TWI577280B - Involving the initial ecological oxygen dredging and oxygen supply system - Google Patents

Description

涉及初生態氧之清淤及供氧系統Siltation and oxygen supply system involving primary ecological oxygen

本發明是有關於一種清淤及供氧系統，特別是指一種涉及初生態氧之清淤及供氧系統。The invention relates to a dredging and oxygen supply system, in particular to a dredging and oxygen supply system involving nascent oxygen.

參閱圖1，在水產養殖的過程中，未食用完之餌料、養殖生物之***物、來自於水面上之雜物，或微生物分解後之有機物質等，皆會不斷沉降而堆積於養殖池的池底，引起池水優氧化或影響水中藻相。情況輕微者會抑制植物的生長，而過度汙染的養殖水則會造成水中生物患病而死亡。故，如何清潔養殖池以使水質維持一定程度的潔淨品質，乃為相關業者所重視的課題。Referring to Figure 1, in the process of aquaculture, the uneaten bait, the excrement of the cultured organism, the debris from the surface of the water, or the organic matter after the decomposition of the microorganisms will continue to settle and accumulate in the culture pond. At the bottom of the pool, it causes the pool water to oxidize or affect the algae phase in the water. A milder situation can inhibit the growth of plants, while excessively contaminated aquaculture water can cause illness in the water and die. Therefore, how to clean the culture pond to maintain a certain level of clean quality of water quality is a topic of concern to the relevant industry.

參閱圖1之習知魚類養殖槽排汙裝置，其主要是在一養殖槽11中豎立一排汙管12，並在該排汙管12外層倒置設有一套筒13，以將該排汙管12之入水口121與養殖水2的水面區隔開來。而該套筒13下方與該養殖槽11底部之間設置有可供養殖水2流入套筒13內部的通孔131，使該套筒13內部與該養殖槽11維持水位平衡。在養殖的過程中，由於該套筒13限制養殖水2僅能經由該套筒13下方的通孔131流入該套筒13內部，故當持續對該養殖槽11加水至水位滿過該排汙管12之該入水口121時，養殖水2會經由該排汙管12排出至該養殖槽11外。Referring to the conventional fish culture tank sewage disposal device of Fig. 1, a sewage pipe 12 is erected in a culture tank 11, and a sleeve 13 is inverted on the outer layer of the sewage pipe 12 to discharge the sewage pipe. The water inlet 121 of 12 is separated from the water surface area of the culture water 2. A through hole 131 is provided between the lower portion of the sleeve 13 and the bottom of the culture tank 11 for allowing the culture water 2 to flow into the sleeve 13, so that the inside of the sleeve 13 and the culture tank 11 maintain a water level balance. During the aquaculture process, since the sleeve 13 restricts the aquaculture water 2 from flowing into the sleeve 13 through the through hole 131 below the sleeve 13, when the water is continuously added to the culture tank 11 to the water level, the sewage is discharged. When the water inlet 121 of the tube 12 is passed, the culture water 2 is discharged to the outside of the culture tank 11 via the sewage pipe 12.

然而，上述習知魚類養殖槽排汙裝置僅靠水流或水中生物的擾動作用以將該養殖槽11底部之沉澱物帶出，其效果不彰，使清汙作業之成效不如預期。再者，尚需仰賴人工方式定期將該養殖槽11放空後進行清理。然而，若在還未能收獲魚類之前就必須清理，則不僅清理過程相當麻煩，且換水後魚類需重新適應水質，勢必會影響到魚類的生長。因此，有必要尋求解決之道。However, the above-mentioned conventional fish culture tank sewage discharge device is only used to disturb the sediment at the bottom of the culture tank 11 by the disturbance of water flow or aquatic organisms, and the effect thereof is not good, so that the effect of the cleaning operation is not as expected. Furthermore, it is necessary to periodically clean the culture tank 11 after relying on manual means. However, if it is necessary to clean up before the fish can be harvested, not only will the cleaning process be quite troublesome, but the fish will need to re-adapt to the water after changing the water, which will inevitably affect the growth of the fish. Therefore, it is necessary to seek a solution.

因此，本發明之目的，即在提供一種涉及初生態氧之清淤及供氧系統。Accordingly, it is an object of the present invention to provide a dredging and oxygen supply system involving nascent oxygen.

於是，本發明涉及初生態氧之清淤及供氧系統適用於對漁塭之養殖水清淤及供氧，並包含一第一虹吸器、一第一引火裝置、一抽水幫浦及一水槽。該第一虹吸器具有一第一空氣入口及一第一空氣出口，並用以將外界空氣從該第一空氣入口吸入，再使該空氣從該第一空氣出口流出。該第一引火裝置鄰近該第一虹吸器之該第一空氣出口而設置，並用以接收來自該第一虹吸器之該第一空氣出口的空氣，且用以產生火花使得從該空氣中產生初生態氧。該抽水幫浦具有一水入口及一水出口，並用以將該養殖水從該水入口抽入，再使該養殖水從該水出口流出，以與該第一引火裝置所產生的初生態氧混合成為高含氧養殖水。該水槽界定一槽入口、一容置空間及一槽出口，該高含氧養殖水通過該槽入口而進入該容置空間，其中，該高含氧養殖水中之初生態氧之浮力使得該容置空間內的該高含氧養殖水中的淤積物懸浮在該容置空間內的水面附近，因而產生已清淤水從該槽出口流出。Accordingly, the present invention relates to a dredging and oxygen supply system for nascent oxygen suitable for dredging and supplying oxygen to aquaculture water, and comprising a first syphon, a first igniter, a pumping pump and a sink . The first syphon has a first air inlet and a first air outlet for drawing outside air from the first air inlet and then flowing the air from the first air outlet. The first pilot device is disposed adjacent to the first air outlet of the first syphon and is configured to receive air from the first air outlet of the first syphon and to generate a spark to generate an initial from the air Ecological oxygen. The pumping pump has a water inlet and a water outlet, and is used to draw the culture water from the water inlet, and then the culture water flows out from the water outlet to generate primordial oxygen generated by the first ignition device. Mix into high aerobic culture water. The water tank defines a tank inlet, an accommodating space and a tank outlet, and the high oxygenated culture water enters the accommodating space through the inlet of the tank, wherein the buoyancy of the initial ecological oxygen in the high oxygenated culture water makes the capacity The sludge in the high oxygenated culture water in the space is suspended near the water surface in the accommodating space, thereby generating the discharged water from the outlet of the tank.

本發明之功效在於：由於可利用第一引火裝置產生火花使得從空氣中產生初生態氧混入養殖水中，因而使進入水槽中的養殖水富含初生態氧，於是可藉由初生態氧之浮力而使含有雜物、淤泥、飼料或糞便等之淤積物懸浮在水槽中的養殖水液面附近(上層或表面)以便於清潔濾網，且可產生已清淤水從水槽向外供應。The effect of the invention is that since the first ignition device can be used to generate sparks, the nascent oxygen is generated from the air and mixed into the culture water, so that the culture water entering the water tank is rich in nascent oxygen, so the buoyancy of the initial ecological oxygen can be utilized. The sludge containing debris, sludge, feed or feces, etc., is suspended in the vicinity of the aquaculture water level (upper layer or surface) in the water tank to facilitate cleaning of the filter screen, and can produce the dredged water to be supplied from the water tank.

在本發明被詳細描述之前，應當注意在以下的說明內容中，類似的元件是以相同的編號來表示。Before the present invention is described in detail, it should be noted that in the following description, similar elements are denoted by the same reference numerals.

參閱圖2、3、4，本發明涉及初生態氧之清淤及供氧系統之第一實施例適用於對漁塭之養殖水2清淤及供氧，並包含一第一虹吸器4、一第一引火裝置5、一抽水幫浦6、一水槽7、一濾網70，及一高壓出水裝置3。Referring to Figures 2, 3 and 4, the first embodiment of the present invention relates to a dredging and oxygen supply system for nascent oxygen, which is suitable for dredging and supplying oxygen to aquaculture water 2, and comprising a first syphon 4; A first ignition device 5, a pumping pump 6, a water tank 7, a screen 70, and a high pressure water outlet device 3.

如圖2、3所示，該第一虹吸器4具有一第一空氣入口41、一第一空氣出口42及一第一風扇43。該第一風扇43用以將外界空氣從該第一空氣入口41吸入，再使該空氣從該第一空氣出口42流出。As shown in FIGS. 2 and 3, the first syphon 4 has a first air inlet 41, a first air outlet 42, and a first fan 43. The first fan 43 is configured to draw outside air from the first air inlet 41 and then to flow the air out of the first air outlet 42.

該第一引火裝置5鄰近該第一虹吸器4之該第一空氣出口42而設置，並用以接收來自該第一虹吸器4之該第一空氣出口42的空氣，且用以產生火花使得從該空氣中產生初生態氧。在本第一實施例中，該第一引火裝置5包括數個角度相間隔排列的第一火星塞51，如圖3所示的三個第一火星塞51，其用以產生火花使得從該空氣中產生初生態氧。在本第一實施例之其他變化例中，該第一引火裝置5所包括的第一火星塞51之數量也可以僅為一個。The first pilot device 5 is disposed adjacent to the first air outlet 42 of the first syphon 4 and is configured to receive air from the first air outlet 42 of the first syphon 4 and to generate a spark The nascent oxygen is produced in the air. In the first embodiment, the first pilot device 5 includes a plurality of first Mars plugs 51 arranged at an angular interval, three first Mars plugs 51 as shown in FIG. 3 for generating a spark from the Primary ecological oxygen is produced in the air. In other variations of the first embodiment, the number of first spark plugs 51 included in the first pilot device 5 may also be only one.

該抽水幫浦6具有一水入口61及一水出口62，並用以將該養殖水2從該水入口61抽入，再使該養殖水2從該水出口62流出，以與該第一引火裝置5所產生的初生態氧混合成為高含氧養殖水流向該水槽7。The pumping pump 6 has a water inlet 61 and a water outlet 62, and is used to draw the culture water 2 from the water inlet 61, and then the culture water 2 flows out from the water outlet 62 to be combined with the first pilot. The nascent oxygen produced by the apparatus 5 is mixed into the high oxygen aquaculture water to the water tank 7.

該水槽7界定一槽入口71、一容置空間72及一槽出口73，並具有一上蓋74及一人孔蓋75。上述高含氧養殖水通過該槽入口71而進入容置空間72。由於高含氧養殖水富含初生態氧，故可藉由初生態氧之浮力而使含有雜物、淤泥、飼料或糞便等之淤積物懸浮在該容置空間72內的水面附近(上層或表面)，因而產生已清淤水從該槽出口73流出。另外，由於該容置空間72內的水面上設置了濾網70，故淤積物會堆積在該濾網70上，讓使用者可以經由上蓋74或人孔蓋75進入容置空間72內將濾網70取出以進行清洗或更換等處理。The water tank 7 defines a slot inlet 71, an accommodating space 72 and a slot outlet 73, and has an upper cover 74 and a manhole cover 75. The high oxygenated aquaculture water enters the accommodating space 72 through the tank inlet 71. Since the high oxygenated aquaculture water is rich in nascent oxygen, the sludge containing impurities, sludge, feed or feces can be suspended in the vicinity of the water surface in the accommodating space 72 by buoyancy of the nascent oxygen (upper layer or The surface) thus produces dredged water flowing out of the trough outlet 73. In addition, since the screen 70 is disposed on the water surface in the accommodating space 72, the sludge may accumulate on the screen 70, so that the user can enter the accommodating space 72 via the upper cover 74 or the manhole cover 75. The net 70 is taken out for processing such as washing or replacement.

參閱圖2、4，該高壓出水裝置3用以將來自該水槽7之槽出口73之已清淤水加壓並將其供應至漁塭。在本實施例中，該高壓出水裝置3包括一馬達31、一減速箱32、二齒輪33、二個分別對應於該等齒輪33之齒排34、四個活塞桿35、四個分別對應於該等活塞桿35之氣壓缸36及四個分別對應於該等氣壓缸36之三通閥38等元件。如圖4所示，每一齒排34之兩端分別串聯地連接至該等活塞桿35中之其中兩個，且兩個齒排34所分別連接的兩組活塞桿35(每一組兩個)可視為並聯之狀態。每一氣壓缸36具有一缸入口361及一缸出口362。該等缸入口361與該水槽7之槽出口73之間是以管路相連接，而該等缸出口362亦連接有管路連通至漁塭。Referring to Figures 2 and 4, the high pressure water discharge device 3 is used to pressurize the dredged water from the tank outlet 73 of the water tank 7 and supply it to the fishing rod. In the present embodiment, the high-pressure water discharge device 3 includes a motor 31, a reduction gear box 32, two gears 33, two tooth rows 34 corresponding to the gears 33, four piston rods 35, and four corresponding to The pneumatic cylinders 36 of the piston rods 35 and the four three-way valves 38 corresponding to the pneumatic cylinders 36 respectively. As shown in FIG. 4, two ends of each tooth row 34 are respectively connected in series to two of the piston rods 35, and two sets of piston rods 35 respectively connected by two tooth rows 34 (two in each group) Can be regarded as the state of parallel. Each pneumatic cylinder 36 has a cylinder inlet 361 and a cylinder outlet 362. The cylinder inlet 361 and the tank outlet 73 of the water tank 7 are connected by a pipeline, and the cylinder outlets 362 are also connected with a pipeline to communicate with the fishing rod.

該馬達31用以產生旋轉運動傳達給減速箱32進行減速，繼而該減速箱32帶動兩個齒輪33，接著，每一個齒輪33帶動每一個對應的齒排34，繼而帶動齒排34兩端之兩個活塞桿35產生直線運動。例如，在每一齒排34兩端的活塞桿35移動至如圖4所示之最右邊位置的過程中，來自水槽7之槽出口73之已清淤水會如虛線箭頭所示流經管路，再從右邊的兩個缸入口361分別進入對應的氣壓缸36，繼而從右邊兩個缸出口362分別流經對應的三通閥38而流入管路中以能被高壓推送至漁塭。此時左邊的兩個三通閥38具有止逆的效果，可避免已清淤水逆向流進左邊的兩個氣壓缸36，再流回水槽7。The motor 31 is configured to generate a rotational motion to be transmitted to the reduction gearbox 32 for deceleration, and then the reduction gearbox 32 drives the two gears 33. Then, each of the gears 33 drives each corresponding tooth row 34, which in turn drives the two ends of the tooth row 34. The two piston rods 35 produce a linear motion. For example, during the movement of the piston rod 35 at each end of each row of teeth 34 to the rightmost position as shown in Figure 4, the dredged water from the trough outlet 73 of the trough 7 will flow through the line as indicated by the dashed arrow. Then, the two cylinder inlets 361 on the right side respectively enter the corresponding pneumatic cylinders 36, and then flow from the right two cylinder outlets 362 through the corresponding three-way valves 38 to flow into the pipelines to be pushed by the high pressure to the fishing rods. At this time, the two three-way valves 38 on the left side have a non-reverse effect, so that the dredged water can be prevented from flowing backward into the two pneumatic cylinders 36 on the left side, and then flows back to the water tank 7.

參閱圖5，接著，該馬達31會反轉而使兩個齒輪33也反轉，因而使活塞桿35停止繼續向右移動，繼而向左反向移動。在每一齒排34兩端的活塞桿35移動至如圖5所示之最左邊位置的過程中，來自水槽7之槽出口73之已清淤水會如虛線箭頭所示流經管路，再從左邊的兩個缸入口361分別進入對應的氣壓缸36，繼而從左邊兩個缸出口362分別流經對應的三通閥38而流入管路中以能被高壓推送至漁塭。此時右邊的兩個三通閥38具有止逆的效果，可避免已清淤水逆向流進右邊的兩個氣壓缸36，再流回水槽7。Referring to Fig. 5, the motor 31 is reversed so that the two gears 33 are also reversed, thereby causing the piston rod 35 to stop moving further to the right and then to the left. During the movement of the piston rod 35 at each end of each row of teeth 34 to the leftmost position as shown in Fig. 5, the dredged water from the slot outlet 73 of the water tank 7 flows through the pipeline as indicated by the dashed arrow. The two cylinder inlets 361 on the left respectively enter the corresponding pneumatic cylinders 36, and then flow from the left two cylinder outlets 362 through the corresponding three-way valves 38 into the pipeline to be pushed by the high pressure to the fishing rod. At this time, the two three-way valves 38 on the right side have the effect of stopping the backflow, so that the dredged water can be prevented from flowing backward into the two pneumatic cylinders 36 on the right side, and then flows back to the water tank 7.

也就是說，藉由馬達31規律地產生正轉與反轉交替之旋轉運動，可使該等活塞桿35分別在該等氣壓缸36內產生往復運動，因而可將從水槽7之槽出口73之已清淤水高壓供應至漁塭。That is to say, by the motor 31 regularly generating a rotary motion of alternating forward and reverse rotations, the piston rods 35 can be reciprocated in the pneumatic cylinders 36, respectively, so that the outlets 73 of the water tank 7 can be removed. The dredged water is supplied to the fishing rod at a high pressure.

參閱圖6之本發明涉及初生態氧之清淤及供氧系統之第二實施例。該第二實施例與上述第一實施例之間的不同處在於，該第二實施例還包含一第二虹吸器81及一第二引火裝置82。Referring to Figure 6, the invention relates to a second embodiment of a dredging and oxygen supply system for nascent oxygen. The difference between the second embodiment and the first embodiment described above is that the second embodiment further includes a second syphon 81 and a second igniter 82.

該第二虹吸器81具有一第二空氣入口811、一第二空氣出口812及一第二風扇813。該第二風扇813用以將外界空氣從該第二空氣入口811吸入，再使該空氣從該第二空氣出口812流出。The second syphon 81 has a second air inlet 811, a second air outlet 812, and a second fan 813. The second fan 813 is configured to draw outside air from the second air inlet 811 and then let the air flow out from the second air outlet 812.

該第二引火裝置82鄰近該第二虹吸器81之該第二空氣出口812而設置，並用以接收來自該第二虹吸器81之該第二空氣出口812的空氣，且用以產生火花使得從該空氣中產生初生態氧。在本第二實施例中，該第二引火裝置82包括數個角度相間隔排列的第二火星塞(圖未示)，其用以產生火花使得從該空氣中產生初生態氧。在本第二實施例之其他變化例中，該第二引火裝置82所包括的第二火星塞之數量也可以僅為一個。由於來自該水槽7之該槽出口73的已清淤水進一步與該第二引火裝置82所產生的初生態氧混合，故提供至該高壓出水裝置3之已清淤水中的初生態氧之含量更高。然後，此氧含量更高的已清淤水同樣藉由該高壓出水裝置3加壓而供應至漁塭。The second pilot device 82 is disposed adjacent to the second air outlet 812 of the second syphon 81 and is configured to receive air from the second air outlet 812 of the second syphon 81 and to generate a spark The nascent oxygen is produced in the air. In the second embodiment, the second pilot device 82 includes a plurality of angularly spaced second Mars plugs (not shown) for generating a spark to generate nascent oxygen from the air. In other variations of the second embodiment, the number of second spark plugs included in the second pilot device 82 may also be only one. Since the dredged water from the tank outlet 73 of the water tank 7 is further mixed with the nascent oxygen generated by the second pilot device 82, the content of the nascent oxygen supplied to the dredged water of the high-pressure water discharge device 3 is provided. higher. Then, the dredged water having a higher oxygen content is also supplied to the fishing rod by pressurization by the high-pressure water discharge device 3.

參閱圖4、5、6，該高壓出水裝置3之減速箱32可使該氧含量更高的已清淤水之流速趨緩變慢，因而產生高壓力量推動串聯或並聯的活塞桿35而將該氧含量更高的已清淤水高壓推送至管路，繼而該氧含量更高的已清淤水進一步經氣泡石(圖未示)產生細微氣泡，最後均勻地遍佈於漁塭池每一角落。Referring to Figures 4, 5 and 6, the reduction box 32 of the high-pressure water discharge device 3 can slow down the flow rate of the decontaminated water having a higher oxygen content, thereby generating high-pressure force to push the piston rod 35 in series or in parallel. The high-efficiency dredged water is pushed to the pipeline at a high pressure, and then the dredged water having a higher oxygen content is further subjected to fine bubbles by bubble stones (not shown), and finally uniformly distributed throughout the fishing pond. corner.

參閱圖7之本發明涉及初生態氧之清淤及供氧系統之第三實施例。該第三實施例與上述第二實施例之間的不同處在於，該第三實施例還包含一個二氧化錳(MnO ₂)淨水槽91。 The invention of Figure 7 relates to a third embodiment of a dredging and oxygen supply system for nascent oxygen. The difference between the third embodiment and the second embodiment described above is that the third embodiment further comprises a manganese dioxide (MnO ₂ ) clean water tank 91.

該二氧化錳淨水槽91用以接收來自該水槽7之槽出口73之已清淤水，並將該已清淤水以二氧化錳淨化，再與該第二引火裝置82所產生的初生態氧混合，繼而提供至該高壓出水裝置3加壓。The manganese dioxide clean water tank 91 is configured to receive the dredged water from the tank outlet 73 of the water tank 7, and purify the cleaned water with manganese dioxide, and the initial ecology generated by the second fire-extinguishing device 82. The oxygen is mixed and then supplied to the high pressure water discharge device 3 for pressurization.

綜上所述，本發明第一實施例中的第一引火裝置5可利用火星塞產生火花，使得從空氣中產生初生態氧，因而使進入水槽7中的養殖水富含初生態氧，以藉由初生態氧之浮力而使含有雜物、淤泥、飼料或糞便等之淤積物懸浮在該容置空間72內的水面附近(上層或表面)而便於清潔；其次，本發明第二實施例進一步藉由第二引火裝置82，可使提供至該高壓出水裝置3之已清淤水中的初生態氧之含量更高；再者，本發明第三實施例中進一步藉由二氧化錳淨水槽91，可將來自水槽7之已清淤水先以二氧化錳淨化，再與該第二引火裝置93所產生的初生態氧混合，繼而提供至該高壓出水裝置3加壓；所以確實能達成本發明的目的。In summary, the first fire-extinguishing device 5 in the first embodiment of the present invention can generate a spark by using a spark plug to generate nascent oxygen from the air, thereby enriching the culture water entering the water tank 7 with nascent oxygen. The silt containing impurities, sludge, feed, feces, etc. is suspended in the vicinity (upper layer or surface) of the water surface in the accommodating space 72 by buoyancy of the nascent oxygen to facilitate cleaning; secondly, the second embodiment of the present invention Further, the second igniting device 82 can increase the content of the nascent oxygen supplied to the condensed water of the high-pressure water discharge device 3; further, the third embodiment of the present invention further utilizes the manganese dioxide clean water tank. 91, the dredged water from the water tank 7 can be first purified by manganese dioxide, mixed with the nascent oxygen generated by the second igniter 93, and then supplied to the high-pressure water discharge device 3 to pressurize; The purpose of the invention.

惟以上所述者，僅為本發明的實施例而已，當不能以此限定本發明實施的範圍，凡是依本發明申請專利範圍及專利說明書內容所作的簡單的等效變化與修飾，皆仍屬本發明專利涵蓋的範圍內。However, the above is only the embodiment of the present invention, and the scope of the invention is not limited thereto, and all the simple equivalent changes and modifications according to the scope of the patent application and the patent specification of the present invention are still Within the scope of the invention patent.

2‧‧‧養殖水
3‧‧‧高壓出水裝置
31‧‧‧馬達
32‧‧‧減速箱
33‧‧‧齒輪
34‧‧‧齒排
35‧‧‧活塞桿
36‧‧‧氣壓缸
361‧‧‧缸入口
362‧‧‧缸出口
38‧‧‧三通閥
4‧‧‧第一虹吸器
41‧‧‧第一空氣入口
42‧‧‧第一空氣出口
43‧‧‧第一風扇
5‧‧‧第一引火裝置
51‧‧‧火星塞
6‧‧‧抽水幫浦
61‧‧‧水入口
62‧‧‧水出口
7‧‧‧水槽
70‧‧‧濾網
71‧‧‧槽入口
72‧‧‧容置空間
73‧‧‧槽出口
74‧‧‧上蓋
75‧‧‧人孔蓋
81‧‧‧第二虹吸器
811‧‧‧第二空氣入口
812‧‧‧第二空氣出口
813‧‧‧第二風扇
82‧‧‧第二引火裝置
91‧‧‧二氧化錳淨水槽2‧‧‧ farming water
3‧‧‧High pressure water outlet
31‧‧‧Motor
32‧‧‧ Gearbox
33‧‧‧ Gears
34‧‧‧ teeth row
35‧‧‧ piston rod
36‧‧‧Pneumatic cylinder
361‧‧ ‧ cylinder entrance
362‧‧‧Cylinder exit
38‧‧‧Three-way valve
4‧‧‧First syphon
41‧‧‧First air inlet
42‧‧‧First air outlet
43‧‧‧First fan
5‧‧‧First ignition device
51‧‧‧Mars plug
6‧‧‧ pumping pump
61‧‧‧Water inlet
62‧‧‧Water outlet
7‧‧‧Sink
70‧‧‧ filter
71‧‧‧ slot entrance
72‧‧‧ accommodating space
73‧‧‧ slot exit
74‧‧‧Upper cover
75‧‧‧ manhole cover
81‧‧‧Second syphon
811‧‧‧second air inlet
812‧‧‧Second air outlet
813‧‧‧second fan
82‧‧‧Second fire-fighting device
91‧‧‧ Manganese dioxide sink

本發明的其他的特徵及功效，將於參照圖式的實施方式中清楚地呈現，其中： 圖1是一示意圖，說明一習知魚類養殖槽排汙裝置的使用態樣； 圖2是一側視示意圖，說明本發明涉及初生態氧之清淤及供氧系統之第一實施例； 圖3是一立體圖，說明該第一實施例中的一第一虹吸器及一第一引火裝置等元件； 圖4是一俯視圖，說明該第一實施例中的一高壓出水裝置，其中，每一齒排兩端的活塞桿移動至最右邊位置； 圖5是一俯視圖，說明該高壓出水裝置之每一齒排兩端的活塞桿移動至最左邊位置； 圖6是一側視示意圖，說明本發明涉及初生態氧之清淤及供氧系統之第二實施例；及 圖7是一側視示意圖，說明本發明涉及初生態氧之清淤及供氧系統之第三實施例。Other features and advantages of the present invention will be apparent from the embodiments of the appended drawings, wherein: Figure 1 is a schematic diagram illustrating a use of a conventional fish culture tank draining device; Figure 2 is a side view BRIEF DESCRIPTION OF THE DRAWINGS FIG. 3 is a perspective view showing a first syphon and a first ignition device and the like in the first embodiment; FIG. Figure 4 is a plan view showing a high-pressure water discharge device in the first embodiment, wherein the piston rods at both ends of each tooth row are moved to the rightmost position; Figure 5 is a plan view showing each of the high-pressure water discharge devices The piston rod at both ends of the row of teeth moves to the leftmost position; FIG. 6 is a side view showing the second embodiment of the present invention relating to the dredging and oxygen supply system of nascent oxygen; and FIG. 7 is a side view showing The present invention relates to a third embodiment of a dredging and oxygen supply system for nascent oxygen.

2‧‧‧養殖水 2‧‧‧ farming water

3‧‧‧高壓出水裝置 3‧‧‧High pressure water outlet

4‧‧‧第一虹吸器 4‧‧‧First syphon

41‧‧‧第一空氣入口 41‧‧‧First air inlet

42‧‧‧第一空氣出口 42‧‧‧First air outlet

43‧‧‧第一風扇 43‧‧‧First fan

5‧‧‧第一引火裝置 5‧‧‧First ignition device

62‧‧‧水出口 62‧‧‧Water outlet

7‧‧‧水槽 7‧‧‧Sink

70‧‧‧濾網 70‧‧‧ filter

71‧‧‧槽入口 71‧‧‧ slot entrance

72‧‧‧容置空間 72‧‧‧ accommodating space

73‧‧‧槽出口 73‧‧‧ slot exit

74‧‧‧上蓋 74‧‧‧Upper cover

6‧‧‧抽水幫浦 6‧‧‧ pumping pump

61‧‧‧水入口 61‧‧‧Water inlet

75‧‧‧人孔蓋 75‧‧‧ manhole cover

Claims (8)

一種涉及初生態氧之清淤及供氧系統，適用於對漁塭之養殖水清淤及供氧，並包含： 一第一虹吸器，具有一第一空氣入口及一第一空氣出口，並用以將外界空氣從該第一空氣入口吸入，再使該空氣從該第一空氣出口流出； 一第一引火裝置，鄰近該第一虹吸器之該第一空氣出口而設置，並用以接收來自該第一虹吸器之該第一空氣出口的空氣，且用以產生火花使得從該空氣中產生初生態氧； 一抽水幫浦，具有一水入口及一水出口，並用以將該養殖水從該水入口抽入，再使該養殖水從該水出口流出，以與該第一引火裝置所產生的初生態氧混合成為高含氧養殖水；及 一水槽，界定一槽入口、一容置空間及一槽出口，該高含氧養殖水通過該槽入口而進入該容置空間，其中，該高含氧養殖水中之初生態氧之浮力使得該容置空間內的該高含氧養殖水中的淤積物懸浮在該容置空間內的水面附近，因而產生已清淤水從該槽出口流出。A dredging and oxygen supply system involving nascent oxygen, suitable for dredging and supplying oxygen to aquaculture water, and comprising: a first syphon having a first air inlet and a first air outlet, and Taking in outside air from the first air inlet and then flowing the air out of the first air outlet; a first pilot device disposed adjacent to the first air outlet of the first syphon and configured to receive from the first air ejector The air of the first air outlet of the first syphon is used to generate a spark to generate nascent oxygen from the air; a pumping pump having a water inlet and a water outlet for using the culture water from the The water inlet is drawn in, and the aquaculture water is discharged from the water outlet to mix with the nascent oxygen generated by the first pilot device to form high oxygenated aquaculture water; and a water tank defining a tank inlet and a receiving space And a tank outlet, the high oxygenated aquaculture water enters the accommodating space through the inlet of the tank, wherein the buoyancy of the initial ecological oxygen in the high oxygenated culture water makes the high oxygenated culture water in the accommodating space Sludge Suspended in the vicinity of the water surface in the accommodating space, thereby causing the dredged water to flow out from the outlet of the tank. 如請求項第1項所述的涉及初生態氧之清淤及供氧系統，其中，該第一虹吸器還具有一第一風扇，用以將外界空氣從該第一空氣入口吸入，再使該空氣從該第一空氣出口流出。The dredging and oxygen supply system relating to nascent oxygen as described in claim 1, wherein the first syphon further has a first fan for drawing outside air from the first air inlet, and then The air flows out of the first air outlet. 如請求項第1項所述的涉及初生態氧之清淤及供氧系統，其中，該第一引火裝置包括至少一個第一火星塞，其用以產生火花使得從該空氣中產生初生態氧。The dredging and oxygen supply system relating to nascent oxygen as recited in claim 1, wherein the first pilot device includes at least one first spark plug for generating a spark to generate nascent oxygen from the air . 如請求項第1項所述的涉及初生態氧之清淤及供氧系統，還包含一高壓出水裝置，用以將來自該槽出口之該已清淤水加壓並將其供應至該漁塭。The dredging and oxygen supply system relating to nascent oxygen as recited in claim 1 further comprising a high pressure water discharge device for pressurizing the supplied dredged water from the outlet of the tank and supplying the same to the fish Hey. 如請求項第4項所述的涉及初生態氧之清淤及供氧系統，還包含： 一第二虹吸器，具有一第二空氣入口及一第二空氣出口，並用以將該外界空氣從該第二空氣入口吸入，再使該空氣從該第二空氣出口流出；及 一第二引火裝置，鄰近該第二虹吸器之該第二空氣出口而設置，並用以接收來自該第二虹吸器之該第二空氣出口的空氣，且用以產生火花使得從該空氣中產生初生態氧，其中，來自該水槽之該槽出口的已清淤水進一步與該第二引火裝置所產生的初生態氧混合，再提供至該高壓出水裝置加壓。The dredging and oxygen supply system relating to nascent oxygen as described in claim 4, further comprising: a second syphon having a second air inlet and a second air outlet for using the outside air The second air inlet is drawn in, and the air is discharged from the second air outlet; and a second ignition device is disposed adjacent to the second air outlet of the second syphon and is configured to receive from the second syphon The air of the second air outlet is used to generate a spark to generate nascent oxygen from the air, wherein the dredged water from the trough outlet of the trough is further associated with the initial ecology generated by the second pilot device The oxygen is mixed and supplied to the high pressure water discharge device for pressurization. 如請求項第5項所述的涉及初生態氧之清淤及供氧系統，其中，該第二虹吸器還具有一第二風扇，用以將外界空氣從該第二空氣入口吸入，再使該空氣從該第二空氣出口流出。The dredging and oxygen supply system relating to nascent oxygen as described in claim 5, wherein the second syphon further has a second fan for drawing outside air from the second air inlet, and then The air flows out of the second air outlet. 如請求項第5項所述的涉及初生態氧之清淤及供氧系統，其中，該第二引火裝置包括至少一個第二火星塞，其用以產生火花使得從該空氣中產生初生態氧。The dredging and oxygen supply system relating to nascent oxygen as recited in claim 5, wherein the second pilot device comprises at least one second spark plug for generating a spark to generate nascent oxygen from the air . 如請求項第5項所述的涉及初生態氧之清淤及供氧系統，還包含： 一個二氧化錳淨水槽，用以接收來自該水槽之槽出口之已清淤水，並將該已清淤水先以二氧化錳淨化。，再與該第二引火裝置所產生的初生態氧混合，繼而提供至該高壓出水裝置加壓。The dredging and oxygen supply system relating to nascent oxygen as recited in claim 5, further comprising: a manganese dioxide clean water tank for receiving the dredged water from the trough outlet of the trough, and The dredged water is first purified with manganese dioxide. And mixing with the nascent oxygen generated by the second ignition device, and then providing the high pressure water discharge device for pressurization.