财34564 五、新型說明: 【新型所屬之技術領域】 本創作係關於一種耳部内視檢測儀,尤指一種運用光 纖特性傳導光源以及擷取影像的數位式耳鏡檢測儀。 【先前技術】 内視檢測儀係用以檢測肉眼無法檢視的物體内部,因 此’常被運用於醫療領域,如胃鏡、耳鼻喉内視鏡等等 ’對於醫生判斷病情有十分大的貢獻。習知的耳鏡檢測儀 概包含一外殼以及一設於該外殼一側的軟管,該外殼内部 。又有—控制組件,該控制組件上設有一電腦連接埠用以電 性連接電腦,該軟管相對該外殼的一端設有一影像擷取元 件以及一發光元件,該影像擷取元件以及發光元件電性連 接該控制組件。 測之耳部内, 耳部内之影像 上述之耳鏡檢測儀於使用時,係利用該軟管伸入欲檢 利用該發光元件照明以及影像擷取元件擷取财34564 V. New description: [New technical field] This is a kind of ear internal vision detector, especially a digital otoscope detector that uses optical fiber to conduct light source and capture images. [Prior Art] The internal vision detector is used to detect the inside of an object that cannot be inspected by the naked eye. Therefore, it is often used in the medical field, such as a gastroscope, an ENT endoscope, etc., which is a great contribution to the doctor's judgment of the condition. A conventional otoscope detector includes a housing and a hose disposed on one side of the housing, the inside of the housing. And a control component, the control component is provided with a computer port for electrically connecting to the computer, the hose is provided with an image capturing component and a light emitting component at one end of the casing, and the image capturing component and the light emitting component are electrically Connect the control component. The inside of the ear, the image in the ear, the above-mentioned otoscope detector is used to extend the light to be inspected by the illuminating element and the image capturing component
然,習知之耳鏡檢測儀係 影像棟取元件進行照明盥敎後 以軟管—However, the conventional otoscope detector is used to image the components of the illuminator.
外來因素而造成損壞。 係以軟管一側的發光元件以及 像擷取,因此,為了將該發光 軟管的一側’使得該軟管的口 部的檢查時,往往會使患者產 的不適,此外,該影像擷取元 人端,其保護性較差,容易因 M434564 【新型内容】 本創作之主要目的在於提供一種數位式耳鏡檢測儀, 希望藉此設計,改善習知耳鏡檢測儀將影像擷取元 光元件設於軟管㈣人端,而造成軟管α徑較大以及_ 保護性較差的情形。 為達前揭目的,本創作所設計的數位式耳鏡檢測儀係 包含: ’' -握持式檢測本體’係包含一内部形成一容置 殼體’所述殼體於其容置空間内設有一控制組件 '一影像 操取模組以及-光源模組,該控制组件包含―電腦連接蜂 用以電性連接外部電腦,該影像横取模組與光源模組電性 連接並受控於該控制組件; 一導管部,係為一軟質管體,所述導管部包含一外覆 體以及設於外覆體内部的一影像光纖纔線以及—光源光纖 纜線,所述導管部一端連接於握持式檢測本體一側,且該 影像光纖、纜線的-端導㈣f彡像擷取模組,影像光㈣線 的另-端延伸至導管部端面形成—影像擷取端該光源光 纖纜線的一端導接該光源模組,該光源光纖纜線的另一端 延伸至導管部端面形成一出光端。 本創作的優點如下: 一、藉由光纖光傳導的特性,使該影像擷取模組與光 源模組可㈣㈣持式㈣本體内,制該f彡像錢纜線 以及光源光纖纜線於末端形成的影像擷取端以及出光端即 可達到照明與影像擁取的㈣,相較於習知將影像操元件 與發光元件設於軟管末端,本創作數位式耳鏡檢測儀的導 M434564 管部不必留有容設元件的空 ^ _ , 因此’可大大縮減導管部 的口住’減少伸入人體 斗。卩時產生的異物感。 二、本創作數位式耳鏡拾 φ ^ '、丨儀的W像擁取模組與光源 杈組音έ又於έ玄握持式檢測 你兮奴从_U 内進而提升疋件的保護性 ,使°亥數位式耳鏡檢測儀更加耐用。Damage caused by external factors. The light-emitting element on the side of the hose and the image are taken, so that in order to check the side of the light-emitting hose, the patient's mouth is often inspected, and the image is paralyzed. Taking the person's end, its protection is poor, easy to use M434564 [New content] The main purpose of this creation is to provide a digital otoscope detector, which is expected to improve the image of the conventional otoscope detector. The component is placed on the human end of the hose (4), resulting in a large diameter of the hose and a poor protection. For the purpose of the prior art, the digital otoscope detector designed by the present invention comprises: ''-hand-held detecting body' includes an inner housing forming a receiving housing' in the housing space thereof There is a control component of an image manipulation module and a light source module, and the control component comprises a computer connection bee for electrically connecting to an external computer, and the image capture module is electrically connected to the light source module and controlled by The control unit; a duct portion is a soft tube body, the duct portion includes an outer cover body and an image fiber optic cable disposed inside the outer cover body and a light source fiber optic cable, the duct portion is connected at one end On the side of the holding type detecting body, and the image fiber and the cable end-end guide (four) f彡 image capturing module, the other end of the image light (four) line extends to the end surface of the duct portion to form an image capturing end of the light source fiber One end of the cable is connected to the light source module, and the other end of the light source fiber cable extends to an end surface of the conduit portion to form a light exit end. The advantages of this creation are as follows: 1. By virtue of the optical fiber light transmission characteristics, the image capturing module and the light source module can be (4) (4) held (4) in the body, the f彡 money cable and the light source fiber cable are at the end The formed image capturing end and the light emitting end can achieve illumination and image capturing (4). Compared with the conventional image manipulation component and the light emitting component are disposed at the end of the hose, the guide M434564 of the digital otoscope detector is created. The part does not have to leave the empty space of the component, so 'can greatly reduce the mouth of the catheter part' and reduce the penetration into the body bucket. Foreign body sensation produced by sputum. Second, the creation of the digital otoscope to pick up φ ^ ', Puyi W image capture module and light source 杈 group sound έ έ έ 握 握 握 握 握 握 握 握 握 握 检测 检测 检测 检测 检测 检测 检测 检测 检测 检测 检测 检测 检测 _ _ _ _ The °H digital otoscope detector is more durable.
本創作之另一目的,係令該握持式檢測本體進一步包 含 焦距調整部,用以带敫旦/ /备L 如… 肖u調整衫像的焦距。藉纟該焦距調整 of5的6又置,使用者可葬由1軟兮隹 可j糟由調整該焦距調整部來調整焦距以 提升影像的清晰度。 【實施方式】 y ^圖1及圖2所示’為本創作數位式耳鏡檢測儀 之較佳實知例,其包含一握持式檢測本體1以及一導管 部2。 月,閱圖1至圖4所示,該握持式檢測本體1係包含 P形成合置空間的殼體1 0,該握持式檢測本體彳於 汶设體1 0的容置空間内設有一控制組件,,'一影像擷取 模’且1 2以及一光源模組彳3,或可更進一步設有一焦距調 土。卩1 4,s玄控制組件彳彳包含一電腦連接埠,彳1用以電性 連接外部電腦3,該影像擷取模組12與光源模组13電性 連接並受控於該控制組件11,在本實施例中,該影像擷取 模組12可包含電荷耦合元件(Charge-coupled Device CCD),而該光源模組可包含發光二極體(l·丨的卜日⑺丨⑴叫 diode,led)’該焦距調整部14可為一部分外露於該握持 1 =測本體1的旋鈕,用以提供使用者一接觸部位藉此調 整影像的焦距,且該焦距調整部14表面可具有複數條淺 5 M434564 溝141以增加摩擦力,方便使用者以手接觸旋轉調整該旋 〇 該導管部2係為一軟質管體,所述導管部2包含一外 覆體2 0以及設於外覆體2 0内部的一影像光纖纜線2 ^以 及光源光纖境線2 2,所述導官部2 —端連接於握持式檢 挪本體1 一側,該影像光纖纜線21的一端導接該影像榻 取模組12 ’該影像光纖纜線21的另一端延伸至導管部2 端面形成一影像擷取端211,使自該影像擷取端21彳進入 影像光纖纜線21的光線可傳導至影像擷取模組12進行辨 析處理,該光源光纖纜線22的一端導接該光源模組彳3, 該光源光纖纜線22的另一端延伸至導管部2端面形成一 出光端221,使自光源模組]3發出的光源可經由該光源光 纖纜線22的導引而自該出光端221射出以供照明。 請參閱5戶斤#,本創作數位式耳鏡檢測儀於使用時 ,係將光源模組13所發射的光利用該光源光纖纜線則 導至其出光端221射出以供照明,所射出的光照亮週遭並 反射進入該影像光纖纜線21的影像擷取端211,並經由影 像光纖,纜線21傳導至影像插取模組12,所操取的影像透 過办像擷取模組ί 2轉換為數位信號,藉由控制組件^ ^的 電腦連接埠111輪屮邮 掏出至電腩3顯不於螢幕,其中,在操作 過程時’使用者可以手接觸旋轉調整該焦距調整部14,藉 此調整焦距以提升影像的清晰度。 本創作數位式耳鏡檢測儀係利用光纖镜線具有光傳導 的功能’僅需於該影像光纖缦線21卩及光源光㈣ 的末端形成該影像梅取端211以及出光端221兩個斷面, 印可達到照明盥影 與 像擷取的目的,使該影像擷取模組12 知將:二且13可設於該握持式檢測本體1内,相較於習 部/像摘元件與發光元件設於軟管末端,本創作的導管 2的口卜留有裝5又兀件的空間,因此,可大大縮減導管部 創作減少伸入人體耳部時產生的異物感;此外,本 =像掏取模組12與光源模組13皆設於該握持式檢 儀儀^二。進而提升元件㈣護性,使數-耳鏡檢測 【圖式簡單說明】 圖 •為本創作數位式耳鏡檢測儀的一較佳實 立體外觀圖 圖2:為圖1中 剖視圖 施例的 數位式耳鏡檢測儀較佳實施例的 局部 圖3 ’為本創作數位式耳鏡檢 腦的正視示意圖。 m別儀較佳貫施例連接電 施例的側視 Θ 為本創作數位式耳鏡檢測儀較佳實 示意圖。 珉权佳貫 測儀較佳實施例連接電 圖5 :為本創作數位式耳鏡檢 腦的控制方塊圖。 【主要元件符號說明】 1握持式檢測本體 1 0殼體 1 1控制組件 111办 111電腦連接埠 12影像擷取模、植13光源模組 14焦距調整部 141淺溝 M434564 2導管部 20外覆體 21影像光纖纜線 21 1影像擷取端 22光源光纖纜線 221出光端 3電腦 8Another purpose of the present invention is to make the grip detecting body further comprise a focal length adjusting portion for carrying the / / / / / L such as ... Xiao u adjust the focal length of the shirt image. By means of the focal length adjustment of 5, the user can be buried by a soft focus to adjust the focal length adjustment portion to adjust the focal length to enhance the sharpness of the image. [Embodiment] y ^ FIG. 1 and FIG. 2 show a preferred embodiment of the authored digital otoscope detector, which includes a grip detecting body 1 and a duct portion 2. As shown in FIG. 1 to FIG. 4, the holding type detecting body 1 includes a housing 10 for forming a space for arranging, and the holding type detecting body is disposed in the accommodating space of the tempering body 10 There is a control component, 'an image capture mode' and 12 and a light source module 彳3, or may further be provided with a focus adjustment. The 控制1 4, s 玄 control component 彳彳 includes a computer port 彳, the 彳 1 is electrically connected to the external computer 3, and the image capturing module 12 is electrically connected to the light source module 13 and controlled by the control component 11 In this embodiment, the image capturing module 12 may include a charge-coupled device (CCD), and the light source module may include a light-emitting diode (a 卜 ( (7) 丨 (1) called a diode , the focal length adjusting portion 14 may be a part of the knob exposed to the grip 1 = the measuring body 1 for providing a contact portion of the user to adjust the focal length of the image, and the surface of the focal length adjusting portion 14 may have a plurality of The shallow portion 5 M434564 groove 141 is used to increase the frictional force, and the user can adjust the rotation of the catheter by hand contact rotation. The catheter portion 2 is a soft tube body. The duct portion 2 includes an outer cover 20 and is disposed on the outer cover. An image fiber optic cable 2 ^ inside the body 20 and a light source fiber optic cable 2 2 are connected to the side of the holding type detecting body 1 at one end of the guiding portion, and one end of the image fiber optic cable 21 is connected to the Image couch module 12' the other end of the image fiber optic cable 21 extends to the catheter An image capturing end 211 is formed on the end surface of the portion 2, so that the light entering the image fiber optic cable 21 from the image capturing end 21 can be transmitted to the image capturing module 12 for discriminating processing. One end of the light source fiber optic cable 22 is guided. Connected to the light source module 彳3, the other end of the light source fiber optic cable 22 extends to the end surface of the conduit portion 2 to form a light output end 221, so that the light source emitted from the light source module 3 can be guided through the light source fiber cable 22 The light exiting end 221 is emitted for illumination. Please refer to the 5 households. In the use of the digital otoscope detector, the light emitted by the light source module 13 is guided to the light output end 221 for illumination by the light source cable. The light is illuminated and reflected into the image capturing end 211 of the image fiber optic cable 21, and is transmitted to the image capturing module 12 via the image fiber, and the captured image is transmitted through the image capturing module ί. 2 is converted into a digital signal, and the computer is connected to the 屮111 by the control unit ^ 屮 屮 屮 至 至 显 显 显 显 显 , , , , , , , , , , , , , , , , , , , , , ' ' ' ' ' ' ' ' ' , thereby adjusting the focal length to enhance the sharpness of the image. The digital otoscope detector of the present invention utilizes the function of light transmission of the fiber optic mirror line. The two ends of the image pickup end 211 and the light exit end 221 are formed only at the end of the image fiber 缦 line 21 卩 and the source light (4). The printing can achieve the purpose of illumination shadowing and image capturing, so that the image capturing module 12 knows that: two and 13 can be set in the holding type detecting body 1, compared with the conventional/image picking component and the light emitting The component is placed at the end of the hose, and the mouth of the catheter 2 of the present invention has a space for 5 and a piece of the device, so that the creation of the catheter portion can be greatly reduced to reduce the foreign body sensation generated when the ear is inserted into the human body; The capture module 12 and the light source module 13 are both disposed on the grip detector. Furthermore, the component (4) is improved, and the digital-oculoscope is detected. [Simplified illustration of the drawing] Fig. 2 is a better stereoscopic appearance of the digital otoscope detector. FIG. 2 is a digital view of the cross-sectional view of FIG. Part 3 of the preferred embodiment of the otoscope detector is a front view of the brain of the digital otoscope. The m-meter is better suited to the side view of the electrical connection. Θ This is a better schematic diagram of the digital otoscope detector. The preferred embodiment of the 珉 佳 贯 连接 连接 连接 连接 连接 连接 连接 连接 连接 连接 连接 连接 连接 连接 连接 : : 连接 : : : : : : [Main component symbol description] 1 grip type detection body 1 0 housing 1 1 control unit 111 office 111 computer connection 撷 12 image capture module, plant 13 light source module 14 focal length adjustment portion 141 shallow groove M434564 2 outside the catheter portion 20 Cover 21 Image Fiber Cable 21 1 Image Pickup End 22 Light Source Fiber Cable 221 Light Out End 3 Computer 8