201231917 六、發明說明: 【發明所屬之技術領域】 [0001] 本發明涉及一種連接器測試裝置,尤其涉及一種連接器 共面度測試裝置。 【先前技4标】 [0002] 一般電子裝置為達成訊號或電力之傳送,通常會使用各 種連接器來完成電子裝置内部元件間或該電子裝置與其 他系統間之連接。組裝時,通常將連接器採用穿孔焊接 或表面黏貼技術安裝於電路板上。然而,不論採用上述 哪種組裝方式,其連接器表面之金屬針腳之共面度對其 組裝工藝之品質有直接影響。因此,對該連接器進行組 裝前,一般需要先對該連接器金屬針腳之共面度進行檢 測。 [0003] 目前,生產中常用之檢測方法為平臺塞尺法,即將該連 接器平放於平臺上,使用符合共面度要求規格數值之塞 尺塞入連接器金屬針腳舆平臺之間有間隙之地方。藉由 塞尺塞入時受阻還是存於間隙來判斷連接器金屬針腳之 共面度過小還是過大。顯然,上述方法操作繁瑣,效率 低,檢測過程中之主觀誤差比較大,結果不可靠。 【發明内容】 [0004] 有鑒於此,有必要提供一種有必要提供一種操作簡單、 檢測結果可靠之共面度測試裝置。 [0005] —種共面度測試裝置,用於對連接器進行共面度測試, 包括箱體、承載機構、滑動機構、驅動機構及測試機構 ,所述承載機構用於承載待測之連接器,該滑動機構包 100103199 表單編號A0101 第4頁/共24頁 1002005659-0 201231917 —方向之第二方 ’以對所述連接 本發明之共面度測試裝置藉由設置該滑動機構及驅動機 構,於測試該連接器之共面度時,僅需將所述連接器放 置於該承載機構上,再啟動所述共面度測試裝置。該共 面度測試裝置即可自動且快速地對所述連接器之共面度 進行測量’其操作較為方便且結果可靠。 【實施方式】 〇 [0007] 請參閱圜1,本發明較佳實施方式提供一種共面度測試裝 置100,包括箱體10、承載機構20、滑動機構30、驅動 機構40及測試機構50。 [0008] 所述箱艚10包括底壁11、後壁12、頂壁13、二側壁14及 前壁丨5。該底壁11為矩形板狀體,該後壁12為矩形板體 ,其垂直該底壁11設置’以與該底壁11構成大致呈“L” 形之結構。該頂壁13大致呈矩形板狀,其垂直連接至該 後壁12遠離底壁11之端部’且與該底壁11相互平行設置 。所述二側壁14均呈平板狀’其設置於所述底壁11及頂 100103199201231917 VI. Description of the Invention: [Technical Field] [0001] The present invention relates to a connector testing device, and more particularly to a connector coplanarity testing device. [Prior Art 4] [0002] In order to achieve signal or power transmission, a general electronic device usually uses various connectors to complete the connection between internal components of the electronic device or the electronic device and other systems. When assembled, the connectors are typically mounted to the board using perforated or surface mount technology. However, regardless of the type of assembly described above, the coplanarity of the metal pins on the surface of the connector has a direct impact on the quality of the assembly process. Therefore, before assembling the connector, it is generally necessary to first check the coplanarity of the connector metal pins. [0003] At present, the commonly used detection method in the production is the platform feeler method, that is, the connector is laid flat on the platform, and the plug is inserted into the connector metal pin pedal platform with a gauge that meets the requirements of the coplanarity requirement. Place. Whether the coplanarity of the connector metal pins is too small or too large by being blocked or stuck in the gap when the stopper is inserted. Obviously, the above method is cumbersome and inefficient, and the subjective error in the detection process is relatively large, and the result is not reliable. SUMMARY OF THE INVENTION [0004] In view of the above, it is necessary to provide a coplanarity test apparatus which is simple in operation and reliable in detection results. [0005] A coplanarity testing device for performing coplanarity testing on a connector, including a box body, a carrier mechanism, a sliding mechanism, a driving mechanism, and a testing mechanism, wherein the carrier mechanism is configured to carry a connector to be tested , the sliding mechanism package 100103199 Form No. A0101 Page 4 / Total 24 pages 1002005659-0 201231917 - the second party of the direction 'by the connection of the coplanarity testing device of the present invention, by providing the sliding mechanism and the driving mechanism, When testing the coplanarity of the connector, it is only necessary to place the connector on the carrier mechanism and then activate the coplanarity test device. The coplanarity test device automatically and quickly measures the coplanarity of the connector's operation is convenient and reliable. [Embodiment] 0007 [0007] Referring to Figure 1, a preferred embodiment of the present invention provides a coplanarity testing device 100 comprising a case 10, a carrier mechanism 20, a slide mechanism 30, a drive mechanism 40, and a test mechanism 50. The box 10 includes a bottom wall 11, a rear wall 12, a top wall 13, two side walls 14, and a front wall sill 5. The bottom wall 11 is a rectangular plate-like body, and the rear wall 12 is a rectangular plate body which is disposed perpendicular to the bottom wall 11 to constitute a substantially "L"-shaped structure with the bottom wall 11. The top wall 13 is substantially rectangular in shape and is vertically connected to the end portion of the rear wall 12 away from the bottom wall 11 and disposed parallel to the bottom wall 11. The two side walls 14 are all in the form of a flat plate. The two side walls 14 are disposed on the bottom wall 11 and the top 100103199.
第二驅動爭元之驅動下沿垂直於所述第— 向運動,並運動至所述預設位置之上方, 器之共面度進行測試。 表單編號A〇101 第5頁/共24頁 1002005659-0 201231917 壁13之兩側,且與該底壁11、後壁12及頂壁13均垂直連 接。該底壁11、後壁12、頂壁13及二侧壁14共同形成一 侧開口之測試空間16。該前壁15蓋設於該測試空間16上 ’包括第一前壁151、第二前壁152、第三前壁153及第 四前壁154。該第一前壁151為一矩形板體,其垂直連接 至該底壁11遠離後壁12之端部,以與該後壁12相對且相 互平行設置。該第一前壁151上開設有大致呈矩形之缺口 1511。該第二前壁152大致呈矩形板體,其分別連接該第 一前壁151及第三前壁153,且分別與該第一前壁151及 第二刖壁153呈一定角度設置。該第二前壁152上開設有 大致呈矩形之視窗1521,以露出所述測試空間16。該第 .. .:: :::. 二前壁152於該視窗1521上還鉸接一保護罩|522,該保 護罩1 522上設置有一把手1 523,方便使甩者開啟及關閉 s亥保護罩1522。該第三前壁153為一矩形板體,其連接該 第二前壁152及第四前壁154 ’且平行該底壁π設置。該 第四前壁154大致呈矩形板狀,其垂直連接該第三前壁 153及頂壁13。該第四前壁154上設置有顯示單元155, 該顯示單元155用於對所述共面度測試裝置1〇〇之測試結 果進行相應之顯示。 [0009]請一併參閱圖2及圖3,該承載機構20大致呈矩形板狀, 包括承載面201及滑動面2〇2。該承載面201上固定有一 承載部21,所述承載部21大致呈矩形板狀,其上開設有 大致呈矩形之承載槽211。該承載槽211之具體形狀及結 構與習知之待測試之連接器之形狀及結構相匹配,用於 容置該連接器。該滑動面202與所述承載面201相對且相 100103199 表單編號AOiOl 第6頁/共24頁 1002005659-0 201231917 互乎行設置,其上設置有一滑動部22,該滑動部22大致 呈矩形板狀,其遠離該承載機構20之表面設置有一大致 呈矩形條狀之滑動槽221。 [0010] ο 該滑動機構30包括二底座31、氣缸32、滑軌33及二緩衝 單元34。該底座31大致呈昊有Τ型橫載面之直條狀,二底 座31相對且相互平行地固定於所述底壁^表面。每一底 座31之端部均開設有大致呈“υ”型之開口 311。所述氣 红32包括缸體321及活塞322,所述缸體321之兩端分別 固定於所述開口 311内,以藉由該底座31固定於所述底壁 11上方。該活塞322之一端可伸縮地裝設於該缸體321内 ’另一端連接至該承載機構20中與承載面201及滑動面 202均垂直連接之側面上。如此’該活塞322可於該缸體 321之控制下驅動該承載機構20沿圖2中所示〇-Χγ直角座 標系之X軸方嚮往復移動。該滑軌33大致呈矩形條狀,其 固定於所述底壁11上,且位於該活塞322之正下方。該滑 轨33之具體形狀及結構與該滑動槽221相應,用於將所述 . ο [0011] 承載機構20可滑動地裝設於所述滑轨33上。 每一緩衝單元34包括定位部341、連接部342、調節部 343及緩衝部344。該定位部341為L型片狀體,固定於所 述底壁11上。該定位部341遠離該底壁11之一端開設有定 位孔3411。該連接部342包括第一連接板3421及第二連 接板3422,該第一連接板3421與底壁11垂直設置,其上 開設有連接孔3423。所述第二連接板3422與該第一連接 板3421之末端垂直連接,並與該第一連接板3421構成大 致呈“L”型之板狀結構。該調節部343包括調節柱3431 100103199 表單編號Α0101 第7頁/共24頁 1002005659-0 201231917 及伸縮柱3432 ’該調節柱3431大致呈圓柱狀,穿設於所 述定位孔3411内。該伸縮柱3432之一端可伸縮地裝設於 該調節柱3431内’另一端固定穿設於該連接孔3423内。 該緩衝部344大致呈矩形塊狀’其一側連接至該第二連接 板3422。所述二緩衝單元34相對地設置於所述滑軌33之 兩側田所述承載機構20於所述氣缸32之驅動下沿所述 滑軌33運動時’該承載機構20將抵持該緩衝部344,並推 動該緩衝部344沿圖2中所示0-ΧΥ直角座標系之X轴方向 滑動,進而帶動該伸縮柱3432於所述調節柱3431内往復 運動。當所述承栽機構20運動至一預設位置時,該承載 機構2G停止運動,㈣該魏部綱抵持所述承載機構20 ,以為承載機構2〇提供緩衝作用。 [0012] 請一併參閱圖4,該驅動機構40設置於該測試空間16内, 包括第:驅動單元4卜第二驅動單元仏及導軌該第 一驅動單元41位於所述驅動機構4G之-側,包括二支樓 部=及第-電虹412,該支搶部411大致呈矩形塊狀, 一疋於所述底壁^上,且相對設置,用於支撐所述第 一電缸412。該第—電缸412㈣於所述切部⑴上, ^該滑執33相互平行設置。該第一電紅M2遠離支樓部 •^表u有—第—滑塊413。該第一滑塊仍可於 動電紅412之驅動下,沿所述第—電缸412之表面滑 7即沿圖2中所终XY直咖k㈣向滑動。該 4二動單元42包括支架421及第二電―該支架 以1大致呈T形板狀,其— 端術於所述第-滑塊413上 電缸422固定於所述支架切上,且垂直該第一 100103199 表單編號A0101 第8頁/共24頁 1002005659-0 201231917 . 電缸412設置。如此’ s所述第一滑塊413於該第一電缸 . 412之控制下沿所述第一電缸412之表面滑動時,其將驅 動與該第一滑塊413相連之第二電缸422沿圖2中所示0-XY直角座標系之X軸方向滑動。該第二電缸422遠離支架 421之表面設置有第二滑塊423,所述第二滑塊423可於 第二電缸422之驅動下沿所述第二電缸422之表面滑動, 即沿圖2中所示直角座標系之γ轴方向滑動。該支架 421遠離第一滑塊413之端部固定有一配合部424,所述 配合部424大致呈“工字形塊狀,其遠離該第二電缸 D 422之底部設置有大致呈矩形條狀之配合槽424h該導軌 43大致呈直條狀,其固定於所述底壁11上,且與該第一 電缸412平行設置。該導轨43設置於所述驅動機構40之另 一側,其形狀及結構與該配合槽4241相配合,以將該配 合部424可滑動地裝設於對應之導軌43上。當所述第二電 缸422沿圖2中所述X軸方向滑動時’將帶動所述配合部 424沿所述導軌43滑動’以平衡該第二電缸422。 Q [0013] 該測試機構50為一鐳射機,其與該第二滑塊423固定相連 ,用以於該驅動機構40之驅動下於圖2所示0-ΧΥ直角座標 系之XY平面内運動,並對所述待測之連接器之共面度進 行測試。 [00M]該共面度測試裝置1〇〇還包括動力發生裝置(圖未示)及 控制按鈕60 ’該控制按紐60設置於所述第一前壁151上, 且與該動力發生裝置相連。該動力發生裝置容置於測試 空間16内,當操作該控制按紐6 〇,可相應啟動該動力發 生裝置’進而使得該動力發生裝置驅動該滑動機構30及 100103199 表單編號A0101 第9頁/共24頁 1002005659-0 201231917 驅動機構40運動。 [0015] 吕月冉A參閱圖 “共面度測試裝置100可對—連接器8〇 之共面度進彳了職。該連接㈣包括本飢及複數 針腳82。請參閱圖5 ’當利用該共面度測試裏置100對該 連接㈣之共面度進行測試時,首切該連接物之本 體81放置於該承載槽2U内,並露出該複數金屬針腳82β 此時’該承載機構心對所述缺…川。接著,操作所 述控制按鈕60,以啟動所述共面度測試裝置⑽。此時, 該動力發生裝置龍動該氣缸32運動,進而使得放置有 該待測連接器80之承載機構2〇穿過所述缺口 i川以進 入該測試"16,並沿所述魏33運動。當所述承载機 構2〇運動至—預設位置時,該承載機構20停止運動。此 時,該緩衝部344抵持所述承載機獅之側壁,以為該承 載機構2G之停止提供緩衝作用。接著,該動力驅動裝置 驅動所述驅動機構4G運動,使得該測試機構5()於該驅動 機構40之控制下於所㈣平面内運動巧所述測試機構 50運動至所述承載機構2G之正上方時該測試機構⑽將 對所述連接器3〇之金屬針腳82依次掃描,並將掃描到之 參數傳送至所述顯不單元155進行顯示以供使用者分析 及判斷該待測連接||8〇之共面度是否符合標準。測試完 該連接H8G之共面度後,該氣虹32將於所述動力發生裝 置之控制下沿滑軌33反向運動,進而使所述承載機構2〇 從所述測試空間16及缺口 1511退出,以方便使用者拿取 同%忒共面度測試裝置1 〇 〇重定,以等待測試下一個待 測試產品。 100103199 表單編號A0101 第10頁/共24頁 1002005659-0 201231917 .[_ I理解,該共面度測料置100可適用於不同類型之連接 - &之測試。測試時’僅需更換與待測連接器類型相應之 承载部21即可。 剛軸,本發明之共面度測試裝由設置該滑動機構 3〇及驅動機構40,於測試該連接器8〇之共面度時,僅需 將所述連接謂«於tt承錢獅上,再相應啟動所 述共面度測試裝置1〇0。該共面度測試裝置1〇〇則將快速 地對所述連接_之共面度進行測量,其操作較為方便 〇 且結果可靠。 闺综上所述,本發明符合發明專财件,纽法提出專利 申凊。惟,以上所述者僅為本發明之較佳實施例,本發 明之範圍並不以上述實施例為限,舉凡熟悉本案技藝之 人士援依本發明之精神所作之等效修飾或變化,皆應涵 蓋於以下申請專利範圍内。 【圖式簡單說明】 . ...... - [⑻19]圖1為本發明較佳實施方式之錢面巍測試裝置之部分分解 示意圖。 [〇〇20]圖2為圖1所不共面度測試裝置中承載機構、滑動機構及 驅動機構之組裝示意圖。 [0021] 圖3為圖2所不共面度測試裝置中承載機構及滑動機構之 分解示意圖。 [0022] 圖4為圖2所不共面度測試裝置中驅動機構之分解示意圖 1002005659-0 [0023] 圖5為圖1所示共面度測試裝置之組裝示音圖 100103199 表單編號A0101 第11頁/共24頁 201231917 【主要元件符號說明】 [0024] 共面度測試裝置:100 [0025] 箱體:10 [0026] 承載機構:20 [0027] 滑動機構:30 [0028] 驅動機構:40 [0029] 測試機構:50 [0030] 控制按紐· 6 0 [0031] 連接器:80 [0032] 本體:81 [0033] 金屬針腳:82 [0034] 底壁:11 [0035] 後壁:12 [0036] 頂壁:13 [0037] 側壁:14 [0038] 前壁:15 [0039] 測試空間:16 [0040] 承載部:21 [0041] 滑動部:22 [0042] 底座:31 100103199 表單編號A0101 第12頁/共24頁 1002005659-0The second driving element is driven to move perpendicular to the first direction and to move above the preset position to test the coplanarity of the device. Form No. A 〇 101 Page 5 of 24 1002005659-0 201231917 Both sides of the wall 13 are vertically connected to the bottom wall 11, the rear wall 12 and the top wall 13. The bottom wall 11, the rear wall 12, the top wall 13, and the two side walls 14 together form a side open test space 16. The front wall 15 is disposed on the test space 16 and includes a first front wall 151, a second front wall 152, a third front wall 153, and a fourth front wall 154. The first front wall 151 is a rectangular plate body that is vertically connected to the end of the bottom wall 11 away from the rear wall 12 so as to be opposite to and parallel to the rear wall 12. The first front wall 151 is provided with a substantially rectangular notch 1511. The second front wall 152 is substantially a rectangular plate body, and is respectively connected to the first front wall 151 and the third front wall 153, and is disposed at an angle to the first front wall 151 and the second bottom wall 153, respectively. A substantially rectangular window 1521 is defined in the second front wall 152 to expose the test space 16. The first front wall 152 is also hinged with a protective cover|522 on the window 1521. The protective cover 1 522 is provided with a handle 1 523 for facilitating the opening and closing of the protector. Cover 1522. The third front wall 153 is a rectangular plate body that connects the second front wall 152 and the fourth front wall 154' and is disposed parallel to the bottom wall π. The fourth front wall 154 has a substantially rectangular plate shape which is perpendicularly connected to the third front wall 153 and the top wall 13. The fourth front wall 154 is provided with a display unit 155 for displaying the test result of the coplanarity test device 1 相应. Referring to FIG. 2 and FIG. 3 together, the supporting mechanism 20 has a substantially rectangular plate shape and includes a bearing surface 201 and a sliding surface 2〇2. A bearing portion 21 is fixed on the bearing surface 201. The bearing portion 21 has a substantially rectangular plate shape, and a substantially rectangular carrying groove 211 is defined therein. The specific shape and structure of the bearing groove 211 are matched with the shape and structure of a conventional connector to be tested for accommodating the connector. The sliding surface 202 is opposite to the bearing surface 201 and the phase is 100103199. The form number AOiOl 6th/24 pages 1002005659-0 201231917 is disposed in a row, and a sliding portion 22 is disposed thereon, and the sliding portion 22 is substantially rectangular. A sliding groove 221 having a substantially rectangular strip shape is disposed away from the surface of the supporting mechanism 20. [0010] The sliding mechanism 30 includes two bases 31, a cylinder 32, a slide rail 33, and two buffer units 34. The base 31 is substantially in the form of a straight strip having a meandering cross-sectional surface, and the two bases 31 are fixed to the surface of the bottom wall opposite to each other. An opening 311 of a substantially "υ" shape is formed at the end of each of the bases 31. The gas red 32 includes a cylinder 321 and a piston 322. The two ends of the cylinder 321 are respectively fixed in the opening 311 to be fixed above the bottom wall 11 by the base 31. One end of the piston 322 is telescopically mounted in the cylinder 321 and the other end is coupled to a side of the carrier mechanism 20 that is vertically connected to both the bearing surface 201 and the sliding surface 202. Thus, the piston 322 can drive the carrier mechanism 20 to reciprocate in the X-axis direction of the 〇-Χγ orthogonal coordinate system shown in FIG. 2 under the control of the cylinder 321 . The slide rail 33 has a substantially rectangular strip shape and is fixed to the bottom wall 11 and located directly below the piston 322. The specific shape and structure of the slide rail 33 corresponds to the sliding groove 221 for slidably mounting the bearing mechanism 20 on the slide rail 33. Each of the buffer units 34 includes a positioning portion 341, a connecting portion 342, an adjusting portion 343, and a buffer portion 344. The positioning portion 341 is an L-shaped sheet-like body and is fixed to the bottom wall 11. The positioning portion 341 is provided with a positioning hole 3411 away from one end of the bottom wall 11. The connecting portion 342 includes a first connecting plate 3421 and a second connecting plate 3422. The first connecting plate 3421 is disposed perpendicular to the bottom wall 11 and has a connecting hole 3423 formed therein. The second connecting plate 3422 is perpendicularly connected to the end of the first connecting plate 3421, and constitutes a substantially "L"-shaped plate-like structure with the first connecting plate 3421. The adjusting portion 343 includes an adjusting column 3431 100103199. Form No. Α0101, page 7/24 pages 1002005659-0 201231917 and a telescopic column 3432'. The adjusting column 3431 is substantially cylindrical and is disposed in the positioning hole 3411. One end of the telescopic column 3432 is telescopically mounted in the adjusting post 3431, and the other end is fixedly disposed in the connecting hole 3423. The buffer portion 344 is substantially rectangular in shape and its one side is connected to the second connecting plate 3422. The two buffering units 34 are oppositely disposed on the two sides of the sliding rail 33. When the carrying mechanism 20 is moved along the sliding rail 33 by the driving of the cylinder 32, the supporting mechanism 20 will resist the buffering. The portion 344 slides the buffer portion 344 along the X-axis direction of the 0-ΧΥ orthogonal coordinate system shown in FIG. 2 to drive the telescopic column 3432 to reciprocate within the adjustment column 3431. When the loading mechanism 20 is moved to a preset position, the supporting mechanism 2G stops moving, and (4) the Wei department collides with the supporting mechanism 20 to provide a cushioning function for the supporting mechanism 2〇. [0012] Please refer to FIG. 4 together, the driving mechanism 40 is disposed in the test space 16, including: a drive unit 4, a second drive unit, and a guide rail. The first drive unit 41 is located at the drive mechanism 4G. The side includes a two-story portion=and a first-electrode 412. The smashing portion 411 is substantially in the shape of a rectangular block, and is disposed on the bottom wall and oppositely disposed to support the first electric cylinder 412. The first electric cylinder 412 (four) is on the cut portion (1), and the slides 33 are disposed in parallel with each other. The first electric red M2 is away from the branch building portion. The first slider can still slide along the surface of the first electric cylinder 412 under the driving of the electromotive red 412, that is, slide along the XY straight line k (four) in FIG. 2 . The 2-4 moving unit 42 includes a bracket 421 and a second electric cradle having a substantially T-shaped plate shape, and the end portion of the first slider 413 is fixed to the bracket by the electric cylinder 422, and Vertical the first 100103199 Form No. A0101 Page 8 / Total 24 Page 1002005659-0 201231917 . Electric cylinder 412 setting. When the first slider 413 slides along the surface of the first electric cylinder 412 under the control of the first electric cylinder 412, it will drive the second electric cylinder connected to the first slider 413. 422 slides in the X-axis direction of the 0-XY right angle coordinate system shown in FIG. 2. A second slider 423 is disposed on the surface of the second electric cylinder 422 away from the bracket 421. The second slider 423 is slidable along the surface of the second electric cylinder 422 by the second electric cylinder 422, that is, along the surface. The Cartesian coordinate system shown in Fig. 2 slides in the γ-axis direction. A fixing portion 424 is fixed to the end of the bracket 421 away from the first sliding block 413. The engaging portion 424 is substantially in the shape of an I-shaped block, and is disposed substantially at the bottom of the second electric cylinder D 422 with a substantially rectangular strip shape. The guide rail 43 is substantially straight and is fixed to the bottom wall 11 and is disposed in parallel with the first electric cylinder 412. The guide rail 43 is disposed on the other side of the driving mechanism 40. The shape and structure cooperate with the engaging groove 4241 to slidably mount the engaging portion 424 on the corresponding rail 43. When the second electric cylinder 422 slides in the X-axis direction in FIG. 2, The engaging portion 424 is slid along the guide rail 43 to balance the second electric cylinder 422. [0013] The testing mechanism 50 is a laser that is fixedly coupled to the second slider 423 for The driving mechanism 40 is driven to move in the XY plane of the 0-ΧΥ rectangular coordinate system shown in Fig. 2, and the coplanarity of the connector to be tested is tested. [00M] The coplanarity testing device 1〇 The 〇 further includes a power generating device (not shown) and a control button 60 ′ the control button 60 is disposed in the a front wall 151 is connected to the power generating device. The power generating device is housed in the test space 16. When the control button 6 is operated, the power generating device can be activated accordingly to drive the power generating device. The sliding mechanism 30 and 100103199 Form No. A0101 Page 9/24 pages 1002005659-0 201231917 The driving mechanism 40 moves [0015] Lu Yuexi A refers to the figure "Coplanarity test device 100 can be - the coplanarity of the connector 8" Into the job. The connection (4) includes the hunger and the plurality of pins 82. Referring to FIG. 5 'When the coplanarity of the connection (4) is tested by the coplanarity test, the body 81 of the first cut is placed in the carrying groove 2U, and the plurality of metal pins 82β are exposed. At this time, the carrier body is facing the lack of... Next, the control button 60 is operated to activate the coplanarity test device (10). At this time, the power generating device moves the cylinder 32 to move, so that the bearing mechanism 2 on which the connector 80 to be tested is placed passes through the gap to enter the test "16, and along the Wei 33 motion. When the carrying mechanism 2 is moved to a preset position, the carrying mechanism 20 stops moving. At this time, the buffer portion 344 abuts against the side wall of the carrier lion to provide a cushioning action for the stop of the carrier mechanism 2G. Then, the power driving device drives the driving mechanism 4G to move, so that the testing mechanism 5 () moves in the (four) plane under the control of the driving mechanism 40, and the testing mechanism 50 moves to the positive of the supporting mechanism 2G. When the upper part, the testing mechanism (10) sequentially scans the metal pins 82 of the connector 3, and transmits the scanned parameters to the display unit 155 for display for the user to analyze and judge the connection to be tested|| Whether the coplanarity of 8〇 meets the standard. After testing the coplanarity of the connection H8G, the gas rainbow 32 will be reversely moved along the slide rail 33 under the control of the power generating device, thereby causing the bearing mechanism 2 to pass from the test space 16 and the gap 1511. Exit, so that the user can take the same %忒 coplanar test device 1 〇〇 to wait for the next product to be tested. 100103199 Form No. A0101 Page 10 of 24 1002005659-0 201231917 .[_ I understand that the coplanar measuring set 100 can be applied to different types of connections - & At the time of testing, it is only necessary to replace the carrier portion 21 corresponding to the type of connector to be tested. The rigid shaft, the coplanarity test device of the present invention is provided with the sliding mechanism 3〇 and the driving mechanism 40. When testing the coplanarity of the connector 8〇, the connection is only required to be said to be on the tt. Then, the coplanarity testing device 1〇0 is activated accordingly. The coplanarity test device 1 快速 will quickly measure the coplanarity of the connection _, which is convenient and reliable. In summary, the present invention is in line with the invention of special wealth, and Newfa has filed a patent application. The above is only the preferred embodiment of the present invention, and the scope of the present invention is not limited to the above-described embodiments, and equivalent modifications or variations made by those skilled in the art in light of the spirit of the present invention are It should be covered by the following patent application. BRIEF DESCRIPTION OF THE DRAWINGS [Fig. 1] is a partially exploded perspective view of a money mask test apparatus according to a preferred embodiment of the present invention. [20] Fig. 2 is a schematic view showing the assembly of the supporting mechanism, the sliding mechanism and the driving mechanism in the non-coplanar testing device of Fig. 1. 3 is an exploded perspective view of a carrier mechanism and a sliding mechanism in the non-coplanarity testing device of FIG. 2. 4 is an exploded view of the driving mechanism in the non-coplanarity testing device of FIG. 21002005659-0 [0023] FIG. 5 is an assembled sounding diagram 100103199 of the coplanarity testing device shown in FIG. 1 Form No. A0101 No. 11 Page / Total 24 pages 201231917 [Main component symbol description] [0024] Coplanarity test device: 100 [0025] Case: 10 [0026] Carrier mechanism: 20 [0027] Slide mechanism: 30 [0028] Drive mechanism: 40 [0029] Test mechanism: 50 [0030] Control button · 6 0 [0031] Connector: 80 [0032] Body: 81 [0033] Metal pin: 82 [0034] Bottom wall: 11 [0035] Back wall: 12 [0036] Top wall: 13 [0037] Side wall: 14 [0038] Front wall: 15 [0039] Test space: 16 [0040] Bearing: 21 [0041] Slide: 22 [0042] Base: 31 100103199 Form number A0101 Page 12 of 24 1002005659-0
201231917 [0043] • [0044] [0045] [0046] [0047] [0048] [0049][0049] [0049] [0049] [0049] [0049]
[0050] [0051] [0052] [0053] [0054] [0055] [0056] [0057] [0058] [0059] [0060] [0061] 氣缸:32 滑軌:33 缓衝單元:34 第一驅動單元: 第二驅動單元: 導軌:43 第一前壁:151 第二前壁:152 第三前壁:153 第四前壁:154 顯示單元:15 5 承載槽:211 滑動槽:221 承載面:201 滑動面:202 開口 : 311 缸體:321 活塞:322 定位部:341 41 42 100103199 表單編號A0101 第13頁/共24頁 1002005659-0 201231917 [0062] 連接部:342 [0063] 調節部:343 [0064] 緩衝部:344 [0065] 支撐部:411 [0066] 第一電缸:412 [0067] 第一滑塊:413 [0068] 支架:421 [0069] 第二電缸:422 [0070] 第二滑塊:423 [0071] 配合部:424 [0072] 缺口 : 1511 [0073] 視窗:1521 [0074] 保護罩:1522 [0075] 把手:1523 [0076] 定位孔:3 411 [0077] 第一連接板:3421 [0078] 第二連接板:3422 [0079] 調節柱:3 4 31 [0080] 伸縮柱:3432 100103199 表單編號A0101 第14頁/共24頁 1002005659-0 201231917 [0081] 配合槽 4241[0058] [0056] [0060] [0060] [0061] Cylinder: 32 Slide: 33 Buffer Unit: 34 First Drive unit: Second drive unit: Guide rail: 43 First front wall: 151 Second front wall: 152 Third front wall: 153 Fourth front wall: 154 Display unit: 15 5 Carrier groove: 211 Slide groove: 221 Bearing surface : 201 Sliding surface: 202 Opening: 311 Cylinder: 321 Piston: 322 Positioning: 341 41 42 100103199 Form No. A0101 Page 13 of 24 1002005659-0 201231917 [0062] Connection: 342 [0063] Adjustment: 343 [0064] Buffering portion: 344 [0065] Supporting portion: 411 [0066] First electric cylinder: 412 [0067] First slider: 413 [0068] Bracket: 421 [0069] Second electric cylinder: 422 [0070 ] Second slider: 423 [0071] Mating part: 424 [0072] Notch: 1511 [0073] Window: 1521 [0074] Protective cover: 1522 [0075] Handle: 1523 [0076] Positioning hole: 3 411 [0077] First connecting plate: 3421 [0078] Second connecting plate: 3422 [0079] Adjustment column: 3 4 31 [0080] Telescopic column: 3432 100103199 Form number A0101 Page 14 of 24 1002005659-0 201 231 917 [0081] fitting groove 4241
100103199 表單編號A0101 第15頁/共24頁 1002005659-0100103199 Form No. A0101 Page 15 of 24 1002005659-0