KR102290646B1 - Sidewall structure for early rain removal and sidewall structure system for early rain removal - Google Patents

Abstract

The present invention relates to a drain structure for separating and discharging rainwater at an early stage. The drain structure comprises: a drain; and a curb stone installed on an upper side of the drain. The drain includes: a first horizontal member installed in a horizontal direction; a first vertical member extending upward from a rear end of the first horizontal member; a second vertical member installed below a front end of the first horizontal member; a third vertical member installed below a rear side of the first horizontal member; and a second horizontal member for connecting lower ends of the second vertical member and the third vertical member. The first horizontal member, the second vertical member, the second horizontal member, and the third vertical member form an initial rainwater storage space having a closed shape. The upper surface of the first horizontal member is inclined downward toward the rear. A curb stone seating groove on which the curb stone is seated is formed at a rear end of the upper surface. The drain includes: a first inflow path formed on the upper surface of the first horizontal member to introduce rainwater from the front to the rear of the curb stone; a second inflow path for allowing the rainwater, introduced into the first inflow path, to flow into the initial rainwater storage space; and a third inflow path for allowing the rainwater, introduced into the first inflow path, to flow into the rear of the drain. The drain structure allows initial rainwater that has fallen on the roadway to be introduced into the initial rainwater storage space, and allows the rainwater to be introduced into the rear of the drain through the first inflow path and the third inflow path after the initial rainwater storage space is filled, thus filtering out pollutants included in the initial rainwater, thereby preventing contamination of groundwater.

Description

Early rain separation drainage gutter structure and early rain separation drainage gutter structure system {Sidewall structure for early rain removal and sidewall structure system for early rain removal}

The present invention relates to an initial rainwater separation drainage gutter structure and an initial rainwater separation drainage gutter structure system. By separating and draining excess rainwater (excess rainwater), it relates to an initial stormwater separation drainage gutter structure and an initial stormwater separation drainage gutter structure system that reduce the emission of nonpoint pollutants and induce improvement of urban water circulation.

Gutters are continuously installed along the longitudinal direction at the boundary of a driveway, parking lot or plaza to form a drainage ditch for discharging rainwater (rainwater), that is, a gutter.

The gutter is formed by continuously connecting along the ditch forming line, arranging a collecting well (rain gutter) at appropriate intervals along the gutter line, and connecting it to the rainwater pipe, so that rainwater falling on the road surface flows into the gutter and the collecting well. It is discharged into the rain pipe.

Such a gutter drainage structure has a problem in that pollutants accumulated on the road surface during rainfall are discharged into the river together with rainwater, thereby causing environmental pollution.

In addition, the increase in the impervious area of the road blocks the inflow of rainwater into the ground, causing the depletion of groundwater and distortion of the water circulation system. are aggravating

In order to solve this problem, the Republic of Korea Patent Publication No. 10-2018-0067957 previously applied by the applicant of the present application, non-point pollution and rainfall runoff reduction metering is disclosed. This prior art permeation storage unit; a water passage coupled to the outside of the infiltration reservoir and installed in the lower part of the sidewalk; a blocking plate provided in the water channel; and an inspection unit provided on a downstream side of the infiltration reservoir, wherein at least one first inlet for allowing rainwater to flow from the road into the water channel is formed on the inner wall of the water channel, and the water channel and the infiltration storage At least one first overflow port through which rainwater overflows from the water passage to the infiltration storage unit is formed on the side wall in contact with the addition, and a second overflow port through which rainwater from the infiltration storage unit overflows is formed on the upstream surface of the inspection unit, and the inspection A third overflow port for discharging rainwater is formed on the downstream surface of the part, and rainwater that has fallen on the road flows into the waterway through the one or more first inlets, and the initial rainwater introduced into the waterway is Rainwater flowing into the lower side and flowing after the levitation of the blocking plate by the initial rainwater flows through the upper side of the blocking plate and overflows into the infiltration reservoir through the one or more first overflow ports, and the rainwater overflows into the infiltration reservoir while penetrating underground through the open lower surface, excess rainwater overflows into the inspection unit through the second overflow port, and the rainwater overflowing into the inspection unit flows through the third overflow port to a rain gutter, rainwater pipe or sewer pipe. It is a non-point pollution and rainfall runoff discharge reduction gutter characterized by the outflow (refer to claim 1).

However, in the prior art, when there is no blocking plate, rainwater continues to flow into the space in which the contaminated initial rainwater is stored, and thus there is a problem in that the contaminated initial rainwater is mixed and discharged. In order to solve this problem, even when a barrier plate is installed, there is a problem in that the initial rainwater is mixed and leaked before the barrier plate is completely floated or when the initial rainwater flows downward and the barrier plate descends. In addition, when installing a blocking plate for separating the initial rainwater, there is a problem in that the structure is complicated, the cost increases, and the maintenance cost also increases.

Republic of Korea Patent Registration No. 10-1977695

The present invention has been devised to solve the above problems, and an object of the present invention is that the initial rainwater that has fallen on the roadway, parking lot or plaza flows into the initial rainwater storage space, and after the initial rainwater storage space is filled, rainwater is removed. The initial rainwater separation and drainage gutter structure and initial phase that can completely prevent contaminated initial rainwater from mixing and flowing out by allowing it to flow into the infiltration reservoir at the rear of the side gate, which is a separate space separated through the 1st and 3rd inflow paths. To provide a rainwater separation drainage gutter structure system.

In addition, by allowing rainwater after the initial polluted rainwater to flow into the infiltration reservoir at the rear of the gutter, it prevents flooding or depletion of groundwater in the downtown area and improves the urban water circulation system. To provide a rescue system.

In addition, by making precasters, infiltration holes, and collecting wells, and assembling them on-site, construction is quick and easy and construction costs are saved. .

In addition, by providing an initial rainwater outlet and a sieve on the side of the infiltration port, the contaminated initial rainwater gradually penetrates into the basement after being filtered, and the pollutants filtered through the sieve are removed using the lid on the upper side of the infiltration port. An object of the present invention is to provide an initial rainwater separation drainage gutter structure and an initial rainwater separation drainage gutter structure system that saves maintenance costs.

In addition, the excess rainwater flowing into the infiltration reservoir at the lower side of the sidewalk is collected by the collecting well and discharged into the rainwater pipe. It is to provide a structure and an initial rainwater separation and drainage gutter structure system.

The initial rainwater separation drainage gutter structure according to an example of the present invention comprises: a side gate installed at the boundary of the driveway, parking lot or plaza; Includes; road boundary stone installed on the upper side of the side mouth, the side mouth, a first horizontal member installed in the horizontal direction; a first vertical member extending upwardly from the rear end of the first horizontal member; a second vertical member installed below the front end of the first horizontal member; a third vertical member installed at a rear lower side of the first horizontal member; Including; a second horizontal member connecting the lower ends of the second vertical member and the third vertical member, the first horizontal member, the second vertical member, the second horizontal member and the third vertical member are closed-shaped initial rainwater A storage space is formed, the upper surface of the first horizontal member is inclined downwardly to the rear, and a boundary stone seating groove in which the road boundary stone is placed is formed at the rear end of the upper surface, and the road boundary stone among the upper surfaces of the first horizontal member a first inflow path formed to introduce rainwater from the front to the rear of Including a third inlet to be introduced to the rear of the side gate, the initial rainwater falling on the driveway, parking lot or plaza is the initial rainwater storage through the upper surface of the first horizontal member and the first inlet and the second inlet After the inflow into the space and the initial rainwater storage space is filled, rainwater may be introduced to the rear of the side port through the first inlet and the third inlet.

Some cuts are removed at the connection points of the first inflow path, the second inflow path and the third inflow path so that rainwater flows into the first inflow path and then easily flows into the second inflow path or the third inflow path It may include a rainwater distribution space.

The slope of the front of the second inlet entrance and the rear of the second inlet entrance are located on the same plane, so that the rainwater introduced into the first inlet can minimize the scattering of rainwater filled in the initial rainwater storage space.

A portion of the lower portion of the road boundary stone above the connection point of the first inlet, the second inlet, and the third inlet is cut off and rainwater flows into the first inlet, and then the second inlet or the third It may include a second rainwater distribution space to easily flow into the inlet.

Further comprising a screen network installed in front of the second rainwater distribution space, the screen network is a first member closely inserted into the front inside of the second rainwater distribution space, extending horizontally rearward from the lower end of the first member A second member to be placed on the upper surface of the boundary stone seating groove, a pair of third members that protrude forward from both sides of the first member and then extend to both sides again and are installed to span the outside of the entrance of the second rainwater distribution space member may be included. The screen mesh may include a frame formed along the circumferential direction, and a wire mesh coupled to the inside of the frame.

It may further include a fourth vertical member extending downward from the lower end of the second vertical member and a fifth vertical member extending downward from the lower end of the third vertical member.

In addition, the present invention initial rainwater separation drainage gutter structure system, the initial rainwater separation drainage gutter structures installed at the boundary of the road, parking lot or plaza; an infiltration port installed on the downstream side of the initial rainwater separation and drainage gutter structures at the boundary of the driveway, parking lot or plaza; a water collecting well installed on the downstream side of the infiltration port as well as at the boundary of the driveway, parking lot or plaza; The initial rainwater separation and drainage gutter structures, infiltration holes, and infiltration storage units installed at the rear of the collecting well include; Includes; road boundary stone installed on the upper side of the side mouth, the side mouth, a first horizontal member installed in the horizontal direction; a first vertical member extending upwardly from the rear end of the first horizontal member; a second vertical member installed below the front end of the first horizontal member; a third vertical member installed at a rear lower side of the first horizontal member; a second horizontal member connecting lower ends of the second vertical member and the third vertical member; a fourth vertical member extending downward from the lower end of the second vertical member; A fifth vertical member extending downward from the lower end of the third vertical member; includes, wherein the first horizontal member, the second vertical member, the second horizontal member and the third vertical member form an initial rainwater storage space of a closed shape. And, the upper surface of the first horizontal member is inclined downwardly to the rear, a boundary stone seating groove in which the road boundary stone is placed is formed at the rear end of the upper surface, and from the front to the rear of the road boundary stone among the upper surfaces of the first horizontal member a first inflow path formed to introduce rainwater toward Including a third inlet to flow in, the initial rainwater falling on the driveway, parking lot or plaza is introduced into the initial rainwater storage space through the upper surface of the first horizontal member and the first inlet and the second inlet and , After the initial rainwater storage space is filled, rainwater is introduced to the rear of the side gate through the first inflow path and the third inflow path, and is introduced to the rear of the side gate through the first inflow path and the third inflow path. Rainwater may be stored in the infiltration reservoir or penetrate underground.

The penetration hole, a first horizontal member installed in the horizontal direction; a first vertical member extending upwardly from the rear end of the first horizontal member; a second vertical member installed below the front end of the first horizontal member; a third vertical member installed at a rear lower side of the first horizontal member; a third horizontal member connecting the second vertical member and lower ends of the third vertical member; A pair of first side members provided with an initial rainwater outlet on the lower side by connecting the lower portions of the second and third vertical members and the third horizontal member, including, and the initial of the initial rainwater separation and drainage side gate structures The initial rainwater introduced into the rainwater storage space is introduced into the space formed by the second vertical member, the third vertical member, the third horizontal member, and the pair of first side members of the infiltration port, and then gradually through the initial rainwater outlet. can be emitted.

The initial rainwater discharged through the initial rainwater outlet is introduced into the closed space in which the second horizontal member, the fourth vertical member, and the fifth vertical member of the side gate and the cast-off concrete to be poured under it are formed. have.

The water collecting well may include: a first horizontal member installed in a horizontal direction; a first vertical member extending upwardly from the rear end of the first horizontal member; a second vertical member installed below the front end of the first horizontal member and provided with a rainwater outlet; a third vertical member installed on the lower rear side of the first horizontal member and provided with a seepage water inlet on the upper side; a fourth horizontal member connecting lower ends of the second vertical member and the third vertical member; a pair of second side members connecting the first horizontal member, the second vertical member, the third vertical member, and the fourth horizontal member; An opening is formed in the first horizontal member, and a grating installed in the opening is included, and the rainwater flowing through the upper side of the initial rainwater separation and drainage side gutter structures and the upper side of the infiltration hole is introduced through the grating and then the rainwater outlet is discharged into the rainwater pipe through the , and the rainwater of the infiltration storage unit may be introduced through the seepage water inlet and then discharged into the rainwater pipe through the rainwater outlet.

According to the present invention, the initial rainwater falling on the driveway, parking lot or plaza flows into the initial rainwater storage space, and after the initial rainwater storage space is filled, rainwater is a separate space separated through the first inflow path and the third inflow path. By allowing it to flow into the infiltration reservoir at the rear of the side gutter, it is possible to completely prevent the contaminated initial rainwater from mixing and flowing out.

In addition, rainwater after the initial polluted rainwater is quickly introduced into the infiltration reservoir at the rear of the gutter, thereby preventing inundation or depletion of groundwater in the downtown area and improving the urban water circulation system.

In addition, by manufacturing the side gutter, the infiltration port, the collecting well, etc. with a precaster and assembling it on the site, the construction is quick and easy and the construction cost can be saved.

In addition, by providing an initial rainwater outlet and a sieve on the side of the infiltration port, the contaminated initial rainwater gradually penetrates into the basement after being filtered, and the pollutants filtered through the sieve are removed using the lid on the upper side of the infiltration port. Maintenance costs can be saved.

In addition, excess rainwater flowing into the infiltration reservoir at the lower side of the sidewalk is collected by the collecting well and discharged to the rainwater pipe, and at the same time, the excess rainwater on the upper side of the side gutter is discharged directly into the rainwater pipe through the collecting well, thereby preventing urban flooding.

1 is a plan view of the initial rainwater separation drainage gutter structure system to which the initial rainwater separation drainage gutter structure according to an example of the present invention is applied;
2 is an installation cross-sectional view of the initial rainwater separation drainage gutter structure system to which the initial rainwater separation drainage gutter structure according to an example of the present invention is applied;
3 is a perspective view of an initial rainwater separation drainage gutter structure according to an example of the present invention;
4 is an exploded perspective view showing the side gutter of the initial excellent separation drainage gutter structure of the present invention;
5 is a cross-sectional view of the side mouth of FIG.
6 is an exploded perspective view showing the screen network of the present invention;
7 is an installation cross-sectional view of the initial rainwater separation drainage gutter structure of the present invention;
8 is an exploded perspective view of the penetration hole of the present invention;
9 is a cross-sectional view of FIG.
10 is an installation cross-sectional view of the penetration hole of the present invention;
11 is an exploded perspective view of the collecting well of the present invention;
12 is a cross-sectional view of FIG.
13 is an installation cross-sectional view of the present invention collecting well
14 to 16 are enlarged views of the use of the initial rainwater separation drainage gutter structure system of the present invention

Hereinafter, some embodiments of the present invention will be described in detail with reference to exemplary drawings. In adding reference numerals to the components of each drawing, the same components are given the same reference numerals as much as possible even though they are indicated on different drawings. In addition, in describing the embodiment of the present invention, if it is determined that a detailed description of a related known configuration or function interferes with the understanding of the embodiment of the present invention, the detailed description thereof will be omitted.

In addition, in describing the components of the embodiment of the present invention, terms such as first, second, A, B, (a), (b), etc. may be used. These terms are only for distinguishing the components from other components, and the essence, order, or order of the components are not limited by the terms. When a component is described as being “connected”, “coupled” or “connected” to another component, the component may be directly connected or connected to the other component, but another component is between each component. may be “connected”, “coupled” or “connected”.

Hereinafter, with reference to the accompanying drawings, the initial rainwater separation and drainage gutter structure according to an example of the present invention will be described.

1 is a plan view of the initial rainwater separation drainage gutter structure system to which the initial rainwater separation drainage gutter structure according to an example of the present invention is applied, and FIG. It is an installation cross-sectional view of the drainage gutter structure system, FIG. 3 is a perspective view of the initial rainwater separation drainage gutter structure according to an example of the present invention, and FIG.

1 to 4, the initial rainwater (initial rainwater) separation drainage gutter structure 110 according to an example of the present invention is installed at the boundary of a driveway, parking lot or plaza, for example, in contact with the sidewalk. ), it may include a road boundary stone (117). Hereinafter, initial rainwater is described as initial rainwater for convenience of explanation.

The side port 111 is a first horizontal member installed in the horizontal direction, a first vertical member extending upward from the rear end of the first horizontal member, a second vertical member installed below the front end of the first horizontal member, the second It may include; a third vertical member installed on the rear lower side of the first horizontal member, a second horizontal member connecting the second vertical member and the lower end of the third vertical member. The upper body including the first horizontal member and the first vertical member and the lower body therebetween may be integrally formed, or may be formed separately and coupled as shown in the drawings.

A recessed installation groove may be formed at the front end and the rear of the first horizontal member, and an installation protrusion inserted into the installation groove may be formed on the upper side of the second vertical member and the third vertical member. Accordingly, only by installing the upper body on the upper side of the lower body, the flow of the front and rear left and right is prevented, and the installation can be quick and easy.

The upper surface of the first horizontal member may be inclined downwardly toward the rear, and a boundary stone seating groove in which the road boundary stone 117 is placed may be recessed in the rear end of the upper surface. The front surface of the first vertical member is formed to be inclined to be spaced apart from the rear surface of the road boundary stone 117, and a mortar injection groove may be formed downwardly in the boundary stone seating groove. That is, after the road boundary stone 117 is installed in the boundary stone seating groove, mortar is injected between the first vertical member and the road boundary stone 117 to fill the space between the mortar injection groove and the first vertical member and the road boundary stone 117. By doing so, the road boundary seat 117 can be firmly fixed.

The first horizontal member, the second vertical member, the second horizontal member and the third vertical member may form an initial rainwater storage space 112 of a closed shape. The initial rainwater storage space 112 may prevent the leakage of pollutants into rivers or groundwater by storing the initial rainwater with severe pollution.

It may further include a fourth vertical member extending downward from the lower end of the second vertical member and a fifth vertical member extending downward from the lower end of the third vertical member. The fourth vertical member and the fifth vertical member can be installed easily and quickly by making the height of the infiltration hole 120 and the collecting well 130 to be the same as will be described later. That is, after casting the concrete at the same height on the ground, it is possible to quickly construct the side hole, the infiltration hole 120 and the collecting well 130 .

Referring to FIG. 5 , a first inflow path 113 formed so that rainwater flows from the front to the rear of the road boundary stone 117 among the upper surface of the first horizontal member, that is, to the lower side of the road boundary stone 117 , the first inflow. The second inflow path 114 for allowing the rainwater introduced into the furnace 113 to flow into the initial rainwater storage space 112 , and the rainwater flowing into the first inflow path 113 to flow into the rear of the side port 111 . A third inflow path 115 may be included.

The initial rainwater that has fallen on the roadway, parking lot or square, that is, the initial rainwater with severe pollution, is the initial rainwater storage space part 112 through the upper surface of the first horizontal member and the first inflow path 113 and the second inflow path 114 . can be introduced into In addition, rainwater after the initial rainwater is filled in the initial rainwater storage space 112 flows into the rear infiltration storage 140 of the side port 111 through the first inflow path 113 and the third inflow path 115 . can be That is, the initial rainwater before the initial rainwater storage space 112 is filled is introduced into the first inflow path 113 and then falls into the second inflow path 114 to be introduced into the initial rainwater storage space 112 . can In addition, rainwater after the initial rainwater storage space 112 is filled may be introduced into the third inlet 115 through the first inlet 113 and may be introduced to the rear of the side port 111 . The narrow inlet of the second inlet 114 prevents the contaminated initial rainwater filled in the initial rainwater storage space 112 from mixing and flowing again, thereby preventing the discharge of pollutants.

In addition, the first inlet 113, the second inlet 114, and the third inlet 115 may include a rainwater distribution space 116 formed concave to the lower side by partially cut off at the connection point of the inlet 115. . The rainwater distribution space 116 allows rainwater to easily flow into the second inlet 114 or the third inlet 115 after the rainwater flows into the first inlet 113, and the inflow of rainwater does not excessively stagnate. It may be introduced into the second inflow path 114 or the third inflow path 115 .

The inclined surface at the front of the entrance of the second inflow path 114 may be positioned on the same plane as the rear of the entrance of the second inflow path 114 . Such a shape can minimize the scattering of rainwater in which the rainwater introduced into the first inflow path 113 is filled in the initial rainwater storage space 112 .

In addition, a part of the lower portion of the road boundary stone 117 above the connection point of the first inlet 113, the second inlet 114, and the third inlet 115 is cut off and removed to the first inlet 113. It may further include a second rainwater distribution space 118 to easily flow into the second inlet 114 or the third inlet 115 after the inflow. That is, the second rainwater distribution space 118 allows rainwater flowing down along the upper surface of the first horizontal member to quickly flow into the second rainwater distribution space 118, so that as much rainwater as possible flows into the second inflow path 114 and By allowing it to flow into the third inlet 115 , it is possible to minimize the discharge to the rainwater pipe 132 through the collecting well 130 .

Referring to FIG. 6 , it may further include a screen network 119 installed in front of the second rainwater distribution space 118 . The screen network 119 is a first member closely inserted into the front inner side of the second rainwater distribution space 118, a second member extending horizontally rearward from the lower end of the first member and seated on the upper surface of the boundary stone seating groove, the first It may include a pair of third members that protrude forward from both sides of the member and then are bent back to both sides and installed to span the outside of the entrance of the second rainwater distribution space 118 . The screen mesh 119 may include a frame formed along the circumferential direction, and a wire mesh coupled to the inside of the frame. As for the screen network 119, the first member is closely inserted into the front inner side of the second rainwater distribution space 118, the second member is seated on the upper surface of the boundary stone seating groove, and a pair of third members is a second rainwater distribution By being installed to span the outside of the entrance of the space 118, it is easy to install, maintains a stable installation state after installation, and can be easily pulled out and replaced or repaired when necessary. In addition, the frame may further include a vertical frame bent in an L-shape while cutting the center up and down for strong support of the wire mesh and rigidity of the frame, and a horizontal frame that is connected to the lower part of the vertical frame and extended to the left and right and coupled thereto.

Next, a manufacturing process of the initial rainwater separation and drainage gutter structure 110 configured as described above will be described.

First, referring to FIGS. 4 to 5 , the side port 111 may be manufactured by manufacturing a formwork according to a design drawing and pouring concrete into the formwork. In addition, if necessary, reinforcing bars can be placed inside the formwork. First, it can be produced by manufacturing a formwork for manufacturing the first horizontal member installed in the horizontal direction and the first vertical member extending upward from the rear end thereof, and pouring concrete. In addition, a second vertical member installed on the lower side from the front end of the first horizontal member, a third vertical member installed on the lower side from the rear of the first horizontal member, and the lower end of the second vertical member and the third vertical member are connected It can be produced by manufacturing a form for manufacturing the second horizontal member and pouring concrete. In addition, the second vertical member and the third vertical member can be produced by manufacturing a formwork and pouring concrete to include the fourth vertical member and the fifth vertical member extending downward from the lower end. Hereinafter, the second vertical member and the third vertical member will be described as limited to the side sphere 111 in which the fourth vertical member and the fifth vertical member are extended. In the lower body including the second vertical member, the third vertical member, the second horizontal member, the fourth vertical member and the fifth vertical member, the second vertical member, the third vertical member, and the second horizontal member form a U-shape One side of the inner side is formed concavely and the other side is formed convexly so that it can be formed to fit each other. This can prevent the front and rear, left and right flows between adjacent side spheres, and maintain a stable installation state. In addition, the infiltration hole 120 or the water collecting well 130 to be described later adjacent to the side hole may also be formed in the same shape to be fitted to each other.

As described above, the first horizontal member, the first vertical member, the second vertical member, the third vertical member, the second horizontal member, the fourth vertical member, and the fifth vertical member are integrally formed, or as shown in FIG. The first horizontal member and the first vertical member may be integrally formed to form the upper body, and the remaining members may be integrally formed to form the lower body. When the side port 111 is formed of an upper body and a lower body, an installation protrusion and an installation groove that engage with each other are formed on the bottom surface of the upper body and the upper surface of the lower body, so that the upper body is easily seated on the lower body, so construction is easy It can be easy.

In addition, a first inflow path 113 is formed on the upper surface of the first horizontal member from the front to the rear of the road boundary stone 117 , and a second inflow path 114 and a third inflow path 113 are formed to communicate with the first inflow path 113 . An inflow path 115 may be formed. In addition, the partially cut off rainwater distribution space 116 may be formed at the connection point of the first inlet 113 , the second inlet 114 , and the third inlet 115 .

The initial rainwater separation and drainage gutter structure system 100 and its construction and use process will be described using the gutter 111 manufactured by the above process.

First, according to the design drawings, the ground of the roadway, parking lot, or the boundary between the square and the sidewalk may be excavated with an excavator, and discarded concrete may be poured on the side where the side port 111 is installed. The thickness of the supporting concrete can be about 5 to 15 cm.

One or more of the side holes 111 are sequentially installed on the upper surface of the discarded concrete, the infiltration holes 120 are installed on the downstream side of the side holes 111 , and the collecting well 130 is installed on the downstream side of the infiltration holes 120 in succession. can be installed Alternatively, after the side hole 111 is further installed on the downstream side of the infiltration hole 120 , the collecting well 130 may be installed on the downstream side of the side hole 111 . That is, the infiltration hole 120 and the collecting well 130 may be sequentially installed on the downstream side of the side openings 111 , or the infiltration hole 120 and the collecting well 130 may be installed apart from each other.

A road boundary stone 117 may be installed in the boundary stone seating groove formed on the upper surface of the first horizontal member of the side opening 111 . A screen network 119 may be installed in the second rainwater distribution space 118 cut out under the road boundary stone 117 . In addition, the road boundary stone 117 may be attached to the rear side of the road boundary stone 117 by pouring mortar.

In addition, referring to FIGS. 8 to 10 , the penetration hole 120 may be manufactured by manufacturing a formwork according to the design drawings and pouring concrete into the formwork.

The penetration hole 120 may include a first horizontal member installed in the horizontal direction and a first vertical member extending upward from the rear end thereof. In addition, a second vertical member installed on the lower side from the front end of the first horizontal member, a third vertical member installed on the rear lower side of the first horizontal member, a third connecting the lower end of the second vertical member and the third vertical member It may include a horizontal member. In addition, the lower portions of the second vertical member and the third vertical member and the third horizontal member may be connected to each other by a pair of first side members. The lower surface of the third horizontal member of the penetration hole 120 is preferably formed at the same height as the lower surface of the fourth vertical member and the fifth vertical member of the side hole 111 . This horizontally pours the abandoned concrete, and it is possible to quickly install and construct the side hole 111 and the penetration hole 120 on the upper side of the abandoned concrete.

An initial rainwater outlet and a sieve may be provided on the lower side of the first side member. The initial rainwater outlet may be provided on all of the pair of first side members, or only on one side. The upper surface of the first horizontal member is inclined downwardly toward the rear, a boundary stone seating groove is formed at the rear end of the upper surface, and a road boundary stone 117 may be placed in the boundary stone seating groove. A space formed by the first horizontal member, the second vertical member, the third vertical member, and the first side member may be blocked with a thin temporary blocking plate. The temporary blocking plate can be easily removed to allow the initial rainwater to flow in from the initial rainwater storage space of the side gate.

The upper side of the penetration hole 120 may be covered with a grating or covered with a sealed cover. When the sealed cover is installed, the rainwater flowing down through the gutter is directly introduced into the collecting well 130, and even if the grating is installed, after the initial rainwater is filled in the infiltration port 120, it passes through the upper side of the grating and collects the well ( 130) is introduced.

11 to 13 , the water collecting well 130 may be manufactured by manufacturing a form according to the design drawing and pouring concrete into the form.

The water collecting well 130 may include a first vertical member extending upward from the rear end of the first horizontal member installed in the horizontal direction. In addition, installing a second vertical member provided with a rainwater outlet on the lower side of the front end of the first horizontal member, and installing a third vertical member provided with a seepage water inlet 131 on the lower rear side of the first horizontal member, Lower ends of the second vertical member and the third vertical member may be connected by a fourth horizontal member. The second vertical member, the third vertical member, and the fourth horizontal member may be connected by a pair of second side members. The upper surface of the first horizontal member is inclined downwardly toward the rear, a boundary stone seating groove is formed at the rear end of the upper surface, and a road boundary stone 117 may be placed in the boundary stone seating groove.

An opening is formed in the first horizontal member of the collecting well 130 , and a grating may be installed in the opening. The initial rainwater on the upper surface of the driveway, parking lot, etc. flows toward the side opening 111 and flows into the initial rainwater storage space 112 and the infiltration storage 140, and excess rainwater flows down along the side opening 111 and then the collecting well ( 130), and then may flow out into a river or the like through the rainwater pipe 132.

A sub-base layer is formed to a thickness of 150-250 mm in front of the side hole 111, the penetration hole 120, and the collecting well 130, that is, in the road pavement, and an asphalt concrete base layer is formed to a thickness of 50-150 mm on the sub-base layer, , an asphalt concrete surface layer can be formed to a thickness of 40 to 60 mm on the asphalt concrete base layer.

The infiltration reservoir 140 may be formed with crushed stone or the like at the rear portion of the side port 111 , the infiltration port 120 , and the collecting well 130 , that is, the lower portion of the drinking water fountain. The size of crushed stone is about 20-40 mm, and a nonwoven fabric for civil engineering is installed on the upper surface of the crushed stone, and a soil layer can be formed on the upper surface of the nonwoven for civil engineering. Plants such as seedlings and seedlings may be planted in the soil layer.

In the sidewalk pavement section behind the drinking fountain, a sub-base layer is formed to a thickness of 100 to 200 mm, a cushion sand layer is formed to a thickness of 30 to 50 mm on the upper part of the sub base layer, and the cushion sand is compacted flat on the top to ensure that the sidewalk block is installed correctly and paved. can

The thickness of each layer forming the part of the road pavement section or the drinking water fountain section and the sidewalk pavement section can be increased or decreased as necessary.

14 to 16, when the process of using the initial rainwater separation and drainage gutter structure system 100 constructed by the above process is described, rainwater that has fallen into the roadway pavement during rain is the initial rainwater separation drainage gutter structure ( 110) in the direction and may flow down to the upper surface of the first horizontal member of the side opening 111 .

The initial rainwater flowing down to the upper surface of the first horizontal member of the side port 111 is filtered first by the screen net 119, and the second rainwater distribution space 118 and rainwater distribution along the first inflow path 113. It can be moved to space 116 .

Thereafter, after the initial rainwater flows into the initial rainwater storage space 112 along the second inflow path 114 , it may move to the infiltration port 120 and be stored. The initial rainwater moved to the infiltration port 120 may be gradually discharged to the lower side of the side port 111 through the initial rainwater outlet 121 after foreign substances are filtered in the sieve inside the infiltration port 120 .

After the infiltration storage unit 140 is filled, rainwater flowing into the first inflow path 113 is discharged to the infiltration storage unit 140 that is the rear of the side port 111 along the third inflow path 115 and stored or underground. It is possible to secure groundwater and greatly reduce river runoff of rainwater. The secured groundwater may smoothly supply moisture to street trees and the like.

When the rainwater discharged to the infiltration storage unit 140 is excessive, the rainwater in the infiltration storage unit 140 flows into the collecting well 130 through the infiltration water inlet 131, and then through the rainwater outlet through the rainwater pipe 132 ), and the rainwater that has not flowed into the first inflow path 113 flows downstream along the side port 111 and then flows into the collecting well 130 and is discharged into the rainwater pipe 132 through the rainwater outlet. can be Therefore, the initial contaminated rainwater is stored in the initial rainwater storage space 112 to prevent contamination, and subsequent rainwater is introduced into the infiltration storage 140 to prevent flooding of the roadway, parking lot or plaza, etc., and Rainwater may be directly discharged into the rainwater pipe through the collecting well 130 .

In addition, contaminants accumulated in the infiltration hole 120 and contaminants filtered by the screen net 119 can be removed at any time.

In the above, even though it has been described that all the components constituting the embodiment of the present invention operate by being combined or combined into one, the present invention is not necessarily limited to this embodiment. That is, within the scope of the present invention, all the components may be configured or operated by selectively combining one or more components. In addition, terms such as "comprises", "comprises" or "have" described above mean that the corresponding component may be inherent, unless otherwise stated, excluding other components. Rather, it should be construed as being able to further include other components. All terms, including technical and scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs, unless otherwise defined. Terms commonly used, such as those defined in the dictionary, should be interpreted as being consistent with the contextual meaning of the related art, and are not interpreted in an ideal or excessively formal meaning unless explicitly defined in the present invention.

The above description is merely illustrative of the technical spirit of the present invention, and various modifications and variations will be possible without departing from the essential characteristics of the present invention by those skilled in the art to which the present invention pertains. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments. The protection scope of the present invention should be construed by the following claims, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

100: Initial rainwater separation drainage gutter structure system
110: initial rainwater separation drainage gutter structure
111: side ball
112: initial rainwater storage space
113: first inflow path
114: second inlet
115: the third inlet
116: rainwater distribution space
117: road boundary stone
118: second rainwater distribution space
119: screen network
120: penetration hole
121: initial rainwater outlet
130: catchment well
131: seepage water inlet
132: Excellence Hall
140: seepage storage unit

Claims (10)

In the initial rainwater separation drainage gutter structure installed at the boundary of the road, parking lot or plaza,
a side gate installed at the boundary of the driveway, parking lot or plaza;
Includes; road boundary stone installed on the upper side of the side gate;
The side section is
a first horizontal member installed in a horizontal direction;
a first vertical member extending upwardly from the rear end of the first horizontal member;
a second vertical member installed below the front end of the first horizontal member;
a third vertical member installed at a rear lower side of the first horizontal member;
a second horizontal member connecting the lower ends of the second vertical member and the third vertical member;
The first horizontal member, the second vertical member, the second horizontal member and the third vertical member form an initial rainwater storage space of a closed shape,
The upper surface of the first horizontal member is inclined downwardly toward the rear, and a boundary stone seating groove in which the road boundary stone is placed is formed at the rear end of the upper surface,
A first inflow path formed to introduce rainwater from the front to the rear of the road boundary stone among the upper surface of the first horizontal member, a second inflow path for rainwater flowing into the first inflow path to flow into the initial rainwater storage space, and a third inlet that allows rainwater introduced into the first inlet to flow into the rear of the side port,
The initial rainwater that has fallen on the roadway, parking lot or plaza flows into the initial rainwater storage space through the upper surface of the first horizontal member and the first inlet and the second inlet, and after the initial rainwater storage space is filled, the rainwater is The initial rainwater separation drainage side gutter structure, characterized in that it is introduced to the rear of the side gutter through the first inflow path and the third inflow path. The method according to claim 1,
Some cuts are removed at the connection points of the first inflow path, the second inflow path and the third inflow path so that rainwater flows into the first inflow path and then easily flows into the second inflow path or the third inflow path An initial rainwater separation drainage gutter structure comprising a rainwater distribution space. 3. The method according to claim 2,
The slope in front of the entrance of the second inlet and the rear of the entrance of the second inlet are located on the same plane to minimize the scattering of rainwater filled in the initial rainwater storage space by the rainwater flowing into the first inflow. Initial stormwater separation drainage gutter structure. The method according to claim 1,
A portion of the lower portion of the road boundary stone above the connection point of the first inlet, the second inlet, and the third inlet is cut off and rainwater flows into the first inlet, and then the second inlet or the third The initial rainwater separation and drainage gutter structure comprising a second rainwater distribution space for easy inflow into the inflow path. 5. The method according to claim 4,
Further comprising a screen network installed in front of the second rainwater distribution space, the screen network is a first member closely inserted into the front inside of the second rainwater distribution space, extending horizontally rearward from the lower end of the first member A second member to be placed on the upper surface of the boundary stone seating groove, a pair of third members that protrude forward from both sides of the first member and then extend to both sides again and are installed to span the outside of the entrance of the second rainwater distribution space including absence,
The screen network is a frame formed along the circumferential direction, the initial rainwater separation drainage gutter structure comprising a wire mesh coupled to the inside of the frame. The method according to claim 1,
The initial rainwater separation drainage side gutter structure further comprising a fourth vertical member extending downward from the lower end of the second vertical member and a fifth vertical member extending downward from the lower end of the third vertical member. Early rainwater separation and drainage gutter structures installed at the boundary of a driveway, parking lot or plaza;
an infiltration port installed on the downstream side of the initial rainwater separation and drainage gutter structures at the boundary of the driveway, parking lot or plaza;
a water collecting well installed on the downstream side of the infiltration port as well as at the boundary of the driveway, parking lot or plaza;
Including; and the infiltration storage part installed at the rear of the initial rainwater separation and drainage side gutter structures, the infiltration port, and the collecting well;
The initial rainwater separation drainage gutter structure is,
a side gate installed at the boundary of the driveway, parking lot or plaza;
Includes; road boundary stone installed on the upper side of the side gate;
The side section is
a first horizontal member installed in a horizontal direction;
a first vertical member extending upwardly from the rear end of the first horizontal member;
a second vertical member installed below the front end of the first horizontal member;
a third vertical member installed at a rear lower side of the first horizontal member;
a second horizontal member connecting lower ends of the second vertical member and the third vertical member;
a fourth vertical member extending downward from the lower end of the second vertical member;
Including; a fifth vertical member extending downward from the lower end of the third vertical member;
The first horizontal member, the second vertical member, the second horizontal member and the third vertical member form an initial rainwater storage space of a closed shape,
The upper surface of the first horizontal member is inclined downwardly toward the rear, and a boundary stone seating groove in which the road boundary stone is placed is formed at the rear end of the upper surface,
A first inflow path formed to introduce rainwater from the front to the rear of the road boundary stone among the upper surfaces of the first horizontal member, a second inflow path for rainwater flowing into the first inflow path to flow into the initial rainwater storage space, and a third inlet that allows rainwater introduced into the first inlet to flow into the rear of the side port,
The initial rainwater that has fallen on the roadway, parking lot or square is introduced into the initial rainwater storage space through the upper surface of the first horizontal member and the first inlet and the second inlet, and after the initial rainwater storage space is filled, the rainwater is It is introduced to the rear of the side mouth through the first inflow path and the third inflow path,
Rainwater introduced to the rear of the gutter through the first inlet and the third inlet is stored in the infiltration reservoir or penetrated underground. 8. The method of claim 7,
The penetration hole,
a first horizontal member installed in a horizontal direction;
a first vertical member extending upwardly from the rear end of the first horizontal member;
a second vertical member installed below the front end of the first horizontal member;
a third vertical member installed at a rear lower side of the first horizontal member;
a third horizontal member connecting the second vertical member and lower ends of the third vertical member;
A pair of first side members provided with an initial rainwater outlet on the lower side by connecting the lower part of the second vertical member and the third vertical member and the third horizontal member; including,
The initial rainwater introduced into the initial rainwater storage space of the initial rainwater separation and drainage side gutter structures was introduced into the space formed by the second vertical member, the third vertical member, the third horizontal member, and the pair of first side members of the infiltration hole. After that, the initial rainwater separation drainage gutter structure system, characterized in that it is gradually discharged through the initial rainwater outlet. 9. The method of claim 8,
The initial rainwater discharged through the initial rainwater outlet is characterized in that it is introduced into the closed space in which the second horizontal member, the fourth vertical member, and the fifth vertical member of the side gate and the discarded concrete to be poured on the lower side thereof are formed. Rainwater separation drainage gutter structure system. 8. The method of claim 7,
The housekeeping is
a first horizontal member installed in a horizontal direction;
a first vertical member extending upwardly from the rear end of the first horizontal member;
a second vertical member installed below the front end of the first horizontal member and provided with a rainwater outlet;
a third vertical member installed on the lower rear side of the first horizontal member and provided with a seepage water inlet on the upper side;
a fourth horizontal member connecting lower ends of the second vertical member and the third vertical member;
a pair of second side members connecting the first horizontal member, the second vertical member, the third vertical member, and the fourth horizontal member;
An opening is formed in the first horizontal member, and a grating is installed in the opening.
Rainwater flowing through the upper side of the initial rainwater separation and drainage gutter structures and the upper side of the infiltration hole is introduced through the grating and then discharged to the rainwater pipe through the rainwater outlet,
The rainwater of the infiltration storage unit is introduced through the seepage water inlet and then is discharged to the rainwater pipe through the rainwater outlet.

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