JP3959751B2 - Scum remover - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a scum removing device for attracting and removing scum that is installed in a treatment basin such as a first or final sedimentation basin and floats on a water surface.
[0002]
[Prior art]
The scum rises and floats in the sedimentation basin constructed in the water purification facilities such as sewage. A scum removing device is configured to remove these scums. As one type, a fixed trough is installed, one side of the trough is set lower than the water surface, and a weir is provided on the same side. There is something that can be moved up and down.
This type of scum removal device is designed so that the weir floats and sinks in conjunction with the flight that circulates in the sedimentation basin, and when it sinks, it draws scum on the water surface and discharges scum to the outside through the trough, The scum attraction is stopped by ascent.
[0003]
[Problems to be solved by the invention]
By the way, since the weir is generally made to move up and down at a certain height, it has a function of removing scum by following fluctuations in the water level when a large amount of sewage enters or decreases in the sedimentation basin. There was also a fear that it could not be fulfilled.
The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a scum removing device that always exerts a scum removing function reliably even when the water level fluctuates.
[0004]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, the invention according to claim 1 is fixedly installed in a treatment pond, and at least one side of the scum inlet is set below the water surface, so that the scum and water from the outlet are in the tank. A trough-shaped trough that is allowed to flow through, and the upper end of the trough is located on the scum inlet side of the trough so that it moves up and down substantially vertically with the water surface as a boundary. A dam that responds to the movement of the driven flight, a driving means that drives the dam up and down, and is provided between the weir and the trough to prevent water from entering the trough. The weir and the driving means can be turned on and off, and the weir independently follows the level fluctuation of the water surface when the working relation with the driving means is turned off. On the other hand, the interlocking relationship with the driving means is in the on state. The scum removing device is adapted to be interlocked up and down by the same drive means when the dam is provided with an engagement receiving portion on the outer surface of the weir, while the drive means The scum can be attracted by moving the weir downward while engaging with the receiving portion from a position distant from the joint receiving portion, and the drive means rises together with the weir and rises from the engagement receiving portion at the rising end. It is characterized by coming out.
[0005]
The invention according to claim 2 is fixedly installed in the treatment pond, and at least one scum inlet is set below the water surface so that scum and water from the outlet flow out through the tub. A trough-shaped trough and a flight-side movement that is located on the scum inlet side of the trough and whose upper end moves up and down substantially vertically with the water surface as a boundary, and that the up-and-down movement is circulated in the treatment pond A scum remover having a weir that is adapted to respond to the drive, a driving means that drives the weir up and down, and a seal provided between the weir and the trough to prevent water from entering the trough The driving means is rotatably provided in the processing pond and has a plurality of protrusions on the outer periphery, and rotates when the flight-side engagement protrusions engage with the protrusions to advance, and the buoyancy on the weir side Drive panel that is designed to return to rotation The drive board is connected so that one end of the chain wound around the wheel provided on one side thereof is connected to the weir and the other end is connected to the underwater float so that the upper end of the weir is located on the water surface. It is characterized by maintaining balance.
[0006]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described in detail with reference to the illustrated embodiments .
[0007]
1 to 3 show an embodiment thereof, FIG. 1 is a front view showing a right half of a pond bottom driven scum removing device, FIG. 2 is a plan view thereof, and FIG. 3 is taken along a line III-III in FIG. It is sectional drawing which follows .
[0008]
In FIG. 1 and FIG. 2, it is symmetrical with respect to the center line O as a right-and-left line except for driving means described later .
[0009]
1 and 2, reference numeral 1 denotes a side wall (long side wall) of the sedimentation basin, which is opposed to the left and right .
[0010]
In the sedimentation basin provided with the side wall 1, a four-axis or three-axis rotating shaft (not shown) is arranged .
[0011]
Around each rotating shaft, a pair of left and right sprockets (not shown) are mounted .
[0012]
A pair of left and right chains 2 (FIG. 3) are wound around these sprockets, and the flights 3 arranged on the outer periphery thereof are driven to circulate .
[0013]
A drive roller 4 is rotatably provided via a bracket on the side of the flight 3 .
[0014]
The drive roller 4 passes the outer peripheral side of the sprocket and does not interfere with the sprocket .
[0015]
Both side walls 1 are provided with pierced holes and a flanged and rectangular tube-shaped communication trough 5 that is fixed in a protruding manner at both ends. A trough 7 is fixed to the flange between the two opposing walls 1. The trough 7 is integrally provided with a bottom wall 7 a, a back wall 7 b, a rear flange 7 c, and a front wall 7 d, and is provided so that the lower half portion is submerged under the water surface 8. The upper end of the front wall 7d is at a position about 10 cm lower than the water surface 8, and an inclined front flange 7e is provided at the upper end of the front wall 7d.
[0016]
As shown in FIG. 1, the front surface of the trough 7 is U-shaped notched when viewed from the front, and a front flange 7e is formed over the inner periphery thereof. The seal 9 is attached. The seal 9 has a sharp tip 9a. The tip 9a may be provided in a plurality of (2 to 5) locations on the top and bottom, and have a groove therebetween. A mouth formed inside the seal 9 is a scum passage 10.
[0017]
An upper bracket 11 and a lower bracket 12 are provided at two positions on the left and right of the trough 7, and a guide rod 13 is detachably fixed to the vertical shaft through the brackets 11 and 12. The guide rod 13 has a round shaft shape, but may have a square shape. A weir 15 is provided so as to be guided up and down along the guide rod 13.
[0018]
The weir 15 is a float (stainless steel) that has been used as an up-and-down swing type so far as a vertical up-and-down type. The upper end is square, but the lower end (or sometimes the upper end) is round. It has become. In the portion corresponding to the guide rod 13 of the weir 15, holes are formed corresponding to the upper and lower sides, and the partition cylinder 16 is inserted and fixed in a vertical axis shape through these holes so that water does not enter the weir 15. It has become.
[0019]
In addition, a pair of hour-shaped guide rollers 17 for vertically moving the weir 15 as shown in FIG. 2 are attached to the upper and lower portions of the weir 15 corresponding to the guide rod 13 respectively. As the roller 17 rolls along the guide rod 13, the weir 15 moves up and down.
[0020]
The weir 15 is provided with a plurality of front and rear rollers 18 and 19 using the upper bracket 11 and the front wall 7d in front and rear in order to make the vertical vertical movement smooth and reliable. With these configurations, the weir 15 is vertically movable and is a hollow type, so that the weir 15 moves following the water level with a part of the upper end always floating on the water surface 8. In order to always protrude a part of the upper end from the water surface 8, a water surface floating type auxiliary float (not shown) may be attached, while when the weir 15 is too floated, a weight may be further attached. These are only done in consideration of balance in the design.
[0021]
A bracket 21 projects from the side wall 1, and a guide tube 22 is fixed in a vertical axis shape through the tip of the bracket 21. The guide tube 22 is opposed to the front of the right side of the weir 15 when viewed from the front, and has a square or round tube shape. The guide tube 22 has a cylindrical lower portion, but the upper portion has a notch 22 a only in the direction of the weir 15, and the upper end becomes a curved return guide tube portion 22 b on the opposite side of the weir 15. ing.
[0022]
An interlocking rod 24 is inserted into the guide tube 22 from the bottom of the pond, and an engaging rod 25 that can be moved back and forth through a notch 22a is coupled to the upper end of the rod 24 via a pin 26. ing. The engagement rod 25 is provided with an engagement protrusion 25 a that can be engaged with and disengaged from a chain (engagement receiving portion) 27 provided vertically on the front surface of the weir 15 on the weir 15 side, and at the upper end of the rod 25. An interpreter roller 28 that can freely enter and exit the return guide cylinder portion 22 b is mounted via an oblique bracket 29.
[0023]
An interlocking shaft 30 is provided at the lower end of the interlocking rod 24. A bracket 31 is fixed to the side wall 1, and a cam 33 is supported on the bracket 31 via a fixed shaft 32 so as to be swingable up and down, and interlocked with the cam 33 so as to move in the opposite direction up and down. A plate 34 is attached. A long hole 34a is formed in the interlocking plate 34, and the interlocking shaft 30 is movably connected through the long hole 34a. The cam 33 is balanced so that the interlocking rod 24 side can be pushed upward to return to the horizontal posture shown in FIG. 3, so that an auxiliary weight may be attached, and a stopper is provided on the upper side of the interlocking plate 34 or the like. May be placed. On the other hand, the engagement / disengagement roller 28 functions as a stopper by being accommodated in the return guide cylinder portion 22b.
[0024]
The driving roller 4 advances at a slow speed along the bottom of the pond as indicated by an arrow in FIG. Before the roller 4 hits the cam 33, the engagement / disengagement roller 28 is accommodated in the return guide cylinder portion 22 b and the engagement / disengagement rod 25 is also vertically accommodated in the guide cylinder 22. As a result, the engagement protrusion 25a is separated from the chain 27 forward, and the weir 15 can follow freely even if the water level fluctuates.
[0025]
When the driving roller 4 hits the cam 33, the cam 33 is lifted and the interlocking plate 34 is lowered. The interlocking rod 24 is pulled down through the long hole 34a and the interlocking shaft 30, and the engagement rod 25 is also pulled down. When the engagement rod 25 is lowered, the engagement / disengagement roller 28 rolls in the direction of the weir 15 along the return guide cylinder portion 22b, and the rod 25 rises obliquely in the direction of the weir 15.
[0026]
As the engagement rod 25 rises, the engagement protrusion 25a engages with a corresponding portion of the chain 27 and then lowers the weir 15 by pulling down. Thereby, the upper end of the weir 15 falls from the water surface 8, and the scum is swallowed. The amount by which the weir 15 is pulled down is always substantially constant.
[0027]
When the driving roller 4 passes the cam 33, the cam 33 is lowered, the interlocking plate 34 is lifted, and the interlocking rod 24 and the engagement rod 25 are also lifted. In this case, the weir 15 side has its own levitation force, and the engaging protrusion 25 a is lifted while being engaged with the chain 27. When the engagement / disengagement roller 28 enters the guide tube portion 22b, the engagement is released, the interlocking relationship between the drive means side and the weir 15 side is broken, and the weir 15 is in a state where the water level can be followed.
[0028]
In the above embodiment, the engagement receiving portion is the chain 27, but it may be a sawtooth shape or a pin shape. Further, the weir 15 side may be a protrusion and the other side may be an engagement receiving portion such as a chain. Further, the engaging portion and the engaging receiving portion may be magnets. Moreover, although the drive system from a pond bottom was shown in the said embodiment, the cam 33 may exist in a water surface level. Furthermore, the driving roller 4 and the cam 33 may be upside down. The weir 15 may be filled with foamed styrene or the like. Further, the weir 15 may be plate-shaped, and the material may be plastic or wood. .
[0029]
In the embodiment shown in FIG. 4, the vertical guide structure of the weir 15 is the same as that of the above-described embodiment, but a braking device for the weir 15 is provided in relation thereto. The braking device is provided with a stay 37 on the front surface of the upper end of the weir 15 so that the vertical movement can be adjusted, and a brake tank 38 is provided on the front side of the stay 37. Is braked by generating buoyancy. On the other hand, the buoyancy of the brake tank 38 helps the dam 15 to float.
[0030]
An algae avoidance cover 39 for preventing the generation of algae is provided on the tank 38. Further, the seal 9 may be an integrated type having two upper and lower stages like a virtual line.
[0031]
In the embodiment shown in FIG. 5, an inclined plate 41 is attached to the upper end of the weir 15 so that the scum flows smoothly and the scum does not collect on the upper surface. The algae avoidance cover 42 may be attached using the inclined plate 41.
[0032]
In the embodiment shown in FIG. 6, unlike the driving system according to the above embodiment, a stay 44 is attached to the weir 15 and a water tank 45 is provided above the stay 44. The water tank 45 can supply water through a flexible tube 46 for a certain period of time, and can discharge a small amount of water through a drain outlet 47 opened at the bottom. Accordingly, since water accumulates in the water tank 45 for a certain period of time, the weir 15 is submerged below the water surface. When the water supply stops and the drainage is finished after a certain period of time, the weir 15 rises. A brake tank 48 and an algae avoidance cover 49 may be provided.
[0033]
As shown in the figure, the weir 15 may have a rounded upper end so that the scum flow is smooth and does not accumulate. 15 a is a foam material in the weir 15. As shown in FIG. 7, a vertical slit 50 is formed on the side surface of the water tank 45, and the slit 50 can select a water overflow level with a plate 51 that can be moved up and down. Yes. Therefore, by moving the plate 51 up and down, the amount of water accumulated in the water tank 45, that is, the amount of water supply can be freely adjusted, and the amount of sinking of the weir 15 can be determined by this. The drain port 47 may also be a throttle mechanism.
[0034]
FIG. 8 shows an embodiment of another driving method. Reference numeral 53 denotes a drive pin (protrusion) (or plate) provided for the flight 3. In the place where the pin 53 passes, a driving board 55 having a large number of horizontal driven pins (engagement projections) 54... A sprocket (wheel) 57 is provided on the side of the drive panel 55, and one end of a chain 58 hung on the sprocket 57 is always lifted by a weir 15 side and the other end is float 59 with a constant buoyancy. It is .
[0035]
Reference numeral 60 denotes an auxiliary float for assisting buoyancy. When the drive pin 53 kicks the driven pin 54 as the flight 3 advances, the drive board 55 is rotated clockwise in the figure, and the sprocket 57 is rotated in the same direction. As a result, the weir 15 descends via the chain 58 and attracts the scum. On the other hand, when the drive pin 53 passes through the drive panel 55, the buoyancy on the weir 15 side is superior to that on the float 59 side, so the weir 15 rises and stops the inflow of scum. The drive board 55 is also restored.
[0036]
Here, since the balance between the weir 15 side and the float 59 side is always kept constant even with the fluctuation of the water level, the weir 15 moves up and down when the water level fluctuates. Along with this, the drive panel 55 also rotates. However, since the driven pin 54 always faces in the same state, there is no problem in the next drive. It should be noted that the amount of buoyancy generated in the float 59 and the auxiliary float 60 can be freely changed by changing the number.
[0037]
In the embodiment shown in FIG. 9, the cam 62 is lifted upward via the shaft 61 using the movement of the drive roller 4 as it travels along the pond bottom, and the vertical push-up rod 63 connected to the cam 62 is lifted. At the same time, the cam plate 64 is rotated by the rod 63 to push down the weir 15.
[0038]
The cam plate 64 is supported in an eccentric shaft shape by a rotating shaft 65 provided horizontally above the weir 15, and the rotating shaft 65 rotates in the clockwise direction in the drawing, so that a roller 66 on the weir 15 is interposed. The weir 15 is pushed down. By this depression, the scum on the water surface 8 flows into the trough 7 together with a small amount of water.
[0039]
When the driving roller 4 passes through the cam 62, the cam plate 64 rotates counterclockwise due to the weight of the cam 62 and the push-up rod 63, and the weir 15 is lifted and returned by its own buoyancy (or the buoyancy of the added auxiliary float). . By this return, the scum on the water surface 8 is blocked. Other configurations, the front roller 18, the rear roller 19, and the seal 9 are the same as those in the above embodiment.
[0040]
In addition, although the upper and lower ends of the weir 15 are rounded, the top and bottom are square, or only one is square and the other is round. Moreover, although it is the same also in the said embodiment, the plate-shaped thing may be sufficient as the upper end part which dams water.
[0041]
Further, a plurality of cam plates 64 are provided in order to drive the weir 15 stably. For example, the number is two or three when viewed from the front of the apparatus.
[0042]
Further, the push-up rod 63 may be configured to be adjustable in length.
Further, in the pond bottom drive system, the rotary shaft 65 may be on the left side in the drawing and the cam 62 may be on the right side.
[0041]
In each of the above embodiments and the following embodiments, the dam bottom drive may be caused to float by sinking a cam on the pond. Further, the trough 7 may be a semicircular cylinder.
[0042]
Further, in the embodiment of FIG. 9, the cam plate 64 is disposed apart from the front side of the weir 15, and the engagement receiving portion such as the chain 27 is disposed on the front surface of the weir 15, while being engaged with the cam plate 64. Protrusions (such as sprocket teeth or rollers) are provided so that the engaging protrusions approach and engage the engagement receiving portion by the eccentric rotation of the cam plate 64, and further rotate to push down the weir 15 It can be configured to be a water level following type.
[0043]
In this case, a plurality of engagement protrusions are formed on the outer peripheral surface of the cam plate 64 on a concentric circle with the rotation shaft 65 as the center. With this configuration, the cam plate 64 side and the weir 15 side are temporarily separated so that the weir 15 can follow the water level. On the other hand, the cam plate 64 drives the weir 15 as the cam plate 64 rotates. It becomes free.
Conversely, a chain or the like may be arranged on the cam plate 64 and rotated so that the engagement receiving portion on the weir 15 side can be engaged and disengaged.
[0044]
In the embodiment shown in FIGS. 10 and 11, the stationary guide rail 70 is arranged on the trough 7 side and the moving side guide rail 71 is arranged on the weir 15 side, and these are combined, and the guide roller 72 smoothly moves the weir 15 up and down. It is made to let you. In this embodiment, the front roller and the rear roller are not particularly required.
[0045]
In the trough 7, rising portions 73 as shown in FIG. 10 are formed at several places in the longitudinal direction, and the fixed guide rail 70 is attached to the front surface thereof. The portions other than the rising portion 73 are formed lower than the water surface as shown in FIG. The fixed-side guide rail 70 has a triangular groove, and may constitute a drum-shaped moving-side guide rail 71 having a shape that fits into the groove. The guide roller 72 may be provided on the fixed side guide rail 70.
[0046]
In this embodiment, the water tank 74 is provided to drive the weir 15 up and down. However, as in the above embodiment, the cam may be driven from the bottom of the pond or the water surface.
[0047]
In the embodiment shown in FIG. 12, the weir 15 is guided up and down on the side surface of the weir 15. That is, the stationary guide rail 78 is arranged at the front end portion of the trough flange 77, and the moving guide rail 79 is arranged at both left and right ends of the weir 15, and the guide roller 80 is combined therebetween. This embodiment is suitably applied to the weir 15 having a short length in the longitudinal direction, but this embodiment can also be applied to a long weir 15 by arranging a receiving roller on the rear side of the weir 15.
[0048]
In the embodiment shown in FIG. 13, scum openings of the trough 82 are formed on both front and rear sides, and seals 83 are attached to the respective side edges, and the weir 15 is received by the rear roller 84. Reference numeral 85 denotes a side frame, and the frame 85 is provided with guide rails 87 for guiding guide rollers 86 provided at both ends of the weir 15 in the longitudinal direction.
[0049]
The rear roller 84 is attached to a roller frame 88 erected in a gate shape from the inside of the trough 82 and also serves as a reinforcing member of the trough 82. Further, the side frame 85 may be configured in place of the trough flange. Further, the front and rear weirs 15 are driven to float and sink independently or simultaneously. For this weir, a driving method from the bottom of the pond or the water surface or a water supply driving method is adopted.
[0050]
In the embodiment shown in FIG. 14, the weir 15 having a planar rectangle connecting the left and right sides in addition to the front and rear sides shown in FIG. 13 is arranged. 90 is a guide rail (with a roller) of the weir 15, 91 is a seal, 92 is a drain pipe, and the drain pipe 92 is connected in a continuous manner as a trough 93 in which the bottom of the trough 82 shown in FIG. 13 is further deepened. . The driving in this embodiment is a water tank driving method or a pond bottom / water surface driving method.
[0051]
【The invention's effect】
The invention according to claim 1 is a trough that is fixedly installed in a bowl shape, and at least one side of the scum passage is set below the water surface, and the upper end of the trough is located on the scum passage side of the trough. In the scum removing device comprising a weir that is adapted to move up and down across the water surface and a drive means that drives the weir up and down, the weir is adapted to move up and down substantially vertically, Since a seal is provided between the weir and the trough to prevent water from entering the trough, the scum can be attracted reliably and smoothly.
[0052]
The invention according to claim 2 is the invention according to claim 1, wherein the vertical movement of the weir responds to the movement on the flight side that is circulated and driven in the treatment pond. Therefore, the power of the existing equipment is utilized. Can be driven up and down, and the apparatus is inexpensive and easy to install.
[0053]
According to a third aspect of the present invention, in the second aspect, the dam and the driving means can be turned on and off, and the dam is uniquely water surface when the linking relation with the driving means is turned off. However, when the interlocking relationship with the driving means is turned on, it is interlocked up and down by the driving means. Even if it fluctuates, the level relationship between the weir and the water surface always remains constant, and the weir moves up and down based on this state. As a result, reliable scum penetration is always guaranteed.
[0054]
According to a fourth aspect of the invention, in the third aspect of the invention, the weir is provided with an engagement receiving portion on the outer surface thereof, while the driving means is engaged from a position away from the engagement receiving portion during the downward movement, and The scum can be attracted by lowering the weir while maintaining the engagement, and the drive means is lifted together with the weir and is disengaged from the engagement receiving portion at the rising end. It is a water level tracking type and ensures reliable operation.
[0055]
According to a fifth aspect of the present invention, in the third aspect of the present invention, the rotary weir is provided by a plurality of protrusions provided on the outer periphery of the processing pond so as to be rotatable. One end is connected to the weir and the other end is connected to the underwater float through a wheel provided on one side of the rotating disk and the wheel provided on one side of the rotating disk. The follow-up type scum removing device can be provided with a simpler structure. This structure can be applied to a structure in which a rotating disk is arranged near the water surface.
[0056]
According to a sixth aspect of the present invention, in the first aspect of the present invention, the driving means is a means that sinks by supplying water into a space in the weir or a water tank attached to the weir and floats as the supplied water sequentially flows out. Therefore, compared with the mechanical water level tracking type scum removing device as described above, the structure is extremely simple and the occurrence of trouble is reduced.
[0057]
According to an eighth aspect of the present invention, in any one of the first to seventh aspects, the dam is provided with a brake means for slowing the sinking speed of the dam. Stuffing is stabilized.
[Brief description of the drawings]
FIG. 1 is a front view of a scum removing device according to an embodiment of the present invention.
FIG. 2 is a plan view of the apparatus.
3 is a cross-sectional view taken along line III-III in FIG.
FIG. 4 is a side sectional view showing another embodiment.
FIG. 5 is a side sectional view showing another embodiment.
FIG. 6 is a side sectional view of a water-driven scum removing device according to another embodiment.
FIG. 7 is a rear view showing a water supply control method of the apparatus.
FIG. 8 is a side sectional view showing another embodiment.
FIG. 9 is a side sectional view showing another embodiment.
FIG. 10 is a side sectional view showing another embodiment.
11 is a plan view of the embodiment of FIG.
FIG. 12 is a plan view showing another embodiment.
FIG. 13 is a side sectional view showing another embodiment.
FIG. 14 is a plan view showing another embodiment.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 3 ... Flight, 7 ... Trough, 8 ... Water surface, 10 ... Scum opening, 15 ... Weir, 27 ... Chain (engagement receiving part).

Claims (2)

A trough-like trough that is fixedly installed in the treatment basin and at least one side of the scum inlet is set below the surface of the water so that scum and water from the outlet will flow out through the inside of the pond. The weir is located on the scum inlet side of the scum and its upper end moves up and down substantially vertically with the water surface as a boundary, and the up and down movement responds to the flight side movement that is circulated and driven in the treatment pond. Driving means for driving the weir up and down, and a seal provided between the weir and the trough to prevent water from entering the trough, the weir and the driving means, The interlocking relationship can be turned on and off, and when the interlocking relationship with the driving means is turned off, the weir can independently follow the level fluctuation of the water surface, while the interlocking relationship with the driving means is When it is in the on state, it will be linked up and down by the same drive means The scum removing device is configured such that the weir is provided with an engagement receiving portion on an outer surface thereof, and the driving means is engaged from a position away from the engagement receiving portion at the time of lowering and engages the engagement. The scum removing device is characterized in that the scum can be attracted by moving the weir downward while maintaining, and the drive means is lifted together with the dam and separated from the engagement receiving portion at the rising end. . A trough-like trough that is fixedly installed in the treatment basin and at least one side of the scum inlet is set below the surface of the water so that scum and water from the outlet will flow out through the inside of the pond. The weir is located on the scum inlet side of the scum and its upper end moves up and down substantially vertically with the water surface as a boundary, and the up and down movement responds to the flight side movement that is circulated and driven in the treatment pond. And a drive means for driving the weir up and down, and a seal provided to prevent water from entering the trough between the weir and the trough, and the drive means Is provided in the treatment pond so as to be rotatable, and is provided with a number of protrusions on the outer periphery. The protrusions are engaged with the protrusions on the flight side to advance and rotate, and return to rotation by buoyancy on the weir side. The drive panel is equipped with One end of the chain hung through a wheel provided on one side is connected to the weir and the other end is connected to an underwater float so that the balance is maintained so that the upper end of the weir is located on the water surface. A scum removing device.

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