KR20180118917A - Procedure method of enucleation prevention for abalone pearl using porous nucleus - Google Patents

Abstract

The present invention relates to an operation method for preventing enucleation of abalone pearl using porous nuclei, comprising the following steps: a first step of exposing an inner surface of a shell covered by epithelial cell membranes by separating the epidermal cell membrane and shell of the abalone; a second step of forming a scratch on the inner surface of the exposed shell; a third step of removing water from the peripheral portion of the shell and the epithelial cell membrane having scratched formed thereon; a fourth step of fixing a nucleus (100) on the inner surface of the shell formed with scratches; and a fifth step of covering the epithelial cell membrane over the fixed nucleus (100). The nucleus (100) has a porous structure having fine pores on the surface and the inside.

Description

[0001] The present invention relates to a method for preventing enucleation of an abalone pearl using a porous nucleus,

The present invention relates to a method for preventing nucleation of an inserted nucleus in an abalone. By using the porous nucleus, the growth rate of the pearly layer is doubled, and the scratch clearance of the nucleus-attached shell surface and the fine pores of the porous nucleus surface Or the adhesive component (cyanoacrylate) penetrates and hardens more quickly and firmly, thereby enhancing the adhesion of the nucleus.

Abalone belongs to gastropods and is also called abalone or abalone in Chinese characters. It is called "Puffer fish" in "Asset baseball", and it is called "Sukjeongmyeong" and "Puffer fish".

The underside (inner surface) of the shell of the abalone is large open and strongly shiny pearly. The mollusk is wrapped with a shell, attached to the shell by shell muscles, and a protuberance is developed around the shell. The feet are large and broad, with a pair of tactile eyes and eyes on the head. The gill is a pair, and the cardiac heart is also a pair, symmetrical.

Conventional methods for inserting pearl nuclei in producing overturned pearls include the method of attaching to the shell and the method of perforating the shell.

In the patch attachment method, the nucleus is fixed to the underside and shell of the nucleus in a short time with the synthetic resin etc. and put into the seawater. Since the abalone having the inserted nucleus always operates in seawater, there is a problem that the rate of the denucleation of the inserted nucleus is high . To reduce this, a perforation method is performed. The perforation method is a method of inserting and fixing the nucleus after perforating the shell. The stress caused by perforation of the shell adversely affects the growth of the abalone. In particular, In the case of pushing inward, the size of perforated hole was relatively large, which caused the stress caused by cutting the shell to be too large, adversely affecting the growth of the abalone, resulting in a longer period of pearling and a higher mortality rate .

In addition, unlike the pearl shells with two shells, abalone has one shell, is highly ecologically mobile and very active. When foreign matter enters the inside of the shell, shellfish (shellfish), which have sensory organs, When a threat is felt due to the instinct of overturning which moves the foreign body to the outside of the shell by moving severely, the nucleus inserted with the strong attraction force and the heavy body can not easily produce the pearl, .

In conclusion, the conventional patch attachment method has a problem that not only the retention rate of nuclei inserted into the shell is low but also the rate of denucleation of the inserted nucleus is high, and when the perforation is performed, the growth rate of pearls is lowered and the mortality rate is increased.

[Prior Art Literature]

Published Japanese Patent Application No. 10-2001-0057027

Published Patent No. 10-2003-0009864

In order to solve the above problems, the present invention uses a porous nucleus and forms a scratch on the inner surface of the shell to stimulate the abductor sensory organs to induce masturbation instinct of abalone, thereby promoting the growth of the abalone and the growth of the nacreous layer It is aimed to lower the enucleation of the treated nucleus.

In order to achieve the above object, the present invention is as follows.

The present invention relates to a method for preventing enucleation of an abalone pearl by using a porous nucleus, which comprises: a first step of exposing an inner surface of a shell covered by an epithelial cell membrane by separating epidermal cell membrane and shell of an abalone; A second step of forming a scratch on the inner surface of the exposed shell; A third step of removing water from the peripheral portion of the shell and the portion of the epithelium inner membrane that are formed by scratching; A fourth step of fixing the nucleus 100 to the inner surface of the shell formed with scratches; And a fifth step of covering the epithelial cell envelope on the fixed nucleus 100. The nucleus 100 is a porous structure having fine pores formed on the surface and inside thereof and having excellent adsorption ability.

Technical effects of the configuration of the present invention are as follows.

First, it is possible to significantly reduce the rate of denucleation of the inserted nucleus by scratching the abalone shell.

In other words, when the foreign body enters the inside of the shell, the abalone moves the shellfish (the flesh and the shell muscle muscle) having the sensory organs severely and strongly absorbs the foreign substances. When these abalone shells are fixed with synthetic resin or cyanoacrylate to the nucleus and shell by forming various types of scratches (horizontal, vertical, diagonal, checkerboard, diamond, circular), even if the abalone is strongly adsorbed Since the synthetic resin or cyanoacrylate penetrates into the scratched grooves on the underside of the porous nucleus and the scratched shell surface and is firmly fixed, it is possible to significantly reduce the denucleation rate of the pearl nucleus.

Second, by forming a scratch on the shell of the area covered with the epithelium cell membrane, it stimulates the sensory organs of the abalone to induce the masturbation instinct of abalone and rapidly build up the stratum corneum, the diapause layer and the pearl layer, It is possible to improve the efficiency and reduce the cost.

Third, by using porous nuclei, the growth rate of the pearl layer is doubled, and the productivity can be improved.

In other words, when porous nuclei are used, there is an advantage of accelerating the growth rate of the nacreous layer because the abundance of abalone, which is a main ingredient for forming the nacreous layer, and the absorption or absorption power of the calcium component present in the seawater are excellent. This advantage is a progressive and creative result that can not be found in conventional nuclear weapons. Generally, in the case of porous nuclei, the growth rate of the nacreous layer (about 0.0056 to 0.0074 mm / day) grows to about 0.17 to 0.22 mm per month. This result is compared with the nucleus with no porosity , The non-porous nucleus requires a long cultivation period of one year or more, but in the case of the present invention, only 5 to 6 months Pearls with pearl thickness of 0.4mm or more can be produced.

Fourth, by rapidly curing the synthetic resin or cyanoacrylate that fixes the nucleus by applying heat between the porous nucleus and the shell, moisture at the site where the porous nucleus is adhered is completely removed, and deterioration of the adhesion performance can be prevented. In addition, the fine pores on the porous core surface, which are in contact with the shell surface, and the narrow gaps between the scratched shell surface quickly penetrate the synthetic resin or cyanoacrylate, thereby enhancing the adhesion. In addition, by applying heat in the bonding process, the synthetic resin or cyanoacrylate can penetrate only a part of the fine pores formed in the porous nucleus, thereby enhancing the adhesive strength and securing the porous region to the maximum to prevent the growth promotion function of the pearl layer from being impaired have. In addition, heat can be prevented from being transferred to the epithelial cell outer membrane during heat application using the protective barrier 200, thereby preventing mortality and lowering of the abalone. If the hardening is delayed, the pores of the porous nucleus are clogged with synthetic resin or the like, so that the promotion of the formation of the nacreous layer due to the porous nucleus can not be expected.

Fifth, the inner surface of the rugged shell is flattened by the scratch formation so as to be suitable for attaching the nucleus, thereby minimizing the variation according to the appearance of the abalone shell and reducing the cost by allowing the abalone core to be applied to more abalone.

In other words, the best way to treat the nucleus with a patch attachment is to flatten the shell. Approximately 20-30% of the 1,000 abalones can be treated with pearl nucleus, while the rest of the shell has a rugged inner surface It is very difficult to fix the nucleus because it has an irregular shape. Even if the nucleus is fixed, there is a problem that many nuclei are enucleated. However, since the rugged part is arranged close to the plane through scratch and then the nucleus is inserted, Many pearls can be treated with nuclei.

Sixth, minimally perforated with scratches can prevent the nucleation of abalone pearls and produce high quality pearls.

In other words, after puncturing one or more holes with a size of about 1 to 5 mm within the scratch shell area, the fixing protrusions of the nucleus are inserted from the inner side to the outer side of the shell and fixed by a bolt and nut tightening method or by a synthetic resin or cyanoacrylate It is possible to lower the denucleation rate of the nucleus close to 0%. However, in the past, due to the enucleation, it has not been possible to apply large-sized nuclei of various shapes to small abalone. However, as in the present invention, If the mastication instinct of abalone is induced to promote the growth of the shell, it is possible to lower the denucleation rate of the nucleus as close to 0% as well as to insert a slightly larger nucleus into the small abalone to produce high quality abalone pearls .

Fig. 1 briefly shows the biomechanical structure of the abalone.
Figure 2 shows the process of separating the epithelial envelope.
Fig. 3 shows a state in which the epithelial cell membrane is isolated by a protective barrier.
FIG. 4 exemplarily illustrates various forms of the protective barrier 200.
5 shows a process of forming a scratch on the inner surface of the shell.
6 shows a state where scratches are formed.
FIG. 7 shows a state where the nucleus is attached to the shell portion where scratches are formed.
FIG. 8 illustratively illustrates various forms of nuclei 100.
FIG. 9 shows a process of removing the protective barrier and returning to its original position when the epithelium outer membrane covers the nucleus.
10 is a block diagram showing each process of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

The present invention relates to a method for preventing enucleation of an abalone pearl using porous nuclei, wherein the bio-structure of the abalone is as shown in Fig. 1, The surface of the inner surface of the scratch formed by causing the masturbation instinct to cause the core features.

Hereinafter, the method of the present invention will be described step by step. Each of these steps is arranged on a block road in FIG.

(0) Preliminary steps

As a preliminary step to perform the procedure, the abalone to be treated is selected and the selected abalone is stabilized. The approximate weight per 100g is selected and stabilized in the aquarium for a certain period of time.

The porous nucleus 100 may be prepared by mixing 80 to 90 parts by weight of hydroxyapatite (Ca ₁₀ (PO ₄ ) ₆ (OH) ₂ ) And 10 to 20 parts by weight of amorphous AlPO ₄ , followed by calcination at 1200 to 1300 ° C for 11 hours to 13 hours.

In this calcination process, OH ions (OH ^- ions) contained in the hydroxide apatite (Ca ₁₀ (PO ₄ ) ₆ (OH) ₂ ) are volatilized and fine pores are formed on the surface and inside of the nucleus 100. The diameter is approximately 2 to 5 mu m.

(1) Step 1

It is a process of exposing the inner surface of the shell covered by the epithelial cell membrane by separating the epidermal cell membrane and shell of the abalone.

As shown in FIG. 2, gradually applying force to the epithelial cell membrane separates the shell from the shell slowly, so care should be taken not to apply too much force momentarily.

As shown in FIG. 3, when the epithelium outer membrane is separated from the shell, a protective barrier 200 is placed between the inner surface region of the shell where the scratch is to be formed and the separated epithelial cell outer membrane to prevent the epithelium outer membrane from returning to its original position do.

The protective barrier 200 may be a simple flat plate as shown in FIG. 4, or may have a channel shape in which both end portions of the flat plate are bent, or may serve as a partition wall capable of blocking the return of the separated epithelial cell If so, it can be transformed into various other forms.

(2) Step 2

It is a process of forming a scratch on the inner surface of the exposed shell.

Scratches are formed in various forms such as horizontal, vertical, diagonal, checkerboard, diamond, and circular using tools such as sandpaper, awl, knife, handpiece, power tool, mm and the width is preferably 1.5 to 3 times the cross-sectional area of the nucleus 100, and the scratch is formed to an appropriate extent in consideration of the size and shape of the rollover, the size and shape of the nucleus 100, and the like.

FIG. 5 illustrates a process of forming a scratch on the inner surface of the shell, and illustrates an example of forming a scratch on the shell inner surface using a knife.

FIG. 6 shows the inner surface of the shell formed with scratches. It is understood that the scratches are not completely formed, but rather the surface of the shell with the scratches is stopped for a while in the intermediate process of forming the scratches.

(3) Step 3

It is the process of removing the moisture of the scratch-formed shell periphery and epithelial cell mantle.

In this process, by-products and water generated during the scratch formation process are removed together with a towel or a cloth.

(4) Step 4

And a process of fixing the porous nucleus (100) formed with fine pores on the inner surface of the shell formed with scratches. When the nucleus 100 is attached, the state shown in FIG. 7 can be obtained. This process can be selected from the following three methods.

<When removing water after attaching nuclei>

The porous core 100 is attached to the inner surface of the shell with the scratch formed by using synthetic resin or cyanoacrylate and hot air is blown through the nozzle to the inner surface of the shell having the porous core 100 attached thereto, Accelerates the curing of the niacinoacrylate and simultaneously removes water.

In other words, it is possible to rapidly penetrate the synthetic resin or cyanoacrylate with a narrow gap between the fine pores on the surface of the porous core 100 contacting with the shell surface and the scratched shell surface, And the shell at about 65-85 ° C, so that the synthetic resin or cyanoacrylate encroaches only a portion of the fine pores formed in the porous core. In this way, the porous region can be maximally secured together with the adhesion enhancement, so that the growth promoting function of the pearl layer can be prevented from being impaired. In addition, the effect of completely eliminating the water between the core 100 and the shell, which have a great effect on the enucleation, can be achieved. The process of applying heat should be very sophisticated, because if the epithelial cell membrane of the abalone is reduced by heat, it has a lot of adverse effects on the production of pearls, and the period of cultivation of the pearls becomes very long, , Which leads to death.

&Lt; Case of attaching heated nucleus >

The porous core 100 is heated in advance in a lighter, torch or electric oven before attaching the porous core 100 to the inner surface of the shell, and then attached to the inner surface of the shell with the scratch formed using synthetic resin or cyanoacrylate.

That is, before the porous nuclei 100 are attached, the porous nuclei 100 are preliminarily heated with a lighter or a torch, or the porous nuclei 100 are placed in an electric oven, and the porous nuclei 100 are set at about 95 to 100.degree. No acrylate is buried and cured quickly.

When the porous core 100 is heated in advance, the effect of removing water and the effect of preventing porosity of the porous core 100 can be obtained more reliably.

<When boring>

In some cases, the nucleus can not be stably fixed only by simple attachment depending on the shell shape of the abalone. In this case, a hole is punctured from the inner side to the outer side on the inner surface of the shell formed with scratches, And the porous nucleus 100 is fixed by inserting the fixing protrusions 110 protruding from the lower surface of the porous core 100 from the inside to the outside of the shell.

That is, in the case of fixing the nucleus by the bonding means alone without the perforation and in the case of perforating the nucleus 100 to be used, the shape of the nucleus 100 to be used should be changed. In case of not puncturing, And the fixing protrusions 110 are formed on the bottom surface of the protrusion 110 as shown in FIG. 8 (b). When the fixing protrusions 110 are formed, the fixing protrusions 110 may be simply inserted into the shell to be fixed with a synthetic resin or the like. Alternatively, the fixing protrusions 110 may be provided with threads to fasten the nuts. And the pin may be inserted and fixed.

When the fixing protrusions 110 are formed, the ends of the fixing protrusions 110 protruding outwardly of the shell may be screwed with a nut, the pins may be inserted and fixed outside the shell, The rate can be fixed by immersing it.

In addition, the shape of the porous nucleus 100 may be various shapes such as hemispherical, elliptical, disc, and spherical shapes as shown in FIGS. 8A and 8B, and the size of the nucleus may be varied Normally, a member having a diameter or a maximum length of 16 to 18 mm or less is used, and a member having a height of 5 to 7 mm or less excluding the fixing protrusion 110 is used.

(5) Step 5

It is the process of covering the epithelial envelope over the fixed nucleus (100).

That is, as shown in FIG. 9, when the protective barrier 200 is removed and the epithelial cell membrane returns to its original position, the process of covering the shell is completed.

When the procedure is performed in this manner, the rate of denucleation is significantly reduced as compared with the conventional method. In the case of 200 abalones, scratches are formed and the porous nucleus 100 is attached to the inner surface of the shell, In the case of culturing for 90 days (experimental group 1), the denucleation rate is only around 2 percent, but the scratch is not formed for 200 offspring. Only the porous nucleus (100) is attached to the inner surface of the shell. (Control group 1), the rate of denucleation is around 38 percent.

In the case of the scratch formation according to the present invention (test group 2), the denaturation rate is about 3%, which is not different from that of onshore farms (only 1% increase) In the case of no scratch formation (control group 2), the rate of denucleation is about 45%, which shows a significant increase (7% increase) in comparison with the onshore farm. The reason for the increase in the denucleation rate of the marine cage farm in the conventional method is considered to be attributed to the movement of the abalone and the increase of the stress due to the influence of the ocean current and the waves. In the case where the present invention is applied, It can be seen that there is no significant change in population regardless of the species.

<Abalone Athletic Farm> division 2 days 7 days 15th 30 days 50 days 90 days Denucleation rate% Experiment 1 One 2 One - - - 2 % Control 1 9 14 9 6 - - 38%

<Abalone marine cage farm> division 2 days 7 days 15th 30 days 50 days 90 days Denucleation rate% Experiment 2 2 3 One - - - 3% Control group 2 12 18 9 6 - - 45%

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, Addition or deletion of a technique, and limitation of a numerical value are included in the protection scope of the present invention.

100: nuclear
110: Fixing projection
200: protective barrier
10: Shell
11: breathing ball
20: epithelial cell membrane
30: visceral bag
31: Gonorrhea
32: heart
40:

Claims (5)

The present invention relates to a method for preventing enucleation of an abalone pearl using porous nuclei,
The first step of exposing the inner surface of the shell covered by the epithelial cell membrane by separating the epidermal cell membrane and shell of the abalone;
A second step of forming a scratch on the inner surface of the exposed shell;
A third step of removing water from the peripheral portion of the shell and the portion of the epithelium inner membrane that are formed by scratching;
A fourth step of fixing the nucleus 100 to the inner surface of the shell formed with scratches; And
A fifth step of covering the epithelial cell outer membrane over the fixed nucleus 100;
Lt; / RTI &gt;
Wherein the nucleus (100) is a porous structure having fine pores on the surface and inside thereof. The method of claim 1,
In the first step,
Further comprising the step of blocking the return path of the epithelial cell membrane by erecting the protective barrier 200 between the inner surface region of the shell where the scratch is to be formed and the separated epithelial cell outer membrane,
In the fifth step,
And removing the protective barrier 200 from the porous nucleus. The method of claim 1,
In the second step,
Wherein the depth of the scratch is 0.2 mm to 0.8 mm and the width is 1.5 to 3 times the cross-sectional area of the nucleus (100). The method of claim 1,
In the third step,
And removing the byproducts and moisture generated in the scratch formation process by using a towel or a cloth together with the porous nucleus. The method of claim 1,
In the fourth step,
A process of attaching the nucleus 100 to the inner surface of the shell with the scratch formed using synthetic resin or cyanoacrylate; And
Spraying warm air through the nozzle to the inner surface of the shell 100 to which the nucleus 100 is adhered and applying heat to promote hardening of the synthetic resin or cyanoacrylate and to remove water,
or,
A step of heating the core 100 with a lighter, a torch or an electric oven, and then attaching the core 100 to the inner surface of the shell with scratches using synthetic resin or cyanoacrylate,
or,
A step of perforating a hole in the inner surface of the shell where the scratch is formed and fixing the nucleus 100 by inserting the fixing protrusion 110 protruding from the lower surface of the nucleus 100 into the perforated hole from the inside to the outside of the shell; Wherein the porous nucleus is used as an anti-pancreatic enzyme.

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