M404369 五、新塑說明: 【新塑所屬之技術領域】 本創作係有關-種管徑量測設備,特別是指一種用以量測如套管之圓 柱形管件之管徑量測設備。 【先前技術】 - 目前當欲量測諸如套管之微小圓柱形管件之内徑時,最常使用的方法 ^ 為藉由一量測人員將—預定尺寸之觀插人至管件之内删m卩位,以量 • 測出内徑。然而,利用梢規進行尺寸量測的過程中,需要人工以手動方式 -個管件接著-個管件地進行量測,導致需求A量人力的缺失^再者,由 於仰賴人玉手動操作油定,因此存在著精確度較差的缺失。 有鑑於此,本創作遂針對上述習知技術之缺失,提出一種勒新的管徑 量測設備,以有效克服上述之該等問題。 【新型内容】 本創作之主要目的在提供一種管徑量測設備,其可自動化、快速且精 暾確的獲得管狀工件之管徑並達成品質管控。 本創作之另-目的在提供一種管徑量測設備,其可快速的依據管狀工 件之管她驗絲,歸紅件自動分麟良品與不良品。 為達上述之目的,本解提出-種管徑制設備,其包含有-直立式 輪盤其周緣上形成有至少一卡槽,卡槽係用以承載一管狀工件直立式 盤側《有—攝影鏡頭,另"~側設有-與攝影鏡頭相對之光源組件;以 與攝衫鏡頭電性連接的處理器,以控制直立式輪盤的轉動角度,使卡 ί於攝t/鏡頭且光源組件照射承載於卡槽上之管狀工件,供攝影鏡頭 M404369 擷取&狀卫件之像轉並傳遞至處理器接收以換算出管狀工件之管 徑值且顺管t件以為不良品。 兹為使Λ審查委員對本創作之結構特徵及所達成之功效更有進一步 之瞭解與领’難峨佳之實施删及配合詳細之綱,綱如後: 【實施方式】 月併參閱第1圖至第4冑。如圖所示’本創作之管徑量測設備1〇 , 其包3有—下料部12,其制以投遞數個管狀工件14 直立式輪盤16, 其周緣上形成有至少—卡槽18,例如圖中所繪製之數個卡槽18,每—卡槽 18承載一由下料部12所輸送之管狀工件14 ; -攝影鏡頭20,其係設於直 弋輪盤6之側,一光源組件22,其係設於該直立式輪盤16之另-側 且與攝影鏡頭2G相對;—處理器24,其雜_鏡頭2()紐連接,且處 理器24控制直立式輪盤16的轉動角度,以使一卡槽18正對於攝影鏡頭2〇, 光源^件22照射—承載於此卡槽18上之f狀工件14,以供攝影鏡頭2〇操 取此管狀I件14之影像麵,處㈣24缝此影像f料並娜出管狀工 件14之内外管徑值且判斷此管狀工件是否為不良品。再者,處理器24更 連接有一顯示器26,以呈現出影像資料。 此外,此直立式輪盤10可以是利用一馬達驅動轉轴Μ來帶動轉動, 因此’處理ϋ 24與馬達驅動_ 28電性連接(圖中未示),喻制直立式 輪盤16的轉動角度。 再者,較佳的情況下,攝影鏡頭20與光源組件22所正對是直立式輪 盤W的至高點卡槽1Sa,以利於後續的管狀工件Μ回收,其詳細部分= 續所述。此外,如第4a圖所示,本創作之管徑量測設備1〇 人 M404369 有彈性之壓制片25,以壓制於管狀工件14,來避免管狀工件μ晃動。 上述之下料部12之下料口(就是下料部鄰近直立式輪盤之開口處)尺 寸與管狀轉14之長度相# 1下料部12之末端緊鄰直立式輪盤Μ之周 緣’當遇到卡槽18時,管狀工件14將自動滑落躺臥承載於卡槽Μ上。 再者,本創作之管徑量測設備1〇更可包含有一上方支標框架3〇,以供 攝景>鏡頭20與光源組件22固定。 此外’本創作之管徑量測設備1〇更可包含一良品回收部32、_外力施 加件(圖中未示)與-不良品回收部34。不良品回收部%所設置位置相較 ;良时回收„卩32疋贿近於直立式輪盤ΐό之至高點,舉例來說次至高點 卡槽18b ’且不良品贼部%之一端緊鄰該直立式轉盤μ之側壁,以透過 外力施加件施加一外力於判斷為不良品之管狀工件…以將管狀工件Μ移 不良,收。卩34。此外力施加件可以是__氣壓喷嘴,也就是藉由嘴出 不良品之管紅件辭外力,崎此管狀工件推 洛移動至不良品回收部34。而良品回收部Μ是採—端緊鄰直立式輪盤Μ 之周緣,以侧斷為良品之錄轉在直立式赌16轉動下时力直接落 至良品回收部32,使f部32直接接收直立式輪盤丨6上 品的管狀轉14。 m^k ▲鑑此’在本創作之管徑量測設備架構下,每—管狀轉可以經由下料 #自動的承㈣立輸之恤,並娜鏡概 谱Γ編,蝴糧·糊嶋狀=1 疋否符。尺寸要求,達到自動化快速且精確的管紅件品質管控。 此外,本創作之管徑量測設備更包含有良品回收部與一不良品回收M404369 V. New Plastic Description: 【Technology Area of Xin Plastic】 This creation is related to a kind of pipe diameter measuring equipment, especially a measuring device for measuring the diameter of a cylindrical pipe such as a casing. [Prior Art] - At present, when measuring the inner diameter of a small cylindrical pipe such as a bushing, the most commonly used method is to insert a view of a predetermined size into the pipe by a measuring person.卩 position, by volume • Measure the inner diameter. However, in the process of measuring the size by using the tip gauge, it is necessary to manually measure by manual means - one pipe piece and then one pipe piece, resulting in the lack of manpower of the demand A. Again, due to the manual operation of the oil, Therefore, there is a lack of precision. In view of this, the present invention proposes a new tube diameter measuring device to effectively overcome the above problems in view of the above-mentioned shortcomings of the prior art. [New content] The main purpose of this creation is to provide a pipe diameter measuring device that can automatically and quickly obtain the pipe diameter of a tubular workpiece and achieve quality control. Another object of the present invention is to provide a pipe diameter measuring device which can quickly test the wire according to the tubular workpiece, and the red component is automatically divided into good products and defective products. In order to achieve the above purpose, the present invention proposes a tube diameter device comprising a vertical-arc wheel having at least one card slot formed on its circumference, and the card slot is for carrying a tubular workpiece on the upright side of the disk. Photographic lens, another "~ side is provided - a light source component opposite to the photographic lens; a processor electrically connected to the lens of the camera to control the rotation angle of the vertical wheel, so that the card is in the t/lens and The light source assembly illuminates the tubular workpiece carried on the card slot, and the image of the photographic lens M404369 is transferred to the processor for transmission to convert the diameter value of the tubular workpiece and the t-piece as a defective product. In order to enable the review board members to have a better understanding of the structural features and the efficacies of the creation and the implementation of the difficult and difficult implementation, the outline is as follows: [Implementation] Month and refer to Figure 1 to Clause 4. As shown in the figure, the pipe diameter measuring device 1 of the present invention has a bag-receiving portion 12 which is provided with a plurality of tubular workpieces 14 and a vertical wheel 16 which is formed with at least a card slot on the periphery thereof. 18, for example, a plurality of card slots 18, each of which carries a tubular workpiece 14 conveyed by the blanking portion 12; a photographic lens 20 that is attached to the side of the straight rim disk 6, A light source assembly 22 is disposed on the other side of the upright wheel 16 and opposite to the photographic lens 2G; a processor 24 having a hybrid lens 2 connected thereto, and the processor 24 controlling the vertical wheel The rotation angle of 16 is such that a card slot 18 is facing the photographic lens 2, and the light source member 22 illuminates the f-shaped workpiece 14 carried on the card slot 18 for the photographic lens 2 to operate the tubular I member 14 On the image side, at (4) 24, the image is sewed and the inner and outer diameters of the tubular workpiece 14 are taken out and it is judged whether the tubular workpiece is a defective product. Furthermore, the processor 24 is further connected to a display 26 for presenting image data. In addition, the upright wheel 10 can be driven by a motor to drive the rotating shaft ,, so that the 'processing ϋ 24 and the motor drive _ 28 are electrically connected (not shown), and the rotation of the vertical wheel 16 is clarified. angle. Further, preferably, the photographic lens 20 and the light source unit 22 face the highest point card slot 1Sa of the upright wheel W to facilitate subsequent recovery of the tubular workpiece ,, the detailed portion of which is continued. Further, as shown in Fig. 4a, the tube diameter measuring apparatus of the present invention 1 M404369 has a flexible pressing sheet 25 for pressing on the tubular workpiece 14 to prevent the tubular workpiece μ from shaking. Below the lower portion of the material portion 12 (that is, the opening portion of the blanking portion adjacent to the opening of the vertical wheel) is dimensioned to the length of the tubular turn 14 and the end of the lower portion 12 is adjacent to the periphery of the vertical wheel rim. When the card slot 18 is encountered, the tubular workpiece 14 will automatically slide down and be carried on the card slot. Furthermore, the tube diameter measuring device 1 of the present invention may further include an upper sub-frame 3〇 for the fixation lens 20 to be fixed to the light source unit 22. Further, the pipe diameter measuring device 1 of the present invention may further include a good product collecting portion 32, an external force applying member (not shown), and a defective product collecting portion 34. The location of the defective product recycling department is compared; the good time to collect „卩32疋 bribe is close to the highest point of the vertical wheel ,, for example, the secondary to high point card slot 18b' and one of the defective thieves% is adjacent to the The side wall of the upright turntable μ is applied to the tubular workpiece which is judged to be defective by the external force applying member to displace the tubular workpiece, and the force applying member may be a __air pressure nozzle, that is, By the external force of the defective red tube, the tubular workpiece is pushed to the defective product recovery unit 34. The good product recovery unit is adjacent to the circumference of the vertical roulette, and the side is broken. When the vertical bet 16 is turned, the force directly falls to the good product recovery unit 32, so that the f portion 32 directly receives the tubular turn 14 of the upright roulette 丨6. m^k ▲ Under the structure of the diametric measuring equipment, each-tubular turn can be automatically replaced by the blanking material (4), and the outline of the Mirror is edited, and the grain and paste are =1. No. Size requirements, automation Fast and accurate control of the quality of the red tube. In addition, this creation Diameter measuring apparatus further comprises a recovery yield and a defective product collection portion
S M404369 部,以快速的依據檢驗結果將管狀工件分類。 唯以上所述者,僅為本創作之較佳實施例而已,並_來限定本創作 實施之範@。即凡依本創作申請範_述之特徵及精神所為之均等變化 或修飾,均應包括於本創作之申請專利範圍内。 【圖式簡單說明】 第1圖是本創作之管徑量測設備的架構示意圖。 第2圖是糊狀管㈣繼财直料純魏練狀碎下料、^ 影像擷取與管狀工件分類的立體圖。 工件下料、管徑 第3圖是本㈣之管彳讀繼絲直立錢料進行管狀 影像擷取與管狀工件分類的另一視角立體圖。 管徑 第4圖是糊叙管《繼财直立•料妨錄工件下料 影像擷取與管狀工件分類的作動示意圖。 ’ 第4a圖是第4圖之局部放大圖。 【主要元件符號說明】 10管徑量測設備 12 下料部 14 管狀工件 16 直立式輪盤 18卡槽S M404369, classifying tubular workpieces quickly based on inspection results. Only the above descriptions are only preferred embodiments of the present invention, and _ to limit the implementation of this creation. Any change or modification of the characteristics and spirit of this application shall be included in the scope of the patent application for this creation. [Simple description of the drawing] Figure 1 is a schematic diagram of the structure of the pipe diameter measuring device of the present invention. The second picture is a three-dimensional diagram of the paste tube (4) following the straight-line material, the pure Wei-like broken material, the image capturing and the tubular workpiece classification. Workpiece blanking and pipe diameter Fig. 3 is a perspective view of another view from the tube (4) of the pipe 彳 reading straight wire to carry out tubular image extraction and tubular workpiece classification. Pipe diameter Figure 4 is a schematic diagram of the operation of the image capture and the classification of tubular workpieces. Figure 4a is a partial enlarged view of Fig. 4. [Main component symbol description] 10 pipe diameter measuring equipment 12 Unloading part 14 Tubular workpiece 16 Vertical wheel 18 card slot
Wa至高點卡槽 18b次至高點卡槽 2〇 攝影鏡頭 M404369 22 光源組件 24 處理器 25 壓制片 26 顯示器 28 馬達驅動轉軸 30 上方支撐框架 32 良品回收部 34 不良品回收部Wa to high card slot 18b to high card slot 2〇 Photographic lens M404369 22 Light source unit 24 Processor 25 Pressed sheet 26 Display 28 Motor drive shaft 30 Upper support frame 32 Good product recovery unit 34 Defective product recovery unit