M286581 八、新型說明: 【新型所屬之技術領域】 本創作係有關一種無人全自動箱網養殖系統,尤指一 種箱網結合攝影與傳輸裝置及自動投餌裝置之無人全自動 箱網養殖系統,使箱網之養殖作業可由遠端監控。 【先前技術】 人類箱網養殖歷史悠久,其主要技術工具包括箱網浮 Φ 具、網衣及錨碇系統,以進行海洋養殖,先簡介箱網養殖 先前技術: 箱網從最初簡陋的形態,發展至今結構已有了相當大 的改變,今日的箱網在形態及設計上相當的多樣化,箱網 有四種基本形態:固定式、浮式、可沉式及沉底式。固定 式箱網乃是以竹桿插入或釘入湖底或河底以支撐一個箱 網,其使用範圍以菲律賓等熱帶國家較為普遍。 浮式箱網的網袋是以具有浮力的網框或網架來支撐整 • 體設備。直至目前為止,這類型箱網之使用最為廣泛。 可沉式箱網的網身,不論是硬式或軟式皆無網框結 構,而是依靠網架支撐以保持箱網的形狀。 沉式箱網的設計已經被提出來,但僅有極少數的沉底 式箱網被製成,或僅是設計之構思階段。 近年來,由於陸上畜牧之疾病與污染,使各國更極力 推廣箱網養殖作業,但有關箱網自動化及高科技設施,均 相當簡陋,使箱網養殖需大量人力,加上遠離陸上觀察不 易,使箱網產業難以有效進展。縱然,箱網技術發展甚快, (S; M286581 但有關結合高科技之無人全自動養殖系統,目前並無開 發,使養殖仍需仰賴大量之人力及工時。 ' 【新型内容】 本創作之主要目的,在於解決上述的問題而提供一種 無人全自動箱網養殖系統裝置,其主要在於箱網平台上設 有攝影裝置及傳送裝置,及可供遙控投餌之自動投餌機, 並由攝影裝置提供影像傳輸至岸上接收器,而岸上接收器 $ 設有伺服器,並以網際網路連接上網,使本系統可在遠端 藉由網際網路觀察海上箱網魚群行為,並進行養殖管理, 並藉由岸上遙控遠端投餌,進行養殖管理與作業,達到無 人全自動箱網養殖系統裝置。 為達前述之目的,本創作係包括: 一箱網系統,該箱網系統係由數浮框平台排列圈繞而 成,並成為箱網養殖系統之外框及提供浮力,其下緣連接 一網衣,俾供該箱網系統為養魚部,以成為可進行魚類生 I 殖之圈繞保護範圍; 至少一無線傳輸攝影裝置,其係設置於該浮框平台上 且鄰近於該養魚部上緣,該無線傳輸攝影裝置更包括一攝 影裝置及一傳送裝置,該攝影裝置俾供攝取影像,且該攝 影裝置並可將影像轉換成影像訊號藉由該傳送裝置而發送 至一岸上接收器,並以網際網路連接至一觀測用電腦,以 進行遠端觀察魚群攝餌行為; 一遙控自動投餌裝置,其設置於該箱網系統之浮框平 台上,且該遙控自動投餌裝置藉由一遙控接收器接收一遙 ⑧ M286581 控器訊號而可遠端遙控投放餌料。 【實施方式】 請參閱第1圖,圖中所示者為本創作所選用之實施例 結構,此僅供說明之用,在專利申請上並不受此種結構之 , 限制。 本實施例包括: 一箱網系統1,該箱網系統係由數浮框平台1 1排列 I 圈繞而成,其浮框1 1為PE材質,並成為箱網養殖系統之 外框及提供浮力,其下緣連接一網衣2。 該網衣2係為養魚部,其係連接各該浮框1 1下緣, 以成為可進行魚類生殖之圈繞保護範圍。 至少一無線傳輸攝影裝置3,其係設置於該浮框平台 1 1上且鄰近於該養魚部上緣,該無線傳輸攝影裝置3更 包括一攝影裝置3 1及一傳送裝置3 2,該攝影裝置3 1 經由一攝影鏡頭3 3俾供攝取魚群水中及水上影像,且該 Φ 攝影裝置31並可將影像轉換成影像訊號藉由該傳送裝置 3 2而發送至一岸上接收器4,於本實施例中,該岸上接 收器4係為一電腦之主機伺服器,並以網際網路5連接至 一觀測用電腦6,以進行遠端觀察魚群攝餌行為。 一遙控自動投餌裝置7,其設置於該箱網系統1之浮 框平台1 1上,該遙控投餌裝置7包括一儲餌槽7 1、一 、 投餌輸送機7 2,該儲餌槽7 1係供儲放餌料,並與該投 餌輸送機7 2結合,於本實施例中,該投餌輸送機7 2係 為一投餌空氣輸送機,且該遙控自動投餌裝置7藉由一遙 (g M286581 控接收器7 3,使操作者可經由一設於該岸上接收器4之 遙控器7 4遙控投放餌料。 當漁業養殖者須進行觀看時,可藉由設置於該浮框平 台1 1上攝影裝置3之攝影鏡頭3 3將影像訊號經該傳送 裝置3 2將影像以微波傳送至一岸上接收器4,並由網際 網路5連接上網至一觀測用電腦6,以進行遠端觀察。 然於觀察後,若需進行餵食餌料之作業時,可藉由該 遙控器7 4輸出訊號至該自動投餌裝置7之遙控接收器7 B 3,使該自動投餌裝置7進行投擲餌料之動作,且可同時 由該無線傳輸攝影裝置3,將養魚部魚群攝食狀況,經由 該無線傳輸攝影裝置3傳回岸上接收器4,並以網際網路 5連接,使使用者可由該觀測用電腦6來觀察魚群攝餌行 為。 故,操作者在使用時,可以大大減低水面作業的風險, 此外,本創作亦提供使用者有效率的操作裝置,不僅為使 _ 用者降低水面作業的時間,更減少於餵食時須親自至箱網 區進行現場餵食水下作業所耗費的時間,進而降低人員工 作時間的成本。 以上所述實施例之揭示係用以說明本創作,並非用以 限制本創作,故舉凡數值之變更或等效元件之置換仍應隸 屬本創作之範疇。 由以上詳細說明,可使熟知本項技藝者明瞭本創作的 確可達成前述目的,實已符合專利法之規定,爰提出專利 申請。 ⑧ M286581 【圖式簡單說明】 第1圖係本創作之第一實施例實施狀態示意圖 【主要元件符號說明】 (本創作部分) 箱網系統1 浮框平台11 網衣2 無線傳輸攝影裝置3 攝影裝置3 1 傳送裝置3 2 攝影鏡頭3 3 岸上接收器4 網際網路5 觀測用電腦6 遙控自動投餌裝置7 儲餌槽7 1 投餌輸送機7 2 遙控器7 4 遙控接收器7 3M286581 VIII, new description: [New technical field] This creation is related to an unmanned automatic box net breeding system, especially a box net combined with photography and transmission device and automatic feeding device for unmanned automatic net culture system. The breeding operation of the box net can be monitored remotely. [Prior Art] Human box net culture has a long history. Its main technical tools include box net floating Φ, net clothing and anchor system for marine aquaculture. Firstly, the previous technology of box net breeding: the net form of the box net from the beginning, The structure has evolved considerably since its development. Today's box nets are quite diverse in form and design. There are four basic forms of box nets: fixed, floating, sunken and sinking. The fixed box net is inserted or nailed into the bottom of the lake or the bottom of the river to support a box net. Its use range is more common in tropical countries such as the Philippines. The mesh bag of the floating box net is a buoyant frame or grid to support the whole body equipment. Until now, this type of box network has been the most widely used. The net body of the sunken box net, whether hard or soft, has no frame structure, but relies on the support of the net frame to maintain the shape of the net. The design of the sunken box network has been proposed, but only a very small number of sinker nets have been made, or only the design stage of the design. In recent years, due to the diseases and pollution of onshore livestock, countries have made greater efforts to promote the operation of box net breeding. However, the automation of box nets and high-tech facilities are quite simple, so that the cage net breeding requires a lot of manpower, and it is not easy to observe from the land. It is difficult for the box network industry to make effective progress. Even though the box network technology is developing very fast, (S; M286581, but there is no development of the unmanned automatic breeding system combined with high technology, so the farming still depends on a lot of manpower and working hours. ' [New content] The main purpose is to solve the above problems and provide an unmanned automatic box net breeding system device, which mainly comprises a photographing device and a conveying device on a box net platform, and an automatic feeding machine for remotely feeding the bait, and is photographed by The device provides image transmission to the shore receiver, while the shore receiver $ has a server and connects to the Internet via an internet connection, so that the system can observe the behavior of the fish nets at the remote site through the Internet and conduct breeding management. And by remotely feeding the bait on the shore for aquaculture management and operation, to achieve the automatic unmanned box net breeding system device. For the purpose of the foregoing, the creation system includes: a box network system, the box network system is composed of The floating frame platform is arranged in a circle, and becomes a frame outside the box net breeding system and provides buoyancy, and the lower edge is connected with a net coat, and the net system is provided for raising the net system. In order to be a circumstance protection range for fish breeding; at least one wireless transmission photographic device is disposed on the floating frame platform adjacent to the upper edge of the fish culture portion, and the wireless transmission photographic device further includes a photographic unit a device and a transmitting device for capturing images, and the camera device can convert the image into an image signal, and the device transmits the image signal to an onshore receiver and connects to an observation computer via the Internet. For remote observation of fish bait behavior; a remote control automatic feeding device, which is arranged on the floating frame platform of the box net system, and the remote automatic feeding device receives a remote 8 M286581 control by a remote control receiver The signal can be remotely controlled to remotely feed the bait. [Embodiment] Please refer to Figure 1 for the structure of the embodiment selected for this creation. This is for illustrative purposes only and is not applicable to patent applications. This embodiment includes: a box net system 1 which is formed by a number of floating frame platforms 1 1 arranged in a circle, and the floating frame 1 1 is made of PE material and becomes The box net culture system is externally framed and provides buoyancy, and the lower edge is connected to a net coat 2. The net coat 2 is a fish culture part, which is connected to the lower edge of each floating frame 1 1 to become a circle for fish reproduction. The wireless transmission imaging device 3 is disposed on the floating frame platform 1 1 adjacent to the upper edge of the fish culture portion, and the wireless transmission imaging device 3 further includes a photographing device 31 and a transport device 3 2 . The photographing device 3 1 feeds the fish swarm water and the water image through a photographing lens 3 3 , and the Φ photographing device 31 can convert the image into an image signal and send it to an onshore receiver 4 by the transport device 32 . In this embodiment, the shore receiver 4 is a host server of a computer, and is connected to an observation computer 6 via the Internet 5 for remote observation of the fish bait behavior. The device 7 is disposed on the floating frame platform 1 of the box net system 1. The remote control feeding device 7 includes a storage tank 7 1 and a feeding conveyor 72. The storage tank 7 1 is provided. Store the bait and combine it with the bait conveyor 7 2 In the example, the feeding conveyor 72 is a bait air conveyor, and the remote automatic feeding device 7 is provided by the remote control (g M286581 control receiver 73), so that the operator can be located on the shore. The remote controller 7 of the receiver 4 remotely controls the bait. When the fishermen are to watch, the image signal can be transmitted by microwave to the onshore receiver 4 via the transmitting device 3 2 through the photographic lens 3 of the photographic device 3 disposed on the floating frame platform 1 . The Internet 5 is connected to an observation computer 6 for remote observation. After the observation, if the operation of feeding the bait is required, the remote control device 7 4 outputs a signal to the remote control receiver 7 B 3 of the automatic feeding device 7, so that the automatic feeding device 7 performs the feeding of the bait. The wireless transmission imaging device 3 can simultaneously transmit the fish-feeding condition of the fish-fishing unit to the shore receiver 4 via the wireless transmission imaging device 3, and connect to the Internet 5 to enable the user to use the observation computer. 6 to observe the behavior of fish bait. Therefore, the operator can greatly reduce the risk of water surface operation when using it. In addition, this creation also provides users with efficient operation devices, not only to reduce the time for water users to work, but also to reduce personal feeding when feeding. The time spent on the on-site feeding of the underwater operation in the tank network area reduces the cost of staff working hours. The above description of the embodiments is intended to be illustrative of the present invention and is not intended to limit the scope of the present invention. From the above detailed description, it will be apparent to those skilled in the art that the present invention can achieve the foregoing objectives, and it has been in compliance with the provisions of the Patent Law and has filed a patent application. 8 M286581 [Simple description of the drawing] Fig. 1 is a schematic diagram showing the state of implementation of the first embodiment of the present invention [Description of main components] (This creation part) Box network system 1 Floating frame platform 11 Net clothes 2 Wireless transmission photography device 3 Photography Device 3 1 Transfer device 3 2 Photographic lens 3 3 Onshore receiver 4 Internet 5 Observing computer 6 Remote control automatic feeding device 7 Trench tank 7 1 Feed conveyor 7 2 Remote control 7 4 Remote receiver 7 3