TW201511670A - Dredging and oxygen-supplying device - Google Patents
Dredging and oxygen-supplying device Download PDFInfo
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- TW201511670A TW201511670A TW102134123A TW102134123A TW201511670A TW 201511670 A TW201511670 A TW 201511670A TW 102134123 A TW102134123 A TW 102134123A TW 102134123 A TW102134123 A TW 102134123A TW 201511670 A TW201511670 A TW 201511670A
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Description
本發明是有關於一種清潔及供氧設備,特別是指一種能有效清除養殖池底部沉澱物及能增加水中的含氧量之清淤及供氧設備。 The invention relates to a cleaning and oxygen supply device, in particular to a dredging and oxygen supply device capable of effectively removing sediment at the bottom of the culture tank and increasing the oxygen content in the water.
在水產養殖的過程中,未食用完之餌料、養殖生物之排洩物、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並堆積於養殖池的池底,引起池水優氧化或是影響水中藻相,輕者會抑制養殖物的生長,過度污染的養殖水,則會造成水中生物患病而死亡。因此,如何清潔養殖池以使水質維持一定程度之潔淨品質,乃為相關業者所重視的課題之一。 In the process of aquaculture, uneaten bait, excrement of cultured organisms, debris from the surface of the water, or organic matter after decomposition of microorganisms will gradually settle and accumulate in the bottom of the pond, causing pool water. Excellent oxidation or affecting the algae phase in the water, lighter will inhibit the growth of the culture, excessively contaminated aquaculture water, will cause the organism in the water to die and die. Therefore, how to clean the culture pond to maintain a certain degree of clean quality of water quality is one of the topics that the relevant industry pays attention to.
參閱圖1,即為一種傳統的魚類養殖槽排污裝置主要是在一養殖槽11中豎立一排污管12,另於排污管12外層倒置設有一套筒13,藉以將排污管12之入水口121與養殖水2的液面區隔,該套筒13下方與養殖槽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,使套筒13內部與養殖槽11維持水位平衡。在養殖的過程中,持續對養殖槽11加水至水位滿過排污管12之入水口121 之狀態下,可在套筒13之阻擋下,限制養殖水2僅能經由套筒13下方的通孔131流入套筒13內部,再經由排污管12排出養殖槽11。 Referring to FIG. 1 , a conventional fish culture tank sewage discharge device mainly comprises a sewage pipe 12 erected in a culture tank 11 , and a sleeve 13 is arranged on the outer layer of the sewage pipe 12 to thereby connect the water inlet 121 of the sewage pipe 12 . The liquid level of the culture water 2 is separated, and a through hole 131 is provided between the sleeve 13 and the bottom of the culture tank 11 for the culture water 2 to flow into the sleeve 13, so that the inside of the sleeve 13 and the culture tank 11 maintain the water level. balance. In the process of breeding, water is continuously added to the culture tank 11 until the water level fills the water inlet 121 of the sewage pipe 12 In this state, under the blockage of the sleeve 13, the culture water 2 can be restricted from flowing into the inside of the sleeve 13 only through the through hole 131 below the sleeve 13, and the culture tank 11 can be discharged through the drain pipe 12.
然而,上述傳統的魚類養殖槽排污裝置單靠水流或水中生物的擾動作用以將養殖槽11底部沉澱物帶出的效果相當有限,致使整個排污作業效果不如預期理想,還必須仰賴人工方式定期將養殖槽11放空後清理,若在養殖過程中魚類尚未達到收獲的程度就必須清理,不但相當麻煩,而且換水後魚類需重新適應水質,也會影響到魚類的生長。 However, the above-mentioned conventional fish culture tank sewage disposal device relies solely on the flow of water or aquatic organisms to take out the sediment at the bottom of the culture tank 11 and has a limited effect, so that the entire sewage discharge operation is not as good as expected, and it must be periodically determined by manual means. The culture tank 11 is cleaned after being emptied. If the fish has not reached the harvest level during the breeding process, it must be cleaned up, which is not only very troublesome, but also the fish need to re-adapt to the water quality after changing the water, which will also affect the growth of the fish.
再者,當養殖池的水質維持一定程度之潔淨品質後,業者還必須經常利用一供氧水車對養殖池內的養殖水進行撥水、揚水動作,藉以將空氣打入水中,以增加養殖水的含氧量,使得該養殖池的養殖物生長較快。 Furthermore, when the water quality of the culture pond maintains a certain degree of clean quality, the operator must also frequently use an oxygen-supply water tank to divert water and lift water from the culture water in the culture pond, thereby driving the air into the water to increase the culture water. The oxygen content makes the culture of the culture pond grow faster.
承上所述,因傳統對養殖池去除沈積雜質,及將養殖池的水與空氣混合以使水中含氧量增加,必須利用二種不同設備及不同的操作方式,因此造成使用成本的增加,且使用便利性不佳。 As mentioned above, due to the traditional removal of sedimentary impurities from the culture pond and the mixing of water and air in the culture pond to increase the oxygen content in the water, it is necessary to use two different equipments and different operation modes, thereby causing an increase in the use cost. And the convenience of use is not good.
因此,本發明之目的,即在提供一種能用於清淤作業,也能用於增加水中的含氧量之清淤及供氧設備。 Accordingly, it is an object of the present invention to provide a dredging and oxygen supply apparatus which can be used for dredging operations and which can also be used to increase the oxygen content of water.
於是,本發明清淤及供氧設備,包含一汲取單元、一進水單元,以及一導水單元。 Thus, the dredging and oxygen supply apparatus of the present invention comprises a pumping unit, a water inlet unit, and a water guiding unit.
該汲取單元包括一汲取管、一連設於該汲取管 中的汲取螺桿,及一受控制地驅動該汲取螺桿的動力源,該汲取管具有一用以伸入於一外界水液的液面下之汲取端,及一相反於該汲取端之開口端。 The capturing unit includes a dip tube and a connecting tube a pumping screw, and a power source for controllingly driving the picking screw, the picking tube has a picking end for extending into a liquid surface of an external liquid, and an opening end opposite to the picking end .
該進水單元包括一連設於該汲取管的該汲取端之進水管,以及多數設於該進水管底部之撐立元件,該進水管具有一與該汲取管相連通之流通空間、至少一用以使所述外界水液流入該流通空間之輸入孔,以及一用以與該汲取管的汲取端相對應之輸入端,該動力源驅動該汲取螺桿及該汲取管旋轉以使流入該流通空間中的水液能由該輸入端進入該汲取管,並由該汲取管之該汲取端朝該開口端移動。 The water inlet unit includes an inlet pipe connected to the pumping end of the dip tube, and a plurality of supporting members disposed at the bottom of the inlet pipe, the inlet pipe having a circulation space communicating with the dip tube, at least one An input hole for flowing the external water into the circulation space, and an input end corresponding to the pick-up end of the dip tube, the power source driving the take-up screw and the dip tube to rotate to flow into the circulation space The water in the liquid can enter the dip tube from the input end, and the pumping end of the dip tube moves toward the open end.
該導水單元設置於該汲取管的開口端並用以導引由該汲取管的開口端流出的水液向外排放。 The water guiding unit is disposed at the open end of the dip tube and is configured to guide the water discharged from the open end of the dip tube to discharge outward.
本發明之功效在於能應用於養殖池之清淤及供氧,當用於清淤使用時,利用該動力源驅動該汲取螺桿以連動該汲取管同步旋轉,以使養殖池內的污水能通過該進水管、該汲取管,進而透過該導水單元向外排放,另外,當用於供氧時,則可藉由上述方式汲取養殖池內的乾淨水液並朝養殖池內輸出以產生拍打作用,藉此增加水中的含氧量。如此,整體構造設計不僅能夠有效減少能量損耗,且清淤效果及供氧效果極佳,更讓使用者不必再備置二種不同的設備以進行清淤或供氧作業,能有效降低使用成本,且提昇使用便利性。 The utility model has the advantages that the utility model can be applied to the dredging and oxygen supply of the culture pond, and when used for dredging, the power source is used to drive the pumping screw to synchronously rotate the dip tube to enable the sewage in the culture tank to pass through the The water inlet pipe and the dip pipe are further discharged to the outside through the water guiding unit. In addition, when used for oxygen supply, the clean water in the culture tank can be extracted by the above method and outputted into the culture pond to generate a tapping effect. Thereby increasing the oxygen content in the water. In this way, the overall structural design can not only effectively reduce the energy loss, but also the dredging effect and the oxygen supply effect are excellent, and the user does not need to prepare two different devices for dredging or oxygen supply operation, thereby effectively reducing the use cost. And improve the convenience of use.
3‧‧‧汲取單元 3‧‧‧Capture unit
31‧‧‧汲取管 31‧‧‧Selection tube
311‧‧‧汲取端 311‧‧‧汲取端
312‧‧‧開口端 312‧‧‧Open end
32‧‧‧汲取螺桿 32‧‧‧Select screw
33‧‧‧動力源 33‧‧‧Power source
34‧‧‧軸承 34‧‧‧ bearing
35‧‧‧滾珠軸承 35‧‧‧Ball bearings
4‧‧‧進水單元 4‧‧‧Inlet unit
41‧‧‧進水管 41‧‧‧ water inlet
411‧‧‧流通空間 411‧‧‧Circulation space
412‧‧‧輸入孔 412‧‧‧Input hole
413‧‧‧輸入端 413‧‧‧ input
42‧‧‧撐立元件 42‧‧‧Support elements
43‧‧‧鎖固元件 43‧‧‧Locking components
44‧‧‧連接管 44‧‧‧Connecting tube
45‧‧‧側接管 45‧‧‧ side take over
5‧‧‧導水單元 5‧‧‧Water guide unit
51‧‧‧導引管 51‧‧‧ Guide tube
511‧‧‧安裝孔 511‧‧‧ mounting holes
512‧‧‧輸出口 512‧‧‧ output
52‧‧‧排放管 52‧‧‧Draining tube
53‧‧‧上止漏環 53‧‧‧Top stop loop
54‧‧‧下止漏環 54‧‧‧Lower leak ring
55‧‧‧噴頭 55‧‧‧ sprinkler
551‧‧‧噴嘴 551‧‧‧Nozzles
56‧‧‧出水管 56‧‧‧Outlet
561‧‧‧出水孔 561‧‧‧ water outlet
57‧‧‧盆體 57‧‧‧ basin
571‧‧‧貫孔 571‧‧‧through holes
58‧‧‧定位架 58‧‧‧ Positioning frame
581‧‧‧臂桿 581‧‧‧Boom
582‧‧‧基座 582‧‧‧Base
59‧‧‧切水扇葉 59‧‧‧cutting water blades
6‧‧‧支撐單元 6‧‧‧Support unit
61‧‧‧安裝架 61‧‧‧ Mounting frame
611‧‧‧承載板 611‧‧‧Loading board
612‧‧‧腳桿 612‧‧‧foot
613‧‧‧穿孔 613‧‧‧Perforation
62‧‧‧支撐架 62‧‧‧Support frame
621‧‧‧底板 621‧‧‧floor
622‧‧‧接合筒 622‧‧‧joint tube
623‧‧‧圍立件 623‧‧‧Wings
624‧‧‧通孔 624‧‧‧through hole
63‧‧‧安裝架 63‧‧‧ Mounting frame
631‧‧‧支桿 631‧‧‧ pole
64‧‧‧安裝架 64‧‧‧ Mounting bracket
65‧‧‧漂浮單元 65‧‧‧Floating unit
651‧‧‧浮體 651‧‧‧ floating body
652‧‧‧束縛件 652‧‧‧Bounding parts
653‧‧‧設置部 653‧‧‧Setting Department
654‧‧‧凹槽 654‧‧‧ Groove
655‧‧‧容納空間 655‧‧‧ accommodation space
7‧‧‧虹吸單元 7‧‧‧Siphon unit
71‧‧‧輸氣管 71‧‧‧ gas pipeline
72‧‧‧虹吸產生器 72‧‧‧Siphon generator
73‧‧‧控制閥 73‧‧‧Control valve
900‧‧‧養殖池 900‧‧‧ breeding pond
901‧‧‧水液 901‧‧‧Water
902‧‧‧繩索 902‧‧‧ rope
903‧‧‧船筏 903‧‧‧Ship
904‧‧‧池底 904‧‧‧ bottom
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是一使用示意圖,說明一種傳統的魚類養殖槽排污裝置的使用態樣;圖2是一側視之局部剖面示意圖,說明本發明清淤及供氧設備之第一較佳實施例;圖3是一使用示意圖,說明該第一較佳實施例之使用態樣;圖4是一示意圖,說明本發明清淤及供氧設備之第二較佳實施例;圖5是一示意圖,說明本發明清淤及供氧設備之第三較佳實施例;圖6是一側視之局部剖面示意圖,說明本發明清淤及供氧設備之第四較佳實施例;圖7是一側視之局部剖面示意圖,說明本發明清淤及供氧設備之第五較佳實施例;圖8是一側視之局部剖面示意圖,說明本發明清淤及供氧設備之第六較佳實施例;圖9是一使用示意圖,說明該第六較佳實施例之使用態樣;圖10是一側視之局部剖面示意圖,輔助說明圖8、9,圖中顯示一連接管呈伸展態樣;圖11是一示意圖,說明本發明清淤及供氧設備之第七較佳實施例; 圖12是一側視之局部剖面示意圖,說明本發明清淤及供氧設備之第八較佳實施例;圖13是一俯視示意圖,輔助說明圖12;圖14是一俯視示意圖,說明本發明清淤及供氧設備之第九較佳實施例;圖15是一俯視之部份分解示意圖,說明本發明清淤及供氧設備之第十較佳實施例,圖中顯示每一浮體內側各形成有一凹槽;圖16是一俯視之組合示意圖,輔助說明圖15,圖中顯示該等浮體彼此對接後,該等凹槽並能共同界定出一容納空間;以及圖17是一側視之局部剖面示意圖,說明本發明清淤及供氧設備之第十一較佳實施例。 Other features and effects of the present invention will be apparent from the following description of the drawings. FIG. 1 is a schematic diagram showing the use of a conventional fish culture tank sewage disposal device; BRIEF DESCRIPTION OF THE DRAWINGS FIG. 3 is a schematic view showing the use of the first preferred embodiment; FIG. 4 is a schematic view showing the first preferred embodiment of the present invention; FIG. A second preferred embodiment of the dredging and oxygen supply apparatus of the present invention; FIG. 5 is a schematic view showing a third preferred embodiment of the dredging and oxygen supply apparatus of the present invention; and FIG. 6 is a partial cross-sectional view of the side view. A fourth preferred embodiment of the dredging and oxygen supply apparatus of the present invention; FIG. 7 is a partial cross-sectional side view showing the fifth preferred embodiment of the dredging and oxygen supply apparatus of the present invention; The sixth preferred embodiment of the dredging and oxygen supply device of the present invention is illustrated in a partial cross-sectional view; FIG. 9 is a schematic view showing the use of the sixth preferred embodiment; FIG. 10 is a side view. Partial profile diagram, auxiliary explanation 8 and 9, there is shown a connecting pipe was extended configuration; FIG. 11 is a schematic view illustrating a seventh preferred embodiment of the dredging apparatus of the present invention, and oxygen; Figure 12 is a side elevational view, partly in section, showing an eighth preferred embodiment of the dredging and oxygen supply apparatus of the present invention; Figure 13 is a top plan view, with assistance in the description of Figure 12; Figure 14 is a top plan view illustrating the present invention A ninth preferred embodiment of a dredging and oxygen supply apparatus; Fig. 15 is a partially exploded perspective view showing a tenth preferred embodiment of the dredging and oxygen supply apparatus of the present invention, showing the inside of each floating body Each of the grooves is formed with a groove; FIG. 16 is a schematic plan view of a top view, which is a supplementary view of FIG. 15, which shows that the floating bodies can collectively define a receiving space after the floating bodies are butted together; and FIG. The eleventh preferred embodiment of the dredging and oxygen supply apparatus of the present invention will be described with reference to a partial cross-sectional view.
在本發明被詳細描述之前,要注意的是,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 is noted that in the following description, similar elements are denoted by the same reference numerals.
參閱圖2、3,為本發明清淤及供氧設備之第一較佳實施例,該清淤及供氧設備包含一汲取單元3、一進水單元4,以及一導水單元5。 Referring to Figures 2 and 3, there is shown a first preferred embodiment of the dredging and oxygen supply apparatus of the present invention. The dredging and oxygen supply apparatus comprises a pumping unit 3, a water inlet unit 4, and a water guiding unit 5.
該汲取單元3包括一汲取管31、一連設於該汲取管31中的汲取螺桿32、一受控制地驅動該汲取螺桿32並連動該汲取管31同步旋轉的動力源33、一設於該汲取螺桿32的上端之軸承34,以及一滾珠軸承35。該汲取管31為兩端呈開放狀之中空管體,其具有一用以伸入於外界水 液的液面下之汲取端311,及一相反於該汲取端311之開口端312。 The pumping unit 3 includes a dipper tube 31, a dipper screw 32 connected to the dip tube 31, a power source 33 that controls the scooping screw 32 to be synchronously rotated, and a power source 33 that is synchronously rotated. A bearing 34 at the upper end of the screw 32, and a ball bearing 35. The dip tube 31 is a hollow tube body which is open at both ends and has a water tube for extending into the outside water. The liquid-side draining end 311 of the liquid, and an open end 312 opposite to the pick-up end 311.
該進水單元4包括一進水管41、多數設於該進水管41底部之撐立元件42、多數鎖固元件43,以及一連接管44。該進水管41是呈T形管體狀,其具有一流通空間411、多數形成於底部之輸入孔412,以及一用以與該汲取管31的汲取端311相對應之輸入端413。該連接管44是連設於該進水管41之輸入端413與該汲取管31的汲取端311間,且在本實施例中,該連接管44為長度可伸縮調整之伸縮管形態,但不以此為限。 The water inlet unit 4 includes an inlet pipe 41, a plurality of strut members 42 disposed at the bottom of the inlet pipe 41, a plurality of locking members 43, and a connecting pipe 44. The inlet pipe 41 has a T-shaped tubular shape and has a flow space 411, a plurality of input holes 412 formed at the bottom, and an input end 413 for corresponding to the extraction end 311 of the dip tube 31. The connecting pipe 44 is connected between the input end 413 of the water inlet pipe 41 and the pumping end 311 of the dip tube 31. In the embodiment, the connecting pipe 44 is a telescopic tube shape with a length adjustable and adjustable, but not This is limited to this.
該導水單元5包括一水平設置於該汲取管31的開口端312之導引管51、一與該導引管51相連接之排放管52、一上止漏環53,以及一下止漏環54。該導引管51具有一安裝孔511,以及一與該排放管52相通之輸出口512,該上止漏環53套設於該汲取管31頂端並定位於該導引管51之安裝孔511處。另外,該汲取單元3之汲取螺桿32上端並貫穿導引管51且與位於導引管51外側之動力源33相連接,該汲取單元3之軸承34設置於該汲取螺桿32的上端與該導引管51間。 The water guiding unit 5 includes a guiding tube 51 horizontally disposed at the open end 312 of the dip tube 31, a discharge tube 52 connected to the guiding tube 51, an upper leakage ring 53, and a lower leakage ring 54. . The guiding tube 51 has a mounting hole 511 and an output port 512 communicating with the discharge tube 52. The upper leakage ring 53 is sleeved on the top end of the dip tube 31 and is disposed in the mounting hole 511 of the guiding tube 51. At the office. In addition, the picking unit 3 picks up the upper end of the screw 32 and penetrates the guiding tube 51 and is connected to the power source 33 located outside the guiding tube 51. The bearing 34 of the picking unit 3 is disposed at the upper end of the picking screw 32 and the guide. Guided 51 rooms.
該清淤及供氧設備還包含一支撐單元6,該支撐單元6包括一用以立置於一外界承置面(即為後述之養殖池的池底904,見於圖3)上之安裝架61,以及一設置於該安裝架61上之支撐架62。該安裝架61包括一承載板611,以及多數用以撐立該承載板611之腳桿612,該承載板611 上設有一穿孔613。而該支撐架62包括一定位於該承載板611上之底板621、一定位於底板621上之接合筒622,以及一連接於底板621與導引管51間之圍立件623。底板621上設有多數通孔624,且該等通孔624與接合筒622所圈圍的空間相對應。另外,上述該下止漏環54套設於該汲取管31之汲取端311並定位於該接合筒622頂端內側。而上述該進水管41之輸入端413則是利用該等鎖固元件43螺鎖定位於連接管44底端,連接管44頂端則是伸置於該穿孔613中並藉另一些鎖固元件43螺鎖定位於該底板621底面,且使接合筒622內部藉由該等通孔624而與連接管44及進水管41內部相通。此外,上述該汲取單元3之該滾珠軸承35是連設於該支撐架62之底板621與該汲取管31之汲取端311間,且使該汲取管31與該汲取螺桿32能相對該支撐架62樞轉。再者,該圍立件623可為筒體形態,或是包括多數相間隔地連接於底板621與導引管51間之桿體形態,在本實施例中是以後者之形態做說明。 The dredging and oxygen supply device further comprises a supporting unit 6 comprising a mounting frame for standing on an external receiving surface (ie, the bottom 904 of the breeding pond described later, see FIG. 3). 61, and a support frame 62 disposed on the mounting bracket 61. The mounting bracket 61 includes a carrier plate 611 and a plurality of foot bars 612 for supporting the carrier plate 611. The carrier plate 611 A through hole 613 is provided on the upper surface. The support frame 62 includes a bottom plate 621 located on the support plate 611, an engagement tube 622 located on the bottom plate 621, and a surrounding member 623 connected between the bottom plate 621 and the guide tube 51. A plurality of through holes 624 are defined in the bottom plate 621, and the through holes 624 correspond to the space enclosed by the engaging cylinders 622. In addition, the lower leakage ring 54 is sleeved on the capturing end 311 of the dip tube 31 and positioned inside the top end of the engaging cylinder 622. The input end 413 of the inlet pipe 41 is screwed to the bottom end of the connecting pipe 44 by the locking elements 43. The top end of the connecting pipe 44 extends into the through hole 613 and is screwed by another locking component 43. The bottom surface of the bottom plate 621 is locked, and the inside of the joint cylinder 622 is communicated with the inside of the connecting pipe 44 and the water inlet pipe 41 through the through holes 624. In addition, the ball bearing 35 of the picking unit 3 is connected between the bottom plate 621 of the support frame 62 and the pick-up end 311 of the dip tube 31, and the dip tube 31 and the scooping screw 32 can be opposite to the support frame. 62 pivots. Furthermore, the surrounding member 623 may be in the form of a cylinder or a rod body which is connected to the bottom plate 621 and the guiding tube 51 at a plurality of intervals. In the present embodiment, the latter is described.
在使用上,該清淤及供氧設備可應用於養殖池之清淤作業,如圖3所示,將該清淤及供氧設備置入一養殖池900中,該等撐立元件42及該等腳桿612並抵置於養殖池900的池底904(即上述之外界承置面),藉此頂撐該進水管41底部與池底904間隔一段距離。利用該動力源33驅動該汲取螺桿32並連動該汲取管31同步旋轉,藉此吸引養殖池900深處的水液901可由進水管41之該等輸入孔412流入該流通空間411,進而通過進水管41之輸入端 413、該連接管44、該等通孔624、接合筒622,並沿著該汲取螺桿32由汲水管31之汲取端311朝該開口端312移動,進入該導引管51,進一步經排放管52之導引而向外排放,以達到有效清淤之作用。 In use, the dredging and oxygen supply equipment can be applied to the dredging operation of the culture tank. As shown in FIG. 3, the dredging and oxygen supply equipment is placed in a culture tank 900, and the support members 42 and the The foot rod 612 is placed against the bottom 904 of the culture tank 900 (i.e., the outer boundary receiving surface), whereby the bottom of the inlet pipe 41 is spaced apart from the bottom 904 by a distance. The power source 33 drives the pumping screw 32 and synchronously rotates the dip tube 31, thereby sucking the water liquid 901 deep in the culture tank 900 into the circulation space 411 through the input holes 412 of the water inlet pipe 41, and then passing through Input end of water pipe 41 413, the connecting pipe 44, the through holes 624, the engaging cylinder 622, and moved along the drawing screw 32 from the drawing end 311 of the water pipe 31 toward the opening end 312, enters the guiding pipe 51, and further passes through the discharge pipe. Guided by 52, it is discharged to the outside to achieve effective dredging.
利用該汲取螺桿32之旋轉來汲水及送水,相較於一般泵浦而言,可有效節省能源,並且省力,更能提升整體效率。另外,因進水管41之該等輸入孔412接近養殖池900的池底904,因此能確實汲取沉積於池底904之未食用的飼料、養殖生物之排泄物等污物,進而予以清除,而且不會對養殖池900中的養殖生物造成驚嚇干擾或傷害。 By using the rotation of the pumping screw 32 to drown and deliver water, compared with the general pump, energy can be saved, labor saving, and overall efficiency can be improved. In addition, since the input holes 412 of the inlet pipe 41 are close to the bottom 904 of the aquaculture tank 900, it is possible to surely extract the uneaten feed deposited on the bottom 904, the excrement of the cultured organism, and the like, and then remove it, and There will be no frightening interference or injury to the cultured organisms in the culture pond 900.
特別說明的是,該排放管52也可藉由安裝一過濾袋(圖未示),以收集該等污物。 Specifically, the discharge pipe 52 can also collect the dirt by installing a filter bag (not shown).
參閱圖4,為本發明清淤及供氧設備之第二較佳實施例,本較佳實施例與第一較佳實施例大致相同,不同的地方在於還包含一虹吸單元7,該虹吸單元7包括一輸氣管71、一設置於該輸氣管71一端之虹吸產生器72,以及一設於該輸氣管71並用以調控氣流大小之控制閥73。該進水單元4還包含一自該連接管44外壁面傾斜向下延伸之側接管45,該輸氣管7另一端則與該側接管45相連接,藉此該動力源33驅動該汲取螺桿32及該汲取管31旋轉,以汲取養殖池900(見於圖3)深處的水液901(見於圖3)之際,會對該輸氣管71產生虹吸作用力,進而使該虹吸產生器72虹吸外界空氣輸入該輸氣管71並由該側接管45導入該連接管44中,至於通過該輸氣管71之氣流大小可藉由操作 該控制閥73而進行控制。 Referring to FIG. 4, a second preferred embodiment of the dredging and oxygen supply device of the present invention is substantially the same as the first preferred embodiment, and further includes a siphon unit 7, the siphon unit. 7 includes a gas pipe 71, a siphon generator 72 disposed at one end of the gas pipe 71, and a control valve 73 disposed on the gas pipe 71 for regulating the size of the gas flow. The water inlet unit 4 further includes a side pipe 45 extending obliquely downward from the outer wall surface of the connecting pipe 44, and the other end of the gas pipe 7 is connected with the side pipe 45, whereby the power source 33 drives the drawing screw 32. And the dip tube 31 is rotated to capture the water liquid 901 (see FIG. 3) deep in the culture tank 900 (see FIG. 3), and a siphon force is generated on the gas pipeline 71, thereby siphoning the siphon generator 72. The outside air is input into the gas pipe 71 and introduced into the connecting pipe 44 by the side pipe 45, so that the gas flow through the gas pipe 71 can be operated by This control valve 73 is controlled.
藉此可使含有污物的水液901(見於圖3)加速地沿著該汲取螺桿32由汲水管31之汲取端311朝該開口端312移動,進而經由導引管51、排放管52向外排放,不但同樣能達到有效清淤之功效,更能縮短清淤作業的時間。 Thereby, the water-containing liquid 901 (see FIG. 3 ) containing the dirt can be accelerated along the drawing screw 32 from the pumping end 311 of the water tube 31 toward the open end 312, and further via the guiding tube 51 and the discharge tube 52. External discharge can not only achieve the effect of effective dredging, but also shorten the time of dredging operation.
參閱圖5,為本發明清淤及供氧設備之第三較佳實施例,本較佳實施例與第二較佳實施例大致相同,不同的地方在於該側接管45是設置該導水單元5之導引管51外壁,且亦呈傾斜向下。藉此由汲水管31之開口端312流入導引管51之含有污物的水液901(見於圖3)可加速地通過導引管51、排放管52並向外排放。 Referring to FIG. 5, a third preferred embodiment of the dredging and oxygen supply device of the present invention is substantially the same as the second preferred embodiment. The difference is that the side pipe 45 is provided with the water guiding unit 5. The outer wall of the guiding tube 51 is also inclined downward. Thereby, the dirt-containing aqueous liquid 901 (see FIG. 3) which flows into the guide tube 51 from the open end 312 of the water tube 31 can be acceleratedly discharged through the guide tube 51, the discharge tube 52, and discharged outward.
參閱圖6,為本發明清淤及供氧設備之第四較佳實施例,本較佳實施例與第一較佳實施例大致相同,不同的地方在於該支撐單元6之安裝架63包括多數支桿631,該等支桿631的頂端定位於該支撐架62之該圍立件623外側,該等支桿631的底端則是用以抵置於養殖池900(見於圖3)的池底904(見於圖3)。至於該進水管41之輸入端413也是利用該等鎖固元件43螺鎖定位於支撐架62之底板621底面,且使接合筒622內部亦能藉由該等通孔624而與連接管44及進水管41內部相通。本較佳實施例提供另一種支撐單元6的態樣,同樣能達到與第一較佳實施例相同之功效。 Referring to FIG. 6, a fourth preferred embodiment of the dredging and oxygen supply device of the present invention is substantially the same as the first preferred embodiment, except that the mounting frame 63 of the support unit 6 includes a majority. a struts 631, the top ends of the struts 631 are positioned outside the stand 623 of the support frame 62, and the bottom ends of the struts 631 are used to abut the bottom of the culture tank 900 (see Fig. 3). 904 (see Figure 3). The input end 413 of the water inlet pipe 41 is also screwed to the bottom surface of the bottom plate 621 of the support frame 62 by the locking elements 43, and the interior of the joint cylinder 622 can also be connected to the connecting pipe 44 by the through holes 624. The water pipes 41 are internally connected. The preferred embodiment provides another aspect of the support unit 6, which also achieves the same effects as the first preferred embodiment.
參閱圖7,為本發明清淤及供氧設備之第五較佳實施例,本較佳實施例與第一較佳實施例大致相同,不同 的地方在於該進水管41為軟質蛇管形態,具有一流通空間411、一位於一端之輸入孔412,以及一位於另一端之輸入端413,且該輸入端413亦是利用該等鎖固元件43螺鎖定位於支撐架62之底板621底面。在使用上,該進水管41伸置於養殖池900(見於圖3)的池底904(見於圖3),並同時兼具有前述撐立元件42(見於圖3)之功能。另外,只要動力源33的馬力與輸入孔412的口徑搭配得宜的話,汲取單元3運作時,同樣能使養殖池900內含有污物的水液901由輸入孔412輸入,進而沿著該汲取螺桿32由汲水管31之汲取端311朝該開口端312移動,進而經由導引管51、排放管52向外排放,以達到與第一較佳實施例相同之功效。 Referring to FIG. 7, a fifth preferred embodiment of the dredging and oxygen supply device of the present invention is substantially the same as the first preferred embodiment. The inlet pipe 41 is in the form of a soft coil, and has a flow space 411, an input hole 412 at one end, and an input end 413 at the other end, and the input end 413 also utilizes the locking elements 43. The screw lock is located on the bottom surface of the bottom plate 621 of the support frame 62. In use, the inlet tube 41 extends into the bottom 904 of the culture tank 900 (see Fig. 3) (see Fig. 3) and also functions as the aforementioned strut member 42 (see Fig. 3). In addition, as long as the horsepower of the power source 33 is properly matched with the diameter of the input hole 412, when the pumping unit 3 is operated, the water liquid 901 containing the dirt in the culture tank 900 can also be input through the input hole 412, and then along the drawing screw. 32 is moved toward the open end 312 by the suction end 311 of the water tube 31, and is discharged outward through the guide tube 51 and the discharge tube 52 to achieve the same effect as the first preferred embodiment.
參閱圖8、9,為本發明清淤及供氧設備之第六較佳實施例,本較佳實施例與第一較佳實施例大致相同,不同的地方在於還包含一設置於該支撐單元62外側且能漂浮於養殖池900內的水液901的液面上之漂浮單元65,漂浮單元65包括多數浮體651。該支撐單元6之安裝架64圍設於支撐架62之圍立件623外側,並用以承載定位該等浮體651。另外,在本較佳實施例中,該等撐立元件42為滾輪。再者,該導水單元5包括一呈半球殼狀且連設於該導引管51之噴頭55,以及多數出水管56,該噴頭55具有多數用以使該導引管51內的水液向外噴出之噴嘴551,且各該噴嘴551與各該出水管56一端相連接,每一出水管56上設有多數出水孔561,且該等出水管56為軟水管形態。 8 and 9 are a sixth preferred embodiment of the dredging and oxygen supply device of the present invention. The preferred embodiment is substantially the same as the first preferred embodiment, and further includes a device disposed on the support unit. The floating unit 65 on the outer surface of the liquid water 901 which is outside and floats in the culture tank 900, and the floating unit 65 includes a plurality of floating bodies 651. The mounting bracket 64 of the support unit 6 is disposed outside the stand 623 of the support frame 62 and is used to carry the positioning of the floating body 651. Additionally, in the preferred embodiment, the support members 42 are rollers. Furthermore, the water guiding unit 5 includes a head 55 which is in the shape of a hemispherical shell and is connected to the guiding tube 51, and a plurality of water outlet pipes 56. The head 55 has a plurality of water and liquid in the guiding tube 51. The nozzles 551 are sprayed out, and each of the nozzles 551 is connected to one end of each of the outlet pipes 56. Each of the outlet pipes 56 is provided with a plurality of outlet holes 561, and the outlet pipes 56 are in the form of a soft water pipe.
藉此當利用前述任一實施例之清淤及供氧設備 完成清淤作業後,可進一步使用本較佳實施例之清淤及供氧設備對養殖池900中的水液901實施供氧作業,做法是藉由漂浮單元65之設置,使得於該清淤及供氧設備能漂浮於養殖池900內的水液901的液面上,利用一繩索902的兩端分別綁繫於一船筏903與該清淤及供氧設備之支撐單元6,且使該等出水管56伸置於養殖池900之池底904,再利用船筏903行駛於養殖池900內,以帶動該清淤及供氧設備藉由該等撐立元件42於養殖池900的池底滾動而位移,同時配合該動力源33驅動該汲取螺桿32及該汲水管31旋轉,使養殖池900中的水液901可由進水管41之該等輸入孔412流入該流通空間411,進而通過進水管41之輸入端413、該連接管44、該等通孔624、接合筒622,並沿著該汲取螺桿32由汲水管31之汲取端311朝該開口端312移動,進入該導引管51,再由噴頭55之該等噴嘴551輸入該等出水管56,並由該等出水孔561噴出以對養殖池900內的水液901產生打氣作用,因而形成自養殖池900底部向上冒出之氣泡,藉此增加水中的含氧量,尤其能改善養殖池900底部較易缺氧的問題,有別於習知供氧水車只拍打養殖池900中的水液901之液面,本發明之供氧效率明顯更佳。 Thereby using the dredging and oxygen supply equipment of any of the foregoing embodiments After the dredging operation is completed, the water supply 901 in the culture tank 900 may be further subjected to an oxygen supply operation by using the dredging and oxygen supply equipment of the preferred embodiment, by the setting of the floating unit 65, so that the dredging is performed. And the oxygen supply device can float on the liquid surface of the water liquid 901 in the culture tank 900, and the two ends of a rope 902 are respectively tied to a ship 筏 903 and the support unit 6 of the dredging and oxygen supply device, and The outlet pipes 56 extend into the bottom 904 of the aquaculture tank 900 and are then driven by the vessel 903 in the aquaculture tank 900 to drive the dredging and oxygen supply equipment to the aquaculture tank 900 by the support members 42. The bottom of the pool is rolled and displaced, and the power source 33 drives the pumping screw 32 and the water tube 31 to rotate, so that the water liquid 901 in the culture tank 900 can flow into the circulation space 411 through the input holes 412 of the water inlet pipe 41, and further Through the input end 413 of the inlet pipe 41, the connecting pipe 44, the through holes 624, the engaging cylinder 622, and along the drawing screw 32, the drawing end 311 of the water pipe 31 moves toward the opening end 312 to enter the guiding The tubes 51 are further input into the outlet pipes 56 by the nozzles 551 of the nozzles 55, and The water outlet hole 561 is ejected to generate a pumping effect on the water liquid 901 in the culture tank 900, thereby forming bubbles rising upward from the bottom of the culture tank 900, thereby increasing the oxygen content in the water, and in particular, improving the bottom of the culture tank 900. The problem of lack of oxygen is different from the fact that the conventional oxygen supply water tank only beats the liquid surface of the water liquid 901 in the culture tank 900, and the oxygen supply efficiency of the present invention is remarkably better.
參閱圖9、10,特別說明的是,由於該連接管44為長度可伸縮調整之伸縮管形態,因此當該清淤及供氧設備藉助漂浮單元65而漂浮於養殖池900內的水液901的液面上時,受到進水管41之重力作用,該連接管44會適 當伸展至該等撐立元件42觸及於養殖池900的池底904,且於受到船筏903之拉動而位移的過程中,該連接管44也會同時多方向變位。 Referring to FIGS. 9 and 10, in particular, since the connecting pipe 44 is in the form of a telescopic tube whose length is retractably adjustable, the water liquid 901 floating in the culture tank 900 by the dredging and oxygen supply device by means of the floating unit 65 When the liquid level is affected by the gravity of the inlet pipe 41, the connecting pipe 44 will be suitable. When the extension member 42 is extended to the bottom 904 of the culture tank 900 and is displaced by the pulling of the bow 903, the connecting tube 44 is also displaced in multiple directions.
參閱圖11,為本發明清淤及供氧設備之第七較佳實施例,本較佳實施例與第六較佳實施例大致相同,不同的地方在於還包含一如第二較佳實施例所述之虹吸單元7及側接管45。藉此在供氧使用上,該動力源33驅動該汲取螺桿32及該汲取管31旋轉,以汲取養殖池900(見於圖9)中的水液901(見於圖9)之際,會對該輸氣管71產生虹吸作用力,進而使該虹吸產生器72虹吸外界空氣輸入該輸氣管71並由該側接管45導入該連接管44中。藉此可先增加通過連接管44之水液901的含氧量,並使水液901加速地沿著該汲取螺桿32由汲水管31之汲取端311朝該開口端312移動,進而經由該導引管51、該噴頭5之該等噴嘴551流入該等出水管56,並由該等出水孔561噴出以對養殖池900內的水液901產生打氣作用,藉此不但能達成與第六較佳實施例相同之功效,且本實施例之供氧效率更較第六較佳實施例佳,且能縮短供氧作業的時間。 11 is a seventh preferred embodiment of the dredging and oxygen supply device of the present invention. The preferred embodiment is substantially the same as the sixth preferred embodiment, and the difference is that the second preferred embodiment is further included. The siphon unit 7 and the side joint tube 45. Thereby, in the oxygen supply use, the power source 33 drives the pumping screw 32 and the dip tube 31 to rotate, in order to capture the water liquid 901 (see FIG. 9) in the culture tank 900 (see FIG. 9), The gas pipe 71 generates a siphoning force, which in turn causes the siphon generator 72 to siphon external air into the gas pipe 71 and is introduced into the connecting pipe 44 by the side pipe 45. Thereby, the oxygen content of the water liquid 901 passing through the connecting pipe 44 can be increased first, and the water liquid 901 is acceleratedly moved along the drawing screw 32 from the pumping end 311 of the water tube 31 toward the open end 312, thereby passing through the guide. The nozzles 51 and the nozzles 551 of the nozzles 5 flow into the outlet pipes 56, and are ejected from the outlet holes 561 to generate a pumping effect on the water liquid 901 in the culture tank 900, thereby achieving not only the sixth and the sixth The efficiency of the preferred embodiment is the same, and the oxygen supply efficiency of the present embodiment is better than that of the sixth preferred embodiment, and the time for the oxygen supply operation can be shortened.
參閱圖12、13,為本發明清淤及供氧設備之第八較佳實施例,本較佳實施例與第五較佳實施例大致相同,不同的地方在於該支撐單元6只包括該支撐架62,另外,該清淤及供氧設備還包含一設置於該支撐架62外側且能漂浮於養殖池900內的水液901的液面上之漂浮單元65,此漂浮單元65包括二浮體651,及多數束縛件652。 兩浮體651置於該支撐架62兩相對外側處,利用該等束縛件652將該等浮體651與該支撐架62綁縛定位。藉此提供另一種漂浮單元65的態樣。 Referring to Figures 12 and 13, an eighth preferred embodiment of the dredging and oxygen supply apparatus of the present invention is substantially the same as the fifth preferred embodiment, except that the support unit 6 includes only the support. The floatation and oxygen supply device further includes a floating unit 65 disposed on the liquid surface of the water liquid 901 which is disposed outside the support frame 62 and floats in the culture tank 900. The floating unit 65 includes two floats. Body 651, and a plurality of binding members 652. Two floating bodies 651 are placed at opposite outer sides of the support frame 62, and the floating bodies 651 are bound to the support frame 62 by the binding members 652. Thereby, another aspect of the floating unit 65 is provided.
參閱圖14,為本發明清淤及供氧設備之第九較佳實施例,本較佳實施例與第八較佳實施例大致相同,不同的地方在於該漂浮單元65只包括一浮體651,該浮體651具有一設置部653,在本實施例中,該設置部653為孔洞,該支撐架62是穿設於該設置部653處。藉此提供另一種漂浮單元65的態樣。 Referring to FIG. 14, a ninth preferred embodiment of the dredging and oxygen supply apparatus of the present invention is substantially the same as the eighth preferred embodiment, except that the floating unit 65 includes only one floating body 651. The floating body 651 has a mounting portion 653. In the embodiment, the mounting portion 653 is a hole, and the supporting frame 62 is disposed at the mounting portion 653. Thereby, another aspect of the floating unit 65 is provided.
參閱圖15、16,為本發明清淤及供氧設備之第十較佳實施例,本較佳實施例與第八較佳實施例大致相同,不同的地方在於該漂浮單元65之每一浮體651內側各形成有一凹槽654,藉此該等浮體651同樣是置於該支撐單元62兩相對外側處,且使該等浮體651彼此對接後,該等凹槽654並能共同界定出一容納空間655,以供該支撐架62以及與其相連接之該汲取管31(見於圖12)、該汲取螺桿32(見於圖12)穿伸,利用該等束縛件652將該等浮體651與該支撐單元62綁縛定位,藉此提供另一種漂浮單元65的態樣。 Referring to Figures 15 and 16, a tenth preferred embodiment of the dredging and oxygen supply apparatus of the present invention is substantially the same as the eighth preferred embodiment, except that each floating unit 65 floats. A groove 654 is formed on each inner side of the body 651. The floating body 651 is also placed at opposite outer sides of the supporting unit 62, and after the floating bodies 651 are butted against each other, the grooves 654 can be jointly defined. An accommodating space 655 is provided for the support frame 62 and the dip tube 31 (see FIG. 12) connected thereto, the scooping screw 32 (see FIG. 12) to be stretched, and the floating body is used by the binding member 652 The 651 is positioned in engagement with the support unit 62, thereby providing another aspect of the floating unit 65.
參閱圖17,為本發明清淤及供氧設備之第十一較佳實施例,本較佳實施例與第六較佳實施例大致相同,不同的地方在於該導水單元5包括一設置於該汲取管31的開口端312之盆體57、一鎖設於該盆體57頂周緣且延伸置於該盆體57上方之定位架58,以及二切水扇葉59。該盆 體57底部具有一貫孔571,用以供該汲取螺桿32穿伸,該汲取管31之開口端312並與該貫孔571相連接。該定位架58包括多數臂桿581,以及一位於盆體57上方處之基座582,該等臂桿581的一端皆可分離地鎖設於該盆體57頂周緣,該等臂桿581的另一端則皆伸置於該盆體57上方並與該基座582相連接。該動力源33是設置於該基座582頂面,該等切水扇葉59同軸設於該汲取螺桿32上端處。 Referring to FIG. 17, an eleventh preferred embodiment of the dredging and oxygen supply apparatus of the present invention is substantially the same as the sixth preferred embodiment. The difference is that the water guiding unit 5 includes a The basin 57 of the open end 312 of the dip tube 31, a retaining frame 58 that is locked to the top periphery of the basin 57 and extends above the basin 57, and two water cutting blades 59. The basin The bottom of the body 57 has a constant hole 571 for the drawing screw 32 to extend. The open end 312 of the dip tube 31 is connected to the through hole 571. The positioning frame 58 includes a plurality of arms 581 and a base 582 located above the basin 57. One ends of the arms 581 are detachably locked to the top periphery of the basin 57, and the arms 581 are The other end is extended above the basin 57 and connected to the base 582. The power source 33 is disposed on the top surface of the base 582. The water cut blades 59 are coaxially disposed at the upper end of the picking screw 32.
本較佳實施例是用於對養殖池900(見於圖9)中的水液901(見於圖9)實施供氧作業,藉由漂浮單元65之設置,使得於該清淤及供氧設備能漂浮於養殖池900內的水液901的液面上,利用該動力源33驅動該汲取螺桿32、該汲取管31及該等切水扇葉59旋轉,以汲取養殖池900中的水液901,沿著該汲取螺桿32由汲水管31之汲取端311朝該開口端312移動,而由該貫孔571進入該盆體57,受到該等切水扇葉59之旋轉切擊作用,使得水液形成水花飛濺散出,以對養殖池900內的水液901產生打氣作用,藉此同樣能達成與第六較佳實施例相同之功效。 The preferred embodiment is for performing an oxygen supply operation on the aqueous liquid 901 (see FIG. 9) in the culture tank 900 (see FIG. 9). The floating unit 65 is provided so that the dredging and oxygen supply equipment can Floating on the liquid surface of the aqueous liquid 901 in the culture tank 900, the power source 33 drives the extraction screw 32, the dip tube 31 and the water-cutting blades 59 to rotate to capture the water 901 in the culture tank 900. And along the picking screw 32, the picking end 311 of the water tube 31 moves toward the open end 312, and the through hole 571 enters the basin 57, and is subjected to the rotary cutting action of the water cutting blades 59, so that the water The liquid forms a splash of water to cause a pumping effect on the aqueous liquid 901 in the culture tank 900, whereby the same effect as the sixth preferred embodiment can be achieved.
特別說明的是,本較佳實施例亦可如前述第七實施例般安裝有一虹吸單元7(見於圖11)。 Specifically, the preferred embodiment can also be mounted with a siphon unit 7 (see FIG. 11) as in the seventh embodiment described above.
綜上所述,本發明清淤及供氧設備藉由上述構造設計,利用該汲取螺桿32之旋轉來汲水及送水,相較於一般泵浦而言,可有效節省能源,並且省力,更能確實清除沉積於養殖池900之池底904的未食用的飼料、養殖生物之排泄物等污物,清淤效率佳,而且不會對水液901產 生強力拍打作用,因此,適用於養殖池900時,還能避免對養殖池900中的養殖生物造成傷害。此外,藉由將排放管52置換為噴頭55,並於噴頭55之該等噴嘴551連接該等出水管56,或是將該導引管51與該排放管52置換為盆體57、定位架58,以及二切水扇葉59之構造設計,搭配漂浮單元65之設置,還能在清淤及供氧設備完成清淤作業後,進一步對養殖池900中的水液901實施供氧作業,特別是配合虹吸單元7利用虹吸原理將外界空氣導入進水管41中,以增加通過連接管44之水液901的含氧量,並使水液901加速地隨著該等出水管56傳送至養殖池900的各角落,並由該等出水孔561噴出以產生打氣作用,使得養殖池900內到處都有氣泡,供氧更加普及,並能縮短供氧作業的時間,尤其所抽取的是養殖池900底部的水液901,因此能改善養殖池900底部較易缺氧的問題,有別於習知供氧水車只拍打養殖池900中的水液901之液面,本發明之供氧效率極佳。再者,使用者不需要再針對清淤、供氧作業而購置不同的設備,只需變換導水單元5之組成元件,因此,能降低使用成本,且使用便利性佳。故確實能達成本發明之目的。 In summary, the dredging and oxygen supply device of the present invention utilizes the above-mentioned structural design to utilize the rotation of the pumping screw 32 to divert water and deliver water, which can save energy and save labor and save energy compared with the general pump. It can surely remove the uneaten feed deposited on the bottom 904 of the culture pond 900, the excrement of the culture organism, and the like, and the dredging efficiency is good, and the water liquid 901 is not produced. The strong beat action, therefore, when applied to the culture pond 900, it can also avoid damage to the cultured organisms in the culture pond 900. In addition, by replacing the discharge pipe 52 with the spray head 55, and connecting the discharge pipes 56 to the nozzles 551 of the spray head 55, or replacing the guide pipe 51 and the discharge pipe 52 with the basin 57, the positioning frame 58, and the structural design of the two-cut water fan blade 59, together with the setting of the floating unit 65, can further perform oxygen supply operation on the water liquid 901 in the culture tank 900 after the dredging and oxygen supply equipment completes the dredging operation. In particular, the siphon unit 7 is used to introduce outside air into the inlet pipe 41 by the principle of siphoning to increase the oxygen content of the liquid 901 passing through the connecting pipe 44, and to accelerate the transfer of the liquid 901 to the aqueduct 56. Each corner of the pool 900 is ejected by the water outlet holes 561 to generate a pumping effect, so that there are air bubbles everywhere in the breeding pool 900, oxygen supply is more popular, and the oxygen supply operation time can be shortened, especially the culture pond is extracted. The water liquid 901 at the bottom of the 900 can improve the problem that the bottom of the culture tank 900 is more susceptible to oxygen deficiency. Unlike the conventional oxygen supply water tank, only the liquid surface of the water liquid 901 in the culture tank 900 is tapped, and the oxygen supply efficiency of the present invention is extremely high. good. Furthermore, the user does not need to purchase different equipment for the dredging and oxygen supply operation, and only needs to change the components of the water guiding unit 5, so that the use cost can be reduced and the use convenience is good. Therefore, the object of the present 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‧‧‧汲取單元 3‧‧‧Capture unit
31‧‧‧汲取管 31‧‧‧Selection tube
311‧‧‧汲取端 311‧‧‧汲取端
312‧‧‧開口端 312‧‧‧Open end
32‧‧‧汲取螺桿 32‧‧‧Select screw
33‧‧‧動力源 33‧‧‧Power source
34‧‧‧軸承 34‧‧‧ bearing
35‧‧‧滾珠軸承 35‧‧‧Ball bearings
4‧‧‧進水單元 4‧‧‧Inlet unit
41‧‧‧進水管 41‧‧‧ water inlet
411‧‧‧流通空間 411‧‧‧Circulation space
412‧‧‧輸入孔 412‧‧‧Input hole
413‧‧‧輸入端 413‧‧‧ input
42‧‧‧撐立元件 42‧‧‧Support elements
43‧‧‧鎖固元件 43‧‧‧Locking components
44‧‧‧連接管 44‧‧‧Connecting tube
5‧‧‧導水單元 5‧‧‧Water guide unit
51‧‧‧導引管 51‧‧‧ Guide tube
511‧‧‧安裝孔 511‧‧‧ mounting holes
512‧‧‧輸出口 512‧‧‧ output
52‧‧‧排放管 52‧‧‧Draining tube
53‧‧‧上止漏環 53‧‧‧Top stop loop
54‧‧‧下止漏環 54‧‧‧Lower leak ring
6‧‧‧支撐單元 6‧‧‧Support unit
61‧‧‧安裝架 61‧‧‧ Mounting frame
611‧‧‧承載板 611‧‧‧Loading board
612‧‧‧腳桿 612‧‧‧foot
613‧‧‧穿孔 613‧‧‧Perforation
62‧‧‧支撐架 62‧‧‧Support frame
621‧‧‧底板 621‧‧‧floor
622‧‧‧接合筒 622‧‧‧joint tube
623‧‧‧圍立件 623‧‧‧Wings
624‧‧‧通孔 624‧‧‧through hole
Claims (10)
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TW102134123A TW201511670A (en) | 2013-09-23 | 2013-09-23 | Dredging and oxygen-supplying device |
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TWI517789B TWI517789B (en) | 2016-01-21 |
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CN114145261A (en) * | 2021-12-16 | 2022-03-08 | 广东海洋大学 | Underwater dirt suction device |
CN115517221A (en) * | 2022-10-10 | 2022-12-27 | 烟台市海洋经济研究院(烟台市渔业技术推广站、烟台市海洋捕捞增殖管理站) | Impurity cleaning device for industrial sea cucumber cultivation |
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CN106872203B (en) * | 2017-02-20 | 2018-07-06 | 山东新希望六和集团有限公司 | A kind of Ecological Fish Culture metabolic test stool sampling device |
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2013
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CN114145261A (en) * | 2021-12-16 | 2022-03-08 | 广东海洋大学 | Underwater dirt suction device |
TWI833546B (en) * | 2022-09-14 | 2024-02-21 | 綠達節能科技股份有限公司 | Yongquan aerator |
CN115517221A (en) * | 2022-10-10 | 2022-12-27 | 烟台市海洋经济研究院(烟台市渔业技术推广站、烟台市海洋捕捞增殖管理站) | Impurity cleaning device for industrial sea cucumber cultivation |
CN115517221B (en) * | 2022-10-10 | 2023-09-22 | 烟台市海洋经济研究院(烟台市渔业技术推广站、烟台市海洋捕捞增殖管理站) | Impurity cleaning device for sea cucumber industrial culture |
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TWI517789B (en) | 2016-01-21 |
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