signal.

3 is a result table of the steering angle adjustment test that is optimized using the turbidity sensor 100 of the present invention.

Specifically, a range of orientation angle of 90 占 占 5 was set, and the turbidity detection result of the sample water of the same concentration was confirmed while changing the directivity angle of the turbidity sensor 100. [

Test Results The turbidity sensor 100 according to the present invention was confirmed to have an optimum orientation angle of 91.5 degrees.

Turbidity data transmitted from the plurality of turbidity sensors 100 are input to the transducer 200 installed at a long distance. In the present invention, turbidity data are digitized, and a plurality of turbidity sensors (100) are respectively received from a plurality of turbidity sensors (100) using a single converter (200) installed at a relatively long distance, Turbidity data can be converted into numerical values and displayed.

The multi-channel connector unit 210 of the transducer 200 provides a plurality of connectors for receiving data of the turbidity sensor 100, and the received data is stored in the memory unit 220. The memory unit 220 serves as a buffer for temporarily storing data.

Then, the turbidity value conversion unit 230 may convert a plurality of data received through each channel into a turbidity value that can be displayed numerically according to a given program, and display the turbidity value on the display unit 240.

The display unit 240 may display the turbidity information of each filter paper at a glance, assuming that the screen is divided into the same number as the number of channels or the number of turbidity sensors 100.

As described above, the turbidity of a plurality of filter paper is detected and the result can be confirmed through the transducer 200 installed in one place.

The converter 200 is provided with a communication unit, and the turbidity value converted by the turbidity value converter 230 can be transmitted to the outside.

The alarm generating unit 260 may further include an alarm generating unit 260. The alarm generating unit 260 may store a reference turbidity value range and the turbidity value converted by the turbidity value converting unit 230 may be a value outside the reference turbidity value range It notifies that there is an error in the data of the corresponding channel.

At this time, the alarm generating unit 260 can selectively display the turbidity value of the specific channel among the turbidity values displayed on the display unit 240 for each divided region of the display unit 240.

Accordingly, the administrator can easily recognize that there is an error in the data of the specific channel of the display unit 240 by the alarm generating unit 260, determine that there is a failure in part or all of the converter 200, It is possible to reduce the time and effort required for maintenance.

As described above, the multichannel turbidity meter according to the present invention can easily check turbidity information of different filter paper detected by a plurality of turbidity sensors 100 using one converter 200, It is possible to recognize an abnormality of the turbidity sensor 100 installed in a specific filter paper and to easily recognize a part or all of the failure of the converter 200. [

4 is a configuration diagram of a turbidity measurement system using the multichannel turbidity meter of the present invention.

Referring to FIG. 4, the turbidity measurement system of the present invention includes the plurality of turbidity sensors 100 and the transducers 200 described above, data analyzed in the transducers 200 or data detected in the plurality of turbidity sensors 100 And a communication unit 400 for receiving data of the transducer 200 or data of each turbidity sensor 100 received through the switching switching unit 300 and transmitting the data to the outside, And a management server 500 for storing and managing turbidity data received through the communication device unit 400.

Hereinafter, the configuration and operation of the turbidity measurement system according to the preferred embodiment of the present invention will be described in detail.

As described above, the transducer 200 is provided with a communication unit 250, and the turbidity value of each channel, which is transmission data of the communication unit 250, is transmitted to the communication device unit 400 through the switching switching unit 300 And the communication device unit 400 may transmit the received turbidity value to the management server 500.

The management server 500 may be a web server or a server provided in a water purification plant where the present invention is installed. In the case of a server provided in a water purification plant, the communication device unit 400 may be a power line communication device, and may be a gateway or a PC capable of accessing the Internet when the management server 500 is a web server.

That is, the management server 500 may be a server for managing turbidity information of a specific water purification plant, or may be a server for managing turbidity information of a water purification plant nationwide, The communication device unit 400 may be variously applied.

If an alarm is generated in the alarm generating unit 260 provided in the converter 200, the switching unit 300 is automatically or manually operated and the signal is transmitted from the communication unit 250 of the converter 200 And transmits the digital signal output from each of the plurality of turbidity sensors 100 to the communication device unit 400.

This may transmit the data of the turbidity sensor 100 to the management server 500 when a failure occurs in some or all of the transducers 200. If the received data is sensing data other than the turbidity value, the management server 500 may determine that the converter 200 is abnormal and analyze the sensed data to confirm the turbidity value.

As described above, the present invention detects the occurrence of an abnormality in the transducer 200 itself, and when an abnormality is detected, the sensed value of the turbidity sensor 100, rather than the turbidity value of the transducer 200, is transmitted to the management server 500, It is possible to improve stability and reliability in turbidity value display.

If the turbidity value of the specific channel of the transducer 200 is abnormal, the turbidity value of the turbidity sensor 100 of the corresponding channel is transmitted to the communication device 400, and the other normal channel is the turbidity value of the transducer 200 To the communication device unit (400).

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention will be.

100: turbidity sensor 110: sensing part
111: LED light source 112: light receiving sensor
120: Amplification unit 130:
200: converter 210: multi-channel connector part
220: memory unit 230: turbidity value conversion unit
240: display unit 250:
260: alarm generating unit 300: switching switching unit
400: communication device unit 500: management server

Claims (8)

A sensing unit for sensing turbidity including an LED light source and a light receiving sensor, an amplifying unit for amplifying the sensing result of the sensing unit, and a converting unit for converting the sensing result amplified by the amplifying unit into a digital signal, A plurality of turbidity sensors for converting detection results into digital signals and transmitting the digital signals; And
A connector for receiving a detection result of the plurality of turbidity sensors; a memory unit for buffering detection results received through the multi-channel connector unit; and a controller for converting the detection result stored in the memory unit into a turbidity value A turbidity value converter for comparing the output turbidity value of the turbidity value converter with a predetermined turbidity value range and outputting an alarm indicating the failure of the turbidity value converter if the turbidity value is not a normal turbidity value; And an alarm generating unit for generating an alarm signal. delete The method according to claim 1,
The converter comprising:
And a communication unit for transmitting the turbidity value converted by the turbidity value conversion unit to the outside. delete delete delete The multi-channel turbidity meter of claim 1;
And a switching switching unit for selecting and outputting an output signal of the converter of the multichannel turbidity meter and selecting and outputting an output signal of the turbidity sensors when an alarm is generated by the alarm generating unit of the multichannel turbidity meter;
A communication device for transmitting the output signal of the selected transducer or the output signal of the turbidity sensors through the switching switching unit; And
And a management server that stores and manages the output signal of the transducer or the output signal of the turbidity sensors transmitted through the communication unit.

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