M442517 五、新型說明: 【新型所屬之技術領域】 本創作是有關於一種放大裝置,且特別是有關於一種 工業應用之顯微放大裝置。 【先前技術】 • 隨著科技日新月異的進步與發展,各種顯微攝影機逐 • 漸廣泛地應用於各個領域當中,諸如:在醫療美容時常見 的皮膚與牙齒觀察、小型電子元件的觀察與檢測、精密儀 器的維修與檢測等等,顯微攝影機都可帶來莫大的幫助。 然而,現有的顯微攝影機均需搭配電腦主機,且此電 腦主機更必須具有特定作業系統(如微軟©公司的 Windows®作業系統),才能夠將顯微攝影機所觀察到的影 像傳送至顯示器上。因此,即使使用者所在的環境中存在 著顯示器及顯微攝影機,但倘若無任何電腦主機時,顯微 • 攝影機仍無法將所擷取到的影像傳輸至顯示器上,將毫無 " 用武之地。 - 由此可知,現有的顯微攝影機在使用上仍存在著諸多 不便與限制。 【新型内容】 有鑑於此,本創作之一態樣係在於提供一種工業應用 之顯微放大裝置,其無須任何電腦主機即可播放攝影機所 擷取到的影像,故可克服先前技術所遭遇到的問題。 4 傳送至顯示器上播放係在於將攝影機所擷取到的影像直接 统。 ’而無須透過電腦主機及特定作業系 本倉J作之另—·目、 影像時呈鏡面效果,的係在於使顯示系統無發光或無顯示 現影像。藉此,本創=在顯示系統顯示影像時又可順利呈 用來播放攝影機所^應用之顯微放A裝置不僅可 A τ ,, 、、 的衫像,更可拿來當作鏡子使用。 工掌廊用之ϋ上述目的,依據本創作之一實施方式,箱 業應=顯微玫大震置包含一土 :種 :二透明鏡片以及 =式:制 面板。肷入式控制器 貝丁-具有-顯示 板。半透明鏡片投影覆敗於:不為中並轉合於顯示面 接至欲入式控制器,=板。顯微攝影機係通訊連 單元。鏡頭係用以訊號傳 傳,裝置係用以將鏡頭所錄之影像='、,讀。訊號 制益且放大顯示於該顯示面板上。 嵌入式控 存鏡頭所擷取之影像。 "象儲存單元係用以儲 藉由以上技術手段,本創作 機所擷取到的影像直接傳送至顯示器4,將顯微攝影 以顯示於顯不面板上,而無須透過 播μ控制器, 攝影機可設置影像儲存單心用以儲存^:另外,顯微 助記錄顯微攝影機所拍攝到的晝面=或影片,而幫 更包含If月鏡片’其投影覆蓋顯示面板上述實施方式 示面板無=時’由於外界環境】:藉此’當顯 故半透明鏡片可反射外界環境之光線,板更高, 旳玉鏡面效果; M442517 相對地,當顯示面板顯示影像時,其所發出之光線將穿透 過半透明鏡片,俾使觀看者可順利觀看顯示面板所播放之 影像。故,上述實施方式之工業應用之顯微放大裝置不僅 可用來播放顯微攝影機所擷取到的影像,更可拿來當作鏡 子使用。 以上所述僅係用以闡述本創作所欲解決的問題、解決 問題的技術手段、及其產生的功效等等,本創作之具體細 節將在下文的實施方式及相關圖式中詳細介紹。 【實施方式】 以下將以圖式揭露本創作之複數實施方式,為明確說 明起見,許多實務上的細節將在以下敘述中一併說明。然 而,熟悉本領域之技術人員應當瞭解到,在本創作部分實 施方式中,這些實務上的細節並非必要的,因此不應用以 限制本創作。此外,為簡化圖式起見,一些習知慣用的結 構與元件在圖式中將以簡單示意的方式繪示之。 第1圖繪示依據本創作之一實施方式之工業應用之顯 微放大裝置之正視圖。如圖所示,本實施方式所示之工業 應用之顯微放大裝置包含一顯示器100、一嵌入式控制器 200、一半透明鏡片400以及一顯微攝影機300。顯示器100 具有一顯示面板110。嵌入式控制器200係内嵌於顯示器 100中並耦合於顯示面板110。半透明鏡片400投影覆蓋顯 示面板110。顯微攝影機300係通訊連接至嵌入式控制器 200,以將顯微攝影機300所擷取之影像直接傳送至嵌入式 控制器200並顯示於顯示面板110上。 如圖^圖=第1圖之顯微攝影機3GG之系統方塊圖。 2〇〇,且此2微攝影機獅係通訊連接至嵌人式控制器 320及一旦^攝景 =機3〇0包含鏡頭310、一訊號傳送裝置 訊號傳送Ϊ置=〇, 350。鏡頭31 〇係用以搁取一影像。 送至辦入^ 係用以將鏡頭所擷取之影像直接傳 影像儲存i 2°°且放域㈣鶴㈣板110上。 早70 35〇係用以儲存鏡頭310所擷取之影像。 控制器lot上ί實施方式可在顯示器100中設置-嵌入式 號,故益1 /、可直接接收顯微攝影機300所傳送來的訊 到的;=腦主機’即可將顯微攝影機30°所操取 方式可上:: 面板110上。另外,本創作上述實施 纾攝影機300中安裝影像儲存單元350,以記 錄^頭3U)所擷取的影像或影片。 數個==二ίί明書全文所述之『通訊連接』係指複 :a子在著訊號的傳遞,並不代表該些裝置必須 2外橋接實體裝置(例如:傳輸線缝流排料)來進行 接。,對地’ —I置傳遞訊號至另—裝置,即使兩者之 a,不子在任何實體|置,亦符合本說明書令『通訊連接』 之定義。舉例而言,顯微攝影機300通訊連接至嵌入式栌 制器2GG係指兩者之_在著訊號的傳遞,而傳遞方式可 透過傳輸線或匯流排’亦可透過射頻等無線峨來進 遞。 應瞭解到,本說明書全文所述之『投影覆蓋』係指一 裝置垂直投影至另-裳置所在平面會覆蓋住另_裝置,並 不代表S i裝置必須有物理接觸⑽ysieal。舉例而 M442517 e半透月鏡片400投琴覆蓋顯示面板u 明鏡片權必須接觸顯示面板11〇β相對地,即 鏡片400與顯不面板u〇彼此分隔而無物 透=:二,顯示面板11〇所在平面會覆蓋;= 面板110即付合本說明#巾『投影覆蓋』之定義。M442517 V. New description: [New technical field] The present invention relates to an amplifying device, and in particular to a microscopic amplifying device for industrial applications. [Prior Art] • With the rapid advancement and development of technology, various photomicrographs are increasingly used in various fields, such as skin and tooth observations, observation and detection of small electronic components, which are common in medical beauty, Micro-cameras can be of great help in the maintenance and testing of precision instruments. However, existing micro cameras need to be equipped with a computer host, and this computer host must have a specific operating system (such as Microsoft®'s Windows® operating system) to transmit the images observed by the camera to the display. . Therefore, even if there is a display and a micro camera in the user's environment, if there is no computer mainframe, the micro camera will still be unable to transfer the captured image to the display, and there will be no use. Ground. - It can be seen that there are still many inconveniences and limitations in the use of existing micro cameras. [New content] In view of this, one aspect of this creation is to provide a microscopic amplifying device for industrial applications, which can play the image captured by the camera without any computer host, so it can overcome the problems encountered by the prior art. The problem. 4 Transfer to the monitor The playback system is based on the image captured by the camera. There is no need to use the computer mainframe and the specific operating system. The other is the mirror effect of the image and the image, so that the display system has no light or no display image. In this way, the present invention can be used to display the image of the camera. The microscopic A device used for the camera can be used not only as a τ, , , , , but also as a mirror. For the above purposes, according to one of the implementations of this creation, the box industry should have a soil: a variety of transparent lenses and a type: panel. Intrusion controller Bedin-with-display panel. The translucent lens projection is overridden: not in the middle and is transferred to the display surface to the controller, = board. The photomicrophone is a communication unit. The lens is used for signal transmission, and the device is used to read the image recorded by the lens = ',, read. The signal is displayed and enlarged on the display panel. The image captured by the embedded memory lens. "image storage unit is used to store the image captured by the authoring machine directly to the display 4 by the above technical means, and the microphotography is displayed on the display panel without passing through the broadcast μ controller. The camera can set the image storage single center for storage ^: In addition, the micro-assisted recording micro-camera captures the kneading surface = or film, and the help includes the If month lens's projection overlay display panel. = When 'because of the external environment】: By this, when the semi-transparent lens can reflect the light of the external environment, the board is higher, the surface effect of the jade jade; M442517, when the display panel displays the image, the light emitted by it will Through the translucent lens, the viewer can smoothly view the image played by the display panel. Therefore, the microscopic amplifying device for industrial applications of the above embodiment can be used not only for playing an image captured by a micro camera, but also for use as a mirror. The above description is only used to explain the problems to be solved by the present invention, the technical means for solving the problems, the effects thereof, and the like, and the specific details of the present invention will be described in detail in the following embodiments and related drawings. [Embodiment] The embodiments of the present invention are disclosed in the following drawings. For the sake of clarity, a number of practical details will be described in the following description. However, those skilled in the art will appreciate that these practical details are not necessary in the context of this inventive part and are therefore not intended to limit the present invention. Moreover, some of the conventional structures and elements are shown in the drawings in a simplified schematic manner in order to simplify the drawings. Fig. 1 is a front elevational view showing a micro-amplifying device for industrial applications according to an embodiment of the present invention. As shown, the microscopic magnification device for industrial applications shown in this embodiment includes a display 100, an embedded controller 200, a half transparent lens 400, and a micro camera 300. The display 100 has a display panel 110. The embedded controller 200 is embedded in the display 100 and coupled to the display panel 110. The translucent lens 400 is projected to cover the display panel 110. The micro camera 300 is communicatively coupled to the embedded controller 200 to transmit the images captured by the micro camera 300 directly to the embedded controller 200 and displayed on the display panel 110. Figure 4 is a block diagram of the system of the micro camera 3GG of Fig. 1. 2〇〇, and the 2 micro camera lion communication is connected to the embedded controller 320 and once the camera = camera 3 〇 0 includes the lens 310, a signal transmission device, signal transmission device = 〇, 350. The lens 31 is used to hold an image. Send to the system ^ to directly transfer the image captured by the lens to the image storage i 2 ° ° and put the domain (four) crane (four) board 110. It is used to store the images captured by the lens 310 as early as 70. The implementation mode of the controller lot can be set in the display 100 - the embedded number, the benefit 1 / can directly receive the message transmitted by the micro camera 300; = the brain host can be 30 ° the microscope camera The operation method can be on: panel 110. In addition, in the above-described implementation camera 300 of the present invention, the image storage unit 350 is installed to record the image or movie captured by the head 3U. The "communication connection" described in the full text of the == two ί ί 系 系 系 系 系 : : : : : : : : : : : : : : : : : : : : : : 『 『 『 『 『 『 『 『 『 通讯 通讯 通讯 通讯 通讯Pick up. , to the ground - I set the signal to the other device, even if the two a, not in any entity | set, also meet the definition of "communication connection" in this manual. For example, the communication of the micro camera 300 to the embedded controller 2GG means that the transmission of the signal is transmitted through the transmission line or the bus bar, and can also be transmitted through a radio such as a radio frequency. It should be understood that the term "projection overlay" as used throughout the specification means that the vertical projection of a device to the plane in which it is placed will cover the other device, and does not mean that the device must have physical contact (10) ysieal. For example, the M442517 e semi-transparent lens 400 plectrum covers the display panel. The lens must be in contact with the display panel 11 〇β, that is, the lens 400 and the display panel u 〇 are separated from each other without material leakage. The plane where the 〇 is located will be covered; = the panel 110 is the definition of the "projection coverage".
於本實施方式中’半透明鏡片400係配置以當顯示面 板110發光時為透光,巾當顯示面板11〇無發光時反射 透明鏡片400相對於顯示面板11〇之另一侧之影像,亦即 外界環,中的影像。舉例而言,半透明鏡片彻可為鏡面 玻璃或單向玻料等。以半鏡面玻璃為例,其係於玻璃板 的表面塗上一層陶瓷膜,當顯示面板110無發光時,陶瓷 膜會反射外界環境中的影像;當顯示面板110發光時,陶 究膜則可供顯示面板11G的光線穿透,俾利觀看者能約看 到顯示面板110所呈現的影像。 於部分實施方式中,半透明鏡片400為一觸控破璃並 耦合至嵌入式控制器2〇〇。具體而言,半透明鏡片4〇〇可 為鍍有觸控導電層的玻璃片,而其觸控導電層係耦合至嵌 入式控制窃200。藉此,觀看者可藉由觸碰半透明鏡片4〇〇 來控制嵌入式控制器2〇〇執行特定功能。 於本實施方式中,工業應用之顯微放大裝置可進—步 包含一防水墊圈700,夾設於該半透明鏡片400與顯示面 板110之間’以避免水氣滲入顯示器100内部,而造成電 子零件的損壞。 於本實施方式中,顯微攝影機300之鏡頭310係設置 於顯微攝影機300之端部340上。具體而言,顯微攝影機 M442517 300可包含一侧柄330及兩端部340,這兩端部340係分別 形成於側柄330之相對兩端’而鏡頭31〇係設置於其中一 端部340上。於部分實施方式中,顯微攝影機3〇〇之鏡頭 310的放大倍率可為50至200倍,但不以此為限。於部分 實施方式中’顯微攝影機300之鏡頭310可為具有自動對 焦功能之光學鏡頭’其聚焦範圍約介於5毫米至50毫米之 間’但不以此為限。於部分實施方式中’鏡頭31〇可由CMOS 感光元件或CCD感光元件所製成’但不以此為限。於部分 鲁實施方式中’顯微攝影機300可進一步包含複數發光二極 體(未示於圖中)’其係設置於鏡頭310之周遭,以利提升 影像亮度。 於本實施方式中,影像儲存單元350可為各種記憶 體’用以儲存鏡頭310所擷取之影像或錄製之影片。舉例 來說’影像儲存單元350可由唯讀記憶體(Read 〇niyIn the present embodiment, the semi-transparent lens 400 is configured to transmit light when the display panel 110 emits light, and to reflect the image of the transparent lens 400 relative to the other side of the display panel 11 when the display panel 11 is not illuminated. That is, the image in the outer ring. For example, the translucent lens may be a mirror glass or a unidirectional glass. Taking a semi-mirror glass as an example, the surface of the glass plate is coated with a ceramic film. When the display panel 110 has no light, the ceramic film reflects the image in the external environment; when the display panel 110 emits light, the ceramic film can be used. The light for the display panel 11G is penetrated, so that the viewer can see the image presented by the display panel 110. In some embodiments, the translucent lens 400 is a touch glass that is coupled to the embedded controller 2A. Specifically, the translucent lens 4 can be a glass plate coated with a touch conductive layer, and its touch conductive layer is coupled to the embedded control tamper 200. Thereby, the viewer can control the embedded controller 2 to perform a specific function by touching the translucent lens 4〇〇. In the present embodiment, the microscopic amplifying device for industrial application can further include a waterproof gasket 700 sandwiched between the translucent lens 400 and the display panel 110 to prevent moisture from penetrating into the interior of the display 100, thereby causing electrons. Damage to the part. In the present embodiment, the lens 310 of the microscope camera 300 is disposed on the end 340 of the microscope camera 300. Specifically, the micro camera M442517 300 may include a side handle 330 and two end portions 340 formed at opposite ends of the side handle 330 respectively, and the lens 31 is disposed on one end portion 340 thereof. . In some embodiments, the magnification of the lens 310 of the micro camera may be 50 to 200 times, but not limited thereto. In some embodiments, the lens 310 of the micro camera 300 can be an optical lens having an auto-focus function, and its focusing range is between about 5 mm and 50 mm, but not limited thereto. In some embodiments, the lens 31 can be made of a CMOS photosensitive element or a CCD photosensitive element, but is not limited thereto. In the partial embodiment, the micro camera 300 may further include a plurality of light emitting diodes (not shown) disposed around the lens 310 to enhance image brightness. In this embodiment, the image storage unit 350 can be used to store images captured by the lens 310 or recorded movies. For example, the image storage unit 350 can be read-only memory (Read 〇niy)
Memory,ROM)或快閃記憶體(Flash Memory)等非揮發性記 憶體(Non-Volatile Memory,NVM)來實現。 癱. w 於本實施方式中,顯示器100可進一步包含一訊號接 收裝置120,而訊號接收裝置120可直接通訊連接至訊號 傳送裝置320,而無透過其他裝置(如電腦主機等等)。 舉例來說,工業應用之顯微放大裝置可進一步包含一 傳輸線500 ’其係連接於訊號傳送裝置32〇與訊號接收裝 置120之間’以利將顯微攝影機3〇〇所擷取到的影像傳送 至嵌入式控制器200中。舉例而言,傳輸線500可為符合 通用串列匯流排(Universal Serial Bus,以下將簡稱USB)規 格之傳輸線’而訊號傳送裝置320及訊號接收裝置12〇則 9 M442517 可為符合USB規格之接頭。再舉例而言,傳輸線5〇〇可為 傳遞聲視(audio-video,以下將簡稱AV)訊號之傳輸線,而 訊號傳送裝置320及訊號接收裝置120則可為Av端子。 第3圖繪示依據本創作另-實施方式之工業應用之顯 微放大裝置之正視圖。本實施方式與第i圖相似,主要差 異係在於本實施方式之訊號傳送裝置32G及訊號接收裝置 120係利用無線訊號建立通訊連接。換言之,_攝Memory, ROM) or Non-Volatile Memory (NVM) such as Flash Memory. In this embodiment, the display 100 can further include a signal receiving device 120, and the signal receiving device 120 can be directly connected to the signal transmitting device 320 without passing through other devices (such as a computer host or the like). For example, the microscopic amplifying device for industrial applications may further include a transmission line 500' connected between the signal transmitting device 32 and the signal receiving device 120 to facilitate the image captured by the micro camera 3 Transfer to the embedded controller 200. For example, the transmission line 500 can be a transmission line conforming to the Universal Serial Bus (USB) specification, and the signal transmission device 320 and the signal receiving device 12 can be a USB-compliant connector. For example, the transmission line 5 can be a transmission line for transmitting an audio-video (hereinafter referred to as AV) signal, and the signal transmission device 320 and the signal receiving device 120 can be an Av terminal. Fig. 3 is a front elevational view showing a micro-amplifying device for industrial applications according to another embodiment of the present invention. This embodiment is similar to the i-th diagram. The main difference is that the signal transmitting device 32G and the signal receiving device 120 of the present embodiment establish a communication connection by using a wireless signal. In other words, _ photo
3〇〇之訊號傳送裝置320可傳送無線訊號至顯示器1〇〇之 訊號接收裝置12G,而無_外橋接任何傳輸線或匯流排 等等。舉例而言,訊號傳送裝置320及訊號接收裝置12〇 ^傳遞無線保真(Wireless Fidelity,以下將簡稱|11?1)訊 號、ZigBee訊號、射頻訊號或是藍牙訊號等無線訊號。應 瞭解到,ZigBee係為無線通訊業者所常用的一種低速短^ 傳輸的無線通訊技術,其主要由jj〇neyweH◎公司組成的 ZigBee Alliance所制定,係從1998年開始發展,於2〇〇1 年向電機電子工程師學會(IEEE)提案納AIEEE8〇2 154 標準規範之中。 · 第4圖繪示依據本創作之一實施方式之顯示器1〇〇之 系統方塊圖。如圖所示,本實施方式所示之顯示器1〇〇可 匕含夕媒體单元210(Multimedia Main Board)以及一電視 控制單元220(TV Scalar Board)。電視控制單元220係耦合 至顯不面板110。多媒體單元21〇係耦合至電視控制單元 220並通訊連接至網路及顯微攝影機3〇〇(請併參閱第}或^ 圖),以將網路之資訊或顯微攝影機3〇〇所擷取之影像傳送 至顯不面板110。藉此,顯示面板110不僅能播放顯微攝影 M442517 機擷取之影像’更可用來劉覽網頁。 於部分實施方式中,多媒赞 訊埠212以及-影像傳輸模梃21广210可包含-網路通 以連接至網路,以接收網路資訊=路通訊埠212係用 以將顯微攝影機3〇〇所擷取之:像傳輸模組214係用 =’訊號接收裝置120 : J = : ::多媒體單元210中的影像傳輸模組心ς 機_之訊號傳送裝置32〇(請併 t·貞微攝衫 的訊號傳送至電視控制單元22〇: 或:圖):傳送來 將訊號傳送至顯示面板110,即可顯干出:二制早70 220 所揭取之影像。 卩了顯不出顯微攝影機300 揚聲!實施方式中’顯示器100亦可包含電源_、 % 4益620、類比調階器630、聲視訊號(AV)端子 7、以及紅外線接收裝置650等等。電源、6i〇係用以提供 顯不面板110及嵌入式控制器200電力。揚聲器62〇係耦 合至電視控制單元220,以利播放音訊。類比調階器63〇 係耦合至電視控制單元220,以傳遞電視訊號。Av端子連 接單元640係耦合至電視控制單元220,其可供其他影像 播放裝置(例如:光碟放映機、電視遊樂器)等等來傳遞訊 號至顯示面板110。紅外線接收裝置650係輕合至電視# 制單元220 ’以供遙控裝置(例如:電視遙控器)操作電視控 制單元220(例如:執行靜音、轉台等功能)。 二 藉此’上述實施方式之顯示器100不僅可顯示顯微攝 影機300所擷取之影像及網路資訊,亦可做為一般電視來 播放電視節目。 M442517 雖然本創作已以實施方式揭露如上,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和 範圍内,當可作各種之更動與潤飾,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。 【圖式簡單說明】 為讓本創作之上述和其他目的、特徵、優點與實施例 能更明顯易懂,所附圖式之說明如下: 第1圖繪示依據本創作之一實施方式之工業應用之顯 微放大裝置之正視圖。 第2圖繪示第1圖之顯微攝影機之系統方塊圖。 第3圖繪示依據本創作另一實施方式之工業應用之顯 微放大裝置之正視圖。 第4圖繪示依據本創作之一實施方式之顯示器之系統 方塊圖。 【主要元件符號說明】 100 顯示器 110 顯示面板 120 訊號接收裝置 200 嵌入式控制器 210 多媒體單元 220 電視控制單元 212 網路通訊埠 214 影像傳輸模組 12 M442517 300 :顯微攝影機 310 :鏡頭 320 :訊號傳送裝置 330 :側柄 340 :端部 350 :影像儲存單元 400 :半透明鏡片 _ 500 :傳輸線 鲁610 :電源 620 :揚聲器 630 :類比調階器 640 :聲視訊號(AV)端子連接單元 650 :紅外線接收裝置 7 0 0 .防水塾圈 13The signal transmitting device 320 can transmit a wireless signal to the signal receiving device 12G of the display unit 1 without externally bridging any transmission line or bus bar or the like. For example, the signal transmitting device 320 and the signal receiving device 12 transmit wireless signals such as Wireless Fidelity (hereinafter referred to as |11?1) signals, ZigBee signals, RF signals, or Bluetooth signals. It should be understood that ZigBee is a low-speed short-transmission wireless communication technology commonly used by wireless communication operators. It is mainly developed by ZigBee Alliance, which is composed of jj〇neyweH◎ company. It has been developed since 1998, at 2〇〇1. The Institute of Electrical and Electronics Engineers (IEEE) proposed the AIEEE8〇2 154 standard specification. Figure 4 is a block diagram of a system 1 according to an embodiment of the present invention. As shown in the figure, the display 1 shown in this embodiment can include a Multimedia Main Board 210 and a TV Scalar Board. Television control unit 220 is coupled to display panel 110. The multimedia unit 21 is coupled to the television control unit 220 and is communicatively coupled to the network and the micro camera 3 (please refer to the } or ^ diagram) to transmit the information of the network or the micro camera. The captured image is transmitted to the display panel 110. Thereby, the display panel 110 can not only play the image captured by the photomicrography M442517, but can also be used for the web page. In some embodiments, the multimedia message 212 and the image transmission module 21 can include a network communication to connect to the network to receive network information. 3: The transmission module 214 is used = 'signal receiving device 120: J = : :: the video transmission module in the multimedia unit 210 _ the signal transmission device 32 〇 (please · The signal of the micro-camera is transmitted to the TV control unit 22: or: Fig.): The signal is transmitted to the display panel 110, and the image is revealed by the second system. I can't show the micro camera 300 speaker! In the embodiment, the display 100 may also include a power source_, a %4 benefit 620, an analog level adjuster 630, a sound image (AV) terminal 7, an infrared receiving device 650, and the like. The power supply, 6i is used to provide power to the panel 110 and the embedded controller 200. The speaker 62 is coupled to the television control unit 220 for playback of audio. Analog comparator 63 is coupled to television control unit 220 for transmitting television signals. The Av terminal connection unit 640 is coupled to the television control unit 220, which can be used to transmit signals to the display panel 110 by other video playback devices (e.g., optical disk projectors, video game instruments) and the like. The infrared receiving device 650 is lightly coupled to the television unit 220' for remote control (e.g., television remote control) to operate the television control unit 220 (e.g., to perform functions such as mute, turntable, etc.). Secondly, the display 100 of the above embodiment can display not only the image and network information captured by the micro camera 300, but also a general television to play a television program. M442517 Although the present invention has been disclosed in the above embodiments, it is not intended to limit the present invention, and anyone skilled in the art can make various changes and refinements without departing from the spirit and scope of the present invention. The scope of protection is subject to the definition of the scope of the patent application attached. BRIEF DESCRIPTION OF THE DRAWINGS In order to make the above and other objects, features, advantages and embodiments of the present invention more obvious, the description of the drawings is as follows: Figure 1 shows an industrial according to one embodiment of the present invention. A front view of a microscopic magnification device applied. Figure 2 is a block diagram showing the system of the photomicrograph of Figure 1. Fig. 3 is a front elevational view showing a micro-amplifying device for industrial applications according to another embodiment of the present invention. Figure 4 is a block diagram showing the system of a display according to an embodiment of the present invention. [Main component symbol description] 100 display 110 display panel 120 signal receiving device 200 embedded controller 210 multimedia unit 220 television control unit 212 network communication port 214 image transmission module 12 M442517 300: micro camera 310: lens 320: signal Conveying device 330: side handle 340: end portion 350: image storage unit 400: translucent lens _500: transmission line 420: power supply 620: speaker 630: analog scaler 640: audio and video (AV) terminal connection unit 650: Infrared receiving device 7 0 0 . Waterproof ring 13