JP3493357B2 - Onshore aquaculture equipment for shellfish - Google Patents
Onshore aquaculture equipment for shellfishInfo
- Publication number
- JP3493357B2 JP3493357B2 JP2001330389A JP2001330389A JP3493357B2 JP 3493357 B2 JP3493357 B2 JP 3493357B2 JP 2001330389 A JP2001330389 A JP 2001330389A JP 2001330389 A JP2001330389 A JP 2001330389A JP 3493357 B2 JP3493357 B2 JP 3493357B2
- Authority
- JP
- Japan
- Prior art keywords
- water
- shellfish
- channel
- water channel
- water tank
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
Classifications
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A40/00—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
- Y02A40/80—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in fisheries management
- Y02A40/81—Aquaculture, e.g. of fish
Landscapes
- Farming Of Fish And Shellfish (AREA)
Description
【0001】[0001]
【発明の属する技術分野】本発明は貝類の陸上養殖装置
に係り、特に、アワビやサザエ等のように常に潮流にさ
らされる環境で生息している貝類を陸上で養殖するのに
好適な貝類の陸上養殖装置に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a land-based aquaculture device for shellfish, and more particularly to a shellfish suitable for land-based cultivation of shellfish living in an environment that is constantly exposed to tidal currents such as abalone and turban shells. Regarding land-based aquaculture equipment.
【0002】[0002]
【従来の技術】従来からアワビ等の貝類を養殖するため
の研究開発が進められているが、貝類の成長は数年に渡
るため実証試験に長期間を要することもあり、なかなか
成果を上げるのが難しいし、その生態について不明な点
も多い。そのような貝類の1つにアワビがあるが、この
アワビは1年間に1〜2cm程度しか成長しない。しか
し、販売価格が高価であることから研究が盛んである。
現状までの研究成果によれば、人工的にアワビに産卵を
させて孵化させる技術が認められている。これによりア
ワビの稚貝を入手することは比較的容易になったが、稚
貝の成長過程については現在研究が進められている状況
であり、まだその全容は解明されていない。したがっ
て、従来においてアワビを効率的に成長させ、安価に提
供できるような養殖技術は開発されていなかった。2. Description of the Related Art Conventionally, research and development for cultivating shellfish such as abalone have been carried out, but since the growth of shellfish takes several years, it may take a long time for the demonstration test, and it is difficult to achieve results. However, there are many unclear points about its ecology. One of such shellfish is abalone, but this abalone grows only about 1-2 cm per year. However, research is active due to the high selling price.
According to the research results to date, a technique for artificially spawning abalone and hatching it is recognized. This made it relatively easy to obtain juvenile abalone, but the development process of juveniles is currently under study, and the whole picture has not been clarified yet. Therefore, conventionally, no aquaculture technology has been developed that can efficiently grow abalone and provide it at low cost.
【0003】ところで、従来の貝類の養殖装置として提
案されている技術を大きく分類すると、海中養殖と陸上
養殖とに分けられる。海中での養殖装置は、稚貝を付着
させる板等を網で囲んで海中に下ろして育成させるた
め、実際の生息環境に比較的近い環境を整え易いという
メリットがある。By the way, the technologies proposed as conventional shellfish aquaculture devices can be roughly classified into submarine aquaculture and land aquaculture. An aquaculture device in the sea has a merit that it is easy to prepare an environment relatively close to an actual habitat because a plate or the like to which juveniles are attached is surrounded by a net and is lowered into the sea to grow.
【0004】しかし、海中養殖では船に乗って給餌した
り、清掃したり、収穫しなければならない作業であるた
め、高齢化した漁師にとっては過酷である。また、アワ
ビが安定供給できないという問題もある。つまり、海中
養殖では天候や海の時化等によっては船が出せず収穫で
きない場合があり、何月何日の何時に入手したいという
要望に確実に応えられない。However, underwater aquaculture is a work that requires a boat to feed, clean, and harvest, which is harsh for aging fishermen. There is also the problem that abalone cannot be supplied in a stable manner. In other words, in the case of underwater aquaculture, there are cases where the boat cannot be dispatched and harvest cannot be performed depending on the weather and the aging of the sea, etc., and it is not possible to reliably meet the demand for obtaining what time on which day of the month.
【0005】これに対して、陸上養殖は前述のような海
中養殖のデメリットがない。つまり、船に乗って過酷な
作業をする必要もないし、天候や海の時化とも無縁であ
るから安定供給が可能である。On the other hand, land-based aquaculture does not have the disadvantages of underwater aquaculture described above. In other words, there is no need to do a tough work on a boat, and since there is no relation to weather or sea storms, a stable supply is possible.
【0006】[0006]
【発明が解決しようとする課題】しかしながら、従来の
貝類の陸上養殖装置では、アワビ等の貝類が生息してい
るような潮通しがよくてきれいな環境を実現することが
難しい。具体的には、水が淀みやすいために水中の溶存
酸素量が少ないし、残餌や排泄物をすぐに除去すること
ができずに病気になり易いという問題があった。また、
陸上養殖の水槽は藻が発生しやすいため少なくとも1週
間に1度は清掃しなければならなかった。さらに、品質
は、荒磯に揉まれて成長する天然貝類に比べると身の締
まりや味の点で劣ってしまうという問題があった。However, it is difficult for the conventional land-based aquaculture device for shellfish to realize a clean environment in which shellfish such as abalone and the like live well and have good water flow. Specifically, there is a problem that the amount of dissolved oxygen in the water is small because the water tends to stagnant, and residual food and excrement cannot be immediately removed, leading to illness. Also,
The aquaculture tanks on land have to be cleaned at least once a week because algae are liable to grow. Furthermore, there is a problem that the quality is inferior in terms of tightness and taste as compared with natural shellfish that are rubbed and grown in Araiso.
【0007】例えば、実用新案登録第3056367号
公報には、陸上におけるアワビの養殖施設が記載されて
いる。このアワビの養殖施設には、アワビの飼育水槽を
多段に設置し、この飼育水槽に海水を供給する給水管と
オーバーフロー管を備え、さらに前記飼育水槽に給気管
および給餌場が付設されている。そして、ポンプで給水
管に海水を流入させるとともに、オーバーフロー管を下
げることによって海水を下段の水槽へ流し、海水の流動
を促進させる。また、給気管にはブロアーで空気を吸入
し、圧縮空気を泡状に噴出させる。これにより溶存酸素
の補給を行うようになっている。[0007] For example, Japanese Utility Model Registration No. 3056367 discloses an abalone aquaculture facility on land. In this abalone aquaculture facility, an abalone breeding aquarium is installed in multiple stages, and a water supply pipe and an overflow pipe for supplying seawater to the breeding aquarium are provided, and further, the breeding aquarium is provided with an air supply pipe and a feeding station. Then, while pumping the seawater into the water supply pipe and lowering the overflow pipe, the seawater is caused to flow to the lower water tank to promote the flow of the seawater. Further, air is sucked into the air supply pipe by a blower, and compressed air is ejected in the form of bubbles. As a result, dissolved oxygen is replenished.
【0008】しかしながら、このような従来のアワビの
養殖施設においては、下流に設けたオーバーフロー管よ
り排水することにより海水を流動させるようになってい
るが、排水量が少量であるため、効果的な海水流動が得
られなかった。もし、排水量を大量にしたとしてもオー
バーフロー管の周辺の流れは強くなるが、全体の流れに
影響を及ぼす程度は小さく、自然界の潮流とは到底比較
にならない。[0008] However, in such conventional abalone aquaculture facilities, seawater is made to flow by draining from an overflow pipe provided downstream, but since the amount of drainage is small, effective seawater is effective. No flow was obtained. Even if the amount of drainage is large, the flow around the overflow pipe will be strong, but the effect on the overall flow will be small, and it is not comparable to the tidal flow in nature.
【0009】また、従来のアワビの養殖施設では、溶存
酸素の補給のためにブロアーを別途使用しなければなら
ず、装置コストおよび電気代が高くなってしまう。さら
に、残餌や排泄物の処理については特に考慮されていな
いため、頻繁に清掃を行わなくてはならない。特に貝類
は肝などを好んで食する習慣があるため、毒素が肝に蓄
積しないように常に清潔な環境を保ってあげる必要があ
るIn addition, in the conventional abalone aquaculture facility, a blower must be separately used for supplementing dissolved oxygen, resulting in high equipment cost and electricity cost. Furthermore, since no special consideration is given to the treatment of leftover food and excrement, frequent cleaning is required. In particular, since shellfish have a habit of eating the liver etc., it is necessary to maintain a clean environment so that toxins do not accumulate in the liver.
【0010】本発明は、このような問題点を解決するた
めになされたもので、養殖コストや手間をかけずに潮流
やせせらぎのような新鮮な水の流れを造り、実際の生息
環境に近い環境を実現し、しかも単位面積当たりの育成
数量を増加させることができる貝類の陸上養殖装置を提
供することを目的としている。The present invention has been made in order to solve such problems, and creates a fresh water flow such as tidal currents and murmuring without any aquaculture cost and effort, and is close to an actual habitat. It is an object of the present invention to provide a land-based aquaculture device for shellfish that realizes an environment and can increase the number of breeding per unit area.
【0011】[0011]
【課題を解決するための手段】本発明に係る貝類の陸上
養殖装置の特徴は、水路状水槽内に複数の堰を設けると
ともに、それらの堰が多段的になるように前記水路状水
槽の先端側を下方に傾斜させて配置した点にある。The features of the land-based aquaculture apparatus for shellfish according to the present invention are that a plurality of weirs are provided in the water channel-shaped water tank, and the tip of the water channel-shaped water tank is formed so that the weirs are multi-staged. The point is that the side is inclined downward.
【0012】そして、このような構成を採用したことに
より、水路状水槽に供給された水は傾斜水路に沿って流
れ、多段的な堰を越えて流れる、いわゆる越流を生じさ
せるため、酸素を取り込みやすく、浮遊汚濁粒子を速や
かに流出させ、かつ新鮮な水を適度な流速で供給するこ
とができる。By adopting such a configuration, the water supplied to the water channel-like water tank flows along the inclined water channel and flows over the multistage weir, so-called overflow, so that oxygen is generated. It is easy to take in, the floating pollutant particles can be quickly discharged, and fresh water can be supplied at an appropriate flow rate.
【0013】また、本発明に係る貝類の陸上養殖装置の
特徴は、水路上に複数の堰を備えた水路状水槽を上下方
向に複数配置し、これらの水路状水槽の先端側を前記各
堰が多段的になるように下方に傾斜させるとともに、前
記各水路状水槽の先端方向を上下で交互に変えてジグザ
グ状に配置した点にある。Further, the feature of the land-based aquaculture apparatus for shellfish according to the present invention is that a plurality of water channel-like water tanks having a plurality of weirs are arranged on the water channel in the vertical direction, and the tip side of these water channel-shaped water tanks are provided at the weirs. Is inclined downward so as to be multi-staged, and the tip end direction of each of the water channel-shaped water tanks is alternately changed up and down to be arranged in a zigzag shape.
【0014】そして、このような構成を採用したことに
より、複数の水路状水槽の先端方向を上下で交互に変え
てジグザグ状に配置しているため、単位面積当たりの貝
類の育成数量を増加させることができて、貝類を狭い土
地で効率的に養殖することができる。By adopting such a configuration, the tip directions of the plurality of water channel-shaped water tanks are alternately changed vertically and arranged in a zigzag shape, so that the number of shellfish growing per unit area is increased. Therefore, shellfish can be efficiently cultivated in a small land.
【0015】また、本発明の一態様では、上下に配置し
たそれぞれの水路状水槽の間に、上方の水路状水槽から
流出する水を一旦貯留して下方の水路状水槽へ給水する
ための中間貯水槽が備えられることが好ましい。これに
よれば、上方の水路状水槽から流出する水が水路状水槽
よりも大きな的となる中間貯水槽に落下するため、水が
こぼれにくくて流量損失を抑制できるし、先端部形状の
自由度が高まる。また、一旦、中間貯水槽に水を貯めら
れるため、各水路状水槽での流量や給水および排水スピ
ードを適度に調整することができる。Further, according to one aspect of the present invention, an intermediate portion for temporarily storing the water flowing out from the upper water channel-shaped water tank between the upper and lower water channel water tanks and supplying the water to the lower water channel water tank. A water reservoir is preferably provided. According to this, since the water flowing out from the upper water channel-shaped water tank falls into the intermediate water storage tank, which is larger than the water channel-shaped water tank, the water is less likely to spill and the flow rate loss can be suppressed, and the degree of freedom of the tip shape can be reduced. Will increase. Further, since water can be temporarily stored in the intermediate water storage tank, the flow rate and water supply / drainage speed in each water channel water tank can be appropriately adjusted.
【0016】また、本発明では、前記水路状水槽の底部
と堰との間に隙間を形成することが望ましい。これによ
れば、水路状水槽の底部と堰との間に形成された隙間を
通って底部を流れる、いわゆる低層流が発生し、残餌や
排泄物の沈殿汚濁粒子を速やかに流すため衛生的な環境
を造ることができる。Further, in the present invention, it is desirable to form a gap between the bottom of the water channel water tank and the weir. According to this, a so-called low-level flow that flows through the bottom portion through the gap formed between the bottom portion of the water-like water tank and the weir is generated, and sedimentary pollutant particles of residual food and excrement are swiftly flowed, which is hygienic. You can create a perfect environment.
【0017】さらに、本発明では、前記隙間の高さを、
水路状水槽内の底部に生息する貝類または前記水路状水
槽内に配置された付着用底板に生息する貝類に当接し得
る低層流が発生する高さに形成することが好ましい。こ
れによれば、酸素を含む低層流が直接的に貝類に当たる
ため貝類の呼吸を楽にし、かつ常に淀みのない新鮮な水
を供給することで成長を促進させることができる。Further, in the present invention, the height of the gap is
It is preferably formed at a height at which a low laminar flow that can come into contact with the shellfish inhabiting the bottom of the water channel water tank or the shellfish inhabiting the attachment bottom plate arranged in the water channel water tank is generated. According to this, since the low-level flow containing oxygen directly hits the shellfish, the shellfish can easily breathe, and the growth can be promoted by constantly supplying fresh water without stagnation.
【0018】また、本発明の一態様では、前記堰の上端
部を略水平直線状に形成することが望ましい。これによ
り、略水平直線状の堰を越える越流水が直線的な流れを
形成して渦が生じるのを抑制するため、水路状水槽内の
流れが滞留してしまうのを防止できる。Further, in an aspect of the present invention, it is desirable that the upper end portion of the weir is formed in a substantially horizontal linear shape. As a result, it is possible to prevent the overflow water that flows over the substantially horizontal linear weir from forming a linear flow and generating a vortex, so that it is possible to prevent the flow in the water channel water tank from staying.
【0019】さらに、本発明の一態様では、前記水路状
水槽の先端部が上方向に傾斜勾配を有するように形成す
ることが好ましい。これにより、先端部の流出口で発生
する渦流によって滞留してしまう浮遊汚濁粒子を傾斜勾
配に沿って流し、速やかに排出させることができる。Further, according to one aspect of the present invention, it is preferable that the tip of the water channel-shaped water tank is formed so as to have an upward slope. As a result, the floating pollutant particles, which are retained by the vortex flow generated at the outlet of the tip portion, can be caused to flow along the gradient and be quickly discharged.
【0020】さらにまた、本発明の一態様として、前記
水路状水槽の先端部の傾斜勾配および長さを、給水が停
止したときに前記水路状水槽の水路後端部が浸水する程
度に形成することが好ましい。これにより、非常事態で
給水が停止した場合に、水路状水槽内の水位は、前記水
路先端部の傾斜勾配および長さと、水路後端部の高さと
の均衡位置で決定されるため、水路後端部の貝類が水に
浸る水位を保持させることができる。Furthermore, as one aspect of the present invention, the inclination gradient and the length of the tip of the water channel-shaped water tank are formed to such an extent that the water channel rear end portion of the water channel-shaped water tank is flooded when the water supply is stopped. It is preferable. As a result, when the water supply is stopped in an emergency, the water level in the waterway-shaped water tank is determined by the equilibrium position between the slope gradient and length of the waterway tip and the height of the waterway rear end. It is possible to maintain the water level at which the shellfish at the end is immersed in water.
【0021】また、前記水路状水槽の最先端部を、流出
水の落下経路に沿うように下方へ湾曲する略くちばし状
に形成することが好ましい。このようにすれば、水路状
水槽の最先端部から水がスムーズに流出し、落下水が飛
散するのを防止して流量損失を抑制することができる。Further, it is preferable that the most distal end portion of the water channel-shaped water tank is formed in a substantially beak shape which is curved downward along the falling path of the outflow water. By doing so, it is possible to prevent water from flowing out smoothly from the tip end portion of the water channel-shaped water tank and prevent the falling water from scattering, thereby suppressing the flow rate loss.
【0022】また、本発明では、水路状水槽内に斜板シ
ェルターを配置することが望ましい。これによれば、斜
板シェルターが水路状水槽内に陰影を造るため夜行性の
アワビ等が育ちやすいし、アワビが付着できる領域を底
部のみならず、空間領域に確保することができる。Further, in the present invention, it is desirable to dispose the swash plate shelter in the water channel water tank. According to this, since the swash plate shelter creates a shadow in the water channel-like water tank, nocturnal abalone and the like can easily grow, and the area to which the abalone can adhere can be secured not only in the bottom but also in the space area.
【0023】さらに、その斜板シェルターの上面を凹凸
状に形成することが好ましい。これによれば、斜板シェ
ルターの凹凸面に餌料が引っかかりやすいため、水流に
よって餌料が流れてしまうのを抑制できる。Further, it is preferable that the upper surface of the swash plate shelter is formed in an uneven shape. According to this, since the food is easily caught on the uneven surface of the swash plate shelter, it is possible to prevent the food from flowing due to the water flow.
【0024】[0024]
【発明の実施の形態】以下、本発明に係る貝類の陸上養
殖装置に関する実施形態の一例をアワビの養殖を例に説
明する。BEST MODE FOR CARRYING OUT THE INVENTION An example of an embodiment relating to a land culture apparatus for shellfish according to the present invention will be described below by taking abalone culture as an example.
【0025】図1から図5に示すように、本実施形態の
アワビの陸上養殖装置1は、主として、アワビを育成す
るために収容する複数の水路状水槽2,2と、これらの
水路状水槽2,2の先端側を下方に傾斜させた状態で支
持する木製や金属製の枠体3と、前記水路状水槽2,2
の給水や排水を行う給排水手段4とを備えている。As shown in FIGS. 1 to 5, the abalone land-cultivating apparatus 1 of the present embodiment mainly includes a plurality of aquarium-shaped aquariums 2 and 2 to be accommodated for growing abalone, and these aquarium-shaped aquariums. Frame 3 made of wood or metal for supporting the tip side of 2, 2 in a state of being inclined downward, and the water channel water tank 2, 2
The water supply / drainage means 4 for supplying and draining water.
【0026】また、複数の水路状水槽2,2は、図4お
よび図7に示すように、傾斜される各水路状水槽2,2
の先端方向を上下で交互に変えてジグザグ状に配置され
ている。その傾斜勾配は、可動堰を使って流量調整を行
う予備試験の結果によると、各水路状水槽2,2の水路
底面勾配を水平に対して約3/100〜6/100と
し、流量を10〜20リットル/分程度とする設定が好
ましい。Further, as shown in FIGS. 4 and 7, the plurality of water channel-shaped water tanks 2 and 2 are inclined, respectively.
Are arranged in a zigzag pattern by alternately changing the top and bottom directions. According to the result of the preliminary test in which the flow rate is adjusted by using the movable weir, the inclination gradient is about 3/100 to 6/100 with respect to the horizontal of the water channel bottom tanks 2 and 2, and the flow rate is 10%. The setting is preferably about 20 liters / minute.
【0027】また、各水路状水槽2,2内には、複数の
堰5,5が適当な間隔で配置されている。これらの堰
5,5の高さは略同一であるが、水路状水槽2,2の傾
斜により多段状に構成されている。したがって、水路状
水槽2,2内では、各堰5,5を超える越流水が発生し
酸素を取り込みながら流れるため、流水の溶存酸素量を
確保できる。In addition, a plurality of weirs 5 and 5 are arranged at appropriate intervals in each of the water channel water tanks 2 and 2. The heights of these weirs 5 and 5 are substantially the same, but they are formed in a multi-stage by the inclination of the water channel water tanks 2 and 2. Therefore, in the water channel-shaped water tanks 2 and 2, the overflow water exceeding the respective weirs 5 and 5 is generated and flows while taking in oxygen, so that the dissolved oxygen amount of the running water can be secured.
【0028】水路状水槽2,2の内側面には、上下方向
に形成された図示しない直線状の嵌入溝が形成されてお
り、この嵌入溝に沿って堰5,5が嵌入され、その両側
部5a,5aが保持されるようになっている。本実施形
態では、前記嵌入溝が水路状水槽2,2内に適当な間隔
で多数形成されており、アワビの個数や成長度合等に応
じて堰5,5の位置を任意に移動し、各堰5,5による
区画流域の広さを変動させることができるようになって
いる。On the inner side surfaces of the water channel-shaped water tanks 2, 2, there are formed linear fitting grooves (not shown) formed in the up-down direction, and weirs 5, 5 are fitted along the fitting grooves, and both sides thereof are fitted. The parts 5a, 5a are held. In the present embodiment, a large number of the fitting grooves are formed in the water channel-shaped water tanks 2 and 2 at appropriate intervals, and the positions of the weirs 5 and 5 are arbitrarily moved according to the number of abalone and the degree of growth and the like. The size of the divided basin by the weirs 5 and 5 can be changed.
【0029】また、図9に示すように、各堰5,5は、
上端部6が略水平直線状に形成され、堰底部7にスリッ
ト8が形成されている。各堰5,5の形状は、堰5,5
を越えて流れる、いわゆる越流水が浮遊汚濁粒子を流す
程度に淀みなく流れるのであれば、適当な形状を採用し
て構わない。ただし、実験によると、堰5,5の上端部
6の中央位置に略V字形状の切り込みを形成したとこ
ろ、略V字形状部分の両脇流域に滞留ゾーンが生じてし
まい、流れが弱い流域を形成してしまうことが判明し
た。したがって、越流水による浮遊汚濁粒子の流出をよ
り効果的に行うために、各堰5,5の上端部6を略水平
直線状に形成し、越流水が直線的に流れを生じるように
して渦流の発生を抑制することが好ましい。As shown in FIG. 9, the weirs 5 and 5 are
The upper end 6 is formed in a substantially horizontal linear shape, and the weir bottom 7 is formed with a slit 8. The shape of each weir 5, 5 is
An appropriate shape may be adopted as long as the so-called overflow water flowing over the flow does not stagnant enough to flow the floating pollutant particles. However, according to the experiment, when a substantially V-shaped cut is formed at the central position of the upper ends 6 of the weirs 5 and 5, a retention zone occurs in both side basins of the substantially V-shaped portion, and the flow is weak. Was found to form. Therefore, in order to more effectively carry out the floating pollutant particles caused by the overflow water, the upper ends 6 of the weirs 5 and 5 are formed in a substantially horizontal straight line so that the overflow water can flow in a straight line. It is preferable to suppress the occurrence of
【0030】一方、越流水だけでなく、低層流について
も検討が必要である。すなわち、残餌や排泄物等の沈殿
汚濁粒子は堰底部7に溜まってアワビに害を及ぼすた
め、これを除去する必要がある。また、アワビは水路状
水槽2,2の底に滞在することが多いため、酸素を十分
含んだ低層流を効率的に供給できれば、呼吸がし易く潮
通しのよい生息環境を提供することができる。On the other hand, not only overflow water but also low-level flow must be examined. That is, since the precipitated polluted particles such as residual food and excrement are accumulated in the weir bottom portion 7 and harm the abalone, it is necessary to remove them. In addition, since abalone often stays at the bottom of aqueducts 2 and 2, if a low-level flow containing sufficient oxygen can be efficiently supplied, it is possible to provide a habitat that is easy to breathe and has good tidal flow. .
【0031】そこで、前述したように堰5,5の堰底部
7にスリット8を形成することで、堰5,5と水路状水
槽2,2の底部との間に隙間が設けられている。スリッ
ト8の高さは、水路状水槽2,2内の底部に生息するア
ワビに低層流が直接的に当たるような高さに形成される
ことが好ましい。なお、アワビの取り出しを容易にする
ための付着用底板22を水路状水槽2,2内の底部に配
置する場合には、その付着用底板22上に付着するアワ
ビに低層流が直接的に当たるような高さに形成すること
が好ましい。さらに、堰底部7の両隅部5b,5b付近
に沈殿汚濁粒子が滞留するようであれば、図10に示す
ように、両隅部5b,5bに両隅スリット9,9を形成
すればよい。Therefore, as described above, the slits 8 are formed in the weir bottoms 7 of the weirs 5, 5 so that a gap is provided between the weirs 5, 5 and the bottoms of the water channel water tanks 2, 2. The height of the slit 8 is preferably formed so that the low-level flow directly hits the abalone inhabiting the bottoms of the water channel tanks 2, 2. When the attachment bottom plate 22 for facilitating the removal of the abalone is arranged at the bottom of the water channel-shaped water tanks 2, 2, the abalone attached to the attachment bottom plate 22 is directly contacted with the low-layer flow. It is preferable to form it at a high height. Further, if the precipitated pollutant particles are likely to stay near both corners 5b, 5b of the weir bottom 7, it is sufficient to form both corner slits 9, 9 in both corners 5b, 5b as shown in FIG. .
【0032】また、前述したスリット8を堰5,5の堰
底部7に形成せずに、堰5,5と水路状水槽2,2の底
部との間に隙間が空くように、堰5,5を配置するよう
にしてもよい。The above-mentioned slit 8 is not formed in the weir bottoms 7 of the weirs 5 and 5, but the weirs 5 and 5 are arranged so that there is a gap between the weirs 5 and 5 and the bottoms of the water channel water tanks 2 and 2. 5 may be arranged.
【0033】なお、スリット8の形状は、効果的な低層
流が発生させられるのであれば特に直線状に限定する必
要はない。The shape of the slit 8 is not particularly limited to a linear shape as long as an effective low laminar flow can be generated.
【0034】さらに、図11から図15に示すように、
各水路状水槽2,2の先端部10は、上方向に傾斜勾配
を有するように形成されている。これは、先端部10の
流出口が通常の垂直な堰5のままであると、表層から低
層へ流れる渦流が発生し、浮遊汚濁粒子の滞留を助長し
てしまうため、そのような浮遊汚濁粒子を速やかに流出
させるようになっている。Further, as shown in FIGS. 11 to 15,
The tip portion 10 of each of the water channel-shaped water tanks 2 and 2 is formed so as to have an upward slope. This is because if the outlet of the tip portion 10 remains the normal vertical weir 5, a vortex flow that flows from the surface layer to the lower layer is generated, which promotes the retention of suspended pollutant particles. It is designed to promptly drain.
【0035】また、前記先端部10の傾斜勾配および長
さは、図16に示すように、給水が停止したときに水路
状水槽2,2の後端部11の水路が浸水するように設定
されている。これは、例えば停電等により給水が停止し
たときに、総てのアワビが数時間は生存できるためのも
のである。したがって、給水停止時に水路状水槽2,2
の後端部11が浸水する深さは約1cm程度確保する必
要がある。Further, as shown in FIG. 16, the inclination and length of the tip portion 10 are set so that the water passages at the rear end portions 11 of the water passage-shaped water tanks 2 and 2 are submerged when the water supply is stopped. ing. This is because all the abalone can survive for several hours when the water supply is stopped due to a power failure or the like. Therefore, when the water supply is stopped, the water tanks 2, 2
It is necessary to secure a depth of about 1 cm for the rear end 11 to be flooded.
【0036】本実施形態では、図11および図12に示
すように、たとえば両端の堰間間隔が2000mm、水
路勾配が水平に対して4/100、堰5,5の高さが8
cm、水量が15リットル/分に設定されている場合で
あれば、先端の堰5から先端部10の湾曲頂点までの水
平長さが290mm、高さが90mmに設定されてい
る。このとき、給水停止時の水位は先端側の堰5におい
て最大8cm、後端部11において1cmであった。In this embodiment, as shown in FIGS. 11 and 12, for example, the distance between the weirs at both ends is 2000 mm, the water channel gradient is 4/100 with respect to the horizontal, and the heights of the weirs 5, 5 are 8.
When the cm and the amount of water are set to 15 liters / minute, the horizontal length from the weir 5 at the tip to the curved apex of the tip 10 is set to 290 mm and the height is set to 90 mm. At this time, the water level when the water supply was stopped was 8 cm at maximum at the weir 5 on the front end side and 1 cm at the rear end portion 11.
【0037】なお、上述のように先端部10の傾斜形状
によっては、低層流の発生を妨げるおそれがあるため、
水流中におがくずを混入して流し可視的に観察したとこ
ろ、おがくずは先端部10の勾配に沿ってスムーズに流
れることが確認された。Incidentally, depending on the inclined shape of the tip portion 10 as described above, the occurrence of low laminar flow may be hindered.
When sawdust was mixed in the water stream and visually observed, it was confirmed that the sawdust smoothly flowed along the gradient of the tip portion 10.
【0038】また、前記先端部10の最先端部(流出
口)12は、図11から図15に示すように、流出水の
落下経路に沿うように下方へ湾曲された「くちばし状」
に形成されている。このような形状に形成することによ
り、後述する中間貯水槽17,17へ流水が落下する際
に飛散せず、流量損失を抑制することができる。Further, as shown in FIG. 11 to FIG. 15, the most distal end portion (outlet) 12 of the tip portion 10 is a "beak shape" which is curved downward along the falling path of the outflow water.
Is formed in. By forming such a shape, the flowing water does not scatter when it falls into the intermediate water storage tanks 17, 17, which will be described later, and the flow rate loss can be suppressed.
【0039】さらに、図17に示すように、水路状水槽
2,2の水路水位内には、斜板シェルター21が配置さ
れている。この斜板シェルター21は、区画流域を適度
に覆うような大きさの平板であって、流れを阻害しない
ように水路底部の隅から斜め上方に延出されている。ま
た、ほぼ上端部まで水中に浸るように配置される。この
ような斜板シェルター21を配置することにより、日陰
を確保してアワビの夜行性を利用した成長促進を図るこ
とができるとともに、アワビが付着できる範囲を空間的
に拡大させることができる。Further, as shown in FIG. 17, a swash plate shelter 21 is arranged in the water level of the water channels 2, 2. The swash plate shelter 21 is a flat plate having a size that appropriately covers the divided basin and extends obliquely upward from the corner of the bottom of the water channel so as not to obstruct the flow. Further, it is arranged so as to be submerged in water up to almost the upper end. By disposing such a swash plate shelter 21, it is possible to secure a shade and promote growth utilizing the nocturnal nature of the abalone, and it is possible to spatially expand the range to which the abalone can adhere.
【0040】また、斜板シェルター21の上面は、図示
しない網目状の凹凸面に形成されている。これにより切
片状の餌料が凹凸面に引っかかりやすく、餌料が水流で
流されにくいという効果が得られる。The upper surface of the swash plate shelter 21 is formed as a mesh-like uneven surface (not shown). As a result, the piece of feed is easily caught on the uneven surface, and the effect that the feed is less likely to be washed away by the water stream is obtained.
【0041】さらに、図17に示すように、斜板シェル
ター21は、付着用底板22を備えており、安定的に配
置されている。付着用底板22に付着したアワビは入れ
替えや収穫が容易である。この場合に、付着用底板22
の上面に網目状の凹凸面を形成するようにして餌料が流
されにくくするのが好ましい。Further, as shown in FIG. 17, the swash plate shelter 21 is provided with an attachment bottom plate 22 and is stably arranged. Abalone attached to the attachment bottom plate 22 can be easily replaced and harvested. In this case, the attachment bottom plate 22
It is preferable to form a mesh-shaped concave-convex surface on the upper surface of the soybean so that the feed is not easily washed away.
【0042】つぎに、各水路状水槽2,2の周辺構造に
ついて説明する。図3から図5に示すように、各水路状
水槽2,2は、上下に4段、左右4列を2列ごとに所定
間隔を空けて計16本配置されている。上下の水路状水
槽2,2の間隔は、水路状水槽2,2内の観察やアワビ
の収穫が容易にできるように空けられている。また、上
段の水路状水槽2の観察や収穫のために足場台13が設
けられている。Next, the peripheral structure of each water channel-shaped water tank 2, 2 will be described. As shown in FIGS. 3 to 5, each of the water channel-shaped water tanks 2 and 2 is arranged in four rows in the upper and lower sides and four rows in the left and right rows with a predetermined interval for every two rows, for a total of 16 rows. The intervals between the upper and lower water channel-shaped water tanks 2 and 2 are set so that observation in the water channel-shaped water tanks 2 and 2 and harvesting of abalone can be easily performed. Further, a scaffolding base 13 is provided for observing and harvesting the upper waterway-shaped water tank 2.
【0043】また、給排水手段4は、新鮮な海水を供給
するためのメインポンプ14と、各水路状水槽2,2を
流下した海水を再び循環させる循環用補助ポンプ15
と、新鮮な海水が貯留されているメインタンク16と、
海水を一旦貯めながら各水路状水槽2,2に供給する中
間貯水槽17と、各水路状水槽2,2を流下し終えた海
水を貯留する排水槽18と、前記中間貯水槽17に前記
メインポンプ14および前記循環用補助ポンプ15を連
結させる給水パイプ19と、排水槽18に連結された排
水パイプ20とから構成されている。Further, the water supply / drainage means 4 has a main pump 14 for supplying fresh seawater, and a circulation auxiliary pump 15 for recirculating the seawater flowing down through the respective water channel water tanks 2, 2.
And the main tank 16 that stores fresh seawater,
The intermediate water storage tank 17 that temporarily stores the seawater and supplies it to the respective waterway-shaped water tanks 2, 2; the drainage tank 18 that stores the seawater that has finished flowing down each waterway-shaped water tank 2, 2; It is composed of a water supply pipe 19 connecting the pump 14 and the circulation auxiliary pump 15 and a drain pipe 20 connected to the drain tank 18.
【0044】メインポンプ14は、メインタンク16内
に配置されており、貯留されている海水を最上段の中間
貯水槽17に供給するようになっている。中間貯水槽1
7は、上下に配置された各水路状水槽2,2の間に配置
され、上の水路状水槽2,2から流出する水を一旦貯留
し、下の水路状水槽2,2に後端部11から給水するよ
うになっている。そして、排水槽18は最下段に配置さ
れた水路状水槽2の流出口12から排出する海水を貯留
するようになっている。その排水槽18には、循環用補
助ポンプ15が配置されており、この循環用補助ポンプ
15は、メインポンプ14の給水パイプ19に途中で連
結されている。したがって、前記循環用補助ポンプ15
は、メインポンプ14が故障したときでも水流を絶やさ
ない役割を担うとともに、正常時においては循環水を適
当な割合で混入させるようになっている。これにより海
水を再利用することができてコスト低減を図ることがで
きる。なお、排水槽18に連結された排水パイプ20は
余分な海水を排出するようになっている。The main pump 14 is arranged in the main tank 16 and supplies the stored seawater to the uppermost intermediate water storage tank 17. Intermediate water tank 1
Numeral 7 is arranged between the water channel-shaped water tanks 2 and 2 arranged above and below to temporarily store the water flowing out from the upper water channel-shaped water tanks 2 and 2, and the rear end portion to the water channel-shaped water tanks 2 and 2 below. Water is supplied from 11. The drainage tank 18 is adapted to store the seawater discharged from the outlet 12 of the channel-like water tank 2 arranged at the bottom. An auxiliary pump 15 for circulation is arranged in the drain tank 18, and the auxiliary pump 15 for circulation is connected to a water supply pipe 19 of the main pump 14 on the way. Therefore, the circulation auxiliary pump 15
Plays a role of not stopping the water flow even when the main pump 14 fails, and normally mixes the circulating water at an appropriate ratio. As a result, seawater can be reused and cost can be reduced. The drainage pipe 20 connected to the drainage tank 18 discharges excess seawater.
【0045】つぎに、本実施形態におけるアワビの陸上
養殖装置1の作用について説明する。Next, the operation of the land aquaculture device 1 for abalone according to this embodiment will be described.
【0046】本実施形態では、まず、メインポンプ14
がメインタンク16から海水を吸い上げて給水パイプ1
9を介して最上段の中間貯水槽17に供給する。海水は
最上段の中間貯水槽17から上段の水路状水槽2に流下
し、各堰5,5により適度に堰き止められ、水量が堰5
の高さを越えると越流し、次の堰5へと流れ込む。そし
て、次の堰5においても水量が堰5の高さを越えると越
流する。このように水路状水槽2,2が傾斜されること
で各堰5,5が多段的な配置となっており、各堰5,5
で海水が越流して多段的に流下していく。また、同時に
堰底部7に形成したスリット8から低層流が流下する。
これら越流と低層流とによって、常に潮通しを良くし溶
存酸素量を確保する流れを造って、いわば海の荒磯のよ
うな環境を形成する。In the present embodiment, first, the main pump 14
Sucks seawater from the main tank 16 to supply water 1
It is supplied to the uppermost intermediate water storage tank 17 via 9. Seawater flows down from the uppermost intermediate water storage tank 17 to the upper waterway-shaped water tank 2 and is appropriately dammed by the weirs 5 and 5 so that the amount of water is 5
When it exceeds the height of, it overflows and flows into the next weir 5. And also in the next weir 5, when the amount of water exceeds the height of the weir 5, it overflows. By thus inclining the water channel-shaped water tanks 2 and 2, the weirs 5 and 5 are arranged in a multi-stage manner.
Then seawater overflows and flows down in multiple stages. At the same time, the low-level flow flows down from the slit 8 formed in the weir bottom portion 7.
By these overflows and low-level currents, a flow that constantly improves tidal flow and secures the amount of dissolved oxygen is created to form an environment like a sea shore.
【0047】特に、堰5,5を越える流れは、略水平直
線状の上端部6により直線流となるため滞留することが
なく、浮遊汚濁粒子をきれいに流す。一方、低層流は残
餌や排泄物等の沈殿汚濁粒子をきれいに流すとともに、
その低層流を受けるアワビは酸素呼吸を楽に行える。In particular, the flow over the weirs 5, 5 is a straight flow due to the substantially horizontal straight upper end 6, so that it does not stay, and the suspended pollutant particles flow cleanly. On the other hand, the low-level flow cleanly removes the sediment particles such as residual food and excrement,
Abalones that receive the low-level flow can easily breathe oxygen.
【0048】つづいて各堰5,5を越えた越流は、水路
状水槽2,2の先端に達すると、その先端部10の上方
向への傾斜勾配に沿って流れ、さらにくちばし状の流出
口12の湾曲線に沿ってスムーズに流出する。このくち
ばし状の流出口12から落下する海水は、ほとんど飛散
することなく下段の中間貯水槽17に流入する。そし
て、海水は中間貯水槽17から次の水路状水槽2の後端
部11へ流入し、前述と同様に各堰5,5に堰き止めさ
れつつ越流および低層流として水路を流下していく。Next, when the overflow over the weirs 5 and 5 reaches the tip of the water channel-shaped water tanks 2 and 2, it flows along the upward slope of the tip 10 thereof, and further into a beak-like flow. It smoothly flows out along the curved line of the outlet 12. The seawater falling from this beak-shaped outlet 12 flows into the intermediate water storage tank 17 in the lower stage with almost no scattering. Then, the seawater flows from the intermediate water storage tank 17 into the rear end portion 11 of the next waterway-shaped water tank 2, and flows down as an overflow and a low-level flow while being blocked by the weirs 5 and 5 as described above. .
【0049】その後、海水は最下段の水路状水槽2まで
流下し、その流出口12から排水槽18に流れ込む。こ
こでは、そのまま排水パイプ20から排出するようにし
てもよいし、適当な水量を循環用補助ポンプ15によっ
て吸い上げて給水パイプ19に供給し、メインポンプ1
4から吸入した海水と混合させて循環させるようにして
もよい。汚れの少ない循環水であれば節水ができて相当
なコスト削減を図ることができる。After that, the seawater flows down to the water channel-like water tank 2 at the lowermost stage, and flows into the drain tank 18 from the outlet 12. Here, the water may be directly discharged from the drainage pipe 20, or an appropriate amount of water may be sucked up by the circulation auxiliary pump 15 and supplied to the water supply pipe 19, and the main pump 1
It may be mixed with the seawater inhaled from No. 4 and circulated. Circulating water with less dirt can save water and can significantly reduce costs.
【0050】ところで、アワビの成長を観察したり収穫
する場合には、各段の水路状水槽2,2間に十分な空間
が形成されているため容易に覗くことができるし、上段
の水路状水槽2,2には足場台13が設けられている。By the way, when observing and harvesting the growth of abalone, it is possible to easily peek because the sufficient space is formed between the water tanks 2 and 2 of each stage, and the water channel of the upper stage is formed. The water tanks 2 and 2 are provided with a scaffolding base 13.
【0051】したがって、前述した本実施形態によれ
ば、常に新鮮な海水を越流および低層流として適度な流
速で流せるため、自然の海と同じような環境を造ること
ができる。これにより、残餌や排泄物等の浮遊汚濁粒子
および沈殿汚濁粒子を速やかに流し、海水の劣化を防止
できるとともに病気の発生を防止できる。Therefore, according to the above-described embodiment, since fresh seawater can always flow as an overflow and a low-level flow at an appropriate flow velocity, an environment similar to that of the natural sea can be created. Thereby, floating pollutant particles and sedimented pollutant particles such as residual food and excrement can be swiftly flowed to prevent deterioration of seawater and prevent disease from occurring.
【0052】例えば、陸上養殖の水槽には、藻が発生し
やすい。このため、従来の養殖装置では1週間に1度清
掃しなければならなかったが、本実施形態では1ヶ月に
1度の清掃であっても十分清潔を保つことができる。For example, algae are easily generated in the aquarium for land culture. For this reason, in the conventional aquaculture apparatus, the cleaning must be performed once a week, but in the present embodiment, even if the cleaning is performed once a month, sufficient cleanliness can be maintained.
【0053】また、適度な流れの中でアワビを育てられ
るため天然アワビと遜色がない程の高品質アワビを養殖
することができる。Further, since the abalone can be raised in a proper flow, it is possible to cultivate a high quality abalone comparable to the natural abalone.
【0054】さらに、多段的な堰5,5を設けて堰底部
7にスリット8を形成するという簡単な構造によって、
特にエアーレーション等を装備せずに水流を発生させら
れるため、装備代、電気代、使用水量の点で節約するこ
とができる。しかも、堰5,5の形状や流出口12の形
状等を工夫して海水の流れを可能な限りスムーズにして
流量損失を減らし、さらに循環用補助ポンプ15によっ
て循環水を再利用するため、一層コスト削減を図ること
ができる。Further, by the simple structure of providing the weirs 5 and 5 in multiple stages and forming the slit 8 in the weir bottom 7,
In particular, since water flow can be generated without equipping aeration, it is possible to save on equipment costs, electricity costs, and water consumption. Moreover, by devising the shapes of the weirs 5, 5 and the shape of the outlet 12, the flow of seawater can be made as smooth as possible to reduce the flow loss, and the circulating auxiliary pump 15 can reuse the circulating water. Cost reduction can be achieved.
【0055】さらにまた、複数の水路状水槽2,2を上
下に多段的に構築したり、斜板シェルターを配置するこ
とにより、単位面積当たりのアワビの育成数量を増加す
ることができる。Furthermore, the number of abalone growing per unit area can be increased by constructing a plurality of water channel-shaped water tanks 2, 2 vertically in multiple stages or by disposing swash plate shelters.
【0056】なお、本発明の本実施形態の各構成は前述
したものに限るものではなく、適宜変更することができ
る。The configurations of the present embodiment of the present invention are not limited to those described above, but can be modified as appropriate.
【0057】例えば、前述した実施形態ではアワビを対
象とする養殖装置について説明したが、これに限るもの
ではなく、サザエやトコブシ、牡蠣等の他、シジミ貝等
の淡水で成長する貝類についても適用することができ
る。For example, the aquaculture device for abalone has been described in the above-mentioned embodiment, but the present invention is not limited to this, and it is also applicable to shellfishes such as turban shells, mites and oysters, as well as shellfish that grows in fresh water such as clam shells. can do.
【0058】[0058]
【発明の効果】以上説明したように本発明によれば、流
水中の溶存酸素量が高められるとともに、浮遊汚濁粒子
を速やかに流して衛生的であるし、新鮮な水をせせらぎ
のごとく適度な流速で流すことができる。これによりコ
ストを抑制しつつ自然の生息環境に近い環境下で天然貝
類に劣らぬ品質の貝類を陸上にて育成することができ
る。As described above, according to the present invention, the amount of dissolved oxygen in running water can be increased, floating suspended particles can be swiftly flowed to be sanitary, and fresh water can be used as a babble. It can flow at a flow rate. As a result, it is possible to cultivate shellfish of a quality comparable to that of natural shellfish on land in an environment close to the natural habitat while controlling costs.
【0059】また、本発明では、複数の水路状水槽の先
端方向を上下で交互に変えてジグザグ状に配置している
ため、単位面積当たりの貝類の育成数量を増加させるこ
とができて、貝類を狭い土地で効率的に養殖することが
できる。Further, in the present invention, the plurality of water channel-shaped water tanks are arranged in a zigzag pattern by alternately changing the top and bottom directions, so that it is possible to increase the number of growing shellfish per unit area and Can be cultivated efficiently in a small land.
【0060】さらに、本発明の一態様によれば、上方の
水路状水槽から流出する水が水路状水槽よりも大きな的
となる中間貯水槽に落下するため、水がこぼれにくくて
流量損失を抑制できるし、先端部形状の自由度が高ま
る。また、一旦、中間貯水槽に水を貯められるため、各
水路状水槽での流量や給水および排水スピードを適度に
調整することができる。Further, according to one aspect of the present invention, the water flowing out from the upper water channel-shaped water tank falls into the intermediate water storage tank which is larger than the water channel-shaped water tank, so that the water is unlikely to spill and the flow rate loss is suppressed. It is possible, and the degree of freedom of the tip shape is increased. Further, since water can be temporarily stored in the intermediate water storage tank, the flow rate and water supply / drainage speed in each water channel water tank can be appropriately adjusted.
【0061】また、本発明の一態様によれば、越流とと
もに低層流を発生させるため、浮遊汚濁粒子のみなら
ず、沈殿汚濁粒子も速やかに流し去り、より衛生的な環
境を造ることができ、頻繁に清掃する必要がなくなる
し、健康的な貝類の成長を促すことができる。Further, according to one aspect of the present invention, since the low-level flow is generated together with the overflow, not only the suspended pollutant particles but also the precipitated pollutant particles can be swiftly discharged, and a more hygienic environment can be created. Eliminates the need for frequent cleaning and promotes healthy shellfish growth.
【0062】さらに、本発明の一態様によれば、水路状
水槽内の底部または付着用底板に生息する貝類に低層流
を当接することができるため、貝類の呼吸を助け成長を
促進させることができる。Further, according to one aspect of the present invention, since the low-level flow can be brought into contact with the shellfish inhabiting the bottom portion or the attachment bottom plate in the channel-like water tank, the shellfish can be respired to promote the growth. it can.
【0063】また、本発明の一態様によれば、略水平直
線状の堰を越える越流水が直線的な流れを形成し、渦を
発生させないため、水路状水槽内の流れが滞留してしま
うのを防止し、より一層速やかに浮遊汚濁粒子を流し去
ることができるし、広い範囲に酸素を取り込むことがで
きる。Further, according to one aspect of the present invention, the overflow water passing over the substantially horizontal linear weir forms a linear flow and does not generate a vortex, so that the flow in the water channel water tank stays. The air pollution can be prevented, the suspended pollutant particles can be swept away more quickly, and oxygen can be taken into a wide range.
【0064】さらに、本発明の一態様によれば、水路状
水槽の先端部の形状によって先端部近傍で生じる渦流に
よる浮遊汚濁粒子の滞留を速やかに先端部の傾斜に沿っ
て流出させることができる。Further, according to one aspect of the present invention, due to the shape of the tip of the water channel water tank, the accumulation of suspended pollutant particles due to the vortex generated near the tip can be swiftly discharged along the inclination of the tip. .
【0065】また、本発明の一態様によれば、異常事態
により給水が停止しても水路状水槽の水路水位を一定に
保持して、貝類が死滅するのを防止することができる。Further, according to one aspect of the present invention, even if the water supply is stopped due to an abnormal situation, the water level of the water channel in the water channel can be kept constant to prevent the shellfish from dying.
【0066】さらに、本発明の一態様によれば、水路状
水槽の最先端部から水がスムーズに流出し、落下水が飛
散するのを防止して流量損失を抑制することができる。Further, according to one aspect of the present invention, it is possible to prevent water from flowing out smoothly from the tip end portion of the water channel water tank and to prevent falling water from scattering, thereby suppressing flow rate loss.
【0067】また、本発明の一態様によれば、斜板シェ
ルターが水路状水槽内に日陰を形成するため、夜行性の
アワビ等が育ちやすくなるし、さらにアワビ等が付着で
きる領域を底部のみならず、空間領域に確保することが
できる。Further, according to one aspect of the present invention, since the swash plate shelter forms a shade in the channel-like water tank, nocturnal abalone and the like are easily grown, and an area to which abalone and the like can be attached is only at the bottom. Instead, it can be secured in the spatial area.
【0068】さらに、本発明の一態様によれば、斜板シ
ェルターの凹凸面に餌料が引っかかり水流によって餌料
が流れてしまうのを抑制できる。Further, according to one aspect of the present invention, it is possible to prevent the bait from being caught by the uneven surface of the swash plate shelter and flowing by the water flow.
【図1】 本発明に係る貝類の陸上養殖装置の実施形態
の一例を示す正面図FIG. 1 is a front view showing an example of an embodiment of a shellfish aquaculture apparatus according to the present invention.
【図2】 図1の平面図FIG. 2 is a plan view of FIG.
【図3】 本実施形態の貝類の陸上養殖装置において枠
体等の全体の関連を示す正面図FIG. 3 is a front view showing the overall relationship of the frame body and the like in the shellfish aquaculture device of the present embodiment.
【図4】 図3の右側面図FIG. 4 is a right side view of FIG.
【図5】 図4の平面図5 is a plan view of FIG.
【図6】 本実施形態の貝類の陸上養殖装置において水
路状水槽の水路全体を示す正面図FIG. 6 is a front view showing the entire channel of the channel-like aquarium in the land-based aquaculture device for shellfish of the present embodiment.
【図7】 図6の右側面図7 is a right side view of FIG.
【図8】 図7の平面図FIG. 8 is a plan view of FIG.
【図9】 本実施形態における堰の形状を示す正面図FIG. 9 is a front view showing the shape of the weir in this embodiment.
【図10】 本実施形態における堰の両隅スリットを示
す正面図FIG. 10 is a front view showing slits at both corners of the weir in the present embodiment.
【図11】 本実施形態における水路状水槽を示す平面
図FIG. 11 is a plan view showing a channel-like water tank in the present embodiment.
【図12】 図11の正面図FIG. 12 is a front view of FIG. 11.
【図13】 図12に示すA−A線での一部省略断面図13 is a partially omitted cross-sectional view taken along line AA shown in FIG.
【図14】 図12に示すB−B線での一部省略断面図14 is a partially omitted cross-sectional view taken along line BB shown in FIG.
【図15】 図12に示すC−C線での一部省略断面図15 is a partially omitted cross-sectional view taken along the line CC shown in FIG.
【図16】 本実施形態における水路状水槽の先端部の
傾斜角度および長さの設定基準を示す模式図FIG. 16 is a schematic diagram showing the setting criteria of the inclination angle and the length of the tip of the water channel water tank in the present embodiment.
【図17】 本実施形態における斜板シェルターおよび
付着用底板を示す模式図FIG. 17 is a schematic diagram showing a swash plate shelter and an attachment bottom plate in the present embodiment.
1 貝類の陸上養殖装置 2 水路状水槽 3 枠体 4 給排水手段 5 堰 6 上端部 7 堰底部 8 スリット 9 両隅スリット 10 先端部 11 後端部 12 流出口 13 足場台 14 メインポンプ 15 循環用補助ポンプ 16 メインタンク 17 中間貯水槽 18 排水槽 19 給水パイプ 20 排水パイプ 21 斜板シェルター 22 付着用底板 1 Land-based aquaculture equipment for shellfish 2 water channel 3 frame 4 Water supply / drainage means 5 weirs 6 upper end 7 Weir bottom 8 slits 9 both corner slit 10 Tip 11 Rear end 12 Outlet 13 scaffolding 14 Main pump 15 Auxiliary pump for circulation 16 main tank 17 Intermediate water tank 18 drainage tank 19 Water supply pipe 20 drainage pipe 21 Swash plate shelter 22 Bottom plate for attachment
───────────────────────────────────────────────────── フロントページの続き (56)参考文献 特開 平5−103561(JP,A) 特開 昭47−18697(JP,A) 特開 平4−197119(JP,A) 特開 平6−70661(JP,A) 実開 昭48−59697(JP,U) 特表 平5−508767(JP,A) 登録実用新案3056367(JP,U) (58)調査した分野(Int.Cl.7,DB名) A01K 61/00 ─────────────────────────────────────────────────── --Continued from the front page (56) References JP-A-5-103561 (JP, A) JP-A-47-18697 (JP, A) JP-A-4-197119 (JP, A) JP-A-6- 70661 (JP, A) Actual development Sho 48-59697 (JP, U) Special table 5-508767 (JP, A) Registered utility model 3056367 (JP, U) (58) Fields investigated (Int.Cl. 7 , DB name) A01K 61/00
Claims (11)
備えているとともに、この水路状水槽に給水するための
給水ポンプを有する陸上養殖装置であって、前記水路状
水槽内に複数の堰を設けるとともに、それらの堰が多段
的になるように前記水路状水槽の先端側を下方に傾斜さ
せて配置したことを特徴とする貝類の陸上養殖装置。1. A land-based aquaculture apparatus comprising a water channel-shaped water tank for storing shellfish such as abalone and a water supply pump for supplying water to the water channel-shaped water tank, wherein a plurality of weirs are provided in the water channel-shaped water tank. And a tip end side of the water channel-shaped water tank is inclined downward so that the weirs are provided in multiple stages.
上下方向に複数配置し、これらの水路状水槽の先端側を
前記各堰が多段的になるように下方に傾斜させるととも
に、前記各水路状水槽の先端方向を上下で交互に変えて
ジグザグ状に配置したことを特徴とする貝類の陸上養殖
装置。2. A plurality of water channel-shaped water tanks provided with a plurality of weirs are vertically arranged on the water channel, and the tip end side of these water channel-shaped water tanks is inclined downward so that each of the weirs has a multi-step structure, A land-based aquaculture device for shellfish, wherein the apical direction of each of the water channel-shaped water tanks is alternately changed up and down and arranged in a zigzag pattern.
方の水路状水槽から流出する水を一旦貯留して下方の水
路状水槽へ給水するための中間貯水槽を設けたことを特
徴とする請求項2に記載の貝類の陸上養殖装置。3. An intermediate water storage tank is provided between the upper and lower water channel-shaped water tanks for temporarily storing the water flowing out from the upper water channel-shaped water tank and supplying the water to the lower water channel-shaped water tank. The land aquaculture device for shellfish according to claim 2.
隙間を形成したことを特徴とする請求項1から請求項3
のいずれかに記載の貝類の陸上養殖装置。4. A gap is formed between the bottom of the water channel water tank and the weir.
The land aquaculture device for shellfish according to any one of 1.
に生息する貝類または前記水路状水槽内に配置された付
着用底板に生息する貝類に当接し得る低層流が発生する
高さに形成したことを特徴とする請求項4に記載の貝類
の陸上養殖装置。5. A height at which the low-level flow is generated so that the height of the gap can come into contact with the shellfish inhabiting the bottom of the water channel-shaped water tank or the shellfish inhabiting the attachment bottom plate arranged in the water channel-shaped water tank. 5. The land-based aquaculture device for shellfish according to claim 4, wherein
たことを特徴とする請求項1から請求項5のいずれかに
記載の貝類の陸上養殖装置。6. The shellfish aquaculture device according to claim 1, wherein an upper end of the weir is formed in a substantially horizontal straight line.
斜勾配を有するように形成したことを特徴とする請求項
1から請求項6のいずれかに記載の貝類の陸上養殖装
置。7. The shellfish land-cultivating device according to claim 1, wherein a tip portion of the water channel-shaped water tank is formed so as to have an upwardly inclined gradient.
斜勾配および長さを、給水が停止したときに前記水路状
水槽の水路後端部が浸水する程度に形成したことを特徴
とする請求項7に記載の貝類の陸上養殖装置。8. The upward slope and length of the tip of the channel-like water tank are formed so that the rear end of the channel of the channel-like water tank is flooded when water supply is stopped. The land culture apparatus for shellfish according to claim 7.
落下経路に沿うように下方へ湾曲する略くちばし状に形
成したことを特徴とする請求項7または請求項8に記載
の貝類の陸上養殖装置。9. The shellfish according to claim 7, wherein the most distal end of the water channel-shaped water tank is formed in a substantially beak shape that curves downward along the falling path of the outflow water. Land aquaculture equipment.
したことを特徴とする請求項1から請求項9のいずれか
に記載の貝類の陸上養殖装置。10. The shellfish land-cultivating device according to claim 1, wherein a swash plate shelter is arranged in the water channel-shaped water tank.
形成したことを特徴とする請求項10に記載の貝類の陸
上養殖装置。11. The shellfish land-cultivating device according to claim 10, wherein an upper surface of the swash plate shelter is formed into an uneven surface.
Priority Applications (1)
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JP2001330389A JP3493357B2 (en) | 2001-10-29 | 2001-10-29 | Onshore aquaculture equipment for shellfish |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2001330389A JP3493357B2 (en) | 2001-10-29 | 2001-10-29 | Onshore aquaculture equipment for shellfish |
Publications (2)
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JP2003125668A JP2003125668A (en) | 2003-05-07 |
JP3493357B2 true JP3493357B2 (en) | 2004-02-03 |
Family
ID=19146112
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JP2001330389A Expired - Lifetime JP3493357B2 (en) | 2001-10-29 | 2001-10-29 | Onshore aquaculture equipment for shellfish |
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Cited By (3)
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---|---|---|---|---|
WO2012008424A1 (en) * | 2010-07-15 | 2012-01-19 | Fujiyoshi Yoshihiro | Device for farming benthic organisms such as bivalves |
JP2012165649A (en) * | 2011-02-09 | 2012-09-06 | Yoshihiro Fujiyoshi | Multi-level aquaculture device for benthic organism such as bivalve, aquaculture method and biofilter using the same |
JP3215559U (en) * | 2018-01-16 | 2018-03-29 | 合同会社アースリング水産研究所 | Aquaculture tank |
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JP2006345784A (en) * | 2005-06-16 | 2006-12-28 | Shimane Univ | Method for raising filter-feeding bivalve, system for raising the filter-feeding bivalve, method for purifying brackish water using the filter-feeding bivalve, and system for purifying the brackish water using the filter-feeding bivalve |
KR101426228B1 (en) | 2012-09-13 | 2014-08-07 | 서일권 | Combined devices on cultivating and multiplying crustacean and invertebrate |
KR101756867B1 (en) * | 2014-10-31 | 2017-07-12 | 한국기계연구원 | Compound aquafarm |
JP7170253B2 (en) * | 2017-09-04 | 2022-11-14 | 合同会社ヒムカの夢郷 | Shellfish farming equipment |
JP6987365B2 (en) * | 2019-11-20 | 2021-12-22 | 義裕 藤芳 | Plane-arranged bivalve breeding system |
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Citations (1)
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JP3056367U (en) | 1998-07-31 | 1999-02-16 | マリーン開発株式会社 | Abalone culture facility |
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2001
- 2001-10-29 JP JP2001330389A patent/JP3493357B2/en not_active Expired - Lifetime
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JP3056367U (en) | 1998-07-31 | 1999-02-16 | マリーン開発株式会社 | Abalone culture facility |
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2012008424A1 (en) * | 2010-07-15 | 2012-01-19 | Fujiyoshi Yoshihiro | Device for farming benthic organisms such as bivalves |
JP2012019746A (en) * | 2010-07-15 | 2012-02-02 | Yoshihiro Fujiyoshi | Device for farming benthic organism such as bivalve |
CN103118534A (en) * | 2010-07-15 | 2013-05-22 | 藤芳义裕 | Device for farming benthic organisms such as bivalves |
US9167803B2 (en) | 2010-07-15 | 2015-10-27 | Yoshihiro Fujiyoshi | Device for farming benthic organisms such as bivalves |
CN103118534B (en) * | 2010-07-15 | 2015-11-25 | 藤芳义裕 | The benthic cultivator such as bivalve |
JP2012165649A (en) * | 2011-02-09 | 2012-09-06 | Yoshihiro Fujiyoshi | Multi-level aquaculture device for benthic organism such as bivalve, aquaculture method and biofilter using the same |
JP3215559U (en) * | 2018-01-16 | 2018-03-29 | 合同会社アースリング水産研究所 | Aquaculture tank |
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