KR101525107B1 - Method of preventing coastal erosion using the tube structure - Google Patents

Abstract

The present invention seeks to provide a coastal erosion prevention method that can be efficiently applied to shores where erosion is likely to occur. To this end, the present invention provides a method of constructing a tubular structure having a body portion made of a hollow and flexible material and a plurality of injection portions for injecting water or soil into the body portion, A step of injecting water into the tubular structure to temporarily fix the top of the tubular structure to the top of the topography, and a step of providing an auxiliary injection mechanism formed in the injection unit to facilitate injection of a high-boiling substance, Injecting a high-boiling substance into the tube structure through its own weight, inserting a separately provided pipe into the tube structure through the injection unit, and injecting the high-boiling substance into the tube structure using the pipe, Further comprising supplying a fluid at a high pressure in a direction different from the injection direction, Wherein the tubular structure is provided with an injection hole through which fluid is injected in two or more directions intersecting with the longitudinal direction of the pipe, the fluid being injected through the respective injection holes. Provides a coastal erosion prevention method using.

Description

[0001] The present invention relates to a method of preventing coastal erosion using a tube structure,

The present invention relates to a coastal erosion preventing method, and more particularly, to a coastal erosion preventing method using a tube structure.

Recently, a variety of methods have been developed and applied to prevent coastal erosion or reclamation around the coast by applying a tube structure.

Hereinafter, a description will be given of a description of a coast erosion or reclamation method using a conventional tube structure.

Typically, in the prior art, as shown in Japanese Patent Application No. 10-0778321 or Japanese Patent Application Laid-Open No. 11-256553, after a tube structure is installed on the shore, dredged soil or seawater is injected to fix the tube structure So that erosion or reclamation work around the coast can be achieved.

However, dredged soil is required to be supplied from the outside of the sea. However, as shown in FIG. 1, dredged soil can be pumped into the marine so as to inject dredged soil into the inside of the tube structure 10. [ The ship 30 having the pumping device 32 having the pumping device 32 installed therein must be installed separately. However, the cost of using dredged pumped vessels was considerable, and most of the major works were carried out in the ocean, requiring many skilled workers, as well as problems in the work itself.

On the other hand, in the case where the dredged soil is injected into the inside of the tube structure through the above-mentioned operation, a lot of seawater is mixed with the tube structure, so that the total weight of the tube structure is not sufficient,

Accordingly, recently, dredged soil is injected and the predetermined time is elapsed until the soil and water are separated. Then, the separated water is taken out repeatedly, so that only the soil having a specific gravity higher than water is injected, However, in this case, a considerable amount of time is required to separate the water and the soil, and it is necessary to repeatedly perform the water and the soil so that the work is troublesome and the working time is delayed.

Therefore, it was necessary to develop a coastal erosion prevention method which can reduce the cost and maintain a stable installation form while allowing a fast operation speed.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems and drawbacks of the prior art, and an object of the present invention is as follows.

First, it is an object of the present invention to enable the installation of the tube structure and the filling of the internal high-boiling material to be performed on the topography side outside the shore.

Second, the object of the present invention is to provide a coastal erosion prevention method capable of performing an internal filling operation of a tube structure by a simple operation in a short time.

In order to accomplish the above object, the present invention provides a tubular structure having a body portion made of a hollow and flexible material and a plurality of injection portions for injecting water or gravel into the body portion, A step of injecting water into the tubular structure and temporarily fixing the tubular structure on the upper side of the topography, and a step of providing an auxiliary injection mechanism formed in the injection part to facilitate injection of a high-boiling substance, Injecting a high-boiling substance into the tube structure by injecting the inert gas into the tube structure by self weight; inserting a separately provided pipe into the tube structure through the injection unit; And supplying the fluid at a high pressure in a direction different from the direction of injection of the high-boiling substance And one end of the pipe inserted into the tube structure is provided with an injection hole through which the fluid is injected in two or more directions intersecting with the longitudinal direction of the pipe so that the fluid is injected through the respective injection holes The present invention provides a coastal erosion prevention method using a tubular structure.

delete

delete

delete

The effect of the coast erosion prevention method using the tube structure of the present invention constructed as above will be described as follows.

First, according to the present invention, water is injected to temporarily fix the tubular structure, and at the same time, the tubular structure is in an expanded state. Accordingly, it is possible to provide a state in which it is temporarily fixed to the shore, and the injection of high-boiling matter is easily performed. Particularly, since the work is performed on the ground in the expanded state, it is easy to install the equipment for the movement and the work of the worker.

Secondly, according to the present invention, it is possible to smoothly discharge water to the outside of the tube structure by providing a high-pressure fluid at various times when injecting a high-boiling substance.

Third, the present invention enables the above-described work to be performed on the outer terrain of the coast, so that it is not only easy to apply general facilities, but also can advantageously improve the work environment of the worker. In addition, the cost required for the work can be greatly reduced.

FIG. 1 schematically shows a state where a tube structure is installed in a coastal area where erosion can easily occur; FIG.
2 is a perspective view showing a tube structure applied to the coastal erosion prevention method according to the present invention;
3 is a view showing a state where water is injected by connecting an injection hose to a tube structure according to the present invention;
FIGS. 4 and 5 are a perspective view and a side view showing a state in which an auxiliary injection mechanism is installed in a tube structure according to the present invention; FIG.
FIG. 6 is a view illustrating a device connected to a tube structure according to the present invention; FIG.
FIG. 7 is a view showing a state in which gaseous material, which is a high-boiling substance, is injected and water injected through the water is discharged to the outside;
8 is a view showing a state in which the periphery of the injection part is closed during injection of the high-boiling substance;
9 is a view showing a state in which the soil inside the tube structure is moved through injection of a high-pressure fluid;
10 is a flowchart showing a coastal erosion prevention method according to the present invention; And
11 and 12 are views showing another type of pipe for injecting fluid into the tube structure according to the present invention.

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.

In the accompanying drawings, FIG. 2 is a perspective view showing a tube structure applied to the coastal erosion prevention method according to the present invention.

Referring to the drawings, a tube structure 100 for coastal erosion prevention according to the present invention includes a body 110 formed of a hollow and flexible material, And an injection unit 120 for injecting the gas. In FIG. 2, the tube structure 100 is completely opened for the sake of understanding and explanation. When the interior of the tube structure 100 is empty, the upper side of the tube structure 100 is in contact with the lower side to form a folded shape. In addition, the tube structure 100 has a considerable length, but is shown in FIG. 4 as having only a partial length.

As a material of the body 110 constituting the tube structure 100, a geotextile having excellent physical properties, mechanical properties and chemical resistance, and thermoplastic fibers being mainstream is preferably used.

A plurality of the injection units 120 are provided along the longitudinal direction of the body 110. In FIG. 4, a stopper for closing the injection unit 120 is installed.

The coastal erosion prevention method using the tube structure constructed as above will be described as follows.

FIGS. 3 to 9 are views sequentially illustrating the coast erosion prevention method using the tube structure of the present invention, and FIG. 10 is a flowchart of the coast erosion prevention method using the tube structure of the present invention.

First, after a basic cleaning operation for installing a tube structure on a coast where erosion is likely to occur, the tubular structure 100 is installed on the cleaned shore (S10).

3, water is injected into the tube structure 100 using the injection hose 130 (S20). In this case, the injected water may be supplied from the ground or may be injected with seawater.

As described above, as the water is injected, the weight of the tube structure is increased, so that it is maintained in a state in which it is not suspended in water, that is, temporarily fixed to the shore. In addition, the tube structure 100 is in an expanded state.

Next, as shown in FIGS. 4 and 5, an auxiliary injection mechanism 300 having a funnel shape is installed in the injection part 120 of the tube structure 100.

6, a connecting member 550 for connecting the remicon apparatus 500 and the auxiliary injection mechanism 300 to the topography outside the shore is installed, and then the auxiliary injection mechanism 300 (Hereinafter also referred to as "high-boiling substance") is injected into the tube structure 100 (S30). At this time, it is preferable that the material to be injected has a specific gravity of 2.5 or more. Also, since the porosity is small, water injected into the tube structure 100 when the high-boiling substance is injected into the tube structure 100, It is preferable to smoothly discharge it to the outside of the unit 110.

That is, when a material having a specific gravity higher than that of water is injected into the tube structure 100 by using its own weight, the high-boiling material is directly submerged to the inside of the tube structure 100. When the inner space of the tube structure 100 is continuously saturated with the high-boiling substance and the water, the water located on the upper side of the tube structure 100 is injected through the injection unit 120 into the tube structure 100 As shown in Fig.

At this time, the higher the specific gravity of the material to be injected and the smaller the porosity of the injected material, the faster the injected water can be discharged to the outside of the tube structure. As the high-boiling material, various types of soil materials are generally applied. If there is a white sandy beach, it can be easily applied in the field. Since the specific gravity is 2.5 or more, sand of the white sandy beach may be used immediately.

It is preferable to inject the high boiling substance while moving the auxiliary injection mechanism 300, that is, changing the position of the injection unit 120. [

As described above, when the high-boiling substance is injected enough to fill the inside of the tube structure, the entire weight of the tube structure has a specific gravity more than two times that of water even if water is partially contained therein. That is, even if water occupies about 20% of the internal space at the time of injecting a material having a specific gravity of 2.5 or more, it can be made to have a specific gravity twice as large as the whole.

Accordingly, according to the coastal erosion prevention method using the tube structure according to the present invention, it is possible to withstand stronger waves and tidal currents as compared with the past.

Meanwhile, as shown in FIG. 8, since the high-boiling substance is injected by its own weight, a material injected from the lower part of the injection unit 120 to be injected may be clogged. In such a case, it is not possible to inject the high-boiling substance, and even if the high-boiling substance is injected, water may not be discharged to the adjacent injection section.

Accordingly, as shown in FIG. 9, the present invention further includes a step of supplying fluid at a high pressure using the water supply pipe 320 (S40).

That is, it is possible to prevent water from accumulating in the tubular structure 100, thereby allowing water to flow smoothly through the upper portion of the space inside the tubular structure. On the other hand, various kinds of high-pressure fluid supplied at this time may be used such as water or air.

In addition, the step of supplying the fluid at the high pressure may proceed in parallel or simultaneously with the step of injecting the high-boiling substance. In addition, it is preferable that the supply of the fluid is supplied in a direction staggered with respect to the gravity direction, which is the direction of providing the high-boiling substance.

The injection of high-boiling matter, the discharge of water, and the supply of high-pressure fluid are repeatedly performed until the inside of the tube structure 100 occupies a certain space with high-boiling matter (S50).

As described above, according to the present invention, water is injected to temporarily fix the tubular structure, and at the same time, the tubular structure is in an expanded state.

Accordingly, it is possible to provide a state in which it is temporarily fixed to the shore, and the injection of high-boiling matter is easily performed. Particularly, since the work progresses in the expanded state, it becomes easy to install the equipment for the movement and the work of the worker. In addition, it is possible to smoothly discharge water to the outside of the tube structure by providing a high-pressure fluid from time to time when injecting a high-boiling substance.

11 and 12 are views showing another type of pipe for injecting fluid into the tube structure according to the present invention.

As shown in FIG. 11, one end of the pipe 120 inserted into the tube structure 100 is provided with an injection hole 122 through which fluid is injected in two or more directions, To be injected in two or more directions.

In this case, the fluid can be injected in various directions, thereby preventing sand clogging more efficiently.

12, a stopper 170 having two or more injection holes 177 may be provided at one end of the pipe 120. In this case,

It will be apparent to those skilled in the art that the present invention can be embodied in other specific forms without departing from the spirit or scope of the invention as defined in the appended claims. It is obvious to them.

Therefore, the above-described embodiments are to be considered as illustrative rather than restrictive, and the present invention is not limited to the above description, but may be modified within the scope of the appended claims and equivalents thereof.

100: tube structure 110:
120: injection part 130: injection hose
300: auxiliary injection mechanism 320: water supply pipe

Claims (4)

Providing a tubular structure having a body portion made of a flexible and hollow material and a plurality of injection portions for allowing water or soil to be injected into the body portion in close proximity to the shore; The method comprising the steps of injecting water into the top of the topography and fixing the top of the topography, providing an auxiliary injection mechanism formed in the injection section to facilitate injection of high-boiling matter, Inserting a high-boiling material into the structure body by its own weight; inserting a separately provided pipe into the tube structure through the injection unit; and using the pipe in a direction different from the injection direction of the high- Further comprising supplying a fluid at a high pressure,
Wherein one end of the pipe inserted into the tube structure is provided with an injection hole through which the fluid is injected in two or more directions intersecting with the longitudinal direction of the pipe so that the fluid is injected through the respective injection holes Coastal erosion prevention method using tube structure. delete delete delete

Images