KR20160049742A - Low impact development(lid) efficiency verification system of multi-functional porous pavement - Google Patents

Abstract

The present invention relates to a low impact development (LID) efficiency verification system of a multi-functional porous pavement facility. More specifically, various LID techniques to be verified are constructed in a concrete box which does not allow water infiltration and then paved on a bottom surface of a parking lot. Water infiltrated into the constructed concrete box is used for rainwater management and verification of the facility using a monitoring box to maintain test standard consistency whenever installing a pavement technique by the nonporous concrete box. Surface water, middle infiltration water, and bottom infiltration water in the parking lot pavement can be managed and examined to accurately and efficiently verify and manage rainwater in a real scale with respect to the LID technique for the parking lot.

Description

{LOW IMPACT DEVELOPMENT (LID) EFFICIENCY VERIFICATION SYSTEM OF MULTI-FUNCTIONAL POROUS PAVEMENT}

The present invention relates to a real-scale verification system for LID (Low Impact Development) technology that manages stormwater runoffs, particularly in parking lots, among a variety of impervious surfaces.

Various environmental problems have arisen due to the increase of runoff water due to unplanned area increase due to unexplored urban development and destruction of forests, and destruction of water circulation and heat cycle. According to the Ministry of Environment 's press release, the packaging structure such as the domestic impervious area is the main cause of environmental problems. The impervious area rate is 7.9% in the national average and 22.4% excluding the water and forest land. According to the city, Bucheon city is the highest city with 61.7%, followed by Seoul with 54.4% and Mokpo with 46.3%.

Generally, it is known that watersheds with an impervious area of more than 25% are significantly deteriorating in health, and interest in LID to suppress the expansion of impervious surfaces is increasing.

The LID technique simulates the hydrological cycle before development and minimizes the impact of development and improves the water circulation structure to prevent flood damage caused by heavy rainfall due to rapid urbanization and climate change. In recent years, various LID technologies have been developed and applied to manage impervious surfaces in urban areas. However, it has been difficult to manage the management of stormwater runoff due to application without consideration of local and environmental characteristics. It has difficulties.

To solve this problem, the central government or local governments are developing manuals and guidelines related to LID facilities. In addition, the Seoul Metropolitan Government has established a validation test for permeability persistence of penetrating LID facilities and has developed verification devices for it. However, the manual or guideline still lists the general technology, and technical guidelines that take into account the domestic environmental situation are insufficient.

As in Patent Documents 1 to 3, verification of technology does not reflect the characteristics of the application site, and it may be different from the case where it is actually applied according to verification of a simple product of a laboratory condition and verification of a small- There is a problem.

In addition, verifying equipment is also a simple facility that does not take into account various rainfall intensity, regional characteristics, etc., and it is difficult to apply appropriate LID. In particular, a real-scale verification system for LID technology that manages stormwater run- There is no such thing.

Patent Document 1: Korean Patent Registration No. 10-1270559 entitled "Boiling Point and LID Test Simulator" Patent Document 2: Korean Patent Registration No. 10-1354452 entitled "Small-Multiple Rainfall-Runoff Simulator for LID Technology Verification" Patent Document 3: Korean Patent Laid-Open Publication No. 10-2011-0058478 entitled "

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a real-scale verification system for LID technology that manages stormwater runoff occurring in a parking lot, among various impervious surfaces, in order to solve the above problems.

More specifically, various LID technologies to be verified in a concrete box which is not a pitcher are constructed, and the concrete is packed on the bottom of a parking lot. The effluent flowing into the concrete box is transferred to a stormwater effluent Management verification is performed so that the uniformity of the test standard can be maintained each time the packaging technology is installed by the impermeable concrete box, and the surface runoff, the intermediate infiltration runoff and the bottom infiltration runoff generated in the parking lot package And to enable verification and management of stormwater runoff more precisely and efficiently in real scale for parking lot type LID technology.

The present invention relates to a low impact development (LID) efficiency verification system for a multi-function type permeable packaging facility,

An impermeable box (100) in which a LID package (11) is built up, forming a bottom surface of a car park; And

And a verification unit (200) for monitoring the effluent collected through the LID package (11) of the impermeable concrete box (100). The multi - function type permeable packaging facility ) Efficiency verification system as a solution to the problem.

Here, the LID package 11 built inside the impermeable box 100 may have a structure,

A V-shaped weir 11a formed on the surface of the LID package 11 for conveying the surface run-off water generated in the LID package 11 and collecting the surface run-off water to the verification unit 200;

A first perforated pipe 11b formed at an intermediate portion of the LID package 11 for transferring the intermediate infiltration run-off water generated in the LID package 11 to the verification unit 200; And

And a second porous pipe 11c formed at the lower part of the LID package 11 for transporting the lower infiltration run-off water generated in the LID package 11 and collecting the lower infiltration effluent to the verifying unit 200 desirable.

In addition, the impermeable box 100 is preferably made of impermeable concrete.

The LID package 11 may be impermeable packaging, drainage packaging, or water permeable packaging.

On the other hand, the verification unit (200)

An inspection path (21) in which the inspector can be located;

A monitoring unit 22 configured at the lower part of the inspection path 21 and collecting and monitoring each effluent collected through the LID package 11; And

And a drainage unit (23) for discharging the monitored effluent water through the monitoring unit (22).

The present invention provides a real-scale verification system for LID technology that manages stormwater runoff in a parking lot, among various impervious surfaces. It constructs various LID technologies to be verified in a concrete box that does not become a pitcher, And the effluent flowing into the concrete box is constructed to be inspected through the monitoring box for stormwater effluent management of the facility. Thus, whenever the packaging technique is installed by the impermeable concrete box, Not only the maintenance of uniformity of the parking lot type LID technology but also the management and testing of the surface runoff, intermediate infiltration runoff and infiltration runoff occurring in the parking lot package, Efficiently verify and manage stormwater runoff .

1 is a longitudinal sectional view of a low impact development (LID) efficiency verification system of a multi-function type permeable packaging facility according to the present invention;
2 is a cross-sectional view of a low impact development (LID) efficiency verification system of a multi-function type permeable packaging facility according to the present invention
FIG. 3 is an elevational view of the LID efficiency verification system of the multi-function type permeable packaging facility according to the present invention.
FIG. 4 is a schematic diagram of a low-impact development (LID) efficiency verification system for a multifunctional permeable packaging facility according to the present invention.

In order to achieve the above-mentioned effects, the present invention relates to a low impact development (LID) efficiency verification system for a multifunctional permeable packaging facility, wherein only the parts necessary for understanding the technical structure of the present invention are explained, And will be omitted so as not to obscure the gist of the invention.

FIG. 1 is a longitudinal sectional view of a low impact development (LID) efficiency verification system for a multi-function type permeable packaging facility according to the present invention, and FIG. 2 is a cross sectional view of a low impact development (LID) FIG. 3 is an elevational view of a low impact development (LID) efficiency verification system of a multi-function type permeable packaging facility according to the present invention, and FIG. 4 is a view illustrating a low impact development (LID) efficiency verification of a multi- It is an excellent system diagram of the system.

1 to 3, the present invention includes an impermeable box 100 and a verifying unit 200. Specifically, the present invention includes an LID package 11 built inside an impermeable box 100 And then monitors the effluent collected through the verification unit 200.

Specifically, the impermeable box 100 forms a bottom surface of the parking lot, and provides a space in which the LID package 11 is built. Here, the impermeable box 100 may be formed of impermeable concrete in consideration of a combination with a material used in a conventional car park construction, although it is possible to apply various impervious materials.

At this time, the impermeable box 100 is an independent structure, which can be disassembled after being packed for testing so that it can be verified with respect to other areas or a package structure. Therefore, whenever the verification and packaging structure is installed, . ≪ / RTI >

Meanwhile, the LID package 11 built in the impermeable box 100 can apply various LID technologies to be tested, and can be applied to various fields such as impermeable packaging, drainage packaging or permeable packaging Can be applied.

The LID package 11 built in the impermeable box 100 is provided with a weir 11a, a first pore 11b and a second pore 11b for collecting the respective effluents to the verifying unit 200, 11c.

Specifically, a V-shaped weir 11a is formed on the surface of the LID package 11 to transfer surface run-off water generated in the LID package 11 to the verification unit 200, The first perforated pipe 11b is formed at the middle portion of the LID package 11 so that the intermediate infiltrated effluent generated in the LID package 11 is transferred to the verifying unit 200, 2 pipe 11c is constructed so that the lower infiltration run-off water generated in the LID package 11 is collected and collected by the verification unit 200.

At this time, it is preferable that the impermeable box 100 in which the LID package 11 is constructed is formed to be inclined by about 10% in the direction of the verification unit 200 to be described later, in order to improve collection efficiency. In addition, since the bottom surface of the parking lot is inclined as described above, it is preferable to provide a stopper or the like in an oblique direction at a position where the vehicle is located.

That is, as described above, not only the uniformity of the test standard can be maintained each time the packaging technique is installed by the impermeable box 100, but also the surface run-off water, the intermediate inflow run- It allows the management and verification of all infiltration runoffs, enabling the verification and management of stormwater runoff more accurately and efficiently on a real scale for parking lot type LID technology.

The monitoring unit 22 and the drainage unit 23 as monitoring means for monitoring the effluent collected through the LID package 11 of the impermeable concrete box 100. The monitoring unit 21, .

The check path 21 is a space part in which a checker for management and inspection of the verification part 200 can be located.

The monitoring unit 22 collects and manages each effluent collected through the LID package 11 in a normal manhole-type box.

At this time, the monitoring can check and manage various items such as runoff amount, water quality, property, and the like of the effluent, and the means such as the monitoring device and the program are already variously known, and a detailed description thereof will be omitted. That is, the present invention is not limited to a specific monitoring device or a program, and various monitoring devices or programs already known or commercially produced can be selectively applied.

The drainage unit 23 discharges the monitored effluent water through the monitoring unit 22, and discharges the monitored effluent water through a conventional drainage trench or the like to a reservoir and a stormwater pipe.

Next, referring to FIG. 4, an excellent system of a low impact development (LID) efficiency verification system of a multifunctional permeable packaging facility of the present invention will be described. The surface inflow water, the intermediate inflow effluent, and the bottom infiltration effluent (S100) are connected to each other via the V-shaped weir 11a, the first penetration pipe 11b and the second penetration pipe 11c (S200) The water is collected in the monitoring unit 22 and the water quality, the quantity and the property thereof are monitored in step S300, and the water is discharged through the drainage unit 23 to the reservoir and the storm drainage system in step S400. It will provide a real-scale verification system for LID technology that manages stormwater runoff, especially in parking lots, among a variety of impervious surfaces.

As described above, the LID efficiency verification system of the multifunctional permeable packaging facility according to the preferred embodiment of the present invention has been described with reference to the above description and drawings, It will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention.

100: impervious box 11: LID package
11a: weir 11b: first pillar
11c: second pillar 200: verification unit
21: Inspection road 22: Monitoring section
23:

Claims (5)

In a low impact development (LID) efficiency verification system for a multifunctional permeable packaging facility,
An impermeable box (100) in which a LID package (11) is built up, forming a bottom surface of a car park; And
And a verification unit (200) for monitoring the effluent collected through the LID package (11) of the impermeable concrete box (100). The multi - function type permeable packaging facility Efficiency Verification System.
The method according to claim 1,
The LID package 11 built inside the impermeable box 100 is provided with:
A V-shaped weir 11a formed on the surface of the LID package 11 for conveying the surface run-off water generated in the LID package 11 and collecting the surface run-off water to the verification unit 200;
A first perforated pipe 11b formed at an intermediate portion of the LID package 11 for transferring the intermediate infiltration run-off water generated in the LID package 11 to the verification unit 200; And
And a second pipe 11c formed at the lower portion of the LID package 11 for transferring the lower infiltration run-off water generated in the LID package 11 to the verification unit 200 (LID) efficiency verification system of multi - function type permeable packaging facility.
The method according to claim 1,
The impermeable box (100)
(LID) efficiency verification system of a multi-function type permeable packaging facility.
The method according to claim 1,
The LID package (11)
(LID) efficiency verification system of a multifunctional permeable packaging facility, characterized in that it is impermeable packaging, drainage packaging or permeable packaging.
The method according to claim 1,
The verification unit (200)
An inspection path (21) in which the inspector can be located;
A monitoring unit 22 configured at the lower part of the inspection path 21 and collecting and monitoring each effluent collected through the LID package 11; And
And a drainage unit (23) for discharging the monitored effluent water through the monitoring unit (22). A system for verifying the effectiveness of a low impact development (LID) of a multifunctional permeable packaging facility.

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