KR101149213B1 - Gill Net Type Device for Sampling Underwater Pollution - Google Patents

Abstract

The present invention relates to an apparatus for sampling (collection) of pollutants present on the seabed to grasp the degree of marine pollution, and more particularly, by applying a magnetic net, By uniformly sampling the pollutants present in the system, it is possible to derive a reliable analysis result of the degree of marine pollution and to prepare an effective countermeasure accordingly.

Description

Gill Net Type Device for Sampling Underwater Pollution

The present invention relates to an apparatus for sampling (collecting) the pollutants present on the seabed to determine the degree of marine pollution.

Marine pollution refers to the harmful effects of chemicals or debris getting into the ocean.

The problem with marine pollution is that potential toxic chemicals stick to small particles and are absorbed by plankton, creatures under the sea. Most of them sink or concentrate upward along the food chain. In addition, since many animal feeds contain fish and fish oil, toxicity may occur in processed foods or dairy products obtained from livestock after several weeks.

Marine pollution causes fish to die in coastal waters, and kills of fish and shellfish caused by toxic substances and other growth and fertility effects caused by toxicity of oil and copper compounds. Cause. This is also causing serious damage to birds such as migratory birds.

Meanwhile, there is growing concern that serious sequelae such as secondary environmental pollution and ecosystem destruction will occur in the mid to long term due to the recent occurrence of marine oil spills. This is because secondary oil damage is more likely to occur due to oil balls, oil treatment agents, volatile organic chemicals, heavy metals, and control supplies.

Oil balls, volatiles in the crude oil and heavy components of oil, roll over the ocean for a long time, killing fish and algae, polluting plankton and destroying the food chain. The damage of the tarball, which solidified through the weathering process, lasts longer. Ping-pong balls, baseball-sized oil balls, and tarballs can rise above the surface of the water when the water temperature rises and burst, causing great damage to the farm or fishery.

In the meantime, measures to prevent marine oil spills have been considered by the Intergovernmental Maritime Consultative Organization (IMCO) .In 1954, the International Treaty on the Prevention of Sea Pollution by Oil was enacted and revised in 1969. In Korea, the Marine Pollution Prevention Act was enacted at the end of 1978 to regulate the overall marine environment, oil discharge from ships and marine facilities, and other waste emissions.

However, before making these regulations, the most important thing is to accurately identify the contaminated area when marine pollution occurs and to analyze the pollution status and degree of the area accurately and to prepare appropriate measures. Sampling (collection) of contaminants will be needed to accurately analyze the extent of marine pollution.

However, since marine pollution occurs over a wide range of areas and is highly mobile, affected by algae and wind, it is worthwhile to properly sample marine contaminants to produce meaningful analysis. This is not it. However, it is not preferable to select a specific point of marine polluted area and to sample only part of the marine polluted area because it is impossible to grasp the overall distribution or degree of marine pollution.

The present invention has been proposed to solve the above problems, by applying the magnetic net (신뢰도) to a reliable analysis of the degree of marine pollution by uniformly sampling the contaminants present in the sea floor over a large area of the ocean It is an object of the present invention to provide a device capable of producing a result.

Other objects and advantages of the present invention will be described below, which are not limited to the matters set forth in the claims and the disclosure of the embodiments thereof, but also to the broader ranges by means and combinations within the range readily recited therefrom. Add that it will be included.

According to an aspect of the present invention,

A pair of buoyancy bodies installed at both ends of the rope having a predetermined length;
A plurality of dogs are installed at regular intervals on the rope, and a hook of left and right symmetry is attached to a lower body of a rectangular parallelepiped or cylinder shape, and the body is made of steel so that the solid sinks to the sea bottom due to its weight. Sampling means;
Low quality sampling means attached to a lower portion of the solid sampling means and having a cup shape;
A pair of weights which are installed at both ends of the rope and are made of stone or iron so as to sink to the sea bottom due to its weight when it is put on the sea;
Provides a mesh type marine pollution sampling device comprising a.

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According to the present invention, by uniformly sampling the contaminants present on the bottom of the ocean over a wide range of oceans, it is possible to derive a reliable analysis of the degree of marine pollution, and to prepare an effective countermeasure.

Other effects of the present invention, as well as those described in the above-described embodiments and claims of the present invention, as well as potential effects that may occur within the range that can be easily estimated therefrom and potential advantages that contribute to industrial development It will be added that it will be covered by a wider scope.

1 is a view showing the overall configuration of a mesh type marine pollution sampling apparatus according to the present invention.
FIG. 2 shows A of FIG. 1 in more detail.
Figure 3 is a view showing the operation of the mesh type marine pollution sampling apparatus according to the present invention.
4 shows in detail the solids sampling means according to the invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are assigned to the same components as much as possible, even if shown on different drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, the preferred embodiments of the present invention will be described below, but it is needless to say that the technical idea of the present invention is not limited thereto and can be variously modified by those skilled in the art.

The present invention is a device that can determine the degree of marine pollution by sampling (collection) the contaminants present on the sea floor, and by analyzing the pollutants uniformly over a large area of the ocean, a reliable analysis of the degree of marine pollution It allows you to derive the result.

The present invention was developed to sample contaminants present on the sea floor by applying a magnetic net (the name of the present invention is called 'net-type marine pollution sampling device'), which is operated in the sea As a phrase used to catch fish, it refers to a means of catching fish by vertically installing a rectangular net in the bottom of the sea floor where the fish of the lower and middle layers go.

The present invention includes a rope 10, a buoyancy body 20, a solid sampling means 30 and a low quality sampling means 40, which will be described in detail for each component.

As shown in FIG. 1, the present invention includes a rope 10 having a predetermined length.

And a pair of buoyancy body 20 is installed at both ends of the rope (10).

The buoyancy body 20 provides a buoyancy force to prevent the magnetic mesh type marine pollution sampling device according to the present invention from sinking to the floor.

The buoyancy body 20 is preferably to use a buoyancy material usually used for fishing gear.

As shown in FIG. 1, the solids sampling means 30 is provided in plural at regular intervals on the rope 10.

As shown in FIG. 4, the solid sampling means 30 has a symmetrical hook attached to a lower portion of a rectangular parallelepiped or cylindrical body, and has a solid component having a lump or a solid shape among contaminants present on the sea bottom (bottom). Can be effectively sampled (collected).

Since the body of the solid sampling means 30 is made of steel and sinks to the sea bottom due to its weight when it is put on the sea.

At this time, when the buoyancy body 20 moves while floating in the sea, the solids sampling means 30 also moves on the sea bottom along with the movement. In this process, solids are caught in the bottom of the pollutants on the bottom. By analyzing them, the user can accurately grasp the degree of marine pollution in a particular sea area. Here, representative solids that can be sampled by hooks include tarballs and marine debris generated after dispersant application.

In this case, when the solids sampling means 30 is entangled with the rope 10, the sampling operation is not properly performed. In order to avoid this phenomenon, the rope 10 of the present invention is preferably a buoyancy rope. The buoyancy rope can be kept floating in the water at a predetermined distance from the bottom of the sea floor by its own buoyancy, thereby avoiding a state of intertwining with the solids sampling means 30 hanging down toward the bottom ( 1).

On the other hand, in the present invention, a plurality of solids sampling means 30 is installed, which results in a reliable analysis of the degree of marine pollution by sampling the pollutants uniformly and uniformly over a large area of the marine polluted area. To do that. Selecting a specific point in a marine polluted area and sampling only that point alone does not provide a good picture of the overall distribution or extent of marine pollution.

Accordingly, the present invention is about 30 to 50 meters in length of the rope 10, and here proposes a mesh type marine pollution sampling apparatus provided with a solids sampling means 30 at intervals of 5 meters.

As such, the length of the rope 10 is about 30 to 50 meters, in order to uniformly sample the area over a certain contaminated area at a time, considering that the place to which the present invention is applied is wide, at least 30 meters in length. If the length of the rope 10 is longer than 50 meters, it is not preferable because the sampling operation is likely to be disturbed due to the interference by the complicated topography of the coast or various kinds of additives.

In addition, if the spacing between the solid sampling means 30 is too narrow, the solid sampling means 30 may be entangled with each other, and sampling may not be performed properly. If the spacing between the solid sampling means 30 is too wide, reliability may be ensured. Since the sufficient sampling is not performed, it is inappropriate, so the interval between the solids sampling means 30 is preferably about 5 meters.

As described above, the mesh type marine pollution sampling apparatus according to the present invention can sample the pollutant uniformly over a small area while moving back and forth according to the algae or wind in the marine polluted area.

The low quality sampling means 40 is attached to the bottom of the solids sampling means 30 as shown in FIG. 1.

The low quality sampling means 40 has the shape of a cup (FIG. 2). Therefore, the low quality sampling means 40 sinks on the sea bottom along with the solid material sampling means 30 and collects the bottom mud, sand, gravel, etc. into the cup to effectively sample the low quality.

In particular, since the low quality sampling means 40 has a concave shape in which the bottom of the body is concave, as shown in FIG. 2, the low quality sampling means 40 is easily stuck to the bottom when sinking to the sea bottom so that it remains straight without being flipped or exposed. Can be. This makes it possible to collect mud, sand and gravel from the bottom of the cup more effectively into the cup.

The user can accurately grasp the distribution of the quality of a specific sea area by sampling (collection) the mud, sand, gravel, etc. contained in the quality sampling means 40.

The low quality sampling means 40 is preferably a clip type that can be attached to and detached from the solid matter sampling means 30 so as to be selectively used according to a user's needs.

On the other hand, the present invention, as shown in Figure 1, it is preferable to install a pair of weights 50 on both ends of the rope (10).

Weight weight 50 is made of outgoing stone or iron so that when it is put on the sea will sink to the bottom due to its weight.

The weight 50 serves to allow the solids sampling means 30 and the low quality sampling means 40 to be more easily seated on the sea bottom. If the contact between the solid sampling means 30 and the low quality sampling means 40 and the sea bottom becomes poor, the sampling result also deteriorates, so the role of the weight weight 50 in this case is very important.

On the other hand, the weight weight 50 is also good to have the shape of an anchor, in this way, in the coast side rather than the distant sea, the present invention may be connected to the anchor so as not to be pushed by the coarse waves can be sampled in a fixed form. In this case, the solid on the sea floor moves along the algae and is caught by the hook of the solid sampling means 30.

Figure 3 shows the operation of the present invention, when the user arranges one or more of the network-type marine pollution sampling apparatus according to the present invention in the marine pollution area, the present invention moves around according to algae or wind Contaminants are sampled evenly over the area.

At this time, if the position tracking device (GPS) is mounted on the buoyancy body 20, the user can easily track and confirm the sampling path.

The above description is merely illustrative of the technical idea of the present invention, and various modifications, changes, and substitutions may be made by those skilled in the art without departing from the essential characteristics of the present invention. will be. Accordingly, the embodiments disclosed in the present invention and the accompanying drawings are not intended to limit the technical spirit of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by the embodiments and the accompanying drawings. . The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

10 rope 20 buoyancy body
30: solids sampling means 40: low quality sampling means
50 weight

Claims (10)

A pair of buoyancy bodies installed at both ends of the rope having a predetermined length;
A plurality of dogs are installed at regular intervals on the rope, and a hook of left and right symmetry is attached to a lower body of a rectangular parallelepiped or cylinder shape, and the body is made of steel so that the solid sinks to the sea bottom due to its weight. Sampling means;
Low quality sampling means attached to a lower portion of the solid sampling means and having a cup shape;
A pair of weights which are installed at both ends of the rope and are made of stone or iron so as to sink to the sea bottom due to its weight when it is put on the sea;
Mesh type marine pollution sampling device comprising a. delete The method of claim 1,
The net weight marine pollution sampling device, characterized in that the weight has the form of an anchor. The method of claim 1,
Magnetic rope type marine pollution sampling device, characterized in that the rope is a buoyancy rope. The method of claim 1,
Magnetic rope type marine pollution sampling device, characterized in that the length of the rope is 30 ~ 50 meters. The method of claim 1,
Magnetic buoyancy type marine pollution sampling device, characterized in that the buoyancy material is a buoyancy material for fishing gear. The method of claim 1,
Magnetic buoyancy type marine pollution sampling device, characterized in that the buoyancy body is equipped with a position tracking device. The method of claim 1,
The solid-state sampling means is a marine pollution sampling device, characterized in that installed at intervals of 5 meters. The method of claim 1,
The low quality sampling means is a mesh type marine pollution sampling device, characterized in that the detachable clip type. The method of claim 9,
The low quality sampling means is a mesh type marine pollution sampling device, characterized in that the bottom has a concave shape recessed.

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