JP2005218429A - Tube holder - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a tube holder for raising a rapidly growing oyster by activating oyster cell activity and enhancing ability for absorbing nutrients by reduction of oxidation-reduction potential (ORP) (that means to be able to generate a large amount of active hydrogen), action of infrared rays and action of negative ions owing to ceramic powder mixed in the tube holder. <P>SOLUTION: The tube holder is attached to an oyster suspension metal wire suspended to an oyster culture raft and produced by mixing the ceramic powder in the tube body made of a resin. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a tube holder that is attached to an oyster-suspended steel wire that is suspended from an oyster for cultivation, and that can activate a oyster attached to a mother shell and can grow large and delicious.

There is nothing as a background art that has a similar function, but there is a mother shell support as an example.
This mother shell support is formed by integrally forming a short, cylindrical rope insertion pipe portion and a bowl-shaped mother shell support plate having a larger diameter than the rope insertion pipe portion at the lower end in the body in the axial direction. It has a rope insertion hole that penetrates. (See Patent Document 1)
Japanese Utility Model Publication No. 6-75155

  However, the thing of the above forms is a thing for the purpose of cut | disconnecting by contact with a suspension rope (oyster suspension steel wire), and preventing that a mother shellfish is lost in the sea, and is fundamentally different from this invention. Is.

  The object of the present invention is to reduce the oxidation-reduction potential (ORP) value (a large amount of active hydrogen can be generated), far-infrared action and negative ion action by ceramic powder mixed in the tube holder. The present invention provides a tube holder capable of activating cells and increasing nutrient absorption, thereby growing oysters with high growth potential.

  As a means for solving the problem, a tube holder to be attached to an oyster-suspended steel wire that is suspended from an aquaculture oyster cage, wherein ceramic powder is mixed into a resin tube body. The main component of ceramic powder is silica, alumina, and titanium oxide. Furthermore, the particle size of the ceramic powder is 20 nm or less. In addition, the material of the tube body is polypropylene, and the weight ratio with the ceramic powder is about 99 to 1.

1) By reducing the oxidation-reduction potential (ORP) by the ceramic powder mixed in the tube body (generating a large amount of active hydrogen), it is especially active for stress and disease in the oyster body (active oxygen is the source of the disease) Neutralizes with hydrogen to cure the disease, thus making it possible to make oysters resistant to the disease and improve the yield.
2) Also, by emitting far infrared rays (3 μm to 9 μm), especially the growing light (5 μm) is effective for the growth of oysters.
3) Furthermore, by generating negative ions, it is possible to increase the absorbability of nutrients eaten by oysters, thereby increasing the growth potential.
4) When the oysters grow vigorously, the adhesion to the mother shell increases and can be grown without falling.
5) The main component of the ceramic powder is desirably silica, alumina, and titanium oxide, and good data were obtained.
6) By making the particle size of the ceramic powder 20 nm or less, a large surface area can be obtained, and a small amount of powder is effective.
7) Even if the tube body is made of polypropylene and the weight ratio with the ceramic powder is about 99 to 1, there is an effect, and the cost can be reduced.

In the tube holder 1, a ceramic tube 3 made of silica, alumina and titanium oxide having a particle size of 20 nm or less is mixed at a weight ratio of 99: 1 with a cylindrical tube body 2 made of polypropylene. It will be.
Although the dimensions are not particularly limited, as an example, the length is about 210 mm and the outer diameter is about 15 mm.

About the usage example of the said tube holder 1, the mother shell B (mainly scallop shell) which attached the oyster K between each tube holder 1 attached to the oyster suspension steel wire KY suspended by the oyster for cultivation (not shown) ) Is supported.
In this state, by growing in the sea, the active hydrogen is generated by the ceramic powder 3 to neutralize the active oxygen (the source of the disease) in the body of the oyster K, thereby making the oyster K resistant to the disease. Can do.
Further, the growth of oysters K is promoted by a far-infrared (3 μm to 9 μm) growth light (5 μm).
In addition, the ability to absorb nutrients can be increased by negative ions (having an effect of spreading between cells).
Furthermore, a small amount of ceramic powder is required and can be manufactured at low cost.

In order to verify the various effects described above, actual data will be described below.
In the Seto Inland Sea, it was actually attached to an oyster for cultivation and compared with a conventional product (same size, made of vinyl chloride).
As data after 6 months after being submerged in the sea, oyster K grown with a conventional product averaged 3 g, whereas in the present invention, it grew to an average of 5 g.
Further, the number of oysters K attached to the mother shell B was about 10% loss in the conventional product, but in the case of the present invention, there was almost no loss.
Furthermore, in the case of the present invention, it is difficult for dust to adhere to the periphery of the oyster K, it is in a clean state, and the commercial value is expected to increase.

  In the above embodiment, the tube body can be made of a material other than polypropylene, and it is needless to say that the weight ratio is more effective if the ceramic powder is more than 99: 1.

  As can be seen from the above data, very good results have been obtained, which can prevent the decrease in oyster production due to sea pollution, increase production, and contribute to the development of the oyster industry.

The front view which shows one Example of the tube holder of this invention. The top view which shows one Example of the tube holder of this invention. The front view which shows the use condition of the tube holder of this invention.

Explanation of symbols

1 --- Tube holder 2 --- Tube body 3 --- Ceramic powder B --- Mother shell K --- Oyster

Claims (4)

  A tube holder that is attached to an oyster-suspended steel wire that is suspended from an aquaculture oyster cage, wherein a ceramic powder is mixed into a resin tube body.   2. The tube holder according to claim 1, wherein the main component of the ceramic powder is silica, alumina, or titanium oxide.   The tube holder according to claim 1 or 2, wherein the particle size of the ceramic powder is 20 nm or less.   4. The tube holder according to claim 1, 2, or 3, wherein the tube body is made of polypropylene and the weight ratio with the ceramic powder is about 99 to 1.

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