KR100853495B1 - The processing method for removing water out of the damp ground by using water - Google Patents

Abstract

The present invention relates to a soft ground improvement method for removing moisture contained in a soft ground by pressing the soft ground using the weight of water.

The method of the present invention comprises the steps of vertically embedding a plurality of drain members in the soft ground; Installing a water repellent film on the surface of the deductive ground such that the vertical buried drain member is exposed through; Constructing the embankment along the boundary of the soft ground; Installing a plurality of collection wells on the shield; Horizontally installing a plurality of drain members connected to the sump; Forming a drainage layer on the insulator film so that the lower ends of the sump wells and the drain members are not exposed; Covering a waterproof membrane on an outer surface of the dike, the drainage layer and the sump; Filling the inside of the dike and the like.

Soft ground improvement method using the water of the present invention, it is possible to reduce the construction cost and shorten the construction period, there is an advantage that can continue to remove moisture despite the settlement of the soft ground.

Drain member, drain board, soft ground, perforated pipe, embankment

Description

The processing method for removing water out of the damp ground by using water}

1 is a perspective view of a conventional drain board.

Figure 2 is a cross-sectional view of a conventional drain board coupled to the filtering member.

3 is a perspective view of a conventional perforated tube.

Figure 4 is a schematic diagram showing a method for removing soft ground water using a perforated tube.

5 is a process block diagram of one embodiment of the inventive process.

6 is a schematic construction structure diagram to which the present invention method is applied.

Figure 7 is a schematic construction structure diagram of the construction method of the present invention showing a case where the soft ground subsided.

         ((Explanation of symbols for main part of drawing))

       3. Soft ground 6. Insulation 7. Embankment

       8. Sump Sink 9. Drainage 10,10 '. Drain member

       11.Waterproof L. Wrinkle W. Water

The present invention, by filling a plurality of drain members in the soft ground so that the upper end is exposed, by forming a drainage layer so that the drain member on the surface of the soft ground is not exposed, and filling the water without filling the drainage layer, The present invention relates to a soft ground improvement method using water, which allows water in the soft ground to be discharged and removed by the pressure of water.

In order to build various buildings or structures such as houses, factories, roads, dikes, etc. on soft grounds such as riversides, lakes, and swamps, construction that reinforces the strength of soft grounds by discharging moisture contained in the soft ground to the ground must be preceded. Bars may be used for this purpose, but the drain members may have a variety of structures. Typical examples include plate-shaped drain boards and perforated pipes having a plurality of through holes penetrated through the inner and outer circumferential surfaces thereof.

As illustrated in FIG. 1, the drain board 1 includes a plate body 11 such that a plurality of valleys, that is, drainage grooves D, are formed along the longitudinal direction on both sides of the plate body 11 having a rectangular shape. A plurality of ribs parallel to each other from the upper end to the lower end of the) upright, the outer surface is embedded in the soil wrapped in the filter member (2) such as non-woven fabric, the drain board (1) inside the soil When buried vertically, as shown in FIG. 2, only moisture contained in the soil passes through the filtering member 2 to move to the plate body 11 side, and the moisture is formed by a capillary phenomenon. After rising along the drain groove (D) formed between 12) is discharged to the ground surface through the upper end of the drain board (1).

As shown in FIG. 3, the perforated pipe 2 is formed in a spiral wall or regularly repeated shape in the pipe wall instead of a flat straight pipe along the axial direction, and penetrates the inner and outer circumferential surfaces thereof. A plurality of through-holes (h) is used in the form of a spirally formed corrugated pipe, which is also embedded in the soft ground in a state in which the filtration member is wrapped on its outer peripheral surface.

As shown in FIG. 4, a plurality of drain members 10, such as the drain board 1 or the perforated pipe 2, are vertically embedded in the soft ground 3 so as to protrude from an upper end thereof. In the indicator, a plurality of separate drain members 10 ′ are horizontally arranged to cross each other to serve as drain pipes.

At this time, each of the drain members 10 and 10 'is wrapped in a filtration member such as a nonwoven fabric, and the drain members 10' arranged horizontally with the upper end of the vertically embedded drain member 10 may be connected to each other. And may not be connected.

After the installation of the drain members 10 and 10 'is completed as described above, the drainage layer 4 is stacked on the surface of the soft ground 3 using sand or gravel so that the drain member is not exposed to the outside. 4) to build up the soil layer (5) by stacking the soil carried from the outside on the bar, the soft soil (3) is pressed by the weight of the soil layer (5) and the moisture contained in the soft ground (3) is vertically embedded The water is collected in the drainage layer 4 along the drainage groove D or the hollow H of the drain member 10.

At this time, the water barrier layer (not shown) is installed on the interface between the drainage layer 4 and the soft ground 3 surface, so that the water discharged to the drainage layer along the vertical buried drain member 10 does not flow into the soft ground.

Then, the moisture collected in the drainage layer 4 is discharged and removed to the outside of the drainage layer 4 through the internal pores of the drainage layer 4 itself or horizontally installed drain member 10 'so that the soft ground 3 is firmly compacted. do.

As described above, the conventional method for improving soft ground using perforated pipes requires a large amount of external soil to press the soft ground, that is, to accumulate the fill layer 5, so that a large amount of soil can be brought into the soft ground. If not, there is a problem that can not be applied.

Therefore, in order to solve the disadvantage that a large amount of soil for forming a fill layer as described above, a method using water in place of the soil has been published in Korea Patent Publication No. 195689, this patent is a soft ground After installing the perforated pipes, the texol layer is stacked on the surface of the soft ground to be removed, the texol bank is stacked at the boundary, and the nonwoven layer and the waterproof skin layer are laminated on the texol layer and the surface of the texol bank. Instead of filling the water, by pressing the soft ground by the weight of the water is a method of removing moisture.

Although the above patent is a method that can be effectively used when it is difficult or difficult to obtain soil from the outside, it is less than the amount of fill layer to build a 'texol layer' and 'texol embankment' on the drainage layer, The disadvantage is that 'texol' is required.

In addition, as the moisture contained in the soft ground is removed, the soft ground inside the texol embankment sinks, but does not settle to the outer effluent drainage side facing the texol embankment, so that the water collected in the drainage layer on the soft ground surface can flow to the drainage side. There is no problem.

That is, since the position of the drainage channel is relatively higher than the sinked drainage layer, water cannot be discharged from the lower drainage layer to the high drainage side.

Therefore, as the soft ground subsides, it is difficult to discharge moisture contained in the soft ground, and eventually there is a problem that water removal can only be stopped.

In addition, when the soft ground subsides, the damage of the waterproof outer layer may increase, causing damage, such as tearing, and water in the embankment may flow into the soft ground, and it is almost impossible to accurately determine the location of the damaged part of the waterproof outer layer. There is no problem.

The present invention is to solve the problems of the conventional soft ground improvement method of removing the water contained in the soft ground by the pressure of the water filled in the dike after stacking the dike on the soft ground, texol layer or texol It does not require a specific material for dikes, etc., and it is difficult to remove moisture after soft soil subsidence, and it is impossible to eventually remove it. It is an object of the present invention to provide an improved process.

The above object of the present invention is achieved by a plurality of water collecting wells erected with the lower end embedded in the drainage layer on the soft ground surface.

In the soft ground improvement method using water of the present invention, a dike is formed at the edge of the soft ground to be water-removed, the soft ground is pressed by the weight of the water filled in the dike, and the water therein passes through the drain member. It is a technical feature to gather up a number of collection wells installed in the drainage layer after ascending upwards.

In addition, the construction method of the present invention is not only a specific material as a material for stacking a levee, but also for building a levee, as long as a levee having a suitable height can be stacked on a flat land such as various artifacts such as blocks, as well as natural products such as soil, stone, sand, and the like. The type of material is not limited, and only the drainage layer, which has been basically laminated in the past, is formed on the soft ground in the embankment.

In addition, the construction method of the present invention is to install a plurality of water collecting wells, which are pipes upright, with the lower end embedded in the drainage layer on the surface of the soft ground in the embankment, and the water collected in the drainage layer is discharged directly to the outside of the dike by a drain member or the like. It is possible to continue draining regardless of the settlement of the soft ground by collecting the water directly from the sump and collecting it into the sump in the dike.

At this time, it may vary depending on the condition of the soft ground to be dehydrated and the condition of the area to be dehydrated, but the dike is usually stacked at a height of 2 to 6 m, so that the height of the sump is not lower than that of the dike.

That is, in the construction method of the present invention as described above, the dike is built along the soft ground boundary of the dewatering object, and a plurality of water collecting wells are installed upright in the state of laying the membrane on the deductive ground inside the embankment, and the lower end of the water collecting well is purchased. The drainage layer is formed on the water-repellent film to cover the waterproofing layer on the drainage layer including the dike and the outer surface of the sump well, and the drain member vertically embedded in the soft ground and the drain member connected horizontally to the drainage layer and then connected to the sump well inside the soft ground Moisture is collected by the pressure of the water filled on the waterproof membrane in the dike into the sump through the drainage layer.

In addition, the water collected into the sump is discharged to the outside of the dike using a separate pump. Since the sump is located on the soft ground in the dike, the catch level is settled to the same depth with the soft ground. Regardless of the subsidence of the ground, the catchment pond will continue to collect moisture from the soft ground.

At this time, the water collected in the sump can be filled inside the dike outside the sump without discharging it out of the dike. Thus, in order to recycle the water of the sump, the initial height of the sump may be higher than the initial height of the dike. It is preferable.

That is, as the water filled in the dike evaporates with time, the water level is lowered, so that the pressure of the water pressing the soft ground is gradually reduced. As a result, the water discharge efficiency is lowered. It may be desirable to fill the inside of the dike outside the sump without discharging it. In this case, as the soft ground and the sump settle together as the moisture of the soft ground is removed, the top of the dike is lower than the dike. Can't fill enough water.

Therefore, in consideration of the height of the sump sinking with the soft ground, the initial height of the sump is set higher than the dike so that the height of the sump can not be lowered than the dike, so that the water collected in the sump It is possible to fill enough to the upper end of the dike inside the dike.

In addition, by recycling the water collected in the sump into the dike, it is possible to minimize or prevent the amount of water to be supplied from the outside of the dike to the dike in order to replenish the evaporated content of the water filled in the dike. The relative height of the modification can be selected appropriately according to the working conditions of the site.

That is, when the water collected in the sump is discharged to the outside of the dike, the initial height of the sump may be lower than or equal to the initial height of the dike, or when the water in the sump is recycled, Considering this, the initial height of the sump may be higher than the initial height of the dike.

Water filled in the embankment in the method of the present invention as described above is to press the soft ground, the soft ground is gradually settled while releasing the moisture inside the bar, the soft ground and the drainage layer and the waterproofing film is settled together by the waterproof membrane is stretched In case of damage, the water filled over the waterproofing membrane may enter the soft ground.

Therefore, when covering the waterproof film on the surface of the drainage layer including the bank, it is preferable that a plurality of wrinkles having valleys in the horizontal direction are formed in the waterproof film.

That is, as the soft ground subsides due to the weight of water, the waterproof membrane is also settled together, and thus the wrinkles formed on the waterproof membrane are stretched to prevent the waterproof membrane from being damaged by excessive stretching.

In addition, it is also preferable to install a drainage layer or an air intake hole tube in a horizontal direction between the drainage layer and the waterproof membrane. This is to determine whether the waterproof membrane is damaged and its position. When the air is blown through the air hole, the air blown through the damage portion is floated as air bubbles through the water filled in the embankment, so that it is possible to easily identify and repair the damage and the damage portion of the waterproof membrane.

Details of the effects and the resulting effects, including the object and technical configuration of the present invention will be clearly understood by the following description with reference to the drawings showing a preferred embodiment of the present invention.

Figure 5 shows a process block diagram for carrying out the present invention method, Figure 6 shows a schematic construction structure for the soft ground drainage to which the present invention method is applied.

As shown, the soft ground improvement method using the water of the present invention,

Vertically embedding the plurality of drain members 10 such that the upper ends thereof are exposed to the soft ground 3 to be dehydrated;

Installing a water-repellent film (6) using vinyl or the like on the surface of the deductive ground (3) so that each vertically embedded drain member (10) is exposed through;

Stacking a dike (7) along a boundary of the soft ground to be dehydrated (3);

A step (400) of vertically installing a plurality of water collecting wells (8) having a tubular structure on the water curtain film (6);

A step (500) of horizontally installing a plurality of drain members (10 ') on the water-repellent film (6) inside the bank (7) so that at least one of the ends of the both ends is coupled to the sump (8);

Forming a drainage layer 9 by laminating sand or gravel on the water repellent film so that the lower end of the water collecting wells 8, the upper end of the vertical buried drain members 10, and the horizontal buried drain members 10 ′ are not exposed. )Wow;

Covering the waterproof membrane 11 on the outer surface of the embankment 7, the drainage layer 9, and the plurality of water collecting wells 8 so as to prevent moisture from penetrating from the outside;

It consists of a sequential process such as the step (800) of filling the water (W) in the dike (7).

At this time, it is preferable to form a plurality of wrinkles (L) having a horizontal valley in the waterproof membrane 11 in order to prevent the waterproof membrane 11 from being broken when the soft ground 3 is settled. The sequential steps may be reversed according to the needs of the construction site.

In addition, in the case of the embankment (7), there is no limitation on the material for constructing the embankment such as soil, stone, sand, gravel, rock, blocks, artificial materials, and the like, as long as the material can be stacked to a certain height. do.

In addition, the water-repellent film 6 or the waterproof film 11 is constructed using a waterproof material such as vinyl, waterproof curtain paper, tarpaulin paper, or the like.

When the construction of drainage and reinforcement of the soft ground in accordance with the above-described method of the present invention, the soft ground (3) is pressed by the pressure of the water (W) filled in the bank (7) while the moisture contained in the soft ground (3) It moves upward to the drainage layer 9 along the vertical buried drain member 3, and the water collected in the drainage layer 9 is collected into the sump 8 along the horizontal buried drain member 10 ′. Water in (8) is discharged to the outside of the dike (7), or fill the inside of the dike (7) outside the sump (8).

At this time, the soft ground (3) is gradually settled as the water contained in the soft ground (3) is removed, because the catch well (8) also sinks together, the soft ground (8) continuously soft ground ( Moisture in 3) can be collected.

Of course, the sump 8, which was installed upright with the settlement of the soft ground 3, can be tilted somewhat, as shown in FIG. 7, but does not affect its function.

In addition, the drain members 10 and 10 'used in the method of the present invention can be used irrespective of their type and structure, and the drain members having different structures, for example, the vertical embedded drain member 10. It is a drain board, and the horizontal embedding drain member 10 'may be used as an oil hole tube, but an appropriate drain member may be used according to a construction environment, but an oil hole tube is preferable as the horizontal embedding drain member 10'.

In addition, unexpected damage may occur to the waterproof membrane that is settled with the settlement of the soft ground, in which case the water filled in the embankment may flow back into the soft ground. Remuneration is very important.

Therefore, when the drainage layer is formed in a stack, additionally purchases a hollow hole that is not combined with the water collecting well, or after forming the drainage layer, arranges the air intake pipe horizontally between the drainage layer and the waterproof membrane, and at one end of the drainage layer or the drainage layer. It is also preferable that the other end portion is located between the waterproof membranes and extends to the outside of the water filled in the bank.

That is, if there is damage to the waterproof membrane, when air is blown into the oil hole through the other end of the hole extending out of the water filled in the bank, the air flows into the surface of the water filled in the bank as an air bubble through the damaged part of the waterproof membrane. As it rises, it is easy to determine whether the waterproof membrane is damaged and the damaged part.

As described above, the soft ground improvement method using the water of the present invention can reduce the construction cost and shorten the construction period, because it does not require a significant amount of external carry-on soil to press the soft ground, and the specific material for building the dike Because it does not need to be installed regardless of the place, there is an advantage that can continue to remove moisture despite the settlement of the soft ground.

Claims (3)

In the soft ground improvement method of draining and removing moisture contained in the soft ground by accumulating the dike in the hard ground portion of the soft ground to be dehydrated and then filling the water into the dike so that the soft ground is pressed by the weight of the water, Vertically embedding the plurality of drain members 10 such that the upper ends thereof are exposed to the soft ground 3; Installing a water repellent membrane (6) on the surface of the deductive ground (3) so that the buried drain member (10) is exposed through; Stacking a dike 7 along a boundary of the soft ground 3; A step (400) of installing a plurality of water collecting wells (8) upright on the order film (6); A step (500) of horizontally installing a plurality of drain members (10 ') on the inner water-repellent membrane (6) of the bank (7) so that at least one of the ends of the both ends is coupled to the sump (8); Forming (600) a drainage layer (9) on the water repellent film (6) so that the lower ends of the sump wells (8) and the drain members (10) (10 ') are not exposed; Covering (700) the waterproof membrane (11) on the outer surfaces of the dike (7), the drainage layer (9), and the plurality of sump wells (9); Soft ground improvement method using water, characterized in that comprises a step (800) filling the water (W) in the dike (7). The method of claim 1, wherein the waterproof membrane 11 is formed with a plurality of wrinkles (L) having a horizontal valley. According to claim 1, wherein the drainage layer (9) or between the drainage layer (9) and the waterproof membrane (11), the air blown air pipes are additionally arranged horizontally, one end of the air blown air pipes is the drainage layer (9) Soft ground improvement method using water, characterized in that the other end is located between the inner or drainage layer (9) and the waterproof membrane (11) extends to the outside of the water (W) filled in the bank (7).

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