M327162 七、指定代表圖: (一) 本案指定代表圖為:第(二)圖。 (二) 本代表圖之元件符號簡單說明: 2 :水產孵化系統; 21 :孵化槽; 211 :液體; 212 :弧狀内壁; | 22 :導管裝置; 221 :開口; 222 :排水部位; 23 :過濾裝置; 24 :抽水裝置; 25 :水產之卵;以及 _ S1 :水流方向。 八、新型說明: 【新型所屬之技術領域】 本創作係揭露一種水產孵化系統,特別是關於使液體處 於循環狀態以孵化水產之纟卩之水產孵化系統。 5 M327162 …------------------------------ 目前,水產養殖業大多利用水產孵化裝置孵化水產之 卵,如魚卵或蝦_,藉此可避免水產之卵遭到其他水中生物 吞食。但,水產之卵通常具有容易沉澱及凝聚的特性,其將 減少水中局部容氧量,故人工孵化的成功率仍然偏低,如第 一圖所示,其係使用習知技藝之水產孵化裝置解化蝦卵之步 驟流程圖,包含以下步驟: 瞻步驟SU :將水產孵化裝置懸吊於水池中,且水產孵化裝置 潛入水中部分具有細密網孔; 步驟S12 :將蝦卵置入水產孵化裝置内;以及 步驟S13 :藉由細密網孔使池水流動之水流可滾動蝦卵,藉 此洗卵及供給氧氣予蝦卵。 上述步驟中,由於池水流動之頻率不固定,且滾動蝦卵 之效果有限,因此,蝦卵容易凝聚或沉澱,造成孵化成功率 =低的問題。為了改善上述問題,習知技藝更藉由加入打氣 ⑩设備以改良水產孵化裝置,藉由打氣設備將氣泡打入水中, 乂 ^加水中各乳篁及滾動蝦卵之效果,藉此減少蝦卵凝聚或 的機率,以增加孵化之成功率。然而,當用於增加水中 谷氧置及滾動蝦卵效果的氣泡破裂時,其將對蝦卵造成傷 ° 故無法有效提高畔化成功率。 因此,為求提高人工孵化之成功率,如何同時兼顧氣泡 產,之功效並避免傷害水產之卵,已成為養殖者急欲解決之 問題,遂於本創作提出一種水產孵化系統以作為前述問題之 解決方式與依據。 6 M327162 【新型内容1 Λ -------------------------. _ 本創作之目的為提供一種水產孵化系統,特別是關於使 液體,於循環狀態以進行孵化之水產孵化系統,藉此可增加 水中谷氣里及滚動水產之印,並且對水產之印不會造成傷 害0M327162 VII. Designated representative map: (1) The representative representative of the case is: (2). (ii) A brief description of the symbol of the representative figure: 2: Aquaculture hatching system; 21: hatching tank; 211: liquid; 212: curved inner wall; | 22: conduit device; 221: opening; 222: drainage part; Filter device; 24: pumping device; 25: egg for aquatic products; and _S1: direction of water flow. Eight, new description: [New technology field] This creation exposes a fishery hatching system, especially the aquatic hatching system that allows liquids to circulate to hatch aquatic products. 5 M327162 ...------------------------------ At present, most of the aquaculture industry uses aquatic hatching devices to hatch eggs of aquatic products, such as fish. Eggs or shrimps _, which can prevent the eggs of aquatic products from being swallowed by other aquatic organisms. However, the eggs of aquatic products usually have the characteristics of easy sedimentation and agglomeration, which will reduce the amount of local oxygen in the water, so the success rate of artificial hatching is still low. As shown in the first figure, it is a fish hatching device using conventional techniques. The flow chart of the steps for dissolving the shrimp eggs comprises the following steps: Step SU: suspending the aquatic hatching device in the pool, and the submersible device of the aquatic hatching device has fine mesh holes; Step S12: placing the shrimp eggs into the aquatic hatching device And step S13: the water flowing through the fine mesh allows the water to flow through the shrimp eggs, thereby washing the eggs and supplying oxygen to the shrimp eggs. In the above steps, since the frequency of the pool water is not fixed, and the effect of rolling the shrimp eggs is limited, the shrimp eggs are easily aggregated or precipitated, resulting in a problem of low hatching success rate. In order to improve the above problems, the conventional technique further improves the aquaculture hatching device by adding the pumping device 10, and the air bubbles are used to pump the air bubbles into the water, thereby adding the effect of each chyle and rolling the shrimp eggs in the water, thereby reducing the shrimp. The chance of egg coagulation or to increase the success rate of hatching. However, when the bubble for increasing the effect of the gluten in the water and rolling the shrimp egg breaks, it will cause damage to the shrimp egg, so the success rate of the banking cannot be effectively improved. Therefore, in order to improve the success rate of artificial hatching, how to simultaneously consider the effect of bubble production, and avoid harming the eggs of aquatic products, has become an urgent problem for farmers to solve. This paper proposes a fishery hatching system as the aforementioned problem. Solution and basis. 6 M327162 [New Content 1 Λ -------------------------. _ The purpose of this creation is to provide an aquatic hatching system, especially with regard to making liquids The aquatic hatching system for hatching in the circulation state, thereby increasing the printing of the water in the valley and the rolling aquatic products, and does not cause damage to the aquatic products.
緣是,為達上述目的,根據本創作所揭露之水產孵化系 統,其用於孵化水產之卵,例如蝦卵或魚卵,此系統包含孵 化槽、導管裝置、過濾裝置及抽水裝置。孵化槽用於容置液 體,且具有弧狀内壁。導管裝置設置於孵化槽内,且導管裴 置之兩端分別具有開口及排水部位,其中,開口用於使孵化 槽之液體可流入導管裝置内,而排水部位位於導管裝置之底 部。過濾裝置設置於孵化槽内,且位於導管裝置之外圍,藉 此於孵化槽之液體流人導管裝置前,過渡裝置可過遽該^ 體,以防止水產之卵流入導管裝置内。抽水裝置設置於導管 裝置内,且位於導管裝置之底部,可抽取流入導管裝置之二 體,並藉由排水部位使液體排出導管裝置。,藉由^述,液 體即可處於循環狀態,可防止水產之_沉殿或凝聚,亦不會 =產之彡卩造成傷害,且畔化槽之弧㈣壁更具有增加循^ 承上所述,弧狀内壁使孵化槽無一溝痕部位可供該水產 之印沉殿’藉此可避免產生循環狀態之死角。且,^ 包含複數個逐—相接之f狀結構,且其為可拆解的設= 此可依需求以改變導管裝置之長度。又,藉由自該 ^ 排出該導管裝置之紐,可聽該水產之彡卩崎於過^置 7 M327162The reason is that, for the above purposes, the aquaculture hatching system disclosed in the present invention is used to hatch eggs of aquatic products, such as shrimp eggs or fish eggs, and the system comprises an incubator, a conduit device, a filtering device and a pumping device. The hatching tank is used to hold the liquid and has an arcuate inner wall. The conduit means is disposed in the incubation tank, and the conduit means has openings and drainage portions at both ends thereof, wherein the openings are for allowing the liquid of the hatching tank to flow into the conduit means, and the drainage portion is located at the bottom of the conduit means. The filtering device is disposed in the incubation tank and located at the periphery of the conduit device, whereby the transition device can pass through the body before the liquid flow conduit device of the incubation tank prevents the eggs of the aquatic product from flowing into the conduit device. The pumping device is disposed in the conduit device and is located at the bottom of the conduit device to extract the body of the inflow conduit device and to drain the liquid from the conduit device by the drainage portion. By means of the description, the liquid can be in a state of circulation, which can prevent the stagnation or agglomeration of the aquatic product, and will not cause damage to the pupa of the production, and the arc of the sloping groove (4) has an increase in the circulation. As described, the curved inner wall allows the hatching tank to have no groove mark for the imprint of the aquatic product, thereby avoiding the occurrence of a dead angle of the circulation state. And, ^ contains a plurality of contiguous f-like structures, and it is detachable = this can change the length of the catheter device as needed. Moreover, by discharging the button of the catheter device from the ^, it is possible to listen to the aquatic product of Miyazaki in the setting of 7 M327162
表面。此外,孵ib禮之底部更具直孔洞及I 排出孵化槽之液體,使水產之印或已孵化完之水產可隨液體 一併排出,控制閥則用於關閉或開啟該孔洞。 另,為達本創作之目的,根據本創作所揭露之另一水產 孵化系統,包含衅化槽、回流空間、過濾裝置及抽水裝置。 孵化槽用於容置液體,具有弧狀内壁及底部之孔洞。回流空 間設置於孵化槽之外圍,且具有溢水流入部位。當孵化槽内 之液體水位高於溢水流入部位之水平位置時,孵化槽内之液 體即可流入回流空間中。且,過濾裝置介於孵化槽及回流空 間之間,藉此於孵化槽之液體流入回流空間前,過濾裝置可 過濾該液體,以防止水產之卵流入回流空間内。抽水裝置用 於抽取流入回流空間之液體,並藉由畔化槽底部之孔洞使液 體排入孵化槽,藉此,使液體處於循環狀態,以達成與前述 水產孵化系統等同之功效。 兹為使貴審查委員對本發明之實施及達成方式有更 進步之瞭解與認識,下文謹提供較佳之實施例及相關圖式 以為辅佐之用,並以詳細之說明文字配合說明如後。 【實施方式】 以下將參照相關圖式,說明依本創作較佳實施例之一種 水產孵化系統,其中相同的元件將以相同的參照符號加以說 明。 ^ 請參閱第二圖,其係本創作之一種水產孵化系統之示意 圖。圖中,水產孵化系統2包含孵化槽21、導管裝置22、 8 M327162 過慮裝置m抽:水裝置11盧於循渗%態 以增加孵化水產之卵25之成功率。孵化槽21用於容置液體 211,且具有弧狀内壁212。水產之卵25係分佈於液體211 中,而弧狀内壁212可使孵化槽21内無任何溝痕部位可供 水產之印25沉澱,增加液體211之循環狀態之流暢度。導 管裝置22,設置於孵化槽21内,兩端分別具有開口 221及 排水部位222,且可依需求改變其長度。當孵化槽21容置 之液體211水位高於開口 221之位置時,液體211即可經由 開口 221而流入導管裝置22内。排水部位222位於導管裝 置22之底部,可將流入導管裝置22之液體211排出導管裝 置22。過渡裝置23介於解化槽21及導管裝置22之間,且 過濾裝置23具有細密網孔,於液體2U流入導管裝置22 前可先行過濾液體211,以防止水產之卵25隨液體211 一 併流入導管裝置22内。抽水裝置24設置於導管裝置22内, 且位於導管裝置22之底部。抽水裝置24可抽取流入導管裝 置22内之液體211,使液體211不斷流入導管裝置μ,同 時,藉由排水部位222將液體211排出導管裝置22,藉二 可使液體211根據水流方向S1卩維持循環動藉由上曰述, 即可利用處於循環狀態之液體211以滾動水產之彡卩Μ,可 防止水產之彡卩25凝聚或沉澱,以増加孵化之成 :過=置23較佳為過濾網,抽水裝置%較佳 ; 達,水產之卵25較佳為魚卵或蝦卵。 % 請-併參閱第三圖及第四圖’第三圖係 之水產孵化系統之實施例之示㈣,其_於^^ 四圖係為本創作所揭露之導管裝置之實施例之示意圖。如第 M327162 '組合 & 32過濾網33、抽水馬達%、孔洞及控制閥兆,屮 ,印孵化系統3可增加孵化蝦㈣7之成功率並方便將 完成之蝦苗遷移到蝦苗養殖區。圓弧型水槽31用於容^生 ,,其溫度較佳為25〜3(rc及PH值較佳為7. 5〜8· 5,、而㈣月 37係分佈於清水中。由於圓弧型水槽31本身為無任何溝痕 部位之結構,有助於清水充分的進行循環動作,使分佈於^ 水中之蝦彡卩37即使沉澱於池底,亦皆可藉由清水之循環& 作而向上滾動。組合式導管32,佇立於圓弧型水槽31内部 之中央位置,上端具有朝上之開口 221,底部則具有主排水 口 323及排水分支324。又,如第四圖所示,組合式導管% ,由複數個管狀結構321及一個導管基座322所組成,其中 管狀結構321之個數可決定組合式導管32之長度。管爿大結 構321兩端皆為開口 221,導管基座322除了至少一端為開 =221外,側邊更設有主排水口 323及排水分支324,藉此, 官狀結構321及導管基座322組合後即成為上端具有開口 221且底部具有主排水口 323及排水分支324之組合式導管 32。過濾網33具有孔徑小於蝦卵37之細密網孔,且環繞於 組合式導管32之外圍。抽水馬達34具有抽水區341及排水 區342,且排水區342可連接主排水口 323及排水分支324。 承上所述,圓弧形水槽31容置之清水水位,其高於組合式 導官32之最咼點且低於過濾網33之最高點,因此,經過濾 網33過濾蝦即37後之清水,其可藉由地心引力而流入組合 式導管32内γ當圓弧形水槽31容置之清水水位與流入組合 式導管32之清水水位相同時,可藉由抽水馬達34之抽水區surface. In addition, the bottom of the hatchery has more straight holes and I discharges the liquid from the hatching tank, so that the aquatic print or hatched aquatic product can be discharged along with the liquid, and the control valve is used to close or open the hole. In addition, for the purpose of this creation, another aquatic incubator system disclosed in the present invention includes a septic tank, a return space, a filtering device, and a pumping device. The hatching tank is used for accommodating liquid, and has a curved inner wall and a hole at the bottom. The return space is placed on the periphery of the hatching tank and has an overflow inflow portion. When the liquid level in the incubation tank is higher than the horizontal position of the overflow inflow, the liquid in the hatching tank can flow into the return space. Moreover, the filtering device is interposed between the hatching tank and the return space, whereby the filtering device can filter the liquid before the liquid in the hatching tank flows into the return space to prevent the eggs of the aquatic product from flowing into the return space. The pumping device is used to extract the liquid flowing into the recirculation space, and the liquid is discharged into the hatching tank by the holes in the bottom of the tank, thereby circulating the liquid to achieve the same effect as the aquaculture hatching system. In order to provide a better understanding and understanding of the implementation of the present invention and the manner in which it is achieved, the following examples are provided to facilitate the use of the preferred embodiments and the associated drawings. [Embodiment] An aquaculture incubator system according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings, in which the same elements will be denoted by the same reference numerals. ^ Please refer to the second figure, which is a schematic diagram of a fishery incubation system of the present creation. In the figure, the aquatic hatching system 2 comprises an incubator 21, a conduit device 22, 8 M327162, a filter device, a pumping device, and a water device, which is used to increase the success rate of the eggs 25 that hatch the aquatic product. The hatching tank 21 is for accommodating the liquid 211 and has an arcuate inner wall 212. The aquatic egg 25 is distributed in the liquid 211, and the curved inner wall 212 allows any groove in the hatching tank 21 to be precipitated for the aquatic product 25, thereby increasing the circulatory state of the liquid 211. The catheter device 22 is disposed in the incubation tank 21 and has an opening 221 and a drainage portion 222 at both ends, and the length thereof can be changed as needed. When the water level of the liquid 211 accommodated in the hatching tank 21 is higher than the position of the opening 221, the liquid 211 can flow into the duct device 22 via the opening 221. The drain portion 222 is located at the bottom of the conduit means 22 and allows the liquid 211 flowing into the conduit means 22 to exit the conduit means 22. The transition device 23 is interposed between the dissolving tank 21 and the conduit device 22, and the filtering device 23 has a fine mesh hole, and the liquid 211 can be filtered before the liquid 2U flows into the conduit device 22 to prevent the aquatic egg 25 from being accompanied by the liquid 211. Flow into the conduit device 22. The pumping device 24 is disposed within the conduit device 22 and is located at the bottom of the conduit device 22. The pumping device 24 can extract the liquid 211 flowing into the conduit device 22, so that the liquid 211 continuously flows into the conduit device μ, and at the same time, the liquid 211 is discharged from the conduit device 22 by the drainage portion 222, so that the liquid 211 can be maintained according to the water flow direction S1卩. By repeating the above description, the liquid 211 in the circulating state can be used to roll the aquaculture, and the 彡卩25 of the aquatic product can be prevented from coagulation or sedimentation, so as to increase the hatching: over = 23 is preferably filtered Net, the pumping device % is preferred; up to, the aquatic egg 25 is preferably a fish egg or a shrimp egg. % - Please refer to the third and fourth figures' third embodiment of the embodiment of the aquatic hatching system (4), which is a schematic diagram of an embodiment of the catheter device disclosed in the present application. For example, M327162 'Combination & 32 filter 33, pumping motor %, hole and control valve mega, 屮, India hatching system 3 can increase the success rate of hatching shrimp (4) 7 and facilitate the migration of the completed shrimp seedlings to the shrimp breeding area. The arc-shaped water tank 31 is used for the heat generation, and the temperature thereof is preferably 25 to 3 (the rc and the pH value are preferably 7. 5 to 8 · 5, and the (four) month 37 series is distributed in the clear water. The type of water tank 31 itself is a structure without any groove marks, which helps the water to fully perform the circulation action, so that even if the shrimps 37 distributed in the water are deposited on the bottom of the pool, they can be recycled by the clear water. The combined duct 32 stands in a central position inside the arc-shaped water tank 31, the upper end has an upward opening 221, and the bottom has a main drain 323 and a drain branch 324. Again, as shown in the fourth figure, The combined catheter % is composed of a plurality of tubular structures 321 and a catheter base 322, wherein the number of tubular structures 321 determines the length of the combined conduit 32. Both ends of the large tubular structure 321 are openings 221, and the catheter base The seat 322 has a main drain 323 and a drain branch 324 at least one end of the seat 322. The combination of the official structure 321 and the duct base 322 has an opening 221 at the upper end and a main drain at the bottom. Combined conduit 32 for port 323 and drain branch 324 The filter 33 has a fine mesh having a smaller pore size than the shrimp egg 37 and surrounds the periphery of the combined conduit 32. The pumping motor 34 has a pumping zone 341 and a drain zone 342, and the drain zone 342 can connect the main drain 323 and the drain branch 324. As described above, the clear water level of the arc-shaped water tank 31 is higher than the lowest point of the combined guide 32 and lower than the highest point of the filter 33. Therefore, after filtering the shrimp 37 through the filter 33 The fresh water can flow into the combined conduit 32 by gravity. When the clear water level of the arc-shaped water tank 31 is the same as the clean water level of the inflow combined conduit 32, the pumping area of the pump motor 34 can be used.
M327162 =二水^流入复蚊導管魯連益 32,且、、主k及排水分支324,使清水可排出組合式導管 動作及;二:^水流方向S1及水流方向S2,以維持循環 動作及防止料37附著在過濾、網33之表面。 π^孔洞35及控制間36位於圓狐形水槽31之底部。 =洞35用於排出圓弧形水槽31容置之清水而分佈於清水 ρ^Γ:: 37或蝦田’可隨清水一併排出。控制閥36則用於 開啟或關孔洞35。孔洞35可連接導管38,適合用於蝦印 37已孵化為瑕錢’藉由控制閥%開啟孔洞奶,以將清水 及蝦苗經由導管38而排人蝦苗養殖池,增加遷移之方便性。 請參閱第五圖’其係使用本創作所揭露之水產孵化系統 之實施例以孵化蝦卵之步驟流程圖,包含以下步驟: 步驟S51 :藉由圓弧形水槽容置清水,其溫度為仏紙及 ΡΗ值為7· 5〜8· 5,並將蝦卵置入清水中; 步驟S52:藉由過濾網之最高點高於水位,且過濾網具有孔 徑小於蝦卵之細密網孔,使過濾網可過濾分佈有 蝦卵之清水; 步驟S53 :藉由組合式導管之最高點低於水位,且組合式導 官之開口朝上,使過濾後之清水可流入組合式 管内; 步驟S54:藉由抽水馬達使過濾後之清水不斷流入組合式導 管内,並於組合式導管底部將清水排出組合式導 管,藉此使清水處於循環狀態; 步驟S55:藉由清水處於循環狀態以滾動蝦卵,藉此避免蝦 11 M327162M327162 = two waters ^ into the mosquito tube Lulianyi 32, and, the main k and the drainage branch 324, so that the clean water can discharge the combined conduit action; and two: ^ water flow direction S1 and water flow direction S2 to maintain the cycle action and The material 37 is prevented from adhering to the surface of the filter or mesh 33. The π^ hole 35 and the control room 36 are located at the bottom of the round fox-shaped water tank 31. = Hole 35 is used to discharge the clear water contained in the arc-shaped water tank 31 and is distributed in the clear water ρ^Γ:: 37 or the shrimp field can be discharged together with the clear water. Control valve 36 is used to open or close aperture 35. The hole 35 can be connected to the conduit 38, which is suitable for the shrimp seal 37 has been hatched as a money saving 'opening the hole milk by the control valve %, so that the clear water and the shrimp seedlings are discharged into the shrimp breeding pond via the conduit 38, thereby increasing the convenience of migration. . Please refer to the fifth figure, which is a flow chart of the steps of incubating shrimp eggs using the embodiment of the aquatic hatching system disclosed in the present invention, comprising the following steps: Step S51: accommodating fresh water by a circular shaped water tank, the temperature is 仏The paper and the enthalpy value are 7·5~8·5, and the shrimp eggs are placed in the clear water; Step S52: the highest point of the filter is higher than the water level, and the filter mesh has a fine mesh with a smaller pore diameter than the shrimp eggs, so that The filter screen can filter the water with the shrimp eggs distributed; Step S53: the highest point of the combined conduit is lower than the water level, and the opening of the combined guide is upward, so that the filtered clean water can flow into the combined tube; Step S54: The filtered water is continuously flowed into the combined conduit by the pumping motor, and the clean water is discharged from the combined conduit at the bottom of the combined conduit, thereby keeping the fresh water in a circulating state; Step S55: rolling the shrimp eggs by circulating the fresh water To avoid shrimp 11 M327162
Jgj疑聚及沉邀;以及 ___________________________________________________________________ 步驟S56 :藉由控制閥以開啟孔洞,使清水及孵化完成之锻 苗一併流入蝦苗養殖池。 請參閱第六圖,其係本創作之另一水產孵化系統之示意 圖,圖中,水產孵化系統6包含孵化槽61、回流空間62、 過濾裝置63及抽水裝置64,用於使液體211處於循環狀態 以增加孵化水產之卵25之成功率。赙化槽61用於容置液體 211,且具有弧狀内壁611及底部之孔洞65。水產之卵25 係分佈於液體211中,而弧狀内壁611可使孵化槽61内無 任何溝痕部位可供水產之卵25沉澱,增加液體211之循環 狀態之流暢度。回流空間62,設置於孵化槽21之外圍,且 上端具有溢水排入部位621。當孵化槽61容置之液體2U 水位高於溢水排入部位621之位置時,液體211即可經由溢 水排入部位621而流入回流空間62内。過濾裝置63介於畔 化槽61及回流空間62之間,且過濾裝置63具有細密網孔, 於液體211流入回流空間62前可先行過濾液體2Π,以防 止水產之卵25隨液體211 —併流入回流空間62内。抽水裝 置64設置於回流空間62内,且位於孵化槽61之孔洞^ 下。抽水裝置24可抽取流入回流空間62内之液體211,同 時,將液體211經由孔洞65以排回孵化槽61,藉此液體2ΐι 即可根據水流方向S3以維持循環動作,使液體a!可烀 水流方向S4而不斷流入回流空間62内。藉由上述,即; 用處於循環㈣之液體2U叹動水產之彡卩25,可防 產之卵25凝聚或沉澱,以增加孵化之成功率。且,上 過遽裝置63較佳為過滤網,抽轉£ 64較佳為抽水馬達之 M327162 水產之印2 5較隹為魚|p或瑕即。 以上所述僅為舉例性,而非為限制性者。任 創作之精神與料,而對其進行之等效修改或變離本 含於後附之申請專利範圍中。 句應包 【圖式簡單說明】Jgj suspected and invited; and ___________________________________________________________________ Step S56: The valve is opened to open the water and the hatched seedlings into the shrimp culture pond. Please refer to the sixth figure, which is a schematic diagram of another aquatic hatching system of the present invention. In the figure, the aquatic hatching system 6 comprises an incubation tank 61, a return space 62, a filtering device 63 and a pumping device 64 for circulating the liquid 211. State to increase the success rate of eggs 25 that hatch aquaculture. The sulphide groove 61 is for accommodating the liquid 211 and has an arcuate inner wall 611 and a bottom hole 65. The egg 25 of the aquatic product is distributed in the liquid 211, and the curved inner wall 611 can prevent any groove in the hatching tank 61 from being precipitated by the egg 25 of the aquatic product, thereby increasing the circulatory state of the liquid 211. The return space 62 is provided at the outer periphery of the incubator 21, and has an overflow discharge portion 621 at the upper end. When the liquid 2U water level accommodated in the hatching tank 61 is higher than the overflow discharge portion 621, the liquid 211 can flow into the return space 62 via the overflow discharge portion 621. The filtering device 63 is interposed between the formation tank 61 and the return space 62, and the filtering device 63 has a fine mesh hole, and the liquid 2 过滤 can be filtered before the liquid 211 flows into the return space 62 to prevent the aquatic egg 25 from following the liquid 211. It flows into the return space 62. The pumping unit 64 is disposed in the return space 62 and is located under the hole of the hatching tank 61. The pumping device 24 can extract the liquid 211 flowing into the return space 62, and at the same time, the liquid 211 is discharged to the hatching tank 61 via the hole 65, whereby the liquid 2ΐ can maintain the circulation action according to the water flow direction S3, so that the liquid a! The water flow direction S4 continuously flows into the return space 62. By the above, that is, using the liquid 25 in the circulation (4) to slam the aquatic product 25, the egg 25 can be prevented from coagulation or precipitation, thereby increasing the success rate of hatching. Moreover, the upper squeezing device 63 is preferably a filter net, and the pumping motor is preferably used as a pumping motor. The M327162 aquatic product is printed as a fish|p or 瑕. The above is intended to be illustrative only and not limiting. The spirit of the creation and the equivalent modifications or changes to this are included in the scope of the appended patent application. Sentence package [simplified description]
第圖係為使用習知技藝之水產孵化裝置畔化瑕印之步驟 流程圖; 第:圖係為本創作之_種水產孵化系統之示意圖; 第三圖3為本創作所揭露之水雜化系統之實施例之示意 圖, 3圖係為本創作戶斤揭露之導管裝置之實施例之示意圖; 弟五圖係為使用本創The figure is a flow chart of the steps of using the aquaculture hatching device of the prior art; the first picture is a schematic diagram of the breeding system of the aquatic product; the third figure is the water hybrid disclosed in the present invention. A schematic diagram of an embodiment of the system, FIG. 3 is a schematic diagram of an embodiment of a catheter device disclosed by a creative household;
孵化蝦印之所揭露之水產孵化系統之實施例以 少鄉流程圖;以及 弟六圖係為本創作之 乃一水產孵化系統之示意圖。 【主要元件符號說明】 S11〜S13 :步驟流程; 2:水產孵化系統; 21 :孵化槽; 211 :液體; 212 :弧狀内壁; 22 :導管裝置; 13 M327162 221 :開口 ;__________________________________________________________________________________________________ 222 :排水部位; 23 :過濾裝置; 24 :抽水裝置; 25 :水產之卵; SI、S2、S3及S4 :水流方向; 3:蝦卵孵化系統; 31 :圓弧形水槽; • 32 :組合式導管; 321 :管狀結構; 322 :導管基座; 323 :主排水口; 324 :排水分支; 33 :過濾網; 34 :抽水馬達; 3 41 ·抽水區, 342 :排水區; 35 :孔洞; 36 :控制閥; 37 :蝦卵; 38 :導管; S51〜S56 :流程步驟; 6 :水產孵化系統; 61 :孵化槽; 611 :弧狀内壁; M327162 62:回 m; 621 :溢水排入部; 63 :過濾裝置; 64 ··抽水裝置;以及 65 :孔洞。The embodiment of the aquatic hatchery system disclosed in the hatching shrimp printing is based on the flow chart of Shaoxiang; and the sixth figure is the schematic diagram of the aquatic product incubator system. [Main component symbol description] S11~S13: Step flow; 2: Aquaculture hatching system; 21: Incubator; 211: Liquid; 212: Curved inner wall; 22: Catheter device; 13 M327162 221: Opening; ______________________________________________________________________________________________ 222: Drainage site 23: filtration device; 24: pumping device; 25: aquatic eggs; SI, S2, S3 and S4: water flow direction; 3: shrimp egg hatching system; 31: circular arc sink; • 32: combined catheter; : tubular structure; 322: conduit base; 323: main drain; 324: drain branch; 33: filter; 34: pumping motor; 3 41 · pumping area, 342: drainage area; 35: hole; 36: control valve 37: shrimp eggs; 38: conduit; S51~S56: process steps; 6: aquatic hatching system; 61: hatching tank; 611: curved inner wall; M327162 62: back m; 621: overflow discharge; 63: filtration Device; 64 ·· pumping device; and 65: hole.