KR101769552B1 - Artificial shell for capturing cephalopod - Google Patents

Abstract

More particularly, the present invention relates to artificial shells for capturing jujubes belonging to cephalopod molluscs, and more particularly, to a method for producing artificial shells by mixing natural materials such as barium sulfate, calcium carbonate, and white pigment (White MB) It is possible to minimize the cause of marine pollution due to excellent formability and durability as well as durability and environmental friendliness. It also enhances the natural texture by calcium carbonate and whiteness to barium sulfate, thereby enhancing the reflectance of light. Improvement of the flow by the algae to suppress the flow of the upper and lower shells by the mucchini to spread well, so that the catching performance of the mucchini is excellent, as well as the upper and lower shells when lifting in the water does not open well, This is because it minimizes the escape, and thus it provides the excellent catching performance of attracted to the mackerel.

Description

{Artificial shell for capturing cephalopod}

The present invention relates to an artificial shell for trapping jugomer belonging to cephalopod molluscs. More particularly, the shell body is produced by blending natural materials such as barium sulfate, calcium carbonate and white pigment (White MB) In addition to its formability and durability, it is also environmentally friendly, minimizing the causes of marine pollution, enhancing the natural texture by calcium carbonate and increasing whiteness to barium sulphate, thereby enhancing the light reflectance. And the upper and lower shells can be widened by the mucchini, so that the catch performance by the attractant of the mucchini is excellent, and the upper and lower shells do not open well when lifted from the water, thus minimizing the escape of the mucchini Artificial shells for capturing cephalopods.

In general, the mucus belonging to cephalopod molluscs has a habit of living in natural shells or shells. Using these shells, natural shells or shells are used as fishing catches for snatching.

At this time, the selection of the above-mentioned fish is used to select the seashell and the shellfish based on the experience of the geology, the bird strength and the capture of the seabed in the seabed to capture the squidfish.

However, natural shells or shells are dependent on imports due to massive purchasing, demand and supply imbalances, problems that are difficult for fishermen to buy and use, natural shells or shells are fragile and easily damaged, , There was a problem that marine pollution accelerated because the imported shells contained pollutants and were put into the seawater together.

In order to solve such a problem, a variety of techniques have been disclosed for forming and manufacturing an artificial shell or artificial seashell into a plastic material.

Particularly, in case of artificial shellfish (artificial shellfish), since it is made of a plastic material, there is a problem that it pollutes the water quality environment of the sea and the attractiveness of the mackerel fish is deteriorated due to the characteristics of the plastic material compared to natural shellfish.

In addition, the conventional artificial shell has a problem of poor sedimentation.

That is, the artificial shell formed by molding a lightweight plastic material that is easy to process has a problem that the weight of the artificial shell is low and the settleability is low in seawater.

In order to solve such problems, a technique has been disclosed in which a weight member such as lead or a metal is coupled to the shell body. This is because the weight member capable of increasing sedimentation is not only troublesome in the manufacturing process but also, And there is a problem in that material cost and processing cost are increased.

Conventionally, the artificial shell has a shell-shaped upper and lower shells facing each other and is in close contact with each other by surface contact, so it is not easy to open the upper and lower shells of the shellfish in a mutually offset manner. .

In addition, even if the artificial shell is attracted to the inside of the upper and lower shells, the upper and lower shell bodies are separated from each other when the sea water flowing into the upper and lower shell bodies leaks out from the seabed, And it is easy to catch the inside of the snackfish, so that the trapped amount of the snackfish is reduced.

In addition, since the artificial shell is easily floated by the algae on the seabed and can not maintain a stable fixation state, there is a problem that attracting and catching rate of the kumquat.

Patent Document 1: Patent Registration No. 10-819748 Patent Document 2: Utility Model Registration No. 20-407656 Patent Document 3: Utility Model Registration No. 20-419074

Disclosure of the Invention The present invention has been made to solve all the problems of the prior art described above, and it is an object of the present invention to provide a method for producing a bamboo sphere, calcium carbonate, and white pigment (White MB) The object of the present invention is to provide an excellent skin-attracting property by minimizing the cause of marine pollution by enhancing environmental friendliness and enhancing the natural texture by calcium carbonate and whiteness to barium sulfate to increase the light reflectance.

The present invention relates to a shell structure for improving the structure of a shell to suppress flow caused by algae, and to allow the upper and lower shells to be widened by a squid, The purpose of this is to minimize the escape of the maskfish.

The present invention is characterized by an upper and lower shell body in the form of shells facing each other to form a space portion therein, and a bundle ring protruding from one side of the upper shell and the lower shell,

The upper and lower shell bodies are formed with inner curved surfaces facing each other, and the round curved surface portions are formed so as to protrude from the bundle rings, thereby causing the upper and lower shell bodies to slip and to cause the flaring .

According to an embodiment of the present invention, the bundle hole of the bundle ring is inclined from the outside to the inside, and when the shell is lifted from the sea floor, the upper and lower shells slip inward to act as a force to close each other, thereby preventing escape of the muku.

The outer surface of the upper and lower shell bodies of the present invention is characterized in that a first line of a circular shape from the center to the outer side and a second line of linearity radially outward from the center are formed so as to overlap with each other.

The present invention is characterized by mixing 25 to 30% by weight of a plastic raw material, 35 to 40% by weight of barium sulfate, 25 to 30% by weight of calcium carbonate, and 5 to 10% by weight of a white pigment (White MB).

The present invention relates to a method for producing a foam material, which comprises mixing a shell material with barium sulfate, calcium carbonate, and a white pigment (White MB), which are natural materials, into a plastic raw material, .

In addition, the content of barium sulphate, which is a high specific gravity material, is increased to improve sedimentation and durability, and the natural texture is enhanced by calcium carbonate and the whiteness of barium sulfate is increased to enhance the reflectance of light.

In addition, the improvement of the structure of the shell suppresses the flow caused by the algae, and the upper and lower shells can be widened by the moonfish, so that the catch performance by attracting the moonfish is excellent, and the upper and lower shell bodies It is possible to minimize the escape of the cuttlefish because the cuttlefish does not spread well and thus has an excellent effect of increasing the amount of cuttlefish taken.

1 is a perspective view showing an artificial shell of the present invention.
2 is a plan view showing the artificial shell of the present invention.
3 is a cross-sectional view showing the artificial shell of the present invention.
4 is an enlarged view of "A"
Fig. 5 is a state of use of the artificial shell of the present invention. Fig.

Hereinafter, the present invention will be described in more detail.

First, the artificial shell of the present invention for capturing tangential flow is manufactured by mixing the shell body with barium sulfate, calcium carbonate, and white pigment (White MB), which are natural materials, as a filler in plastic raw materials (PP, PE, ABS, However, the amount of plastic used does not exceed the limit of 30%, which is the limit of usage, which maintains its physical properties and formability.

That is, the present invention is manufactured by mixing and molding 25 to 30% by weight of the plastic raw material, 45 to 50% by weight of barium sulfate, 15 to 20% by weight of calcium carbonate and 5 to 10% by weight of a white pigment (White MB).

The barium sulfate (BaSO4) increases the specific gravity of the shell to secure sedimentation and increases the hardness to prevent deformation after molding. The calcium carbonate is the same material as natural shellfish and enhances the natural affinity by natural texture, To be attracted well. In addition, the white pigment enhances the whiteness of barium sulphate, thereby enhancing the reflectance of light.

If the amount of barium sulfate exceeds 50% by weight, the other functionalities deteriorate due to the small amount of other materials. When the amount of barium sulfate is less than 45% by weight, the self-specific gravity is low and the sedimentation becomes poor. If the amount of calcium (CaCO 3) exceeds 20% by weight, the other functionalities deteriorate due to a small amount of other materials. If the amount of calcium (CaCO 3) is less than 15% by weight, the natural affinity due to natural texture deteriorates. If the mixing amount of the white pigment (White MB) exceeds 10% by weight, the other functionalities deteriorate due to the small amount of other materials. If the amount is less than 5% by weight, the light reflectance is lowered and the effect of inducing the tattoo is decreased. Do.

The barium sulfate and the calcium carbonate are very important for ensuring the moldability with the plastic material. Since the barium sulfate and the calcium carbonate are uniformly mixed at a particle size of 4 to 12 μm and 3 to 10 μm, respectively, Can be minimized. That is, if the particles are too large or too small, it is difficult to evenly mix the particles with the plastic material.

Particularly, in the present invention, barium sulfate, calcium carbonate, and white pigment (White MB), which are natural materials, can be simply mixed with the plastic raw material, but they are preferably pelletized and used. 0.5 to 3 wt% of resin and wax were added to the high-speed mixer, and the mixture was stirred for 5 minutes to generate frictional heat. The mixture containing the filler was further stirred at 50 to 80 ° C for 10 minutes at a high speed and then extruded in a twin extruder A cooling process, a cutting process, and a drying process to produce pellets, and then injection molding the pellets.

At this time, when frictional heat is generated in a high-speed mixer, when the mixture is stirred for less than 5 minutes with a super mixer, homogeneous mixing due to difference in specific gravity of the fillers is difficult, and when the mixture is stirred for more than 10 minutes, Therefore, it is possible to improve the mixing efficiency as well as the physical properties by stirring the mixture containing the filler after generating frictional heat for about 5 minutes for 5 to 10 minutes.

The artificial shell of the present invention for capturing the cephalopods is formed by mixing natural materials such as barium sulphate, calcium carbonate and white pigment (MB) into the plastic raw material so that the amount of plastic used is reduced to 30% or less to reduce marine pollution, 70%, and it is easy to decompose when water is lost in the water. In addition to strengthening environment friendliness, it also absorbs toxic gas (sulfur compounds, hydrochloric acid, etc.) by absorbing and removing calcium carbonate to reduce air pollution, , The temperature of the incinerator generated during incineration is lowered, thereby reducing the cause of the incinerator failure due to the high temperature.

In addition, it improves the natural texture by the content of calcium carbonate, increases the reflectance of light due to the addition of barium sulphate, and improves the other functions such as sedimentation in water, increase in hardness and suppression of deformation. So that the merchantability is greatly improved compared with the conventional one.

1 to 4, the artificial shell 100 for capturing a cephalic flow according to the present invention comprises a shell-shaped upper and lower shells 12 and 13 facing each other to form a space 12 therein, And bundle rings 15 and 15 'which are respectively protruded on one side of the upper and lower shells and are connected to each other by a wire 5 through a bundle hole 16.

Particularly, the upper and lower shell bodies 10 and 10 'are formed by the round curved surface portion 11 having an inner edge facing each other, and the round curved surface portion 11 is protruded from the bundle rings 15 and 15' So that the upper and lower shells 10 and 10 'are slidably displaced to induce the widening.

In other words, the upper and lower shells 10 and 10 'are easily opened and closed by a mask, so that they can be easily closed and closed to protect themselves from the inside of the mask. The operator can easily grasp the presence or absence of a face mask inside by confirming the open / closed state of the shell 10 (10 ').

In addition, a circular first line 18 and a second linear line 19 linearly radially outward from the center are formed on the outer surfaces of the upper and lower shell bodies 10 and 10 ' So that it is prevented from flowing by the algae as well as being well fixed to the sea floor.

The bundle rings 15 are formed to be thicker than the upper and lower shells 10 and 10 'so as to ensure durability to prevent breakage even if the bundle collides first on the sea floor at the time of settlement.

The bundle hole 16 of the bundle ring 15 is inclined from the outside to the inside so that the upper and lower shell bodies 10 and 10 'slip inward and act as a closing force when lifted from the seabed So as to prevent escape of the octopus.

The upper and lower shell bodies 10 and 10 'may have a total weight of 150 to 200 g.

Reference numerals 16a and 16a denote inclined faces of the bundle hole 16 and 17, respectively, which are formed at the bottom of the bundle ring to suppress deformation after injection and to increase the strength.

Hereinafter, the operation and operation of the present invention will be described.

The artificial shell 100 according to the present invention is characterized in that the upper and lower shell bodies 10 and 10 'in the form of shells are in close contact with each other and the bundle rings 15 ) Is connected to the wire 200 by a bundle cord inserted into a bundle hole 16 formed in the wire 15 ', and is used to catch and attract squidfish in the seawater.

The artificial shell 100 according to the present invention can be obtained by mixing the upper and lower shell bodies with a plastic raw material by mixing natural materials such as barium sulfate, calcium carbonate and a white pigment (White MB) to obtain a natural texture, Suppression, and enhancement of the light reflectance, thereby improving the attractiveness of the kumquatsu, as well as being excellent in productivity and durability.

In addition, the artificial shell 100 may be formed in a larger thickness than the upper and lower shell bodies 10 and 10 'to form the bundle rings 15 and 15' 15 ') portions collide first even if they collide first.

The artificial shell 100 according to the present invention is fixed on the sea floor to attract the mulberryfish.

Particularly, the artificial shell 100 of the present invention has a circular first line 18 formed on the outer surface of the upper and lower shells 10 and 10 'in a fixed state on the sea floor, The second linear lines 19 formed in a radial pattern are formed so as to protrude from each other, thereby preventing the flow of the algae and maintaining a stable fixing state.

The artificial shell 100 of the present invention fixed on the seabed surface as described above has upper and lower shells 10 and 10 'facing each other with mutually spaced openings into the inner space 12.

At this time, the upper and lower shells 10 and 10 'are easily opened by the mask, so that attracting and capturing of the mask is effective.

That is, the upper and lower shell bodies 10 and 10 'are formed with the inner curved surface portion 11 facing each other, and the round curved surface portion 11 is formed by the bundle rings 15 and 15' The upper and lower shells 10 and 10 'are in contact with each other only by the round curved surface portion 11 and are slidably opened so as to effectively attract the' Of course, in a state in which the muffin is in the inside, the operation of closing the upper and lower shells 10 and 10 'is performed smoothly, so that the muffin is effectively captured.

When the artificial shell 100 catches the squid, the wire is lifted and the artificial shell 100 is extracted from the seawater.

At this time, the bundle hooks 15 and 15 'of the upper and lower shell bodies 10 and 10' are formed such that the bundle hole 16 is inclined inward from the outside.

That is, as shown in FIG. 4, when the upper and lower shell bodies 10 and 10 'face each other, the inclined surface 16a of the inclined bundle hole 16 of the bundle rings 15 and 15' The upper and lower shell bodies 10 and 10 'slip inward while being supported by the bundle strap 5 so as to act as a force to close each other, and thereby the upper and lower shell bodies 10' (10 ') does not spread well, thereby preventing the escape of the splitfish and improving the catching effect of the splitfish.

Accordingly, the artificial shell 100 of the present invention minimizes escape of the shellfish by preventing the shells of the shellfish body from spreading when the artificial shellfish is lifted from the sea floor as well as attracting the shellfishfishfish, thereby greatly improving the catching performance of the sea squirtfish .

10, 10 ': Upper and lower shell body 11:
12: space part 13:
15: Bundle ring 16: Bundle hole
18: first line 19: second line
100: artificial shell

Claims (5)

delete The upper and lower shell bodies 10 and 10 'are formed in the shape of a shell and face each other so as to form a space 12 therein. The upper and lower shell bodies 10 and 10' protrude from the upper and lower shells, 5), and a bundle loop 15 '(15') for connecting the bundles 15 and 15 '. In the artificial shell for capturing the cephalopods,
The upper and lower shell bodies 10 and 10 'have inner edges facing each other as a round curved surface portion 11 and the round curved surface portion 11 protrudes from the bundle rings 15 and 15' So that the upper and lower shells 10 and 10 'are slidably displaced to induce a flare,
The bundle holes 16 of the bundle rings 15 and 15 'are inclined from the outside to the inside so that when the upper and lower shell bodies 10 and 10' slip inward while being lifted up from the sea floor, The artificial shell for capturing the cephalopod is characterized in that it is configured to prevent the escape of the skinfish. delete 3. The method of claim 2,
The upper and lower shell bodies 10 and 10 'and the bundle rings 15 and 15' are made of plastic raw materials in an amount of 25 to 30 wt%, barium sulfate having a particle size of 4 to 12 μm and 35 to 40 wt% 25 to 30% by weight of calcium carbonate of particle size and 5 to 10% by weight of white pigment (White MB) are mixed and molded. delete

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