JP2022055516A - Culture service water sterilization tool - Google Patents

Abstract

To produce inexpensively and quickly, a culture service water sterilization tool suitable for a culture crawl on sea, for example.SOLUTION: A culture service water sterilization tool has: one flexible long sized bag which is formed into a mesh state; two to fifty water treatment tools which are pushed into the long sized bag in at least one row along a longitudinal direction of the long sized bag, in which tip end and rear end parts of each water treatment tool are closed into a rat in a bag state through fastening means from outside of the flexible long sized bag so that each water treatment tool is not substantially displaced in a position in the longitudinal direction in the flexible long sized bag, an appearance shape of each water treatment tool is, in the rat in the bag state, formed into a substantially spherical shape, a substantially spindle shape, a substantially sausage shape, or an eggplant shape. The water treatment tool is formed of a metallic fiber formed of at least copper and zinc, or of an alloy of copper and zinc, and the metallic fiber is packaged in the long sized packaging body.SELECTED DRAWING: Figure 1

Description

本発明は、養殖用水殺菌具に関し、特に海上に於ける養殖生け簀に適する養殖用水殺菌具に関する。 The present invention relates to aquaculture water sterilizer, and particularly to aquaculture water sterilizer suitable for aquaculture cages at sea.

まず特許文献１には、上水の残留塩素及び水中に発生する藻類や細菌の除去目的として、不織布や織布で銅繊維や銅ファイバーの塊を包装した袋体を使用する水の浄化用パックが記載され、前記銅繊維や銅ファイバーは、糸条の太さとして６０ミクロンから９０ミクロンまであることが記載されている。また水の浄化用パックは、可塑性を有するので、折り曲げたり丸めたりして使用できることもできることが記載されている。 First, Patent Document 1 describes a water purification pack using a bag body in which copper fibers or lumps of copper fibers are wrapped in a non-woven fabric or woven cloth for the purpose of removing residual chlorine in clean water and algae and bacteria generated in the water. It is described that the copper fiber or the copper fiber has a thread thickness of 60 microns to 90 microns. It is also stated that the water purification pack is plastic and can be bent or rolled for use.

次に特許文献２には、銅又は亜鉛又は銅と亜鉛の合金のいずれかの金属繊維を、円筒形状の包装体に充填することが記載されている。また前記金属繊維、糸条の太さとして１００ミクロンであることが記載されている。 Next, Patent Document 2 describes filling a cylindrical package with a metal fiber of copper or zinc or an alloy of copper and zinc. Further, it is described that the thickness of the metal fiber and the thread is 100 microns.

しかしながら、特許文献１に記載の水の浄化用パック及び特許文献２に記載の水殺菌用のカートリッジは、いずれも単体で使用される水処理具であり、例えば海上で魚を養殖する養殖用水殺菌具には適さない。 However, the water purification pack described in Patent Document 1 and the water sterilization cartridge described in Patent Document 2 are both water treatment tools used alone, and for example, water sterilization for cultivating fish at sea. Not suitable for ingredients.

何故ならば、例えばマグロを海上の養殖生け簀で養殖する場合には、普通一般に前記養殖生け簀は２７メートルから３０メートルの深さである。また、アワビ、サザエ等の貝類を養殖する場合には、前記養殖生け簀は、例えば５メートルから１５メートルの深さである。さらに、ヒラメ、鯛などの魚をする場合には、普通一般に前記養殖生け簀は３メートルから１５メートルの深さである。このように海上の養殖生け簀は、養殖対象の魚や貝類如何によって、その深さが異なることから、パック式やカートリッジ式の単体水処理具だけでは、海上の養殖生け簀には適しない。 This is because, for example, when tuna is cultivated in a farmed cage at sea, the farmed cage is generally 27 to 30 meters deep. When shellfish such as abalone and turban shellfish are cultivated, the cultured cage is, for example, 5 to 15 meters deep. Furthermore, in the case of fish such as flatfish and sea bream, the farmed cage is generally 3 to 15 meters deep. As described above, since the depth of the marine-cultured cage differs depending on the fish and shellfish to be cultivated, the pack-type or cartridge-type single water treatment tool alone is not suitable for the marine-cultured cage.

そこで、現在、簡単に製造でき、取り扱いや運搬が容易であると共に、例えば海上の深さに対応した設けられた養殖生け簀に適する養殖用水殺菌具の出現が要望されている。 Therefore, at present, there is a demand for the emergence of aquaculture water sterilizers that are easy to manufacture, easy to handle and transport, and are suitable for aquaculture cages provided for, for example, the depth of the sea.

ところで、特許文献３には、水質処理部材が、その上部に浮き機構を有し、一方、その下部に錘機構を有し、浄化対象水域の水中に懸垂状態に保持可能な水質処理部材なので、例えばゴルフ場の非常に浅い養殖池に適するものである。 By the way, in Patent Document 3, the water quality treatment member has a floating mechanism in the upper part thereof and a weight mechanism in the lower part thereof, and is a water quality treatment member that can be held in a suspended state in the water of the water to be purified. For example, it is suitable for a very shallow fishpond in a golf course.

しかしながら、該水質処理部材の包体は、一つの網体なので、例えば４メートル乃至３０メートルの海水や同様の深さがある供給水中（養殖池、養殖タンク等）に配設される養殖用水殺菌具には適しない。 However, since the package of the water quality treatment member is a single net body, it is sterilized by aquaculture water disposed in, for example, seawater of 4 to 30 meters or supply water having a similar depth (aquaculture pond, aquaculture tank, etc.). Not suitable for ingredients.

なお、上記特許文献１乃至特許文献３のいずれにも、浄化対象水域の水中に金属繊維を充填した包装体を上下方向に一列状に繋げることは記載され、示唆されていない。また、例えば浄化対象水域の一つである海に於いて、海上の養殖生け簀の浮枠に金属繊維を充填した包装体を２個以上下方向に一列状に繋げた状態で使用することは周知技術でもない。 It should be noted that neither Patent Document 1 to Patent Document 3 describes and does not suggest that a package in which metal fibers are filled in water in a water area to be purified is connected in a row in the vertical direction. In addition, for example, in the sea, which is one of the waters to be purified, it is well known that two or more packages filled with metal fibers in the floating frame of aquaculture cages on the sea are used in a downward row. It's not technology either.

特許請求第３１２５４７号公報Claim No. 312547 実開昭６３－７３１９９号公報（全文）Jitsukaisho 63-73199 (full text) 特開２００８－２２９５７３号公報Japanese Unexamined Patent Publication No. 2008-229573

そこで、本発明の主たる課題は、例えば海上の養殖生け簀に適する養殖用水殺菌具を迅速かつ安価に製作することである。具体的には、各水処理具の一個、一個の軽量化を図ることにより、製造が容易であり、しかも取り扱いが容易であると共に、運搬の際には嵩張らないように折ることができ、一方、深さのある養殖生け簀で使用する時は、養殖生け簀の深さに対応して金属繊維を充填した包装体の数を増減して垂下することができる養殖用水殺菌具を提案することである。 Therefore, a main object of the present invention is, for example, to produce a water sterilizing tool for aquaculture suitable for aquaculture cages at sea quickly and inexpensively. Specifically, by reducing the weight of each water treatment tool, it is easy to manufacture and handle, and it can be folded so as not to be bulky during transportation. When using in a deep aquaculture cage, it is to propose a water sterilizer for aquaculture that can be hung by increasing or decreasing the number of packages filled with metal fibers according to the depth of the aquaculture cage. ..

本発明の前記ならびにそのほかの目的と新規な特徴は次の説明を添付図面と照らし合わせて読むと、より完全に明らかになるであろう。
ただし、図面はもっぱら解説のためのものであって、本発明の技術的範囲を限定するものではない。 The above and other objects and novel features of the invention will become more fully apparent when the following description is read in light of the accompanying drawings.
However, the drawings are for illustration purposes only and do not limit the technical scope of the present invention.

本発明の養殖用水殺菌具は、網目に形成された可撓性の一つの長尺袋と、この長尺袋の中に該長尺袋の長手方向に沿って少なくとも一列に押し込まれた２個乃至５０個の水処理具と、前記各水処理具が前記可撓性の長尺袋内でそれぞれ長手方向に略位置変位しないように前記可撓性の長尺袋の外側から前記各水処理具の先端部側と後端部側を、それぞれ締付手段を介して袋のネズミ状に閉じ、前記各水処理具の外観形状は、前記袋のネズミ状態で、略球体状、略紡錘状、略ソーセージ形状、略茄子形状のいずれかであり、前記水処理具は、少なくとも銅又は亜鉛又は銅と亜鉛の合金のいずれかの金属繊維であり、前記金属繊維は長尺状包装体に内装されていることを特徴とする。 The water sterilizer for cultivation of the present invention includes one flexible long bag formed in a mesh and two pieces pushed into the long bag in at least one row along the longitudinal direction of the long bag. 50 water treatment tools and each water treatment tool from the outside of the flexible long bag so that the water treatment tools are not substantially displaced in the longitudinal direction in the flexible long bag. The front end side and the rear end side of the tool are closed like a rat of a bag via a tightening means, and the appearance shape of each water treatment tool is substantially spherical or substantially spindle-shaped in the rat state of the bag. The water treatment tool is at least a metal fiber of copper or zinc or an alloy of copper and zinc, and the metal fiber is housed in a long package. It is characterized by being done.

上記構成に於いて、実施形態では、前記長尺状包装体の長さは、１０ｃｍから１５０ｃｍまでであり、その幅は１０ｃｍから３０ｃｍまでである。 In the above configuration, in the embodiment, the length of the long package is from 10 cm to 150 cm, and the width thereof is from 10 cm to 30 cm.

ここで「長手方向に略位置変位しないように」とは、垂直に吊り下げた場合に於いて、各水処理具が全く移動しない場合の他、発明の課題を考慮し、各水処理具が袋のネズミ状態に収納されたまま自重で若干下方に摺動した場合も含まれることをいう。また、「少なくとも一列」とは、例えば二列、三列、四列など、発明の課題を考慮して一つの長尺袋に多数の水処理具を複数列に構成しても良いことをいう。 Here, "to prevent the displacement in the longitudinal direction" means that each water treatment tool does not move at all when it is suspended vertically, and in consideration of the problem of the invention, each water treatment tool is used. It also includes the case where the bag is stored in the rat state and slides slightly downward due to its own weight. Further, "at least one row" means that a large number of water treatment tools may be configured in a plurality of rows in one long bag in consideration of the problem of the invention, for example, two rows, three rows, four rows, etc. ..

（ａ）深さのある養殖生け簀で使用する時は、養殖生け簀の深さに対応して垂下することができる。付言すると、魚の育成に害のない濃度の銅イオンを、ある程度深さ、好ましくは２メートル以上の深さがある海上の養殖生け簀の海水や飼育槽の水中に溶解分散させることにより、飼育水（海水や真水）そのものが、一定濃度の銅イオン水となり殺菌力をもつ。
したがって、ある程度深さがある養殖生け簀や飼育槽に病魚が入ってきても水中に浮遊する病原菌や寄生虫、ウイルスなどが殺菌または活性をなくすことで、感染の恐れが少なくなり、飼育魚（例えば鯛、マクロなど）の疾病を予防することができる。また各水処理具の一個、一個が、袋のネズミ状態で、しかも略球体状、略紡錘状、略ソーセージ形状、略茄子形状のいずれかであることから、製造の容易化を図ることができるのみならず、取り扱いが容易であると共に、運搬の際には嵩張らないように折ることができる。また網目に形成された可撓性の一つの長尺袋に多数の水処理具を列状に内装し、かつ、袋のネズミ状態にするので、迅速かつ安価に製作することができる。
（ｂ）請求項２に記載の発明は、可撓性の長尺袋の網目はメッシュ状なので、例えば４個以上の水処理具を、該長尺袋の中に該長尺袋の長手方向に沿って容易に一列状態に押し込むことができる（図１参照）。また前記水処理具の長尺状包装体は、透水性の不織布で形成されているので、害のない濃度の銅イオンを、スムースに水中に溶解分散させることができる。
（ｃ）請求項３に記載の発明は、前記長尺状包装体の長さは、１０ｃｍから１５０ｃｍまでであり、その幅は、例えば１０ｃｍから３０ｃｍまでであることを特徴とするから、本発明の主たる課題を達成することができる。
（ｄ）その他、金属繊維が棒状体の銅又は棒状体の亜鉛又は銅と亜鉛の棒状体の合金のいずれかから、６０ミクロンから９０ミクロンまでの太さに削り出した繊維状のものであることから、取り扱いが容易であると共に、金属繊維の各糸条の太さの表面積を増やすことができる、金属繊維が容易に絡まない、金属繊維を包装体に容易に充填することができる、各糸条の先端部が容易に包装体に刺さらない等の優れた効果がある。 (A) When used in a deep cultured cage, it can be hung according to the depth of the cultured cage. In addition, by dissolving and dispersing copper ions at a concentration that is not harmful to fish breeding in the seawater of the aquaculture cage or the water of the breeding tank at a depth of a certain depth, preferably 2 meters or more, the breeding water ( Seawater or fresh water) itself becomes copper ionized water with a certain concentration and has bactericidal activity.
Therefore, even if a diseased fish enters a farmed aquaculture cage or a breeding tank with a certain depth, pathogens, parasites, viruses, etc. floating in the water will be sterilized or lose their activity, reducing the risk of infection and breeding fish (breeding fish ( For example, it is possible to prevent diseases such as parasites and macros. Further, since each one of the water treatment tools is in the rat state of the bag and is in any of a substantially spherical shape, a substantially spindle shape, a substantially sausage shape, and a substantially egg shape, it is possible to facilitate the production. Not only that, it is easy to handle and can be folded so that it is not bulky during transportation. Further, since a large number of water treatment tools are arranged in a row in one flexible long bag formed in a mesh and the bag is in a rat state, it can be manufactured quickly and inexpensively.
(B) In the invention according to claim 2, since the mesh of the flexible long bag is mesh-like, for example, four or more water treatment tools are placed in the long bag in the longitudinal direction of the long bag. It can be easily pushed into a row along the line (see FIG. 1). Further, since the long package of the water treatment tool is made of a water-permeable non-woven fabric, copper ions having a harmless concentration can be smoothly dissolved and dispersed in water.
(C) The invention according to claim 3 is characterized in that the length of the long package is from 10 cm to 150 cm, and the width thereof is, for example, from 10 cm to 30 cm. Can achieve the main tasks of.
(D) In addition, the metal fiber is a fibrous material obtained by carving a rod-shaped copper or a rod-shaped zinc or a rod-shaped alloy of copper and zinc to a thickness of 60 to 90 microns. Therefore, it is easy to handle, the surface area of the thickness of each thread of the metal fiber can be increased, the metal fiber is not easily entangled, and the metal fiber can be easily filled in the package. It has an excellent effect that the tip of the thread does not easily stick into the package.

図１乃至図７は本発明の第１実施形態を示す各説明図、図８乃至図１０は本発明の他の実施形態を示す各説明図である。
第１実施形態の使用状態を示す概略説明図（一部省略）。 一部を省略した養殖用水殺菌具Ｘの概略斜視図（略ソーセージ形状タイプ）。 図４に於ける３－３線拡大断面図（金属繊維は便宜的に示してある）。 少なくとも一端開口の長尺袋の中に、該長尺袋の長手方向に沿って４個以上の水処理具を一列に押し込んだ状態の説明図（なお、長尺袋を所要の長さに切断した後に複数個の水処理具を列状に押し込んでも良い）。 略ソーセージ形状の水処理具を、締付手段を介して袋のネズミ状態にする場合の説明図。 要部の分解斜視図。 水処理具の構成を示す説明図（金属繊維は便宜的に示してあり、水処理具内に密閉状態に充填される）。 本発明の第２実施形態の図２と同様の概略斜視図。 本発明の第３実施形態の図２と同様の概略斜視図。 本発明の第４実施形態の図２と同様の概略斜視図。 1 to 7 are explanatory views showing the first embodiment of the present invention, and FIGS. 8 to 10 are explanatory views showing other embodiments of the present invention.
Schematic explanatory diagram (partially omitted) showing the usage state of the first embodiment. Schematic perspective view (substantially sausage shape type) of aquaculture water sterilizer X with a part omitted. 3-3 enlarged cross-sectional view in FIG. 4 (metal fibers are shown for convenience). Explanatory drawing of a state in which four or more water treatment tools are pushed in a row along the longitudinal direction of the long bag into a long bag having at least one opening (the long bag is cut to a required length). After that, multiple water treatment tools may be pushed in a row). An explanatory diagram of a case where a water treatment tool having a substantially sausage shape is put into a rat state of a bag via a tightening means. An exploded perspective view of the main part. Explanatory drawing showing the structure of the water treatment tool (metal fibers are shown for convenience, and the water treatment tool is filled in a sealed state). The same schematic perspective view as FIG. 2 of the 2nd Embodiment of this invention. The same schematic perspective view as FIG. 2 of the 3rd Embodiment of this invention. The same schematic perspective view as FIG. 2 of the 4th Embodiment of this invention.

まず、図１乃至図７を参照にして、本発明の第１実施形態を説明する。この第１実施形態の養殖用水殺菌具Ｘは、網目に形成された可撓性の一つの長尺袋１と、この長尺袋の中に該長尺袋の長手方向に沿って、例えば一列に押し込まれた４個乃至５０個（図１、図２では、一部省略しいているが、例えば合計３０個）の水処理具２と、前記各水処理具２が前記可撓性の長尺袋１内でそれぞれ長手方向に略移動しないように前記可撓性の長尺袋１の外側から前記各水処理具２の先端部側と後端部側を、それぞれ締付手段５を介して袋のネズミ状に閉じている。 First, the first embodiment of the present invention will be described with reference to FIGS. 1 to 7. The water sterilizer X for culture of the first embodiment has one flexible long bag 1 formed in a mesh and, for example, a row in the long bag along the longitudinal direction of the long bag. 4 to 50 water treatment tools 2 (partially omitted in FIGS. 1 and 2, for example, 30 in total) and each of the water treatment tools 2 are the lengths of the flexibility. From the outside of the flexible long bag 1 to the front end side and the rear end side of each of the water treatment tools 2 via the tightening means 5, respectively, so as not to move substantially in the longitudinal direction in the shaku bag 1. It is closed like a rat in a bag.

前記各水処理具２の外観形状は、例えば前記袋のネズミ状態で、略球体状、略紡錘状、略ソーセージ形状、略茄子形状のいずれかである。 The external shape of each water treatment tool 2 is, for example, a substantially spherical shape, a substantially spindle shape, a substantially sausage shape, or a substantially eggplant shape in the rat state of the bag.

前記水処理具２の数は、水中の深さを考慮して任意に決めることができる。例えば図１で示すように海上の養殖生け簀１１は、図示しない魚を囲む網本体１２、網本体の上端部に略水平状態に位置する浮き枠、固定枠等の吊り下げ杆１３等を備えているが、前記吊り下げ杆１３にロープ状連結手段（例えば一般的なロープ）１４を介して養殖用水殺菌具Ｘを吊り下げる。この場合に於いて、海上の養殖生け簀１１の養殖対象がマグロである場合、すなわち、マグロを養殖する場合には、普通一般に海水の深さは２７メートル乃至３０メートル程度なので、養殖用水殺菌具Ｘの水処理具２の数は、２７個乃至３０個が望ましい。したがって、養殖対象如何によって、水処理具２の数を、４個乃至５０個の範囲で任意に決めることができる。 The number of the water treatment tools 2 can be arbitrarily determined in consideration of the depth of water. For example, as shown in FIG. 1, the aquaculture cage 11 on the sea is provided with a net body 12 that surrounds a fish (not shown), a floating frame located at the upper end of the net body in a substantially horizontal state, a hanging rope 13 such as a fixed frame, and the like. However, the aquaculture water sterilizer X is hung from the hanging rod 13 via a rope-shaped connecting means (for example, a general rope) 14. In this case, when the target of aquaculture cage 11 for aquaculture is tuna, that is, when tuna is cultivated, the depth of seawater is generally about 27 to 30 meters. The number of water treatment tools 2 is preferably 27 to 30. Therefore, the number of water treatment tools 2 can be arbitrarily determined in the range of 4 to 50 depending on the aquaculture target.

なお、前記ロープ状連結手段１４の上端部は前記吊り下げ杆１３に適宜に縛り付け、一方、その下端部は養殖用水殺菌具Ｘの先細り状の突出上端部に適宜に縛り付ける。また図１に於いて、符号１５は網本体１２の下端部に取り付けた多数の錘である。養殖生け簀１１の構成は本発明の特定要件ではない。 The upper end of the rope-shaped connecting means 14 is appropriately bound to the hanging rod 13, while the lower end thereof is appropriately bound to the tapered protruding upper end of the aquaculture water sterilizer X. Further, in FIG. 1, reference numeral 15 is a large number of weights attached to the lower end portion of the net body 12. The composition of the farmed cage 11 is not a specific requirement of the present invention.

ところで、特許文献１、特許文献２等で周知の技術であるが、前記水処理具２は、少なくとも銅又は亜鉛又は銅と亜鉛の合金のいずれかの金属繊維４であり、前記金属繊維４は長尺状包装体３に内装されている。金属繊維４の形態は特に問わないが、好ましくは糸条の直径は、銅の丸棒から８０ミクロン（０．０８ｍｍ）極紐にけずりだす。 By the way, although it is a well-known technique in Patent Document 1, Patent Document 2, etc., the water treatment tool 2 is at least a metal fiber 4 of copper or zinc or an alloy of copper and zinc, and the metal fiber 4 is a metal fiber 4. It is housed in a long package 3. The form of the metal fiber 4 is not particularly limited, but preferably the diameter of the thread is scraped from a copper round bar to an 80 micron (0.08 mm) pole string.

付言すると、可撓性の一つの長尺袋１の網目は、いわゆるメッシュ状である。また前記水処理具２の長尺状包装体３は、透水性の不織布で形成されている。さらに、前記金属繊維４は、棒状体の銅又は棒状体の亜鉛又は銅と亜鉛の棒状体の合金のいずれかから、６０ミクロンから９０ミクロンまでの太さに削り出した繊維状のものである。
また前記金属繊維４を包む前記長尺状包装体３の長さは、８０ｃｍから１５０ｃｍまでであり、好ましくは９０ｃｍから１３０ｃｍまでであり、さらに最適な長さは略１００ｃｍである。 In addition, the mesh of one flexible long bag 1 is a so-called mesh shape. Further, the long package 3 of the water treatment tool 2 is made of a water-permeable non-woven fabric. Further, the metal fiber 4 is a fibrous material carved from either copper rod or zinc rod or an alloy of copper and zinc rod to a thickness of 60 microns to 90 microns. ..
The length of the long package 3 that wraps the metal fiber 4 is 80 cm to 150 cm, preferably 90 cm to 130 cm, and the optimum length is approximately 100 cm.

また金属繊維４の各糸条のその幅は１５ｃｍから３０ｃｍまでである。好ましく１８ｃｍから２５ｃｍまでであり、さらに最適な太さは略２０ｃｍである。 The width of each thread of the metal fiber 4 is from 15 cm to 30 cm. It is preferably from 18 cm to 25 cm, and the optimum thickness is about 20 cm.

図４は、少なくとも一端開口１ａの長尺袋１の中に、該一端開口１ａから該長尺袋の長手方向に沿って４個以上の水処理具を一列に押し込んだ状態の説明図である。この場合、長尺袋１は、例えばロール状かつメッシュの巻物から所要量引き出して、ハサミ、カッター等の切断手段を用いて適宜に切断する。もちろん、図４で示すように、ロール状のものから所要量引き出し、その状態で一端開口１ａの長尺袋１の中に、該一端開口１ａから該長尺袋の長手方向に沿ってどんどん押し込んでも良い。 FIG. 4 is an explanatory view of a state in which four or more water treatment tools are pushed in a row from the one end opening 1a along the longitudinal direction of the long bag into a long bag 1 having at least one end opening 1a. .. In this case, the long bag 1 is appropriately cut by, for example, pulling out a required amount from a roll-shaped and mesh scroll and using a cutting means such as scissors or a cutter. Of course, as shown in FIG. 4, the required amount is pulled out from the roll-shaped object, and in that state, it is pushed into the long bag 1 having the one-end opening 1a from the one-end opening 1a along the longitudinal direction of the long bag. But it's okay.

付言すると、切断された可撓性の一つの長尺袋１に、例えば５個の水処理具２を列状に入れ、それぞれ袋のネズミ状態にする場合には、締付手段５の数と箇所を考慮し、余裕を持った長さに切断する。なお、締付手段５は、一か所に複数本用いても良い。 In addition, if, for example, five water treatment tools 2 are placed in a row in one long bag 1 that is cut and flexible, and each bag is in a rat state, the number of tightening means 5 is used. Consider the location and cut to a length with a margin. A plurality of tightening means 5 may be used in one place.

であるから、切断された可撓性の一つの長尺袋１は、図６で示すように両端開口１ａとなる。図５は略ソーセージ形状の水処理具２を、所要長さの紐、線体等の締付手段５（実施形態では紐）を介して袋のネズミ状態にする場合の説明図である。図６は一つの長尺袋１と一個の水処理具３を示す分解斜視図である。そして、図７は水処理具２の構成を示す概略説明図である。 Therefore, one of the cut flexible long bags 1 has an opening at both ends 1a as shown in FIG. FIG. 5 is an explanatory diagram in the case where the water treatment tool 2 having a substantially sausage shape is put into a rat state of a bag via a tightening means 5 (string in the embodiment) such as a string and a wire of a required length. FIG. 6 is an exploded perspective view showing one long bag 1 and one water treatment tool 3. FIG. 7 is a schematic explanatory view showing the configuration of the water treatment tool 2.

次に図８は、本発明の第２実施形態の図２と同様の概略斜視図で、養殖用水殺菌具Ｘ１の各水処理具２Ａの外観形状は、略紡錘状タイプである。また図９は本発明の第３実施形態の図２と同様の概略斜視図で、養殖用水殺菌具Ｘ２の各水処理具２Ｂの外観形状は略茄子形状タイプである。次に図１０は本発明の第４実施形態の図２と同様の概略斜視図で、養殖用水殺菌具Ｘ３の各水処理具２Ｃの外観形状は略球体状タイプである。 Next, FIG. 8 is a schematic perspective view similar to FIG. 2 of the second embodiment of the present invention, and the external shape of each water treatment tool 2A of the aquaculture water sterilizer X1 is a substantially spindle-shaped type. Further, FIG. 9 is a schematic perspective view similar to FIG. 2 of the third embodiment of the present invention, and the external shape of each water treatment tool 2B of the aquaculture water sterilizer X2 is a substantially eggplant shape type. Next, FIG. 10 is a schematic perspective view similar to FIG. 2 of the fourth embodiment of the present invention, and the external shape of each water treatment tool 2C of the aquaculture water sterilizer X3 is a substantially spherical type.

以上のように構成しても、本発明の主たる課題を達成することができる。したがって、養殖用水殺菌具Ｘ、Ｘ１、Ｘ２、Ｘ３を構成する各水処理具２、２Ａ、２Ｂ、２Ｃの形状は、発明の課題を逸脱しない範囲で任意に設計変更することができる。 Even with the above configuration, the main problem of the present invention can be achieved. Therefore, the shapes of the water treatment tools 2, 2A, 2B, and 2C constituting the water sterilizers X, X1, X2, and X3 for aquaculture can be arbitrarily changed in design without departing from the problem of the invention.

なお、図１の実施形態に於いて、養殖生け簀１１に養殖用水殺菌具Ｘを、例えば吊り下げ杆１３等を介して合計４本配設したが、該図１は説明の便宜上のものであるから、１本、２本、４本、５本、６本等を養殖生け簀１１内に適宜に配設しても良い。 In the embodiment of FIG. 1, a total of four aquaculture water sterilizers X are arranged in the aquaculture cage 11 via, for example, a hanging stile 13, but FIG. 1 is for convenience of explanation. Therefore, one, two, four, five, six, etc. may be appropriately arranged in the aquaculture cage 11.

付言すると、養殖用水殺菌具Ｘの数は、養殖対象の魚如何によって変える必要があるので、銅イオンの濃度と養殖対象の魚の遊泳を考慮して適宜に決めることができる。
また養殖用水殺菌具Ｘを、養殖生け簀１１の網本体１２に連結手段を介して適宜に連結しても良い。 In addition, since the number of aquaculture water sterilizers X needs to be changed depending on the fish to be cultivated, it can be appropriately determined in consideration of the concentration of copper ions and the swimming of the fish to be cultivated.
Further, the aquaculture water sterilizer X may be appropriately connected to the net body 12 of the aquaculture cage 11 via a connecting means.

さらに図１の実施形態では、一つの長尺袋１の内部に一列状に水処理具２を設けたことを図示したが、一つの長尺袋１の内部に複数列状に水処理具２を設けても良い。また少なくとも使用時には、養殖用水殺菌具Ｘ、Ｘ１、Ｘ２、Ｘ３の下端部に紐を介して錘を付けるのが望ましい。 Further, in the embodiment of FIG. 1, it is shown that the water treatment tools 2 are provided in a row inside one long bag 1, but the water treatment tools 2 are provided in a plurality of rows inside one long bag 1. May be provided. Further, at least at the time of use, it is desirable to attach a weight to the lower ends of the aquaculture water sterilizers X, X1, X2 and X3 via a string.

本発明は、例えば海上の養殖生け簀にマグロ、鯛などの魚を養殖する場合に使用される。 The present invention is used, for example, when fish such as tuna and sea bream are cultivated in aquaculture cages on the sea.

Ｘ、Ｘ１、Ｘ２、Ｘ３…養殖用水殺菌具、
１…一つの長尺袋、１ａ…開口、
２、２Ａ、２Ｂ、２Ｃ…水処理具、
３…金属繊維用の長尺状包装体、
４…金属繊維、
５…締付手段、
１１…養殖生け簀、
１２…網本体。
X, X1, X2, X3 ... Aquaculture water sterilizer,
1 ... one long bag, 1a ... opening,
2, 2A, 2B, 2C ... Water treatment tool,
3 ... Long packaging for metal fibers,
4 ... Metallic fiber,
5 ... Tightening means,
11 ... Cultured cage,
12 ... Net body.

Claims (3)

網目に形成された可撓性の一つの長尺袋と、この長尺袋の中に該長尺袋の長手方向に沿って少なくとも一列に押し込まれた２個乃至５０個の水処理具と、前記各水処理具が前記可撓性の長尺袋内でそれぞれ長手方向に略位置変位しないように前記可撓性の長尺袋の外側から前記各水処理具の先端部側と後端部側を、それぞれ締付手段を介して袋のネズミ状に閉じ、前記各水処理具の外観形状は、前記袋のネズミ状態で、略球体状、略紡錘状、略ソーセージ形状、略茄子形状のいずれかであり、前記水処理具は、少なくとも銅又は亜鉛又は銅と亜鉛の合金のいずれかの金属繊維であり、前記金属繊維は長尺状包装体に内装されている、養殖用水殺菌具。 One flexible bag formed in a mesh, and two to 50 water treatment tools pushed into the bag in at least a row along the longitudinal direction of the bag. The front end side and the rear end portion of each water treatment tool from the outside of the flexible long bag so that the water treatment tools are not substantially displaced in the longitudinal direction in the flexible long bag. The sides are closed in the shape of a bag via a tightening means, and the appearance of each water treatment tool is substantially spherical, substantially spindle-shaped, substantially sausage-shaped, and approximately egg-shaped in the rat-like state of the bag. A water sterilizer for cultivation, wherein the water treatment tool is at least a metal fiber of copper or zinc or an alloy of copper and zinc, and the metal fiber is housed in a long package. 請求項１の養殖用水殺菌具に於いて、前記可撓性の長尺袋の網目はメッシュ状であり、また前記水処理具の長尺状包装体は、透水性の不織布で形成されていることを特徴とする養殖用水殺菌具。 In the water sterilizer for culture according to claim 1, the mesh of the flexible long bag is mesh-like, and the long package of the water treatment tool is formed of a water-permeable non-woven fabric. A water sterilizer for cultivation that is characterized by this. 請求項１の養殖用水殺菌具に於いて、前記長尺状包装体の長さは、１０ｃｍから１５０ｃｍまでであり、その幅は１０ｃｍから３０ｃｍまでであることを特徴とする養殖用水殺菌具。 The water sterilizer for aquaculture according to claim 1, wherein the length of the long package is from 10 cm to 150 cm, and the width thereof is from 10 cm to 30 cm.

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