JP2009225664A - Boats-towing type jellyfish-catching and processing system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a jellyfish-catching, processing, and recovering system which can efficiently catch, process, recover, and exterminate Echizen jellyfish massively growing in Japan Sea, flow in ocean currents, fill up sea areas, and move northward, from summer to autumn, and can give large effects. <P>SOLUTION: Provided are a wire cut treatment system for towing a plurality of fishing boats to increase a towing force, and cutting the jellyfish with wires longitudinally and latitudinally extended in the front and rear portions of a body frame or on the front and rear sides thereof by the use of the increased towing force, and a jellyfish cutter catching treatment system for utilizing a towing water pressure generated by towing an article sunk in sea to rotate a water wheel, and rotating cutters disposed on the shaft of the water wheel to cut the caught jellyfish. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a multiple vessel towed jellyfish capture processing system.

  From the summer to autumn in the Japanese sea area, a small net is generated by a single fishing boat until now, against Echizen jellyfish that grows up to about 2 meters and feeds the fish in the sea area northward along with the ocean current. A wire etc. was stretched inside, and it was cut and captured by trolling work, etc., but the sea area where the jellyfish floats is in a wide range and there is no slip.

  Moreover, jellyfish capture processing cannot be done with the current technology, requires a lot of time and effort, hopes that the jellyfish will flow away quickly without expecting the effect, and the fish is the food of jellyfish Inevitably, the catch of fish will inevitably decrease, and even if fish caught in the jellyfish is cheap, it will not sell, and even if the catch increases, the catch will continue to fall. The fishermen's lives at this time are also difficult times, and even if they do fishing, their lives will be lost and they will become life-threatening problems.

  Many jellyfish, such as Echizen jellyfish, have a certain depth and arbitrary depth from the sea surface using multiple ship towing methods in order to capture and recover jellyfish that fill a wide area in the sea deep from the sea surface in a wider range. The water depth can be set from a certain depth to a certain depth, and jellyfish can be captured and recovered.

For this method, a fleet can be assembled to capture and collect on a large scale, or the jellyfish capture process and the capture process that does not require collection and towing of the jellyfish that have been processed and can be shared. Since the jellyfish recovery amount is also considerable using medium-sized vessels, the recovery towed vessels can be captured using various methods, such as using medium-sized and large vessels. Regardless, it is a jellyfish capture processing recovery system that can perform jellyfish capture processing in a wide range of sea areas and produces a large capture processing effect.

  A guide net for capturing more jellyfish by towing multiple ships is equipped with a buoy for the guide net at the top of the guide net to capture jellyfish floating horizontally under the sea surface. It is a structure that can widen and widen the opening of the guide net by attaching a guide net weight.

  In addition, in order to set the capture standard at an arbitrary water depth, by connecting a wire or rope with a length of arbitrary water depth between the guide net buoy and the guide net, a guide network and processing that can set an arbitrary water depth In order to avoid damaging the main body of the processing machine to the seabed and to reduce the towing load on the towed ship due to the weight of the processing equipment, a buoy is attached and floated with a wire or rope, It is a processing machine that can set the arbitrary water depth by connecting the wire or rope of the length.

  As a jellyfish processing method, in order to cut and kill the jellyfish captured by the towing force of the towing vessel, a wire or the like was stretched in the front and rear, front or rear, vertical and horizontal and vertical or horizontal of the main body of the processing machine. When a tow is carried out by submerging an object underwater and in the sea with a wire cut processing machine, the tow water pressure is applied to the object, but a water wheel is used to convert the tow water pressure into a power source for rotational motion. There are blade bucket turbines in the shape of blades or bowls in the shape of a bowl.

  It is a structure that rotates the water turbine by collecting it at the water inlet of the bucket water turbine that generates high torque that releases the towing water pressure and forcibly passing it, and by rotating the cutter blade provided on the shaft of the water turbine , Jellyfish cutter processing machine that cuts and kills jellyfishes and a collection network for collection purposes, and is used when allocating fleets and performing allocating operations for capture and recovery in large-scale jellyfish capture processing operations A depth setting type recovery network with a recovery network connected to a recovery network to recover untreated jellyfish and processed jellyfish, and a depth setting type recovery network having the same structure as this. It is a connected multiple ship towed jellyfish capture processing system.

  Most of the current ships that are offshore are equipped with GPS (position confirmation system), receive jellyfish information from artificial satellites, and based on that, fleets are assembled from small ships to large ships, and jellyfish capture processing It is possible to recover and recover a healthy sea area by using a method that shares the recovery work and various methods, and can efficiently recover and remove jellyfish, and an increase in fish catch can be expected.

  Embodiments of the present invention will be described below with reference to FIGS.

  FIG. 1 is an assembly drawing of a bucket turbine, which shows a bucket 1, a bucket holder 2, a turbine arm 3, and a turbine boss 4 for taking out rotational motion from the bucket turbine 5. The bucket turbine 5 is assembled from these.

  FIG. 2 shows a half casing A <b> 7 of the bucket turbine unit 11 and a bucket turbine unit mounting hole 6 of the bucket turbine unit 11.

  FIG. 3 shows a half casing B <b> 8 of the bucket turbine unit 11 and a bucket turbine unit mounting hole 6 of the bucket turbine unit 11.

  FIG. 4 is a top view of the bucket turbine unit 11, which is assembled by cascading the casing A7 and the casing B8 with the turbine bearings 11 attached to the turbine bosses 4 on both sides of the bucket turbine 5. When the casing A7 and the casing B8 are assembled and assembled, the water inlet 9 and the water outlet 10 are configured. When the amount of water is small, a large water inlet may be provided outside.

  The running water of the bucket water turbine unit 11 is drained from the drain port 10 through the water guide port 9, and as determined in this drawing, a casing part composed of the casing A 7 and the casing B 8, and the bucket Since the gap in the bucket 1 portion of the water turbine 5 is small and can catch the flowing water more reliably than the blades such as the plate blades, the energy conversion can be performed with high efficiency and high torque using the flowing water energy as rotational energy. It is possible to drive the load.

  FIG. 5 is a front view of the bucket water turbine unit 11, and the width of the unit itself is thin and the structure is simple.

  FIG. 6 is a top view of the cutter-type jellyfish processor main body 28, which has one bucket turbine unit 11 on each side of the rear part of the cutter-type jellyfish processor frame 15, and a horizontal shaft 17 connected to it. The cutter mounting flange 18 is mounted, and the vertical cutter mounting flange 29 is mounted on the vertical shaft 42 connected to the four bucket turbine units 11 at the front upper part of the horizontal axis cutter 19 and the cutter type jellyfish processing machine frame 15 attached thereto. In addition, a side cover 16 is attached to protect the bucket turbine unit 11 which is configured by a vertical axis cutter 21 attached thereto and attached to both sides of the rear portion of the cutter type jellyfish processing machine frame 15. In this drawing, the cutter type wire mesh top plate 43 and the cutter type wire mesh side plate 44 and the cutter type wire mesh bottom A state in which removal of the 45.

  A trailing towing fitting 24 and a trailing guide net fitting 25 are attached to the rear part of the cutter type jellyfish processing machine frame 15, a main body lifting fitting 26 and a buoy fitting 27 are provided on the upper part, and a towing is provided on the front face. A metal fitting 22 and a guide network metal fitting 23 are attached, and the captured jellyfish is cut vertically and horizontally by the horizontal axis cutter 19 and the vertical axis cutter 21 and flows to the rear part of the cutter type jellyfish processing machine frame 15.

  FIG. 7 is a front view of the cutter type jellyfish processing machine main body 28, and the bucket turbine unit 11 for the vertical axis cutter 21 is mounted in the cutter type jellyfish processing machine frame 15 and drives the vertical axis cutter 21. Although a dust filter is not attached, if necessary, a dust filter may be provided with a structure that allows dust to flow upward with respect to the vertical turbine. Further, it is only necessary to provide a dust filter having a structure in which dust flows outward in the horizontal axis water wheel. In this drawing, the cutter-type wire mesh top plate 43, the cutter-type wire mesh side plate 44, and the cutter-type wire mesh bottom plate 45 are removed.

  FIG. 8 is a front view of the buoy 32 attached to the cutter type jellyfish processor main body 28. The buoy fitting metal 27 attached to the upper part of the cutter type jellyfish processor frame 15 of the cutter type jellyfish processor main body 28 has a buoy attachment wire or By connecting the buoy 32 connected by the rope 33, the cutter type jellyfish main body 28 can set the water depth without sinking to the sea floor, and the main body of the cutter processor for the towing vessel 36 towing this. This structure increases the jellyfish processing capacity by reducing the towing load caused by the weight of the jellyfish. In this drawing, the cutter-type wire mesh top plate 43, the cutter-type wire mesh side plate 44, and the cutter-type wire mesh bottom plate 45 are removed.

  FIG. 9 shows a jellyfish cutter capture processing system 77, which performs a jellyfish scavenging operation with two tow vessels 36 with a tow wire or rope 34 on the front and a guide net 35 on the top, bottom, left and right. It is a system used when performing capture cutting and killing processing, sharing the capture processing work and the recovery work, and also a method of discarding jellyfish in the sea area to feed other fish, etc. Since there is no load to tow the jellyfish, it is possible to increase the speed of the towed ship, and the faster the towed ship 36 travels, the faster the water flow through the water inlet 9 of the bucket turbine unit 11 will be, Since the bucket turbine 5 in the bucket turbine unit 11 also rotates faster, the processing capacity of the jellyfish sweeping operation inevitably increases proportionally.

  FIG. 10 shows a jellyfish cutter capture processing / recovery system 78. A recovery net 37 is attached to the rear part of the cutter type jellyfish processing machine body 28, and jellyfish scavenging work is performed on two towed vessels 36 to perform capture cutting killing processing. Cutter-type single-stage recovery type jellyfish processing with a structure that collects the gelatinous material possessed by jellyfish as marine resources as natural resources such as food and cosmetics, using a collection net 37, so as not to pollute the ocean with the jellyfish System.

  FIG. 11 is a capture processing system used in the sharing work. The difference from the jellyfish cutter capture processing system 77 is that the cutter-type jellyfish is disposed at the rear of the cutter-type jellyfish processing machine main body 28 in order to cut the jellyfish further. The following cutter type jellyfish processing machine main body 38 similar to the processing machine main body 28 is attached, the subsequent guide net 40 and the subsequent towing wire or rope 41 are connected to the front surface, and the jellyfish scavenging work is carried out by the two towing vessels 36. This is a system that connects the subsequent cutter-type jellyfish processing machine body 38 and cuts the jellyfish that has been cut and killed to a smaller size, and also discards the captured jellyfish in the sea area to feed fish is there.

  FIG. 12 shows a jellyfish cutter capture two-stage processing / recovery system 80. The difference from the jellyfish cutter capture / recovery system 78 is that the jellyfish cutter capture processing / recovery system 78 has a similar structure at the rear part of the cutter type jellyfish processor main body 28 in order to cut the jellyfish even smaller. The recovery net 37 is connected to the rear portion of the subsequent cutter type jellyfish processing machine main body 38 configured as described above, and the jellyfish subjected to the cutting and killing process is further cut into smaller pieces by the succeeding subsequent jellyfish processing machine main body 38 and captured. This is a system to recover the gelatinous material of jellyfish as a natural resource such as food and cosmetics in order to prevent marine pollution by the jellyfish.

  FIG. 13 is a front view of the wire pulley 49, and a wire pulley mounting hole 50 is provided at the center.

  FIG. 14 is a right side view of the wire pulley 49, where a wire pulley mounting hole 50 is provided at the center, and the pulley groove is processed at a right angle with respect to the wire pulley mounting hole 50.

  FIG. 15 is a front view of the wire tension bolt 51, which has a tension bolt wire through hole 52 at the head portion and a wire tension bolt screw portion 53 for pulling the wire 57 at the rear portion.

  FIG. 16 is a right side view of the wire tension bolt 51, which has a tension bolt wire through hole 52 at the square head portion and a wire tension bolt screw portion 53 for pulling the wire 57 at the rear portion.

  FIG. 17 is a view of the starting wire attachment, in which the wire 57 is passed through the oval sleeve 56 which is a connecting tool of the wire 57, and the wire 57 and the wire fitting bracket oval sleeve 56 are passed through the starting block 54 in the wire cutter body frame 63. Through and press-contact connection processing.

  FIG. 18 is an end-point wire attachment diagram, in which the wire 57 is passed through the wire connection fitting oval sleeve 56 which is a connection tool of the wire 57, and the tension bolt wire through hole 52 of the wire tension bolt 51 and the wire connection fitting oval sleeve 56 are passed. Then, the wire tension bolt 51 is passed through the end point block 58 in the wire cutter body frame 63, and the flat wire washer 59 and the spring washer 60 are inserted, and a single wire 57 is stretched by the nut 61. Structure.

  FIG. 19 is a top view of a wire-type jellyfish processing machine, and a wire-type single-stage processing / recovery-type jellyfish processing machine, a wire-type two-stage processing marine waste-type jellyfish processing machine, and a wire-type two-stage For use as a processing recovery type jellyfish processing machine, a trailing towing fitting 24 and a trailing guide net fitting 25 are attached, a main body lifting fitting 26 and a buoy fitting 27 are provided at the top, and a towing is provided at the front. A metal fitting 22 and a guide network metal fitting 23 are attached and flowed to the rear part of the wire cutter body frame 63.

  FIG. 20 is a front view of a wire type jellyfish processing machine, where a towing bracket 22 and a guide net bracket 23 are provided in the front four sides of the wire cutter body frame 63, and an arbitrary number of wires are provided on the inside thereof. The pulley 49 is attached, and the pressure connection process is performed through the wire 57 to the starting point block wire through hole 55.

  Then, one wire 57 is hung on each of the vertical and horizontal wire pulleys 49, passed through the tension bolt wire through hole 52 of the wire tension bolt 51, and subjected to press contact connection processing with the oval sleeve 56. The structure is such that the tension of a single wire 57 stretched vertically and horizontally by a nut 61 after inserting a flat washer 59 and a spring washer 60 is passed through an end point block 58 in a wire cutter body frame 63.

  FIG. 21 is a front view of the wire-type water depth setting buoy attachment, and the difference from the cutter-type water depth setting buoy attachment of FIG. Description is omitted.

  FIG. 22 shows a wire cutter capture processing system 81, which has the same structure as the cutter type one-stage processing marine waste type jellyfish processing machine of FIG. 9, but has a slightly lower processing capacity than the cutter type for cost reduction. The difference is only that the cutter type jellyfish processing machine main body 28 is changed to the wire type jellyfish processing machine main body 62, and the description thereof will be omitted.

  FIG. 23 shows a wire cutter capture processing recovery system 82, which has the same structure as the cutter type one-stage processing recovery type jellyfish processing machine of FIG. 10, but has a slightly lower processing capacity than the cutter type for cost reduction. The difference is only that the cutter type jellyfish processing machine main body 28 is changed to the wire type jellyfish processing machine main body 62, and the description thereof will be omitted.

  FIG. 24 shows a wire cutter capture two-stage processing system 83, which has the same structure as the cutter-type two-stage processing marine waste type jellyfish processing machine of FIG. However, the difference is that the cutter jellyfish processor main body 28 and the subsequent cutter jellyfish processor main body 38 are changed to a wire jellyfish processor main body 62 and a subsequent wire jellyfish processor main body 67, and the description thereof is omitted. However, in order to increase the subsequent processing capability, the subsequent cutter type jellyfish processing unit main body 38 can be connected instead of the subsequent wire type jellyfish processing unit main body 67.

  25 shows a wire cutter capture two-stage processing / recovery system 84, which has the same structure as the cutter-type two-stage processing / collection type jellyfish processing machine shown in FIG. 12, and has a slightly higher processing capacity than the cutter type for cost reduction. However, the difference is that the cutter-type jellyfish processor main body 28 and the subsequent cutter-type jellyfish processor main body 38 are changed to a wire-type jellyfish processor main body 62 and a subsequent wire-type jellyfish processor main body 67, so that the description is omitted. .

  FIG. 26 shows a jellyfish cutter capture processing / recovery system 78 with a recovery net 34, a jellyfish cutter capture two-stage process / recovery system 80, a wire cutter capture / recovery system 82, and a wire cutter capture / two-stage process / recovery system 84. By attaching guide net buoys 73 to the front left and right of the upper part of the opening 35 and attaching the guide net weights 74 to the left and right front of the lower part of the opening to be floated on the sea surface, it is recovered to a certain depth from the sea level. This is a method of capturing and recovering jellyfish by expanding the opening of the net 34. Similarly, the jellyfish cutter capturing two-stage processing recovery system 80 and the wire cutter capturing two-stage processing recovery system 84 can also recover the jellyfish by this method. It can be done.

  FIG. 27 shows how to set the jellyfish cutter capture processing recovery system 78, the wire cutter capture processing recovery system 82, the jellyfish cutter capture two-stage processing recovery system 80, and the wire cutter capture two-stage processing recovery system 84 to an arbitrary depth. In addition, the guide net water depth setting wire or the rope 75 is connected to the guide net buoy 73 on the left and right in front of the opening of the guide net 35, and the length is added to the buoy attachment wire or the rope 33 and arbitrarily added. The jellyfish is captured and recovered by expanding the opening from the depth of the water to a certain depth, and the jellyfish cutter capturing two-stage processing recovery system 80 and the wire cutter capturing two-stage processing recovery system 84 are similarly used in this method. Can be captured and recovered.

  In FIG. 28, the jellyfish cutter capture processing system 77 and the wire cutter capture processing system 81 without the collection net 34 are used to widen the opening of the guide net 35 from the seawater surface to a certain depth, and to capture and discard the jellyfish. Since there is no collection net 34 attached, the towing vessel 36 is not subjected to a large towing load to tow the jellyfish captured and collected, so it is possible to increase the speed of the towing vessel, and the corresponding amount of the capture processor The towing speed of the main body is increased, and the capture processing capacity is remarkably increased, and a jellyfish capturing process in a vast ocean area is possible. Similarly, the jellyfish cutter capturing two-stage processing system 79 and the wire cutter capturing two-stage processing system 83 are also used in this method. Jellyfish can be captured.

  FIG. 29 shows a guide net water depth on guide net buoys 73 on the left and right of the opening of the guide net 35 in order to set the jellyfish cutter capture processing system 77 and the wire cutter capture processing system 81 to an arbitrary depth. Connect the setting wire or rope 75, and add the length of the cutter type jellyfish processing machine main body 28 or wire type jellyfish processing machine main body 62 to the buoy attachment wire or rope 33 to make the water depth constant from an arbitrary water depth. The jellyfish is captured and disposed of by expanding the opening to a depth of 50 mm, and since there is no collection network 34, the towing vessel 36 does not have a large towing load for towing the captured and collected jellyfish. The towing speed of the main body is increased, the catch processing capacity is remarkably increased, and it is possible to catch jellyfish in a vast ocean area. Two-stage treatment system 79 and wire cutters capture two-stage processing system 83 it is also of enabling the capturing procedure jellyfish in this way as well.

  FIG. 30 shows a water depth setting type guide collecting net 85, and in order to greatly widen the opening of the guide net 35, the processing machine main body towing upper and lower wires or the rope 34 processing machine to the left and right of the upper and lower four corners. Connect main body towing upper wire or rope 71, and attach guide net buoy 73 to the connection point, connect processor main body towing lower wire or rope 72 to the left and right below this lower part, By attaching the guide net weight 74 to the connection point, the guide net 35 can expand the opening from the sea surface 76 to a certain depth, and a recovery net 37 is connected to the rear part of the guide net 35 to perform the capture cutting process. This is a method for recovering jellyfish and untreated jellyfish.

  FIG. 31 shows the upper and lower wires for towing the processor main body on the upper and lower sides of the guide net 35 or the rope 34 and the main body for towing the processor to enable the water depth setting type guide collecting net 85 to be set to an arbitrary constant water depth. A guide net buoy 73 attached to the connection point of the upper wire or rope 71 is connected to a guide net water depth setting wire or rope 75 having a length up to an arbitrary water depth.

  FIG. 32 shows a water depth setting type recovery net 86. In order to widen the opening of the recovery net 37, the processing machine main body towing upper and lower wires or the rope 34 processing machine main body towing at the upper left and right upper and lower four corners. The upper wire or rope 71 is connected, and the guide network buoy 73 is attached to the connection point, and the lower wire or rope 72 for towing the processor main body is connected to the lower left and right of the lower portion. By attaching the guide net weight 74 to the seam, the recovery net 37 can expand the opening from the seawater surface 76 to a certain depth, and is a system for recovering captured and unprocessed jellyfish.

  FIG. 33 shows a guide network attached to the connection point of the upper tow wire or rope 71 on the left and right of the processor main body at the upper part of the recovery network 37 so that the water depth setting type recovery network 86 can be set to an arbitrary constant water depth. The buoy 73 is connected to a recovery network water depth setting wire or rope 87 having a length up to an arbitrary water depth.

FIG. 2 is an assembly drawing of a bucket turbine. Is a turbine housing A. Is a turbine housing B. These are top views of bucket water turbine units. These are front views of a bucket turbine unit. These are top views of a cutter type jellyfish processing machine. These are front views of a cutter type jellyfish processing machine. These are a cutter type water depth setting buoy attachment front view. Is a jellyfish cutter capture processing system. Is a jellyfish cutter capture processing recovery system. Is a jellyfish cutter capture two-stage processing system. Is a jellyfish cutter capture two-stage processing recovery system. These are front views of a wire pulley. FIG. 4 is a right side view of the wire pulley. These are front views of a wire tension bolt. These are right side views of a wire tension bolt. These are starting point wire attachment diagrams. These are end point wire attachment diagrams. These are top views of a wire type jellyfish processing machine. These are front views of a wire type jellyfish processing machine. These are the wire type water depth setting buoy attachment front views. Is a wire cutter capture processing system. Is a wire cutter capture processing recovery system. Is a wire cutter capture two-stage processing system. Is a wire cutter capture two-stage processing recovery system. These are the water surface installation figures of a jellyfish cutter and a wire cutter capture processing collection system. These are the arbitrary depth installation drawings of a jellyfish cutter and a wire cutter capture processing collection system. These are the water surface installation figures of a jellyfish cutter and a wire cutter capture processing system. These are the arbitrary depth installation drawings of a jellyfish cutter and a wire cutter capture processing system. These are the water surface installation views of a water depth setting type guide net. These are the arbitrary water surface installation views of a water depth setting type guide net. FIG. 3 is a water surface installation diagram of a water depth setting type recovery net. These are the arbitrary water surface installation views of a water depth setting type recovery network.

Explanation of symbols

1 Bucket 2 Bucket Holder 3 Turbine Arm 4 Turbine Boss 5 Bucket Turbine 6 Turbine Unit Mounting Hole 7 Casing A
8 Casing B
DESCRIPTION OF SYMBOLS 9 Water inlet 10 Drain outlet 11 Bucket turbine unit 12 Output shaft set screw hole 13 Output shaft set hole 14 Turbine bearing 15 Cutter type jellyfish processing machine frame 16 Side cover 17 Horizontal shaft 18 Horizontal cutter mounting flange 19 Horizontal shaft cutter 20 Horizontal shaft Shaft Bearing 21 Vertical Cutter 22 Towing Fitting 23 Guide Net Fitting 24 Subsequent Towing Fitting 25 Subsequent Guide Net Fitting 26 Main Body Lifting Fitting 27 Buoy Fitting Fitting 28 Cutter Type Jellyfish Processor 29 Vertical Cutter Fitting Flange 30 Upper Vertical Shaft bearing 31 Lower longitudinal bearing 32 Buoy 33 Buoy attachment wire or rope 34 Upper and lower wires or rope for processing machine main body 35 Guide net 36 Towing ship 37 Recovery net 38 Subsequent cutter type jellyfish processing main body 39 Subsequent buoy 40 Subsequent guide 41 Subsequent towing wire or rope 42 Vertical axis shaft 43 Cutter-type wire mesh top plate 44 Cutter-type wire mesh side plate 45 Cutter-type wire mesh bottom plate 46 Subsequent cutter-type wire mesh top plate 47 Subsequent cutter-type wire mesh side plate 48 Subsequent cutter-type wire mesh bottom plate 49 Wire pulley 50 Wire pulley mounting hole 51 Wire tension bolt 52 Tension bolt wire through hole 53 Wire tension bolt screw part 54 Start block 55 Start block wire through hole 56 Wire connection fitting oval sleeve 57 Wire 58 End block 59 Flat washer 60 Spring washer 61 Nut 62 Wire type Jellyfish processing machine body 63 Wire type jellyfish processing machine body frame 64 Wire type wire mesh top plate 65 Wire type wire mesh side plate 66 Wire type wire mesh bottom plate 67 Main body jellyfish processing machine 68 Subsequent wire type wire mesh top plate 69 Subsequent wire type metal mesh side plate 70 Subsequent wire type wire mesh bottom plate 71 Upper wire or rope for towing processor main body 72 Lower wire or rope for towing main body for processing machine 73 Buoy for guide net 74 Guide net weight 75 Guide net depth setting wire or rope 76 Water surface 77 Jellyfish cutter capture processing system 78 Jellyfish cutter capture processing recovery system 79 Jellyfish cutter capture two-stage processing system 80 Jellyfish cutter capture two-stage processing recovery system 81 Wire cutter capture Processing system 82 Wire cutter capture processing recovery system 83 Wire cutter capture two stage processing system 84 Wire cutter capture two stage processing recovery system 85 Water depth setting type guide network 86 Water depth setting type recovery network 87 Recovery network water Settings for the wire or rope

Claims (1)

  A guide net for capturing more jellyfishes by towing multiple ships is equipped with a guide net buoy at the top of the guide net to guide the jellyfish floating horizontally under the sea surface. It is a structure that allows the opening of the guide net to be expanded wider and deeper by attaching a net for the net, and in order to set the capture standard at an arbitrary water depth, an arbitrary water depth is provided between the guide net buoy and the guide net. By connecting a length of wire or rope to the guide network that allows arbitrary water depth setting, and in the processing machine, the main body of the processing machine is not submerged to the bottom of the sea and damaged. In order to reduce the towing load of the jellyfish, a buoy is attached and floated with a wire or rope, and a wire or rope with a length of arbitrary depth is connected. place As a method, to cut and kill the jellyfish captured by the towing force of the towing vessel, wire cutting with wire or wire stretched vertically and horizontally and vertically or horizontally on the front, back, front or back of the processing machine body If the object is submerged in the water and underwater, the tow water pressure is applied to the object, but in order to convert the tow water pressure into a rotational motion, a water wheel with a blade like a plate or a bowl shaped blade By collecting it at the water inlet and forcibly passing it, the jellyfish cutter processing machine that cuts and kills the jellyfish by rotating the water wheel and rotating the cutter blade provided on the shaft of the water wheel and for the purpose of recovery A collection network is connected to the back of the guide network used when carrying out the sharing process of capture processing and recovery in a large-scale jellyfish capture processing operation that has a fleet and has an unprocessed jellyfish Depth setting type guide recovery network for recovering processing jellyfish, more vessels towing type jellyfish capture processing system includes a depth setting type recovery network, each optionally be connected having the same structure as this.

Images