M3 04660. 八、新型說明: 【新型所屬之技術領域】 , 本創作係為一種自動化水質監測浮標’尤指-種結合浮輕㈣ .質監測裝置,並浮標體職設之電源裝置及控_置,以進= 所在海域之長期水質監測之結構設計者。 仃,、 【先前技術】 按,海域水質_為顧魏、料生g轉洋科 »的依據二常見的基本監測項目有酸驗值、溶氧量、化學需^要 =而乳^讀鹽、水溫等。然而,習知海域水質監測係以定點、 =,亚如人工雜村進行㈣,致使料 進 之 係長每非常活潑。若水質監測裝置若 使用時間縮短又海中生物附著影響,造成水質監測裝置 ❿ 有=:創作人係針對人工式採樣分析 乃明思創作改良’經長期時間研 =: 作’亚可作連續監測及遠距離即時傳二=, 作之產生。 尿之衣置’始有本創 【新型内容】 爰是本創作之目的,在提供—種 > 監測浮標本身可自給自足地提供 桿藉由水質 加所而之電力,致使水質 5 JM304660· ..測浮標可進行長日糊之監測作業,且可在所觀測之海域進行長期、連 續且即時之侧水㈣據之取得與分析,崎於_海域在不同 、狀況下之水質研究;再者,水質監浮標之水質監職置可在不需要進 ,行水質監·間’使該水質監測|置可完全脫離海水,以避免海中水 生生物附著於水修職置,何延長财龍職置之使用壽命。 為能實現上述之創作目的,本創作係提出—種自統水質監測浮 標,其包含有—浮標體’該浮標體係於頂面設有—中空固定柱及一支 _撐座’該中空蚊㈣設於浮標體之處,係設有貫穿浮標體之第一通 孔’令中空固定柱與設通孔係為相通狀態、,且於中空固定柱適當處固 設有固定架,該支撐座係具-座部及一金體,該座部係内設有容置空 間;-驅動裝置,該驅動裝置係包含有—驅動馬達及—連動機構,該 驅動馬達侧設於浮標體之支撐座之盒體,該連動機構翻設於浮標 體之中空固定柱崎’並與购馬達連接,且於_機構之端部係設 有-連接座,用以於驅動馬達作動時,驅動連動機構作動,令連接座 鲁為在净標體之通孔中反覆為單一方向作動;一水質監測裝置,該水質 監測裝置雜連韻構之連接麵設,使水質監職置位於浮標體之 通孔中,魏於驅練置働時,使水質縣置自通孔伸出於浮標體, 以監測所在海域之水質,並在水質監測裝置監測所在海域之水質時, 即產生電子訊號;-控制裝置,該控制裝置係固設於浮標體之支撐座, '亚與水質監測裝置及驅練置之轉馬縣電性連接,用以接收水質 ,監測裝置所傳送之電子訊號,以令控制裝置對該電子訊號作運算處 理’ %絲置’錢職置係包含有若干太陽能極板及—充放電模 6 JM3 04660 ,.組,該太陽驗板翻設於浮標體之固定架,並與充放電料為電性 連接,以令太陽能極板將光轉換為電能,ii對充放電模組充入電能, 該充放電模_與控繼置、水f監_置及鶴馬達為電性連接, 用以提H制裝置、水質監測裝置及轉馬達所需之電能。 【實施方式】 ▲、關於本創作之技術手段較佳實施例配合圖式於下文進行 •洋細說明,俾供鈞上深入了解並認同本創作。 首先,請參閱第-圖至第五_示,係為本創作自動化水質監測 、子標之立體外觀、立體分解、加重體固設於浮標體之示意圖,以及自 動化水質監财標之整體雜方塊圖。於本财,該自動化水質監測 洋標係包含有-浮標體剛、一驅動裝置200、一水質監測裝置細、 一控制裝置400,以及一電源裝置5〇〇,其中, 該浮標體100係於頂面設有一中空固定柱11〇及一支撐座⑽, 鲁並於浮標體100設有貫穿浮雛⑽之第-通孔13〇及第二通孔uo; 该中空固定柱110係包含有上固定柱lu及下固定柱112,該上固定 柱ill係與下固定柱112固設,該下固定柱112係為兩端部具有開口, 且該下固定柱112對應插設於第一通孔13〇並固設於浮標體⑽,令 下固定柱112與第一通孔130係為相通狀態,並於中空固定柱11〇適 、當處固設有固定架150,該浮標體⑽之頂面對應第二通孔14〇固= 有連接件141,用以可供固設-加重體142,該加重體142係可具有一 桿體1421,而該桿體1421固設有重物U22,用以藉加重體142使浮 7 .M3 04660 標體110漂浮於水面時不致於晃動,且於該桿體14 之端部設有固定 環1423,俾可供纜繩、驗固設,令自動化水質監測浮桿限位 於-定之區域,該捕座12〇係具—座部121及—盒體122,該座部 m係内設有容置空間,並於座部121向上延伸設有—對固定桿^, 用以供控制裝置400固設,該盒體122係固設於固定桿123 ·M3 04660. Eight, new description: [New technical field], this creative department is an automatic water quality monitoring buoy 'especially - a combination of floating light (four). Quality monitoring device, and the power supply device and control of the buoy body Set, to enter = the structural designer of the long-term water quality monitoring in the sea area.仃,, [Previous technology] According to the water quality of the sea _ for the Gu Wei, the raw g to the Yangke» according to the two common basic monitoring items have acid test value, dissolved oxygen, chemical needs ^ and = milk ^ read salt Water temperature, etc. However, the water quality monitoring system of the known sea area is carried out by fixed-point, =, Yaru artificial village (4), so that the length of the feed is very lively. If the water quality monitoring device is shortened in use time and the biological attachment effect in the sea, the water quality monitoring device is = =: The creator is artificially sampled and analyzed, and the Mind's creation is improved. Instantly pass two long distances, and it will be produced. Urine clothing set 'Begins with the original [new content] 爰 is the purpose of this creation, in the provision of -> monitoring buoy itself can be self-sufficient to provide the power of the pole by the water, resulting in water quality 5 JM304660. The buoy can be used for long-term, continuous and immediate side water (4) acquisition and analysis in the sea area under observation, and the water quality research in different conditions under the conditions of the sea area; The water quality supervision buoys of the water quality monitoring buoys can be used without the need to enter, the water quality monitoring, the 'water quality monitoring|can be completely removed from the seawater, to avoid the aquatic organisms in the sea attached to the water repair position, why extend the financial position The service life. In order to achieve the above-mentioned creative purposes, the author proposes a self-contained water quality monitoring buoy, which includes a buoy body. The buoy system is provided on the top surface - a hollow fixed column and a _ sling 'the hollow mosquito (4) Wherein the buoy body is provided with a first through hole penetrating the buoy body to make the hollow fixing column and the through hole are in a communicating state, and a fixing frame is fixed at a suitable position of the hollow fixing column, and the supporting seat is fixed a seat portion and a gold body, the seat portion is provided with an accommodation space; a driving device comprising a drive motor and a linkage mechanism, the drive motor side being disposed on the support seat of the buoy body a box body, the linkage mechanism is rotatably mounted on the hollow fixed column of the buoy body and connected to the motor, and a connecting seat is arranged at the end of the _ mechanism for driving the linkage mechanism to act when the driving motor is actuated, The connection seat is in a single direction in the through hole of the net target body; a water quality monitoring device, the water quality monitoring device is connected to the connection surface of the rhyme structure, so that the water quality supervision is placed in the through hole of the buoy body, Wei Yu makes the water when he is arranging The quality county is extended from the through hole to the buoy body to monitor the water quality of the water area, and when the water quality monitoring device monitors the water quality of the water area, the electronic signal is generated; the control device is fixed to the buoy body. The support base, 'Asia and the water quality monitoring device and the drive-through turnkey electrical connection to receive the water quality, monitor the electronic signal transmitted by the device, so that the control device can handle the electronic signal '% silk set' The money position system includes a number of solar plates and a charging and discharging module 6 JM3 04660, the group, the solar panel is erected on the fixed frame of the buoy body, and is electrically connected with the charging and discharging material to make the solar plate The light is converted into electric energy, and the charging and discharging module is charged with electric energy. The charging and discharging module is electrically connected with the control relay, the water monitoring device and the crane motor, and is used for lifting the H device and the water quality monitoring device. The electrical energy required to turn the motor. [Embodiment] ▲, the preferred embodiment of the technical means of the present creation is carried out in conjunction with the following diagrams: • A detailed description of the creation, and an in-depth understanding and recognition of the creation. First of all, please refer to the first to fifth _, which is the schematic diagram of the automatic water quality monitoring, the three-dimensional appearance of the sub-standard, the three-dimensional decomposition, the weighting body fixed on the buoy body, and the overall miscellaneous square of the automatic water quality monitoring standard. Figure. In this financial, the automated water quality monitoring ocean standard includes a buoy body, a driving device 200, a water quality monitoring device, a control device 400, and a power device 5, wherein the buoy 100 is attached to The top surface is provided with a hollow fixing column 11〇 and a supporting seat (10), and the buoy body 100 is provided with a first through hole 13〇 and a second through hole uo extending through the floating body (10); the hollow fixing column 110 includes the upper portion The fixed post lu and the lower fixing post 112 are fixed to the lower fixing post 112. The lower fixing post 112 has an opening at both ends, and the lower fixing post 112 is correspondingly inserted into the first through hole. 13〇 is fixed to the buoy body (10), so that the lower fixing post 112 and the first through hole 130 are in a communicating state, and the fixing frame 150 is fixed on the hollow fixing column 11, and the top of the buoy body (10) is fixed. The surface corresponds to the second through hole 14 〇 = = has a connecting member 141 for the fixed-emphasis 142, the weight 142 can have a rod 1421, and the rod 1421 is fixed with a weight U22, The borrowing body 142 is used to make the floating 7.M3 04660 standard body 110 not sway when floating on the water surface, and is at the end of the rod body 14. The fixing part 1423 is provided with a fixing ring 1423 for the cable and the fixing device, so that the automatic water quality monitoring floating rod is limited to the fixed area, the trap 12 〇 — - the seat 121 and the box 122, the part m An accommodating space is disposed therein, and a fixing rod is disposed on the seat portion 121 for fixing the control device 400. The box body 122 is fixed to the fixing rod 123.
之動力源,使作動裝置221之軸桿2211作動,並帶動連接座221在浮 標體剛之中空固定柱⑽中反覆為單一方向作動,而該連動機構挪 於外侧設有二感應元件223,該二感應元件223係以上下對應方式固 設,且該感應元件223與控制裝置働及電源裝置5〇〇為電性連接, 並於連接座222固設有-桿體224,該桿體224遠離連接座222之端 部係具有-接觸部2241,用以於連接座222被驅動而作動時,令該桿 體224之接觸部2241係被感應元件223所感應,由感應元件223產生 該驅動裝置200係包含有-驅動馬達21〇及一連動機構 驅動馬達210細設於浮標體謂之支撐座m之盒體122内部^ 與控制裝置4GG為雜連接,今控繼置侧啟動動騎a〇作動工 而該驅動馬達21G可係為控制氣體作之馬達,該連動機構咖係固机 於浮標體議之中空固定柱11G _,並與驅動馬達训連接',而2 連動麵’係具有-作動裝置22卜該作動裝置221係設有可為伸 縮作動之轉2211 (如第六圖所示),於軸桿2211之端部伽設有一 連接座222 ’用以於驅動馬達21〇以控制氣體作為驅動作動裝置⑵The power source causes the shaft 2211 of the actuating device 221 to be actuated, and the connecting seat 221 is driven to move in a single direction in the hollow fixing column (10) of the buoy body, and the linking mechanism is disposed on the outer side with two sensing elements 223. The sensing element 223 is fixed in the corresponding manner, and the sensing element 223 is electrically connected to the control device and the power supply device 5, and the rod 224 is fixed to the connecting base 222, and the rod 224 is away from the connection. The end portion of the seat 222 has a contact portion 2241 for causing the contact portion 2241 of the rod body 224 to be sensed by the sensing element 223 when the connecting seat 222 is driven to be driven, and the driving device 200 is generated by the sensing element 223. The inside of the casing 122 including the drive motor 21〇 and the linkage driving motor 210 is arranged on the support body m of the buoy body, and the control device 4GG is connected with the control device 4GG, and the control side is activated to start the ride. The drive motor 21G can be a motor that controls the gas, and the linkage mechanism is fixed to the hollow fixed column 11G_ of the buoy body and connected to the drive motor, and the 2 interlocking surfaces are - actuated Device 22 The device 221 is provided with a rotation 2211 which can be stretched and actuated (as shown in the sixth figure), and a connecting seat 222' is disposed at the end of the shaft 2211 for driving the motor 21 to control the gas as the driving actuating device (2)
-電子减亚傳送給控制裝置棚,使控制裝置可得知連接座您 現時位置; 8 .M3 04660 係與控制裝置棚及電源裝謂為電性連接,並與連_構2 -連接座221固設,使水質監測裝置3〇(M立於浮標體⑽之中空 -110中,用以於驅動裝置200之連動機構220作動時,使水質 置300自中空固定柱110内部伸出,且通過第—通孔13〇而伸ςς 標體⑽,使水質監測裝置咖之探測頭31q浸入於水中,以^所 在海域之水舰齡、水溫、溶驗、鹽度、财及葉 ^曰 #並在水質監測裝置取得相關之資料數據時,即產生訊、送 給控制裝置400 ; 寻运 該控制裝置400係固設於浮標體⑽之支撐座12〇之固定桿⑵ 並與水質監測裝置咖及電源裝置5⑼為電性連接,該控制裝置侧 係包含有—控制擷取模組⑽、—分析儲存模組及-傳輸料 430,該控制擷取模組彻係與傳輸模組伽及驅動馬達⑽為電 接,可供控纖取模組接㈣端基地台糾之指令峨,而可對 #控制擷取模組410進行遠端控制,並由控制操取模組彻使驅動馬達 210作動’且雜繼取模組與水質監測裝置_為電性連接, 使水貝^^職置300所傳送之電子訊號,可由該控侧取模組彻轉 換為數位訊號,·該分析儲存模組侧係與控觸取模組彻及傳輸模 組為電性連接,可將控侧取模組所傳送之資料數據做分析、、 -運异及編碼儲存’ 將處理運算後之#料數據傳送給傳輸模組侧; 該傳輸模組係與控觸取模組⑽及分析儲存模組為電性連 、接收通端基地台所發出之指令滅,並對遠端基地台傳送經 9 .M304660 ' 分析儲存模組420運算處理之資料數據; 該電源裝置500係包含有若干太陽能極板510及一充放電模組 ' 520,該太陽能極板510係固設於浮標體1〇〇之固定架150,並與充放 , 電模組520為電性連接,以令太陽能極板51〇將光轉換為電能,並對 充放電模組520充入電能,該充放電模組520係與控制裝置400、水 質監測裝置300、驅動馬達21〇及感應元件223為電性連接,用以提 供控制裝置400、水質監測裝置300、驅動馬達210及感應元件223 •所需之電能,該充放電模組520係包含有一充電電池521,該充電電 池521係固設於支撐座12〇之座部121 ;如是,即建構完成自動化水 質監測浮標。 於實施時,先行將自動化水質監測浮標佈放於所欲監測海域之適 §處並在浮;^體1〇〇掛附一加重體142,而該加重體M2係對應穿 设净標體100之第二通孔14〇,並使加重體142與連接件14丨固設, 以令、子標體1GG漂浮於水面時不致於晃動。此時,遠端基地台以定時 #或不定時之方式,對自動化水質監測浮標發出指令訊號,使自動化水 質監測浮標開始進行水質監測程序。 當該控制裝置400接收到由遠端基地台所發出之指 驅動驅動馬達21叫動,由驅動馬達21Q驅使連動機構作動^ 置221作動使作動裝置221藉軸桿2211將位於中空固定柱Μ。内 -之料監測裝置300朝向浮標體⑽外作動。當連動機構22〇作動^ ,同時,在連接座222之桿體224之接觸部簡亦會朝向下方位 接觸部2241被位於下方位置之感應元件223所感應(如第六 、M304660 ' :),並由該感應元件223發出一電子訊號給控制裝置棚之控制榻取 杈組410,使控制擷取模'组41〇得知與連接座挪固設之水質監測果 -f外,使水f監測裝置細之探二二 ,完全浸在水中’而該控制擷取裝置41〇即停止對驅動馬達训進行驅 動。該水質監測裝置300之探測頭31〇㈣該海域進行監測,以取得 相關之水體酸驗值、水溫、溶氧量、鹽度、濁度及葉綠素甲等資料數 據。當定時間後’水質監測裝置咖藉探測頭⑽⑽寻水質 相關資料數據,並將該資料數據傳送給㈣裝置伽之控制擷取模电 410。該控制擷取模、組接收取得水質監測裝置咖所傳送之電子$ 遽,即對該電子職作轉換為數他號,並將魏位職傳送給分析 儲存板組。該分析儲存模組即對由控制榻取模組彻所傳送 之數位而虎進订分析、運算及編碼儲存,並同時將經處理後之數位訊 T送給傳輸模組。該傳輸模組榻_分_存模組個所 傳达之數健號,並將魏位訊號傳送給遠魏地台。 士當水質監測程序之進行已經過一段預設時間,結束水質監測程序 …姻懷置侧之控_取模組购卩_鳴馬達⑽作動, :==21 Γ桿2211朝向遠離水面之方向作動,而使水質監測 =移動至中空固定柱则内部,讓水質監戦置咖之探測頭 元全脫離海水。f連動機構220作動之同時,在連接座22 體224之接觸部2241亦會朝向μ古你# α β 曰朝向上方位移’使接觸部2241被位於上方 ^置^感應耕223所感應(如第人、九圖所示),並由該感應元件 3电出-氣子訊號給控制裝置棚之控制擷取模組彻,使控綱取 11 M304660 、模組得知與連接座222固設之水質監測裝置3〇〇,現已脫離水面, 且水質監測裝置_完全容置於第一通孔,而該控觸取裝置仙即 ‘ 停止對驅動馬達210進行驅動。 ' ,综上所述,我們可以知道本創作具有下列所述之優點: 1.本創作自統水紐測浮標,係可在浮標咖設有太陽能極板 及充放電模組,而可自給自足地提供自動化水質監測浮標所需之* 力,致使自動化水質測浮標可進行長時間之監測作業。 电 鲁2.摘作自統水#監測浮標,射在峨測之海域進行長期、 連績且即時之相關水質資料數據之取得與分析,以便於對該海域在不 同狀況下之水質研究,而可得到更為精確之資料數據作為研究參考。 3.本創作自動化水質監浮標,係具有由鶴馬達驅動之連動機 構/而該連動機構係與水質監測裝置連接,使水質監測裝置在不需要 進行水質監測_,該水質監·置可完全脫離海水,_免海中水 生生物附著於水質監測裝置,而可延長該水質監測裝置之使用壽命。 # 、綜觀上述,本創作以其整體之組合及特徵而言,既未曾見諸於同 類產品中,申請前亦未見公開,誠已符合專利法之法定要件,麦依法 提出新型專利申請。 惟以上所述者,僅為本創作之較佳實施例,當不能以此限定本創 作實施之範圍,即大凡依本_申請專概創作說明書内容所作 •之等效變化與修飾,皆應仍屬本創作專利之涵蓋範圍内。 【圖式簡單說明】 12 M304660 第-圖係本編動化機_⑽外觀示意圖 =係本創作自動化水質監測浮標之浮標 充電電池之立體分解示意圖 k制裝置及 第三圖係本創作自動化水f監測浮標之浮榡體射空 構、水質監測裝置之立體分解示意圖 、連動機 第四圖係加重體與下gj定柱目設於浮標體之厂、立。 第五圖係本創作自動化水質監測浮標之=圖立 _示為機構連接方向,虛線箭頭表示二—二圖’其中實綠箭 箭頭表示電力線連接方肖 ‘、$子喊導通方向,雙實線 第六圖係本創作自動化水f監測浮 連動機構與水質監聰置在巾郎、面之使用狀態’射只顯示 第七圖係本創作自動化水質監;=主内部向下作動之狀態示意圖 態示意圖 π之水質監測裝置伸出浮標體之狀 第八圖係本創作自動化水質監畴 連動機構與水質監測裝置在中办* 面之使用狀態,其中只顯示 第九圖係本創作自動化水質監固:柱内部向上作動之狀態示意圖 之狀態示意圖 I凋子標之水質監測裝置縮回中空固定柱 【主要元件符號說明】 100 浮標體 110 111 上固定桎 支撐座 112 120 121 座部 .M304660 122 盒體 123 固定桿 130 第一通孔 140 第二通孔 141 連接件 142 加重體 1421 桿體 1422 重物 1423 固定環 150 固定架 200 驅動裝置 210 驅動馬達 220 連動機構 221 作動裝置 2211 軸桿 222 連接座 223 應應元件 224 桿體 2241 接觸部 300 水質監測裝置 400 控制裝置 410 控制擷取模組 420 分析儲存模組 430 傳輸模組 500 電源裝置 510 太陽能極板 520 充放電核組 521 充電電池 14- The electronic sub-Asia is transmitted to the control device shed, so that the control device can know the current position of the connection seat; 8. M3 04660 is electrically connected to the control device shed and the power supply, and is connected to the connection 221 The water quality monitoring device is disposed in the hollow-110 of the buoy body (10), and is used to extend the water quality 300 from the inside of the hollow fixing column 110 when the linkage mechanism 220 of the driving device 200 is actuated. The first through hole 13 is extended to the target body (10), so that the water quality monitoring device coffee head 31q is immersed in the water to control the water age, water temperature, dissolution test, salinity, wealth and leaf of the water area. And when the water quality monitoring device obtains the relevant data, the signal is sent to the control device 400; the control device 400 is fixed to the fixed rod (2) of the support 12 of the buoy body (10) and is associated with the water quality monitoring device. The power supply device 5 (9) is electrically connected, and the control device side includes a control capture module (10), an analysis storage module, and a transmission material 430. The control capture module is coupled to the transmission module and is driven by the transmission module. The motor (10) is electrically connected, and can be used for controlling the fiber to take the module (4) end base After the command is corrected, the # control capture module 410 can be remotely controlled, and the control operation module can be used to make the drive motor 210 actuate and the hybrid relay module and the water quality monitoring device are electrically connected. The electronic signal transmitted by the water-sinking device can be converted into a digital signal by the control-side module, and the analysis storage module side is connected with the control-contact module and the transmission module is electrically connected. The data of the data transmitted by the control side module can be analyzed, and the data can be transmitted to the transmission module side. The transmission module is connected to the control module. (10) and the analysis storage module is electrically connected, the command sent by the receiving base station is off, and the remote base station transmits the data processed by the 9.M304660 'analysis storage module 420; the power supply device 500 includes There are a plurality of solar plates 510 and a charging and discharging module 520. The solar plates 510 are fixed to the fixing frame 150 of the buoy body 1 and electrically connected to the charging and discharging module 520. The solar panel 51 turns light into electrical energy and charges and discharges The module 520 is charged with electrical energy. The charging and discharging module 520 is electrically connected to the control device 400, the water quality monitoring device 300, the driving motor 21A, and the sensing element 223 for providing the control device 400, the water quality monitoring device 300, and the driving device. The motor 210 and the sensing element 223 include the required electric energy. The charging and discharging module 520 includes a rechargeable battery 521, and the rechargeable battery 521 is fixed to the seat 121 of the support base 12; if so, the automatic water quality monitoring is constructed. Buoys. In the implementation, the automated water quality monitoring buoys are placed in the appropriate § of the waters to be monitored and floated; the body 1 hangs a weighted body 142, and the weighted body M2 corresponds to the net mark. The second through hole 14 of the body 100 is fixed, and the weighting body 142 and the connecting member 14 are fixed so that the sub-body 1GG does not sway when floating on the water surface. At this time, the remote base station issues a command signal to the automatic water quality monitoring buoy in a timed or untimed manner, so that the automatic water quality monitoring buoy begins the water quality monitoring program. When the control device 400 receives the finger drive drive motor 21 from the remote base station, the drive motor 21Q drives the linkage mechanism 221 to actuate the actuator 221 to be located in the hollow fixed column by the shaft 2211. The material monitoring device 300 operates toward the outside of the buoy body (10). When the interlocking mechanism 22 is actuated, at the same time, the contact portion of the rod 224 of the connecting seat 222 is also sensed by the sensing element 223 located at the lower position toward the lower azimuth contact portion 2241 (eg, sixth, M304660 ' :), And the sensing element 223 sends an electronic signal to the control device shed control group 410, so that the control stencil 'group 41 〇 knows that the water quality monitoring fruit is fixed with the connection seat, so that the water f The monitoring device is carefully explored and completely immersed in the water' and the control extraction device 41 stops driving the drive motor train. The detection head 31 of the water quality monitoring device 300 (4) monitors the sea area to obtain relevant data such as water acid value, water temperature, dissolved oxygen amount, salinity, turbidity and chlorophyll A. After a certain period of time, the water quality monitoring device uses the probe (10) (10) to search for water quality related data, and transmits the data to (4) the device gamma control module 410. The control module and the group receive the electronic data transmitted by the water quality monitoring device, that is, the electronic job is converted into a number, and the Wei position is transmitted to the analysis storage board group. The analysis storage module analyzes, computes, and encodes the digits transmitted by the control couch module, and simultaneously sends the processed digits T to the transmission module. The transmission module _ _ _ saves the number of the number transmitted by the module, and transmits the Wei signal to the Wei Wei platform. The water quality monitoring program has been completed for a predetermined period of time, ending the water quality monitoring program... control of the side of the marriage _ take the module purchase _ _ motor (10), :==21 mast 2211 moving away from the water surface And let the water quality monitoring = move to the inside of the hollow fixed column, so that the water quality monitoring head is completely removed from the sea. When the interlocking mechanism 220 is actuated, the contact portion 2241 of the body 224 of the connecting seat 22 is also displaced toward the upper side of the μ 你 # # ' ' ' ' 使 224 224 224 224 224 224 224 224 224 224 224 224 224 224 224 224 224 224 Man, shown in Figure IX, and the induction element 3 is powered out - the gas signal is sent to the control device shed to control the module, so that the control unit takes 11 M304660, and the module knows the water quality of the connection seat 222 The monitoring device 3〇〇 is now out of the water surface, and the water quality monitoring device _ is completely accommodated in the first through hole, and the control device is stopped to drive the driving motor 210. In summary, we can know that this creation has the following advantages: 1. This creation is a self-contained buoy, which can be equipped with solar panels and charging and discharging modules in the buoy, but can be self-sufficient. The ability to provide automated water quality monitoring buoys enables automated water quality buoys to be monitored over long periods of time. Electric Lu 2. Extracted from the self-contained water # monitoring buoy, shooting in the sea area of the speculation to obtain long-term, continuous performance and immediate relevant water quality data acquisition and analysis, in order to facilitate the water quality research of the sea area under different conditions, and More accurate data can be obtained as a research reference. 3. The automatic water quality monitoring buoy of this creation has a linkage mechanism driven by a crane motor/the linkage mechanism is connected with the water quality monitoring device, so that the water quality monitoring device does not need to perform water quality monitoring _, the water quality monitoring device can be completely separated Seawater, _ free aquatic organisms attached to the water quality monitoring device, can extend the service life of the water quality monitoring device. # 、,Overview of the above, this creation, in terms of its overall composition and characteristics, has not been seen in the same category of products, and has not been disclosed before the application. Cheng has already complied with the statutory requirements of the Patent Law, and Mai has filed a new patent application in accordance with the law. However, the above descriptions are only preferred embodiments of the present invention. When it is not possible to limit the scope of the implementation of this creation, that is, the equivalent changes and modifications made by the contents of the application manual should still be It is covered by this patent. [Simple description of the diagram] 12 M304660 The first picture is the machine of the machine_(10) Appearance diagram = the three-dimensional decomposition diagram of the buoy rechargeable battery of the automatic water quality monitoring buoy of this creation, the k-unit and the third picture system The three-dimensional decomposition diagram of the floating buoy body structure and the water quality monitoring device of the buoy, the fourth figure of the connecting machine and the lower gj column are set in the factory of the buoy body. The fifth picture is the automatic water quality monitoring buoy of the creation = 立立_ shows the direction of the connection of the mechanism, the dotted arrow indicates the second to the second picture 'where the green arrow arrow indicates the power line connection side Xiao', the child yells the conduction direction, double solid line The sixth picture is the creation of automatic water f monitoring floating linkage mechanism and water quality supervision Cong in the towel Lang, the use of the surface 'shot only shows the seventh picture of the creation of automatic water quality supervision; = the main internal downward state of the state diagram The eighth figure of the water quality monitoring device of the schematic π extending out of the buoy body is the state of use of the automatic water quality monitoring domain linkage mechanism and the water quality monitoring device in the middle office. Only the ninth figure is the automatic water quality monitoring of the creation. : State diagram of the state of the column inside the upward movement diagram I water quality monitoring device retracted hollow fixed column [main component symbol description] 100 buoy body 110 111 upper fixed crucible support 112 120 121 seat. M304660 122 box 123 fixing rod 130 first through hole 140 second through hole 141 connecting piece 142 weighting body 1421 rod body 1422 weight 1423 fixing ring 150 fixing frame 200 drive unit 210 drive motor 220 linkage mechanism 221 actuator 2211 shaft 222 connection seat 223 response element 224 rod body 2241 contact part 300 water quality monitoring device 400 control device 410 control extraction module 420 analysis storage module 430 transmission module 500 power supply unit 510 solar plate 520 charge and discharge core group 521 rechargeable battery 14