KR200378313Y1 - Apparatus for processing contaminants in road surface drainage of road drain facilities - Google Patents

Abstract

According to the present invention, there is provided an apparatus for treating pollutants in a road drainage facility for treating road drainage introduced from a nonpoint source such as a road or a parking lot. The device stores road drainage coming through the drainage of the road and the soil, solids and contaminants contained in the drainage, and falls down through the drainage to reduce the falling speed of the road drainage and fall. A road drainage reservoir having means for equally distributing the drop-type road drainage, and a road drainage treatment tank for purifying pollutants in the drainage flowed from the road drainage reservoir as the inflowing road drainage increases; And the road drainage reservoir and the road drainage treatment tank to communicate with each other, and when the road drainage in the reservoir is filled in a predetermined amount or more so that the initial road drainage can be temporarily maintained in the road drainage reservoir. A barrel formed at a height to move to the treatment tank It includes.

Description

Contaminant treatment device in road drainage facility {APPARATUS FOR PROCESSING CONTAMINANTS IN ROAD SURFACE DRAINAGE OF ROAD DRAIN FACILITIES}

The present invention is a pollutant treatment device, more specifically, the pollutant treatment in road drainage facilities that can efficiently treat non-point contaminants accumulated in rainwater and flowing into rivers, which are accumulated in roads and parking lots. Relates to a device.

In general, pollutants are non-point contaminants such as domestic sewage and factory wastewater, and fertilizers and pesticides sprayed on farmland, sediments of air pollutants, and sedimentary contaminants on the surface of the earth. Can be distinguished.

From the past to the present, the management and support at the central government level related to pollutant treatment has been concentrated in the workplaces with clear source of pollutant, sewage treatment facilities, wastewater treatment facilities, livestock wastewater treatment facilities and manure treatment facilities. However, with the recent comprehensive four river water management measures and the total water pollution management system, it is difficult to identify the exact route of discharge and to manage the non-point pollutants generated on roads and parking lots where the inflow of pollutants is not continuous. It is strengthening.

Specifically, in general, the surface of the road has fallen and accumulated dust floating in the air, heavy metals contained in these dusts, and further, wear of fine particles contained in the exhaust gas according to the driving of the vehicle, or tire wear due to driving the vehicle Environmental pollutants such as water and asphalt abrasives are also stacked together. These environmental pollutants contain heavy metals such as cadmium, eutrophic salts such as nitrogen and phosphorus, etc., which may have harmful effects on the human body.

Thus, various pollutants accumulated on the road surface are discharged to the river through the road drainage in the case of rainfall. Although the overall pollutant concentration of runoff discharged to rivers with rainfall is low, but the total amount greatly exceeds point pollutants, there is a problem of treating road drainage from impermeable areas such as roads and parking lots for stable water quality conservation. .

Recently, various road surface drainage treatment devices have been proposed and utilized for pretreatment of non-point pollutants derived from such roads. These road drainage treatment apparatuses are installed at regular intervals, for example, in side surfaces or walkways provided between the roadway and the sidewalk, and are applied to remove contaminants contained in the road drainage.

In the storage tank of the road drainage treatment device, sediment or solids are precipitated together with a certain amount of rainfall runoff. Unlike general rainfall, when a large amount of rainfall is introduced in a short period of time, such as 'guerillaous storm', Rainfall falls at a high speed.

As a result, soil, solids, etc. remaining in the bottom of the reservoir rises in the reservoir due to the high-speed falling rainfall, and the problem of exiting the reservoir with the rainfall. In other words, it is desirable that soil or solids, which have been settled in the reservoir, remain on the bottom until the reservoir is cleaned later. However, during an unexpected rainfall such as guerrilla heavy rain, the reservoir exits the reservoir with rainwater and flows into the stream. The problem arises.

Existing road drainage systems have not dealt with these problems at all, resulting from the fact that they were installed around roads without any expectation of guerilla storms occurring in the last year or two. to be.

In addition, when the time to flow into the pollutant treatment device in the road drainage system is short due to heavy rain, the possibility of road drainage flows at different flow rates or flow rates depending on the position in the treatment device. However, in view of the uniform treatment of various pollutants contained in the initial precipitation, it is desirable to pass through the filter provided for adsorption or removal of pollutants as evenly as possible, even if the road drainage is uniformly distributed. Since the pollutant treatment equipment is designed and operated with a focus on the treatment of rainfall and runoff at average flow rates and flow rates, it has not been able to cope with heavy rain due to unexpected weather such as guerrilla heavy rain.

On the other hand, the road road runoff is intermittently discharged, unlike the sewage and wastewater discharged regularly from homes or factories, the difference in the flow rate according to the season, the concentration of pollutants contained in the rain is also known to be variable. In particular, late rainwater is reported to have no significant problem even if it flows directly into the river without going through a separate treatment device because the concentration of pollutants contained in the rainfall is significantly reduced due to continuous rainfall.

In addition, through the road drainage facilities connected to non-point sources such as roads and parking lots, general road drainage is introduced as described above, but in general, general waste such as cigarette butts and leaves also flows in. Such wastes are virtually difficult to be cleaned through a road drainage treatment apparatus installed near a road, and when these wastes are introduced in a large amount, it is difficult to maintain and manage the treatment apparatus. have.

The present invention is to solve the above-mentioned problem of the pollutant treatment apparatus in the existing road drainage system. In an unexpectedly short time such as guerrilla heavy rain, a large amount of rainfall is applied to the pollutant treatment apparatus of the road drainage facility. Providing a pollutant treatment device in a road drainage facility that can treat inflow road drainage without being injured due to the rapidly falling rainfall, including various kinds of pollutants settled in the treatment device even if it flows in. For the purpose of

It is also an object of the present invention to provide an apparatus for treating pollutants in a road drainage facility, which allows the road drainage to be uniformly distributed and treated as a whole regardless of the flow rate and / or flow rate of the incoming road drainage. do.

In addition, an object of the present invention is to provide a pollutant treatment apparatus in a road drainage facility that can treat not only normal road surface drainage, but also general wastes that may flow through the road drainage part.

In addition, the present invention focuses on the fact that, for example, during the rainfall, the initial rainfall and the late rainfall have different concentrations of pollutants, so that the latter rainfall can be directly discharged to the river without additional treatment. It aims to provide.

The present inventors identify the problem of the pollutant treatment device in the existing road drainage facility as a side effect of the rainfall flowing into the device at a high speed in a short time, and adopt a configuration to solve the problem. To complete the present invention.

In order to achieve the above object, according to the present invention there is provided a pollutant treatment apparatus of a road drainage facility, the treatment apparatus, the road surface drainage coming through the drainage of the road and the soil, solids and pollutants contained in the drainage, etc. And a road drainage reservoir having a means for lowering the falling speed of the road drainage by falling down through the drainage portion and distributing the waterfall dropping road drainage evenly to guide the inside. A road drainage treatment tank for purifying contaminants in the drainage flowing out of the road drainage storage tank and the road drainage storage tank and the road drainage treatment tank as the amount of drainage increases, and serves as an initial road surface to the road drainage storage tank. Road surface in the reservoir so that drainage can be temporarily maintained It is characterized in that it comprises an opening formed at a height that allows the road surface drainage moves twos the processing time is filled a predetermined amount or more.

According to a preferred embodiment of the present invention, the apparatus is further provided between the drainage portion and the road surface drainage reservoir, the road surface drainage inlet is provided with a screen to block the general waste flowing in from the drainage with the road surface drainage It may include.

According to another preferred embodiment of the present invention, the apparatus is a side of the road drainage inlet or the surface of the road drainage reservoir to discharge the low pollution second road surface drainage flows directly into the stream following the first road drainage with high pollution. It may further include a bypass tube provided on the side.

According to another preferred embodiment of the present invention, the apparatus may further include a treated water discharge portion provided on the upper surface of the road surface drainage treatment tank to discharge the road surface drainage treated in the road drainage treatment tank to the river.

According to one preferred embodiment of the present invention, the fall rate and distribution means of the road surface drainage falls down into the reservoir through the drainage portion by contacting the road surface drainage by using the drop of the road drainage coming into the storage tank The bottom of the reservoir evenly and uniformly distributes the road surface drainage contact plate for lowering the rate of drop of the drainage and distributes it below the reservoir, and the road drainage provided under the road drainage contact plate and distributed from the road drainage contact plate. It may include a road drain distribution plate formed with a plurality of holes to fall toward to prevent the sedimentation material in the reservoir rises.

Preferably, the holes may be formed in the same size at equal intervals on the road drain distribution plate.

According to one preferred embodiment of the present invention, the road drainage treatment tank further purifies the road surface drainage with a first medium layer provided at the bottom of the treatment tank to purify contaminants in the road drainage introduced from the reservoir. And a second medium layer spaced above the first medium layer and filled and provided in the form of a cartridge, and a road surface provided on the bottom of the second medium layer cartridge to support the second medium layer cartridge and flowing from the reservoir. It may include a support plate for evenly passing the drainage through the second medium layer, and a plurality of supports provided between the support plate and the first medium layer to support the support plate.

In one preferred embodiment, the first medium layer is provided as a gravel layer for purifying dissolved organic matter in the road drainage, and the second medium layer cartridge may be composed of an ecoconcrete, sand and vermiculite layer.

According to one embodiment of the present invention, a plurality of through-holes of the same shape may be formed in the support plate at equal intervals so that the road surface drainage can pass evenly to the second medium layer side.

According to one preferred embodiment of the present invention, the screen may include a coarse screen for blocking coarse waste such as leaves, and a fine screen for blocking the garbage smaller than the coarse waste.

The objects, features and advantages of the present invention described above will be more clearly understood through the following detailed description of the preferred embodiments of the present invention with reference to the accompanying drawings.

In the following description with reference to the accompanying drawings, a detailed description of a conventional known configuration and its operation related to the pollutant treatment apparatus installed in the road drainage facility will be omitted.

It is to be noted that, including claims, the term "road drainage" as used throughout this specification includes all water flowing from drainage such as roads, including rainwater entering from roads and the like during rainfall.

Figure 1 schematically shows the overall configuration of the pollutant treatment apparatus in a road drainage facility according to an embodiment of the present invention.

As shown, the pollutant treatment apparatus largely includes a road drainage inlet 100, a road drainage reservoir 200, a road drainage treatment tank 300, the treated water discharge unit 500, It is installed next to the road to pre-clean the road drainage before it is discharged into the river.

First, the road surface drainage inlet 100 is connected to a road drain, and guides road surface drainage entering through the drain to the road drain storage tank 200. On the other hand, through the drainage of the road as well as general road drainage, leaves, cookies, twigs, cigarette butts, etc. are also included in general waste. Since it is practically difficult to purify these general wastes, it is desirable that these wastes do not flow into the road drain storage tank 200.

Therefore, according to one embodiment of the present invention, the road surface drainage inlet 100 is provided with a screen to block the general waste enters the road surface drainage reservoir 200. As shown in FIG. 1, according to an embodiment of the present invention, the road drainage inlet 100 includes a coarse screen 120 for blocking relatively large garbage such as leaves or a cookie bag, and a twig or cigarette butt. Etc., a detail screen 130 is provided to block relatively small rubbish that may pass through the coarse screen 120, thereby preventing the rubbish as described above from entering the road surface drainage reservoir 200.

The road drain storage tank 200 communicates with the road drain inlet 100 to store soil drainage, solids, and pollutants contained in the road drain and the drain. These substances settle at the bottom of the reservoir and are subsequently removed when cleaning the reservoir.

As shown in FIG. 1, a road drain or road drain inlet 100 of a normal road is connected to the upper side of the road drain reservoir 200. Due to this configuration, road surface drainage enters the reservoir with a predetermined drop speed. In this case, when the rainfall is not large, the influence of the newly introduced road surface drainage on the soil or solids deposited on the bottom of the reservoir is insignificant. However, when a large amount of road drainage flows in a short time, such as guerrilla heavy rains, the amount of flow, flow rate, and drop width may affect soils and other solids that have settled in the reservoir, and thus these materials. This causes the problem of floating along with its polluted road drainage. This makes the purification of road drainage more difficult and decreases the purification efficiency, and consequently, the road drainage leaves the treatment apparatus with less purification treatment and flows into the stream.

According to the present invention, in a guerrilla heavy rain or the like, the fall rate of the road surface drainage which falls by falling through the inflow portion 100 is lowered and the waterfall fall-type road surface drainage is relatively uniform in the storage tank 200. Means are provided for dispensing and dropping to remove the effect on the material that has settled in the reservoir 200. For example, as shown in FIG. 1, according to one embodiment of the present invention, the road drain reservoir 200 is provided with a road drain contact plate 210 and a road drain drain plate 220.

In detail, the road drainage that falls into the reservoir from the road drain inlet 100 falls into contact with the road drain contact plate 210. At this time, the road surface drainage, as shown in Figure 1, the fall speed due to the drop difference is lowered, and is distributed in all directions on the basis of the road surface drainage contact plate to fall below the reservoir 200.

On the other hand, the road surface drainage distribution plate 220 is provided below the contact plate 210, the road surface drainage is distributed in various directions while the drop speed is reduced due to the contact with the road surface drainage contact plate 210 is Secondary contact with the road surface distribution plate 220. At this time, the road surface drainage distribution plate 220 is formed with a plurality of holes 220-1, the road surface drainage that falls into a waterfall type is divided into various parts while passing through the road surface drainage distribution plate 220, and the storage tank 200. ) To fall into. Therefore, even if the road drainage flows into the storage tank 200 at a very large flow rate and flow rate, such as guerrilla heavy rain, the speed of the road drainage is reduced while passing through the contact plate 210 and the distribution plate 220. Since it is divided into several parts and falls to the bottom of the reservoir, the effect of these road drainage on the soil or solids deposited on the bottom of the reservoir 200 is minimized, and thus, the soil or solids can hardly be injured. .

On the other hand, according to an embodiment of the present invention, the holes 220-1 of the road surface drainage distribution plate 220 are distributed evenly distributed from the road surface drainage contact plate 210 is more uniformly divided to fall. In order to be able to do so, it is preferable to form the same size with the same space as a whole.

The road drainage treatment tank 300 is provided to purify contaminants in the road drainage flowing from the road drain storage tank 200. As can be clearly seen through FIGS. 1 and 2, the road drainage treatment tank 300 is largely divided into first and second medium layers 310 and 320, a support plate 330, and a plurality of supports 340. It includes.

The media layers are provided for filtration or adsorption to remove contaminants contained in road surface drainage. The first medium layer 310 is provided at the bottom of the road surface drainage treatment tank 300 to serve to remove and remove dissolved organic substances in the road surface drainage. According to one preferred embodiment of the present invention, the first media layer 310 includes a gravel layer. .

The second medium layer 320 is composed of a plurality of layers, each of which is provided in a form filled in the cartridge, to facilitate the installation, removal, maintenance and the like. According to one embodiment of the present invention, the second medium layer 320 is provided in four layers, each layer consisting of ecoconcrete, sand, vermiculite, sand layer from the lower layer, from the road surface drainage reservoir 200 The organic material in the road drainage, which flows in and flows upward of the road drainage tank 300, is filtered and adsorbed and removed.

On the other hand, the lower surface of the second medium layer 320 is provided with a support plate 330 for supporting the second medium layer and for evenly distributing the road surface drainage to the second medium layer. As shown in FIG. 2, the support plate 330 has a plurality of through holes 330-1 in a uniform shape, and the road surface drainage moves through the support plate to the second medium layer 320. And evenly distributed and supplied throughout the second medium layer, so that even if a large amount of road drainage flows during heavy rains, the road drainage flows more smoothly and is included in the road drainage. It helps to remove contaminants more efficiently.

On the other hand, as can be clearly seen through the drawing, according to the present invention, the road surface drainage treatment tank 300 is not composed entirely of a medium layer for filtering and adsorption of the road surface drainage, the first medium layer ( 310 and the second medium layer 320 are connected and supported through a plurality of supports 340. That is, when the rainfall is increased, a greater amount of road drainage is introduced from the road drainage reservoir 200. According to the present invention, by providing the first medium layer and the second medium layer separately, and providing a plurality of supports 340 with a space therebetween, that is, at predetermined intervals, The road surface drainage flows more smoothly and allows the road surface drainage treatment tank 300 to pass therethrough. As shown more clearly in FIG. 2, according to one preferred embodiment of the present invention, the supports 340 are installed at even intervals from each other, so that the road drainage flows more smoothly and quickly through them. Thus, the second medium layer 320 may be passed through.

Meanwhile, the road surface drainage tank 200 and the road surface drainage tank 300 communicate with each other through a passage 400 formed therebetween. That is, the road drainage storage tank 200, for example, the primary rainfall and the earth and sand contained in the rain is primarily settled and stored, the rainwater increased as the rainfall increases the road surface drainage treatment tank 300 for the subsequent process Move to). To this end, a passage 400 is provided between the road surface reservoir and the treatment tank.

According to one preferred embodiment of the present invention, not all road drainage moves to the treatment tank for subsequent treatment, but the passageway so that the initial stormwater with a large contaminant concentration can be maintained in the road drainage reservoir 200 for a sufficient time. 400 is formed at a predetermined height from the bottom surface of the road surface drainage reservoir 200 and the road surface drainage treatment tank 300, so that when the road drainage in the reservoir increases by a predetermined amount, it can move to the treatment tank.

The road surface drainage passing through the second medium layer 320 is discharged to a nearby stream through the treated water discharge part 500 formed on one side of the upper side of the treatment tank 300.

On the other hand, since the initial rainfall during rainfall is high in the concentration of contaminants, it is preferable to discharge the stream to the stream after passing through the wastewater treatment apparatus as in the present invention. However, as described above, road drainage after heavy rainfall or after initial rainfall has a significantly lower concentration of pollutants than initial rainfall. In addition, even in view of the treatment capacity of the treatment apparatus according to the present invention, the need for the purification treatment through the pollutant treatment apparatus in the road drainage facility according to the present invention to the late superiority is much reduced. Thus, according to the present invention, the road drainage inlet 100 is provided with a bypass pipe 700 for direct discharge of the low road pollution secondary secondary road drain flows into the adjacent stream after the first road surface drainage with high pollution degree is provided In other words, appropriate treatment can be carried out depending on the pollution concentration of rainwater and incoming road drainage. In addition, according to another preferred embodiment of the present invention, unlike shown in Figure 1, the bypass pipe 700 is provided on the upper side of the road surface drainage reservoir 200, so that if there is a lot of rainfall, the late rainfall is immediately discharged to the river You may.

On the other hand, the pollutant treatment apparatus according to the present invention needs to be maintained, such as cleaning periodically. To this end, as is clearly shown in Figure 1, the upper surface of the road surface drainage inlet 100, road surface drainage reservoir 200 and road surface drainage treatment tank 300 is provided with a maintenance manhole 600, respectively, Through this, it is possible to perform cleaning, management or replacement of the media layers.

Although the present invention has been described on the basis of preferred embodiments, the present invention is not limited to the above description, and it can be understood by those skilled in the art that various changes and modifications can be made without departing from the spirit and scope of the present invention. will be. Therefore, the present invention is limited only by the scope of the utility model registration claims to be described below and their equivalents.

As described above, according to the present invention, even when road drainage is introduced due to an unexpected heavy rain such as guerrilla heavy rain, the road drainage flows into the reservoir while lowering the inflow rate of the road drainage and distributing it evenly. Therefore, it is possible to prevent the earth and solids, etc., which have settled in the storage tank to rise and flow along with the road surface drainage.

In addition, according to the present invention, even when a large amount of road drainage flows in and flows in, the road drainage is uniformly distributed and flows through the medium layer while flowing, thereby effectively removing contaminants contained in the road drainage. have.

Furthermore, according to the present invention, unlike the initial rainwater with a large pollution concentration, the late rainwater with a small pollution concentration is discharged directly to a river, thereby reducing the work load of the pollutant treatment device according to the present invention.

1 is a partial cutaway perspective view schematically showing an overall configuration of an apparatus for treating pollutants in a road drainage system according to an embodiment of the present invention.

FIG. 2 is a partially exploded perspective view of the pollutant treating apparatus shown in FIG. 1.

<Explanation of symbols for the main parts of the drawings>

100: road drain inlet

200: road drain reservoir

210: road drain contact plate

220: road drain distribution plate

300: road drain treatment tank

310, 320: medium layer

330: support plate

340 support

400: passage

500: treated water discharge part

600: maintenance manhole

700: bypass

Claims (16)

Stores road surface drainage through roads, parking lots, etc., and earth and sand, solids, and contaminants contained in the drainage, and falls down through the drainage to reduce the rate of fall of the road drainage. A road drainage reservoir having a means for uniformly distributing the drop-type road drainage and leading it to the inside; A road drainage treatment tank for purifying contaminants in the drainage flowing out of the road drainage storage tank as the road drainage amount is increased; The road drainage reservoir and the road drainage treatment tank communicate with each other, and when the road drainage in the reservoir is filled in a predetermined amount or more so that the initial road drainage can be temporarily maintained in the road drainage reservoir, the road drainage is Aisles formed at a height that allows them to move into the treatment tank Pollutant treatment apparatus in the road drainage facility comprising a. The roadway drainage part of claim 1, further comprising a road drainage inlet portion provided between the drainage part and the road drainage reservoir, and provided with a screen for blocking general wastes flowing from the drainage part with the road drainage. Pollutant treatment unit in drainage system. The bypass pipe of claim 2, wherein a bypass pipe provided at a side of the road drainage inlet or an upper part of the road drainage reservoir for direct discharge of the low road pollution drainage after the high road pollution drainage is directly flowed into the stream. Contaminant treatment apparatus in the road drainage, characterized in that it further comprises. 4. The pollutant treatment system of claim 3, further comprising a treatment water discharge part provided on an upper surface of the road drainage treatment tank to discharge road surface drainage treated by the road drainage treatment tank to a stream. Device. The method of any one of claims 1 to 4, wherein the drop rate of the road drainage is lowered and the distribution means contacts with the road drainage by using a drop difference of the road drainage that falls into the reservoir through the drainage. The storage tank uniformly and uniformly distributes the road surface drainage contact plate for lowering the rate of drop of road surface drainage and distributes it below the storage portion, and the road drainage provided under the road surface drainage contact plate and distributed from the road surface drainage contact plate. And a road drainage distribution plate having a plurality of holes formed therein to fall toward the bottom to prevent precipitation of sediment in the reservoir. The pollutant treatment apparatus of claim 5, wherein the holes are formed in the same size at equal intervals on the road drain distribution plate. 5. The road surface drainage treatment tank according to any one of claims 1 to 4, wherein the road drainage treatment tank further purifies the road surface drainage with a first medium layer provided at the bottom of the treatment tank to purify contaminants in the road drainage introduced from the reservoir. A second medium layer spaced above the first medium layer for processing and provided in a cartridge form, and provided at the bottom of the second medium layer cartridge to support the second medium layer cartridge and flow out of the reservoir; Contaminants in a road drainage system comprising a support plate for evenly passing road drainage through the second medium layer, and a plurality of supports provided between the support plate and the first medium layer to support the support plate. Processing unit. 8. The road drainage system of claim 7, wherein the first medium layer is provided as a gravel layer for purifying dissolved organic matter in the road drainage, and the second medium layer cartridge is composed of an ecoconcrete, sand and vermiculite layer. Pollutant treatment device. The pollutant in the road drainage system of claim 7, wherein the support plate has a plurality of through-holes of the same shape formed at equal intervals so that road surface drainage can pass evenly to the second medium layer side. Processing unit. 6. The road surface drainage treatment tank according to claim 5, wherein the road drainage treatment tank has a first medium layer provided at the bottom of the treatment tank to purify contaminants in the road drainage introduced from the reservoir, and the first medium for further purifying the road surface drainage. A second medium layer spaced above the bed and filled and provided in the form of a cartridge; and a second medium layer provided on a bottom surface of the second medium layer cartridge to support the second medium layer cartridge, and to provide road surface drainage flowing from the reservoir. And a support plate for passing the layer evenly, and a plurality of support rods provided between the support plate and the first medium layer to support the support plate. The road drainage system of claim 10, wherein the first medium layer is provided as a gravel layer for purifying dissolved organic substances in the road drainage, and the second medium layer cartridge is composed of an eco-concrete, sand, and vermiculite layer. Pollutant treatment device. The pollutant of claim 10, wherein the support plate has a plurality of through-holes of the same shape formed at equal intervals so that road surface drainage can pass evenly to the second medium layer side. Processing unit. The method of claim 6, wherein the wastewater treatment tank has a first medium layer provided at the bottom of the treatment tank to purify contaminants in the road drainage from the reservoir, and the first medium for further purifying the road surface drainage. A second medium layer spaced above the bed and filled and provided in the form of a cartridge; and a second medium layer provided on a bottom surface of the second medium layer cartridge to support the second medium layer cartridge, and to provide road surface drainage flowing from the reservoir. And a support plate for passing the layer evenly, and a plurality of support rods provided between the support plate and the first medium layer to support the support plate. The road drainage system of claim 13, wherein the first medium layer is provided as a gravel layer for purifying dissolved organic substances in the road drainage, and the second medium layer cartridge is composed of an eco concrete, sand, and vermiculite layer. Pollutant treatment device. The pollutant in the road drainage system of claim 13, wherein a plurality of through holes of the same shape are formed at equal intervals in the support plate so that the road surface drainage can pass evenly to the second medium layer side. Processing unit. The road drainage system according to any one of claims 2 to 4, wherein the screen includes a coarse screen for blocking coarse waste such as leaves, and a fine screen for blocking waste smaller than the coarse waste. Pollutant treatment equipment