200530436 九、發明說明·· [發明所屬之技術領域】 本么明’係關於用以對例如Ic導 電鍍處理之長月鉍^ A木寻之長片材施以 电鐵裝置’並關於供撫样真y 電鍍槽内或洗淨_ & ,、、長片材通過 宁^内寺之長片材之搬送方法。 【先前技術】 M xl\ )'! 1 ΓΓ5 Γ # ^ f ^ ^ (^ ^ ^ ^ 仏至5條左右之通電兼搬送用線214上, 將導線架201 導Π 201 Λ G3以—定間隔裝人,藉此搬送 :: 在,、搬送途中,在處理槽205施以電鍍處理。 然後,捲取通電兼搬送用線214,導線架加則以乾燥機(未 圖不)乾燥,#由卸載機2 Q 4將電鑛完成品依序回收。 通電兼搬送用線214捲繞於後捲線筒207。各線214 之張力(tenSi〇n)可藉由可變制動器208調整。進而,用 加麼輥210塵緊線214,以使全體制動器2〇9之主制動力 旎均等地作用。線214,通過處理槽2〇5、位置修正裝置215 等,然後捲繞於搬送主軸211,再以加壓輥212壓緊以避 免滑動。所送出之線214,則藉由捲線機捲取所送出之部 分0 從管理槽206藉由泵216對處理槽205供應液。進而 設置整流器217以進行電解處理。 (專利文獻1)日本特開200 0 — 1 29494號公報 【發明内容】 在上述習知之構成,因在通電兼搬送用線(由3條至5 5 200530436 條之複數條線組成且隔著一定間隔)上裝載搬送導線架, 導致在電鍍液中導線架之姿勢不穩定,故有產生電鍍厚度 不均之問題。 本發明,係用來解決前述習知之問題,其目的在於提 =:能使用通電兼搬送用線而穩定進行導線架之搬送與通 % ’且使裝置之構成簡化的長片材之電鍍裝置、及長片材 之搬送方法。 :發明之長片材之電鏟裝置’具備:電鍍槽;及以通 二 =槽内部的方式實質上沿水平方向架設之導電線’· =材藉由該導電線支持並使其通過該電鍍槽内部,俾 片材施以電鑛;該導電線,在其上面,具有以該長 片材旦立之狀態下支持其 區間之該導電線之通過路丄沿該長片材裝載 载於該導t置限制構件,俾防止裝 =線之裝载部的該長片材朝横方向傾倒。 本發明之長片材之I ^ 送長片材n 法,係藉由架設之線支持搬 内通過供進行電鍍或洗淨等處理之處理# 該線,在==以:定處理,其特徵在於·· 支持的裝載部; 八將'^立裝载之該長片材之下邊 /σ °亥線之通過路徑配置位置限制槎株 該線之裝載部的該長 制構件,俾防止裝載於 材朝k方向傾倒; 長邊;移動裝载部,藉由使該線沿 依本發明之::長片材通過該處理槽内。 食片材之電鍍裝罟、, 及長片材之搬送裝置, 6 200530436 能穩定進彳干道#力 :線木之搬送與通電’且使裝置之 化。 L 苑方式】 在本务明之長片材之電 如,以較針、+、e 蠛衣置,可將前述裝載部,例 从孕乂則述長片材之下邊為 將前述#昏β 為大之平坦部形成。或是,可 财引这4栽部以槽部(且 1 口)形成。 八較則述長片材之下邊為大之開 又 可具備屡延輕,葬LV “ 部。^對所述導電線形成前述平坦 形成::二具備設有突條一藉以在前述導電線 材料:覆前述導電線’除前述裝载部露出外係以機緣 示:之說明本發明之實施形態…,係表 電铲# $ . 、x哀置之概略構成的立體圖。此 电錢&置,係用以使長月妯Γ ^ 之槿 才(例如將複數個1C導線架連結 之構件)通過電鍍槽丨内 Ψ m . ^ 不搬k,在其全面施以電鍍的 衣置。在電鍍槽i之對向壁 1 佶 面形成縱長之槽(slot)2、3, ]㈣ 势長片材,從-方之槽2搬入電鍍样 1内部,而從另一方之揭q , ?曰 . H ^ 才曰3搬出。將金屬製之線4,當作 仏铷迗長片材之機構。線4 電鍍槽1之槽2、3並、甬7¾ Φ 7 、’方向架⑤’通過 心d亚通過電鍍槽1内。 在圖2(a),係表示從長片好 / ^ ^ ^ 片材5之仃進方向觀察之裝置 要邛的截面。將圖2(心之A 罝 _ P之放大截面圖表示於圖。如 该圖2(b)所示,在線4上 样 — /σ搬迗方向連績形成凹形之 子曰。ρ 1 7 ’猎由該槽部1 7,形士田 ^ 形成用以裝載長片材5之下邊 7 200530436 之裝載部。槽部丨7之開口 大。又,槽部17之截面形狀,必須較長片材之厚度為 具備開口部即可,該形狀未別^在裝載長片材5之側 17,而如圖3⑷所示之、線化限疋。再者’不形成槽部 邊A 士々τ 亦可藉由較長片材5之下 邊為大之平坦部18來形成裝裁部。 τ 在本實施形態,例如,為了 長片材’可使用具備。5 卜〇」_之 等其他金屬線。 巧口权Cu線。亦可使用Fe 麥照圖卜更詳細說明電 内部,設置截面呈Η形之支持框構成。在電鑛槽1 型,在供線4及長片材5、、雨、支持框6亦形成箱 (sl〇〇fi 、過之壁部分形成縱長之槽 内心支Γ換言之,採用雙重槽構造,即在電鏟槽1 Η。卩形成支持框6所構成之内 (底面),將一料❹7 *在此支持框6之水平面 定間隔〜μ ,"^著線4之方式,沿線4以既 止,:二 對導# 7’係當作位置限制構件,俾防 =線4之垂直姿勢之長片材5傾倒。因此,需於沿 較路徑’以較長片材5之長度為短之間隔配置。 ”、、、片材5之長度之-半程度之間隔配置。 以4°r(b)所示,導桿7之軸?3之下端部,透過轴承8 輪式固定於支持框6。在導桿7之下部固設滑 9、使上向之線位置。伴隨線4之移動,透過一對滑輪 子導桿7旋轉驅動。藉由導桿7旋轉,能使所搬送 、片材5與導桿7之接觸摩擦緩和。在本實施形態,作 200530436 為-例’軸外之導桿7及滑輪㈣以 為鈦製。又,亦可佬導浐7 » 1 細氣’軸7a 了使導# 7及滑輪9 -體形成。 如圖2(a)所示’以與搬送之長片材5之 式以既定間隔配置-對陽極10,此陽極10,传/之方 解於電鐘液之金屬製殼體内放置電鍍金屬者極不會溶 過支持金屬件11、金屬# 19 β τ %極10,透 i屬杯12及L字形構件13 框6之左右内壁。又,扃 疋於支持 在圖1,為容易觀察,僅表干呈士 之陽極10、支持金屬件u、 僅表不早方 屬扣12及L字形構件 如圖1所示,陽極1 〇係連 。 另-方面,直流電开14 :接於直流電源14之正極側。 直机電,原14之負極側,雖未 之供電機構與後4拟士 士 γ ± 、猎由周知 線4开,成電氣連接。因此,裝載於魂“ 長片材5’透過線4被施加負電壓。 載於線4上之 又,在長片材5之上方,沿線4之長 液供應用管15,在舲其々 向八備電鍍 在此官之下面,將用來以既 射電鍍液之電鍍液噴嘴 、又朝下贺 方向以既定H h (8)),沿線4之長邊 疋3卩网没置。亦可將另外 之下面,或將噴嘴】… 16裝設於管15 16之門r 、鳥16 一體形成於管15之下面。設置嘖 J b之間隔’較佳者,θ 、角 向的長度為短。為…,至少較長片材5沿線4之方 持框m空用’係將_夜供應於電鑛槽】内之支 又,藉由從心材:且使電錢液攪拌以獲得均句之電锻。 片材5之㈣材之上方朝下方喷射電鑛液,能防止長 止 使/、下邊緊壓於線4。再者,亦具有防 " 之傾倒的作用。即,當長片材5在於大致垂直 200530436 姿勢時,因長片材5係位於電鍍噴流之大致中央,且大致 千仃於喷流方向,故能以大致相等之壓力從電錢喷流施加 於長片材5之兩面。然而,當長片材5在噴流内稍微傾斜 %,噴流會產生變化’其結果能使供矯正傾斜之方向的舞 =從電鍍喷流施加在長片材5。藉此,能防止長片材5傾 又,供應支持框6内部之電鍍液,從支持框6之槽“、 ::流出。☆出之電鑛液回收於未圖示之管理槽,藉::再 2至電鐘液供應用管15。如上述藉由使電鍍液循環,長 片材5及陽極10則持續保持於電鑛液中 將直流電屢加在陽極1〇盥 ^此狀恶 中之…a -長片材5之間’溶出於電鍍液 Π 子則析出於長片材5之表面,來進行電 二之電❹屬,因伴隨溶出於電鑛液中而會減 ?而要將電鍍金屬補給至陽極10之殼體内。 在進人電鑛槽!前之位置,將保持 :,從上方插入於導桿7之間來裝載於線4上=:片 可以手作業進行上之作業’雖 移載裝置來進二;:、:、::使用公知之各W 片材5取出之_ /過電鍍槽1已施以電鑛處理之長 接用以施加复他牛驟之^又’若在電鍍步驟前後,連 複數個槽間進Γ 槽時,亦能將上述之線搬送在 淨,後處理步:有^如’電鑛前處理步驟有化學研磨、洗 電鍍處理(例如A牙洗淨、乾燥。又,亦有將複數個 錢槽進行之情°形層錢鎳、鍍纪、極薄鍍金)在複數個電 200530436 在圖4’對包含本實施形態之電鍍裝置之電鐘自動化 2Q p Μ纟不王體構成之概略圖。在《置,處理# =错由隔板22a、22b分割為3個槽,即,前處理槽〜、曰 二鑛槽m、後處理槽21c。長片材5,裝載於線4上 :理槽2°内朝箭頭23之方向搬送。在前處理槽21a進行 Ή 5之化學研磨、洗淨等之電鍍前處理’電鍍槽卟 、…為複數個槽(未圖示),例如使其能按Ni、200530436 IX. Description of the invention ... [Technical field to which the invention belongs] Benmemin 'is about applying an electric iron device to a long sheet of long moon bismuth, such as Ic conductive plating ^ A Mu Xun' and about providing care Sample really y in the plating tank or wash _ ,,, and long sheets through the Ning ^ Nei Temple's long sheet transfer method. [Prior art] M xl \) '! 1 ΓΓ5 Γ # ^ f ^ ^ (^ ^ ^ ^ 仏) to 5 or more power-supply and transfer lines 214, and lead frame 201 to Π 201 Λ G3 at a fixed interval Installed by this person to transport :: During, during the transfer, electroplating treatment is performed in the processing tank 205. Then, the current-carrying and transporting wire 214 is wound, and the lead frame is dried by a dryer (not shown), # 由The unloader 2 Q 4 sequentially collects the finished power ore. The current-carrying and conveying wire 214 is wound around the rear spool 207. The tension (tenSiON) of each wire 214 can be adjusted by the variable brake 208. The roller 210 tightens the wire 214 so that the main braking force of the entire brake 209 acts evenly. The wire 214 passes through the processing tank 205, the position correction device 215, etc., and then is wound around the conveying spindle 211, and then The pressure roller 212 is pressed to avoid slipping. The delivered wire 214 is taken up by the winding machine. The liquid is supplied from the management tank 206 to the processing tank 205 by the pump 216. Further, a rectifier 217 is provided for electrolysis (Patent Document 1) Japanese Laid-Open Patent Publication No. 200-0-29494 [Summary of the Invention] The known structure is because the lead frame is loaded on the power-on and transfer line (composed of a plurality of lines from 3 to 5 200530436 with a certain interval), which causes the posture of the lead frame to be unstable in the plating solution. The present invention solves the problem of uneven plating thickness. The present invention aims to solve the conventional problems mentioned above. The purpose of the invention is to improve the stability of the lead frame by using the current-carrying and conveying wire and to simplify the structure of the device. Long-plate electroplating device and long-plate conveying method .: The invention's long-sheet electric shovel device 'includes: a plating tank; and a conductive wire that is substantially horizontally arranged in a way that passes through the two tanks. '· = The material is supported by the conductive wire and passed through the inside of the electroplating bath, and the slab is applied with electric ore; the conductive wire has, above it, a section that supports the section in a state where the long sheet stands. The conductive wire passes along the long sheet and is loaded on the guide t-limiting member, so as to prevent the long sheet loaded with the wire loading portion from falling in the horizontal direction. I of the long sheet of the present invention I ^ Send long sheet n method, by the rack The line supports processing such as plating or cleaning in the interior of the line. # This line is processed at == to: It is characterized by a supported loading section; The long sheet loaded by the eight The arrangement position of the lower side / σ ° Hai line restricts the long member of the loading portion of the line, preventing the loading of the material from falling in the k direction; long side; moving the loading portion by making the line along According to the present invention: the long sheet passes through the processing tank. The electroplating of the food sheet, and the conveying device of the long sheet, 6 200530436 can stably enter the main road #force: the transportation and power of the wire wood 'and Make the device. L court method] In the long-term sheet material, such as the needle, +, and e, the above loading section can be placed. For example, from the bottom of the long sheet described in the pregnancy, the aforementioned # dimβ is A large flat portion is formed. Alternatively, the four planting portions may be formed as groove portions (and one mouth). The lower part of the long sheet is wide open and can be equipped with repeated light and light LV ". ^ The aforementioned flat formation is formed on the conductive line: 2: It is provided with a protrusion, so that the conductive line material is provided. : Covering the aforementioned conductive wire, except for the aforementioned loading portion being exposed, is shown by the machine edge: The description of the embodiment of the present invention ..., is a perspective view of the schematic structure of the table electric shovel # $. , Is used to make long moon 妯 ^ ^ hibiscus (for example, a member connecting a plurality of 1C lead frame) through the plating tank 丨 inside 不 m. ^ Do not move k, in its entirety to apply electroplating clothes. Opposite wall 1 of slot i forms long slots 2 and 3, and the long sheet is moved from -square slot 2 to the inside of electroplating sample 1, and is exposed from the other side q,? H ^ Only moved out 3. Use the metal wire 4 as the mechanism of the long sheet. The wire 4 is the grooves 2 and 3 of the plating tank 1 and 甬 7¾ Φ 7 and the 'direction frame ⑤' passes through the heart. d 亚 through the plating tank 1. In Figure 2 (a), it shows the cross section of the device viewed from the direction of the long film / ^ ^ ^ sheet 5. Figure 2 (Heart A The enlarged cross-sectional view of _P is shown in the figure. As shown in Figure 2 (b), the sample is placed on line 4-/ σ to move in the direction of succession to form a concave son. Ρ 1 7 '猎 由 该 槽 部 17, Xishitian ^ forms a loading part for loading the long side 5 of the bottom sheet 5 200530436. The opening of the groove part 丨 7 is large. In addition, the cross-sectional shape of the groove part 17 must be longer than the thickness of the sheet material. The shape is not different from the side 17 on which the long sheet 5 is loaded, and the linearization limit is shown in FIG. 3 (a). Furthermore, 'the groove side A is not formed, and the long sheet 5 can also be used. The lower side is a large flat portion 18 to form a cutting portion. Τ In this embodiment, for example, for long sheets, 'other metal wires, such as 5 and 5' can be used. Cu wire can also be used. Use Fe Maizhao Tubu to explain the interior of the electricity in more detail, and set up a support frame structure with a cross-section in the shape of a power box. In the type of electric ore trough 1, the supply line 4 and the long sheet 5, rain, and support frame 6 also form a box (sl 〇〇fi, the wall part forming the longitudinal groove inner branch Γ In other words, using a double groove structure, that is, within the shovel groove 1 Η. 卩 forming the support frame 6 (Bottom surface), a piece of material ❹7 * the horizontal plane of the support frame 6 is set at an interval of ~ μ, and the method of aligning with line 4 is along the line 4 so that the two pairs of guides # 7 'are used as position limiting members,俾 Prevent the long sheet 5 in the vertical posture of line 4 from falling down. Therefore, it should be arranged at a shorter interval along the longer path with the length of the longer sheet 5. ",,, -half of the length of the sheet 5 It is arranged at intervals. As shown in 4 ° r (b), the lower end of the shaft of the guide rod 7 is fixed to the support frame 6 through wheels 8 through bearings. A slide 9 is fixed to the lower portion of the guide rod 7 so that it faces upward. Of the line position. Along with the movement of the wire 4, it is rotationally driven by a pair of pulley sub-guides 7. By rotating the guide rod 7, the contact friction between the conveyed sheet 5 and the guide rod 7 can be relaxed. In this embodiment, 200530436 is taken as an example-the outer shaft guide 7 and the pulley 外 are made of titanium. In addition, the guide shaft 7 »1 can be used to form the guide shaft 7a and the pulley 9-body. As shown in Fig. 2 (a), 'is arranged at a predetermined interval with the long sheet 5 to be conveyed-the anode 10, the anode 10, and the solution are placed in a metal case of the electric clock liquid to place electroplated metal The person will not dissolve the supporting metal piece 11, the metal # 19 β τ% pole 10, and the transparent metal belongs to the cup 12 and the L-shaped member 13 around the inner wall of the frame 6. In addition, the support is shown in Fig. 1. For easy observation, only the anode 10 showing the dry face, the supporting metal piece u, only the early side buckle 12 and the L-shaped member are shown in Fig. 1, and the anode 1 0 series even. On the other hand, the direct current switch 14 is connected to the positive side of the direct current power source 14. The direct-electromechanical, the negative side of the original 14, although the power supply mechanism and the last 4 taxis γ ±, open from the well-known line 4 to form an electrical connection. Therefore, a negative voltage is applied to the "long sheet 5 '" passing through the wire 4. On the wire 4, the long liquid supply pipe 15 along the wire 4 is placed above the long sheet 5 in its direction. Babi plating is used under this officer, and will be used to spray the plating solution nozzle of the plating solution, and to set the direction of H h (8)), and the long side 疋 3 卩 along the line 4 is not placed. Place the other bottom, or the nozzle] ... 16 is installed on the tube 15 16 The gate r and the bird 16 are integrated under the tube 15. The interval 啧 J b is preferably set, and the length of θ and the angle is short . For ..., at least the longer sheet 5 along the line 4 holds the frame m empty and is used to supply _night to the electric ore trough], and from the heartwood: and the electric money liquid is stirred to obtain a uniform sentence Electric forging. The electric mineral liquid is sprayed from the top to the bottom of sheet 5. It can prevent the long stop and / or the lower side from being tightly pressed against the line 4. Furthermore, it also has the function of preventing the "fall". That is, when the long When the sheet 5 is in a generally vertical 200530436 posture, the long sheet 5 is located approximately at the center of the electroplating jet, and is approximately 1,000 mm in the direction of the jet, so it can be approximately equal. Pressure is applied to the two sides of the long sheet 5 from the jet of electricity. However, when the long sheet 5 is slightly inclined in the jet, the jet will change. As a result, the direction of the tilt can be corrected. It is applied to the long sheet 5. By this, the long sheet 5 can be prevented from tilting, and the plating solution inside the support frame 6 can be supplied from the groove ", :: of the support frame 6 to flow out. ☆ The produced electric mineral liquid is recovered in a management tank (not shown), and borrowed :: 2 to the electric clock liquid supply pipe 15. As described above, by circulating the electroplating solution, the long sheet 5 and the anode 10 are continuously maintained in the electric ore solution, and the direct current is repeatedly applied to the anode 10 in the shape of the evil ... a-between the long sheets 5 The electroplating solution is deposited on the surface of the long sheet 5 to perform the electric power generation. The electroplating metal is supplied to the case of the anode 10 because it will be reduced as it dissolves in the electric mineral liquid. Entering the electric mine trough! The previous position will be kept: inserted between the guide bars 7 from above to be loaded on the line 4 =: the piece can be manually operated on the work 'although the transfer device is used to advance to the second;:,:, :: using well-known Each of the W sheets 5 is taken out. / The electroplating tank 1 has been subjected to electro-mineral treatment. It is used to apply multiple steps. 'If before and after the plating step, a plurality of tanks are inserted into the Γ tank, The above-mentioned line can also be transported to the net, and the post-processing steps: There are ^ such as the 'electric ore's pre-processing steps are chemical grinding, washing and plating (such as A tooth washing, drying. There are also a number of money slots to carry out (Information layer nickel, plating, ultra-thin gold plating) In a plurality of electric 200530436 In Figure 4 ', a schematic diagram of the structure of a clock automation 2Q p Μ 纟 not including the electroplating device of this embodiment. In the "set, processing # = wrong" divided into three slots by the partitions 22a, 22b, that is, the pre-processing tank ~, the second ore tank m, and the post-processing tank 21c. The long sheet 5 is loaded on the line 4: it is conveyed in the direction of arrow 23 within 2 ° of the trough. In the pre-treatment tank 21a, electroplating pre-treatments such as chemical polishing and cleaning of 槽 5 are performed. The plating tank porosity is a plurality of tanks (not shown).
之順序電鏟。在後處理槽2lc進行中和、洗淨、乾燥。U r之送出’係藉由具有以馬達驅動之線轴26之線送 4 以一定速度或間歇進行。將長片材5裝載於綠 上之作業,係藉由設置於處理槽2〇前之裝载裝置 =進仃。裝載裝置24,將長片材以夹持裝置(未圖示)逐— 夹持而裝載於線4之槽部17(參照圖2(b))。 — 從處理槽20送出之長月材5τ| ^ 卸下作業’係藉由卸載 衣置25自動進行。卸載裝置25,將已完成處理 戰 5以夾持裝置(未圖示)丨片丨片夹持而從線4上拿‘,材 納於既定場所。線4之捲取作業,係藉由具有馬I收 2 28之線捲取裝置29進行。又,在圖4,為要使圖: 間化,對處理槽20内之導桿等之詳細構成省略圖示。 在本實施形態,固設於一對導桿7之下部且以夾 4之方式支持的滑輪9(參照圖2(b)),較佳者為以 性之樹脂形成,藉此能對線4持續施加彈壓。 一 5早 4疋亦可錄 用彈壓機構,其使用彈簧等朝使一對導桿7及滑輪9 隔縮短之方向施加彈壓。 之間 11 200530436 又,將線4捲取於線軸時,為了要使線4之定速行走 合易控制’亦可另外設置使用夾送輥之線驅動機構。即, 在通過電錢槽後之位置,設置夾住線定速旋轉之夾送轉, 線軸僅以不使線產生鬆他程度之比較小扭矩捲取線。另b 之實施形態,係替代將線捲取於線軸,亦可形成無端题路, 使線通過電鍍槽之外部從電鍍槽之出口回至入口。The order of the shovel. The post-treatment tank 2lc was neutralized, washed, and dried. The feeding of U r is performed at a certain speed or intermittently by a wire feeding 4 having a spool 26 driven by a motor. The operation of loading the long sheet 5 on the green is performed by a loading device set in front of the processing tank 20 = feed. The loading device 24 holds the long sheet one by one by a clamping device (not shown) and loads the long sheet into the groove portion 17 of the wire 4 (see FIG. 2 (b)). — The long moon material 5τ | ^ unloading operation 'sent from the processing tank 20 is automatically performed by unloading the clothes set 25. The unloading device 25 grips the completed process 5 with a gripping device (not shown), and holds the piece ′ from the line 4 to store the material at a predetermined place. The winding operation of the line 4 is performed by a line winding device 29 having a horse winding system 28. In addition, in FIG. 4, the detailed configuration of the guide rods and the like in the processing tank 20 is not shown in order to simplify the drawing. In this embodiment, the pulley 9 (refer to FIG. 2 (b)), which is fixed to the lower part of the pair of guide rods 7 and supported by the clip 4, is preferably formed of a resin, so that the wire 4 can be aligned. Continue to apply spring pressure. It is also possible to record a spring pressing mechanism at 5 am and 4 pm, which uses a spring or the like to apply spring pressure in a direction that shortens the pair of guide bars 7 and pulleys 9. Between 11 200530436 In addition, when winding the wire 4 on the spool, in order to make the wire 4 travel at a constant speed, it is easy to control it ', and a wire driving mechanism using a pinch roller can also be provided. That is, at the position after passing through the electric money slot, a clamp feed rotation is provided to clamp the wire at a constant speed, and the spool is only wound up with a relatively small torque that does not cause the wire to loosen. In the other embodiment, instead of winding the wire on the bobbin, an endless problem can be formed, so that the wire passes through the outside of the plating tank from the outlet of the plating tank to the entrance.
又’在上述實施形態’雖表示使用金屬製線材作為線 之例’但不一定係金屬t。只要具有適當之導電性之線, 則能透過此線對長片材加負電壓。在本發明,所謂線,係 指廣泛之線材全面而言。再者,$ 了要減低電鍍金屬之損 失’使線之更換等之維護需求最少,較佳者為使用不容易 施以電鍍之材質之線。又,若使用在Cu線施加鍍Ni電鍍 的線’則能防止Cu材料溶出至電鍍液,以減少保養作業: 再者,如圖2(c),或圖3(b)所示,亦能採用僅露出線 4之乜β 1 7或平坦部} 8,將該部以外之區域以耐埶性絕 緣構件19被覆。藉此,能抑制析出於線4之不必;之電 鑛析出’能防止電鑛液之浪費’並且能減少保養作業。耐 熱性絕緣構件19,係以具備耐熱性之聚氯乙烯為較佳。 又’若要將金屬製之線材當線4使用時,亦能在裝載 裝置24及卸載u 25,設置具備突條之塵延輥(未圖示), 用以形成槽部17且能邊形成槽部17邊進行電鍍處理。 又’在本實施形態所搬送之長片材5,並不限於如在 習知技術所說明的連結複數個導線架之蝕刻加工導線架。 將沖壓加工之環形連接(h〇〇p)材切開成長片片大電鑛時,亦 12 200530436 能適用本發明之搬 姑夕1、、, 方法,又,對導線架以外之各種長片 材之搬达,亦能適用本發明。 谷種長片 本毛明,適用於用以將長片材全 裝置及搬送方&,例^處序之 為有用。 子長片开y狀之1C導線架之製造極 【圖式簡單說明】 片材電鍍裝置之 圖1係表不本發明之實施形態之長 概略構成的立體圖。"The above embodiment" shows an example of using a metal wire as a wire ", but it is not necessarily the metal t. As long as it has a proper conductive wire, a negative voltage can be applied to the long sheet through this wire. In the present invention, the term "wire" refers to a wide range of wires. Furthermore, to reduce the loss of the electroplated metal to minimize the maintenance requirements of wire replacement, etc., it is better to use a wire that is not easy to apply electroplating. In addition, if a wire "Ni plating" is used on the Cu wire, the Cu material can be prevented from being eluted into the plating solution to reduce maintenance work. Furthermore, as shown in Fig. 2 (c) or Fig. 3 (b), The 乜 β 1 7 or the flat portion} 8 where only the wire 4 is exposed is used, and the area other than this portion is covered with the 埶 -resistant insulating member 19. Thereby, it is possible to suppress the unnecessary precipitation out of the line 4; the precipitation of the electric ore can prevent the waste of the electric ore liquid, and the maintenance work can be reduced. The heat-resistant insulating member 19 is preferably a polyvinyl chloride having heat resistance. Also, if the metal wire is to be used as the wire 4, a dust extension roller (not shown) with a protrusion can also be provided on the loading device 24 and the unloading u 25 to form the groove 17 and be formed at the same time. The groove portion 17 is plated. In addition, the long sheet 5 conveyed in this embodiment is not limited to an etching-processed lead frame that connects a plurality of lead frames as described in the conventional art. When cutting a stamped annular connection (hoop) material into a large piece of electricity, 12 200530436 can be applied to the method of the present invention, and for various long sheets other than the lead frame The present invention can also be applied to the present invention. Grain long film This Maoming is suitable for the entire device and transporter & Manufacture of 1C lead frame in the shape of a sub-length piece [Simplified description of the drawing] Fig. 1 is a perspective view showing a schematic structure of the embodiment of the present invention.
圖2⑷係從圖k電艘裝置之長片材搬送方向觀察的 要^截©® ’(b)係圖2(3)之A部放大截面圖,⑷係表示 將圖2⑻所示之線以耐熱性絕緣構件被覆之例的截面圖。 圖3(a)係表示圖2(b)之線之形狀之另一例的截面圖, (b)ir'表不將圖3(a)所示之線以耐熱性絕緣構件被覆之例 的截面圖。 圖4 ’係表示本發明之實施形態之電鍍自動化裝置之 概略構成的示意圖。 圖5 ’係表示習知之長片材電鍍裝置之概略構成的示 意圖。 【元件代表符號】 1 電鍍槽 2、3 槽 4、4a 線 5 長片材 6 支持框 13 200530436Fig. 2 is a cross-sectional view taken from the long sheet conveying direction of the electric ship device of Fig. K. © ® '(b) is an enlarged cross-sectional view of part A of Fig. 2 (3). A cross-sectional view of an example of a coating of a heat-resistant insulating member. Fig. 3 (a) is a cross-sectional view showing another example of the shape of the line of Fig. 2 (b). (B) ir 'represents a cross-section of an example in which the line shown in Fig. 3 (a) is covered with a heat-resistant insulating member. Illustration. Fig. 4 'is a schematic diagram showing a schematic configuration of a plating automation apparatus according to an embodiment of the present invention. Fig. 5 'is a schematic diagram showing a schematic configuration of a conventional long sheet plating apparatus. [Representative symbols of components] 1 plating tank 2, 3 tank 4, 4a line 5 long sheet 6 support frame 13 200530436
7 導桿 7a 軸 8 軸承 9 滑輪 10 陽極 11 支持金屬件 12 金屬桿 13 L字形構件 14 直流電源 15 電鍍液供應管 16 電鍍液喷嘴 17 槽部 18 平坦部 19 耐熱性絕緣材料 20 處理槽 21a 前處理槽 21b 電鍍槽 21c 後處理槽 22a、 22b 隔板 23 箭頭 24 裝載裝置 25 卸載裝置 26 線軸 27 線送出裝置 14 200530436 28 線軸 29 線捲取裝置 201 導線架 202 電鍍完成品 203 裝載機 204 卸載機 205 處理槽 206 管理槽7 Guide rod 7a Shaft 8 Bearing 9 Pulley 10 Anode 11 Supporting metal parts 12 Metal rod 13 L-shaped member 14 DC power supply 15 Plating solution supply tube 16 Plating solution nozzle 17 Slot portion 18 Flat portion 19 Heat-resistant insulating material 20 Treatment tank 21a front Processing tank 21b Electroplating tank 21c Post-processing tanks 22a, 22b Partition 23 Arrow 24 Loading device 25 Unloading device 26 Spool 27 Spool delivery device 14 200530436 28 Spool 29 Spool winding device 201 Lead frame 202 Finished plating products 203 Loader 204 Unloader 205 Processing tank 206 Management tank
207 後捲線筒 208 可變制動器 209 全體制動器 210 加壓輥 211 搬送主軸 212 加壓輥 213 捲線機 214 通電兼搬送用線 215 位置修正裝置 216 泵 217 整流器 15207 Rear spool 208 Variable brake 209 Overall brake 210 Pressure roller 211 Transport spindle 212 Pressure roller 213 Winding machine 214 Power-on and transfer line 215 Position correction device 216 Pump 217 Rectifier 15