M335936 八、新型說明: 【新型所屬之技術領域】 本創作係關於水產養殖裝置,尤指一種包括複數個養 殖監之水產養殖裝置,當養殖業者將該水產養殖裝置垂降 • 至水中,進行水產之養殖時,各該養殖籃能穩定地連接在 一起,避免各該養殖籃在受到水流沖擊後,或養殖業者進 行收取該水產養殖裝置時,導致各該養殖籃間因產生間 修 隙,而發生水產流失之問題。 【先前技術】 按,一般言,水產養殖業者在進行水產(如:魚、蝦、 蟹、貝類…等)養殖時,養殖業者係在合適的養殖場所(如: 沿海旁)’開挖複數個養殖池,嗣,在各該養殖池中放養該 水產之幼苗,待幼苗成長一預定的時間後,養殖業者即分 別撈取成長體形大小不同之水產,至其他體形大小相仿之 馨 水產生長的養瘦池中,使該水產能依照其體形大小被分開 養殖,令養殖業者能以適合該水產成長程度之飼料餵養該 水產,俾該水產能獲取足夠、合適之铸料,大幅地提升該 水產之成長效率,且該水產依照其體形大小被分開養殖 後,亦能避免該水產體形差異過大,造成大型水產吞吃小 型水產之問題。 然而,此一養殖方式,係具有下列諸多缺點: (1)養殖業者必須擁有龐大的養痩場所,以開挖複數個養 殖池,再依照水產的體形大小,將水產分開養殖在不 5 M335936 f的養聽巾,故,频場雜顿養殖業者而 2 ’便無財效地依照該水紅體形大小,將該水產 刀開養殖’造成該水產成長環境嚴苛,產量不能有效 提升的問題; (2) 在单-的養殖池中,大部分之水產多會聚集在養殖池 的底部,尤其是蝦、蟹、貝類,故,將使得養殖池的 養造分佈不均,令該養殖池有料空法被有效率 地使用;及 (3) 當該養殖池中的水產成長一預定的時間後,養殖業者 必須撈取成長體形不同之水產,以依照該水產體形大 小分開養殖時,養殖業者係無法確實地掌握該養殖池 中的水產所處位置,故,養殖業者將需耗費諸多時 間,以找尋、撈取該水產,造成養殖業者撈取作業上 之不便。 因上述養殖方式所產生之諸多缺憾,故,養殖業者開 發一種水產養殖裝置,以解決前述各該問題,請參閱第j 及2圖所示,該水產養殖裝置丨係包括複數個養殖籃1〇, 該養殖籃10上佈設有複數個網孔1〇〇,該養殖籃1〇之底 部的中央位置凸設有一中心軸11,該中心轴11之頂端設 有一第一連接部111,且該中心軸11之底端設有一第二連 接部112,任一養殖籃10之頂端可藉由該第一連接部m, 與另一養殖籃10之底端的該第二連接部112互相嵌卡連接 成一體,又該中心轴11上係設有一貫穿孔113,如此,養 殖業者係能將水產分別放置於各該養殖籃10中,嗣,養殖 M335936 :者犯將各該養殖£ 10相卡接在-起,並藉由-繩索2依 序穿叹於該等養殖籃1G之中心轴11的該貫穿孔113中, 2之蝴打上職,以將該等養殖藍1Q固定在 一起。 故’當養殖業者將該水產養殖裝置1垂降至水中,進 ’ g卩能藉由該水產養殖裝置i之各該養 殖監10分層養殖的效果,有效防止該水產聚集在養殖池之 Φ 底邛的問題’且當水產成長一預定的時間後,養殖業者即 能透過該水產養殖裝置1,直接撈取各該養殖籃10中之水 產’再者,當養殖業者所養殖之水產體形大小不一時,養 殖業者係能將體形大小不同之水產,分別置放於不同之養 殖籃10中,令養殖業者便於管理、養殖水產。 惟,復請參閱第1及2圖所示,該水產養殖裝置i在 使用上,仍有其嚴重的缺失: (1)該水產養殖裝置1之各該養殖籃10間,僅藉由該中 • 心軸11的各該連接部η卜112,彼此相互嵌卡連接 在一起,而各該養殖籃10彼此相鄰之周緣卻無任何 固定結構,故,當該水產養殖裝置1受到水流沖擊, 或養殖業者進行收取該水產養殖裝置1時,將容易令 各該養殖籃10彼此相鄰的周緣處,因受外力影響, 而產生變形,導致各該養殖籃1〇間產生間隙,而發 生水產流失之問?€,導致養殖業者努力養殖之水產蒙 受損失。 (2)當養殖業者所養殖之水產體形大小不一時,養殖業者 M335936 雖然能將體形大小不同之水產,分別置放於不同之養 殖監ίο中,並能依照該水產體形大小,將該水產放 置於孔徑合適之養殖籃中,以防止該水產穿過該 等網孔100而逃脫,但,如此一來,養殖業者勢必需 要在該水產養殖裝置1上,設有各種網孔1〇〇之孔徑 大小不同之養殖籃10,或養殖業者需要時常因應該水 產之體形大小,而在該水產養殖裝置丨上,更換各種 Φ 養殖監,故,將可能發生該養殖籃10之網孔1〇〇 的孔徑,恰不適合任何水產體形大小的時候,導致養 殖空間浪費,或令養殖業者需時常更換各種養殖籃 10,造成其作業上的諸多不便與困擾。 因此、如何此^又计出一種水產養殖裝置,當其受到水 流沖擊,或養殖業者進行收取該水產養殖裝置時,該水產 養殖裝置之各該養殖i冑能穩定地連接在-起, 業者能便纖龍獄小不同之水產進行分養作業,即成 # 躲產養雜置設計、製造之業者刻正努力研發,並亟欲 達成的一重要目標。 【新型内容】 有鑑於此,4改進傳統水產養殖裝置之缺點,創作人 經過長久努力研究與實驗,終於開發設計出本創作之一種 水產養殖裝置’叫藉由本創作,令養殖業者能便利地對 體形大小不同之水產(如:魚、瑕、蟹、貝類...等)進行 分養作業’且在該水產養殖裝置受到水流沖擊,或養殖業 8 M335936 者進行收取該水產養殖裝置時,皆能防止發生水產流失之 問題。 、—本_之目的’係提供-種水產養絲置,其係包 括複數個第-養殖監,該第一養殖藍之底部的中央位置向 上凸設有-中心軸,該中心軸上設有一第一貫穿孔,且該 .中心軸與該第—養殖籃之雜_間分顺有複數個分隔 板,該等分隔板聽該第—養錄内,區隔成複數個彼此 • 獨立^谷置空間’且該等分隔板及該第-養殖籃上均勻佈 狄有複數個第-網孔,該第—輕籃之周料側對應於各 該$隔板的位置,分別向外凸設有一定位部,該定位部上 並設有-第二貫穿孔’該第—養殖籃周緣之頂端設有一第 一連接部,該第-養殖籃職之底舰有—第二連接部, 使得任一第一養殖籃之頂端可藉該第一連接部,與另一第 一養殖監之底端之該第二連接部,相互嵌卡連接成一體, 如此,養殖業者即能將複數個第一養殖籃依序卡接在一 • 起’並藉由一第一織索依序穿設於該等第-養殖籃之中心 軸之第-貫穿孔中’以將該等第一養瘦籃固定在一起,再 透過複數條帛二,财’分別依序穿設於該等第—養殖藍相 義之定轉之第二貫穿孔巾,故,#纽業者將該水產 養瘦裝置垂降至水巾,進行水產纽時,各該第一養殖藍 即能敎地連接在H效避免各該第—纽籃在受到 水流沖擊後,或養殖業者進行收取該水產養殖裝置時,導 致各該第-養殖籃_產生_,而發生水產流失之問題。 本創作之另一目的,係該容置空間内能容置一第二養 M335936 監’該第二養瘦籃上均勻佈設有複數個第二網孔,各該 f 一網孔之孔㈣切錢第—網狀孔徑’如此’養殖 業者即能根據不同成長期之水產之體形大小,選擇將不同 成f期之水產,分淑放於各該第—養殖籃或各該第二養 殖監中,使得該第—養殖藍或第二養殖籃的第-網孔或第 二網孔之孔徑大小,能防止水產穿過該等網孔而逃脫,且 養殖業者即能直接於各該第—養殖籃之容置空間内,放置 該第二養殖籃,而不需依序更換各該第—養殖籃,有效簡 化養殖業者對體形大小;^同之水產進行分養作業的程序。 為便μ審查委員能對本創作之目的、形狀、構造裝 置特徵及其姐,做更進—步之認贿瞭解,轉實施例 配合圖式,詳細說明如下: ' 【實施方式】 本創作係一種水產養殖裝置,在本創作之一較佳實施 例中,請參閱第3及4圖所示,該水產養殖裝置3係包括 複數個第一養殖籃30,該第一養殖籃3〇之底部的中央位 置向上凸設有一中心轴31,該中心軸31上設有一第一貫 穿孔310,且該中心轴31與該第一養殖籃3〇之周緣内侧 間分別設有複數個分隔板32,該等分隔板32係將該第一 養殖籃30内,區隔成複數個彼此獨立之容置空間,且該等 分隔板32及該第一養殖籃30上均勻佈設有複數個第一網 孔300 ’該第一養殖籃30之周緣外側對應於各該分隔板32 的位置,分別向外凸設有一定位部33,該定位部33上並 M335936 設有一第二貫穿孔330,請參閱第5圖所示,該第一養殖 監30周緣之頂端設有一第一連接部3〇1,該第一養瘦籃3〇 周緣之底端設有一第二連接部302,該第一連接部3〇1與 該第二連接部302係可為相匹配之凸緣部與凹緣部,使得 任一第一養殖籃30之頂端可藉該第一連接部3〇1,與另一 第一養殖籃30之底端之該第二連接部3〇2,相互嵌卡連接 成一體。 如此,復請參閱第4圖所示,養殖業者即能將複數個 第養殖監30依序卡接在一起,並藉由一第一繩索依 序穿設於該等第一養殖籃30之中心轴31之第一貫穿孔31〇 中,以將該等第一養殖籃30固定在一起,再透過複數條第 二繩索41,分別依序穿設於該等第一養殖籃3〇相對應之 定位部33之第二貫穿孔330中,故,當養|業者將該水產 養殖裝置3垂降至水中,進行水產(如:魚、蝦、蟹、貝 類…等)養殖時,各該第一養殖籃3〇即能穩定地連接在一 起,有效避免各該第一養殖籃3〇在受到水流沖擊後,或養 殖業者進行收取該水產養殖裝置3時,令各該第一養殖籃 30受到沖擊與擠壓…等外力影響,導致各該第一養殖籃3〇 間產生間隙,而發生水產流失之問題。 在該實施例中,復請參閱第3圖所示,該第一養殖籃 30之該容置空間内能容置一第二養殖籃34,該第二養殖籃 34上均勻佈設有複數個第二網孔340,各該第二網孔34〇 之孔徑係小於各該第一網孔3〇〇之孔徑,如此,養殖業者 即能根據不同成長期之水產的體形大小,選擇將不同成長 11 M335936 期之水產,分別置放於各該第一養殖籃3〇或各該第二養殖 籃34中,使得該第一養殖籃30或第二養殖籃34的第一網 孔300或第二網孔340之孔徑大小,能防止水產穿過該等 網孔300、340而逃脫’且養殖業者即能直接於各該第一養 • 殖籃30之容置空間内,放置該第二養殖籃34,復請參閱 第4圖所示,而不需自該水產養殖裝置3上,拆卸更換不 同孔徑大小之各該第一養殖籃30,有效簡化養殖業者對體 形大小不同之水產進行分養作業的程序,且能充分利用所 9 有的養殖空間。 再者,在該實施例中,復請參閱第3及4圖所示,各 該第一網孔300朝該第一養殖籃30内之孔徑,係小於各該 第一網孔300朝該第一養殖籃30外之孔徑,而各該第二網 孔340朝該第二養殖籃34内之孔徑,係小於各該第二網孔 340朝該第一養瘦藍34外之孔徑,如此,當養殖業者將該 水產養殖裝置3垂降至水中,進行水產養殖時,水流將能 _ 藉由各該網孔300、340,順利地流進各該養殖籃3〇、34 内,故,不僅能令各該養殖籃30、34内之水產的***物, 隨著水流迅速被排出,亦能有效令铒料或水中之浮游生 物,隨著水流流進各該養殖籃30、34内,俾各該養殖籃 30、34内的水產能有良好之生長環境。 在上述實施例中’復請參閱第3及4圖所示各該網孔 300、340之孔徑大小與形狀係不限定,各該網孔3〇〇、34〇 可依照該水產養殖裝置3實際之設計,而更換實施不同大 小之孔徑或形狀,只要各該網孔3〇〇、340能用以防止該水 12 M335936 產穿過該等網孔300、340而逃脫,即為本創作所述之各該 網孔 300、340。 復請參閱第5圖所示,在該實施例中,各該第一養殖 • 籃30的該中心轴31之頂端設有一第三連接部311,且該 " 中心轴31底端設有一第四連接部312,該第三連接部311 與該第四連接部312係可為相匹配之凸緣部與凹緣部, 故,任一第一養殖籃30之頂端可藉該第三連接部3ιι,與 另一第一養殖籃30之底端的該第四連接部312,相互嵌卡 連接成-體,使得錢第-養殖籃3Q能更為物地連接在 -起,有效避免各該第-養殖籃3〇在受到水流沖擊後,或 養殖業者進行收取該水產養殖裝置3時,令各該第一養殖 籃30受到沖擊與擠壓···等外力影響,$致各該第一養瘦藍 30間產生間隙,而發生水產流失之問題。 在該實施射,復請參閱第4圖所示,該水產養技裝 置3尚設有-第-固定座35及一第二固定座36,其中該 • 第一固定座35固設於該第一繩索之-端,而該第二固 定座36則套設於該第一織索4〇之另一端,該水產養· 置3藉由各該固定座35、36,係能將各該第一養殖藍3〇 彼此緊密地m定在該第—射4G上,有效避免各該第一養 殖籃30处縣齡錢,轉殖業麵行餘該水產養 殖裝置3時,令各該第一養殖籃3〇受到沖擊與擠麼…等外 力影響’導致各該第-養殖籃3G間產生間隙,而發生水產 流失之問題。 該第一固疋座36係包括—膨脹螺絲及一螺帽 13 M335936 361 ’其中該膨脹螺絲360,係活動地套設在該第一繩索4〇 上,而該螺帽361則活動地螺接在該膨脹螺絲36〇上,當 該螺帽361朝鄰近各該第一養殖籃3〇的方向於該膨脹螺絲 360上旋動時,係能將該膨脹螺絲36〇固定在該第一繩索 40上,當該螺帽361朝遠離各該第一養殖籃的方向於 該膨脹螺絲360上旋動時,即能釋放該膨脹螺絲36〇對該 第一繩索40之固定,如此,復請參閱第3圖所示,當養殖 業者需於該第一養殖籃3〇之容置空間内,放置或移除該第 二養殖籃34,進行水產分養作業時,只要藉由該第二固定 座36,即能快速地解除該第二固定座36對該第一繩索4〇 上之各該第一養殖籃30的固定,嗣,在放置或移除該第二 養殖監34,進行水產分養作業後,亦能再次藉由該第二固 疋座36,即能快速地配合該第一固定座35固定該第一繩 索40上之各該第一養殖籃30。 按,以上所述,僅為本創作最佳之具體實施例,惟本 創作之構造舰並稿限於此,任何熟悉該魏藝者在本 創作領域内,可輕易思及之變化或修飾,皆可涵蓋在以下 本案之專利範圍。 【圖式簡單說明】 第Ϊ圖係習知水產養殖裝置之使用狀態圖; 第2圖係習知水產養殖裝置之養殖籃之示意圖; 第3圖係本創作之一實施例之使用狀態圖; 第4圖係本創作之一實施例之第一養殖籃及第二養殖 M335936 藍之不意圖,及 第5圖係本創作之一實施例之剖面圖。 【主要元件符號說明】 水產養殖裝置..................3 第一養殖籃 ..................30 第一網孔 ..................300 第一連接部 ..................301 第二連接部 ..................302 中心轴 ..................31 第一貫穿孔 ..................310 第三連接部 ..................311 第四連接部 ..................312 分隔板 ..................32 定位部 ..................33 第二貫穿孔 ..................330 第二養殖籃 ..................34 第二網孔 ..................340 第一固定座 ..................35 第二固定座 ..................36 膨脹螺絲 ..................360 螺帽 361 第一繩索 ..................40 第二繩索 ..................41 15M335936 VIII. New description: [New technical field] This creation is about aquaculture equipment, especially an aquaculture unit that includes a number of aquaculture units. When the aquaculture industry descends the aquaculture unit to the water, it produces aquatic products. During the breeding, the breeding baskets can be stably connected together, and the breeding baskets are prevented from being repaired by the water flow, or when the aquaculture industry collects the aquaculture device, resulting in a gap between the breeding baskets. The problem of loss of aquatic products. [Prior Art] According to the general statement, when aquaculture producers are engaged in aquaculture (such as fish, shrimp, crab, shellfish, etc.), the aquaculture workers are excavating a plurality of suitable breeding sites (eg, along the coast). The breeding pond, cockroach, stocks the seedlings of the aquatic product in each of the breeding ponds. After the seedlings are grown for a predetermined period of time, the aquaculture workers separately harvest the aquatic products of different sizes and sizes, and the other scented waters of similar size are produced long. In the thin pool, the water production capacity is separately cultured according to the size of the body, so that the aquaculture company can feed the aquatic product with the feed suitable for the growth degree of the aquatic product, and obtain sufficient and suitable casting materials to greatly increase the aquatic product. The growth efficiency, and the aquatic products are separately cultured according to their size, can also avoid the excessive difference in the shape of the aquatic product, causing the problem of large aquatic products consuming small aquatic products. However, this farming method has the following shortcomings: (1) The aquaculture industry must have a large breeding ground to excavate a plurality of breeding ponds, and then separate the aquatic products according to the size of the aquatic products. 5 M335936 f The raising of the towel, therefore, the frequency field of the stagflation aquaculture and 2 'there is no financial effect according to the size of the water red body, the aquaculture knife opened to breed 'caused the aquatic environment to grow harsh environment, the production can not effectively improve the problem; (2) In single-culture ponds, most of the aquatic products will accumulate at the bottom of the culture ponds, especially shrimps, crabs and shellfish. Therefore, the breeding pool will be unevenly distributed and the ponds will be made of materials. The air method is used efficiently; and (3) after the aquatic product in the culture pond has been grown for a predetermined period of time, the aquaculture industry must harvest the aquatic products of different growth shapes to separate the culture according to the size of the aquatic product. It is true that the position of the aquatic product in the breeding pond is well-positioned. Therefore, the aquaculture industry will need to spend a lot of time to find and fish the aquatic product, which will cause the inconvenience of the aquaculture workers to take care of the operation. Due to the many shortcomings caused by the above-mentioned farming methods, the aquaculture industry has developed an aquaculture device to solve the above problems. Please refer to Figures j and 2, the aquaculture equipment includes a number of breeding baskets. The culture basket 10 is provided with a plurality of meshes 1 , and a central shaft 11 is protruded from a central portion of the bottom of the culture basket. The top end of the central shaft 11 is provided with a first connecting portion 111, and the center is provided. The bottom end of the shaft 11 is provided with a second connecting portion 112. The top end of any of the breeding baskets 10 can be inserted into the second connecting portion 112 of the bottom end of the other breeding basket 10 by the first connecting portion m. In one piece, the central shaft 11 is provided with a consistent perforation 113. Thus, the aquarist can place the aquatic products in each of the breeding baskets 10, and the breeding M335936: the criminals will be stuck in the 10th phase of the breeding. And, by the - rope 2, the sighs are sequentially sighed in the through hole 113 of the central axis 11 of the culture basket 1G, and the butterfly is put on the job to fix the cultured blue 1Q together. Therefore, when the aquaculture industry hangs the aquaculture device 1 down to the water, the effect of the cultivating of the aquaculture device i can effectively prevent the aquatic product from accumulating in the bottom of the culture pond. The problem of sputum 'and when the aquatic product grows for a predetermined period of time, the aquaculture industry can directly fish the aquatic products in each of the culture baskets 10 through the aquaculture device 1, and when the aquaculture products cultivated by the aquaculture workers are different in size The aquaculture industry can place aquatic products of different sizes and sizes in different breeding baskets 10, so that the aquaculture industry can easily manage and raise aquatic products. However, as shown in Figures 1 and 2, the aquaculture unit i still has serious defects in its use: (1) 10 of the breeding baskets of the aquaculture unit 1 only by the middle The connecting portions η 112 of the mandrel 11 are mutually coupled to each other, and the circumference of each of the breeding baskets 10 adjacent to each other does not have any fixed structure, so when the aquaculture device 1 is subjected to water flow, When the aquaculture device 1 collects the aquaculture device 1, it will be easy for the respective culture baskets 10 to be adjacent to each other, and the deformation will be caused by the external force, resulting in a gap between each of the culture baskets and the occurrence of aquatic products. The problem of loss is caused by the loss of aquatic products that the aquaculture industry strives to breed. (2) When the size of the aquatic products cultured by the aquaculture workers is different, the aquaculture industry M335936 can place the aquatic products of different sizes and sizes in different cultures, and can place the aquatic products according to the size of the aquatic product. In a breeding basket of suitable pore size, the aquatic product is prevented from escaping through the meshes 100, but in this way, the aquaculture industry is bound to have a plurality of pores in the aquaculture device 1 The culture basket 10 of different sizes, or the aquaculture industry needs to change the size of the body of the aquatic product, and replace the various Φ culture monitors on the aquaculture device, so the cell of the culture basket 10 may occur. The pore size is not suitable for any size of the aquatic product, which leads to waste of breeding space, or the need for the aquaculture industry to change various breeding baskets 10 from time to time, causing inconvenience and trouble in its operation. Therefore, how to calculate an aquaculture device, when it is impacted by the water flow, or when the aquaculture device collects the aquaculture device, the aquaculture device of the aquaculture device can be stably connected, and the operator can The company has a different goal in the development of the design and manufacturing of the company. [New content] In view of this, 4 to improve the shortcomings of traditional aquaculture equipment, the creator has been working hard to study and experiment, and finally developed and designed an aquaculture device of this creation, which is called by this creation, so that the breeders can conveniently Aquaculture (such as fish, clams, crabs, shellfish, etc.) of different sizes and sizes are used for the operation of the aquaculture device, and when the aquaculture device receives the aquaculture device, 8 M335936 It can prevent the problem of loss of aquatic products. , the purpose of the present _ is to provide a kind of aquaculture silk set, which comprises a plurality of first-culture supervisors, the central position of the bottom of the first cultured blue is convexly provided with a central axis, and the central axis is provided with a a first through hole, and the central axis and the first-mixing basket of the first-culture basket have a plurality of dividing plates, and the dividing plates are listened to the first-individual, separated into a plurality of each other. ^谷空间空间' and the plurality of first meshes are evenly distributed on the partition plates and the first culture basket, and the circumferential side of the first light basket corresponds to the position of each of the partitions, respectively The bulging portion is provided with a positioning portion, and the positioning portion is provided with a second through hole. The first end of the circumference of the first culture basket is provided with a first connecting portion, and the bottom line of the first breeding basket has a second connecting portion. Therefore, the top end of any first breeding basket can be integrated with the second connecting portion of the bottom end of the other first breeding farm by the first connecting portion, so that the breeder can The first breeding baskets are sequentially snapped into one and are sequentially placed in the first-culture basket by a first weaving rope. In the first-through hole of the central axis, the first thin baskets are fixed together, and then through the plurality of 帛二, 财 ' respectively, respectively, are placed in the first--the breeding blue phase Two through-hole towel, therefore, #纽业者 hangs the aquaculture slimming device down to the water towel, when the aquatic product is opened, each of the first cultured blues can be connected to the H effect to avoid the first-new basket being subjected to After the impact of the water flow, or when the aquaculture operator collects the aquaculture device, each of the first-culture baskets produces _, and the problem of loss of aquatic products occurs. Another purpose of the creation is to accommodate a second M335936 in the accommodating space. The second thin basket is uniformly provided with a plurality of second meshes, and each of the holes of the mesh is cut. The money-network aperture 'so' can be selected according to the size of the aquatic products of different growing seasons, and the aquatic products with different f stages can be selected and placed in each of the first-culture baskets or each of the second breeding monitors. The pore size of the first mesh or the second mesh of the first cultured blue or the second culture basket can prevent aquatic products from escaping through the mesh, and the aquaculture can directly breed the first In the accommodating space of the basket, the second breeding basket is placed, and the first-culture basket is not required to be replaced in order, thereby effectively simplifying the size of the body of the aquaculture worker; In order to facilitate the review committee, the purpose of the creation, the shape, the structure of the device and its sister, to make a more advanced understanding of bribery, and to transfer the example with the schema, the details are as follows: '[Embodiment] This creation is a kind of Aquaculture apparatus, in a preferred embodiment of the present invention, as shown in Figures 3 and 4, the aquaculture apparatus 3 includes a plurality of first culture baskets 30, the bottom of which is the bottom of the first culture basket A central shaft 31 is disposed on the central portion, and a first through hole 310 is defined in the central shaft 31, and a plurality of partition plates 32 are respectively disposed between the central shaft 31 and the inner side of the circumference of the first culture basket 3〇. The partitioning plates 32 are divided into a plurality of mutually independent accommodating spaces in the first breeding basket 30, and the dividing boards 32 and the first breeding basket 30 are evenly arranged with a plurality of first ones. The outer side of the circumference of the first culture basket 30 corresponds to the position of each of the partition plates 32, and a positioning portion 33 is protruded outwardly. The positioning portion 33 and the M335936 are provided with a second through hole 330. Referring to Figure 5, the first breeding supervisor is 30 weeks old. The first connecting portion 3〇1 is disposed at a bottom end of the first thinning basket 3, and a second connecting portion 302 is disposed at the bottom end of the first thinning basket 3, and the first connecting portion 〇1 and the second connecting portion 302 are The matching flange portion and the concave edge portion are such that the top end of any of the first culture baskets 30 can be borrowed from the first connection portion 3〇1 and the second connection portion of the bottom end of the other first culture basket 30 2, the mutual embedded card is integrated into one. In this way, as shown in Figure 4, the breeder can sequentially join a plurality of first culture monitors 30 and sequentially pass through a first rope to the center of the first culture basket 30. The first through-holes 31 of the shaft 31 are fixed to the first culture baskets 30, and then through the plurality of second ropes 41, respectively, respectively, correspondingly disposed in the first breeding baskets 3 The second through hole 330 of the positioning portion 33, so that when the manufacturer hangs the aquaculture device 3 down to the water and carries out aquaculture (such as fish, shrimp, crab, shellfish, etc.), each of the first The breeding baskets can be stably connected together, effectively avoiding the impact of each of the first breeding baskets 3 after being impacted by the water flow, or when the aquaculture industry collects the aquaculture device 3, causing the first breeding baskets 30 to be impacted. The influence of external force, such as squeezing, causes a gap between each of the first culture baskets, and the problem of loss of aquatic products occurs. In this embodiment, as shown in FIG. 3, a second breeding basket 34 can be accommodated in the accommodating space of the first breeding basket 30, and the second breeding basket 34 is evenly arranged with a plurality of The two meshes 340, the aperture diameter of each of the second mesh holes 34 is smaller than the aperture of each of the first mesh holes 3, so that the breeder can select different growth according to the size of the aquatic products of different growth stages. The aquatic product of M335936 is placed in each of the first culture baskets 3 or each of the second culture baskets 34, so that the first mesh 300 or the second mesh of the first culture basket 30 or the second culture basket 34 The aperture 340 has a pore size that prevents aquatic products from escaping through the meshes 300, 340 and the aquarist can place the second culture basket 34 directly within the accommodation space of each of the first culture baskets 30. For details, please refer to Figure 4, without removing and replacing the first culture baskets 30 of different pore sizes from the aquaculture device 3, which effectively simplifies the aquaculture industry to carry out the nutrient operations for different sizes of aquatic products. Programs, and can make full use of the nine breeding spaces. Furthermore, in this embodiment, as shown in FIGS. 3 and 4, the apertures of the first mesh 300 toward the first culture basket 30 are smaller than the first mesh 300 toward the first a hole outside the culture basket 30, and the aperture of each of the second meshes 340 toward the second culture basket 34 is smaller than the aperture of each of the second mesh holes 340 toward the first slimming blue 34, thus, When the aquaculture industry hangs the aquaculture device 3 down to the water for aquaculture, the water flow can be smoothly flowed into each of the culture baskets 3, 34 by the respective meshes 300, 340, so that not only The excrement of the aquatic products in each of the culture baskets 30 and 34 can be effectively discharged with the water flow, and the plankton in the water or the water can be effectively flowed into the breeding baskets 30 and 34 as the water flows. The water production capacity in each of the culture baskets 30, 34 has a good growth environment. In the above embodiment, the aperture size and shape of each of the meshes 300 and 340 shown in FIGS. 3 and 4 are not limited, and each of the meshes 3, 34 can be actually in accordance with the aquaculture device 3 The design is to replace the apertures or shapes of different sizes, as long as each of the meshes 3, 340 can be used to prevent the water 12 M335936 from escaping through the meshes 300, 340, Each of the meshes 300, 340. Referring to FIG. 5, in the embodiment, the top end of the central shaft 31 of each of the first culture baskets 30 is provided with a third connecting portion 311, and the bottom of the central shaft 31 is provided with a first The fourth connecting portion 312 and the fourth connecting portion 312 are matched with the flange portion and the concave portion. Therefore, the top end of any of the first breeding baskets 30 can be connected to the third connecting portion. 3 ι, with the fourth connecting portion 312 at the bottom end of the other first breeding basket 30, the card is inserted into the body, so that the money-culture basket 3Q can be more physically connected, effectively avoiding each of the first - When the culture basket 3 is subjected to the impact of the water flow, or when the aquaculture operator collects the aquaculture device 3, the first culture basket 30 is subjected to external forces such as impact and extrusion, and the first raise is There is a gap between the thin blue 30 and the problem of loss of aquatic products. In the implementation, as shown in FIG. 4, the aquaculture device 3 is further provided with a first-fixing seat 35 and a second fixing seat 36, wherein the first fixing seat 35 is fixed at the first a second end of the rope, and the second fixing seat 36 is sleeved on the other end of the first woven wire 4, and the water holding device 3 can be used for each of the fixing seats 35 and 36. A cultured blue 3〇 is closely fixed to each other on the first shot 4G, effectively avoiding 30 county-level money of each of the first culture baskets, and when the transfer industry is used for the aquaculture device 3, the first one is made The 3 〇 养殖 养殖 养殖 养殖 养殖 养殖 养殖 养殖 养殖 养殖 养殖 养殖 养殖 养殖 养殖 养殖 养殖 养殖 养殖 养殖 养殖 养殖 养殖 养殖 养殖 养殖 养殖 养殖 养殖 养殖 养殖 养殖 养殖 养殖 养殖The first solid seat 36 includes an expansion screw and a nut 13 M335936 361 ', wherein the expansion screw 360 is movably sleeved on the first rope 4〇, and the nut 361 is movably screwed On the expansion screw 36, when the nut 361 is rotated on the expansion screw 360 in the direction adjacent to each of the first culture baskets 3, the expansion screw 36 can be fixed to the first rope 40. When the nut 361 is rotated on the expansion screw 360 in a direction away from each of the first breeding baskets, the expansion screw 36 can be released and fixed to the first rope 40. Thus, please refer to In the figure 3, when the aquaculture worker needs to place or remove the second culture basket 34 in the accommodation space of the first culture basket, and perform the aquatic product separation operation, as long as the second fixation seat 36 is used. That is, the second fixing seat 36 can be quickly released from fixing the first breeding basket 30 on the first rope 4, and the second breeding monitor 34 is placed or removed to perform the aquatic product sharing operation. After that, the first fixing seat 35 can be quickly matched by the second fixing seat 36. The first set of the first cords 30 of each basket on the culture 40. According to the above, it is only the best embodiment of the present creation, but the construction of the construction ship is limited to this, and any person familiar with the Wei artist can easily think about the change or modification in the field of creation. The scope of patents in this case can be covered. BRIEF DESCRIPTION OF THE DRAWINGS The figure is a diagram showing the state of use of a conventional aquaculture device; the second figure is a schematic diagram of a culture basket of a conventional aquaculture device; and the third figure is a state of use of an embodiment of the present creation; Fig. 4 is a cross-sectional view showing an embodiment of the first culture basket and the second culture M335936 blue of one embodiment of the present invention, and Fig. 5 is an embodiment of the present invention. [Explanation of main component symbols] Aquaculture equipment..................3 First breeding basket.................. 30 First mesh..................300 First connection..................301 Second connection Department..................302 Center axis..................31 First through hole..... .............310 Third Connections..................311 Fourth Connections......... .........312 partitions..................32 Positioning Department................ ..33 second through hole..................330 second breeding basket..................34 Two meshes..................340 First fixed seat..................35 Second fixed seat. .................36 Expansion screw..................360 Nut 361 First rope..... .............40 Second Rope..................41 15