KR100962350B1 - Tube structure for land reclamation - Google Patents

Abstract

PURPOSE: A tube structure for land reclamation is provided to facilitate land reclamation by effectively using spoil accepted in the tube structure. CONSTITUTION: A tube structure(100) for land reclamation comprises a body part(101), an insertion part(110), and an outlet part(115). The insertion part injects spoil into a receiving part. The outlet unit selectively discharges water contained in the spoil, and comprises an outlet hole(131), a mesh part(131h), a lid part(132), an auxiliary lid part(134), and a locking part(133). The outlet hole passes through the body part. The mesh part discharges the water to outside, and prevents sand from being discharged. The lid part covers the outer surface of the outlet hole. The auxiliary lid part simultaneously covers the outlet hole and the lid part.

Description

Tube structure for land reclamation

The present invention relates to a structure for reclamation for reclamation projects, and more particularly, to a tube structure for reclamation projects capable of inserting dredged soil and discharging water therein.

Generally, reclamation projects are carried out by installing shores in coastal areas and reclaiming the sea between shores and shorelines.

1 is a view schematically showing a state in which a reclamation work is performed after installing a conventional revetment, FIG. 2 is a cross-sectional view illustrating a structure of a conventional revetment, and FIG. 3 is a cross-sectional view schematically illustrating a soft ground.

As shown in the figure, a raft 30 formed of multilayers 21, 22, and 23 of gravel and other soils is constructed around the shore to be reclaimed, and in some cases, a soil agent is formed between the raft 30 and the shoreline. Alternatively, the construction of the auxiliary revetment 20 is carried until the soft lower ground is stabilized while carrying a sandstone and gravel or soil by the vehicle.

In this case, in general, many materials are formed concave by forced subsidence in the soft ground, and the reclamation revetment work is carried out to construct the structure by continuously input until the settlement of the foundation structures of stones and sandstones is completed.

By the way, since the building structure of the revetment or earthenware system is to use the method of carrying the stone and sandstone or soil from the outside, there was a problem such as economy and construction time due to excessive material input.

On the other hand, recently, as shown in the accompanying Figure 4, the landfill work by pumping the dredged soil 10 provided on the bottom of the outer sea, such as the shore of the lake by using the barge 300 and the pump 330 I'm making this happen.

At this time, as shown in Figure 5, when the reclamation work proceeds from the portion adjacent to the shoreline, it is common that the reclamation method proceeds while installing the revetment from the shoreline.

However, such a reclamation work, such as reclamation method is also not easy to build the revetment itself, when there are a number of such reclamation for each block there was a problem such as excessive construction cost and construction time required.

In particular, in the case of the soft ground as shown in Figure 3, such as problems such as dirt flows along the inclined surface was not easily made landfilling and reclamation work.

The present invention has been made to solve the above-mentioned problems and disadvantages, the object of the present invention is to provide a tube structure that can be efficiently carried out reclamation projects such as landfill.

In addition, the present invention is to maximize the use effect of the dredged soil accommodated inside the tube structure when proceeding the reclamation project using the tube structure through the injection of dredged soil.

In order to achieve the above object, the present invention is an injection to enable the injection of the dredged soil in the state of mixing the soil member and water in the body portion made of a flexible (flexible) material having an inner receiving portion and the inner portion of the body portion; And a plurality of discharge units provided along the upper and lower sides of the body portion to discharge water contained in the dredged soil injected through the injection portion to the outside in the receiving portion inside the body portion according to a selected height. And the discharge unit includes a discharge hole penetrating the inside / outside of the body part, and the earth and sand member made of particles provided in the discharge hole to discharge the water to the outside. A mesh part which prevents it from being discharged to the outside, and an outer portion of the body part so as to cover the outside of the discharge hole so as to be concealed It includes a cover portion and the locking portion to close the discharge hole or the discharge hole is opened, and further comprises an auxiliary cover portion surrounding the discharge hole and the cover portion at the same time centered on the body portion When the reclamation work is performed in one direction, the reclamation work is provided to the side of the reclamation work, and the reclamation work is provided with a tube structure for reclamation work using the earth and sand member.

The locking unit may be a jack unit provided in the cover unit and the body unit along a circumference of the cover unit.

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Referring to the effect of the tube structure of the present invention configured as described above are as follows.

First, since the tube structure is installed at the position to determine the landfill area and the landfill construction work is possible by using the dredging soil around it, there is an effect that it is convenient to construct the temporary revetment for the reclamation project.
Second, by discharging the water contained in the dredged soil to the outside and to achieve a state accommodated only in the sand, such as the soil member, inside the tube structure, it is effective to increase the overall weight of the tube structure so as not to be affected by algae.

Third, by providing a plurality of discharge holes in the vertical direction along the side of the tube structure, it is possible to selectively discharge the water according to the height of the dredged soil has the effect of simplifying the operation.

Particularly, according to the present invention, after injecting only a small amount of dredged soil, the earth and sand members such as water and sand are separated, and only the water can be discharged to the outside using a discharge unit located at a height corresponding to the water present in the upper portion of the earth and sand members. Will be. After all, by repeating the above operation so that only the soil member in the tube structure as a whole, after the above-described process can be used to reclaim the earth soil member is removed as much as possible to maximize the reclamation work It is effective.

Fourth, it is possible to take a more complete sealed structure by applying a double cover structure to the outside of the discharge hole.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. In describing the present embodiment, the same designations and the same reference numerals are used for the same components, and further description thereof will be omitted.

6 is a perspective view showing a tube structure according to an embodiment of the present invention, Figure 7 is a longitudinal cross-sectional view of FIG.

Referring to FIG. 6, the tube structure 100 according to the preferred embodiment of the present invention includes a body portion 101, an injection portion 110, and a discharge unit 115 forming an appearance.

The body portion 101 has an accommodating portion 150 (refer to FIG. 7) therein and is made of a flexible material.

6 and 7 illustrate a state in which the tube structure 100 is fully opened for convenience of understanding and description, and the upper side of the tube structure 100 is located at the lower side when the inner accommodating part 150 is empty. It will come into contact.

In addition, as the material of the tube structure 100, the body portion 101, it is preferable that geotextile having excellent physical properties, mechanical properties and chemical resistance, and thermoplastic fibers making up the mainstream.

In addition, the injection unit 110 is configured in the form of a through-hole to enable the injection of the dredged soil in a state in which the soil member and the water mixed in the inner receiving portion 150 of the body portion 101, the discharge unit 115 ) Is provided in the body portion 101 serves to discharge the water contained in the dredged soil injected through the injection portion 110 to the outside.

The injection part 110 may be provided in plural along the longitudinal direction of the body part 101, and although not shown, a stopper (not shown) for opening and closing the injection part 110 may be further provided.

In addition, the separator 120 is formed between the injection part 110 and the injection part 110 in the tube structure 100 to form a plurality of internal receiving parts 150 of the tube structure 100 in an isolated state. ) May be provided.

As such, when the separator 120 is provided, dredged soil may be injected for each unit accommodating part 150 corresponding to one injection part 110.

And, the handle 170 is provided on the outer surface of the body portion 101.

The handle 170 is for moving the tube structure 100, it is configured in the form coupled to the body portion 101 along the longitudinal direction of the body portion 101.

The handle 170 may serve to be connected to a power unit such as another barge for movement.

In addition, the discharge unit 115 is provided in the discharge hole 131 and the discharge hole 131 penetrating the inside / outside of the body portion 101, the water inside the body portion 101 is discharged to the outside While enabling the soil member in the form of particles therein is provided with a mesh portion 131h that is not discharged to the outside.

In addition, the discharge unit 115 is covered with the cover portion 132 and the discharge hole 131 provided on the outside of the body portion 101 so as to cover the outside of the discharge hole 131 to conceal. It is configured to include a locking portion 133 to maintain or selectively open the discharge hole 131.

In addition, the locking part 133 may be a known general Jacque unit provided in the cover part 132 and the body part 101 along the circumference of the cover part 132.

At this time, as shown in Figure 6 and 7, it is preferable to further comprise an auxiliary cover portion 134 surrounding the discharge hole 131 and the cover portion 132 at the same time.

The auxiliary cover portion 134 is preferably to be coupled to the body portion 101 in a completely wrapped around the cover portion 132, for this purpose, the adhesive portion 135 along the circumference of the auxiliary cover portion 134 ) May be provided.

The adhesive portion 135 may be used to actually separate the adhesive liquid to allow the auxiliary cover portion 134 to be coupled to the outer surface of the body portion 101, or a known coupling member such as Velcro may be applied. will be.

Here, the cover portion 132 and the auxiliary cover portion 134 are both coupled to the outside of the body portion 101, when the actual coupling is completed when the tube structure is submerged in water is maintained in the state coupled by water pressure It may be possible to make a configuration.

On the other hand, the discharge unit 115 configured as described above is provided with a plurality in the up / down direction along the side of the body portion 101 to raise the water contained in the receiving portion 150 inside the body portion 101 According to this, the discharge to the outside is possible.

Referring to the method of proceeding the reclamation project using the present invention tube structure configured as described above are as follows.

8 is a view schematically showing a process of building a temporary draft for reclaiming the project using the tube structure of the present invention.

As shown, the tube structure 100 is stored in a rolled form on the roller 220 of the barge 200 floating in the sea or lake to be buried, and the tube structure (where 100 may be installed in such a way that the roller 210 is released as much as the required length.
In addition, unlike the barge provided with the roller through the injection unit 110 of the installed tube structure 100, the dredged soil 10 at the bottom of the water is pumped using the barge 300 prepared separately from the pump 330 and the injection pipe. Injection into the inner receiving portion 150 of the tube structure 100 by using the (310).

At this time, the dredged soil 10 pumped by the pump 330 is used dredged soil, such as sand under the water surface on the opposite side of the shore, that is, dredged soil on the side to achieve a reclamation project around the tube structure.

The reason for doing this is because the efficiency of the reclamation work can be achieved by separating water and sand using the dredged soil of the side where the reclamation project is carried out, and the detailed description will be described later.

As described above, the dredged soil is injected into the tube structure 100, and the weight of the tube structure 100 gradually increases, and when the dredged soil is injected until a weight greater than buoyancy is applied, the tube structure 100 is filled with sea. It sinks to the back of the back and can remain fixed in a certain place.

However, in general, when injected into the tube structure through the pumping of the dredged soil, the water contained in the dredged soil itself, that is, the external water is also injected together.

In this case, the dredged soil injected into the tube structure may be used for later reclamation in the landfill without inflow of separate landfill soil from the outside, and when the dredged soil inside the tube structure is used for reclamation, It is desirable to contain as little as possible.

To this end, as shown in FIG. 9, the tube structure according to the present invention first injects only a certain amount of dredged soil into the inner receiving portion 150 of the tube structure 100.

Then, when a certain time passes, the dredged soil inside the tube structure 100, as shown in the accompanying FIG. 10, the soil member having a high specific gravity such as sand (dirt) sinks down, forming a moisture In the case of water, in the case of the sea, the seawater is in the upper part of the soil member.

In this case, the discharge hole 131h corresponding to the height occupied by the water is opened so that the water inside is discharged to the outside of the body portion 101.

At this time, due to the mesh portion 131h, the earth and sand members inside the body portion are not discharged to the outside, and although not shown in detail, a device such as pumping may be used separately for the discharge of water, but in the case of the present invention, Of course, the water in the tube structure 100 can be discharged to the outside using the corresponding discharge unit without the pumping device.

After that, the outlet part 132 is closed by using the cover part 132 and the locking part 133, and then the auxiliary cover part 134 also covers the cover part 132. It is coupled to the body portion 101, so that the inner and outer sides of the tube structure is completely blocked.

And, as shown in Figure 11, after the injection of a predetermined amount of dredged soil again inside the tube structure 100, after a certain time again corresponds to the height of the water present in the water and the earth and sand member is separated By using the discharge hole 131 to drain the water inside the tube structure to the outside.

By repeating the above process many times, the inside of the tube structure can be filled with earth and sand members containing as little moisture as possible.

Here, the particle size of the mesh portion 131h may be determined and manufactured according to the earth and sand member of the region where the reclamation project is carried out, and the plurality of mesh portions 131h may be attached by a detachable method.
When the installation of the tube structure containing only the earth and sand member drained water through the above-described process is completed, the reclamation business proceeds by filling the space between the adjacent landfill and the tube structure.
That is, according to the present invention, after a small amount of dredged soil is injected to separate the water and the earth and sand member, the water is drained to the outside and the process is performed a plurality of times to determine the water content remaining in the earth and sand member injected into the tube structure. It brings the advantage of being able to minimize it.

In addition, according to the present invention, after the discharge unit is provided to the side where the buried work is performed centering on the tube structure, the work to remove the water contained in the dredged soil to the outside, and later re-embedded the earth and sand members separated from the water inside the body portion It can be used for work, thus maximizing reclamation work.

In addition, the dredged soil contained inside when moving the tube structure can be discharged directly to the landfill area without a lot of time-consuming drying work can be carried out more efficient reclamation project.

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As described above, the preferred embodiments of the present invention have been described, and the fact that the present invention can be embodied in other specific forms in addition to the above-described embodiments without departing from the spirit or scope thereof has ordinary skill in the art. It is obvious to them.

Therefore, the above-described embodiments should be regarded as illustrative rather than restrictive, and thus, the present invention is not limited to the above description and may be modified within the scope of the appended claims and their equivalents.

For example, in the city and description, but shown and described mainly in the process of reclamation work on the basis of the sea, that is, the seashore, of course, the application of the present invention can be applied to other rivers, lakes, or waterproofing.

1 is a view schematically showing a landfill operation using a coastal shore on a conventional coast;

Figure 2 is a cross-sectional view showing a simplified soft ground, Figure 4 is a cross-sectional view showing the structure of a conventional revetment;

3 is a longitudinal sectional view showing a conventional general relief structure;

4 and 5 is a view showing a landfill operation using a conventional revetment;

6 is a perspective view showing a tube structure according to an embodiment of the present invention;

7 is a cross-sectional view of FIG. 6;

8 is a view showing a process of building a temporary draft for reclamation project using the tube structure; And

9 to 11 are views sequentially illustrating a process of injecting dredged soil into the tube structure and the discharge of water according to an embodiment of the present invention.

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

10: dredged soil 100: tube structure

101: body portion 110: injection portion

115: discharge unit 120: separator

131: discharge hole 131h: mesh part

132: cover portion 133: locking portion

134: auxiliary cover 135: coupling portion

Claims (6)

A body part having an inner accommodating part and made of a flexible material, an injecting part to enable the injection of dredged soil in a state where the earth and sand member and water are mixed in the inner accommodating part of the body part and the accommodating part inside the body part; It is configured to include a plurality of discharge unit provided along the side up / down the side of the body portion to enable the discharge of the water contained in the dredged soil injected through the injection portion to the outside, The discharge unit is a discharge hole penetrating the inside / outside of the body portion, and the water contained in the discharge hole is discharged to the outside while the water contained in the body portion is discharged to the outside is not discharged to the outside of the body portion It is configured to include a mesh portion to prevent the cover, the cover portion provided on the outside of the body portion to cover the outside of the discharge hole and the locking portion to close the discharge hole or to open the discharge hole, And further comprising an auxiliary cover part surrounding the discharge hole and the cover part at the same time. When the reclamation work is performed in one direction about the body part, the discharge and the earth and sand member of the water injected into the body part are made to the reclamation work side. Tube structure for reclamation business, characterized in that the easy to use landfill. delete The method of claim 1, The locking portion, Tube structure for the reclamation business, characterized in that the jacket unit provided in the cover portion and the body portion along the circumference of the cover portion. delete delete delete

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