M429339 五、新型說明: 【新型所屬之技術領域】 本創作係有關一種釣具,特別是一種智慧型釣具。 【先前技術】 浮標乃釣魚時不可絲_具,釣者主妓游魚讀㈣拉動魚 餌而產生位移,同時牵躺_使浮標上下動作,藉赠為游魚索辑之識 別。 然而在釣,#、時,*伽魚練會帶動浮標上下動作,尚有許多因素會 造成浮標上下動作,如:蜻蜓、蚊绳等小晃蟲靠近、水面上的風,甚至水 面下的暗流、水波轉會產生干擾而使浮標動作,嚴奸_者辨別浮標 動作的準確性’再者,即歧游魚索_而帶動浮標上下動作,也未必是魚 已’二上鉤有可能疋遊魚琢食魚麵已。此外,釣者將魚釣起後,常會因 ‘”、過】或麵不賴者需求而將已上鉤之魚放回,必須錄換上新辑才能 繼續釣魚,對釣者而言相當不方便。而有些國家或舰,為了保護漁類生 態環境,亦會_幼魚不可釣取,釣上後必須將其放回,转上述相同之 不便處。 因此,如何改善釣具之結構,使釣者可觀看游魚索辑之情形 ,以讓釣 ’’、、是否上鉤’解決浮標作動準確性低的問題進而確認魚之種類與 大小是否符合釣者之需求,並讓釣者決定是否釣起_之魚,係為本案之 創作人以及從事此相關行業之技術領域者亟欲改善的課題。 【新型内容】 3 M429339 有鑑於此’本創作提出一種智慧型釣具,包含:釣線;鉛錘模組,設 置於釣線上,包含:攝像模組,用以擷取水中影像;及微處理器系統模組, 依據水中影像判斷釣物,並決定是否產生控制信號;及釣鉤模組,設置於 釣線上,依據控制信號而切換為釣魚狀態,並將附有魚餌之釣鉤放出。 本創作之微處理器系統模組藉由水中影像判斷釣物,並可直接在水面 下判斷是否將釣物釣起’ «水中影像傳至岸上,再由釣者決定是否將釣 物釣取。 以下僅猎由具體實施例,且佐以圖式作詳細之說明,俾使貴審查委 員能對本創作之各項功能、特點有更造一步了解與認識: 【實施方式】 如「第1圖」與「第2圖」所示,為本創作之第一實施例。 智慧型釣具包含:釣線20、鉛錘模組30、釣鉤模組4〇。 釣線20為由尼龍材質所製成,亦可由碳纖材質所製成,且釣線2〇細 綁於固枝1G上,其巾,固定架1()為固定於岸上,亦可固定於船上。再 者,固定架10可為一釣竿。 鑛模組3〇,設置於釣線2〇上,包含攝像模㈣與微處理器系統模 組32,而攝像模組S1用以擷取水中影像,並藉由微處理器系統模組32依 據水中影像判_物,並決定是否產生控制信I其中,微處理器系統模 組32可依據水中影像判斷釣物之種類或大小,亦可依據料影像同時判斷 釣物之種類與大小。此外,微處理器系統模组Μ設置有設定裝置^卜而 設定裝置321可供釣者設定攝像模組31是_取水中影像,以及微處理器 系統模組32是否進行判斷釣物,並可依據設定裝置321之預先設定值而讓 釣鉤模組40維持釣魚狀態。 上述說明之攝像模組Μ可為電荷輕合元件攝影鏡頭或互補金屬氧化 半導體攝影鏡頭,而微處理K賴組32可為系統單晶片。 釣鉤核組40,設置於釣線2〇上,並可依據控制信號而切換為釣魚狀 態或停止釣魚崎。釣鉤歡4G包含:釣觸護盒4卜釣鉤42、控制裝 置43。其中,釣釣42係配置於釣釣保護盒41内,並藉由控制裝置43依據 控制信號而將釣鉤42放出釣鉤保護盒41外,藉以切換為釣魚狀態。再者, 控制裝置43亦可依據控制信號而將釣鉤犯拉回釣夠保護盒41内,藉以切 換為停止釣魚狀態。 依據本創倾聽之結構,峡架1Q上更可設置電源裝置u,藉由 釣線20傳輸電力*提供錯鍾模組3〇與釣釣模組40所需之電力。 田釣者於釣魚時’攝像獅Μ會持輪取水巾影像,並將水中影像傳 送至微處理錄鋪組32 ’而㈣物靠近時,微處理器純歡%依據水 令影像判斷·之種類或大小,⑽定衫赶控偷號,使侧模組 切換為釣魚狀贼停止釣魚狀態,藉此可直接在搞下觸是秘釣物釣 起。若釣物之種類或大小不符釣者之需求時,微處理器系統模組%並不會 產生控制信號給釣鉤模組4〇,但若釣鉤42已在釣鉤保護盒41外,微處理 器系統模組32會產生控制信號給釣鉤模組4(),以將釣鉤42拉回釣釣保護 盒41内,避免不符釣者需求之釣物上鉤’解決習用釣具在釣物上釣後,因 M429339 不符合釣者需求而將釣物再次放回之問題,有效提升釣者在釣魚時之便利 性。若釣物之種類或大小符合釣者之需求時,微處理器系統模組32會產生 控制信號給釣鉤模組40’並將釣鉤42放出釣鉤保護盒41外而待釣物上鉤。 再者,釣者亦可透過設定裝置321,使攝像模組3丨停止擷取水中影像, 並使微處理器系統模組32停止判斷釣物,以讓釣釣模組維持一般傳統 釣魚狀態而待釣物上鉤。 上述說明之結構十,更可包含輸入裝置12,位於固定架1〇上而供釣 者輸入指令進行操作,並供使用者輸入所欲釣取之釣物的種類與大小。而 釣者可藉由操作輸入裝置12設定或調整設定裝置321之預先設定值,使攝 像模組31停止擷取水中影像,並使微處理器系統模組32依據指令停止判 斷釣物。此外,釣者藉由輸入裝置12輸入指令,微處理器系統模組32依 據指令產生控制信號,使釣鉤模組4〇切換為釣魚狀態或停止釣魚狀態。 輸入裝置12包含第一收發模組121,鉛錘模組3〇包含第三收發模組 33,s釣者藉由輸入裝置丨2輸入指令時,第一收發模組121將指令傳送至 第二收發模組33而控制攝像模組31與微處理器系統模組32。 其中,上述說明之輸入裝置12可為鍵盤或觸控式螢幕。再者,第一收 發模組121可經由釣線20與第三收發模組33相連接以進行傳輸,亦可經 由傳輸線進行傳輸,或採用無線傳輸之方式進行傳輸,且無線傳輸所採用 之無線通信協定為選自 Bluet〇〇th、、8〇2 12、802.12a、802.12b、 802.12g、802·12η、802.12i、802.1x及其他無線網路技術所使用之通信協定 者0 6 M429339 如「第3圖」所示,為本創作之第二實施例。 本創作更包含顯示幕,位於固定架1〇上,且顯示幕i3包含第二收 發模組I3卜而第二收發模,組m可接收第三收發模組%所傳送之水中影 像,並將水懷象傳送至顯示幕13顯示。其中,第二收發模組i3i 釣線20與第三收發模組33相連接以進行傳輸,亦可經由傳輪線進行傳輸, 或採用無線雜之方錢行職,且無_輪所·之無線聽協定為選 自胸讀、觀ax、觀12、謝2a、8G2必、紙%、败i2n、嶋^、 802.1x及其他無線網路技術所使用之通信協定者。 藉由顯示幕】3顯示水中影像,不僅讓釣者可隨時觀看釣物索铸之情 形,亦可觀看水十各種生物活動之情形,藉以提高釣者釣魚時之樂趣。再 者,釣者亦可透過顯示幕13判斷釣物之麵或大小,並操作輸入裝置Η 使釣鉤模组40切換為釣魚狀態或停止釣魚狀態。 上述說明之第-收發模組121與第二收發模組131為可視實際設計需 要而分開,亦可以同-收發模組而供輸入裝置12與顯示幕Η共用而進行 傳輸。 如「第4圖」所示,為本創作之第三實施例。 在此一實施例中,更可於釣線20上設置浮標5〇與重量平衡模組6〇, 藉由重量平衡模組60增加重量’並可提升鉛錘模組3〇之穩定度,使攝像 模組31擷取水中影像時不會隨意搖晃。 如「第5圖」所示,為本創作之第四實施例。 ,。錘模組3〇更包含照明模組34,不僅可提供攝像模組3i擷取水中影 7 M429339 像時所需之光源,亦可產生至少一閃光,用以吸引釣物靠近或喝阻釣物靠 近。再者,鉛錘模組30亦可設置音波產生模組35,用以產生至少一音波, 用以吸引釣物靠近或喝阻釣物靠近。藉此提升符合釣者需求之釣物的上鉤 機會,增加釣者釣中之漁獲量。 如「第6圖」所示’為本創作之第五實施例。 為提升釣者於釣魚時之便利性,並讓釣者更能掌握釣魚時之環境因 素’錯錘模組30更包含溫度測量模組36、水深測量模組37、水濁度測量 模組38。其溫度測量模組36、水深測量模組37、水濁度測量模組38 二者之測量結果,均可經由第三收發模組33與第二收發模組131傳送至顯 示幕13顯示’使釣者隨時掌握釣魚環境之溫度、水深及水濁度。 雖然本創作的技術内容已經以較佳實施例揭露如上,然其並非用以限 定本創作,任何熟習此技藝者,在不脫離本創作之精神所作些許之更動與 潤飾,皆應涵蓋於本創作的範疇内,因此本創作之保護範圍當視後附之申 請專利範圍所界定者為準。 M429339 【圖式簡單說明】 第1圖為本創作之第一實施例的示意圖。 第2圖為本創作之第一實施例的方塊圖。 第3圖為本創作之第二實施例的方塊圖。 第4圖為本創作之第三實施例的示意圖。 第5圖為本創作之第四實施例的方塊圖。 第6圖為本創作之第五實施例的方塊圖。 【主要元件符號說明】 10 ..........固定架 11 ..........電源裝置 12 ..........輸入裝置 121.........第一收發模組 13 ..........顯示幕 131.........第二收發模組 20..........釣線 30 ..........鉛錘模組 31 ..........攝像模組 32 ..........微處理器系統模組 321.........設定裝置 33 ..........第三收發模組 M429339 34 ..........照明模組 35 ..........音波產生模組 36 ..........溫度測量模組 37 ..........水深測量模組 38 ..........水濁度測量模組 40 ..........釣鉤模組 41 ........••釣鉤保護盒 42 ..........釣鉤 43 ..........控制裝置 50..........浮標 60..........重量平衡模組M429339 V. New description: [New technical field] This creation is about a fishing tackle, especially a smart fishing tackle. [Prior Art] When the buoy is fishing, it is not allowed to be silky. The fisherman's main fish swims (4) pulls the fish bait and generates displacement. At the same time, it is pulled _ to make the buoy move up and down, and the loan is used for the identification of the fish. However, in fishing, #,时,* 伽鱼练 will drive the buoy up and down movement, there are still many factors that will cause the buoy to move up and down, such as: 蜻蜓, mosquito ropes and other small worms approaching, the wind on the water, and even the undercurrent under the water The water wave will cause interference and make the buoy move. The traitor will distinguish the accuracy of the buoy action. Again, the squid _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Fish noodles have been. In addition, after the fisherman catches the fish, the fish that has been hooked will often be returned due to the demand of '', over' or over-the-counter. It is necessary to record the new series to continue fishing, which is quite inconvenient for the fisherman. In some countries or ships, in order to protect the ecological environment of fishery, juvenile fish cannot be caught. After fishing, they must be put back and transferred to the same inconvenience. Therefore, how to improve the structure of the fishing tackle so that the fishermen can watch it. In the case of the fish fishing series, the fishing "', or whether it is hooked" solves the problem of low accuracy of the buoy operation, and then confirms whether the type and size of the fish meet the needs of the fisherman and allows the fisherman to decide whether to catch the fish. This is the subject of the creators of this case and those who are engaged in the technical field of this related industry. [New content] 3 M429339 In view of this, this creation proposes a smart fishing tackle, including: fishing line; plumb bobbin module, The utility model is disposed on the fishing line, comprising: a camera module for capturing underwater images; and a microprocessor system module, determining the fishing object according to the underwater image, and determining whether to generate a control signal; and the hook module, It is placed on the fishing line, switched to the fishing state according to the control signal, and the fishing hook with the fishing lure is released. The microprocessor system module of the present invention judges the fishing object by the underwater image, and can directly judge whether it will be fishing under the water surface. "Fishing" «The underwater image is transmitted to the shore, and then the fisherman decides whether to catch the fish. The following is only a specific example, and the detailed description is given in the drawings, so that your review board can Each function and feature has a better understanding and understanding: [Embodiment] As shown in "Figure 1" and "Figure 2", it is the first embodiment of the creation. The smart fishing tackle includes: a fishing line 20, a plumb bobbin module 30, and a hook module 4〇. The fishing line 20 is made of nylon material, and can also be made of carbon fiber material, and the fishing line 2 is thinly tied to the fixed branch 1G, and the towel, the fixing frame 1 () is fixed on the shore, and can also be fixed on the ship. . Further, the holder 10 can be a fishing rod. The mine module is disposed on the fishing line 2, including the camera module (4) and the microprocessor system module 32, and the camera module S1 is used to capture the underwater image, and is controlled by the microprocessor system module 32. The underwater image judges whether or not the control signal I is generated. The microprocessor system module 32 can determine the type or size of the fishing object according to the underwater image, and can also determine the type and size of the fishing object according to the material image. In addition, the microprocessor system module is provided with a setting device, and the setting device 321 is provided for the fisherman to set the camera module 31 to take the water image, and whether the microprocessor system module 32 determines the fish object, and The hook module 40 is maintained in a fishing state in accordance with a preset value of the setting device 321 . The camera module 上述 described above may be a charge-and-light component photographic lens or a complementary metal oxide semiconductor photographic lens, and the micro-processing K-layer 32 may be a system single-chip. The hook core group 40 is disposed on the fishing line 2, and can be switched to a fishing state or stop fishing in accordance with a control signal. The hook 4G includes: a fishing box 4, a hook 42, and a control unit 43. Among them, the fishing line 42 is disposed in the fishing protection box 41, and the control device 43 releases the hook 42 out of the hook protection box 41 in accordance with the control signal, thereby switching to the fishing state. Furthermore, the control device 43 can also pull the hook hook back into the fishing protection box 41 according to the control signal, thereby switching to stop the fishing state. According to the structure of the present listening device, the power supply unit u can be further disposed on the chimney 1Q, and the power required by the fishing line 20* provides the power required for the wrong clock module 3 and the fishing module 40. When the fisherman is fishing, the camera gry will hold the water towel image and transfer the underwater image to the micro-processing record group 32'. (4) When the object is close, the microprocessor pure joy is judged according to the water image. Or size, (10) fixed shirts to steal the number, so that the side module is switched to a fishing thief to stop fishing, so that you can directly catch the secret fishing items. If the type or size of the fishing item does not meet the needs of the fisherman, the microprocessor system module % does not generate a control signal to the hook module 4, but if the hook 42 is already in the hook protection box 41, the microprocessor system The module 32 generates a control signal to the hook module 4 () to pull the hook 42 back into the fishing protection box 41, so as to avoid the hook of the fishing rod that does not meet the needs of the fisherman's solution to the conventional fishing tackle after fishing on the fishing object, because M429339 The problem of returning the fishing material again without meeting the needs of the fisherman can effectively improve the convenience of the fisherman during fishing. If the type or size of the fishing item meets the needs of the angler, the microprocessor system module 32 generates a control signal to the hook module 40' and releases the hook 42 out of the hook protection box 41 to be hooked. Moreover, the fisherman can also cause the camera module 3 to stop capturing the underwater image through the setting device 321, and stop the microprocessor system module 32 to determine the fishing object, so that the fishing module maintains the general fishing state. Go fishing hooks. The structure 10 described above may further include an input device 12 located on the holder 1 for the fisherman to input an instruction for operation and for the user to input the type and size of the item to be fished. The fisherman can set or adjust the preset value of the setting device 321 by operating the input device 12, so that the camera module 31 stops capturing the underwater image, and causes the microprocessor system module 32 to stop judging the fishing object according to the instruction. In addition, the fisherman inputs an instruction through the input device 12, and the microprocessor system module 32 generates a control signal according to the command to switch the hook module 4 to the fishing state or stop the fishing state. The input device 12 includes a first transceiver module 121, and the plumb module 3 includes a third transceiver module 33. When the fisherman inputs an instruction through the input device ,2, the first transceiver module 121 transmits the command to the second The transceiver module 33 controls the camera module 31 and the microprocessor system module 32. The input device 12 described above may be a keyboard or a touch screen. Furthermore, the first transceiver module 121 can be connected to the third transceiver module 33 via the fishing line 20 for transmission, can also be transmitted via a transmission line, or can be transmitted by wireless transmission, and wirelessly used for wireless transmission. The communication protocol is a communication protocol selected from Bluet〇〇th, 8〇2 12, 802.12a, 802.12b, 802.12g, 802.12n, 802.12i, 802.1x, and other wireless network technologies, such as 0 6 M429339. The third embodiment of the present invention is shown in "Fig. 3". The present invention further includes a display screen on the fixed frame 1 , and the display screen i3 includes a second transceiver module I3 and a second transceiver module, and the group m can receive the underwater image transmitted by the third transceiver module %, and The water image is transmitted to the display screen 13 for display. The second transceiver module i3i the fishing line 20 is connected to the third transceiver module 33 for transmission, and can also be transmitted via the transmission line, or using the wireless miscellaneous money to perform the job, and there is no _ wheel The wireless listening protocol is a communication protocol selected from the group consisting of chest reading, viewing ax, watching 12, thanking 2a, 8G2, paper%, losing i2n, 嶋^, 802.1x, and other wireless network technologies. By displaying the underwater image by the display screen 3, the fisherman can watch the shape of the fishing object at any time, and can also watch the various biological activities of the water, thereby improving the fisherman's fun when fishing. Further, the angler can determine the face or size of the fishery through the display screen 13, and operate the input device 切换 to switch the hook module 40 to the fishing state or stop the fishing state. The first transceiver module 121 and the second transceiver module 131 described above are separated for visually actual design needs, and may be shared with the transceiver module for the input device 12 to share with the display screen. As shown in Figure 4, this is the third embodiment of the creation. In this embodiment, the buoy 5〇 and the weight balance module 6〇 can be disposed on the fishing line 20, and the weight is increased by the weight balance module 60, and the stability of the plumb bobbin module 3 can be improved. When the camera module 31 captures the underwater image, it does not shake at will. As shown in "figure 5", this is the fourth embodiment of the creation. ,. The hammer module 3 further includes a lighting module 34, which not only provides the light source required for the camera module 3i to capture the image of the water image 7 M429339, but also generates at least one flash for attracting the fish to approach or drink the fishing tackle. . Furthermore, the plumb bobbin module 30 can also be provided with a sound wave generating module 35 for generating at least one sound wave for attracting the fish to approach or drink the fishing tackle. In this way, the hooking opportunity of the fishing material that meets the needs of the angler is increased, and the catch of the fisherman is increased. As shown in "Figure 6," the fifth embodiment of the creation. In order to improve the convenience of the fisherman in fishing, and to enable the angler to better grasp the environmental factors during fishing, the wrong hammer module 30 further includes a temperature measuring module 36, a water depth measuring module 37, and a water turbidity measuring module 38. . The measurement results of both the temperature measuring module 36, the water depth measuring module 37, and the water turbidity measuring module 38 can be transmitted to the display screen 13 via the third transceiver module 33 and the second transceiver module 131. The fisherman keeps abreast of the temperature, water depth and water turbidity of the fishing environment. Although the technical content of the present invention has been disclosed in the above preferred embodiments, it is not intended to limit the present invention. Anyone who is familiar with the art, and some modifications and refinements that do not depart from the spirit of the present invention should be included in the creation. Therefore, the scope of protection of this creation is subject to the definition of the scope of the patent application. M429339 [Simple Description of the Drawing] Fig. 1 is a schematic view showing the first embodiment of the creation. Figure 2 is a block diagram of the first embodiment of the creation. Figure 3 is a block diagram of a second embodiment of the present invention. Figure 4 is a schematic view of a third embodiment of the creation. Figure 5 is a block diagram of a fourth embodiment of the present invention. Figure 6 is a block diagram of a fifth embodiment of the present invention. [Description of main component symbols] 10 ..........fixing frame 11 ..... power supply device 12 ..... input device 121.... .....first transceiver module 13 ..........display screen 131.........second transceiver module 20........fishing Line 30 .......... Plumb module 31 .......... Camera module 32 ..... Microprocessor system module 321.. .......Setting device 33 .......... Third transceiver module M429339 34 .......... Lighting module 35 ......... Sound wave generating module 36 ..... temperature measuring module 37 .......... water depth measuring module 38 .......... water turbidity measurement Module 40 ..... Hook module 41 ........••Hook protection box 42 ..... hook 43....... ...control device 50..........buoy 60..........weight balancing module