五、新型說明: 【新型所屬之技術領域】 [0001] 本創作涉及一種電子元器件製造設備部件,尤指一種連 續端子製程之平移治具。 【先前技術】 [0002] 與本創作相關之連續端子製程之平移治具,如中國大陸 發明專利第1 2851 46號所揭示,其提供了一種令連續端子 在行進中作平移、以簡化連續端子衝壓彎浙工序之連續 端子製程之平移治具。該連續端子製程之平移治具包括 座體及軸體。該座體内部設有腔體,外部設有與腔體相 通之入口及出口,連續端子由入口進入和由出口出來之 行進方向相互平行,且設有一間隔距離。該軸體表面設 有螺旋狀之凹槽。該轴體係套合於座體之腔體内,並於 座體内形成兩端分別對應至座體之入口及出口之螺旋軌 道。該連續端子原始料帶包括由其一端分開設置之第一 料條和第二料條。作業時,原始連續端子料帶之第一料 條由平移治具之座體入口進入座體内並沿軸體與座體之 間之螺旋通道繞著轴體螺旋前進最後由座體出口伸出, 原始連續端子料帶之第二料條行進路徑不變且沿著座體 之上表面繼續前進,如此達到連續端子之第一料條平移 之目的,以和第二料條呈平行間隔設置。 [0003] 惟,所述連續端子製程之平移治具至少存在以下缺點: 原始連續端子料帶之第一料條因沿平移治具之螺旋通道 繞著軸體螺旋前進,在此行進過程中連續端子料帶之第 一料條和軸體之間會產生較大之摩擦力,導致第一料條 表單編號Λ0101 第3頁/共18頁 M398280 在螺旋機構内旋繞不順,最終無法順暢繞出,會影響後 續製程之正常進行。 [0004] 鑒於此,實有必要提供一種改進之連續端子製程之平移 治具,以克服所述連續端子製程之平移治具之缺陷。 【新型内容】 [0005] 本創作所解決之技術問題係提供一種可降低連續端子經 過平移機治具過程中之摩擦阻力,保證後續折彎製程順 利進行之連續端子製程之平移治具。 [0006] 為解決所述技術問題,本創作涉及一種連續端子製程之 平移治具,其包括平移機構。該f移_構包妨座體以及 設於座體内部之軸體。該座收容軸體 之腔體。該座體之外部設有與貫通‘S入口及出口, 所述入口與出口呈間隔設置。所述軸體可在座體之腔體 内轉動。所述平移治具還包括組設於平移機構至少一側 之伺服馬達或空壓機。 [0007] 與習知技術相比,本創作具有以下優點:該連續端子製 程之平移治具藉在平移機構至少一侧加設伺服馬達或空 壓機,以此降低連續端子運動過程中之阻力,使連續端 子料帶旋繞順暢,保證了後續衝壓彎折工序之順利進行 〇 【實施方式】 [0008] 下面結合附圖和具體實施例對本創作電連接器作進一步 詳細說明。 [0009] 請參閱第一圖所示,其揭示了本創作之連續端子製程之 表單編號A0101 第4頁/共18頁 M398280 平移治具以及經過該平移治具之連續端子料帶4。該連續 端子料帶4包括由其-端分開設置之第一料條仙第二料 條42。該連續端子料帶4經過該連續端子製程之平移治具 後,第一料條41可作平移運動從而和第二料條“平移距 離以呈兩排間隔設置之料條平行前進。該連續端子製程 之平移治具包括平移機構1、設於平移機構丨一側之伺服 馬達2以及6又於平移機構1另一側之空壓機3。 [0010] 請結合第二圖所示,該平移機構1包括座體丨丨以及設置於 座體11内部之軸體12。該座體丨1内部設有用以收容軸體 12之腔體111,外部設有與腔體U1貫通之入口 112及出 口 113。所述入口 112與出口 113呈平齊設置,大致位於 同一直線。所述連續端子料帶4之第一料條41由入口 112 進入並由出口 113出來之行進方向與進入入口 U2前相同 ,且相對進入前平移一距離。腔體ln内壁上凹設有複數 環狀螺旋槽道114。軸體12係裝設在座體11之腔體lu内 ,其可在腔體111内轉動,用以引導連續端子料帶4之第 一料條41作螺旋運動。轴體12裝設於座體11後可與座體 11之螺旋槽道114 一起形成兩端分別對應至座體丨丨之入口 112及出口 113之螺旋軌道(未標示),可供連續端子料 帶4之第一料條41螺旋前進。 [0011] 請一併結合第三圖至第五圖所示,轴體12設有中空柱狀 基部121,用以引導連續端子料帶4之第一料條41進入平 移機構1後旋轉繞出。該基部121之一端設有中空柱狀之 第一連接部122 ’用以連接伺服馬達2。該基部121之另一 端設有中空柱狀之第二連接部丨23,用以連接空壓機3» 表單編號A0101 第5頁/共18頁 M398280 該第一連接部123兩端均為開放式,可供空壓機3中之氣 體進入軸體12之基部。該基部12丨之中間位置設有複 數圓形貫穿基部121之通孔124,可供進入基部121之氣 體向外喷出以此將貼附在基部121周側之連續端子料帶4 之第一料條41微微向外推浮,以避免第一料條41過於緊 密地貼附在基部121,從而降低第一料條41前進方向之垂 直阻力。 [0012]该伺服馬達2組設在平移機構1之一側,其藉連軸器21和 平移機構I之軸體12連接起來,該連軸器21—端套設在軸 體12之第一連接部〗22上,另一端套設在伺服馬達2上。 該連軸器21套設在軸體丨2之一:蓮邊部〗2#可將平移機 構1之軸體12之中空柱狀基輕來,從而可 防止從空壓機3進八基部121之氣體從第一連接部122溢出 。該伺服馬達2啟動後可藉連軸器21帶動平移機構丨之軸 體12轉動,從而帶動環繞在軸體12周側之連續端子料帶4 之第一料條41作旋轉運動,且可減小第一料條41在水平 方向運動之摩擦阻力。 _3]該空壓機3組設在平移機構1之另一側,其可將氣體灌入 平移機構1之軸體12中。該空壓機3包括柱狀本體31、由 本體31 一端延伸之細長圓柱狀輸氣管32、以及由輸氣管 32末端延伸之固持部33。該固持部33可套設在平移機構! 之軸體12之第二連接部123上,從而將空壓機3和平移機 構1之轴趙12連接起來。空壓機3可將進入空壓機3之外部 氣趙藉輸氣管32灌輸到軸體12之基部121中。 [〇〇14]作業時,同時啟動伺服馬達2、平移機構1以及空壓機3。 第6頁/共18頁 表翠編號AOlOi 所述連續端子料帶4之第一料條41由平移機構1之座體11 之入口 112進入,環繞貼附在軸體1 2之基部1 21上並且隨 著軸體12 —起在平移機構1之螺旋軌道(未標示)内螺旋 前進,最後由平移機構1之座體11之出口 113出來。在連 續端子料帶4之第一料條41繞著軸體12螺旋前進之過程中 ,設置在平移機構1 一側之伺服馬達2可藉連軸器21帶動 平移機構1之軸體12 —起轉動,減小連續端子料帶4之第 一料條41前進方向之水平摩擦阻力;設置在平移機構1另 一側之空壓機3可將氣體藉輸氣管32灌入軸體12之基部 121内,同時該氣體由貫穿基部121之通孔124向外喷射 以此將貼附在基部121周側之連續端子料帶4之第一料條 41微微向外推浮,以避免第一料條41過於緊密地貼附在 軸體12之基部121上,從而降低第一料條41前進方向之垂 直阻力。連續端子料帶4之第二料條42之前進路線不變, 直接經過平移機構1之座體11之上表面繼續行進。當連續 端子料帶4之第一料條41由平移機構1之座體11之入口 112進入並由出口 113出來後與第二料條42平移一距離。 藉在平移機構1兩側分別設置伺服馬達2和空壓機3,可減 小連續端子料帶4之第一料條41在平移機構1中螺旋前進 之摩擦阻力,可保證連續端子料帶4之第一料條41經過該 平移機構1之螺旋軌道(未標示)仍可正常前行,保證了 後續衝壓彎折工序之順利進行。 [0015] 综上所述,本創作符合新型專利要件,爰依法提出專利 申請。惟,以上所述者僅為本創作之較佳實施方式,本 創作之範圍並不以前述實施方式為限,舉凡熟習本案技 表單編號A0101 第7頁/共18頁 M398280 藝之人士援依本創作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】 [0016] 第一圖係本創作連續端子製程之平移治具與連續端子之 立體組裝圖; [0017] 第二圖係本創作連續端子製程之平移治具之平移機構之 立體分解圖; [0018] 第三圖係本創作連續端子製程之平移治具之平移機構之 另一角度之立體分解圖; [0019] 第四圖係第二圖所示連續端子:製:巍之繫綦诸具之平移機 ; 'V:V. New description: [New technology field] [0001] The present invention relates to an electronic component manufacturing equipment component, and more particularly to a translational fixture for a continuous terminal process. [Prior Art] [0002] A translating jig for a continuous terminal process related to the present invention, as disclosed in Chinese Patent No. 1 2851 46, which provides a continuous terminal for translating while traveling to simplify a continuous terminal The translational jig of the continuous terminal process of the stamping and bending process. The translating fixture of the continuous terminal process comprises a seat body and a shaft body. The seat body is internally provided with a cavity, and the outside is provided with an inlet and an outlet communicating with the cavity, and the continuous terminal is parallel to the direction of travel from the inlet and the outlet, and is provided with a separation distance. The surface of the shaft body is provided with a spiral groove. The shaft system is sleeved in the cavity of the seat body, and a spiral track is formed in the seat body corresponding to the inlet and the outlet of the seat body respectively. The continuous terminal original strip includes a first strip and a second strip that are disposed apart from one end thereof. During operation, the first strip of the original continuous terminal strip enters the housing from the seat inlet of the translational fixture and spirals around the shaft along the spiral passage between the shaft and the housing. Finally, the outlet of the housing protrudes. The second strip of the original continuous terminal strip has a constant travel path and continues along the upper surface of the base body, so as to achieve the purpose of the first strip translation of the continuous terminal, and is disposed in parallel with the second strip. [0003] However, the translating jig of the continuous terminal process has at least the following disadvantages: The first strip of the original continuous terminal strip is spirally advanced around the shaft body by the spiral passage along the translational jig, and is continuously continuous during the traveling A large frictional force is generated between the first strip of the terminal strip and the shaft body, resulting in the first strip form number Λ0101, page 3/18 pages, M398280, which is not smoothly circulated in the screw mechanism, and finally cannot be smoothly circulated. Will affect the normal progress of the subsequent process. In view of this, it is necessary to provide an improved continuous terminal process translation jig to overcome the drawbacks of the translational jig of the continuous terminal process. [New content] [0005] The technical problem solved by the present invention is to provide a translational jig for a continuous terminal process which can reduce the frictional resistance of the continuous terminal through the process of the translation machine and ensure the subsequent bending process smoothly. In order to solve the technical problem, the present invention relates to a translating jig for a continuous terminal process, which includes a translating mechanism. The f-shifting structure is a body that is disposed inside the body and a shaft body that is disposed inside the body. The seat houses a cavity of the shaft body. The outside of the base body is provided with a through-hole and an outlet, and the inlet and the outlet are spaced apart from each other. The shaft body is rotatable within the cavity of the seat body. The translational fixture further includes a servo motor or air compressor assembled on at least one side of the translation mechanism. Compared with the prior art, the present invention has the following advantages: the translational jig of the continuous terminal process is provided with a servo motor or an air compressor on at least one side of the translation mechanism, thereby reducing the resistance during the movement of the continuous terminal. The continuous terminal strip is smoothly wound, and the subsequent stamping and bending process is smoothly carried out. [Embodiment] The present invention will be further described in detail below with reference to the accompanying drawings and specific embodiments. [0009] Please refer to the first figure, which discloses the continuous terminal process of the present invention. Form No. A0101 Page 4 of 18 M398280 The translational fixture and the continuous terminal strip 4 passing through the translational fixture. The continuous terminal strip 4 includes a first strip second strip 42 disposed apart from its end. After the continuous terminal strip 4 passes the translational jig of the continuous terminal process, the first strip 41 can be moved in translation to advance parallel to the strip of the second strip "translation distance in two rows. The continuous terminal The translational jig of the process comprises a translation mechanism 1, a servo motor 2 disposed on one side of the translation mechanism, and an air compressor 3 on the other side of the translation mechanism 1. [0010] Please refer to the second figure, the translation The mechanism 1 includes a seat body 丨丨 and a shaft body 12 disposed inside the seat body 11. The seat body 1 is internally provided with a cavity 111 for receiving the shaft body 12, and an external inlet 112 and an outlet for the cavity U1 are provided. 113. The inlet 112 and the outlet 113 are flush with each other, substantially in the same straight line. The first strip 41 of the continuous terminal strip 4 enters by the inlet 112 and exits from the outlet 113 in the same direction as before entering the inlet U2. And a plurality of annular spiral channels 114 are recessed on the inner wall of the cavity ln. The shaft body 12 is mounted in the cavity lu of the seat body 11, and can be rotated in the cavity 111, To guide the first strip 41 of the continuous terminal strip 4 The spiral body 12 is mounted on the seat body 11 and can form a spiral track (not labeled) corresponding to the inlet 112 and the outlet 113 of the seat body, respectively, together with the spiral channel 114 of the seat body 11. The first strip 41 of the continuous terminal strip 4 is spirally advanced. [0011] As shown in the third to fifth figures, the shaft body 12 is provided with a hollow columnar base 121 for guiding the continuous terminal strip 4 The first strip 41 is rotated and rotated after entering the translation mechanism 1. One end of the base portion 121 is provided with a hollow column-shaped first connecting portion 122' for connecting the servo motor 2. The other end of the base portion 121 is provided with a hollow column shape. The second connecting portion 23 is connected to the air compressor 3» Form No. A0101 Page 5 / 18 pages M398280 The first connecting portion 123 is open at both ends, and the gas in the air compressor 3 can be entered. a base portion of the shaft body 12. The intermediate portion of the base portion 12 is provided with a plurality of through holes 124 extending through the base portion 121, and the gas for entering the base portion 121 is outwardly ejected to adhere the continuous terminal on the circumferential side of the base portion 121. The first strip 41 of the strip 4 is slightly pushed outward to avoid the first strip 41 being too tight Attached to the base 121, thereby reducing the vertical resistance of the advancement direction of the first strip 41. [0012] The servo motor 2 is assembled on one side of the translation mechanism 1, which borrows the shaft 21 and the shaft body 12 of the translation mechanism 1. Connected, the coupling 21 is sleeved on the first connecting portion 22 of the shaft body 12, and the other end is sleeved on the servo motor 2. The coupling 21 is sleeved on one of the shaft bodies 2: The lotus edge portion 2# can lighten the hollow columnar base of the shaft body 12 of the translation mechanism 1, thereby preventing gas from the air compressor 3 into the eight base portion 121 from overflowing from the first connection portion 122. The servo motor 2 is activated. Then, the shaft body 12 of the translation mechanism 转动 can be rotated by the coupling 21 to drive the first strip 41 of the continuous terminal strip 4 around the circumference of the shaft body 12 to rotate, and the first strip can be reduced. 41 frictional resistance in horizontal motion. The air compressor 3 is disposed on the other side of the translation mechanism 1 to inject gas into the shaft body 12 of the translation mechanism 1. The air compressor 3 includes a columnar body 31, an elongated cylindrical gas pipe 32 extending from one end of the body 31, and a holding portion 33 extending from the end of the gas pipe 32. The holding portion 33 can be sleeved in the translation mechanism! The second connecting portion 123 of the shaft body 12 is connected to the air compressor 3 and the shaft 12 of the translation mechanism 1. The air compressor 3 can infuse the external air entering the air compressor 3 into the base 121 of the shaft body 12 by the air pipe 32. [〇〇14] At the time of operation, the servo motor 2, the translation mechanism 1, and the air compressor 3 are simultaneously activated. Page 6 of 18 Table No. AOlOi The first strip 41 of the continuous terminal strip 4 is accessed by the inlet 112 of the housing 11 of the translation mechanism 1 and is attached to the base 1 21 of the shaft body 12 And as the shaft body 12 is spirally advanced in the spiral track (not shown) of the translation mechanism 1, it is finally discharged from the outlet 113 of the seat body 11 of the translation mechanism 1. During the spiral advancement of the first strip 41 of the continuous terminal strip 4 about the shaft body 12, the servo motor 2 disposed on the side of the translation mechanism 1 can drive the shaft body 12 of the translation mechanism 1 by the shaft member 21. Rotating to reduce the horizontal frictional resistance of the first strip 41 of the continuous terminal strip 4 in the advancing direction; the air compressor 3 disposed on the other side of the translating mechanism 1 can inject the gas into the base 121 of the shaft body 12 by the gas pipe 32 At the same time, the gas is sprayed outwardly through the through hole 124 of the base portion 121 to push the first strip 41 of the continuous terminal strip 4 attached to the circumferential side of the base portion 121 slightly outward to avoid the first strip. 41 is attached too tightly to the base 121 of the shaft body 12, thereby reducing the vertical resistance of the first strip 41 in the advancing direction. The second strip 42 of the continuous terminal strip 4 does not change the path, and continues straight through the upper surface of the base 11 of the translation mechanism 1. When the first strip 41 of the continuous terminal strip 4 enters the inlet 112 of the housing 11 of the translation mechanism 1 and exits the outlet 113, it is translated a distance from the second strip 42. By separately providing the servo motor 2 and the air compressor 3 on both sides of the translation mechanism 1, the frictional resistance of the spiral movement of the first strip 41 of the continuous terminal strip 4 in the translation mechanism 1 can be reduced, and the continuous terminal strip 4 can be ensured. The first strip 41 passes through the spiral track (not labeled) of the translation mechanism 1 and can still proceed normally, thereby ensuring the smooth progress of the subsequent stamping and bending process. [0015] In summary, the creation complies with the new patent requirements, and the patent application is filed according to law. However, the above description is only a preferred embodiment of the present invention, and the scope of the present invention is not limited to the foregoing embodiment, and is familiar with the case form A0101, page 7 / 18 pages of M398280. Equivalent modifications or variations made by the spirit of creation shall be covered by the following patents. [FIG. 1] The first figure is a three-dimensional assembly diagram of the translational jig and the continuous terminal of the continuous terminal process of the present invention; [0017] The second figure is the translation mechanism of the translational jig of the continuous terminal process of the present invention. 3D exploded view; [0018] The third figure is an exploded perspective view of another angle of the translation mechanism of the translational jig of the continuous terminal process; [0019] The fourth figure is the continuous terminal shown in the second figure: system: The system is equipped with a translation machine; 'V:
構之軸體上之細孔之局部放大.I ...八:.· [0020] 第五圖係本創作連續端子製程之平移治具之平移機構之 軸體與連續端子料帶之立體組裝圖; [0021] 第六圖係第二圖所示連續端子製程之平移治具之平移機 構之軸體沿VI-VI線之剖視圖。 【主要元件符號說明】 [0022] 平移機構:1 [0023] 座體:11 [0024] 腔體:111 [0025] 入口 : 1 1 2 [0026] 出口 : 11 3 [0027] 螺旋槽道:114 表單編號A0101 第8頁/共18頁 M398280Partial enlargement of the pores on the shaft body of the structure. I ... eight:. [0020] The fifth figure is the three-dimensional assembly of the shaft body and the continuous terminal strip of the translation mechanism of the translational jig of the continuous terminal process of the present invention. Figure 6 is a cross-sectional view of the shaft body of the translation mechanism of the translational jig of the continuous terminal process shown in the second figure taken along line VI-VI. [Main component symbol description] [0022] Translation mechanism: 1 [0023] Seat: 11 [0024] Cavity: 111 [0025] Entrance: 1 1 2 [0026] Exit: 11 3 [0027] Spiral channel: 114 Form No. A0101 Page 8 of 18 M398280
[0028] 軸體:12 [0029] 基部:121 [0030] 第一連接部:122 [0031] 第二連接部:123 [0032] 通孔:124 [0033] 伺服馬達:2 [0034] 連軸器:21 [0035] 空壓機:3 [0036] 本體:31 [0037] 輸氣管:32 [0038] 固持部:33 [0039] 連續端子料帶:4 [0040] 第一料條:41 [0041] 第二料條:42 表單編號A0101 第9頁/共18頁[0028] Axis body: 12 [0029] Base: 121 [0030] First connection: 122 [0031] Second connection: 123 [0032] Through hole: 124 [0033] Servo motor: 2 [0034] Coupling Apparatus: 21 [0035] Air compressor: 3 [0036] Body: 31 [0037] Air pipe: 32 [0038] Holding part: 33 [0039] Continuous terminal strip: 4 [0040] First strip: 41 [ 0041] Second item: 42 Form number A0101 Page 9 of 18