TW201528940A - Automatic water-changing cultivation system - Google Patents
Automatic water-changing cultivation system Download PDFInfo
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- TW201528940A TW201528940A TW103103542A TW103103542A TW201528940A TW 201528940 A TW201528940 A TW 201528940A TW 103103542 A TW103103542 A TW 103103542A TW 103103542 A TW103103542 A TW 103103542A TW 201528940 A TW201528940 A TW 201528940A
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- 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
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Abstract
Description
本發明是有關於一種養殖系統,特別是指一種用以養殖水生動物之自動換水養殖系統。 The present invention relates to a culture system, and more particularly to an automatic water change culture system for breeding aquatic animals.
因為鬥魚無法像其他魚種一樣能群魚生活,必須單缸養殖與販賣,因此,對於養殖鬥魚的飼主來說,單缸養殖是他們最頭痛的主因之一,在養殖上會佔用到很多的空間。除此之外,由於得要定期更換魚缸內的水,才能維持鬥魚的健康,所以換水作業也成為大量養殖的水族館業者的是一個大難題,水族館業者不可能花費人力每天幫他們換水。為了節省換水時間,現今許多養殖業者都是藉由在水中添加甲基藍的方式來穩定水質,降低換水頻率,但甲基藍仍會對魚體造成傷害,且排放掉的廢水也會污染環境。 Because betta can not live like a group of fish, it must be cultured and sold in a single tank. Therefore, for the owners of fighting fish, single-cylinder farming is one of the main causes of their most headaches. A lot of space. In addition, because it is necessary to periodically change the water in the aquarium to maintain the health of the betta, it is a big problem for the aquarium to be a large aquaculture. It is impossible for the aquarium to spend the day helping them change the water. In order to save water change time, many farmers today use methyl blue to stabilize water quality and reduce the frequency of water exchange. However, methyl blue will still cause damage to fish, and the discharged wastewater will also pollute the environment. .
另外一種是利用開模之魚缸來進行養殖,但此方法僅是用於少量養殖觀賞者,對於大量養殖的水族館業者而言,成本過高而不划算,且也不適合拿來販售。因此,如何在不使用藥劑的情況下使鬥魚可順利成長,且又能達到節省成本,即為本發明之要點。 The other is to use the open mold fish tank for breeding, but this method is only used for a small number of cultured viewers. For a large number of aquaculture operators, the cost is too high and not cost-effective, and it is not suitable for sale. Therefore, how to make the betta fish grow smoothly without using the medicine, and to achieve cost saving, is the gist of the present invention.
因此,本發明之目的,即在提供一種可自動換水,且可避免混水以及換水時水溫變化過大的自動換水養殖系統。 Accordingly, it is an object of the present invention to provide an automatic water aquaculture system that automatically changes water and avoids excessive water temperature changes during water mixing and water exchange.
於是,本發明自動換水養殖系統,包含一個養殖機構、一水泵機構,及一控制裝置。該養殖機構包括多個養殖槽單元,及一個安裝於該等養殖槽單元之第一溢流單元,每一個養殖槽單元包括一個養殖槽體,及一個可使承裝的水液往下溢流入該養殖槽體內的緩衝槽體,該第一溢流單元包括一個界定出一個溢流空間的第一溢流桶、多支分別連通安裝於該第一溢流桶之溢流空間與該等養殖槽體間之第一虹吸管、一連通安裝於該第一溢流桶之第一通氣管,及一個連通插裝於該第一溢流桶之第一溢流管,每一支第一虹吸管具有一個位於各別之養殖槽體的水面下的吸入口,及一個位於該溢流空間之水面下的排出口,該第一溢流管具有一位於該溢流空間內且高度高於該排出口高度之溢流口。該水泵機構包括一個可將水液注入該等緩衝槽體之供水管,及一個可將水液泵入該供水管之水泵。該控制裝置可程式化控制該水泵。 Thus, the automatic water changing culture system of the present invention comprises a culture mechanism, a water pump mechanism, and a control device. The breeding mechanism comprises a plurality of culture tank units and a first overflow unit installed in the culture tank units, each of the culture tank units comprises a culture tank body, and a water liquid that can be carried into the underflow a buffer tank body in the culture tank, the first overflow unit comprises a first overflow bucket defining an overflow space, and a plurality of overflow spaces respectively connected to the first overflow bucket and the breeding a first siphon between the tanks, a first vent pipe connected to the first overflow bucket, and a first overflow pipe connected to the first overflow bucket, each of the first siphons having a suction inlet located below the surface of the respective culture tank, and a discharge port located below the water surface of the overflow space, the first overflow pipe having a height in the overflow space higher than the discharge port The overflow of the height. The water pump mechanism includes a water supply pipe for injecting water into the buffer tanks, and a water pump for pumping the water into the water supply pipe. The control device can programmatically control the water pump.
本發明之功效:透過該養殖機構與該水泵機構之結構設計,可利用虹吸效應來同時對多個養殖槽體進行換水,並可有效避免養殖槽體水溫突然激烈變化,且養殖槽體間不會有混水現象,是一創新養殖設計。 The effect of the invention: through the structural design of the breeding mechanism and the water pump mechanism, the siphon effect can be utilized to simultaneously change water of a plurality of culture tanks, and the sudden and drastic change of the water temperature of the culture tank can be effectively avoided, and the tanks are cultured. There is no water mixing phenomenon and it is an innovative breeding design.
3‧‧‧養殖機構 3‧‧‧ farming institutions
30‧‧‧支架 30‧‧‧ bracket
31‧‧‧養殖槽單元 31‧‧‧ breeding trough unit
311‧‧‧養殖槽體 311‧‧‧ culture tank
312‧‧‧緩衝槽體 312‧‧‧buffer tank
313‧‧‧結合件 313‧‧‧Connected parts
32‧‧‧第一溢流單元 32‧‧‧First overflow unit
321‧‧‧第一溢流桶 321‧‧‧First overflow bucket
323‧‧‧第一虹吸管 323‧‧‧First siphon
324‧‧‧吸入口 324‧‧‧Inhalation
325‧‧‧排出口 325‧‧‧Export
326‧‧‧第一通氣管 326‧‧‧First snorkel
327‧‧‧第一溢流管 327‧‧‧First overflow tube
328‧‧‧溢流口 328‧‧‧ overflow
4‧‧‧淨化機構 4‧‧‧ Purification agency
41‧‧‧淨化槽單元 41‧‧‧Septic tank unit
410‧‧‧餌料生物 410‧‧‧ bait creatures
411‧‧‧淨化槽體 411‧‧‧ Purification tank
412‧‧‧過濾前區間 412‧‧‧Pre-filtering interval
413‧‧‧過濾後區間 413‧‧‧Filtered interval
414‧‧‧第一濾水器 414‧‧‧First water filter
42‧‧‧第二溢流單元 42‧‧‧Second overflow unit
421‧‧‧第二溢流桶 421‧‧‧Second overflow bucket
422‧‧‧第二虹吸管 422‧‧‧Second siphon
423‧‧‧第二通氣管 423‧‧‧second snorkel
424‧‧‧第二溢流管 424‧‧‧Second overflow pipe
43‧‧‧消毒槽單元 43‧‧‧Sterilization tank unit
431‧‧‧消毒槽體 431‧‧‧Disinfection tank
432‧‧‧消毒前區間 432‧‧‧Pre-disinfection interval
433‧‧‧消毒後區間 433‧‧‧After disinfection interval
434‧‧‧第二濾水器 434‧‧‧Second water filter
435‧‧‧加熱器 435‧‧‧heater
436‧‧‧殺菌燈具 436‧‧‧Bactericidal lamps
5‧‧‧水泵機構 5‧‧‧Water pump mechanism
51‧‧‧水泵 51‧‧‧Water pump
52‧‧‧供水管 52‧‧‧Water supply pipe
521‧‧‧分流段 521‧‧‧Diversion section
6‧‧‧控制裝置 6‧‧‧Control device
61‧‧‧微控制器 61‧‧‧Microcontroller
62‧‧‧第二通訊模組 62‧‧‧Second communication module
7‧‧‧遙控裝置 7‧‧‧Remote control
71‧‧‧操控主機 71‧‧‧Control host
72‧‧‧第一通訊模組 72‧‧‧First communication module
本發明之其他的特徵及功效,將於參照圖式的實施方式中清楚地呈現,其中:圖1是本發明自動換水養殖系統之一較佳實施例之立體示意圖;圖2是該較佳實施例之側剖示意圖;及圖3是該較佳實施例之功能方塊圖。 The other features and advantages of the present invention will be apparent from the embodiments of the present invention. FIG. 1 is a perspective view of a preferred embodiment of the automatic water aquaculture system of the present invention; FIG. 2 is a preferred embodiment of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 3 is a functional block diagram of the preferred embodiment.
如圖1、2、3所示,本發明自動換水養殖系統之較佳實施例,適用於養殖水生動物,例如魚、蝦、蟹等但不以上述種類為限。該自動換水養殖系統包含一養殖機構3、一淨化機構4、一連通組裝於該淨化機構4與該養殖機構3間之水泵機構5、一電連接於該水泵機構5之控制裝置6,及一無線訊號連接於該控制裝置6之遙控裝置7。 As shown in Figures 1, 2 and 3, the preferred embodiment of the automatic water changing culture system of the present invention is suitable for breeding aquatic animals such as fish, shrimp, crab, etc., but not limited to the above categories. The automatic water aquaculture system comprises a culture mechanism 3, a purification mechanism 4, a water pump mechanism 5 connected between the purification mechanism 4 and the culture mechanism 3, a control device 6 electrically connected to the water pump mechanism 5, and a control unit 6 The wireless signal is connected to the remote control device 7 of the control device 6.
該養殖機構3包括一支架30、多個等高安裝於該支架30上之養殖槽單元31,及一安裝固定於該支架30上且連通於該等養殖槽單元31之第一溢流單元32。每一個養殖槽單元31包括一開口朝上並可容裝水液以養殖所述水生動物之養殖槽體311、一設置於該養殖槽體311上半部內且開口朝上的緩衝槽體312,及一將該緩衝槽體312可拆離地固定於該養殖槽體311中之結合件313,且該結合件313可同時將該養殖槽體311可拆離地夾固於該支架30。該緩衝槽體312可承接來自該水泵機構5的水液,並可使水液往下滴入該養殖槽體311中。 The culture mechanism 3 includes a bracket 30, a plurality of culture tank units 31 mounted on the bracket 30, and a first overflow unit 32 fixed to the bracket 30 and communicating with the culture tank units 31. . Each of the culture tank units 31 includes a culture tank 311 having an opening upwardly and accommodating water to culture the aquatic animal, a buffer tank 312 disposed in the upper half of the culture tank 311 and having an opening upward. The binding member 313 is detachably fixed to the coupling member 313 in the culture tank body 311, and the coupling member 313 can simultaneously detachably clamp the culture tank body 311 to the bracket 30. The buffer tank body 312 can receive the water liquid from the water pump mechanism 5, and can drip the water liquid into the culture tank body 311.
在本實施例中,本案所採用之養殖槽體311與 緩衝槽體312為一般常見之透明飲料杯,但實施時不以此為限。該養殖槽體311、該緩衝槽體312與支架30間是透過該結合件313可拆離地夾固在一起,但實施時,該結合件313固定將該養殖槽體311與該緩衝槽體312的方式不以夾定為限,且該結合件313將該養殖槽體311固定於該支架30的方式也不以夾固為限,可該結合件313可以其它方式固定該該養殖槽體311、該緩衝槽體312與支架30,例如利用勾掛方式。 In this embodiment, the culture tank 311 used in the present case is The buffer tank body 312 is a commonly-used transparent beverage cup, but is not limited thereto. The culture tank 311, the buffer tank body 312 and the bracket 30 are detachably clamped together by the joint member 313. However, when the joint member 313 is fixed, the culture tank body 311 and the buffer tank body are fixed. The manner of the 312 is not limited to the clamping, and the manner in which the binding member 313 fixes the culture tank 311 to the bracket 30 is not limited to the clamping. The coupling member 313 can fix the culture tank in other manners. 311. The buffer tank body 312 and the bracket 30 are, for example, hooked.
該第一溢流單元32包括一安裝固定於該支架30上且大致與該等養殖槽體311等高之第一溢流桶321、多支分別連通插裝於該第一溢流桶321與該等養殖槽體311間之第一虹吸管323、一連通插裝於該第一溢流桶321頂面之第一通氣管326,及一插裝於該第一溢流桶321底部之第一溢流管327。該第一溢流桶321內部界定出一可容裝水液之封閉狀溢流空間322。 The first overflow unit 32 includes a first overflow bucket 321 that is fixed to the bracket 30 and is substantially equal to the height of the culture tanks 311. The plurality of overflow tanks are respectively connected to the first overflow bucket 321 and a first siphon 323 between the culture tanks 311, a first vent pipe 326 connected to the top surface of the first overflow bucket 321 , and a first one inserted at the bottom of the first overflow bucket 321 Overflow tube 327. The first overflow bucket 321 defines a closed overflow space 322 that can accommodate the liquid water.
每一支第一虹吸管323是以其兩相反端部分別往下延伸插入各別之養殖槽體311與該溢流空間322內,具有一位於該養殖槽體311之液面下的吸入口324,及一位於該溢流空間322之液面下的排出口325,可供透過虹吸效應將該養殖槽體311內之水液虹吸至該溢流空間322內。該第一溢流管327是上下延伸地貫穿插裝於該第一溢流桶321底面,其口徑大於該等第一虹吸管323口徑,具有一位於該溢流空間322內且高於該等第一虹吸管323之排出口325的溢流口328。 Each of the first siphons 323 has its opposite ends extending downwardly into the respective culture tanks 311 and the overflow space 322, and has a suction port 324 located below the liquid level of the culture tank 311. And a discharge port 325 located below the liquid level of the overflow space 322 for siphoning the water in the culture tank 311 into the overflow space 322 by a siphon effect. The first overflow pipe 327 is inserted into the bottom surface of the first overflow bucket 321 so as to have a larger diameter than the first siphon pipe 323, and has a diameter in the overflow space 322 and is higher than the first An overflow port 328 of the discharge port 325 of a siphon 323.
該淨化機構4包括一安裝於該支架30且位於該養殖機構3下方之淨化槽單元41、一位於該淨化槽單元41下方之消毒槽單元43,及一連通於該淨化槽單元41與該消毒槽單元43間之第二溢流單元42。該淨化槽單元41包括一可承接該第一溢流管327排出之水液的淨化槽體411,及一設置於該淨化槽體411中之第一濾水器414,該第一濾水器414將該淨化槽體411內部區隔成一過濾前區間412與一過濾後區間413,該過濾前區間412內養殖有餌料生物410,例如水蚤或輪蟲等,並可直接承接該第一溢流管327排出之水液,可利用水液中的藻類(圖未示)養殖該等餌料生物410,一方面可藉此養殖用以作為飼料之餌料生物410,另一方面可利用餌料生物410分解來自該等養殖槽體311之水液中的藻類,降低水質優氧化程度,而達到初步淨化水質的功效。該第一濾水器414可過濾擋阻水中的餌料生物410,將餌料生物410與藻類集中留在該過濾前區間412,使進入該過濾後區間413的水液相對乾淨。 The purifying mechanism 4 includes a septic tank unit 41 installed under the cultivating mechanism 3, a sterilizing tank unit 43 located below the septic tank unit 41, and a sterilizing tank unit 41 and the sterilizing unit. A second overflow unit 42 between the trough units 43. The septic tank unit 41 includes a septic tank body 411 for receiving the water discharged from the first overflow pipe 327, and a first water filter 414 disposed in the septic tank body 411. The first water filter 414, the interior of the purification tank body 411 is divided into a pre-filtration section 412 and a post-filtration section 413. The pre-filtration section 412 is cultured with a bait organism 410, such as a leech or a rotifer, and can directly receive the first overflow. The water discharged from the flow tube 327 can be used to culture the bait organism 410 by using algae (not shown) in the water liquid, and on the one hand, the bait organism 410 used as a feed can be cultured, and on the other hand, the bait organism 410 can be utilized. Decomposing the algae from the water of the culture tank 311, reducing the water quality and the degree of oxidation, and achieving the initial purification of water quality. The first water filter 414 can filter the bait organism 410 in the barrier water, and the bait organism 410 and the algae are concentrated in the pre-filtration section 412, so that the water entering the post-filtration section 413 is relatively clean.
該第二溢流單元42之結構與功能設計大致與該第一溢流單元32相同,因此不再詳述。該第二溢流單元42包括一第二溢流桶421、一連通安裝於該第二溢流桶421之第二通氣管423、一連通插裝於該第二溢流桶421與該過濾後區間413之第二虹吸管422,及一插裝於該第二溢流桶421底部之第二溢流管424。第二溢流單元42同樣可透過虹吸效應將該過濾後區間413內的水液虹吸引流至該第二溢流桶421中,再經由該第二溢流管424排放至該消毒槽 單元43。 The structure and functional design of the second overflow unit 42 is substantially the same as that of the first overflow unit 32, and therefore will not be described in detail. The second overflow unit 42 includes a second overflow bucket 421, a second vent pipe 423 connected to the second overflow bucket 421, and a connection plugged into the second overflow bucket 421 and the filter. a second siphon 422 of the section 413 and a second overflow pipe 424 inserted into the bottom of the second overflow bucket 421. The second overflow unit 42 can also draw the water in the filtered section 413 into the second overflow bucket 421 through the siphon effect, and then discharge to the disinfection tank via the second overflow pipe 424. Unit 43.
該消毒槽單元43包括一用以承接該第二溢流單元42排出之水液的消毒槽體431,及分別設置於該消毒槽體431的一第二濾水器434、一加熱器435與一殺菌燈具436。該第二濾水器434將消毒槽體431內部區隔成一消毒前區間432與一消毒後區間433,該消毒前區間432是用以直接承接來自該第二溢流單元42之水液。該第二濾水器434可濾除掉來自該消毒前區間432之水液內的雜質及/或細菌,可進一步淨化進入該消毒後區間433的水液。該加熱器435是設置於該消毒後區間433內,可被該控制裝置6驅動而加熱該消毒後區間433內的水液。該殺菌燈具436是設置於該消毒後區間433上方,可被該控制裝置6啟動,而對該消毒後區間433產生紫外光,可進一步殺死掉水中病菌。 The sterilizing tank unit 43 includes a sterilizing tank body 431 for receiving the water discharged from the second overflow unit 42, and a second water filter 434 and a heater 435 respectively disposed in the sterilizing tank body 431. A germicidal luminaire 436. The second water filter 434 partitions the interior of the sterilization tank 431 into a pre-disinfection section 432 and a post-disinfection section 433 for directly receiving water from the second overflow unit 42. The second water filter 434 can filter out impurities and/or bacteria in the water from the pre-sterilization section 432, and further purify the water entering the post-sterilization section 433. The heater 435 is disposed in the post-sterilization section 433 and is drivable by the control device 6 to heat the water in the post-sterilization section 433. The sterilization lamp 436 is disposed above the post-sterilization section 433 and can be activated by the control device 6, and generates ultraviolet light in the post-disinfection section 433 to further kill the bacteria in the water.
該水泵機構5包括一連通於該消毒後區間433之水泵51,及一連通於該水泵51與該等緩衝槽體312間之供水管52。該水泵51可將該消毒後區間433中的水液泵入該供水管52,該供水管52具有多個分別連通插裝於該等緩衝槽體312中之分流段521,可將該水泵51泵取之水液分別注入該等緩衝槽體312。 The water pump mechanism 5 includes a water pump 51 connected to the post-disinfection section 433, and a water supply pipe 52 connected between the water pump 51 and the buffer tanks 312. The water pump 51 can pump the water in the post-disinfection section 433 into the water supply pipe 52. The water supply pipe 52 has a plurality of diverting sections 521 respectively connected to the buffer tanks 312. The water pump 51 can be used. The pumped water is injected into the buffer tanks 312, respectively.
該遙控裝置7包括一操控主機71,及一訊號連接於該操控主機71之第一通訊模組72,該操控主機71可供操作設定一控制指令,並經由該第一通訊模組72發送至該控制裝置6。 The remote control device 7 includes a control unit 71, and a first communication module 72 connected to the control unit 71. The control unit 71 is operable to set a control command and is sent to the first communication module 72 via the first communication module 72. The control device 6.
該控制裝置6包括一微控制器61,及一訊號連接於該微控制器61且可接收該第一通訊模組72之控制指令的第二通訊模組62。該微控制器61可供程式化設定控制該水泵51、該加熱器435與該殺菌燈具436之運作,並可程式化自動控制該水泵51、該加熱器435與該殺菌燈具436之開啟與關閉,並可被該第二通訊模組62接收之該控制指令驅動,而分別控制該水泵51、該加熱器435與該殺菌燈具436之作動。 The control device 6 includes a microcontroller 61 and a second communication module 62 connected to the microcontroller 61 and receiving control commands from the first communication module 72. The microcontroller 61 can be programmed to control the operation of the water pump 51, the heater 435 and the germicidal lamp 436, and can be programmed to automatically control the opening and closing of the water pump 51, the heater 435 and the germicidal lamp 436. And being controlled by the control command received by the second communication module 62 to control the operation of the water pump 51, the heater 435 and the sterilization lamp 436, respectively.
在本實施例中,該遙控裝置7為智慧型手機、平板電腦或筆記型電腦等行動裝置,可透過下載安裝特定APP應用程式的方式,配合該行動裝置本身之硬體設備建構出該操控主機71與該第一通訊模組72之功能,且該遙控裝置7與該控制裝置6間可透過Wi-Fi、籃芽、ZigBee、網際網路或電話通訊網路等無線通訊方式進行通訊與資料傳輸,可利用該遙控裝置7遠端遙控該控制裝置6之運作,例如驅使該微控制器61啟動或關閉該水泵機構5,或者是變更該微控制器61之控制參數設定等。但實施時,該遙控裝置7也可以是電子電路構成之傳統遙控設備,可透過無線通訊方式遙控該控制裝置6。 In the embodiment, the remote control device 7 is a mobile device such as a smart phone, a tablet computer or a notebook computer, and the control device can be constructed by using a hardware device of the mobile device itself by downloading and installing a specific APP application. 71 and the function of the first communication module 72, and the remote control device 7 and the control device 6 can communicate and transmit data through wireless communication methods such as Wi-Fi, basket bud, ZigBee, internet or telephone communication network. The remote control device 7 can be used to remotely control the operation of the control device 6, for example, to drive the microcontroller 61 to activate or deactivate the water pump mechanism 5, or to change the control parameter setting of the microcontroller 61, and the like. However, when implemented, the remote control device 7 can also be a conventional remote control device composed of an electronic circuit, and the control device 6 can be remotely controlled by wireless communication.
本發明自動換水養殖系統使用時,可於該等養殖槽體311與該第一溢流桶321之該溢流空間322內注入水液,並於每一個養殖槽體311中養殖水生動物,例如於每一個養殖槽體311養殖一隻鬥魚,並使該等第一虹吸管323填滿水液,並於該淨化槽體411之過濾前區間412內養 殖餌料生物410,且於該消毒槽體431內注入用以養殖水生動物的水液。 When the automatic water-changing culture system of the present invention is used, the water can be injected into the overflow space 322 of the first tank 311 and the first overflow bucket 321 and the aquatic animals can be cultured in each of the culture tanks 311, for example A betta is cultured in each of the culture tanks 311, and the first siphons 323 are filled with the water, and are maintained in the pre-filtration section 412 of the purification tank 411. The bait material 410 is implanted, and a water liquid for breeding aquatic animals is injected into the sterilization tank body 431.
當養殖經過一段時間,該等養殖槽體311中的水液逐漸變成青綠色時,表示水液中的藻類過多,為避免水液優氧化,即可操作該遙控裝置7以啟動該控制裝置6開始進行換水作業。該控制裝置6被啟動而驅動控制該水泵51開始進行換水時,該消毒槽體431之該消毒後區間433內的水液會被泵入該供水管52,而同時分流注入所有緩衝槽體312中,再由該等緩衝槽體312緩慢溢流滴入該等養殖槽體311內,逐漸提高該等養殖槽體311之水位高度。再進一步利用該等第一虹吸管323的虹吸作用中,將該等養殖槽體311內的水液逐漸引流入該第一溢流桶321內,若匯流入該溢流空間322內的水液達該第一溢流管327之溢流口328高度時,高出的水液便會經由該第一溢流管327溢流出,直至該等養殖槽體311之液面高度與該溢流空間322之液面高度等高。而自該第一溢流管327排掉的水液會直接往下注入該淨化槽體411之過濾前區間412中。 When the culture of the culture tank 311 gradually turns into a turquoise color over a period of time, it means that the algae in the water liquid is excessive, and in order to avoid the oxidation of the water liquid, the remote control device 7 can be operated to activate the control device 6 Start the water change operation. When the control device 6 is activated to drive and control the water pump 51 to start water exchange, the water in the disinfection section 433 of the sterilization tank body 431 is pumped into the water supply pipe 52, and simultaneously all the buffer tank bodies 312 are flow-injected. Then, the buffer tanks 312 are slowly overflowed and dropped into the culture tanks 311 to gradually increase the water level of the culture tanks 311. Further, in the siphoning action of the first siphons 323, the water in the culture tanks 311 is gradually introduced into the first overflow bucket 321 , and if the water flows into the overflow space 322 When the overflow port 328 of the first overflow pipe 327 is at the height, the raised water will overflow through the first overflow pipe 327 until the liquid level of the culture tank 311 and the overflow space 322. The liquid level is the same height. The water discharged from the first overflow pipe 327 is directly injected into the pre-filtration section 412 of the purification tank 411.
更換排掉的水液進入該淨化槽體411後,水液中的藻類會成為餌料生物410的營養來源,而逐漸被餌料生物410分解消化掉,所以可藉此達到初步淨化水質之目的,於此同時,該過濾前區間412的水液會通過該第一濾水器414,而滲流入該過濾後區間413。 After the drained water is replaced into the purification tank body 411, the algae in the water liquid will become a nutrient source of the bait organism 410, and will be gradually decomposed and digested by the bait organism 410, so that the purpose of preliminary purification of the water can be achieved. At the same time, the water in the pre-filtration section 412 passes through the first water filter 414 and seeps into the post-filtration section 413.
接著,可再利用該第二溢流單元42之虹吸效應,將該過濾後區間413的水液引流至該消毒槽體431之消 毒前區間432內,並以該第二濾水器434過濾進入該消毒後區間433的水液,最後,再以該殺菌燈具436之紫外光進行殺菌,並驅使該加熱器435將該消毒後區間433內的水液加熱至適合水生動物生長的溫度,以便供重新泵入該養殖機構3進行換水,而重複循環使用。 Then, the siphon effect of the second overflow unit 42 can be reused, and the water in the filtered section 413 can be drained to the sterilization tank 431. In the pre-poison section 432, the water entering the post-disinfection zone 433 is filtered by the second water filter 434, and finally, the ultraviolet light of the germicidal lamp 436 is used for sterilization, and the heater 435 is driven to be disinfected. The water in section 433 is heated to a temperature suitable for the growth of aquatic animals for re-pumping into the culture facility 3 for water exchange and repeated use.
當需要供給食物時,僅需將該淨化槽體411養殖之餌料生物410撈起,並加入該等養殖槽體311中,相當的方便。 When it is necessary to supply food, it is only necessary to pick up the bait organism 410 cultured in the purification tank body 411 and add it to the culture tanks 311, which is quite convenient.
可藉由上述設計避免新添加的水直接注入養殖槽體311內,有效降低該等養殖槽體311內之水液溫度變化幅度,使水溫穩定緩慢變化,並可同時更換所有養殖槽體311內的水液。且因為各個養殖槽體311都是獨立的,且該第一溢流管327口徑大於該等第一虹吸管323口徑,該等第一虹吸管323無法將該溢流空間322之水液逆向虹吸至該等養殖槽體311,所以每一個養殖槽體311的水液不會混入其它養殖槽體311中,彼此間不會有混水的問題,此外,因為整個養殖系統的水液會重複循環使用,所以也完全不會有養殖廢水污染環境的問題。 The above design can avoid the newly added water directly injected into the culture tank 311, effectively reduce the temperature variation range of the water liquid in the culture tank 311, so that the water temperature is stable and slowly changing, and all the culture tanks can be replaced at the same time. The water inside. And because each of the culture tanks 311 is independent, and the first overflow tube 327 has a larger diameter than the first siphon tubes 323, the first siphons 323 cannot reversely siphone the water in the overflow space 322 to the When the tank body 311 is cultured, the water liquid of each culture tank 311 is not mixed into other culture tanks 311, and there is no problem of water mixing between them. In addition, since the water of the entire culture system is repeatedly recycled, Therefore, there is no problem that the culture wastewater pollutes the environment.
再者,由於魚類病菌通常都是寄生型的,且不會去寄生餌料生物410,所以經過了該淨化機構4的過濾與消毒殺菌後,病菌回流的機會非常微小,所以可藉由該淨化機構4之該第一濾水器414、第二濾水器434與該殺菌燈具436之設計,避免魚病之蔓延傳染。 Furthermore, since the fish germs are usually parasitic and do not parasitize the bait organism 410, after the filtration and sterilization of the purifying mechanism 4, the chance of returning the bacteria is very small, so the purifying mechanism can be used. The first water filter 414, the second water filter 434 and the sterilization lamp 436 are designed to avoid the spread of fish diseases.
且當使用者要更改該水泵51、該加溫器435與 該殺菌燈具436之運作時間或運作模式時,除了可直接更改該微控制器61之控制程式外,使用者還可透過操作該遙控裝置7發送控制指令的方式,遠端控制調整該微控制器61之設定,而變更該微控制器61控制該水泵51的設定,或者是直接遠端遙控該微控制器61啟動或關閉該水泵51、該加溫器435與該殺菌燈具436,方便使用者外出遠行時,仍可遙控該自動換水養殖系統進行換水。 And when the user wants to change the water pump 51, the warmer 435 and In the operation time or operation mode of the sterilization lamp 436, in addition to directly changing the control program of the microcontroller 61, the user can also adjust the microcontroller by operating the remote control device 7 to send a control command. Setting 61, changing the microcontroller 61 to control the setting of the water pump 51, or directly remotely controlling the microcontroller 61 to activate or deactivate the water pump 51, the warmer 435 and the sterilization lamp 436, convenient for the user When going out, you can still remotely control the automatic water changing system to change the water.
此外,本發明自動換水養殖系統用於販售場所時,當某一養殖槽體311內之水生動物要販售時,可直接將該養殖槽體311取下交給消費者,不需再更換承裝容器,可避免水生動物受過大驚擾,也可避免更換容器之不便,且原有之養殖槽體311取下後,也方便直接裝上另一個養殖槽體311。 In addition, when the automatic water-changing culture system of the present invention is used in a sales place, when the aquatic animals in a culture tank 311 are to be sold, the culture tank 311 can be directly taken off to the consumer without replacement. The container can prevent the aquatic animals from being greatly disturbed, and can also avoid the inconvenience of replacing the container. After the original culture tank 311 is removed, it is also convenient to directly install another culture tank 311.
綜上所述,透過該養殖機構3、該水泵機構5與該淨化機構4之結構設計,可有效利用虹吸效應來同時對多個養殖槽體311進行換水,並可利用該等養殖槽單元31之結構設計,使新添加的水液不會直接注入養殖水生動物之養殖槽體311中,可有效避免養殖槽體311水溫突然激烈變化而影響水生動物之生長,且可對更換掉之養殖廢水進行水質改良,使更換掉的廢水能夠被重複循環使用,而不會污染環境,是相當環保的設計。並可進一步配合該控制裝置6與該遙控裝置7的自動化與遙控設計,達到自動化控制大量換水之目的,且可方便透過遠端遙控進行換水、加熱與紫外光殺菌的作業,相當方便實用。因此,確 實可達到本發明之目的。 In summary, through the structural design of the breeding mechanism 3, the water pump mechanism 5 and the purification mechanism 4, the siphon effect can be effectively utilized to simultaneously change the water of the plurality of culture tanks 311, and the culture tank unit 31 can be utilized. The structural design makes that the newly added water liquid is not directly injected into the culture tank 311 of the cultured aquatic animal, which can effectively avoid the sudden and drastic change of the water temperature of the culture tank 311 and affect the growth of aquatic animals, and can be replaced. The aquaculture wastewater is improved in water quality, so that the replaced wastewater can be recycled repeatedly without polluting the environment. It is a very environmentally friendly design. The automatic control and remote control design of the control device 6 and the remote control device 7 can be further cooperated to achieve the purpose of automatically controlling a large amount of water exchange, and the operation of changing water, heating and ultraviolet light sterilization can be conveniently performed by remote remote control, which is quite convenient and practical. Therefore, indeed The object of the invention can be achieved.
惟以上所述者,僅為本發明之較佳實施例而已,當不能以此限定本發明實施之範圍,即大凡依本發明申請專利範圍及專利說明書內容所作之簡單的等效變化與修飾,皆仍屬本發明專利涵蓋之範圍內。 The above is only the preferred embodiment of the present invention, and the scope of the present invention is not limited thereto, that is, the simple equivalent changes and modifications made by the patent application scope and patent specification content of the present invention, All remain within the scope of the invention patent.
3‧‧‧養殖機構 3‧‧‧ farming institutions
30‧‧‧支架 30‧‧‧ bracket
31‧‧‧養殖槽單元 31‧‧‧ breeding trough unit
311‧‧‧養殖槽體 311‧‧‧ culture tank
312‧‧‧緩衝槽體 312‧‧‧buffer tank
313‧‧‧結合件 313‧‧‧Connected parts
32‧‧‧第一溢流單元 32‧‧‧First overflow unit
321‧‧‧第一溢流桶 321‧‧‧First overflow bucket
323‧‧‧第一虹吸管 323‧‧‧First siphon
326‧‧‧第一通氣管 326‧‧‧First snorkel
327‧‧‧第一溢流管 327‧‧‧First overflow tube
4‧‧‧淨化機構 4‧‧‧ Purification agency
41‧‧‧淨化槽單元 41‧‧‧Septic tank unit
410‧‧‧餌料生物 410‧‧‧ bait creatures
411‧‧‧淨化槽體 411‧‧‧ Purification tank
412‧‧‧過濾前區間 412‧‧‧Pre-filtering interval
413‧‧‧過濾後區間 413‧‧‧Filtered interval
414‧‧‧第一濾水器 414‧‧‧First water filter
42‧‧‧第二溢流單元 42‧‧‧Second overflow unit
421‧‧‧第二溢流桶 421‧‧‧Second overflow bucket
422‧‧‧第二虹吸管 422‧‧‧Second siphon
423‧‧‧第二通氣管 423‧‧‧second snorkel
424‧‧‧第二溢流管 424‧‧‧Second overflow pipe
43‧‧‧消毒槽單元 43‧‧‧Sterilization tank unit
431‧‧‧消毒槽體 431‧‧‧Disinfection tank
432‧‧‧消毒前區間 432‧‧‧Pre-disinfection interval
433‧‧‧消毒後區間 433‧‧‧After disinfection interval
434‧‧‧第二濾水器 434‧‧‧Second water filter
435‧‧‧加熱器 435‧‧‧heater
436‧‧‧殺菌燈具 436‧‧‧Bactericidal lamps
5‧‧‧水泵機構 5‧‧‧Water pump mechanism
51‧‧‧水泵 51‧‧‧Water pump
52‧‧‧供水管 52‧‧‧Water supply pipe
521‧‧‧分流段 521‧‧‧Diversion section
6‧‧‧控制裝置 6‧‧‧Control device
7‧‧‧遙控裝置 7‧‧‧Remote control
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