KR970001451B1 - Purification apparatus for sea bottom soil - Google Patents

Abstract

Purification apparatus for sea bottom soil consists of a stirring device(2)in a ship and a recovery frame(5) which is pulled by a wire rope of the ship. The stirring device is located in a storage tank of the ship in which hydrated lime and clay are mixed with sea water and the mixed water is discharged with air by motor(3)to an injection device(6) in the recovery frame(5). The recovery frame is contacted with the surface of sea bottom soil and injects the mixed water on sea bottom soil and backward through the nozzle(64)(65) of the injection device(6) to mix the sea bottom soil and the mixed water.

Description

Subsea Tidal Purifier

1 is an overall conceptual diagram of the present invention.

Figure 2 is a front sectional view of the stirring means constituting the present invention.

3 is a perspective view of a collecting frame and an injection mechanism constituting the present invention.

4 is a partial front cross-sectional view of a collecting frame of the present invention.

5 is a side cross-sectional view of the injection mechanism of the present invention.

* Explanation of symbols for main parts of the drawings

1: motor 2: stirring means

3: motor pump 4: wire

5: collection frame 6: injection mechanism

7: connecting hose 23: reservoir

25: stirring blade 27: filter plate

51: bottom plate 51a: through hole

52: frame 56: weight part

57: network 62: introduction tube

63: spiral groove 64, 65: nozzle

The present invention relates to an apparatus for purifying a seabed tidal flat, and in particular, by recovering various solid contaminated sediments accumulated in the seabed tidal flat, and supplying clay, slaked lime and oxygen to the tidal flat, thereby purifying tidal flats and improving their viability. will be.

Recently, various fish, shellfish, and seaweeds have been farmed in coastal waters due to the development of fisheries technology. However, due to industrial pollution, urban sewage, shipboard wastes, etc., especially in tidal flats, farming productivity is deteriorating day by day. It is a well known fact.

Contaminated seawater can recover to some extent by the currents such as turbulence and the Korean wave, but oxygen deficiency occurs in the seabed tidal flats where contaminants are deposited.As a result of anaerobic bacteria and protozoa, sewage and pollutants Intermediates, such as methane (CH ₄ ), ammonia (HN ₄ ), hydrogenated hydrogen (H ₂ S), and low molecular weight fatty acids, are decomposed and produced. Disrupting and providing the root cause of toxic red tide, destroying marine ecosystems such as disruption of fish stocks.

In particular, the aquaculture industry has become impossible due to the tidal-pollution that cannot be farmed in the above-mentioned settled aquatic organisms, for example, bivalve shells such as shellfish and oysters, seaweed such as seaweed, seaweed and seaweed. Measures to improve self-sustainability are required.

The mud flat is composed of clay originating in minerals such as sand of fine particles by coastal erosion, lime of dead algae and siliceous skeleton, and when the various contaminants and solid deposits described above are accumulated, Inhibiting the growth of plankton leads to the loss of food chains, eventually causing red tide phenomena, such as ecosystem destruction by eutrophication of seawater.

As an appropriate countermeasure in the case of the above-mentioned red tide phenomenon, an example of extinction of the red tide phenomenon by applying clay to seawater and alkalizing acidified tidal flats has been announced. It has also been reported that some degree of productivity improvement has been achieved by the recovery of self-sustainability.

However, in the clay spreading method, the spreading efficiency of the clay is spread by a wide range of currents, and the spreading efficiency is lowered.In addition, solid contaminant deposits such as vinyl, metal cans, and wires accumulated on tidal flats cannot be recovered. The problem of not being pointed out is pointed out.

In view of the above-mentioned problems, the present invention provides an apparatus for purifying mud flats by actively supplying clay, slaked lime, and oxygen to a predetermined depth of tidal flats, and simultaneously recovering solid contaminated sediments accumulated in tidal flats. The purpose is to provide.

Still another object of the present invention is to make it possible to harvest various shellfish during the above-mentioned purification work, and thus to improve productivity and reduce labor load, especially from the modern harvesting method in shellfish farms.

In order to effectively achieve the above object, in the present invention, by installing the spray furniture in front of the recovery frame towed from the seabed, the mixed air and clay and calcined lime mixed water supplied from the ship to aeration sprayed with air below Preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 is an open view showing the overall configuration of the present invention purification device (F), the stirring means (2) for mixing clay and calcined lime stored by the motor (1) and the stirring end (2) The motor pump (3) for sucking the mixed seawater and pressurizing the air together with the air, and is connected to the hull provided with the stirring means (2) and the motor pump (3) by a wire (4) is forcibly towed to the upper surface of the seabed tidal flat, And a spraying mechanism (6) installed in front of the collecting portion (5) to collect the solid contaminated sediment, and sprayed to spray the mixed seawater supplied from the motor pump (3). Between the pump 3 and the connection hose 7 for connecting the injection mechanism 6 is provided with a selection adjusting unit 8 for restricting the operation on the ship.

Figure 2 shows the stirring means (2), a cylindrical reservoir (23) having an hopper type inlet (21) is formed on the upper side and an outlet (22) on the other side, and both sides of the reservoir (23) A stirring shaft 26 having a spiral stirring blade 25 which is axially installed between the central mold members 24 and 24 and whose water is formed on the outer surface of the outlet 22, and the reservoir 23 It is partitioned inside and consists of a trapping plate 27 formed by compacting the small holes 27a on the upper side of the clay and limestone to prevent movement of the discharge, and the stirring shaft 26 extending to the outside of the reservoir 23 At the end of the) is provided with a chain gear 28 is configured to receive the power of the motor 1 by the chain 29.

In addition, the outlet port 22 of one side of the reservoir 23 is connected to the pipe 31 by the pipe 31, so that the mixed seawater inside the reservoir 23 when the motor pump 3 is operated is discharged ( 22) and the suction through the pipe 31 is supplied to the injection mechanism 6 in front of the recovery (5) through the connection hose (7).

FIG. 3 shows the recovery frame 5 and the injection mechanism 6. In FIG. 4, the configuration of the recovery 5 is shown in a partial cross-sectional view, and in FIG. 5, a side cross-sectional view of the injection mechanism 6 is shown. Is shown.

The retrieval (5) is connected to a plurality of pipes, the lower surface of the frame 52 of the rectangular frame body having a bottom plate 51 formed with a plurality of holes 51a in a plurality of places, both sides of the frame 52 It is installed opposite to and fixed to the weight portion 56 and the rear circumference of the frame 52 is fixed to the weight portion 54 in the plurality of between the upper and lower fixing plate (53a, 53b) to the shaft 55, solid contaminated sediment It consists of a net body 57 for recovering.

In addition, the upper and lower sides of the frame 52 is fixed to the connecting rod 58 protruding forward, the injection mechanism 6 is installed between the connecting rod 58, the traction wire 4 connected in a line Is properly fixed to both sides of the connecting table 58 or the injection mechanism (6).

On the other hand, the injection mechanism (6) is an introduction pipe 62 having a connector 61, the end of the connection hose 7 extending from the motor pump 3 is firmly press-fitted, and the introduction pipe 62 It is fixedly installed at a predetermined interval on the rear side, and a spiral groove 63 is formed therein, and is composed of a plurality of nozzles 64 and 65 for returning mixed seawater.

Here, the nozzle 64 should be installed downward by 45 ° so as to spray the mixed seawater on the tidal flat, and another nozzle 65 may move the solid contaminated sediment supported from the tidal flat to the rear, that is, the net body 57. It should be installed in the horizontal direction so that the nozzle 65 is preferably installed in the center and both sides of the introduction pipe 62 and the nozzle 64 is located between them.

On the other hand, the predetermined position of the connection hose 7 for connecting between the motor pump 3 and the injection mechanism 6 should be provided with an on-off valve for selecting mixed seawater and supply on the ship, of course, for convenience of operation At the position where the on-off valve is installed, it is preferable to configure and install the selection adjusting unit 8 together with a switch or a timer for selectively turning on / off the motor 1 and the motor pump 3.

The purifier F of the present invention having such a structure is fixed to the stirring means 2 including the motor 1 and the motor pump 3 on the ship, and the number of times including the injection mechanism 6 is increased (5). In the state loaded on the ship will be moved to the area to be purified.

In the state of moving to the working position, first, the number of wastes (5) is put into the seabed and submerged in the mud flat. At this time, the worker increases or decreases the weight body 54 on both sides of the frame 52 in consideration of the depth of the water and the current. In the state where the collection frame 5 is seated on the tidal flat, the wire 4 is tightly fixed to the hull.

In such a seabed preparation state, the linear stirring means 2 supplies seawater to the reservoir 23 in which clay and slaked lime are appropriately supplied through the inlet 21, and simultaneously starts the motor 1, wherein the stirring side 26 ) Stirring blade 25 is rotated to move the supplied seawater to the left of the reservoir 23 in the drawing.

Therefore, the seawater in the reservoir 23 generates rapid turbulence while moving to the left side, so that the clay and limestone are evenly mixed, and pass through the pores 27a of the trapping plate 27, wherein the clay and slaked lime of coarse particles or Movement is prevented by the small hole 27a of the foreign matter contained in the seawater.

In the work preparation completion state described above, the purging operation is started by the movement of the hull and the extrusion of the motor pump 3, and during the movement (advancing) of the hull, the retrieval (5) causes the bottom plate 51 to come into contact with the mud flat. The state is advanced, at this time by the weight portion 56 overturning and supporting the recovery frame 5 is prevented.

In particular, since a plurality of through holes 51a are formed in the bottom plate 51 of the recovery 5, the lifting of the recovery frame 5 due to seawater resistance is actively prevented and towed to a more stable state.

In addition, when the mixed seawater is supplied with air from the motor pump 3 and injected through the nozzles 64 and 65 in the introduction pipe 62 of the injection mechanism 6, the nozzle 64 fixed to the tidal side is recovered. The front tidal flat in which the mold 5 moves is supported by the spraying force, and the nozzles 64 and 65 return the mixed seawater sprayed by the spiral grooves 63 therein to obtain an increase in the spraying force. do.

When the tidal flat is buoyed by the spraying force of the nozzle 64, solid contaminant deposits are also injured at the same time, and the injured solid contaminant deposits are moved rearward by the spraying force of the nozzle 65 installed horizontally to recover the frame ( 5) It is restrained by the back net 57.

The above operation can be used not only for the recovery of the seabed sediment but also for harvesting in the wastewater farm. The tidal flats dug by the nozzles 64 and 65 are sufficiently supplied with oxygen from the injected clay, limestone and aeration. When the supply is completed, the bottom plate 51 of the recovery frame 5 is pushed through the dug tidal flat, so it is returned to its original state.

Therefore, in the tidal flats, the oxidation of pollutants is promoted by the supply of mixed seawater and oxygen, so that the acidified tidal flats are restored to alkaline to control anaerobic bacteria or protozoa. At the same time, solid contaminant deposits are also removed, which greatly improves the viability of the tidal flats. do.

As described above, the present invention can ameliorate the tidal flats by mixing and aeration of clay and limestone, and at the same time perform the recovery of the seabed solid contaminated sediments, thereby improving the aquatic product productivity and preventing environmental pollution by improving the self-generating ability of the tidal flats. Of course, the harvesting of farmed shellfish can also be carried out at the same time, thereby minimizing labor load.

Claims (1)

In the inside of the reservoir 23 which is installed in the hull and is defined by the trapping plate 27 having the small holes 27a, the stirring shaft 26 having the stirring blades 25 is driven by the motor 1, Frame having a stirring means (2) for mixing the slaked lime with the supplied seawater, a motor pump (3) for pressurizing and ejecting the seawater mixed with the stirring means (2) together with air, and a mesh (57) at the rear ( 52 is provided with a bottom plate 51 including a through hole 51a at a lower portion of the frame 52, and a weight portion 56 is provided at both sides of the frame 52 to contact the seabed tidal flats by a wire 4 connected to the hull. The number of spirals (63) formed on the connecting rods (58) on both sides of the recovery frame (5) and the front of the recovery frame (5) is provided with a spiral (63) for the mixed seawater supplied from the motor pump (3) through the connection hose (7). Seabed tidal purifier characterized in that the injection mechanism (6) consisting of aeration spray to the tidal flat and the rear side through the nozzle (64, 65).