KR100646028B1 - Rainwater purify device for bridge - Google Patents

Abstract

A rain water purifying apparatus for a bridge is provided to preclude the initial rain water and impurities on the bridge from directly falling to the river regardless of the amount of the water by containing the sludge discharge pipe. A rain water purifying apparatus(1) for a bridge comprises a purifying tank(10) having at least one purifying tub and a purifying water discharge pipe extended from the purifying tub to the outside; and a rainfall control pipe unit(20) having a rainfall guide pipe(21) connected to a drain pipe of the bridge, an initial rainfall inlet pipe(23) branched in the purifying tub at the rainfall guide pipe, and a rainfall control valve(25) opening/closing the inlet pipe according to the rise and fall of the water level of the purifying tub. The purifying tub is arranged as a precipitated tub(11) and a filtering tub(15) divided by an overflow wall(13). A sludge discharge pipe(11a) faces the upper surface of the road of the bridge from the lower part of the precipitated tub.

Description

Rainwater purify device for bridge}

1 is a perspective view of a bridge installation state of the conventional rainwater purification device for bridges,

FIG. 2 is a partially cutaway perspective view of the rainwater purifier for bridges of FIG. 1; FIG.

3 is a partial cutaway perspective view of the rainwater purifier for bridges according to the present invention;

4 is a view showing a bridge installation state of the rainwater purification apparatus for bridges of FIG.

5 and 6 are cross-sectional views for explaining the rainwater purifying action of the rainwater purifying device for the bridge of Figs.

* Explanation of symbols for the main parts of the drawings

10: purification tank 11: sedimentation tank

13: overflow wall 15: filtration tank

20: rainfall control unit 21: rainfall guide

23: initial rainfall inlet pipe 25: rainfall control valve

The present invention relates to a rainwater purifier for bridges.

Bridges should be provided with drains and drainage pipes to discharge rainwater into the rivers to prevent the accumulation of rainwater on the upper roads of bridges during rainfall. The bridges for drainage pipes are used to purify pollutants on roads mixed with rainwater. Rainwater purifiers should be installed.

Conventional rainwater purifier for conventional bridges has a configuration to filter pollutants contained in rainwater by simply installing a filter cartridge in a drain pipe. In this case, since rainwater continues to pass through the filter cartridge, heavy rainfall or heavy rain When heavy rain occurred, there was a problem in that a backflow phenomenon caused by an overload occurred.

On the other hand, most of the pollutants on the roads of the bridge are washed by the initial rainfall and flow into the stormwater purifier, after which rainfall (continuously referred to as “sustainable rainfall”) that continuously flows into the purifier contains almost no pollutants. You will not.

However, the conventional rainwater purifier for bridges has a problem of being inefficient because the continuous rainfall passes from the initial rainfall to the filter cartridge which is the purifier.

In order to solve such a problem, a "water purification device for bridges" has been disclosed in Korean Patent Laid-Open Publication No. 2005-024025. This bridge rainwater purifier 101 is installed in the drain 7 formed on the road 5 of the bridge (3), the upper inner diameter surface of the initial rainfall inlet 111 Tubular body (110) formed of; A central pipe 120 installed concentrically in the center of the main body 110 and having an inner diameter formed by the continuous rainfall inlet 121 and having a lower end connected to the drain pipe 9 of the bridge 3; The filter cartridge 125 which is interposed between the main body 110 and the center pipe 120 is provided.

The initial rainwater containing contaminants in the rainwater flowing into the rainwater purification device 101 for the bridge is introduced through the initial rainfall inlet 111 to filter the contaminants from the filter cartridge 125, and then to the lower portion of the central pipe 120. It is discharged through the formed discharge hole 123. And, the continuous rainfall that does not contain relatively pollutants is introduced into the continuous rainfall inlet 121 of the upper end of the central pipe 120 is discharged.

However, the conventional rainwater purification device for bridges has a problem in that management is inconvenient because the manager must separate the filter cartridge and remove the pollutants once the filter material accumulates between the main body and the central pipe.

In addition, when the rain begins to fall in a state where a relatively large amount of contaminants are accumulated in the filter cartridge, there is a problem that the initial rainfall containing the contaminants overflows into the continuous rainfall inlet and is discharged into the stream through the central pipe.

In addition, since the initial rainfall inlet and the continuous rainfall inlet are arranged concentrically on the same plane, when a rainfall occurs such as heavy rainfall or heavy rainfall in a short time, a large amount of the initial rainfall is actually an initial rainfall As well as the inlet flows into the continuous rainfall inlet is a problem that is discharged into the river.

Accordingly, it is an object of the present invention to provide a bridge water purification apparatus which is convenient for the management of the device and which can effectively prevent the initial rainfall from being discharged into the river regardless of rainfall.

In accordance with the present invention, there is provided a rainwater purifying apparatus for a bridge, comprising: a purging tank having at least one purifying tank and a purifying water discharge pipe extending outwardly from the purifying tank; A rainwater guide tube connected to the drain pipe of the bridge and passing through the septic tank, an initial rainfall inflow pipe branched from the rainfall guide tube into the septic tank, and the initial rainfall inflow pipe as the descent and rise of the septic tank level opens and closes; It is achieved by a rainwater purification system for a bridge comprising a rainwater control tube unit having a rainfall control valve.

Here, the septic tank is provided with a settling tank and a filtration tank partitioned by an overflow wall; The rainfall guide tube passes through at least the upper region of the sedimentation tank, the initial rainfall inlet pipe is preferably at least one branched toward the interior of the sedimentation tank.

In addition, a rainfall inlet hole is formed in a branching region of the rainfall guide tube and the initial rainfall inlet pipe, and the rainfall control valve is effective to block the rainfall inlet hole at the full water level of the settling tank.

At this time, the rainfall control valve more preferably has an opening and closing valve for opening and closing the rainfall inlet hole, and a float for moving the opening and closing valve up and down in accordance with the change in the water level of the settling tank.

In addition, it is more effective to further include a sludge discharge pipe from the bottom of the sedimentation tank toward the upper surface of the road.

On the other hand, the filtration tank has an inner bottom surface lower than the inner bottom surface of the settling tank, the filtration tank is provided with a filtration layer of the activated carbon layer, gravel layer and sand layer toward the bottom surface of the filtration tank at the top end or less than the same height as the bottom surface of the filtration tank, ; Preferably, the purified water discharge pipe has a discharge control valve and is provided to face outside from the bottom of the filtration layer.

In addition, it is effective that pores are formed in the overflow wall of the upper region of the filtration layer.

More preferably, the overflow wall is provided with a filtration filter covering the pores.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the present invention.

3 is a partial cutaway perspective view of the rainwater purification apparatus for a bridge according to the present invention. As shown in this figure, the bridge stormwater purifier 1 according to the present invention is a purification tank 10 having at least one septic tank for purifying the initial rainfall and discharged to the stream, and the purification tank 10 for the initial rainfall ), And the continuous rainwater includes a rainfall control pipe unit 20 for discharging to the stream.

The septic tank formed in the clarification tank 10 includes a sedimentation tank 11 for precipitating contaminants contained in the initial rainfall and a filtration tank 15 for filtering contaminants not precipitated in the sedimentation tank 11. It has a structure partitioned by.

The sedimentation tank 11 is formed with an inclined surface in which its lower region is inclined downward for sedimentation of contaminants contained in the rainfall, and in the central region of the sedimentation tank 11, contaminants deposited in the sedimentation tank 11 (sludge (a) ), The sludge discharge pipe 11a for discharging to the outside is installed.

Here, the sludge discharge pipe (11a), as shown in Figure 4, the lower end is preferably adjacent to the bottom surface of the sedimentation tank 11, the upper end is preferably located on the upper surface of the road (5) of the bridge (3). Thereby, the sludge a accumulated in the sedimentation tank 11 on the road 5 of the bridge 3 can be easily removed by suction. Of course, the installation structure of the sludge discharge pipe (11a) can take a variety of structures in the range that can remove the sludge (a) smoothly.

The filtration tank 15 is preferably formed as a space having an inner bottom surface lower than the inner bottom surface of the precipitation tank 11. The bottom of the filtration tank 15 is provided with a filtration layer for filtering contaminants such as organic matter, oil components and suspended solids in the rainwater that do not precipitate in the precipitation tank 11. Of course, when the contaminated water inside the sedimentation tank 11 can be smoothly transferred to the filtration tank 15 (when the structure of the overflow wall 13 and the pore 13b to be described later is modified), the filtration tank 15 is a sedimentation tank ( It may be formed as a space of the same height as 11).

The top of the filter layer is located at the same height as the bottom surface of the settling tank 11 or lower than the bottom surface of the settling tank 11. This is to allow the contaminated water flowing into the filtration tank 15 from the settling tank 11 to pass through the filtration layer.

As a structure of a filtration layer, it is preferable to form the activated carbon layer 15a, the gravel layer 15b, and the sand layer 15c toward the bottom from the top.

The activated carbon layer 15a adsorbs and filters organic substances, oils, and heavy metals or calcium chloride used as a snow removal agent in the rainfall, and the gravel layer 15b and the sand layer 15c are suspended particles having a relatively large particle size. The suspended solids of relatively fine particle size are filtered out step by step.

Here, the filtration layer may be configured of a filtration layer of various materials depending on the conditions in addition to the configuration of the above-described activated carbon layer 15a, gravel layer 15b and sand layer 15c.

In addition, a bottom of the filtration tank 15 is provided with a purified water discharge pipe 15d for discharging the purified rainwater to the outside while passing through the filtration layer, and a discharge control valve for adjusting the discharge amount of the purified water in the purified water discharge pipe 15d. 15e is provided.

The overflow wall 13 partitions the sedimentation tank 11 and the filtration tank 15 and sets the full water level of the sedimentation tank 11 so that contaminants having their own weight contained in the rainfall can be transferred to the filtration tank 15. Don't let that happen.

At this time, the upper surface plate surface of the filtration layer 13 of the overflow wall 13, that is, the upper surface plate surface partitioning the sedimentation tank 11 and the filtration tank 15 is formed in a relatively fine pore 13b structure, and the pores 13b are formed. The formed overflow wall 13 is provided so that the filtration filter 13a made of the fibrous absorbent cloth or sponge material formed of the fiber material covers the pores 13b.

The structure of the pore 13b and the structure of the filtration filter 13a are to prevent the contaminated water in the sedimentation tank 11 from decaying in a period in which rain does not fall, and the contaminated water in the sedimentation tank 11 is contaminated in the filtration filter 13a. The material may be filtered and then delivered to the filtration tank 15 through the pores 13b.

On the other hand, the rainfall control pipe unit 20 to the rainfall guide pipe 21 and the rainfall guide pipe 21 for guiding the flow path of the rainwater flowing into the purification tank 10 to the stream through the sedimentation tank (11) At least one initial rainfall inflow pipe 23 for guiding the initial rainfall in the precipitation rainfall to the settling tank 11, and a rainfall control valve 25 for opening and closing the initial rainfall inflow pipe 23 according to the rainfall inflow time. .

The rainwater guide pipe 21 is installed to penetrate from the outside of the purification tank 10 to the outside of the purification tank 10 via the settling tank 11 upper region. The rainfall guide pipe 21 is connected to the drain pipe 9 extending from the drain port 7 of the bridge 3 to the inlet side 21a outside the settling tank 11, passing through the settling tank 11 to the purification tank. (10) A region of the discharge side end 21b extending outwardly opposite is connected to the drain pipe 9 facing the river.

The initial rainfall inflow pipe 23 is installed in a form branching downward in a vertical direction from one region of the rainfall guide pipe 21 positioned in the precipitation tank 11 toward the inner bottom of the precipitation tank 11. In addition, a rainfall inflow hole 21c having a smaller diameter than the inner diameter of the initial rainfall inflow pipe 23 is formed in the branching region of the rainfall guide tube 21 where the initial rainfall inflow pipe 23 branches.

The initial rainfall inlet pipe 23 may be provided with a plurality of branch pipes, as shown in the drawing according to the processing capacity of the purification tank 10, may be provided as a single branch pipe, although not shown.

The rainfall control valve 25 is installed in the initial rainfall inflow pipe 23, and has an opening and closing valve 25a for opening and closing the rainfall inlet 21c and an opening and closing valve 25a according to the change in the water level of the precipitation tank 11 with buoyancy. It is comprised by the float 25b which moves () up and down. The rainfall control valve 25 is a water level of the sedimentation tank 11 when the water level is full, that is, when the water level of the sedimentation tank 11 is located above the overflow wall 13, the opening and closing valve 25a is a rainfall inlet hole ( 21c) will remain in the blocking position.

With this configuration, the rainfall water purification process of the rainwater purification apparatus 1 for a bridge according to the present invention will be described with reference to FIGS. 4 to 6.

When the rain starts, as shown in Figure 4, the initial rainfall is drained to the drain (7) formed on the upper roadway 5 of the bridge (3), the drained initial rainfall is the drain pipe (9) It is introduced into the purification tank 10 through the rainfall guide pipe 21 connected to. At this time, the contaminants present on the road 5 of the bridge 3 is washed in the initial rainfall and flows into the purification tank 10.

Then, the initial rainfall introduced into the purification tank 10 is introduced into the settling tank 11 through the initial rainfall inlet pipe 23 branched from the rainfall guide pipe 21, as shown in FIG. At this time, since the water level of the settling tank 11 is a low water level before rain, the rainfall control valve 25 is located in the lower region of the initial rainfall inlet pipe 23, and the rainfall inlet 21c is open.

When the initial rainfall starts to flow into the settling tank 11 and the water level of the settling tank 11 reaches the full level, as shown in FIG. 6, the rainfall control valve 25 is closed by the buoyancy force of the float 25b. The water inlet hole 21c is blocked.

Then, the continuous rainfall is discharged to the river through the drain pipe (9) connected from the outside of the purification tank 10 along the rainfall guide pipe (21). As described above, the continuous rainfall does not contaminate the river because it contains little contaminants.

Meanwhile, contaminants having their own weight among the contaminants included in the initial rainfall introduced into the precipitation tank 11 are precipitated at the bottom of the precipitation tank 11, and organic components, oil components, and suspended solids in the initial rainfall that are not precipitated in the precipitation tank 11, etc. The contaminants of are introduced into the filtration tank 15 beyond the overflow wall 13 with rainfall.

Rainwater flowing into the filtration tank 15 is adsorbed and filtered by organic carbon, oil, heavy metals, or calcium chloride used as a snow removal agent in the activated carbon layer 15a, and relatively in the gravel layer 15b and the sand layer 15c. Suspended particles having a relatively fine particle size are gradually filtered from the suspended particles having a large particle size and discharged into the stream through the purified water discharge pipe 15d provided at the bottom of the filtration tank 15. At this time, the discharge amount of the purified rainfall water is controlled by the opening degree of the discharge amount control valve 15e, the opening degree of the discharge amount control valve 15e can be appropriately adjusted according to the rainfall and rainfall conditions.

At this time, the water level of the sedimentation tank 11 is lowered according to the discharge of the purified rainwater, and the continuous rainfall may flow into the sedimentation tank 11, but the rainfall control valve 25 opens the rainfall water inlet 21c according to the continuous water level change. Most of the continuous rainfall is discharged without going through the purification tank (10).

On the other hand, when the rainfall is stopped and the water level in the settling tank 11 is lowered, as shown in Figure 5, when the rainfall remaining in the settling tank 11 does not exceed the overflow wall 13, the rainfall in the settling tank 11 is As described above, the filtration filter 13a is transferred to the filtration tank 15 through the pores 13b of the overflow wall 13. Thereby, it is possible to prevent the contaminated water in the settling tank 11 from decaying in the rain-free period.

In addition, the sludge a in the sedimentation tank 11 formed by the contaminants accumulated in the sedimentation tank 11 for a predetermined period of time is externally provided through the sludge discharge pipe 11a on the upper surface of the road 5 of the bridge 3 at appropriate intervals. Can be removed by In addition, each filtration layer of the filtration tank 15 can be replaced every appropriate period. Here, the sludge (a) removal cycle of the settling tank 11 and the filter bed replacement cycle of the filtration tank 15 can be adjusted in a long or short period depending on the capacity of the purification tank (10).

As described above, in the rainwater purification apparatus for bridges according to the present invention, the initial rainfall is passed through the purification tank and the continuous rainfall is discharged into the river without passing through the purification tank, thereby effectively purifying the initial rainfall including pollutants.

In addition, regardless of the heavy rain or heavy rain, the initial rainfall is necessarily passed through the purification tank, it is possible to prevent the contamination of the river by the initial rainfall.

In addition, since the sludge accumulated in the settling tank is convenient and the sludge removal cycle and the replacement cycle of the filtration layer can be made for a long time, the management of the device is made convenient.

Although the above-described and embodiments illustrate that the stormwater purifier according to the present invention is applied to a bridge in a river, the stormwater purifier according to the present invention can be applied to various roads as well as bridges of various types.

As described above, according to the present invention, there is provided an excellent stormwater purifier for bridges that can be easily managed and can effectively prevent the initial rainfall from being discharged into the river regardless of rainfall.

Claims (8)

In the rainwater purifier for bridges, A purification tank having at least one septic tank and a clarification water discharge pipe extending outwardly from the septic tank; A rainwater guide tube connected to the drain pipe of the bridge and passing through the septic tank, an initial rainfall inflow pipe branched from the rainfall guide tube into the septic tank, and the initial rainfall inflow pipe as the descent and rise of the septic tank level opens and closes; Rainwater purification device for a bridge comprising a rainwater control tube unit having a rainfall control valve. The method of claim 1, The septic tank is provided with a settling tank and a filtration tank partitioned by an overflow wall; The rainfall guide pipe passes through at least the upper region of the settling tank, the rainwater inlet pipe is characterized in that at least one branching toward the inside of the settling tank. The method of claim 2, Rainfall inlet hole is formed in the branched region of the rainfall guide pipe and the initial rainfall inlet pipe, the rainfall control valve is excellent purification device for bridges, characterized in that to block the rainfall inlet hole in the full water level of the settling tank. The method of claim 3, The rainfall control valve has an opening and closing valve for opening and closing the rainfall inlet hole, and the rainwater purification device for bridges, characterized in that having a float for moving the opening and closing valve up and down in accordance with the change in the water level of the settling tank. The method according to any one of claims 2 to 4, The rainwater purification apparatus for bridges further comprising a sludge discharge pipe from the bottom of the sedimentation tank toward the road top surface of the bridge. The method of claim 2, The filtration tank has an inner bottom surface lower than an inner bottom surface of the precipitation tank, and the filtration tank is provided with a filtration layer of an activated carbon layer, a gravel layer, and a sand layer toward the bottom surface of the filtration tank at a top end thereof equal to or lower than the bottom surface of the filtration tank; The purified water discharge pipe has a discharge control valve is provided so as to face the outside from the bottom of the filter bed. The method of claim 6, The rainwater purifying apparatus for bridges, characterized in that pores are formed in the overflow wall of the upper region of the filtration layer. The method of claim 7, wherein The rainwater purifier for bridges, characterized in that the overflow wall is provided with a filtration filter covering the pores.

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