KR100452482B1 - Refuse dam using small embankment for many step and construction method thereof - Google Patents

Abstract

The present invention relates to a landfill site using a multi-stage fire bank and a construction method thereof. In forming a small end to be constructed along an inclined surface, the small end is installed at a predetermined inclination toward the fire bank in consideration of the hydraulic slope. By installing a water repellent membrane on the entire bottom surface of the landfill, and installing rainwater excretion side opening on the small end covered with the water repellent membrane, the end of the rainwater excretion side opening is installed so as to pass through the upper surface of the embankment side. Rainwater collected through the rainwater drainage outlet is characterized in that it is smoothly discharged to the outside of the small bank.

In the present invention, after the first landfill is completed, it is characterized in that the re-established step by step to secure the second, third buried area thereon.

According to the present invention, in installing and operating the rainwater discharge facility within the landfill, by simplifying the structure of the stormwater drainage and multi-stage rebuilding of the levees according to the amount of landfills, it is possible to reduce the initial installation cost and effectively reduce the landfill area. There is an advantage to be secured.

Description

Refuse dam using small embankment for many step and construction method

The present invention relates to a waste landfill site using a multi-stage small levee and its construction method. In particular, in the installation and operation of an excellent drainage facility in a waste landfill, the structure of the stormwater good drainage is simplified and The present invention relates to a technology for effectively securing a landfill area by reducing initial installation costs and increasing garbage.

In general, a landfill site installed in a valley part arranges floors and slopes in order to secure landfill capacity and install a water repellent facility, and small ends are constructed at appropriate intervals on slopes.

The small end portion is formed with a rainwater drainage outlet to prevent contact between rainwater and garbage and effectively protects the slope of the legal surface, and is divided into an inner waste leachate generation area and an outer rainwater drainage area around the rainwater drainage outlet. will be.

Usually, a leachate drainage port is installed at the bottom of the leachate generating area to effectively drain the leachate, and a bottom of the landfill is filled with a membrane made of a synthetic resin or the like to prevent groundwater contamination due to leachate leakage. The U-shaped side opening and the like are installed in the drainage side outlet of the small end.

In addition, the U-shaped side opening penetrates the water-repellent membrane at the bottom to prevent the drainage of the landfill area from leaching.

However, according to the conventional technology, there has been a significant problem that the leachate is lost underground due to the shape deformation of the small end portion or the rupture of the water pipe due to the progress of landfill.

In addition, when the landfill is proceeding at a high speed, it is not possible to completely watertight the perforated portion of the water-permeable membrane, which has been perforated to install the water pipe, which causes leachate leakage.

In order to solve the above problems, the present inventors have disclosed some improved forms of technology, which are specifically disclosed in Korean Patent Application No. 1998-0024438. The prior invention is a technology related to a storm drainage member that minimizes the possibility of drainage and leakage of leachate by installing storm drainage outlets on small ends constructed with a predetermined slope, thereby preventing leachate leakage from landfills. In the construction of the excellent embankment for the embankment is taking the following form.

As shown in FIGS. 1 to 3, the embankment storm draining member of the present invention forms a small end portion 12 that is constructed along an inclined surface, and the small end portion 12 considers the hydrophobic slope to form the embankment 30. Installed in a predetermined slope toward the bottom of the landfill, such as the water-repellent membrane 20 is installed, and then the rainwater drainage side opening 210 is installed on the small end portion 12 covered with the water-repellent membrane 20, By constructing the end of the 210 to be connected to the bank of the stormwater drainage pipe 32 is installed through the bank 30, the rainwater collected to the bank 30 through the bank 30 through the piping member It is to be discharged quickly to the outside.

In addition, the bank for excellent drainage of the embankment 32 is characterized in that the order piece 32a constituting the flange portion to secure the watertightness with the order film 34 installed on the embankment (30).

According to the above-described structure of the present invention, when constructing the rainwater repellent member in the landfill, the small end portion 12 is embankment 30 to solve the problem that the water pipe is installed so as to penetrate the water curtain of the existing landfill. It is formed to be inclined toward the side, and the rainwater collected in the rainwater discharge side opening 210 installed in the small end portion 12 flows to the bank (30) and the rainwater collected through the pipe member 32 installed through the bank (30). It is configured to discharge out of the embankment (30).

In other words, the storm drain pipe member 32 is installed through the bank 30, and the pipe member 32 is connected to the end of the storm drain hole 210 on the small end portion 12 so as to be connected to the small end portion 12. Rainwater is collected in the rainwater discharge side opening 210 installed in the) flows in the direction of the bank (30) has a feature that the rainwater is discharged to the outside of the bank (30).

In this case, when the waste is embedded up to the height of the first small end portion 12, one or both directions of the piping member 32 are closed to secure a buried area, and then the second and third small end portions 12 formed thereon. ) Is to discharge rainwater. At this time, the pipe member 32 is provided with a stopper 35 having a flange portion 36 formed thereon to effectively close the end thereof to prevent the leachate from leaking through the pipe member 32.

However, according to the above-described prior invention of the present applicant, in order for the rainwater flowing toward the bank through the rainwater drainage side opening on the small end to be discharged outward through the bank, a separate rainwater drainage pipe member must be installed through the bank. The exclusion side opening must necessarily consist of a structure that seals its end to the piping member in the inner buried zone of the bank.

In addition, the water repellent film coated on the side of the inner landfill of the embankment is also penetrated by the piping member. In order to prevent leakage at the portion where the water repellent film is penetrated by the piping member, the water repellent film and the piping member of the portion where the piping member penetrates are integrally formed. The process of bonding and sealing together is required.

If the end of the rainwater drainage side outlet and the sealing film and the sealing member of the piping member are not completely sealed, this causes a serious problem in that the leachate leaks due to the leakage passage of the leachate generated from the garbage embedded in the upper portion of the piping member. Let's go.

Accordingly, the technique of the present invention further generates an additional structure for penetrating the rainwater drainage pipe member on the bank, and a structure for connecting the rainwater drainage side outlet and the rainwater drainage pipe member, and the construction method is also very complicated. This lowered work efficiency and caused additional costs.

Moreover, the landfill site has a difference in the speed of landfilling depending on its size. Therefore, it is cost effective to properly adjust the height of the dike according to the amount of waste when installing the dike, but according to the preceding invention, the dike is a huge height. As it is pre-installed as a furnace, this is inefficient due to the increased initial installation cost and the difficulty of adjusting the landfill area according to the amount of waste.

The present invention has been proposed to solve the problems of the conventional method of excluding the rainwater through the drainage member penetrating the dike as described above, by installing the rainwater drainage side opening so as to pass through the mound dike of the rainwater drainage structure required Its main purpose is to provide a landfill using multistage fire banks, which simplifies to reduce installation costs and facilitates construction.

Another object of the present invention is to provide a waste landfill using a multi-stage fire bank to reduce the initial installation cost and gradually adjust the landfill area by repeatedly re-establishing a multi-seat bank according to the amount of landfill.

Another object of the present invention, in the construction of a storm embankment excrement member to prevent leachate leakage and contaminated groundwater contamination in the landfill, wastes using a multi-stage levee to reduce the initial installation cost and to facilitate construction It is to provide a landfill construction method.

1 is a cross-sectional view of the construction of the embankment storm draining member of the landfill according to the prior art.

Figure 2 is a detailed view showing a detailed structure of the drainage member and drainage side outlet connection of the conventional bank excellent drainage member.

Figure 3 is an exemplary view showing a conventional embankment storm draining member construction plane.

Figure 4 is a detailed view showing a concrete structure of the excretion of the riverbank and small end of the embankment according to the present invention in detail.

Figure 5 is a detailed view showing another embodiment of the present invention.

6a to 6c is a construction cross-sectional view of the rainwater excrement member installed in accordance with the construction method of the present invention.

Explanation of symbols on the main parts of the drawings

100a, 100b, 100c: Storm water discharge port 110a, 110b, 110c: Small end

120: lining film 200a, 200b, 200c: small bank

Garbage landfill site using the multi-stage fire bank of the present invention for effectively achieving the above object, in forming a small end to be constructed along the inclined surface, the small end is installed at a predetermined slope toward the fire bank in consideration of the hydraulic inclination By installing a water repellent membrane on the entire bottom surface of the landfill, and installing rainwater excretion side opening on the small end covered with the water repellent membrane, the end of the rainwater excretion side opening is installed to pass through the upper surface of the embankment, The rainwater collected through the rainwater discharge side outlet is characterized in that it is smoothly discharged to the outside of the embankment.

The rainwater drainage side opening is installed so that its end portion extends outward from the dust bank by a predetermined length so that discharge of the collected rainwater to the outside of the dust bank is easier.

After the first landfill is completed, the small banks are constructed in order to rebuild the second and third small banks to secure the second and third landfills thereon.

On the other hand, in the construction method of the landfill site using the multi-stage levee of the present invention, when constructing the storm drainage facility in the valley portion where the landfill is formed, the drainage slope installed on the slope of the valley slopes to the bank side Considering the small end; Placing a water-repellent film on each of the legal side and the embankment on which the small end is formed, and installing a rainwater repellent side opening on the legal side on the small side to pass through the upper surface of the small embankment; Thereby, the rainwater collected by the rainwater drainage side opening is characterized in that it is smoothly discharged to the outside of the small bank to pass through the small bank.

The present invention further includes the step of installing the end of the rainwater drainage side outlet is connected to the bank for drainage rainwater drainage of the rainwater treatment facility installed on the outside of the small bank.

In the present invention, after the landfill is completed and the first landfill is completed, the present invention is sequentially constructed while proceeding with the step of rebuilding the levee to secure the second landfill area.

Hereinafter, the present invention will be described in detail with reference to embodiments of the accompanying drawings.

Figure 4 is a detailed view showing the concrete structure of the rainwater repellent side of the small embankment and the small end according to the present invention, as shown in Figure 4, according to the present invention, the rainwater excretion facility in the valley portion of the buried ground In the installation, it is required to install the rainwater drainage side opening (100a) by forming a gradient to the earth or sand mound (200a) side.

At this time, in order to make the rainwater drainage system inclined toward the small embankment 200a on the surface of the water, the small end portion 110a, etc. are formed in consideration of the same water inclination, and the rainwater drainage layer 110 is disposed on the small end portion 110a on which the rain film 120 is installed. It is to install the side opening (100a). At this time, the rainwater excretion side opening (100a) is installed in the small end (110a) is installed so that the end passes through the upper surface of the earth or concrete mound (200a).

That is, the rainwater collected by the rainwater discharge side opening 100a flows toward the small bank 200a along the inclination of the rainwater discharge side outlet 100a, and passes through the upper surface of the small bank 200a. It will be discharged smoothly outward.

At this time, the storm drain side opening (100a) is, as shown in Figure 5, so that the end is extended by a predetermined length to the outside of the small bank (200a) to facilitate discharge to the outside of the collected bank of the small bank (200a). Can be installed

In addition, the end of the rainwater discharge side outlet (100a) can be installed to be connected to the stormwater drainage pipe 300 installed on the outside of the small bank (200a).

The rainwater excretion side port 100a which is constructed in the longitudinal direction along the small end portion 110a covered by the water-repellent film 120 may be a method of collecting rainwater to other types of rainwater excretion facilities in addition to the U-shaped side openings. For example, as described in detail in the patent application No. 195-37671, "Prevention Separation Block for Minimizing Garbage Leachage, and Construction Method thereof" of the present applicant, the construction is carried out in multiple stages along the hydraulic slope. It is to install a piece of securing means for securing a communication area formed in the shape of "ㅗ" or "L" in the position of the small end portion 110a so that a stable drainage structure can be secured despite the cross-sectional change caused by ground subsidence. It is possible.

Thus, when the landfill space of the landfill is constructed and the landfill height rises, when the height of the waste reaches the first landfill height of the small end portion 110a of the constructed landfill, the small bank (200b) is considered. Multi-stage reconstruction of (200c) at regular intervals allows easy reclamation of landfills with increased waste.

As shown in FIGS. 6A to 6C, first, the first fire bank 200a is constructed to secure the primary landfill area in the valley part in consideration of the initial design area. The second and third small banks 200b and 200c are multi-stage rebuilt to a predetermined height in consideration of the amount of waste landfills on the small banks 200a to increase the amount of waste landfill space, thereby considering the amount of garbage. As a result, the third buried region may be gradually increased. That is, unlike the prior art, it is not necessary to stack the dike higher than necessary from the beginning, thereby significantly reducing the initial installation cost and gradually adjusting the landfill area according to the amount of waste.

In other words, when the first landfill proceeds and the landfill is completed in the first landfill area, the landfill area installation work for the second landfill proceeds, and such construction is performed on the primary fire bank 200a and the small end 110a. By completely covering the installed rainwater outlet side (100a) covered with soil or concrete, the process is simple and can minimize the construction cost.

On the other hand, the second and third small banks 200b and 200c to be rebuilt may be constructed in the height direction so as to coincide with the first small banks 200a provided in the lower part thereof, but in a predetermined inclination direction in consideration of stability. It is preferable to construct with.

As described above, according to the present invention, the rainwater excretion side port is installed so as to pass through the small levee, and thus, an additional structure such as a levee drainage pipe required in the conventional method of penetrating the rainwater excrement to the side of the embankment is omitted. It can reduce installation cost and simplify the construction method.

In addition, by constructing the second and third waste landfill area by re-establishing a multi-stage levee in accordance with the amount of landfill waste, there is an advantage that can reduce the initial installation cost, and effectively secure the landfill landfill.

Claims (6)

In forming the small end portion 110a to be constructed along the inclined surface, The small end portion 110a is installed at a predetermined inclination toward the side of the small bank 200a in consideration of the hydraulic inclination, installs the water repellent film 120 on the entire bottom surface of the landfill, and is then covered with the water repellent film 120. The rainwater excretion side opening (100a) is installed on the small end (110a), but the end of the rainwater excretion side opening (100a) is installed to pass through the upper surface of the small embankment (200a) side, the rainwater excretion side opening (100a) ) The landfill using multi-stage small embankment, characterized in that rainwater collected through the) is smoothly discharged to the outside of the small embankment (200a). The method of claim 1, The rainwater drainage side opening (100a) is characterized in that the end is installed so that the end is extended by a predetermined length to the outside of the small bank (200a) so that the discharge to the outside of the collected small bank (200a) using Landfill. The method according to claim 1 or 2, After the first filling of the small bank 200a is completed, the second and third small banks 200b and 200c are rebuilt to secure second and third buried regions thereon. Garbage Landfill Using Multistage Small Embankment. In constructing stormwater excretion facilities in valleys where landfills were formed, Forming a small end portion 110a in consideration of the hydraulic inclination so that the rainwater drainage facility installed on the valley surface of the valley is inclined toward the small embankment 200a; Install the water-repellent film 120 on the side of the small end portion (110a) and the small bank (200a) side, respectively, the top end of the small side (110a) is excellent so that the end passes through the upper surface of the small bank (200a) side In the step of installing the exclusion side opening (100a); due to, The method of constructing a landfill using a multi-stage levee is characterized in that the rainwater collected by the storm drain 100a passes smoothly to the outside of the levee (200a). The method of claim 4, wherein Installing the end of the rainwater discharge side outlet (100a) to be connected to the rainwater discharge facility (300) installed outside the small bank (200a); Garbage landfill construction method using a multi-stage fire bank, characterized in that it further comprises. The method according to claim 4 or 5, Rebuilding the fire banks 200b and 200c to secure the second landfill area after the landfill is completed and the first landfill is completed; Garbage landfill construction method using a multi-stage fire bank, characterized in that it further comprises.