M431331 五、新型說明:. 【新型所屬之技術領域】 本創作係屬於一種雙筒望遠鏡,特別係屬於一種具備高畫質Full HD影像顯示模組之雙筒望遠鏡。 【先前技術】 為了能夠在戶外、田野間清晰地觀賞到遠處野外動物的生態, ^ 使用者通常均會攜帶望遠鏡,以便能在遠距離、不驚擾的情況下, 慢慢地欣賞著標的物的一舉一動。而有些研究人員為了能夠拍攝 所觀察到的遠處景物,甚或會攜帶具備數位相機功能之雙筒望遠 鏡,於看到所欲拍攝的畫面時立即將之捕捉。 如吾人所熟知的,具備相機功能之雙筒望遠鏡可於遠處觀賞標 的物的同時,立即按下快門,捕捉運動比賽或鳥兒動作的瞬間, 將所欲拍攝的晝面立即捕捉下來,由於照相望遠鏡所欲捕捉的畫 面常常是一瞬間的動態畫面,因此拍攝出來的畫面常常有失焦的 • 風險。由於該等具備相機功能之望遠鏡不具備顯示螢幕,因此無 法立即檢視所拍攝的晝面是否正確,所拍攝的晝面是否失焦。同 時,對於學術研究人員或酷愛野生攝影的玩家來說,畫質解析度 的高低與否,攸關著是否能精準無誤地記錄所觀察到的景物,若 所拍攝的晝面或影像其解析度不高,或色彩有所偏誤,往往造成 後續研究欲探究細微景物差異時,無,法有效判斷。 有鑑於此,一種能擷取、攝錄並即時呈現高晝質Full HD影像之 雙筒望遠鏡乃是此業界所極力需求的。 M431331 【新型内容】 本創作之主要目的,在於提供一種能擷取、攝錄並即時呈現高 畫質Full HD影像之雙筒望遠鏡。 為了達成上述目的,本創作提供一種可擷錄高畫質Full HD影像 之雙筒望遠鏡,包含雙筒望遠鏡本體、高畫質Full HD影像擷錄模 組、控制模組以及高晝質Full HD影像顯示模組。本創作能於使用 望遠鏡的同時,即時於高晝質Full HD影像顯示模組顯示高晝質 ® Full HD影像,能有效減少拍攝失焦的風險,並精準紀錄所觀察到 的景物。 爲使熟悉該項技術人士瞭解本創作之目的、特徵及功效,茲藉 由下述具體實施例,並配合所附之圖式,對本創作詳加說明如後: 【實施方式】 以下將透過實施例來解釋本創作内容,其係關於一種可擷錄高 φ 晝質Full HD影像之雙筒望遠鏡,為求說明簡潔起見,可擷錄高畫 質Full HD影像之雙筒望遠鏡,在本實施方式說明中皆以雙筒望遠 鏡來稱之。藉由本創作之雙筒望遠鏡可拍攝錄製高晝質Full HD 影像,透過高晝質Full HD影像顯示模組可同時將目鏡端所見之景 象呈現於螢幕上,並將影像擷取或攝錄。然而,本創作之實施例 並非用以限制實施本創作之任何特定的環境、應用或特殊方式。 因此,關於實施例之說明僅為闡釋本創作之目的,而非用以限制 本創作。需說明者,以下實施例及圖式中,與本創作非直接相關 之元件均已省略而未繪示;且為求簡易瞭解起見,各元件間之尺 4 寸關係並非依照實際比例繪示出。 请參閱第1圖’係為本創作雙筒望遠鏡的立體示意圖。本創作 之雙筒望遠鏡1包含雙筒望遠鏡本體10、高畫質Full HD影像擷 錄模組12、控制模組14 (圖未繪示)以及高畫質Full HD影像顯 不才果組16,其中雙筒望遠鏡本體1〇更包含連結架板ιοί及二鏡筒 1〇2。 雙筒望遠鏡本體10包含連結架板1〇1及二鏡筒102,二鏡筒102 _ 分別設置於連結架板101相對應之兩側,該每一鏡筒皆包含物鏡 i^及目鏡端,使用者的眼睛透過目鏡端接收光線以觀察景物。本 創作之二鏡筒1〇2係可一體成型設置於連結架板ι〇1相對應之兩 侧’亦可透過枢設之方式設置於連結架板101相對應之兩側。而 本圖之二鏡筒1〇2係樞設於連結架板ι〇1之相對應兩側,使得二 鏡筒102可與連結架板ι〇1呈一夾角之角度變化,因此使用者可 依個人習慣及觀察舒適度,自由調整二鏡筒102間的距離。 而晝質Full HD影像擷錄模組12,設置於連結架板101下,透 ^ 過其所包含之影像感測器(例如CMOS感光元件)將經由光學透 鏡所攝入之光學影像轉換為電子影像訊號,再透過其處理晶片上 的_比-數位轉換器(ADC)對電子影像訊號進行訊號處理’並輸出 數位電子影像訊號。 控制模組14 (圖未繪示)内嵌於連結架板1〇1内,電性連接高 畫質Full HD影像擷錄模組12,用以控制高畫質Full HD影像擷 錄模組12之作動,其包含焦距旋鈕組件141,可旋轉地設置於連 結架板101 ’以同步調整高晝質Full HD影像擷錄模組12與二鏡 筒102之焦距。換句話說,焦距旋知組件141亦和二鏡筒102連 5 M431331 結,以致於在調整雙筒望遠鏡i的焦距時, w畫質Full HD影像擷 錄模組12的焦距亦同時、同步的獲得調整。 另外,設置於控制模組14 (圖未繪示)的各式功能單元,包含 照相單元、攝影衫、操作單元及電源單元等係設置於控制模植 14内,各單元所延伸出來的功能操作介面(圖中所繪之操作按鍵 僅係示意,並非用來限定本創作)、介面 鸲子孔等係設置於 連結架板ΗΠ,各操作介面減、„、介叫及端子孔之配置可 依設計作適當規劃’並無特定之限制。 高畫質FullHD影像顯示模組16,枢設於雙筒望遠鏡本體⑺, 電性連接控制模組U,因應數位電子影像訊號,於螢幕上顯示高 畫質Full HD影像。由於高晝質Full HD 门 豕顯不模組16盥連結 架板HH間設有姉,使得高畫質FullHD影像顯示模組Μ、可盘 與連結架板⑼呈-夾角之角度變化,因此使用者可依情況調整 其角度’以.利觀賞或收納。 -般來說,HD(High DefinitiGn),指的是高畫質訊號源的意思, 所謂的FuU HD指的則是19施麵的解析度,包含麵i與 1〇卿’〗是表示交錯掃描(interlace),p是表示循序掃描 (Progressive),水平像素為192〇,垂直像素為ι〇8〇,組成Μ : 9 的黃金視覺比例,其畫質顆粒細膩度高,細節層次豐富。為了要 能擷錄並顯示高畫質Full HD影像,其模組皆必須支援高晝質MU HD影像,因此本創作雙筒望遠鏡丨之構成模組,係由能擷錄高畫 質Full HD影像之高晝質FuU HD影像擷錄模組12與高晝質 HD影像顯示模組16所構成。 如第2圖所示,係為本創作雙筒望遠鏡立體示意圆之—實施例。 6 M431331 雙筒望遠鏡2包含雙筒望遠鏡本體1〇、高畫質Full HD影像擷錄 杈組12、控制模組14 (圖未繪示)以及高晝質FuU HD影像顯示 模組16,其中雙筒望遠鏡本體1〇更包含連結架板1〇1及二鏡筒 102而向畫質Full HD影像顯示模組16係枢設於連結架板ιοί 上。需強調的是,本實施例之圖示僅為一示意圖,高畫質FullHD 影像顯示模組16並非限定得樞設於連結架板1〇1之中央,設置於 連結架板101上之任意處皆為本創作所主張之範圍,而雙筒望遠 鏡2之構造及作動與雙筒望遠鏡丨相同,故在此不予贅述,僅說 •明與其不同之處。 與雙筒望遠鏡1不同的是,高畫質FullHD影像顯示模組16更 包含樞軸,透過樞軸使螢幕161可相對於基座162旋轉,提高了 本實施例高晝質FullHD影像顯示模組丨6之旋轉自由度,使得在 觀賞、拍攝鳥類等晝面時,使用者或旁人只需轉動螢幕161即可 觀看到螢幕所顯示的畫面,毋須移動位置而驚動了被拍攝物。 如第3 圖所示’係為本創作雙筒望遠鏡立體示意圖之另一實施 φ 例。雙筒望遠鏡3與前述說明不同之處在於,本實施例之雙筒望 遠鏡3之二鏡筒1〇2係一體成型地設置於連結架板1〇1相對應之 兩側’而非透過樞設之方式設置於連結架板1〇1相對應之兩侧。 另外,前述之高畫質Full HD影像顯示模組16係樞設於連結架板 101上,而本實施例之高晝質Full HD影像顯示模組16係樞設於 二鏡筒102之其中之一,可如第3圖所示,柩設於雙筒望遠鏡3 之左側鏡简10 2 (以目鏡端為基準稱之左側),亦可柩設於右側鏡 筒102,設於其上之高畫質Ful1 HD影像顯示模組16皆可與二鏡 筒102間呈一夾角之角度變化’而螢幕161可相對於基座162旋 7 M431331 轉。換句話說,使用者可將高畫f Full HD影像顯示模Μ 16依梅 軸設定之旋轉方向,調整其最適角度,以供觀賞。 如第4圖所示,係為本創作雙筒望遠鏡立體示意圖之又一實施 例。本實施例雙筒望遠鏡4之控制模組14係内嵌於連結架板ι〇ι 内,控制杈組14係以立體透視之方式,用以標明控制模組14自 身及内部所包含的各式功能單元。控制模組14除包含前述已說明M431331 V. New description: [New technical field] This creation belongs to a kind of binoculars, especially belongs to a binocular with high-definition Full HD image display module. [Prior Art] In order to clearly see the ecology of distant wild animals in the outdoors and in the fields, users usually carry telescopes so that they can slowly appreciate the subject matter at a distance and without disturbing. Every move. In order to be able to take pictures of distant scenes, some researchers may even carry a binocular telescope with digital camera function to capture the picture they want to capture immediately. As we are familiar with, the camera-capable binoculars can instantly capture the subject while pressing the shutter to capture the moment of the sporting event or bird movement, and immediately capture the desired face. The picture that the camera telescope wants to capture is often a dynamic picture for a moment, so the picture taken often has the risk of being out of focus. Since these camera-equipped telescopes do not have a display screen, it is impossible to immediately check whether the captured face is correct and whether the captured face is out of focus. At the same time, for academic researchers or players who love wild photography, whether the quality of the image quality is high or low depends on whether the observed scene can be recorded accurately and accurately. Not high, or the color is biased, often causing follow-up research to explore the subtle scene differences, no, effective judgment. In view of this, a binocular that can capture, record and instantly present high-quality Full HD images is a demand in the industry. M431331 [New Content] The main purpose of this creation is to provide a binocular that can capture, record and instantly present high-definition Full HD images. In order to achieve the above objectives, the present invention provides a binocular with a high-definition Full HD image, including a binocular body, a high-definition Full HD image recording module, a control module, and a high-quality Full HD image. Display module. This creation enables the use of a telescope and instantly displays high-quality ® Full HD images on a high-quality Full HD image display module, which reduces the risk of shooting out of focus and accurately records the observed scene. In order to familiarize the person skilled in the art with the purpose, features and effects of the present invention, the present invention will be described in detail by the following specific embodiments and with the accompanying drawings: [Embodiment] The following will be implemented through To explain the content of this creation, it is about a binocular with a high φ 昼 quality Full HD image. For the sake of brevity, you can record high-definition Full HD image binoculars in this implementation. The method description is called binoculars. The high-quality Full HD image can be recorded by the binoculars of this creation. The high-definition Full HD image display module can simultaneously display the scene seen on the eyepiece and capture or record the image. However, the embodiments of the present invention are not intended to limit any particular environment, application, or particular manner in which the present invention is implemented. Therefore, the description of the embodiments is for illustrative purposes only and is not intended to limit the present invention. It should be noted that, in the following embodiments and drawings, components that are not directly related to the present creation have been omitted and are not shown; and for the sake of simple understanding, the rule 4 inch relationship between the components is not drawn according to the actual scale. Out. Please refer to Fig. 1 for a perspective view of the creation of the binoculars. The binoculars 1 of the present invention comprises a binocular body 10, a high-definition Full HD image recording module 12, a control module 14 (not shown), and a high-definition Full HD image display group 16, The binocular body 1 further includes a connecting frame ιοί and a two-lens barrel 1〇2. The binocular body 10 includes a connecting frame 1〇1 and a second lens barrel 102. The two lens barrels 102_ are respectively disposed on opposite sides of the connecting frame plate 101, and each of the lens barrels includes an objective lens i^ and an eyepiece end. The user's eyes receive light through the end of the eyepiece to observe the scene. The second lens barrel 1〇2 of the present invention can be integrally formed on the opposite sides of the connecting frame plate ι〇1, and can also be disposed on the opposite sides of the connecting frame plate 101 by pivoting. The two lens barrels 1〇2 of the figure are pivotally disposed on opposite sides of the connecting frame plate ι〇1, so that the two lens barrels 102 can be angled with the connecting frame plate ι〇1, so that the user can The distance between the two barrels 102 can be freely adjusted according to personal habits and observation comfort. The enamel Full HD image recording module 12 is disposed under the link frame 101, and converts the optical image taken by the optical lens into an electronic image through the image sensor (for example, a CMOS photosensitive element) included therein. The image signal is processed by the _ analog-to-digital converter (ADC) on the processing chip to process the electronic image signal and output a digital electronic image signal. The control module 14 (not shown) is embedded in the connection frame 1〇1, and is electrically connected to the high-definition Full HD image recording module 12 for controlling the high-definition Full HD image recording module 12 The action includes a focal length knob assembly 141 rotatably disposed on the link frame 101' to synchronously adjust the focal length of the high-quality Full HD image recording module 12 and the two lens barrel 102. In other words, the focal length tweaking component 141 is also connected to the two lens barrels 102 by 5 M431331, so that when adjusting the focal length of the binoculars i, the focal length of the w-picture Full HD image recording module 12 is simultaneously and synchronously Get adjusted. In addition, various functional units disposed in the control module 14 (not shown) include a camera unit, a photographing shirt, an operation unit, and a power supply unit, and are disposed in the control mold 14, and the functions of the units are extended. The interface (the operation buttons shown in the figure are only for illustration, not for limiting the creation), the interface tweezers and the like are arranged on the connection frame, and the operation interface is reduced, the configuration of the interface and the terminal hole can be configured. There is no specific restriction on the design for proper planning. The high-definition FullHD image display module 16 is pivoted to the binocular body (7), electrically connected to the control module U, and displays high-definition pictures on the screen in response to digital electronic image signals. Full HD image. Due to the high-quality Full HD sill display module, the 16-inch connecting frame HH is equipped with 姊, which makes the high-definition FullHD image display module Μ, the platter and the connecting frame plate (9) The angle changes, so the user can adjust the angle according to the situation to watch or store. - Generally speaking, HD (High DefinitiGn) refers to the meaning of high-quality signal source, so-called FuU HD refers to 19 analysis of the face Degree, including face i and 1〇qing' is an interlace, p is a progressive scan, the horizontal pixel is 192〇, the vertical pixel is ι〇8〇, and the composition of 黄金: 9 is the golden visual ratio. The image quality is high in fineness and rich in detail. In order to record and display high-definition Full HD images, the modules must support high-quality MU HD images, so the creation of binoculars The group consists of a high-quality FuU HD image recording module 12 capable of recording high-definition Full HD images and a high-quality HD image display module 16. As shown in Fig. 2, this is a double creation The telescope is stereoscopically rounded - an example. 6 M431331 Binoculars 2 includes a binoculars body 1 , a high-definition Full HD image recording group 12 , a control module 14 (not shown), and a sorghum The FuU HD image display module 16 includes a connecting frame 1〇1 and a second lens barrel 102, and is pivoted to the connecting frame Full HD image display module 16 on the connecting frame ιοί. It is emphasized that the illustration of this embodiment is only a schematic diagram, high quality The FullHD image display module 16 is not limited to be pivoted in the center of the link frame 1〇1, and any place provided on the link frame 101 is within the scope of the creation, and the structure and actuation of the binoculars 2 are The binoculars are the same, so I won't go into details here, just say that they are different from the binoculars. Unlike the binoculars 1, the high-definition FullHD image display module 16 also includes a pivot, which is pivoted through the pivot. The 161 is rotatable relative to the base 162 to improve the rotational freedom of the high-definition FullHD image display module 丨6 of the embodiment, so that when viewing or photographing the bird, the user or the other person only needs to rotate the screen 161. You can watch the screen displayed on the screen and alarm the subject without moving the position. As shown in Fig. 3, it is another example of the implementation of the stereoscopic schematic of the created binoculars. The difference between the binoculars 3 and the foregoing description is that the two barrels 1 and 2 of the binoculars 3 of the present embodiment are integrally formed on the opposite sides of the link frame 1〇1 instead of through the pivoting The manner is set on the opposite sides of the link frame 1〇1. In addition, the high-definition Full HD image display module 16 is pivotally disposed on the link frame 101, and the high-quality Full HD image display module 16 of the present embodiment is pivotally disposed in the second lens barrel 102. First, as shown in FIG. 3, the left side mirror 10 2 of the binoculars 3 (on the left side of the eyepiece end) may be disposed on the right side of the lens barrel 102, and is disposed thereon. The image quality Ful1 HD image display module 16 can be angled with the angle between the two lens barrels 102, and the screen 161 can be rotated 7 M431331 with respect to the base 162. In other words, the user can adjust the optimum angle of the high-definition f Full HD image display module 16 to adjust the angle of rotation for viewing. As shown in Fig. 4, it is another embodiment of the stereoscopic schematic view of the creation binoculars. The control module 14 of the binoculars 4 of the present embodiment is embedded in the connecting frame ι〇ι, and the control group 14 is stereoscopically used to indicate the various modes included in the control module 14 itself and inside. Functional unit. Control module 14 includes the foregoing
之基本操作單元外,更包含有線通訊單元142,可單向或雙向傳輸 訊號,其所延伸出來的通訊介面可包含記憶卡插槽、usb埠及 HDMI埠^亥些插槽或埠係設置於連結架板1 〇 1,其配置位置可依 設計作適當規劃。若控制模組14無内建記憶單元,控制模組Μ 可將影像貧料直接儲存至記憶卡;若控制模組14内建儲存單元, 則可透過USB料雙筒望遠鏡直接與電腦連接,輯行影像之傳 輸,亦可將雙筒望遠鏡4所儲存的高畫質FullHD錄像,透過HDMI 埠傳送至電視、電腦或其他裝置以進行播放。 工制模組14更包含無線通訊單元143,其所延伸出來的通訊介 气° ^ 3、’Χ外線傳輸介面、無線藍芽傳輸介面,該些傳輸介面伟 Ζ於連結架板HU,其配置位置可依料作料 透 過無線通訊單元143 使用者透 式進行影像之傳輸。 攝 '錄製完成的影像透過無線傳輸方 控制模組14更包含表 致進行現場環境之收音:單元144,透過麥克風單元144可有 所延伸出之麥克風介^了錄現場之㈣内容’麥克風單元⑷ 計作適當_。 於連結架板1G1’其配置位置可依設 以上實施例僅係本 創作部分實施樣態的舉例, I非用來限定本 8 M431331 創作的實施範圍,本創作之可擷錄高晝質Full HD影像之雙筒望遠 鏡,藉由以上較佳具體實施例之詳述,係希望能更加清楚描述本 創作之特徵與精神,而並非以上述所揭露的較佳具體實施例來對 本創作之範疇加以限制。相反地,其目的是希望能涵蓋各種改變 及具相等性的安排於本創作所欲申請之專利範圍内。 【圖式簡單說明】 第1圖係為本創作雙筒望遠鏡的立體示意圖; ® 第2圖係為本創作雙筒望遠鏡立體示意圖之一實施例; 第3圖係為本創作雙筒望遠鏡立體示意圖之另一實施例;以及 第4圖係為本創作雙筒望遠鏡立體示意圖之又一實施例。 【主要元件符號說明】 1、2、3、4 :雙筒望遠鏡 10 :雙筒望遠鏡本體 • 12 :高畫質Full HD影像擷錄模組 14 :控制模組 16:高畫質Full HD影像顯示模組 101 :連結架板 102 : 二鏡筒 141 :焦距旋鈕組件 142 : 有線通訊單元 143 :無線通訊單元 144 : 麥克風單元 161 :螢幕 162 : 基座In addition to the basic operating unit, the wired communication unit 142 can transmit signals in one direction or two directions, and the extended communication interface can include a memory card slot, a USB port, an HDMI port, or a slot. The connecting frame 1 〇1 can be configured according to the design. If the control module 14 has no built-in memory unit, the control module can store the image poor material directly to the memory card; if the control module 14 has a built-in storage unit, it can be directly connected to the computer through the USB material binoculars. The transmission of the image can also be transmitted to the TV, computer or other device for playback by the high-definition FullHD video stored in the binoculars 4. The working module 14 further includes a wireless communication unit 143, which extends the communication medium, the external communication transmission interface and the wireless Bluetooth transmission interface, and the transmission interfaces are distinguished by the connection board HU, and the configuration thereof The position can be transmitted through the wireless communication unit 143 by the user through the location. The recording of the completed image through the wireless transmission side control module 14 further includes the transmission of the on-site environment: unit 144, through the microphone unit 144, the extended microphone can be recorded (4) content 'microphone unit (4) Calculated as appropriate _. The arrangement position of the link frame 1G1' can be based on the above embodiment, which is only an example of the implementation of the present part. I is not intended to limit the scope of implementation of the 8 M431331 creation, and the creation can be recorded as a high-quality Full HD. The binoculars of the image, with the detailed description of the preferred embodiments above, are intended to more clearly describe the features and spirit of the present invention, and do not limit the scope of the present invention to the preferred embodiments disclosed above. . On the contrary, it is intended to cover all kinds of changes and equivalences within the scope of the patent application to which the present invention is intended. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of a binoculars created by the present invention; ® Fig. 2 is an embodiment of a stereoscopic schematic view of the created binoculars; Another embodiment of the present invention; and FIG. 4 is still another embodiment of the stereoscopic schematic view of the creation binoculars. [Main component symbol description] 1, 2, 3, 4: Binoculars 10: Binoculars body • 12: High-definition Full HD video recording module 14: Control module 16: High-definition Full HD image display Module 101: link frame 102: two barrel 141: focus knob assembly 142: wired communication unit 143: wireless communication unit 144: microphone unit 161: screen 162: base