KR102499840B1 - The ship is equipped with devices using loess red tide removal - Google Patents

Abstract

The present invention relates to a ship equipped with a red tide removal device using ocher that uses ocher to remove red tide distributed in surface water of the sea by using ocher, and more particularly, by spraying ocher liquid into surface water flowing between ships made of catamarans to reduce red tide Or it relates to a ship equipped with a red tide removal device using ocher to remove green algae.

Description

The ship is equipped with devices using loess red tide removal}

The present invention relates to a ship equipped with a red tide removal device using ocher that uses ocher to remove red tide distributed in surface water of the sea by using ocher, and more particularly, by spraying ocher liquid into surface water flowing between ships made of catamarans to reduce red tide Or it relates to a ship equipped with a red tide removal device using ocher to remove green algae.

Red tide refers to a phenomenon in which plankton suddenly reproduces in great numbers and changes the color of seas, rivers, canals, and lakes. The plankton that causes the red tide is the most common phytoplankton, such as diatoms and flagellates, and cyanobacteria or protists such as noctiluca and mesodinium. Red tides may also occur.

The biggest cause of such red tide is eutrophication of water, that is, too much organic nutrients in water. In the past, phosphorus contained in soaps and detergents was a problem, but recently, due to coastal development, it is difficult to maintain an appropriate level of microbes or plankton in the water through various organisms living in the tidal flats due to the decrease in tidal flats. It is assumed to occur more frequently.

Once the red tide occurs, the dissolved oxygen concentration in the water is lowered, so fish and shellfish that breathe using oxygen in the water are suffocated to death or are killed by toxic algae. Therefore, when a red tide occurs, it not only gives a big blow to fisheries, especially aquaculture, but also may show poisoning symptoms by ingesting fish and shellfish in which toxic substances are accumulated.

In particular, in the case of Korea, red tides occur frequently every summer, and red tide damage of over 10 billion won is occurring in the southern coastal area, so preparations for this are urgently needed.

As for the red tide removal methods that have been implemented so far, the method of spraying copper sulfate and the method of spraying ocher were mainly performed, but the method of spraying copper sulfate was ineffective, and the method of spraying ocher was directly spraying ocher into the sea. Or, it is carried out by spraying ocher liquid, and the effect is considerable, so it is mainly used.

However, the method using the loess requires a large amount of loess to be input because the mixing rate of red tide and loess is low, and the vessel must be mixed while moving left and right to mix the loess and red tide, and the size of the vessel is not diverse, so it cannot be used. There was a problem, such as a limitation in the range that exists.

Therefore, it is necessary to develop a vessel for removing red tide that can increase the removal rate of red tide by improving the mixing rate of loess and red tide sprayed to the surface of the sea, and the width of the left and right sides of the vessel can be adjusted so that it can be used in various terrains. am.

1. Registered Patent Publication No. 10-1028175 'Ship-type red algae and algae removal device having loess spray function' (application date: 2009.06.16) 2. Registered Patent Publication No. 10-0968503 'Ship-mounted submarine sediment removal system for preventing red tide' (application date: 2008.05.06) 3. Registered Patent Publication No. 10-0767189 'Ship type red elimination device and method' (application date 2007.08.02)

The present invention has been made to solve the above problems, and adjusts the amount of ocher sprayed on the surface of the sea according to the moving speed of the ship or the concentration of red tide, and the mixing rate of red tide and loess through a separate mixing screw It is an object of the present invention to provide a ship equipped with a red tide removal device capable of maximizing red tide and green algae removal efficiency by improving

A ship equipped with a red tide removal device using the loess of the present invention includes a first hull 110; A second hull 120 disposed to advance in the same direction as the first hull 110 and spaced apart from the first hull 110 at a predetermined interval; A connection part 200 connecting the first hull 110 and the second hull 120 so that the first hull 110 and the second hull 120 move forward while maintaining a constant distance from each other; It is provided between the first hull 110 and the second hull 120, and an inlet 310 into which surface water flows in and an outlet 320 facing the inlet 310 are formed on one side, and the inlet surface water Mixing unit 300 for mixing and discharging surface water through the outlet 320; It is characterized in that it includes; ocher liquid spraying device 400 for spraying ocher liquid to the mixing unit 300.

In the present invention, the connecting portion 200 is connected to one side and the other side are fixed to the first hull 110 and the second hull 120, respectively 210; It consists of a bottom plate 220 fixed to the connecting table 210 and having a certain area so that the loess liquid spraying device 400 is seated on the upper surface, but the first hull 110 and the second hull 200 It is characterized in that the length of the connecting rod 210 can be adjusted to adjust the spaced distance of

In order to adjust the distance between the first hull 110 and the second hull 120, length adjusting means 230 are formed on both sides of the connecting rod 210, respectively, and the length adjusting means 230 is A screw nut 231 formed at the end of the connecting rod 210; A support 232 spaced apart from the screw nut 231 in a horizontal direction and fixed to the first hull 110 or the second hull 120; A screw 233 having one side rotatably fixed to the support 232 and the other side fastened to the screw nut 231 to connect the first hull 110 or the second hull 120 and the connecting rod 210. ); The screw nut 231 moves in the horizontal direction along the screw 233 and rotates the screw 233 to adjust the distance between the first hull 110 and the second hull 120 1 drive unit 234; characterized in that it includes.

In addition, according to the present invention, the mixing unit 300 includes a top plate 330 fixed to the connecting table 210; a lower plate 340 spaced apart from the upper plate 330 at a predetermined interval in a downward direction; Control plates 350 having upper and lower ends fastened to the upper plate 330 and the lower plate 340 and having a corrugated shape such that the length is adjusted according to the distance between the upper plate 330 and the lower plate 340; Supported and rotated by the first bracket 331 formed on the side surface of the upper plate 330, the second bracket 341 formed on the side surface of the lower plate 340, and the first bracket 331 and the second bracket 341 and a second drive unit 360 for adjusting the spaced distance between the upper plate 330 and the lower plate 340 so as to adjust the inflow of surface water,

A mixing unit 500 in the mixing unit 300 adjacent to the inlet 310 to mix the surface layer water introduced into the mixing unit 300 and the ocher liquid and then discharge the mixed surface water through the outlet 320; It is characterized in that is further installed.

In the present invention, a plurality of ribs 370 pointing in different directions are protrudingly formed on the inner surface of the mixing unit 300 so that the inflowed surface water and the sprayed ocher liquid are smoothly mixed.

The lower end of the inlet 310 prevents surface water from being lost to the lower side of the mixing unit 300 when surface water is introduced into the inlet 310 by the driving force of the first vessel 110 and the second vessel 120. It is characterized in that it is formed so as to protrude more than the top to prevent it.

In addition, the ocher liquid spraying device 400 of the present invention includes a mixing tank 410 equipped with an agitator 411 for mixing ocher and water; An input hopper 420 for injecting loess into the mixing tank 410; a water supply pump 430 supplying water to the mixing tank 410; A discharge pump 440 for discharging the loess liquid mixed with water in the mixing tank 410 at a constant pressure; A connection pipe 450 that is connected to the discharge pump 440 and receives yellow soil liquid; a nozzle 460 for spraying the loess liquid moved from the connection pipe 450 into the mixing unit 300; The control unit 470 controls the discharge amount of the discharge pump 440 and the supply amount of the water supply pump 430, and adjusts the input amount of the input hopper 420 according to the ocher liquid discharged through the discharge pump 440. );

The control unit 470 is characterized in that it adjusts the injection amount of the loess liquid injected into the nozzle 460 according to the moving speeds of the first hull 110 and the second hull 120.

In addition, the loess liquid spraying device 400 further includes a concentration meter 480 for measuring the concentration of red tide, and the nozzle 460 is configured to spray the amount of ocher liquid according to the concentration of red tide measured by the concentration meter 480. The size of the outlet 461 of the nozzle 460 can be adjusted to adjust the

Each bow of the first hull 110 and the second hull 120 rotates in the horizontal direction to control the inflow of surface water flowing between the first hull 110 and the second hull 120 It is characterized in that the inlet control plate 610 and the third drive unit 620 for adjusting the rotation direction and rotation angle of the inlet control plate 610 are installed.

In the present invention, in the mixing unit provided between the first hull and the second hull, mixing of the loess liquid and the surface water containing the red tide is smoothly performed, and the sprayed loess liquid is adjusted according to the moving speed of the ship or the concentration of the red tide, The red tide removal efficiency can be improved.

In addition, the present invention has the advantage that the inflow amount of surface water flowing between the first hull and the second hull can be changed according to the terrain to be used by adjusting the distance between the first hull and the second hull.

1 is a perspective view showing the overall appearance of the present invention.
Figure 2 is a plan view showing an embodiment of the mixing unit of the present invention.
Figure 3 is a partial perspective view showing the main configuration of the connection part of the present invention.
Figure 4 is a side view showing an embodiment of the mixing unit of the present invention.
5 is a side view showing an embodiment of a mixing unit and a mixing unit according to the present invention;
Figure 6 is a side cross-sectional view showing an embodiment of a rib provided inside the mixing unit of the present invention.
Figure 7 is a partial perspective view showing a mesh network installed in the inlet of the present invention.
8 is a schematic view showing the main configuration of the ocher liquid spraying device of the present invention.
9 is a side view showing an embodiment of the nozzle of the present invention.
10 is a plan view showing a state of use of the inlet control plate of the present invention.
Figure 11 is a partial perspective view showing an embodiment of the inlet control plate of the present invention.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.

Figure 1 is a perspective view showing the overall appearance of the present invention, Figure 2 is a plan view showing one embodiment of the mixing unit of the present invention, Figure 3 is a partial perspective view showing the main configuration of the connection unit of the present invention, Figure 4 is a mixing unit of the present invention Figure 5 is a side view showing one embodiment of the mixing unit and mixing unit of the present invention, Figure 6 is a side cross-sectional view showing an embodiment of a rib provided inside the mixing unit of the present invention, Figure 7 is a side view showing an embodiment of the present invention A partial perspective view showing a mesh network installed at the inlet of the present invention, Figure 8 is a schematic view showing the main configuration of the loess liquid spraying device of the present invention, Figure 9 is a side view showing an embodiment of the nozzle of the present invention, Figure 10 is the inlet of the present invention A plan view showing a state of use of the control plate, FIG. 11 is a partial perspective view showing an embodiment of the inlet control plate of the present invention.

Referring to FIG. 1 , a ship equipped with a red tide removal device using loess of the present invention has a first hull 110 and a second hull 120 having constant buoyancy so as to float on the surface of the ocean. The first hull 110 and the second hull 120 are spaced apart from each other at regular intervals and are arranged side by side so as to advance in the same direction as each other.

Referring to FIG. 1 , a connection part 200 for connecting the first hull 110 and the second hull 120 is formed. The connection part 200 has the purpose of supporting the first hull 110 and the second hull 120 so that the first hull 110 and the second hull 120 move forward while maintaining a constant distance from each other.

And, a mixing unit 300 is provided between the spaced first hull 110 and the second hull 120. The mixing unit 300 is submerged to a certain depth below the surface of the ocean, and forms a shape in which one side and the other side are open. That is, one side of the mixing unit 300 has an inlet 310 through which surface water of the ocean flows in, and an open discharge port 320 is formed on the other side of the mixing unit 300 so as to face the inlet 310 . Therefore, the surface water introduced into the inlet 310 according to the movement of the first hull 110 and the second hull 120 can be discharged through the outlet 320.

In addition, a ocher liquid spraying device 400 for spraying ocher liquid to the mixing unit 300 is additionally provided. The loess liquid spraying device 400 may be provided on the upper surface of the first hull 110, the second hull 120, or the connection part 200, and is in front of the inlet 310 of the mixing part 300 or the inlet 310. ) and can spray ocher liquid at a location adjacent to it.

An embodiment of the mixing unit 300 will be described with reference to FIG. 2 . The length D1 of the left and right widths of the inlet 310 of the mixing unit 300 may be greater than the length D2 of the left and right widths formed by the outlet 320 . That is, when viewed from the top, the mixing unit 300 may be formed in a trapezoidal shape. Since the area of the outlet 320 is smaller than the area of the inlet 310, a vortex phenomenon may occur inside the mixing unit 300 while the surface water and loess liquid flowing into the mixing unit 300 move in the direction of the outlet 320. there is. Therefore, mixing of the surface water and loess liquid can be smoothly performed, and since the surface water and loess liquid discharged from the outlet 320 can provide driving force to the first hull 110 and the second hull 120, the ship It can provide economic effect in operation.

Referring to FIG. 1 , the connecting portion 200 includes a connecting table 210 and a bottom plate 220 . The connecting rod 210 may have a predetermined thickness and extend in a left-right direction, that is, in a direction in which the first hull 110 and the second hull 120 are spaced apart. At this time, one side and the other side of the connector 210 are fixed to the side surfaces of the first hull 110 and the second hull 120, respectively. And, the bottom plate 220 forming a plate shape having a predetermined thickness and a predetermined area is seated on the upper surface of the connecting rod 210 . At this time, it is preferable that a plurality of connectors 210 are formed at regular intervals to support the bottom plate 220 . The loess liquid spraying device 400 may be seated on the upper surface of the bottom plate 220 .

On the other hand, the connecting rod 210 adjusts the distance between the first hull 110 and the second hull 120 to adjust the inflow amount of surface water flowing between the first hull 110 and the second hull 120, By adjusting the length of the left and right widths formed by the first hull 110 and the second hull 120, an additional effect that can be used near the coast or between reefs is provided.

Referring to FIG. 3 , length adjusting means 230 are formed on both sides of the connecting rod 210 to adjust the distance between the first hull 110 and the second hull 120 . It is preferable that each length adjusting means 230 is formed in plurality according to the number of connecting rods 210 .

The length adjustment means 230 includes a screw nut 231, a support 232, a screw 233 and a first driving unit 234. The length adjusting means 230 described below is for the length adjusting means 230 formed on one side of the connecting rod 210 adjacent to the first hull 110, and the length adjusting means 230 is on one side and the other side of the connecting rod 210. are formed in each

The screw nut 231 is formed at the end of the connecting rod 210 and has a through hole (not shown) formed in the center thereof. It is preferable that a screw thread is formed on the inner surface of the through hole. In addition, the screw nuts 231 are formed on one side and the other side of the connecting rod 210, respectively.

The support 232 is spaced apart from the screw nut 231 by a predetermined distance in the horizontal direction. At this time, the support 232 may be fixed to the first hull 110 and the second hull 120, respectively.

The screw 233 is formed to extend in a rod shape having a predetermined thickness, and one side is fixed to the support 232 so as to rotate about the direction in which it extends. At this time, a screw thread engaged with the thread of the through hole is formed on the outer surface of the screw 233 . Therefore, the other side of the screw 233 is inserted into the through hole of the screw nut 231, so that the first hull 110 and the connecting rod 210 can be connected to each other.

The first driving unit 234 has the purpose of rotating the screw 233 . That is, when the first driving unit 234 rotates the screw 233, the screw nut 231 engaged with the thread of the screw 233 moves in one direction or the other direction of the screw 233 according to the direction of rotation of the screw 233. do. At this time, since the screw nut 231 and the connecting rod 210 are integrally formed, the connecting rod 210 can move away from or get closer to the first hull 110 along with the movement of the screw nut 231 . Therefore, the distance between the first hull 110 and the second hull 120 can be adjusted due to the operation of the first driving unit 234 .

Meanwhile, a support bearing 235 for supporting the screw 233 may be additionally provided between the support 232 and the screw nut 231, and the connecting rod 210 and the screw are provided on the side of the first hull 110. A seating groove 236 into which the nut 231 can be inserted and supported may be formed.

On the other hand, the first drive unit 234 includes a drive motor 234-1 operated by receiving power from the outside, a first gear 234-2 connected to the drive motor 234-1, and a first gear 234-1. 1) and a second gear 234-3 formed on the screw 233 to rotate the screw 233. It is preferable that the first gear 234-2 and the second gear 234-3 are bevel gears, and the drive motor 234-1 is made of a servo motor or step motor capable of changing rotational direction. good night. Referring to (b) of FIG. 3 , a housing portion 240 surrounding the length adjusting means 230 may be further provided so that the length adjusting means 230 is not exposed to the outside, and due to the housing portion 240 The length adjusting means 230 can prevent damage or damage caused by external factors. In addition, the length of the housing part 240 may be adjusted correspondingly according to the length adjustment of the length adjusting means 230 .

Referring to FIG. 4 , the mixing unit 300 includes an upper plate 330 , a lower plate 340 , a control plate 350 and a second driving unit 360 . The upper plate 330 is fixed to the connecting rod 210 on the upper surface. At this time, the top plate 330 and the connecting rod 210 may maintain a spaced apart state by a predetermined interval. The lower plate 340 maintains a state spaced apart from the upper plate 330 by a predetermined interval in the downward direction.

In addition, the control plate 350 is provided between the upper plate 330 and the lower plate 340, and the lower plate 340 moves in the vertical direction to have a corrugated shape whose length is adjusted so that the area of the inlet 310 can be adjusted. have

At this time, a first bracket 331 is formed on the side surface of the upper plate 330 and a second bracket 341 is formed on the side surface of the lower plate 340 .

The second drive unit 360 includes a screw 361 having one side penetrating the first bracket 331 and the second bracket 341 and a drive motor 362 formed at one end of the screw 361 . When the screw 361 passes through the second bracket 341, a threaded through hole (not shown) is formed on the inner surface of the second bracket 341, and a thread corresponding thereto is formed on the screw 361. . Accordingly, when the drive motor 362 rotates the screw 361, the second bracket 341 can move vertically along the screw 361. The drive motor 362 may also be made of a servo motor or a step motor.

Referring to FIG. 5 , a mixing unit 500 may be further provided at a position adjacent to the inlet 310 of the mixing unit 300 . The mixing unit 500 has the purpose of increasing the mixing rate by mutually stirring the surface water and loess liquid flowing into the inlet 310, and by discharging the introduced surface water and loess liquid into the outlet, the first hull 110 and the second hull 110 It has another purpose to provide power to the hull 120.

The mixing unit 500 includes a stirring fan 510 located inside the mixing unit 300 and a drive motor 520 and a drive motor 520 that receive power from the outside to provide rotational force to rotate the stirring fan 510. ) and a connection portion 520 connecting the stirring fan 510. The connecting portion 520 may be formed of a bevel gear according to the direction in which the stirring fan 510 is facing and transmit the rotational force of the driving motor 520 to the stirring fan 510 .

Referring to FIG. 6 , a plurality of ribs 370 protrude from the inner surface of the mixing unit 300 . The plurality of ribs 370 are formed in different directions, that is, in an irregular pattern. As a result, the mixing of the surface water and the yellow soil liquid introduced into the mixing unit 300 is smoothly performed, thereby maximizing the removal rate of red tide.

Referring to FIG. 6, the lower end of the inlet 310 may be formed to protrude more than the upper end of the inlet 310, which is directed to the inlet 310 by the driving force of the first vessel 110 and the second vessel 120. It is formed to prevent loss of surface layer water to the lower side of the mixing unit 300 when surface layer water flows in. In addition, the ocher liquid is sprayed from the front of the inlet 310, and the lower end of the inlet 310 protrudes further, thereby preventing the ocher liquid from being lost.

In addition, referring to FIG. 7 , a mesh network 710 may be formed in front of the inlet 310 to prevent foreign substances having a certain size from flowing into the mixing unit 300 . The mesh network 710 may be slid into and fixed to fixing brackets 720 formed on the left and right sides of the inlet 310, respectively. Therefore, when replacing or cleaning the mesh network 710, it can be easily detached by sliding upward.

Referring to FIG. 8, the loess liquid spraying device 400 includes a mixing tank 410 equipped with an agitator 411 for mixing loess and water, an input hopper 420 for injecting loess into the mixing tank 410, and a mixing tank. A water supply pump 430 for supplying water to 410 and a discharge pump 440 for discharging the loess liquid mixed with water in the mixing tank 410 at a constant pressure are provided. And it further includes a connection pipe 450 connected to the discharge pump 440 to receive the ocher liquid and a nozzle 460 for spraying the ocher liquid moved from the connection tube 450 into the mixing unit 300. . In addition, the control unit 470 adjusts the discharge amount of the discharge pump 440 and the supply amount of the water supply pump 430, and adjusts the input amount of the input hopper 420 according to the loess liquid discharged through the discharge pump 440 And a loess loading unit 401 for storing and accommodating loess may be further provided.

At this time, the control unit 470 may adjust the injection amount of the loess liquid discharged through the nozzle 460, and the loess liquid sprayed to the nozzle 460 according to the moving speed of the first hull 110 and the second hull 120. adjust the injection amount. That is, when the moving speed of the first hull 110 and the second hull increases, the injected amount of the loess liquid increases because the inflowing surface water increases, and conversely, when the moving speed decreases, the spraying amount of the loess liquid can be reduced. .

In addition, referring to FIGS. 8 and 9 , the loess liquid spraying device 400 further includes a concentration measuring device 480 . The concentration meter 480 is connected to the controller 470. The concentration meter 480 measures the concentration of red tide distributed in front of the first hull 110 and the second hull 120, and transmits the measured data to the control unit 470 to transmit the nozzle 460 through the control unit 470. ) Adjust the size of the discharge port 461. Therefore, the injection amount of the ocher liquid can be adjusted according to the diameter of the discharge port 461 . And, referring to (c) of FIG. 8 , the nozzle 460 may have a fan shape so that the discharged loess liquid is sprayed over a wide area, and thus the loess liquid can be uniformly distributed on the surface of the water.

9 and 10, in each bow of the first hull 110 and the second hull 120, to control the inflow amount of surface water flowing between the first hull 110 and the second hull 120 An inflow control plate 610 for is formed.

The inflow control plate 610 can be rotated in the horizontal direction, but it is preferable to rotate only in the direction opposite to the direction in which the mixing unit 300 is located based on the traveling direction of the first hull 110 and the second hull 120. do. Since this is installed to maximize the inflow of surface water flowing into the mixing section 300 when the first hull 110 and the second hull 120 move forward, it is preferable to limit the rotation angle as described above. And, a third drive unit 620 for adjusting the rotation direction and rotation angle of the inflow control plate 610 may be provided inside the first hull 110 and the second hull 120, and the third drive unit 620 is controlled through the controller 470 or a separate controller. In addition, a guide rib 611 for guiding the movement of surface water to the mixing unit 300 may be additionally provided at the lower end of the inflow control plate 610 .

The present invention according to such a configuration has the advantage of improving the efficiency of removing red algae and green algae by smoothly mixing the loess liquid and the surface water containing red algae.

110: first hull 120: second hull
200: connection unit 210: connection unit
220: bottom plate 230: length adjustment means
231: screw nut 232: support
233: screw 234: first driving unit
300: mixing unit 310: inlet
320: outlet 330: top plate
340: lower plate 350: control plate
360: second driving unit 370: rib
400: loess liquid spraying device 410: mixing tank
420: input hopper 430: water supply pump
440: discharge pump 450: connection pipe
460: nozzle 470: control unit
480: concentration meter 500: mixing unit
610: inlet control plate 620: third driving unit

Claims (11)

First hull 110;
A second hull 120 disposed to advance in the same direction as the first hull 110 and spaced apart from the first hull 110 at a predetermined interval;
The first hull 110 and the second hull 120 are spaced apart at regular intervals, and the first hull 110 and the second hull 120 are integrally connected to each other 200;
It is provided between the first hull 110 and the second hull 120, and an inlet 310 into which surface water flows in and an outlet 320 facing the inlet 310 are formed on one side, and the inlet surface water Mixing unit 300 for mixing and discharging surface water through the outlet 320;
Including; ocher liquid spraying device 400 for spraying ocher liquid to the mixing unit 300,
The connection unit 200 includes a connecting rod 210 having one side and the other side fixed to the first hull 110 and the second hull 120, respectively; It consists of a bottom plate 220 fixed to the connecting table 210 and having a certain area so that the ocher liquid spraying device 400 is seated on the upper surface, but the first hull 110 and the second hull 120 The length of the connecting rod 210 can be adjusted to adjust the spaced distance of
The mixing unit 300 includes a top plate 330 fixed to the connecting table 210; a lower plate 340 spaced apart from the upper plate 330 at a predetermined interval in a downward direction; Control plates 350 having upper and lower ends fastened to the upper plate 330 and the lower plate 340 and having a corrugated shape such that the length is adjusted according to the distance between the upper plate 330 and the lower plate 340; Supported and rotated by the first bracket 331 formed on the side surface of the upper plate 330, the second bracket 341 formed on the side surface of the lower plate 340, and the first bracket 331 and the second bracket 341 A second driving unit 360 for adjusting the distance between the upper plate 330 and the lower plate 340 so as to adjust the inflow of surface water according to the above; A ship equipped with a red tide removal device using loess, characterized in that it includes a . delete According to claim 1,
Length adjustment means 230 provided on both sides of the connecting rod 210 to adjust the distance between the first hull 110 and the second hull 120; and
Further comprising a housing portion 240 that surrounds the outside of the length adjusting means 230 exposed to the outside and corresponds to the adjusted length of the length adjusting means 230,
The length adjusting means 230 includes a screw nut 231 formed at an end of the connecting rod 210;
A support 232 spaced apart from the screw nut 231 in a horizontal direction and fixed to the first hull 110 or the second hull 120;
A screw 233 having one side rotatably fixed to the support 232 and the other side fastened to the screw nut 231 to connect the first hull 110 or the second hull 120 and the connecting rod 210. );
The screw nut 231 moves in the horizontal direction along the screw 233 and rotates the screw 233 to adjust the distance between the first hull 110 and the second hull 120 1 driving unit 234; a ship equipped with a red tide removal device using loess, characterized in that it includes. delete According to claim 1,
A mixing unit 500 in the mixing unit 300 adjacent to the inlet 310 to mix the surface layer water introduced into the mixing unit 300 and the ocher liquid and then discharge the mixed surface water through the outlet 320; A ship equipped with a red tide removal device using ocher, characterized in that further installed. According to claim 1,
A red tide removal device using loess, characterized in that a plurality of ribs 370 directed in different directions are protruded from the inner surface of the mixing unit 300 so that the inflowed surface water and the sprayed loess liquid are smoothly mixed. ships equipped with According to claim 1,
The lower end of the inlet 310 prevents surface water from being lost to the lower side of the mixing unit 300 when surface water flows into the inlet 310 by the driving force of the first hull 110 and the second hull 120. A ship equipped with a red tide removal device using ocher, characterized in that it is formed to protrude more than the top to prevent. According to claim 1,
The loess liquid spraying device 400
A mixing tank 410 equipped with an agitator 411 for mixing loess and water;
An input hopper 420 for injecting loess into the mixing tank 410;
a water supply pump 430 supplying water to the mixing tank 410;
A discharge pump 440 for discharging the loess liquid mixed with water in the mixing tank 410 at a constant pressure;
A connection pipe 450 that is connected to the discharge pump 440 and receives yellow soil liquid;
a nozzle 460 for spraying the loess liquid moved from the connection pipe 450 into the mixing unit 300;
The control unit 470 controls the discharge amount of the discharge pump 440 and the supply amount of the water supply pump 430, and adjusts the input amount of the input hopper 420 according to the ocher liquid discharged through the discharge pump 440. );
A ship equipped with a red tide removal device using ocher, characterized in that it comprises a. According to claim 8,
The control unit 470 adjusts the spray amount of the loess liquid sprayed to the nozzle 460 according to the moving speed of the first hull 110 and the second hull 120. Red clay removal device using loess, characterized in that ships equipped with According to claim 8,
The nozzle 460 is formed in a fan shape so that the loess liquid is sprayed in a radial direction,
The ocher liquid spraying device 400 further includes a concentration meter 480 that measures the concentration of red tide, and adjusts the opening of the discharge port 461 of the nozzle 460 to adjust the injection amount of the ocher liquid according to the concentration of red tide. A ship equipped with a red tide removal device using ocher, characterized in that. According to claim 1,
Each bow of the first hull 110 and the second hull 120 rotates in the horizontal direction to control the inflow of surface water flowing between the first hull 110 and the second hull 120 A vessel equipped with a red tide removal device using ocher, characterized in that an inflow control plate 610 and a third drive unit 620 for adjusting the rotation direction and rotation angle of the inflow control plate 610 are installed.

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