JP2016159294A - Sedimentation promotor and sedimentation basin - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a sedimentation promotor which can remove not only clean water but also organic sludge of sewage by effective sedimentation of the same and a sedimentation basin.SOLUTION: A sedimentation promotor 1-1 is installed in treatment object water 101 and accumulates sediments that keep on precipitating in the treatment object water 101 to remove the same. The sedimentation promotor 1-1 comprises an endless sheet 10 that accumulates sediments that keep on precipitating in the treatment object water 101, a rotor 20 that moves an endless sheet 10 where sediments have accumulated and scrapers 103, 105 that remove sediments accumulated on the endless sheet 10. The endless sheet 10 is provided with sediment mounts 15 at a plurality of points by being folded back.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a precipitation accelerating device and a sedimentation basin suitable for use in a sedimentation basin of various water treatment facilities such as clean water, industrial water, sewage, human waste, and industrial wastewater.

  Conventionally, when a more effective sedimentation effect is expected in a sedimentation basin that performs a sedimentation process in various water treatment facilities, an inclined plate sedimentation apparatus or an inclined pipe sedimentation apparatus is generally installed. Of these, the inclined plate settling device is configured by arranging a large number of inclined plates in parallel. The floc removal capacity of the sedimentation basin is represented by the surface load factor, that is, the flow rate of the water to be treated divided by the bottom area of the sedimentation basin. The smaller this surface load factor, the better the floc removal capacity of the sedimentation basin. . That is, the larger the bottom area of the sedimentation basin, the better the floc removal ability of the sedimentation basin. And since the inclined plate sedimentation apparatus is equipped with many inclined plates as mentioned above, the bottom area of a sedimentation basin can be substantially enlarged by precipitating a floc on this inclined plate. Therefore, the inclined plate settling device can greatly improve the floc removal capability of the settling tank.

JP 2002-316003 A

  The inclined plate settling device is often used in water treatment facilities for water and industrial water, but is rarely used in water treatment facilities for sewage. This is because in the case of clean water etc., most of SS (floating matter or suspended matter) is inorganic, there is little adhesion to the inclined plate, and SS deposited on the inclined plate naturally falls relatively easily, In addition, because it is easy to wash, in the case of sewage, the sludge accumulated on the inclined plates is unlikely to fall naturally due to organic sludge. This is because a film is generated and the accumulated sludge is not as easy to clean as water.

  The present invention has been made in view of the above-mentioned points, and the object thereof is not only clean water and the like, but even organic sludge such as sewage can be effectively precipitated and removed. The object is to provide a sedimentation accelerator and a sedimentation basin.

The present invention is a precipitation accelerating device that is installed in treated water and deposits and removes precipitates that precipitate in the treated water, and the precipitation promoting device precipitates the treated water. Sheet for depositing deposit, sheet moving means for moving the sheet on which the deposit is deposited to another position, and deposit removing means for removing the deposited precipitate from the sheet moved to the other position It is characterized by comprising.
The sediment deposited on the sheet is transported to another position while being placed on the sheet and removed by the sediment removal means, so that the removal of the sediment is easy, and not only water but also organic such as sewage Even if it is a characteristic sludge etc., this can be removed from a sheet | seat easily and reliably.
Here, as the sediment removing means, in addition to a scraper, a cleaning spray nozzle, and a brush, there is included a means for separating the sediment by changing the sheet shape at the time of reversal by adopting a structure for reversing the sheet.

Further, the present invention is characterized in that the surface of the deposit placing portion for depositing the deposit of the sheet is an inclined surface for naturally dropping the deposited deposit.
Thereby, the deposit accumulated on the sheet can be efficiently removed without using the deposit removing means. In addition, since the amount of deposits deposited on the sheet is reduced, the movable distance between the sheet and the deposit removing means (resting period between movable) can be increased, and the running cost can be reduced.

Further, the present invention is characterized in that the sediment removal means for the sheet is provided at a position drawn from the surface of the water to be treated.
This makes it possible to easily and reliably remove the deposit from the sheet.

In the present invention, the sheet is an endless sheet, and is driven to rotate by the sheet moving unit, and a deposit placing unit for depositing the deposit, and a precipitate for removing the deposit accumulated by the deposit removing unit. And an object removal unit.
Since the sheet is composed of an endless sheet, it is possible to move the deposit deposited on the deposit placing portion of the sheet continuously to another position and efficiently remove the deposit.

Further, the present invention is characterized in that the deposit placing portion is provided at a plurality of locations by folding the sheet.
Accordingly, the area of the deposit placing portion can be increased in a compact manner without increasing the number of sheets, and more effective sediment collection and removal can be performed. Furthermore, if a sheet | seat is folded back more than once, the area of a deposit mounting part can be increased significantly.

Further, the present invention is characterized in that the sheet is provided with a notch for passing the water to be treated or for passing the precipitate.
As a result, since the water to be treated and the precipitate can pass through the notch, it is possible to ensure a smooth flow of the water to be treated and a smooth drop of the precipitate. Moreover, the weight of the sheet can be reduced by providing the notches.

  Moreover, the sedimentation basin according to the present invention is characterized in that the above-described sedimentation accelerating device is installed in the water to be treated.

  According to the present invention, not only clean water etc. but also organic sludge such as sewage can be effectively precipitated and removed.

It is a schematic sectional side view of the sedimentation basin 100 which installed the precipitation acceleration apparatus 1-1. It is a schematic plan view of the sedimentation basin 100 which installed the precipitation acceleration apparatus 1-1. It is a principal part perspective view of the precipitation acceleration apparatus 1-1. 2 is a plan view showing a part of an endless sheet 10. FIG. 2 is an enlarged perspective view of a main part of a portion of a locking hole 11 on one side of an endless sheet 10. FIG. It is a schematic sectional side view of the sedimentation basin 100-2 which installed the precipitation acceleration apparatus 1-2. It is a schematic plan view of the sedimentation basin 100-2 which installed the precipitation acceleration apparatus 1-2. It is a principal part perspective view of the precipitation acceleration apparatus 1-2. It is a top view which shows a part of endless sheet | seat 10A. It is a top view which shows a part of endless sheet | seat 10B.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a schematic cross-sectional side view showing an example of a sedimentation basin 100 in which a sedimentation promotion apparatus 1-1 according to an embodiment of the present invention is installed. FIG. 2 is a schematic plan view of the sedimentation basin 100 in which a precipitation promotion apparatus 1-1 is installed. FIG. In water treatment facilities such as sewage treatment facilities, the first sedimentation basin for sinking fine dirt in the treated water to the bottom, and the final sedimentation basin for sinking activated sludge in the treated water after being decomposed by microorganisms to the bottom Etc. are utilized, and the sedimentation promotion apparatus 1-1 shown in FIG. 1 is used for these sedimentation basins 100. The sedimentation basin 100 has a horizontally long structure in order to prevent drift of the water to be treated 101 in the pond and to impart straightness to the flow of the water to be treated 101. In the vicinity of the center in the settling basin 100, two settling promotion apparatuses 1-1 according to the present embodiment are installed on the upstream side and the downstream side of the flow of the water to be treated 101. In addition, a substantially cylindrical scum skimmer 107 that takes in and removes scum (floating sludge, etc.) on the water surface further on the upstream water surface of the upstream sedimentation accelerator 1-1 is disposed in the width direction of the sedimentation basin 100 (water to be treated). It is installed so as to cross the sedimentation basin 100 in a direction orthogonal to the flow direction of 101 (hereinafter the same).

  FIG. 3 is a perspective view of a main part of the precipitation accelerating device 1-1. As shown in FIG. 1 and FIG. 1 and FIG. 2, the precipitation accelerating device 1-1 includes a strip-like endless sheet (hereinafter referred to as “endless sheet”) 10 and a plurality of sheet moving means (hereinafter referred to as “rotating bodies”). 20 is stretched so as to meander.

  FIG. 4 is a plan view showing a part of the endless sheet 10, and FIG. 5 is an enlarged perspective view of a main part of the locking hole 11 on one side of the endless sheet 10. As shown in both figures, the endless sheet 10 is provided with a large number of locking holes 11 for feeding the sheet in the longitudinal direction in the vicinity of both sides of the belt-like sheet, and the sheet feeding direction at the center of the sheet. A long rectangular cutout 13 extending in a direction orthogonal to A or B is provided. The locking holes 11 are provided at equal intervals along the entire side of the endless sheet 10 along the side of the endless sheet 10. The notches 13 are formed at equal intervals so as to substantially cross the length of the left and right engaging holes 11, that is, the entire width of the endless sheet 10. For the endless sheet 10, for example, a resin sheet is used, and both surfaces thereof are preferably smooth so that the precipitate can be easily peeled off or spontaneously dropped.

  Each rotating body 20 that supports and moves the endless sheet 10 is a gear in this example, and is attached to a shaft protruding from the inner peripheral side wall of the settling basin 100. Each rotating body 20 is installed near the left and right sides of the endless sheet 10 and meshes with the locking holes 11 of the endless sheet 10. Each rotating body 20 is installed at a position where the endless sheet 10 is bent, and the endless sheet 10 is folded back multiple times by these, and the upper surface side of each folded endless sheet 10 is used as a deposit placing portion 15. The deposit placing part 15 has a plurality of surfaces, and in this example, there are six surfaces. Since the deposit placing unit 15 is each upper surface of the endless sheet 10 folded back, the deposit placing unit 15 is formed on both the front and back surfaces of the endless sheet 10. Each notch 13 is located in each sediment placing portion 15. A rotating drive mechanism (not shown) is attached to any of the rotating bodies 20, and the rotating body 20 is driven by the rotating drive mechanism, thereby moving (rotating) the endless sheet 10. The rotation drive mechanism may be a manual mechanism or an electric mechanism. Further, basically, a manual mechanism may be used, and if necessary, a portable electric motor may be connected and operated. In addition, each sediment placing portion 15 of the endless sheet 10 is inclined, and the inclination angle θ (inclination angle from the horizontal plane, see FIG. 1) is suitable for the deposited sediment to slide down, θ = 45 ° to 80 °, desirably 60 ° is preferable.

  The pair of left and right rotating bodies located at the uppermost position of the rotating body 20 pulls the endless sheet 10 upward. As shown in FIG. 1, the portion of the endless sheet 10 pulled upward is pulled upward from the water surface of the water 101 to be treated. Precipitation removing means (hereinafter referred to as “scraper”) 103 and 105 are installed on the outside and inside of the endless sheet 10 drawn on the water surface, respectively. Both scrapers 103 and 105 are each formed to have a length extending over substantially the entire length in the width direction of the endless sheet 10 and remove deposits deposited on the moving endless sheet 10. A portion of the endless sheet 10 where the precipitate is removed by the scrapers 103 and 105 is referred to as a precipitate removing unit 17. As the sediment removing means, a cleaning spray nozzle (not shown) may be installed in combination with the scrapers 103 and 105 or in place of the scrapers 103 and 105. If a scraper and a spray nozzle for cleaning are provided together, more effective cleaning can be achieved by the synergistic effect of both. Furthermore, instead of the scrapers 103 and 105, other various deposit removing means such as a rotating brush may be used. Moreover, although the sediment removal part 17 is provided in the part of the endless sheet 10 pulled up to the upper surface of the water as described above, a maintenance part for inspecting, adjusting, and replacing the endless sheet 10 may be provided. Good. In addition, since the endless sheet | seat 10 can be comprised with a lightweight sheet, the replacement | exchange can be performed easily and a maintenance can also be performed easily.

  Next, the operation of the precipitation accelerating device 1-1 will be described. Usually, the sedimentation accelerator 1-1 is not driven and the endless sheet 10 is stationary. And the to-be-processed water 101 introduced in the sedimentation basin 100 from the inflow side C1 of FIG. 1 flows in the sedimentation basin 100 toward the downstream. Precipitates with a high sedimentation rate settle directly to the bottom of the sedimentation basin 100 before flowing into the sedimentation accelerator 1-1, while sediments with a low sedimentation rate flow into the stationary sedimentation accelerator 1-1. Then, the precipitate is deposited on each deposit placing portion 15. Since the to-be-processed water itself which entered into the precipitation accelerating device 1-1 flows out from the notch 13 to the downstream side, the flow is smoothly performed. A part (or many) of the sediment deposited on the sediment placing portion 15 naturally slides on the inclined sediment placing portion 15 and falls from the outer periphery or the notch 13 of the endless sheet 10. Then, it settles directly to the bottom of the sedimentation basin 100. Therefore, the amount of deposits remaining on the deposit placing part 15 can be reduced. The sediment deposited on the bottom of the sedimentation basin 100 is discharged out of the sedimentation basin 100 by a mud discharge device (not shown). On the other hand, the water to be treated 101 from which the sediment has been removed is discharged from the outflow side C2 to the outside of the sedimentation basin 100 and proceeds to the next step.

  When the settling device 1-1 is stopped for a predetermined period (for example, 1 year, 6 months, 1 month, 1 day, etc.), the settling unit 15 has a predetermined amount of the natural fall that has not fallen naturally. Deposits accumulate. Therefore, at this time, the endless sheet 10 is rotationally moved by rotating the precipitation accelerating device 1-1 for a predetermined time (or a predetermined rotation speed) and rotating any of the rotating bodies 20 by a rotation driving mechanism (not shown). As a result, some of the deposits adhering to both surfaces of the endless sheet 10 are naturally separated by vibrations caused by the operation of the precipitation accelerating device 1-1, while the deposits that are not naturally separated are the scrapers 103 and 105. After being carried to the position, it is peeled off by these scrapers 103 and 105. The peeled deposit is discharged to the outside of the sedimentation basin 100 by a transfer device (not shown). In the case of this precipitation accelerating device 1-1, a part of the endless sheet 10 is pulled out on the water surface, and the deposit is removed by the scrapers 103 and 105 at the pulled-out portion. It can be done reliably. Thus, since the deposit deposited on the deposit placing portion 15 of the endless sheet 10 is removed by the scraper 103, 105 in the deposit removing portion 17 moved from the deposited position, the deposit can be easily removed. Even if the deposited sediment is organic sludge such as sewage or generated algae, it can be effectively removed.

  Instead of directly carrying out the peeled deposits to the outside, the deposits peeled off by the scrapers 103 and 105 are dropped into the treated water 101 as they are and collected on the bottom surface of the sedimentation basin 100, not shown in the drawing. You may comprise so that it may discharge | emit outside the sedimentation basin 100 with a mud drain apparatus etc. In some cases, the endless sheet 10 may not be pulled out onto the water surface, and the deposits may be removed by the scrapers 103 and 105 in water (the same applies to the following embodiments).

  FIG. 6 is a schematic cross-sectional side view showing an example of a sedimentation basin 100-2 in which a sedimentation promotion apparatus 1-2 according to another embodiment of the present invention is installed, and FIG. 7 is a sedimentation basin 100 in which the precipitation promotion apparatus 1-2 is installed. -2 is a schematic plan view, and FIG. 8 is a perspective view of a main part of the precipitation accelerating device 1-2. In the precipitation accelerating device 1-2 shown in the figure, the same or corresponding parts as those in the precipitation accelerating device 1-1 shown in FIGS. Note that matters other than those described below are the same as those in the embodiment shown in FIGS.

  In this precipitation promoting device 1-2, the difference from the precipitation promoting device 1-1 is that the slope of the sediment placing portion 15 of the endless sheet 10 installed in the water to be treated 101 is loosened. In this way, when the slope of the sediment placing part 15 is relaxed, most of the sediment deposited on the sediment placing part 15 is retained on the sediment placing part 15. Therefore, for example, when most of the sediment deposited on the sediment placing portion 15 is not collected on the bottom surface of the sedimentation basin 100 by natural fall, but is desired to be discharged directly to the outside of the sedimentation basin 100 by the scrapers 103 and 105. In such a case, the precipitation accelerator 1-2 may be configured. The surface of the deposit placing part 15 may be a horizontal surface (θ = 0 °) that is not inclined at all.

  As another example of the precipitation accelerating device, for example, the setting directions of the precipitation accelerating devices 1-1 and 1-2 may be installed in a direction rotated 180 ° (that is, an inverted direction) with respect to a vertical axis. In addition, various further modifications are possible, such as installation in a direction rotated by 90 °. When the sediment placing unit 15 is tilted and the sediment is allowed to fall naturally as in the sedimentation accelerator 1-1, the endless sheet 10 is driven every time a long period of time (for example, one month or more) elapses. However, in the case where the deposit placing unit 15 is not inclined and the deposit does not fall naturally as in the precipitation promoting device 1-2, the endless sheet 10 is driven every short period (for example, every day). .

  9 and 10 are plan views showing part of endless sheets 10A and 10B according to other embodiments of the present invention, respectively. As shown in FIGS. 9 and 10, various changes can be made in the shape and arrangement position of the notches 13 provided in the endless sheets 10A and 10B. For example, a horizontally long notch such as the endless sheet 10A can be used. The installation interval of 13 may be reduced. Further, for example, rectangular cutouts 13 may be provided alternately in the vertical and horizontal directions as in the endless sheet 10B. Although not shown in the drawings, other various shapes and arrangements such as a circular shape or a polygonal shape may be used other than the above example. If the ratio of the notches 13 to the endless sheets 10A, 10B is increased as in the endless sheets 10A, 10B, the weight of the endless sheets 10A, 10B can be reduced instead of reducing the amount of deposits deposited. The driving power can be reduced. Further, the amount of the water to be treated 101 passing through the notch 13 can be increased, and the water to be treated 101 can be distributed (moved) more smoothly. It can prevent staying.

  In each of the above-described embodiments, the scraper 103, 105, or a cleaning spray nozzle, a brush, or the like, which replaces the scraper 103, is installed to configure the sediment removing means. However, the scraper 103, 105, the cleaning spray nozzle, or the brush is configured. However, the reversing structure of the endless sheet 10 by the rotating body 20 itself may be configured as the sediment removing means. In this case, all the portions where the endless sheet 10 is reversed are the sediment removing means. Even if comprised in this way, a deposit can be peeled by the change of the sheet | seat shape at the time of inversion (for example, change from planar shape to circular arc surface shape). That is, in this case, at least one sheet reversing part may be provided in the movable sheet (endless sheet 10), and this part may be used as the sediment removing means. Also in this case, the deposit removing means is not necessarily installed on the water surface, and the entire endless sheet 10 may be submerged. Further, as the precipitate removing means, for example, various other precipitate removing means such as a vibration applying means for applying vibration to the endless sheet 10 may be used.

  Although the embodiments of the present invention have been described above, the present invention is not limited to the above-described embodiments, and various modifications can be made within the scope of the technical idea described in the claims and the specification and drawings. Is possible. Note that any shape, structure, or material not directly described in the specification and drawings is within the scope of the technical idea of the present invention as long as the effects and advantages of the present invention are exhibited. For example, in the sedimentation promoting device, the structure is such that the gears facing left and right are not connected by a shaft or the like, thereby simplifying the device, reducing the weight, reducing the cost, etc. Since a large weight is not applied, it can be used even if the shaft is omitted.) Of course, a shaft may be installed. Moreover, in the said sedimentation basin, although one sedimentation promotion apparatus (namely, one endless sheet) was installed over the full width of a sedimentation basin, when the width dimension of a sedimentation basin is long, for example, several precipitation promotion apparatuses ( That is, a plurality of endless sheets) may be installed side by side.

  In the above example, a gear is used as the rotating body, but various other rotating bodies such as a pulley may be used. Further, in the above example, the sheet moving means is formed by the rotating body, but instead, the sheet moving means may be configured by a guide frame body that reverses and guides the endless sheet while sliding. In short, any configuration may be used as long as the sheet moving means moves the sheet. In the above example, an endless sheet is used as the sheet. However, the present invention is not limited to this, and an endless sheet may be used. In this case, for example, the sheet may be reciprocated. Moreover, the sedimentation basin shown in the said FIG. 1, FIG. 6 is a typical cross-flow type sedimentation basin, and although the flow of the water at this time is a horizontal (horizontal) direction, the sedimentation promotion apparatus concerning this invention is You may use for the crossflow type sedimentation basin of various structures other than illustration, and also the upward flow type sedimentation basin which made the flow of the water to this precipitation acceleration | stimulation apparatus the upward flow from the bottom to the top.

1-1 Precipitation accelerator 10 Endless sheet (sheet)
11 Locking hole 13 Notch 15 Sediment placement part 17 Sediment removal part 20 Rotating body (sheet moving means)
100 sedimentation basin 101 treated water 103,105 scraper (precipitate removal means)
107 Scum Skimmer 1-2 Precipitation Promoter 100-2 Sedimentation Pool 10A, 10B Endless Sheet

Claims (7)

A precipitation promoting device that is installed in the water to be treated and deposits and removes the precipitate that precipitates in the water to be treated;
The precipitation promoting apparatus includes a sheet for depositing a precipitate that precipitates in the water to be treated, a sheet moving unit that moves the sheet on which the deposit is deposited, and a sheet moved to the other position. A precipitation accelerating device comprising: a sediment removing means for removing the deposited sediment from the soil. The precipitation accelerating device according to claim 1,
The precipitation accelerating device characterized in that the surface of the sediment placing portion for depositing the sediment of the sheet is an inclined surface for allowing the deposited sediment to fall naturally. The precipitation accelerating device according to claim 1 or 2,
The precipitation promoting device, wherein the sediment removal means of the sheet is provided at a position drawn from the surface of the water to be treated. The precipitation accelerating device according to claim 1, 2 or 3,
The sheet is an endless sheet, and is rotationally driven by the sheet moving unit to deposit the deposit, and a deposit removing unit that removes the deposit accumulated by the deposit removing unit. A precipitation accelerating device characterized by comprising: The precipitation accelerating device according to claim 4,
A sedimentation accelerating device characterized in that the sediment placing section is provided at a plurality of locations by folding the sheet. The precipitation accelerating device according to claim 4 or 5,
The precipitation promoting apparatus, wherein the sheet is provided with a notch for passing the water to be treated or for passing the precipitate.   A sedimentation basin characterized in that the sedimentation accelerating device according to any one of claims 1 to 6 is installed in water to be treated.