KR101204949B1 - Fishing net system for preventing inflow of marine organism and foreign substance - Google Patents

Abstract

PURPOSE: A fishing net system for preventing the inflow of marine organisms and foreign materials is provided to effectively remove collected marine organisms and foreign materials from a fishing net. CONSTITUTION: A fishing net system(1000) for preventing the inflow of marine organisms and foreign materials comprises nets(110,120,130), a frame part, a fish pump(300), a work path(400), and a compressor. The nets prevent marine organisms and foreign materials from flowing into an intake channel. The frame part supports the nets. The fish pump collects the marine organisms and foreign materials collected in the nets. The work path is supported to the frame part, and a worker works thereon. The compressor is connected to the frame part and transmits air to the nets.

Description

FISHING NET SYSTEM FOR PREVENTING INFLOW OF MARINE ORGANISM AND FOREIGN SUBSTANCE}

The present invention relates to a fishing net system that can effectively prevent the inflow of marine life and foreign matters, and more particularly to prevent the inflow of marine life and foreign matters, such as power plant intake, aquarium intake facilities, the bottom of the vessel, banks, farms, etc. The present invention relates to a fishing net system that can be applied to a place where it is necessary to effectively prevent the introduction of marine organisms and foreign substances, minimize the reproduction of marine organisms and the accumulation of foreign substances, and efficiently maintain and manage the fishing net system.

Nuclear power plants use the principle that uranium uses heat from nuclear fission to break water into steam and then generate electricity by rotating the turbine under steam's power. In the operation of a nuclear power plant, it is important to effectively cool down the heat generated during the rotation of the turbine and the nuclear fission process of the reactor, and it is usually installed near the shore to receive more stable and continuous water for cooling water. It is common to be.

In other words, a large amount of seawater is introduced to operate a nuclear power plant and used as various system waters in a power plant, thus performing essential functions for stable and smooth operation of the power plant.

However, when seawater is used as a cooling water, various types of marine life such as seaweed (seaweed, seaweed, seaweed, etc.) and fish (small fish such as anchovies, shrimp, and jellyfish) may be used depending on the season or weather. And foreign substances such as marine debris may be introduced at the same time. When such marine organisms and foreign matters are introduced into the nuclear power plant, power generation may be stopped or cause a breakdown.

Therefore, recently, a method of physically blocking the inflow of marine life or foreign substances by installing a fishing net in a power plant inlet is difficult, but it is difficult to check the timing, time, or inflow of marine life early. However, even if confirmed, it is almost impossible to prevent a large amount of marine life in a moment, and also there is a problem that it is difficult to operate the power plant.

Another method is to prevent the inflow of marine life using ultrasonic waves in conjunction with the fishing net, but this method has a disadvantage that jellyfish is insensitive to the ultrasonic waves can not prevent the introduction of marine organisms and also prevent the introduction of marine microorganisms. In addition, jellyfish and shrimp are not enough to deal with the large amount of inflow of marine organisms in an instant when there are a lot of inflows. There is this.

Over time, marine life can reproduce in fishing nets and marine debris can accumulate in the net. As a result, the fishing nets are heavy, and failures such as tearing occur, and marine organisms and foreign substances introduced through the torn fishing nets cause a power plant failure.

In addition, the fishing nets must be cleaned or replaced frequently to remove propagated marine organisms and deposited marine debris, which increases the maintenance, maintenance and management costs. This problem is not only limited to the fishing net installed in the reactor intake, but also frequently occurs in the aquarium intake facility, the bottom of the vessel, banks, farms, etc.

The present invention has been made to solve the above problems, and an object thereof is to provide a fishing net system that can effectively prevent the inflow of marine life and foreign matter.

In addition, the present invention is to provide a fishing net system that can easily observe the state of the fishing net, and can effectively perform the removal and discharge of marine life and foreign matter collected in the fishing net.

Finally, the present invention is to provide a fishing net system that can effectively reduce and minimize the reproduction of marine life and the deposition of marine microorganisms to reduce the maintenance, maintenance and management of fishing nets.

The present invention relates to a fishing net system for preventing the inflow of marine organisms and foreign substances, the left net and the right net facing each other and installed inclined to the sea bottom so as to narrow the gap from the upper end to the lower end of the seawater flow; A collection and lifting net disposed at a junction point of the left net and the right net and connected to the left net and the right net to be inclined; A conveying passage part installed at an end of the collecting net and narrowed in width so as to increase the flow rate of the incoming seawater; Is connected to the end of the conveying passage portion, the width of the seawater flows in than the conveying passage portion, and the marine organisms and foreign substances collected by the left net and the right net is moved along the lifting net and the conveying passage portion Collection and collection stations; A fish pump connected to the collection station for collecting marine organisms and foreign matter collected therefrom; And a plurality of pipe-shaped frame parts for supporting and fixing the left net, the right net, the collecting net, the conveying passage part, and the collection station installed in water, wherein at least one region of the frame part is provided with air A plurality of holes are provided, and the holes are formed on a surface facing at least one of the left net, the right net, the collection net, the conveying passage part, and the collection site, and the left net, the right net At least one of the collection net, the transport passage and the collection station to clean the marine life and foreign matter to prevent the breeding and deposition and to float the marine life and foreign matter to facilitate the movement to the collection site. It features.

The frame part may include a side frame disposed and installed in a mesh shape to be in surface contact with the left net and the right net; A vertical frame installed perpendicular to the sea bottom to support the side frame; And an auxiliary support frame connected to the vertical frame such that the side frame is inclined to the opposite side of the vertical frame.

The side frame includes a vertical pipe and a horizontal pipe so as to form a mesh shape, and the hole is formed in the vertical pipe.

The apparatus further includes at least one compressor connected to at least one of the vertical pipes to allow air to be discharged at constant pressure in the seawater through the holes.

In addition, the compressor includes at least one left compressor connected to the vertical pipe corresponding to the left net and at least one right compressor connected to the vertical pipe corresponding to the right net, wherein the left compressor and the The right compressor is preferably driven so that the holes formed in the plurality of vertical pipes are sequentially turned on in the direction from the upper end to the lower end of the seawater flow.

On the other hand, at least one region of the transfer passage portion is further disposed for cutting the marine organisms and foreign matter is moved, the upper end of the frame portion is a work movement path that the worker can move on the sea surface the left net, the right net It is further provided along the collection lifting net, the transfer passage portion and the collection station.

The cutting unit may include a front cutting unit and a rear cutting unit disposed to be spaced apart from each other, and the front cutting unit may be disposed in a row in one of horizontal and vertical directions, and the rear cutting unit is in another direction of horizontal and vertical sections. Cutting means are arranged in a line, the interval between the cutting means is 5 ~ 10cm.

The present invention can provide a fishing net system that can effectively prevent the inflow of marine life and foreign matters, and also makes it easy to observe the status of the fishing nets, and to remove and discharge the marine life and foreign matter collected in the fishing nets It can be carried out effectively. And, using the fishing net system according to the present invention can effectively block and minimize the reproduction of marine life and the deposition of marine microorganisms can reduce the maintenance, maintenance and management efforts of the fishing net.

1 is a plan view of a fishing net system according to the present invention,
2 is a view for explaining an embodiment in which a fishing net system according to the present invention is installed in a power plant cancellation furnace,
3 is a front view of the fishing net system according to FIG.
4 is a side view of the fishing net system according to FIG.
5 is a rear view of the fishing net system according to FIG.
6 is a view for explaining the structure of the cutting portion provided in the moving passage,
7 is a side cross-sectional view for explaining the structure of the collection station,
8 is a view for explaining the structure of the frame portion;
9 is a view for explaining the structure of the net of one width used in the present invention,
FIG. 10 is a view for explaining a structure in which a fryer portion is installed in seawater. FIG.

The present invention relates to a fishing net system that can effectively prevent the inflow of marine life and foreign matters, it is necessary to prevent the inflow of marine life and foreign matters, such as power plant intake, aquarium intake facility, bottom of the vessel, dike, farm The present invention relates to a fishing net system that can be applied to a place to effectively prevent the introduction of marine organisms and foreign substances, minimize the reproduction of marine organisms and the accumulation of foreign substances, and efficiently maintain and manage the fishing net system.

Fishing net system 1000 according to the present invention is largely, as shown in Figures 1, 2, 3, 4, the net for preventing the introduction of marine life and foreign matter into the intake passage, for supporting the net installed in sea water Frame 200, the fish pump 300 for collecting the collected marine life and foreign matter, the work moving path 400, the frame 200 is supported by the frame 200 to move the worker in the water It is connected to the) includes a compressor 500 for sending the air toward the net through a hole formed in at least one region of the frame portion 200.

The net is largely included in the left net 110, the right net 120, the collection net 130, the collection station 150, the transfer path 140 may or may not be installed in the net. have. The reason will be described later.

Meanwhile, as shown in FIG. 1, the left net 110 and the right net 120 are disposed to face each other and to have a narrower gap from the upper end to the lower end of the seawater flow. In addition, the left net 110 and the right net 120 is installed inclined to the sea bottom, which is a feature that is distinguished from the conventional installed net. By inclining the left net 110 and the right net 120 in the sea bottom in the present invention, the contact area between the incoming seawater and the left and right nets (110, 120) is wider than the conventional net is installed, the left and right nets It is possible to disperse the force of seawater applied to (110, 120). This minimizes damage to the net against the strong flow of seawater. In addition, the amount of seawater passing through the net can be introduced into the water intake more than if the net is upright to increase the amount of seawater. As a result, a larger amount of cooling water can be supplied to the power plant, thereby increasing its efficiency. Here, the inclination angle of the left net 110 and the right net 120 inclined to the sea bottom may be approximately 30 to 60 degrees, preferably 45 degrees is appropriate. This range of inclination maximizes the distribution of force on the flow of seawater, minimizing damage to the net and increasing the amount of incoming seawater.

At the connection portion where the left net 110 and the right net 120 meet, the collection lifting net 130 is disposed. Collection net 130 is a net of the function to collect the marine organisms and foreign matter gathered by the left net 110 and the right net 120 and finally collected in the collection station 150. As shown in Figure 4, the collection net 130 is inclined upward on the sea bottom, and the other end is connected to the transfer passage 140. The collection net 130 is disposed to be narrower in the flow direction of the sea water, so that the flow rate is gradually increased. Accordingly, the marine life and foreign matter collected by the left and right nets (110, 120) can move along the inclined surface to the transfer passage 140 at a high speed. The collection lifting net 130 is inclined to be gently inclined with the sea bottom so that all marine life and foreign matter can be moved to the collection station 150 through the transport passage 140 as much as possible. The preferred angle of inclination is about 35 degrees, and may be installed more gently or more inclined depending on the topographic conditions of the sea floor.

 Transfer path 140 is located at the end of the collection net 130 as described above. The transfer passage 140 is a passage through which marine organisms and foreign substances move to the collection station 150, and as shown in FIG. 6, a cutting unit 141 is installed at the end of the transfer passage 140. Incoming marine life and foreign matter can be cut to a size suitable for collection. The cut portion 141 is optional by the operator, and can be omitted if unnecessary. That is, when the jellyfish gathers a lot, it is better to install the cutting unit 141, and when a large amount of fish is rapidly introduced (anchovies, seupimyeon, etc.), the fish pump is discharged to the outside of the breakwater to discard the existing collective collection It also contributes to the income of neighboring fishers because it does not affect the ecosystem more than disposal.

On the other hand, even if the cutting portion is installed, small fish and shrimp, etc. can be collected in the collection station 150 to live through the cutting portion can contribute to the profit of fishermen. On the other hand, the transport passage 140 is preferably provided with a material that does not pass water. The reason for this is as follows. When the transport passage 140 is made of a material that does not pass through water such as transparent acrylic or iron plate, the flow rate of the incoming seawater becomes faster. Accordingly, marine organisms and foreign matter passing through the cutting unit 141 are easily cut to a suitable size by the faster flow rate. Preferably, one area of the collection lifting net 130 in contact with the transfer path 140 is also made of a material that does not pass water, which is good for increasing the flow rate of seawater and for easy movement of marine organisms and foreign substances. In addition, according to the operator's choice, the transport passage 140 may be made of a net, in this case, the nose of the net is better to use a more dense than other nets. In another embodiment, a dense net may be further installed on the collection lifting net 130 made of a material that does not pass water.

Meanwhile, as illustrated in FIG. 6, the cutout 141 includes a front cutout 143, a rear cutout 145, and a holder 147 into which the front cutout 143 and the rear cutout 145 are inserted. . In the front cutting unit 143, the cutting means is arranged in a row in either of the horizontal and vertical directions, and the rear cutting unit 145 has the cutting means in the other direction in the horizontal and vertical directions. That is, if the cutting means 143 is disposed in the transverse direction, the rear cutting unit 145 is the cutting means is arranged in the longitudinal direction. Here, the cutting means may be a knife, but since it may be dangerous to a worker's work, it is preferable to use a fishing line, a piano string, a metal string, etc., which is tougher than a knife. And, the interval between the cutting means is suitable 5 ~ 10cm. If the distance between the cutting means is too large, it is not easy to suck and collect marine organisms and foreign substances cut by the fish pump 300 in the collection station 150, if the interval is too small, various wastes and trees are blocked. This is because foreign matter may accumulate.

The collection station 150 is connected to the end of the conveying passage 140, but the width of the seawater is extended than the conveying passage 140. This is to lower the flow rate to ensure that the collection station 150 to stably collect marine life and foreign matter. Marine 150 and the foreign substances collected by the left net 110 and the right net 120 is moved along the collection net 130 and the transfer passage 140 to collect. The collection station 150 may be formed in a structure in which a net formed of a nose that is not discharged from marine organisms and foreign matters cut out on a material that is difficult to pass through seawater, such as the transfer passage 140, is installed only as a net. May be A plurality of ropes 153 are arranged in a line under the net 151 of the collection station 150, and the rope 153 is fixed to one side of the collection station 150 by a ring 155. On the opposite side, the rope 153 is not fixed but only tied. Here, the fish pump 300 is installed adjacent to the collection side 150 side of the fixed side. By such a structure, when the worker unwinds the rope 153 tied and pulls the rope 153, the net 151 is naturally lifted, and accordingly, marine life and foreign matter gathered at the collection station 150 are rope 153. The sides of the fixed collection station 150, ie, the adjacent area of the fish pump 300 are collected. Accordingly, the operator can use the fish pump 300 to inhale and collect marine life and foreign matters as soon as possible.

On the other hand, all the nets and structures described above are fixed to the sea water by the frame portion 200. Specifically, the plurality of frame parts 200 support the left net 110, the right net 120, the collection net 130, the transfer passage 140 and the collection station 150 installed in the water. And fixed, having an empty pipe shape inside. In addition, a plurality of holes 210 through which air is discharged is provided in at least one region of the frame part 200, and the holes 210 include a left net 110, a right net 120, and a collecting net 130. Is formed on the surface facing at least one of the transport passage 140 and the collection station 150, the left net 110, the right net 120, the lifting net 130, the transport passage 140 And at least one of the collection 150 to clean the marine organisms and foreign matter to prevent breeding and deposition at the same time to facilitate the movement of the marine organisms and foreign matter to the collection station 150. That is, as the compressed air is connected to the compressor 500 and the compressed air is sent out through the hole 210 in the frame part 200, the air is in physical contact with the net, and the physical action of the air and the delivery force of the compressed air are provided. The net will be cleaned automatically. Conventionally, divers entered and maintained the net in such a way that the nets were cleaned regularly to clean the net and then install it again. However, such a conventional method requires not only a lot of manpower but also takes a long time in the water, so there are many risks. If such cleaning is frequent, there is a problem that jellyfish and marine debris are introduced into the power plant, leading to a breakdown of the power plant. It was. However, according to the present invention, the net can be cleaned using compressed air, thereby reducing the number and time of net replacement more than before. Therefore, the cost and effort of maintenance and repair of the net are greatly reduced. In addition, the risk of a plant failure due to net replacement can be minimized. Another reason for forming a hole 210 through which air is sent out in the frame part 200 is to enable marine life and foreign matter to more easily collect into the collection station 150. The airborne droplets cause the marine organisms to float and become more natural and easier to collect as the seawater flows. In addition, another advantage is that air bubbles reduce the access of marine life to the intake circumference. By using air bubbles to create a kind of physical barrier in the water, fish, jellyfish, etc., change their direction of movement, causing them to escape from the vicinity of the power plant intake. This is the same principle that whales use small bubbles to eat small fish.

Here, the frame part 200, as shown in Figures 8 and 10, the side frame 220 is disposed and installed in a mesh (mesh) shape so as to make a surface contact with the left net 110 and the right net 120 230-1, 230-2); A vertical frame 240 installed vertically on the sea bottom to support the side frames 220, 230-1, 230-2; Auxiliary support frame 250 is connected to the vertical frame 240 so as to be inclined to the opposite side of the vertical frame 240, the side frames 220, 230-1, 230-2 are installed. The side frames 220, 230-1, and 230-2 include vertical pipes 230-1 and 230-2 and horizontal pipes 220 to form a mesh shape. In addition, holes 210 are formed in the vertical pipes 230-1 and 230-2. In addition, at least one compressor 500 connected to at least one of the vertical pipes 230-1 and 230-2 allows air to be discharged at a constant pressure in the seawater through the hole 210. It includes more. In addition, the compressor 500 includes at least one left compressor connected to the vertical pipe corresponding to the left net and at least one right compressor connected to the vertical pipe corresponding to the right net. The compressor and the right compressor are preferably driven such that the holes 210 formed in the plurality of vertical pipes 230-1 and 230-2 are sequentially turned on in the direction from the upper end to the lower end of the seawater flow. Do. For example, the hole 210 of the vertical pipe 230-1 disposed on the inlet side of the seawater inlet is first turned on, and then the vertical pipe 230-2 next to it is turned on. Is driven in such a way. This is because of the following reasons. This is because if the vertical pipes in the rear rather than the inlet side of the seawater inlet are turned on first, some interference may occur in the movement of marine life and foreign matter. That is, it is better for the movement of marine organisms and foreign matters that the holes 210 of the vertical pipes are sequentially turned on in the direction in which the seawater is introduced. Here, the holes 210 of the vertical pipes 230-1 and 230-2 may be turned on in various ways. In such a way that the opening 210 of the vertical pipe 230-1 arranged at the inlet side of the seawater inlet is first turned on, and then the vertical pipe 230-2 next to it is turned on. It may be driven and finally all holes 210 may be turned ON. Alternatively, the hole 210 of the vertical pipe 230-1 disposed on the inlet side of the seawater inlet is first turned on, and then the vertical pipe 230-2 next to it is turned on. In this case, the hole 210 of the vertical pipe 230-1 that is first turned on may be driven in an OFF manner. The driving method can be variously modified.

In addition, the driving by the compressor 500 may be automatically performed, or the operator may manually adjust the valve. In addition, a plurality of compressors 500 may be used to deliver air at a desired pressure, and may be connected to one compressor 500 by tying an appropriate number of pipes. On the other hand, depending on the selection, a hole may be formed in the transverse pipe 220 to allow air to be discharged, or may be configured not to do so.

Fig. 9 is a view for explaining the width structure (net structure of one compartment) of the net used in the present invention. Several nets as shown in FIG. 9 are connected to form a left net 110 or a right net 120. One width of the net 600 is composed of a net 610 and a support rope 620 for supporting and fixing the net 610. At the end of the net fixing ring 630 toward the sea bottom is bound to the support rope 620 in the working path (400). Coupling means 630 is coupled to the coupling ring 260 installed in the frame portion 200 adjacent to the sea bottom, as shown in Figure 8, as a result the net is fixed and supported to the frame portion 200 to be installed Can be. Coupling means 630 may have a hook shape, it may be tightly tied to the coupling ring 260 by a worker just to make a rope. On the other hand, the mesh 610 is provided so as to extend further to overlap a certain area at the connecting portion when connecting to the other mesh 610. The extended portion may have a width of about 20-30 cm. This is to prevent the leakage of marine life and foreign matter that may occur in the connection portion of the mesh 610.

On the other hand, the upper end of the frame portion 200 is further provided along the left net, the right net, the collection net, the transfer passage portion and the collection station that the worker can move on the sea surface. . Accordingly, the worker can observe the net from time to time, and can maintain and repair the net immediately if necessary. In the past, the worker went to the boat to check the state of the net, but this is not preferable in terms of cost and time. Thus, in the present invention, the worker movement path 400 is made to allow the worker to move on the sea surface for the safety of the worker and the efficiency of the work and the ease of maintenance and repair of the net. Naturally, the work moving path 400 may be removed or installed according to a selection.

1000: Fishing Net System
110: left net 120: right net
130: collection net 140: transfer path portion
150: collection station 200: frame portion
210: hole 220: horizontal pipe
230-1, 230-2: vertical pipe 240: vertical frame
250: auxiliary support frame 260: coupling ring
300: fish pump 400: work movement
500: compressor

Claims (7)

A left net and a right net which face each other and are inclined to the sea bottom so as to have a narrower gap from an upper end to a lower end of the seawater flow;
A collection and lifting net disposed at a junction point of the left net and the right net and connected to the left net and the right net to be inclined;
A conveying passage part installed at an end of the collecting net and narrowed in width so as to increase the flow rate of the incoming seawater;
Is connected to the end of the conveying passage portion, the width of the seawater flows in than the conveying passage portion, and the marine organisms and foreign substances collected by the left net and the right net is moved along the lifting net and the conveying passage portion Collection and collection stations;
A fish pump connected to the collection station for collecting marine organisms and foreign matter collected therefrom;
It includes a plurality of frame-shaped frame portion for supporting and fixing the left net, the right net, the collection net, the transfer passage portion and the collection station in water,
At least one area of the frame portion is provided with a plurality of holes through which air is discharged, and the holes face at least one of the left net, the right net, the collection net, the transfer passage part and the collection station. Formed in the left net, the right net, the collection net, the transfer path portion and the collection site to clean and prevent the marine life and foreign matters from being deposited and deposited at the same time to float the marine life and foreign matters A fishing net system for preventing the introduction of marine life and foreign substances, characterized in that to help move to the collection station. The method of claim 1,
The frame unit includes:
A side frame disposed and installed in a mesh shape in surface contact with the left net and the right net;
A vertical frame installed perpendicular to the sea bottom to support the side frame;
And a sub support frame connected to the vertical frame such that the side frame is inclined to the opposite side of the vertical frame. The method of claim 2,
The side frame includes a vertical pipe and a horizontal pipe to form a mesh (mesh) shape,
And said hole is formed in said vertical pipe. The method of claim 3,
And at least one compressor connected to at least one of the vertical pipes to allow air to be discharged at a constant pressure in seawater through the holes. 5. The method of claim 4,
The compressor comprises at least one left compressor connected to the vertical pipe corresponding to the left net and at least one right compressor connected to the vertical pipe corresponding to the right net,
The left compressor and the right compressor are driven so that the holes formed in the plurality of vertical pipes are sequentially turned on (ON) in the direction from the upper end to the lower end of the seawater flow to the marine life and foreign matter inflow prevention net system . The method of claim 1,
At least one region of the transfer passage portion is further provided with a cutting portion for cutting the moving marine organisms and foreign matter,
At the upper end of the frame portion, the work movement path which the worker can move on the sea surface is further provided along the left net, the right net, the collection net, the transfer passage part and the collection site Ingress prevention fishing net system. The method of claim 1,
The cut portion includes a front cut portion and a rear cut portion spaced apart from each other,
The front cutting portion is arranged in a row in one of the horizontal and vertical cutting means, the rear cutting portion is arranged in a row in the other direction of the horizontal and vertical,
The spacing between the cutting means is 5 ~ 10cm characterized in that the marine fish and foreign matter inlet network system.

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