JPS62189225A - Sand collecting ship - Google Patents

Abstract

PURPOSE:To collect sand at deeper depth at seabed by a method in which a casing pipe to be penetrated into the seabed silt layer is hung down by a winch, and a sand pump is hung down by the winch to lower it along the inside of the casing pipe. CONSTITUTION:The tip of a casing pipe 3 is penetrated into the silt layer 14 of the seabed, and the pipe 3 and a sand pump 4 are lowered by paying out hanging cables 10 and 11 while sweeping silt 14a in the pipe 3 by the pump 4. When the tip of the pipe 3 reaches the sand layer 15, jet water is jetted from nozzles 6a and 6b and sand 15a is collected by the operation of the pump 4 while liquefying the and 15a around the pump 4. While vibrating the pipe 3 by means of a vibrator, the cables 10 and 11 are wound up by winches 12 and 13 to pull out the pipe 3 and the pump 4 only to a fixed height, whereupon the surrounding sand of the cave portion is degraded. The degraded sand is collected again and then the pipe 3 is completely pulled up.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a sand sampling vessel, and more particularly to a sand sampling vessel that is capable of sampling sand at great depths beneath a seabed silt layer.

[Conventional technology]

Examples of sand sampling vessels using υ include sand sampling vessels equipped with a sand hose system as shown in 3UA, and power/turres pump vessels as shown in Figure 4.

In the sand sampling vessel equipped with the sand hose system shown in Fig. 3, the pump is suspended from the hull 20 + 91 structure 22,
A sand pump 21 is suspended via a hanging rope 23.

Then, the suspension rope 23 is let out to lower the pump 21 to the top of the sand layer on the seabed, and the sand pump 21 is operated from the ship.
1 is activated to collect sand.

Sand from the seabed is driven by a sand pump 21 and transported onto the ship via a sand hose 24 connected to the sand pump 21. The sand hose 24 is made of a contractile material such as rubber, and by letting out the hanging rope 23 and the sand hose 24, the sand pump 21 can be freely lowered into the sand layer to a great depth. This makes it possible to collect sand to great depths.

In the cutterless pump ship shown in Fig. 4, the upper lug 42 is sunk into the bottom of the hull/TL, and the upper lug
42 is provided with a lower vibrator 45 via an intermediate vibrator 44. Further, a ladder pump 43 for paper forming is installed inside the upper lug 42.

The upper ladder 42 and the intermediate vibe 44 and the intermediate vibe 44 and the lower vibe 45 are flexibly connected to each other. Furthermore, the lower vibe 45
is suspended by a suspension 1UFt46 via a hanging rope 47, and its position is adjusted by driving the suspension fiNIt46.

The insides of the upper lug 42, the middle vibrator 44, and the lower vibrator 45 are still divided into two Ifs, so that the sand sucked through the center and the jet water sent into the sand layer pass through the annular part around it. It has become. A plurality of jet water nozzles 48 and paper cutting lines 49 are formed at the lower end of the lower vibrator 45.

In such a cutterless pump ship, the lower vibrator 45 is tilted down to the seabed by driving the suspension mechanism 46 (↑) to penetrate the sand layer 51 while penetrating the silt layer 50 . Then, jet water is ejected from the jet water nozzle 48 at the lower end of the lower vibrator 45 to liquefy the sand around the paper cutting stitches 49, while the ladder pump 43 is driven to suction the sand. Furthermore, the lower vibrator 45 is gradually lowered to collect sand from deep areas.

[Problem that the invention seeks to solve]

However, in conventional sand sampling vessels, those with sand hose type systems do not take into account the presence of sills), so there is a problem α in that sand under the silt layer cannot be sampled.

In addition, in cutterless pump ships, the lower vibrator 45 penetrates the sand layer diagonally, so the upper lug
42, the intermediate vibrator 44, and the lower vibrator 45, the total length is required to be 1.3 to 1.5 times the sand extraction depth. For this reason,
There is a problem that the hull 41 becomes large. In addition, there is also the problem that the sampling depth is limited.

Furthermore, since the paper-forming pump 43 is located in the upper ladder 42, there is a problem in that suction efficiency is reduced due to resistance within each vibrator from the pump 43 to the paper-forming depth.

Furthermore, maintenance of consumable parts such as the rudder pump 43 must be performed on the rudder or at sea, which poses a problem of poor workability.

The present invention attempts to solve the above-mentioned problems and is a small and simple 8! An object of the present invention is to provide a sand sampling boat which is capable of collecting sand at a deep depth under a silt layer and also allows maintenance of each member to be carried out easily.

[Means for solving problems]

For this reason, the sand sampling boat of the present invention is equipped with a sand pump suspended by a first winch on the boat, and a sand hose connected to the sand pump, and a hanging line is suspended by a second winch on the boat. Undersea Shiro ff11 suspended through
A common casing pipe is provided, and the sand pump is disposed so as to be able to descend along the inside of the casing pipe.

[For f-ya]

In the sand sampling vessel of the present invention described above, the casing pipe descends while the sand pump suctions the silt in the casing pipe, and the sand pump penetrates the sand layer while being guided by the casing pipe. , the sand from the lower part of the sill Ha is collected, and after the collection is completed, the casing pipe and the sand pump are pulled out from the silt layer by driving the tjSl winch and the second winch.

〔Example〕

Hereinafter, a sand sampling boat as an embodiment of the present invention will be explained with reference to the drawings.
Figures (a) to (e) are sectional views of main parts in a Mata-style manner for explaining the sand extraction state.

As shown in Figures 1 and 2, a center well 1a is formed in the center of the hull 1, and the center well 1a is located on the ship.
1 and 2 are erected so as to straddle the area.

On the upper part of the housing 2, there are a first fixed slide 11t12n and a second fixed slide +313. A first winch 12 and a second winch 13 are provided on the ship.

The casing pipe suspension rope 10, one end of which is wound around the first winch 12, is guided by the first pulley 12a and has the other end connected to the casing pipe 3, thereby suspending the casing pipe 3. Teil. Also, the second winch 1
The sand pump suspension cable 11 whose one end is wound around the second
The other end is connected to the sand pump 4, and the sand pump 4 is suspended therein.

Inside the casing pipe 3, a plurality of one-jet water pipes are provided as shown. Then, at the lower end of the casing pipe 3, so as to communicate with the jet wood pipe,
Jet water nozzles 6a, 6b are provided. The jet water nozzle 6a is directed toward the outer circumference of the casing pipe 3, and the jet water nozzle 6b is directed downward.

Further, the inner diameter of the casing pipe 3 is set to a size that allows the sand pump 4 to sufficiently pass through. The length of the casing pipe 3 is set depending on the depth to the sand layer in the predetermined sea area.

Furthermore, an exciter 9 is attached to the upper end of the casing pipe 3. Note that the upper end of the jet water pipe is connected to the jet water pump 5 via a jet water hose 8.

The sand pump 4 descends along the inside of the casing pipe 3, and a sand hose 7 is connected to the sand pump 4. The sand sucked by the sand pump 4 is stored in a sand tank (not shown) on the ship via a sand hose 7. Furthermore, the sand pump 4 can be operated from the ship.

Note that the sand hose 7 is made of a stretchable material such as a rubber hose. Similarly, the jet water hose 8 is also made of a stretchable material. Furthermore, each hose 7.8 is for the hose provided in the housing 2.
, 2b.

Further, the reference numeral 14 in the figure indicates silt rG, 14a indicates silt, 15 indicates a sand layer, and 15a indicates sand.

Since the sand sampling boat as an embodiment of the present invention is constructed as described above, sand sampling work is performed in the following manner.

First, as shown in FIG. 2(a), the casing pipe 3
The tip of the casing pipe 3 is penetrated almost vertically into the seabed sill 4, and the casing pipe 3 is lowered while the silt 14a inside the casing pipe 3 is removed by the sand pump 4. At this time, the vibrator 9 is operated to vibrate the casing pipe 3 and promote the descent of the casing pipe 3.

In addition, when the casing pipe 3 and the sand pump 4 are lowered, the hanging ropes 10° 11 are let out (I) as they descend.

The tip of the casing pipe 3 is the sill) [sand under M14/f! When it descends on the ground, as shown in Figure 2 (1), the jet water nozzle 6 at the lower end of the casing pipe 3
Jet water is injected from a and 6b to liquefy the sand 1.5a around the sand pump 4, and the sand pump 4 is operated to start collecting the sand 15a. Note that the jet water is driven by a jet pump 5 on the second side of the ship.

At this time, the sand pump 4 moves away from the casing pipe 3 and lets out the suspension rope 11 and the sand hose 7.
Sand can be collected to great depths.

Then, as shown in Fig. fjIJ2 (c), when the tip of the sand pump 4 reaches a predetermined depth, sand sampling at that point ends.

Next, as shown in FIG. 2(d), the vibrator 9 is activated to shake the casing pipe 3! While doing so, the suspension rope 10-1 is wound up by the winch 12.13 on the ship. This (from this), when the casing pipe 3 and sand pump 4 are pulled out by a certain height, sand/
! The sand around the cavity formed in 15 collapses.

After collecting this collapsed sand, as shown in FIG. 2(c), the casing pipe 3 is completely pulled out while operating the vibrator 9 to vibrate the casing pipe 3.

Then, move to the next sand sampling point and repeat the above sampling process once again.

In this way, the silt layer 1 can be
4 by the amount penetrated by the casing pipe 3, the silt layer 14 of the pond is reduced to 1. Silt layer 1 in the current state
This has the effect of efficiently collecting the sand 15a below 4.

In particular, since the sand pump 4 operates by directly penetrating into the sand layer 15, it has the effect of significantly improving the efficiency of sand extraction compared to the conventional arrangement of the pump on a ladder. It can be made into something.

Incidentally, in contrast to the pump sand content ratio of the conventional pump arranged on a ladder, which is approximately 0%, in the method of directly penetrating the sand layer 15 with the sand pump 4 of this embodiment,
A pump gold sand rate of 25% or more can be obtained.

Furthermore, when the sand pump 4 directly penetrates into the sand layer 15, there is an advantage that the increase in suction resistance due to the increase in the depth of the sand sampling section is small, and sand can be efficiently sampled even at great depths.

Further, by separating the sand pump 4 from the casing pipe 3 and lowering it to a deep depth to extract sand, there is an advantage that sand extraction can be carried out at great depths with a small device.

Furthermore, since the sand pump 4, casing pipe 3, etc. can be accommodated on board, there is also the advantage that maintenance of each member is facilitated.

In this embodiment, the center well 1a and the shelter 2 are provided in the hull 1, but in a normal dredger or crane ship that has a hatch at the end of the hull, the existing facilities are installed in the shelter 2. It may be used instead.

Further, the jet water pipe (not shown) inside the casing pipe 3 may be a fixed vibrator integrated with the casing pipe 3, or the jet water hose 8 may be extended as is and used as a jet wood pipe.

〔Effect of the invention〕

As detailed above, the sand sampling boat of the present invention is equipped with a sand pump suspended by a first winch on the boat, and a sand hose connected to the sand pump, and a second sand pump on the boat. A simple structure in which a casing pipe for penetrating the seabed silt layer is suspended via a rope by a winch, and the sand pump is disposed so that it can descend along the inside of the casing pipe, penetrates the silt layer. By simply removing a small amount of silt, the sand beneath the silt layer can be collected efficiently. In addition, by directly penetrating the sand layer with the sand pump, pump efficiency can be greatly improved and sand can be collected at great depths. Furthermore, since sand can be collected while the sand pump is separated from the casing pipe and lowered independently, there is also the advantage that sand can be collected to extremely deep depths even with a small VC device. Another advantage is that maintenance of each member is easy.

[Brief explanation of drawings]

Figure 1.2 shows a sand sampling boat as an embodiment of the present invention. Figure 1 is a schematic cross-section of the ship, and Figure 2 (a)
~(e) are schematic cross-sectional views of main parts for explaining the sand sampling state, RJS3 is a side view of a conventional sand sampling vessel, and Figure 4 is a side view of another conventional sand sampling vessel. FIG. 1...Hull, 1a...Centerwell, 2...Living, 3...
Casing pipe, 4... Sand pump, 5... Geno) water pump, 6a, 6b... Jet water nozzle, 7...
Sand hose, 8... Jet water hose, 9... Exciter, 10... Hanging rope for casing pipe, 11... Hanging rope for sand pump, 12... First winch, 12a... rj
fJl pulley, 13--m2 winch, 13a...1
52 slip II+, 14...silt layer, 14a...silt, 15...sand layer, 15a...sand.

Claims (1)

[Claims] A casing pipe for penetrating a seabed silt layer, which is equipped with a sand pump suspended by a first winch on a ship and a sand hose connected to the sand pump, and is suspended via a sling by a second winch on a ship. A sand sampling vessel, characterized in that the sand pump is disposed so as to be able to descend along the inside of the casing pipe.