KR100531737B1 - Method of reinforcing rainwater draining ditch with water-proofing mat - Google Patents

Abstract

Disclosed is a method of reinforcing the sediment side opening formed in a waste landfill or the like by using an order mat capable of quickly discharging rainwater while suppressing soil leakage during rainfall. The sediment reinforcement method for rainwater reclamation forms a predetermined gradient from the center to the outer side to form a dike covering the outer periphery of the cover layer and the cover layer having a convex structure at the center, and forming a V-shaped earth and sand in an area where the cover layer and the dike meet. Forming a side opening; And both ends are fixed to the cover layer and the embankment, respectively, and comprising the step of installing a degree mat covering the V-shaped soil side opening.

Description

Earthquake reinforcement method for stormwater drainage using order mat {Method of reinforcing rainwater draining ditch with water-proofing mat}

The present invention relates to a method for reinforcing soil sediment for rainwater drainage using a degree mat, and more particularly, an order mat that can discharge rainwater quickly while suppressing soil leakage during rainfall. It relates to a method of reinforcing the earth and sand outlets formed in the waste landfill.

In general, a method of treating waste such as waste by using "landfill", repeats the process of stacking the waste to a certain height, and then covering the stacked waste with soil or a similar shield (commonly referred to as "cover layer"), It is a waste treatment method that naturally decomposes waste for many years to several decades. In other words, in a landfill site, the final plan of landfill is not piled up and buried, and in general, several stages are stacked at a height of about 5 m, and waste such as waste is buried at about 4.5 m. The soil is covered with a height of about 50cm above to prevent odor emission, waste flying, and infestation of pests and rodents. Such landfills are landfilled for a relatively long period of time after landfilling of the wastes of the stage is completed. In addition, not only the waste such as stacked waste itself contains a large amount of water, but a large amount of leachate is generated in the process of their natural decomposition, so a leachate treatment facility for discharging and treating them from a landfill site is common. Is installed in a landfill.

In the case of such a landfill, the plant is not planted in the upper part of the middle cover layer, and the vegetation state is poor. Thus, during the rainy season such as the rainy season, the cover surface is lost, and a large amount of rainwater enters the landfill. As the inflow of leachate increases rapidly, not only is it costing a lot of money to deal with it properly, but it is also a cause of odor and civil complaints by residents in the surrounding area. Therefore, storm drainage facilities are typically formed outside the landfill to prevent stormwater inflow into the landfill. 1 and 2 are plan and cross-sectional views, respectively, of a conventional landfill. 1 and 2, in a conventional landfill site, the waste layer 12 and the cover layer 10 are formed to be convex in the center, and the earth or sand for discharging rainwater or earth and sand is formed outside the cover layer 10. The side opening 14 is formed. In addition, the other side of the soil outlet 14, the embankment 16 for partitioning the waste layer 12 and the cover layer 10 is formed higher than the soil discharge side 14. In such a waste landfill, when rainwater flows into the top of the cover layer 10, the rainwater moves to the earth and sand outlet 14 along the slope of the soil layer 10, and the rainwater collected in the soil and sand outlet 14 is the soil and sand outlet ( Moving along the inclined plane of 14 (in the direction of the arrow in FIGS. 1 and 2), the water is finally drained through the drain hole 18 provided at the lowest point of the earth and sand outlet 14.

However, when the earth and sand side opening 14 which consists of a clay is formed between the cover layer 10 and the levee 16 in this way, since the earth and sand surface of the earth and sand side opening 14 is not smooth, the friction loss of the rain is large and the flow velocity is high. As a result, the erosion phenomenon of the earth and sand outlet 14 is likely to occur. As such, when the soil-side opening 14 is eroded, not only the cover layer 10 may be lost or cracked, but also the waste 12 may be exposed, and a large amount of rainwater may be introduced into the waste 12 to generate a large amount of leachate. Will increase. In order to prevent such erosion of the earth and sand outlet 14, a concrete side or a fume pipe may be installed instead of the earth and sand outlet 14, but such a facility is buried together at the next stage of landfill, which is economically undesirable. There are disadvantages.

Accordingly, it is an object of the present invention to provide a method for effectively reinforcing sediment outlets for rainwater removal formed between the dike and the cover layer.

Another object of the present invention is not only to prevent the loss of the cover layer of the earth and sand formed in the landfill site, but also to effectively suppress the increase of leachate due to rainwater inflow, sewage side reinforcement method for storm water remediation using the order mat To provide.

Still another object of the present invention is to provide a method for reinforcing soil sediment for rainwater discharge using a degree mat, which can prevent rainwater from penetrating into the landfill and discharge the rainwater quickly.

In order to achieve the above object, the present invention forms a gradient from the center to the outer side, to form a covering layer having a convex structure in the center and the embankment surrounding the outer layer of the cover layer, V-shaped in the area where the cover layer and the dike abut Forming an earth and sand outlet; And both ends are fixed to the cover layer and the embankment, respectively, and provides a sediment side reinforcement method for rainwater reclamation comprising the step of installing a degree mat covering the V-shaped sediment side. Here, a waste layer is formed below the cover layer, and the order mat is made of a material selected from the group consisting of polypropylene, polyethylene, ethylene propylene diene polymer, and polyvinyl chloride, and both ends of the order mat are It is preferable to be embedded in a cover layer and a levee, respectively.

Hereinafter, with reference to the accompanying drawings, it will be described in detail the soil reinforcement method for rainwater removal using the degree mat according to the present invention in detail.

3 is a cross-sectional view of a waste landfill to which the soil reinforcement reinforcement method for rainwater remediation using a degree mat is applied according to an embodiment of the present invention. As shown in FIG. 3, the landfill, to which the method according to the invention is applied, comprises a cover layer 30, a levee 32 and an order mat 34. The cover layer 30 forms a gradient from the center to the outer side to effectively discharge rainwater, has a convex structure at the center, and may be formed in various landfills, construction sites, and the like. For example, when the cover layer 30 is installed in a waste landfill, the cover layer 30 may be stacked and formed on top of the waste layer 38. Since the cover layer 30 has the highest central portion and has a spherical upper surface lowering toward the outer portion, rainwater falling on the upper cover layer 30 of the landfill during the rainy season is naturally dispersed radially outward. It flows downward and is collected on the outer surface of the cover layer 30. In addition, as shown in Figures 3 and 4, the cover layer 30 may be covered later by another waste layer (48), so that it is usually maintained in a bare land that is not planted. The embankment 32 surrounding the periphery of the cover layer 30 is a structure for partitioning the landfill site and forming a sediment side port carrying rainwater collected on the outer surface of the cover layer 30, and a road 33 for managing the landfill site. ) May be formed on the embankment 32. In the region where the cover layer 30 and the embankment 32 are in contact with each other, a V-shaped earth and sand outlet is formed by the cover layer 30 and the embankment 32, and the V-shaped soil and sand outlet serves as a channel through which rainwater passes. .

The order mat 34 used in the method for reinforcing the earth and sand outlets according to the present invention is installed on the surface of the V-shaped soil and sand spheres formed by the cover layer 30 and the embankment 32. Both ends are fixed to the cover layer 30 and the levee 32, respectively. The order mat 34 is made of a material capable of blocking rainwater so as to suppress rainwater penetration, an impermeable synthetic resin, for example, polypropylene (PP), polyethylene (PE), ethylene propylene di Ethylene Propylene Diene Terpolymer (EPDM), polyvinyl chloride (Poly Vinyl Chloride: PVC) and the like may be made of a material. As a method of fixing both ends of the order mat 34 to the cover layer 30 and the embankment 32, the ends of the order mat 34 are bent, for example, bent at an angle of 90 degrees, or Forming the "b" shaped fixing part 35, and the method of embedding the fixing part 35 in the cover layer 30 and the embankment 32 can be used. As described above, when the fixing end 35 is formed by bending the sock end of the order mat 34, a part of the end of the bent fixing part 35 is bent in the opposite direction again to form the step portion 36, thereby forming the step portion 36. 36, fixing part 35 and order mat 34 are generally " In this way, when the step portion 36 is formed, not only the coupling between the order mat 34 and the cover layer 30 or the embankment 32 is more secure but also the rain cover layer is excellent. It is possible to more effectively prevent the inflow into the 30 or the embankment 32. As shown in Fig. 3, the step portion 36 is preferably formed in a cover layer 30 having relatively weak ground. As another method of fixing both ends of the order mat 34 to the cover layer 30 and the embankment 32, both ends of the order mat 34 may be fixed to the cover layer 30 and the embankment 32 with nails, bolts, or the like. In this way, if both ends of the order mat 34 are fixed to the cover layer 30 and the embankment 32, the soil, stones, eroded upstream, that is, the cover layer 30, When foreign matter moves with rain water, the order mat 34 is damaged or lost due to the installation location being lost. The order mat 34 used in the present invention is sufficient for various external conditions such as soil erosion on the top cover layer 30 or long-term exposure to sunlight. By expressing the strength and maintaining the rainwater removal function, it is possible to suppress the generation of leachate due to rainwater infiltration, and to suppress the increase in the cost of leachate treatment. Iii) is used to drain the rainwater flowing into the top of the cover layer 30 by forming a drainage channel, and prevents the cover layer 30 or the embankment 32 from being separated or lost due to the movement of rain water or erosion. The order mat 34 is removed from the earth and sand outlet when the cover layer 30 is covered by additional waste landfill later, and is discarded or recycled.

4 is a cross-sectional view of a waste landfill site to which the soil drainage reinforcement method for rainwater drainage using the order mat is applied according to another embodiment of the present invention, and the waste landfill shown in FIG. 4 has an upper waste layer on an upper portion of the lower cover layer 30. 48 and the upper embankment 42 are shown. As such, when the upper waste layer 48 and the upper embankment 42 are formed on the lower cover layer 30, rainwater collected along the left side of the upper embankment 42 and the upper surface of the lower cover layer 30 is lower. The rainwater that is drained by the order mat 34 and collected along the upper surface of the upper cover layer 40 and the right side of the upper embankment 42 is drained by the upper order mat 44. As such, the drainage paths formed by the cover layers 30 and 40 and the levees 32 and 42 may be appropriately changed and installed according to the form of the landfill.

Referring to Figures 3 and 4, it will be described the operation of the soil reinforcement method for stormwater drainage using the order mat according to the present invention. When rainwater enters the middle or final cover layer 30 formed on the waste landfill, the rainwater is distributed radially outward and flows downward in accordance with the slope gradient of the top of the cover layer 30. It collects in the V-shaped earth-side side opening formed by 32). Rainwater collected in the V-shaped earth and sand outlet flows along the order mat 34 formed in the upper portion of the V-shaped earth and sand outlet, and is drained through a drain hole (not shown) provided at the end of the order mat 34. As such, by using the topographical conditions of the V-shaped earth and sand outlets at the site where the cover layer 30 and the embankment 32 meet, and installing the order mat 34 on the V-shaped earth and sand outlets, rainwater penetrates into the landfill. It can be prevented, and the rainwater excluded to the outside of the cover layer 30 can be quickly excluded.

As described above, the soil drainage reinforcement method for stormwater drainage using the order mat according to the present invention can effectively suppress the increase of leachate due to stormwater inflow into the landfill. In addition, the earth and sand reinforcing method according to the present invention can prevent the loss and waste exposure of the intermediate cover layer by rainwater discharged quickly during the heavy rain during the rainy season. The earth and sand reinforcement method according to the present invention can be applied to various landfills, construction sites, etc. that require drainage of rainwater, in particular, it can be usefully applied to landfills.

1 is a plan view for explaining the flow of rainwater in a conventional landfill.

FIG. 2 is a cross-sectional view of the waste landfill shown in FIG. 1. FIG.

Figure 3 is a cross-sectional view of the waste landfill to which the soil reinforcement method for rainwater removal using the order mat according to an embodiment of the present invention.

Figure 4 is a cross-sectional view of the waste landfill to which the soil reinforcement method for rainwater removal using the order mat according to another embodiment of the present invention.

Claims (5)

Forming a gradient from the center to the outer side to form a cover layer having a convex structure and a levee surrounding the outer layer of the cover layer, and forming a V-shaped earth and sand outlet in an area where the cover layer and the bank are in contact with each other; And Both ends are fixed to the cover layer and the embankment, and the sediment side reinforcement method for rainwater removal comprising the step of installing a degree mat covering the V-shaped sediment side. The method of claim 1, wherein a waste layer is formed below the cover layer. The method of claim 1, wherein the order mat is made of a material selected from the group consisting of polypropylene, polyethylene, ethylene propylene diene polymer and polyvinyl chloride. The method of claim 1, wherein both ends of the order mat are embedded in the cover layer and the embankment, respectively. According to claim 4, By bending the end of the order mat embedded in the cover layer to form a "b" shaped fixing portion, by bending a portion of the end of the bent fixing portion in the opposite direction to form a stepped portion, Fixtures and mats are generally " Soil side reinforcing method for stormwater, characterized in that the same shape as ".