201115601 六、發明說明: 【發明所屬之技術領域】 本發明係關於電容器製造設備領域,尤指一種用於輔 助如·電解電容器進行充電,或其電容素子進行化成或充 電等作業’且具有可重複多次使用功用的電容器生產輔助 治具。 【先前技術】 習知固態電解電容器之製造流程,其主要係分別釘接 籲有導針的陽極猪及陰極箱結合電解紙一齊捲繞製成電容素 子,其次,如第十二圖所示,將複數個電容素子(5)依序將 其一長導針(50)(連接陽極箔者)焊接於一金屬材質的導電 片(51)上,再令該些電容素子(5)浸置於化成液槽(8)之化成 液中,導電片(51)連接電源之正極,化成液連接電源之負 極,進行電容素子(5)充電化成步驟,之後,再繼續進行後 續之藥液含浸、聚合、熟成等步驟,待完成後取出,再切 籲斷電容素子(5)焊接導電片(51)的長導針(50)末端,之後, 再將電容素子(5)安裝於鋁殼或塑膠殼中封裝。 月_j述已剪斷導針之導電片,必須磨掉殘留導針並整平 才能再次使用,實務上約可使用3至5次,最後都因變型 嚴重而丟棄,且不論每次之焊接、剪斷、再加工(研磨、 整平),或最後丟棄,均不免費工、費時或浪費材料等情 事’不符合環保要求。 【發明内容】 201115601 本發明之主要目的在於提供一種電容器生產輔助治 具,希藉此設計,解決現行電容器之電容素子進行化成作 業之前,將複數個電容素子之一導針焊接於導電板再浸液 通電之浪費材料及作業不便等問題。 為達成前揭目的,本發明所設計電容器生產輔助治具 係包括: 一治具本體’係包括一承載體以及一第一導電端子, 該第一導電端子設於該承載體上; _ —第一導針夾持組件,係包含複數第一導電夾片部, 每一第一導電夾片部各具有一夾持端,該複數第一導電夾 片部係間隔排列地裝設於該承載體上,並連接第一導電端 子;以及 —第一導針夾持組件,係包含複數第二導電夾片部, 每一第二導電夾片部各具有一夾持端,且該複數第二導電 夾片部係間隔排列地裝設於該承載體上,且每一第二導電 Φ 夾片部分別與相對應的第—導電夾片部相鄰而不接觸的併 列,以構成導電夾片對,用以分別爽持電容器之電容素子 之二導針。 本發明藉由前述電容器生產辅助治具設計,其可達成 之功效是: 本發明應用於電容器生產製造領域時,對於電容素子 的次液充電化成步驟,或電容器半成品的充電步驟等,本 發明所設計之治具可提供複數個電容素子之導針插設其上 又位,進行電容素子浸置化成液中充電之化成步驟,再接 、汽進行後續的藥液填注、聚合、熟成、充電等步驟,待前 201115601 述製程步驟完成後取下,或是該治具也可提供封裝後的電 谷盗半成品之導針插設其冲進行充電步驟等,並於該些電 合素子或電容器半成品完成前述製程步驟後,自治具上取 下,重新換裝其他待處理的電容素子或電容器半成品之導 針插設其上再使用,故本發明之治具能重複多次使用,既 不產生廢棄物浪費材料,符合環保要求,並可免除導針焊 接於導電片上以及切斷導針之步驟,有助提昇製程步驟執 行的便利性及效率。 【實施方式】 如第一至二圖所示,係揭示本發明電容器生產輔助治 具之一較佳實施例,由圖中可以見及,該電容器生產輔助 治具係包括一治具本體(1)、一第一導針夾持組件(2)以及 一第二導針夾持組件,其中: 該治具本體(1)主要係包括一承載體(1〇)以及一第一導 電端子(11),或進一步包括一第二導電端子(12),所述第 一導電端子(11)及第二導電端子(12)設於該承載體(10)之同 一端或不同的兩端,該承載體(1〇)可為絕緣材料所製成的 構件或可為金屬材料所製成的構件。 該第一導針夾持組件(2)包含·複數第一導電夾片部 (2〇) ’該複數第一導電夾片部(20)係間隔排列,每一第一 導電夾片部(20)各具有一夾持端(202),該第一導針夾持組 件(2)係組設於該治具本體(1)的承載體(1〇)上,並連接第一 導電端子(11),於本較佳實施例中,每一第一導電失片部 (20)具有一銜接端(2〇1),且分別以其銜接端(2〇1)共同連 接一第一延伸部(21),並以第一延伸部(21)連接該第一導 201115601 電端子(11),該第一導針失持組件(2)之複數第一導電夾片 部(20)與第一延-伸部(21)可為一體成形的構件,或可為分 離的構件之組合體。 該第二導針夾持組件(3)包含複數第二導電夾片部 (30),該複數第二導電夹片部(3〇)係間隔排列,每一第二 導電夾片部(30)各具有一爽持端(3〇2),該第二導針夾持組 件(3)係組設於該治具本體(1)的承載體(1〇)上且每一第二 導電夾片部(30)分別與相對應的第一導電夹片部(2〇)相鄰 而不接觸的併列,以構成導電夾片對(A),用以分別夾持電 容素子(5)之二導針(50),於本較佳實施例中,每一第二導 電夾片部(30)各具有一銜接端(3〇1),且分別以其銜接端 (301)共同連接一第二延伸部(31),並以該第二延伸部(^ ) 連接該治具本體(1)的第二導電端子(12),該第二導針夾持 且件(3)之複數第二導電夾片部(3〇)與第二延伸部ο〗)可為 一體成形的構件,或可為分離的構件之組合體。 刖述中,當承載體(1 〇)為絕緣材料所製成時,所述第 導針夾持組件(2)及第二導針夾持組件(3)可直接使用螺 絲組設於承載體(1〇)上,當承載體(1〇)為具有導電性材料 所製成時,所述第一導針夹持組件(2)及第二導針夾持組件 (3)則結合絕緣.構件(如橡膠、陶究等)配合螺絲而絕緣組設 於承載體(1 0)上。 再者,前述第一導針失持組件(2)之第一導電夹片部 (2〇)與第二導針夾持組件(3)相對應之第二導電夹片部(30) 成對排列所構成之該導電夾片對(A),可沿著承載體(1 〇)之 長邊方向(縱向)接續排列,或者,每一導電夾片對(A)可以 201115601 垂直於承載體(10)長邊方向(橫向)設置,並沿承載體長邊 方向.(縱向)間隔排列》 如第一至三圖所示之較佳實施例,前述之承載體(1 〇) 可包含一基板(101)及二端座(102),該基板(101)具有—矩 形定位板部(1 03)以及一成形於該定位板部(1 〇3) —側長邊 的邊板部(104) ’該邊板部(1〇4)對應於每一對導電夾片對 (A)處分別形成一貫穿的導針穿孔(1〇5),每一第一導電夹 片部(20)之夾持端以及第二導電夾片部(3〇)之夹持端接近 春相對應的導針穿孔(105);所述第一導電夹片部(2〇)之失持 端以及第二導電夾片部(3〇)之失持端鄰近導針穿孔(1〇5)之 末端可形成朝外傾斜的斜面,用以導引電容素子(5)之導針 (50)穿入而被夾持。 如第一至三圖所示之較佳實施例,該承載體(1〇)之基 板(1 〇 1)選用金屬材料所製成的構件,該第一導針夾持組件 (2)以及第二導針夾持組件(3)各進一步包括複數個夾片襯 板(4),所述失片襯板(4)可為具有導電性材料所製成,各 ® 夾片襯板(4)與相對應的第一導電夾片部(2〇)、第二導電夹 片部(30)併合且結合螺接元件(如螺絲與螺帽的組合)組設 於承載體(10)的基板_(101)側面,各夾片襯板(4)與相鄰之基 板乂 101)間設有絕緣構件(1 〇7)(如橡膠墊圈或陶瓷墊圈等), 前述夹片襯板(4)具有一板體(4〇)以及成形於該板體(4〇)兩 側邊的側板部(41 ),第一導電夾片部(2〇)、第二導電夾片 部(30)可分別設置於失片襯板(4)之二側板部(41)之間。 本發明藉由前揭電容器生產辅助治具設計,當其應用 於電容器製程中,該治具可適用於電容素子(5)的浸液化成 201115601 步驟’或是電容素子(5)封裝於塑膠殼内之電容器半成品(6) 充電步驟等’其中’如第四、五、七圖所示,應用於電容 素子(5)進行浸液化成步驟,係於釘接有導針(5〇)的陽極箔 及陰極箔結合電解紙~齊捲繞製成電容素子(5)後,或是進 一步於該二導針(50)上套設橡膠墊塊(7),再將前述電容素 子(5)之二導針(50)分別穿過承載體(1〇)的導針穿孔(1〇5), 並分別為一對導電夾片對(A)中相對應之第一導電夾片部 (20)、第二導電夾片部(3〇)配合承載體(1〇)或夾片襯板 予以夹持固定;之後,將該治具移置化成液槽(8)上,使治 具所夾持之複數個電容素子(5)浸置於化成液中,並令治具 本體(1)的第一導電端子(11)連接電源正極( + ),進行電容素 子(5)的化成步驟,待電容素子(5)完成化成後,將治具移 離化成液槽(8),再接續進行後續的烘乾、藥液填注、聚 5、熟成、充電等步驟,待前述製程步驟完成後,該些電 谷素子(5)自治具上將取下,即可重新將其他待處理的電容 素子(5)播設其上再使用。 若該治具應用於封裝後的電容器半成品_進行充電步驟 時,如第六圖所示,係將封裝電容器半成品(6)之二聲針 (60)分別穿過承載體(10)的導針穿孔(1〇5),並分別為一對 導電夾片對(A)中相對應之第一導電夹片部(2〇)、第二導電 夾片部(30)配合承載體(1 〇)或失片襯板(4)予以夾持固定, 其次,令治具之承載體(10)上的第—導電端子(11)及第二 導電端子(彳2)分別連接電源的正極(+ )及負極(_),即可對該 治具上的電容器半成品(6)進行充電步驟。 此外,為便於電容素子(5)之二細長導針(5〇)順利插入 201115601 承载體(10)之導針穿孔(105),分別為一對導電夾片對(A) 中相對應之苐一導電夾片部(20)、第二導電夾片部(3〇)配 合承載體(10)或夾片襯板(4)予以夹持固定,如第三、五圖 所示’本發明除令第一導電夾片部(2〇) '第二導電夹片部 (30)夾持端形成朝外傾斜的斜面(23)(33),用以導引導針 (50)滑入外’如第八至十圖所示’本發明尚可進一步令每 一第一導電夾片部(2〇)、第二導電夾片部(3〇)侧邊分別朝 第一導電夾片部(20)、第二導電夾片部(3〇)間之間隙處各 • 凸伸一推抵部(22)(32),承載體(1〇)之基板(1〇1)上相對於 每一推抵部(22)(32)處設有一貫孔(1〇6),藉以提供使用者 以手工具或自動化機具之推桿(9)自基板(101)—側穿過貫 孔(106>推頂推抵部(22)(32),將第一導電夾片部(2〇)、第 二導電夾片部(30)之夾持端朝外推移,而與承載體(彳〇)或 夾片襯板(4)間形成間隙,以利電容素子(5)的導針(5〇)穿入 其中,之後’令推桿(9)退離承載體(1〇)之基板(101),使第 '一導電夾片部(20)、第二導電夾片部(30)之.央持端復位而 ® 分別夾持電容素子(5)的導針(50)。 如第十一圖所示,本發明令每一第一導電夾片部 -(20)、第二導電夾片部(3〇)側邊分別朝第一導電夹片部 (20)、第二導電夾片部(3〇;):間之間隙處所凸伸之推抵部 -(22)(32) ’也可提供作業人員以手工具或自動化機具之桿 件(9a)以撬頂推抵部(22)(32),使第一導電夾片部(20)、第 二導電夾片部(30)之夾持端朝外移動,而與承載體(1〇)或 夾片襯板(4)間形成間隙’以利電容素子的導針(5〇)穿入 其中,之後,令桿件(9a)移離承載體(1〇),使第一導電夾 201115601 片部(20)、第二導電央片部(3〇)之夹持端復位而分別央持 電容素子(5)的導針_等,也能達到辅助治具 導 針(5〇)的效果。 、处守等 經由以上說明可知,本發明於電容器的生產製造領 域,對於電容素子的浸液充電化成步冑,或電容器半成品 的充電步驟等’確可提供一項可重複多次使用的治具,Ζ 可有效減少材料不必要的浪f,且可有助於製 利性,提升製程效率。 的便 【圖式簡單說明】 乂第-圖係本發明電容器生產辅助治具之—較佳實施例 之刚視平面示意圖。 第二圖係第—圖所示電容器生產辅助治具較佳實施例 之後視平面示意圖。 第三圖係第一圖所示電容器生產辅助治具較佳實施例 之局。卩分解立體示意圖。 ^四圖係第一圖所示電容器生·產輔助治具較佳實施例 =供電容素子之㈣及電容^導針插設於其 意圖。 、 T叫, ^五㈣第—顧示電容器生產輔助治具較佳實施例 榣供電容素子之導:針插設於其上之平面示意圖。 提供= 所示電容器生產辅助治具較佳實施例 令素子之導針插設於其上進行充電作業之平面示意 圖。 :七圖係第—圖所示電容器生產輔助治具較佳實施例 k供電容素子之導針插設於其上,並令電容素子浸置於化 201115601 成液中之平面示意圖。 A 、第八圖係本發明電容器生產辅助治具於第一導電爽片 部以及第二導電爽片部側邊凸伸推抵部之另一較佳實施例 之平面示意圖。 —第九圖係η所示電容器生產辅助治具於推桿推抵 第-導電失片部以及第二導電失片部側邊凸伸推抵部之俯 視剖面示意圖。 」十圖係η所示電容器生產輔助治具於推桿推抵 導電夾片部以及第二導電夾片部側邊凸伸推抵部之側 面剖面示意圖。 第十一圖係第八圖所示電容器生產輔助治具以桿件頂 撬第一導電夹片部以及第二導電夾片部㈣凸伸推抵部之 側視平面示意圖。 、第十二圖係習知電容素子以其一導針焊接於導電片, 進行浸液化成步驟之平面示意圖。 【主要元件符號說明】 (1) 治具本體 (101)基板 、 (1 03)定位板部 (105)導針穿孔 (107)絕緣構件 (11)第一導電端子 (2) 第一導針夾持組件 (201)銜揍端 (21)第一延伸部 (1〇)承載體, (102)端座 (104)邊板部 (106)貫孔 〆 (12)第二導電端子 (20)第一導電夾片部 (202)失持端 (22)推抵部 11 201115601201115601 VI. Description of the Invention: [Technical Field] The present invention relates to the field of capacitor manufacturing equipment, and more particularly to an operation for assisting in the charging of an electrolytic capacitor, or the formation or charging of a capacitor element thereof, and having repeatability A multi-purpose capacitor is used to produce auxiliary fixtures. [Prior Art] The manufacturing process of the conventional solid electrolytic capacitor is mainly to form a capacitor element by winding the anode pig and the cathode box respectively combined with the guide pin and the electrolytic paper, and secondly, as shown in the twelfth figure, A plurality of capacitor elements (5) are sequentially soldered to a long conductive pin (50) (connected to the anode foil) to a conductive piece (51) of a metal material, and the capacitor elements (5) are immersed. In the chemical conversion liquid (8), the conductive sheet (51) is connected to the positive electrode of the power source, the chemical solution is connected to the negative electrode of the power source, and the capacitor element (5) is charged and formed into a liquid, and then the subsequent chemical liquid impregnation and polymerization are continued. After the completion, take out, and then cut off the capacitor element (5) to solder the end of the long conductive pin (50) of the conductive sheet (51), and then install the capacitor element (5) in the aluminum shell or plastic. Encapsulated in the shell. _j describes the conductive piece that has cut the guide pin. The residual guide pin must be ground and leveled before it can be used again. It can be used about 3 to 5 times in practice. Finally, it is discarded due to severe deformation, and it is welded every time. , cutting, reworking (grinding, leveling), or finally discarding, are not free work, time-consuming or waste materials, etc. 'does not meet environmental requirements. SUMMARY OF THE INVENTION 201115601 The main object of the present invention is to provide a capacitor production auxiliary fixture, which is designed to solve the current capacitor's capacitance element forming operation, and solder a plurality of capacitor elements to the conductive plate and then dip. The problem of wasted materials and inconvenient work in the liquid power supply. In order to achieve the foregoing, the capacitor manufacturing auxiliary fixture of the present invention comprises: a fixture body comprising a carrier and a first conductive terminal, the first conductive terminal being disposed on the carrier; _ - A lead pin clamping assembly includes a plurality of first conductive clip portions, each of the first conductive clip portions has a clamping end, and the plurality of first conductive clip portions are spaced apart from each other on the carrier And connecting the first conductive terminal; and the first guide pin clamping assembly comprises a plurality of second conductive clip portions, each of the second conductive clip portions each having a clamping end, and the plurality of second conductive portions The clip portions are arranged on the carrier body at intervals, and each of the second conductive Φ clip portions are adjacent to the corresponding first conductive clip portions and are not in contact with each other to form a pair of conductive clips. The two guide pins for respectively holding the capacitor of the capacitor. The invention adopts the foregoing capacitor production auxiliary fixture design, and the achievable effect thereof is: when the invention is applied to the field of capacitor manufacturing, the sub-liquid charging forming step of the capacitor element, or the charging step of the capacitor semi-finished product, etc., the invention The fixture can be designed to provide a plurality of capacitors into which the pins of the capacitors are inserted, and the steps of charging the capacitors into the liquid are carried out, and then the subsequent filling, polymerization, ripening, and charging of the liquid are performed. Waiting for steps, before the completion of the process steps in 201115601, or the fixture can also provide the packaged pin of the semi-finished product of the packaged electric thief, and the charging step, etc., and the capacitors or capacitors After the semi-finished product completes the foregoing process steps, the autonomous device is removed, and the other needles of the capacitor element or the capacitor semi-finished product to be processed are reinserted and inserted thereon, so that the jig of the present invention can be repeatedly used multiple times without generating Waste waste materials, meet environmental requirements, and can eliminate the steps of soldering the lead pins to the conductive sheets and cutting the guide pins, which helps to improve the process steps. Convenience and efficiency of execution. [Embodiment] As shown in the first to second drawings, a preferred embodiment of the capacitor production auxiliary fixture of the present invention is disclosed. As can be seen from the figure, the capacitor production auxiliary fixture includes a fixture body (1). a first guide pin clamping assembly (2) and a second guide pin clamping assembly, wherein: the jig body (1) mainly comprises a carrier (1) and a first conductive terminal (11) And further comprising a second conductive terminal (12), wherein the first conductive terminal (11) and the second conductive terminal (12) are disposed at the same end or different ends of the carrier (10), the bearing The body (1〇) may be a member made of an insulating material or a member made of a metal material. The first guide pin clamping assembly (2) includes a plurality of first conductive clip portions (2). The plurality of first conductive clip portions (20) are spaced apart, and each of the first conductive clip portions (20) Each having a clamping end (202), the first needle clamping assembly (2) is assembled on the carrier (1) of the fixture body (1) and connected to the first conductive terminal (11) In the preferred embodiment, each of the first conductive pieces (20) has a connecting end (2〇1), and a first extending portion is commonly connected by the connecting end (2〇1) thereof ( 21), and the first extension 201115601 electrical terminal (11) is connected by a first extension portion (21), the first conductive clip portion (20) of the first guide pin drop assembly (2) and the first extension The extension (21) may be an integrally formed member or may be a combination of separate members. The second guide pin clamping assembly (3) includes a plurality of second conductive clip portions (30), and the plurality of second conductive clip portions (3) are spaced apart, and each of the second conductive clip portions (30) Each has a holding end (3〇2), and the second guiding pin clamping assembly (3) is assembled on the carrier (1〇) of the jig body (1) and each second conductive clip The portions (30) are juxtaposed adjacent to the corresponding first conductive clip portions (2〇) without contact, to form a pair of conductive clips (A) for respectively holding the two guides of the capacitor element (5) The needle (50), in the preferred embodiment, each of the second conductive clip portions (30) has a connecting end (3〇1), and a second extension is commonly connected by the connecting end (301) thereof. a portion (31), and connecting the second conductive terminal (12) of the fixture body (1) with the second extension portion (^), the second guide pin clamping and the plurality of second conductive clips of the member (3) The sheet portion (3 inch) and the second extension portion ο) may be integrally formed members or may be a combination of separate members. In the description, when the carrier (1 〇) is made of an insulating material, the first needle clamping assembly (2) and the second needle clamping assembly (3) can be directly assembled to the carrier using screws. (1〇), when the carrier (1〇) is made of a conductive material, the first needle clamping assembly (2) and the second needle clamping assembly (3) are combined with insulation. The components (such as rubber, ceramics, etc.) are insulated and assembled on the carrier (10) with screws. Furthermore, the first conductive clip portion (2) of the first lead pin drop assembly (2) is paired with the second conductive clip portion (30) corresponding to the second guide pin clamping assembly (3). The conductive clip pairs (A) formed by the arrays may be successively arranged along the longitudinal direction (longitudinal direction) of the carrier (1 〇), or each conductive clip pair (A) may be perpendicular to the carrier at 201115601 ( 10) Long-side direction (lateral) and arranged along the longitudinal direction of the carrier. (Longitudinal) spacing. As in the preferred embodiment shown in the first to third figures, the carrier (1 〇) may include a substrate. (101) and a two-terminal base (102), the substrate (101) has a rectangular positioning plate portion (103) and a side plate portion (104) formed on the side of the positioning plate portion (1?3) 'The side plate portion (1〇4) corresponding to each pair of conductive clip pairs (A) respectively form a through-hole pin perforation (1〇5), each of the first conductive clip portions (20) clip The holding end and the clamping end of the second conductive clip portion (3〇) are close to the corresponding guide pin perforation (105) of the spring; the lost end of the first conductive clip portion (2〇) and the second conductive clip Loss portion (3〇) holding a terminal end of the guide pin adjacent the perforations (1〇5) of the outwardly inclined ramp may be formed, for guiding the sub-capacitor element (5) of the guide pin (50) is clamped penetration. In a preferred embodiment as shown in the first to third figures, the substrate (1 〇 1) of the carrier (1 〇) is made of a member made of a metal material, the first guide pin clamping assembly (2) and the The two needle clamping assemblies (3) each further comprise a plurality of clip liners (4), the lost liners (4) being made of a conductive material, each of the clip liners (4) Formed on the substrate of the carrier (10) in combination with the corresponding first conductive clip portion (2〇) and the second conductive clip portion (30) and combined with a screwing member (such as a combination of a screw and a nut) (101) a side surface, an insulating member (1 〇 7) (such as a rubber gasket or a ceramic gasket) is disposed between each of the clip linings (4) and the adjacent substrate 乂 101), and the clip lining (4) has a plate body (4〇) and a side plate portion (41) formed on both sides of the plate body (4〇), the first conductive clip portion (2〇) and the second conductive clip portion (30) are respectively set Between the two side plate portions (41) of the lost piece liner (4). The invention adopts the design of the auxiliary fixture for the front capacitor, and when it is applied to the capacitor process, the fixture can be applied to the immersion of the capacitor element (5) into the 201115601 step 'or the capacitor element (5) is packaged in the plastic shell. The capacitor semi-finished product (6) charging step, etc. 'where' as shown in the fourth, fifth, and seventh figures, applied to the capacitor element (5) for the immersion liquefaction step, which is attached to the anode with the pin (5 〇) After the foil and the cathode foil are combined with the electrolytic paper to be wound into the capacitor element (5), or further, the rubber spacer (7) is sleeved on the two guide pins (50), and the capacitor element (5) is further The two guide pins (50) respectively pass through the guide pin perforations (1〇5) of the carrier (1〇), and are respectively corresponding to the first conductive clip portions (20) of the pair of conductive clip pairs (A) The second conductive clip portion (3〇) is clamped and fixed with the carrier (1〇) or the clip liner; after that, the fixture is displaced into a liquid tank (8) to be clamped by the fixture The plurality of capacitor elements (5) are immersed in the chemical conversion liquid, and the first conductive terminal (11) of the fixture body (1) is connected to the positive electrode of the power supply (+) , the formation step of the capacitor element (5), after the completion of the formation of the capacitor element (5), the fixture is removed into a liquid tank (8), followed by subsequent drying, liquid filling, poly 5, ripening After charging, the electric gluten (5) autonomous device will be removed, and other capacitors (5) to be processed can be re-used and reused. If the jig is applied to the packaged capacitor semi-finished product _ during the charging step, as shown in the sixth figure, the two needles (60) of the packaged capacitor semi-finished product (6) are respectively passed through the guide pin of the carrier (10). Perforation (1〇5), and respectively corresponding to the first conductive clip portion (2〇) of the pair of conductive clip pairs (A), and the second conductive clip portion (30) with the carrier (1 〇) Or the missing piece liner (4) is clamped and fixed, and secondly, the first conductive terminal (11) and the second conductive terminal (彳2) on the carrier (10) of the jig are respectively connected to the positive electrode (+) of the power source. And the negative electrode (_), the capacitor semi-finished product (6) on the fixture can be charged. In addition, in order to facilitate the smooth insertion of the elongated pin (5〇) of the capacitor element (5) into the pin hole perforation (105) of the 201115601 carrier (10), respectively, the corresponding pair of conductive clip pairs (A) A conductive clip portion (20) and a second conductive clip portion (3〇) are clamped and fixed together with the carrier body (10) or the clip liner (4), as shown in the third and fifth figures. The first conductive clip portion (2〇) 'the second conductive clip portion (30) clamping end forms an outwardly inclined slope (23) (33) for guiding the guiding needle (50) to slide into the outer side According to the eighth to tenth embodiments, the first conductive clip portion (2〇) and the second conductive clip portion (3〇) are respectively sideways toward the first conductive clip portion (20). And a gap between the second conductive clip portions (3〇), a protruding portion (22) (32), and a substrate (1〇1) of the carrier (1〇1) opposite to each of the pushing portions (22) There is a consistent hole (1〇6) at (32) to provide the user with a hand tool or an automatic tool pusher (9) from the substrate (101) - side through the through hole (106 > push push Abutting portion (22) (32), the first conductive clip portion 2〇), the clamping end of the second conductive clip portion (30) is outwardly displaced, and a gap is formed between the carrier (彳〇) or the clip liner (4) to facilitate the conduction of the capacitor element (5) The needle (5〇) is inserted therein, and then the pusher (9) is retracted from the substrate (101) of the carrier (1), so that the first conductive clip portion (20) and the second conductive clip portion ( 30) The central end resets and the pin (50) of the capacitor element (5) is respectively clamped. As shown in the eleventh figure, the present invention makes each of the first conductive clip portions - (20), The side of the two conductive clip portions (3 〇) respectively protrude toward the first conductive clip portion (20) and the second conductive clip portion (3 〇;): a pushing portion-(22) (32) 'It is also possible for the operator to push the abutting portion (22) (32) with the hand tool or the lever of the automatic tool (9a) so that the first conductive clip portion (20) and the second conductive clip portion ( 30) The clamping end moves outward, and a gap is formed between the carrier (1〇) or the clip liner (4) to facilitate the penetration of the pin (5〇) of the capacitor element, and then the rod (9a) Remove the carrier (1〇) and make the first conductive clip 201115601 20), the second conductive film portion (3 〇) of the clamping end is reset and the holding pin _ of the capacitor element (5), etc., can also achieve the effect of the auxiliary jig guide pin (5 〇). According to the above description, the present invention can provide a reusable jig for the production of capacitors, charging the immersion liquid of the capacitor element into a step, or charging the capacitor semi-finished product. It can effectively reduce unnecessary waves of materials, and can help to improve profitability and improve process efficiency. [Simplified description of the drawings] 乂第图图 is a capacitor manufacturing auxiliary fixture of the present invention - a preferred embodiment Just look at the plane diagram. The second figure is a schematic view of a preferred embodiment of the capacitor production auxiliary fixture shown in Fig. 1. The third figure is the preferred embodiment of the capacitor production auxiliary fixture shown in the first figure.卩 Decompose the stereoscopic diagram. ^ Four figures are the first embodiment of the capacitor production and production aids preferred embodiment = the capacitor element (4) and the capacitor ^ pin inserted in its intention. , T call, ^ five (four) - the preferred embodiment of the capacitor production auxiliary fixture 榣 supply of capacitance element guide: a schematic diagram of the needle inserted on it. Provided is a schematic diagram of a capacitor manufacturing auxiliary fixture shown in Fig. 1 in which a guide pin of a prime is inserted thereon for charging operation. Fig. 7 is a diagram showing the preferred embodiment of the capacitor production auxiliary fixture. The reference pin for the capacitor element is inserted thereon, and the capacitor element is immersed in the plane of the 201115601 liquid. A and FIG. 8 are plan views showing another preferred embodiment of the capacitor production auxiliary fixture of the present invention in the first conductive sheet portion and the second conductive sheet portion side protrusion pushing portion. The ninth diagram is a schematic cross-sectional view of the capacitor production auxiliary fixture shown by η pushing the push rod against the first conductive peeling portion and the second conductive missing portion. Fig. 10 is a side cross-sectional view showing the capacitor production auxiliary fixture shown by the push rod pushing against the conductive clip portion and the side of the second conductive clip portion. The eleventh figure is a side plan view showing the capacitor production auxiliary fixture shown in the eighth figure, the first conductive clip portion of the rod top and the protruding portion of the second conductive clip portion (four). The twelfth figure is a schematic plan view of a conventional immersion liquid forming step in which a capacitor element is soldered to a conductive sheet with a lead pin. [Description of main component symbols] (1) Fixture body (101) substrate, (1 03) Positioning plate part (105) Guide pin perforation (107) Insulating member (11) First conductive terminal (2) First guide pin clamp Holding component (201) carrying end (21) first extending portion (1〇) carrier, (102) end seat (104) side plate portion (106) through hole 〆 (12) second conductive terminal (20) A conductive clip portion (202) is lost to the end (22) and pushes against the portion 11 201115601
• · _ . (23)斜面 (3)第二導針夾持組件 (30)第二導電夾片部 (301)銜接端 (302)夾持端 (31)第二延伸部 (32)推抵部 (33)斜面 (4)夾片襯板 (40)板體 • (41)側板部 (A)導電夾片對 (5)電容素子 (50)導針 (51)導電片 (6)電容器半成品 (60)導針 (7) 橡膠墊塊 (8) 化成液槽 (9) 推桿 12• · _ . (23) bevel (3) second guide pin clamping assembly (30) second conductive clip portion (301) engagement end (302) clamping end (31) second extension (32) push Part (33) bevel (4) clip liner (40) plate body • (41) side plate part (A) conductive clip pair (5) capacitor element (50) guide pin (51) conductive piece (6) capacitor semi-finished product (60) guide pin (7) rubber block (8) into liquid tank (9) push rod 12