M253769 g、創作說明(1) 【新型所屬之技術 本創作係關於 指一種能利於精確 劣應用,以達到確 【先前技術】 近年來 能化供需趨 型鑽頭的使 在PC板 刀面的損耗 到報廢過程 使用相當鑽 相同,故經 重不足而產 鑽孔遊偏、 導致孔壁粗 研磨鑽頭使 僅關係到鑽 板廠商的製 早期的 微鏡觀察待 該鑽頭的良 效果,然而 S忍疏失,且 領域】 一種微細型鑽頭之刀面檢測裳置,特別 檢測PC板鑽孔用之微細型鑽頭的刀面良 保鑽孔品質之實施效益者υ ,隨著 勢,PC 用量呈 鑽孔製 情況, ,會歷 孔次後 研磨定 生鑽尖 斷鑽, 糙等嚴 用需求 頭研磨 程良率 鑽頭刀 測鑽頭 劣者, 其偏賴 效率不 坊間各式電 板亦朝向密 逐年成長。 程中,鑽頭 而為付合經 經數次刀面 ’其鑽尖及 量後的同批 部位(a ) 或刀面刃緣 重缺失,屢 ,有欵落實 廠商的信譽 與生產成本 面檢測手段 的刀面實體 此一方式固 人工视覺為 彰0 子、通訊等相關產品的多功 集鑽孔製程發展,因此微細 的使用壽 濟性效益 再研磨利 刀面的磨 鑽頭,如 塌陷、刀 部位(b 見不鮮; 刀面研磨 與驗收合 〇 ,主要是 影像,從 可達到鑽 判斷依據 命大 ,通 用, 損情 第五 面偏 )缺 基於 量品 格率 致上係 常鑽頭 然各鑽 況與程 圖示, 心一^此 角崩陷 業界龐 質之管 ,更關 取決於 由新品 頭在經 度不儘因研磨 易導致一此易大的再 控’不 係到pc 以人工利用工具顯 而依視覺效果判= 頭刀面良劣的檢測M253769 g. Creation Instructions (1) [New technology belongs to this technology refers to a kind of application that can facilitate accurate and inferior applications in order to achieve [previous technology] In recent years, the supply and demand trend of the drill has reduced the wear on the PC board blade surface to The scrapping process uses quite the same drill, so the insufficient weight will cause the drilling to drift, which will cause the rough grinding of the hole wall. It is only related to the early micro-mirror made by the drill plate manufacturer to observe the good effect of the bit. And the field] A kind of micro drill bit cutting surface detection, especially for the PC board drilling of the fine bit drill surface to ensure the quality of the drill to implement the benefits υ, as the trend, the amount of PC used in the drilling system After drilling the holes, the fixed-point drill is broken, and the rough is used to measure the inferiority of the drill with the demanding head grinding process yield drill bit knife. It depends on the efficiency and the various types of electrical boards are also growing year by year. In the process, the drill bit has been used several times to meet the cutting surface. The drill point and the same batch of parts (a) or the cutting edge of the cutting surface are missing. Many times, it is necessary to implement the manufacturer's credibility and production cost surface testing methods. In this way, the solid surface of the cutting edge is used to develop artificial vision into a multi-function set drilling process for related products such as communication, communication, and other related products. Therefore, the grinding bit for sharpening the cutting edge is used finely, such as subsidence and cutting. (B See not bad; knife surface grinding and acceptance combined 0, mainly images, from the reach of the drill to determine the basis of life is large, universal, damage the fifth side) due to the lack of quantity and quality rate caused by the regular drill bit of the general conditions As shown in the figure, the core collapse of the industry ’s prodigal tube is more dependent on the endless longitude of the new product head due to grinding, which can easily lead to large re-controls. It is not tied to the PC to manually use tools to display Judging by visual effects = detection of good or bad head surface
M253769 四、創作說明(2) 鑑於上述 檢測產品發展 CCD擷取鑽頭 並予二值化處 積進行比對作 有效率的現前 而前期利 ,在使用影像 光源是直接以 鑽頭刀面上的 光面及崩陷區 擷取之影像無 誤判,為其實 針對上述 測設備之研發 潛研,在經不 確證其效之「 能藉由本創作 檢測管控品質 【新型内容】 本創作旨 的鑽頭刀面影 為達上述 括:一影像視 問題,如 設計上亟 刀面影像 理,俾與 業,以達 檢測手段 用影像視 視覺器取 放射狀的 角度是呈 域都反射 法供明確 用性不足 之問題, 、製造、 斷的實驗 微細型鑽 之開發, 何提升檢 思考量之 面積,並 電腦資料 檢測鑽頭 ’因此目 覺器CCD 得刀面影 散射於鑽 廣角度, 入接物鏡 分辨,因 缺憾處。 本案創作 銷售的多 、試作改 頭之刀面 有效落實 測品質 重點, 將取得 庫紀錄 刀面的 前漸為 檢測鑽 像面積頭上, 造成待 ’使得 而時常 及效率 而利用 之影像 之鑽頭 良、劣 坊間所 頭刀面 時,所 由於該 測鑽頭 該影像 造成刀 ,遂為該類 影像視覺器 輸入電腦内 刀面影像面 ,為一合理 普遍採用。 良劣之裝置 採用的燈泡 光線散射於 之刀面的受 視覺器CCD 面檢測時之 人乃累其自身從事相關檢 年經驗與技術,積極構思 進後,終開發出本案一種 檢測裝置」新型創作,期 微細型鑽頭之刀面的良劣 在提供一種能利於影像視覺器CCD:太=提升刀面的崩陷檢測精:。 勺,本創作所採用施行之技 覺器CCD成固定位琶羊嗖,及 U,係包 位置木成及一打光器設於 ΦM253769 IV. Creation instructions (2) In view of the development of the above-mentioned detection products, CCD captures the drill bit and compares it with the binary product. This is an effective current and early benefit. In the use of the image light source, the light on the blade surface of the drill bit is used directly. The images captured on the surface and the collapsed area are not misjudged. In fact, for the potential research and development of the above-mentioned measurement equipment, the quality of the drill bit that can be controlled and controlled by this creation has been proved to be ineffective [new content] The above include the following: An image viewing problem, such as the design of sharp-surface image theory, and the industry's professionalism, using the image detection device to take a radial angle with the detection method is a problem that the reflection method for the domain is insufficient for clarity. The development of experimental, micro-drills that are manufactured, manufactured, and broken, how to increase the area of inspection, and computer data to detect the drill bit. Therefore, the eyepiece CCD has the blade surface scattered at a wide angle of the drill, and it is resolved by the objective lens, due to the shortcomings. The creative and multi-faceted trial face has effectively implemented the quality measurement focus, and the first step of obtaining the library record face is to detect the drill image area. In the above, when the image of the good and inferior bits of the drill that are used frequently and efficiently is created, the knife is caused by the image of the drill bit, so the image surface of the knife is input into the computer for this type of image visualizer. It is a reasonable and universal use. Good and bad devices The light beam scattered by the light bulb used by the device is tested by the CCD surface of the vision device. The person is tired of his own experience and technology in relevant inspection years. In this case, a new type of detection device was created. In the future, the quality of the cutting surface of the fine drill bit is to provide a CCD: Too much to improve the detection accuracy of the cutting surface: Scoop, the CCD implemented by the artist used in this creation is a fixed-position paparazzi, and U, the tying position is made of wood and a lighter is set at Φ
$ 6頁 M253769 四、創作說明(3) —-------------- =ί Γ像視覺器CCD的接物鏡外側處;其特徵在於,該打 A二Μ可直接對待測鑽頭之鑽尖端投射窄幅光束者’並以 +德_ 5員付合鑽尖角度之刀面部位能將光線折射於接物鏡 取 ^圍内之高度的設置定位,據此,使鑽頭成刀面端對 t 像視覺器CCD的放置定位後,鑽尖及刀面上的異常 磨=ΐ位’將因折射光線偏出物鏡取像範圍作用,使影像 視見為CCD能取得更正確的刀面影像面積,而有效提升鑽 頭刀面的崩陷分析檢測精度。 【實施方式】 二為使貝審查委員能對本案創作之技術特點、目的 及力放有更進步之明瞭,特配合圖示列舉較佳實施例, 詳細說明如下: 百先請參閱第一圖所示,係本創作的實施態樣示意圖 ,本創作一種微細型鑽頭之刀面檢測裝置,主要包括··一 影像現覺器CCD ( 1 )成固定位置的架言是,及一打光器( 2 )係設於前述影像視覺器CCD的接物鏡(丄丄)外側處 ;其中: 该影像視覺器CCD ( 1 ),係可經由接物鏡(1 1 ) 倍率,將取得之待測鑽頭(3 )的鑽刀影像,如第四圖所 示’放大顯示於顯示器者,另該打光器(9 ),請配合第 二圖所示’為可對就定於對焦位置之&頭^ 3 )的鑽尖刀 面直接投射窄幅光束者,其大體上係含有光罩(2 1 )及 光纖(2 2 )二主要組成部份,其中該光罩(2 i )係指 罩體内部可谷納複數光纖(2 2 ),而罩體底端開設有一 M253769 創作說明(4) 可供W述複數光纖頭端伸入 以產生一錐形窄幅光束,而 ,係與待測鑽頭(3 )的鑽 接物鏡取像範圍成對應關係 承上述之裝置,實施檢 3 )並使其鑽尖端就定於影 光為(2)透出之窄幅光束 的照射於鑽頭的鑽尖端,藉 能將光線(4 )正常的折射 鑽尖及刀面有崩陷、凹缺現 崩陷、凹缺部位將因光線折 光束之光線(4 )正常折射 ,據此,能幫助影像視覺器 影像面積,以利二值化處理 之準確性’而有效提升鑽頭 如上所述之微細型鑽頭 於光罩内之光纖(2 2 )係 係可替以發光二極體、或冷 同功用。 之環錐狀透光孔(2 3 ),藉 前述窄幅光束的光線投射角度 尖角度能將光線(4 )折射於 j 測作業時,藉移動待測鑽頭( 像視覺器的對焦位置,則由打 的光線(4 ),能直接且均句 使付合鑽尖角度的刀面部位, 於接物鏡的取像範圍内,而當 象日可’凊配合弟三圖所示,該 射條件的變化,而無法使窄幅 於接物鏡(1 1 )取像範圍内 CCD取得更正確的鑽頭之刀面 後之刀面影像面積具有不失真 刀面的良劣檢測精度。 〃 之刀面檢測裝置,其中:該設 提供光源用途,因此,實際上 陰極管等發光體,而可達^相$ 6 pages M253769 Fourth, the creation instructions (3) --------------- = Γ The outer side of the objective lens of the CCD camera; it is characterized in that the A and M can be directly A person who projects a narrow beam at the drill tip of the drill bit to be tested, and uses + Germany _ 5 members to set the cutting edge position of the drill tip angle to refract light to a height setting within the range of the objective lens, and accordingly, makes the drill bit After the knife-end end is placed and positioned on the t-image vision device CCD, abnormal grinding on the drill tip and knife surface = ΐ position 'will cause the refracted light to deviate from the objective lens imaging range, so that the image can be viewed more accurately as the CCD The image area of the cutting surface can effectively improve the accuracy of the analysis of the cutting surface of the drill bit. [Implementation] Second, in order to enable the review committee to have a better understanding of the technical characteristics, purpose, and power of the creation of this case, the best embodiment is listed in conjunction with the illustration. The detailed description is as follows: This is a schematic diagram of the implementation of this creation. This creation of a fine drill bit surface detection device mainly includes ... a video sensor CCD (1) in a fixed position, and a lighter ( 2) It is set on the outer side of the objective lens (丄 丄) of the aforementioned image vision device CCD; among them: the image vision device CCD (1) can be obtained through the objective lens (1 1) magnification, and the obtained drill bit (3) As shown in the fourth picture, the image of the drill knife is enlarged, and the lighter (9) is shown in the second picture. Please match the & head at the focus position as shown in the second picture ^ 3 ) The drill tip of the drill tip directly projects a narrow beam, which generally includes two main components: a photomask (2 1) and an optical fiber (2 2). The photomask (2 i) refers to the inner valley of the cover. Nano-fiber (2 2), and M253769 is created at the bottom of the cover (4) The multiple optical fiber heads can be inserted to generate a tapered narrow beam, and it corresponds to the imaging scope of the drilled objective lens of the drill bit (3) to be tested. The drill tip is set to illuminate the drill tip with a narrow beam of light emitted by (2), which can refract the light (4) normally. The recessed part will be normally refracted by the light (4) that the light breaks into the light beam. Based on this, it can help the image area of the image visualizer to facilitate the accuracy of the binarization process, and effectively improve the fine drill bit as described above. The optical fiber (2 2) in the reticle can be used as a light-emitting diode or cold-cooled. The ring-shaped cone-shaped transparent hole (2 3) can refract the light (4) to the j-measurement operation by moving the sharp angle of the light beam of the narrow beam mentioned above, and by moving the drill bit to be measured (like the focus position of the vision device, then The hitting light (4) can directly and uniformly make the cutting surface of the angle of the drill tip within the range of the objective lens, and the shooting conditions can be matched with those shown in the third figure. The image area of the blade surface after the CCD obtains a more accurate bit surface of the drill bit within the image pickup range of the objective lens (1 1) has a good detection accuracy of the undistorted blade surface. Device, where: this device provides the purpose of light source, so,
綜上所述’得知本案創作 用對待測鑽頭施予特定角度的 幫助影像視覺器取得更準確的 結構精簡、易於貫施運用,最 刀面良劣檢測精度,本案創作 j具有其實施性效果,其利 窄幅光束直接照射作用,以 刀面影像面積的設計,不僅 要的在其能有效提升鑽頭 確已達到新穎、實用之新型In summary, 'learning that the creation of this case used a specific angle for the drill bit to help the image visualizer to obtain a more accurate structure, streamlined and easy to implement, and the most accurate detection of the blade surface, the creation of this case has its implementation effect , Its beneficial effect of direct irradiation of narrow beams, and the design of the image area of the blade surface, not only must it effectively improve the drill bit, it has indeed reached a new and practical new type.
M253769 四、創作說明(5) 要件,爰依法提出申請,祈請 貴局惠予詳核,並早曰賜 准所請,為盼。 M253769 圖式簡單說明 《圖示之簡單說明》 第一圖:係揭示本創作之實施態樣示意圖。 第二圖:係揭示本創作之窄幅光束的光線與鑽頭刀面的正 常區域之折射關係示意圖。 第三圖:係揭示本創作之窄幅光束的光線與鑽頭刀面的塌 陷區域之折射關係示意圖。 第四圖:係揭示標準的鑽頭刀面上視圖。 第五圖··係揭示鑽頭刀面的鑽尖及刃緣崩陷狀態上視圖。 《圖號說明》 (1 )影像視覺器CCD (1 1 )接物鏡 (2 )打光器 (2 1 )光罩 (2 2 )光纖 (2 3 )環錐狀透光孔 (3 )待測鑽頭 (4 )光線 (a )鑽尖部位 (b )刃緣部位。M253769 IV. Creation Instructions (5) Requirements, apply in accordance with the law, and ask your bureau for detailed review, and I would like to ask for approval as soon as possible. M253769 Brief description of the diagram "Simple description of the diagram" The first picture: It is a schematic diagram showing the implementation of this creation. The second picture: It is a schematic diagram of the refractive relationship between the light of the narrow beam of light and the normal area of the bit of the drill. The third picture: It is a schematic diagram showing the refractive relationship between the light of the narrow beam of light and the collapsed area of the drill bit. The fourth figure: reveals a standard drill bit surface view. The fifth figure shows the top view of the state where the drill tip and the cutting edge of the drill bit collapse. "Illustration of Drawing Numbers" (1) Image Vision Camera CCD (1 1) Connected with Objective Lens (2) Lighter (2 1) Mask (2 2) Optical Fiber (2 3) Ring-Cone Shaped Transparent Hole (3) to be tested The light bit (a) of the drill (4), the point of the drill (b), and the edge of the blade.
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