JP4055194B2 - 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 floats on the surface of a sedimentation basin such as a rectangular sedimentation basin or a circular sedimentation basin.
[0002]
[Prior art]
For example, in a rectangular sedimentation basin, a cylindrical skimmer pipe is provided so as to be rotatable about the rotation shafts at both ends, and the skimmer pipe rotates in one direction to attract and remove scum on the water surface and return. Thus, the scum removing device is configured to stop the dam.
[0003]
[Problems to be solved by the invention]
By the way, conventional scum removal devices cannot follow the water level when returning, and therefore, when the water level in the sedimentation basin fluctuates, the inflow amount of water other than scum fluctuates, and post-treatment is difficult. There was .
[0004]
The present invention has been made to solve the above problems, and an object of the present invention is to provide a scum removing device in which a constant small amount of water is always allowed to flow even if the water level fluctuates so that post-processing can be easily performed. And
[0005]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, the invention according to claim 1 is a cylinder that is supported rotatably between the side wall and the scum pit of a sedimentation basin in which scum pits are disposed between opposing side walls via bearings at both ends. The skimmer pipe has a cylindrical portion at both ends, and a scum induction port is opened at an upper portion of the cylindrical portion corresponding to the both ends, and the skimmer pipe has one end on the side wall side. A scum pit is formed by a base that is closed by a lid and is rotatably supported by a first rotating shaft of a bracket provided on a side wall, while the other end on the side of the scum pit is opened to correspond to an opening opened in the scum pit. The scum on the water surface is swallowed through the scum induction port by rotating in one direction on the skimmer pipe. In the scum removing device configured to stop scum squeezing by rotating the skimmer pipe in the other direction while guiding the scum, a fixed cylinder is provided at the center of the other end cylindrical portion on the scum pit side of the skimmer pipe. The fixed cylinder is fixed by a plurality of fixed ribs arranged radially only above the skimmer pipe, and the fixed cylinder has the same second rotating shaft protruding toward the scum pit. The base is provided in a state where the base is inserted into the fixed cylinder, and the base is provided in a state of projecting in a cylindrical shape on one side of the plate-like part fixed to the side wall side of the scum pit by a fastening tool. An outer bearing cylinder inserted into the opening of the scum pit, an inner bearing cylinder provided concentrically with the outer bearing cylinder at the center of the plate-shaped portion, and an outer bearing cylinder and an inner bearing cylinder. And a plurality of fixed ribs that are connected in a radial pattern only above the projecting end of the second rotating shaft through a bearing provided inside the inner bearing cylinder, and the skimmer. Between the other end of the pipe and the base, a cylinder base is fixed to the plate-like part of the base, and a sealed cylinder extends so that the front end side of the cylinder overlaps the outer periphery of the other end cylindrical part of the skimmer pipe. The skimmer pipe is hermetically connected to the skimmer pipe through a seal inserted and held between the inner and outer sides of the skimmer pipe so as to allow the skimmer pipe to rotate.
[0006]
According to a second aspect of the present invention, in the scum removing device according to the first aspect, the base is a vertical surface at a position away from the side surface of the scum pit by a fastening device embedded in the side surface of the scum pit so that the nut can be moved and adjusted. In addition, a sealing material is poured into and fixed between the base plate defining the vertical plane and the scum pit .
[0007]
Embodiment
Hereinafter, the present invention will be described in detail with reference to preferred embodiments.
1 to 4 show an embodiment of the present invention. As shown in FIG. 1, reference numeral 1 denotes a sedimentation basin, and the sedimentation basin 1 is provided with opposing side walls 2 and 2 between which the water surface is formed by sewage. 3 is set.
[0008]
1 to 4 show a main part of a scum removing device that can be combined with various drive systems shown in FIG. In these drawings, reference numeral 5 denotes a skimmer pipe, and the skimmer pipe 5 has a cylindrical shape, and a scum attracting port 6 having a band length when viewed from above is opened at an upper portion thereof.
[0009]
As shown in FIG. 1, the skimmer pipe 5 has a box-shaped box that is installed later in the center in the width direction of one sedimentation basin 1, and has left and right ends supported by scum pits 7 with lids. Paired.
[0010]
FIG. 2 shows an enlarged cross section of the scum removing device on the left side of FIG. In FIG. 2, the skimmer pipe 5 has an open shape at the scum pit 7 side and the other end closed by a side lid 8. A bearing cylinder 10 is fixed to the side lid 8, and a spherical bearing 11 is housed inside the cylinder 10. The first rotating shaft 12 is inserted through the bearing 11, and the rotating shaft 12 is rotatably supported by a bracket 13 fixed to the pond side wall 2 via a support plate 14 made of nylon resin or the like. .
[0011]
On the other hand, the right end of FIG. 2 of the skimmer pipe 5 is supported by another method. In the right end portion of the skimmer pipe 5, as shown in FIG. 3, a second rotating shaft 16 is provided at the center. The rotating shaft 16 is connected to the outer periphery of the fixed cylinder 17 and the fixed cylinder 17. Are fixed to the skimmer pipe 5 in a detachable manner by fastening members 19. The reason why the fixing ribs 18 are provided only on the upper side is to facilitate the flow of scum water through the lower side as indicated by the arrows in FIG.
[0012]
An opening 21 that is slightly larger than the skimmer pipe 5 is opened on the side surface of the scum pit 7. Corresponding to the opening 21, the base 22 shown in FIG. The base plate 22 has a rectangular plate shape as shown in FIG. 4, and an outer bearing cylinder 24 as shown in FIG. An inner bearing cylinder 26 is provided at the center of the outer bearing cylinder 24 through only upper fixing ribs 25. The second rotating shaft 16 is freely rotatable through the spherical bearing 11 housed in the inner bearing cylinder 26. It is supported by. The base 22 can be defined by a fastener 23 embedded in the scum pit 7 so that the nut can be moved and adjusted. After the regulation, the base 22 is interposed between the base 22 and the scum pit 7. Is fixed by pouring a sealing material 28 such as mortar.
[0013]
Since the scum water flows between the right end of the skimmer pipe 5 in FIG. 2 and the base 22, the seal is configured as follows. On the front side of the base plate 22, a sealed cylinder 31 with a flange having a cylindrical shape is fixed by a fastening tool 32 via a packing 30. Between the sealing cylinder 31 and the skimmer pipe 5, a seal 33 is incorporated and a pressing plate 34 for the seal 33 is provided.
With the above configuration, the skimmer pipe 5 rotates lightly, and the scum water flows in as shown by the arrow in FIG. 2 and flows into the scum pit 7.
[0014]
In addition, although it is the same also in the following embodiment, the skimmer pipe 5 may be a rectangular cylinder shape or an elliptic cylinder shape.
[0015]
5 to FIG. 8 show various methods for rotationally driving the skimmer pipe 5.
In the embodiment of FIG. A pair of left and right brackets 37 project from the front surface of the skimmer pipe 5, and a clutch shaft 38 is connected so as to extend upward from the bracket 37. A float 39 is provided on the front side of the skimmer pipe 5 to return the skimmer pipe 5 to the illustrated dammed state. Instead of or together with the float 39, a return weight or spring may be provided.
[0016]
Reference numeral 40 denotes a rotating shaft, which is horizontally installed in the pond width direction and rotates. A pair of left and right chains 42 are circulated and driven clockwise in the figure by a sprocket 41 provided on the rotating shaft 40. A plurality of flights 43 are arranged on the outer periphery of the chain 42 at regular intervals, and a drive roller 44 is mounted on one or both end portions of the flights 43 so as to be freely rotatable.
[0017]
The drive roller 44 lifts the interlocking arm 47 like a virtual line through the cam 46 by circulating upward. The interlocking arm 47 is supported around the arm shaft 48, and one end of the arm 47 on the opposite cam side is lowered by the lifting. In response to this lowering operation, the clutch mechanism 50 is engaged, and the skimmer pipe 5 is rotationally interlocked in the push-down direction via the clutch shaft 38.
[0018]
The clutch mechanism 50 includes a clutch plate 52 that is rotatably provided at one end of the interlocking arm 47 via a shaft 51, an arm 53 that is rotatable together with the clutch plate 52, and a weight 54 provided at the tip of the arm. Have. The clutch plate 52 is horizontal in the case of a solid line, and a through hole 55 is opened in the surface thereof, the clutch shaft 38 is passed therethrough, and front and rear clutch claws 56 are provided. The clutch plate 52 is held in the horizontal posture by a stopper 57 provided on the fixed side. At this time, the clutch shaft 38 is movable up and down within the through hole 55. Accordingly, in this case, if the water level fluctuates, the skimmer pipe 5 can follow the water level by the float 39.
[0019]
As described above, when the interlocking arm 47 is lifted via the cam 46 and operates so that one end is lowered, the clutch plate 52 is also lowered, the clutch plate 52 is detached from the stopper 57, and the weight 54 acts. Thus, the clutch pawl 56 meshes with the clutch shaft 38 as indicated by an imaginary line. When the interlocking arm 47 is further lowered, the clutch shaft 38 is pushed down. As a result, the skimmer pipe 5 is driven to rotate in the forward direction, and the scum induction port 6 is brought below the water surface, so that the scum on the water surface is swallowed.
[0020]
When the driving roller 44 passes through the cam 46, it returns to rotate clockwise while being engaged with the weight of the cam 46 and the buoyancy of the float 39. Then, when the clutch plate 52 comes into contact with the stopper 57 by returning as shown by the solid line, the clutch plate 52 becomes horizontal and the clutch pawl 56 comes off from the clutch shaft 38, and the clutch returns to the disengaged state and can follow the water level. It becomes a state. The driving roller 44, the cam 46, and the interlocking arm 47 constitute a rotation driving unit.
[0021]
FIG. 6 shows another embodiment. A cam 60 is rotatably provided on the rotating shaft 40, and a lever 61 is caused to respond by the cam 60. The lever 61 interlocks the rack 62, and the gear 64 responds to the rack 62 via the pinion 63. When the gear 64 rotates in the clockwise direction in the drawing, the arm 656 moves down and the clutch plate 52 also moves down. The clutch plate 52 includes a clutch pawl 56 and a weight 54, and a stopper 57 is also configured. When the clutch plate 52 is lowered, it is disengaged from the stopper 57, so that the weight 54 acts and the clutch pawl 56 engages with the clutch shaft 38. As a result, the scum skimmer 5 is brought into the scum attracting state by the clutch shaft 38. When the cam 60 passes the lever 61, the gear 64 is rotated counterclockwise by the action of a spring 66 or a float (not shown), and returns to the solid line state of FIG. It becomes a state of disconnection.
[0022]
FIG. 7 also shows another embodiment. In this embodiment, an arm 68 and a weight 54 are provided on a rotating shaft 67, the clutch plate 52 is provided on the arm 68, and a water tank 69 is provided on the arm 68. A minute hole 70 is formed in the bottom or side surface of the water tank 69. In the state of the solid line in the figure, the clutch shaft 38 is in a disconnected state. When a certain amount of water begins to be supplied into the water tank 69 from above, the clutch plate 52 is lowered forward, the clutch pawl 56 is engaged with the clutch shaft 38, and the skimmer pipe 5 is brought into the scum-attracting state. Water is drained from the water tank 69 through the micro holes 70, and therefore, after a certain period of time has passed, the operation moves to the returning operation while being engaged. Then, when the weight 54 hits the stopper 57, the clutch shaft 38 is returned to the disconnected state.
[0023]
FIG. 8 also shows another embodiment. In the embodiment, the pond bottom cam 46 is driven by the driving roller 44 of the flight 43 provided in the chain 42, and the clutch plate 52 is interlocked via the interlocking arm 47 and the interlocking rod 73. It is a drive system from the bottom of the pond. A manual arm 74 can also be provided.
[0024]
【The invention's effect】
Since the present invention is as described above, it is possible to provide a scum removing device in which a constant small amount of water is always allowed to flow even if the water level fluctuates so that post-processing can be easily performed.
[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 an enlarged cross-sectional view of a main part of FIG.
3 is a cross-sectional view taken along line III-III in FIG.
4 is a sectional view taken along line IV-IV in FIG.
FIG. 5 is a side sectional view showing an example of a driving method.
FIG. 6 is a side sectional view showing another driving method.
FIG. 7 is a side sectional view showing another driving method.
FIG. 8 is a side sectional view showing another driving method.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Sedimentation basin 5 ... Skimmer pipe 38 ... Clutch shaft 50 ... Clutch mechanism 5
56 ... Clutch pawl.

Claims (2)

A cylindrical skimmer pipe is supported between the side wall and the scum pit of the sedimentation basin in which the scum pit is disposed between the opposing side walls, and is supported rotatably through the bearings at both ends, and the skimmer pipe has cylindrical portions at both ends. The scum guide opening is opened in the upper part of the cylindrical portion corresponding to the both ends in the remaining state, and the skimmer pipe has a first rotation of a bracket provided on the side wall with one end on the side wall closed by a side cover. The other end of the scum pit side, which is supported rotatably by the shaft, is open and supported by the base mounted in correspondence with the opening opened in the scum pit, and is supported rotatably and connected to the scum pit side. By rotating in one direction, the scum on the water surface is swallowed through the scum guide port and the scum is guided into the scum pit, while the other direction of the skimmer pipe In the scum removing device configured to stop scum squeezing by rotation of the scum, a fixed cylinder is provided at the center of the other end cylindrical portion on the scum pit side of the skimmer pipe. The fixed cylinder is fixed by a plurality of fixing ribs arranged radially only upward, and a second rotating shaft protruding toward the scum pit is provided in the fixed cylinder in a state where a base portion is inserted into the fixed cylinder. The base is fixed to the side wall of the scum pit by a fastening member, and the outer bearing cylinder is provided in a state protruding in a cylindrical shape at one of the plate-like parts and is inserted into the opening of the scum pit. And an inner bearing cylinder provided concentrically with the outer bearing cylinder at the center of the plate-like portion, and a plurality of radially connecting portions between the outer bearing cylinder and the inner bearing cylinder only in an upward direction. Configured fixed and rib arrangement, the projecting end of the second rotary shaft via a bearing provided inside is inserted and supported in said bushing, between the other end and the base of the skimmer pipe, tube A base cylinder is fixed to the plate-like part of the base and a cylinder tip side extends so as to overlap the outer circumference of the other end cylindrical part of the skimmer pipe, and is inserted between the inside and outside of the cylinder and the skimmer pipe. A scum removing device, wherein the skimmer pipe is hermetically connected through a held seal so as to permit rotation.   2. The scum removing device according to claim 1, wherein the base is defined with a vertical surface at a position away from the scum pit side by a fastening device embedded in the side of the scum pit so that the nut can be moved and adjusted. In addition, a scum removing device in which a sealing material is poured and fixed between a base plate defining a vertical surface and a scum pit.

Images