M363895 五、新型說明: 【新型所屬之技術領域】 摄是ί關於—種微型攝影裝置,特別是於内視鏡之微型 虞置上,各別/刀離光源褒置及取像鏡頭上之保護層的領域。 【先前技術】 =前^般内視餘置係為—條細長的可撓鮮,主要 衫衣置及光源構成’接上顯示器後可將身體器官 ϊΓΐΓ:件及建築物裂縫的構造顯示在榮幕上,醫:建 2搆工程師及技師即可藉由螢幕上的影像診斷受檢 、疾病纟體内部的器官及工具零件之損壞 面相通’即侧_繼糖纟,f侃 置(檢查食道、胃及十二撕)係經口腔置人, =視叙裝 入,渦輪葉片可藉由排氣口檢查。若無孔道,亦;:= _絲,以建立孔道來達成,例如腹腔鏡檢查需‘==或: 即鏡需切_節職皮膚,引擎需要先付拔除外殼等。胃 基本上’ _妓置檢錢具侵紐的檢查枝, 震置進入或通過身體或物_過程巾,f會因_視鏡裝: 第1圖^2圖所示),其係為習知技藝之内視鏡社』 分解示意圖及微型攝影裝置之上視示_。财,内視鏡,= ===/21及微賴影裝置,射,微型攝影裝置包含 有先錄置27及取景鏡賴置28,光源裝置27及 : 謂I由-鏡㈣支臟。咖元件21設置於魏= M363895 ^ 根據光學影像以產生對應的電子訊號將其傳送予處理 ’進耐處理H 71處理影像的電子訊驗細_ — _M363895 V. New description: [New technical field] Photograph is ίAbout a kind of miniature photographic device, especially on the micro-mounting device of the endoscope, the protection of each/knife from the light source and the image-taking lens The domain of the layer. [Previous technique] = The former ^-like internal fixation system is - slender and flexible, the main clothes and light source constitute 'connected to the display, the body organs can be seen: the structure of the cracks in the building and the building On the screen, doctors: 2 engineers and technicians can diagnose the damaged parts of the organs and tool parts inside the disease by the on-screen image diagnosis, that is, the side of the body. The stomach and the 12 tears are placed in the mouth, and the turbine blades can be inspected by the exhaust port. If there is no hole, also::= _ wire, to establish the hole to achieve, for example, laparoscopic examination needs ‘== or: that is, the mirror needs to be cut _ joint skin, the engine needs to be removed first. The stomach is basically ' _ 妓 检 检 检 检 检 检 检 检 , , , , , 检 检 检 检 检 检 检 检 检 检 检 检 检 检 检 检 检查 检查 检查 检查 检查 检查 检查 检查 检查 检查 检查 检查 检查 检查 检查 检查 检查The schematic diagram of the endoscope of the know-how and the micro-photographing device are displayed _. Finance, endoscope, ====/21 and micro-lighting device, shooting, miniature photography device includes pre-recording 27 and viewfinder 28, light source device 27 and: I is - mirror (four) branch dirty. The coffee element 21 is set at Wei = M363895 ^ according to the optical image to generate a corresponding electronic signal to be transmitted to the processing. The electronic processing of the image processed by the processing H 71 is __
72 '弟二顯示器73或第三顯示器74上顯示影像。 P 上述光源裝置27及取景鏡頭褒置Μ因共用同一保護層乃 置27(如LED燈)及取景鏡頭裝置28,^使光雜置 十之。Htj光線29,因行進至保護層Μ而反射進入取景鏡頭 28中’造賴7F之影像部份反自,而使影像晝面無法清晰呈現。 另外’由於内視鏡裝置2 -端之殼體26,其殼體26前端係 -平整無crnm常導致麵裝置η之光π朗殼體% 之干k而無法JL常行進’造成影像之均勻度降低。 【新型内容】 有鑑於上述習知技藝之各項問題,本創作之—目的係提出— 種微型攝影m由統裝置及取像_其各自具有獨立之保 護層’讓光職置之保護層所反射之光線無法進人取景鏡頭裝置 •中。 义 本創作之另一目的,提出一種微型攝影裝置、藉由光源裝置 之殼體前端具有複數凹陷部,使光源裝置所射出之光線,因穿越 複數個凹陷部而使光線得以正常行進,造成影像均勻度大幅提升。 緣是,為達上述目的,依本創作之一種微型攝影裝置,係適 用於一内視鏡裝置上’微型攝影裝置包含一殼體、至少—光源裝 置及至少一取景鏡頭裝置,殼體係位;^内視鏡裝置前端,殼體具 有一容置空間。至少一光源裝置係位於容置空間,光源裝置係發 M363895 =至少—光線,且光源裝置前端具有-第-保護層。至少―取 -景鏡猶置係位於容置空間,取景鏡頭裝置前端財—第二保護 層’且第二保護層係與第一保護層分離。 按本創作所提供之微型攝影裝置,確實能夠有效地進行處 _理,同時達到單純簡化之功能。 【實施方式】 • 以下將參照相關圖式,說明本創作之微型攝影裝置之實施 例’為使便於理解,下述實施例中之相同元件係以相同之符號桿 示來說明。 ;u 明參閱第3圖,其係為本創作之微型攝影裝篁之立體結構分 解示意圖。圖中,微型攝影裝置係應用於内視鏡裝置。内&鏡裝 置2包含有光感測元件21及微型攝影裝置3,其中,微型攝影裝 置3大致包含有光源裝置32及取景鏡頭裝置幻,光源裝置幻用 於毛出光線至外部’取景鏡職置33可自外部彳德物體的反射光 _以形成光學影像,光源裝置32及取景鏡頭裝置33則視需要可藉 由一鏡座23支撐固定。光感測元件21設置於連接結構%上,可 根據光學影像减生對應的電子誠,並且將好峨傳送予處 理器71’進而由處理器71處理影像的電子訊號後再提供予第一頻 不ϋ 72、第二顯示器73或第三顯示器74上顯示影像,達到電子、 工業、醫療及醫療檢查之目的。 μ上述之⑽鏡裝置3可為-直視助視鏡…取景鏡頭裝置 可驚折角度之内視鏡及-般利用細管撓曲之内視鏡,光感測元件 Μ為電荷偶合元件(CCD)或互補式金屬氧化半導體(CM〇s)之光 M363895 電二極體其巾之-者,用以將影像由絲轉換絲子訊號。 請參閱第4圖,其係本創作之微型攝影裝置之上視示奇圖。 圖中,一種微型攝影裝置3,係_於—内視鏡裝置2上,微型攝 影裝,包含-殼體3卜至少-統裝置32及至少—取景鏡頭裳置 33。殼體31係位於内視鏡裝置前端,殼體31係呈中空狀,此殼 體31具有-容置空間3!!及複數個凹陷部312,複數個凹陷部祀 係位於殼體31前端之圓周上,而使部份光線322由容置空間3ιι 中朝此些凹陷料2射出,而防止殼體31造成部份光線您行進 j干擾。至少一光源裝置32係位於容置空間311中,光源裝置% 前端具有—第一保護層321,此第一保護層321係為UV膠等可透 光之透雜膠’或者視需要亦可赠璃、壓克力及师等可透光 之鏡片替代,以防止該光源裝置32直接碰觸外部物體或液體所造 成之毀損舰。其巾,光職置32係包含 (LED)〇 4 ^ 至少-取景鏡頭裝置33係位於容置空間3U,取景鏡頭裝置 33前端具有一第二保護層331及一遮光軍結構知,第二保護層 331係為玻璃、壓克力及塑膠等可透光之鏡片,或者視需要亦可以 W膠等可透光之透_膠替代,賜止取景鏡難置%直接碰 觸外部物體或液體所造成之毀損雜,遮光罩結構332係位於取 景鏡頭裝置33及第二保護層331之間,係用以阻絕外部光源直接 射入取景鏡碩裝置33内’使光源裝置32所射出之光線322,因穿 越複數個凹陷部312而使光線322得以正常行進,可大幅增加出 光角度’=卜凹陷部312旁之殼體31,可以保護取景鏡頭裝置% 而防止殼體31因接觸碰撞所造成取景鏡戰置之毁損。 M363895 其中,藉由各自分離之第二保護層331與第一保護層323,使 第二保護層331所反射之光線322無法進入取景鏡頭裝置幻中, , 減少造成反白之現象,而使所攝取之影像更加清晰。 以上所述僅為舉例性,而非為限制性者。任何未脫離本創作 之精神與範疇,而對其進行之等效修改或變更,均應包含於後附 之申請專利範圍中。 "5 I 【圖式簡單說明】 第1圖係為習知技藝之内視鏡裝置之立體結構分解示意圖; 第2圖係為習知技藝之微型攝影裝置之上視示意圖; ‘第3圖係為本創作之微型攝影裝置之立體結構分解示意圖; 以及 & 第4圖係為本創作之微型攝影裝置之立體結構示意圖。 鲁【主要元件符號說明】 2:内視鏡裝置; 21 :光感測元件; 23 =鏡座; 24 :連接結構; 25 :保護層; 26、31 :殼體; M363895 27、 32 :光源裝置; 28、 33 :取景鏡頭裝置; ' 29、322 :光線; 3:微型攝影裝置; 311 :容置空間; 312 :凹陷部; 321 :第一保護層; 參 331 :第二保護層; 332 :遮光罩結構; . 71 :處理器; 72 :第一顯示器; 73 :第二顯示器;以及 74 :第三顯示器。72 'The second display 73 or the third display 74 displays an image. P The above-mentioned light source device 27 and the framing lens arrangement 共用 are shared by the same protective layer 27 (such as an LED lamp) and the framing lens device 28, so that the light is mixed. The Htj ray 29 is reflected into the framing lens 28 as it travels to the protective layer ’. The image portion of the 7F is reversed, so that the image surface cannot be clearly displayed. In addition, due to the housing 26 of the endoscope device 2, the front end of the housing 26 is flat-free without crnm, which often causes the surface device η light π 朗 % % % % % % % % % % % % % % % % % % % Degree is reduced. [New content] In view of the above-mentioned problems of the prior art, the purpose of this creation is to propose a miniature photography m device and image capture _ each with its own protective layer 'Let the light layer of the protective layer The reflected light cannot enter the framing lens unit. Another purpose of Yiben's creation is to provide a miniature photographic device. The front end of the housing of the light source device has a plurality of recessed portions, so that the light emitted by the light source device can travel normally through the plurality of recessed portions, thereby causing the image to be imaged. The uniformity is greatly improved. The reason is that, in order to achieve the above object, a miniature photographic device according to the present invention is suitable for use in an endoscope device. The miniature photographic device comprises a housing, at least a light source device and at least one finder lens device, and a housing position; ^ The front end of the endoscope device, the housing has an accommodation space. At least one light source device is located in the accommodating space, and the light source device emits M363895 = at least - light, and the front end of the light source device has a - first protective layer. At least the "viewing mirror" is located in the accommodating space, and the framing lens device front end is the second protective layer' and the second protective layer is separated from the first protective layer. The miniature photographic device provided by this creation can effectively perform the simplification and achieve a simple and simplified function. [Embodiment] The following description of the embodiments of the microphotographic apparatus of the present invention will be described with reference to the accompanying drawings, and the same elements in the following embodiments are denoted by the same reference numerals. ; u Ming see Figure 3, which is a schematic diagram of the three-dimensional structure of the miniature photography assembly of this creation. In the figure, a microphotographic device is applied to an endoscope device. The inner & mirror device 2 includes a light sensing device 21 and a miniature camera device 3, wherein the micro camera device 3 substantially includes a light source device 32 and a framing lens device, and the light source device is illusory for emitting light to the external 'viewing mirror The position 33 can be reflected from an external 彳 object to form an optical image, and the light source device 32 and the framing lens device 33 can be supported and fixed by a mirror holder 23 as needed. The light sensing component 21 is disposed on the connection structure %, and can reduce the corresponding electronic integrity according to the optical image, and transmit the signal to the processor 71' to process the electronic signal of the image by the processor 71, and then provide the first frequency. The image is displayed on the second display 73 or the third display 74 for electronic, industrial, medical, and medical examination purposes. The above-mentioned (10) mirror device 3 can be a direct-viewing mirror... a framing lens device can be used for an angled endoscope and an endoscope with a thin tube deflection, and the light sensing element is a charge coupled element (CCD). Or the complementary metal oxide semiconductor (CM〇s) light M363895 electric diode is used to convert the image from the silk to the silk signal. Please refer to Figure 4, which is a pictorial representation of the miniature photographic device of the present invention. In the figure, a miniature photographing device 3, which is a micro-photographing device, includes a housing 3, at least a device 32, and at least a viewing lens skirt 33. The housing 31 is located at the front end of the endoscope device, and the housing 31 is hollow. The housing 31 has a receiving space 3!! and a plurality of recessed portions 312, and a plurality of recessed portions are located at the front end of the housing 31. On the circumference, a portion of the light ray 322 is ejected from the accommodating space 3 ι toward the dents 2, thereby preventing the casing 31 from causing some of the light to interfere with your travel. At least one light source device 32 is located in the accommodating space 311, and the front end of the light source device has a first protective layer 321 , and the first protective layer 321 is a light-permeable transparent adhesive such as UV glue or may be provided as needed. Glass, acrylic, and other opaque lenses are replaced to prevent the light source device 32 from directly touching a damaged object caused by an external object or liquid. The towel, the optical position 32 series includes (LED) 〇 4 ^ At least - the framing lens device 33 is located in the accommodating space 3U, the front end of the framing lens device 33 has a second protective layer 331 and a shading structure, the second protection The layer 331 is a light-transmissive lens such as glass, acrylic or plastic, or can be replaced by a permeable plastic such as a glue, if necessary, to make the viewfinder difficult to directly touch the external object or liquid. The hood structure 332 is located between the framing lens device 33 and the second protective layer 331 for blocking the external light source from directly entering the finder finder 33 to cause the light 322 emitted by the light source device 32 to be Since the light 322 is normally traveled through the plurality of recesses 312, the housing angle 31 adjacent to the recessed portion 312 can be greatly increased, and the viewfinder lens device can be protected to prevent the housing 31 from being caused by the contact collision. The damage of the battle. M363895, wherein the second protective layer 331 and the first protective layer 323 are separated from each other, so that the light 322 reflected by the second protective layer 331 can not enter the framing lens device, thereby reducing the phenomenon of whitening, and The image taken is clearer. The above is intended to be illustrative only and not limiting. Any equivalent modifications or alterations to the spirit and scope of this creation should be included in the scope of the appended patent application. "5 I [Simplified illustration of the drawing] Fig. 1 is a schematic exploded perspective view of the endoscope device of the prior art; Fig. 2 is a top view of the microphotographic device of the prior art; 'Fig. 3 The schematic diagram of the three-dimensional structure of the miniature photographic device of the present invention; and <Fig. 4 is a schematic diagram of the three-dimensional structure of the miniature photographic device of the present invention. Lu [main component symbol description] 2: endoscope device; 21: light sensing component; 23 = mirror holder; 24: connection structure; 25: protective layer; 26, 31: housing; M363895 27, 32: light source device 28, 33: framing lens device; '29, 322: light; 3: miniature camera; 311: housing space; 312: recess; 321: first protective layer; 331: second protective layer; Hood structure; 71: processor; 72: first display; 73: second display; and 74: third display.