KR100835584B1 - Method for transfering after crushing dredged cohesive soils - Google Patents

Abstract

A method for transferring after crushing dredged cohesive soils is provided to smoothly suck and discharge into and unloading pump and to prevent loss of the dredged soils and sea pollution due to ground or sea dumping by performing unloading pump dumping of the cohesive soils. A method for transferring after crushing dredged cohesive soils includes a first step of loading the dredged soils on a barge by using a grab dredger(32), a second step of sailing the barge to a reclaimed land and anchoring the barge to an unloading pump ship(34), a third step of supplying seawater by a seawater supplying unit(33), and a fourth step of sucking and transferring the seawater and the dredged soils to the reclaimed land inside revetment and unloading the seawater and the dredged soils. In case that the dredged soils contain a great quantity of cohesive soils in the first step, the method further includes the steps of: primarily crushing the cohesive soils before loading the cohesive soils on the barge; and secondarily crushing and agitating the cohesive soils through water pressure by using a nozzle.

Description

Method for transfering after crushing dredged cohesive soils}

The present invention is a Grab dredger is a so-called unloading pump ship equipped with a mechanical device for loading the sediment dredged from the seabed to the toe ship to suck up the dredged soil loaded on the toe ship to the dumping pipe to the dumping site after sea transportation to the shortest distance from the landfill area It is an improvement method to improve the suction delivery ability to the viscous soil of dredged soil.

Dredging is divided into land dredging such as rivers, lakes and rivers, and marine dredging targeting the sea. Ocean dredging generally involves digging up marine soil, sand, gravel, rock, etc. in order to establish a new route or port or maintain its depth, and collect soil for reclamation projects. Dredging method is applied.

In order to construct a reclaimed land for reclamation projects, etc., to install a harbor and wharf facility or to reclaim a project, work is carried out to dump dredged sediment into the lake guide. After securing the dredged soil loaded with the dredged soil and reclaiming it using equipment such as an excavator, dump truck, crane or dumping the dredged soil loaded on the towed vessel to the dredging pump dredger at the sea near the reclaimed area The method of dumping over the rake by connecting the earth pipe was implemented. However, land transportation using the berthing facility is expensive and air, and the method of dumping again by dumping dredger after dumping at sea is the environmental problem such as marine pollution. to be. Therefore, as an alternative to this problem, an unloading pump ship developed in Japan has recently been introduced, and a method of directly sucking and delivering dredged soil loaded on a tow ship in a loaded state without dumping at sea has been in the spotlight.

In addition, the unloading pump vessel is a method of sucking and delivering dredged soil and seawater together by adding seawater to dredged soil loaded on a towboat. In the case of sandy soil (sand) and Ito, smooth suction and delivery work is performed, but viscous soil (viscosity) In the case of strong soil), even if the singer is crushed and disturbed properly, the suction and delivery work was not smooth.

The present invention has been made in order to solve the above problems, the object of the improved method to allow the viscous soil is broken and disturbed before the suction operation so that the viscous soil can be smoothly sucked, shipped to the unloading pump.

In addition, as the unloading pump dumping of viscous soils becomes possible, it is possible to work in an eco-friendly manner to prevent dredged soil loss and marine pollution caused by land dumping or double dumping by dumping that has been done for dumping. There is another purpose.

As a means for solving the above object, the present invention is to grab the dredged soil from the seabed as a grab dredger on the tow ship to suck the dredged soil loaded on the tow ship to the shortest distance from the landfill area and transported to the landfill through the pipe pipe In the unloading method

A step 1 of dredging the soil by using the Grab dredger and loading it on the toun ship;

After loading in the first step, the second step of anchoring to the unloading pump ship by operating the tow ship to the landfill target,

After anchoring in the second step and the third step of supplying seawater,

It is characterized in that it comprises a four step of unloading by transporting the seawater and dredged soil supplied in the third step to the landfill of the arc guide through the pipe pipe.

In addition, when the dredging soil in the step 1 dredging soil contains a large amount of clay soil viscous soil,

(a) prior to loading on the tow ship in step 1, attaching the blade to the inside of the bucket of the grab dredger at regular intervals, and crushing the clay soil first in the process of putting clay soil into the bucket;

(b) after the second step, further comprising the step of secondary crushing and disturbing the viscous soil by the hydraulic pressure using a nozzle.

In addition, if the agglomerated clay exists even after the step (b) and the suction of the unloading pump is not smooth,

Prior to the third step, the equipment is mounted on the ton ship to mount an excavator on the cradle, the mounted excavator is characterized in that it further comprises the step of the third crushing operation and disturbance is provided with a bucket for crushing clay .

According to the present invention, when the unloading pump was developed in Japan, it was developed to suction and deliver sandy soil (sand) and Ito. However, in the dredged soil in Korea, viscous soils with high viscosity are widely distributed. In parallel, the suction and delivery of viscous soil, which was not possible to work with the unloading pump, is smooth, which shortens the air and reduces the cost.

In addition, as the unloading pump dumping of the viscous soil becomes possible, there is an environmentally friendly effect that can prevent dredged soil loss and marine pollution caused by land dumping or double dumping by dumping, which has been done for dumping. have.

Hereinafter, with reference to the accompanying drawings to describe the present invention in detail.

1 is a schematic diagram of a dredged soil transport method according to the present invention, Figure 2 is a view remodeling the bucket of the grab dredger according to the present invention.

In the dredging process, if the dredged soil contains a large amount of clay soil viscous soil 31, the shell 44 of the grab dredger bucket (not shown in Fig. 1) to improve the suction and delivery capacity of the unloading pump ship 34. Attaching the blade 46 (not shown in FIG. 1) at regular intervals therein, and primary shredding so that the clay soil 31 is separated in the process of placing the clay soil viscous soil 31 in the shell 44, After loading and running the tow ship and anchoring it to the unloading pump ship 34, the cradle is produced in the tow ship when agglomerated viscous soil exists even after secondary crushing and disturbance with an improved nozzle (water jet) (in FIG. 1). Not shown.) Mounted with an excavator 32 to disrupt the viscous soil after the third crushing, and then supply seawater through the seawater supply member 33 to suck the dredged soil and deliver it through the pipe 35. Is shown.

That is, since the earth and sand loaded on the towboat by the dredger is almost no seawater, in order to increase the suction power of the unloading pump, it is necessary to supply the seawater through the seawater supply member 33. However, even if the seawater is supplied, since the viscous soil 31 is not disturbed by the seawater supply alone, the viscous soil 31 is first crushed by a dredger bucket modified in the dredging process before inhalation, loaded on the towboat, and the tow ship is operated. If the suction and delivery are not smooth even after anchoring to the unloading pump line 34 and secondary crushing and disturbance with the improved nozzle (water jet), the third crushing using the modified excavator 32 and the seawater When the seawater is supplied through the supply member 33, the viscous soil 31 is sucked in a sufficiently disturbed state.

In addition, in the bucket of the grab dredger as shown in FIG. 2, the pulley upper support 41 is connected to the shell 44 containing the dredged soil by the support 43 and vertical movement by the wire rope 42 When the pulley lower support is raised by the pulley lower support 45, the shell 44 is closed, and when the pulley lower support 45 is lowered, the shell 44 is dredged.

At this time, when the dredged soil is agglomerated into the clay soil viscous soil during the dredging process, the blade (46) at regular intervals in the shell (44) of the grab dredger bucket to improve the suction and delivery capacity of the unloading pump ship 34 (46) A) and attaches the clay soil viscous soil 31 to the shell 44 so that the clay soil 31 is separated from the bulk soil in the process of loading on the ton ship.

3 is a view showing the equipment holder of the tow ship according to the present invention.

In the equipment holder installed on the ton ship carrying the soil dredged by the dredger, in order to facilitate the movement of the holder (1) after installing a rail (not shown) on the bottom surface of the tow ship, both sides of the holder (1) A bearing roller (not shown) is attached to a lower end surface so that the bearing roller (not shown) can be easily moved on the rail (not shown) to perform work, and one side surface of the holder 1 in the longitudinal center of the longitudinal direction is provided. And tow hook pins (7) on the other side and has the ease to move to another touneon line, and in the width direction of the cradle (1) fixed pin ring (5) to the upper and lower respectively Secure to the tow line.

On one surface of the cradle (1) is a reinforcing brace (4) formed of a plurality of H-beams (H-BEAM) installed in the hollow portion of the plate-shaped cradle (1) having an inner surface to distribute the load of the mounted excavator In order to prevent the track (8) of the excavator to separate the track departure prevention rods (6) formed at each corner of the cradle (1) to prevent the fall of the excavator when the excavator has left the track (8) By installing the fall prevention plate 9 is characterized in that the excavator is manufactured to work safely.

4 is a view remodeling the clay crushing bucket of the excavator according to the present invention.

In the bucket connected to the cylinder,

The upper end of the body 26 of the bucket 21 connected to the cylinder 25,

A lower body 22 connected below the upper body;

A plurality of blades (24) installed at regular intervals by being installed in the same length direction as the bottom of the body and connected to the top of the body;

A blade support rod 23 connecting the lower end of the body and the plurality of blades so as to support the plurality of blades;

The blade support shaft is characterized in that it consists of a blade support shaft 27 for connecting and supporting one end of the lower end of the body.

That is, since the conventional clay bucket is not able to effectively crush viscous soil, it is characterized in that the bucket 21 of the excavator 32 is modified to facilitate tertiary crushing of the viscous soil 31.

5 is a view of a modified nozzle according to the present invention.

The change nozzle 51 and the seawater supply member 33 are illustrated to pressurize the water pressure of one of the two seawater supply members for secondary crushing and disturbance of the viscous soil 31.

That is, the viscous soil 31 is disturbed with seawater so that the suction force of the unloading pump can be increased to change the nozzle of the existing 190mm to 150mm in the portion where the seawater is discharged to make the strength of the hydraulic pressure stronger than the conventional viscous soil (31). ) Is characterized by easy soil grinding.

6 is a flow chart of a dredged soil transport method according to the present invention.

1 to 5 as described in the suction, delivery capacity improvement method for the viscous soil of the unloading pump ship according to an embodiment of the present invention,

A step 1 of dredging the soil by using the Grab dredger and loading it on the toun ship;

After loading in the first step, the second step of anchoring to the unloading pump ship by operating the tow ship to the landfill target,

After anchoring in the second step and the third step of supplying seawater,

Including the seawater and dredged soil supplied in the above step 3 to transfer the unloading to the landfill of the arc guide through the pipe pipe.

In addition, when the dredging soil in the step 1 dredging soil contains a large amount of clay soil viscous soil,

(a) prior to loading on the tow ship in step 1, attaching the blades to the inside of the bucket of the grab dredger at regular intervals, and primary shredding of viscous soil in the process of putting clay soil into the bucket;

(b) after the second step, further comprising the step of secondary crushing and disturbing the viscous soil by the hydraulic pressure using a nozzle.

In addition, if the agglomerated clay exists even after the step (b) and the suction of the unloading pump is not smooth,

Prior to the third step, the equipment is mounted on the ton ship to mount an excavator on the cradle, the mounted excavator is characterized in that it further comprises the step of the third crushing operation and disturbance is provided with a bucket for crushing clay .

As described above, preferred embodiments according to the present invention have been described, but the present invention is not limited to the above-described embodiments, and the present invention is not limited to the scope of the present invention as claimed in the following claims. Anyone with knowledge of the present invention will have the technical spirit of the present invention to the extent that various modifications can be made.

1 is a schematic diagram of a transport method after crushing dredged clay soil according to the present invention.

2 is a view of a modified grab dredger bucket according to the present invention.

3 is a view showing the equipment holder of the tow ship according to the present invention.

Figure 4 is a view remodeling the clay crushing bucket of the excavator according to the present invention.

5 is a modified view of the nozzle according to the present invention;

Figure 6 is a flow chart of the transfer method after crushing dredged clay soil according to the present invention.

** Main Names of Drawings **

31: cohesive soil 32: excavator

33: seawater supply member 34: unloading pump ship

35: officer

Claims (3)

In the unloading method in which the soil dredged from the seabed by the Grab dredger is loaded on the towing ship, the sea transport is transported to the shortest distance from the landfill area, and then the dredged soil loaded on the towing ship is sucked and transferred to the landfill through the pipe. A step 1 of dredging the soil by using the grab dredger to load on the toun ship; Driving the tow line to the landfill site after loading in the first step and anchoring the unloading pump ship; 3 step of supplying seawater after anchoring in step 2; And sucking and unloading the seawater and dredged soil supplied in the third step to the landfill of the arc guide through the pipe pipe; In the dredging process of step 1, when the dredged soil contains a large amount of clay soil viscous soil, (a) prior to loading on the tow ship in step 1, attaching the blades to the inside of the bucket of the grab dredger at regular intervals, and primary shredding of viscous soil in the process of putting clay soil into the bucket; (b) after the second step, the second crushing operation and disturbance of the viscous soil by the hydraulic pressure using a nozzle; further comprising a method of crushed dredged soil after the transfer. delete The method of claim 1, If the agglomerated clay exists after the step (b) and the suction of the unloading pump is not smooth, Before the step 3, the equipment is mounted on the ton ship to mount the excavator on the cradle, the mounted excavator is provided with a bucket for crushing clay, the third step of crushing and disturbing; further comprising a; Transfer method after crushing dredged clay.

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