KR101325496B1 - Water purified collecting equipment - Google Patents

Abstract

The present invention relates to a supernatant water collection device. A collection pipe (10) is installed on one side of a water collection tank (100). The collection pipe (10) comprises a horizontal part (11) and a vertical part (12). An inflow hole (13) is formed in the vertical part (12). The supernatant water inflow hole (13) is formed in the collection pipe (10). A buoyant body (30) is installed on one side of a movable tube (20). An elastic blocking tube (40) is installed on the outside of the collection pipe (10). The bottom of the blocking tube (40) is fixed the outer peripheral surface of the collection pipe (10). [Reference numerals] (AA) Discharge clean water

Description

Super purified water collecting device

The present invention relates to a supernatant water collecting device, and more particularly, to a supernatant water collecting device which is installed in a sewage treatment plant, a sewage treatment plant for sewage treatment, a discharge resin, a concentration tank, etc., and is installed together with a water quality meter to automatically supply only the supernatant water. will be.

In general, the discharge of supernatant from the tap water discharge water is usually performed after the backwash water discharged from the filter paper or the discharged water from the sedimentation basin is discharged into the discharge resin, and after the sedimentation of the sludge contained in the influent filled in the discharge resin (cold tank) is completed, Is recovering.

However, in the conventional method of discharge of the supernatant of the tap water discharged water, the supernatant cannot be recovered until the sedimentation of sludge is completely completed, and thus, the waiting time until the completion of the sedimentation and the recovery time of the supernatant after the sedimentation are completed are required. As a result, the recovery time of the supernatant water through the discharge resin is lowered because the time required for the recovery of the supernatant water becomes longer. In addition, despite the sedimentation of the inflow water, bubbles or floating on the upper surface of the discharge resin do not settle. Substances are present, and such bubbles and suspended solids have a problem such as deterioration of the quality of the recovered supernatant by flowing out together with the recovery of the supernatant.

On the other hand, Utility Model Registration No. 57303 has been presented in the prior art to solve the above problems. However, the prior art of the Utility Model Registration No. 57303 is provided in the upper portion of the outlet mechanism, that is, the upper portion of the outlet mechanism during the freezing of the inflow water generated during the winter, the buoys and the supernatant inlet that rises or falls along the water level are frozen. Since it is buried in the ice, there is a problem that the inflow of the supernatant water through the inlet and the up and down of the outlet mechanism becomes impossible.

In order to solve this problem, a utility water discharge automatic discharge device of water discharge resin of Utility Model Registration No. 106839 has been proposed in the prior art.

The above-mentioned automatic water discharge device for water discharged discharge water of Utility Model No. 106839 is provided with a plurality of supernatant discharge pipes provided with float valves in a vertical bulkhead partitioning the discharge resin into an adjustment tank and a sump. Each outflow pipe was opened sequentially as the water level of the sump is changed.

Such a configuration has a disadvantage in that reliability is reduced by installing a plurality of float valves. That is, the failure rate is increased by installing a plurality of float valves, there is a disadvantage that inferior water other than the supernatant water flows due to the failure, and if you want to collect the more uniform concentration of the supernatant water, the installation cost is increased by installing more float valves In addition, there is a disadvantage in that it is difficult to control the concentration of the supernatant due to the disadvantage that the float valve installation is not easy.

Therefore, the present applicant solved the above shortcomings, and applied for and registered a non-powered automatic supernatant water collecting device of Patent No. 10-0917473, which is installed vertically through the lower side of the discharge resin or the water collecting well, vertical part The recovery pipe is installed with at least one inlet hole formed so that the supernatant flows; A horizontal pipe moving upward and downward along the recovery pipe, wherein at least one or more supernatant water inlets are formed at one side to collect the supernatant and supply the collected supernatant to the recovery pipe; A buoyancy body installed at one side of the shanghai-dong horizontal tube and provided with at least one buoyancy body to give buoyancy to the shanghai-dong horizontal tube; It is installed outside the recovery pipe between the recovery pipe and the Shanghai-dong horizontal pipe is composed of a flexible block pipe to block other water from flowing into the inlet hole of the recovery pipe in addition to the supernatant water flowing into the supernatant inlet formed in the Shanghai-dong horizontal pipe.

A reinforcing rod is formed in the inner side of the collecting tube to prevent the bending of the collecting tube. The reinforcing rod is usually formed in a cross shape, and the collecting tube is made of a polygonal tube such as a circle or a square.

The inlet hole formed in the recovery pipe usually consists of a long long hole formed in the vertical direction, or consists of a plurality of through holes. The inflow hole formed as described above allows the supernatant water supplied from the horizontal pipe of Shanghai-dong to flow into the inner side of the recovery pipe.

The buoyancy body is formed to be able to adjust the buoyancy to adjust the buoyancy acting on the horizontal pipe Shanghai.

Alternatively, the buoyancy body is provided with a buoyancy control between the buoyancy body and the Shanghai-dong horizontal tube so as to adjust the buoyancy acting on the horizontal pipe.

This adjusts the position of the Shanghai-dong horizontal pipe floating on the water surface by the buoyancy body to control the flow rate flowing into the inlet of the supernatant and to control the water quality of the supernatant.

The recovery pipe may be further provided with a flow control valve to adjust the flow rate of the supernatant water collected.

In addition, the hanger may be further installed so that the horizontal pipe is not lowered below the minimum height. This is to prevent the inflow of lower water containing a large amount of foreign substances such as sludge at the bottom of the sump if the water flow is low because the flow rate is supplied to the sump.

However, the prior art of the present applicant is not provided with a sufficient configuration for maintaining the final discharged water quality at all times, the water quality is not stabilized, there is still a disadvantage that the reliability of the water quality is low.

Therefore, the present invention has been made to solve the above problems, it is possible to collect only the upper water of the sump, while the Shanghai-dong horizontal pipe is automatically moved up and down according to the height of the water, it is possible to easily and easily control the flow rate and water quality It is possible to prevent unauthorized overflow by keeping the water tank level below the monthly water level at all times, stabilizing the final discharged water quality by water quality measuring instrument, etc., and improving the reliability of the water quality. Stable water quality can be secured, and raw water and chemical costs can be reduced by improving water quality and recovery rate of recycled water, so installation and maintenance cost is low, and the structure is simple and easy to operate, so there is less trouble and maintenance It is to provide a simple and easy upper water collecting device.

The present invention relates to a supernatant water collecting device, wherein a collecting pipe 10 is installed on one side of a collecting tank 100 for storing and discharging water, and the collecting pipe 10 penetrates one side of the collecting tank 100. A horizontal portion 11 and a vertical portion 12 extending upward from the horizontal portion 11, and the inlet hole 13 is introduced into the vertical portion 12 so that the supernatant of the sump tank 100 flows into the vertical portion 12. Formed,

The recovery pipe 10 is moved up and down along the vertical portion 12 of the recovery pipe 10, the upper water inlet 13 is formed on one side, the upper and lower water to collect and supply the supernatant water to the recovery pipe 10 Moving horizontal pipe 20 is installed,

One side of the Shanghai-dong horizontal tube 20 is provided with a buoyancy body 30 to give buoyancy to the Shanghai-dong horizontal tube 20,

Between the recovery tube 10 and the Shanghai-dong horizontal tube 20, the outer side of the recovery tube 10 is provided with a stretchable blocking tube 40, the blocking tube 40 has a lower end on the outer circumferential surface of the recovery tube 10 Fixed and the upper water is installed at the lower end of the Shanghai-dong horizontal tube 20, other than the supernatant water flowing into the supernatant inlet 21 formed in the Shanghai-dong horizontal tube 20 inlet 13 of the recovery pipe (10) In the supernatant water collecting device, characterized in that to block the flow into

The water collection tank 100 is provided with a water quality measuring unit 110 and a control panel 120, the water quality measuring unit 110 analyzes the water quality of the discharged water and delivers it to the control panel 120, the control panel 120 in the recovery pipe Operate the electric valve 130 installed in the (10) is characterized in that the water is blocked or discharged.

Therefore, the present invention is able to collect only the top water of the sump, while the Shanghai-dong horizontal pipe is automatically moved up and down according to the height of the water, and the flow and water quality can be easily and easily adjusted, and the water level of the sump is always below the monthly water level. It is possible to prevent unauthorized overflow by maintaining, and to stabilize the quality of final discharged water by water quality measuring instrument, etc., to improve the reliability of water quality, to secure stable water quality of recovered and final discharged water for recycling, and to improve the quality of recycled water. It is possible to reduce the cost of raw materials and chemicals by increasing the improvement and recovery rate, so the installation and maintenance cost is low, and the structure is simple and easy to operate.

1 is a schematic view of the water collecting device of the present invention
2 is a view showing a state of movement of the horizontal pipe in Shanghai East according to the water level in the water collecting device of the present invention
3 is a perspective view of the water collecting device of the present invention
4 is a detailed view of the coupling structure of the horizontal pipe and buoyancy pipe of Shanghai 3 of FIG.
Figure 5 is a side view of the shanghai-dong horizontal tube, buoyancy body circular in the upper water collecting device of the present invention
Figure 6 is a plan view of the shanghai-dong horizontal tube, buoyancy body circular in the upper water collecting device of the present invention
7 is a cross-sectional view taken along AA of FIG.
8 is a cross-sectional view taken along line BB of FIG.
Figure 9 is a coupling diagram when the Shanghai-dong horizontal pipe, buoyancy body is circular in the water collecting device of the present invention

The present invention relates to a supernatant water collecting device, wherein a collecting pipe 10 is installed on one side of a collecting tank 100 for storing and discharging water, and the collecting pipe 10 penetrates one side of the collecting tank 100. A horizontal portion 11 and a vertical portion 12 extending upward from the horizontal portion 11, and the inlet hole 13 is introduced into the vertical portion 12 so that the supernatant of the sump tank 100 flows into the vertical portion 12. Formed,

The recovery pipe 10 is moved up and down along the vertical portion 12 of the recovery pipe 10, the upper water inlet 13 is formed on one side, the upper and lower water to collect and supply the supernatant water to the recovery pipe 10 Moving horizontal pipe 20 is installed,

One side of the Shanghai-dong horizontal tube 20 is provided with a buoyancy body 30 to give buoyancy to the Shanghai-dong horizontal tube 20,

Between the recovery tube 10 and the Shanghai-dong horizontal tube 20, the outer side of the recovery tube 10 is provided with a stretchable blocking tube 40, the blocking tube 40 has a lower end on the outer circumferential surface of the recovery tube 10 Fixed and the upper water is installed at the lower end of the Shanghai-dong horizontal tube 20, other than the supernatant water flowing into the supernatant inlet 21 formed in the Shanghai-dong horizontal tube 20 inlet 13 of the recovery pipe (10) In the supernatant water collecting device, characterized in that to block the flow into

The water collection tank 100 is provided with a water quality measuring instrument 110 and a control panel 120, the water quality measuring instrument 110 analyzes the water quality of the discharged water and transmits it to the control panel 120, the control panel 120 in the electric valve By operating the motor of the, it is characterized in that the water is blocked or discharged by operating the electric valve valve plate 131 is connected to the motor and installed in the recovery pipe (10).

In addition, the water quality measuring instrument 110 is characterized by measuring the water quality accurately by pumping up the water inside the recovery pipe 10 to the top with a sampling pump.

In addition, the water collection tank 100 is characterized in that the water gauge 140 is installed.

In addition, the horizontal pipe 20 and the buoyancy pipe is characterized in that the horizontal cross-section is circular.

The present invention will be described in detail with reference to the accompanying drawings. 1 is a schematic view of the water collecting device of the present invention, FIG. 2 is a view showing a state of movement of a horizontal pipe in Shanghai East according to the water level in the water collecting device of the present invention, FIG. 3 is a perspective view of the water collecting device of the present invention, and FIG. 4 is a top and bottom view of the water collecting device of FIG. Detailed view of the combined structure of the horizontal horizontal pipe and buoyancy pipe, Figure 5 is a side view of the Shanghai-dong horizontal pipe, buoyancy body is circular in the upper water collecting device of the present invention, Figure 6 7 is a sectional view of FIG. 4, FIG. 8 is a sectional view taken along the line BB of FIG. 4, and FIG. 9 is a coupling diagram when the shanghai-dong horizontal tube and the buoyancy body are circular in the water collecting device of the present invention.

The supernatant water collecting device of the present invention is installed vertically through the lower side of one side of the discharge resin or the sump. The upper water collecting device is composed of a recovery pipe, a horizontal pipe in Shanghai, a buoyancy body, a blocking pipe, a water quality measuring instrument, and an electric valve.

One side of the collection tank (100), which stores and discharges water, is installed on the partition wall between the sedimentation tank and the machine room by welding or bolting the plurality of recovery pipes (10) to the fixing table (80). It consists of a horizontal portion 11 penetrating one side surface of the water collecting tank 100, and a vertical portion 12 extending upward from the horizontal portion 11, the vertical portion 12 of the water collecting tank 100 Inflow hole 13 is formed so that the supernatant water.

In addition, the recovery pipe 10 moves up and down along the vertical portion 12, and a supernatant inlet 13 is formed at one side, and the horizontal pipe 20 for collecting and supplying the supernatant water to the recovery pipe 10 is provided. This is installed.

One side of the Shanghai-dong horizontal tube 20 is provided with a buoyancy body 30, such as plastic or styrople material to give buoyancy to the Shanghai-dong horizontal tube 20.

And outside the recovery pipe 10 between the recovery pipe 10 and the Shanghai-dong horizontal pipe 20 is provided with a flexible block pipe 40, the block pipe 40 is the lower end on the outer peripheral surface of the recovery pipe (10) Is fixed, the top is installed in the lower end of the Shanghai-dong horizontal pipe 20, other than the supernatant water flowing into the supernatant inlet 21 formed in the Shanghai-dong horizontal pipe 20 is the inlet hole (13) of the recovery pipe (10) Will be blocked).

And the hanger 50 is to specify the minimum height of the Shanghai-dong horizontal pipe 20, it is installed on the partition wall to support the lower side of the Shanghai-dong horizontal pipe 20. This prevents the horizontal pipe 20 from moving further down by the hanger 50 when the inflow is small and the water level is lowered below a predetermined value.

And the water collection tank 100 of the present invention is provided with a water quality measuring instrument 110 and the control panel 120, the water quality measuring instrument 110 is transmitted to the control panel 120 by analyzing the water quality of the discharged water, the water collection tank 100 ) Is installed in the water quality measuring instrument 110 and the control panel 120, the water quality measuring instrument 110 analyzes the water quality of the discharged water and transmits it to the control panel 120, the control panel 120 operates the motor of the electric valve And, it is connected to the motor to operate the electric valve valve plate 131 installed in the recovery pipe 10 is to block or discharge the water. Soon the valve plate has a circular cross section about the vertical axis of rotation and the forward and reverse, opening and closing the flow path.

The electric valve opens the valve plate when the water quality is within the reference value, and stops discharging by closing the valve plate when the water quality exceeds the reference value.

The motor of the electric valve is located in the upper part of the machine room, the operation rod connected to the motor is connected to the valve plate inside the recovery pipe is transmitted to the valve plate of the rotational force of the motor is to be rotated forward and backward to open and close the flow path. The motor uses a stepper motor capable of forward and reverse.

On the other hand, the sewage tank 100 of the present invention, the inflow water is introduced, the sedimentation tank (1a) for depositing foreign matters, such as suspended matter in the inflow water, and the machine room (1b) is provided on the outside of the sedimentation tank (1a), and When there is a lot of inflow water flowing into the settling tank (1a) is formed an overlap portion (1c) formed so as to overlap, it is possible to install the overflow pipe 90 instead of the overlap portion, the lower end of the overflow pipe (90) is the recovery of the lower portion It is connected to the pipe, but is installed in front of the electric valve valve plate.

On the other hand, the present invention is provided with a water quality measuring instrument, the water collecting tank 100 is installed in the water quality measuring instrument to analyze the water quality of the discharged water and transmits it to the control panel, the control panel instructs on and off the electric valve installed in the horizontal portion of the recovery pipe It is.

The water quality measuring instrument may be selected and used according to the need for conventional water quality measuring instruments, such as turbidity, which have been widely known in the art, and the present invention is not an invention on the water quality measuring instrument itself, but a water quality measuring instrument that is used for measuring water quality in general. Since it is only to be used, detailed description of the water quality meter is omitted.

In addition, the control panel has a built-in program associated with the upper water collecting device, the water quality measuring instrument, the electric valve, and the water level meter to enable automatic operation.

In addition, the water quality measuring unit 110 and the control panel are installed in the upper part of the machine room like the motor of the electric valve, the water quality measuring unit 110 pumps the water inside the recovery pipe 10 to the upper part and collects water to accurately measure the water quality. Let's do it.

On the other hand, the water level is further installed in the present invention, the water level meter detects the water level inside the water tank to alarm when the water level is above the water level to prevent overflow, and when the water level is below the minimum level to protect the device.

The level gauge is attached at a position protruding in the direction of the settling chamber from the top of the machine room, so that the level gauge can accurately measure the level of the settling chamber. Since the water gauge may be a conventional or widely known conventional type of contact or non-contact type, a detailed description thereof will be omitted.

Meanwhile, the method for controlling the upper water collecting device of the present invention will be described in detail as follows.

The method of controlling the supernatant water collecting device of the present invention is divided into seven stages of exceeding the reference water quality, within the reference water quality, boundary water level, high water level, high water level recovery, low water level, low water level recovery. The conventional water quality meter uses a device that is continuously measured in real time, and the conventional water level meter always operates regardless of the water level and the standard water quality.

The first step of exceeding the standard water quality is the condition exceeding the standard water quality as a result of measuring the water quality, closing the electric valve from which the supernatant flows out, the sampling pump is stopped, and the water quality meter is also stopped. At this time, the floating water collector is stopped.

After a certain period of time (with 10 ~ 30 minutes of time adjustment depending on the water quality conditions at the site) in the state where the supernatant water collection is stopped, when the water quality is stabilized and the water quality is stable, open the electric valve and then operate the sampling pump. After collecting the sampling water and uploading it to the water quality measuring instrument, the water quality measuring instrument is operated to start the water quality measurement. The floating water collector starts operation at the same time as the electric valve is opened. After the water quality measurement, if the water quality exceeds the standard water quality, the contents of the first section above are repeated sequentially.

The second level within the standard water quality is within the standard water quality as a result of the measurement of the water quality meter. At this time, the operation state of the equipment is that the electric valve at the outlet is open, the sampling pump is running, the water quality meter is running, and the floating water collector is being collected. Therefore, all the equipment keeps the state at this time. If the standard water quality is exceeded during the real-time water quality measurement within the standard water quality level, the mode is changed to the standard water level exceeding step mode of the first term.

In the third boundary level, the water level continues to rise and is close to the highest water level, and after a certain period of time, there is a possibility of overflow.Therefore, the red alarm lamp installed on the upper part of the control panel blinks regularly and emits a warning sound regularly. You will be warned. At this time, if the standard water quality is exceeded, various equipments are switched to the first term excess water quality mode, and if the standard water quality is within the standard water quality, the various equipments are switched to the mode within the standard water quality of the second term.

Fourth highest water level is the state where the water level reaches the highest water level and the overflow starts. The water in the sump should be discharged regardless of the standard water quality.The water quality must be measured continuously for water quality management. Is open, the floating catcher continues to operate, the sampling pump continues to run, the water meter continues to operate, the red alarm flashes continuously and the alarm sounds continuously and rapidly to alert. .

Fifth, the water level recovery stage is the state where the water level is lowered below the highest level as the water is discharged after the water level exceeds the highest level, but when the discharge water is inflowed above the boundary level, there is a risk of rising again to the highest level. Flashes regularly, and a beep sounds regularly to warn.

At this time, if the standard water quality is exceeded, the equipment is operated sequentially as in the first paragraph (standard water quality exceeding stage), and if it is within the standard water quality, the equipment is operated sequentially as in the second term (stage within standard water quality).

In the sixth lowest water level, when the water level is no longer lowered, the floating water collector is not able to be collected, and the electric valve at the outlet is closed to protect the sampling pump and water meter, and the sampling pump is stopped. The road stops, and the floating water collector is automatically shut down.

In the seventh low water level recovery phase, the water level has risen from below the low level to above the low level, so open the electric valve at the outlet, start the sampling pump, run the water quality meter, and measure the water quality. You will start collecting water. After the water quality measurement, the equipment is operated sequentially as in the first paragraph (step above standard quality) if the standard water quality is exceeded, and in the second section (step within the standard water quality) if it is within the standard water quality.

On the other hand, the shanghai horizontal pipe 20 and buoyancy pipe of the present invention has a straight horizontal cross-section, the coupling structure is a vertical bar 71 fixed to the shanghai horizontal pipe 20, like the conventional upper water collecting device And a vertical screw shaft 72 fixed to the buoyancy body 30, and an adjusting nut 73 provided on the vertical screw shaft 72, and through holes at both ends of the vertical bar 71. It is formed, and the vertical screw shaft 72 is penetrated through the through hole, the vertical bar 71 provided on the vertical screw shaft 72 by using the adjusting nut 73 is the vertical screw shaft 72. It is adjusted up and down accordingly.

     On the other hand, the present invention may be configured in the horizontal cross-section of the Shanghai-dong horizontal pipe and buoyancy body in a circular shape. The coupling structure is to install the tube fixing support 32 in the lower portion of the horizontal tube and the buoyancy body, and fastening the horizontal tube and the buoyancy body to the tube fixing support 32 using U bolts, respectively.

     Therefore, the present invention is able to collect only the top water of the sump, while the Shanghai-dong horizontal pipe is automatically moved up and down according to the height of the water, and the flow and water quality can be easily and easily adjusted, and the water level of the sump is always below the monthly water level. It is possible to prevent unauthorized overflow by maintaining, and to stabilize the quality of final discharged water by water quality measuring instrument, etc., to improve the reliability of water quality, to secure stable water quality of recovered and final discharged water for recycling, and to improve the quality of recycled water. It is possible to reduce the cost of raw materials and chemicals by increasing the improvement and recovery rate, so the installation and maintenance cost is low, and the structure is simple and easy to operate.

1a: sedimentation tank 1b: machine room
1c: overflow wall
100: collection tank 10: recovery pipe
11: horizontal part 12: vertical part
13: inlet hole
20: horizontal pipe of Shanghai-dong 21: upper water inlet
30: buoyant body 31: U bolt
32: pipe fixing base 33: nut
40: blocker 50: hanger
71: vertical bar 72: vertical screw axis
73: adjusting nut 80: holder
90: moon pipe
110: water meter 120: control panel
130: electric valve 131: valve plate
140: water gauge 150: sampling pump

Claims (4)

The recovery pipe 10 is installed on one side of the collection tank 100 for storing and discharging water, and the recovery pipe 10 has a horizontal portion 11 penetrating one side surface of the collection tank 100 and the horizontal It consists of a vertical portion 12 extending from the upper portion 11 to the upper portion, the inlet hole 13 is formed in the vertical portion 12 so that the supernatant of the water collecting tank 100 is introduced, the recovery pipe 10 The vertical pipe 12 of the recovery pipe 10 is moved up and down and the upper side water inlet hole 13 is formed on one side, the Shanghai-dong horizontal pipe 20 for collecting and supplying the supernatant water to the recovery pipe 10 It is installed, one side of the Shanghai-dong horizontal pipe 20 is provided with a buoyancy body 30 to give buoyancy to the Shanghai-dong horizontal pipe 20, between the recovery pipe 10 and the Shanghai-dong horizontal pipe 20 The outer side of the recovery pipe 10 is provided with a flexible block pipe 40, the block pipe 40 is fixed to the outer circumferential surface of the recovery pipe 10, the upper end is Shanghai-dong horizontal pipe It is installed at the lower end of the (20), characterized in that to block the flow of water into the inlet hole 13 of the recovery pipe 10 in addition to the supernatant water flowing into the supernatant inlet 21 formed in the horizontal pipe 20 In the upper water collecting device,
The water collection tank 100 is provided with a water quality measuring instrument 110 and a control panel 120, the water quality measuring instrument 110 analyzes the water quality of the discharged water and transmits it to the control panel 120, the control panel 120 in the electric valve By operating the motor of the, connected to the motor is operated to operate the electric valve valve plate 131 installed in the recovery pipe 10 to block or discharge the water, the water quality meter 110 is the inside of the recovery pipe (10) The water is pumped up to the top with a pump to measure the water quality, and the water collection tank 100 is installed with a water gauge 140, the horizontal pipe 20 and the buoyancy body 30 of the Shanghai-dong horizontal cross-section is circular In addition, the control of the supernatant water collecting device is divided into seven stages of: exceeding the reference water quality, within the reference water quality, boundary water level, high water level, high water level recovery, low water level, low water level recovery,
In the step of exceeding the standard water quality, the water meter is in excess of the standard water quality, and closes the electric valve from which the upper water flows out, the sampling pump is stopped, the water meter is stopped, and the floating water collector is stopped. After a certain period of time in the state that the supernatant water collection is stopped, the foreign matter in the water tank settles and the water quality is stabilized. Then, open the electric valve, and then operate the sampling pump to collect the water for sampling and send it to the water quality measuring instrument. , The water quality gauge is operated to start the water quality measurement, and the floating water collector is operated at the same time that the electric valve is opened.
The step within the standard water quality is the state within the standard water quality as a result of measuring the water quality meter, the electric valve of the outlet part is open, the sampling pump is in operation, the water quality meter is in operation, and the floating water collector is in the state of collecting water, If the standard water quality is exceeded during the real-time water quality measurement within the standard water quality level, it is converted to the standard water level exceeding mode.
Boundary water level is a state where the water level continues to rise and is close to the highest water level, and if a certain time elapses, there is a risk of overflow, so the red alarm lamp installed on the upper part of the control panel blinks regularly, and a warning sound is issued regularly to warn. At this time, if the standard water quality is exceeded, the mode is changed to the standard water level exceeding mode, and if the standard water quality is within the standard water quality mode,
The highest water level is the state where the water level reaches the highest water level and the overflow begins. The water in the sump must be discharged regardless of the standard water quality. The water quality must be measured continuously for water quality management. Keep it open,
The floating collector will continue to operate, the sampling pump will continue to run, the water meter will continue to operate, the red alarm will flash continuously, and the beep will continue to signal and warn.
In the recovery phase of the high water level, the water level is lowered below the high level as water is discharged from the sump after the water level exceeds the high level.However, if the discharge water flows in above the boundary level, there is a risk of rising again to the high level. It blinks regularly, and the warning sound makes a warning by giving a regular signal.In this case, if the standard water quality is exceeded, it operates sequentially as the standard water level exceeding level. Works with
At the lowest water level, when the water level is no longer lowered, the floating water collector is not able to be collected. For the protection of the sampling pump and water quality meter, the electric valve of the outlet is closed, the sampling pump is stopped, and the water quality gauge Shut down, the floating catcher will shut down automatically,
In the low water level recovery phase, the water level has risen from below the low level to above the low level, so open the electric valve at the outlet, start the sampling pump, and run the water quality meter to measure the water quality. The supernatant water collecting device, characterized in that, if the standard water quality exceeds the standard water quality after the water quality measurement, such as the step of exceeding the standard water quality, and if the standard water quality is within the standard water level, the operation is sequentially performed. delete delete delete

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