KR20100136027A - Dredger transferring a dredging substance using booster boat - Google Patents

Abstract

PURPOSE: A dredger transporting dredging substances using a booster boat is provided to rapidly discharge dredged waste to a remote target place by connecting the booster boat to a main dredger ship ship. CONSTITUTION: A dredger comprises a main dredger ship(3) and a booster boat(6). The main dredger ship is anchored at the designated position of reservoir or marine to carry out dredging of a target position with the set discharge pressure and discharge the dredged soil including waste through a discharge pipe to the designated position of land. Hull coupling units(2) are provided in a plurality of spots of the main dredger ship. The booster boat comprises auxiliary hull coupling units(4) which are installed in a plurality of spots to be coupled with the hull coupling units of the main dredger ship. A boost transfer pipe is connected to the discharge pipe in order to add discharge pressure to the discharge pressure of the main dredger pipe and increase the discharge distance of dredged soil.

Description

Dredger transferring a dredging substance using booster boat}

The present invention relates to a dredger transmitting a dredged water using a booster, in particular, if the dredger proceeds to a long distance and there is a limit in the discharge pressure of the transport soil pipe coupled to the body of the dredger and booster ship The present invention relates to a dredger that transfers dredged water by using a booster ship which quickly transfers dredged soil dredged by discharge pressure to a remote destination through a transport pipe.

In general, dredgers are dredging to deepen the depths of rivers, canals, ports and routes, collecting soil, sand, minerals, etc. under water, foundation construction of underwater structures, and lifting and removing sea waste. Used for work. In addition, the dredger as described above is equipped with appropriate facilities and equipment, respectively, depending on the depth of the water to be dredged, the type of soil at the bottom, the transport distance of dredged material, and the like. In addition, such dredgers are dredgers capable of self-navigating with engines, dredgers without engines and moving only by tugboats, low-draining docks that can throw away soil or sand dredged on the hull, ie, hoppers Dredgers).

In addition, the basic form of the conventional dredger as described above has the following form and features, first, the dipper dredger (dipper dredger) is to use a powerful shovel powered by the power to shovel the bottom of the water, the soil of the floor is not rock If it is formed to be dredged. Grab dredger is a grab dredger hanging from the grab bucket to the bottom of the water while grabbing the grab open to spread soil, sand, gravel, etc., is formed so as not to be limited in depth. In addition, ladder dredgers, like bottom-up escalators, move ladders down to the bottom and many chained buckets move around the ladder in caterpillar, and empty buckets descend on the back of the ladder to scrape dirt and sand from the floor. As soon as they climb up the front of the ladder and pass down the peak, they mud, sand, and gravel naturally spilled on the runway and slide into the dock to collect.

In addition, a hydraulic dredger is also called a suction dredger. A centrifugal pump pumps mud, sand, and gravel from the bottom of the water with the water and sends it to a waste place through a pipe installed on the surface of the water. Alternatively, water is discharged from a mixture of water, soil, sand, and gravel pumped up, and only solid materials such as soil, sand, and gravel are collected in a dock and disposed of in a waste place. In suction dredgers, a cutter is installed at the end of the suction port to disperse soil at the bottom of the water by the rotation of the cutter, and to be used as a suction surface of a large area.

Then, referring to an example of the conventional dredger as described above with reference to Figure 1, the propulsion engine (not shown) mounted to generate a propulsion force;

A screw (not shown) connected to the propulsion engine and operated by the driving force;

The suction pipe 72 is formed in front of the dredger 70 is provided with the suction network 71 at the end, the moving pipe 73 is formed in the left and right and rear to communicate with the suction pipe 72 inward, A ship-shaped body portion 75 formed by connecting the discharge pipe 74 to the moving pipe 73;

An cab 76 installed at the front upper portion of the body 75 to control the operation and movement of the dredger 70;

The suction pipe 71 is connected to and fixed to the front of the cab 76 and operated by the operation of the cab 76 to be used for the excavator equipped with the bucket 77. A boom control unit 80 connected to a lower portion of the boom 78;

A housing 81 installed to rotate in the front-rear direction of the body portion 75;

A rotating hydraulic cylinder (82) connected to the body portion (75) and the housing (81) to rotate the housing (81) in the front-rear direction of the body portion (75);

A spud member (83) installed at a rear of the body portion (75) of the dredger (70) in a plurality of up and down directions and lowered into water by the rotational force of the rotating hydraulic cylinder (82);

The spud member 83 is guided up and down by using the rotational force of the rotating hydraulic cylinder 82 through a wire means (not shown) installed inside the housing 81, and the spud member ( A beam guide portion 84 for receiving 83;

SPUD GETRY 85, which is fixed to the beam guide portion 84 by a fixed coupling body having an approximately 'X' shape along the outer wall and buffers the flow of the spud member 83, is configured. .

On the other hand, looking at the operation of the conventional dredger as described above, first, when the dredger 70 is moved to settle in the dredging position of the river or river, the engineer operates the internal control panel (not shown) in the cab 76 to the body portion By operating the boom 78 located on the front of the 75 is supported by the bucket 77 on the ground in front of. At the same time, the pair of rotating hydraulic cylinders 82 are operated so that the rotational force is transmitted to the spud member 83 through wire means (not shown) installed inside the housing 81. Then, the spud member 83 is lowered into the water along the inside of the beam guide portion 84 to be firmly fixed to the underwater surface.

After the fixing process, the engineer of the dredger 70 adjusts the suction net 71 of the suction pipe 72 to reach the bottom of the river first rather than the bucket 77 of the boom 78 before the boom 78. Water into the water and the internal suction centrifugal pump (not shown) and the organic-inorganic coagulant injection device (not shown), etc., the sludge and soil water through the suction network (71), suction pipe (72), moving pipe (73) Moved in order to be discharged to the bank of the river through the discharge pipe 74, and if there is a separate sludge and filthy water treatment device can be discharged to be introduced into the treatment device. In addition, when the organic-inorganic coagulant is added, the sludge is condensed in the form of a solid to be landfilled or treated using a treatment apparatus.

However, the conventional dredger as described above discharges dredged soil including dredged sludge through land pipe connected to land, so there is no big group when near-field dredging, but it is limited to discharge pressure when dredger works at a long distance. Since the dredger was able to meet the target workload by adding another dredger, the speed of dredging was considerably reduced. Also, when additional dredgers were added, the personnel or equipment rental to operate such equipment or equipment There is a significant increase in the quasi-equipment is significantly increased accordingly.

Therefore, the present invention was invented to solve the above-mentioned problems, and if necessary, the dredger is only put into the near-field dredging, as well as the combined booster ship immediately without the need for additional dredging of another dredger in the long-distance dredging. The purpose of the present invention is to provide a dredger that transfers dredged water by using a booster ship which can expand the discharge pressure and the discharge distance and can quickly discharge the dredged sludges to a remote destination through a soil pipe.

Another object of the present invention is to operate the dredger only depending on the discharge distance of the transport pipe or to combine the booster ship separately to use the booster ship that can be selectively operated according to the dredging work environment transfer dredging To provide a dredger.

The present invention as described above is dredging the target position with the discharge pressure designed by anchoring in the set position of the reservoir or the ocean and discharge the dredged soil containing the sludge (waste) to the predetermined position of the land through the soil pipe and the hull in many places of the body A main dredger provided with a coupling means;

Combined with the hull coupling means of the main dredger, the auxiliary hull coupling means provided in a plurality of the body and the booster transfer pipe to the transport soil pipe to double the other discharge pressure to the discharge pressure of the main dredger to significantly increase the discharge distance of the dredged soil Provides a dredger for transmitting dredged water using a booster ship including a booster ship.

According to the present invention, only the dredger is put into the near-field dredging as needed, and when the dredging is carried out, the discharge pressure and the discharging distance can be expanded by immediately combining the transferred booster wire without additionally adding another dredger. The sludge can be discharged to a remote destination quickly through the soil pipe, thereby maximizing the continuity of dredging.

In addition, according to the present invention, it is possible to selectively operate the dredger according to the discharge distance of the transport pipe, or to operate in combination with the booster ship separately depending on the dredging working environment, thereby significantly reducing the dredging equipment. There is also an effect that can be.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

In the present invention, the dredger is dredged in the target position with the discharge pressure designed by anchoring at the set position of the reservoir or the ocean as shown in FIG. 2, and dredged soil including the sludge (waste) to the fixed position of the land through the soil pipe (1). A main dredger 3 which is discharged and provided with a hull coupling means 2 in a plurality of places of the body;

The hull coupling means 2 of the main dredger 3, the auxiliary hull coupling means (4) provided in a plurality of the body is coupled and the booster transfer pipe (5) to the soil pipe (1) by the coupling of the main dredger (3) It comprises a booster line 6 which doubles another discharge pressure to the discharge pressure and significantly increases the discharge distance of the dredged soil.

The main dredger 3 includes a propulsion engine 7 for generating propulsion to drive the equipment installed in the body;

A suction pump unit 8 for generating a discharge pressure for suction of dredged soil by using the propulsion force of the propulsion engine unit 7;

Located in front of the main dredger (3), the suction pipe (9) is installed to the inside of the steel frame structure of the horizontal, vertical, the body 10 is flowed up and down by a wire or hydraulic cylinder Wow,

      A screw dredging member (12) positioned at the front end of the leather (10) and having a body in a screw shape so as to cope with the dredging position by the provided drive motor means (11);

     A moving tube 13 installed at one side of the body of the main dredger 3 and connected to a suction pipe 9 and a transmission pipe 1 transmitted to the outside to transfer dredged water therein;

     It is installed on one side of the main dredger (3) to combine the booster feed pipe (5) and the moving tube (13) of the booster ship 6, the body has elasticity and flexibility, the coupling means before and after 14 Booster coupling tube 15 is provided;

     It is installed on the front upper portion of the main dredger 3 and connected to the booster line 6 and the signal control line (not shown) during the operation of the main dredger 3 and the coupling of the booster line 6 to control the discharge pressure Cab (16) for long-distance transmission of dredged soil

It is configured to include a plurality of spud members 18 installed in the up and down direction at the rear of the body of the main dredger (3) is lowered into the water by the rotational force of the rotating hydraulic cylinder (17).

      In addition, the booster wire (6) is installed on one side of the body booster propulsion engine portion 21 for generating a propulsion force;

A booster suction pump unit 22 for generating a discharge pressure for suction of dredged soil by using the driving force of the booster propulsion engine unit 21;

      It is installed on one side of the booster wire (6) to connect the booster coupling pipe (15) and the booster feed pipe (5) of the main dredger (3) to connect the soil soil pipe (1), the body is flexible and flexible Booster connecting pipe 20 having a castle and the auxiliary coupling member 19 is provided before and after;

      The booster propulsion engine 21 and the booster suction pump 22 are controlled according to the operation control signals input from the signal control lines of the cab 16 of the main dredger 3 and the operation of the booster line 6 is individually controlled. It is configured to include an operation control panel 23 that can be controlled by.

       On the other hand, the main dredger 3 and the booster line 6 can be selectively operated by combining the hull or the separated through the coupling members (14, 19) provided in both hulls.

      Here, the leather 10 has a wire 24 is formed on the front side of the body, and interlocked with the crane 26 having a wire device 25 that can wind or unwind the wire 24, the leather ( 10) the body moves up and down.

Next, the operation and effects of the present invention dredger having the configuration as described above.

When the dredging operation is carried out in the ocean or reservoir using the present invention, first, the dredging capacity of the main dredger 3 is calculated, in which case the suction capacity and discharge distance of the propulsion engine and the suction pump of the main dredger 3. After calculating the back, it is determined whether the booster ship 6 is to be carried together or the main dredger 3 is operated alone.

For example, if the dredging position is a short distance of about 1 to 3 km from the land, only the main dredger 3 is operated alone. At this time, the dredging position (3) is towed by the tugboat (not shown). Settle on Then, the internal control panel 27 is operated in the cab 16 of the main dredger 3 to install, for example, a pair of rotating hydraulic cylinders 17 and wire means (not shown) installed in front of the main dredger 3. The spur member 18 is transferred to the spud member 18 and lowered into the water to be firmly fixed to the underwater surface. At the same time, the leather 10 located in front of the main dredger 3 is unwound by the wire device 25 with the wire 24 provided in the body, and lowered via the crane 26 or by the hydraulic cylinder. The control unit 10 controls the leather 10 so that the screw dredging member 12 provided on the front portion of the leather 10 abuts the dredging position.

On the other hand, when the dredging position fixing process as described above is completed, driving the propulsion engine 7 and the suction pump unit 8 to increase the discharge pressure to the set pressure and at the same time screw dredge installed on the front of the leather 10 The member 12 is also driven to cope with the dredging position currently in contact. At this time, when the screw dredging member 12 scoops up the dredging position as described above, and the sludge including the dredged soil is floating around, the suction pipe 9 located on the rear side of the screw dredging member 12 includes the dredged soil that floats. The sludge is sucked up and sucked into the inside of the main dredger (3). Then, the sludge including the dredged soil sucked up by the suction pipe (9) as described above is passed through the moving pipe 13 connected to the suction pipe (9) to the transport soil pipe (1) extending to the land long and transfer accordingly The soil pipe 1 transfers the sludge containing the sucked dredged soil to the land side and discharges the wastewater to be set in advance, for example, into a dike of a river or, if there is a separate sludge and muddy water treatment device, to be introduced into a treatment device. In addition, when the organic-inorganic coagulant is added, the sludge is solidified in the form of a solid and landfilled or treated using a treatment apparatus.

On the other hand, if the dredging work needs to be carried out at a distance far exceeding the dredging capacity of the main dredger 3 during the close dredging process as described above, the booster ship 6 to the corresponding dredging position together with the main dredger 3 from the beginning. Or later, the booster wire 6 is transferred to the position of the main dredger 3.

When the booster line 6 is coupled to the main dredger 3 as described above, the booster line 6 is moved to the side of the main dredger 3 so that the side dredgers of the main dredger 3 and the booster line 6 are moved. Release the hull coupling means 2 and the auxiliary hull coupling means 4, respectively, and then couple them together again so that the booster line 6 is dredged at the location of the sea or reservoir where the dredging position is dredged. To prevent them from falling off.

In addition, the booster connecting pipe 15 and the booster connecting pipe 20 of the booster wire 6 connected to the booster wire 6 and the moving pipe 13 of the main dredger 3 are simultaneously brought into contact with each other as described above. It is firmly coupled through each coupling member 14 and 19 provided in the body. In addition, the other end of the booster connecting pipe (20) via the booster conveying pipe (5) is coupled to the ground pipe (1) extending to the remote land by the main coupling member 28 and then the main dredger (3) The signal control lines provided in the cab () of the booster line 6 are connected to the corresponding signal control lines of the operation control panel 23 of the booster line 6 so as to be electrically connected.

      Meanwhile, when the main dredger 3 and the booster line 6 are combined as described above, a long dredging operation is executed. In this case, the main control panel 27 is operated by operating the internal control panel 27 in the cab 16 of the main dredger 3. For example, a pair of rotating hydraulic cylinders 17 and a wire means (not shown) installed on the front of the dredger 3 are transferred to the spud member 18 to lower the spud member 18 into underwater. Fasten firmly to the At the same time, the ladder 10 placed in front of the main dredger (3) to the water by using a wire or hydraulic cylinder provided in the body is dredged by the screw dredging member 12 installed on the front of the ladder 10 The leather 10 is controlled to abut the position.

      Therefore, when the main dredger 3 is fixed by the spud member 18 as described above, the booster line 6 coupled to the main dredger 3 is also firmly fixed.

On the other hand, when the dredging position fixing process as described above is completed, the internal control panel 27 is operated in the cab 16 of the main dredger 3, so that the propulsion engine unit 7 and the suction pump unit provided in the main dredger 3 ( 8) driving and simultaneously driving the booster propulsion engine 21 and the booster suction pump 22 of the booster wire 6 to the operation control panel 23 through the signal connection lines to the booster wire 6; By transmitting a signal, the booster propulsion engine part 21 and the booster suction pump part 22 of these booster wires 6 are also driven simultaneously.

Then, the internal control panel 27 is operated in the cab 16 of the main dredger 3 to increase the discharge pressure to the set pressure and also drive the screw dredging member 12 installed at the front of the leather 10. Navigate the location of the dredging contact.

At this time, when the screw dredging member 12 scoops up the dredging position as described above, and the sludge including the dredged soil is floating around, the suction pipe 9 located on the rear side of the screw dredging member 12 includes the dredged soil that floats. The sludge is sucked up and sucked into the inside of the main dredger (3). Then, the sludge containing the dredged soil sucked up by the suction pipe 9 passes through the moving pipe 13 connected to the suction pipe 9 and then via the booster coupling pipe 15 to which the moving pipe 13 is connected. After passing through the booster connecting pipe 20 and the booster conveying pipe 5 of the booster ship 6 is to be delivered to the soil pipe 1 extending to the land long.

Therefore, the soil pipe 1 transfers the sludge containing the sucked dredged soil to the land side to be discharged to a predetermined bank, for example, into a bank of rivers or, if there is a separate sludge and sewage water treatment device, to be introduced into a treatment device. Drain it. In addition, when the organic-inorganic coagulant is added, the sludge is condensed in the form of a solid to be landfilled or treated using a treatment apparatus.

Here, during the dredging process, the main dredger 3 can control the devices of the main dredger 3 and the booster vessel 6 to adjust the discharge pressure of the soil pipe 1, for example, according to the state of dredging operation Only the propulsion engine 7 and the suction pump 8 of the dredger 3 may be driven, or only the booster propulsion engine 21 and the booster suction pump 22 of the booster 6 may be driven. Alternatively, both of the equipments 7, 8, 21 and 22 may be simultaneously driven to reduce or reduce the discharge pressure.

Therefore, according to the present invention as described above, depending on the discharge distance, the main dredger and the booster can be combined appropriately dredging, and furthermore, the main dredger without the need for additional spud members or ladder equipment in the booster ship. The dredging operation can be performed in combination with, thus drastically reducing the use of dredging equipment.

      As described above, the present invention can quickly discharge the dredged sludge to a long distance because it is possible to expand the discharge distance immediately by combining booster wires without the need for additional dredging of the dredger as well as near-field dredger. Therefore, it is very useful for dredging of marine or inland reservoir.

1 is an explanatory diagram illustrating an example of a conventional dredger.

2 is an explanatory diagram schematically illustrating the structures of the present invention dredger and booster ship.

3 is an explanatory diagram illustrating a coupling state of the present invention dredger.

<Detailed Description of Codes>

1: Songto pipe 2: hull coupling means

3: main dredger 4: auxiliary hull coupling means

5: booster transfer pipe 6: booster ship

7: propulsion engine part 8: suction pump part

9: suction pipe 10: leather

11: drive motor means 12: screw dredging member

13: moving tube 14: coupling means

15: Booster Combiner 16: Cab

17: rotating hydraulic cylinder 18: spud member

19: auxiliary coupling member 20: booster connector

21: booster propulsion engine part 22: booster suction pump part

23: operation control panel 24: wire

25: wire device 26: crane

27: internal control panel 28: main coupling member

Claims (4)

Dredging the target position with the discharge pressure designed by anchoring at the set position of the reservoir or the sea and discharging the dredged soil including the sludge (disposal) to the fixed position of land through the soil pipe, and the main body equipped with hull coupling means in many places of the body. Dredgers; Combined with the hull coupling means of the main dredger, the auxiliary hull coupling means provided in a plurality of the body and the booster transfer pipe to the transport soil pipe to double the other discharge pressure to the discharge pressure of the main dredger to significantly increase the discharge distance of the dredged soil A dredger that transmits dredged water using a booster ship including a booster ship. According to claim 1, The main dredger has a propulsion engine for generating a driving force for driving the equipment installed in the body; A suction pump unit for generating a discharge pressure for suction of dredged soil by using the propulsion force of the propulsion engine unit; Located in front of the main dredger, the suction pipe is installed in the form of a horizontal, vertical steel structure, the body of which the body flows up and down by a wire or hydraulic cylinder,       A screw dredging member which is located at the front end of the leather and whose body is screw-shaped, and which dredged the dredging position by the provided drive motor means;      A moving tube installed at one side of the main dredger's body and connected to a suction pipe and a transmission pipe transmitted to the outside to transfer dredged materials therein;      A booster coupling pipe installed at one side of the main dredger to couple the booster feed pipe and the moving pipe of the booster ship, the body having elasticity and flexibility, and a coupling means provided before and after the body;      It is installed in the upper part of the main dredger in front of the operation of the main dredger and the coupling of the booster line connecting the booster line and the signal control line to control the discharge pressure of the cab to dredged the soil long distance; A dredger is installed on the rear of the main dredger in a plurality of up and down directions to transfer the dredged water using a booster wire comprising a spud member which is lowered and fixed in the water by the rotational force of the rotating hydraulic cylinder.       According to claim 1, The booster ship is installed on one side of the body booster propulsion engine for generating a propulsion force; A booster suction pump unit for generating a discharge pressure for suction of dredged soil by using the driving force of the booster propulsion engine unit;       It is installed on one side of the booster ship and the booster coupling pipe and the booster transport pipe of the main dredger are connected to each other to connect the transport earth pipe, the body has elasticity and flexibility, and the booster connection pipe is provided with the auxiliary coupling member before and after ;       Booster, characterized in that it comprises an operation control panel for controlling the booster engine and the booster suction pump in accordance with the operation control signals input from the signal control lines of the cab of the main dredger and individually control the operation of the booster line Dredgers using dredgers to transfer dredges.       The dredging vessel according to claim 1, wherein the main dredger and the booster ship can be selectively operated either by combining or separating the hulls through the coupling members provided on both hulls. Dredger to transfer water.

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