KR20140136646A - An Improving method for soft ground using of double core horizontal drain board at sloping trench and aggregate filling trench - Google Patents

Abstract

A method for improving weak ground on which a horizontal drain board is installed with an inclined trench and an aggregate-filled trench according to the present invention is composed of a vertical drain board installing step for inserting multiple vertical drain boards into the weak ground; a trench forming step for forming trenches which cross each other near to the multiple vertical drain boards; a horizontal drain board installing step for installing the horizontal drain boards having dual cores on the trenches; a drain board coupling steps for coupling the horizontal and vertical drain boards and the vertical drain boards which cross each other; and a trench filling step for covering the horizontal and vertical drain boards by filling at least one among soil, rubbles, and aggregates into the trenches. The present invention is characterized in that the trench forming step is a step for forming the inclined trench formed to be inclined to the surface of the weak ground and the aggregate-filled trench formed to be parallel with the ground surface in a direction crossing the inclined trench.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an improved method of soft ground using a double core horizontal drainage material in an inclined trench and an aggregate filling trench.

The present invention relates to a method of improving a soft ground in which an inclined trench and an aggregate filling trench are combined with a double core horizontal drainage. More particularly, the present invention relates to a method of improving a soft ground in which an inclined trench adjacent to a vertical drainage material inserted vertically into the ground is sloped, A sloped trench and an aggregate filling trench to allow the horizontal drainage inside the sloped trench to be inclined so that the drainage material is coupled to the vertical drainage material after the double core horizontal drainage material is installed therein, To a method for improving the performance of the apparatus.

The present invention provides a method of forming an aggregate filling trench in a direction intersecting a sloped inclined trench wherein the bottom surface of the aggregate filling trench is located below the lowest bottom surface of the inclined trench, Improvement of soft ground with double-core horizontal drainage in sloping trench and aggregate filling trench to overcome drop in water flow even when reverse gradient caused by ground flow by raising watertight after backing up excellent permeability .

In general, soft ground refers to a ground in a state where it is impossible to support an upper structure. Whether soft ground can support an upper structure is a relative concept that depends on the magnitude of a load applied to the ground.

The soft ground is classified as soft ground when there is pore water between viscous soil particles and pore water, and the main purpose of soft ground improvement is to drain excess pore water.

As a method of improving the soft ground, a method of forming a horizontal drainage layer made of sand or gravel and a reinforcement material of geosynthetic fiber, installing a vertical drainage material on a soft ground, and discharging pore water by using a clayey soil was used.

However, there is a problem that it takes a long period of time to secure the bearing capacity of the soft ground due to the drainage delay of the pore water.

In order to solve this problem, Korean Patent No. 10-1198703 discloses a method of installing a vertical drainage material, forming an installation groove for installing a horizontal drainage material on the ground plane, and then connecting the horizontal drainage material and the folded vertical drainage material, A method of improving the quality of the ground is proposed.

In addition, Korean Patent No. 10-0721225 discloses a method of installing a general soil to an upper portion of a soft ground so as to smoothly drain pore water dehydrated to the ground through a vertical drain, And a drainage pipe connected to the vertical drainage pipe is installed in the drainage channel to discharge the pore water to the outside, thereby improving the horizontal drainage capability of the pore water.

FIG. 1 is a cross-sectional view illustrating a structure for discharging a pore water in a soft ground according to a related art. Referring to FIG. 1,

The upper end of the vertical drainage material 20 is connected to the drainage pipe 22 arranged horizontally with respect to the ground and the upper end of the vertical drainage material 20 is connected to the upper side of the drainage pipe 22 So that the soft ground 13 is piled up and provides pressure to the soft ground 10.

Therefore, the pore water vertically discharged through the vertical drainage material 20 is configured to collect through the drainage pipe 22 into the drainage port 14 or the catchment manhole 50.

However, the above-described conventional techniques have the following problems.

That is, since the drain pipe 22 is installed horizontally with respect to the ground of the soft ground 10, when the local settlement occurs or disturbance occurs in advance due to equipment running or the like, the drain pipe 22 is bent or stepped There is a problem that the drainage ability is rapidly lowered due to occurrence of the head difference.

Decrease in drainage capacity will delay the construction period, which is not preferable because it causes economic loss in time.

An object of the present invention is to solve the problems of the prior art as described above, and it is an object of the present invention to provide a vertical drainage device, And the horizontal drainage in the inclined trench is inclined so that the watertightness of the slope trench and the aggregate filling trench can be improved so that the double-core horizontal drainage is incorporated.

Another object of the present invention is to provide an aggregate filling trench in a direction intersecting a sloped inclined trench, wherein the bottom surface of the aggregate filling trench is located below the lowest bottom surface of the inclined trench, Improvement of soft ground with double-core horizontal drainage in sloping trench and aggregate filling trench to overcome the deterioration of watertightness due to backfill due to soil permeability after backfilling of horizontal drainage material. And the like.

A method of modifying a soft ground with an inclined trench and an aggregate filling trench according to the present invention is provided with a vertical drain re-installation step of inserting a plurality of vertical drain materials into a soft ground, A horizontal drainage re-installation step of installing a horizontal drainage material having a double core in the plurality of trenches, a drainage material binding step of binding the horizontal drainage material, the vertical drainage material and the horizontal drainage material crossing each other, And a trench filling step of filling the trench with at least one of gravel, crushed stone and aggregate so as to shield the horizontal drainage material and the vertical drainage material, wherein the trench formation step comprises: an inclined trench formed obliquely to the ground surface of the soft ground; The aggregate fillet formed parallel to the paper surface in the direction intersecting with the It characterized in that during the formation of the value.

In the trench forming step, the bottom surface of the aggregate filling trench is located below the deepest bottom surface of the inclined trench.

In the horizontal draining re-installation step, the first horizontal draining material installed in the inclined trench is located above the second horizontal draining material installed in the aggregate filling trench.

In the trench filling step, the material filled in the aggregate filling trench is characterized in that a material having a higher permeability than that of the material filled in the inclined trench is adopted.

After the trench-filling step, an embankment step for embedding an aggregate containing at least one of sand, gravel and crushed stone is performed on the soft ground.

In the present invention, the inclined trench adjacent to the vertical drainage material inserted vertically into the ground is inclined, the double core horizontal drainage material is installed inside the inclined trench, and the horizontal drainage material inside the inclined trench is connected to the vertical drainage material so as to be inclined .

Therefore, there is an advantage that the water-circulation ability can be further improved by inclining the double-core horizontal drainage material having excellent water-passing ability.

According to the present invention, an aggregate filling trench is formed in a direction intersecting the inclined inclined trench, the bottom surface of the aggregate filling trench is positioned below the lowest bottom surface of the inclined trench, And then the aggregate having excellent water permeability is filled up.

In addition, even when the horizontal drainage is caused by the bending or the step difference due to the occurrence of the local settlement or the advance ground disturbance due to the running of the equipment, etc., there is an advantage that the water discharge ability can be maintained since the head difference is maintained in the drainage direction.

In addition, since the horizontal drainage material is installed inside the trench, there is an advantage that the horizontal drainage material, which may be generated in the operation of the embankment, can be prevented from being prevented from being coupled with the vertical drainage material.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view showing a structure for draining water of a soft ground according to the prior art; FIG.
FIG. 2 is a longitudinal sectional view of a method for improving soft ground in which a double core horizontal drainage material is grafted to an inclined trench and an aggregate filling trench according to the present invention. FIG.
3 is a plan view showing an arrangement of an oblique trench and an aggregate filling trench in a method of improving soft ground in which a double core horizontal drainage material is grafted to an inclined trench and an aggregate filling trench according to the present invention.
4 is a process flow diagram illustrating a method of improving soft ground with an inclined trench and an aggregate filling trench according to the present invention;
5 is an exploded perspective view showing the completion of the vertical drainage re-installation step in the method of improving the soft ground with the double core horizontal drainage material adhered to the inclined trench and the aggregate filling trench according to the present invention.
6 is an exploded perspective view showing an inclined trench formed in a trench forming step as one step in a method of improving soft ground in which a double core horizontal drainage material is grafted to an inclined trench and an aggregate filling trench according to the present invention.
FIG. 7 is an exploded perspective view showing an aggregate filled trench formed in a trench forming step as one step in a method of improving soft ground in which an inclined trench and an aggregate filling trench according to the present invention are incorporated into a double core horizontal drainage.
FIG. 8 is an exploded perspective view showing a cross section of a main pipe and a branch pipe at completion of a trench forming step in a method of improving soft ground in which a double core horizontal drainage material is grafted to an inclined trench and an aggregate filling trench according to the present invention.
9 is an exploded perspective view showing a horizontal drainage material installed in a branch pipe during a drainage re-installation step in a method of improving soft ground in which a double core horizontal drainage material is incorporated into an inclined trench and an aggregate filling trench according to the present invention.
10 is an exploded perspective view showing a horizontal drainage material installed in a main pipe during a horizontal drainage re-installation step in a method of improving soft ground in which an inclined trench and an aggregate filling trench according to the present invention are combined with a double core horizontal drainage material.
11 is an exploded perspective view showing a state in which a branch pipe binds a horizontal drainage material and a vertical drainage material in a drainage material binding step in a method of improving soft ground in which an inclined trench and an aggregate filling trench according to the present invention are combined with a double core horizontal drainage material.
12 is an exploded perspective view showing an intersection of a main pipe and a branch pipe during the step of binding the drainage material in the method of improving the soft ground in which the double core horizontal drainage material is grafted to the inclined trench and the aggregate filling trench according to the present invention.
13 is an exploded perspective view showing the structure of the branch pipe during the trench filling step in the method of improving the soft ground with the double core horizontal drainage material adhered to the inclined trench and the aggregate filling trench according to the present invention.
14 is an exploded perspective view showing a filling state at the intersection of the branch pipe and the main pipe in the trench filling step in the method of improving the soft ground in which the double core horizontal drainage material is adhered to the inclined trench and aggregate filling trench according to the present invention.

Hereinafter, an improved state of the soft ground according to a preferred embodiment of the present invention will be described with reference to FIGS. 2 and 3 attached hereto.

FIG. 2 is a vertical cross-sectional view of a soft ground improvement method in which a slanting trench and an aggregate filling trench according to the present invention are combined with a double core horizontal drainage. FIG. 3 is a perspective view of a slanting trench and an aggregate filling trench according to the present invention. There is shown a plan view showing the arrangement of the oblique trench and the aggregate filled trench in the method of improving the soft ground with the core horizontal drainage.

Prior to this, terms and words used in the present specification and claims should not be construed in a conventional and dictionary sense, and the inventor may appropriately define the concept of the term in order to describe its invention in the best possible way It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely preferred embodiments of the present invention, and are not intended to represent all of the technical ideas of the present invention. Therefore, various equivalents It should be understood that water and variations may be present.

As shown in the drawing, the present invention is a method for discharging and improving ground water of a soft ground G, wherein a plurality of vertical drainage materials 110 are installed parallel to each other, and a horizontal drainage material 120 And the collecting cores 130 are located at both ends of the horizontal drainage material 120. [

In addition, a plurality of the collectors 130 are spaced apart from each other by a predetermined distance. A horizontal drainage member (not shown) installed horizontally with respect to the ground surface between the collectors 130 120 are provided.

Therefore, the groundwater drained upward along the vertical drainage material 110 flows into the horizontal drainage material 120 and flows in the left / right direction.

At this time, the horizontal drainage member 120 is sloped as shown in FIG. 2 to improve drainage ability.

The method of installing the horizontal drainage material 120 will be described in detail below.

A mat 140 is installed on the lower side of the horizontal drainage member 120 and an embankment 150 is disposed on the upper side of the horizontal drainage member 120 so that the underground water can be discharged by providing pressure to the soft ground G. [ Since the mat 140 and the embankment are constructed in a general manner, a detailed description thereof will be omitted.

Referring to FIG. 3, a main structure 132 is formed between the collectors 130 and the main body 130 in a direction parallel to the paper surface .

In the main pipe 132, a double-core horizontal drainage member 120 is placed and disposed parallel to the ground surface, and the groundwater is guided by the water collecting unit 130.

A plurality of branch pipes 136 are connected between the main pipes 132. The branch pipe 136 is formed obliquely, and the double core horizontal drainage member 120 is disposed on the inner bottom surface of the branch pipe 136 and is disposed obliquely with respect to the ground surface. The double core horizontal drainage member 120 located in the branch pipe 136 is connected to the plurality of vertical drainage members 110 to guide the groundwater into the main pipe 132.

In FIG. 3, the center of the plurality of branch pipes 136 is located at the highest position, and is inclined toward the direction in which the main pipe 132 is located from the center, so that the position of the bottom face is located at the lowest position.

The main pipe 132 and the branch pipe 136 may be changed in a variety of arrangements in a plan view so long as the main pipe 132 is inclined and the main pipe 132 intersects the branch pipe 136 and is formed horizontally with respect to the ground surface. Is possible.

4, a method of improving the soft ground in which the double-core horizontal drainage 120 is incorporated into the inclined trench and the aggregate filling trench according to the present invention will be described.

FIG. 4 is a flow chart showing a method of improving the soft ground in which the inclined trench and the aggregate filling trench according to the present invention are combined with the double core horizontal drainage material.

The inclined trench 138, which will be described below, forms the above-described branch pipe 136, and the aggregate filling trench 134 forms the main pipe 132 described above.

As shown in the drawing, the method of improving the soft ground in which the inclined trenches and the aggregate filling trench according to the present invention are combined with the double core horizontal drainage, includes a vertical draining reinstalling step of inserting a plurality of vertical drains 110 into the soft ground G A trench formation step S200 of forming a plurality of trenches intersecting with each other in the vicinity of the plurality of vertical drainage materials 110 and a horizontal drainage installation step 120 of installing a horizontal drainage material 120 having a double core in the plurality of trenches, (S400) for binding the horizontal drainage material (120), the vertical drainage material (110) and the horizontal drainage material (120) intersecting each other, and a drainage material binding step (S400) for binding the at least one of soil, And a trench filling step (S500) for shielding the buried horizontal drainage material (120) and the vertical drainage material (110).

5, the vertical drainage re-installation step S100 is a process of vertically inserting the vertical drainage material 110 into the soft ground G and penetrating the mat 140 and being inserted into the ground.

After the vertical drainage re-installation step S100, a trench forming step S200 for forming a plurality of trenches is performed. 6 and 7, the trench forming step S200 is performed on the branch pipe 136 and the main pipe 132, respectively, but is configured to have different shapes and depths.

6 is a view illustrating the formation of the inclined trench 138 in the trench forming step S200 as one step in the method of improving the soft ground G in which the dual core horizontal drainage material 120 and the inclined trench 138 are combined. FIG. 7 is a perspective view illustrating a method of improving the soft ground G in which the double-core horizontal drainage 120 and the slanting trench 138 are combined with each other according to an embodiment of the present invention. In the trench forming step S200, It is an incision perspective view showing the formation.

Referring to the drawing, the trench is divided into an inclined trench 138 and an aggregate filling trench 134.

The inclined trench 138 is sloped downward (see FIG. 6) so that the horizontal drainage 120 installed in the branch pipe 136 can be inclined in the direction of the main pipe 132 7 and are formed larger and deeper than the inclined trenches 138. [

More specifically, the inclined trench 138 is shallow at the point of view as shown in the left side of FIG. 6, but has a bottom surface lower than the point of view as shown in the right side of FIG. 6 due to inclination toward the end point.

8, the bottom surface of the aggregate filling trench 134 is formed at the deepest bottom surface of the inclined trench 138, and the bottom surface of the aggregate filling trench 134 is formed at the bottom of the inclined trench 138, (See the right side of Fig. 6).

The groundwater flowing along the horizontal drainage member 120 inclined to the inclined trench 138 is guided to the upper surface of the horizontal drainage member 120 installed horizontally in the aggregate filling trench 134.

8 is a cross-sectional view of the main pipe 132 and the branch pipe 136 at the completion of the trench forming step S200 in the method of improving the soft ground in which the double core horizontal drainage member 120 and the inclined trench 138 are combined. The aggregate filling trench 134 intersects with the inclined trench 138 and is recessed to a position lower than the bottom of the inclined trench 138. As shown in Fig.

After the trench forming step (S200), a horizontal draining reinstalling step (S300) is performed. The horizontal draining re-installation step (S300) will be described with reference to FIGS. 9 and 10 attached hereto.

9 is a view illustrating a method of improving the soft ground in which the inclined trench 138 and the aggregate filling trench are combined with the double core horizontal drainage according to the present invention, in the horizontal drainage reinstalling step S300 of the horizontal drainage material 120 installed in the branch pipe 136 10 is a perspective view of the main pipe 132 in the horizontal drainage re-installation step S300 in the method of improving the soft ground in which the inclined trench 138 according to the present invention and the aggregate filling trench are combined with the double core horizontal drainage FIG. 2 is a perspective view of the installed horizontal drainage member 120.

9 and 10, the horizontal drainage material 120 is divided into a first horizontal drainage material 122 installed in the inclined trench 138 and a second horizontal drainage material 124 installed in the aggregate filling trench 134 .

The first horizontal drainage member 122 and the second horizontal drainage member 124 are both configured to have a dual core structure and have different widths and sizes in consideration of the size and draining ability of the branch pipes 136 and the main pipe 132 It is self-evident.

The aggregate filling trench 134 and the inclined trench 138 are formed in different structures in the trench forming step S200 so that the first horizontal drainage material 122 and the second horizontal drainage material 122 installed in the horizontal drainage re- 124 are disposed parallel or inclined with respect to the ground.

That is, the first horizontal drainage member 122 is inclined as shown in FIG. 9, and the second horizontal drainage member 124 is installed horizontally with respect to the ground as shown in FIG.

12) at the intersection of the inclined trench 138 and the aggregate filling trench 134 when the installation of the second horizontal drainage material 124 and the first horizontal drainage material 122 is completed, The drainage material 122 and the second horizontal drainage material 124 intersect each other and the first horizontal drainage material 122 passes through the second horizontal drainage material 124.

After the horizontal drainage re-installation step (S300), a drainage material binding step (S400) is performed. The draining material binding step (S400) will be described with reference to Figs. 11 and 12. Fig.

11 is a perspective view illustrating a method of improving the soft ground in which the inclined trench 138 and the aggregate filling trench are combined with the inclined trench 138 and the double core horizontal drainage according to the present invention. 12 is a perspective view of the main pipe 132 in the method of improving the soft ground in which the inclined trench 138 and the aggregate filling trench are combined with the double core horizontal drainage material according to the present invention. ) And a branch pipe 136. The cross-sectional view of FIG.

The drainage material binding step S400 binds the vertical drainage material 110 and the first horizontal drainage material 122 disposed inside the inclined trench 138 to the first horizontal drainage material 122 located in the aggregate filling trench 134, 122 and the second horizontal drainage member 124 to the coupling member.

As shown in FIG. 12, the vertical drainage material 110 may be inclined with respect to the first horizontal drainage material 122. The vertical drainage material 110 may be inclined with respect to the horizontal drainage material 120, And the first horizontal drainage member 122 and the second horizontal drainage member 124 are bound in a stacked form on a plane.

After the drainage material binding step S400, a trench filling step S500 is performed. 12 and 13, the trench filling step S500 stacks up trenches, crushed stone or aggregates on the upper surface of the vertical drainage material 110, the first horizontal drainage material 122 and the second horizontal drainage material 124, 14, filling the space between the aggregate filling trench 134 and the sloping trench 138, as shown in FIG.

13 is a cutaway perspective view showing a state of the branch pipe 136 in the trench filling step S500 in the method of improving the soft ground in which the inclined trench 138 according to the present invention and the aggregate filling trench are combined with the double core horizontal drainage, 14 is a cross-sectional view of a method of improving the soft ground in which the inclined trench 138 according to the present invention and the aggregate filling trench are grafted to the double core horizontal drainage in the trench filling step S500, Fig.

As shown in FIG. 13, when the inclined trenches 138 are formed in the inclined trenches 138, the excavated gravels are covered again to form the first fillets 172, The second filling portion 174 is formed by filling a relatively large-sized material such as crushed stone.

Accordingly, the second filling portion 174 is constructed to increase the flow velocity of the ground water by filling the first filling portion 172 with a material having higher water permeability than the soil forming the first filling portion 172, On the extension of the portion 174, the above-described collecting filter 130 is formed.

After the trench filling step S500, an embankment step (S600) for embedding an aggregate containing at least one of sand, gravel and crushed stone is performed on the soft ground (G), and the embankment step (S600) The method of improving the soft ground is completed.

When the installation of the horizontal drainage member 120 and the vertical drainage member 110 is completed according to the above-described method, the groundwater raised along the vertical drainage member 110 is flowed obliquely along the horizontal drainage member 120 installed in the slanted trench 138 And the groundwater flowing along the inclined trench 138 flows in a direction crossing the horizontal drainage material 120 installed in the aggregate filling trench 134 and drained.

The scope of the present invention is not limited to the above-described embodiments, and many other modifications based on the present invention will be possible to those skilled in the art within the scope of the present invention.

110. Vertical Drainage 120. Horizontal Drainage
122. First horizontal drain 124. Second horizontal drain
130. Housekeeping 132. Hosted
134. Aggregate filling trench 136. Branch pipe
138. Oblique trench 140. Mats
170. Filling part 172. First filling part
174. Second Fill Part G. Soft ground
S100. Vertical drainage reinstallation step S200. Trench formation step
S300. Horizontal draining reinstallation step S400. Bonding step
S500. Trench fill step S600. Embankment stage

Claims (5)

A vertical drainage re-installation step of inserting a plurality of vertical drainage materials into the soft ground,
A trench forming step of forming a plurality of trenches intersecting each other in the vicinity of the plurality of vertical drainage materials;
A horizontal draining re-installation step of installing a horizontal draining material having a double core in the plurality of trenches,
A drainage material binding step for binding the horizontal drainage material, the vertical drainage material and the horizontal drainage material crossing each other,
And a trench filling step of filling the trench with at least one of gravel, crushed stone, and aggregate to shield the horizontal drainage material and the vertical drainage material,
The trench forming step may include:
Wherein the inclined trench is inclined with respect to the ground surface of the soft ground and an aggregate filling trench formed parallel to the ground in a direction intersecting with the inclined trench. Lt; / RTI >
The method according to claim 1, wherein, in the trench formation step,
Wherein the bottom surface of the aggregate filling trench is located below the deepest bottom surface of the inclined trench. ≪ RTI ID = 0.0 > 8. < / RTI >
3. The method of claim 2, wherein in the horizontal draining re-
Wherein the first horizontal drainage material installed on the inclined trench is located above the second horizontal drainage material installed on the aggregate filling trench.
4. The method of claim 3, wherein in the trench filling step,
Wherein the material filled in the aggregate filled trench is made of a material having higher water permeability than the material filled in the inclined trench.
5. The method of claim 4, wherein after the trench filling step,
Characterized in that an embankment step for embedding an aggregate containing at least one of sand, gravel and crushed stone is carried out on the upper side of the soft ground, and a method for improving the soft ground by combining the double core horizontal drainage and the inclined trench.

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