KR102354095B1 - A net to block the inflow of marine organisms at the intake of a power plant - Google Patents

Abstract

The present invention relates to a net for blocking marine life introduction of an intake of a power plant, which adjusts only seawater to be introduced therein, comprising: a lower wire installed on the seabed; an upper wire installed at a surface of the sea a plurality of buoys; a support wire unit for supporting the upper wire; a plurality of net units for blocking marine life introduction; a zipper unit including a slider; and a zipper collecting unit installed in the net units.

Description

A net to block the inflow of marine organisms at the intake of a power plant

The present invention relates to a mesh for blocking the inflow of marine life at the intake port of a power plant, and more particularly, has a detachable structure to replace a damaged net unit, and is additionally detachable on the front or rear side of the net unit depending on the type of marine life It relates to a netting blocking the inflow of marine life at the intake port of a power plant where possible auxiliary net units can be installed.

Power plants installed on the coast, such as nuclear power plants, require various system water for the operation of power generation facilities, and such water is mainly used by inflowing seawater. In this way, in the process of introducing seawater as water, jellyfish, shrimp, seaweed, salpa, and seaweed, which are marine organisms that survive in the seawater, are also included. When marine organisms or foreign substances contained in such seawater flow into the power generation facility, it may cause the power generation facility to stop or cause various failures. Therefore, there is a need for a technology to block the inflow of marine life into the intake port of the power plant.

Accordingly, in recent years, various facilities such as bar screens, trash rakes, traveling water screens (TWS), drum screens, etc. is being used These conventional facilities are generally possible for the purpose of filtering marine life, but it is insufficient to filter the marine organisms that are introduced in large quantities at a specific time.

In addition, as in the prior art 'Korea Intellectual Property Office Registration Patent No. 10-1039372, aquatic organisms inflow blocking device', a floating unit that floats on the sea level in front of the water intake port of the power plant; a fishing net connected to the floating unit and disposed in the water; an electricity supply device for removing aquatic organisms hanging on the fishing net by flowing electricity to the fishing net; And, a technology including a sound wave generator for generating a sound wave of a specific frequency band that aquatic organisms do not like is known.

However, most of the prior art in which a fishing net is installed at the intake port of a power plant as well as this prior art has a disadvantage in that it is difficult to install it at once because the fishing net is made about 200 m in the longitudinal direction. In addition, if a part of the fishing net is damaged by the water pressure of seawater or marine organisms, the entire 200m fishing net must be replaced, so the installation cost increases and the working efficiency is poor.

Korean Intellectual Property Office Registered Patent No. 10-1039372

The present invention has been devised to solve the above problems, and has a detachable structure to replace a damaged net unit, and an auxiliary net unit detachable from the front or rear side of the net unit additionally depending on the type of marine life. It is to provide a net to block the inflow of marine organisms at the intake port of the power plant that can be installed.

The above object is installed in the intake port of the power plant to block the inflow of marine organisms and control the inflow of seawater so that only seawater flows in the marine life inlet blocking net, comprising: a lower wire installed on the seabed; an upper wire installed at the sea level so as to be spaced apart from the lower wire; a plurality of buoys installed to be spaced apart from the upper wire along the longitudinal direction of the upper wire; a support wire unit having one end coupled to the upper wire and the other end installed on the seabed to support the upper wire; a plurality of net units disposed along the longitudinal direction between the lower wire and the upper wire to block the inflow of marine organisms; A pair of zipper bodies formed in a vertical direction on the side surfaces of which the net units are adjacent to each other, and a slider installed between the pair of zipper bodies to engage or release the zipper body to enable attachment and detachment between the net units A zipper unit comprising a; and a zipper collection unit installed on the net unit so that the pair of zipper bodies are collected.

Here, the net unit includes a net body, a lower surface fusion portion formed through fusion on the lower surface of the net body, and an upper surface fusion portion formed through fusion on the upper surface of the net body, wherein the marine life blocking net is, It is preferable to further include; a fastening unit comprising a lower surface fastening part for fastening the lower wire and the lower surface fusion part, and an upper surface fastening part for fastening the upper wire and the upper surface fusion part.

In addition, the zipper collecting unit includes first and second shackles interconnecting the adjacent net units, and a shackle connecting portion connecting the first and second shackles, and the marine life blocking net Silver, an auxiliary net body which is detachably disposed on the front or rear surface of the net unit and has a mesh size different from that of the net unit, and an auxiliary lower surface fusion portion formed through fusion on the lower surface of the auxiliary net body, and the It is preferable to include an auxiliary upper surface fusion portion formed through fusion on the upper surface of the auxiliary net body.

In addition to this, it includes a support wire body, a length adjustment chain formed at one end of the support wire body and adjusted in length, and a chain shortener for adjusting the length of the length adjustment chain according to a position where it is fastened to the length adjustment chain. It is preferable to further include a support wire unit.

As described above, according to the present invention, when the net unit is damaged by water pressure or marine life, a plurality of net units are detachable so that they can be replaced.

In addition, the plurality of net units are detachable through the zipper unit, and a plurality of zipper collecting units are installed along the longitudinal direction of the zipper unit to facilitate engagement or release of the zipper unit.

In addition, the mesh for blocking the inflow of marine life at the intake port of the power plant according to the present invention blocks the inflow of marine life such as jellyfish, shrimp, and slugs by using a net unit, and additionally assists when a red tide or green algae phenomenon occurs By installing a net unit, it is possible to block the inflow of plankton such as salpa.

1 is a front view of a marine life inflow blocking net of an intake port of a power plant according to an embodiment of the present invention;
Figure 2 is a side view of the marine life inflow blocking net of the power plant intake port,
3 is a detailed view of a length adjustment chain and a chain shortener,
4 is a detailed view of the zipper collecting unit;
5 is a front view of the auxiliary net unit.

Hereinafter, the technical idea of the present invention will be described in more detail with reference to the accompanying drawings. Since the accompanying drawings are merely examples shown in order to explain the technical idea of the present invention in more detail, the technical idea of the present invention is not limited to the form of the accompanying drawings.

1 is a front view of a marine life inflow blocking net of a power plant intake port according to an embodiment of the present invention, FIG. 2 is a side view of a marine life inflow blocking net of a power plant intake port, and FIG. , Figure 4 is a detailed view of the zipper collecting unit, Figure 5 is a front view of the auxiliary net unit.

The marine life blocking net 10 of the power plant intake port installed at the power plant intake port according to the present invention to block the inflow of marine organisms and control the inflow of only seawater, as shown in FIG. 1 , the lower wire 100, the upper wire 200, the buoyant 300, the support wire unit 400, the net unit 500, the fastening unit 600, the zipper unit 700, the zipper collecting unit 800 and the auxiliary net unit 900. .

First, the lower wire 100 is a configuration to be installed on the seabed, and in general, in the case of a fishing net used around the intake port of a power plant, it is made of about 200 m, so the lower wire 100 of the present invention also has a length of about 200 m according to this. is made of This lower wire 100 is supported to maintain its position without moving on the seabed by a plurality of anchors 110 along the longitudinal direction.

The upper wire 200 is configured to be installed on the sea level so as to be spaced apart from the lower wire 100, and is configured to float on the sea level, unlike the lower wire 100 installed on the sea floor. The upper wire 200 is installed along the longitudinal direction so as to be parallel to the lower wire 100, and, like the lower wire 100, preferably has a length of about 200 m.

The buoy 300 is a plurality of components that are installed spaced apart along the longitudinal direction of the upper wire 200, and the upper wire 200 passes through the inside of the buoy 300 so that the upper wire 200 floats on the sea level. It is installed on the wire 200 . As shown in FIG. 1, as shown in FIG. 1, a plurality of the first sub-spheres 310 are installed to be spaced apart from each other, and the upper wire 200 is submerged by the tension of the support wire unit 400 to be described later. In order to prevent this, the second sub-spheres 320 having a larger size and greater buoyancy than the first sub-spheres 310 are disposed to be more spaced apart than the distance between the first sub-spheres 310 .

The support wire unit 400 is configured to have one end coupled to the upper wire 200 and the other end installed on the seabed to support the upper wire 200, unlike the lower wire 100 installed on the seabed, the upper wire Since 200 is installed at the sea level, it serves to fix the upper wire 200 to the sea floor through the support wire unit 400 in order to prevent it from being washed away into the sea. The support wire unit 400 includes a support wire body 410 , a length adjustment chain 420 and a chain shortener 430 .

The support wire body 410 is formed in a wire shape so that a plurality of the upper wires 200 are supported along the longitudinal direction of the upper wire 200 to prevent the upper wire 200 from being washed away in the sea. This support wire body 410 is installed so that one end is coupled to the length adjustment chain 420 and the other end is fixed to the sea bottom through the anchor 110, and in some cases, one end of the support wire body 410 is an upper wire ( 200) and the other end may be formed so that the length adjustment chain 420 is formed in the central region of the support wire body 410 in a state in which the other end is installed on the anchor 110 of the seabed.

The length adjustment chain 420 is formed at one end of the support wire body 410 and has a length-controlled configuration, and the length of the support wire unit 400 can be adjusted through a chain shortener 430 to be described later. In the case of the sea, the height of the sea level is different due to the temperature of the sea water, waves, and the difference between high and low tides. Accordingly, when the height of the sea level rises after the support wire unit 400 is installed on the upper wire 200 in a state where the height of the sea level is low, the upper wire 200 is submerged in the sea together with the buoy 300 may occur. Thereby, the net unit 500, which will be described later, is submerged in the sea together, thereby causing a problem that the net unit 500 does not properly block the inflow of marine life. Therefore, it is necessary to adjust the length of the support wire unit 400 according to the height of the sea level to prevent the upper wire 200 from being submerged.

Chain shortener (chain shortener, 430) is a configuration for adjusting the length of the length adjustment chain 420 according to the position fastened to the length adjustment chain (420). The chain shortener 430 is fastened to two regions of the length adjustment chain 420 and can be adjusted in length. Specifically, when the chain shortener 430 is fastened to an area adjacent to each other among the length adjustment chain 420, the length The length of the adjustment chain 420 is configured to be long, and when the chain shorteners 430 are fastened to regions far from each other, the length of the length adjustment chain 420 is configured to be relatively short. In this way, the length of the length adjustment chain 420 is adjusted according to the position at which the chain shortener 430 is fastened, and further, the length of the support wire unit 400 is adjusted.

The net unit 500 is arranged along the longitudinal direction between the lower wire 100 and the upper wire 200 to block the inflow of marine life, and has a plurality of components, such as jellyfish, shrimp, and sea slugs having a relatively large size. It plays a role in blocking the inflow of living organisms into the intake port of the power plant. The net unit 500 includes a net body 510 , a lower surface fusion part 520 , an upper surface fusion part 530 , a bottom line 540 , and a moxibustion line 550 .

The net body 510 is made in the same shape as a general fishing net in which a plurality of lines are diagonally connected to each other, and a mesh size sufficient to block relatively large-sized jellyfish, shrimp, squirrels, etc. from entering the marine life. will have Preferably, the mesh formed on the net body 510 may have a size of 10 to 30 mm, but is not limited thereto. In addition, the net body 510 is made of about 20m in width and height, and it is preferable that about 10 are arranged along the longitudinal direction in accordance with the lower wire 100 and the upper wire 200 being about 200m. This is only one example, but is not limited thereto.

The lower surface fusion part 520 is configured to be formed through fusion on the lower surface of the net body 510, and corresponds to an area formed by heating the lower surface of the net body 510 in which a plurality of lines are diagonally connected to melt the lines. do. Since the lower surface fusion part 520 has a greater strength than the net body 510, it is not easily broken by an external force and is configured to be rigid.

The upper surface fusion part 530, like the lower surface fusion part 520, is formed through fusion on the upper surface of the net body 510, and has a greater strength than the net body 510 so as not to be broken by an external force.

The bottom line 540 and the moxibustion line 550 are configured to be formed at the lowermost and uppermost ends of the net body 510, and correspond to a configuration made by twisting the ends of the net body 510 in a mesh shape into a line shape. The bottom line 540 is formed at the lowermost end of the net body 510 and is preferably formed at a higher position than the lower fusion part 520 , and the moxibustion line 550 is formed at the uppermost end of the net body 510 and is preferably Preferably, it is formed further below the upper surface fusion part 530 . A zipper collecting unit 800 to be described later is coupled to the bottom line 540 and the moxibustion line 550 , respectively.

The fastening unit 600 is configured such that the net unit 500 disposed between the lower wire 100 and the upper wire 200 is coupled to the lower wire 100 and the upper wire 200, and the lower fastening part 610 and an upper fastening portion 620 .

The lower surface fastening part 610 is configured to fasten the lower wire 100 and the lower surface fusion part 520, and a plurality of the lower wire 100 is provided along the longitudinal direction of the lower surface fusion part 520 and the lower wire ( 100) to be stably fastened. It is preferable to use a detachable carabiner so that the lower fastening part 610 is detachable from the lower wire 100 for the net unit 500, but is not limited thereto. That is, when the net unit 500 is damaged by an external force such as seawater pressure or pressure applied by marine organisms, the previously installed net unit 500 is removed and a new net unit 500 is installed to install the net unit 500. It is preferred to use a removable carabiner.

The upper surface fastening part 620 is a configuration for fastening the upper wire 200 and the upper surface fusion part 530, and a plurality of them are provided along the longitudinal direction of the upper wire 200, the upper surface fusion part 530 and the upper wire ( 200) to be stably fastened. It is preferable to use the same carabiner as the lower fastening part 610 such that the upper fastening part 620 allows the net unit 500 to be detachable from the upper wire 200 like the lower fastening part 610 .

In some cases, the net unit 500 does not use the lower fastening part 610 and the upper fastening part 620 separately, and the net unit 500 itself is sewn on the lower wire 100 and the upper wire 200. It can also be combined through

The zipper unit 700 is configured to be formed on both sides of the net unit 500 in order to couple and release a plurality of net units 500 arranged along the longitudinal direction, the zipper body 710 and the slider 720. includes

The zipper body 710 is a pair of configuration in which the net unit 500 is formed in a vertical direction on the side surfaces adjacent to each other, and serves to interconnect the two net units 500 close to each other. That is, the zipper body 710 is disposed on both sides of one net unit 500 in the vertical direction, respectively, and the corresponding net unit 500 is the zipper body 710 and the zipper of the other net unit 500 disposed next to each other. will be combined In this way, the plurality of net units 500 are arranged to be elongated along the longitudinal direction of the lower wire 100 and the upper wire 200 by zip coupling with each other.

The slider 720 is installed between a pair of zipper bodies 710 and serves to engage or release the zipper body 710 so that the adjacent net units 500 can be detached from each other. That is, the slider 720 engages and connects the zipper body 710 disposed between the two net units 500 close to each other through sliding movement, and then slides in the opposite direction. The interlocking coupling between the main bodies 710 is released to separate the net units 500 adjacent to each other from each other.

In this way, a plurality of net units 500 can be connected to each other through the zipper unit 700 including the zipper body 710 and the slider 720, and when a part of the net unit 500 is damaged, the corresponding net unit ( 500) may be separated and replaced with a new net unit 500.

The zipper collecting unit 800 is configured to be installed in the net unit 500 so that a pair of zipper bodies 710 are collected. The net unit 500 is damaged while using the marine life inflow blocking net 10 and it is often necessary to remove it and attach a new net unit 500 . In this case, since the zipper coupling process through the zipper unit 700 is performed in water, the gap between the zipper bodies 710 increases from one end of the zipper coupling body 710 on which the slider 720 is disposed to the other end. There is a problem in that it is inconvenient to combine the zipper.

Therefore, in order to solve this problem, in the present invention, a pair of zipper bodies 710 are collected through the zipper collecting unit 800, and when the slider 820 is slidingly moved in this state, the engagement between the zipper body 710 is achieved. it becomes easier A plurality of these zipper collecting units 800 are provided to be spaced apart at regular intervals along the longitudinal direction of the zipper unit 700, and in detail, the zipper collecting unit 800 includes a first shackle 810 and a second shackle 820. and a shackle connection part 830 .

The first shackle 810 and the second shackle 820 are configured to interconnect the adjacent net units 500 . The first shackle 810 is installed in one net unit 500 and the second shackle 820 is installed in one net unit 500 . ) is installed to face the first shackle 810 in another net unit 500 disposed adjacently. That is, the first shackle 810 and the second shackle 820 are respectively installed at positions adjacent to the zipper body 710 in the two net units 500 arranged close to each other. In this case, the first shackle 810 and the second shackle 820 are installed on both sides of one net unit 500, respectively, and the first shackle 810 on one side is the second shackle of the net unit 500 arranged next to it. It is connected to the 820, and the second shackle 820 on the other side is connected to the first shackle 810 of the net unit 500 disposed on the opposite side, so that the plurality of net units 500 are connected to each other. A plurality of these first shackles 810 and second shackles 820 as a pair are spaced apart along the longitudinal direction of the zipper body 710, and through this, the operator can conveniently connect the net unit 500 to each other. have.

The shackle connecting part 830 is disposed between the first shackle 810 and the second shackle 820 to connect the first shackle 810 and the second shackle 820, and the first shackle 810 and the second shackle 820 are disposed to face each other. A pair of zipper bodies 710 spaced apart from each other may be collected by connecting the shackle 810 and the second shackle 820 . The shackle connection part 830 can be applied without limitation as long as it can be connected to each other by being inserted into the rings of the first shackle 810 and the second shackle 820 such as a wire, a buckle, and the like.

Auxiliary net unit 900 is disposed along the longitudinal direction between the lower wire 100 and the upper wire 200, similarly to the net unit 500, in a plurality of configurations to block the inflow of marine life, and the net unit ( 500) serves to block the inflow of plankton such as salpa through the power plant intake. The auxiliary net unit 900 includes an auxiliary net body 910 , an auxiliary lower surface fusion portion 920 , an auxiliary upper surface fusion portion 930 , an auxiliary bottom line 940 , and an auxiliary moxibustion line 950 .

The auxiliary net body 910 is installed along the longitudinal direction between the lower wire 100 and the upper wire 200, like the net unit 500, and is detachably disposed on the front or rear side of the net unit 500. corresponds to the configuration. This auxiliary net body 910 is made of a shape like a general fishing net in which a plurality of lines are diagonally connected, and has a mesh size sufficient to block plankton such as salpa, which has a relatively small size among marine organisms, from flowing in. That is, the auxiliary net body 910 is formed to have a mesh size different from that of the net body 510 , and preferably a mesh having a size of 1 to 10 mm smaller than the net body 510 is formed.

The auxiliary lower surface fusion part 920 is formed through fusion on the lower surface of the auxiliary net body 910, and the auxiliary upper surface fusion part 930 has a configuration in which fusion is formed on the upper surface of the auxiliary net body 910, and the auxiliary net body ( 910) by heating the lower and upper surfaces to fusion-bond the string to form a rigid region. Since the auxiliary lower surface fusion part 920 and the auxiliary upper surface fusion part 930 have greater strength than the auxiliary net body 910, damage such as easily broken by external force does not occur, and the lower wire 100 and It is rigidly configured to be stably connected to the upper wire 200 .

The auxiliary bottom line 940 and the auxiliary moxibustion line 950 are configured to be formed at the lowermost and uppermost ends of the auxiliary net body 910, and the ends of the auxiliary net body 910 made of a net shape are twisted into a line shape. corresponds to This auxiliary bottom line 940 is formed at the lowermost end of the auxiliary net body 910 and is preferably formed at a higher position than the auxiliary bottom fusion part 920 , and the auxiliary moxibustion line 950 is the auxiliary net body 910 . It is formed at the uppermost end and is preferably formed further below the auxiliary upper surface fusion portion 930 . A zipper collecting unit 800 is coupled to the auxiliary bottom line 940 and the auxiliary moxibustion line 950 , respectively.

The auxiliary net unit 900 is combined with the same configuration except for the auxiliary net body 910 having a mesh size different from that of the net body 510 . That is, the fastening unit 600, the zipper unit 700 and the zipper collecting unit 800 coupled to the auxiliary net unit 900 are also coupled to the auxiliary net unit 900, through which the auxiliary net unit 900 is lower In addition to being detachably coupled to the wire 100 and the upper wire 200, it is possible to stably engage or release the zipper engagement with the adjacent auxiliary net unit 900 through the zipper unit 700 and the zipper collection unit 800. do. This means that when one auxiliary net unit 900 is damaged while using the auxiliary net unit 900, it is possible to use it by attaching a new auxiliary net unit 900 after removing it.

As such, the auxiliary net unit 900 according to the present invention is provided so as to be detachable between the lower wire 100 and the upper wire 200 as needed, unlike the net unit 500 which is always provided, which is a plankton rapidly Desorption can be controlled according to the increasing time. When the auxiliary net unit 900 having a smaller mesh size than the net unit 500 is always used, a problem of being easily damaged by water pressure may occur. Therefore, usually only the net unit 500 through which seawater can easily pass is used, but when a red tide phenomenon or green algae phenomenon in which plankton increases occurs, an auxiliary net unit 900 is additionally installed to prevent plankton from flowing into the power plant intake port. make sure not to

As described above, the marine life inflow blocking net 10 of the water intake port of the power plant according to the present invention has a structure in which a plurality of net units 500 are detachable so that they can be replaced when the net unit 500 is damaged by water pressure or marine life. In addition, the plurality of net units 500 are attached and detached through the zipper unit 700 , and at this time, a plurality of zipper collecting units 800 are installed along the longitudinal direction of the zipper unit 700 to engage the zipper unit 700 . Alternatively, release may be facilitated. In addition to this, I usually use the net unit 500 to block the inflow of marine organisms such as jellyfish, shrimp, and slug, and when a red tide or green algae phenomenon occurs, an auxiliary net unit 900 is additionally installed to salpa It can block the influx of plankton.

The present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the gist of the present invention as claimed in the claims.

10: Marine life blocking net
100: lower wire
200: upper wire
300: Bugu
310: first division
320: second division
400: support wire unit
410: support wire body
420: length adjustment chain
430: chain shortener
500: net unit
510: net body
520: bottom fusion part
530: upper surface fusion part
540: bottom row
550: moxa
600: fastening unit
610: lower fastening part
620: upper surface fastening part
700: zipper unit
710: zipper body
720: slider
800: zipper collection unit
810: first shackle
820: second shackle
830: shackle connection part
900: auxiliary net unit
910: auxiliary net body
920: auxiliary surface fusion part
930: auxiliary upper surface fusion part
940: auxiliary bottom row
950: auxiliary moxibustion

Claims (6)

In the marine life inflow blocking net of the power plant intake port installed at the power plant intake port to block the inflow of marine life and control so that only seawater flows in,
a lower wire installed on the seabed;
an upper wire installed at the sea level so as to be spaced apart from the lower wire;
a plurality of buoys installed on the upper wire to be spaced apart at regular intervals along the longitudinal direction of the upper wire;
One end is coupled to the upper wire and the other end is installed on the seabed to support the upper wire and a support wire body, and a length adjustment chain formed at one end of the support wire body coupled to the upper wire and adjusted in length; a support wire unit including a chain shortener for adjusting the length of the length adjusting chain according to a position fastened to the length adjusting chain;
a plurality of net units disposed along the longitudinal direction between the lower wire and the upper wire to block the inflow of marine organisms;
A pair of zipper bodies formed in the vertical direction on the side surfaces of the net units adjacent to each other, and a slider installed between the pair of zipper bodies to engage or release the zipper body to enable attachment and detachment between the net units A zipper unit comprising a; and
a zipper collecting unit installed in the net unit so that a pair of the zipper bodies are collected;
An auxiliary net body which is detachably disposed on the front or rear surface of the net unit and has a smaller mesh size than the net unit, and an auxiliary lower surface fusion portion formed through fusion on the lower surface of the auxiliary net body, and the auxiliary net A plurality of auxiliary net units including an auxiliary upper surface fusion formed through fusion on the upper surface of the main body; includes,
In the auxiliary net unit, the zipper unit and the zipper collecting unit are additionally installed, respectively, so that a plurality of auxiliary net units can be detached from each other. The method of claim 1,
The net unit is
A net body, a bottom fusion part formed through fusion on the lower surface of the net body, and an upper surface fusion part formed through fusion on the upper surface of the net body. 3. The method of claim 2,
Marine life inlet blocking net of the power plant intake port, characterized in that it further comprises; a fastening unit comprising a lower surface fastening part for fastening the lower wire and the lower surface fusion part, and an upper surface fastening part for fastening the upper wire and the upper surface fusion part. The method of claim 1,
The zipper collection unit,
and a first shackle and a second shackle for interconnecting the adjacent net units, and a shackle connection part for connecting the first and second shackles. delete delete

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