JP2012168198A - Floating solid concentration meter and floating solid concentration measuring system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve a measurement precision and a mechanical strength of a floating solid concentration meter.SOLUTION: A floating solid concentration meter 1 includes a detection unit 10 and a cleaner 11. The detection unit 10 comprises, on an outer side surface, a light-emitting window 15 and a light-receiving window 16. The cleaner 11 is capable of accommodating the detection unit 10 therein. The cleaner 11 comprises a cleaning tank 28 filled with cleaning fluids 27 for cleaning the light-emitting window 15 and the light-receiving window 16. The detection unit 10 operates to expose the light-emitting window 15 and the light-receiving window 16 from the cleaner 11 in measuring a floating solid concentration and, on the other hand, operates to accommodate the light-emitting window 15 and the light-receiving window 16 within the cleaning tank 28 during a measurement standby state.

Description

  This invention is a floating solids concentration meter that automatically measures the concentration of sewage in sewer pipes, especially storm sewers. Regarding technology.

  In large cities where sewerage has been popular for a long time, there are many sewerage systems that use a combined drainage system that removes rainwater and sewage with the same pipe. In the merge type, if there is a lot of rainfall in the treatment area, a part of the sewage (mixed water of rainwater and sewage) is discharged into the river without being treated in order to prevent inundation of the city. This is referred to as “rainwater discharge in the combined sewer”.

  FIG. 9 is a conceptual diagram of the rainwater discharge chamber 9 based on the rainwater discharge of the combined sewer. The rainwater discharge chamber 9 is isolated from the outside through a manhole cover 90. When the weather is fine, the water level is near the bottom of the sewer basin 91, and when it rains heavily, the water level exceeds the overflow weir 92. Sewage containing a large amount of rainwater that overflows from the overflow weir 92 is discharged from the discharge pipe rod 93 into the river. In order to monitor the quality of the sewage that overflows, an immersion-type suspended solids concentration meter is installed in the vicinity of the overflow weir 92 in the sewage pipe 91.

  The sewage containing sewage contains various contaminants. When the turbidimeter detector is installed in the sewage pipe basin 91, fibrous contaminants become entangled, hindering measurement and The installation itself is likely to hinder the flow of pipes. In addition, from the viewpoint of measuring the pollutant concentration, it is important to know the pollutant concentration of the overflowed sewage, which is related to the water quality of the river, and since the sewage in fine weather is sent to the sewage treatment plant, it is required to measure the pollutant concentration. Is low.

  Therefore, the suspended solids concentration meter exemplified in Patent Document 1 includes a brush for cleaning the detection unit, periodically operates the brush to polish the surface to be cleaned of the detection unit, and maintains the measurement of the contamination concentration. I am trying.

Japanese Utility Model Publication No. 4-18718 (pages 2 and 3)

  However, the suspended solids concentration meter provided with the cleaning mechanism as in Patent Document 1 is not suitable for measuring the pollutant concentration at the rainwater outlet with a structure in which fibrous impurities are entangled.

  Further, the insertion of the detection unit of the floating solid concentration meter into the sewage pipe 91 itself obstructs the flow of sewage, and conversely, the large water pressure applied to the detection unit of the floating solid concentration meter, particularly at the time of overflow. The destructive force acting on the detection unit or the indicating structure of the detection unit due to a large water pressure is not taken into consideration, and it is not suitable for measuring the pollutant concentration in the rainwater discharge chamber 9. Further, the conventional detector cleaning structure is a cantilever structure, and its mechanical strength is weak, and it is not suitable for measuring the pollutant concentration in the rainwater discharge chamber 9.

  A floating solids concentration meter for solving the above problems includes a detection unit having a light emission window and a light reception window on an outer surface, and a cleaning device capable of storing the detection unit, and the cleaning device includes the light emission window and the light emission window. A cleaning tank filled with a cleaning liquid for cleaning the light receiving window is provided, and the detection unit operates so that the light emitting window and the light receiving window are exposed from the cleaner when measuring the concentration of suspended solids, while waiting for measurement. Occasionally, the light emitting window and the light receiving window operate so as to be accommodated in the cleaning tank.

  In addition, a suspended solids concentration measuring system for solving the above problems includes a suspended solids concentration meter that measures the concentration of a liquid to be measured flowing in a sewer pipe, and a water level that monitors the water level in the sewer pipe. The suspended solids concentration meter includes a detection unit having a light emission window and a light reception window on an outer surface, and a cleaning device capable of storing the detection unit, and the cleaning device includes the light emission window and the light reception unit. A cleaning tank filled with a cleaning liquid for cleaning the window is provided, and when the measured water level of the water level meter exceeds a reference value, the detector operates and floats so that the light emitting window and the light receiving window are exposed from the cleaner. On the other hand, when the measurement water level becomes less than the reference value, the detection unit operates so that the light emission window and the light reception window are accommodated in the cleaning tank, and shifts to the measurement standby process.

  According to the above-mentioned suspended solid concentration meter and suspended solid concentration measuring system, the light emission window and the light receiving window are accommodated in the cleaning device by the operation of the detector during measurement standby. Contamination of contained impurities is eliminated and stable suspended solids concentration can be measured. Further, the strength of the cleaning mechanism of the detector is maintained because it has a symmetrical structure with the axis of the detector as the center point.

  A float may be provided on the outer periphery of the washing device of the suspended solids concentration meter. Since buoyancy is applied to the detection unit, the portion in contact with the liquid to be measured can be minimized, and the impact on the detection unit due to the water pressure due to the flow rate of the liquid to be measured and the collision of impurities can be reduced.

  When the float is provided, a weight for adjusting the buoyancy of the float may be provided. The outer shape of the float can be miniaturized and can be installed in a narrow tube.

  The cleaning tank may be provided with a brush for polishing the side surface of the detector. The cleaning effect of the light emitting window and the light receiving window is increased, and the suspended solid concentration can be measured with high accuracy.

  Furthermore, the floating solids concentration meter may be provided with a cleaning liquid replenishing cylinder for injecting a cleaning liquid into the cleaning tank. A cleaning liquid is secured, and it is possible to cope with a leakage of the cleaning liquid from between the detection unit and the cleaning device.

  In the suspended solids concentration measurement system, the liquid to be measured for measurement of the suspended solids concentration by the suspended solids concentration meter is introduced from the vicinity of the bottom of the sewer pipe and then overflowed into the discharge pipe. It is good to have a measuring tank to be discharged. It is effective in small facilities where it is difficult to install suspended solids concentration meters in sewer pipes. In addition, it is possible to avoid collision of pressure and large contaminants due to the flow rate of the sewage flowing through the sewage pipe.

  Therefore, according to the above invention, the measurement accuracy and mechanical strength of the suspended solids concentration meter are increased.

(A) The schematic sectional drawing which showed the washing | cleaning mechanism of the detection part of the floating solid concentration meter which concerns on 1st embodiment of invention, (b) The top view of a support plate. The external view which showed the washing | cleaning mechanism of the detection part of the floating solid concentration meter which concerns on 2nd embodiment of invention. The schematic sectional drawing which showed the washing | cleaning mechanism of the detection part of the floating solid concentration meter which concerns on 3rd embodiment of invention. The external view of the floating solid concentration meter which concerns on 4th embodiment of invention. The external view of the floating solid concentration meter which concerns on 5th embodiment of invention. The external view of the floating solid concentration meter which concerns on 6th embodiment of invention. The schematic block diagram of the floating solid concentration measuring system which concerns on 7th embodiment of invention. The schematic block diagram of the floating solid concentration measuring system which concerns on 8th embodiment of invention. The schematic block diagram of a rainwater spout chamber.

  FIG. 1A is a schematic cross-sectional view showing a cleaning mechanism of a detection unit of the suspended solids concentration meter 1 according to the first embodiment of the invention, and FIG. 1B is a plan view of a support plate.

  The suspended solids concentration meter 1 is an apparatus for measuring the suspended solids concentration of sewage flowing through a sewage pipe tub. The suspended solids concentration meter 1 includes a detection unit 10 and a cleaning device 11. The detection unit 10 is formed in a substantially cylindrical shape. The cleaning device 11 is formed in a substantially cylindrical shape, and is provided on the outer periphery of the detection unit 10 concentrically with the detection unit 10.

  The detection unit 10 includes a detection main unit 12 and a drive unit 13. The detection main part 12 is formed in a cylindrical shape, and a light emitting window 15 and a light receiving window 16 which are components of the optical measurement system 14 are provided on the side surface near the lower end. The detection main portion 12 includes at least a light emitting element 151 and a detection element 161. Light emitted from the light emitting element 151 is applied to an external liquid phase through the light emitting window 15. The detection element 161 detects light scattered in the liquid phase from the light receiving window 16. The drive unit 13 is installed at the upper end of the detection main unit 12. The drive unit 13 includes a motor 17, a rotary shaft 18, a support plate 19, and a cylinder unit 20. The motor 17 is fixed to the upper end portion of the detection main portion 12. The rotating shaft 18 is connected to the motor 17 so as to be concentric with the detection main portion 12. A male screw portion is formed on the side surface of the rotating shaft 18. The male screw portion is in a screwed relationship with the female screw portion of the screw hole 21 formed at the center of the support plate 19. The support plate 19 is fixed to a plurality of columns 22 installed in the cleaning device 11. The support plate 19 is formed with a hole 24 into which the guide rail 23 is loosely fitted. In the support plate 19 illustrated in FIG. 1B, four holes 24 are arranged at equal intervals around the screw hole 21. Needless to say, the number of holes 24 is not limited to this embodiment. The lower end portion of the guide rail 23 is screwed to the upper end of the detection main portion 12, while the upper end portion is screwed to the lower end of the cylindrical portion 20. At the upper end of the cylindrical part 20, a flange 26 to which the pipe part 25 shown in FIG. 4 is connected is provided.

  The cleaning device 11 is formed in a cylindrical shape. The cleaning device 11 has a cleaning tank 28 filled with a cleaning liquid 27 for cleaning the light emitting window 15 and the light receiving window 16 of the detection unit 10. The cleaning tank 28 is provided along the inner surface near the lower end of the cleaning device 11 so that at least the light emitting window 15 and the light receiving window 16 can be accommodated. Sealing members 29 are attached to the top and bottom surfaces of the cleaning tank 28 that are in contact with the detection unit 10. A plurality of seal members 30 for appropriately preventing the liquid to be measured from entering the cleaning device 11 are also appropriately attached.

  An example of operation of the suspended solids concentration meter 1 will be described with reference to FIG. The motor 17 reverses the rotating shaft 18 when measuring the suspended solids concentration. Since the support plate 19 is fixed in the cleaning device 11, the rotating shaft 18 is lowered, whereby the detection main part 12 is also lowered to expose the light emitting window 15 and the light receiving window 16. On the other hand, when waiting for measurement, the motor 17 rotates the rotary shaft 18 in the normal direction. As a result, the rotating shaft 18 rises, so that the light emitting window 15 and the light receiving window 16 are accommodated in the cleaning tank 28.

  FIG. 2 is an external view showing a cleaning mechanism of the detection unit of the suspended solids concentration meter 2 according to the second embodiment of the invention.

  The floating solid concentration meter 2 for measuring the concentration of suspended solids in the sewage flowing through the sewage pipe basin includes a detection unit 31 and a cleaning device 32. The detection unit 31 and the cleaning device 32 are formed in a substantially cylindrical shape. The detector 31 is arranged so as to be accommodated in the cleaning device 32 concentrically with the cleaning device 32.

  The detection unit 31 includes a detection main unit 33 and a drive unit 34. The detection main portion 33 is formed in a cylindrical shape, and a light emitting window 36 and a light receiving window 37 which are components of the optical measurement system 35 are provided on the side surface near the lower end. The detection main part 33 includes at least a light emitting element 361 and a detection element 371. Light emitted from the light emitting element 361 is applied to the external liquid phase through the light emitting window 36. The detection element 371 detects light scattered in the liquid phase from the light receiving window 37. The drive unit 34 is disposed at the upper end of the detection main unit 33. The drive unit 34 includes a motor 38 and a rotating shaft 39. The motor 38 is fixed to the ceiling portion 40 of the cleaning device 32. The rotating shaft 39 is connected to the motor 38 concentrically with the detection main portion 33. A male screw portion is formed on the side surface of the rotation shaft 39. This male screw portion is in a screwed relationship with a female screw portion of a screw hole formed at the center of the upper lid 41 of the detection main portion 33. A plurality of guides 43 guided in the same direction as the cleaning device 32 are connected to the side surface of the detection main portion 33 by a plurality of guide rails 42 installed in the cleaning device 32.

  The cleaning device 32 is formed in a cylindrical shape. The cleaning device 32 has a cleaning tank 45 filled with a cleaning liquid 44 for cleaning the light emitting window 36 and the light receiving window 37 of the detection main portion 33. The cleaning tank 45 is provided along the inner surface near the lower end of the cleaning device 32 so that at least the light emitting window 36 and the light receiving window 37 can be accommodated. Sealing members 46 are attached to the ceiling and bottom surfaces of the cleaning tank 45 that are in contact with the detection unit 31. In addition, a plurality of seal members 47 for appropriately preventing the liquid to be measured from penetrating the inner surface of the cleaning device 32 are appropriately attached.

  An example of the operation of the suspended solids concentration meter 2 will be described with reference to FIG. The motor 38 reverses the rotating shaft 39 when measuring the suspended solid concentration. Since the motor 38 is fixed in the cleaning device 32, the guide 43 of the detector 31 descends the guide rail 42, whereby the light emission window 36 and the light receiving window 37 of the detection unit 31 are exposed from the lower end side of the cleaning device 32. To do. On the other hand, when the motor 38 rotates the rotary shaft 39 in the measurement standby state, the detector 31 rises and the light emission window 36 and the light reception window 37 are accommodated in the cleaning tank 45.

  As described above, according to the suspended solids concentration meters 1 and 2, entanglement of impurities contained in the liquid to be measured in the detection unit as in the prior art is eliminated, and stable suspended solids concentration can be measured. The cleaning mechanism of the detectors 10 and 31 of the suspended solids concentration meters 1 and 2 is not a cantilever structure as in the prior art, but has a symmetrical structure with the axis of the detectors 10 and 31 as the center point. Strength is maintained. In addition, the drive mechanism of the detection units 10 and 31 is not limited to the motor drive, and may be one using any one of a rack and pinion, a crank, an air cylinder, and the like.

  Further, brushes 48 for polishing the sides of the detectors 10 and 31 are provided in the cleaning tanks 28 and 45 of the cleaners 11 and 32 of the suspended solids concentration meter 3 according to the third embodiment illustrated in FIG. Good. The cleaning effect of the light emitting windows 15 and 36 and the light receiving windows 16 and 37 is increased, and the suspended solid concentration can be measured with high accuracy.

  Furthermore, a float 49 may be provided on the outer periphery of the cleaners 11 and 32 as in the suspended solids concentration meter 4 according to the fourth embodiment illustrated in FIG. By providing the detectors 10 and 31 and the washers 11 and 32 with the float 49 corresponding to the mass, the positions of the detectors 10 and 31 as a whole change up and down according to the fluctuation of the water level 50. By providing buoyancy to the detectors 10 and 31 in this way, the portion in contact with the liquid to be measured (sewage flowing through the sewer pipe) can be minimized, and the water pressure and contamination due to the flow rate of the liquid to be measured The impact on the detection units 10 and 31 due to an object collision can be reduced. Thereby, damage to the detection units 10 and 31 and the support structure can be prevented. Furthermore, since the flow of the sewage in the sewer pipe and the overflow of the sewage from the overflow weir of the sewage pipe can be suppressed, the original function of the sewer is not impaired.

  When the float 49 is attached to the cleaning devices 11 and 32, a balance weight may be provided as an aid to buoyancy. In the suspended solids concentration meter 5 according to the fifth embodiment illustrated in FIG. 5, a cylindrical body 51 is connected to the upper ends of the detectors 10 and 31. A string 53 connected to a weight 52 is connected to the cylindrical body 51. The rope 53 is hung on a plurality of pulleys 54. The cylindrical body 51 is loosely fitted to the support pipe 55. The support pipe 55 is attached to the wall surface 57 of the rainwater discharge chamber by a support member 56. By providing the balance weight 52 as described above, the outer shape of the float 49 can be reduced, and installation in a narrow sewer pipe is possible.

  Further, when the cleaning liquid replenishment cylinder 58 is provided as in the suspended solids concentration meter 6 according to the sixth embodiment illustrated in FIG. 6, the cleaning liquid for the detectors 10 and 31 can be secured. It is possible to cope with leakage of the cleaning liquid from the seal member interposed between the cleaning devices 11 and 32.

  FIG. 7 is a schematic configuration diagram of a suspended solids concentration measuring system 7 according to the seventh embodiment of the invention.

  The suspended solid concentration measuring system 7 includes a suspended solid concentration meter 4, a water level meter 61, and a control unit 62 in a rainwater spout chamber 60. The rainwater discharge chamber 60 is isolated from the outside by a manhole cover 63. The suspended solids concentration meter 4 is installed so that the washer 11 (32) is disposed on the sewage pipe 64 side near the overflow weir 67. A water level gauge 61 is also installed on the sewer pipe 64 side. The water level gauge 61 outputs a signal of the measured water level of the sewer pipe 64 to the control unit 62. The water level gauge 61 may be a known water level gauge used in sewerage facilities. The controller 62 controls the operation of the suspended solids concentration meter 4 based on the water level signal supplied from the water level meter 61. For example, when the water level of the sewer pipe 64 reaches the standard, the detection unit of the suspended solids concentration meter 4 is lowered and the process proceeds to the suspended solids concentration measurement process. And if the said water level falls below a reference | standard, a detection part will be accommodated in the washing | cleaning machines 11 and 32, and it transfers to a measurement standby (detection washing process). In addition, it cannot be overemphasized that the floating solid concentration measuring system 7 can apply the floating solid concentration meter 5 (or 6) instead of the floating solid concentration meter 4.

  Further, when the optical fiber connector 65 is connected to the control unit 62 and the control unit 62 converts the measurement signal of the water level, the suspended solid concentration, and the operation state of the suspended solid concentration meter 4 into an optical signal, The optical signal can be transmitted to an external monitoring facility via Alternatively, a wireless communication type remote monitoring device 66 installed on the ground is connected to the control unit 62, and the control unit 62 checks the water level of the sewer pipe 64, the suspended solids concentration, and the operating status of the suspended solids concentration meter 4. If converted into an electrical signal, the electrical signal can be transmitted to an external monitoring facility via a cellular phone line or the like.

  An example of operation of the suspended solids concentration measurement system 7 will be described with reference to FIG.

  Since the water level of the sewer pipe 64 is lower than the reference value (for example, the water level is lower than the position of the upper surface of the overflow weir 67) in fine weather, it is not necessary to measure the concentration of suspended solids. The suspended solids concentration meter 4 is controlled so that the light emission window and the detection window are accommodated in the washers 11 and 32. During the measurement standby, the light emission window and the detection window are stored in the cleaning liquid tanks of the cleaners 11 and 32, so that they are kept clean by the cleaning liquid.

  On the other hand, when the water level of the sewage pipe 64 becomes equal to or higher than a reference value (for example, the water level is equal to or higher than the position of the upper surface of the overflow dam 67) during rainy weather, the control unit 62 lowers the detector to expose the light emitting window and the light receiving window. The suspended solids concentration meter 4 is controlled so that As a result, the concentration of suspended solids in the liquid phase flowing from the overflow weir 67 to the discharge pipe 68 is measured.

  Then, when it rains and the water level of the sewer pipe 64 is less than the reference value, the suspended solids concentration meter 4 causes the light emission window and the light reception window of the detector to be cleaned by the control unit 62 according to the control signal of the controller 11. 32 and return to the state of waiting for measurement.

  The information on the water level of the sewage pipe 64 and the operation state of the suspended solids concentration meter 4 during the fine weather and the rainy weather are converted into an optical signal or an electric signal by the control unit 62 and then externally via an optical fiber, a cellular phone line, or the like. Transmitted to the monitoring facility.

  Therefore, according to the suspended solids concentration measuring system 7, the quality of the sewage discharged to the river is monitored. The monitored data is used as data for the river pollution caused by rainwater discharge and the amount of overflow sewage supplied to the sewage treatment facility and its pollution load, disclosure of the quality of rainwater discharge to the public, and data for rainwater drainage management. it can. Therefore, it can contribute to water quality conservation in public water areas.

  FIG. 8 is a schematic configuration diagram of a suspended solids concentration measuring system 8 according to the eighth embodiment of the invention.

  The floating solid concentration measuring system 8 has the same system configuration as the floating solid concentration measuring system 7 except that the floating solid concentration meter 4 is provided in the measuring tank 69. The measuring tank 69 allows the liquid to be measured flowing in the sewage pipe 64 provided for the measurement of the suspended solids concentration by the suspended solids concentration meter 4 to be discharged overflow after being introduced from the vicinity of the bottom through the pipe 70. . The position of the upper end of the measuring tank 69 is set substantially equal to the position of the upper surface of the overflow weir 67. The control of the suspended solids concentration meter 4 by the control unit 62 based on the water level of the sewer pipe 64 is the same as that of the suspended solids concentration measurement system 7.

  The suspended solid concentration measuring system 8 is effective when the space around the sewage pipe 64 and the upper space are narrow and the suspended solid concentration meter 4 cannot be installed. Moreover, the pressure by the flow velocity of the sewer pipe 64 and the collision of a large trash can be avoided. As a result, physical damage to the detection unit of the suspended solids concentration meter 4 can be prevented and the installation method of the suspended solids concentration meter 4 can be widened.

1, 2, 3, 4, 5, 6 ... suspended solids concentration meter 7, 8 ... suspended solids concentration measurement system 10, 31 ... detection unit 11, 32 ... cleaning device 12, 33 ... detection main unit 13, 34 ... Drive units 14, 35 ... optical measurement system, 15, 36 ... light emission window, 16, 37 ... light receiving window 27, 44 ... cleaning liquid 28, 45 ... cleaning tank 48 ... brush 49 ... float 52 ... weight 58 ... replenishment cylinder 60 ... Rainwater spout chamber, 61 ... Water level gauge, 62 ... Control unit, 63 ... Manhole cover, 64 ... Sewage pipe rod, 65 ... Optical fiber connector, 66 ... Remote monitoring device, 67 ... Overflow weir, 68 ... Discharge pipe rod 69 ... Measuring tank

Claims (7)

A detector having a light emitting window and a light receiving window on the outer surface;
A cleaning device capable of storing the detection unit;
The cleaning device includes a cleaning tank filled with a cleaning liquid for cleaning the light emitting window and the light receiving window,
The detection unit operates so that the light emission window and the light reception window are exposed from the cleaner when measuring the concentration of suspended solids, while the light emission window and the light reception window are accommodated in the cleaning tank during measurement standby. A suspended solids concentration meter that operates.   The suspended solids concentration meter according to claim 1, wherein a float is provided on an outer periphery of the cleaning unit.   The suspended solids concentration meter according to claim 2, further comprising a weight for adjusting the buoyancy of the float.   The suspended solid concentration meter according to any one of claims 1 to 3, wherein the cleaning tank includes a brush for polishing a side surface of the detector.   The suspended solids concentration meter according to any one of claims 1 to 4, further comprising a cleaning liquid replenishing cylinder for injecting a cleaning liquid into the cleaning tank. A suspended solids concentration meter that measures the concentration of the liquid to be measured flowing in the sewer pipe,
A water level gauge for monitoring the water level in the sewer pipe,
The suspended solids concentration meter
A detector having a light emitting window and a light receiving window on the outer surface;
A cleaning device capable of storing the detection unit;
The cleaning device includes a cleaning tank filled with a cleaning liquid for cleaning the light emitting window and the light receiving window,
When the measured water level of the water level meter is equal to or higher than a reference value, the detection unit operates to expose the light emitting window and the light receiving window from the cleaning device and shifts to a suspended solids concentration measuring step,
On the other hand, when the measured water level becomes less than a reference value, the detection unit operates so that the light emitting window and the light receiving window are accommodated in the cleaning tank and shifts to a measurement standby process. .   A measuring tank is provided that introduces a liquid to be measured for measurement of the concentration of suspended solids by the suspended solids concentration meter from the vicinity of the bottom of the sewer pipe and then discharges it to the discharge pipe. The suspended solids concentration measuring system according to claim 6.

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