KR101031860B1 - Landfill Using Drain Mat And Its Construction Method - Google Patents

Abstract

The present invention is a waste landfill having an inclined surface,

A plurality of drainage pipes 50 which are formed by being excavated longitudinally along the inclined surface 40 from above to the cut inclined surface 40; A plurality of plate-shaped bundle tubes (60) installed at the bottom of the drainage pipe (50); A plurality of fillers (70) disposed on the plate bundle tube (60); A repellent layer 90 formed on the inclined surface 40 and the drain pipe passage 50 to have a predetermined thickness; Installed in the bottom of the landfill in the shape of a pipe as a whole, a plurality of groundwater reservoir line pipe line 30 is installed in contact with the bottom end of the drain pipe (50); It is installed in the bottom of the landfill in the shape of a pipe as a whole, the groundwater collecting trunk pipe line 20 is connected to the other end of the plurality of groundwater collecting resin pipe line 30 in the middle; And a landfill well installed at one end of the groundwater collecting trunk line 20 to be embedded at the bottom of the landfill site, and a landfill site using a plate-shaped bundle tube and its Provide construction method.

In addition, the plate-shaped bundle tube 60 is characterized in that the stacking in multiple stages, or the waste landfill using the plate-shaped bundle tube, characterized in that the drilling depth for forming the drainage pipe 50 is about 5cm. And it provides a construction method thereof.

Waste Landfill, Plate Bunch, Drainage Structure, Slope

Description

Landfill Using Drain Mat and Its Construction Method {Landfill Using Drain Mat And Its Construction Method}

The present invention in the waste landfill having an inclined surface, by using a plate-shaped bundle pipe to lower the depth of the excavation of the drainage pipe and the separate excavation work for the installation of conventional perforated pipe and reticulated pipe is omitted, economical and easy construction of the bent portion The present invention relates to a landfill site using a structurally safe plate bundle tube and a construction method thereof.

In recent years, attention has been paid to waste treatment methods such as garbage in the basis of green growth and environmental protection.

1 is a cross-sectional view showing the structure of a conventional landfill.

As shown, the waste landfill site excavates the ground to form the slope 40 and the bottom of the landfill site, and form a drainage and order layer without gaps to fill the waste such as garbage thereon.

Figure 2 is a conceptual diagram showing the groundwater drainage structure on the slope of the landfill.

In the landfill, it is also important that the wastewater such as waste is not introduced into the soil by installing the repellent layer 90, but due to buoyancy, boiling and piping due to the water pressure of the groundwater, It is also important to drain rainwater and groundwater coming from the ground.

Figure 3 is a cross-sectional view showing a conventional groundwater drainage structure using a hole A and A 'pipe and reticulated pipe on the slope of the landfill.

As shown, after the excavation of the drainage pipe 50 deeper than about 20cm on the inclined surface of the conventional landfill and the installation of a large diameter perforated pipe 52 or reticulated pipe 54, the perforated pipe 52 or reticulated The pipe 54 is installed and the filling material 70 such as crushed stone is installed inside the drain pipe 50 remaining. Subsequently, the order material layer 90 is formed using bentonite mat, geotextile, or the like.

In the conventional groundwater drainage structure using the perforated pipe 52 or the reticulated pipe 54, the diameter of the perforated pipe 52 or the reticulated pipe 54 is large so that the drainage pipe 50 must be deeply excavated. Therefore, the excavation work of the drainage pipe 50 is carried out separately from the earthwork work of the entire landfill site, resulting in a delay in air and a high construction cost.

In addition, the perforated pipe 52 or the reticulated pipe 54 does not have a problem in the construction of the straight portion, but there is a problem in the bent portion is not bonded to the construction of the bent portion, such as broken during construction or damaged during use after completion.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems of the related art.

The purpose is to reduce the depth of excavation of the drainage pipe by using plate-shaped bundle pipes in the landfill with slopes, and to separate the conventional digging work for the installation of perforated pipes and reticulated pipes, so that the construction of the bent part is economical and simple. In addition, the present invention provides a landfill site using a structurally safe plate bundle tube and a construction method thereof.

In order to solve the above technical problem, the present invention is a waste landfill having an inclined surface,

A plurality of drainage pipes 50 which are formed by being excavated longitudinally along the inclined surface 40 from above to the cut inclined surface 40; A plurality of plate-shaped bundle tubes (60) installed at the bottom of the drainage pipe (50); A plurality of fillers (70) disposed on the plate bundle tube (60); A repellent layer 90 formed on the inclined surface 40 and the drain pipe passage 50 to have a predetermined thickness; Installed in the bottom of the landfill in the shape of a pipe as a whole, a plurality of groundwater reservoir line pipe line 30 is installed in contact with the bottom end of the drain pipe (50); It is installed in the bottom of the landfill in the shape of a pipe as a whole, the groundwater collecting trunk pipe line 20 is connected to the other end of the plurality of groundwater collecting resin pipe line 30 in the middle; And a landfill well installed at one end of the groundwater collecting trunk line 20 to be embedded at the bottom of the landfill site, and a landfill site using a plate-shaped bundle tube and its Provide construction method.

In addition, the plate-shaped bundle tube 60 is characterized in that the stacking in multiple stages, or the waste landfill using the plate-shaped bundle tube, characterized in that the drilling depth for forming the drainage pipe 50 is about 5cm. And it provides a construction method thereof.

According to the present invention, the following effects are expected.

First, it is not necessary to dig a deep drainage pipe because the thin plate bundle tube is used. Accordingly, the present invention provides a waste landfill site using a plate-shaped bundle tube having a small amount of excavation of the ground and a construction method thereof.

Second, since the thin plate-shaped bundle tube is used, it is not necessary to dig the drainage pipe deeply. Therefore, since the drainage pipe can be easily formed during the whole earthwork work, it provides a waste landfill site using a plate-shaped bundle pipe and a construction method thereof that do not require a separate excavation work to form the drainage pipe.

Third, since the use of plate bundle tubes having a small thickness and excellent drainage performance, the construction of the curved surface is simple, and provides a landfill site using a plate bundle tube with less fear of breakage during the construction process or the use process after construction and its construction method.

Fourth, since the use of inexpensive plate bundle tube and the separate excavation work for forming the drainage pipe is omitted, it provides an economic landfill site using the plate bundle bundle and the construction method thereof.

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

Figure 4 is a cross-sectional view showing a waste landfill using a flat bundle of the present invention of AA 'on the inclined surface of the landfill.

In the landfill having the inclined surface of the present invention,

A plurality of drainage pipes 50 which are formed by being excavated longitudinally along the inclined surface 40 from above to the cut inclined surface 40; A plurality of plate-shaped bundle tubes (60) installed at the bottom of the drainage pipe (50); A plurality of fillers (70) disposed on the plate bundle tube (60); A repellent layer 90 formed on the inclined surface 40 and the drain pipe passage 50 to have a predetermined thickness; Installed in the bottom of the landfill in the shape of a pipe as a whole, a plurality of groundwater reservoir line pipe line 30 is installed in contact with the bottom end of the drain pipe (50); It is installed in the bottom of the landfill in the shape of a pipe as a whole, the groundwater collecting trunk pipe line 20 is connected to the other end of the plurality of groundwater collecting resin pipe line 30 in the middle; And a water collecting well 10 installed at one end of the groundwater collecting trunk line 20 to be embedded at the bottom of the waste landfill.

The drainage pipe 50 is typically from the top to the bottom of the inclined surface 40 so that the groundwater collected from the left and right in the inclined surface 40 of the landfill can be collected into the drainage pipe 50 and drained down the inclined surface 40. As it is excavated in the longitudinal direction along the inclined surface (40).

As described above, the excavation depth of the drainage pipe 50 is 20 cm or more in consideration of the diameter of the perforated pipe 52 or the reticulated pipe 54 when installing the conventional perforated pipe 52 or the reticulated pipe 54 Was required.

However, in the present invention, since the thickness of the plate-like bundle tube 60 is thin, an excavation depth of about 5 cm is sufficient.

The plate-shaped bundle tube 60 is a drain mat generally distributed in comparison with the perforated pipe 52 and the reticular pipe 54, and the thickness thereof is thin and the effective drainage area of the drain pipe is wide, so that the drainage time is fast and the total drainage amount is large. .

The plate-shaped bundle tube 60 can secure sufficient drainage performance even if it is usually installed in one stage, but may be used in multiple stages if necessary, and may be modified in various shapes depending on the necessity. When stacking in multiple stages, the excavation depth of the drainage pipe 50 may be deepened.

Under the order layer 90, a conventional shotcrete layer 80 may be selectively formed in order to prevent collapse of the inclined surface 40 or to secure waterproof performance.

Groundwater is collected in the lower portion of the inclined surface 40 along the plate-shaped bundle pipe 60 of the drainage pipe 50, and then through the groundwater catchment water line 30 and the groundwater collecting trunk line 20 in order to receive the water collecting well 10. Gathered in and discharged to the outside using a drain pump.

Figure 5 is a flow chart illustrating a construction method of a landfill site using the plate-shaped bundle tube of the present invention.

The construction method of a waste landfill site using the plate-shaped bundle tube of the present invention in the construction of a waste landfill site having an inclined surface,

(a) an excavation step of excavating the ground to form an inclined surface 40; (b) digging the inclined surface 40 in a longitudinal direction along the inclined surface 40 from top to bottom to form the drainage pipe line 50; (c) a plate-shaped bundle pipe installation step of installing the plate-shaped bundle pipe 60 on the bottom of the drainage pipe 50; (d) a filling material laying step of laying the filling material 70 on the plate-shaped bundle tube 60; (e) a repellent layer construction step of forming the repellent layer 90 with a predetermined thickness on the inclined surface 40 and the drainage pipe 50; (f) a landfill floor installation step of connecting and installing the groundwater collecting basin pipeline 30, the groundwater collecting trunk line 20, and the sump well 10 in consideration of a gradient; And (g) a landfill floor filling step of filling the floor of the landfill floor by forming an order layer or the like at a predetermined thickness.

In the excavation step (a), it is required to cut in consideration of the repose angle of the soil so that the inclined surface 40 is not collapsed, and when there is a fear of collapse, the reinforcement measures of the inclined surface 40 should be taken.

In the (b) drainage pipe excavation step, as described above, the drainage pipe 50 should be excavated in consideration of the width and thickness of the plate-shaped bundle pipe 60, and in general, the excavation depth is about 5 cm. . Therefore, unlike the conventional case, the drilling depth is shallow and the cutting amount of the soil is also reduced.

In the step (c) the plate-shaped bundle tube installation step, it is important to install the gaps in consideration of the curved portion from the upper side to the lower side of the inclined surface 40, and the conventional perforated pipe 52 and the reticulated pipe 54 as described above. Otherwise, construction at the bend of the slope is easy.

Hereinafter, (d) filling re-establishment step, (e) order layer construction step, (f) waste landfill floor installation step, and (g) waste landfill floor filling step are all the same as in the conventional case.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

Therefore, the claims of the present invention include modifications and variations that fall within the true scope of the invention.

1 is a cross-sectional view showing the structure of a conventional landfill.

Figure 2 is a conceptual diagram showing the groundwater drainage structure on the slope of the landfill.

Figure 3 is a cross-sectional view showing a conventional groundwater drainage structure using a hole A and A 'pipe and reticulated pipe on the slope of the landfill.

Figure 4 is a cross-sectional view showing a waste landfill using a flat bundle of the present invention of AA 'on the inclined surface of the landfill.

Figure 5 is a flow chart illustrating a construction method of a landfill site using the plate-shaped bundle tube of the present invention.

<Explanation of symbols for the main parts of the drawings>

10: sump

20: Groundwater Collection Trunk Line

30: Groundwater catchment pipeline

40: slope

50: drain pipe

52: merit

54: reticular

60: plate bundle tube

70: filler

80: shotcrete layer

90: Order Resident

Claims (5)

In a landfill with slopes, A plurality of drainage pipes 50 which are formed by being excavated longitudinally along the inclined surface 40 from above to the cut inclined surface 40; A plurality of plate-shaped bundle tubes (60) installed at the bottom of the drainage pipe (50); A plurality of fillers (70) disposed on the plate bundle tube (60); A repellent layer 90 formed on the inclined surface 40 and the drain pipe passage 50 to have a predetermined thickness; Installed in the bottom of the landfill in the shape of a pipe as a whole, a plurality of groundwater reservoir line pipe line 30 is installed in contact with the bottom end of the drain pipe (50); It is installed in the bottom of the landfill in the shape of a pipe as a whole, the groundwater collecting trunk pipe line 20 is connected to the other end of the plurality of groundwater collecting resin pipe line 30 in the middle; And, It is installed on the floor of the waste landfill, the water collecting well 10 is installed at one end of the groundwater collecting trunk line (20); Waste landfill using a plate-shaped bundle, characterized in that comprises a. In claim 1, The plate bundle tube 60 is a waste landfill using a plate bundle tube, characterized in that stacked in multiple stages. The method of claim 1 or 2, The landfill site using the plate-shaped bundle pipe, characterized in that the excavation depth for forming the drainage pipe (50) to 5cm. In the method of constructing a waste landfill using the plate-shaped bundle pipe of claim 1, (a) an excavation step of excavating the ground to form an inclined surface 40; (b) digging the inclined surface 40 in a longitudinal direction along the inclined surface 40 from top to bottom to form the drainage pipe line 50; (c) a plate-shaped bundle pipe installation step of installing the plate-shaped bundle pipe 60 on the bottom of the drainage pipe 50; (d) a filling material laying step of laying the filling material 70 on the plate-shaped bundle tube 60; (e) a repellent layer construction step of forming the repellent layer 90 with a predetermined thickness on the inclined surface 40 and the drainage pipe 50; (f) a landfill floor installation step of connecting and installing the groundwater collecting basin pipeline 30, the groundwater collecting trunk line 20, and the sump well 10 in consideration of a gradient; And, (g) a landfill floor filling step of filling a floor of a landfill floor by forming an order layer or the like at a predetermined thickness; Construction method of a landfill site using a plate-shaped bundle, characterized in that comprises a. In the method of constructing a waste landfill using the plate-shaped bundle pipe of claim 3, (a) an excavation step of excavating the ground to form an inclined surface 40; (b) digging the inclined surface 40 along the inclined surface 40 along the inclined surface 40 in the longitudinal direction to form a drainage pipe line 50 to form the drainage pipe 50; (c) a plate-shaped bundle pipe installation step of installing the plate-shaped bundle pipe 60 on the bottom of the drainage pipe 50; (d) a filling material laying step of laying the filling material 70 on the plate-shaped bundle tube 60; (e) a repellent layer construction step of forming the repellent layer 90 with a predetermined thickness on the inclined surface 40 and the drainage pipe 50; (f) a landfill floor installation step of connecting and installing the groundwater collecting basin pipeline 30, the groundwater collecting trunk line 20, and the sump well 10 in consideration of a gradient; And, (g) a landfill floor filling step of filling the floor of the landfill floor by forming a layer of repellent material 90 or the like at a predetermined thickness; Construction method of a landfill site using a plate-shaped bundle pipe, characterized in that consisting of.

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