KR101198703B1 - Method for draining soft ground - Google Patents

Abstract

PURPOSE: A drainage method of the soft ground is provided to cost-efficiently perform drainage work because aggregate and a pump are not required. CONSTITUTION: A drainage method of the soft ground is as follows. The surface of the ground is covered by spreading a mat on the ground(S200). Soil is spread on the mat and flattened(S220). Multiple vertical drain boards are vertically installed in the flattened soil in multi-rows, and the top ends thereof are protruded to the outside(S300). Installation grooves are formed to be adjacent to the side of each row of the vertical drain boards(S320). Horizontal drain boards are installed in the installation grooves(S340). Soil is spread on the horizontal drain boards to temporary fix the position of the horizontal drain boards(S360). The protruded top ends of the vertical drain boards are folded toward the horizontal drain boards, and the folded top ends of the vertical drain boards are coupled to the horizontal drain boards(S380). [Reference numerals] (AA) Start; (BB) Finish; (S110) Preparing; (S120) Installing a collecting well; (S200) Spreading a mat; (S220) Spreading soil; (S300) Installing vertical drain boards; (S320) Forming installation grooves; (S340) Installing horizontal drain boards; (S360) Fixing the horizontal drain boards temporarily; (S380) Coupling; (S400) Filling up the ground

Description

Soft ground drainage method {METHOD FOR DRAINING SOFT GROUND}

The present invention relates to a soft ground drainage method for compacting the soft ground easily and quickly.

In general, soft ground refers to ground in a state where the upper structure cannot be supported. Examples include soft clays, loose sandy soils and organic soils. If roads, bridges, buildings, etc. are placed on the ground composed of soft viscous or organic soils, the settlement will be excessive and lack of support will cause safety problems.

As these problems are expected, the soft ground improvement method is to remove the safety problems in constructing any object by improving the soft ground.

In the case of roads, the construction of roads requires a solid foundation. However, if the construction avoids the soft ground section, excessive construction costs are inevitable, and this is the construction that raises the ground to the extent necessary for construction.

Common types of soft ground drainage methods include: 1) Consolidation strength increasing method by shortening condensation drainage distance such as drainage method; 2) Soft ground consolidation method by impact load and vibration load such as dynamic compaction method. 3) Electrical and chemical injection method, etc. Solidification, suction method 4) Forced substitution method such as substitution method 5) Water level reduction method by forced drainage such as WELL POINT 6) Water drainage method through pressurized soil and sand mat.

However, the conventional soft ground drainage methods have a problem that excessive drainage of electric energy is required even through the use of a vertical drain board, which requires forced drainage through a separate pump, and the like through the aggregate (sand, crushed stone). The pump does not need to drain water, but it takes a lot of drainage air and requires the work of mining and breaking rocks in the mountains to obtain aggregates (sand, crushed stone, etc.). And the cost of transporting aggregates (sand, crushed stone, etc.).

Therefore, when horizontal drainage is required, it does not use aggregates (sand, crushed stone, etc.) to reduce costs, to be environmentally friendly, to shorten the air, and to avoid the use of pumps. There was an urgent need for an eco-friendly drainage method that could reduce the cost of purchasing mechanical equipment.

It should be understood that the foregoing description of the background art is merely for the purpose of promoting an understanding of the background of the present invention and is not to be construed as an admission that the prior art is known to those skilled in the art.

The present invention has been proposed to solve this problem, and does not use aggregate (sand, crushed stone, etc.), and does not use a forced drainage method through a pump, etc. to provide an environmentally friendly and low-cost soft ground drainage method There is this.

Soft ground drainage method according to the present invention for achieving the above object, the mat laying step to cover the surface by laying a mat on the base; Filling step of filling and leveling the general soil on the laid mat; A vertical pouring step of vertically pouring the vertical drainage material to the ground, so that a part of the upper part protrudes onto the ground, and placing the plurality of rows arranged in parallel to form a row; A groove forming step of forming an installation groove having a predetermined width and depth so as to be adjacent to the side of each row formed of the vertical drainage material, and flattening the installation groove on the ground; A horizontal laying step of laying horizontal drainage horizontally in the installation groove; Temporarily fixing the position of the horizontal drainage by covering the general soil on the horizontal drainage; And a fastening step of folding the protruding upper end of the vertical drainage toward the horizontal drainage side and fastening the folded upper end and the horizontal drainage to each other.

The soft ground drainage method may further include a preparation step of flattening the base ground.

In addition, the soft ground drainage method, the water collecting installation step of providing a water collecting well on one side of the original ground; wherein the horizontal laying step is connected to the end of the horizontal drainage to the water collecting well, the water drained over the stratum You can get together.

The fastening step may further include a ground filling step for directly filling the general soil for the formation of the ground over the horizontal ground drainage is installed.

In the groove forming step, the width of the installation groove may correspond to the width of the horizontal drainage, and the depth may be 5 to 15 cm.

The groove forming step is to discharge the excavated soil to the opposite side of the vertical drainage when digging the ground for the formation of the installation groove, the temporarily fixing step is to cover the soil excavated in the groove forming step again on the horizontal drainage for temporarily fixing Can be used.

The fastening step may remove the soil overlapping with the vertical drainage of the general soil covering the horizontal drainage, and then fold the top of the vertical drainage to contact and contact the horizontal drainage.

The groove forming step, the horizontal laying step, and the temporary fixing step are performed by a horizontal drainage spreader, and the horizontal drainage spreader is loaded with a driving part, a groove forming part forming an installation groove, and a horizontal drainage roll in a roll shape and supplied to the installation groove. It may be composed of a laying portion covering the supply portion and the installation groove.

The groove forming part excavates the ground to form an installation groove and discharges the soil to the opposite side of the vertical drainage material, and the laying part spreads the soil pushed to one side from the groove forming part on the horizontal drainage material so that it can be used for temporary fixing. can do.

On the other hand, the horizontal drainage is a plate formed of a continuous drainage core may be formed surrounded by a non-woven outer shell.

According to the soft ground drainage method having the structure as described above, it is possible to drain without aggregate (sand, crushed stone, etc.) can realize the drainage of the soft ground at an environmentally friendly and very low cost. In addition, despite the same natural drainage, it is possible to shorten the drainage air much faster than the drainage method using aggregate (sand, crushed stone, etc.).

In addition, compared to a forced drainage method using a pump or a motor, there is an advantage that the electric energy and cost is very low.

1 is a flow chart of the soft ground drainage method according to an embodiment of the present invention.
2 to 9 is a view showing the soil improvement process according to the order of the soft ground drainage method shown in FIG.
10 is a view showing a horizontal drainage reapplicator used in the soft ground drainage method shown in FIG.

Hereinafter, with reference to the accompanying drawings looks at the soft ground drainage method according to a preferred embodiment of the present invention.

1 is a flow chart of a soft ground drainage method according to an embodiment of the present invention, the soft ground drainage method of the present invention, the mat laying step on the ground to cover the ground surface mat laying step (S200); Filling step (S220) for filling and flattening the general soil on the laid mat; Vertical pouring step to vertically pour the vertical drainage on the ground, so that a part of the top is projected on the ground, the vertical pouring step (S300) to form a plurality of parallel rows formed in one row; A groove forming step (S320) for forming an installation groove having a predetermined width and depth so as to be adjacent to the side of each row of the vertical drainage material and flattening the installation groove on the ground; Horizontal laying step (S340) for laying the horizontal drainage in the installation groove horizontally; Temporary fixing step (S360) to cover the general soil on the horizontal drainage to temporarily fix the position of the horizontal drainage; And a fastening step (S380) of folding the protruding upper end of the vertical drainage toward the horizontal drainage side and fastening the folded upper end and the horizontal drainage to each other.

In the conventional soft ground drainage method, the vertical drainage is poured, the aggregate (sand, crushed stone, etc.) is piled up on it, and then the soil is raised by the pressure of the earth and sand and the water flows laterally through the aggregate (sand, crushed stone, etc.). It was common to perform the natural drainage method of horizontal drainage.

However, this natural drainage method requires a lot of resources for collecting and transporting aggregates (sand, crushed stone, etc.) and has been pointed out as a major cause of environmental destruction.

In addition, because the natural drainage by the aggregate (sand, crushed stone, etc.), the water that has risen again is often infiltrated downward or remains wet in the aggregate (sand, crushed stone, etc.) There was a drawback that the air is very long because it penetrates down, and the cost of construction naturally increased.

Conventionally, in order to solve this drawback, a method of draining water horizontally has been devised by connecting and pumping a motor to a vertical drainage material. However, this method is also ineffective for drainage unless the motor is sufficiently provided, and must be operated continuously using electric energy. There was a problem.

The present invention is to fundamentally solve this point, it is to provide a drainage through the horizontal drainage by installing a horizontal drainage in succession to the vertical drainage, thus, the aggregate (sand, crushed stone, etc.) and the pump is unnecessary.

Soft ground in the natural state as shown in Figure 2 needs to sink the ground by sufficiently draining the moisture according to the design in order to prevent settlement of the ground. To this end, the preparation step (S110) of flattening the base 10 flat; may further include.

After flattening the base 10 using a mechanism such as a bulldozer, as shown in FIG. 3, the mat 100 is laid on the base 10 to cover the surface of the mat (S200). Laying of the mat 100 by operating the equipment is wound around the mattress to spread over the entire surface to prevent water from seeping again into the lower layer even if it rains later or moisture from the ground.

As described above, a mating step (S220) of filling and flattening the general soil 120 is performed on the installed mat. The important point is not to use aggregate (sand, crushed stone, etc.) in the fill phase, but to preserve the cost and environment by collecting and applying general soil from the surroundings.

After the soil fill, some leveling is required for the operation of the equipment. Meanwhile, after filling, the vertical drainage 320 is vertically poured on the ground, as shown in FIG. 5, so that a part of the upper portion 322 protrudes onto the ground, and a plurality of parallel rows are formed in one row and parallel rows are formed. Performs a vertical pouring step (S300) to pour so that.

The vertical drainage material 320 is driven vertically to the ground floor by using the hydraulic pouring machine 300. The vertical drainage 320 is poured continuously to form one row, and the rows are poured throughout the ground in a shape in which the rows are repeated in parallel. On the other hand, it is also possible to put the sump 200 on the side of the ground so that the water discharged from the horizontal drainage can be received later.

Then, as shown in FIG. 6 to form an installation groove 400 having a predetermined width and depth so as to be adjacent to the side for each row composed of vertical drainage material 320, the installation groove 400 is formed to flatten the ground flat The groove forming step S320 is performed.

Then, the horizontal laying step (S340) to horizontally spread the horizontal drainage material 420 in the installation groove (400). The horizontal drainage material 420 is a plate formed of a continuous drainage core and is formed by being surrounded by a nonwoven fabric outer surface, and has a tape-like shape.

In order to install the horizontal drainage 420, the installation groove 400 is made to be immediately adjacent to the side of the row in which the vertical drainage 320 is installed. Precautions in the formation of the installation groove 400 is to first flatten the soil on the side of the vertical drainage, to form a groove even when the groove is formed so that the water flows horizontally well riding the horizontal drainage. And the excavated soil is operated to discharge to the opposite side of the vertical drainage.

On the other hand, as shown in Figures 7 and 8 to cover the general soil on the horizontal drainage 420, temporarily fixing the position of the horizontal drainage (S360) and the projected upper end of the vertical drainage folded to the horizontal drainage side, folded top and horizontal The fastening step (S380) for fastening the drainage to each other; to perform.

After doing so, the ground filling step (S400) to directly fill the general soil for the formation of the ground over the horizontal ground drainage is installed; That is, after the horizontal drainage 420 and the vertical drainage 320 are connected, the final fill 140 is directly placed thereon to induce water to flow out of the vertical drainage and horizontal drainage by the pressure of the soil. .

According to the soft ground drainage method of the present invention, as shown in FIG. 9, since water is naturally drained vertically and horizontally, expensive materials such as aggregate (sand, crushed stone, etc.) are not needed, and equipment such as a pump and electric energy are required. Air also has a number of advantages.

On the other hand, in the horizontal laying step (S340) it is also possible to connect the end of the horizontal drainage to the sump to collect the water drained over the strata in the sump.

The groove forming step (S320) is such that the width of the installation groove corresponds to the width of the horizontal drainage material, and the depth is 5 to 15 cm so that the horizontal drainage material is smoothly horizontally buried. If the depth of the groove is less than 5 cm, the horizontal drainage will not be buried well. If it is larger than 15 cm, the connection with the vertical drainage will not be natural.

In addition, the groove forming step (S320) discharges the excavated soil to the opposite side of the vertical drainage when digging the ground for the formation of the installation groove, the temporarily fixing step (S360) is the soil dug in the groove forming step (S320) By covering the top of the horizontal drainage again and using it for temporary fixing, it is possible to quickly perform the process of forming the installation groove continuously, laying horizontal drainage and re-fastening again even in one operation of the equipment.

And, the fastening step (S380) is to remove the soil overlapping with the vertical drainage of the general soil covering the horizontal drainage, and then fold the top of the vertical drainage to contact with the horizontal drainage to fasten the water up on the vertical drainage immediately horizontal drainage To flow sideways.

In addition, Figure 10 is a view showing the horizontal drainage reapplicator used in the soft ground drainage method shown in Figure 1, the groove forming step (S320), horizontal laying step (S340) and temporarily fixed step (S360) is horizontal drainage re-distribution It is carried out by the machine 500, the horizontal drainage spreader 500 is the driving unit 520, the groove forming unit 560 to form the installation groove, the horizontal drainage wound in the form of a roll and supply to supply to the installation groove ( 580 and the installation portion 590 to cover the soil in the installation groove.

In addition, the groove forming unit 560 excavates the ground to form the installation grooves and discharges the soil to the opposite side of the vertical drainage material, and the laying part 590 again pushes the soil pushed to one side from the groove forming part to the horizontal drainage material. It is desirable to mold it into the shape of an inclined shovel or blade so that it can be used for temporary fixing.

The horizontal drainage reapplicator 500 may be configured such that each part is hung in the form of a frame, and loaded and operated on a track vehicle such as a fork lane, and it may be desirable to have an operating force using hydraulic pressure. When using the horizontal drainage spreader 500, there is an advantage that the horizontal drainage can be easily installed and finished with only one advance.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the following claims It will be apparent to those of ordinary skill in the art.

S200: Mat laying step S300: Vertical pouring step
S320: Groove forming step S340: Horizontal laying step
S360: temporary fixing step S400: ground soil level

Claims (10)

Laying mat on the ground to cover the ground surface mat laying step (S200);
Filling step (S220) for filling and flattening the general soil on the laid mat;
Vertical pouring step to vertically pour the vertical drainage on the ground, so that a part of the top is projected on the ground, the vertical pouring step (S300) to form a plurality of parallel rows formed in one row;
A groove forming step (S320) for forming an installation groove having a predetermined width and depth so as to be adjacent to the side of each row of the vertical drainage material and flattening the installation groove on the ground;
Horizontal laying step (S340) for laying the horizontal drainage in the installation groove horizontally;
Temporary fixing step (S360) to cover the general soil on the horizontal drainage to temporarily fix the position of the horizontal drainage; And
Soft ground drainage method comprising a; folding the projecting top of the vertical drainage to the horizontal drainage side, the fastening step (S380) of mutually fastening the folded top and the horizontal drainage. The method according to claim 1,
Soft ground drainage method further comprises a; preparatory step of flattening the ground (S110). The method according to claim 1,
A water collecting installation step (S120) for providing a water collecting well on one side of the base;
The horizontal laying step (S340) is a soft ground drainage method, characterized in that by connecting the end of the horizontal drainage to the sump to collect the water drained over the strata in the sump. The method according to claim 1,
The fastening step (S380), the ground soil filling step (S400) for directly filling the general soil for the formation of the ground over the horizontal ground installed drainage; soft ground drainage method further comprising. The method according to claim 1,
The groove forming step (S320) is a soft ground drainage method characterized in that the width of the installation grooves to correspond to the width of the horizontal drainage, the depth is formed to be 5 ~ 15 cm. The method according to claim 1,
The groove forming step (S320) discharges the excavated soil to the opposite side of the vertical drainage when digging the ground for the formation of the installation groove, the temporarily fixing step (S360) is again excavated soil in the groove forming step (S320) Soft ground drainage method characterized in that the cover is used on the horizontal drainage for temporary fixing. The method according to claim 1,
The fastening step (S380) is a soft ground drainage method characterized in that the contact with the horizontal drainage by folding the top of the vertical drainage after removing the soil overlapping with the vertical drainage of the general soil covering the horizontal drainage. The method according to claim 1,
The groove forming step (S320), the horizontal laying step (S340) and the temporarily fixing step (S360) is performed by the horizontal drainage reapplicator 500, the horizontal drainage reapplicator 500 is a drive unit 520, the installation groove Soft ground drainage method characterized in that the groove forming part 560 to be formed, the horizontal drainage wound in the form of a roll, the supply unit 580 for supplying the installation groove and the installation unit 590 covering the soil in the installation groove. The method according to claim 8,
The groove forming part 560 excavates the ground to form the installation groove and discharges the soil to the opposite side of the vertical drainage material, and the laying part 590 pushes the soil pushed to one side from the groove forming part again on the horizontal drainage material. Soft ground drainage method characterized in that it can be used for laying temporary fixing. The method according to claim 1,
Wherein the horizontal drainage is a plate formed of a continuous drainage core, characterized in that the outside is surrounded by a non-woven outer shell formed by soft ground drainage method.

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