JP3670063B2 - Nori cleaning method and nori cleaning device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a laver cleaning method and a laver cleaning apparatus capable of preventing foreign matter from being mixed into the harvested laver when the laver is harvested from the laver net for cultivating the laver that is spread on the sea surface of the laver farm. About.
[0002]
[Prior art]
In general, seaweed culture is carried out by a floating method that attaches a float to a seaweed net and stretches it so that it floats on the surface of the sea, and stops it with a spear, or a pillar system that anchors a seaweed net to a pillar that stands in the sea. Yes. The appropriate use of both types is determined by the location conditions of the farm.
[0003]
On the other hand, in such seaweed culture, it is necessary to efficiently perform the work of cutting the seaweed from the seaweed net, the acid treatment work of the seaweed net, and the like. We propose a seaweed net acid treatment ship and a seaweed mowing acid treatment ship, which are called greek ships. In other words, while propelling itself by the power propulsion mechanism, the guide member whose tip is submerged in the sea is inserted below the seaweed net that is stretched on the sea surface, and the seaweed net is automatically rolled up continuously from the sea surface. In addition, the laver mowing mechanism, acid treatment mechanism, etc. provided on the hull work efficiently to save labor.
[0004]
[Problems to be solved by the invention]
By the way, as seen in the recent increase in awareness of environmental problems, various environmental pollutions are spreading, and even in the environment of laver farms in the vicinity of the coast, the environment is getting worse. The sea surface of the farm is very dirty, and many different types of suspended solids such as garbage can be seen.
[0005]
In the sea surface condition of such a seaweed farm, when the above-mentioned conventional seaweed work boat is used to cut the seaweed and so on, when the seaweed net is crawled from the sea surface to the hull, it is possible to remove dust etc. floating on the sea surface. Foreign matter, mainly suspended matter, adheres to the laver that has been propagated on the laver net, and the laver with the foreign matter adhered is cut from the laver net.
[0006]
That is, foreign matter is mixed in the laver cut from the laver net, and there is a problem that the quality of the laver is lowered in this state.
[0007]
In order to solve this problem, conventionally, the harvested laver is washed with water or the like to wash away foreign matters mainly floating matters. However, such a method has a problem that a great deal of labor and time are required and the removal of foreign matter is not sufficiently performed.
[0008]
Therefore, a method has been proposed in which foreign matter adhering to the laver grown on the laver net is removed by showering the laver net before mowing the laver sprinkled on the ship before harvesting the laver from the laver net. However, although this method can reduce labor and time, there is a problem in that the removal of foreign matters is not yet sufficient and the quality of laver is lowered.
[0009]
The present invention has been made in view of these points, and laver washing that can prevent inconvenience that foreign matters mainly composed of suspended matter floating on the sea surface adhere to the laver breeding on the laver net It is an object to provide a method and a laver washing apparatus.
[0010]
[Means for Solving the Problems]
In order to achieve the above-mentioned object, the feature of the laver washing method according to claim 1 of the present invention is that, when the laver net spread on the sea surface part is lifted up on the ship, and a cleaning fluid allowed to flow out in the sea from the seabed side of seaweed network for lies in that Ru is removing foreign matter in the sea. The seaweed nets that are stretched on the sea surface here include those that are stretched at almost the same position as the sea surface and those that are stretched near the sea surface and submerged in the sea.
[0011]
Then, by the outflow from the seabed side of seaweed network cleaning fluid in the sea against seaweed network which is stretched in the sea surface unit, by Rukoto to remove foreign matter in the sea, on board a laver network is stretched to the sea surface portion When scooping up, the foreign matter adhering to the seaweed net and the seaweed breeding on the seaweed net and the foreign matter already attached can be moved and separated around the seaweed net.
[0012]
The laver washing apparatus according to claim 2 of the present invention is characterized in that the washing fluid flows out from the seabed side into the sea with respect to the laver net that is arranged in front of the bow of the hull and is extended on the sea surface. by, there are a fluid outlet member having a plurality of nozzles which Ru is removing foreign matter in the sea, in that a structure and a pump for delivering the washing fluid into the fluid outlet member.
[0013]
By such a configuration, the cleaning fluid is delivered to the fluid outlet member by a pump, cleaning fluid sea from the seabed side of the sea moss network that have been stretched to the sea surface portion from the nozzle of the fluid outlet member in drained can Rukoto, so that foreign matter when scooping the laver network is stretched in the sea section on board, and foreign matter and have already adhered to adhere to seaweed being bred laver network and seaweed network Can be moved around the seaweed net and separated.
[0014]
Furthermore, the feature of the laver washing apparatus according to claim 3 of the present invention is that, in claim 2, the washing fluid is seawater.
[0015]
And by setting it as such a structure, the procurement of a cleaning fluid can be made easy.
[0016]
Still further, the laver washing apparatus according to claim 4 of the present invention is characterized in that, in claim 2 or claim 3, the fluid outflow member is different in the flow output of the washing fluid flowing out from the nozzle in the width direction of the laver net. It is in the point comprised as follows.
[0017]
And by setting it as such a structure, with respect to the seawater in a washing | cleaning site | part, the direction which moves the foreign material adhering to the laver net and the seaweed breeding in the laver net and the foreign material already adhering around the laver net A flow to can be formed.
[0018]
The laver washing device according to claim 5 of the present invention is characterized in that, in any one of claims 2 to 4, the flow output of the washing fluid flowing out from the nozzle is the center of the laver net in the width direction. The flow output of the cleaning fluid in the section is configured to be larger than the flow output of the cleaning fluid at the end in the width direction of the laver net.
[0019]
And by setting it as such a structure, with respect to the seawater in a washing | cleaning site | part, the direction which moves the foreign material adhering to the laver net and the seaweed breeding in the laver net and the foreign material already adhering around the laver net The flow to the can be more reliably formed.
[0020]
The seaweed washing apparatus according to claim 6 of the present invention is characterized in that, in any one of claims 2 to 5, the fluid outflow member has a portion located at a central portion in the width direction of the laver net. The point is that it is configured to be positioned in front of the traveling direction of the hull from the portion positioned at the end of the laver net in the width direction.
[0021]
And by setting it as such a structure, with respect to the seawater in a washing | cleaning site | part, the direction which moves the foreign material adhering to the laver net and the seaweed breeding in the laver net and the foreign material already adhering around the laver net It is possible to more reliably form the flow to
[0022]
Further, the laver washing device according to claim 7 of the present invention is characterized in that a plurality of washing fluids flow out from the seabed side with respect to a laver net disposed at a front position of the bow part of the hull and extended on the sea surface part. The fluid outflow member provided with the nozzle and a pump for sending the cleaning fluid to the fluid outflow member, and the fluid outflow member has different flow outputs of the cleaning fluid flowing out from the nozzle in the width direction of the laver net It is in the point comprised as follows.
[0023]
And by setting it as such a structure, a washing fluid is sent to a fluid outflow member with a pump, and it is a seabed side with respect to the laver net before ascending on the ship extended from the nozzle of the fluid outflow member on the sea surface part. As a result, the foreign matter adhering to the laver net and the laver breeding on the laver net and the foreign matter already adhering to the laver net can be moved and separated around the laver net. Further, the fluid outflow member moves the foreign matter adhering to the laver net and the laver breeding in the laver net to the seawater at the washing site and moving the foreign matter already adhering around the laver net. Can be formed.
[0024]
The laver washing device according to claim 8 of the present invention is characterized in that a plurality of washing fluids flow out from the seabed side with respect to a laver net that is arranged in front of the bow of the hull and is extended on the sea surface. A fluid outflow member having a nozzle and a pump for sending the cleaning fluid to the fluid outflow member, wherein the cleaning fluid is seawater, and the fluid outflow member outputs the flow of the cleaning fluid flowing out of the nozzle Is different in the width direction of the laver net.
[0025]
And by setting it as such a structure, a washing fluid is sent to a fluid outflow member with a pump, and it is a seabed side with respect to the laver net before ascending on the ship extended from the nozzle of the fluid outflow member on the sea surface part. As a result, the foreign matter adhering to the laver net and the laver breeding on the laver net and the foreign matter already adhering to the laver net can be moved and separated around the laver net. Furthermore, seawater can facilitate the procurement of cleaning fluid. Furthermore, the fluid outflow member flows in a direction to move the foreign matter adhering to the seaweed net and the seaweed breeding on the seaweed net and the foreign matter already adhering to the seaweed at the washing site. Can be formed.
[0026]
The laver washing device according to claim 9 of the present invention is characterized in that, in claim 7 or 8, the flow output of the washing fluid flowing out from the nozzle is the washing fluid in the center of the laver net in the width direction. Is configured to be larger than the flow output of the cleaning fluid at the end in the width direction of the laver net.
[0027]
And by setting it as such a structure, with respect to the seawater in a washing | cleaning site | part, the direction which moves the foreign material adhering to the laver net and the seaweed breeding in the laver net and the foreign material already adhering around the laver net The flow to the can be more reliably formed.
[0028]
The laver washing device according to claim 10 of the present invention is characterized in that, in any one of claims 7 to 9, the fluid outflow member is located at a central portion in the width direction of the laver net. Is configured so as to be positioned in front of the traveling direction of the hull from the portion positioned at the end of the laver net in the width direction.
[0029]
And by setting it as such a structure, with respect to the seawater in a washing | cleaning site | part, the direction which moves the foreign material adhering to the laver net and the seaweed breeding in the laver net and the foreign material already adhering around the laver net It is possible to more reliably form the flow to
[0030]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0031]
FIG. 1 is a configuration diagram showing the overall configuration of an example of an embodiment of a laver washing apparatus according to the present invention to which the laver washing method according to the present invention is applied.
[0032]
As shown in FIG. 1, the laver washing device 1 according to the present embodiment supplies a washing fluid (not shown) to the laver (not shown) that is propagated on the laver net 2 that is spread on the sea surface. As shown by an arrow A in FIG. 1, a fluid outflow member 4 including a plurality of nozzles 3 that flows out from the seabed side (below the laver net 2) of the laver net 2 is provided. One end of a supply pipe 5 for supplying the cleaning fluid to the fluid outflow member 4 is connected to a desired position of the fluid outflow member 4, and the other end of the supply pipe 5 supplies the cleaning fluid to the fluid outflow member 4. Is connected to a pump 6 for delivery at a desired pressure. And the pump 6 in this Embodiment is connected to one end of a water absorption pipe 7 for drawing seawater as a cleaning fluid from the sea. The supply pipe 5 and the water absorption pipe 7 may be selected from pipe materials, hose materials, and the like as necessary. The cleaning fluid may be selected from various fluids such as air, seawater mixed with air, and the like as necessary. In the case of using air, seawater mixed with air, or the like as the cleaning fluid, a compressor, a high-pressure gas tank or the like (not shown) may be provided.
[0033]
The fluid outflow member 4 will be specifically described with reference to FIG.
[0034]
FIG. 2 is a plan view showing an example of a fluid outflow member of the laver washing apparatus according to the present invention to which the laver washing method according to the present invention is applied.
[0035]
As shown in FIG. 2, the fluid outflow member 4 of the present embodiment has a main body 8 formed in a substantially V-shaped plane. The main body 8 is a plane substantially T-shape located at a connecting portion (a V-shaped bent portion of the main body 8) between a pair of upper and lower pipe portions 9 shown in the vertical direction in FIG. And a supply unit 10 formed on the surface. The pipe portion 9 is provided with a plurality of nozzles 3 at appropriate intervals, and the free end of the pipe portion 9 is closed by welding or the like. Further, each nozzle 3 in the present embodiment has the same nozzle diameter that allows the cleaning fluid to flow out. Then, one end of the supply pipe 5 is connected to the connection portion 10.
[0036]
Further, the fluid outflow member 4 of the present embodiment is a front portion indicated by an imaginary line in FIG. 2 for scooping up a laver net 2 that is spread on a sea surface portion attached to a work ship 11 described later. The guide member 12 is used by being attached to the distal end portion.
[0037]
The shape of the fluid outflow member 4 is not limited to the V shape, and may be selected from various shapes such as a U shape as necessary.
[0038]
Here, the work ship 11 carrying the laver washing device 1 of the present embodiment will be described with reference to FIGS.
[0039]
FIG. 3 is a front view showing a main part of a work ship equipped with a laver washing apparatus according to the present invention, and FIG. 4 is a plan view.
[0040]
As shown in FIG. 3 and FIG. 4, the work boat 11 in the present embodiment is arranged on the upstream side in the traveling direction of the hull 13 and the hull 13, scoops up the laver net 2 from the sea surface, and the upper part of the hull 13 from the bow to the stern. It has a guiding means 14 for guiding in the direction and a conventionally known cutting mechanism 15 arranged at the approximate center of the hull 13, and an appropriate power propulsion mechanism 16 is arranged at the stern portion of the hull 13. . The power propulsion mechanism 16 is efficient because it can be propelled by itself when it is arranged to reciprocate to a seaweed farm, but it may not be necessary.
[0041]
More specifically, pipe-shaped guide means 14 is provided on the upper part of the deck of the hull 13. The guide means 14 is formed of a front guide member 12 and an upper guide member 17 called corners. The front guide member 12 is formed in a substantially U-shaped plane, and the U-shaped curved tip is immersed in the sea at a desired inclination angle from the bow, and the other end is a suitable support member facing downward. 19a stands on the deck, and is attached to the upper guide member 17 so as to be detachable and rotatable by appropriate engaging means such as a bolt (not shown). Further, the upper guide member 17 is formed by two pipes 18 and 18 arranged in parallel with the traveling direction of the hull 13 above the left and right side of the hull 13, and the two pipes 18 and 18 are .. Are fixed to the hull 13 by a plurality of support members 19b, 19b... Orthogonal to the traveling direction of the hull 13.
[0042]
The upper guide member 17 forms a continuous curve or straight line with the front guide member 12 so that the laver net 2 scooped up by the front guide member 12 is smoothly guided to the rear part of the hull 13. It is configured as follows.
[0043]
The widths of the front guide member 12 and the upper guide member 17 are preferably substantially the same as the width of the laver net 2 or larger than the width of the laver net 2.
[0044]
As described above, the front guide member 12 can be divided and rotated at the engaging portion with the upper guide member 17 by appropriate engaging means such as a bolt (not shown). The front guide member 12 can be lifted from the sea during reciprocation to the field, is not subject to seawater resistance, and is preferable in the sense of preventing damage and destruction of the front guide member 12 during berthing, Even if everything is fixed without being divided, there is essentially no problem. The front guide member 12 is not limited to a U-shape, and is not limited to a U-shape, and may be any shape as long as the laver net 2 floating on the sea surface such as a V-shape can be smoothly raised as the work boat 11 advances. It is not something. For example, the front end portion of the front guide member 12 may be horizontally parallel to the sea surface as shown by a solid line in FIG. 3 or in the sea without a horizontal portion as shown by a chain line in FIG. You may form so that it may sag diagonally.
[0045]
A storage portion (not shown) for harvesting the harvested seaweed is provided at the rear of the hull 13, and the seaweed cut by the mowing mechanism 15 slides on the deck inclined toward the storage portion. It is stored in the storage unit.
[0046]
In addition, a wheelhouse (not shown) is provided at the rear end of the hull 13, and the height of the wheelhouse does not hinder travel on the upper guide member 17 of the laver net 2. It is lower than the height, and a control unit for commanding and managing the operation of the cutting mechanism 9 and the pump 6 of the laver washing device 1 is provided in the steering chamber, and all operations are performed in this steering chamber. .
[0047]
Furthermore, the fluid outflow member 4 of the laver washing device 1 of the present embodiment is attached to the upper surface of the front end portion of the front guide member 12 of the work boat 11, and the present embodiment is provided near the stern of the hull 13. The pump 6 of the laver washing apparatus 1 of the form is arrange | positioned. The fluid outflow member 4 and the pump 6 are connected by a supply pipe 5. One end of a water absorption pipe 7 is connected to the pump 6, and the other end of the water absorption pipe 7 is along the side of the hull 13. It is arranged so as to be immersed in the sea.
[0048]
In addition, as the work boat 11, you may mount a conventionally well-known acid processing mechanism (not shown), and perform the acid treatment to the laver net 2 after cutting the laver.
[0049]
Next, the operation of the present embodiment configured as described above will be described.
[0050]
In the laver cutting operation, the power propulsion mechanism 16 of the work boat 11 is operated to propel itself to one end of the desired laver net 2 that is spread on the sea surface of the seaweed farm, and then the power propulsion mechanism 16 is stopped. . Then, the front guide member 12 rotated on the deck of the hull 13 or the like is immersed below the sea surface so as to face one end of the desired laver net 2 extended on the sea surface. At this time, since the fluid outflow member 4 of the laver washing device 1 is attached to the upper surface of the front guide member 12, it is immersed under the sea surface together with the front guide member 12.
[0051]
Next, the power propulsion mechanism 16 of the hull 13 is operated again to propel itself toward the other end of the laver net 2, and the laver washing device 1 and the cutting mechanism 15 are activated. Then, in the laver washing device 1, the pump 6 is driven and the water absorption pipe 7 pumps up seawater as a cleaning fluid, and the pumped seawater is supplied to the supply unit 10 of the fluid outflow member 4 through the supply pipe 5. The seawater supplied to the supply unit 10 of the fluid outflow member 4 flows out (discharges) from the plurality of nozzles 3 provided in the pipe unit 9 when reaching the pipe unit 9 of the fluid outflow member 4.
[0052]
By the seawater flowing out from the plurality of nozzles 3 of the fluid outflow member 4, foreign matter is removed from the laver that has propagated in the laver net 2 before scooping up, and then the front guide member 12 whose tip is submerged below the sea surface. Thus, the laver net 2 is continuously sprinkled, and the laver net 2 is guided toward the stern along the upper guide member 17 along with the self-propulsion of the hull 13 and moved along the upper guide member 17. 2 is continuously cut by a cutting mechanism 15 disposed at a substantially central portion of the hull and stored in a storage unit (not shown) of the hull 13, and then the laver net 2 is connected to the hull 13. Return to the sea again from the stern.
[0053]
Explaining further the removal of foreign matter by the fluid outflow member 4, the seawater discharged from the plurality of nozzles 3 is discharged from the seabed side to the laver net 2 before scooping up on the ship that is stretched on the sea surface, The foreign matter adhering to the seaweed net 2 and the seaweed breeding on the seaweed net 2 and the foreign matter already attached can be moved around the seaweed net 2 and separated.
[0054]
That is, the laver washing device 1 of the present embodiment forcibly forms a sea current by discharging seawater from the nozzle 3, and the seaweed net before being scooped up on the ship that is spread on the sea surface by this sea current. It is possible to separate a foreign matter made of floating matter or the like adhering to 2 or floating around the laver net from the laver and reliably move it to the outside of the laver net 2.
[0055]
Moreover, in the laver washing | cleaning apparatus 1 of this Embodiment, it is set as the structure from which the flow output (discharge force) of the seawater discharged from each nozzle 3 differs with the distance from the supply part 10 to each nozzle 3. FIG. That is, the discharge force of the seawater discharged from the nozzle 3 close to the supply unit 10 is the discharge of seawater discharged from the nozzle 3 provided closer to the supply unit 10 depending on the distance from the supply unit 10 to each nozzle 3. It is comprised so that force may become large, and the flow output of the seawater discharged from the nozzle 3 in the center part of the width direction of the laver net 2 in a washing | cleaning state by providing the supply part 10 in the center site | part of the fluid outflow member 4 Can be made larger than the flow output of seawater discharged from the nozzle 3 at the end of the laver net 2 in the width direction.
[0056]
Therefore, the ocean current formed by the seawater discharged from each nozzle 3 is formed from the center in the width direction of the laver net 2 toward both ends in the width direction of the laver net 2 in the washed state, thereby Can be moved more reliably to the outside in the width direction of the laver net.
[0057]
In addition, as a structure which can vary the flow output of the seawater discharged from each nozzle 3 in the width direction of the laver net 2, the nozzle diameter of each nozzle 3 may be different. In this case, the position of the supply unit 10 can be set to an arbitrary position. Moreover, it is good also as a structure which combined the position of the nozzle 3 with respect to the supply part 10, and the nozzle diameter of each nozzle 3. FIG.
[0058]
Furthermore, the fluid outflow member 4 has the supply unit 10 positioned at the center in the width direction of the laver net 2 in the washed state positioned at the forefront in the traveling direction of the hull 13, and at the end of the laver net 2 in the width direction. The V-shape in which the free end of the pipe portion 9 is positioned on the bow side of the hull 13, that is, the portion located in the center in the width direction of the laver net 2 is the end in the width direction of the laver net 2. Since it is formed so as to be located in front of the moving direction of the hull 13 from the position where it is located, the ocean current formed by the seawater discharged from each nozzle 3 removes foreign matter from the laver net 2 like a V-shaped scraper. The flow in the direction of moving around can be more reliably formed, and the foreign matter can be moved more reliably to the outside in the width direction of the laver net.
[0059]
Therefore, according to the laver washing device 1 of the present embodiment, foreign matter is not mixed into the harvested laver, and high-quality laver can be reliably obtained. Moreover, since seawater is used as the cleaning fluid for cleaning the laver, the cleaning fluid can be easily procured at the work site.
[0060]
In addition, this invention is not limited to embodiment mentioned above, A various change is possible as needed.
[0061]
For example, the front end portion of the front guide member 12 constituting the guide means 14 may be used as the fluid outflow member 4, or the guide means 14 may be used as the supply pipe 5 that supplies seawater to the fluid outflow member 4.
[0062]
【The invention's effect】
As described above, according to the laver washing method and laver washing apparatus of the present invention, the sea current is forcibly formed by discharging sea water from the nozzle, and the sea current crawls on the ship that is spread on the sea surface. It is possible to reliably remove foreign substances such as dust attached to the seaweed net before raising or floating around the seaweed net from the seaweed, so high quality seaweed can be obtained. There is an extremely excellent effect.
[Brief description of the drawings]
FIG. 1 is a configuration diagram showing an overall configuration of an example of an embodiment of a laver cleaning apparatus according to the present invention to which a laver cleaning method according to the present invention is applied. FIG. 2 is a book to which a laver cleaning method according to the present invention is applied. The top view which shows an example of embodiment of the fluid outflow member of the seaweed cleaning apparatus which concerns on invention. FIG. 3 The front view which shows the principal part of an example of embodiment of the working ship carrying the seaweed cleaning apparatus which concerns on this invention. FIG. 4 is a plan view of FIG.
DESCRIPTION OF SYMBOLS 1 Nori washing apparatus 2 Nori net 3 Nozzle 4 Fluid outflow member 5 Supply pipe 6 Pump 7 Water absorption pipe 8 Main body 9 Pipe part 10 Supply part 11 Work ship 12 Front guide member 13 Hull

Claims (10)

When scooping the laver network is stretched in the sea section on board, and the cleaning fluid allowed to flow out in the sea from the seabed side of laver network against seaweed network which is stretched in the sea section, to remove foreign matter in the sea A laver cleaning method characterized by that. And a cleaning fluid allowed to flow out in the sea from the seabed side of the nori network which is stretched in the sea portion is disposed in front of the bow section of the hull, the fluid outlet comprising a plurality of nozzles which Ru is removing foreign matter in the sea A laver washing device comprising: a member and a pump for sending a washing fluid to the fluid outflow member.   The laver washing apparatus according to claim 2, wherein the washing fluid is seawater.   The laver washing device according to claim 2 or 3, wherein the fluid outflow member is configured such that a flow output of the washing fluid flowing out from the nozzle is different in a width direction of the laver net.   The flow output of the cleaning fluid flowing out from the nozzle is configured so that the flow output of the cleaning fluid at the center in the width direction of the laver net is greater than the flow output of the cleaning fluid at the end in the width direction of the laver net. The laver washing apparatus according to any one of claims 2 to 4, wherein the laver washing apparatus according to any one of claims 2 to 4.   The fluid outflow member is configured such that a portion located in the center portion of the laver net in the width direction is positioned ahead of the portion located in the width direction end portion of the laver net in the traveling direction of the hull. The laver washing device according to any one of claims 2 to 5, wherein the laver washing device according to any one of claims 2 to 5 is characterized. A fluid outflow member provided with a plurality of nozzles for discharging the cleaning fluid from the seabed side to a laver net arranged in front of the bow of the hull and extending on the sea surface, and the cleaning fluid to the fluid outflow member A laver washing device, wherein the fluid outflow member is configured such that the flow output of the washing fluid flowing out from the nozzle is different in the width direction of the laver net. A fluid outflow member provided with a plurality of nozzles for discharging the cleaning fluid from the seabed side to a laver net arranged in front of the bow of the hull and extending on the sea surface, and the cleaning fluid to the fluid outflow member The cleaning fluid is seawater, and the fluid outflow member is configured such that the flow output of the cleaning fluid flowing out from the nozzle is different in the width direction of the laver net. Nori cleaning equipment. The flow output of the cleaning fluid flowing out from the nozzle is configured so that the flow output of the cleaning fluid at the center in the width direction of the laver net is greater than the flow output of the cleaning fluid at the end in the width direction of the laver net. The laver washing device according to claim 7 or 8, wherein The fluid outflow member is configured such that a portion located in the center portion of the laver net in the width direction is positioned ahead of the portion located in the width direction end portion of the laver net in the traveling direction of the hull. The laver washing device according to any one of claims 7 to 9, wherein the laver washing device according to any one of claims 7 to 9 is characterized.

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