201221052 六、發明說明: 【發明所屬之技術領域】 本發明係關於遠端監控之技術作 / 孜你了7員域,尤指一種雲端 綠能漁夫糸統。 【先前技術】 現代電子科技突飛猛進’運用層面普及每一層面, 使我們生活便利、舒適。同時也開始盥 以提供更多的應用,例如電子科技與醫療可 提供更準確的心跳、血壓量測儀器。然而,電子科技在 與其他產業結合’往往忽略了人類生活最基本農漁產羋。 台灣地區養殖漁業區分為淡水漁塭養殖、鹹水漁塭 養殖及海面養殖3大類。就以台灣的近海及養殖漁業 說:幾乎全靠人力監看 '水車控制、餵食、量測及控制 水=、水循%控制。漁民們全年無休不管是下雨天、大 太陽、甚至於颱風天,均需投注心力以照顧魚塭。此種 養f方法既辛苦又危險,如再遇天然災害,漁民的生活 將是苦不堪言、血本無歸。又,晨間魚塭溶氧量偏低, 或者中午溫度過低,又或魚塭養殖密度過高,有可能造 成魚類大量暴斃。因此養殖業者往往需要曰夜定時巡視 U狀况’以免造成損失’由於魚埋面積大且往往位於 偏遠地區’導致養殖業者巡視不便,也徒增許多許多困 擾,因而許多年輕人不願從事魚塭養殖工作,產生經驗 傳承的斷層之問題。 201221052 此外目刖蚕殖業者觀察魚類的大小(體長、體重) 時,採取漁網捕抓方式, ^ V -ir -V· - B . 丹侬厶驗判斷魚的大小。漁網 捕抓方式谷易傷害到备 曰 a …'本身且不能控制抓取魚的數 # s + 五又,仗魚網解開後再放回,需 要枯問,甚至來不及解 外△丄π 開就已^死亡’取樣愈多次傷害 就愈大。因此習知声璁羞 、養殖仍有改善空間。 【發明内容】 本發明之主要目 β ^ 糸在扣供—種雲端綠能漁夫系 魂’其係一全新架構以俅碁 養殖業者時隨地可透過網際 、周路設施進行雲端管理水 〃 ..M 貝皿才工乐統及養殖系統設施, 亚利用綠能設施提供非 電。 Μ··4吐電力輔助養殖產業之用 依據本發明之—a , 土 .色’本^明提出一種雲端綠能漁 闽:i括至少自感測器、—影像擷取裝置、至少 :周:裝置、及一控制裝置。該至少一個感測器係設置 於一養殖魚媪中,以監和兮甚 彳工。玄養殖魚塭的水質條件。該影 ⑽裝置係設置於該養殖魚塭中,以監控該養殖魚塭 =質條件。該至少—周邊裝置心對該養殖魚塩的水 貝條件進行控制。該控制庐晋 又置連接遠至少一個感測器、 :玄影像掏取裝置及該至少—周邊裝置,以接收該至少一 :感測器的-感測訊號及該影像摘取裝置的一影像訊 當該感測訊號低於-第二⑽值時,該控制裝置輸 ^控制訊號至該至少-周邊裝置,以驅動該至少一周 、裝置,反之’該控制裝置在該感測訊號高於一第一門 201221052 周邊裝置,該控制裝置並經由一傳 使用者手機以輸出該影像訊號、控 植值時關閉該至少— 輸模組即時連線至一 制汛號及感測訊號至該使用者手機。 【實施方式】 。圖丨係本發明一種雲端綠能漁夫系統100的示意圖。 圖2係以本發明之雲端綠能漁夫系統_進行監控養殖魚 塭之流程圖。如圖所示’該雲端綠能漁夫系統100包括至 少一個感測器120、一影像擷取裝置13〇、至少一周邊裝 = 140、一控制裝置15〇、一手機16〇、水泵丨7〇、一太陽 能模组1 80及一風力發電模組丨9〇。 4至y 個感測态120係設置於一養殖魚堪丨丨〇中, 以監控該養殖魚塭1 1 0的水質條件。 該影像擷取裝置13〇係設置於該養殖魚塭n〇中,以 監控該養殖魚塩的水質條件。 人·’周邊裝置14 〇用以對該養殖魚塩1丨〇的水質條 件進行控制。 ' ' 。玄控制裝置1 5〇連接該至少一個感測器丨2〇 '該影像 掘取裝置130及該至少一周邊裝置mo,以接收該至少一 個感測器120的一感測訊號及該影像擷取裝置ι3〇的一影 像訊號’當該感測訊號低於一第二門檻值時,該控制裝 置丨50輸出—控制訊號至該至少一周邊裝置丨40,以驅動 5亥至少—周邊裝置140。反之’該控制裝置1 50在該感測 訊號高於—第一門檻值時關閉該至少一周邊裝置14〇,該 控制裝置1 5 〇並經由一傳輸模組1 5 1即時連線至一使用者 201221052 手機1 60以輸出邊影像訊號、控制訊號及感測訊號至該使 用者手機1 60。 '、中使用者手機1 60可依據該影像訊號、控制訊號 及感測汛琥’傳輪—無線控制訊號至該控制裝置1 %的該 傳輸板組丨5丨,以即時控制連接於該控制裝置150的該至 y周邊裝置14〇。該輸傳輸模組151係以簡訊即時連線 至該使用者手機1 6 0。該輸傳輸模組1 5 1亦可以一無線網 路連、.。即B寸連線至該使用者手機丨6〇。該無線網路可為一 GSM GPRS、3G、WiFi、或WiMax無線網路。當該無線 ,.周1*^•為3 G •’戌傳輸模組1 $ 1為一 3 手機模組,該使用 者手機160係一3(3手機。 當該至少一個感測器120為一溫度感測器丨2〇, 1,該 感測訊號為一水溫訊號’該至少一周邊裝置14〇為一加溫 設備1 4 0,1。 當該感測訊號(水溫訊號)低於一溫度第二門檻值(j 〇 C )ΒτΓ ’違控制裝置1 5 0輸出一控制訊號至該加溫設備 1 40,丨,以驅動該加溫設備1 4〇,丨。反之,該控制裝置^ 在該感測訊號高於一溫度第一門檻值(20〇c )時關閉該加 溫設備丨4 〇,1。 當遠至少一個感測器120為一氧氣濃度感測器 12 0 ’ 2 ’邊感測訊號為一氧氣濃度訊號,該至少一周邊裝 置為一曝氧設備丨40,2。 ϊ氣敦濃度訊號低於一氧氣第二門植值時,該控制 裝置丨50輸出一控制訊號至該曝氧設備1 40,2,以驅動該曝 201221052 氧設備1 40,2。反之,該控制裝置1 50在該感測訊號高於一 氧氣第一門檻值時關閉該曝氧設備1 40,2。201221052 VI. Description of the invention: [Technical field to which the invention pertains] The present invention relates to the technical work of remote monitoring / 孜 You have a 7-member domain, especially a cloud green energy fisherman. [Prior Art] Modern electronic technology is advancing by leaps and bounds. Every aspect of the application level is used to make our life convenient and comfortable. It also began to provide more applications, such as electronic technology and medical care to provide more accurate heartbeat and blood pressure measuring instruments. However, the integration of electronic technology with other industries has often neglected the most basic agricultural and fishery production in human life. The aquaculture fishery in Taiwan is divided into three categories: freshwater fish culture, saltwater fishery culture and sea surface culture. In Taiwan's offshore and aquaculture fisheries, it is said that almost all rely on manpower to monitor 'waterwheel control, feeding, measuring and controlling water=, water cycle% control. The fishermen are open all year round, whether it is rainy days, the sun, or even typhoon days, they all need to bet on the fish. This method of raising f is both hard and dangerous. If the natural disaster occurs again, the life of the fishermen will be miserable and bloody. In addition, the amount of dissolved oxygen in the fish in the morning is low, or the temperature at noon is too low, or the density of the fish breeding is too high, which may cause a large number of fish violent. Therefore, aquaculture operators often need to patrol the U condition day and night to avoid loss. Because the fish is buried in a large area and often located in a remote area, the farmers are inconvenient to visit and there are many problems. Therefore, many young people are reluctant to engage in fishing rods. Breeding work, creating problems with faults of experience. 201221052 In addition, when the sericulture industry observes the size (body length and body weight) of the fish, the fishing net is used to capture the method, ^ V -ir -V· - B. Dan 侬厶 test to determine the size of the fish. The fishing net catches the way, the valley is easy to damage to the preparation a ... 'self and can not control the number of fish caught # s + five, the squid net is released and then put back, need to ask, even before the solution △ 丄 π open It has been killed. The more the sample is taken, the greater the damage. Therefore, the practice is shy, and there is still room for improvement in farming. SUMMARY OF THE INVENTION The main object of the present invention is to provide a cloud-based management of the water supply through the Internet and the Zhoulu facility. M beibel is a facility and aquaculture system facility, and sub-utilization of green energy facilities provides non-electricity. Μ··4 吐 电力 电力 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据 依据: device, and a control device. The at least one sensor is placed in a farmed gill to monitor and complete the work. The water quality conditions of the black-bred fish gills. The shadow (10) device is placed in the farmed gill to monitor the cultured fish gizzard. The at least peripheral device controls the water bath conditions of the farmed fish gill. The control device further connects at least one sensor, the image capturing device and the at least one peripheral device to receive the at least one sensor-sensing signal and an image of the image capturing device When the sensing signal is lower than the -second (10) value, the control device outputs a control signal to the at least-peripheral device to drive the device for at least one week, and vice versa, the control device is higher than the sensing signal. The first device 201221052 peripheral device, the control device is configured to output the image signal and the control value when the user's mobile phone is outputted to close the at least one of the input modules to the first nickname and the sensing signal to the user. Mobile phone. [Embodiment] Figure 1 is a schematic illustration of a cloud green energy fisherman system 100 of the present invention. Fig. 2 is a flow chart showing the monitoring of farmed fish by the cloud green energy fisherman system of the present invention. As shown in the figure, the cloud green energy fisherman system 100 includes at least one sensor 120, an image capturing device 13A, at least one peripheral device 140, a control device 15A, a mobile phone 16A, and a water pump 丨7〇. A solar module 180 and a wind power module 丨9〇. 4 to y sensed states 120 are placed in a farmed fish to monitor the water quality conditions of the farmed fish rafts 110. The image capturing device 13 is disposed in the farmed fish gill to monitor the water quality conditions of the farmed fish gill. The person's peripheral device 14 is used to control the water quality of the farmed fish. ' ' . The sinusoidal control device is connected to the at least one sensor 丨2〇' the image boring device 130 and the at least one peripheral device mo to receive a sensing signal of the at least one sensor 120 and the image capturing An image signal of the device ι3 ' When the sensing signal is lower than a second threshold, the control device 50 outputs a control signal to the at least one peripheral device 丨40 to drive at least the peripheral device 140. Conversely, the control device 150 turns off the at least one peripheral device 14 when the sensing signal is higher than the first threshold, and the control device is connected to the first use via a transmission module 151. 201221052 The mobile phone 1 60 outputs an edge video signal, a control signal and a sensing signal to the user's mobile phone 1 60. ', the user mobile phone 1 60 can be based on the image signal, the control signal and the sensing 汛 ' 'transmitting wheel - wireless control signal to the control device 1% of the transmission board group 丨 5 丨, to instantly control the connection to the control This to y peripheral device 14 of device 150. The transmission module 151 is instantly connected to the user's mobile phone 160 by SMS. The transmission module 1 51 can also be connected to a wireless network. That is, the B inch is connected to the user's mobile phone 丨6〇. The wireless network can be a GSM GPRS, 3G, WiFi, or WiMax wireless network. When the wireless, week 1*^• is 3G • '戌 transmission module 1 $ 1 is a 3 mobile phone module, the user mobile phone 160 is a 3 (3 mobile phone. When the at least one sensor 120 is a temperature sensor 丨 2 〇 1, 1, the sensing signal is a water temperature signal 'the at least one peripheral device 14 〇 is a heating device 1 4 0, 1. When the sensing signal (water temperature signal) is low At a temperature second threshold value (j 〇 C ) Β Γ Γ ' violation control device 150 outputs a control signal to the heating device 1 40, 丨 to drive the heating device 1 4 〇, 反之. The device ^ turns off the warming device 丨4 〇, 1 when the sensing signal is higher than a temperature first threshold (20〇c). When at least one sensor 120 is an oxygen concentration sensor 12 0 ' 2 'The side sensing signal is an oxygen concentration signal, and the at least one peripheral device is an oxygen exposure device 丨40, 2. When the Xenon concentration signal is lower than the second oxygen value of the oxygen, the control device 丨50 outputs one Controlling the signal to the oxygen exposure device 1 40, 2 to drive the exposure 201221052 oxygen device 1 40, 2. Conversely, the control device 150 is higher than the sensing signal The oxygen exposure device 1 40, 2 is turned off when the oxygen first threshold is reached.
該影像擷取裝置1 30具有一水底檢識卡13 1,該水底 檢識卡1 3 1可辨識該養殖魚塭1 1 〇中水的濁度。亦即,該 水底檢識卡1 3 1上設置有預定之圖樣,該影像擁取裝置 1 30可藉由擷取該水底檢識卡1 3〗上圖樣之影像,經由判 斷圖樣影像之清晰程度而辨識該養殖魚塭1 1 〇中水的濁 度。當該養殖魚塭110中水的濁度高於一預設值時,啟動 一水泵1 70進行換水。 s玄影像擷取裝置1 3 〇亦可藉由擷取該養殖魚塭丨丨〇中 魚體影像,並配合比對該水底檢識卡1 3丨上圖樣之影像以 辨別魚類的大小(體長、體重)時,因此無需使佣習知漁網 捕抓魚體,再依經驗判斷魚的大小,因此不會傷害魚隻。 可決解習知技術因為對魚體取樣所產生傷害的問題。該 影像操取裝置丨30亦可藉由擷取該養中魚體影The image capturing device 1 30 has a bottom detecting card 13 1 which can identify the turbidity of the water in the farmed fish. That is, the underwater identification card 1 3 1 is provided with a predetermined pattern, and the image capturing device 1 30 can determine the clarity of the image by capturing the image of the image on the underwater inspection card 1 3 . The turbidity of the water in the farmed fish carp was identified. When the turbidity of the water in the farmed fish raft 110 is higher than a predetermined value, a water pump 1 70 is activated to change the water. s _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ In terms of length and weight, it is not necessary to make the fishing net catch the fish body, and then judge the size of the fish according to experience, so it will not harm the fish. It can be used to solve the problem of the damage caused by the sampling of fish. The image manipulation device 丨30 can also capture the body image of the fish by taking the fish
像’以計算單位時間内通過該影像擷取裝置丨%的魚體個 數,以判斷魚隻的活性。 雲端綠能漁夫系統⑽更包含—太陽能模組】⑽及 風力發電模組19〇。該太陽能模組⑽及該風力發電模 1 9 0所產生的電力可招_ ^妓仏γ , 电刀J杈t'給戎至少一個感測器I”、 =:裝置丄3°、該少—周邊裝置14°、及該控制裝置1 二、供非燃燒性電力’俾輔助養殖產業之用電 則述5兄明可知,本發明技術可使養殖業者隨時 地可透過網際網路設施 寻 π··Ρι丨.e(女电月每及3G手機)進行雲端管: (皿小運异、控制及傳輸)水質監控系統及養殖系統心 8 201221052 (如換水 '加溫及曝氧設施),並到用綠能設施(如太陽能 發電及風力發電)提供非燃燒性電力幸甫助養瘦產業之用 電c '、 圖2係以本發明之雲端綠能漁夫系統丨00進行監控養 殖f、塭之流程圖。於步驟A1中,判斷該養殖魚塭11〇的水 溫是否低於該溫度第二門檻值〇(rc),若是,於步驟八二 中,該控制裝置150輸出一控制訊號至該加溫設備14〇,卜 以驅動該加溫設備14〇1 ’若否,再於步驟A3中判斷該 養殖魚塭110的水溫是否高於該溫度第一門檻值, 若是,於步驟A4中,該控制裝置丨5〇關閉該加溫設備 140,1 ,若否,則重回步驟(八丨)。 同樣地,於步驟中,判斷該養殖魚塭丨10的氣氣濃 度是否低於該氧氣第二門檻值,若是’於步驟们中,該 控制裝置150輸出一控制訊號至該曝氧設備丨4〇,2,以驅動 "亥曝氧a又備1 40,2,若否,再於步驟B3中,判斷該養殖魚 媪110的氧氣濃度是否高於該氧氣第—門檻值,若是’於 步驟A4中’該控制裝置1 50關閉該曝氧設備丨40,2,若否, 則重回步驟B丨。同樣地,關於該養殖魚塭丨丨〇的中水的濁 度控制或是其他養殖條件之控制,亦類似,為熟於該技 術者基於本發明技術所能完成,不再贅述。 養殖業者可在f地渡假,並於下午3點5分以3G手機 1 60透過已架設完成之雲端綠能漁夫系統⑺〇取得在乙地 的養殖漁塭資料。3G手機1 60透過雲端綠能漁夫系統I 〇〇 的貧料顯不在當曰2點35分,由於氧氣濃度已經足夠,因 此,曝氧設備丨40,2已自動停止運轉,而於當日2點55分由 201221052 於氧氣濃度不足而再度啟動曝氧設備1 40,2。而養殖業者 由溫度感測器120,1之溫度資料來看,漁塭水溫已經過 低’因此,養殖業者以3G手機丨60啟動加溫設備1 40,1進 行加溫,並設定30分鐘後停止。養殖業者再以3G手機透 過雲端綠能漁夫系統1 〇〇之一資料庫取得本月份之歷史 資料可換算省下250度電,而綠能設施(太陽能模組18〇及 風力發電模組190)則提供了 1,200度電。所省下的電費, 足以供應甲地一趟旅費,而雲端綠能漁夫系統1 〇〇則使養 殖業者可出遠門遊玩’而不必被綁死在養殖魚塩Η 〇附 近。 養殖業者亦可遠距離透過雲端綠能漁夫系統1 〇〇管 理各項水質監控及養殖設施,可有效提昇養殖業者的生 ’舌。口為。而該至少一個感測器丨2〇、該影像擷取裝置 及該少一周邊裝置丨40可大大提昇養殖之成功率。另外’ 整合綠能設備用於輔助供電,可有效降低排碳及利用當 地之充足日光和穩定風力。 發明之雲端綠能漁夫系統刚,可避免養殖業 間顧守魚埋’以觀察魚埋是否有異狀, 養殖業者的時間,回主 ’ 堪門^ ^ 门時可避充人眼觀察無法即時發現备 4 4而k成嚴重的損失之情形。 、手段及功效,在 極具實用價值。惟 了便於說明而舉例 以申凊專利範圍所 由上述可知,本發明無論就目的 在均顯示其迥異於習知技術之特徵, 思的疋,上述諸多實施例僅係為 而已本發明所主張之權利範圍自應 述為準@非僅限於M f 〇 201221052 【圖式簡單說明】 圖1係本發明雲端綠能漁夫系統的示意圖。 圖2係以本發明之雲端綠能漁夫系統1 00進行監控養殖魚 塭之流程圖。 【主要元件符號說明】 雲端綠能漁夫系統1 00 養殖魚塭11 0 至少一個感測器1 20 氧氣濃度感測器1 20,2 溫度感測器120,1 影像擷取裝置130 水底檢識卡1 3 1 至少一周邊裝置140 曝氧設備140,2 加溫設備140,1 控制裝置150 傳輸模組1 5 1 使用者手機160 水泵170 太陽能模組180 風力發電模組190The number of fish bodies passing through the image capturing device 丨% is calculated as the unit time to determine the activity of the fish. The cloud green energy fisherman system (10) further includes a solar module (10) and a wind power module 19〇. The solar module (10) and the power generated by the wind power generator 101 may be _^妓仏γ, the electric knife J杈t' gives at least one sensor I", =: the device 丄3°, the less - Peripheral device 14 °, and the control device 1 2, for non-combustible power '俾 Auxiliary farming industry power consumption 5 brothers know that the technology of the present invention allows the aquaculture industry to find GPRS through the Internet facilities at any time ··Ρι丨.e (female electricity monthly and 3G mobile phone) for cloud management: (small transport, control and transmission) water quality monitoring system and breeding system heart 8 201221052 (such as water change 'heating and oxygen exposure facilities), And to use green energy facilities (such as solar power and wind power) to provide non-combustible power to help the thin industry to use electricity c ', Figure 2 is to monitor the culture of the cloud green energy fisherman system 丨 00 of the present invention, In step A1, it is determined whether the water temperature of the farmed fish raft 11 is lower than the second threshold value (rc) of the temperature, and if so, in step VIII, the control device 150 outputs a control signal. Up to the heating device 14〇, to drive the heating device 14〇1 'if no, then In step A3, it is determined whether the water temperature of the farmed fish head 110 is higher than the first threshold value of the temperature. If yes, in step A4, the control device 丨5〇 turns off the warming device 140,1, and if not, returns again. Step (eight). Similarly, in the step, it is determined whether the gas concentration of the cultured fish gill 10 is lower than the second threshold of the oxygen, if the step is, the control device 150 outputs a control signal to The oxygen exposure device 丨4〇, 2, to drive "hai exposure oxygen a and prepare 1 40, 2, and if not, in step B3, determine whether the oxygen concentration of the cultured fish raft 110 is higher than the oxygen - If the threshold value is 'in step A4', the control device 150 closes the aeration device 丨40, 2, and if not, returns to step B. Similarly, regarding the water in the farmed fish gill The control of turbidity or the control of other culture conditions is similar, and can be completed by those skilled in the art based on the technology of the present invention, and will not be described again. The breeder can vacation at the place of f, and at 3:5 pm to 3G. Mobile phone 1 60 is obtained through the erected cloud green fisherman system (7) Fishing rod data. 3G mobile phone 1 60 through the cloud green energy fisherman system I 贫 poor material is not at 2:35, because the oxygen concentration is sufficient, therefore, the oxygen exposure equipment 丨40,2 has automatically stopped running, and At 2:55 on the same day, the oxygen exposure equipment 1 40, 2 was restarted by the 201221052 due to insufficient oxygen concentration. The fishermen's temperature data of the temperature sensor 120, 1 is too low. The breeder starts the heating device 1 40,1 with 3G mobile phone 丨60, and sets it up for 30 minutes. The breeder then uses the 3G mobile phone to obtain the history of this month through the database of the cloud green energy fisherman system. The data can be converted to 250 kWh, while the green energy facility (solar module 18 〇 and wind power module 190) provides 1,200 kWh. The electricity bill saved is enough to supply a trip to the land, while the cloud green fisherman system 1 allows the breeders to travel far and away without having to be tied to the farmed fish. Aquaculture operators can also manage various water quality monitoring and breeding facilities through the Cloud Green Energy Fisherman System 1 to improve the health of the breeders. The mouth is. The at least one sensor 〇2〇, the image capturing device and the less peripheral device 丨40 can greatly improve the success rate of the breeding. In addition, the integrated green energy equipment is used for auxiliary power supply, which can effectively reduce carbon emissions and utilize sufficient sunlight and stable wind power in the local area. Invented the cloud green energy fisherman system just to avoid the fish farming in the breeding industry to observe whether there is any abnormality in the fish burial, the time of the aquaculture industry, back to the main 'Kenmen ^ ^ door can avoid the human eye observation can not be instant It was found that the situation was a serious loss. , means and efficacy, are of great practical value. The above description of the present invention is intended to be illustrative, and the present invention is intended to be distinct from the features of the prior art, and the various embodiments described above are merely claimed by the present invention. The scope of rights is subject to the statement that it is not limited to M f 〇 201221052 [Simplified illustration of the drawings] Figure 1 is a schematic diagram of the cloud green energy fisherman system of the present invention. Fig. 2 is a flow chart showing the monitoring of farmed fish by the cloud green energy fisherman system 100 of the present invention. [Main component symbol description] Cloud Green Energy Fisherman System 1 00 Farmed Fish Rod 11 0 At least one sensor 1 20 Oxygen concentration sensor 1 20, 2 Temperature sensor 120, 1 Image capture device 130 Water bottom detection card 1 3 1 at least one peripheral device 140 aeration device 140, 2 heating device 140, 1 control device 150 transmission module 1 5 1 user mobile phone 160 water pump 170 solar module 180 wind power module 190