JP3220279B2 - Submarine tillage device and submarine tillage method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of cultivating a seabed, and more particularly, to a cultivating apparatus for cultivating the seabed such as clams and clams.
And a method of cultivating the seabed.

[0002]

2. Description of the Related Art In the field of fisheries, there has been a rapid change in fisheries from conventional catching to fishery, and fish and shellfish have been actively breeding. By the way, in the propagation of the fish and shellfish, the fry or the clam grown to a predetermined size is released to a suitable sea area.

[0003]

By the way, the sea area where such fry or larvae are released has been increasingly limited due to environmental destruction. In particular, in the propagation of shellfish, environmental destruction of the seabed is severe, and therefore, environmental improvement of such sea areas is required in this industry.

[0004]

SUMMARY OF THE INVENTION The present invention has been made in response to the above problems, and has a hull on which an air supply device and a pressure fluid supply device are mounted, and a plurality of ejection nozzles.
And a buoyant body consisting of a tank capable of filling and discharging ballast water. The buoyant body is connected to the air supply device, and the jet nozzle and the pressure fluid supply device are connected to the buoyant body. Landed and towed with the hull,
It is another object of the present invention to provide a submarine tillage device characterized in that a pressure fluid is jetted from the jet nozzle to plow the seabed. The present invention ejects fluid to cover the sea floor
Has multiple spout nozzles for tilling, ballast water
A buoyancy body consisting of a tank capable of draining water.
The body is connected to a separate air supply device.
The air supply device adjusts the air supply to the buoyant body.
The ballast water was stretched out and the buoyant body landed on the sea floor
Subsea cultivation characterized by being able to rise
It does not provide equipment. Also, the present invention
Multiple eruption nozzles for squirting fluid to cultivate the ocean floor
From a tank with ballast water
Buoyancy body towing to a predetermined sea area in a floating state, the buoyancy body
Ballast water is applied to the bottom of the seabed,
And tilling the sea floor by squirting fluid from
It is intended to provide a seabed tillage method.

[0005]

[Operation] The buoyancy body is towed by the hull in a floating state and transported to a predetermined sea area, where ballast water is stretched and settles on the seabed. Then, a fluid such as seawater or air is supplied to the ejection nozzle from the pressure fluid supply device, and the fluid is ejected from the ejection nozzle to the sea bottom. The seafloor is plowed by the ejected fluid, the bottom soil is softened, and the penetration of seawater is improved, which is suitable for shellfish propagation. After the cultivation of the seabed, air is supplied from the air supply device into the buoyant body, the ballast water is discharged, and the buoyant body floats on the sea surface.

[0006]

Embodiment 1 A first embodiment of a seabed tillage apparatus and a seabed tillage method according to the present invention will be described below with reference to FIGS. FIG. 1 is a schematic side view of a submarine tillage device,
Reference numeral 1 denotes a hull on which an air supply device 2 such as a pump or a blower and a pressure fluid supply device 3 such as a pump or a blower are mounted.
Reference numeral 4 denotes a buoyant body having a plurality of ejection nozzles 5 arranged at a rear portion. The buoyancy body 4 is formed of a tank capable of filling and discharging ballast water, connected to the air supply device 2 by a hose 6, and Are connected to the pressure fluid supply device 3 by hoses 7, respectively.

Behind the buoyant body 4, a plurality of ejection nozzles 5
A nozzle tube 9 having a lower portion is attached by a support 10 and a connecting tube 1 connected to the center of the nozzle tube 9.
The hose 7 is connected via a flange 11 provided at an end of the hose 2. 13 is a towing line 1 connected to the hull 1
Reference numeral 4 denotes an eye for securing one end, 15 denotes an eye for lifting the buoyant body 4, 16 denotes a maintenance inspection floor, 17 denotes a fitting for fixing the jet nozzle, and 18 denotes a column connecting the two buoyant bodies 4. Further, valves 8 are provided on the front upper surface and the rear side surface of the buoyant body 4, respectively.

Next, an operation method of the tillage device will be described. If the interior of the buoyancy body 4 ballast water is filled, the valve 8 and the air supply hose 6 from the air supply unit 2 the ballast water inside the buoyancy body 4 as shown in FIG. 4 (a) It is discharged and floated, and in this state, it is towed to a predetermined sea area by the towing line 14 behind the hull 1.

When the water reaches a predetermined sea area, the air inside the buoyant body 4 is evacuated through the hose 6 and seawater is injected as ballast water through the valve 8 to land on the seabed GL as shown in FIG. Thereafter, as shown in FIG. 4C, seawater (or compressed air, or a mixture of seawater and compressed air) is injected into the nozzle pipe 9 from the pressure fluid supply device 3 such as a pump via the hose 7 and the connecting pipe 12. The hull 1 is towed to plow the seabed GL by injecting a jet stream from the jet nozzle 5 and towing with the hull 1.

When the cultivation work of the seabed GL in the predetermined sea area is completed, the supply of the pressure fluid, that is, seawater (or compressed air, or a mixture thereof) from the pressure fluid supply device 3 is stopped, and the air supply device 2 is stopped. Then, the compressed air is supplied into the buoyant body 4 to discharge the ballast water from the valve 8, and the buoyant body 4 is floated and collected. The buoyancy body 4 may be provided with a depth measuring device as necessary, and the signals of the depth measuring device may be used to control the air supply device 2, the pressure fluid supply device 3, and the like.

The mounting angle of the jet nozzle 5 is adjusted by loosening the jet nozzle fixing hardware 17 and rotating about the support 10 to adjust the jet angle of the jet flow according to the state of the cultivated seabed GL. can do.

[0012]

Embodiment 2 A second embodiment of the seabed tillage apparatus and the seabed tillage method according to the present invention will be described with reference to FIGS. This embodiment is characterized in that a substantially spherical automatic return type buoyant body 20 is used.

The buoyant body 20 is a hose 6 for supplying compressed air.
, A lower hemisphere 20b having an opening 21 at the bottom and a number of small holes 22 around the bottom, and an intermediate plate 24 having an opening 23 at the center.
The upper hemisphere 20a is configured to have a larger volume than the lower hemisphere 20b. It is important that the buoyant body 20 is vertically divided by an intermediate plate 24 having an opening 23 at the center, and the air in the buoyant body 20 is always separated by the presence of the intermediate plate 24 on the upper hemisphere 20a side. To give a stable buoyancy.
In order to smoothly move the air from the lower hemisphere 20b side to the upper hemisphere 20a side through the opening 23, the intermediate plate 24 having a central portion bulged toward the upper hemisphere 20a side is used. Is also possible.

A connecting pipe 26 extends from the center of the nozzle pipe 9 to which a plurality of ejection nozzles 5 are attached at the rear, and is connected to the buoyant body 20 by a support rod 25.
And a flange 27 is fixed to an end of the connecting pipe 26. Also, four L-shaped hoist pieces 25a are fixed to the lower hemisphere 20b, and a weight 29 for controlling the posture when the buoyant body 20 is towed is provided at the connection end 26. Have been.

A hose 6 for supplying compressed air is connected to the top of the upper hemisphere 20a. A hose 7 for supplying a pressurized fluid, that is, high-pressure water or compressed air, is connected to a flange 27 to the connecting pipe 26. Connected through. In this embodiment, the connecting pipe 26 is provided with an eye 28 for towing the hull 1 via the towing line 14.

The submarine tillage device constructed as described above is operated as follows. The buoyant body 20 is towed in the same manner as in FIG.
Compressed air is supplied to the inside of the nozzle hole 0 so that the draft line WL floats slightly above the small hole 22 as shown in FIG. The hull 1 is towed to a predetermined sea area.

When the buoyancy body 20 reaches a predetermined sea area, the air inside the buoyancy body 20 is evacuated via the hose 6 to open the bottom opening 2.
Seawater flows in as ballast water from the small holes 1 and the small holes 22, and the buoyant body 20 reaches the seabed GL as shown in FIG. 8B. Thereafter, as shown in FIG. 8 (c), seawater or the like, which is a pressure fluid, is jetted from the pressure fluid supply device 3 via the hose 7 and the connection pipe 26 as a jet stream from the nozzle 5, towing the hull 1 and tilling. You do it.

When the cultivation of the predetermined sea area is completed,
The buoyant body 20 to supply compressed air to the interior of the buoyant body 20 from the air supply unit 2 to discharge the ballast water from the small holes 22 and the opening 21 stops the supply of pressure fluid from the pressure fluid supply device 3 Either they are recovered by ascending, or they are towed to a predetermined sea area in the ascended state. In FIG. 8, the weight 29 is connected to the connecting pipe 26 as shown in FIG.
And provided at the bottom of the lower hemisphere 20b for stability.

When the ballast water is filled into the buoyant body 20, the state shown in FIG. 8A is changed to the state shown in FIG. 8B. The ballast water is transferred from the lower hemisphere 20b to the upper hemisphere. Since the space portion where the air exists is always located on the upper hemisphere 20a side, the sea floor G is filled.
The buoyant body 20 does not turn over or remarkably incline when landing on L, and the landing is stabilized.

Although seawater is mainly used as the pressure fluid, seawater can be purified by using compressed air. When a mixture of compressed air and seawater is used as a jet stream, it is preferable to provide a mixing means near the nozzle so that both are mixed well. This mixing means may be means for entraining seawater by a jet of compressed air.

[0021]

The submarine tillage device and submarine tillage according to the present invention.
The buoyancy method includes a hull 1 equipped with an air supply device 2 and a pressure fluid supply device 3, and a buoyant body 4, 20 having a plurality of ejection nozzles 5 and a tank capable of filling and discharging ballast water.
The buoyancy members 4, 20 and the air supply device 2 are connected to each other, and the jet nozzle 5 and the pressure fluid supply device 3 are connected to each other. It is configured to be towed by the hull 1 and eject the pressurized fluid from the ejection nozzle 5 to cultivate the seabed GL, and the following effects can be obtained.

The buoyant bodies 4, 20 are made to land on the seabed GL, and the pressurized fluid is jetted from the jet nozzle 5 and towed by the hull 1 to cultivate them, without being affected by the water depth. There is an effect that it is possible to cultivate the seabed GL easily and easily, which is extremely effective for improving the environment.

[Brief description of the drawings]

FIG. 1 is a schematic side view of an embodiment of a submarine tillage device according to the present invention.

FIG. 2 is a side view of the buoyant body.

FIG. 3 is a plan view of a buoyant body.

FIG. 4A is an explanatory diagram showing a state in which a buoyant body is being towed. (B) is an explanatory view showing a state where the vehicle has landed on the sea floor. (C) is an explanatory view showing a state where the seabed is being plowed.

FIG. 5 is a side view of a submarine tillage device according to a second embodiment.

FIG. 6 is a plan view of the submarine tillage device.

FIG. 7 is a bottom view of the submarine tillage device.

FIG. 8A is an explanatory diagram showing a state in which a buoyant body is being towed. (B) is an explanatory view showing a state where the vehicle has landed on the sea floor. (C) is an explanatory view showing a state where the seabed is being plowed.

[Explanation of symbols]

Reference Signs List 1 hull 2 air supply device 3 pressure fluid supply device 4,20 buoyant body 4a, 20a upper hemispherical shell 4b, 20b lower hemispherical shell 5 ejection nozzle 6,7 hose 8,21 opening 9,22 small hole 11,24 intermediate Plate 12 Connecting pipe 14 Towing cable 19,29 Weight

──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Yukio Oami 1-16-14 Shibuya, Shibuya-ku, Tokyo Inside Tokyu Construction Co., Ltd. (72) Mitsuru Mimura 3-5-2, Shiba Park, Minato-ku, Tokyo Komatsu Construction Industry Co., Ltd. (72) Inventor Seiichi Hosono 2-3 Kandajimachi, Chiyoda-ku, Tokyo Obayashi Corporation Tokyo Head Office (56) References JP-A-4-187035 (JP, A) (58) Survey Field (Int.Cl. ⁷ , DB name) A01K 61/00-64/02

Claims (3)

(57) [Claims] 1. A buoyant body equipped with an air supply device and a pressure fluid supply device, and a buoyant body having a plurality of ejection nozzles and a tank capable of filling and discharging ballast water. While connecting the air supply device and connecting the ejection nozzle and the pressure fluid supply device, the buoyant body is landed on the seabed and towed by the hull, and the seafloor is ejected from the ejection nozzle to eject pressure fluid. A submarine tillage device characterized by plowing. 2. A method for cultivating a seabed by ejecting a fluid.
It has multiple ejection nozzles and can drain ballast water
A buoyancy body consisting of a tank, which is separate from the buoyancy body
The air supply device mounted on the air supply device is connected to the air supply device.
Ballast water by adjusting the air supply to the buoyancy body
Draining the buoyant body on the seabed or lifting it
A submarine tillage device characterized in that it can perform. 3. A method for plowing a seabed by ejecting a fluid.
It has multiple jet nozzles and ballast water can be drained.
A buoyant body consisting of a capable tank
Sailing, Ballast water is stretched over the buoyancy body to land on the sea floor, Jetting fluid from the jet nozzle to plow the seabed
A submarine tillage method characterized by the following.