M337767 八、新型說明: 【新型所屬之技術領域】 種具有偵測震動功能的攝像裝 本創作係關於一種攝像裝置,特別係_ 置。 【先前技術】 按,在使賴帅機進她_取時,—旦制者在減門時發生 -瞬間晃動’或手部產生較嚴重的抖動情形,或是數位相機受到其他外力 鲁震動’都有可能造成所拍攝出來的影像模糊不清。 因此胃知有&數位相機係採用修圖的方式,將模糊影像還原為 原始型態’如我國專繼號㈣732叙「可觀資訊處理裝置之攝像修正 .暨消除震動系統」,其揭示-攝像修正暨消除震動系統應用在數位相機上,此系 w義細ϋ測單元用以 偵測數位相機所產生之角度偏移,並將傳送角度偏移數據至輸出端, 一運算單 元連接攝像單元與感測單元,以接收視訊圖像與角度偏移數據,以依據角度偏 籲移數據對視訊圖像作出修正後,才傳送至一顯示單元顯示修正後的視訊圖像。 惟’-旦數位相機所承受的外界震動太大,即使採用前述之彌補偏移 角度來修JE影像’依舊是有可能產生獅之影像結果。 緣此’本創作係提供一種具有偵測震動功能的攝像裝置,以解決上述 之限制與缺失。 . 【新型内容】 在此具體且詳細敘述本創作之目的,其為了克服習知技術之缺 遂提出—種具有偵測震動功能的攝像裝置,其主要是在攝像裝置本體内 5 M337767 設置一震動偵測模組,且震動偵測模組具有一可移動組件與一影像感測單元 ,可移動組件會隨著攝像裝置本體移動,影像感測單元則可擷取可移動組件之 連續影像,所以藉此比較連續影像就能判定可移動組件是否有位移,進而判斷 數位相機所受的振動量,以進一步提示使用者是否能得到良好的影像品質。 根據本創作所揭示的具有彳貞測震動功能的攝像裝置,係包括一影像感測 ,單元、一提示單元及一處理單元位在攝像裝置本體内,其中處理單元耦接影像 •感測單元與提示單元,並有_齡單元位在攝像裝置本體上域接處理單元, • 以及一震動偵測模組位在攝像裝置本體内,其中震動偵測模組係包括一可移動 組件,可隨攝像裝置本體位移,-光酬以發射—第—光線至可移動組件,可 移動組·第-光線反誠-第二絲,以及―鱗朗單元输處理單元, 用以持續接收從可移動組件所反賴第二紐,以取得可移驗件之連續影像 並傳送此_影像至處理單元,以比較連續影像進_定可移動組件是否有位 由此可知,從可移動組件之位移量大小就可判斷數位相機所受的振動量, 籲且處理單元會致動提示料發出—提示訊號,例如崎音峨錢幕顯示⑽) •訊號來告知個者當下的握持狀毅否可產生良好品質的影彳象,所以使 用者就可決定是否需要重新擷取影像。再者,處理單元亦可根據可移動組 件之位移量對影像感測單元所感測的影像進行修正後,輸出此修正影像至顯示 單元顯示。 補作之目贼其他目的對於此技藝之通常知識者而言,_町實施例 之詳細内容後係顯而易知的。 先前的概述與接下來的詳細敘述都是範例,以便能進—步解釋本創作之專 6 M337767 利請求項。 【實施方式】 本創作係-種具有_震動魏的攝像裝置,㈣事缺示使用者可能的 —影像拍攝結果,其中攝像裝置係為數位相機,故底下係以係以數位相機作\ 實施例,說明本創作之技術特徵。 請同時參照第-圖與第二圖,係本創作之具有偵測震動功能的數位相機之 .結構不意圖,及參照第三圖,係本創作之具有憤測震動功能的數位相機之電路 •示意圖。如圖所示,本創作之具有偵測震動功能的數位相機ίο包括一數位相機 本體12,且在數位械本體上12設有—顯示單元__示影像,在數位相機 本體12内則設有一電路板(圖中未示)、一影像感測單元16、一提示單元18及一 處理單元20耦接影像感測單元16與提示單元18,其中影像感測單元16、提示單 元18及處理單元20皆耦接電路板,處理單元2〇並耦接液晶顯示單元14,以及一 震動偵測模組22位在數位相機本體12内,且可同時參照第四圖之震動偵測模組 的放大示意圖與第五圖之震動偵測模組之一截面示意圖,震動偵測模組22包括 馨一具有中空結構25的基板24,一可移動組件26位在基板24之一表面上,一光源 28位在基板24之中空結構之一側上,一透鏡3〇位在光源28所發射的光線行進路 線上且藉由一固定塊32位在中空結構25之一側上,及一影像感測單元34位在基 板24之另一表面上且耦接電路板與處理單元2〇,其中可移動組件26包括一框架 261、一板塊262與兩彈性元件263,板塊262之相對兩側分別透過兩彈性元件263 連接至框架261之兩側邊,因此可移動組件26之板塊262可隨數位相機本體12位 移。其中,顯示單元14係一液晶顯示單元,光源28可為紅色發光二極體,兩彈 性元件243係彈簧,影像感測單元16與影像感測單元34可為一電荷藕合元件(CCD) 7 M337767 或一互補金屬氧化物導體(CMOS)。 當光源28發射一第一光線L1至透鏡30,會經由透鏡3〇將第一光線L1導向至 板塊262表面上,之後板塊262將第一光線L1反射成一第二光線L2至影像感測單 元34,影像感測單元34持續接收從可移動組件26之板塊262所反射的第二光線 L2,如此即可取得板塊262之連續影像,影像感測單元34並傳送連續影像至處理 單元20,處理單元20從這些連續影像中比較板塊262的相對位置,進而判定板塊 262是否有位移,故從板塊262之位移量大小就可判斷數位相機本體12所受的手 鲁持振動量,且處理單元2〇會致動提示單元以發出一提示訊號,例如用聲音訊號 或螢幕顯示(0SD)訊號來告知使用者當下的握持狀態是否可產生良好品質 的影像,所以使用者就可決定是否需要重新擷取影像。 再者,處理單元20尚可根據減262之位移量對影像感測單元16所感測的影 像進行修正,再輸出修正過的影像至顯示單元14顯示。 因此’本創作之具有偵測震動功能的攝像裝置利用一震動偵測模組就能得 知數位相機所受所受的振動量,並藉此事先提示使用者可能的影像拍攝結果, 馨而非僅是習知技術之一般的事後影像處理。 以上所述之實施例僅係為說明本創作之技術思想及特點,其目的在 使裏、S此項技藝之人士能夠瞭解本創作之内容並據以實施,當不能以 之限定本創作之專職圍,即大凡依本創作所揭示之精神所作之均等 變化或修飾,仍應涵蓋在本創作之專利範圍内。 【圖式簡單說明】 第一圖係本創作之數位相機之結構示意圖。 第二圖係本創作之數位相機之外觀示意圖。 8 M337767 第三圖係本創作之數位相機的電路示意圖。 第四圖係本創作之震動偵測模組之立體結構示意圖 第五圖係本創作之震動偵測模組之截面示意圖。 【主要元件符號說明】 10數位相機 12數位相機本體 14顯示單元 16影像感測單元 18提示單元 20處理單元 22震動偵測模組24基板 25中空結構 26可移動組件 261框架 262板塊 263彈性元件 28光源 30透鏡 32固定塊 34影像感測單元M337767 VIII. New description: [New technical field] A kind of camera with detection vibration function This author is about a kind of camera device, especially _ set. [Prior Art] Press, when the Lai Shuai machine enters her _ take, the system occurs when the door is reduced - the moment sways ' or the hand produces a more serious jitter situation, or the digital camera is subjected to other external forces." It is possible that the captured image is blurred. Therefore, the stomach knows that & digital camera adopts the method of retouching, and restores the blurred image to the original type. For example, China's special serial number (4) 732, "The camera correction of the observable information processing device. And the vibration elimination system", its revealing - camera The correction and elimination vibration system is applied to a digital camera, and the system is used to detect the angular offset generated by the digital camera, and shifts the transmission angle to the output end, and an arithmetic unit is connected to the camera unit and The sensing unit receives the video image and the angle offset data to correct the video image according to the angle bias data, and then transmits the image to the display unit to display the corrected video image. However, the external vibration of the 'Den's digital camera is too large, even if the above-mentioned offset angle is used to repair the JE image' is still likely to produce the image result of the lion. Therefore, the author provides a camera device with a vibration detecting function to solve the above limitations and defects. [New content] The purpose of this creation is specifically and in detail described herein. In order to overcome the shortcomings of the prior art, a camera device with a vibration detecting function is mainly provided, and a vibration is set in the camera body 5 M337767. The detection module has a movable component and an image sensing unit, and the movable component moves along with the camera body, and the image sensing unit can capture continuous images of the movable component, so By comparing the continuous images, it is possible to determine whether the movable component is displaced, and thereby determine the amount of vibration of the digital camera to further indicate whether the user can obtain good image quality. The camera device with the vibration detection function disclosed in the present invention includes an image sensing unit, a prompting unit and a processing unit located in the camera body, wherein the processing unit is coupled to the image sensing unit and The prompting unit has a _ age unit located on the camera body, and a vibration detecting module is located in the camera body, wherein the vibration detecting module includes a movable component, which can be used with the camera The displacement of the device body, - the light to emit - the first light to the movable component, the movable group · the first light - the second wire, and the "scale" unit, for continuous receiving from the movable component Relying on the second button to obtain a continuous image of the removable piece and transmitting the image to the processing unit to compare whether the continuous image has a bit or not, and thus the displacement amount from the movable component is The amount of vibration received by the digital camera can be judged, and the processing unit will actuate the prompting material to emit a prompt signal, such as the singular sound screen display (10)) • the signal to inform the current grip Whether or not it can produce a good quality image, so the user can decide whether or not to retrieve the image. Furthermore, the processing unit may also correct the image sensed by the image sensing unit according to the displacement amount of the movable component, and then output the corrected image to the display unit display. The purpose of the thief is to make it clear to the general knowledge of the art. The previous overview and the following detailed description are examples so that we can further explain the creation of the special 6 M337767 request. [Embodiment] This creation system has a camera device with _Vibration Wei, and (4) the result of the user--image capture, where the camera device is a digital camera, so the camera is used as a digital camera. , indicating the technical characteristics of this creation. Please refer to the first and second pictures at the same time, which is the digital camera with the function of detecting vibration. The structure is not intended, and the third picture is the circuit of the digital camera with the anger detection function. schematic diagram. As shown in the figure, the digital camera with the vibration detecting function of the present invention includes a digital camera body 12, and the digital display unit 12 is provided with a display unit __ display image, and the digital camera body 12 is provided with a A circuit board (not shown), an image sensing unit 16, a prompting unit 18, and a processing unit 20 are coupled to the image sensing unit 16 and the prompting unit 18, wherein the image sensing unit 16, the prompting unit 18, and the processing unit 20 is coupled to the circuit board, the processing unit 2 is coupled to the liquid crystal display unit 14, and a vibration detecting module 22 is located in the digital camera body 12, and can simultaneously refer to the amplification of the vibration detecting module of the fourth figure. A schematic cross-sectional view of the vibration detection module of the schematic diagram and the fifth diagram, the vibration detection module 22 includes a substrate 24 having a hollow structure 25, a movable component 26 on one surface of the substrate 24, and a light source 28 Positioned on one side of the hollow structure of the substrate 24, a lens 3 is positioned on the path of the light emitted by the light source 28 and positioned on one side of the hollow structure 25 by a fixing block 32, and an image sensing unit 34 bits on the other of the substrate 24 A surface is coupled to the circuit board and the processing unit 2, wherein the movable component 26 includes a frame 261, a plate 262 and two elastic members 263. The opposite sides of the block 262 are respectively connected to the frame 261 through the two elastic members 263. Both sides, so the plate 262 of the movable component 26 can be displaced with the digital camera body 12. The display unit 14 is a liquid crystal display unit, the light source 28 can be a red light emitting diode, the two elastic elements 243 are springs, and the image sensing unit 16 and the image sensing unit 34 can be a charge combining element (CCD) 7 M337767 or a complementary metal oxide conductor (CMOS). When the light source 28 emits a first light L1 to the lens 30, the first light L1 is guided to the surface of the plate 262 via the lens 3, and then the plate 262 reflects the first light L1 into a second light L2 to the image sensing unit 34. The image sensing unit 34 continues to receive the second light L2 reflected from the panel 262 of the movable component 26, so that the continuous image of the panel 262 can be obtained, and the image sensing unit 34 transmits the continuous image to the processing unit 20, and the processing unit 20: Comparing the relative positions of the plates 262 from the continuous images to determine whether the plates 262 are displaced, the magnitude of the displacement of the plates 262 can be used to determine the amount of hand-holding vibration of the digital camera body 12, and the processing unit 2 The prompting unit is activated to issue a prompt signal, such as an audio signal or a screen display (0SD) signal to inform the user whether the current grip state can produce a good quality image, so the user can decide whether or not to retrieve. image. Furthermore, the processing unit 20 can correct the image sensed by the image sensing unit 16 according to the displacement amount of the subtraction 262, and then output the corrected image to the display unit 14 for display. Therefore, the camera with the vibration detecting function of the present invention can use a vibration detecting module to know the amount of vibration received by the digital camera, and thereby prompt the user to obtain a possible image capturing result, which is sweet instead of It is only a general post-image processing of conventional techniques. The embodiments described above are only for explaining the technical idea and characteristics of the present invention, and the purpose thereof is to enable the person skilled in the art of S and the S to understand the content of the creation and implement it according to the fact that the full-time job of the creation cannot be limited thereto. The equivalent changes or modifications made by the people in accordance with the spirit revealed by this creation should still be covered by the scope of this creation patent. [Simple description of the diagram] The first diagram is a schematic diagram of the structure of the digital camera of the present creation. The second picture is a schematic diagram of the appearance of the digital camera of the present creation. 8 M337767 The third picture is a circuit diagram of the digital camera of this creation. The fourth figure is a three-dimensional structure diagram of the vibration detecting module of the present invention. The fifth figure is a schematic cross-sectional view of the vibration detecting module of the present invention. [Main component symbol description] 10 digital camera 12 digital camera body 14 display unit 16 image sensing unit 18 prompt unit 20 processing unit 22 vibration detecting module 24 substrate 25 hollow structure 26 movable component 261 frame 262 plate 263 elastic element 28 Light source 30 lens 32 fixed block 34 image sensing unit