JP2002081047A - Composite transfer hose for suspended matter recovering device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a composite hose capable of integrating plural hoses having the different intended purposes and bores, being flattened and reducing its minimum bend radius of the whole hose. SOLUTION: This hose is applied in a suspended matter recovering device 1. One composite transfer hose 3 is formed by binding the hose for recovering the suspended matter, and plural hoses of different intended purposes and bores, such as a fluid transferring hose 12 for driving a pump, and a fluid transfer hose 13 for an operation system.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a composite transfer hose for a suspended matter recovery apparatus applied to a pump for recovering suspended matter such as oil which has flowed into the sea, river, lake or the like by using a pump. . More specifically, a composite transfer hose for a suspended matter collection device, which is formed by bundling a plurality of hoses having different purposes and diameters such as a suspended matter collection hose, a pump driving fluid transfer hose, and an operation system fluid transfer hose into one hose. It is about.

[0002]

2. Description of the Related Art Conventionally, when recovering suspended matter such as oil that has flowed into the sea, river, lake, or the like, a pump, a pump driving source, and a collecting tank are arranged at a fixed position, and a pump and a pump driving source are driven. And the pump and the collection tank were independently connected by a suspended matter collection hose.

[0003]

Accordingly, an auxiliary device such as a hose reel is required for each hose,
A lot of installation space was required for installing auxiliary devices such as hose reels.

[0004] In addition, when the collection place is changed, a plurality of hoses may interfere with each other and hinder the movement of the pump. In addition, it is conceivable to use auxiliary devices such as hose reels for moving and storing the hose. However, when the number of hoses is plural, the above auxiliary device is required for each hose, so that a large installation space is required. Need to synchronize hose reels.

Therefore, it is necessary to compact a plurality of hoses into one hose so that the hose can be sent out and stored by one hose reel.

[0006] Further, in an apparatus for recovering a large amount of emulsified high-viscosity oil together with seaweed, wood chips, dust and the like in a short time, it is necessary to increase the diameter of a hose for recovering suspended matter. In addition, even if the hose for collecting suspended matter has a large diameter, it is necessary to make the hose lightweight and easy to bend and deform.

[0007] On the other hand, in a large-capacity suspended matter recovery system in consideration of startability, a pump driving source and a recovered oil tank are installed on a mother ship or on land, and an oil recovery machine equipped with a pump is used for floating oil floating on the sea. Placed in place. Further, the pump drive source and the suspended matter collecting machine are connected by a hose, and the hose is sent out by an auxiliary device such as a hose reel, and the suspended matter collecting operation is performed.

[0008] Since it is important that the suction port of the pump mounted on the suspended solids recovery machine performs the recovery operation while maintaining a certain degree of submersion, a hose structure that does not easily transmit the movement of the hose to the suspended solids recovery machine. It is necessary to adopt. For this reason, the hose needs to flexibly deform and follow the waves while floating on the sea. Also, to float,
It is necessary to increase the buoyancy by using a buoyant material, but such a requirement further increases the outer diameter of the hose and makes it hard to bend.

In addition, the minimum bending radius increases with an increase in the hose diameter, so that the appearance of the hose reel becomes large, making it impossible to transport trucks in an emergency. In addition, auxiliary devices such as hose reels have become enormous, which reduces the speed of the suspended matter recovery work in an emergency.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned conventional problems, and one of the objects thereof is to combine a plurality of hoses having different diameters into one and collect a suspended matter having a floating function. And a composite transfer hose.

It is another object of the present invention to provide a composite transfer hose for a suspended solids recovery apparatus which can expand and flatten a hose for collecting suspended solids and reduce the minimum bending radius of the entire hose.

[0012]

In order to achieve the above object, a composite transfer hose for a suspended matter recovery apparatus according to the present invention comprises a suspended matter recovery hose, a pump drive fluid transfer hose, and an operation system fluid transfer hose. It is characterized in that a plurality of hoses having different usage purposes and diameters are bound to form one composite transfer hose.

As described above, a single composite transfer hose is formed by binding a plurality of hoses having different purposes and diameters, such as a suspended matter collection hose, a pump drive fluid transfer hose, and an operation system fluid transfer hose. In addition, the interference between the hoses during the movement of the suspended solids recovery machine is eliminated, and a highly mobile suspended solids collection operation becomes possible.

[0014] Further, since the float for recovering suspended matter is formed so as to be expandable and flattenable, the minimum bending radius of the entire composite transfer hose can be reduced, so that the hose is compactly stored in an auxiliary device such as a hose reel. become,
Conveyance and suspended matter collection work can be performed quickly.

Further, by disposing the operating system fluid transfer hose and the pump drive fluid transfer hose below the suspended matter collection hose, the winding property to the hose reel is improved.

Further, by attaching a buoyancy material to a hose group consisting of the above-mentioned suspended matter collection hose, a pump drive fluid transfer hose, and an operation system fluid transfer hose, the entire composite transfer hose can have a floating function. .

In addition, by covering the outside of the hose group and the buoyant material with an outer skin capable of following the deformation of the suspended matter collection hose and the buoyant body, the hose groups can be bound to the extent that they do not separate from each other.

Further, by providing the tension members side by side in the hose group, the dimensional stability and tensile strength in the longitudinal direction of the hose can be maintained.

[0019]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 5 shows the operation of recovering suspended matter such as oil that has flowed out into the sea. The suspended matter such as oil and seaweed collected by the suspended matter collection machine 1 is collected by the oil collection hopper of the suspended matter collection machine 1. The oil is supplied to an oil / water separator 5 installed in the mother ship 4 through a suspended matter recovery hose in a composite transfer hose 3 connected to a jet pump (not shown). The seawater 6 separated by the oil / water separator 5 is stored in a mother ship or a water storage tank (not shown) or a barge (not shown) placed on the sea,
Floating matters such as oil and seaweed from which seawater has been removed are stored in an oil recovery tank (not shown) installed in the mother ship 4.

On the other hand, the suspended matter recovery machine 1 is moved by the tugboat 8
The transfer and storage of the composite transfer hose 3 is performed by a hose reel 10 installed on the deck 9 of the mother ship 4.

As shown in FIG. 1, the composite transfer hose 3
In consideration of reel take-up properties, a large-diameter suspended matter recovery hose 11 is arranged above the hose, and a small-diameter operating system fluid transfer hose 12 and a pump drive fluid transfer hose 13 are arranged below the hose. are doing.

On the other hand, the outer skin 14 of the composite transfer hose 3 is expanded to the extent that the hose 11 for recovering suspended matter is allowed to change its shape to become a perfect circle when the suspended matter is recovered, and the internal structural parts are not separated from each other. Has the role of unity.

More specifically, the suspended matter recovery hose 11 is the largest diameter hose, and when transferring the suspended matter recovered by the high pressure jet pump (not shown) of the suspended matter recovery machine 1, a fluid is used. Although it is rounded by pressure (see FIG. 3), when it is wound around the hose reel 10 of the mother ship 4, it is flattened (see FIG. 4). This suspended matter collection hose 11 is reinforced by a fiber layer (not shown).

An operating system fluid transfer hose 12 disposed below the suspended matter recovery hose 11 moves the suspended matter on the sea surface to the pump suction port 2 by using the high-pressure water jetting force (shown in FIG. 1). And a hose for transferring water for jetting, which is reinforced by a fiber layer (not shown).

The pump drive fluid transfer hoses 13 arranged on both sides of the operation system fluid transfer hose 12 are hoses for transferring high pressure water for driving a high pressure jet pump, and are reinforced by steel wires (not shown).

Further, a tension member 16 made of a fiber rope such as a nylon rope is provided between the operation system fluid transfer hose 12 and the pump driving fluid transfer hose 13.

This composite transfer hose 3 is composed of each hose 11,
Around the buoyancy members 17, 18, and 19 formed in a cross-sectional shape matching the respective gaps around 12, 13,
The entire structure is wrapped with a band 20 and a buoyancy material 21, and the outer skin 14 is wound on the outermost surface. Band 20
Are provided at regular intervals in the longitudinal direction of the hose, as shown in FIG.

The buoyancy members 17 to 19 and 21 are made of an independent foam and a material having high elasticity which follows the deformation of the hoses 11, 12, 13 and the outer cover 14. The outer cover 14 is made of an oil-resistant and weather-resistant outer cover rubber and a fiber reinforcing material, and follows the deformation of the suspended matter collection hose 11.

With this configuration, the composite transfer hose 3 can be housed with a reduced weight and a reduced winding radius on a hose reel or the like.

[0031]

As described above, according to the present invention, a plurality of hoses having different purposes of use and different diameters are combined into one, and
The structure with a floating function allows for highly mobile suspended matter collection work.

Also, the present invention provides a flexible transfer hose having a flexible and lightweight structure and a buoyant material made of a material having high elasticity even if the hose for recovering suspended matter has a large diameter. Since the radius can be reduced, storage in auxiliary devices such as a hose reel is compact, and the work of transporting and recovering suspended matters such as oil and seaweed spilled to the sea can be performed quickly.

[Brief description of the drawings]

FIG. 1 is a sectional view of a composite transfer hose for a suspended solids recovery device according to the present invention.

FIG. 2 is a side view including a partial cross section of the composite transfer hose for a suspended solids recovery device according to the present invention.

FIG. 3 is a cross-sectional view in a use pressurized state.

FIG. 4 is a sectional view when the reel is stored.

FIG. 5 is an explanatory diagram of a suspended matter collection work.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Suspended matter collection machine 3 Composite transfer hose for suspended matter collection device 11 Floating matter collection hose 12 Operating system fluid transfer hose 13 Pump drive fluid transfer hose

 ────────────────────────────────────────────────── ─── Continuing on the front page (72) Inventor Hajime Kanaga 1-Yawata Kaigandori, Ichihara City, Chiba Prefecture Mitsui Engineering & Shipbuilding Co., Ltd. Chiba Works F-term (reference) 2D025 BA21 3H111 AA02 CA28 CC20 DA17 DB02 DB27

Claims (6)

[Claims] 1. A composite transfer hose is formed by combining a plurality of hoses having different purposes and diameters, such as a suspended matter recovery hose, a pump drive fluid transfer hose, and an operation system fluid transfer hose. Composite transfer hose for suspended matter recovery equipment. 2. The composite transfer hose according to claim 1, wherein the hose for collecting suspended matter is expandable and flattenable. 3. The composite transfer hose according to claim 1, wherein an operating system fluid transfer hose and a pump drive fluid transfer hose are arranged below the suspended matter collection hose. 4. The composite transfer hose according to claim 1, wherein a buoyancy member is attached to a hose group including a suspended matter collection hose, a pump driving fluid transfer hose, and an operation system fluid transfer hose. 5. The composite transfer hose according to claim 4, wherein the outside of the hose group and the buoyancy material is covered with a suspended matter collection hose and an outer skin capable of following deformation of the buoyant body. 6. The composite transfer hose according to claim 4, wherein a tension member is arranged in parallel with the hose group.