M377199 五、新型說明: 【新型所屬之技術領域】 [0001] 本創作係有關於一種用於内視鏡的攝影裝置,尤指一種 可變換取像模組方位的攝影裝置。 【先前技術】 [0002] 隨著科技的日新月異,已經發展出許多種内視鏡來檢查 物體内部。内視鏡的用途大致分為醫學檢測及工業檢測 兩種,醫學檢測用内視鏡係檢查人體内部器官(例如:胃 鏡或大腸鏡),而工業檢測用内視鏡係檢查狭窄機器内的 零件,或者維修檢測人員不適合接近的其他場合。不管 是哪一類的内視鏡,其組成結構主要包括:一撓性蛇管 、連接至撓性蛇管前端的一攝影鏡頭、及裝設於攝影鏡 頭周圍的發光元件所構成。藉由將此内視鏡連接到一外 部顯示器,便可將物體内部的影像顯示在此外部顯示器 的螢幕上,而達到遠端檢測的效果。M377199 V. New description: [New technical field] [0001] This author is about a photographic device for endoscopes, especially a photographic device that can change the orientation of the image capture module. [Prior Art] [0002] With the rapid development of technology, many kinds of endoscopes have been developed to inspect the inside of objects. The use of endoscopes can be broadly divided into medical testing and industrial testing. Endoscopy for medical testing examines internal organs of the human body (eg, gastroscope or colonoscopy), while industrial inspection endoscopes examine parts in narrow machines. , or other occasions where maintenance inspectors are not suitable for access. Regardless of the type of endoscope, the composition mainly includes a flexible coil, a photographic lens attached to the front end of the flexible coil, and a light-emitting element mounted around the photographic head. By connecting this endoscope to an external display, the image inside the object can be displayed on the screen of the external display for remote detection.
[0003] 為求達到更加精確仔細的檢查,檢測人員通常會扭轉内 視鏡的撓性蛇管或操縱一鏡頭擺動機構而改變撓性蛇管 前端的攝影鏡頭之攝影角度,藉此檢查物體内的不同部 位。然而,由於内視鏡是在物體内的狹窄孔道中進行檢 查,所以物體内的孔道中可供撓性蛇管與攝影鏡頭扭轉 或擺動的空間很有限,連帶地限制了攝影鏡頭所能調整 的角度範圍,因此,實際上必須事先製作成具有不同預 定角度的多個鏡頭模組,以彌補單一鏡頭模組可能存在 的檢查死角。 表單编號A0101 第3頁/共22頁 M377199 [0004] 然而,根據目前的技術水平,為了製造出多種不同視角 的鏡頭模組,必須將鏡頭裝設於印刷電路板的前端或側 面上,以分別適用於直視或側視的檢查角度;如此一來 ,勢必增加模具費用及製造成本。倘若鏡頭模組本身能 夠撓性地改變其取像角度的話,則只要單一鏡頭模組便 可以直接運用於「直視型内視鏡」、「侧視型内視鏡」 或其他角度(例如,45度)需求的内視鏡上,而無須分別 單獨製作,如此一來,絕對可以有效降低模具費用及製 造成本。 [0005] 因此,如何解決上述之問題點,即成為本創作人所改良 之目標。 【新型内容】 [0006] 本創作之一目的,在於提供一種可變換取像模組方位的 攝影裝置,僅需單一攝影裝置就能夠產生不同的檢測方 位而通用於多種鏡頭模組,因此,不需要分別製造具有 不同檢測方位的多種鏡頭模組,故能夠大幅降低模具費 用與製造成本。 [0007] 為了達成上述之目的,本創作係提供一種可變換取像模 組方位的攝影裝置,包括:一取像模組;一控制模組, 具有一電路板;一軟板,兩端分別搭設於該電路板及該 取像模組且彼此電性連接;以及一發光組件,固定於該 取像模組且電性連接該電路板;其中該取像模組以該軟 板的可撓性變形,而能夠相對於該電路板作不同角度的 調整定向。 表單編號A0101 第4頁/共22頁 Μ3771Θ9 [0008] 相較於先前技術,本創作具有以下功效:由於取像模組 及電路板之間額外連接有一軟板,所以藉由此軟板的可 撓性變形,該取像模組便能夠相對於電路板作不同角度 的調整定向。因此,不需要像習知技術一樣必須將取像 模組固接至電路板的前端或側面才能夠分別獲得「前視 型」或「側視型」鏡頭模組,本創作能夠藉由此單一的 攝影裝置,就可以產生出「前視型」、「45度斜視型」 或「側視型」等不同檢測角度的鏡頭模組,故能大幅降 .低模具費用與製造成本。 [0009] 承上,由於本創作運用軟板的可撓性變形,所以僅需利 用取像模組、控制模組、軟板及發光組件等相同零件, 就可以產生出「前視型」、「45度斜視型」或「側視型 」等不同檢測角度的鏡頭模組,所以在零件的庫存管理 與替換維修上更為簡便。 [0010] 由於取像模組與控制模組的電路板之間係透過一軟板而 彼此連接,且軟板與電路板之間的連接方式可運用壓合 ® 、焊合或膠合等方式,因此不需要額外設置連接器或其 - 他連接模組,除了可減少製造成本之外,也避免連接器 或連接模組所產生的訊號損耗,藉此能夠使影像更為清 晰。 【實施方式】 [0011] 有關本創作之詳細說明及技術内容,將配合圖式說明如 下,然而所附圖式僅作為說明用途,並非用於侷限本創 作。 表單编號A0101 第5頁/共22頁 [0012] [0012] [0013] [0014] [0015] [0016] 第一圖係本創作之立體分解圖,本創作係提供一種可變 換取像模組方位的攝影裝置,此攝影裝置1包括:—取像 模組10、一控制模組2 〇、一軟板3 〇、一發光模組4 〇、及 —外殼組件5 0。 首先’如第八圖所示,此攝影裝置1先組接至一套筒2而 整個形成可替換的組件;然後,將套筒2的後端連接至— 延伸管3,此延伸管.3可以依據實際需求而選用撓性蛇管 或硬管;延伸管3的後端依序連接至一握把4及一訊號線5 ’握把4係用以供使用者握持,訊號線5後端係連接至— 外部顯示器(未顯示),藉此構成一組完整的内視鏡。 取像模組10包括一鏡頭11、一鏡頭套筒12、及一影像感 測器13。鏡頭11内含有一凸透鏡,鏡頭套筒丨2係用以套 接鏡頭11 ’且將鏡頭11固定於影像感測器13上;影像感 測器13的表面上具有一光感測元件131,此光感測元件 131為一電荷偶合元件(CCD)或互補式金屬氧化半導體 (CMOS)的光電二極體其令一種,用以將备頭丨丨所取得的 光學影像轉換成電子訊號。 控制模組20包含一電路板21及裝設於電路板21上的多個 電子元件22(例如,晶片),電路板21的前端設有多個導 電端子211,用以電性連接至軟板3〇 ;控制模組20的後端 設有導線23(第三圖),用以連接至套筒2(第八圖)。 軟板3〇為一撓性印刷電路板(FpCB),其兩端分別設有導 電端子31 ’用以焊接至電路板21的導電端子211及取像模 組10的影像感測器13且彼此電性連接,藉此將光感測元[0003] In order to achieve a more precise and careful inspection, the inspector usually reverses the flexible coil of the endoscope or manipulates a lens swing mechanism to change the photographing angle of the photographing lens at the front end of the flexible coil, thereby checking the difference in the object. Part. However, since the endoscope is inspected in a narrow hole in the object, the space in the hole in the object for twisting or swinging the flexible coil and the photographic lens is limited, and the angle at which the photographic lens can be adjusted is limited. The range, therefore, must actually be made in advance to have multiple lens modules with different predetermined angles to compensate for the possible inspection dead angles of the single lens module. Form No. A0101 Page 3 of 22 M377199 [0004] However, according to the current state of the art, in order to manufacture a plurality of lens modules of different viewing angles, the lens must be mounted on the front or side of the printed circuit board to Applicable to direct or side inspection angles; this will inevitably increase mold costs and manufacturing costs. If the lens module itself can flexibly change its imaging angle, then a single lens module can be directly applied to a "viewing type endoscope", "side view type endoscope" or other angles (for example, 45). Degree) The need for the endoscope, without the need to separate the production, so that the mold cost and manufacturing cost can be effectively reduced. [0005] Therefore, how to solve the above problems is the goal of improvement by the present creator. [New Content] [0006] One of the purposes of the present invention is to provide a photographic device capable of changing the orientation of an image capturing module, which can be used for a plurality of lens modules by using only a single photographic device, and therefore is not used. It is necessary to separately manufacture a plurality of lens modules having different detection orientations, so that the mold cost and the manufacturing cost can be greatly reduced. [0007] In order to achieve the above object, the present invention provides a photographing device capable of changing the orientation of an image capturing module, comprising: an image capturing module; a control module having a circuit board; and a soft board having two ends respectively And the light-emitting component is fixed to the image capturing module and electrically connected to the circuit board; wherein the image capturing module is flexible by the flexible board Sexually deformed, and can be oriented at different angles relative to the board. Form No. A0101 Page 4 of 22 Μ3771Θ9 [0008] Compared with the prior art, the present invention has the following functions: since the image module and the circuit board are additionally connected with a soft board, the soft board can be used Flexible deformation, the image capturing module can be oriented at different angles relative to the circuit board. Therefore, it is not necessary to fix the image capturing module to the front end or the side of the circuit board as in the prior art to obtain a "front view type" or "side view type" lens module, respectively. The photographic device can produce lens modules with different detection angles such as "front view type", "45 degree squint type" or "side view type", so that the mold cost and manufacturing cost can be greatly reduced. [0009] According to the above, since the creation uses the flexible deformation of the flexible board, it is only necessary to use the same parts such as the image capturing module, the control module, the soft board and the light-emitting component to generate a "front view type". "45 degree squint type" or "side view type" lens modules with different detection angles, so it is easier to manage and replace parts in parts. [0010] Since the image capturing module and the circuit board of the control module are connected to each other through a soft board, and the connection manner between the soft board and the circuit board can be applied by pressing, soldering or gluing. Therefore, there is no need to additionally provide a connector or a connection module thereof, in addition to reducing the manufacturing cost, and also avoiding signal loss caused by the connector or the connection module, thereby making the image clearer. [Embodiment] The detailed description and technical contents of the present invention will be described below with reference to the drawings, but the drawings are for illustrative purposes only and are not intended to limit the present invention. Form No. A0101 Page 5 of 22 [0012] [0015] [0016] [0016] The first figure is an exploded perspective view of the present creation, and the present invention provides a transformable image capturing mode. The photographing device 1 includes: an image capturing module 10, a control module 2, a soft board 3, a light emitting module 4, and a housing assembly 50. First, as shown in the eighth figure, the photographing device 1 is first assembled to a sleeve 2 to form a replaceable assembly; then, the rear end of the sleeve 2 is connected to the extension tube 3, which extends the tube. The flexible coil or the hard tube can be selected according to actual needs; the rear end of the extension tube 3 is sequentially connected to a grip 4 and a signal line 5' grip 4 for the user to hold, the signal line 5 rear end It is connected to an external display (not shown) to form a complete set of endoscopes. The image capturing module 10 includes a lens 11, a lens sleeve 12, and an image sensor 13. The lens 11 includes a convex lens, and the lens sleeve 2 is used to sleeve the lens 11' and fix the lens 11 to the image sensor 13. The image sensor 13 has a light sensing element 131 on the surface thereof. The light sensing element 131 is a charge coupled element (CCD) or a complementary metal oxide semiconductor (CMOS) photodiode, which is used to convert an optical image obtained by the backup head into an electronic signal. The control module 20 includes a circuit board 21 and a plurality of electronic components 22 (eg, wafers) mounted on the circuit board 21. The front end of the circuit board 21 is provided with a plurality of conductive terminals 211 for electrically connecting to the flexible board. 3〇; the rear end of the control module 20 is provided with a wire 23 (third diagram) for connection to the sleeve 2 (eighth figure). The flexible board 3 is a flexible printed circuit board (FpCB), and the two ends are respectively provided with conductive terminals 31 ′ for soldering to the conductive terminals 211 of the circuit board 21 and the image sensor 13 of the image capturing module 10 and mutually Electrical connection, whereby the light sensing element
表單編號A01M 第6頁/共22頁 件131所產生的電子訊號透過軟板30而傳遞到電路板21 ; 軟板30的可撓性變形,能夠使取像模組1〇相對於電路板 21作不同角度的調整定向》在此要特別強調的是,軟板 30與電路板21之間的連接方式除了焊接之外,還可運用 壓合或膠合等方式,因此不需要額外設置連接器或其他 連接模組,藉此降低製造成本與組裝工時,同時也能夠 避免連接器或連接模組所產生的訊號損耗,而使影像更 為清晰。 [0017] 發光組件40包括多個發光元件41、供發光元件裝設的一 安裝環42、及連接於安裝環42邊緣的一連接板43 ;發光 元件41為發光二極體(LED),用以提供整個攝影裝置1的 照明光源,這些發光元件41係貼附於安裝環4 2的表面上 ,而安裝環42的中心孔可供鏡頭11穿設;藉由使安裝環 42貼附固接於鏡頭套筒12的表面上,發光元件41便可環 繞於鏡頭11的周圍而朝向前方照射,藉此,使鏡頭11能 夠清楚地取得前方的影像;連接板43亦為一撓性印刷電 路板,其上佈設有電子電路,用以提供發光元件41所需 的電力,連接板43的後端具有導線431,此_線431電性 連接至控制模組20的電路板21 ;連接板43與安裝環42之 間的連接處亦可產生撓性變形,如此一來,發光模組4〇 便能夠對應於取像模組10的方位變化而同步調整發光元 件41的照射方向。 外豉組件5〇大致上呈一中空圓筒,其中可容納上述取像 模組1〇、軟板30、及發光組件40。從第二圖中可以看出 ,控制模組20及一部份的連接板43會暴露於外殼組件50 表單編號A0101 第7頁/共22頁 [0018] M377199 外,故需在外殼組件50的後端旋接套筒2,藉此將控制模 組20及一部份的連接板43包覆起來加以保護(如第三圖所 示)。外殼組件50包括一筒體51、開設於筒體51上的一檢 測開口 52、罩蓋於檢測開口 52的一透光保護蓋53、及供 該取像模組10穿設的一容置孔54。如第一圖所示,檢測 開口 52係開設於筒體51的前侧,而容置孔54係開設於筒 體51的後侧,且其内壁設有内螺紋以便與套筒2相互螺接 ;透光保護蓋53為一玻璃蓋,用以保護筒體51内部的零 件,且允許光線從檢測開口 52進入筒體51内。 [0019] 要特別注意的是,由於軟板30的可撓性變形,所以取像 模組10能夠相對於電路板21作不同角度的調整定向。換 句話說,當取像模組10與軟板30通過外殼組件50的容置 孔54而容置於筒體51内時,取像模組10會沿著筒體51的 内壁前進,而最後抵靠著透光保護蓋53且朝向檢測開口 52,因此,隨著檢測開口 52在筒體51上的位置不同,取 像模組10的方位也會有所不同。以下,將特別說明本創 作的攝影裝置1常用的幾種實施樣態。 [0020] 第二圖及第三圖係分別為本創作處於前視方位之立體組 合圖及側視剖面圖,如圖所示,由於外殼組件50的檢測 開口 52係開設於筒體51的前側,所以取像模組10、軟板 30及發光組件40均受到筒體51内壁的引導而朝向檢測開 口 52(亦即,平行於筒體51的轴向且朝向其前側),因此 形成一「直視型」攝影裝置1。 [0021] 第四圖及第五圖係分別為本創作處於45度傾斜方位之立 體組合圖及側視剖面圖,如圖所示,由於外殼組件50的 表單編號A0101 第8頁/共22頁 M377199 檢測開口 52係相對於筒體51的軸向方向傾斜45度,且筒 體51的前端對應地形成半圓球形,所以取像模組10、軟 板30及發光組件40會受到筒體51内壁的引導而朝向檢測 開口 52(亦即,相對於筒體51的轴向呈45度傾斜),因此 形成一「45度斜視型」攝影裝置1。The electronic signal generated by the form number A01M page 6 / page 22 131 is transmitted to the circuit board 21 through the flexible board 30; the flexible deformation of the flexible board 30 enables the image capturing module 1 to be relative to the circuit board 21 It is emphasized here that the connection between the flexible board 30 and the circuit board 21 can be applied by pressing or gluing in addition to soldering, so that no additional connector or Other connection modules, thereby reducing manufacturing costs and assembly man-hours, while also avoiding signal loss caused by the connector or the connection module, and making the image clearer. [0017] The light-emitting assembly 40 includes a plurality of light-emitting elements 41, a mounting ring 42 for mounting the light-emitting elements, and a connecting plate 43 connected to the edge of the mounting ring 42. The light-emitting element 41 is a light-emitting diode (LED). In order to provide the illumination source of the entire photographic apparatus 1, the illuminating elements 41 are attached to the surface of the mounting ring 42, and the central hole of the mounting ring 42 is permeable to the lens 11; by attaching the mounting ring 42 to the fixing On the surface of the lens sleeve 12, the light-emitting element 41 can be irradiated toward the front around the lens 11, thereby enabling the lens 11 to clearly obtain the front image; the connecting plate 43 is also a flexible printed circuit board. The electronic circuit is disposed on the electronic circuit for providing the power required by the light-emitting element 41. The rear end of the connecting plate 43 has a wire 431. The wire 431 is electrically connected to the circuit board 21 of the control module 20; the connecting plate 43 and The connection between the mounting rings 42 can also be flexibly deformed, so that the illumination module 4 can adjust the illumination direction of the light-emitting elements 41 in synchronization with the change of the orientation of the image capturing module 10. The outer casing assembly 5 is substantially a hollow cylinder in which the image taking module 1A, the soft board 30, and the light-emitting assembly 40 are accommodated. As can be seen from the second figure, the control module 20 and a portion of the connecting plate 43 are exposed to the outer casing assembly 50, Form No. A0101, page 7 of 22, [0018] M377199, and therefore need to be in the outer casing assembly 50. The rear end of the sleeve 2 is rotated to protect the control module 20 and a portion of the connecting plate 43 (as shown in the third figure). The housing assembly 50 includes a cylindrical body 51, a detecting opening 52 formed in the cylindrical body 51, a transparent protective cover 53 covering the detecting opening 52, and a receiving hole for the imaging module 10 to be inserted. 54. As shown in the first figure, the detecting opening 52 is formed on the front side of the cylindrical body 51, and the receiving hole 54 is formed on the rear side of the cylindrical body 51, and the inner wall thereof is provided with internal threads for screwing with the sleeve 2. The light-transmissive protective cover 53 is a glass cover for protecting the inside of the cylindrical body 51 and allowing light to enter the cylindrical body 51 from the detecting opening 52. [0019] It is particularly noted that the image taking module 10 can be oriented at different angles with respect to the circuit board 21 due to the flexible deformation of the flexible board 30. In other words, when the image capturing module 10 and the flexible board 30 are received in the cylindrical body 51 through the receiving holes 54 of the outer casing assembly 50, the image capturing module 10 advances along the inner wall of the cylindrical body 51, and finally The light-transmissive protective cover 53 abuts against the detecting opening 52, and therefore, the orientation of the image capturing module 10 differs depending on the position of the detecting opening 52 on the cylindrical body 51. Hereinafter, several embodiments of the photographing apparatus 1 of the present invention will be specifically described. [0020] The second and third figures are respectively a three-dimensional combination view and a side cross-sectional view of the front view, as shown in the figure, since the detection opening 52 of the outer casing assembly 50 is opened on the front side of the cylinder 51. Therefore, the image capturing module 10, the flexible board 30, and the light-emitting unit 40 are guided by the inner wall of the cylindrical body 51 toward the detecting opening 52 (that is, parallel to the axial direction of the cylindrical body 51 and toward the front side thereof), thereby forming a " Direct-view type imaging device 1. [0021] The fourth and fifth figures are respectively a three-dimensional combination view and a side cross-sectional view of the creation at a 45 degree tilt orientation, as shown in the figure, due to the form number A0101 of the outer casing assembly 50, page 8 of 22 The M377199 detecting opening 52 is inclined by 45 degrees with respect to the axial direction of the cylindrical body 51, and the front end of the cylindrical body 51 correspondingly forms a semi-spherical shape, so that the image capturing module 10, the soft board 30 and the light-emitting assembly 40 are subjected to the inner wall of the cylindrical body 51. The guidance is directed toward the detection opening 52 (i.e., inclined at 45 degrees with respect to the axial direction of the cylindrical body 51), thereby forming a "45-degree squint type" imaging device 1.
[0022] 第六圖及第七圖係分別為本創作處於側視方位之立體組 合圖及側視剖面圖,如圖所示,由於外殼組件5 0的檢測 開口 52係開設於筒體51的側壁上,所以取像模組10、軟 板30及發光組件40會受到筒體51内壁的引導而朝向檢測 開口 52(亦即,相對於筒體51的轴向呈90度,也就是朝向 筒體51的側向),因此形成一「側視型」攝影裝置1。[0022] The sixth and seventh figures are respectively a three-dimensional combination view and a side cross-sectional view of the side view, as shown in the figure, since the detection opening 52 of the outer casing assembly 50 is opened in the cylinder 51. On the side wall, the image taking module 10, the soft board 30 and the light-emitting assembly 40 are guided by the inner wall of the cylinder 51 toward the detecting opening 52 (that is, 90 degrees with respect to the axial direction of the cylinder 51, that is, toward the cylinder The side of the body 51 is thus formed, thereby forming a "side view type" photographing apparatus 1.
[0023] 簡言之,上述三種「直視型」、「45度斜視型」及「側 視型」的攝影裝置1,其中取像模組10、控制模組20、軟 板30及發光組件40均相同,唯一的差異在於外殼組件50 的檢測開口 5 2所開設的位置而已。因此,可想而知,僅 需要改變外殼組件50的檢測開口 52之位置,就能利用相 同的取像模組10、控制模組20、軟板30及發光組件40而 分別製造出「直視型」、「45度斜視型」及「側視型」 的攝影裝置1,如此一來,勢必大幅降低模具費用與製造 成本。 [0024] 參考第八圖,其顯示本創作的攝影裝置1之應用方式,在 此圖中係顯示將一「直視型」攝影裝置1連接於套筒2、 延伸管3、握把4及訊號線5上。當然,使用者可以根據實 際的檢測需求而更換「45度斜視型」或「側視型」攝影 裝置1,藉此達到更精準仔細的檢測結果。 表單编號A0101 第9頁/共22頁 M377199 [0025] 綜上所述,當知本創作之可變換取像模組方位的攝影裝 置已具有產業利用性、新穎性與進步性,又本創作之構 造亦未曾見於同類產品及公開使用,完全符合新型專利 申請要件,爰依專利法提出申請。 【圖式簡單說明】 [0026] 第一圖 係本創作之立體分解圖。 [0027] 第二圖 係本創作處於前視方位之立體組合圖。 [0028] 第三圖 係第二圖之側視剖面圖。 [0029] 第四圖 係本創作處於45度傾斜方位之立體組合圖。 [0030] 第五圖 係第四圖之側視剖面圖。 [0031] 第六圖 係本創作處於9 0度側視方位之立體組合圖。 [0032] 第七圖 係第六圖之側視剖面圖。 [0033] 第八圖 係顯示本創作的一應用方式之立體示意圖。 【主要元件符號說明】 [0034] 1攝影裝置 [0035] 2套筒 [0036] 3延伸管 [0037] 4握把 [0038] 5訊號線 [0039] 10取像模組 [0040] 11 鏡頭 表單編號A0101 第10頁/共22頁 M377199 [0041] [0042] [0043] [0044] [0045] [0046] [0047][0023] In short, the above three types of "direct view", "45 degree squint type" and "side view type" photographing devices 1 include an image capturing module 10, a control module 20, a soft board 30, and a light emitting unit 40. All are the same, the only difference being the position at which the detection opening 52 of the outer casing assembly 50 is opened. Therefore, it is conceivable that only the position of the detection opening 52 of the outer casing assembly 50 needs to be changed, and the same image capturing module 10, the control module 20, the soft board 30, and the light-emitting assembly 40 can be used to manufacture the "direct view type". The "45-degree squint type" and "side-view type" photographic apparatus 1 will inevitably reduce the mold cost and manufacturing cost. [0024] Referring to the eighth figure, the application mode of the photographing apparatus 1 of the present invention is shown, in which a "direct view" photographing apparatus 1 is connected to the sleeve 2, the extension tube 3, the grip 4 and the signal. On line 5. Of course, the user can replace the "45-degree squint type" or "side view type" photographic device 1 according to the actual detection requirements, thereby achieving more accurate and careful detection results. Form No. A0101 Page 9 of 22 M377199 [0025] In summary, the photographic device that can change the orientation of the image-capturing module has the industrial utilization, novelty and progress, and the creation The structure has not been seen in similar products and public use, fully comply with the requirements of the new patent application, and filed according to the patent law. [Simple description of the diagram] [0026] The first diagram is a three-dimensional exploded view of the creation. [0027] The second figure is a three-dimensional combination diagram of the present invention in a forward looking orientation. [0028] The third figure is a side cross-sectional view of the second figure. [0029] The fourth figure is a three-dimensional combination diagram of the present invention in a 45 degree tilt orientation. [0030] Fig. 5 is a side cross-sectional view of the fourth figure. [0031] The sixth figure is a three-dimensional combination diagram of the present invention at a 90 degree side view orientation. [0032] Figure 7 is a side cross-sectional view of the sixth figure. [0033] The eighth figure shows a perspective view of an application mode of the present creation. [Main component symbol description] [0034] 1 photographing device [0035] 2 sleeve [0036] 3 extension tube [0037] 4 grip [0038] 5 signal line [0039] 10 image capture module [0040] 11 lens form No. A0101 Page 10 of 22 M377199 [0041] [0044] [0046] [0047]
[0048] [0049] [0050] [0051] [0052] [0053][0049] [0053] [0053] [0053]
[0054] [0055] [0056] [0057] [0058] [0059] 12鏡頭套筒 13影像感測器 131光感測元件 2 0控制模組 21電路板 211導電端子 22電子元件 23導線 30軟板 31導電端子 4 0發光組件 41發光元件 42安裝環 43連接板 431導線 5 0外殼組件 51筒體 52檢測開口 53透光保護蓋 表單编號A0101 第11頁/共22頁 M377199 [0060 ] 54容置孔 表單編號A0101 第12頁/共22頁[0059] [0059] [0059] 12 lens sleeve 13 image sensor 131 light sensing element 20 control module 21 circuit board 211 conductive terminal 22 electronic component 23 wire 30 soft Plate 31 Conductive terminal 40 Light-emitting assembly 41 Light-emitting element 42 Mounting ring 43 Connecting plate 431 Wire 5 0 Housing assembly 51 Barrel 52 Detection opening 53 Light-transmissive protective cover Form No. A0101 Page 11 of 22 M377199 [0060] 54 Socket hole form number A0101 Page 12 of 22