KR20140096252A - Initial non-point polluted rain water processing system - Google Patents

Abstract

The present invention relates to an initial non-point polluted rainwater treating system which can selectively collect, store and treat only initially non-point polluted rainwater at a sewer system or at a point where non-point polluted water is discharged, thereby reducing the waste of pollution prevention facilities and increasing the efficiency of pollution removal. The present invention provides an initial non-point polluted rainwater treating system which supplies initial non-point polluted rainwater to a detention pond through a collecting well exhalent pipeline, supplies the initial non-point polluted rainwater to a sedimentation basin through a flow speed reducing manhole when the water level of the detention pond rises above a predetermined height and discharges the initial non-point polluted rainwater from which pollutants are removed, to a stream through a discharge flood gate.

Description

{Initial non-point polluted rain water processing system}

The present invention relates to an initial boiling point contamination treatment system, which selectively collects only the initial boiling point contamination due to rainfall or the like, To an initial nonpoint contamination excellent treatment system which provides an initial nonpoint contamination excellent treatment system that reduces waste of resources and increases the efficiency of decontamination.

As a background technique for the initial nonpoint contamination excellent treatment system of the present invention, Korean Patent Registration No. 10-0710859 shown in FIG. 1 is a technology of a wetland system for treating nonpoint pollutants. This technique is formed so as to be higher than the bottom surface of the sedimentation basin downstream of the sedimentation tank along the flow direction of the sedimentation tank and the polluted water for temporarily collecting the contaminated water from the outside to sediment and remove the dirt contained in the contaminated water A first water treatment type first purification treatment tank having a first wetland planted with a first purification plant and a second water discharge pipe provided with a second drainage pipe provided downstream from the first purification treatment tank and receiving polluted water, A second freezing surface treatment type second purification treatment tank having a second wetland planted with a second purification plant and a third purification treatment tank having a permeation purification section capable of being purified while being permeated with polluted water are sequentially disposed Characterized by a built-in wetland system for the treatment of non-point pollutants.

As another background technique for the initial non-point contamination excellent treatment system of the present invention, there is a natural type non-point pollution treatment facility technology of Korean Patent No. 10-1218044 shown in FIG. This technology relates to a natural type non-point pollution treatment facility capable of effectively removing automobile dust and other powder type pollutants while sequentially passing through a settling tank, an ecological water tank, a microorganism activating tank, and an adsorption / 1. A natural-type non-point pollution control facility in which water is sequentially passed through a settling tank (1), an ecological water tank (2), a microorganism activating tank (3) and an adsorption / settling tank (4) And the aquatic plant 25 is constructed so that the suspended matter can be filtered and removed by the aquatic plants 11 planted in the float 12 while the heavy pollutants are precipitated. The microorganism activating tank 3 is used to purify the water by activating the microorganisms in the water by using the adsorption filter medium 31. In this case, In the adsorption / sedimentation tank 4, residual contaminants are precipitated and suspended substances can be removed by an aquatic plant 41 planted in the float 42.

KR 10-1218044 B1 KR 10-0710859 B1 KR 10-1361272 B1 KR 10-2010-0043351 A KR 10-0912708 B1 KR 10-0952117 B1 KR 10-1311001 B1 KR 10-1317474 B1 KR 10-2014-0060696 A

The present invention relates to a method and apparatus for collecting and storing only an excellent initial boiling point contamination due to rainfall or the like at a point where a stationary system or non-point polluted water is discharged, selectively collecting only an excellent boiling point pollution pollutant, An object of the present invention is to provide an initial non-point contamination excellent treatment system which provides an initial non-point contamination excellent treatment system that increases efficiency.

The present invention relates to a method and a system for supplying an initial boiling contamination surplus to a sedimentation paper through a flow rate reducing manhole from the time when the contamination surplus is supplied to the reservoir through the collection water outlet channel and the water level of the reservoir reaches a height equal to or higher than the orifice opening in the reservoir outlet, And provides an excellent initial non-point pollution treatment system that can discharge the initial non-point pollution excreted in polluted water through the discharge gate to the river.

Further, according to the present invention, a sufficient time for the primary precipitation treatment is ensured by performing only the storage without the treatment until the initial boiling impurity contamination to be supplied to the reservoir becomes the set water level. When the water level of the reservoir becomes equal to or higher than the set water level This system provides a solution to the problem of the initial non-point pollution, which provides the initial non-point pollution with limited flow rate to the sedimentation basin so that the initial non-point pollution with pollution removed through the discharge gate is discharged to the river.

The initial non-point contamination excellent treatment system of the present invention selectively collects only the excellent initial non-point pollution due to rainfall or the like at the point where the non-point polluted water is discharged, and selectively collects only the excellent non- And provides a technical effect of providing an initial nonpoint contamination excellent treatment system that reduces waste and increases the efficiency of decontamination.

FIG. 1 shows the construction of a wetland system technology for the treatment of nonpoint pollutants
FIG. 2 is a diagram showing the composition of a natural type non-point pollution treatment facility
FIG. 3 is a diagram showing a basic configuration of the first embodiment of the present invention
FIG. 4 is a cross-sectional view of the structure of the second exhaust conduit from the overflow collecting structure of the first embodiment of the present invention
FIG. 5 is a schematic view of the structure
6 is a perspective view of an embodiment of the reservoir outlet of the first embodiment of the present invention
7 shows another embodiment of the reservoir outlet of the first embodiment of the present invention
FIG. 8 is a perspective view of still another embodiment of the reservoir outlet of the first embodiment of the present invention
FIG. 9 is a view showing an embodiment of the flow rate reducing manhole of the first embodiment of the present invention
FIG. 10 is an example of a sedimentation structure formed from a flow rate reducing manhole to a discharge gate
FIG. 11 is a diagram showing the working relationship of the first embodiment of the present invention
12 shows the overall configuration of the initial non-point contamination excellent treatment system of the first embodiment of the present invention
FIG. 13 is a view showing the configuration of the second drainage channel from the overflow collection in the second embodiment of the present invention
FIG. 14 is a diagram showing an operational relationship of the second embodiment of the present invention
15 shows the overall configuration of the initial non-point contamination excellent treatment system of the second embodiment of the present invention

The following merely illustrates the principles of the invention. Accordingly, those skilled in the art will be able to devise various apparatuses which, although not explicitly described or shown herein, embody the principles of the invention and are included in the concept and scope of the invention. It is to be understood that all of the conditional terms and embodiments recited herein are expressly intended to be purely for purposes of understanding the concepts of the present invention and are not intended to be limiting to such specifically recited embodiments and conditions . It is also to be understood that the detailed description, as well as the principles, aspects and embodiments of the invention, as well as specific embodiments thereof, are intended to cover structural and functional equivalents thereof.

The above objects, features and advantages will become more apparent from the following detailed description in conjunction with the accompanying drawings. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Non-point pollution sources are cities, roads, farmland, mountainous areas, construction sites, etc., which are sources of water pollutants that are unspecified at unspecified locations. Relatively point pollution sources are relatively easy to collect due to the clear path of pollutants, and it is relatively easy to design and maintain the treatment facilities such as pipelines and treatment plants because the seasonal impacts are relatively small. On the other hand, non-point pollution sources have difficulty in designing and maintaining treatment facilities because collecting is difficult and pollutant emission and discharge paths are not clearly distinguished and amount of generated / discharged is greatly dependent on weather conditions such as precipitation.

 Such non-point pollution includes, but is not limited to, fertilizers and pesticides which are not absorbed by the crops and are left in the agricultural land, livestock feces grazed on grassland, untreated livestock wastewater from livestock farming, air pollutants mixed with rainwater, sediments on the road surface, There is a mixture of sewage / sewage and rainwater flowing into the river in excess of the designed amount in the rainfall. There are many kinds of pollutants such as suspended solids such as soil that flows along with rainfall at the nonpoint source, nutrients such as nitrogen / phosphorus, Is difficult to collect and treat, so it flows directly into rivers without any special treatment, thereby polluting the water quality, thereby causing adverse effects such as fish being killed by masses or destruction of habitats of benthic organisms and disturbance of aquatic ecosystem.

Roads, sidewalks and parking facilities in cities are formed by asphalt or cement as impervious layers, and most of them have a large impact on the river because they are directly connected to the piping system. Such non-point pollution is characterized by the fact that most pollutants are contained in the early storm that flows through the river during rainfall.

The present invention provides an initial nonpoint contamination excellent treatment system for selectively collecting and storing only the excellent initial point contamination due to rainfall or the like at a point where the stationary system or nonpoint contaminated water is discharged, and for treating the watercolor of the collected nonpoint contaminated water. Also, the present invention provides an initial non-point contamination excellent treatment system that reduces wastage of pollution prevention facility resources and increases the efficiency of pollution removal by selectively collecting only the initial nonpoint pollution.

FIG. 3 shows a basic configuration of an initial non-point contamination excellent treatment system according to the first embodiment of the present invention. The initial non-point contamination excellent treatment system of the present invention can treat the end of the conduit discharged to the river or the rainwater to which the polluted water is discharged by providing a beam with excellent initial boiling point contamination. It is needless to say that the initial non-point contamination excellent treatment system of the present invention can also be applied to point pollution sources.

The initial non-point contamination excellent treatment system according to the present invention is characterized by comprising: a collecting unit (100) for selectively supplying only an excellent initial non-point pollution by providing pollution excellence by being connected to a river water at the end of a conduit or discharging polluted water; A reservoir 200 for storing the initial nonpoint contamination excellent provided to the water collection channel 130 of the crystal 100 and performing a primary settlement of the pollutants; A reservoir outlet (250) for discharging the initial boiling point contamination stored in the reservoir (200) to the first discharge pipe (290); A flow rate reducing manhole 300 for reducing the flow rate of the initial nonpoint contamination discharged from the pond outlet 250 and an initial nonpoint contamination supply through the flow rate reducing manhole 300 to the second discharge pipe 320 A sedimentation paper 400 which is supplied through the first sedimentation unit and proceeds to second sedimentation and decomposition of contaminants; And a discharge water gate 500 located at the end of the sedimentation paper 400 and discharging the initial nonpoint contaminated water of which contamination has been removed through the discharge water 500 to the river.

In the present invention, the reservoir 200 is an artificial structure that stores initial excellent boiling impurity contamination and performs primary settling of contaminants. The capacity of the reservoir 200 is determined according to the amount of initial boiling impurity contamination, It is designed with excellent storage capacity for non-point pollution. In addition, the reservoir 200 is formed to have a waterproof film for the soil as a material having elasticity for preventing secondary pollution caused by pollutants that may be deposited or leached into the ground and preventing frost damage during the winter season. The material of the water retention layer between the reservoir 200 and the soil should have an elongation of 200% or more and a tensile strength of 50 kg / cm 2 or more. For example, bentonite (mat) Should be used to prevent groundwater leaks as appropriate and be ecologically sound.

FIG. 4 is an enlarged view of the configuration between the overflow collection line 100 and the second discharge line 320 in the initial nonpoint contamination excellent treatment system according to the first embodiment of the present invention.

The overflow collecting unit 100 of the present invention is provided with concrete and has an excellent supply pipe 120 connected to the end of a conduit or a river discharging polluted water and having excellent nonpoint contamination, And an accumulation water outlet line 130 formed so that an opening is located at a height h1-h2 below the bottom of the bottom surface. The upper side of the stormwater collecting line 100 has the same height as that of the storm drainage channel 110 to discharge stormwater after filling the reservoir 200 with the initial boiling point contamination. The other end of the storm drainage pipe 110 is connected to a river through which conduits or polluted water are discharged, so that the stormwater after the filling of the reservoir 200 with the initial boiling point contamination is discharged.

The fine supply channel 120, the water collection channel 130 and the discharge channel 110 may be formed in the water collection channel 100 extending from the bottom of the discharge channel 110 to the bottom of the discharge channel 110, It is connected in space. The stormwater supply duct 120 and the storm drainage channel 130 are disposed in a direction perpendicular to each other in the space in the overflow collecting hall 100. The storm drainage duct 110 is also disposed opposite to the storm drainage channel 130 It is preferable to arrange the supply line 120 at right angles with the supply line 120. The space in the overflow collecting duct 100 is connected to the collecting duct 130 through the condensate return duct 130. In this case, when the position of the condensate return duct 130 is designed to be sufficiently low with respect to the excellent supply duct 120 and the storm drainage duct 110, It is not necessary to extend the lower end.

A reservoir 200 for storing initial boiling impurity contamination supplied from the overflow collecting unit 100 and performing a primary settling of contaminants; And an orifice (200) for discharging the initial non-contamination contamination stored in the reservoir (200) to the first discharge pipe (290) when the level of the reservoir (200) a reservoir outlet (250) having an orifice; And a first discharge conduit 290 for supplying an initial boiling point contamination surplus through the orifice from the reservoir outflow section 250. The flow rate reducing manhole 300 is connected to the other end of the first discharge pipe 290 and the flow rate of the initial nonpoint contamination supplied from the first discharge pipe 290 is reduced in the flow rate reducing manhole 300 A partition wall 310 is formed so as to smooth the flow of excellent initial boiling point contamination. A second discharge conduit (320) is connected to the flow rate reducing manhole (300) to supply an initial boiling point contamination excellent to the sedimentation paper (400).

FIG. 5 shows the structure of the overflow collector 100 of the present invention. As described above, the fine supply channel 120, the condensate outlet channel 130, and the excellent discharge channel 110 are formed in the collecting water channel 130, 100 in the space 140. At this time, the storm drainage channel 110 and the storm drainage channel 120 are formed at the same height in the upper part of the space 140 in the overflow collector 100.

Sectional area of the storm drainage duct 110 is formed to be larger than the cross sectional area of the storm drainage channel 120 and the storm drainage channel 130 so as to smoothly discharge the stormwater after the initial non- do.

The stormwater supply duct 120 and the storm drainage duct 130 are arranged in a direction perpendicular to each other in the space 140 in the overflow collecting hall 100. The storm drainage duct 110 is also connected to the collection- In the direction opposite to the direction in which the fine supply line 120 is formed. The space in the overflow collecting duct 100 is connected to the collecting duct 130 through the condensate return duct 130. In this case, when the position of the condensate return duct 130 is designed to be sufficiently low with respect to the excellent supply duct 120 and the storm drainage duct 110, It is not necessary to extend the lower end.

FIG. 6 illustrates one embodiment of the reservoir outlet 250 of the first embodiment of the present invention. The reservoir outflow part 250 of the present invention is formed of a concrete material in a hexahedron shape having a lid having a plurality of holes formed at the upper end thereof to allow air or an initial non-contamination stain to pass. The reservoir outflow section 250 of the present invention is fixed to the bottom surface of the reservoir 200 and has an outflow port 260 provided at the bottom of one side of the reservoir outflow section 250, Is formed. In addition, an orifice 270 is provided in the reservoir outlet 250 to extend to an external first drain line 290. The orifice 270 has an orifice cap 272 formed with an orifice opening 274 having a narrow cross-sectional area at the inlet to limit the flow rate of the initial non-contamination contamination provided from the reservoir 200 to the first discharge pipe 290 Respectively. Therefore, the pond outlet 250 fixedly formed on the bottom surface of the pond 200 can be easily removed from the outer first pond passage 290 from the point where the initial nonpoint contamination of the pond 200 becomes higher than the orifice opening 274 And begin to emit excellent initial non-point pollution with a limited flow rate. The orifice 270 has an orifice opening 274 formed at an upper end thereof and the orifice 270 is formed by extending the first discharge pipe 290 in a straight line and having an orifice opening The orifice cap 272 may be disposed. In addition, the orifice 270 may be provided with a network filter as shown at the top to block the ingress of floating or large-sized contaminants into the orifice opening 274, and the mesh filter may prevent the size of the orifice opening 274 To a smaller net size.

FIG. 7 illustrates another embodiment of the reservoir outlet 250 of the first embodiment of the present invention. The reservoir outlet portion 250 of the above-described FIG. 6 is fixedly formed on the bottom surface of the reservoir 200. Therefore, in an environment in which contamination accumulated on the bottom surface of the reservoir 200 and contamination of the initial non-point contamination may be mixed into the reservoir outflow portion 250, the outer circumference of the excellent supply port 260 is covered, And an excellent supply cover 265 for switching the direction upward. Preferably, the storm reservoir cover 265 is integrally formed of the same material as the reservoir outflow section 250.

FIG. 8 shows another embodiment of the reservoir outlet 250 of the first embodiment of the present invention. As described above, in the pond outlet 250 formed on the bottom surface of the pond 200, the excellent initial contamination of the pond may be accumulated in the bottom of the pond 200 together with a large amount of contaminants accumulated in the bottom of the pond 200 In an environment where there is a possibility of being mixed into the inside, a mesh filter 275 (mesh filter) for blocking the contaminants is installed outside the fine supply port 260 and fixedly installed. The mesh filter 275 can be provided with a smooth supply of excellent initial boiling point contamination by providing the mesh feeder 260 with a mesh size smaller than that of the orifice opening 274.

FIG. 9 shows one embodiment of the flow-rate-reduced manhole 300 of the first embodiment of the present invention. The flow rate reducing manhole 300 of the present invention is formed with a partition 310 for reducing the flow rate of the initial nonpoint contamination supplied from the first discharge pipe 290 and moderating the flow with excellent initial boiling point . The partition wall 310 is disposed at right angles to the flow of the initial non-point contamination supplied from the first discharge pipe 290, and both ends of the partition wall 310 are fixed to the wall of the flow rate reducing manhole 300. Also, the upper and lower ends of the barrier ribs 310 are formed to be opened so as to allow the initial boiling point contamination to be excellent. In the flow rate-reducing manhole 300, the initial non-point contamination with the flow velocity relaxed by the partition 310 is supplied to the sedimentation paper 400 through the second discharge conduit 320.

FIG. 10 shows an example of the configuration of the sedimentation paper 400 formed from the flow rate reducing manhole 300 to the discharge water gate 500 in the initial nonpoint contamination excellent treatment system of the first embodiment of the present invention. The sedimentation paper 400 according to the present invention is a sedimentation paper 400 that is supplied through the second discharge conduit 320 through the flow rate reducing manhole 300 and is provided with an artificial river to be. The settling paper 400 smoothly flows the initial nonpoint contamination excellent supplied through the second discharge pipe 320 and performs vegetation (not shown) for aquatic plants for natural decomposition to perform precipitation and decomposition of fine contaminants . The sedimentation paper 400 is provided with a path of at least several hundred meters or more and is formed in the form of a stream using a terrain, thereby minimizing contamination. The soil constituting the sedimentation paper (400) is composed of silt, sand mixed with gravel, clay and sandy silt, and topsoil is stored and used. In consideration of the growth of aquatic plants and the purification of water, eco-friendly soil-supporting materials can be used as needed. In addition, the sedimentation paper 400 is installed so as to have a purification effect, a landscape improvement function, and a biological habitat function by using a gravel-applied puddle and a bone layer in a partly gravel-

At the end of the sedimentation paper 400, a discharge water gate 500 is provided. The discharge water gate 500 controls the water level and the discharge flow rate of the sedimentation paper 400 to discharge the cleaned initial boiling point contamination to the external river Function.

FIG. 11 shows the working relationship in the initial non-point contamination excellent treatment system of the first embodiment of the present invention. (A) of the drawing shows an operation in a standby state of the initial non-point contamination excellent treatment system of the present invention, that is, a state in which the non-point contamination excellent state is not supplied. In the standby state of the initial nonpoint contamination excellent treatment system according to the present invention, the flow of the excellent flow from the overflow collecting 100 - the reservoir 200 - the reservoir outlet 250 - the flow velocity reducing manhole 300 - Does not occur. However, a small amount of domestic wastewater treatment which is supplied to the flow rate-reduced manhole 300 through the conduit can be performed.

(B) of the drawing shows a state in which the rainfall is started, and the end of the conduit or the conduit is connected to the river water from which the polluted water is discharged to treat pollution excellence.

 The end of the conduit or contaminated water that is connected to the river water to which the polluted water is discharged and is supplied to the storm drainage channel 120 has an opening at a height h1-h2 below the bottom of the bottom of the stormwater supply pipe 120 of the stormwater collector 100 The water is supplied to the reservoir 200 through the collecting water channel 130 where the reservoir 200 is located and the height of the reservoir 200 becomes equal to or higher than the orifice opening 274 in the reservoir outlet 250, The initial velocity of the non-point contamination is supplied through the channel 290 through the flow rate reducing manhole 300. The flow rate reducing manhole 300 discharges the initial non-point contamination supplied to the sedimentation paper 400, Second settlement and decomposition proceed. At the end of the sedimentation paper 400, the initial non-point contamination with the pollutant removed through the discharge gate 500 is discharged to the river.

(C) of the drawing shows a state in which the rainfall is sustained or the initial non-point contamination excellent is treated in a large amount of rainfall occurrence environment.

The contamination surplus that is connected to the end of the conduit or the river water to which the polluted water is discharged and is supplied to the storm drainage channel 120 is primarily caused to have a height h1-h2 below the bottom of the bottom of the stormwater supply channel 120 of the stormwater collector 100 And is supplied to the reservoir 200 through the collection pipe 130 where the openings are located. When the initial boiling point contamination is stored in the reservoir 200, the level of the reservoir 200 exceeds the height of the excellent supply line 120, . The other end of the storm drainage pipe 110 is connected to a river through which conduits or polluted water are discharged, so that the stormwater after filling the pond reservoir 200 with an initial excellent boiling point contamination is discharged.

Therefore, the puddle (200) is hardly stored after the excellent initial point of contamination is filled. The time taken for the water level of the reservoir 200 to exceed the height of the stormwater supply line 120 is determined according to the capacity of the reservoir 200. Preferably, in the present invention, the capacity of the reservoir 200 is reduced to 8 to 24 hours until the initial boiling point contamination reaches the height of the stormwater supply line 120, which is the maximum level of the reservoir 200.

The initial nonpoint contamination of the reservoir 200 is limited by the external first discharge pipe 290 from the time when the water level reaches the height h3 of the orifice opening 274 in the pond outlet 250, And the pollution excretion is supplied through the flow rate reducing manhole 300. The flow rate reducing manhole 300 discharges the initial non-point pollution supplied to the sedimentation paper 400 to progress the secondary settling and decomposition of the pollutant. At the end of the sedimentation paper 400, the initial non-point contamination with the pollutant removed through the discharge gate 500 is discharged to the river.

12 shows an overall configuration of an initial nonpoint contamination excellent treatment system of the first embodiment of the present invention.

The initial non-point contamination excellent treatment system according to the present invention is characterized by comprising: a collecting unit (100) for selectively supplying only an excellent initial non-point pollution by providing pollution excellence by being connected to a river water at the end of a conduit or discharging polluted water; A reservoir 200 for storing the initial nonpoint contamination excellent provided to the water collection channel 130 of the crystal 100 and performing a primary settlement of the pollutants; A reservoir outlet (250) for discharging the initial boiling point contamination stored in the reservoir (200) to the first discharge pipe (290); A flow rate reducing manhole 300 for reducing the flow rate of the initial nonpoint contamination discharged from the pond outlet 250 and an initial nonpoint contamination supply through the flow rate reducing manhole 300 to the second discharge pipe 320 A sedimentation paper 400 which is supplied through the first sedimentation unit and proceeds to second sedimentation and decomposition of contaminants; And a drainage basin (500) located at the end of the sedimentation tank (400) and discharging the initial nonpoint contaminated soil from which contaminants have been removed to the river.

In the present invention, the reservoir 200 is an artificial structure for storing initial excellent nonpoint contamination and performing primary settling of contaminants. The orifice opening 274 (see FIG. 2) in the reservoir outlet 250 formed in the bottom of the reservoir 200, 4) is set to a minimum water level and the height of the fine supply channel 120 is set to a maximum water level.

The initial pollution abatement treatment system of the first embodiment of the present invention is characterized in that the contamination stormwater is supplied to the reservoir 200 through the water collection channel 130 and the water level of the reservoir 200 is supplied to the reservoir outlet 250 The initial non-point contamination excellent is supplied to the sedimentation paper 400 through the flow rate reducing manhole 300 at a limited flow rate through the first external discharge conduit 290 from the time when the height of the orifice opening 274 becomes equal to or higher than the height of the orifice opening 274, 500) is discharged to the river.

In contrast, in the initial non-point contamination excellent treatment system of the second embodiment of the present invention described below, only the initial precipitation is performed without performing treatment until the initial non-point contamination excellent supplied to the reservoir 200 reaches a set water level, And the supply of the initial boiling point contamination to the sedimentation paper 400 through the flow rate reducing manhole 300 at a limited flow rate from the time when the water level of the reservoir 200 becomes equal to or higher than the set water level, 500) is discharged to the river.

FIG. 13 is an enlarged view of the structure between the overflow collection line 100 and the second discharge line 320 in the initial nonpoint contamination excellent treatment system according to the second embodiment of the present invention.

The overflow collecting unit 100 of the present invention is provided with concrete and has an excellent supply pipe 120 connected to the end of a conduit or a river discharging polluted water and having excellent nonpoint contamination, And an accumulation water outlet line 130 formed so that an opening is located at a height h1-h2 below the bottom of the bottom surface. The upper side of the stormwater collecting line 100 has the same height as that of the storm drainage channel 110 to discharge stormwater after filling the reservoir 200 with the initial boiling point contamination. The other end of the storm drainage pipe 110 is connected to a river through which conduits or polluted water are discharged, so that the stormwater after the filling of the reservoir 200 with the initial boiling point contamination is discharged.

The fine supply channel 120, the water collection channel 130 and the discharge channel 110 may be formed in the water collection channel 100 extending from the bottom of the discharge channel 110 to the bottom of the discharge channel 110, It is connected in space. The stormwater supply duct 120 and the storm drainage channel 130 are disposed in a direction perpendicular to each other in the space in the overflow collecting hall 100. The storm drainage duct 110 is also disposed opposite to the storm drainage channel 130 It is preferable to arrange the supply line 120 at right angles with the supply line 120. The space in the overflow collecting duct 100 is connected to the collecting duct 130 through the condensate return duct 130. In this case, when the position of the condensate return duct 130 is designed to be sufficiently low with respect to the excellent supply duct 120 and the storm drainage duct 110, It is not necessary to extend the lower end.

A reservoir 200 for storing initial boiling impurity contamination supplied from the overflow collecting unit 100 and performing a primary settling of contaminants; And a siphon pipe 295 for supplying an initial boiling impurity contamination to the flow rate-reduced manhole 300 through an orifice when the level of the reservoir 200 reaches a predetermined height h4. The flow rate reducing manhole 300 is connected to the other end of the siphon line 295 and is connected to the siphon line 295 through a siphon line 295 A partition wall 310 is formed to reduce the flow velocity of the gas and to smooth the flow of excellent initial boiling point contamination. A second discharge conduit (320) is connected to the flow rate reducing manhole (300) to supply an initial boiling point contamination excellent to the sedimentation paper (400).

The siphon conduit 295 has an orifice 270 formed by an orifice cap 272 having an orifice opening 274 having a narrow cross-sectional area disposed at one end disposed on the side of the reservoir 200 as a reversed U- . The other end of the siphon conduit 295 is connected to a flow-rate-reducing manhole 300 for reducing the flow rate of the initial non-point pollution discharged from the siphon conduit 295. The sedimentation paper 400 is supplied through the second discharge pipe 320 and proceeds to the second settling and decomposition of the contaminants. And a drainage basin (500) located at the end of the sedimentation tank (400) and discharging the initial nonpoint contaminated soil from which contaminants have been removed to the river.

The siphon channel 295 is set at a height equal to or similar to the height h3 from the bottom surface of the reservoir 200 and has the highest part in the 'U' shape reversed to the siphon channel 295 Is set to h4 whose height from the bottom surface of the reservoir 200 is larger than h3. Thus, until the water level from the bottom of the reservoir 200 reaches the height h4 of the highest part in the 'U' shape reversed to the siphon channel 295, the initial sludge contamination And when the water level is equal to or higher than h4, the flow rate-reduced manhole 300 is supplied with the excellent initial point contamination until the water level from the bottom surface of the reservoir 200 becomes h3.

Therefore, the initial non-point contamination excellent treatment system of the second embodiment of the present invention is configured such that only the reservoir 200 is maintained until the level of the reservoir 200 reaches the highest level in the 'U' shape reversed to the siphon channel 295 A sufficient amount of time for the primary precipitation treatment is ensured and then an initial excellent standoff contamination is supplied to the sedimentation paper 400 through the flow rate reducing manhole 300 at a limited flow rate and is discharged through the discharge water gate 500 And the excellent non-point pollution is discharged to the river.

FIG. 14 shows the working relationship in the initial nonpoint contamination excellent treatment system of the second embodiment of the present invention. (A) shows the operation in the standby state of the initial non-point contamination excellent treatment system of the second embodiment, that is, the state in which the non-point contamination excellent state is not supplied. In the standby state of the initial nonpoint contamination excellent treatment system according to the present invention, the flow of the excellent flow from the overflow collecting 100 to the reservoir 200 to the siphon conduit 295 to the flow rate reducing manhole 300 to the settling paper 400 Does not occur. However, a small amount of domestic sewage supplied to the flow-rate manhole 300 through the conduit is stored in the reservoir 200 and performs sedimentation processing.

(B) of the drawing shows a state in which the initial non-point pollution excellent treatment system connected to the river where the rainfall is started and the end of the pipe or the polluted water is discharged, treats pollution excellence.

 The end of the conduit or contaminated water which is connected to the river water to which the polluted water is discharged and is supplied to the storm drainage channel 120 has an opening at a height h1-h2 below the bottom of the bottom of the stormwater supply pipe 120 of the stormwater collector 100 The water is supplied to the reservoir 200 through the collecting water channel 130 where the reservoir 200 is positioned and the water level of the reservoir 200 reaches the highest part in the U shape of the siphon pipe 295 Only the storage is performed. When the level of the reservoir 200 rises to the highest part of the 'U' shape reversed to the siphon conduit 295, the siphon conduit 295 passes through the orifice opening 274 at an initial The non-point contamination excellent is supplied through the flow rate reducing manhole 300. The flow rate reducing manhole 300 discharges the initial non-point contamination excellent supplied to the settling paper 400 to proceed the second settling and decomposition of the contaminants. At the end of the sedimentation paper 400, the initial non-point contamination with the pollutant removed through the discharge gate 500 is discharged to the river.

(C) of the drawing shows a state in which the rainfall is sustained or the initial non-point contamination excellent is treated in a large amount of rainfall occurrence environment.

The contamination excellent that is connected to the end of the conduit or to the river water from which the polluted water is discharged and is supplied to the excellent supply line 120 of the overflow collecting 100 is primarily supplied to the bottom of the excellent supply line 120 of the overflow collecting 100 And is supplied to the reservoir 200 through the collecting water channel 130 where the opening is located at the height h1-h2 below the lower end. When the initial boiling point contamination is stored in the reservoir 200, the level of the reservoir 200 exceeds the height of the excellent supply line 120, . The other end of the storm drainage pipe 110 is connected to a river through which conduits or polluted water are discharged, so that the stormwater after filling the pond reservoir 200 with an initial excellent boiling point contamination is discharged.

Therefore, the puddle (200) is hardly stored after the excellent initial point of contamination is filled. The time taken for the water level of the reservoir 200 to exceed the height of the stormwater supply line 120 is determined according to the capacity of the reservoir 200. Preferably, in the present invention, the capacity of the reservoir 200 is reduced to 8 to 24 hours until the initial boiling point contamination reaches the height of the stormwater supply line 120, which is the maximum level of the reservoir 200.

When the water level of the reservoir 200 reaches the highest level in the 'U' shape reversed to the siphon pipe 295, the initial non-point contamination surplus is limited, And the flow rate reducing manhole 300 discharges the initial non-point contamination excellent supplied to the sedimentation paper 400 to proceed the secondary settlement and decomposition of the contaminants. At the end of the sedimentation paper 400, the initial non-point contamination with the pollutant removed through the discharge gate 500 is discharged to the river.

FIG. 15 shows the overall configuration of the initial non-point contamination excellent treatment system of the second embodiment of the present invention.

The second embodiment of the initial non-point contamination excellent treatment system of the present invention is characterized in that it comprises: an overflow collecting unit (100) which selectively supplies only the initial nonpoint contamination excellent due to the end of the conduit or the contaminated water; A reservoir 200 for storing the initial non-point contamination excellent provided to the water collection channel 130 of the water collection fixture 100 and performing a primary settlement of the contaminants, A siphon channel 295 discharging the initial nonpoint contamination excellent stored in the reservoir 200 when the height of the highest part of the inverted 'U' shape is higher than the height of the highest part of the inverted U shape; A flow rate reducing manhole 300 for reducing the flow rate of the initial nonpoint contamination supplied from the siphon duct 295 and a second outlet pipe 320 for supplying the initial non- A sedimentation paper 400 which is supplied through the first sedimentation unit and proceeds to second sedimentation and decomposition of contaminants; And a drainage basin (500) located at the end of the sedimentation tank (400) and discharging the initial nonpoint contaminated soil from which contaminants have been removed to the river.

In the present invention, the reservoir 200 is an artificial structure for storing initial excellent nonpoint contamination and performing primary settling of contaminants. The orifice opening 274 (see FIG. 2) in the reservoir outlet 250 formed in the bottom of the reservoir 200, 13), and the height of the highest part in the 'U' shape reversed to the siphon pipe 295 is set to a maximum water level.

In the initial nonpoint contamination excellent treatment system of the present invention described above, only the excellent initial nonpoint contamination due to rainfall or the like is selectively collected and stored at the point where the non-point polluted water is discharged, Pollution Prevention Facilities There is a feature to provide an initial pollution prevention treatment system that reduces the waste of resources and increases the efficiency of pollution removal.

Although the present invention has been described with reference to the preferred embodiments and drawings, it is to be understood that the present invention is not limited thereto and that various changes and modifications may be made therein without departing from the spirit and scope of the present invention by those skilled in the art. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the scope of the appended claims.

100: Overflow collecting 110: Exit discharge duct
120: Good supply pipe 130: Collection pipe
140: Space in the overflow collection (100) 200:
250: reservoir outlet 260:
265: Excellent supply cover 270: Orifice
272: orifice cap 274: orifice opening
275: net filter 290: first outlet duct
295: Siphon Pipe 300: Flow Rate Reduction Manhole
310: partition wall 320: second exhaust duct
400: sedimentation area 500: discharge gate

Claims (16)

In an initial high boiling point contamination treatment system,
(100) connected to the end of the conduit or the river water from which the polluted water is discharged to provide pollution excellence and selectively supply only the initial nonpoint pollution excellence,
A reservoir (200) for storing the initial non-point contamination excellent provided to the water collection channel (130) of the water collecting pool (100) and performing a primary settlement of the pollutants;
A reservoir outlet (250) for discharging the initial nonpoint contamination stored in the reservoir (200) to the first discharge pipe (290) when the level of the reservoir (200) becomes a certain level or more;
A flow rate reducing manhole 300 for reducing the flow rate of the initial nonpoint contamination discharged from the pond outlet 250,
A sedimentation paper 400 which receives the initial non-point contamination excellent supplied through the flow-rate manhole 300 through the second discharge conduit 320 and proceeds to second settlement and decomposition of contaminants;
A drainage basin (500) located at the end of the sedimentation tank (400) and discharging the initial nonpoint contamination clearance through which contaminants have been removed through the river to the river;
Wherein the initial non-point contamination excellent treatment system
The apparatus of claim 1, wherein the reservoir (200)
As an artificial structure that stores the initial boiling point contamination and performs the primary settling of contaminants,
And a waterproof membrane for the soil using bentonite.
The overflow collecting apparatus (100) according to claim 1,
An excellent supply line 120 connected to the end of the conduit or the river where the polluted water is discharged and supplied with excellent non-point pollution;
And a collecting water channel (130) formed to have an opening at a height (h1-h2) below the lower end of the bottom of the stormwater supply line (120)
And an outflow discharge line 110 at the same height as the stor- age supply line 120 for discharging stormwater after the initial standoff contamination is filled with the reservoir 200,
Wherein the other end of the storm drainage pipe (110) is connected to a river through which conduits or polluted water are discharged, so that the stormwater after the filling of the pond reservoir (200)
4. The water treatment system according to claim 3, wherein the stormwater supply duct (120), the water collecting water supply duct (130), and the storm drainage duct (110)
Is connected in the space within the overflow collection line (100) extending from the bottom of the storm drainage line (110) to the bottom of the storm drainage line (130)
The fine supply channel 120 and the condensate water channel 130 are arranged in a direction orthogonal to each other in a space in the overflow collecting unit 100,
The excellent discharge pipe (110) is also disposed at right angles to the good supply pipe (120) in the direction opposite to the collection pipe (130)
The method according to claim 4, wherein the space in the overflow collection unit (100)
Is not extended to the lower end of the water collecting outflow duct (130) when the position of the water collecting outflow duct (130) is designed to be sufficiently low with respect to the fine water supply duct (120) Excellent treatment system for non-point pollution
The water treatment system according to claim 4, wherein the water collection channel (130)
A reservoir 200 for storing initial non-point contamination excellent supplied from the overflow collecting unit 100 and performing a primary settling of contaminants,
An orifice for discharging the initial boiling point contamination stored in the reservoir 200 to the first discharge pipe 290 when the level of the reservoir 200 is equal to or higher than a predetermined water level h3, A reservoir outlet (250) having a reservoir (250); And
And a first discharge conduit (290) for supplying an initial boiling impurity contamination through the orifice from the reservoir outlet (250)
A flow rate reducing manhole 300 is connected to the other end of the first discharge pipe 290,
A partition 310 is formed in the flow rate reducing manhole 300 to reduce the flow rate of the initial nonpoint contamination supplied from the first discharge pipe 290 and smooth the flow of the initial nonpoint contamination,
And a second discharge conduit (320) is connected to the flow rate reducing manhole (300) to supply an initial boiling impurity contamination to the sedimentation paper (400)
The overflow collecting apparatus (100) according to claim 1,
The storm drainage duct 110 and storm drainage channel 120 are formed at the same height in the upper part of the space 140 in the overflow collector 100,
Sectional area of the storm drainage channel 110 is formed to be larger than the cross-sectional area of the storm drainage channel 120 and the condensate drainage channel 130,
Characterized in that the initial boiling point contamination surplus is smoothly discharged after the reservoir (200) is filled.
The overflow collecting apparatus (100) according to claim 1,
The fine supply duct 120 and the condensate discharge channel 130 are arranged in a direction perpendicular to each other in the space 140 in the overflow collecting unit 100,
Wherein the excellent discharge pipe line (110) is arranged so as to be perpendicular to the excellent supply pipe line (120) in a direction opposite to the collection pipe line (130)
The apparatus of claim 1, wherein the reservoir outlet (250)
Is fixedly formed on the bottom surface of the reservoir 200
At the lower end of the one side of the reservoir outflow part 250, an excellent supply port 260 for supplying the initial non-point contamination of the reservoir 200 is formed,
An orifice (270) is provided in the reservoir outlet (250) to extend to an external first drain line (290)
The orifice 270 has an orifice cap 272 formed with an orifice opening 274 having a narrow cross-sectional area at the inlet to limit the flow rate of the initial non-contamination contamination provided from the reservoir 200 to the first discharge pipe 290 Wherein the initial non-point contamination excellent treatment system
The apparatus of claim 9, wherein the reservoir outlet (250)
And an excellent supply cover (265) for covering the outside of the storm reservoir (260) and switching the supply direction of the storm is upwardly formed by the same material as the reservoir outflow section (250) system
The apparatus of claim 9, wherein the reservoir outlet (250)
A mesh filter 275 for blocking the contaminants is installed outside the fine supply port 260,
The network filter (275)
Wherein the fine supply port (260) is expanded and formed to have a mesh size smaller than the size of the orifice opening (274)
The flow rate reducing manhole (300) according to claim 1,
A partition wall 310 for reducing the flow rate of the initial nonpoint contamination supplied from the first discharge pipe 290 and moderating the flow with excellent initial boiling point contamination is formed inside,
The barrier ribs 310 may be formed by,
Is arranged at right angles to the flow of excellent initial non-point contamination supplied from the first discharge pipe (290)
Both ends of which are fixed to the wall of the flow rate reducing manhole 300,
The upper and lower ends of the barrier ribs 310,
Characterized in that the initial non-point contamination excellent processing system
The apparatus according to claim 1, wherein the sedimentation paper (400)
The initial non-point contamination that is supplied through the flow-rate manhole 300 is supplied through the second discharge pipe 320, and the second settling and decomposition of the pollutant proceeds.
At the end of the sedimentation paper 400,
Characterized in that a discharge water gate (500) for discharging the purified initial initial boiling point contamination to an external stream by adjusting the water level and the discharge flow rate of the sedimentation paper (400)
In an initial high boiling point contamination treatment system,
(100) connected to the end of the conduit or the river water from which the polluted water is discharged to provide pollution excellence and selectively supply only the initial nonpoint pollution excellence,
A reservoir 200 for storing initial boiling impurity contamination provided to the water collection channel 130 of the overflow collecting unit 100 and performing a primary settling of contaminants;
A siphon pipe 295 discharging the initial nonpoint contamination excellent stored in the reservoir 200 when the water level of the reservoir 200 becomes equal to or higher than the height of the highest part in the reversed U shape.
A flow rate reducing manhole 300 for reducing the flow rate of the initial nonpoint contamination supplied from the siphon duct 295,
A sedimentation paper 400 which receives the initial non-point contamination excellent supplied through the flow-rate manhole 300 through the second discharge conduit 320 and proceeds to second settlement and decomposition of contaminants;
And a discharge water gate (500) located at an end of the sedimentation paper (400) and discharging the initial nonpoint contamination clearance from which contaminants have been removed to the river.
15. The system of claim 14, wherein the siphon conduit (295)
And an orifice 270 composed of an orifice cap 272 having an orifice opening 274 having a narrow cross-sectional area at one end, which is disposed in the inverted 'U' shape on the side of the reservoir 200,
Wherein the other end of the siphon duct (295) is connected to a flow rate reducing manhole (300) that reduces the flow rate of the initial nonpoint contamination discharged from the siphon duct (295) system
15. The system of claim 14, wherein the siphon conduit (295)
Both ends from the bottom surface of the reservoir 200 are set at the same or similar height,
The height of the highest portion in the 'U' shape reversed to the siphon duct 295 is set to a height greater than both ends,
The flow of excellent initial boiling point contamination from the bottom of the reservoir 200 to the siphon pipe 295 from the height of the highest portion in the 'U' shape reversed to the siphon channel 295 Wherein the initial non-point contamination excellent treatment system

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