JP5309747B2 - Carrier ship - Google Patents

Description

  The present invention relates to a transport ship that loads and transports dredged soil dredged from the bottom of the water.

  In general dams, dredging work for discharging mud, earth and sand accumulated at the bottom of the dam is appropriately implemented. The sand material contained in the dredged soil is classified and reused as construction material.

As a method for classifying and collecting sand material from dredged soil, for example, Patent Document 1 discloses a method of classifying dredged soil by providing a classification facility on land. In this method, the dredged soil dredged from the bottom of the dam is first loaded onto a transport ship, loaded into a sand basin on the land, and then ground classification equipment provided adjacent to the sand basin. While dewatering dredged soil, classify and collect sand.
JP 2002-143894 A

However, the above-described method for collecting sand materials has a problem that enormous capital investment costs are required because the sand basin and the classification facility are constructed on land.
In addition, since the dredged material is transported to the land and then classified, there is a problem that it takes time to complete the classification.
Therefore, the present invention has been made in view of the above problems, and an object of the present invention is to provide a transport ship that can be classified while transporting dredged soil with inexpensive equipment.

In order to achieve the above object, the transport ship of the present invention is a transport ship that transports dredged soil dredged from the bottom of a dam reservoir, and the soil contained in the dredged soil is naturally submerged while flowing the dredged soil. The storage tank for storing the classified earth and sand is classified, and the storage tank has a storage tank body for storing the clay, and a flow path for flowing the clay into the storage tank body. And a partition water that forms sediment on the downstream side of the flow path and the sediment that has not settled while passing through the flow path, or the supernatant water after the sediment has naturally settled while passing through the flow path The partition is detachable from the storage tank body, and a plurality of the storage tanks are provided so as to be arranged in a plane, and are removable from the transport ship. Layer is said Characterized in that it is connected in series with respect to the flow direction of 渫土.

According to the transport ship according to the present invention, since the storage tank capable of classifying the clay is provided, the clay can be classified in the transport ship. And since classification can be performed in a transport ship, it is not necessary to construct large-scale facilities such as a sand basin and classification facilities on land.
Moreover, since a natural sedimentation system is used for classification, classification equipment can be constructed at low cost.
Furthermore, since classification is performed while carrying the clay, the time until classification is completed can be shortened.

Moreover, since a plurality of storage tanks are provided, when one storage tank is filled with dredged soil, other storage tanks can be used. In addition, since the storage tank can be attached to and detached from the transport ship, it is possible to remove the full storage tank and attach an empty storage tank. Therefore, when one storage tank is full, the classification can be continued using the other storage tanks, while the full storage tank can be removed and a new empty storage tank can be attached. Then, as soon as the other storage tanks are full, the empty storage tanks are used so that the dredging operation can be performed continuously without interruption.

  In the conventional case of carrying work on a carrier ship equipped with only one storage tank, there is no carrier ship for loading dredged material while carrying dredged material to land, so dredging work must be interrupted. Since the transport ship according to the present invention includes a plurality of storage tanks, the dredging work can be performed continuously without interruption, so that the dredging work can be performed efficiently.

Further, by providing a partition in the storage tank body, it is possible to form a dredged soil flow path and to allow the dredged soil to flow at a low speed, so that the sediment contained in the dredged soil can be naturally settled. .
Furthermore, since the discharge port is provided on the downstream side of the flow path, the sediment that has not settled while passing through the flow path, or the supernatant water after the sediment has naturally settled can be discharged out of the storage tank.

Moreover, since the partition is detachable from the storage tank body, the flow rate of the clay passing through the flow path becomes a predetermined value determined in advance by design etc. according to the amount of dredging per hour, the particle size distribution of the clay, etc. The installation position and installation interval of the partition can be adjusted.

  According to the carrier ship of the present invention, dredged soil can be classified with inexpensive equipment. Moreover, since classification is carried out while transporting the clay, the time until classification is completed can be shortened.

  Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

FIG. 1 is an overall schematic diagram showing a dredging system 2 using a transport ship 1 according to a first embodiment of the present invention.
As shown in FIG. 1, the dredging system 2 for dredging sediment deposited on the bottom 4 of the dam 3 is movable on the water and excavates the pedestal 5 serving as a scaffold for work and the bottom sediment. The dredge excavator 6 to be used, the traveling means 7 for moving the excavator 6 for dredging and moving on the barge 5 so that the excavator 6 for dredging can excavate a predetermined position, and the excavator 6 for dredging It is comprised from the transport ship 1 for transporting the sediment excavated by (3) to the ground.

The dredge excavator 6 is connected to a wire rope 8 of a lifting machine that is a traveling means 7, and can be moved in the vertical direction by winding and unwinding the wire rope 8. Further, it can be moved in the horizontal direction by movement by a lifting machine or expansion and contraction of the telescopic boom 9.
The clay excavated by the dredge excavator 6 and dredged on the carriage 5 is fed into the storage tank 11 in the transport ship 1 through the mud pipe 10 connected to the transport ship 1.

FIG. 2 is a plan view showing the transport ship 1 according to this embodiment, and FIG. 3 is a cross-sectional view taken along the line AA in FIG.
As shown in FIGS. 2 and 3, the transport ship 1 includes a storage tank 11 for storing dredged soil. The storage tank 11 includes a storage tank main body 11 a, a partition 12 that forms a flow path 13 for allowing the clay to flow inside the storage tank main body 11 a, and a clay that contains earth and sand that has not settled while passing through the flow path 13. Alternatively, the supernatant water after the sediment has naturally settled while passing through the flow path 13 (hereinafter referred to as dredged soil containing sediment that has not settled while passing through the flow path 13 or the natural sediment while passing through the flow path 13 is natural. The one containing the supernatant water after settling is called a clay after classification.) A discharge port 11b for discharging, and a post-classification provided in the discharge port 11b and discharged from the discharge port 11b. A flow rate adjusting valve 14 for adjusting the flow rate of the clay and a flow meter 15 for measuring the flow rate of the clay passing through the flow path 13 are provided.

  The dredged soil fed to the transport ship 1 through the mud pipe 10 is put into the stern side end portion 16 of the storage tank 11 and then flows to the bow side along the flow path 13 formed by the partition 12. At this time, the flow rate of the dredged soil flowing in the storage tank 11 is adjusted by opening and closing the flow rate adjusting valve 14 so as to be a predetermined value determined in advance by design or the like, and the difference in sedimentation speed of sediments having different particle sizes is used. Sediment contained in dredged soil is classified by natural sedimentation method. The flow velocity of the clay flowing in the storage tank 11 is adjusted by opening and closing the flow rate adjusting valve 14 while measuring the flow velocity of the clay with the anemometer 15.

  Specifically, when the flow velocity of the clay flowing in the storage tank 11 is high, the flow rate adjusting valve 14 is throttled to reduce the flow rate of the clay after classification to be discharged to the outside of the storage tank 11 and flow in the storage tank 11. The dredged soil flow rate is adjusted to a predetermined value. On the other hand, when the flow rate of the clay flowing in the storage tank 11 is slow, the flow rate adjusting valve 14 is opened to increase the flow rate of the classified clay discharged outside the storage tank 11, and the clay flowing in the storage tank 11. The flow rate of the is adjusted to a predetermined value.

Of the earth and sand contained in the dredged soil, those having a large particle size sink in the vicinity of the stern side 17, and those having a small particle size sink in the vicinity of the bow side 18. Then, the classified clay is discharged to the dam 3 from the discharge port 11b.
Since the discharge port 11b is provided in the upper part of the storage tank main body 11a, the earth and sand which settled in the storage tank 11 do not flow out.

  4 is a cross-sectional view taken along line BB in FIG. As shown in FIG. 4, the partition 12 includes a plate-like partition plate 12a, a protrusion 12b that is attached to the lower surface of the partition plate 12a, and can be inserted into and removed from the hole 19 provided in the bottom plate 11c of the storage tank body 11a. And is detachable from the bottom plate 11c of the storage tank body 11a.

  A plurality of holes 19 are regularly provided in the bottom plate 11c of the storage tank body 11a at a predetermined interval. For this reason, the flow path 13 can be narrowed or widened by changing the installation position and the installation interval of the partition 12. The installation position and the installation interval of the partition 12 are appropriately adjusted according to the amount of dredging per hour and the particle size distribution of the earth and sand contained in the dredged soil.

  For example, when the amount of dredging per hour is large, the interval between the partitions 12 is increased in order to cause a large amount of dredged material to flow. On the other hand, when the amount of drought per hour is small, the installation interval of the partitions 12 is narrowed.

  In addition, when the dredged material contains a large amount of soil with a small particle size, the interval between the partitions 12 is increased in order to cause the dredged material to flow at a low speed. On the other hand, when the dredged soil contains a large amount of earth and sand having a large particle size, the interval between the partitions 12 is narrowed.

  In the present embodiment, as shown in FIG. 2, the partition 12 is installed so as to be orthogonal to the longitudinal direction of the transport ship 1, but the present invention is not limited to this, and as shown in FIG. 5, You may install so that it may become parallel to a longitudinal direction.

  According to the transport ship 1 in the present embodiment described above, the storage tank 11 capable of classifying dredged soil is provided, so that dredged soil can be classified in the transport ship 1. And since classification can be performed in the transport ship 1, it is not necessary to construct large-scale equipment such as a sand basin and classification equipment on land. And since classification uses a natural sedimentation system, classification equipment can be constructed at low cost.

Further, since the discharge port 11 b is provided on the downstream side of the flow path 13, the classified clay can be discharged out of the storage tank 11.
And by providing the partition 12 in the storage tank 11, while being able to form the channel 13 of dredged soil, since dredged soil can be made to flow at low speed, the sediment contained in dredged soil is naturally settled. Can do.
Furthermore, since classification is performed while carrying the clay, the time until classification is completed can be shortened.

  Further, since the partition 12 is detachable, the partition 12 is configured so that the flow rate of the clay passing through the flow path 13 becomes a predetermined value determined in advance by design or the like according to the amount of dredging per hour, the particle size distribution of the clay, and the like. 12 installation positions and installation intervals can be adjusted. Furthermore, the flow rate of the clay in the storage tank 11 can be maintained at a predetermined value by adjusting the flow rate adjustment valve 14 provided in the discharge port 11b.

  Next, a second embodiment of the present invention will be described. The transport ship 20 according to the second embodiment includes a plurality of storage tanks 21a and 22a. In the following description, portions corresponding to the above-described embodiment are denoted by the same reference numerals, description thereof is omitted, and differences are mainly described.

FIG. 6 is a plan view showing a transport ship 20 according to the second embodiment of the present invention.
As shown in FIG. 6, the transport ship 20 includes a first storage tank 21a and a second storage tank 22a on the stern side and the bow side, respectively.

  The second storage tank 22a is provided with a supply port 22c through which the classified clay discharged from the discharge port 11b of the first storage tank 21a flows, and the discharge port 11b of the first storage tank 21a The supply port 22c of the second storage tank 22a is connected by a hose 23. Further, since the flow rate adjusting valve 14 is provided in the middle of the hose 23, the flow rate of the clay flowing in the first storage tank 21a can be adjusted as in the first embodiment. Furthermore, since the flow rate adjusting valve 14 is provided in the discharge port 11b of the second storage tank 22a as in the first embodiment, the flow rate of the clay flowing in the second storage tank 22a can also be adjusted. .

  The first and second storage tanks 21a and 22a can be attached to and detached from the hull of the transport ship 20, and can be lifted by a lifting machine or the like and carried out. When a predetermined amount of sediment has accumulated in the first and second storage tanks 21a, 22a, the storage tanks 21a, 22a are lifted and carried out by a lifting machine or the like, and new storage tanks 21a, 22a are installed on the transport ship 20.

  The dredged soil fed to the transport ship 20 through the mud pipe 10 is introduced into the stern side end portion 16 of the first storage tank 21 a and flows to the bow side along the flow path 13 formed by the partition 12. At this time, earth and sand having a large particle size settle in the first storage tank 21a. On the other hand, the earth and sand having a small particle size are discharged from the discharge port 11b of the first storage tank 21a without passing through the first storage tank 21a and pass through the supply port 22c of the second storage tank 22a. It is supplied to the stern side end 16 of the storage tank 22a. Since the discharge port 11b of the first storage tank 21a is provided in the upper part of the main body of the storage tank 21a, large-grained earth and sand do not pass through the discharge port 11b of the first storage tank 21a.

  The dredged material containing a large amount of earth and sand having a small particle size supplied to the second storage tank 22a flows along the flow path 13 formed by the partition 12 to the bow side. At this time, earth and sand having a small particle size settle in the second storage tank 22a. And the clay after classification is discharged to the dam 3 from the discharge port 11b of the second storage tank 22a.

By connecting the first and second storage tanks 21a and 22a in series, the sediment can be settled over time at a low speed, so that it can be classified with high accuracy.
In the classification work, for example, when the dredged soil dredged from the bottom 4 of the dam 3 contains a large amount of earth and sand, a predetermined amount of sediment accumulates in the first storage tank 21a earlier than the second storage tank 22a. When another ship loaded with the new first storage tank 21a is moored beside the transport ship 20, and a predetermined amount of earth and sand accumulates in the first storage tank 21a, the first storage tank 21a is used as a lifting machine or the like. The first storage tank 21a is loaded on the carrier ship 20 and is again classified.

  In addition, when classifying dredged soil containing a large amount of soil with a small particle size, a predetermined amount of sediment accumulates in the second storage tank 22a earlier than the first storage tank 21a. Other loaded ships are moored beside the transport ship 20, and when a predetermined amount of earth and sand is accumulated in the second storage tank 22a, the second storage tank 22a is lifted by a hoist or the like. The new second storage tank 22a is loaded on the transport ship 20, and classification is resumed again.

  Note that three or more storage tanks may be provided for continuous classification.

  As described above, the processing method in the case where the clay is continuously classified using the plurality of storage tanks 21a and 22a is referred to as serial processing in the following description.

  Next, another example in the case of classifying clay using a plurality of storage tanks 21a and 21b according to the present embodiment will be described. The transport ship 30 of the present embodiment includes a first storage tank 21a and a third storage tank 21b, and classifies dredged clay.

FIG. 7 is a diagram showing another example of the transport ship 30 according to the second embodiment of the present invention.
As shown in FIG. 7, the transport ship 30 includes a first storage tank 21a and a third storage tank 21b on the stern side and the bow side, respectively.

  The mud pipe 10 for feeding the clay to the first storage tank 21a and the third storage tank 21b is branched into two, and each of the branched mud pipes 10a, 10b is divided into the first storage tank 21a and the first storage tank 21a. It extends on the stern side end 16 of the third storage tank 21b. The mud pipes 10a and 10b are provided with opening and closing valves 25a and 25b, respectively.

  In the classification work, first, the clay is supplied only to the first storage tank 21a in a state in which one opening / closing valve 25a is opened and the other opening / closing valve 25b is closed. When a predetermined amount of sediment has accumulated in the first storage tank 21a, the other opening / closing valve 25b is opened to supply dredged soil to the third storage tank 21b, and one opening / closing valve 25a is closed to close the first storage tank 21a. Supply to the storage tank 21a is stopped.

  During classification in the third storage tank 21b, as in the above-described embodiment, another ship loaded with the new first storage tank 21a was anchored beside the transport ship 30, and a predetermined amount of sediment was deposited. The first storage tank 21 a is lifted by a lifting machine or the like and loaded on another ship, and a new first storage tank 21 a is loaded on the transport ship 30. Then, the first storage tank 21a loaded on another ship is transported to the ground or the like.

  In addition, you may classify in parallel with both the 1st storage tank 21a and the 3rd storage tank 21b, and in this case, a lot of clay can be classified in a short time.

  As described above, the processing method in the case where the clay is classified separately using the plurality of storage tanks 21a and 21b is referred to as parallel processing in the following description.

  Next, another example in which clay is classified using a plurality of storage tanks 21a, 21b, 22a, and 22b according to the present embodiment will be described. The transport ship 40 of the present embodiment includes first to fourth storage tanks 21a, 21b, 22a, and 22b, and performs serial processing and parallel processing in combination.

FIG. 8 is a view showing another example of the transport ship 40 according to the second embodiment of the present invention.
As shown in FIG. 8, the transport ship 40 includes a first storage tank 21a and a third storage tank 21b on the stern side, and a second storage tank 22a and a fourth storage tank 22b on the bow side.

  The first storage tank 21a and the third storage tank 21a and the third storage tank 22b are fed so that the classified clay after passing through the first storage tank 21a or the third storage tank 21b can be fed to either the second storage tank 22a or the fourth storage tank 22b. The discharge port 11b of the storage tank 21b is connected by a hose 23 to the supply ports 22c of both the second storage tank 22a and the fourth storage tank 22b.

  In the middle of these hoses 23, a flow rate adjusting valve 24a for adjusting the flow rate of the classified clay discharged from the first storage tank 21a and flowing into the second storage tank 22a is discharged from the third storage tank 21b. The flow rate adjusting valve 24b for adjusting the flow rate of the classified clay flowing into the fourth storage tank 22b and the classified clay discharged from the first storage tank 21a and flowing into the fourth storage tank 22b. A flow rate adjusting valve 24c for adjusting the flow rate and a flow rate adjusting valve 24d for adjusting the flow rate of the classified clay discharged from the second storage tank 21b and flowing into the second storage tank 22a are provided.

  In the classification operation, first, the open / close valves 25a and 25b and the flow rate adjusting valves 24a and 24b are opened, the flow rate adjusting valves 24c and 24d are closed, and the first storage tank 21a and the third storage tank 21b are respectively filled with clay. Supply.

  The classified clay after passing through the first storage tank 21a and the third storage tank 21b, respectively, the second storage tank 22a and the fourth storage tank arranged in series in the first storage tank 21a and the third storage tank 21b, respectively. Into the storage tank 22b.

  And the clay after classification which passed the 2nd storage tank 22a and the 4th storage tank 22b is discharged | emitted by the dam 3 from the discharge port 11b of the 2nd storage tank 22a and the 4th storage tank 22b.

  For example, when a predetermined amount of sediment has accumulated in the first storage tank 21a earlier than the third storage tank 21b by this classification operation, the open / close valve 25a and the flow rate adjustment valve 24a are closed, and the third storage tank 21b. Supply dredged soil only.

  And while classifying with the 3rd storage tank 21b, the 1st storage tank 21a is replaced with the new 1st storage tank 21a similarly to the Example mentioned above. When this new first storage tank 21a is installed in the transport ship 40, one of the opening / closing valve 25a and the flow rate adjusting valve 24a is opened, and classification is performed by the first storage tank 21a and the third storage tank 21b.

  Further, for example, when a predetermined amount of earth and sand is accumulated in the second storage tank 22a earlier than the fourth storage tank 22b, the flow rate adjustment valve 24a is closed and the flow rate adjustment valve 24c is opened, so that the first storage tank All the classified clay that has passed through 21a and the third storage tank 21b is supplied to the fourth storage tank 22b.

  And while classifying with the 4th storage tank 22b, the 2nd storage tank 22a is replaced with the new 2nd storage tank 22a similarly to the Example mentioned above. When the new second storage tank 22a is installed in the transport ship 40, the flow rate adjustment valve 24a is opened again, the flow rate adjustment valve 24c is closed, and the classified clay that has passed through the first storage tank 21a is removed from the second storage tank 22a. To the storage tank 22a, and classification is performed in the second storage tank 22a and the fourth storage tank 22b.

  According to the transport vessels 20, 30, and 40 in the present embodiment described above, the first to fourth storage tanks 21a, 21b, 22a, and 22b that can classify dredged soil are provided. You can classify dredged soil.

  In the conventional case of carrying work on a carrier ship equipped with only one storage tank, there is no carrier ship for loading dredged material while carrying dredged material to land, so dredging work must be interrupted. Since the transport vessels 20, 30, 40 according to the present invention have a plurality of storage tanks 21a, 21b, 22a, 22b, by using another storage tank while replacing a full storage tank with a new storage tank,浚 渫 Can be performed continuously without interruption. Therefore, the dredging work can be performed efficiently.

  Moreover, like the 1st and 2nd storage tanks 21a and 22a and the 3rd and 4th storage tanks 21b and 22b, by connecting a plurality of storage tanks in series and processing the dredged material in series, the earth and sand can be processed at low speed. Since it can be allowed to settle over time, it can be classified with high accuracy.

  Furthermore, like the 1st and 3rd storage tanks 21a and 21b and the 2nd and 4th storage tanks 22a and 22b, by arranging a plurality of storage tanks in parallel and processing the clay in parallel, a large amount of clay Can be classified in a short time.

  In the present embodiment, a case has been described in which a plurality of storage tanks 21a, 21b, 22a, and 22b are installed and classified in one transport ship 20, 30, and 40. However, the present invention is not limited to this method. A plurality of transport ships 1 having a single storage tank 11 are provided, and these transport ships 1 are arranged in series to process clay in series, or arranged in parallel and processed in parallel, in series and in parallel. They may be arranged in a shape and used in combination with serial processing and parallel processing.

These are the whole schematic diagrams which show the dredging system using the carrier ship which concerns on 1st embodiment of this invention. It is a top view which shows the carrier ship which concerns on this embodiment. It is AA sectional drawing of FIG. It is BB sectional drawing of FIG. It is a figure which shows the other Example of a partition. It is a top view which shows the carrier ship which concerns on 2nd embodiment of this invention. It is a figure which shows the other Example of the carrier ship which concerns on 2nd embodiment of this invention. It is a figure which shows the other Example of the carrier ship which concerns on 2nd embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1, 20, 30, 40 Transport ship 2 Dredging system 3 Dam 4 Dam bottom 5 Truck 6 Trunk excavator 7 Traveling means 8 Wire rope 9 Telescopic boom 10 Mud pipe 11 Storage tank 11a Storage tank body 11b Discharge port 11c Bottom plate 12 Partition 12a Partition plate 12b Protrusion 13 Flow path 14 Flow adjustment valve 15 Current meter 16 Stern side end 17 Stern side vicinity 18 Bow side vicinity 19 Hole 21a First storage tank 21b Third storage tank 22a Second storage tank 22b Fourth storage tank 22c Supply port 23 Hose 24a, 24b, 24c, 24d Flow rate adjusting valve 25a Open / close valve 25b Open / close valve

Claims (2)

A transport ship that transports dredged soil from the bottom of a dam reservoir,
Classifying the earth and sand contained in the clay while allowing the clay to flow by a natural sedimentation method, and a storage tank for storing the classified earth and sand,
The storage tank
A storage tank body for storing the clay;
A partition for forming a flow path for allowing the clay to flow inside the storage tank body;
For discharging the supernatant water after the dredged soil containing sediment that has not settled while passing through the flow channel or the sediment naturally passing through the flow channel to the downstream side of the flow channel, A discharge port provided in the upper part of the storage tank body,
The partition is detachable from the storage tank body,
A plurality of the storage tanks are provided so as to be arranged in a plane, are detachable from the transport ship, and the plurality of storage layers are connected in series with respect to the flow direction of the dredged soil. Two storage tank groups consisting of two reservoirs connected in series with respect to the flow direction of the dredged soil are provided in parallel.
In each storage tank group, a valve is provided in the flow path connecting the upstream storage tank and the downstream storage tank and the flow path in which the clay flows into the upstream storage tank,
A flow path is provided to connect an outlet of a storage tank on the upstream side of each storage tank group and an inlet of a storage tank on the downstream side of another storage tank group, and a valve is provided in this flow path. Item 4. The carrier according to item 1 .

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