JP2000129652A - Placing ship - Google Patents

Abstract

PROBLEM TO BE SOLVED: To efficiently perform reclamation working by separating mixed air from improvement soil carried to a placing ship by wind force from a cyclone and discharging the improvement soil stored temporarily in a surge tank to the disposal spot of a water bottom as a continuous flow by self weight from a discharge pipe. SOLUTION: In a placing ship SS, improvement soil comprising a mixture of dredging soil and sand and consolidation material milk from a carrying pipe 6 is vigorously flowed in together with a pulsating wave in a cyclone 3 by jet air, and flowed in a surge tank 10 from an outflow opening 30 by performing the separation action of mixed air in a separation chamber 3s. Next, the improvement soil in the tank 10 is flowed to a discharge pipe 12 by its self weight along an inclination bottom wall 10f. Next, when the opening and closing cover 30 of the discharge pipe 12 inclined at an underwater use position is opened by the unwinding operation of a winch 24, a constant amount of dredging soil and sand and consolidation material milk is uniformly and continuously reclaimed and placed on a disposal spot Gr being a reclamation without separation phenomenon from the discharge pipe 12, and reclamation working can be performed efficiently.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a ship for placing improved soil mixed with dredged soil and solidified material, which is used for a wind transport system for wind transport to a landfill or other disposal site. It is.

[0002]

2. Description of the Related Art Conventionally, in port construction such as development of coastal sea areas and creation of artificial islands, a pump for pumping dredged soil from the seabed or the like to continuously transport a large amount thereof to a disposal site such as a landfill. A so-called "water transfer system" has been adopted in which the water is pumped together with a large amount of water pressurized in the above.

However, in such a method of transporting earth and sand by the "water transport system", a large amount of water is transported together with the earth and sand to the disposal site, and the water becomes excess water and overflows from the disposal site. However, there is a problem that the water flows out into the water around the disposal site, such as a landfill, together with mud, and contaminates the water in the water, which causes pollution.

[0004] In recent years, in order to solve such a problem, a "wind carrier system" (Patent No. 2052105) using a wind carrier, which has already been developed by the present applicant, has been adopted. According to this system, a large amount of dredged soil can be easily and continuously pumped to a disposal site by wind power without using water, and there is an advantage that there is no concern about pollution caused by the spillage.

[0005]

However, recently, an improved soil is made by kneading a cement-based solidifying material into dredged soil and sand.
This can be poured into landfills, such as landfills, to improve the ground, shorten the construction period, use the landfills early, etc., which is more economical, helps recycle dredged soil, and is more environmentally friendly. The construction method has been adopted. Thus, if the conventional “wind transport system” is adopted in this landfill method, the improved pulsation pressure generated by the plum flow of wind energy generated in the pumping pipe for transporting the improved soil causes the improved soil (dredged sand and sand) to be removed. Separation of the solidified material from the kneaded material of the solidified material) and the dredged earth and sand has occurred, which has another problem of affecting the landfill.

The present invention has been made in view of such circumstances, and the improved soil is constantly and uniformly poured into a disposal site at a constant amount without being separated into a solidified material and earth and sand. It is an object of the present invention to provide a new cast-in ship that solves the above-mentioned problems by doing so.

[0007]

According to the first aspect of the present invention, there is provided a casting vessel for casting improved soil obtained by adding a solidifying material to dredged soil at a disposal site. A cyclone provided on the hull and separating the mixed air from the improved soil wind-conveyed through the discharge pipe; a surge tank provided on the hull and temporarily storing the improved soil from the cyclone; A hull, a storage position on the hull,
A discharge pipe provided so as to be vertically swingable between a use position below the water surface and discharging the storage-improved soil in the surge tank as a continuous flow by its own weight to a disposal site at the bottom of the water. The soil is characterized in that the dredged soil and the solidified material do not separate in the water and are landfilled at the disposal site at the bottom of the water, and according to such characteristics, the landfill work can be performed efficiently, It is also effective in ensuring the quality of landfill materials and preserving the water environment.

According to the second aspect of the present invention, the bottom wall of the cyclone and the bottom wall of the surge tank are provided at the inlet of the discharge pipe. It is characterized in that it is formed on an inclined surface with a continuous downward slope, and according to such a feature,
The improved soil can be smoothly and continuously moved from the cyclone to the surge tank and further to the discharge pipe by its own weight without separating the dredged soil and the solidified material.

[0009]

Embodiments of the present invention will be described below with reference to an embodiment of the present invention shown in the accompanying drawings.

FIG. 1 is a schematic plan view of a wind carrier system using the casting ship of the present invention, FIG. 2 is a side view taken along line 2-2 of FIG. 1, and FIG. 3 is a view taken along line 3 of FIG. FIG. 4 is a plan view of the cast-in ship of FIG.

In FIGS. 1 and 2, the embankment B includes a landfill area A ₁ having a landfill site Gr as a disposal site, and a surrounding area A _2.
To partition between are erected building in the seabed, the surrounding area A _2, wind transport ship SW for wind carrying the dredged material with solidifying material (see Japanese Patent Laid-Open No. 7-76454) is tethered, other that at one side of the wind transport ship SW, a large amount of sediment that is dredged elsewhere, soil luck ship SE which has been transported to its surrounding area a ₂ is alongside, further wind transport ship SW On the side, cement solidifying milk (slurry)
The solidified material plant ship SP that generates the following is placed beside the ship.

[0012] The dredged earth and sand in the earth transport ship SE is
The earth-lifting machine (backhoe) 33 mounted on the W is fed into the hopper 34 of the wind carrier SW, and at the same time, the cement solidified material milk generated by the solidified material plant ship SP is supplied to the hopper 33. Inject continuously into.

In the wind carrier SW, the dredged soil is crushed and mixed with the cement solidifying material milk by stirring, and the crushed dredged sand and the cement solidified material are rotated by rotating the rotor in the wind carrier SW and driving the compressor. The mixture of milk, i.e. the improved soil, is blown off vigorously by the blowing air towards the outlet of the wind carrier SW and to the discharge pipe 6 connected thereto, which is suspended by a plurality of float pipes 8. Conveyed. Haiokukan 6 have been extended to the landfill area A ₁ overcame embankment B, and is tethered to the landfill area A _1, and is conveyed to the invention hitting設船SS.

In the casting ship SS, as will be described later in detail, the improved soil, dredged soil and cement solidified material milk are continuously landfilled without being separated into the disposal site, that is, the landfill Gr.

Next, a specific structure of the casting boat SS will be described mainly with reference to FIGS.

[0016] A this droplet設船SS is non-self-ocean-going vessels, is anchored by a plurality of anchoring rope 9 at a predetermined position of the landfill area A _1. A support frame 2 is provided on the hull 1 of the casting vessel SS.
The cyclone 3 is fixedly supported via. This cyclone 3 has a closed cylindrical cyclone body 3b, an inlet 3i at the upper part on one side, and an outlet 3 at the lower part on the other side.
o are opened, and an air separation chamber 3s is provided at the center of the upper wall. Air outlet 3d of air separation chamber 3s
Is connected to an air duct 5 connected to the upper wall of the cyclone main body 3b. The air duct 5 extends in the vertical direction so as to bypass the outside of the cyclone main body 3b. , And the separated air flowing through the air duct 5 is discharged toward the water surface. An outlet 6o of a discharge pipe 6 connected to an outlet of the wind carrier SW is connected to an inlet 3i of the cyclone 3 via a connection pipe 7, and an open end of the connection pipe 7 is connected to the air separation chamber 3s. Are in communication. Also cyclone 3
Of the surge tank 10 described later.
i. Bottom wall 3 of cyclone body 3b
f is formed on a slope inclined downward toward the surge tank 10 to be described later, and the inclination angle is a repose of the improved soil (mixed mixture of dredged soil and cement solidified material milk) contained therein. It is formed to be larger than the corner, and the improved soil is smoothly discharged by its own weight.

The improved soil conveyed by wind power in the discharge pipe 6 enters the air separation chamber 3s of the cyclone 3, where the air mixed therein is separated, and then the cyclone body 3b
Housed within.

A surge tank 10 is provided on the hull 1 adjacent to the cyclone 3 and integrally therewith.
The surge tank 10 has an inlet 10i opened at the upper part on the side adjacent to the cyclone 3, and an outlet 10o opened at the lower part on the opposite side.
f is formed on a slope having a downward slope from the inlet side to the outlet side, and forms a slope continuous with the bottom wall 3f of the cyclone 3. The improved soil accommodated in the cyclone 3 is stored in the surge tank 10 by its own weight, and the improved soil in the surge tank 10 flows to the discharge pipe 12 described below continuously in a fixed amount by its own weight.

At the outlet 10o of the surge tank 10,
The discharge pipe 12 is connected via a flexible connection pipe 13 such as a rubber pipe. The discharge pipe 12 has a substantially horizontal storage position on the hull 1 (FIG. 4, two-dot chain line position) and a use position (FIG. 4, solid line position) inclined downward and immersed in the water. The shaft 1 can be swung up and down at the outlet 10 o of the surge tank 10.
The end of one connecting member 14 and the end of the other connecting member 16 provided at the base of the discharge pipe 12 are vertically separated from each other outside the center of the flexible connecting pipe 13. The connecting members 1 are rotatably connected to pins 17.
The vertical rotation of the discharge pipe 12 is restricted by the mutual rotation of the discharge pipes 4 and 16.

The discharge pipe 12 may be formed in a straight line, and the improved soil flowing through the discharge pipe 12 is filled with a landfill site Gr.
And formed by connecting a plurality of discharge short tubes.

At the front of the hull 1, a support rod 19 is supported so as to be able to move up and down in the vertical direction. At the upper end of the support rod 19, one end is connected 22 to one end of the rear of the hull 1. The other end of the cable 21 is bound 23, and the support cable 21 supports the support rod 19 so as to be inclined upright toward the front of the hull 1.

A winch 24 is provided above the surge tank 10 at the front of the cyclone 3, and an operating cable 25 extended from the winch 24 is a pulley 26 pivotally supported on the upper end of the support rod 19. The free end is connected to an intermediate portion of the discharge pipe 12 via a. Therefore, by operating the winch 24, the discharge pipe 12 can be vertically swingably supported between the storage position on the boat and the use position where the discharge pipe 12 is tilted downward so as to be immersed in water. At the tip of the discharge pipe 12, a discharge port 12o of the discharge pipe 12 is provided.
An opening / closing lid 30 that opens and closes is rotatably supported on a pivot 31. An opening / closing cylinder 32 that opens and closes the opening / closing lid 30 is provided between the base end of the opening / closing lid 30 and the tip of the discharge pipe 12.
Are connected.

Next, the operation of the casting ship SS will be described. The improved soil (the cement-based slurry-type solidified material milk is stirred into the dredged soil by the wind carrier SW by the wind energy through the discharge pipe 6 by the wind energy. The mixed mixture, that is, the landfill material) receives a high pulsating wind pressure and is intermittently conveyed into the cyclone 3 as a pulsating flow. In the cyclone 3, the air mixed with the improved soil is separated in the air separation chamber 3s, and the improved soil from which the air is separated is stored in the cyclone body 3b. The improved soil in the cyclone 3 is deenergized and temporarily stored in the surge tank 10 by its own weight.

When the discharge pipe 12 is tilted to the underwater use position by the operation of extending the winch 24 and the opening / closing lid 30 is opened, the storage-improved soil in the surge tank 3 flows to the discharge pipe 12 by its own weight, From the discharge pipe 12, the dredged soil and the solidified material milk are landed and poured into the disposal site Gr, which is a landfill site, uniformly and continuously in a fixed amount without causing a separation phenomenon.

Next, with reference to FIG. 4, a method of driving dredged earth and sand into a disposal site Gr, which is a landfill site, by a “wind carrier system” using the above-described casting ship SS will be described. Is made by combining the casting ship SS with the wind carrier SW and the solidified material plant ship SP. As described above, the wind carrier SW is crushed by rotating the rotor and driving the compressor. The mixture of the dredged soil and the solidified material milk, i.e., the improved soil, is discharged from the discharge pipe 6 floating through the plurality of float pipes 8 by the jet air.
Transported to In the discharge pipe 6, the improved soil is fluidized by the wind pressure of the jet air, and is conveyed from the outlet 6o of the discharge pipe 6 to the casting boat SS.

In the casting vessel SS, as described above, the discharge pipe 6
The improved soil consisting of a mixture of dredged soil and hardened material milk from the first flows vigorously into the cyclone 3 with pulsating waves by the jet air. In the cyclone 3, the improved soil from which the mixed air has been separated in the separation chamber 3 s is deenergized and stored in the cyclone 3, and flows into the surge tank 10 from its outlet 3 o. The improved soil stored in the surge tank 10 has its inclined bottom wall 10f.
Along its own weight and is poured into the disposal site Gr by a fixed amount. By the way, the improved soil conveyed intermittently with the pulsating wave in the discharge pipe 6 is separated from the air by the cyclone 3 and temporarily stored in the surge tank 10 so that the pulsation can be eliminated. Since the dredged soil and the cement solidifying material milk of the improved soil are not dropped into the disposal site Gr while being separated, the solidification of the landfill material in water is performed in a short time without causing pollution. , Landfill of a predetermined strength can be performed in a short time,
Eco-friendly and economical landfill work can be performed.

The cement solidifying material milk (slurry) mixed with the dredged soil and sand is mixed with ordinary Portland cement and seawater (water cement ratio 1: 1) at a solidifying material plant (mounted on a solidifying material plant ship SP). Manufactured.

Although one embodiment of the present invention has been described above, the present invention is not limited to the embodiment, and various embodiments are possible within the scope of the present invention. For example, in the above embodiment, the casting vessel is a non-self-propelled vessel, but this may be a self-propelled vessel. Although the discharge pipe is tilted by the winch, other driving means may be employed instead of the winch.

[0029]

As described above, according to the first aspect of the present invention, the improved soil obtained by adding the solidified material to the dredged soil can be quantitatively measured without separating the dredged soil and the solidified material in water. Landfill can be evenly and continuously landfilled on the bottom of the water.
The landfill work can be performed efficiently, and it is also effective for ensuring the quality of landfill materials and preserving the water environment.

According to the second aspect of the present invention, the improved soil is smoothly and continuously transferred from the cyclone to the surge tank and further to the discharge pipe by its own weight without separating the dredged soil and the solidified material. be able to.

[Brief description of the drawings]

FIG. 1 is a schematic plan view of a wind carrier system using a casting vessel according to the present invention.

FIG. 2 is a side view taken along line 2-2 of FIG. 1;

FIG. 3 is a fragmentary enlarged side view of the main part of the casting boat as viewed in the direction of arrow 3 in FIG.

FIG. 4 is a plan view of the casting boat as viewed in the direction of arrow 4 in FIG. 3;

[Explanation of symbols]

 1 ... Hull 3 ... Cyclone 3f ... Bottom wall (of cyclone) 6 ... Discharge pipe 10 ... Surge tank 10f ... Bottom wall (surge tank) ) Gr: disposal land (landfill)

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[Procedure amendment]

[Submission Date] September 6, 1999 (September 9, 1999)

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction contents]

[Document Name] Statement

[Title of the Invention] Casting ship

[Claims]

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a ship for placing improved soil mixed with dredged soil and solidified material, which is used for a wind transport system for wind transport to a landfill or other disposal site. It is.

[0002]

2. Description of the Related Art Conventionally, in port construction such as development of coastal sea areas and creation of artificial islands, a pump for pumping dredged soil from the seabed or the like to continuously transport a large amount thereof to a disposal site such as a landfill. A so-called "water transfer system" has been adopted in which the water is pumped together with a large amount of water pressurized in the above.

However, in such a method of transporting earth and sand by the "water transport system", a large amount of water is transported together with the earth and sand to the disposal site, and the water becomes excess water and overflows from the disposal site. However, there is a problem that the water flows out into the water around the disposal site, such as a landfill, together with mud, and contaminates the water in the water, which causes pollution.

[0004] In recent years, in order to solve such a problem, a "wind carrier system" (Patent No. 2052105) using a wind carrier, which has already been developed by the present applicant, has been adopted. According to this system, a large amount of dredged soil can be easily and continuously pumped to a disposal site by wind power without using water, and there is an advantage that there is no concern about pollution caused by the spillage.

[0005]

However, recently, an improved soil is made by kneading a cement-based solidifying material into dredged soil and sand.
This can be poured into landfills, such as landfills, to improve the ground, shorten the construction period, use the landfills early, etc., which is more economical, helps recycle dredged soil, and is more environmentally friendly. The construction method has been adopted. Thus, if the conventional “wind transport system” is adopted in this landfill method, the improved pulsation pressure generated by the plum flow of wind energy generated in the pumping pipe for transporting the improved soil causes the improved soil (dredged sand and sand) to be removed. Separation of the solidified material from the kneaded material of the solidified material) and the dredged earth and sand has occurred, which has another problem of affecting the landfill.

The present invention has been made in view of such circumstances, and the improved soil is constantly and uniformly poured into a disposal site at a constant amount without being separated into a solidified material and earth and sand. It is an object of the present invention to provide a new cast-in ship that solves the above-mentioned problems by doing so.

[0007]

According to the present invention, there is provided a drainage device comprising a mixture of dredged soil and solidified material.
The improved soil that is wind-conveyed through the pipe is dredged
A striking設船for landfill hitting set the disposition locations continuously underwater without separating the sand and solidifying material in water, provided on the hull, is wind transported to punch設船 through exhaust feed pipe a cyclone for separating the mixed air from the modified soil was; to the cyclone
Provided adjacent to on the hull, once the surge tank and for storing the improved soil from the cyclone; in the hull, can swing a storage position on the ship body, between a use position under water in a vertical direction provided Rutotomoni, the bottom of the surge tank
A discharge pipe connected to the open outlet and discharging the storage-improved soil in the surge tank as a continuous flow by its own weight to a disposal site at the bottom of the water; a bottom wall of the cyclone ;
With the bottom wall of the storage tank toward the inlet of the discharge pipe.
Ri is formed in a continuous inclined surface of the gradient, characterized in Rukoto.

According to the [0008] or mow feature, the pulsating exhaust feed pipe
Dredged soil and solidified material that are intermittently transported by wind
The improved soil consisting of a mixture with
Be separated and temporarily stored in the surge tank.
And the pulsation can be eliminated by dredging
The sediment and solidified material are dropped into a submerged disposal site while being separated.
Improved soil that has been dissipated within the cyclone
Of the cyclone and surge tank due to its own weight.
Along the slope bottom wall, a surge tank is further discharged from the cyclone.
Because it can be smoothly and continuously moved to the outlet pipe,
Quantification without separation of dredged soil and solidified material in water
Can be continuously and evenly landfilled at the disposal site at the bottom of the water
it can. Thus, the landfill work can be efficiently performed, and quality assurance of the reclaimed material, Ru effective <br/> Oh conservation of aquatic environments.

[0009]

Embodiments of the present invention will be described below with reference to an embodiment of the present invention shown in the accompanying drawings.

FIG. 1 is a schematic plan view of a wind carrier system using the casting ship of the present invention, FIG. 2 is a side view taken along line 2-2 of FIG. 1, and FIG. 3 is a view taken along line 3 of FIG. FIG. 4 is a plan view of the cast-in ship of FIG.

In FIGS. 1 and 2, the embankment B includes a landfill area A ₁ having a landfill site Gr as a disposal site, and a surrounding area A _2.
To partition between are erected building in the seabed, the surrounding area A _2, wind transport ship SW for wind carrying the dredged material with solidifying material (see Japanese Patent Laid-Open No. 7-76454) is tethered, other that at one side of the wind transport ship SW, a large amount of sediment that is dredged elsewhere, soil luck ship SE which has been transported to its surrounding area a ₂ is alongside, further wind transport ship SW On the side, cement solidifying milk (slurry)
The solidified material plant ship SP that generates the following is placed beside the ship.

[0012] The dredged earth and sand in the earth transport ship SE is
The earth-lifting machine (backhoe) 33 mounted on the W is fed into the hopper 34 of the wind carrier SW, and at the same time, the cement solidified material milk generated by the solidified material plant ship SP is supplied to the hopper 33. Inject continuously into.

In the wind carrier SW, the dredged soil is crushed and mixed with the cement solidifying material milk by stirring, and the crushed dredged sand and the cement solidified material are rotated by rotating the rotor in the wind carrier SW and driving the compressor. The mixture of milk, i.e. the improved soil, is blown off vigorously by the blowing air towards the outlet of the wind carrier SW and to the discharge pipe 6 connected thereto, which is suspended by a plurality of float pipes 8. Conveyed. Haiokukan 6 have been extended to the landfill area A ₁ overcame embankment B, and is tethered to the landfill area A _1, and is conveyed to the invention hitting設船SS.

In the casting ship SS, as will be described later in detail, the improved soil, dredged soil and cement solidified material milk are continuously landfilled without being separated into the disposal site, that is, the landfill Gr.

Next, a specific structure of the casting boat SS will be described mainly with reference to FIGS.

[0016] A this droplet設船SS is non-self-ocean-going vessels, is anchored by a plurality of anchoring rope 9 at a predetermined position of the landfill area A _1. A support frame 2 is provided on the hull 1 of the casting vessel SS.
The cyclone 3 is fixedly supported via. This cyclone 3 has a closed cylindrical cyclone body 3b, an inlet 3i at the upper part on one side, and an outlet 3 at the lower part on the other side.
o are opened, and an air separation chamber 3s is provided at the center of the upper wall. Air outlet 3d of air separation chamber 3s
Is connected to an air duct 5 connected to the upper wall of the cyclone main body 3b. The air duct 5 extends in the vertical direction so as to bypass the outside of the cyclone main body 3b. , And the separated air flowing through the air duct 5 is discharged toward the water surface. An outlet 6o of a discharge pipe 6 connected to an outlet of the wind carrier SW is connected to an inlet 3i of the cyclone 3 via a connection pipe 7, and an open end of the connection pipe 7 is connected to the air separation chamber 3s. Are in communication. Also cyclone 3
Of the surge tank 10 described later.
i. Bottom wall 3 of cyclone body 3b
f is formed on a slope inclined downward toward the surge tank 10 to be described later, and the inclination angle is a repose of the improved soil (mixed mixture of dredged soil and cement solidified material milk) contained therein. It is formed to be larger than the corner, and the improved soil is smoothly discharged by its own weight.

The improved soil conveyed by wind power in the discharge pipe 6 enters the air separation chamber 3s of the cyclone 3, where the air mixed therein is separated, and then the cyclone body 3b
Housed within.

A surge tank 10 is provided on the hull 1 adjacent to the cyclone 3 and integrally therewith.
The surge tank 10 has an inlet 10i opened at the upper part on the side adjacent to the cyclone 3, and an outlet 10o opened at the lower part on the opposite side.
f is formed on a slope having a downward slope from the inlet side to the outlet side, and forms a slope continuous with the bottom wall 3f of the cyclone 3. The improved soil accommodated in the cyclone 3 is stored in the surge tank 10 by its own weight, and the improved soil in the surge tank 10 flows to the discharge pipe 12 described below continuously in a fixed amount by its own weight.

At the outlet 10o of the surge tank 10,
The discharge pipe 12 is connected via a flexible connection pipe 13 such as a rubber pipe. The discharge pipe 12 has a substantially horizontal storage position on the hull 1 (FIG. 4, two-dot chain line position) and a use position (FIG. 4, solid line position) inclined downward and immersed in the water. The shaft 1 can be swung up and down at the outlet 10 o of the surge tank 10.
The end of one connecting member 14 and the end of the other connecting member 16 provided at the base of the discharge pipe 12 are vertically separated from each other outside the center of the flexible connecting pipe 13. The connecting members 1 are rotatably connected to pins 17.
The vertical rotation of the discharge pipe 12 is restricted by the mutual rotation of the discharge pipes 4 and 16.

The discharge pipe 12 may be formed in a straight line, and the improved soil flowing through the discharge pipe 12 is filled with a landfill site Gr.
And formed by connecting a plurality of discharge short tubes.

At the front of the hull 1, a support rod 19 is supported so as to be able to move up and down in the vertical direction. At the upper end of the support rod 19, one end is connected 22 to one end of the rear of the hull 1. The other end of the cable 21 is bound 23, and the support cable 21 supports the support rod 19 so as to be inclined upright toward the front of the hull 1.

A winch 24 is provided above the surge tank 10 at the front of the cyclone 3, and an operating cable 25 extended from the winch 24 is a pulley 26 pivotally supported on the upper end of the support rod 19. The free end is connected to an intermediate portion of the discharge pipe 12 via a. Therefore, by operating the winch 24, the discharge pipe 12 can be vertically swingably supported between the storage position on the boat and the use position where the discharge pipe 12 is tilted downward so as to be immersed in water. At the tip of the discharge pipe 12, a discharge port 12o of the discharge pipe 12 is provided.
An opening / closing lid 30 that opens and closes is rotatably supported on a pivot 31. An opening / closing cylinder 32 that opens and closes the opening / closing lid 30 is provided between the base end of the opening / closing lid 30 and the tip of the discharge pipe 12.
Are connected.

Next, the operation of the casting ship SS will be described. The improved soil (the cement-based slurry-type solidified material milk is stirred into the dredged soil by the wind carrier SW by the wind energy through the discharge pipe 6 by the wind energy. The mixed mixture, that is, the landfill material) receives a high pulsating wind pressure and is intermittently conveyed into the cyclone 3 as a pulsating flow. In the cyclone 3, the air mixed with the improved soil is separated in the air separation chamber 3s, and the improved soil from which the air is separated is stored in the cyclone body 3b. The improved soil in the cyclone 3 is deenergized and temporarily stored in the surge tank 10 by its own weight.

When the discharge pipe 12 is tilted to the underwater use position by the operation of extending the winch 24 and the opening / closing lid 30 is opened, the storage-improved soil in the surge tank 3 flows to the discharge pipe 12 by its own weight, From the discharge pipe 12, the dredged soil and the solidified material milk are landed and poured into the disposal site Gr, which is a landfill site, uniformly and continuously in a fixed amount without causing a separation phenomenon.

Next, with reference to FIG. 4, a method of driving dredged earth and sand into a disposal site Gr, which is a landfill site, by a “wind carrier system” using the above-described casting ship SS will be described. Is made by combining the casting ship SS with the wind carrier SW and the solidified material plant ship SP. As described above, the wind carrier SW is crushed by rotating the rotor and driving the compressor. The mixture of the dredged soil and the solidified material milk, i.e., the improved soil, is discharged from the discharge pipe 6 floating through the plurality of float pipes 8 by the jet air.
Transported to In the discharge pipe 6, the improved soil is fluidized by the wind pressure of the jet air, and is conveyed from the outlet 6o of the discharge pipe 6 to the casting boat SS.

In the casting vessel SS, as described above, the discharge pipe 6
The improved soil consisting of a mixture of dredged soil and hardened material milk from the first flows vigorously into the cyclone 3 with pulsating waves by the jet air. In the cyclone 3, the improved soil from which the mixed air has been separated in the separation chamber 3 s is deenergized and stored in the cyclone 3, and flows into the surge tank 10 from its outlet 3 o. The improved soil stored in the surge tank 10 has its inclined bottom wall 10f.
Along its own weight and is poured into the disposal site Gr by a fixed amount. By the way, the improved soil conveyed intermittently with the pulsating wave in the discharge pipe 6 is separated from the air by the cyclone 3 and temporarily stored in the surge tank 10 so that the pulsation can be eliminated. Since the dredged soil and the cement solidifying material milk of the improved soil are not dropped into the disposal site Gr while being separated, the solidification of the landfill material in water is performed in a short time without causing pollution. , Landfill of a predetermined strength can be performed in a short time,
Eco-friendly and economical landfill work can be performed.

The cement solidifying material milk (slurry) mixed with the dredged soil and sand is mixed with ordinary Portland cement and seawater (water cement ratio 1: 1) at a solidifying material plant (mounted on a solidifying material plant ship SP). Manufactured.

Although one embodiment of the present invention has been described above, the present invention is not limited to the embodiment, and various embodiments are possible within the scope of the present invention. For example, in the above embodiment, the casting vessel is a non-self-propelled vessel, but this may be a self-propelled vessel. Although the discharge pipe is tilted by the winch, other driving means may be employed instead of the winch.

[0029]

As described above, according to the present invention, dredged soil
With a pulsating wave in the discharge pipe
The improved soil that is intermittently transported by wind is supplied to the cyclone.
Separated air and temporarily stored in surge tank
The pulsation can be eliminated
So, the dredged soil and solidified material are separated and placed on the bottom of the water
It will not be dropped. That is, the energy is reduced within the cyclone
The improved soil is subjected to cyclones and surge
Along the inclined bottom wall of the tank, from the cyclone to the surge tank
Furthermore, it can be smoothly and continuously moved to the discharge pipe.
From this, the dredged soil and solidified material can be landfilled at the disposal site on the water bottom evenly and continuously at a constant rate without separation in water, and the landfill work can be performed efficiently,
It is also effective in ensuring the quality of landfill materials and preserving the water environment.
You.

[Brief description of the drawings]

FIG. 1 is a schematic plan view of a wind carrier system using a casting vessel according to the present invention.

FIG. 2 is a side view taken along line 2-2 of FIG. 1;

FIG. 3 is a fragmentary enlarged side view of the main part of the casting boat as viewed in the direction of arrow 3 in FIG.

FIG. 4 is a plan view of the casting boat as viewed in the direction of arrow 4 in FIG. 3;

[Explanation of Signs] 1 ... Hull 3 ... Cyclone 3f ... Bottom wall (of cyclone) 6 ... Discharge pipe 10 ... Surge tank 10f ... Bottom wall (of surge tank) 10o ... Exit Gr ... Disposal site (landfill)

Claims (2)

[Claims] 1. An improved soil obtained by adding a solidifying material to dredged soil and sand,
A cyclone (3) mounted on the hull (1) for separating mixed air from the improved soil wind-conveyed through a discharge pipe (6); (1) A surge tank (1) provided on the top and temporarily storing the improved soil from the cyclone (3).
0); the hull (1) is provided so as to be vertically swingable between a storage position on the hull (1) and a use position below the water surface, and is provided in the surge tank (10). A discharge pipe (12) for discharging the improved soil as a continuous flow by its own weight to a disposal site at the bottom of the water, wherein the improved soil does not separate the dredged soil and the solidified material in the water, L) A land-casting ship, which is landfilled. 2. A bottom wall (3f) of the cyclone (3).
The bottom wall (10f) of the surge tank (10) is formed in a continuous inclined surface having a downward slope toward the inlet of the discharge pipe (12). Casting boat.