JP2008297724A - Method for removing dust in flowing water - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method and a screen for removing dust in flowing water flexibly coping with various water channels and situations. <P>SOLUTION: In this method for removing dust in flowing water, a screen and the screen for removing dust provided with a rake positioned in an upper part of the ordinary screen are used, the rake is lowered along the screen to push impurities into a lower part of the screen, and the direction of flow of water is reversed into the reverse direction to that of usual flow of water to discharge the impurities separated from the screen into the reverse direction to that of usual flow of water through a lower part of the screen. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

The present invention relates to a method for removing dust in running water, and in particular, it is possible to separate and remove contaminants from the screen without raising the surface above the water surface, and to efficiently restore the function as a dust removing screen. It is.

All the conventional dust removing devices scrape the dust captured by the screen with a rake and accumulate it in another place to treat it as so-called industrial waste.

However, in the case of a conventional rake-flick screen, the following points are problems.
a. The foreign matter becomes industrial waste when it is swept above the water surface and cannot be returned to the water again.
b. Therefore, in addition to the scraping device for the foreign matter, a moving and accumulating device for the scraped foreign matter is required, and the collected foreign matter needs to be treated as industrial waste.

In view of this, the present inventor has a movable screen that can be moved up and down as shown in Japanese Patent Application Laid-Open Publication No. 2006-177133 (see Patent Document 1) and a rake that is normally positioned above the movable screen. Along with lowering the screen, the dust is pushed to the lower part of the screen and the lower end of the movable screen is raised above the rake position, so that the dust separated from the movable screen is discharged from the lower part of the movable screen. Suggested a screen.
JP 2006-177133 A

However, in the above-described conventional example, only a method for discharging the impurities separated from the movable screen from the lower part of the movable screen by raising the lower end of the movable screen has been proposed, and it is not possible to flexibly cope with various waterways and situations. There was a problem.
Therefore, the present invention is intended to provide a dust removal method in running water that can flexibly cope with various water channels and situations.

That is, the method for removing dust in running water according to the present invention uses a dust removing screen having a screen and a rake that is usually located at the upper part of the screen, and lowers the rake along the screen so that impurities are placed at the lower part of the screen. In addition to pushing, the water flow was reversed in the opposite direction to the normal water flow, so that the impurities separated from the screen were discharged from the bottom of the screen in the opposite direction to the normal water flow. It is a feature.

The method for removing dust in running water according to the present invention uses a dust removing screen having the screen and a rake that is usually located at the top of the screen, lowers the rake along the screen, and puts contaminants at the bottom of the screen. It is characterized by recovering the upper water flow capacity in the pushed state and continuing the dust removal as it is.

The dust removal method for running water according to the present invention is characterized in that a dust removal screen is used in which the screen is arcuate and the rake is rotated along the surface of the arcuate screen.

According to the dust removal method and the dust removal screen of running water of the present invention, the following effects can be obtained.
A. Since the contaminants are accumulated in the water and separated from the screen, the contaminants do not become industrial waste, and can be discharged as they are in the direction opposite to the normal flow of water.
B. Since no industrial waste is generated, the mobile stacking apparatus and processing are not required.

In addition, the above series of processes,
1) Lower the rake along the screen and restore the upper water-passing capacity with the impurities pushed to the lower part of the screen.
2) Lower the rake along the screen and reverse the flow of water in the flow path where the screen is installed in the opposite direction to the normal flow of water to separate the contaminants from the screen into the flow of water. Ride and wash away.
By programming the above process in the control system, the dust removal function of the screen can be automatically maintained, industrial waste is not generated because the waste is treated in water, and the dust removal system can be simplified. it can.
It should be noted that during the operation of reversing the water flow in the opposite direction to the normal water flow and separating / removing foreign substances from the screen, it cannot be used for power generation.

Embodiments of the dust removal screen of the present invention will be described below in detail with reference to the drawings.
FIG. 1 is a schematic front view showing an embodiment of a dust removing screen according to the present invention, FIG. 2 is a schematic side view of a movable screen portion, FIG. 3 is an explanatory diagram showing processing steps for foreign matters, and FIG. It is the schematic explaining the waterway which installed the screen for water.

In FIGS. 1 and 2, reference numeral 11 denotes a concrete water channel, and guide grooves 13 for attaching the screen 12 to the water channel are obliquely formed on both side walls so that the lower side faces the upstream direction. A screen fixing shaft 14 is fitted in the guide groove 13 and is held in the guide groove 13.

A descending rake 15 is attached to the upper portion of the screen 12, and the claw portion 16 is held downward while being fitted into the gap of the screen 12.
The descent rake 15 can be driven by its own weight when it is lowered, and can be raised by a hoisting wire when it is lifted or moved up and down by a hydraulic cylinder or other driving device.

Next, a method for operating the dust removing screen of the present invention will be described with reference to FIG.
(A) Step 1
At the time of dust removal, which is the main purpose of the dust removal screen, the descending rake (1b) 15 attached to the screen (1a) 12 reaching the bottom of the water channel is lifted above the water surface.
(B) Step 2
When removing the contaminants 21 from the screen (1a) 12, the descending rake (1b) 15 is lowered into the water along the screen (1a) 12, and the contaminants (I) 21 captured by the screen (1a) 12 are removed. Push down around the bottom. Thus, in the state where the descent rake (1b) 15 is lowered along the screen (1a) 12 and the foreign matter (ii) 21 is pushed to the lower part of the screen (1a) 12, the upper water flow capacity is restored. So you can pass water as it is.
(C) Step 3
The operation of removing the impurities 21 from the screen (1a) 12 is performed by reversing the flow of water in the water channel. That is, when the descending rake (1b) 15 is lowered to a predetermined position in a state where the flow of water in the water channel is reversed, the foreign matter (ii) 21 is left under the descending rake (1b) 15. . At that time, if a step 22 having a lower upstream side is provided on the bottom surface of the water channel, the foreign matter (a) 21 is reliably separated from the screen (1a) 12.
The foreign matter (ii) 21 separated from the screen (1a) 12 and left in the step 22 portion is not restrained by the screen (1a) 12, so it rides on the water flow and is in the opposite direction to the normal water flow. To be eliminated.
(D) Step 4
If necessary, when the descending rake (1b) 15 attached to the screen (1a) 12 is raised above the water surface, the foreign matter (I) 21 floating near the water surface is also opposite to the normal flow of water. Excluded in the direction.
Further, the descent rake (1b) 15 attached to the screen (1a) 12 is set to the initial position, the water flow is returned to the normal state, and dust removal is started again (step 1). By repeating the above process, the dust removal function of the screen is maintained.

By programming the series of steps (a) to (d) described above in the control system, the dust removal function on the screen can be automatically maintained, and industrial waste is generated in order to treat contaminants in water. The dust removal system can be simplified.
In addition, during the work of reversing the flow of water in the water channel and separating / removing impurities from the screen, it cannot be used for power generation.

FIG. 4 shows a schematic view of a water channel in which the dust removing screen of the present invention is installed.
A screen 12 and a descent rake 15 constituting a dust removing screen of the present invention are installed in a water channel 11 led from a river 31 or the like.
First, in a state where the dust removal screen is operated (solid line), the gate 32 installed behind the screen 12 is pulled up or laid down and opened. On the other hand, the gate 35 installed in the sub-water channel 34 is pulled down or stood and closed. A main gate 36 is provided at the entrance of the water channel 11, and a back-washing gate 37 is provided on the opposite surface of the water channel 11 in front of the screen 12.
That is, in the state where the process proceeds from step 1) to step 2), the lowering rake 15 is lowered along the screen 12 and the water flow capacity of the upper part is restored while the contaminants 21 are pushed to the lower part of the screen 12. Then pass the water as it is. The water after dust removal is appropriately used in the simple power generation facility 33 and the like.

Next, in the state where the contaminants 21 are removed from the dust removal screen, the gate 32 installed behind the screen 12 is lowered or stood and closed.
That is, in step 3), with the lowering rake 15 lowered along the screen 12, the gate 35 is opened, the main gate 36 at the entrance of the water channel 11 is closed, and the reverse of the water channel 11 in front of the screen 12 is reversed. The washing gate 37 is opened. In this state, the water containing the contaminants 21 is pulled up to the screen 12 in the direction opposite to the normal water flow when the gate 35 is pulled up. It is released.
The foreign matter (ii) 21 separated from the screen (1a) 12 and left in the step 22 portion is no longer restrained by the screen (1a) 12, and is opposite to the normal water flow on the water flow. Excluded in the direction.

FIG. 5 is a schematic front view showing another embodiment of the dust removal screen of the present invention, and FIG. 6 is a schematic view for explaining the situation where the dust removal screen is installed.

5 and 6, reference numeral 41 denotes a concrete water channel, and a rotating shaft 43 for attaching the screen 42 to the water channel is attached to both side walls thereof. In this example, the screen 42 has an arc shape, and does not need to be lifted or lowered during the attachment work, and can be installed in an upper open water channel, for example, a closed water channel.
In the figure, reference numeral 44 denotes a fixed shaft for connecting a large number of screens 42, and is attached to the rotary shaft 43 via a connecting arm 45.

At the top of the screen 42, a descending rake 46 is coaxially attached to the screen 42 so as to be mounted on the rotary shaft 43, and the claw portion 47 is held downward while being fitted into the gap of the screen 42. ing. The descent rake 46 is driven by its own weight when descending around the rotating shaft 43, and is rotated by a hoisting wire when it is lifted, or rotated by a hydraulic cylinder or other driving device. be able to.
Of course, the steps (a) to (d) in the above-described embodiment are also adopted in this embodiment, and the series of steps are programmed in the control system, so that the dust removal function on the screen can be automatically maintained. Even in such a case, industrial waste is not generated because impurities are treated in water, and the dust removal system can be simplified.
That is, when the descending rake 46 is lowered to a predetermined position, the contaminants move below the descending rake 46.
When the water flow in the water channel is reversed, the impurities separated from the screen 42 are removed in the reverse direction of the normal water flow on the water flow.

The dust removal screen of the present invention can be used not only in front of a water gate of a concrete waterway or a water intake for a small power generation facility, but also as a dust removal screen used in various waterways.

It is a schematic front view which shows one Example of the screen for dust removal of this invention. It is a schematic side view of a movable screen part. It is explanatory drawing which shows the process process of a foreign material. It is the schematic explaining the water channel which installed the screen for dust removal of this invention. It is a schematic front view which shows the other Example of the screen for dust removal of this invention. It is the schematic explaining the condition which installed the said screen for dust removal.

Explanation of symbols

DESCRIPTION OF SYMBOLS 11 Waterway 12 Movable screen 13 Guide groove 14 Screen fixed shaft 15 Descent-type rake 16 Claw part 21 Contaminant 22 Step 31 River 32 Gate 33 Simplified power generation equipment 34 Sub-waterway 35 Gate 36 Main gate 37 Backwash gate 41 Waterway 42 Movable Screen 43 Rotating shaft 44 Fixed shaft 45 Connecting arm 46 Lowering rake 47 Claw

Claims (3)

Using a dust removal screen with a screen and a rake usually located at the top of the screen, the rake is lowered along the screen to push impurities to the bottom of the screen, and the flow of water is A dust removal method for running water, wherein the dust separated from the screen is discharged in a direction opposite to the flow to discharge the dust separated from the screen in the direction opposite to the normal flow of water. Using a dust removal screen with a screen and a rake that is usually located at the top of the screen, lowering the rake along the screen and pushing impurities to the bottom of the screen, The method for removing dust in running water according to claim 1, wherein the dust is recovered and the dust removal is continued as it is. The dust removal method for running water according to claim 1 or 2, wherein a dust removal screen is used in which the screen is arcuate and the rake is rotated along the surface of the arcuate screen.

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