200929287 九、發明說明: 【發明所屬之技術領域】 本發明係有關於電子零件及其製造方法,且尤其有關 於一可作爲此電子零件之範例的電解電容器及及其製造方 法,此電解電容器係由複數片電極箔所構成之類型,而此 諸電極箔則係連同複數片被插置在此諸電極箔間之絕緣紙 一起被捲起,且此諸電極箔具有分別被固定於其上之複數 條引線之平板部,其中保護紙被分別黏附至諸絕緣紙上, © 而此諸絕緣紙則係與諸引線之平板部的兩側面接觸,以便 可增加諸電極箔間之電絕緣性能,及其中諸保護紙被黏附 成使此諸保護紙將不會顯著地增加被捲起之電容器的厚度 • (直徑),且不會增加被捲起之電容器的等效串聯電阻 . (ESR),而就在諸絕緣紙上黏附有保護紙的部分被捲起 之前,即先沿著大致與輸送諸絕緣紙與諸電極箔以便被捲 起之方向成垂直之方向將諸保護紙供應至諸絕緣紙處。因 此,具有一比諸引線之平板部的寬度略寬之預定寬度(在 ® 捲起方向上之長度)的諸保護紙被分別黏附至諸絕緣紙 上,以便保護諸引線之平板部的兩側面。 【先前技術】 槪括而言,作爲此電子零件之一範例的電解電容器係 由一包括複數片電極箔之元件所構成,亦即例如二片電極 . 箔將連同兩片被插置在此諸電極箔間之絕緣紙一起被捲 起。此元件另係由複數片分別被黏附至諸絕緣紙上之保護 紙所構成,而此諸絕緣片則係與則係與正與負引線之平板 200929287 部的至少一側面相接觸,以便增加諸電極箔間之電絕緣性 會h 。 一般而言’電解電容器具有小ESR (等效串聯電阻) 之電氣性質是必要的,而此ESR起因於驅動電解液。爲了 減低電阻’有必要的是,此諸絕緣紙適於保有足量之驅動 電解液’同時’在諸紙不會發生短路的範圍內,諸絕緣紙 儘可能最薄’且密度儘可能最低。在這方面,目前可購得 具有實際上絕佳性質之非常薄絕緣紙。 © 另外’必須注意的是,形成絕緣紙之纖維的形狀與分 佈與電解液之經過距離與經過速度有關,會影響串聯電阻。 另外,必須注意的是,爲了增加被附著在與諸絕緣紙 - 一起被起之諸電極箔上之正與負引線之諸平板部間之電絕 _ 緣,諸保護紙在捲起方向上必須具有可任意選定之厚度及 長度(諸保護紙之寬度),而此諸保護紙則被分別黏附至 與諸引線之平板部的至少一側面相接觸之諸絕緣紙上,以 便充分保護諸引線並減小此電容器之ESR。 ® 然而,被黏附至諸絕緣紙上之習用保護紙在捲起方向 上相當長(亦即保護紙之寬度),且在相對於諸絕緣紙與 諸電極箔之捲起輸送極早階段被供應至諸絕緣紙處。 例如,第2 7圖顯示經捲起之電解電容器元件2,其作 爲電子零件之一範例。在此範例中,可藉由一穿刺裝置及 . 其他類似裝置而將正及負引線3 (正引線3P、負引線3M) 之諸凸部3a的平板部3b固定於其上之正與負電極箔4(正 箱4P、負箱4M)係藉由一捲起裝置(未不於圖)而被以 200929287 供 寬 之 域 平 加 性 準 紙 護 3b 直 大 增 是 上 紙 絕 逆時針方向連同插置在諸電極箔之間的諸保護紙5 (5A 5B)被捲起,同時相對於絕緣紙之捲起輸送在較早階段 應,該保護紙大約是諸引線3之凸部3a之平板部3b的 度之10-1 1倍長,以便可黏附在絕緣紙5A與正引線3P 一側面及負引線3 Μ之一側面相接觸且延伸於其間之區 上。 然而,如此長之保護紙6僅被用來保護兩引線3之 板部3b的一側面。此外,缺點在於:此長保護紙6會增 ❹ 此電解電容器元件2之厚度(直徑),並同時增加電氣 質,尤其是電解電容器1之ESR。 另外,爲了保護諸引線之平板部的兩側面,有必要 - 備在輸送方向上係平板部3b寬度的大約26倍長之保護 6A及在輸送方向上係平板部3b寬度的大約10倍長之保 紙6B。亦即,將被捲起之諸保護紙6的總長係諸平板部 寬度的大約36倍長。因此,電解電容器元件2之厚度( 徑)將被增加。結果產生列缺點,即電解電容器1將變 ® 變重,且電器性質(特別是ESR)在簡單之計算下將被 加爲第27圖所示之習知者的大約3.6倍之多,且這還僅 各引線3之各平板部3b的一側面而已。 根據先前技藝,不可避免的是諸保護紙在捲起方向 係如此之長,此乃因爲此諸保護紙係在諸絕緣紙被保護 所黏附之部分被捲起前之提早很久的時機下被供應至諸 緣紙處。 與本發明相關之文件並未在此顯示,此乃因爲(諸) 200929287 發明人及/或(諸)申請人尋獲不到此類文件。 【發明內容】 〔本發明將解決之問題〕 本發明被提供以消除先前技藝之缺失及不利。 因此’本發明之一目的在於提供一種包括元件12之電 子零件’而此元件係由複數片電極箔所構成,此諸電極箔 係連同複數片被插置在此諸電極箔間之絕緣紙一起被捲 起’而此諸電極箔則具有複數條分別被固定於其上之引 〇 線,此諸引線係由多個分別具有預定寬度之平板部所構 成,而此元件另配備有複數片將分別被黏附至諸絕緣紙上 之保護紙,此諸絕緣紙則係與諸引線之平板部的至少一側 、 面相接觸,以便可增加該等電極箔間之電絕緣性能,而該 電子零件包括至少二(2)片具有一預定狹窄寬度之保護 紙,而此預定狹窄寬度係略寬於諸引線之平板部的寬度, 諸保護紙中之每一片均被黏附至分別與諸引線之平板部相 接觸之諸絕緣紙中之每一片上,以便可保護諸引線之平板 ® 部的一側面。亦即,本發明之目的在於提供一重量輕且尺 寸小之電子零件,其在可達到相同電絕緣性能效果的前提 下,相較於習知保護紙用量大約減少了 75%之保護紙用 量,同時此電子零件之ESR亦被顯著地減低。 本發明之另一目的在於提供一種電子零件,其包括至 _ 少四(4)片具有一預定狹窄寬度之保護紙,而此預定狹窄 寬度略寬於諸引線之平板部的寬度,諸保護紙中之二(2) 片被黏附至與諸引線之平板部相接觸之諸絕緣紙中之每一 200929287 片上,以便可保護諸引線之平板部的一側面及相對側面。 亦即,本發明之目的在於提供一重量輕且尺寸小之電子零 件,其具有比習知者增加大約兩倍之多的電絕緣性能,其 中僅諸引線凸部之平板部的一側面被保護,且具有比習知 者減少大約20%之保護紙用量。另外,電子零件之功效則 係在於ESR方面相較於習知者已被顯著地降低,其中電絕 緣僅被製備於諸引線凸部之平板部的一側面處。順便一提 的,爲保護諸引線凸部之平板部的兩側面所使用之保護紙 Ο 量相較於習知所使用者係減少大約88%。 本發明之另一目的在於提供一種電子零件,其包括至 少一片具有一預定狹窄寬度之保護紙,而此預定狹窄寬度 - 係略寬於諸引線之平板部的寬度,並被黏附至與諸引線之 平板部中之一者相接觸之諸絕緣紙中之一片上,以致使此 保護紙可保護諸引線之平板部的一側面,該電子零件另外 包括另一片具有一寬闊寬度之保護紙,而此另一片保護紙 在其被延伸於兩區域之間時將被黏附至諸絕緣紙中之一片 ® 上,而此兩區域係此絕緣紙分別與諸引線的平板部相接觸 之處,以便可保護一引線之平板部的相對側面與另一引線 之平板部的一側面。亦即,本發明之目的在於提供一種電 子零件,其使得諸引線中之一者獲得一爲習知者大約兩倍 - 之多的電絕緣性能,而諸引線中之另一者則與習知者相 . 同。在此情形下,雖然保護紙用量相較於習知者增加大約 2 0%,但卻可製造出中間等級之電子零件。 本發明之另一目的在於提供一種電子零件’其包括至 -10- 200929287 少二(2)片具有一略寬於諸引線的平板部寬度之寬度的保 護紙,而此諸保護紙被黏附至與諸引線之平板部相接觸之 諸絕緣紙上,以致使此諸保護紙可分別保護諸引線之平板 部的一側面,該電子零件另外包括另一片具有一寬闊寬度 之保護紙,而此另一片保護紙在其被延伸於兩區域之間時 將被黏附至諸絕緣紙中之一片上,而此兩區域係此絕緣紙 分別與諸引線的平板部相接觸之處,以便可保護一引線之 平板部的相對側面與另一引線之平板部的一側面。亦即, 〇 本發明之目的在於提供一種重量輕且尺寸小之電子零件, 其中正與負引線均具有一爲習知者大約兩倍之多的電絕緣 性能,而保護紙用量則被減少6 1 %。 - 本發明之另一目的在於提供一種電子零件,其配備複 數片具有黏著劑的保護紙,而此黏著劑則被部分地塗敷至 此保護紙之塗敷側上,以便可藉由減少黏著劑之量而減小 此電子零件之重量,又同時可保有足夠之黏著性並可降低 ESR。 ^ 本發明之另一目的在於提供一種電子零件,其配備複 數片具有黏著劑的保護紙,此黏著劑則被部分地塗敷至此 保護紙之塗敷側上,而塗敷之形式則呈:此黏著劑平直地 朝輸送諸保護紙之方向及在中心處朝諸保護紙之寬度方向 ' 連續地延伸的形式;由複數個延伸在輸送諸保護紙之方向 上的斷續斜線所構成之梯級的形式;由複數個延伸在輸送 諸保護紙之方向上的斷續垂直線所構成之梯級的形式;在 寬度方向上彼此相隔開並在輸送諸保護紙之方向上延伸之 -11- 200929287 兩條直線的形式:由延伸在輸送諸保護紙 條斷續斜線所構成之格子的形式;或延伸 之方向上之複數個散點的形式。亦即’本 提供一種藉減少黏著劑而使重量減輕之電 可保有足夠之黏著性並可降低電子零件之 本發明之再一目的在於提供一種用於 方法,其藉由將複數片電極箔連同複數 起,此諸絕緣紙被插置在諸電極箔之間’ ❹ 有一引線,其係由一具有一預定寬度之平 被固定至諸電極箔中之每一片上,而此諸 線之平板部的至少一側面相接觸,並具有 • 其上之保護紙,以便可增加諸電極箔間之 . 方法包括下列步驟:在大致與輸送諸絕緣 方向相垂直之方向上,就在此諸絕緣紙上 部分被捲起之前,即先分別地供給複數片 寬度之保護紙至諸絕緣紙處,而此預定狹 w 此引線之平板部的寬度,因此可將至少二 寬度之保護紙黏附至諸絕緣紙上,其中之 附至諸絕緣紙中之一片上,且另一片保護 緣紙中之另一片上,而此諸絕緣紙則與此 • 一側面相接觸。亦即,本發明之一目的在 . 有效製造一種重量輕且尺寸小之電子零件 保護紙被精確地配置於其內,同時可保有 能並可降低E S R。 之方向上之複數 在輸送諸保護紙 發明之目的在於 子零件,又同時 ESR。 製造電子零件之 片絕緣紙一起捲 而各片電極箔具 板部所構成,並 絕緣紙係與此引 複數片被黏附於 電絕緣性能,該 紙以便被捲起之 黏附有保護紙的 具有一預定狹窄 窄寬度係略寬於 (2)片具有狹窄 一片保護紙係黏 紙係黏附至諸絕 引線之平板部的 於提供一種用於 的方法,其中諸 絕佳之電絕緣性 -12- 200929287 〔用於解決問題之手段〕 扼要言之,本發明(申請專利範圍第1項)係有關於 一種電子零件,其包括一由複數片電極箔所構成之元件, 而此諸電極箔則係連同複數片被插置在此諸電極箔間之絕 緣紙一起被捲起,且此諸電極箔具有複數條分別被固定於 其上之引線,而此諸引線係由多個分別具有一預定寬度之 平板部所構成,該元件另配備有複數片將分別被黏附至諸 絕緣紙上之保護紙,而此諸絕緣紙則係與諸引線3之平板 〇 部的至少一側面相接觸,以便可增加諸電極箔間之電絕緣 性能,該電子零件包括至少二(2)片具有一預定狹窄寬度 之保護紙,而此預定狹窄寬度係略寬於諸引線之平板部的 - 寬度,此諸保護紙中之每一片均被黏附至分別與諸引線之 . 平板部相接觸之諸絕緣紙中之每一片上’以便可保護諸引 線之平板部的一側面。 另外,本發明(申請專利範圍第2項)係有關於一種 電子零件,其包括一由複數片電極箔所構成之元件,而此 ^ 諸電極箔則係連同複數片被插置在諸電極箔間之絕緣紙一 起被捲起,且此諸電極箔具有複數條分別被固定於其上之 引線,而此諸引線係由多個分別具有一預定寬度之平板部 所構成,該元件另配備有複數片將分別被黏附至諸絕緣紙 ' 上之保護紙,而此諸絕緣紙則係與諸引線3之平板部的至 • 少一側面相接觸,以便可增加諸電極箔間之電絕緣性能’ 該電子零件包括至少四(4)片具有一預定狹窄寬度之保護 紙,而此預定狹窄寬度係略寬於諸引線之平板部的寬度’ -1 3 - 200929287 二(2)片該等保護紙被黏附至與諸引線之平板部相接觸之 諸絕緣紙中之每一片上,俾可保護諸引線之平板部的一側 面及相對側面。 另外,本發明(申請專利範圍第3項)係有關於一種 電子零件,其包括一由複數片電極箔所構成之元件,而此 諸電極箔則係連同複數片被插置在此諸電極箔間之絕緣紙 一起被捲起,且此諸電極箔具有複數條分別被固定於其上 之引線’而此諸引線係由多個分別具有一預定寬度之平板 〇 部所構成,該元件另配備有複數片將分別被黏附至諸絕緣 紙上之保護紙,而此諸絕緣紙則係與諸引線之平板部的至 少一側面相接觸,俾可增加諸電極箔間之電絕緣性能,該 - 電子零件包括至少一片具有一寬度之保護紙,該寬度係略 . 寬於諸引線之平板部的寬度,而此保護紙被黏附至與諸引 線之平板部相接觸之諸絕緣紙中之一片上,俾可保護諸引 線之平板部的一側面,該電子零件又包括另一片具有寬闊 寬度之保護紙,而此另一片保護紙被黏附至諸絕緣紙中之 ® 一片上’俾延伸於隔離紙分別與諸引線之平板部相接觸的 兩區域間,並因而分別可保護一引線之平板部的相對側面 及另一引線之平板部的一側面。 另外,本發明(申請專利範圍第4項)係有關於一種 - 電子零件,其包括一由複數片電極箔所構成之元件,而此 . 諸電極箔則係連同複數片被插置在此諸電極箔間之絕緣紙 一起被捲起,且此諸電極箔具有複數條分別被固定於其上 之引線,而此諸引線係由多個分別具有一預定寬度之平板 -14- 200929287 部所構成,該元件另配備有複數片分別被黏附至諸絕緣紙 上之保護紙,而此諸絕緣紙則係與諸引線之平板部的至少 一面側相接觸,以便可增加諸電極箔間之電絕緣性能’該 電子零件包括至少二(2)片具有一寬度之保護紙’該寬度 係略寬於諸引線之平板部的寬度,而此諸保護紙分別被黏 附至與諸引線之平板部相接觸之諸絕緣紙上,俾可保護諸 引線之平板部的一側面,該電子零件又包括另一片具有寬 闊寬度之保護紙,而此另一片保護紙被黏附至諸絕緣紙中 φ 之一片上,俾延伸於隔離紙分別與諸引線之平板部相接觸 的兩個區域間,並因而分別可保護一引線之平板部3 b的相 對側面及另一引線之平板部的一側面。 . 另外,本發明(申請專利範圍第5項)之特徵在於諸 保護紙具有被整個表面地或部分地塗敷於其黏附側上之黏 著劑。 另外,本發明(申請專利範圍第6項)之特徵在於諸 保護紙具有被部分地塗敷於其黏附側上之黏著劑,而塗敷 ® 之形狀呈:此黏著劑平直地朝輸送諸保護紙之方向及在中 心處朝諸保護紙之寬度方向連續地延伸的形狀;由複數個 延伸在輸送諸保護紙之方向上的斷續斜線所構成之梯級的 形狀;由複數個延伸在輸送諸保護紙之方向上的斷續垂直 - 線所構成之梯形;在寬度方向上彼此相隔開並在輸送諸保 . 護紙之方向上延伸之兩條直線的形狀;由延伸在輸送諸保 護紙之方向上之複數條斷續斜線所構成之格子狀;或延伸 在輸送諸保護紙之方向上之複數個散點狀。 -15- 200929287 另外,本發明(申請專利範圍第7項)係有關於一種 用於製造電子零件之方法,其藉由將複數片電極箔連同複 數片絕緣紙一起捲起,此諸絕緣紙被插置在諸電極箔間, 而各片電極箔具有一引線,其係由一具有一預定寬度之平 板部所構成,並被固定至諸電極箔中之每一片上,而此諸 絕緣紙係與引線之平板部的至少一側面相接觸,並具有複 數片被黏附於其上之保護紙,以便可增加諸電極箔間之電 絕緣性能,該方法包括下列步驟:在大致與輸送諸絕緣紙 β 以便被捲起之方向相垂直之方向上,就在諸絕緣紙上黏附 有保護紙的部分被捲起之前,即先分別地供給複數片具有 一預定狹窄寬度之保護紙至諸絕緣紙處,而此預定狹窄寬 •度係略寬於引線之平板部的寬度,因此可將至少二(2)片 .具有狹窄寬度之保護紙黏附於諸絕緣紙上,其中一片保護 紙係黏附至諸絕緣紙中之一片上,且另一片保護紙係黏附 至諸絕緣紙中之另一片上,而此諸絕緣紙則與引線之平板 部的一側面相接觸。 ¥ 另外,本發明(申請專利範圍第8項)係有關於一種 用於製造電子零件之方法,其藉由將複數片電極箔連同複 數片絕緣紙一起捲起’此諸絕緣紙被插置在諸電極箔間’ 而各片電極箔具有一引線’其係由一具有一預定寬度之平 •板部所構成,並被固定至諸電極箔中之每一片上’而此諸 .絕緣紙係與引線之平板部的至少一側面相接觸’並具有複 數片被黏附於其上之保護紙’俾可增加諸電極箔間之電絕 緣性能,該方法包括下列步驟:在不同之時機下’於大致 -16- 200929287 與輸送諸絕緣紙以便被捲起之方向相垂直之方向上’就在 諸絕緣紙上黏附有保護紙的部分被捲起之前’先分別地供 給複數片具有預定狹窄寬度之保護紙至諸絕緣紙處’而此 預定狹窄寬度則係略寬於引線之平板部的寬度’因此可將 總共四(4 )片具有狹窄寬度之保護紙黏附於諸絕緣紙上, 首先之二片保護紙係黏附至諸絕緣紙中之一片上,且另外 二片保護紙係黏附至諸絕緣紙中之另一片上,而此諸絕緣 紙則與引線之平板部的兩側面相接觸。 Ο 另外,本發明(申請專利範圍第9項)係有關於一種 用於製造電子零件之方法,其藉由將複數片電極箔連同複 數片絕緣紙一起捲起,此諸絕緣紙被插置在諸電極箔間, - 而各片電極箔具有一引線,其係由一具有一預定寬度之平 板部所構成,並被固定至諸電極箔中之每一片上,而此諸 絕緣紙係與引線之平板部的至少一側面相接觸,並具有複 數片被黏附於其上之保護紙,俾可增加諸電極箔間之電絕 緣性能,該方法包括下列步驟:在不同之時機下,於大致 ® 與輸送諸絕緣紙以便被捲起之方向相垂直之方向上,就在 諸絕緣紙上黏附有保護紙的部分被捲起之前,先分別地供 給複數片具有一預定狹窄寬度之保護紙及一片具有寬闊寬 度之保護紙至諸絕緣紙處,而此預定狹窄寬度係略寬於引 - 線之平板部的寬度,此具有寬闊寬度之保護紙則可保護一 . 引線之平板部的相對側面與另一引線之平板部的一側面, 因此可將總共三(3)片具有狹窄寬度之保護紙黏附於諸絕 緣紙上’其中二片具有狹窄寬度之保護紙及一片具有寬闊 -17- 200929287 寬度之保護紙被分別地黏附至諸絕緣紙上,而此諸絕緣紙 則與引線之平板部的兩側面相接觸。 另外,本發明(申請專利範圍第10項)係有關於一種 用於製造電子零件之方法,其藉由將複數片電極箔連同複 數片絕緣紙一起捲起,此諸絕緣紙被插置在諸電極箔之 間,而各片電極箔具有一引線,其係由一具有一預定寬度 之平板部所構成,並被固定至諸電極箔中之每一片上,而 此諸絕緣紙係與引線之平板部的至少一側面相接觸,並具 © 有複數片被黏附於其上之保護紙,俾可增加諸電極箔間之 電絕緣性能,該方法包括下列步驟:在不同之時機下,於 大致與輸送諸絕緣紙以便被捲起之方向相垂直之方向上, • 就在諸絕緣紙上黏附有保護紙的部分被捲起之前,先分別 . 地供給複數片具有一預定狹窄寬度之保護紙及一片具有寬 闊寬度之保護紙至諸絕緣紙處,而此預定狹窄寬度係略寬 於引線之平板部的寬度,此具有寬闊寬度之保護紙可保護 一引線之平板部的相對側面與另一引線之平板部的一側 ® 面,因此可將總共二(2)片具有狹窄寬度之保護紙黏附於 諸絕緣紙上,其中具有狹窄寬度之保護紙被黏附至與引線 之平板部的一側面相接觸之絕緣紙上,而另一具有寬闊寬 度之保護紙則被黏附至與引線之平板部的兩側面相接觸之 - 絕緣紙上。 . 〔本發明之優點〕 根據本發明,可提供一種包括一元件之電子零件,而 此元件係由複數片電極箔所構成,此諸電極箔係連同複數 -18- 200929287 片被插置在此諸電極箔間之絕緣紙一起被捲起,而此諸電 極箔則具有複數條分別被固定於其上之引線,此諸引線係 由多個分別具有一預定寬度之平板部所構成,而此元件另 配備有複數片將分別被黏附至諸絕緣紙上之保護紙,此諸 絕緣紙則係與諸引線3之平板部的至少一側面相接觸’以 便可增加該等電極箔間之電絕緣性能,而該電子零件包括 至少二(2)片具有一預定狹窄寬度之保護紙,而此預定狹 窄寬度係略寬於諸引線之平板部的寬度,此諸保護紙中之 © 每一片均被黏附至分別與諸引線之平板部相接觸之諸絕緣 紙中之每一片上,俾可保護諸引線之平板部的一側面。因 此,一重量輕且尺寸小之電子零件可被有效地獲得,使得 • 在可達到相同電絕緣性能效果的前提下,相較於習知保護 . 紙用量大約減少了大約75%之保護紙用量,同時此電子零 件之ESR亦被顯著地減低。 根據本發明,可提供一種電子零件,其包括至少四(4) 片具有一預定狹窄寬度之保護紙,而此預定狹窄寬度係略 ^ 寬於諸引線之平板部的寬度,諸保護紙中之二(2)片被黏 附至與諸引線之平板部相接觸之諸絕緣紙中之每一片上, 俾可保護諸引線之平板部的一側面及相對側面。因此,經 如此設置之電子零件具有下列功效:此電子零件係重量輕 - 且尺寸小,同時電絕緣性能被增加爲習知者大約兩倍之 . 多,其中僅諸引線凸部之平板部的一側面被保護,且保護 紙用量具有比習知者減少大約20%。另外,電子零件之功 效則係在於ESR方面相較於習知者已被顯著地降低,其中 -19- 200929287 電絕緣僅被製備於諸引線凸部之平板部的一側面處。順便 一提的,爲保護諸引線凸部之平板部的兩側面所使用之保 護紙量相較於習知所使用者係減少大約8 8 %。 根據本發明,可提供一種電子零件,其包括至少一片 具有一預定狹窄寬度之保護紙,而此預定狹窄寬度係略寬 於諸引線之平板部的寬度,並被黏附至與諸引線之平板部 中之一者相接觸之諸絕緣紙中之一片上,以致使此保護紙 可保護諸引線之平板部的一側面,該電子零件又包括另一 © 片具有一寬闊寬度之保護紙,而此另一片保護紙被黏附至 諸絕緣紙中之一片上,俾延伸於絕緣紙分別與諸引線的平 板部相接觸之兩區域之間,因而可保護一引線之平板部的 相對側面與另一引線之平板部的一側面。因此,此電子零 . 件具有下列功效:諸引線中之一者獲得一爲習知者兩倍之 多的電絕緣性能,而諸引線中之另一者則與習知者相同。 在此情形下,雖然保護紙用量相較於習知者增加大約 2 0%,但卻可製造出中間等級之電子零件。 W 根據本發明,可提供一種電子零件,其包括至少二(2) 片具有一略寬於諸引線的平板部寬度之寬度的保護紙,而 此諸保護紙被黏附至與諸引線之平板部相接觸之諸絕緣紙 上,俾此諸保護紙可分別保護諸引線之平板部的一側面, * 該電子零件另外包括另一片具有一寬闊寬度之保護紙,而 . 此另一片保護紙被黏附至諸絕緣紙中之一片上,俾延伸於 絕緣紙分別與諸引線的平板部相接觸之兩區域之間,因 而,可保護一引線之平板部的相對側面與另一引線之平板 -20 - 200929287 部的一側面。因此,經如此設置之電子零件具有下列功效: 此電子零件係重量輕且尺寸小,其中正與負引線均具有一 爲習知者兩倍之多的電絕緣性能’而保護紙用量則減少 6 1%。 根據本發明,可提供一種電子零件,其配備複數片具 有黏著劑的保護紙,而此黏著劑則被部分地塗敷至此保護 紙之塗敷側上。因此,可藉由減少黏著劑之量而減小此電 子零件之重量,同時可保有足夠之黏著性並可降低ESR。 〇 根據本發明,可提供一種電子零件’其配備複數片具 有黏著劑的保護紙,此黏著劑則被部分地塗敷至此保護紙 之塗敷側上,而塗敷之形狀呈:此黏著劑平直地朝輸送諸 - 保護紙之方向及在中心處朝諸保護紙之寬度方向連續地延 伸的形狀;由複數個延伸在輸送諸保護紙之方向上的斷續 斜線所構成之梯級形狀;由複數個延伸在輸送諸保護紙之 方向上的斷續垂直線所構成之梯級形狀:在寬度方向上彼 此相隔開並在輸送諸保護紙之方向上延伸之兩條直線的形 ® 狀;由延伸在輸送諸保護紙之方向上之複數條斷續斜線所 構成之格子狀;或延伸在輸送諸保護紙之方向上之複數個 散點的形狀。因此,經如此設置之電子零件具有下列功效: 藉減少黏著劑而使此電子零件重量減輕’同時可保有足夠 • 之黏著性並可降低電子零件之ESR。 • 根據本發明,可提供一種用於製造電子零件之方法, 其藉由將複數片電極箔連同複數片絕緣紙一起捲起’此諸 絕緣紙被插置在諸電極箔間,而各片電極箔具有一引線, -21 - 200929287 其係由一具有一預定寬度之平板部所構成,並被固定至諸 電極箱中之每一片上,而此諸絕緣紙係與此引線之平板部 的至少一側面相接觸,並具有複數片被黏附於其上之保護 紙,俾可增加諸電極箔間之電絕緣性能,該方法包括下列 步驟:於大致與輸送諸絕緣紙以便被捲起之方向相垂直之 方向上,就在此諸絕緣紙上黏附有保護紙的部分被捲起之 前,先分別地供給複數片具有一預定狹窄寬度之保護紙至 諸絕緣紙處,而此預定狹窄寬度係略寬於此引線之平板部 © 3b的寬度,因此可將至少二(2)片具有狹窄寬度之保護 紙黏附至諸絕緣紙上,其中一片保護紙係黏附至諸絕緣紙 中之一片上,另一片保護紙係黏附至諸絕緣紙中之另一片 • 上,而此諸絕緣紙則與此引線之平板部的一側面相接觸。 . 因此,本方法可有效地製造一種重量輕且尺寸小之電子零 件,其中諸保護紙被精確地配置於其內,又同時可保有絕 佳之電絕緣性能並可降低ESR。 【實施方式】 ^ 將參照如附圖所示之諸實施例而詳細說明本發明。 在第23圖中,元件符號11代表一電解電容器,其係 本發明之電子零件的諸範例中之一者(如申請專利範圍第 1項),且包括一由複數片電極箔4所構成之電容器元件 • 12,而此諸電極箔4則將連同被插置於其間之複數片絕緣 . 紙5 —起被捲起,其中電極箔4包括一正電極箔4P與一負 電極箔4M,而絕緣紙5則包括絕緣紙5A與5B。電容器元 件12另配備若干引線3,其包括一正引線3P與一負引線 -22- 200929287 3M,而此諸引線中之每一者具有一平板部3b,其具有一預 定之寬度並被固定於正電極箔4P與負電極箔4M中之每一 者上。電容器元件12另配備若干保護紙6,其分別被黏附 至諸絕緣紙5上,而此諸絕緣紙5則係與諸引線3之平板 部3 b的至少一側面相接觸,以便可保護此諸引線3並可增 加諸電極箔4P與4M間之電絕緣性能。 此電解電容器11包括複數片保護紙6,其包括至少二 (2)片具有一預定狹窄寬度之保護紙6A及保護紙6B,其中 該預定狹窄寬度則略寬於諸引線3之平板部3b的寬度,而 諸保護紙6中之每一片被黏附於分別地與諸引線3之平板 部3b相接觸的諸絕緣紙5A與5B中之每一片上,以便可 保護諸引線3之平板部3 b的一側面》 更精確而言,根據本發明,具有預定狹窄寬度之諸保 護紙6A與6B係大約兩倍寬於所示諸引線3之平板部3b 的寬度。更具體地如第4圖所示,保護紙6之寬度W (即 在捲起方向上之長度)並不被限制於係諸引線3之平板部 3b之寬度的兩倍。如第4圖之實施例所示,保護紙6之狹 窄寬度W係大約7.5倍寬於諸引線3之平板部3b的寬度。 實際上,相較於保護紙6之習知寬度,以上所評估之寬度 W係極狹窄的。順便一提的,保護紙6欲被切割之長度略 短於第4圖中所示之電極箔4之寬度。 在第23圖中,正引線3P被固定至正電極箔4P,並使 其平板部3b可被固定地附著在此正電極箔4P之外側面 上,而此係藉由一包括一穿刺針(未示於圖)之所謂拉引 -23-200929287 IX. The invention relates to an electronic component and a method of manufacturing the same, and more particularly to an electrolytic capacitor which can be used as an example of the electronic component and a method of manufacturing the same, the electrolytic capacitor system a type consisting of a plurality of electrode foils which are rolled up together with a plurality of sheets of insulating paper interposed between the electrode foils, and the electrode foils are respectively fixed thereto a flat plate portion of a plurality of leads, wherein the protective paper is respectively adhered to the insulating paper, and the insulating paper is in contact with both side faces of the flat portions of the leads so as to increase electrical insulation properties between the electrode foils, and Where the protective paper is adhered such that the protective paper will not significantly increase the thickness (diameter) of the rolled capacitor without increasing the equivalent series resistance (ESR) of the rolled capacitor, and Just before the portion of the insulating paper to which the protective paper is adhered is rolled up, that is, in a direction substantially perpendicular to the direction in which the insulating paper and the electrode foil are conveyed so as to be rolled up. Zhu protective paper is supplied to the insulating paper at all. Therefore, the protective sheets having a predetermined width (the length in the winding direction) which is slightly wider than the width of the flat portions of the leads are respectively adhered to the insulating sheets to protect both side faces of the flat portions of the leads. [Prior Art] In other words, an electrolytic capacitor as an example of such an electronic component is composed of an element including a plurality of electrode foils, that is, for example, two electrodes. The foil will be inserted together with two pieces. The insulating paper between the electrode foils is rolled up together. The component is further composed of a plurality of protective sheets respectively adhered to the insulating paper, and the insulating sheets are in contact with at least one side of the flat plate 200929287 of the positive and negative leads to increase the electrodes. The electrical insulation between the foils will be h. In general, it is necessary that the electrolytic capacitor has an electrical property of a small ESR (equivalent series resistance) which is caused by driving the electrolyte. In order to reduce the resistance, it is necessary that the insulating papers are suitable for retaining a sufficient amount of driving electrolyte ' while the insulating paper is as thinnest as possible in the range where the papers are not short-circuited, and the density is as low as possible. In this respect, very thin insulating papers having practically excellent properties are currently commercially available. © In addition, it must be noted that the shape of the fibers forming the insulating paper and the distance between the distribution and the electrolyte are related to the passing speed, which affects the series resistance. In addition, it must be noted that in order to increase the electrical insulation between the flat portions of the positive and negative leads attached to the electrode foils together with the insulating papers, the protective sheets must be in the winding direction. Having an arbitrarily selected thickness and length (width of the protective paper), the protective papers are respectively adhered to the insulating papers in contact with at least one side of the flat portions of the leads to fully protect the leads and reduce Small ESR of this capacitor. ® However, the conventional protective paper adhered to the insulating paper is relatively long in the winding direction (that is, the width of the protective paper), and is supplied to the very early stage of the winding up with respect to the insulating paper and the electrode foils. Insulation paper. For example, Figure 27 shows a rolled up electrolytic capacitor element 2 as an example of an electronic component. In this example, the positive and negative electrodes on which the flat portions 3b of the convex portions 3a of the positive and negative leads 3 (the positive lead 3P, the negative lead 3M) are fixed can be fixed by a puncture device and the like. The foil 4 (the positive box 4P, the negative box 4M) is used by a roll-up device (not shown) to be widened by the 200929287 wide-area leveling paper protection 3b straight increase is the paper counter-clockwise direction together with The protective sheets 5 (5A 5B) interposed between the electrode foils are rolled up while being conveyed at an earlier stage with respect to the winding of the insulating paper, which is approximately the flat plate of the projections 3a of the leads 3. The portion 3b is 10-1 times long so as to be adhered to the insulating paper 5A in contact with one side of the positive lead 3P and one side of the negative lead 3 且 and extending over the region therebetween. However, such a long protective sheet 6 is only used to protect one side of the plate portion 3b of the two leads 3. Further, there is a disadvantage in that the long protective paper 6 increases the thickness (diameter) of the electrolytic capacitor element 2 while increasing the electrical quality, particularly the ESR of the electrolytic capacitor 1. Further, in order to protect both side faces of the flat plate portions of the lead wires, it is necessary to provide the protection 6A which is about 26 times longer than the width of the flat plate portion 3b in the transport direction and about 10 times longer than the width of the flat plate portion 3b in the transport direction. Paper 6B. That is, the total length of the protective sheets 6 to be rolled up is about 36 times as long as the width of the flat portions. Therefore, the thickness (diameter) of the electrolytic capacitor element 2 will be increased. The result is a column disadvantage, that is, the electrolytic capacitor 1 will become variable, and the electrical properties (especially ESR) will be added to the conventional figure shown in Fig. 27 by about 3.6 times in a simple calculation, and this Only one side of each flat portion 3b of each lead 3 is also included. According to the prior art, it is inevitable that the protective papers are so long in the winding direction because the protective papers are supplied at an early time before the portions where the insulating paper is adhered by the protective paper are rolled up. To the edge of the paper. The documents relating to the present invention are not shown here because the inventor(s) and/or applicant(s) of 2009(s) have not found such documents. SUMMARY OF THE INVENTION [Problems to be Solved by the Invention] The present invention has been made to eliminate the disadvantages and disadvantages of the prior art. Thus, it is an object of the present invention to provide an electronic component comprising an element 12 which is composed of a plurality of electrode foils which together with a plurality of sheets of insulating paper interposed between the electrode foils The electrode foils have a plurality of lead wires respectively fixed thereto, and the leads are composed of a plurality of flat portions each having a predetermined width, and the components are additionally provided with a plurality of sheets The protective paper respectively adhered to the insulating paper, the insulating paper being in contact with at least one side and the surface of the flat portions of the leads, so as to increase the electrical insulation property between the electrode foils, and the electronic parts include at least The two (2) sheets have a predetermined narrow width of protective paper, and the predetermined narrow width is slightly wider than the width of the flat portions of the leads, and each of the protective sheets is adhered to the flat portions of the leads, respectively. Each of the sheets of insulating paper is contacted so as to protect one side of the flat plate portion of the leads. That is, the object of the present invention is to provide an electronic component which is light in weight and small in size, and which can reduce the amount of protective paper by about 75% compared with the conventional protective paper, under the premise of achieving the same electrical insulating performance. At the same time, the ESR of this electronic component has also been significantly reduced. Another object of the present invention is to provide an electronic component comprising: to four (4) sheets of protective paper having a predetermined narrow width, and the predetermined narrow width is slightly wider than the width of the flat portions of the leads, the protective papers The second (2) sheet is adhered to each of the 200929287 sheets of insulating paper in contact with the flat portions of the leads so as to protect one side and the opposite side of the flat portions of the leads. That is, it is an object of the present invention to provide a lightweight and small-sized electronic component having an electrical insulation performance that is about twice as high as that of the prior art, in which only one side of the flat portion of the lead projection is protected And has a protective paper consumption of about 20% less than the conventional one. In addition, the efficacy of the electronic component is significantly lower in ESR than in the prior art, in which the electrical insulation is only prepared at one side of the flat portion of the lead projections. Incidentally, the amount of the protective paper used for protecting the side faces of the flat portions of the lead projections is reduced by about 88% as compared with the conventional user. Another object of the present invention is to provide an electronic component comprising at least one sheet of protective paper having a predetermined narrow width which is slightly wider than the width of the flat portion of the leads and which is adhered to the leads One of the insulating sheets in contact with one of the flat portions so that the protective sheet can protect one side of the flat portion of the lead, the electronic component additionally including another protective sheet having a wide width, and The other piece of protective paper will be adhered to one of the insulating sheets as it is extended between the two regions, and the two regions are in contact with the flat portions of the leads, respectively, so that The opposite side of the flat portion of one lead is protected from one side of the flat portion of the other lead. That is, it is an object of the present invention to provide an electronic component that allows one of the leads to achieve approximately twice as much electrical insulation performance as conventional ones, while the other of the leads is known The same phase. In this case, although the amount of protective paper is increased by about 20% compared with the conventional one, an intermediate grade electronic component can be manufactured. Another object of the present invention is to provide an electronic component which includes a protective paper having a width which is slightly wider than the width of the flat portion of the leads to -10-200929287, and the protective paper is adhered to The insulating paper in contact with the flat portions of the leads such that the protective sheets respectively protect one side of the flat portions of the leads, the electronic components additionally including another protective sheet having a wide width, and the other sheet The protective paper will be adhered to one of the insulating papers when it is extended between the two regions, and the two regions are in contact with the flat portions of the leads, respectively, so as to protect a lead. The opposite side of the flat portion and one side of the flat portion of the other lead. That is, the object of the present invention is to provide an electronic component that is light in weight and small in size, wherein both the positive and negative leads have about twice as much electrical insulation properties as conventional ones, and the amount of protective paper is reduced by six. 1 %. - Another object of the present invention is to provide an electronic component equipped with a plurality of protective sheets having an adhesive, and the adhesive is partially applied to the coated side of the protective paper so as to reduce the adhesive The amount of this electronic part is reduced while maintaining sufficient adhesion and reducing ESR. Another object of the present invention is to provide an electronic component equipped with a plurality of protective sheets having an adhesive which is partially applied to the coated side of the protective paper in the form of: The adhesive is continuously extended in the direction of conveying the protective paper and continuously extending toward the width direction of the protective paper at the center; consisting of a plurality of intermittent oblique lines extending in the direction of conveying the protective paper a form of a step; in the form of a step consisting of a plurality of intermittent vertical lines extending in the direction in which the protective sheets are conveyed; spaced apart from each other in the width direction and extending in the direction in which the protective sheets are conveyed -11-200929287 The form of two straight lines: in the form of a lattice extending from the oblique lines of the protective strips; or in the form of a plurality of scatters in the direction of the extension. That is, the present invention provides a method for reducing the weight of the adhesive by reducing the viscosity of the adhesive and reducing the electronic component. A further object of the present invention is to provide a method for using a plurality of electrode foils together with In plural, the insulating paper is interposed between the electrode foils ❹ a lead which is fixed to each of the electrode foils by a flat having a predetermined width, and the flat portions of the wires At least one side of the surface is in contact with and has a protective paper thereon so as to increase between the electrode foils. The method comprises the steps of: in the direction substantially perpendicular to the direction of the insulating directions, on the portions of the insulating paper Before being rolled up, the protective paper of a plurality of widths is separately supplied to the insulating paper, and the width of the flat portion of the lead is predetermined, so that at least two widths of the protective paper can be adhered to the insulating paper. One of the sheets is attached to one of the sheets of insulating paper, and the other sheet is attached to the other of the sheets of paper, and the sheets of insulating paper are in contact with the one side. That is, it is an object of the present invention to efficiently manufacture a lightweight and small-sized electronic component protective paper to be accurately disposed therein while maintaining energy and reducing E S R . The plural in the direction of the transfer of the protective paper The purpose of the invention is to sub-components, and at the same time ESR. The piece of insulating paper for manufacturing electronic parts is wound together and each piece of electrode foil is formed by a plate portion, and the insulating paper is adhered to the electrical insulating property, and the paper is attached to the protective paper with the protective paper The narrow narrow width is predetermined to be slightly wider than the (2) sheet having a narrow piece of protective paper-based adhesive tape adhered to the flat portions of the lead wires to provide a method for use, wherein the excellent electrical insulation -12-200929287 [Means for Solving the Problem] In summary, the present invention (Application No. 1) relates to an electronic component including an element composed of a plurality of electrode foils, and the electrode foils are A plurality of sheets of insulating paper interposed between the electrode foils are rolled up together, and the electrode foils have a plurality of leads respectively fixed thereto, and the plurality of leads each have a predetermined width The flat plate portion is further provided with a plurality of protective sheets which are respectively adhered to the insulating paper, and the insulating papers are in contact with at least one side of the flat crotch portions of the lead wires 3. In order to increase the electrical insulation properties between the electrode foils, the electronic component comprises at least two (2) sheets of protective paper having a predetermined narrow width, and the predetermined narrow width is slightly wider than the width of the flat portions of the leads, Each of the sheets of protective paper is adhered to each of the insulating sheets that are in contact with the flat portions of the leads so that one side of the flat portion of the leads can be protected. Further, the present invention (the second aspect of the patent application) relates to an electronic component comprising an element composed of a plurality of electrode foils, and the electrode foils are interposed with the plurality of sheets in the electrode foils. The insulating paper is rolled up together, and the electrode foils have a plurality of leads respectively fixed thereto, and the leads are composed of a plurality of flat portions each having a predetermined width, and the components are additionally equipped with The plurality of sheets are respectively adhered to the protective paper on the insulating paper, and the insulating papers are in contact with at least one side of the flat portions of the leads 3 to increase the electrical insulation between the electrode foils. The electronic component includes at least four (4) sheets of protective paper having a predetermined narrow width, and the predetermined narrow width is slightly wider than the width of the flat portions of the leads ' -1 3 - 200929287 two (2) sheets of such protection The paper is adhered to each of the insulating papers in contact with the flat portions of the leads, and one side and the opposite side of the flat portions of the leads are protected. Further, the present invention (claim 3 of the patent application) relates to an electronic component comprising an element composed of a plurality of electrode foils, and the electrode foils are interposed with the plurality of sheets of the electrode foils The insulating paper is rolled up together, and the electrode foils have a plurality of leads respectively fixed thereto, and the leads are composed of a plurality of flat dies each having a predetermined width, and the components are additionally equipped A plurality of sheets are respectively adhered to the protective paper on the insulating paper, and the insulating papers are in contact with at least one side of the flat portions of the leads, which can increase electrical insulation properties between the electrode foils, The part comprises at least one piece of protective paper having a width which is slightly wider than the width of the flat portion of the leads, and the protective paper is adhered to one of the insulating papers in contact with the flat portions of the leads, The 俾 protects one side of the flat portion of the lead, the electronic component further includes another protective paper having a wide width, and the other protective paper is adhered to the one of the insulating papers The 俾 extends between the two regions where the release paper is in contact with the flat portions of the leads, and thus respectively protects the opposite sides of the flat portion of one lead and one side of the flat portion of the other lead. Further, the present invention (claim 4 of the patent application) relates to an electronic component including an element composed of a plurality of electrode foils, and the electrode foils are interposed therein together with a plurality of sheets. The insulating paper between the electrode foils is rolled up together, and the electrode foils have a plurality of leads respectively fixed thereto, and the leads are composed of a plurality of flat plates 14-200929287 each having a predetermined width The component is further provided with a plurality of protective sheets respectively adhered to the insulating paper, and the insulating papers are in contact with at least one side of the flat portions of the leads so as to increase electrical insulation between the electrode foils. 'The electronic component comprises at least two (2) sheets of protective paper having a width which is slightly wider than the width of the flat portions of the leads, and the protective sheets are respectively adhered to the flat portions of the leads On the insulating paper, the crucible can protect one side of the flat portion of the lead wire, and the electronic component further includes another protective paper having a wide width, and the other protective paper is adhered to the insulating paper. On one of the sheets, the crucible extends between the two regions where the release paper is in contact with the flat portions of the leads, and thus respectively protects the opposite sides of the flat portion 3b of one lead and one side of the flat portion of the other lead. Further, the present invention (claim 5 of the patent application) is characterized in that the protective paper has an adhesive which is entirely or partially applied to the adhesive side thereof. Further, the present invention (claim 6 of the patent application) is characterized in that the protective paper has an adhesive partially applied to the adhesive side thereof, and the shape of the coating is such that the adhesive is conveyed straight toward the conveyance The direction of the protective paper and the shape continuously extending toward the width direction of the protective paper at the center; the shape of the step formed by a plurality of intermittent oblique lines extending in the direction in which the protective papers are conveyed; An intermittent vertical line in the direction of the protective paper - a trapezoid formed by the lines; a shape of two straight lines spaced apart from each other in the width direction and extending in the direction of the protective paper; extending from the protective paper a plurality of slanted diagonal lines in the direction of the grid; or a plurality of scatters extending in the direction in which the protective sheets are conveyed. -15- 200929287 In addition, the present invention (claim 7 of the patent application) relates to a method for manufacturing an electronic component by rolling up a plurality of electrode foils together with a plurality of sheets of insulating paper, the insulating paper being Inserted between the electrode foils, and each of the electrode foils has a lead formed by a flat portion having a predetermined width and fixed to each of the electrode foils, and the insulating paper systems Contacting at least one side of the flat portion of the lead and having a protective sheet to which the plurality of sheets are adhered so as to increase electrical insulation between the electrode foils, the method comprising the steps of: substantially conveying the insulating paper β so that the direction in which the direction of being rolled is perpendicular, that is, before the portions of the insulating paper to which the protective paper is adhered are rolled up, respectively, a plurality of sheets of protective paper having a predetermined narrow width are separately supplied to the insulating papers, The predetermined narrow width is slightly wider than the width of the flat portion of the lead, so that at least two (2) sheets of protective paper having a narrow width can be adhered to the insulating paper, one of which is protected. The paper is adhered to one of the insulating sheets, and the other protective paper is adhered to the other of the insulating sheets, and the insulating paper is in contact with one side of the flat portion of the lead. Further, the present invention (article 8 of the patent application) relates to a method for manufacturing an electronic component by winding a plurality of electrode foils together with a plurality of sheets of insulating paper. Each of the electrode foils has a lead wire 'which is composed of a flat plate portion having a predetermined width and is fixed to each of the electrode foils' and the insulating paper system Contacting at least one side of the flat portion of the lead and having a protective sheet of a plurality of sheets adhered thereto can increase electrical insulation properties between the electrode foils, the method comprising the steps of: at a different timing Roughly -16-200929287 in the direction perpendicular to the direction in which the insulating paper is conveyed so as to be rolled up, 'before the portion of the insulating paper to which the protective paper is adhered is rolled up,' respectively, the plurality of sheets are separately supplied with a predetermined narrow width. The paper is placed at the insulating paper' and the predetermined narrow width is slightly wider than the width of the flat portion of the lead. Therefore, a total of four (4) sheets of protective paper having a narrow width can be adhered to the insulating paper. The first two sheets of protective paper are adhered to one of the insulating sheets, and the other two sheets of protective paper are adhered to the other of the insulating sheets, and the insulating sheets are aligned with the two sides of the flat portion of the lead. contact. Further, the present invention (claim No. 9 of the patent application) relates to a method for manufacturing an electronic component by winding a plurality of electrode foils together with a plurality of sheets of insulating paper, the insulating paper being interposed Between the electrode foils, - each of the electrode foils has a lead formed by a flat portion having a predetermined width and fixed to each of the electrode foils, and the insulating paper systems and leads At least one side of the flat portion is in contact with a protective sheet to which a plurality of sheets are adhered, and the electrical insulation property between the electrode foils is increased, the method comprising the following steps: at different timings, at approximately In a direction perpendicular to the direction in which the insulating paper is conveyed so as to be rolled up, the protective sheets having a predetermined narrow width and one of the sheets are separately supplied before the portions of the insulating paper to which the protective paper is adhered are rolled up The wide width of the protective paper is placed on the insulating paper, and the predetermined narrow width is slightly wider than the width of the flat portion of the lead-wire, and the protective paper having a wide width can protect one. The opposite side of the flat portion and one side of the flat portion of the other lead, so that a total of three (3) sheets of protective paper having a narrow width can be adhered to the insulating paper, wherein two sheets of protective paper having a narrow width and one sheet having a width -17- 200929287 The width of the protective paper is separately adhered to the insulating paper, and the insulating paper is in contact with both side faces of the flat portion of the lead. Further, the present invention (Application No. 10) relates to a method for manufacturing an electronic component by winding a plurality of electrode foils together with a plurality of sheets of insulating paper which are interposed in Between the electrode foils, each of the electrode foils has a lead formed by a flat portion having a predetermined width and fixed to each of the electrode foils, and the insulating paper and lead wires are At least one side of the flat portion is in contact with the protective paper having a plurality of sheets adhered thereto, and the electrical insulation property between the electrode foils is increased, the method comprising the following steps: at different timings, at approximately In a direction perpendicular to the direction in which the insulating paper is conveyed so as to be rolled up, • a plurality of protective sheets having a predetermined narrow width are separately supplied before the portions of the insulating paper to which the protective paper is adhered are rolled up a piece of protective paper having a wide width to the insulating paper, and the predetermined narrow width is slightly wider than the width of the flat portion of the lead, and the protective paper having a wide width protects a lead The opposite side of the plate portion and the one side of the flat portion of the other lead, so that a total of two (2) sheets of protective paper having a narrow width can be adhered to the insulating paper, wherein the protective paper having a narrow width is adhered to One side of the flat portion of the lead contacts the insulating paper, and the other protective sheet having a wide width is adhered to the insulating paper which is in contact with both side faces of the flat portion of the lead. [Advantages of the Invention] According to the present invention, an electronic component including a component which is composed of a plurality of electrode foils, which are interposed with a plurality of -18-200929287 sheets, can be provided. The insulating paper between the electrode foils is rolled up together, and the electrode foils have a plurality of leads respectively fixed thereto, the leads being composed of a plurality of flat portions each having a predetermined width, and The component is further provided with a plurality of protective sheets which are respectively adhered to the insulating paper, and the insulating papers are in contact with at least one side of the flat portions of the leads 3 to increase the electrical insulation between the electrode foils. And the electronic component comprises at least two (2) sheets of protective paper having a predetermined narrow width, and the predetermined narrow width is slightly wider than the width of the flat portions of the leads, and each of the protective sheets is adhered To each of the insulating sheets that are in contact with the flat portions of the leads, the crucible protects one side of the flat portion of the leads. Therefore, a light weight and small size electronic component can be effectively obtained, so that the same electrical insulation performance can be achieved, compared with the conventional protection. The paper consumption is reduced by about 75% of the amount of protective paper. At the same time, the ESR of this electronic component was also significantly reduced. According to the present invention, there can be provided an electronic component comprising at least four (4) sheets of protective paper having a predetermined narrow width, and the predetermined narrow width is slightly wider than the width of the flat portions of the leads, in the protective paper Two (2) sheets are adhered to each of the insulating papers in contact with the flat portions of the leads, and one side and the opposite side of the flat portions of the leads are protected. Therefore, the electronic component thus set has the following effects: the electronic component is light in weight - and small in size, and the electrical insulating property is increased to about twice that of the conventional one. Among them, only the flat portions of the lead projections are One side is protected and the amount of protective paper is reduced by about 20% compared to conventional ones. In addition, the effect of the electronic components is that the ESR has been significantly reduced compared to the conventional ones, wherein -19-200929287 electrical insulation is only prepared at one side of the flat portion of the lead projections. Incidentally, the amount of protective paper used to protect both side faces of the flat portion of the lead projections is reduced by about 8 8 % compared to the conventional user. According to the present invention, there can be provided an electronic component comprising at least one sheet of protective paper having a predetermined narrow width which is slightly wider than a width of a flat portion of the lead wires and which is adhered to a flat portion of the lead wires One of the sheets of insulating paper that is in contact with one of the sheets, so that the protective sheet can protect one side of the flat portion of the lead, the electronic part including another protective sheet having a wide width, and this Another piece of protective paper is adhered to one of the insulating papers, and the crucible extends between the two areas where the insulating paper is in contact with the flat portions of the leads, thereby protecting the opposite side of the flat portion of one lead from the other lead One side of the flat portion. Thus, the electronic component has the effect that one of the leads achieves twice as much electrical insulation as the conventional one, while the other of the leads is the same as the conventional one. In this case, although the amount of protective paper is increased by about 20% compared with the conventional one, an intermediate grade electronic component can be manufactured. According to the present invention, there can be provided an electronic component comprising at least two (2) sheets of protective paper having a width slightly wider than a width of a flat portion of the leads, and the protective sheets are adhered to the flat portion of the leads On the insulating papers that are in contact with each other, the protective papers respectively protect one side of the flat portions of the leads, and the electronic component additionally includes another protective sheet having a wide width, and the other protective paper is adhered to On one of the insulating sheets, the crucible extends between the two regions where the insulating paper is in contact with the flat portions of the leads, thereby protecting the opposite side of the flat portion of one lead from the flat of the other lead - 20 - 200929287 One side of the department. Therefore, the electronic component thus set has the following effects: The electronic component is light in weight and small in size, wherein both the positive and negative leads have twice as much electrical insulation as the conventional one, and the amount of protective paper is reduced by 6 1%. According to the present invention, there can be provided an electronic component equipped with a plurality of protective sheets having an adhesive which is partially applied to the coated side of the protective paper. Therefore, the weight of the electronic component can be reduced by reducing the amount of the adhesive while maintaining sufficient adhesion and lowering the ESR. According to the present invention, there can be provided an electronic component which is provided with a plurality of protective sheets having an adhesive which is partially applied to the coated side of the protective paper, and the shape of the coating is: the adhesive a shape that continuously conveys the direction of the protective paper and continuously extends toward the width direction of the protective paper at the center; a step shape formed by a plurality of intermittent oblique lines extending in the direction in which the protective papers are conveyed; a step shape formed by a plurality of intermittent vertical lines extending in the direction in which the protective sheets are conveyed: two straight lines that are spaced apart from each other in the width direction and extend in the direction in which the protective sheets are conveyed; a lattice shape formed by a plurality of intermittent oblique lines extending in the direction in which the protective paper is conveyed; or a shape of a plurality of scatters extending in the direction in which the protective paper is conveyed. Therefore, the electronic component thus set has the following effects: the weight of the electronic component is reduced by reducing the adhesive ‘ while maintaining sufficient adhesion and lowering the ESR of the electronic component. According to the present invention, there can be provided a method for manufacturing an electronic component by winding a plurality of electrode foils together with a plurality of sheets of insulating paper which are interposed between the electrode foils, and each of the electrodes The foil has a lead, -21 - 200929287, which is composed of a flat portion having a predetermined width and is fixed to each of the electrode cases, and the insulating paper is at least with the flat portion of the lead A side surface is in contact with a protective sheet to which a plurality of sheets are adhered, and the electrical insulation property between the electrode foils is increased, the method comprising the steps of: substantially conveying the insulating paper so as to be rolled up In the vertical direction, before the portions of the insulating paper to which the protective paper is adhered are rolled up, a plurality of protective sheets having a predetermined narrow width are separately supplied to the insulating paper, and the predetermined narrow width is slightly wider. The width of the flat portion © 3b of the lead wire, so that at least two (2) sheets of protective paper having a narrow width can be adhered to the insulating paper, wherein one piece of protective paper is adhered to the insulating paper On one of the sheets, another piece of protective paper is adhered to the other of the insulating sheets, and the insulating paper is in contact with one side of the flat portion of the lead. Therefore, the method can effectively manufacture a light-weight and small-sized electronic component in which the protective papers are accurately disposed while maintaining excellent electrical insulation properties and reducing ESR. [Embodiment] The present invention will be described in detail with reference to the embodiments shown in the accompanying drawings. In Fig. 23, the reference numeral 11 denotes an electrolytic capacitor which is one of the examples of the electronic component of the present invention (as in the first aspect of the patent application), and includes a plurality of electrode foils 4 The capacitor element 12, and the electrode foils 4 are insulated together with a plurality of sheets interposed therebetween. The paper 5 is rolled up, wherein the electrode foil 4 comprises a positive electrode foil 4P and a negative electrode foil 4M, and The insulating paper 5 includes insulating papers 5A and 5B. The capacitor element 12 is additionally provided with a plurality of leads 3 including a positive lead 3P and a negative lead -22-200929287 3M, and each of the leads has a flat portion 3b having a predetermined width and being fixed to Each of the positive electrode foil 4P and the negative electrode foil 4M. The capacitor element 12 is additionally provided with a plurality of protective sheets 6 which are respectively adhered to the insulating paper 5, and the insulating papers 5 are in contact with at least one side of the flat portions 3b of the leads 3 so as to protect the The lead 3 can increase the electrical insulation properties between the electrode foils 4P and 4M. The electrolytic capacitor 11 includes a plurality of sheets of protective paper 6 including at least two (2) sheets of protective paper 6A and a protective sheet 6B having a predetermined narrow width, wherein the predetermined narrow width is slightly wider than that of the flat portions 3b of the leads 3. Width, and each of the protective sheets 6 is adhered to each of the insulating papers 5A and 5B which are respectively in contact with the flat portions 3b of the leads 3 so that the flat portions 3b of the leads 3 can be protected. On the one hand, more precisely, according to the present invention, the protective sheets 6A and 6B having a predetermined narrow width are approximately twice as wide as the width of the flat portion 3b of the lead wires 3 shown. More specifically, as shown in Fig. 4, the width W of the protective sheet 6 (i.e., the length in the winding direction) is not limited to twice the width of the flat portion 3b of the lead wires 3. As shown in the embodiment of Fig. 4, the narrow width W of the protective sheet 6 is about 7.5 times wider than the width of the flat portion 3b of the leads 3. In fact, the width W evaluated above is extremely narrow compared to the conventional width of the protective paper 6. Incidentally, the length of the protective paper 6 to be cut is slightly shorter than the width of the electrode foil 4 shown in Fig. 4. In Fig. 23, the positive lead 3P is fixed to the positive electrode foil 4P, and its flat plate portion 3b can be fixedly attached to the outer side surface of the positive electrode foil 4P, and this includes a puncture needle (including a puncture needle) Not shown in the figure)
❹ 200929287 裝置而被捲起。負引線3M被固定至負電極箔4M, 平板部3b可被固定地附著在此負電極箔4M之外側 而此係藉由相同之裝置而被捲起。❹ 200929287 The device was rolled up. The negative lead 3M is fixed to the negative electrode foil 4M, and the flat plate portion 3b can be fixedly attached to the outer side of the negative electrode foil 4M, and this is rolled up by the same means.
電容器元件12具有被捲起在正電極箔4P內側 紙5B及被捲起在正電極箔4P外側的絕緣紙5A。電 件12具有被捲起在負電極箔4M內側的絕緣紙5A 起在負電極箔4M外側的絕緣紙5B。 如第1 7圖所示,用於保護正引線3 P之平板部 護紙6A藉由黏著劑1 3而被附著於被捲起於絕緣紙 外側上。用於保護負引線3 Μ之平板部3 b的保護糸j 由黏著劑1 3而被附著於被捲起於絕緣紙5 B之外側 如第1圖所示,電容器元件12之捲端12a藉由 14而被固定至此元件之本體上。然後,電容器元利 灌注以電解溶液(未示於圖)並被容納於一鋁盒( 圖)內,而此盒之開口用封膠予以閉合,且此開口 被固化處理。因此,電容器元件12被加工成爲一電 器11。The capacitor element 12 has a paper 5B rolled up inside the positive electrode foil 4P and an insulating paper 5A wound up outside the positive electrode foil 4P. The electric device 12 has an insulating paper 5A which is wound up inside the negative electrode foil 4M and which is an outer side of the negative electrode foil 4M. As shown in Fig. 17, the flat sheet protective sheet 6A for protecting the positive lead 3 P is attached to the outer side of the insulating paper by the adhesive 13 . The protection 糸j for protecting the flat portion 3b of the negative lead 3Μ is adhered to the outside of the insulating paper 5B by the adhesive 13 as shown in Fig. 1, and the winding end 12a of the capacitor element 12 is borrowed. It is fixed to the body of this component by 14. Then, the capacitor element is poured into an electrolytic solution (not shown) and housed in an aluminum case (Fig.), and the opening of the case is closed with a sealant, and the opening is cured. Therefore, the capacitor element 12 is processed into an electric motor 11.
接著,第24圖中所示者係本發明之電子零件的 中之一例的電解電容器11(申請專利範圍第2項) 括一由複數片電極箔4所構成之元件12’而此諸電 係連同複數片被插置在此諸電極箔4間之絕緣紙5 捲起,且此諸電極箔4包括一正電極箔4P與一負 4M,而此諸絕緣紙5則包括絕緣紙5 A與5B。電溶 12另配備複數條具有一正引線3P與一負引線3M 並使其 面上, 的絕緣 容器元 及被捲 3b的保 ξ 5A之 充6Β藉 上。 黏著劑 :12被 未不於 部接著 解電容 '諸範例 ,其包 :極箱則 一·起被 .電極箔 :器元件 之引線 -24 - 200929287 3,而此諸引線中之每一者均包括一平板部3b,其具有一 預定寬度並被固定至正與負電極箔4P與4M中之每一者 上。電容器元件1 2另配備有複數片分別被黏附至諸絕緣紙 5 A與5 B上之保護紙6,而此諸絕緣紙則係與諸引線3之 平板部3b的至少一側面相接觸,以便可增加此諸電極箱 4P與4M間之電絕緣性能。 電解電容器11包括至少四(4)片具有一預定狹窄寬 度之保護紙6,而此預定狹窄寬度則係略寬於諸引線3之 平板部3b的寬度,二(2)片保護紙6被黏附至諸絕緣紙 5A與5B中之每一片上,而此諸絕緣紙則與諸引線3之平 板部3 b的一側面及相對側面接觸,以便可保護此諸引線3 之平板部3b的兩側面。 如第17圖中所示,用於保護正引線3P之平板部3b的 保護紙6A藉黏著劑13而被附著於被捲起之絕緣紙5B的 外側及於絕緣紙5A的外側。用於保護負引線3M之平板部 3 b的保護紙6 B則藉黏著劑1 3而被附著於絕緣紙5 A的外 側及於被捲起之絕緣紙5 B的外側。 接著,第2 5圖中所示者係本發明之電子零件的諸範例 中之一例的電解電容器11(申請專利範圍第3項),其包 括一由複數片電極箔4所構成之元件12,而此諸電極箔則 係連同複數片被插置在此諸電極箔4間之絕緣紙5 —起被 捲起,且此諸電極箔4包括一正電極箔4P與一負電極箔 4M,而此諸絕緣紙5則包括絕緣紙5A與5B。電容器元件 12另配備複數條具有一正引線3P與一負引線3M之引線 -25- 200929287 3,而此諸引線中之每一者均包括一平板部3b,其具有 預定寬度並被固定至正與負電極箔4P與4M中之每一 上。電容器元件12另配備有複數片包括保護紙6A與 之保護紙6,其等將分別被黏附至諸絕緣紙5 A與5 B上 而此諸絕緣紙則係與諸引線3之平板部3 b的一側面相 觸,俾可增加此諸電極箔4P與4M間之電絕緣性能。 電解電容器11包括至少一片保護紙6B,其具有一 寬於引線3M之平板部3b的寬度之寬度,並被黏附至諸 〇 緣紙5A與5B中之一片上,而此諸絕緣紙則與引線3之 板部3 b的一側面相接觸,俾保護紙6 B可保護此引線3 平板部3 b的一側面。 - 電解電容器1 1又包括另一片具有一寬闊寬度之保 • 紙6A。此另一片保護紙(即保護紙6A)被黏附至絕緣 5A,俾延伸於絕緣紙5A分別與諸引線3P與3M之平板 3b相接觸之兩區域之間,藉以保護引線3M之平板部3b 相對側面以及引線3P之平板部3b的一側面。 ® 接著,第26圖中所示者係本發明之電子零件的諸範 中之一例的電解電容器11(申請專利範圍第4項),其 括一由複數片電極箔4所構成之元件12,而此諸電極箱 係連同複數片被插置在此諸電極箔4間之絕緣紙5 —起 • 捲起,且此諸電極箔4包括一正電極箔4P與一負電極 . 4M,而此諸絕緣紙5則包括絕緣紙5A與5B。電容器元 12另配備複數條具有一正引線3P與一負引線3M之弓丨 3,而此諸引線中之每一者均包括一平板部3b,其被固 者 6B 接 略 絕 平 之 護 紙 部 的 例 包 則 被 箔 件 線 定 -26- 200929287 至正與負電極箔4P與4M中之每一者上。 電容器元件12另配備有複數片包括保護紙6A與6B 之保護紙6,其等將分別被黏附至諸絕緣紙5 a與5 B上, 而此諸絕緣紙則係與諸引線3之平板部3 b的一側面相接 觸,俾可增加此諸電極箔4P與4M間之電絕緣性能。 電解電容器11包括至少二(2)片保護紙6B,其具有 一略寬於諸引線3P與3M之平板部3b的寬度之寬度,並 被黏附至諸絕緣紙5上,而此諸絕緣紙則係與諸引線3 P與 © 3M之平板部3b相接觸,以便可分別地保護此諸引線3P與 3 Μ之平板部3 b的一側面。 電解電容器11另外包括另一片具有一寬闊寬度之保 - 護紙6A。此另一片保護紙6A係以使其延伸於兩區域間之 . 方式被黏附至絕緣紙5 A,而此兩區域則係絕緣紙5 A分別 與諸引線3P與3M之平板部3b相接觸之處,藉以保護引 線3M之平板部3b的相對側面以及引線3P之平板部3b的 一側面。 ^ 接著將敘述被運用在保護紙6之黏著劑塗敷區域上之 黏著劑13的塗敷形狀。根據本發明,此黏著劑13可被遍 及表面地塗敷,以便接著被黏附至保護紙6之側面上。然 而,爲了節省黏著劑的量並爲了減小被捲起之電容器元件 • 12在徑向上之厚度與電容器元件12之重量,黏著劑13被 . 部分地塗敷至保護紙6之黏附側6a上之黏著劑塗敷區域 13a中,而此塗敷係呈一種如第17圖中所示地呈延伸於保 護紙6之輸送方向上並位於此保護紙之黏附側6a中心的直 -27- 200929287 線13A的形狀。第18圖顯示一種呈由複數條延伸在保護紙 6之輸送方向上的斷續斜線所構成之梯級13B的形狀。第 19圖顯示一種呈由複數條延伸在保護紙6之輸送方向上的 斷續垂直線所構成之梯級1 3 C的形式。第20圖顯示一種呈 由複數條在寬度方向上彼此相隔開並在保護紙6之輸送方 向上延伸之直線13D的形式。第21圖顯示一種呈由複數條 延伸在保護紙6之輸送方向上之斷續斜線所構成之格子 13E的形式。第22圖顯示一種呈複數個被規則地排列並斷 續地延伸在保護紙6之輸送方向上之散點13F狀。 接著,將參照第3至16圖而敘述用於供給保護紙之裝 置16(1 6A、16B),而此裝置係用於藉由捲起程序而構成 本發明之電解電容器的設備之一部分。 在第3圖中,操作電解電容器捲起裝置15以便在供應 一對絕緣紙5A與5B之同時可在向左方向上捲起一對電極 箔4P與4M。元件符號16代表一用於供給保護紙6之裝置。 操作保護紙供給裝置16以便可在大致與輸送電極箔與絕 緣紙之方向相垂直之方向上供給保護紙6。此保護紙6被 切割成具有隨意長度並被黏附至絕緣紙5上之多個區域 處,此將覆蓋被固定於諸電極箔4上之諸引線3的平板部 3 b。第3圖顯示保護紙6 A被黏附至絕緣紙5 A上之與引線 3P的平板部3b對應之位置處,同時保護紙6B被黏附至絕 緣紙5B上之與引線3M的平板部3b對應之位置處。 接著,將參照第8及9圖而詳細地敘述保護紙供給裝 置16(16A、16B)。設置一對保護紙供給裝置16A、16B, -28 - 200929287 其中之一者設於上方位置處,而另一者則設於下 處,此乃因爲保護紙6必須被黏附至諸絕緣紙5A與 以致可分別保護被分別地固定於諸電極箔4P與4M 引線3P與3M。順便一提,相同之元件符號被賦予 護紙供給裝置16(1 6A、16B),此乃因爲此諸機構 的,儘管其中一者在保護紙供給方向上之位置相對 者係略有變動。 保護紙供給裝置16A大致上包括:一基部18; © 19,其被固定於此基部18上;一捲筒支架20,其 於此臂件19上;一捲筒22,其具有一被捲繞於其 保護紙捲6b,並被可轉動地安裝於一捲筒軸21上 - 捲筒軸21則被承載於捲筒支架20上。轉動捲筒22 . 給保護紙6,直到保護紙6被用完爲止。 在輸送保護紙6所經過的路線中設置有:一滾 —供給臂件24 ;若干供給滾輪25、26 ; —刀具座 導引軌道29; —保護紙輸送平台30,其被可滑動地 W 此導引軌道上;一對導引軸31,其上可滑動地支撐 28; —對彈簧32,其被配置在該對導引軸之周圍, 向上方向垂直推進刀具座28; —用於上下移動刀具 體33 ; —用於吸引保護紙6之吸引頭件34 ; —用於 ‘ 引頭件之臂件35 ; —用於上下移動吸引頭件34之 - 35; —用於在水平面上移動吸引頭件34之圓柱體 用於切割保護紙6之刀具39; —用於導引保護紙6 平台40; ~用於與吸引頭件34協作而將保護紙6 方位置 5B上, 上之諸 此兩保 係相同 於另一 一臂件 被固定 周圍之 ,而此 以便供 輪23 ; 28 ;— 安裝於 刀具座 以便朝 之圓柱 支撐吸 圓柱體 3 8; — 之導引 黏附至 -29- 200929287 絕緣紙5上之平台41。 順便一提的,因爲保護紙供給裝置1 6B在機 保護紙供給裝置1 6 A相同且被顯示爲具有相同 號,故有關保護紙供給裝置16B之說明將予以省 用於製造本發明之電子零件的方法(申請專 7項)係藉由將複數片電極箔4(4P、4M)連同 緣紙5 ( 5 A、5 B ) —起捲起,此諸絕緣紙被插置 箔4間,而此諸電極箔4具有一正電極箔4?與一 Ο 4M,且諸絕緣紙5包括絕緣紙5A與5B,諸電 4M中之每一片具有一引線3,其係由一具有一預 平板部3b所構成,並被固定至此電極箔上;此方 - 保護紙6分別地黏附至諸絕緣紙5上,而此諸絕 . 引線3之平板部3b的至少一側面相接觸,以便可 電極箔4 ( 4P、4M )間之電絕緣性能;此方法包 驟:於大致與輸送諸絕緣紙以便被捲起之方向相 向上,就在此諸絕緣紙上黏附有保護紙的部分被 ^ 先分別供給複數片具有比引線3之平板部3 b的寬 預定狹窄寬度的保護紙6至諸絕緣紙5,因此可 至少二(2)片具有狹窄寬度之保護紙,其中一片 黏附至諸絕緣紙中之一片上,而另一片保護紙貝(1 • 諸絕緣紙中的另一片上,此等絕緣紙的另一片與 . 平板部3b的一面側相接觸。 用於製造本發明之電子零件的方法(申請專 8項)係藉由將複數片電極箔4(4P、4M)連同 械上係與 之元件符 略。 利範圍第 複數片絕 在諸電極 負電極箔 i箔4P與 定寬度之 法另將諸 緣紙係與 增加此諸 括下列步 垂直之方 捲起前, 度略寬之 黏附總共 保護紙係 被黏附至 引線3之 利範圍第 複數片絕 -30- 200929287 緣紙5 ( 5A、5B ) —起捲起,此諸絕緣紙被插置在諸電 箔4間,而此諸電極箔4具有一正電極箔4P與一負電極 4M,且諸絕緣紙5包括絕緣紙5A與5B,諸電極箔4P 4M中之每一片具有一引線3,其係由一具有一預定寬度 平板部3b所構成,並被固定至此電極箔上;此方法另將 保護紙6分別地黏附至諸絕緣紙5上,而此諸絕緣紙係 引線3之平板部3b的至少一側面相接觸,俾可增加此諸 極箔4 ( 4P、4M )間之電絕緣性能;此方法包括下列步騎 © 在不同之時機下,於大致與輸送諸絕緣紙以便被捲起之 向相垂直之方向上,就在此諸絕緣紙上黏附有保護紙的 分被捲起前,先分別地供給複數片具有比引線3之平板 - 3b的寬度略寬之預定狹窄寬度的保護紙6至諸絕緣紙5 . 因此可黏附總共四(4)片保護紙,其中首先二片保護紙 黏附至諸絕緣紙5A與5B中之一片上,而另二片保護紙 被黏附至與引線3之平板部3 b的兩側面相接觸之諸絕緣 5A與5B中之另一片上。 ^ 用於製造本發明之電子零件的方法(申請專利範圍 9項)係藉由將複數片電極箔4(4P、4M)連同複數片 緣紙5(5A、5B) —起捲起,此諸絕緣紙被插置在諸電 箔4之間,而此諸電極箔4具有一正電極箔4P與一負電 • 箔4M,且諸絕緣紙5包括絕緣紙5A與5B,諸電極箔 . 與4M中之每一片具有一引線3,其係由一具有一預定寬 之平板部3b所構成,並被固定至此電極箔上;此方法另 諸保護紙6分別地黏附至諸絕緣紙5上,而此諸絕緣紙 極 箔 與 之 諸 與 電 方 部 部 » 被 則 紙 第 絕 極 極 4P 度 將 係 -31- 200929287 與引線3之平板部3b的至少一側面相接觸,以便可增 諸電極箔4 ( 4P、4M )間之電絕緣性能;此方法包括 步驟:在不同之時機下,於大致與輸送諸絕緣紙以便 起之方向相垂直之方向上,就在此諸絕緣紙上黏附有 紙的部分被捲起前,先分別地供給複數片具有比引線 平板部3b的寬度略寬之預定狹窄寬度的保護紙6B及 具有寬闊寬度且可保護引線3P之平板部3b的相對側 引線3M之平板部3b的一側面之保護紙6A至諸絕緣細 δ 因此可將總共三(3 )片保護紙黏附於諸絕緣紙5上, 二片具有狹窄寬度之保護紙6Β及一片具有寬闊寬度 護紙6Α被黏附至與諸引線3之平板部3b的兩側面相 -之諸絕緣紙5A與5B上。 . 用於製造本發明之電子零件的方法(申請專利範 1〇項)係藉由將複數片電極箔4(4P、4M)連同複數 緣紙5(5A、5B) —起捲起,此諸絕緣紙被插置在諸 泊4之間,而此諸電極箱4具有一正電極裕4P與一負 ~ 箔4M,且諸絕緣紙5包括絕緣紙5A與5B,諸電極: 與4M中之每一片具有一引線3,其係由一具有一預定 之平板部3b所構成,並被固定至此電極箔上;此方法 諸保護紙6分別地黏附至諸絕緣紙5上,而此諸絕緣 > 與引線3之平板部3 b的至少一側面相接觸,以便可增 諸電極箔4 ( 4P、4M )間之電絕緣性能·•此方法包括 步驟:在不同之時機下,於大致與輸送諸絕緣紙以便 起之方向相垂直之方向上,就在此諸絕緣紙上黏附有 加此 下列 被捲 保護 3之 一片 面與 :5, 其中 之保 接觸 圍第 片絕 電極 電極 浩4P 寬度 另將 紙係 加此 下列 被捲 保護 -32- 200929287 紙的部分被捲起之前,先分別地供給複數片具有比引線3 之平板部3b的寬度略寬之預定狹窄寬度的保護紙6B及一 片具有寬闊寬度且可保護引線3 P之平板部3 b的相對側面 與引線3M之平板部3b的一側面之保護紙6A至諸絕緣紙 5,因此可將總共二(2 )片之保護紙黏附至諸絕緣紙5上, 其中具有寬闊寬度之保護紙6A被黏附至與引線3之平板部 3b的一側面相接觸之絕緣紙5A上,而另一片具有狹窄寬 度之保護紙6B則被黏附至與引線3 P之平板部3 b的兩側面 © 相接觸之絕緣紙5上。 本發明如上所述地係諸組件之組合。操作係如下文中 所述。 • 參照第8至16圖,用於供給保護紙6之裝置16係處 . 於一預備狀態下,其中吸引頭件34停駐在第9圖中之最左 方位置處,並位於保護紙黏附平台41正上方,同時其藉由 吸引頭件供給圓柱體38連同吸引頭件圓柱體36與吸引臂 件35而被移動於該處。在此情形之下,如第3及8圖所示, ^ 兩片電極箔4P及4M與兩片絕緣紙5A及5B分別相對於保 護紙黏附平台41藉由捲起裝置15而被輸送,諸電極箔4P 及4M具有分別被附著於其上之諸引線3P及3M,且諸絕 緣紙將被插置於諸電極箔4P及4M之間,而以任意長度被 • 切割下之保護紙(第4圖)被分別吸引至諸吸引頭件34之 . 下側面上。 在第1 〇圖中,供給裝置1 6係處於黏附狀態下,其中 操作吸引頭件圓柱體36以便將吸引臂件35及吸引頭件34 -33- 200929287 朝箭頭方向向下移動至黏附平台41處。於是,被吸引至吸 引頭件34處之保護紙6A被黏附至與已附著在電極箔4處 之引線3相接觸之部分絕緣紙5上。更精確地說,在上吸 引頭件34處,保護紙6A被黏附至絕緣紙5A上(如第3 圖所示):而在下吸引頭件34處,保護紙6B則被黏附至 絕緣紙5B上(如第3圖所示)。接著,諸吸引頭件34分 別釋放諸保護紙6。第8圖顯示一對裝置16。下供給裝置 16B及黏附平台41被配置在紙捲起方向之上方處,而上供 © 給裝置16A及黏附平台41則被配置在紙捲起方向之上方 處。如果此對黏附平台在捲起方向上被別配置在相同位置 處,則諸保護紙6A及6B將不會同時被黏附至別地位於諸 黏附平台處之諸絕緣紙上。第3圖顯示一範例,其中在引 - 線3 Μ到達下黏附平台4 1前不久供應保護紙6 A,而保護紙 6B被黏附至絕緣紙5B上並被捲起。同時,在引線3P到達 下黏附平台41前不久供應保護紙6A,而保護紙6A被黏附 至絕緣紙5 A上。 在第1 1圖中,供給裝置1 6係處於使紙捲起裝置1 5可 將紙捲起之狀態下,其中吸引頭件圓柱體3 6被操作以便將 吸引臂件35及吸引頭件34朝遠離黏附平台41之箭頭B方 向向上移動,以便此紙捲起裝置15可捲起一預定量之電極 • 箔4及絕緣紙5,如第3圖所示。 - 根據本發明,保護紙6係以與輸送電極箔4及絕緣紙 5以便捲起之方向大致成相垂直的方向被供應至絕緣紙5 上,而此保護紙6就在電極箔4及絕緣紙5被捲起之前即 -34- 200929287 先被捲起。 在第1 2圖中,供給裝置i 6係處於供應保護紙6之狀 態下,其中吸引頭件供給圓柱體38被操作以便可在向右方 向上(如箭頭C所示)移動吸引頭件圓柱體36、吸引臂件 35及吸引頭件34。接著,吸引頭件34停駐在導引平台40 正上方。隨後’操作供給裝置1 6以便可一對上及下滾柱 26,藉以夾住並在向左方向上(如箭頭D所示)移動保護 紙。因此’一預定量之保護紙6被輸送,以便使此保護紙 Ο 6之任意長度可被取割下來,以供包護引線3之平板部3b。 如圖所示,移動保護紙6A,直到自由端6c到達一在其中 保護紙被吸引頭件34所吸引之位置處爲止。因此,保護紙 ' 隨著被從紙捲6b處抽出而被供應,並在捲筒22被轉動之 • 同時由諸導引滾柱23及25所導引。 在第13圖中,供給裝置16係處於吸引保護紙之狀態 下,其中此保護紙具有一長度區域,其疊置於吸引頭件34 上,並藉真空拉力而被吸引於其處。 W 在第1 4圖中’供給裝置1 6係處於夾緊並切割之狀態 下,其中導引平台40被向上移動並從下側夾住保護紙6A。 隨後,刀具操作圓柱體3 3被操作以便對抗諸壓縮彈簧3 6 之作用而朝箭頭E方向連同刀具座28向下移動刀具39, • 藉此切斷保護紙6A。 - 在第1 5圖中,供給裝置1 6係處於供應保護紙6 A之狀 態下,其中操作吸引頭件供給圓柱體3 8以便可在向左方向 上(如箭頭E所示)移動吸引臂件35及吸引頭件34,而 -35- 200929287 一經切割下之量的保護紙6A被吸引至吸引頭件34處。因 此’保護紙6A連同吸引頭件34被輸送至保護紙黏附平台 4 1處。 在第1 6圖中’供給裝置1 6係處於鬆開刀具3 9之狀態 下,其中刀具操作圓柱體33不起作用,且諸刀具39藉由 諸壓縮彈簧32而朝箭頭方向G被向上移動。因此,刀具 39被鬆開’同時吸引頭件34連同該經切割下之量的保護 紙6A被定位在保護紙黏附平台41正上方。因此,完成一 Ο 個保護紙供應循環’且使供給裝置1 6返回至如第9圖中所 示之預備狀態下。 在第17至22圖中,根據本發明,黏著劑13被部分地 • 以不同形式塗敷至保護紙6上,而非被塗敷在保護紙6之 . 整個表面上。因此’黏著劑13之量被顯著地節省,同時可 獲得足夠之黏著性’又可避免ESR (等效串聯電阻)之增 加。 隨後’將參照第23至26圖而說明作爲本發明之諸電 ® 子零件範例中之一者的電解電容器11的特徵。有關第23 圖中所示之實施例(即電解電容器11),一片具有比正引 線3P之平板部3b的寬度略寬之寬度的保護紙6A被黏附至 絕緣紙5A上,以便可保護此正引線3P之平板部3b。另一 - 方面’一片具有比負引線3M之平板部3b的寬度略寬之寬 - 度的保護紙6B被黏附至絕緣紙5 B上,以便可保護此負引 線3M之平板部3b。諸保護紙6A及6B在捲起方向上之長 度係相當於如第8圖中所示由紙供給裝置16所供應之諸保 -36- 200929287 護紙6A及6B的寬度(第4圖)。因爲電解電容器捲起裝 置15被設定成可確認諸引線3的位置,以便紙供給裝置 1 6可就在諸絕緣紙上被諸引線所黏附處之區域被捲起之 前,即先分別供應具有狹窄寬度之保護紙6至諸絕緣紙5 上,故紙供給裝置16可在良好時機下供應具有狹窄寬度之 保護紙6,以利將引線3之平板部3b定位於具有狹窄寬度 之保護紙的中央處。 因此,二片具有狹窄寬度之保護紙6可合理地被分別 〇 黏附至此兩片絕緣紙上,且可充分地保護諸引線之平板部 3 b的一側面。結果,相較於第2 7圖所示之習知實施例, 保護紙6的量將可被節省,且電容器元件12之直徑將可被 - 減小,另可避免ESR之增加。因此,可獲得在電氣性質上 _ 絕佳之電解電容器11。 有關第24圖中所示之電解電容器11之實施例,此電 解電容器11除了第23圖中所示之電容器元件12的諸保護 紙外另還具有兩片保護紙6。亦即,具有狹窄寬度的相同 © 保護紙6A被黏附至與正引線3P之平板部3b的相對側面相 接觸之絕緣紙5 B上,而具有狹窄寬度之相同保護紙6B則 被黏附至與負引線3M之平板部3b的相對側面相接觸之絕 緣紙5A上。於是,針對引線3之一平板部3b使用二片具 - 有狹窄寬度之保護紙,以便可保護此引線3之平板部3b的 兩側面。儘管在電容器元件1 2中之保護紙比例小,但引線 3之平板部3b的兩側面仍可被充分保護,且電容器元件12 之直徑及其ESR免於被增大。因此,可獲得在電氣性質上 -37- 200929287 絕佳之電解電容器11。 有關第25圖中所示電解電容器11之實施例,一片具 有寬闊寬度之保護紙6A在延伸於諸引線3的兩平板部3b 間之同時被黏附至絕緣紙5A上,以便可保護正引線3P之 平板部3b的一側面與負引線3M之平板部3b的相對側面, 而一片具有狹窄寬度之保護紙6B則被黏附至絕緣紙5B 上,以便可僅保護負引線3M之平板部3b的一側面。 須承認的是,類似於習知之電容器元件,電容器元件 © 12中之保護紙的比例由於具有寬闊寬度之保護紙6A而增 加。然而在製造程序中,就在電容器元件12被捲起之前, 先供應一片具有寬闊寬度之保護紙6A及另一片具有狹窄 • 寬度之保護紙6B係合理的。於是,正引線3P之平板部3b - 的一側面與負引線3M之平板部3b的兩側面可由三片保護 紙所保護,而不致會顯著增加ESR。因此,可獲得在電氣 性質上絕佳之電解電容器1 1。 有關第26圖中所示之電解電容器11之實施例,其類 似於第25圖中所示之情形,一片具有寬闊寬度之保護紙 6A在延伸於諸引線3的兩平板部3b間之同時被黏附至絕 緣紙5A上’以便可保護正引線3P之平板部3b的一側面與 負引線3M之平板部3b的相對側面,而一片具有狹窄寬度 ' 之保護紙6B則被黏附至絕緣紙5B上,以便可保護正引線 - 3P之平板部3b的相對側面,且另一片具有狹窄寬度之保 護紙6B被黏附至絕緣紙5B上,以便可保護正引線3M之 平板部3b的一側面。 -38- 200929287 須承認的是,類似於習知之電容器元件,電容器元件 12中之保護紙的比例由於具有寬闊寬度之保護紙6A而增 加。然而在製造程序中,就在電容器元件12被捲起之前, 即先供應一片具有寬闊寬度之保護紙6A及另一片具有狹 窄寬度之保護紙6B係合理的。於是,正引線3P之平板部 3b的兩側面與負引線3M之平板部3b的兩側面可由三片保 護紙所保護,而不致會顯著增加ESR。因此,可獲得在電 氣性質上絕佳之電解電容器11。 本發明已參照作爲一電子零件之電解電容器11的諸 實施例而被說明。然而,本發明顯然地並不受限於此電解 電容器11,而是包括任何類型之電容器,而如果此諸電容 器係屬捲起式之類型者,則諸如薄膜電容器及其他類似之 電容器。 在此所敘述之本發明顯然地能以許多方式被變化。此 諸變化被認爲均不脫離本發明之精神與範圍,而所有此類 修改意欲被包含於後附之申請專利範圍所界定之範圍中。 【圖式簡單說明】 第1至26圖係有關本發明之諸實施例。 第1圖係一電解電容器之立體圖,而此電解電容器被 顯示作爲本發明之電子零件的諸範例中之一者。 第2圖係此被部分地切除以顯示其內部構成之電解電 容器之立體圖。 第3圖係電極箔及絕緣紙之立體圖,而此諸電極箔及 絕緣紙被輸送以便於當保護紙在與輸送絕緣紙之方向大致 -39- 200929287 成垂直之方向上被輸送至此諸絕緣紙處時可一起被捲起。 第4圖係具有被黏附於其上之保護紙的絕緣紙及具有 被固定於其上之引線的電極箔之平面圖,其中此電極箔係 由被黏附於絕緣紙上之保護紙所保護。 第5圖係引線之側視圖,而此引線係部分地以垂直剖 面呈現以顯示此引線上受保護紙所保護之平板部。 第6圖係引線之側視圖,而此引線被部分地取垂直剖 面以顯示此引線上受絕緣紙所保護之平板部,此絕緣紙具 〇 有藉黏著劑而被黏附於其上之保護紙,而黏著劑則是被塗 敷於保護紙整個表面上。 第7圖係引線之側視圖,而此引線被部分地取垂直剖 ' 面以顯示此引線上受絕緣紙所保護之平板部,此絕緣紙具 有藉黏著劑而被黏附於其上之保護紙,而黏著劑則是被塗 敷於保護紙部分表面上。 第8圖係用於供給保護紙之裝置的立體圖。 第9至16圖顯示用於供給保護紙之多種狀態。 第9圖係保護紙供給裝置之必要部分的側視圖,其顯 示此供給裝置之預備狀態。 第1 〇圖係保護紙供給裝置之必要部分的側視圖,其顯 示此供給裝置正將保護紙黏附至絕緣紙上之狀態。 ' 第1 1圖係保護紙供給裝置之必要部分的側視圖,其顯 - 示允許電極箔及絕緣紙可被捲起之狀態。 第1 2圖係保護紙供給裝置之必要部分的側視圖,其顯 示用於供給保護紙之狀態。 -40- 200929287 第1 3圖係保護紙供給裝置之必要部分的側視圖,其顯 示用於開始吸附保護紙之狀態。 第1 4圖係保護紙供給裝置之必要部分的側視圖,其顯 示用於切割並夾住保護紙之狀態。 ‘ 第1 5圖係保護紙供給裝置之必要部分的側視圖,其顯 示用於供給保護紙之狀態。 第16圖係保護紙供給裝置之必要部分的側視圖,其顯 示用於鬆開一刀具之狀態。 © 第17至22圖顯示具有被以不同形式塗敷於其上之黏 著劑的保護紙。 第17圖係具有被塗敷於其上之黏著劑的保護紙之平 面圖,而塗敷之形式係成連續地延伸在保護紙之供給方向 . 上及保護紙之寬度方向的中心處之直線。 第18圖係具有被塗敷於其上之黏著劑的保護紙之平 面圖,而塗敷之形式係成複數條延伸在保護紙之供給方向 上的斷續斜線。 © 第19圖係具有被塗敷於其上之黏著劑的保護紙之平 面圖,而塗敷之形式係成複數條延伸在保護紙之供給方向 上的斷續垂直線。 第20圖係具有被塗敷於其上之黏著劑的保護紙之平 - 面圖,而塗敷之形式係成兩條在寬度方向上彼此相隔開並 在輸送該等保護紙之方向上延伸之直線。 第21圖係具有被塗敷於其上之黏著劑的保護紙之平 面圖,而塗敷之形式係成由複數條延伸在保護紙之供給方 -41 - 200929287 向上之斷續斜線所構成之格子。 第22圖係具有被塗敷於其上之黏著劑的保護紙之平 面圖,而塗敷之形式係成複數個延伸在保護紙之供給方向 上之散點狀。 第23至26圖顯示電解電容器元件之側視圖,而此元 件係以垂直剖面呈現且具有不以同狀態被黏附於其上之保 護紙。 第2 3圖係電解電容器元件之側視圖,而此元件包括二 〇 (2)片被黏附於其上且具有狹窄寬度之保護紙,以致使各 保護紙可保護正及負引線中之每一者的平板部的一側面。 第24圖係電解電容器元件之側視圖,而此元件包括四 - (4)片被黏附於其上且具有狹窄寬度之保護紙,以致使此 . 諸保護紙可分別保護正及負引線之平板部的兩側面。 第25圖係電解電容器元件之側視圖,而此元件包括一 片被黏附於其上且具有寬闊寬度之保護紙,以便可分別保 護正及負引線之平板部的一側面;以及包括一片被黏附於 ® 其上且具有狹窄寬度之保護紙,以便可僅保護負引線之平 板部。 第26圖係電解電容器元件之側視圖,而此元件包括一 片被黏附於其上且具有寬闊寬度之保護紙,以便可分別保 - 護正及負引線之平板部的一側面;以及包括二片被黏附於 其上且具有狹窄寬度之保護紙,以便可分別保護正與負引 線之平板部。 第27圖係習知電解電容器元件之側視圖,其中使用一 -42 - 200929287 片具寬闊寬度之保護紙,以便可在正與負引線之平板部間 延伸,因而可保護正與負引線之平板部 【主要元件符號說明】 1 電子零件範例中之一例的電解電容器 2 元件 3 引線 3a 凸部 3b 平板部 ® 3c 箔固定緣 3d 穿刺孔 3P 正引線 3M 負引線 . 4 電極箔 4P 正電極箱 4 Μ 負電極箱 5Next, the electrolytic capacitor 11 which is one of the electronic components of the present invention shown in Fig. 24 (the second aspect of the patent application) includes an element 12' composed of a plurality of electrode foils 4 and the electric systems. The insulating paper 5, which is interposed between the electrode foils 4, is rolled up together, and the electrode foils 4 comprise a positive electrode foil 4P and a negative 4M, and the insulating papers 5 comprise insulating paper 5 A and 5B. The electrolysis 12 is additionally provided with a plurality of insulating container elements having a positive lead 3P and a negative lead 3M on the surface thereof and a charge 5A of the roll 3b. Adhesive: 12 is not a part of the solution of the capacitor, the package, the package: the pole box is the first. The electrode foil: the lead of the device element-24 - 200929287 3, and each of these leads A flat plate portion 3b having a predetermined width and fixed to each of the positive and negative electrode foils 4P and 4M is included. The capacitor element 12 is further provided with a plurality of protective sheets 6 adhered to the insulating papers 5 A and 5 B, respectively, and the insulating papers are in contact with at least one side of the flat portions 3b of the leads 3 so that The electrical insulation properties between the electrode cases 4P and 4M can be increased. The electrolytic capacitor 11 includes at least four (4) sheets of protective paper 6 having a predetermined narrow width, and the predetermined narrow width is slightly wider than the width of the flat portions 3b of the leads 3, and the two (2) sheets of protective paper 6 are adhered. To each of the insulating sheets 5A and 5B, the insulating paper is in contact with one side and the opposite side of the flat portion 3b of the leads 3 so as to protect both sides of the flat portion 3b of the leads 3. . As shown in Fig. 17, the protective paper 6A for protecting the flat portion 3b of the positive lead 3P is adhered to the outside of the rolled insulating paper 5B and to the outside of the insulating paper 5A by the adhesive 13. The protective paper 6B for protecting the flat portion 3b of the negative lead 3M is attached to the outer side of the insulating paper 5A and to the outside of the rolled insulating paper 5B by the adhesive 13. Next, the electrolytic capacitor 11 of one of the examples of the electronic component of the present invention is shown in FIG. 25 (the third aspect of the patent application), and includes an element 12 composed of a plurality of electrode foils 4, The electrode foils are rolled up together with a plurality of sheets of insulating paper 5 interposed between the electrode foils 4, and the electrode foils 4 include a positive electrode foil 4P and a negative electrode foil 4M. The insulating paper 5 includes insulating papers 5A and 5B. The capacitor element 12 is further provided with a plurality of leads-25-200929287 3 having a positive lead 3P and a negative lead 3M, and each of the leads includes a flat portion 3b having a predetermined width and being fixed to the positive And each of the negative electrode foils 4P and 4M. The capacitor element 12 is further provided with a plurality of sheets including a protective sheet 6A and a protective sheet 6 which are respectively adhered to the insulating sheets 5 A and 5 B which are attached to the flat portions 3 b of the leads 3 One side of the surface touches, and the electrical insulation property between the electrode foils 4P and 4M can be increased. The electrolytic capacitor 11 includes at least one sheet of protective paper 6B having a width wider than the width of the flat portion 3b of the lead 3M and adhered to one of the rim papers 5A and 5B, and the insulating paper and the lead One side of the plate portion 3b of the third portion is in contact with each other, and the side of the flat plate portion 3b of the lead wire 3b is protected by the protective paper 6B. - The electrolytic capacitor 1 1 further includes another sheet of paper 6A having a wide width. The other piece of protective paper (i.e., the protective paper 6A) is adhered to the insulation 5A, and the crucible extends between the two regions where the insulating paper 5A is in contact with the flat plates 3P and 3M, respectively, thereby protecting the flat portion 3b of the lead 3M from being opposed. The side surface and one side surface of the flat plate portion 3b of the lead 3P. Next, the electrolytic capacitor 11 of one of the examples of the electronic component of the present invention is shown in Fig. 26 (application patent item 4), which comprises an element 12 composed of a plurality of electrode foils 4, The electrode cases are rolled up together with a plurality of sheets of insulating paper 5 interposed between the electrode foils 4, and the electrode foils 4 comprise a positive electrode foil 4P and a negative electrode. 4M. The insulating paper 5 includes insulating papers 5A and 5B. The capacitor element 12 is further provided with a plurality of bows 3 having a positive lead 3P and a negative lead 3M, and each of the leads includes a flat portion 3b which is secured by the solid 6B. The package of the section is defined by the foil member -26-200929287 to each of the positive and negative electrode foils 4P and 4M. The capacitor element 12 is further provided with a plurality of sheets of protective paper 6 including protective sheets 6A and 6B which are respectively adhered to the insulating sheets 5a and 5B, and the insulating sheets are attached to the flat portions of the leads 3 When one side of 3 b is in contact, 俾 can increase the electrical insulation property between the electrode foils 4P and 4M. The electrolytic capacitor 11 includes at least two (2) sheets of protective paper 6B having a width slightly wider than the width of the flat portions 3b of the leads 3P and 3M, and is adhered to the insulating paper 5, and the insulating papers are It is in contact with the lead portions 3 P and the flat portion 3b of the 3M so as to be able to separately protect one side of the flat portions 3 b of the leads 3P and 3 . The electrolytic capacitor 11 additionally includes another sheet of protective paper 6A having a wide width. The other piece of protective paper 6A is attached to the insulating paper 5 A in such a manner as to extend between the two regions, and the two regions are in contact with the flat portions 3b of the leads 3P and 3M, respectively. Thereby, the opposite side faces of the flat plate portion 3b of the lead 3M and one side surface of the flat plate portion 3b of the lead 3P are protected. Next, the application shape of the adhesive 13 applied to the adhesive application area of the protective paper 6 will be described. According to the present invention, the adhesive 13 can be applied over the surface to be subsequently adhered to the side of the protective sheet 6. However, in order to save the amount of the adhesive and to reduce the thickness of the rolled capacitor element 12 in the radial direction and the weight of the capacitor element 12, the adhesive 13 is partially applied to the adhesion side 6a of the protective paper 6. In the adhesive application region 13a, the coating is in a direction extending in the conveying direction of the protective paper 6 as shown in Fig. 17 and located at the center of the adhesive side 6a of the protective paper. -27-200929287 The shape of the line 13A. Fig. 18 shows a shape of the step 13B constituted by intermittent oblique lines extending in the conveying direction of the protective paper 6 by a plurality of strips. Fig. 19 shows a form of a step 13 C composed of intermittent vertical lines extending in the conveying direction of the protective paper 6 by a plurality of strips. Fig. 20 shows a form of a straight line 13D which is spaced apart from each other in the width direction and extends in the conveying direction of the protective paper 6. Fig. 21 shows a form of a lattice 13E composed of a plurality of intermittent oblique lines extending in the conveying direction of the protective paper 6 by a plurality of strips. Fig. 22 shows a scatter 13F in a plurality of regularly arranged and intermittently extending directions of the protective paper 6. Next, the means 16 for supplying the protective paper (16A, 16B) will be described with reference to Figs. 3 to 16, and this apparatus is used for a part of the apparatus for constituting the electrolytic capacitor of the present invention by the winding up procedure. In Fig. 3, the electrolytic capacitor winding device 15 is operated to wind up a pair of electrode foils 4P and 4M in the left direction while supplying a pair of insulating papers 5A and 5B. The component symbol 16 represents a device for supplying the protective paper 6. The protective paper supply device 16 is operated so that the protective paper 6 can be supplied in a direction substantially perpendicular to the direction in which the electrode foil and the insulating paper are conveyed. This protective paper 6 is cut to have a random length and adhered to a plurality of regions on the insulating paper 5, which will cover the flat portions 3b of the leads 3 fixed to the electrode foils 4. Fig. 3 shows that the protective paper 6 A is adhered to the position on the insulating paper 5 A corresponding to the flat portion 3b of the lead 3P, and the protective paper 6B is adhered to the insulating paper 5B corresponding to the flat portion 3b of the lead 3M. Location. Next, the protective paper supply device 16 (16A, 16B) will be described in detail with reference to Figs. 8 and 9. One pair of protective paper supply devices 16A, 16B, -28 - 200929287 is provided at one of the upper positions, and the other is provided at the lower position because the protective paper 6 must be adhered to the insulating paper 5A and The respective protections are separately fixed to the electrode foils 4P and 4M leads 3P and 3M. Incidentally, the same component symbols are given to the paper feed device 16 (16A, 16B) because of the slight change in the relative position of the mechanisms in the direction in which the protective paper is fed. The protective paper supply device 16A generally includes: a base 18; a 19, which is fixed to the base 18; a reel stand 20 on the arm member 19; and a reel 22 having a wound The paper roll 6b is protected and rotatably mounted on a spool shaft 21 - the spool shaft 21 is carried on the spool support 20. Rotating the reel 22. The protective paper 6 is fed until the protective paper 6 is used up. Provided in the route through which the protective paper 6 is conveyed: a roll-supply arm member 24; a plurality of supply rollers 25, 26; a tool holder guide rail 29; a protective paper transport platform 30 which is slidably a pair of guide shafts 31 slidably supported thereon; a pair of springs 32 disposed about the pair of guide shafts, vertically advancing the tool holder 28 in an upward direction; - for moving up and down Knife specific 33; - suction head member 34 for attracting protective paper 6; - arm member 35 for 'head member; - 35 for moving the suction head member 34 up and down; - for moving the suction on the horizontal surface The cylinder of the head member 34 is used to cut the cutter 39 of the protective paper 6; - for guiding the protective paper 6 platform 40; ~ for cooperating with the attraction head member 34 to place the protective paper 6 on the position 5B, The two retaining systems are fixed around the other arm member, so that the wheel 23; 28; is mounted on the tool holder so as to support the suction cylinder 3 8 toward the cylinder; - the guide is adhered to -29-200929287 The platform 41 on the insulating paper 5. Incidentally, since the protective paper supply device 16B is identical in the machine protection paper supply device 16A and is shown to have the same number, the description about the protective paper supply device 16B will be saved for manufacturing the electronic component of the present invention. The method (application 7) is carried out by winding a plurality of electrode foils 4 (4P, 4M) together with the edge paper 5 (5 A, 5 B ), and the insulating paper is interposed between the foils 4, and The electrode foils 4 have a positive electrode foil 4? and a Ο4M, and the insulating papers 5 comprise insulating papers 5A and 5B, each of the electric wires 4M having a lead wire 3 having a pre-flat portion 3b is constructed and fixed to the electrode foil; the square-protective paper 6 is adhered to the insulating papers 5, respectively, and at least one side of the flat portion 3b of the lead 3 is in contact with each other so that the electrode foil can be 4 (4P, 4M) electrical insulation performance; the method includes: in the direction of transporting the insulating paper so as to be rolled up, the portions of the insulating paper to which the protective paper is adhered are respectively supplied separately a plurality of sheets of protective paper 6 having a predetermined narrow width wider than the flat portion 3 b of the lead 3 Insulating paper 5, thus at least two (2) sheets of protective paper having a narrow width, one of which adheres to one of the insulating papers and the other of which protects the paper sheets (1) of the other of the insulating papers, The other piece of the insulating paper is in contact with one side of the flat plate portion 3b. The method for manufacturing the electronic component of the present invention (application 8) is by means of a plurality of electrode foils 4 (4P, 4M) The upper part is similar to the element. The first part of the range is in the electrode negative electrode foil i foil 4P and the fixed width method is further rolled up before the edge of the paper is increased. The wide adhesion of the total protective paper is adhered to the lead 3 of the range of the first piece -30-200929287 edge paper 5 (5A, 5B) - rolled up, the insulating paper is inserted between the electric foil 4, The electrode foils 4 have a positive electrode foil 4P and a negative electrode 4M, and the insulating papers 5 include insulating papers 5A and 5B, and each of the electrode foils 4P 4M has a lead 3 which has one a predetermined width flat portion 3b is formed and fixed to the electrode foil; The protective paper 6 is adhered to the insulating papers 5, respectively, and at least one side of the flat portions 3b of the insulating paper-based leads 3 are in contact with each other, thereby increasing the electrical insulating property between the polar foils 4 (4P, 4M). This method includes the following steps: at different times, in a direction substantially perpendicular to the direction in which the insulating paper is conveyed so as to be rolled up, before the points on which the protective paper is adhered to the insulating paper are rolled up, First, a plurality of sheets of protective paper 6 having a predetermined narrow width which is slightly wider than the width of the flat plate - 3b of the lead 3 are supplied separately to the insulating paper 5. Therefore, a total of four (4) sheets of protective paper can be adhered, of which the first two sheets of protective paper are adhered Adhered to one of the insulating sheets 5A and 5B, and the other two sheets of protective paper are adhered to the other of the insulating sheets 5A and 5B which are in contact with both side faces of the flat portion 3b of the lead 3. ^ A method for manufacturing an electronic component of the present invention (Patent Application No. 9) is carried out by winding a plurality of electrode foils 4 (4P, 4M) together with a plurality of edge papers 5 (5A, 5B) The insulating paper is interposed between the electric foils 4, and the electrode foils 4 have a positive electrode foil 4P and a negative electric foil 4M, and the insulating papers 5 include insulating papers 5A and 5B, electrode foils, and 4M. Each of the sheets has a lead 3 which is composed of a flat portion 3b having a predetermined width and is fixed to the electrode foil; in this way, the other protective sheets 6 are respectively adhered to the insulating paper 5, and The insulating paper foils are in contact with at least one side of the flat portion 3b of the lead 3, and the electrode foils 4 can be added. Electrical insulation performance between (4P, 4M); the method comprises the steps of: adhering the paper to the insulating paper in a direction substantially perpendicular to the direction in which the insulating paper is conveyed at different timings Before being rolled up, the plurality of sheets are separately supplied to have a specific flat plate portion 3b The protective paper 6B having a predetermined narrow width having a slightly wider width and the protective paper 6A having a wide width and protecting the one side of the flat portion 3b of the opposite side lead 3M of the flat portion 3b of the lead 3P to the insulating fine δ may thus be three in total (3) The sheet of protective paper is adhered to the insulating paper 5, and two sheets of protective paper 6 having a narrow width and a sheet of paper having a wide width 6 Α are adhered to the sides of the flat portion 3b of the leads 3 Paper 5A and 5B. The method for manufacturing the electronic component of the present invention (patent application) is carried out by winding a plurality of electrode foils 4 (4P, 4M) together with a plurality of edge papers 5 (5A, 5B). The insulating paper is interposed between the poises 4, and the electrode cases 4 have a positive electrode 4P and a negative ~ foil 4M, and the insulating paper 5 includes insulating papers 5A and 5B, electrodes: and 4M Each of the sheets has a lead 3 which is composed of a predetermined flat portion 3b and is fixed to the electrode foil; the protective paper 6 is adhered to the insulating paper 5, respectively, and the insulation is gt Contacting at least one side of the flat portion 3b of the lead 3 so as to increase the electrical insulation between the electrode foils 4 (4P, 4M). The method comprises the steps of: at different times, substantially at the same time Insulating paper so as to be oriented in a direction perpendicular to the direction, the insulating paper is adhered to one of the following sheets of protection 3: 5, wherein the contact is closed, the second electrode of the electrode is 4P width The paper is added to the following roll protection -32- 200929287 before the paper is rolled up First, a plurality of sheets of protective paper 6B having a predetermined narrow width slightly wider than the width of the flat portion 3b of the lead 3 and a sheet having a wide width and protecting the opposite side of the flat portion 3b of the lead 3P and the lead 3M are separately supplied. The protective paper 6A of one side of the portion 3b is applied to the insulating paper 5, so that a total of two (2) sheets of the protective paper can be adhered to the insulating paper 5, wherein the protective paper 6A having a wide width is adhered to the lead 3 The protective paper 5A having one side of the flat portion 3b is in contact with each other, and the other protective sheet 6B having a narrow width is adhered to the insulating paper 5 which is in contact with both side surfaces © of the flat portion 3b of the lead 3P. The invention is a combination of components as described above. The operation is as described below. • Referring to Figures 8 to 16, the device 16 for supplying the protective paper 6 is in a preliminary state in which the attraction head member 34 is parked at the leftmost position in Fig. 9 and is located on the protective paper adhesion platform. 41 is directly above, while it is moved there by the suction head supply cylinder 38 together with the suction head cylinder 36 and the attraction arm member 35. In this case, as shown in FIGS. 3 and 8, the two electrode foils 4P and 4M and the two sheets of insulating paper 5A and 5B are respectively transported by the winding device 15 with respect to the protective paper adhering platform 41, The electrode foils 4P and 4M have the leads 3P and 3M respectively attached thereto, and the insulating papers are inserted between the electrode foils 4P and 4M, and the protective paper is cut at any length. 4)) are respectively attracted to the lower side of the attraction heads 34. In the first diagram, the supply device 16 is in an adhered state in which the suction head cylinder 36 is operated to move the attraction arm member 35 and the suction head member 34-33-200929287 downward in the direction of the arrow to the adhesion platform 41. At the office. Thus, the protective paper 6A attracted to the suction head member 34 is adhered to the portion of the insulating paper 5 which is in contact with the lead 3 which has been attached to the electrode foil 4. More precisely, at the upper attraction head member 34, the protective paper 6A is adhered to the insulating paper 5A (as shown in Fig. 3): at the lower suction head member 34, the protective paper 6B is adhered to the insulating paper 5B. Upper (as shown in Figure 3). Then, the attracting head members 34 release the protective sheets 6 at a time. Figure 8 shows a pair of devices 16. The lower supply unit 16B and the adhesion stage 41 are disposed above the paper winding direction, and the upper supply unit 16A and the adhesion stage 41 are disposed above the paper winding direction. If the pair of bonding platforms are disposed at the same position in the winding direction, the protective sheets 6A and 6B will not be simultaneously adhered to the insulating sheets located at the bonding platforms. Fig. 3 shows an example in which the protective paper 6 A is supplied shortly before the lead wire 3 Μ reaches the lower adhesion platform 4 1 , and the protective paper 6B is adhered to the insulating paper 5B and rolled up. At the same time, the protective paper 6A is supplied shortly before the lead 3P reaches the lower adhesion stage 41, and the protective paper 6A is adhered to the insulating paper 5A. In Fig. 1, the supply device 16 is in a state where the paper winding device 15 can wind up the paper, wherein the suction head cylinder 36 is operated to attract the arm member 35 and the suction head member 34. Moving upward in the direction of the arrow B away from the bonding platform 41, the paper winding device 15 can roll up a predetermined amount of the electrode • foil 4 and insulating paper 5 as shown in Fig. 3. - according to the present invention, the protective paper 6 is supplied onto the insulating paper 5 in a direction substantially perpendicular to the direction in which the electrode foil 4 and the insulating paper 5 are fed up, and the protective paper 6 is on the electrode foil 4 and insulated Before the paper 5 was rolled up, it was -34-200929287 first rolled up. In Fig. 2, the supply device i 6 is in a state in which the protective paper 6 is supplied, wherein the suction head supply cylinder 38 is operated so that the suction head cylinder can be moved in the rightward direction (as indicated by the arrow C) The body 36, the attraction arm member 35 and the attraction head member 34. Next, the attraction head member 34 is parked directly above the guide platform 40. Then, the supply device 16 is operated so that the upper and lower rollers 26 can be paired, thereby sandwiching and moving the protective paper in the left direction (as indicated by the arrow D). Therefore, a predetermined amount of the protective sheet 6 is conveyed so that any length of the protective sheet 6 can be taken off for covering the flat portion 3b of the lead 3. As shown, the protective sheet 6A is moved until the free end 6c reaches a position where the protective sheet is attracted by the attracting head member 34. Therefore, the protective paper 'is supplied as it is taken out from the paper roll 6b, and is guided by the guide rollers 23 and 25 while the roll 22 is being rotated. In Fig. 13, the supply unit 16 is in a state of attracting a protective sheet, wherein the protective sheet has a length region which is superposed on the attraction head member 34 and is attracted thereto by a vacuum pulling force. W In the Fig. 4', the supply unit 16 is in a state of being clamped and cut, in which the guide stage 40 is moved upward and the protective sheet 6A is sandwiched from the lower side. Subsequently, the cutter operating cylinder 3 3 is operated to move the cutter 39 downward in the direction of the arrow E together with the cutter holder 28 against the action of the compression springs 3, thereby cutting the protective sheet 6A. - In Fig. 15, the supply device 16 is in a state in which the protective sheet 6 A is supplied, wherein the suction head member is supplied to the cylinder 38 so that the suction arm can be moved in the left direction (as indicated by the arrow E) The piece 35 and the suction head piece 34, and -35-200929287, are cut to the attraction head piece 34 as soon as the cut amount of the protective paper 6A. Therefore, the protective paper 6A together with the attraction head member 34 is conveyed to the protective paper adhering platform 41. In Fig. 16, the 'feeding device 16 is in the state of loosening the cutter 39, wherein the cutter operating cylinder 33 does not function, and the cutters 39 are moved upward in the arrow direction G by the compression springs 32. . Therefore, the cutter 39 is released' while the suction head member 34 is positioned directly above the protective paper adhering platform 41 together with the cut amount of the protective paper 6A. Therefore, one set of protective paper supply cycles is completed and the supply device 16 is returned to the preliminary state as shown in Fig. 9. In Figs. 17 to 22, according to the present invention, the adhesive 13 is partially/applied to the protective paper 6 in a different form, instead of being coated on the entire surface of the protective paper 6. Therefore, the amount of the adhesive 13 is remarkably saved while obtaining sufficient adhesiveness to avoid an increase in ESR (equivalent series resistance). Subsequently, the characteristics of the electrolytic capacitor 11 which is one of the examples of the electric parts of the present invention will be described with reference to Figs. 23 to 26. With regard to the embodiment shown in Fig. 23 (i.e., electrolytic capacitor 11), a sheet of protective paper 6A having a width slightly wider than the width of the flat portion 3b of the positive lead 3P is adhered to the insulating paper 5A so as to protect the positive The flat portion 3b of the lead 3P. The other side - a sheet of protective paper 6B having a width wider than the width of the flat portion 3b of the negative lead 3M is adhered to the insulating paper 5 B so that the flat portion 3b of the negative lead 3M can be protected. The lengths of the protective sheets 6A and 6B in the winding direction correspond to the widths of the protective sheets 6A and 6B supplied by the paper supply unit 16 as shown in Fig. 8 (Fig. 4). Since the electrolytic capacitor winding device 15 is set to confirm the positions of the leads 3, so that the paper supply device 16 can be separately supplied with narrow widths before being wound up on the insulating paper by the areas where the leads are adhered. The protective paper 6 is placed on the insulating paper 5, so that the paper supply device 16 can supply the protective paper 6 having a narrow width at a good timing to position the flat portion 3b of the lead 3 at the center of the protective paper having a narrow width. Therefore, two sheets of protective paper 6 having a narrow width can be reasonably adhered to the two sheets of insulating paper, respectively, and one side of the flat portion 3b of the leads can be sufficiently protected. As a result, the amount of the protective paper 6 can be saved as compared with the conventional embodiment shown in Fig. 27, and the diameter of the capacitor element 12 can be reduced - and the increase in ESR can be avoided. Therefore, an electrolytic capacitor 11 which is excellent in electrical properties can be obtained. Regarding the embodiment of the electrolytic capacitor 11 shown in Fig. 24, the electrolytic capacitor 11 has two sheets of protective paper 6 in addition to the protective sheets of the capacitor element 12 shown in Fig. 23. That is, the same © protective paper 6A having a narrow width is adhered to the insulating paper 5 B which is in contact with the opposite side faces of the flat portion 3b of the positive lead 3P, and the same protective paper 6B having a narrow width is adhered to and negative. The opposite side faces of the flat portion 3b of the lead 3M are in contact with the insulating paper 5A. Thus, for the flat plate portion 3b of the lead wire 3, two sheets of protective paper having a narrow width are used so that both side faces of the flat plate portion 3b of the lead wire 3 can be protected. Although the proportion of the protective paper in the capacitor element 12 is small, both sides of the flat portion 3b of the lead 3 can be sufficiently protected, and the diameter of the capacitor element 12 and its ESR are prevented from being increased. Therefore, an electrolytic capacitor 11 excellent in electrical properties - 37 - 200929287 can be obtained. Regarding the embodiment of the electrolytic capacitor 11 shown in Fig. 25, a sheet of protective paper 6A having a wide width is adhered to the insulating paper 5A while extending between the flat portions 3b of the leads 3 so that the positive lead 3P can be protected. One side of the flat portion 3b and the opposite side of the flat portion 3b of the negative lead 3M, and one sheet of protective paper 6B having a narrow width is adhered to the insulating paper 5B so that only one of the flat portions 3b of the negative lead 3M can be protected. side. It is to be appreciated that, similarly to the conventional capacitor element, the proportion of the protective paper in the capacitor element © 12 is increased by the protective paper 6A having a wide width. However, in the manufacturing process, it is reasonable to supply one sheet of protective paper 6A having a wide width and another sheet of protective paper 6B having a narrow width before the capacitor element 12 is rolled up. Thus, one side of the flat portion 3b - of the positive lead 3P and both sides of the flat portion 3b of the negative lead 3M can be protected by three sheets of protective paper without significantly increasing the ESR. Therefore, an electrolytic capacitor 11 excellent in electrical properties can be obtained. Regarding the embodiment of the electrolytic capacitor 11 shown in Fig. 26, which is similar to the case shown in Fig. 25, a sheet of protective paper 6A having a wide width is stretched between the flat portions 3b of the leads 3 while being Adhered to the insulating paper 5A' so that one side of the flat portion 3b of the positive lead 3P and the opposite side of the flat portion 3b of the negative lead 3M can be protected, and one sheet of the protective sheet 6B having a narrow width is adhered to the insulating paper 5B. In order to protect the opposite side of the flat portion 3b of the positive lead -3P, and another protective sheet 6B having a narrow width is adhered to the insulating paper 5B so that one side of the flat portion 3b of the positive lead 3M can be protected. -38- 200929287 It is to be recognized that, similarly to the conventional capacitor element, the proportion of the protective paper in the capacitor element 12 is increased by the protective paper 6A having a wide width. However, in the manufacturing process, it is reasonable to supply a protective sheet 6A having a wide width and another protective sheet 6B having a narrow width just before the capacitor element 12 is wound up. Thus, both side faces of the flat portion 3b of the positive lead 3P and both side faces of the flat portion 3b of the negative lead 3M can be protected by three sheets of protective paper without significantly increasing the ESR. Therefore, the electrolytic capacitor 11 excellent in electrical properties can be obtained. The present invention has been described with reference to the embodiments of the electrolytic capacitor 11 as an electronic component. However, the present invention is obviously not limited to the electrolytic capacitor 11, but includes any type of capacitor, and if the capacitors are of the type of a roll-up type, such as a film capacitor and the like. The invention described herein is obviously capable of being varied in many ways. Such variations are considered to be within the scope and spirit of the invention, and all such modifications are intended to be included within the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS Figures 1 through 26 are diagrams relating to embodiments of the present invention. Fig. 1 is a perspective view of an electrolytic capacitor which is shown as one of the examples of the electronic component of the present invention. Fig. 2 is a perspective view of the electrolytic capacitor partially cut away to show its internal structure. Figure 3 is a perspective view of the electrode foil and the insulating paper, and the electrode foil and the insulating paper are conveyed to be transported to the insulating paper in a direction perpendicular to the direction in which the insulating paper is conveyed substantially -39-200929287 It can be rolled up together at the time. Fig. 4 is a plan view of an insulating paper having a protective paper adhered thereto and an electrode foil having a lead wire fixed thereto, wherein the electrode foil is protected by a protective paper adhered to the insulating paper. Figure 5 is a side view of the lead, partially present in a vertical cross-section to show the flat portion of the lead protected by the protective paper. Figure 6 is a side view of the lead wire, and the lead wire is partially taken in a vertical section to show the flat portion of the lead wire protected by the insulating paper, the insulating paper having the protective paper adhered thereto by the adhesive The adhesive is applied to the entire surface of the protective paper. Figure 7 is a side view of the lead wire, and the lead wire is partially taken perpendicularly to show the flat portion of the lead which is protected by the insulating paper, the insulating paper having the protective paper adhered thereto by the adhesive And the adhesive is applied to the surface of the protective paper portion. Figure 8 is a perspective view of a device for supplying protective paper. Figures 9 through 16 show various states for supplying protective paper. Fig. 9 is a side view of a necessary portion of the protective paper supply device showing the standby state of the supply device. The first drawing is a side view of a necessary portion of the protective paper supply device, which shows the state in which the supply device is adhering the protective paper to the insulating paper. 'Fig. 1 is a side view of a necessary portion of the protective paper supply device, showing a state in which the electrode foil and the insulating paper can be wound up. Fig. 12 is a side view of a necessary portion of the protective paper supply device, showing the state for supplying the protective paper. -40- 200929287 Fig. 1 3 is a side view of a necessary portion of the protective paper supply device, showing a state for starting the adsorption of the protective paper. Fig. 14 is a side view of a necessary portion of the protective paper supply device, showing a state for cutting and clamping the protective paper. The '15' is a side view of a necessary portion of the protective paper supply device, which shows the state for supplying the protective paper. Fig. 16 is a side view of a necessary portion of the protective paper supply device, showing a state for releasing a cutter. © Figures 17 to 22 show a protective paper having an adhesive applied thereto in a different form. Fig. 17 is a plan view of the protective paper having the adhesive applied thereto, and the form of application is a line extending continuously in the supply direction of the protective paper and at the center in the width direction of the protective paper. Fig. 18 is a plan view of a protective sheet having an adhesive applied thereto, and the form of application is a plurality of intermittent oblique lines extending in the supply direction of the protective paper. © Fig. 19 is a plan view of a protective paper having an adhesive applied thereto, and the form of application is a plurality of intermittent vertical lines extending in the supply direction of the protective paper. Figure 20 is a plan view of a protective paper having an adhesive applied thereto, and the coating is formed in such a manner that two are spaced apart from each other in the width direction and extend in the direction in which the protective paper is conveyed. Straight line. Figure 21 is a plan view of a protective sheet having an adhesive applied thereto, and the form of the coating is formed by a plurality of stripes extending from the supply side of the protective paper - 41 - 200929287 . Fig. 22 is a plan view of the protective paper having the adhesive applied thereto, and the form of the coating is in the form of a plurality of scatters extending in the supply direction of the protective paper. Figures 23 to 26 show side views of the electrolytic capacitor element, which is presented in a vertical section and has a protective paper to which it is not adhered in the same state. Fig. 2 is a side view of the electrolytic capacitor element, and the element includes a protective paper to which the two (2) sheets are adhered and having a narrow width, so that each protective paper can protect each of the positive and negative leads One side of the flat portion of the person. Figure 24 is a side view of an electrolytic capacitor component, and the component includes a protective paper having four- (4) sheets adhered thereto and having a narrow width, so that the protective paper can protect the positive and negative lead plates, respectively. Both sides of the department. Figure 25 is a side view of an electrolytic capacitor element including a sheet of protective paper adhered thereto and having a wide width so as to protect one side of the flat portion of the positive and negative leads, respectively; and including a sheet adhered thereto ® Protective paper with a narrow width on it so that only the flat portion of the negative lead can be protected. Figure 26 is a side view of an electrolytic capacitor element including a piece of protective paper adhered thereto and having a wide width so as to separately protect one side of the flat portion of the positive and negative leads; and including two pieces A protective sheet adhered thereto and having a narrow width so that the flat portions of the positive and negative leads can be separately protected. Figure 27 is a side view of a conventional electrolytic capacitor element in which a protective sheet of a wide width is used in a sheet of -42 - 200929287 so as to extend between the flat portions of the positive and negative leads, thereby protecting the flat plate of the positive and negative leads [Main component symbol description] 1 Electrochemical capacitor 2 in one example of electronic parts Example 3 Lead 3a Projection 3b Flat plate section 3c Foil fixing edge 3d Puncture hole 3P Positive lead 3M Negative lead. 4 Electrode foil 4P Positive electrode case 4负 Negative electrode box 5
5Β 6 6 a 6b 6 c 6 A 6B 絕緣紙 絕緣紙 絕緣紙 保護紙 黏附側 保護紙捲 自由端 保護紙 保護紙 -43 - 200929287 11 電子零件範例中之一例的電解電容 12 元件 12a 捲端 13 黏著劑 13a 黏著劑塗敷側 1 3 A 寬度方向上之中心處的直線 1 3B 由延伸在供給方向上之諸斷續斜線所構成之梯級 1 3C 由延伸在供給方向上之諸斷續垂線所構成之梯級 © 13D 一對在寬度方向上彼此相隔開之直線 1 3E 由延伸在供給方向上之諸斷續斜線所構成之格子 1 3 F 多個規則排列且斷續延伸於寬度方向上之散點 14 黏著帶 . 15 用於捲起電解電容器之裝I 16 用於供給保護紙之裝置 1 6 A 用於供給保護紙之裝置 1 6B 用於供給保護紙之裝置 ❹18 基部 19 臂件 20 捲筒支架 2 1 捲筒軸 • 22 捲筒 23 導引滾輪 24 供給臂件 25 導引滾輪 -44- 供給滾輪 刀具座 導引軌道 用於供給保護紙之平台 導引軸 壓縮彈簧 用於上下移動刀具之圓柱體 吸引頭件 吸引臂件 吸引頭件圓柱體 吸引頭件 刀具 導引平台 保護紙黏附平台 箭頭 箭頭 箭頭 箭頭 箭頭 箭頭 箭頭 經切割之保護紙的長度(在捲起方向上之寬度) 保護紙之寬度(在捲起方向上之長度) -45 -5Β 6 6 a 6b 6 c 6 A 6B Insulation paper Insulation paper Insulation paper Protective paper Adhesive side protection paper roll Free end protection paper protection paper -43 - 200929287 11 Electrolytic capacitor 12 in one example of electronic parts example 12A Roll end 13 Adhesive Agent 13a Adhesive application side 1 3 A line at the center in the width direction 1 3B The step 1 3C formed by the intermittent oblique lines extending in the supply direction is composed of intermittent perpendicular lines extending in the supply direction Cascade © 13D A pair of straight lines 1 3E spaced apart from each other in the width direction. A lattice 1 3 F composed of intermittent oblique lines extending in the supply direction, a plurality of regularly arranged and intermittently extending in the width direction 14 Adhesive tape. 15 For the winding of electrolytic capacitors I 16 Device for supplying protective paper 1 6 A Device for supplying protective paper 1 6B Device for supplying protective paper 基 18 Base 19 Arm 20 Roll holder 2 1 Reel shaft • 22 Reel 23 Guide roller 24 Supply arm member 25 Guide roller -44- Supply roller tool holder Guide rail for platform guide shaft compression for protection paper Spring for moving the tool up and down the cylinder to attract the head piece to attract the arm piece to attract the head piece cylinder body to attract the head piece tool guide platform to protect the paper adhesion platform arrow arrow arrow arrow arrow arrow cut the length of the protection paper (in the direction of the roll up Width of the top) The width of the protective paper (the length in the winding direction) -45 -