KR101549039B1 - Geo-tube charging system and geo-tube charging method for spoil - Google Patents

Abstract

The present invention relates to a geotube charging system and a geotube charging method for dredged soil. The geotube charging system can easily realize the creation of a water back, a hill, a shore, a jetty (sea lane), a road, and the like by conveniently ensuring fillers for a geotube from a place near a target material in areas where the supply of aggregate resources such as rubble, sand and the like is difficult. According to the present invention, a charging system for charging a geo-tube provided in a landfill which is constructed near seawater comprises: a foundation excavator; a geotube installed in a landfill near the foundation on the seawater; a transfer means for transferring dredged soil from the foundation excavator to the inside of the geotube or reclamation soil on the rear surface of the geotube so that dredged soil excavated by the foundation excavator can be used as fillers or external reclamation soil of the geotube; and a check device which is arranged in the transfer means, and checks transferred dredged soil.

Description

TECHNICAL FIELD [0001] The present invention relates to a geotube filling system and a geotube filling method for a dredged soil,

The present invention relates to a geotube filling system and a geotube filling method of dredged soil, and more particularly, to a geotube filling system which is capable of easily securing a geotube filling material in a place close to an object in an area where the supply of aggregate materials such as sandstone and sand is not smooth To a geotube filling system and a geotube filling method of dredged soil which can easily realize a composition such as a waterproofing agent, a battlefield, a revetment, a rafting agent, a jetty (route) and a road.

As an example of dredging construction, a reclamation project is carried out by installing a shore in a coastal area and reclaiming the sea between installed shore and shoreline. Recently, a method of constructing temporary reclamation using a tube structure and constructing a reclamation work or a breakwater has been suggested.

Generally, geotubes are used to dredge by dredging and then use it to form emulsions, breakwaters, cores of dunes and landfill dikes. The geot tube is formed by sewing a woven fabric so that moisture can be discharged into a tube having a predetermined length, and forming an injection port for injecting dredged soil on one side.

Meanwhile, a method of treating dredged soil using the geotube is a method in which a geotextile tube is laid on a construction site to form a radiant agent, a breakwater, a core of a sand dune, and a landfill embankment on the coast, dewatered by pumping dredged soil, The core of the sand dune and the landfill embankment.

The method of filling the geotube in order to form the emitter, breakwater, core, and landfill levee can be roughly classified into a method using a small filling line, a method using a pneumatic car pump, and a method using a hopper.

However, in this method, the method using a compact dedicated line requires the development of a separate aggregate source to collect, transport and procure the filler material, and it is only costly (non-injection time standby) There is a great possibility that the supply of data is disrupted and the construction cost is excessively generated.

Next, the construction method using the air pressure difference pump and the method using the hopper have to develop separate aggregate circles and collect and transport the filler materials. Also, the construction speed is slow, the influence of the surrounding traffic, There is a problem that the construction cost is excessively generated.

(Document 1) Korean Patent Publication No. 10-1372236 (Apr. 31, 2014) (Document 2) Korean Patent Registration No. 10-0998899 (2010. 30) (Document 3) Korean Patent Laid-Open No. 10-2009-0109688 (2009.10.21)

Accordingly, the present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to minimize the environmental impact due to the development of the aggregate source generated in the existing filling method and to solve the problem of low efficiency and high cost, And to provide a geotube filling system and a geotube filling method capable of realizing a more economical and environmentally friendly construction by solving the problem of supply of filling materials such as sandstones which gradually becomes difficult.

Specifically, the present invention secures a geotube filler material in the vicinity of a target object in an area where the supply of aggregate materials such as sandstone and sand is not smooth, And a geotube filling method capable of easily realizing the composition of the dredged soil.

The present invention has been made in view of the above problems, and it is an object of the present invention to provide an apparatus and method for controlling the same.

According to an aspect of the present invention, there is provided a filling system for filling a geotube provided in a landfill constructed near a seawater station, the filling system comprising: a paperboard excavating device; A geotube installed in a landfill near the ground surface of the seawater; Conveying means for conveying the dredged soil from the paperboard excavating device to the inside of the geotube or to the backfill of the geotube so that the dredged soil excavated by the paperboard excavating device is used as a filler of the geotube or as an outer landfill of the geotube; And a check device provided on the conveying means for checking the dredged soil to be conveyed.

Preferably, the paper ground excavating apparatus is a pump dredger, the conveying means includes a conveying pipe connected to the paperboard excavating apparatus, a branch pipe branched from the conveying pipe by a first branch pipe and a second branch pipe, And a second branch pipe connected to the first branch pipe and the other end connected to the geotube, wherein the one end is connected to the second branch pipe and the other end is connected to the rear side of the geotube And an extended backfilling conduit.

Preferably, the check device further comprises: a first branch pipe opening / closing valve and a second branch pipe opening / closing valve provided in the first branch pipe and the second branch pipe for controlling the amount of conveyed dredged soil; And check means provided in the first branch tube for checking the charged state of the filler filled in the geotube.

Preferably, the first branch pipe opening / closing valve and the second branch pipe opening / closing valve are hydraulic valves, and the checking means includes an oil pressure meter and a water pressure meter for checking the filling speed and filling amount of the dredged soil charged in the geotube do.

According to the present invention, there is provided a method of filling a filling system for filling a geotube provided in a landfill constructed near a seawater station, the method comprising the steps of: excavating a ground surface near a target object through a pump dredger; The dredged soil excavated from the pump dredging line is conveyed through a conveying pipe, and the dredged soil conveyed through the conveying pipe is branched by a "Y" Selectively transporting the dredged soil conveyed through the opening and closing valve provided in each branch pipe of the "Y " shaped branching device, delivering the dredged material to be filled with the filling material of the geotube, or delivering the dredged material to be buried on the back surface of the geotube A filling method of the geotube filling system of the dredged soil is provided.

Preferably, the method further includes checking the feeding speed of the geotube and the filling amount by checking the feeding state of the feeding dredged soil injected into the filling material of the geotube.

Preferably, the check of the filling speed and filling amount is performed by controlling the degree of opening and closing of the opening / closing valve by checking the flowmeter and the water pressure meter installed in the branch pipe for transferring the dredged soil to the geotube.

The geotube filling system and the geotube filling method of dredged soil according to the present invention provide the following effects.

First, in the present invention, the geotube filler material is easily secured in the vicinity of the object in the area where the supply of the aggregate materials such as sandstone and sand is not smooth, and the waterproofing agent, the battle field, the revetment, the tarpaulin, the jetty, There is an effect that can be formed.

Second, the present invention can save the time required for licensing and development of the aggregate source, and can speed up the operation speed of the aggregate source faster than the conventional filling method.

Third, unlike the other filling method, the present invention has the effect of reducing the construction cost because the filling of the geotube, the embedding of the outer surface of the geotube (backfilling), and the process of securing the front surface water depth are simultaneously performed.

The effects of the present invention are not limited to those mentioned above, and other solutions not mentioned may be clearly understood by those skilled in the art from the following description.

FIG. 1 is a conceptual diagram schematically showing the entire construction of a geotube filling system of dredged soil according to the present invention.
FIG. 2 is a schematic view showing a main part constituting a geotube filling system of dredged soil.

Further objects, features and advantages of the present invention will become more apparent from the following detailed description and the accompanying drawings. In the following description of the present invention with reference to the accompanying drawings, the same components are denoted by the same reference numerals regardless of the reference numerals, and redundant explanations thereof will be omitted. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

The geotube filling system and the geotube filling method of dredged soil according to the present invention can be used as a direct pump dredging line in order to improve problems of material supply, low efficiency, high cost, environmental destruction, The dredged soil is transported through a delivery pipe to refer to the data of necessary components to be installed and can be installed in parallel with the geotube filling, backfilling, and quasi-dredging operations. Can provide a safe and economical filling system and filling method.

First, a geotube filling system of a dredged soil according to the present invention will be described with reference to FIGS. 1 and 2. FIG. FIG. 1 is a conceptual diagram schematically showing the entire construction of a geotube filling system according to the present invention. FIG. 2 is a schematic view showing a main part constituting a geotube filling system of a dredged soil. A "wealth.

As shown in FIGS. 1 and 2, a geotube filling system for dredging soil according to the present invention is a filling system for filling a geotube provided in a landfill constructed near a seawater station, A ground excavation apparatus 100; A geotube 200 installed at a landfill near the ground surface of the seawater; The dredged soil excavated by the ground base excavating apparatus 100 is discharged from the ground surface excavating apparatus 100 to the geotube 200 so as to be used as a filling material of the geotube 200 and as an outer landfill (e.g., 200) and the rear surface of the geotube; And a check device provided in the conveying means 300 for checking the dredged material conveyed to be used as a filling material or a backfill.

The ground surface excavating apparatus 100 may be any apparatus or equipment capable of excavating the dredged soil while securing the depth of the ground surface in the seawater. For example, the present invention can use a pump dredger.

The geotube 200 may employ a geotube which is a general material used for the protection of the coastline and the reclamation / reclamation business. The number and the size of the geotube 200 are not particularly limited and may be selected according to the applied site design.

The conveying means 300 includes a conveying pipe 310 connected to the paperboard excavating apparatus 100; A "Y" shaped branch pipe 320 branched from the transfer pipe 310 by a first branch pipe 321 and a second branch pipe 322; One end of which is connected to the first branch tube (321) and the other end is connected to the geotube (200), and a delivery pipe (330) for the filling material, which can be made of a redusher and a high pressure hose; And one end of the delivery pipe 340 is connected to the second branch pipe 322 and the other end of the delivery pipe 340 extends to the back side of the geotube 200.

Subsequently, the checking device provided on the conveying means 300 is provided on the upstream side (upstream side with respect to the flow of the dredged soil conveyed) of the first branching pipe 321 and the second branching pipe 322, A first branch pipe opening / closing valve (410) and a second branch pipe opening / closing valve (420) for controlling the amount of conveyance of the dredged soil and opening / closing degree; And check means 430 and 440 provided in the first branch tube 321 for checking the state of charge of the filler to be filled in the geotube 200.

The first branch pipe opening / closing valve 410 and the second branch pipe opening / closing valve 420 are composed of a hydraulic valve operated by an instruction of an external controller to control the transfer amount and the opening / closing of the dredged soil to be transferred.

The check means 430 and 440 include an anemometer 430 and a water pressure meter 440 for checking the filling speed and the filling amount when the discharged dredged soil is filled as a filling material of the geotube 200. The flow meter 430 and the water pressure meter 440 may be analog or digital. In the case of a digital system, check data may be provided from a remote control panel (not shown) The degree of opening and closing of the valve 410 is controlled.

The geotube filling method of the geotube filling system of the dredged soil according to the present invention will be described.

First, the ground surface of the sea area near the object is excavated through the ground excavation apparatus 100 such as a pump dredger.

The dredged soil excavated in the ground excavating machine 100 is conveyed through the conveying pipe 310. The dredged soil to be conveyed at this time is opened when the first branch pipe opening / closing valve 410 is opened as a filling material of the geotube 200, The second branch pipe opening / closing valve 420 is closed, and the geotube 200 is filled through the discharge pipe 330 for the filling material composed of the high pressure hose and the low pressure hose. Closing rate of the second branch pipe opening / closing valve 420 is controlled by checking the filling speed and filling amount during filling through the flow meter 430 and the pressure meter 440 so that an appropriate amount is injected.

If the control of the injection pressure fails, damage to the geotube 200 may occur. Therefore, the flow rate meter 430 and the pressure gauge 440 may be checked at any time to adjust the amount of opening and closing of the second branch pipe opening / closing valve 420 . The first and second branch pipe opening / closing valves 410 and 420 are adjusted in this manner to perform the filling of the geotube 200 and the external filling of the geotube (i.e., the filling of the back surface of the geotube) using the excess dredged soil do.

When the filling operation of the geotube 200 is not performed, the first branch pipe opening / closing valve 410 is closed to increase the operating rate of the pump dredger 100, the second branch pipe opening / closing valve 420 is opened, Work (backfilling) is performed.

At this time, check the condition of the open / close valve from time to time to prevent wear of the open / close valve and clogging due to impurities during operation.

By repeating the above-mentioned method and performing the operation, it is possible to appropriately utilize the amount of margin generated during filling, and to minimize the downtime, thereby maximizing the economical efficiency.

Specifically, the geotube filling system and the geotube filling method according to the present invention use the excavated soil in the neighboring seawater so that the influence of the surrounding traffic due to the supply of the external filler to the geotube, It is an eco-friendly construction method with no environmental impact, and it is possible to secure the depth of water on the front side of the object through the front dredging by using the ground surface of nearby sea water as a filling material.

In addition, since the filling material of the geotube is smoothly supplied, there is little loss due to weather deterioration and supply shortage due to smooth supply of materials, work time is increased by day and night, and the construction period can be shortened. As the filling equipment becomes larger, the work speed is faster and less influenced by the weather.

In addition, the present invention can improve the efficiency of operation of the equipment because the backside filling work can be performed simultaneously with the injection of the geotube, the filling efficiency and the filling work can be concurrently ensured and the economical efficiency is secured. And safety can be ensured, and mechanization construction and precision construction are possible by applying an anemometer and a hydraulic system.

The geotube filling system and the geotube filling method of dredged soil according to the present invention can secure the geotube filling material at a place close to the object in a region where the supply and the supply of the aggregate sources such as sandstone and sand are not smooth, It is possible to save the time required for licensing and development of the aggregate resource, and the speed of operation is faster than that of the conventional filling method, so that the shortening of the air can be promoted Unlike the other filling method, it is advantageous to reduce the construction cost because the filling of the geotube, the backfilling, and the process of securing the front water depth are simultaneously performed.

The embodiments and the accompanying drawings described in the present specification are merely illustrative of some of the technical ideas included in the present invention. Accordingly, the embodiments disclosed herein are for the purpose of describing rather than limiting the technical spirit of the present invention, and it is apparent that the scope of the technical idea of the present invention is not limited by these embodiments. It will be understood by those of ordinary skill 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 appended claims.

100: Ground excavation equipment
200: Geotube
300: conveying means
310: transfer pipe
320: Branch engine
330: Delivery pipe for filling materials
340; Shipping pipe for backfilling
410: First branch pipe opening / closing valve
420: 2nd branch pipe opening / closing valve
430: Flowmeter
440: Water pressure meter

Claims (7)

delete delete delete delete A method of filling a filling system for filling a geotube provided in a landfill constructed near a sea water station,
Excavate the ground surface of the sea area near the object through the pump dredger;
The dredged soil excavated from the pump dredging line is conveyed through the conveyance pipe,
The dredged soil conveyed through the conveying pipe is branched by a "Y"
The dredged soil conveyed through the open / close valves provided in the respective branch pipes of the "Y" -shaped branching machine is selectively transported and delivered to be filled with the filler of the geotube, or delivered for filling the back surface of the geotube,
And controlling the injection amount of the branch pipe by controlling the opening / closing valve of any one of the branch pipes. The method of claim 5,
Further comprising checking the feeding state of the conveying dredged soil to be injected into the filling material of the geotube to check the filling speed and filling amount of the geotube. The method of claim 6,
Wherein the check of the filling speed and filling amount is carried out by checking the flowmeter and the pressure meter installed in the branch pipe for transferring the dredged soil to the geotube and adjusting the opening and closing degree of the opening and closing valve.

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