KR20090100053A - On-line suspended solids quality meter - Google Patents

Abstract

PURPOSE: An online suspended material measurer capable of measuring suspended material is provided to install and disjoint a sensor by adopting a combining method of the sensor for measurement in a simple structure. CONSTITUTION: A feature of an online suspended material measurement apparatus is as follows. A transmission unit transmits the measured value to the controller in which the measured value of the combined supporting unit is formed. A cell block unit(4) connected to the supporting unit is formed. The sensor unit in which it measures the suspended material of the sample size is formed inside the space of the cell block section with the flow in. The sensor unit includes a cleaning unit of a wiper form for removing the foreign material.

Description

Online suspended solids quality meter

The present invention relates to an on-line suspended solids measuring device, in particular the miniaturization of the total volume And it is easy to install and replace the sensor, and the measurement is made in the flow state of the sample water is related to the on-line suspended solids measuring device which can accurately obtain the measured value by suppressing the generation of bubbles.

In general, suspended solids (지표 游 物質, suspended solids) refers to the indicator indicating the water quality of water contaminated with a substance that the particle diameter is less than 2mm insoluble in water, and is also known as suspended solids (懸 濁 固形物).

In addition, in the municipal wastewater wastewater, organic and inorganic solids are suspended in natural water such as rivers, lakes, and seas when they are suspended, which increases the turbidity of the water and deteriorates the appearance. It contaminates natural water quality, such as reducing dissolved oxygen.

When the suspended solids are classified into two categories, first, MLSS (Mixed Liquid Supended Solids) refers to the microorganisms in the aeration tank, which abbreviate the suspended solids in the activated sludge or the aeration tank mixture, and is used as an indicator of the amount of activated sludge. , An important factor in wastewater treatment facilities.

In addition, MLSS is an index indicating the amount of microorganism or the amount of sludge having biological activity in the aeration tank of the activated sludge method. The unit is expressed in ppm or mg / l. MLSS, in which inorganic suspended solids or mixed organic suspended solids are suspended, is not strictly an indication of the amount of life in the aeration tank. However, since the measurement is simple and the approximate value of the biomass is known, it is a necessary indicator for the sludge management of the active sludge method. In addition, MLVSS (Miguor Volatile Suspended Solids) is sometimes used as an indicator of the amount of biomass present in the aeration tank.

In addition, MLSS is the suspended solids concentration in the aeration tank in the active sludge treatment process, mainly active sludge (mixed sludge of the active sludge from the aeration tank and return sludge from the settling basin), and in the case of the standard activated sludge method, the MLSS is 1,400 to 2,000 ppm. It is driving.

Secondly, SS (Suspended Solids) refers to solid materials containing organic matter and organic matter suspended in water without dissolving in water with particle size less than 2mm. Refers to suspended solids. Namely, it is called Suspended Solids or Suspended Substance and it is expressed as mg / L as an indicator.

In brief, the difference between MLSS and SS is that MLSS is used as an indicator for displaying the amount of microorganism or biological activity in the aeration tank, and is a necessary indicator for sludge management, while SS is used as an indicator of suspending material.

In the conventional suspended solids measurement method, the sample is filtered in a field online form, the solids are collected and dried, and the solids concentration is determined by the difference in weight before and after, and measured by the basic method expressed in mg / L or ppm. It is becoming.

Such a measuring device has a problem that its own volume is large and complicated, and there is a cumbersome problem of replacing only the measuring device having a function to measure MLSS and SS, respectively, and a light emitting sensor and a light receiving sensor are combined for measurement. Since the cell block is integrally formed, it is difficult to replace or repair due to failure or damage, and there is a problem in that the replacement cost is increased.

In addition, the other method of measuring suspended solids is a portable probe method, and the components are integrally formed so that repair is not possible due to a failure, and it is convenient to measure MLSS and SS at the same time. On the other hand, a problem that needs to be fixed by using a separate instrument for measurement occurred.

In order to solve the problems as described above, the present applicant has proposed the on-line suspended solids concentration sensor device Patent Registration No. 10-543175.

A typical example of such a conventional on-line suspended solids concentration sensor device is shown in Figures 1a and 1b.

As shown in the drawing, in the conventional online suspended solids concentration sensor device, a support part 3 to which a transmitting part 2 for transmitting a measured value is coupled to a controller 1 displaying a measured value is formed, and the support part 3 is supported. The cell block portion 4 is formed to be coupled to the sensor block, and when the sample water flows into and flows into the inner space of the cell block portion 4, the sensor unit 5 for measuring the suspended solids in the sample water by emitting infrared light is received The floating material measuring device 7 is formed of a wiper-type cleaning part 6 for removing the foreign matter deposited on the sensor part 5.

As described above, the conventional on-line suspended solids concentration sensor device is largely divided into three types: the deposition type for depositing the cell block portion 4 on the sample to be measured, the flow type for measuring the sample flowing along the pipe, and the insertion type. Can be classified.

At this time, the sample number having a flow or the stored sample number flows into the measurement space 4a so that the measurer installs the cell block portion 4 to prevent bubbles from remaining inside the measurement space 4a. .

First, the light emitting sensor 5a and the light receiving sensor 5b for measuring activated sludge and microorganisms (MLSS) using the cell block unit 4 are installed to face each other, and the method of measuring the suspended solids (SS) is a light emitting sensor. The light receiving sensor 5b is installed to be in contact with an angle of 45 ° based on (5a), and the turbidity measurement method is installed so that the light receiving sensor 5b is in contact with an angle of 90 ° based on the light emitting sensor 5a. Can be.

As described above, active sludge and microorganism measurement, suspended solids measurement, turbidity measurement to measure the amount of foreign matter is made of the same principle, if the function button is selected according to the suspended solids to be measured in the controller (1) the light emitting sensor (5a) Infrared rays are irradiated to the sample water, and then activated sludge and microorganisms contained in the sample water, suspended solids measurement, and foreign material are irradiated and scattered.The active sludge and microorganisms are measured by the light receiving sensor 5b except scattered infrared rays. To determine the amount of infrared light received by the measurement, suspended solids measurement and turbidity measurement is to measure the amount of light received by receiving the scattered infrared light with the light receiving sensor (5b).

In this way, the measured value is displayed through the controller 10.

Meanwhile, as another conventional technology, the applicant has proposed the on-line suspended substance measuring device as patent application No. 10-2007-96724.

A typical example of such a conventional on-line suspended solids concentration sensor device is shown in FIG.

The suspended solids measuring device 8 has a light emitting sensor 9a for emitting infrared rays to both sides of the cell block part 9 and a light receiving sensor 9b for receiving the emitted infrared rays facing each other with the measurement space 9c interposed therebetween. In order to prevent bubbles from remaining, the measurement space 9c serves to induce the inflow of the sample water by cutting open both sides of the measurement space 9c, but depositing the sample water flowing at a high flow rate. When the flow direction of the inlet of the measuring space 9c and the sample water do not coincide with each other, bubbles are generated due to the vortex, thereby changing the measured value.

However, the conventional on-line suspended solids concentration sensor device as described above has a problem that the volume of the cell block portion is inconvenient to move for measurement and the weight is heavy and the support portion and the detached portion are broken.

In addition, the conventional on-line suspended solids concentration sensor device as described above is installed in the sensor unit inside the failure, breakage, endurance is complete when replacing the replacement process and assembly process is complicated, repair, replacement time is delayed Only a skilled person can handle the problem, there was a problem that can not be properly handled in an emergency.

In addition, the conventional online suspended solids concentration sensor device as described above is the wiper blade of the cleaning unit for cleaning the foreign matter deposited on the surface of the light emitting sensor and the light receiving sensor is exposed to the outside to measure the number of samples in the flowing state. When the collision with the foreign matter contained in the sample water was a problem that the wiper is broken.

In addition, the conventional on-line suspended solids concentration sensor device as described above is not cleaned properly when washed with a damaged wiper by colliding with a foreign material, the cleaning efficiency is reduced, infrared irradiation from the light emitting sensor and the light receiving sensor or There was a problem that light reception is not smooth.

In addition, the conventional on-line suspended solids concentration sensor device as described above has a problem that the foreign matter removed in the cleaning unit for cleaning the foreign matter deposited on the light emitting sensor and the light receiving sensor is likely to be re-deposited and contaminated. When the cleaning was continuously performed using the cleaned cleaning unit, there was a problem in that a scratch phenomenon appeared on the surface of the light emitting sensor or the light receiving sensor.

Due to this, the volume of the cell block portion for measurement is made small for easy handling, and the weight is reduced, the measurement is possible without disturbing the flow phenomenon of the sample water, and the simple coupling is easy to replace and repair the sensor portion. Adopting a structure, and by providing a separate cleaning means to protect the cleaning unit from the foreign matter and at the same time to prevent the re-deposition phenomenon of the foreign matter improved suspended solids measuring device so that the cleaning efficiency is not reduced It is true.

Accordingly, the present invention has been made in view of the above-described problems of the prior art, and an object thereof is to provide an on-line suspended solids measuring device capable of measuring suspended solids without disturbing the flow of sample water.

Another object of the present invention is to facilitate the installation and disassembly by adopting a simple coupling structure of the sensor for measurement.

Another object of the present invention is to protect the cleaning unit for cleaning the sensor so as not to be damaged by colliding with foreign matter present in the sample water.

Another object of the present invention is to prevent the foreign matter present in the sample water is deposited on the cleaning portion to reduce the cleaning efficiency.

In order to achieve the above object, the present invention provides a support portion coupled to the transmitter for transmitting the measurement value to the controller for displaying the measurement value is formed, the cell block portion is fastened to the support portion, the sample water flows into the inner space of the cell block portion And a sensor unit configured to measure the suspended substances in the sample water by emitting infrared light after being emitted, and a wiper type cleaning unit configured to remove foreign substances deposited on the sensor unit.

The cell block portion is provided with a flat surface to allow the sample water to flow therethrough;

The sensor portion is formed to be exposed to contact the sample water on the mounting surface of the cell block portion;

Characterized in that it further comprises a protective block for protecting the cleaning unit.

In a preferred embodiment of the present invention, the sensor unit and the sensor housing which is inserted and coupled to the light emitting sensor or the light receiving sensor, respectively,

Characterized in that it comprises a coupling means for coupling the sensor housing to the cell block portion.

In a preferred embodiment of the present invention, the coupling means is made of a bolt fastening method using a bolt,

The coupling means is characterized in that the magnetic plate is attached to the sensor housing is configured to be coupled to the cell block using a magnetic force.

As a preferred embodiment of the present invention, the protective block is characterized in that it further comprises an auxiliary cleaning means for cleaning the cleaning portion on both sides formed with an arc-shaped guide surface to guide the cleaning portion.

According to a preferred embodiment of the present invention, the auxiliary cleaning means provides an on-line suspended solids measurement device comprising a subsidiary tub cleaning wiper in the form of a brush, and a jet cleaner for spraying high pressure water or compressed air.

As described above, the present invention has an effect of providing an on-line suspended solids measuring device capable of measuring the concentration of suspended solids without disturbing the flow of sample water.

In addition, there is an effect to facilitate the installation and disassembly by adopting a simple coupling structure of the sensor for the measurement.

In addition, there is an effect to protect the cleaning unit for cleaning the sensor so as not to be damaged by foreign matter and the like present in the sample water.

In addition, there is an effect that the foreign matter present in the sample water is deposited on the cleaning portion so that the cleaning efficiency is not reduced.

The preferred embodiment of the present invention as described above will be described in detail based on the accompanying drawings.

As shown in Figures 3 to 5, the online suspended solids measuring device of the present invention is formed with a support unit 30 is coupled to the transmitter 20 for transmitting the measured value to the controller 10 for displaying the measured value, the support unit The cell block portion 40 is formed to be coupled to the sensor 30, and the sensor unit for measuring the suspended substances in the sample water by receiving the infrared light emitted when the sample water flows into and flows into the inner space of the cell block portion 40 ( 50 is formed, the suspended matter measuring unit 100 is composed of a wiper-type cleaning unit 60 for removing the foreign matter deposited on the sensor unit 50.

The lower part of the controller 10 is formed with a hole (not shown in the drawing) is inserted into the wire cable for using the wired method, the PCB is installed inside the receiving function is configured to use the wireless method, the outside It consists of a receiving antenna for receiving a frequency and receives a measurement value from the transmitter 20.

And, the controller 10 is coupled to the bracket (not shown in the figure) for installation in the rear, and can be fixed by hanging the bracket on the wall or pipe fixed to the ground, the controller 10 is located to fix to the wall It is configured to be fixed by bolts behind the wall.

The transmitter 20 transmits an electrical signal to the controller 10 in a wireless manner, and the PCB substrate 22 having a transmission function is inserted into and fixed to the inside of the rectangular upper case 21, and the PCB substrate 22 is inserted below. The antenna 23 is connected to the formed, the opposite side formed with the antenna 23 is composed of a lower case 24 coupled to the support 30.

In addition, the transmitter 20 may be used as a handle by the measurer for the movement of the suspended solids measuring device 100, the whole is made of a plastic material.

The support part 30 is inserted into the lower case 24 of the transmitter 20, the upper part is spirally fastened, coupled to the fixing plate 200 is installed for fixing, the upper part is formed with spirals on the inner, outer peripheral surface, the lower Is the same cylindrical structure with a spiral formed on the inner circumferential surface, and a support holder 31 composed of a large diameter cylinder is formed at the center thereof, and is inserted into the lower portion of the support holder 31 to be screwed into a screw. Is composed of a support pipe 32 which may be made of a strong plastic material.

The cell block portion 40 is formed in the installation surface 41 is flat so that the sample water flows through the inlet after flowing, it is possible to install for measurement in the deposition type, flow type, insert type, the overall shape is Mounting surface on which the sensor unit 50 is coupled to the upper cell block 42 formed with a coupling end (42a) for coupling to secure the watertightness by screwing to the support pipe 32 of the support portion 30 in a cylindrical shape ( The lower cell block 43 in which the 41 is formed is fastened.

At this time, the installation surface 41 is formed to be flat when projecting from the side is possible to pass the sample water flowing through the installation surface 41 to minimize the resistance of the flow and is configured so as not to disturb the flow of the sample water. .

Here, the PCC board and the inside of the upper cell block 42 and the lower cell block 43 are connected to the transmitting unit 20 and at the same time receive the value measured by the sensor unit 50 to transmit to the transmitting unit 20 and The motor 62 for operating the washing | cleaning part 60 is provided.

The sensor unit 50 is formed in an exposed type to contact the sample water on the mounting surface 41 of the cell block unit 40, the sensor housing is coupled to the light emitting sensor 51 or the light receiving sensor 52, respectively ( 53 and coupling means 54 and 55 for coupling the sensor housing 53 to the cell block portion 40.

Here, the parallel light lenses 51a and 52a which are in contact with the sample water on the front surface of the light emitting sensor 51 or the light receiving sensor 52 are respectively coupled to the sensor housing 53.

As shown in Figure 6a and 6b, the coupling means 54 is made of a bolt 54a fastening method using a bolt, the coupling means 55 is a magnetic plate (55a) in the sensor housing 53 It is attached to the cell block unit 40 is configured to be coupled using a magnetic force.

As shown in FIG. 7 and FIG. 8, the sensor unit 50 has a bolt (e.g., a light emitting sensor 51 and a light receiving sensor 52 respectively coupled to the inside of the sensor housing 53 to use a coupling means 54). 54a) penetrates through the sensor housing 53 and is coupled to the lower cell block 43 of the cell block portion 50, and in the case of using the coupling means 55, a magnetic force having a strong magnetic force at the end of the sensor housing 53. After attaching the plate (55a) is attached to the lower cell block portion 43 by an adhesive method to complete the coupling.

In addition, the light emitting sensor 51 and the light receiving sensor 52 are installed to face each other to independently measure suspended substances such as activated sludge and microorganisms (MLSS) contained in the sample water, and the light receiving sensor 51 with respect to the light emitting sensor 51. If the 52 is installed to contact at 45 ° suspended matter such as suspended solids (SS) is measured, and when the light receiving sensor 52 is installed in contact with the light emitting sensor 51 to measure the turbidity.

It is configured to further include a protective block 70 that can protect the cleaning unit 60.

The protection block 70 further includes auxiliary cleaning means 72 for cleaning the cleaning unit 60 on both sides of the arc-shaped guide surface 71 for guiding the cleaning unit 60. .

Here, the cleaning unit 60 is a sensor surface of the light emitting sensor 51 or the light receiving sensor 52 at the end of the support 71 connected to the motor shaft 62a in a manner that is rotated by receiving the driving force of the motor 62. A wiper 61a made of soft rubber for contacting and removing foreign matter is combined.

In addition, the guide surface 71 is formed of an arc corresponding to a rotation radius rotated when the cleaning unit 60 rotates by the driving force of the motor 62, and when the cleaning unit 60 stops operation after the wiper ( 61a) is positioned at the center of the guide surface 71 to stop the out of the measurement range in the light emitting sensor 51 and the light receiving sensor 52, so that a collision does not occur when foreign matters contained in the sample water flows Prevent breakage.

The auxiliary cleaning means 72 is composed of a brush-type auxiliary cleaning wiper 72a, and a jet cleaner 72b for spraying high-pressure water or compressed air.

That is, the auxiliary cleaning means 72 is attached to the surface of the wiper (61a) when a long period of deposition or long period of use in the sample water in the state stopped in the center of the guide surface 71 of the cleaning unit 60 It is configured in consideration of the possible phenomenon, when the cleaning unit 60 is operated in a stopped state, the high-pressure water sprayed from the spray cleaner 72b while being in contact with the auxiliary cleaning brush 72a of the auxiliary cleaning means 72 Compressed air is configured to increase the removal efficiency by the injection force.

Here, the auxiliary cleaning brush (72a) is made of a brush material made of a soft material that does not cause scratches on the wiper (61a) of the cleaning unit 60 is produced by mixing a short brush and a long brush and foreign matter removal efficiency It will be further increased, the jet cleaner 72b is configured to be supplied with high pressure water or compressed air using a supply means that can be installed externally.

Referring to the operation of the present invention configured as described above are as follows.

As shown in Figure 9 and 10, the method that can be measured by using the suspended solids measuring device 100 is a deposition method for depositing the cell block portion 40 to the sample to be measured, the sample flowing along the pipe There are three major types of distribution type and insertion type.

As shown in FIG. 11A, the method of measuring the activated sludge and the microorganism (MLSS) using the cell block unit 40 selects a measurement function from the controller 10 and emits light 51 from the sensor unit 50. ), 870nm or prescribed infrared wavelength is irradiated horizontally with infrared rays of parallel light method.

Subsequently, the infrared wavelength irradiated through the light emitting sensor 51 receives only the infrared wavelength irradiated horizontally except the scattered light scattered in different directions by hitting the activated sludge and microorganism (MLSS) contained in the sample. The amount of infrared wavelength irradiated from the first light emitting sensor 51 and the amount of decrease of the infrared wavelength passing through the sample water containing the activated sludge and microorganism (MLSS) were determined to determine the measured value of the activated sludge and microorganism (MLSS). It is displayed through the controller 10.

As shown in FIG. 11B, the method of measuring the suspended solids (SS) using the cell block unit 40 selects a measurement function in the controller 10 and uses the light emitting sensor 51 of the sensor unit 50. Through the 870nm or prescribed infrared wavelengths, parallel infrared rays are irradiated horizontally.

Thereafter, the 870 nm or the prescribed infrared wavelength irradiated through the light emitting sensor 51 strikes the suspended solids (SS) contained in the sample water and the scattered light scattered at an angle of 45 ° contacts the light emitting sensor 51 at 45 °. The light receiving sensor 52 is irradiated to measure the amount of infrared wavelengths scattered at 45 ° to display the measured value of the suspended solids (MLSS) through the controller 10.

In addition, the cell block portion 40 may be inserted into the T-type pipe to measure the number of samples flowing along the pipe.

As shown in FIG. 11C, a method of measuring turbidity using the cell block unit 40 selects a measurement function in the controller 10 and defines 870 nm or prescribed through the light emitting sensor 51 of the sensor unit 50. Infrared wavelength of the parallel infrared ray is irradiated horizontally.

Thereafter, the 870 nm or the prescribed infrared wavelength irradiated through the light emitting sensor 51 hits the suspended solids (SS) contained in the sample water and the scattered light scattered at an angle of 90 ° receives light received at 90 ° from the light emitting sensor 51. The sensor 52 is irradiated to measure the amount of infrared wavelengths scattered at 45 ° to display the measured value of turbidity through the controller 10.

When the measurement of the number of samples is completed, foreign matters having strong adsorptive properties or foreign matters having oil properties, etc., contained in the sample water are deposited on the surface of the light emitting sensor 51 or the light receiving sensor 52 to affect the amount of emitted light and the amount of received light. Get mad.

At this time, the surface of the light emitting sensor 51 or the light receiving sensor 52 is cleaned by using the cleaning unit 60. Looking at the operation process, the auxiliary cleaning means 72 is operated to operate the high pressure water in the spray cleaner 72b. Alternatively, after the compressed air is injected, the motor 62 is driven.

As such, when the motor 62 is driven, the wiper 61a is rotated together with the support 61 to remove the foreign matter deposited on the surfaces of the wiper 61a, the light emitting sensor 51 and the light receiving sensor 52. do.

However, the foreign matter deposited on the surfaces of the light emitting sensor 51 and the light receiving sensor 52 is removed by the wiper 61a, and the removed foreign matter may be re-deposited on the surface of the wiper 61a and thus cleaned in this state. If the operation continues to increase the possibility of re-contaminating the light emitting sensor 51 and the light receiving sensor 52 is removed by using the auxiliary cleaning means (72).

That is, when the foreign matter deposited on the surfaces of the light emitting sensor 51 and the light receiving sensor 52 is stopped to the center of the protective block 70, the wiper 61a contacts the auxiliary cleaning brush 72a to remove the foreign matter. At the same time, it is possible to prevent re-invasion of the wiper 61a or the auxiliary cleaning brush 72a by the high pressure water or compressed air injected from the spray cleaner 72b.

As a result, the sample water for measurement does not flow into the space for measurement and flows between the sensor units 50 without interrupting the course, so that the measurement is performed in a state where bubbles are not generated or maintained in the measurement space. There is an advantage that can accurately grasp the content.

In addition, the sensor unit 50 is easy to combine and disassemble, and there is a simple management and replacement.

In addition, the auxiliary cleaning means (72) capable of cleaning the light emitting sensor (51) and the light receiving sensor (52) to clean itself is provided to prevent re-deposition and increase the cleaning efficiency.

In addition, the overall volume of the cell block portion 40 is reduced, there is an advantage of reducing the manufacturing cost and easy handling.

In the above, the present invention has been illustrated and described with reference to specific preferred embodiments, but the present invention is not limited to the above-described embodiments and is not limited to the spirit of the present invention. Various changes and modifications can be made by those who have

Figure 1a and 1b is an exploded perspective view and a longitudinal cross-sectional view showing a conventional suspended matter measuring apparatus,

Figure 2 is a longitudinal sectional view showing a cell block portion showing another conventional suspended matter measuring apparatus;

3 is an exploded perspective view of a suspended solids measuring device according to the present invention;

4 is a perspective view of the combination of FIG.

5 is a longitudinal sectional view of FIG. 4;

6A and 6B are exploded perspective views illustrating coupling means for coupling a sensor unit to a cell block unit;

7 is a perspective view of the cell block projected from the bottom state in a different direction;

8 is a bottom view of a cell block unit in which a sensor unit and a protective block are coupled;

9 is a state diagram used to measure the measurement using the deposition method,

10 is a use state diagram showing measurement execution using the flow-type method and the insert-type method,

11A to 11C are conceptual diagrams of activated sludge and microbial measurement, suspended solids measurement, and turbidity measurement.

<Description of Symbols for Main Parts of Drawings>

10 controller 20 transmitter

21: upper case 22: PCB substrate

23: antenna 24: lower case

30: support portion 31: support holder

32: support pipe 40: cell block portion

41: mounting surface 42: upper cell block

42a: coupling end 43: lower cell block

50: sensor 51: light emitting sensor

51a: parallel light lens 52: light receiving sensor

52a: parallel light lens 53: sensor housing

54, 55 coupling means 54a bolt

55a: magnetic plate 60: cleaning part

61: support 61a: wiper

62: motor 62a: motor shaft

70: protective block 71: guide surface

72: auxiliary cleaning means 72a: auxiliary cleaning brush

72b: spray cleaner 100: suspended matter measuring instrument

Claims (5)

In the controller 10 displaying the measured value, a support part 30 to which the transmitter 20 transmitting the measured value is coupled is formed, and a cell block part 40 fastened to the support part 30 is formed, and the cell block part is formed. When the sample water is introduced into and flows into the inner space of the 40, the sensor unit 50 for measuring the suspended substances in the sample water is formed by emitting infrared light, and then, to remove the foreign matter deposited on the sensor unit 50. In the on-line suspended matter measuring device consisting of a wiper cleaning unit 60, The cell block portion 40 is formed with an installation surface 41 is flat so that the sample water can flow through; The sensor unit 50 is formed in an exposed type to contact the sample water on the installation surface 41 of the cell block portion 40; On-line floating material measuring unit, characterized in that the protective block 70 is further included to protect the cleaning unit (60). The sensor unit 50 of claim 1, wherein the sensor unit 50 includes a sensor housing 53 into which a light emitting sensor 51 or a light receiving sensor 52 is inserted and coupled, respectively. Online suspended solids measuring device, characterized in that the sensor housing 53 is composed of a coupling means (54, 55) for coupling to the cell block portion (40). The method of claim 2, wherein the coupling means 54 is made of a bolt 54a fastening method using a bolt, The coupling means (55) is attached to the magnetic housing (55a) on the sensor housing (53), characterized in that the on-line suspended solids measuring unit is configured to be coupled to the cell block unit 40 by using magnetic force. The method of claim 1, wherein the protective block 70 further includes an auxiliary cleaning means 72 for cleaning the cleaning unit 60 to both sides formed with an arc-shaped guide surface 71 for guiding the cleaning unit 60. On-line suspended solids measuring device characterized in that the configuration. 5. The on-line suspended solids measuring device according to claim 4, wherein the auxiliary cleaning means (72) comprises an auxiliary bath cleaning wiper (72a) in the form of a brush, and a jet cleaner (72b) for injecting high-pressure water or compressed air.

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