JP5586806B1 - Foreign matter removing device and foreign matter collecting device - Google Patents

Abstract

A foreign matter removing device and a foreign matter collecting device that reduce the burden of removing foreign matter, prevent clogging of a screen, and contribute to protection of the natural environment.
A foreign matter removing apparatus 1 according to the present invention includes a first screen 10 fixed to one wall surface of a flow path in a state where a plurality of plates 11 extending in a horizontal direction are supported in a vertical direction at a first interval L1, A second screen 20 that supports the plurality of plates in the vertical direction at a second interval L2 that is narrower than the first interval, and is fixed to the same wall surface as the first screen at a downstream side of the first screen. Is provided. The plate is inclined downstream from the wall surface toward the center of the flow path. By not providing each screen over the entire width of the flow path, it was decided not to collect foreign substances actively as in the prior art, but away from one wall surface of the flow path. Therefore, the amount of foreign matter in the vicinity of the water intake provided on the downstream side of the foreign matter removing device can be reduced, and the burden of removing foreign matter can be suppressed.
[Selection] Figure 1

Description

  The present invention relates to a foreign matter removing device and a foreign matter collecting device that are provided near a water intake such as a river or the sea so that foreign matter can be removed and water can be taken in.

Normally, a water intake for taking in water from a river or the sea covers the opening with a screen to prevent entry of foreign matters such as dust, driftwood, etc., floating oil, ice and snow. However, foreign matter accumulates around the screen as time passes, and the amount of water intake decreases, so the foreign matter must be removed periodically.
Further, a screen may be provided on the upstream side of the water intake port over the entire width of the flow channel to remove foreign matter in the flow channel as much as possible, thereby preventing foreign matter from accumulating around the water intake port. .
For example, Patent Document 1 discloses a dust screen that discharges a bar screen provided over the entire width of the flow channel to the entire upstream side of the water intake port and a dust screen blocked by the bar screen to a dust intake port provided in the side wall of the flow channel. An apparatus comprising a discharge mechanism is disclosed. The bar screen is inclined to guide the seawater to the dust intake, and the dust in the dust intake is removed by a filter.

JP 2002-363950 A

However, the above prior art has the following problems.
That is, when the screen is provided over the entire width of the flow path, all foreign matters larger than the interval (slit interval) between the bars constituting the screen are caught on the screen. Therefore, there is a problem that the burden of collecting the foreign matter is increased. Further, in the river, the movement of fish upstream and downstream is blocked by the screen, which is not preferable from the viewpoint of protecting the natural environment.
In addition, when only one screen is provided, small and small foreign matter enters the gaps between large foreign matters caught on the screen, and large and small foreign matters accumulate without gaps. Therefore, foreign matters that are smaller than the slit interval that should normally pass through the screen are also caught on the screen and clogging occurs, so the amount of water passing through the screen is reduced and the amount of water taken at the intake port is reduced in a short period of time. There is also a problem that it falls.

  In view of the above problems, an object of the present invention is to provide a foreign matter removing device and a foreign matter collecting device that can suppress the burden of removing foreign matter, hardly cause clogging of the screen, and contribute to protection of the natural environment.

  The foreign matter removing apparatus of the present invention includes a first screen fixed to one wall surface of the flow path in a state where a plurality of plates extending in the horizontal direction are supported at a first interval in the vertical direction, and the plurality of plates in the vertical direction. The second screen is supported at a second interval narrower than the first interval and is fixed to the same wall surface as the first screen at a downstream side of the first screen, and the plate is the wall surface. It inclines in the downstream toward the center of a flow path.

The foreign matter recovery apparatus of the present invention includes a first screen fixed to one wall surface of the flow path in a state where a plurality of plates extending in the horizontal direction are supported at a first interval in the vertical direction, and a plurality of plates extending in the horizontal direction. A first counter screen that is fixed to the other wall surface of the flow path in the vertical direction at the first interval and fixed to the downstream side of the first screen, the plate of the first screen being The first wall is inclined downstream from the one wall surface toward the center of the flow path, and the plate of the first counter screen is inclined upstream from the other wall surface toward the center of the flow path. 1 A foreign substance recovery port is provided on the upstream side of the base of the opposed screen.
Further, it is one wall surface of the flow path in a state where a plurality of plates extending in the horizontal direction are supported in the vertical direction at a second interval that is narrower than the first interval, and is fixed to the downstream side of the first counter screen. A second screen that is fixed to the other wall surface of the flow path and downstream of the second screen in a state where a plurality of plates extending in the horizontal direction are supported in the vertical direction at the second interval. The second screen plate is inclined downstream from the one wall surface toward the center of the flow path, and the second counter screen plate extends from the other wall surface to the flow path. It is inclined toward the upstream side toward the center, and is provided with a foreign substance recovery port on the upstream side of the base portion of the second counter screen.

The foreign matter removing device of the present invention is such that the slit interval of the plate inclined downstream from the wall surface of the flow path toward the center gradually becomes narrower as it becomes the downstream screen, that is, the second interval than the first interval. Is set to be narrower.
Therefore, when large and small foreign substances flow through the flow path, only large foreign objects larger than the first interval cannot pass through the first screen on the first screen. The foreign matter moves to the center side of the flow path along the plate of the first screen inclined to the downstream side.
On the other hand, a small foreign object smaller than the first interval passes through the first screen and reaches the second screen.
On the second screen, a foreign material having a size smaller than the second interval cannot pass through the second screen, and moves to the center side of the flow path along the plate of the second screen inclined to the downstream side.
As described above, in the present invention, the screens are not provided over the entire width of the flow path, so that foreign substances are not actively collected as in the prior art, but are separated from one wall surface of the flow path. Therefore, if the intake port is provided on the one wall surface on the downstream side of the foreign matter removing apparatus, the amount of foreign matter in the vicinity of the intake port can be reduced, and the effect of eliminating the burden of collecting the foreign matter can be obtained. .
Moreover, since each screen does not block the upstream and downstream movement of fish in the river by not providing each screen in the entire width of the flow path, it is preferable from the viewpoint of protecting the natural environment.
Furthermore, in the present invention, large and small foreign substances are moved stepwise in the upstream side of the water intake provided on the wall surface of the flow path to the center side of the flow path, that is, a position away from the water intake. Therefore, when only one screen with a narrow slit interval is used as in the prior art, clogging occurs because small sized foreign matter enters the gap between large sized foreign matter caught on the screen. The occurrence of such a situation can be prevented in advance, and a stable water intake amount can be secured over a long period of time.

In the foreign matter collecting apparatus of the present invention, the first counter screen is disposed on the wall surface on the downstream side of the first screen and opposite to the first screen, and the foreign matter collecting port is provided on the upstream side of the base portion of the first counter screen. . Further, the slit interval between the first screen and the first counter screen is set equal (both are set to the first interval).
Therefore, of the foreign matter that has flowed through the flow path, the foreign matter located within the range from one wall surface to the center of the flow path is caught by the first screen and moves along the plate to the center side of the flow path. Then, after moving from the tip of the plate to the downstream side, it is caught by the first counter screen.
In addition, among the foreign matter that has flowed through the flow path, the foreign matter positioned within the range from the other wall surface to the center of the flow path is directly caught by the first counter screen.
The foreign matter caught on the first counter screen moves along the plate toward the other wall surface of the flow path, and is collected by reaching the inside of the foreign matter collection port.
As described above, in the present invention, since the foreign matter collection port is provided at the base portion of the first counter screen, it is not necessary to lean on the flow path side when collecting the foreign matter, and the safety of the collection work can be ensured.
Further, in the river, the fish can move freely upstream and downstream from the gap between the first screen and the first counter screen, which is preferable from the viewpoint of protecting the natural environment.

The foreign matter collecting apparatus of the present invention has a first screen, a first opposing screen, and a foreign matter collecting port, and a second screen, a second opposing screen, and a foreign matter collecting port are arranged on the downstream side. Further, the slit interval is set so as to gradually become narrower as it becomes the downstream screen, that is, the second interval is set to be narrower than the first interval.
Therefore, among the large and small sized foreign substances flowing in the flow path, the large sized foreign substances are caught by the first screen and the first counter screen and collected by the foreign substance collection port.
Further, the small foreign matter having a size smaller than the first interval passes through the first screen and the first counter screen, is caught by the second screen and the second counter screen, and is collected at the foreign matter recovery port.
As described above, according to the present invention, large and small foreign matters are separately collected and clogging can be suppressed.
Also, in the river, fish can move freely upstream and downstream from the gap between the first screen and the first counter screen and the gap between the second screen and the second counter screen, which is preferable from the viewpoint of protecting the natural environment.

The top view which shows the state which used the foreign material removal apparatus for the flow path The perspective view which shows the state which used the foreign material removal apparatus for the flow path The top view which shows the state which used the foreign material collection | recovery apparatus in 1st Embodiment for the flow path The perspective view which shows the state which used the foreign material collection | recovery apparatus in 1st Embodiment for the flow path The top view which shows the state which used the foreign material collection | recovery apparatus in 2nd Embodiment for the flow path The perspective view which shows the state which used the foreign material collection | recovery apparatus in 2nd Embodiment for the flow path

Hereinafter, embodiments of the foreign matter removing apparatus of the present invention will be described with reference to the drawings.
As shown in FIG. 1 and FIG. 2, the foreign matter removing apparatus 1 of the present embodiment is composed of first, second and third screens 10, 20 and 30, on the side where the water intake 2 is provided. It is a wall surface and is disposed upstream of the water intake 2.

The first screen 10 includes a plurality of plates 11 and is fixed to one wall surface 3 a of the flow path 3. The arrows in FIG. 1 indicate the direction of water flow in the flow path 3.
The plate 11 is a thin plate member made of metal or resin that extends in the horizontal direction, and is inclined downstream from one wall surface 3a of the flow path 3 toward the center. The bases 12 are joined together so that a predetermined slit interval (first interval L1) is opened between the plates 11 in the vertical direction, and the bases 12 are integrally fixed to one wall surface 3a of the flow path 3. Is done.
The second screen 20 includes a plurality of plates 21 similar to the first screen 10, and is fixed to the one wall surface 3 a of the flow path 3 on the downstream side of the first screen 10.
The bases 22 are joined to each other so that a second gap L2 narrower than the first gap L1 is opened between the plates 21 in the vertical direction, and the base parts 22 are integrated with one wall surface 3a of the flow path 3. Fixed.
The third screen 30 includes a plurality of plates 31 similar to those of the first and second screens 10 and 20, and is fixed to the one wall surface 3a of the flow path 3 on the downstream side of the second screen 20.
The bases 32 are joined to each other so that a third gap L3 narrower than the second gap L2 is opened between the plates 31 in the vertical direction, and the base parts 32 are integrated with one wall surface 3a of the flow path 3. Fixed.

As described above, in the foreign substance removal apparatus 1 of the present embodiment, the slit intervals L1, L2, and L3 of the plates 11, 21, and 31 that are inclined toward the downstream side from the wall surface 3a of the flow path 3 are on the downstream side. It is set so as to become narrower gradually.
Therefore, when the large, medium, and small sizes of foreign matter 4a, 4b, and 4c flow in the flow path 3, first, on the first screen 10, only the large size foreign matter 4a that is larger than the first interval L1 is present. It cannot pass, and moves to the center side of the flow path 3 along the plate 11 inclined to the downstream side.
Small and medium-sized foreign matters 4b and 4c smaller than the first interval L1 pass through the first screen 10 and reach the second screen 20.
On the second screen 20, only the medium-sized foreign matter 4b larger than the second interval L2 cannot pass, and moves to the center side of the flow path 3 along the plate 21 inclined to the downstream side.
The small foreign matter 4c smaller than the second interval L2 passes through the second screen 20 and reaches the third screen 30.
On the third screen 30, the small foreign matter 4c larger than the third interval L3 cannot pass, and moves to the center side of the flow path along the plate 31 inclined to the downstream side.

As described above, in the present invention, the screens 10, 20 and 30 are not provided over the entire width of the flow path 3, so that the water intake port 2 is away from the one wall surface 3a. As a result, the effect of eliminating the burden of collecting the foreign matter 4a, 4b, 4c can be obtained. In the river, the fish 5 can move freely upstream and downstream.
Further, in the present invention, the large, medium and small size foreign matters 4a, 4b and 4c are separated from the central side of the flow channel 3, that is, from the water intake port 2 on the upstream side of the water intake port 2 provided on the wall surface 3a of the flow channel 3. Since the screens 10, 20 and 30 are moved stepwise to the position, it is possible to prevent clogging due to the entry of small foreign objects into the gaps between large foreign objects caught on one screen as in the past. Can secure a stable water intake over a long period of time.
Note that the slit interval (first to third intervals L1 to L3) of each screen 10, 20, and 30 is appropriately set for each channel according to the size and properties of the foreign substances 4a, 4b, and 4c flowing through the channel 3. That's fine. Further, the foreign substance removing device 1 may be configured to include at least the first and second screens 10 and 20, and may include four or more screens.

[First embodiment]
Next, a first embodiment of the foreign material recovery apparatus of the present invention will be described with reference to the drawings.
As shown in FIGS. 3 and 4, the foreign material recovery apparatus 6 of the present embodiment includes a first screen 40, a first counter screen 41, and a foreign material recovery port. Further, although not shown, a water intake may be provided on the downstream side of the foreign material recovery apparatus 6.

The first screen 40 includes a plurality of plates 40a and is fixed to one wall surface 3a of the flow path 3.
The plate 40a is a thin plate member made of metal or resin that extends in the horizontal direction, and is inclined downstream from one wall surface 3a of the flow path 3 toward the center. The bases are joined together so that a predetermined slit interval (first interval L1) is opened between the plates 40a in the vertical direction, and the bases are integrally fixed to one wall surface of the flow path.
The first counter screen 41 also includes a plurality of plates 41a, and is fixed to the other wall surface 3b of the flow path 3 on the downstream side of the first screen 40.
The plate 41a is a thin plate member made of metal or resin that extends in the horizontal direction, and is inclined upstream from the other wall surface 3b of the flow path 3 toward the center. The bases are joined together so that the first gap L1 is opened in the vertical direction between the plates 41a, and the bases are integrally fixed to the other wall surface 3b of the flow path 3. Naturally, the tip of the plate 40a of the first screen 40 and the tip of the plate 41a of the first counter screen 41 are not connected, and a gap is opened.
The foreign matter recovery port 42 is provided upstream of the base portion of the first counter screen 41 and inside the other wall surface 3b.

Of the foreign substances 4a, 4b, and 4c that have flown through the flow path 3, the foreign substances located within the range from one wall surface 3a to the center of the flow path 3 are caught by the first screen 40 and flow along the plate 40a. After moving to the center side of the path 3, the plate 40 a moves from the tip of the plate 40 a to the downstream side and is caught by the first counter screen 41.
In addition, among the foreign substances 4a, 4b, and 4c that have flown through the flow path 3, the foreign substances located within the range from the other wall surface 3b of the flow path 3 to the center are directly caught by the first counter screen 41.
The foreign matter caught on the first opposing screen 41 in this manner moves along the plate 41a toward the other wall surface 3b of the flow path 3, and is collected by reaching the inside of the foreign matter collection port.
The slit interval (first interval L1) between the first screen 40 and the first counter screen 41 may be set for each channel according to the size and properties of the foreign matter 4a, 4b, 4c flowing through the channel 3, For example, small foreign matter may be collected by narrowing the first interval L1, or only large foreign matter is collected by widening the first interval L1, and the small foreign matter is opposed to the first screen 40 and the first. The screen 41 may be passed and flowed downstream.

[Second Embodiment]
Next, a second embodiment of the foreign material recovery apparatus of the present invention will be described with reference to the drawings. The same reference numerals are given to the same parts as those in the first embodiment, and Description is omitted.
As shown in FIGS. 5 and 6, the foreign material recovery apparatus 7 of the present embodiment includes first, second and third screens 40, 50 and 60, first, second and third counter screens 41, 51 and 61. And three foreign matter collection ports 42, 52 and 62 for large, medium and small sizes.

The first screen 40, the first counter screen 41, and the foreign matter collection port 42 (in this embodiment, the large size foreign matter collection port 42) have the same configuration as that of the first embodiment, and a description thereof will be omitted.
The second screen 50 includes a plurality of plates 50a, and is fixed to one wall surface 3a of the flow path 3 on the downstream side of the first counter screen 41.
The plate 50a is inclined downstream from one wall surface 3a of the flow path 3 toward the center. The bases are joined to each other so that a second interval L2 narrower than the first interval is opened between the plates 50a in the vertical direction, and the bases are integrally fixed to one wall surface 3a of the flow path 3. .
The second counter screen 51 also includes a plurality of plates 51a, and is fixed to the other wall surface 3b of the flow path 3 on the downstream side of the second screen 50.
The plate 51a is inclined upstream from the other wall surface 3b of the flow path 3 toward the center. The bases are joined together so that the second gap L2 is opened in the vertical direction between the plates 51a, and the bases are integrally fixed to the other wall surface 3b of the flow path 3.
The medium-size foreign matter recovery port 52 is provided upstream of the base portion of the second counter screen 51 and inside the other wall surface 3b.

The third screen 60 includes a plurality of plates 60a, and is fixed to one wall surface 3a of the flow path 3 on the downstream side of the second counter screen 51.
The plate 60a is inclined downstream from one wall surface 3a of the flow path 3 toward the center. The bases are joined so that a third gap L3 narrower than the second gap L2 is opened between the plates 60a in the vertical direction, and the bases are integrally fixed to one wall surface 3a of the flow path 3. The
The third counter screen 61 also includes a plurality of plates 61a, and is fixed to the other wall surface 3b of the flow path 3 on the downstream side of the third screen 60.
The plate 61a is inclined upstream from the other wall surface 3b of the flow path 3 toward the center. The bases are joined so that the second gap L2 is opened in the vertical direction between the plates 61a, and the bases are integrally fixed to the other wall surface 3b of the flow path 3.
The small-size foreign matter collection port 62 is provided upstream of the base portion of the third counter screen 61 and inside the other wall surface 3b.

As described above, the foreign matter collecting apparatus 7 of the present embodiment has the first counter screen 41 disposed on the wall surface 3b on the downstream side of the first screen 40 and on the opposite side of the first screen 40. A large-size foreign matter recovery port 42 is provided on the upstream side of the base. Further, the slit interval between the first screen 40 and the first counter screen 41 is set equal (both are set to the first interval L1).
A second screen 50, a second counter screen 51, and a medium-size foreign matter recovery port 52 are disposed downstream of the first screen 40, the first counter screen 41, and the large-size foreign matter recovery port 42, and a third A screen 60, a third counter screen 61, and a small-size foreign matter collection port 62 are arranged.
Further, the slit intervals L1, L2, and L3 are set so as to gradually become smaller as the downstream screen is formed.
Therefore, among the large, medium, and small foreign matter 4a, 4b, and 4c flowing in the flow path 3, the large foreign matter 4a is the first screen 40 and the first screen as in the first embodiment. It is caught by the counter screen 41 and collected by the large-size foreign matter collection port 42.
Small and medium-sized foreign objects 4b and 4c smaller than the first interval L2 pass through the first screen 40 and the first counter screen 41 to reach the second screen 50 and the second counter screen 51, and are larger than the second interval L2. Only the large medium-size foreign matter 4b is caught by the second screen 50 and the second counter screen 51 and collected by the medium-size foreign matter collection port 52.
The small foreign matter 4c smaller than the second interval L2 passes through the second screen 50 and the second counter screen 51, and is caught by the third screen 60 and the third counter screen 61, and is collected by the small size foreign substance recovery port 62. Is done.
In the present embodiment, in addition to the same effects as in the first embodiment, there is also an effect that large, medium and small sized foreign substances 4a, 4b and 4c can be efficiently collected.
In addition, what is necessary is just to set the slit space | interval (1st-3rd space | interval L1-L3) of each screen for every flow path according to the size and property of the foreign materials 4a, 4b, 4c which flow through the flow path 3. Further, the foreign material recovery device 7 only needs to include at least the first and second screens 40 and 50 and the counter screens 41 and 51, and may include four or more screens and counter screens. .

  The present invention relates to a foreign matter removing device and a foreign matter collecting device that can suppress the burden of removing foreign matter, prevent clogging of the screen, and contribute to natural environment protection, and have industrial applicability.

L1 1st interval
L2 2nd interval
L3 3rd interval
1 Foreign material removal device
2 Water intake
3 Flow path
3a One wall
3b The other wall
4a Foreign matter
4b Foreign matter
4c Foreign matter
5 fish
6 Foreign material recovery device
7 Foreign material recovery device
10 First screen
11 plates
12 base
20 Second screen
21 plates
22 Base
30 3rd screen
31 plates
32 Base
40 First screen
40a plate
41 First counter screen
41a plate
42 Foreign matter recovery port
50 Second screen
50a plate
51 2nd counter screen
51a plate
52 Foreign matter recovery port
60 3rd screen
60a plate
61 3rd counter screen
61a plate
62 Foreign matter recovery port

Claims (3)

A first screen fixed to one wall surface of the flow path in a state where a plurality of plates extending in the horizontal direction are supported at a first interval in the vertical direction;
The second plate includes a second screen that supports the plurality of plates in the vertical direction at a second interval that is narrower than the first interval, and is fixed to the same wall surface as the first screen, downstream of the first screen. And
The foreign matter removing apparatus, wherein the plate is inclined downstream from the wall surface toward the center of the flow path. A first screen fixed to one wall surface of the flow path in a state where a plurality of plates extending in the horizontal direction are supported at a first interval in the vertical direction;
A first counter screen is provided that is fixed to the other wall surface of the flow path and downstream of the first screen in a state where a plurality of plates extending in the horizontal direction are supported in the vertical direction at the first interval. ,
The plate of the first screen is inclined downstream from the one wall surface toward the center of the flow path,
The plate of the first counter screen is inclined upstream from the other wall surface toward the center of the flow path,
A foreign matter collecting apparatus comprising a foreign matter collecting port on an upstream side of a base portion of the first counter screen. One wall surface of the flow path in a state where a plurality of plates extending in the horizontal direction are supported in a vertical direction at a second interval that is narrower than the first interval, and is fixed to the downstream side of the first counter screen. 2 screens,
A second counter screen is provided that is fixed to the other wall surface of the flow path and downstream of the second screen in a state where a plurality of plates extending in the horizontal direction are supported in the vertical direction at the second interval. ,
The plate of the second screen is inclined downstream from the one wall surface toward the center of the flow path,
The plate of the second counter screen is inclined upstream from the other wall surface toward the center of the flow path;
3. The foreign matter collection apparatus according to claim 2, further comprising a foreign matter collection port on an upstream side of a base portion of the second counter screen.

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