452642 A7 B7____ 五、發明説明(1 ) 本發明係關於電子機器冷卻用之平面型散熱管,液體 冷凝機構及容器。 按,將年年增大之電子機器之半導體晶片之發熱予以 有效散熱之手段之一乃有散熱管。尤其自確保晶片表面之 受熱面及熱擴散之點視之,散熱管當中之平面型散熱管則 頗受注目。 散熱管係由內部中空之容器(container )所成,該容 器內呈被減壓之真空狀態,且被裝入適量液體作爲作動流 體。當容器外部之某部位受熱時,存在於受熱部位之液體 即蒸發,並在此吸收蒸發潛熱。蒸氣乃因壓力差充滿於容 器內,且於容器內面之受熱部以外地方凝聚,並放出蒸發 潛熱β經凝聚之液體則藉內部管壁預先具備之網狀物,鐵 絲等所成之所謂液體冷凝機構之液體還流機構返回蒸發部 *再於蒸發部蒸發。而反覆上述循環結果即有熱擴散至容 器全體之效果。 經濟部智慧財4局員工消費合作社印製 (請先Μ讀背面之注意事項寫本頁) 將作動液注入於容器,且在除去作動液以外之氣體予 以封閉之最後工程完成散熱管。爲除去氣體不管是採取令 作動液沸騰之方法或採取以真空泵予以引出之方法,散熱 管容器乃需具備封閉部,且該部份至最後工程爲止應對外 開放。 一般之散熱管係如其名呈管體狀,此時管體一端即爲 封閉部。經真空注液或注液脫氣後歛縫該部份,之後予以 熔接封閉則是一般性之方法。 但,散熱管並非管體狀而是平面狀時,就無法適用上 本紙乐尺度適用中國國家揉準(CNS > Α仙I格(2丨0><297公釐)-4· 經濟部智慧財/1局員工消費合作社印製 2 642 A7 ____B7_ 五、發明説明(2 〉 述方法。圖1 4爲平面型散熱管之習知封閉部顯示圖。如 圖1 4所示,係將上側板材1 〇 4 *下側板材1 〇 5及側 面板材1 0 6由焊接予以組合形成爲六面體。此時將細管 1 0 7插入於側面板材1 〇 6形成封閉部。. 其次在圖1 1顯示習知平面型散熱管。該平面型散熱 管則由鋁製擠壓成型之容器1 0 1所成。然而圖1 1所示 容器雖可由鋁金屬予以成型部困難以銅金屬予以成型。又 ,水爲優異之作動液體。唯在由鋁金屬成形之容器乃有無 法以優異之作動液體使用水之問題,即鋁與水會起反應致 劣化散熱管之功能。 爲解決上述問題,如圖1 2或圖1 3所示,係採用由 上側板及下側板所成容器之空洞部插設網狀物之平面型散 熱管。圖1 2所示之容器由於以銅予以成形,故能以優異 作動液體而使用水。但在圖1 2所示平面型散熱管,欲將 網狀物穩定插入於容器內較爲困難,而有散熱管特性產生 雜亂不齊之問題。 且習知之網狀物,編組(物),鐵絲等有如下問題。 亦即如圖6所示•使用鐵絲時,由於其剖面形成之幾何性 銳角隅部份(圖中Α所示部份)沿鐵絲軸線一直連續,致 可期盼作動液之優越環流。但雖能將鐵絲收納於散熱管之 容器內,卻構造上欲確實予以固定於壁面頗爲困難,而鐵 絲呈浮在中空之狀態則無法達成液體冷凝機構之作用。又 在平面型散熱管,其作動液之環流方向並非固定方向,依 照散熱管之放置形態,有時被要求須還流於平面之任何方 本紙張尺度迫用中國國i^i (CNS) A4規淋(210X297公釐) — ^I.--^----裝------訂------線 (請先W讀背面之注意事項,‘4寫本頁) 452642 A7 B7 經濟部智慧財是局員工消黄合作社印製 五、發明説明(3 ) 向。 又•如使用網狀物或編組時I其作動液之環流方向並 不似鐵絲時一致,必然具有與較向交叉之構成因素,反而 對軸向還流構成障礙。 又,使用上述習知之液體冷凝機構之平面型散熱管更 有如下問題》 亦即如上述,在電子機器之半導體晶片等之冷卻技術 領域,係處於小型化機器全體並提高組裝密度之傾向,發 熱密度飛躍性的增大。然而習知方式之液體冷凝機構則無 法充份對應之。 又,習知之封閉部亦有如下問題。即如上述,電子機 器之半導體晶片等之冷卻技術領域,係處於機器全體小型 化並提高組裝密度之傾向,致平面型散熱管在厚度方向亦 受相當大之限制。例如,在將散熱管全體之高度設爲 1mm,壁厚設爲〇 . 2mm之定規,如圖1 4所示•插 入於側面板材之細管10 7外徑即呈0.61111114,其內 徑呈0 . 4mm0。因此以目前市場上出售之注射針乃無 法注入液體。且將細管插入於側面板材,以致細管會突出 於容器外。並由於細管位於容器側面,故在抽取氣體時有 氣體殘留於角落之問題。 爰是,本發明之目的係在提供一種可有效冷卻發熱密 度飛躍性增大之電子機器之半導體晶片等,且能更簡便予 以封閉之容器及薄型平面型散熱管以及液體冷凝機構。 而爲解決上述習知之問題,本案發明人等經銳意硏究 " ^ ί ~"丨 f 訂™- I 1 線 (請先閲讀背面之注意事項,琪寫本頁) 本紙朵尺度適用中國國家標率(CNS ) A4規格(210X297公釐) -6- 經濟部智慧財產局負工消費合作社印製 45 2642 A7 _B7_ 五、發明説明(4 ) 結果獲得如次見識。即,液體冷凝機構重要的乃在具有充 份之毛細管吸力。該毛細管吸力通常將網狀物等沿管壁予 以配設則能獲之’但以其剖面之幾何學性銳角隅部份一致 於還流方向連紋之構造最爲理想。亦即,將一條鐵絲沿壁 面加以配設時,係呈圖6所示剖面形狀。在圖6所示情形 有肋於還流者爲A部位。不管網狀物或編組物以微觀言之 均屬鐵絲之集合體,致只要能固定於散熱管壁面即具有A 部位,對液體還流十份有效果。 因此,乃察覺在形成容器之一方設置凸起群,藉凸起 群將網狀物等固定容器內壁,則可確保蒸氣流通用空間同 時,由於網狀物密接於容器內壁,致容器內壁面與構成網 狀物之圓形斷面線材所成之角度呈銳角,而具有卓越之液 體環流效果》 又,察覺將鐵絲沿X方向及Y方向以格子狀予以組合 之網狀物予以緊貼於容器內壁,致容器內壁面與網狀物構 造材料之斷面圓形鐵絲所成角度呈銳角,而有卓越之液體 環流效果》 更察覺在薄銅板中央部形成與外周部具段差之凹陷部 •且在外周部設置與外部相通之作爲封閉部之通路時,僅 將該部份予以歛縫即能封閉之,卻又形成於角隅部,故在 抽取氣體時氣體不易殘留於內部。 本發明係依據上述見識·察覺所開發者,本發明之液 體冷凝機構之第一形態則是被收容於具薄型平面型散熱管 之經密閉減壓空洞部之容器內,且由平坦板材及捲繞於該 本纸張尺度適用中國圉家標準(CNS ) A4規格(2)0X297公釐)-7 - I-„---^------^------1T------^ {請先閲讀背面之注意事項V/ \寫本頁) 452642 A7 B7 五、發明説明(5 ) 平坦板材之線材所成之液體冷凝機構。 <請先閱讀背面之注意事項^寫本頁) 本發明之液體冷凝機構之第二形態係爲上述平坦板材 由至少一方設有多數凸起之兩相對穿孔板予以組合呈具上 述凸起高度程度間隙而形成之穿孔板單元所成爲特徵。 本發明薄型平面型散熱管之第一形態係爲由下述構件 所成之薄型平面型散熱管。 (1 )以所定間隔互相平行配置於同一平面上之金屬 製線材,與 (2 )由分別接觸於上述線材並挾持該線材之相向銅 製薄板所成上側板材及下側板材予以構成且具經密閉減壓 空洞部之容器,與 (3 )被收容於上述容器內作爲作動流體之水》 本發明薄型平面型散熱管之第二形態乃爲由下述構件 所成之薄型平面型散熱管。 (1 )以所定間隔互相平行配置於同一平面上之金屬 製線材,及被配置與該線材呈交叉,且以所定間隔互相平 行配置於另外線材所成之線材群,與 經濟部智慧財產局員工消費合作社印製 (2)由分別接觸於線材群並挾持該線材群之相向銅 製薄板所成上側板材及下側板材予以構成且具密閉減壓空 洞部之容器,以及 (3 )被收容於容器內作爲作動流體之水。 本發明薄型平面型散熱管之第三形態則是由下述構件 所成之薄型平面型散熱管。 (1)由銅製薄板所成之上側板材及由銅製薄板所成 本紙法尺度速用中國國家標车(CNS)A4*t格(210X297公釐) -8- 452642 A7 ___B7_ 五、發明説明(6 ) (锖先閱讀背面之注意事項v V寫本育) 之下側板材予以形成,且具有密閉減壓空洞部之容器,與 (2 )被收容於上述容器內,並由平坦板材及捲繞於 該平坦板材之線材所成之液體冷凝機構*以及 (3 )被收容於上述容器內之作動流體。 本發明薄型平面型散熱管之第四形態爲由下述構件所 成之薄型平面型散熱管。 (1 )由銅製薄板所成上面板材及由銅製薄板所成下 側板材予以形成,且具有密閉減壓空洞部之容器,與 (2 )上述上側板材或上述下側板材任一方之位於上 述容器內之面配設線材所形成之液體冷凝機構,以及 (3 )被收容於上述容器內之作動流體。 本發明薄型平面型散熱管之第五形態爲由下述構件所 成之薄型平面型散熱管。 (1 )由銅製薄板所成上側板材及由銅製薄板所成下 側板材予以形成,且上述上側板材或上述下側板材之一側 面設有多數凸起,而具密閉減壓空洞部之容器,與 經濟部智慧財產局負工消費合作社印製 (2 )被收容於上述容器內,且受上述多數凸起擠壓 被固定於上述容器之相向內壁,而由平坦板材及捲繞於該 平坦板材之線材所成之液體冷凝機構,以及 (3 )被收容於上述容器內之作動流體。 本發明薄型平面型散熱管之第六形態爲由下述構件所 成之薄型平面型散熱管》 (1 )由銅製薄板所成上側板材及由銅製薄板所成下 側板材予以形成,且具有密閉減壓空洞部之容器,與 本紙張尺度適用中國圉家標準(CNS ) Α4規格(210χ:297公釐) -9 - 經濟部智慧財產局Μ工消費合作杜印製 A7 _B7_______ 五、發明説明(7 ) (2 )被收容於上述容器內,且由至少一方學有多數 凸起之兩相向穿孔板予以組合形成呈具有上述凸起高度程 度間隙之穿孔板單元、及捲繞於上述穿孔板單元之線材所 成之液體冷凝機構,以及 (3 )被收容於上述容器內之作動流體。 本發明薄型平面型散熱管之第七形態係爲與分別配設 於上述液體冷凝機構之上述穿孔板單元外側兩面之上述線 材呈交叉狀再予以配設線材爲特徵。 本發明薄型平面型散熱管之第八形態爲由下述構件所 成之薄型平面型散熱管。 (1 )由以所定間隔互相平行配設於同一平面上之金 屬製線材,及與該線材呈交叉予以配置,且以所定間隔互 相平行配設於同一平面上之其他線材所成之線材群,與 (2 )由分別接觸於上述線材群|在中央部設有可收 容上述線材群之凹陷部並角隅部形成有自上述凹陷部通至 外部之通路之銅製薄板所成上側板材及以平坦銅製薄板所 成下側板材加以構成,且接合外周部予以封閉上述通路而 具有密閉減壓空洞部之容器,以及 (3 )作爲作動流體被收容於上述容器內之水* 本發明薄型平面型散熱管之第九形態爲由下述構件所 成之薄型平面型散熱管。 (1 )由中央部形成有凹陷部且角隅部設有自上述凹 陷部通至外部之通路之銅製薄板所成上側板材,及以平坦 銅製薄扳所成下側板材加以形成,且接合外周部以封閉上 ΙΓ---^-------裝------•訂-------線 (請先聞讀背面之注意事項v 寫本頁) 本紙張尺度適用中國國家搮率(CNS > Α4規格(210X297公釐) -1〇 - 452642 A7 B7 五、發明説明(8 ) 述通路而具有密閉減壓空洞部之容器,與 (讀先閱讀背面之注意事項·/寫本頁) (2 )被收容於上述容器內,並由平坦板材及捲繞於 上述平坦板材之線材所成之液體冷凝機構,以及 (3 )被收容於上述容器內之作動流體。 本發明薄型平面型散熱管之第十形態爲由下述構件所 成之薄型平面型散熱管。 (1 )由中央部形成有凸陷部且角隅部設有自上述凹 陷部通至外部之通路之銅製薄板所成上側板材及以銅製薄 板所成下側板材加以形成*且上述上側板材或上述下側板 材之一側面設有多數凸起,並接合外周部以封閉上述通路 而具有密閉減壓空洞部之容器,與 (2 )被收容於上述容器內,且受上述多數凸起擠壓 被固定於上述容器之對向內壁,而由平坦板材及捲繞於該 平坦板材之線材所成之液體冷凝機構,以及 (3 )被收容於上述容器內之作動流體。 本發明薄型平面型散熱管之第十一形態爲由下述構件 所成之薄型平面型散熱管。 經濟部智慧財凌局負工消費合作社印製 (1)由中央部形成有凹陷部且角隅部設有自上述凹 陷部通至外部之通路之銅製薄板所成上側板材及以銅製薄 板所成下側板材加以構成,且接合外周部致封閉上述通路 而具有密閉減壓空洞部之容器,與 (2 )被收容於上述容器內,且由至少一方設有多數 凸起之兩相對穿孔板予以組合形成具有上述凸起高度程度 間隙之穿孔板單元,及捲繞於該穿孔板單元之線材所成之 本紙張尺度速用中國國家揉準(CNS ) A4规格(210X297公釐) -11 - 經濟部智慧財產局負工消貪合作社印製 452642 A 7 B7___ 五、發明説明(9 ) 液體冷凝機構,以及 (3 )被收容於上述容器內之作動流體。 本發明薄型平面型散熱管之第十二形態則以與各被配 設於上述液體冷凝機構之上述穿孔板單元外側兩面之上述 線材呈交叉再予以配設線材爲特徵。 本發明薄型平面型散熱管之第十三形態乃以上述上側 板材由擠製加工予以一體形成爲特徵。 本發明平面型散熱管之容器之第一形態係由中央部具 凹陷部且外周部之一角隅部設有連通至外部之通路之平板 與其他平板所予以組合,並藉使用焊劑貼合上述外周部以 封閉上述通路,而於中央部形成有密閉空間之平面型散熱 管之容器。 本發明平面型散熱管之容器之第二形態則以上述平板 與其他平板具有對應於上述中央部及外周部之凹陷部及通 路爲特徵。 本發明薄型平面型散熱管之製造方法之一形態爲具下 述步驟之薄型平面型散熱管之製造方法。 (1) 準備以所定間隔互相平行配置於同一平面上之 金屬製線材· (2) 將分別接觸於上述線材且在與上述線材接觸部 份塗敷焊劑之由相對銅製薄板所成上側板材與下側板材* 以挾住上述線材地予以配設呈假裝配之容器, (3 )將假裝配之上述容器加熱至所定溫度,形成上 述線材,上側板材及下側板材一體化之密閉容器1 „ ; I 裝 I . 訂 線 (請先閲讀背面之注意事項tsv寫本頁) 本紙張尺度適用中國國家梯準(CNS > A4規格(2丨0X297公釐> -12 - 452642 A7 _ B7 五、發明説明(10 ) (4 )將上述容器內部予以減壓,並作爲作動流體將 水予以裝入.。 (請先閲讀背面之注意事項··寫本頁) 本發明液體冷凝機構之其他形態乃以上述液體冷凝機 構之上述平坦板材由端部設有欠口或支柱之圓形或四角形 以上多角形狀所成|且上述線材以上述欠口或支柱爲折返 點被捲繞配設於上述平坦板材一面爲特徵。 本發明液體冷凝機構之其他形態係以上述液體冷凝機 構之上述平坦板材由具多數個穿孔之穿孔板所成爲特徵》 本發明液體冷凝機構之其他形態則以與上述穿孔單元 外側兩面分別配設之上述線材呈交叉將再予以配設線材爲 特徵》 本發明薄型平面型散熱管之其他形態係以於上述線材 與上述上側'板材或上述下側板材之間I上述線材與上述其 他線材之間,上述線材群與上述上側板材或上述下側板材 之間,更設有網狀物爲特徵。 經濟部智慧財產局員工消費合作社印製 本發明薄型平面型散熱管之其他形態亦以上述液體冷 凝機構之上述平坦板材由端部設有欠口或支柱之圓形或四 角形以上多角形狀所成,且上述線材以上述欠α或支柱爲 折返點被捲繞配設於上述平坦板材一面爲特徵。 本發明薄型平面型散熱管之其他形態尙以上述液體冷 凝機構之上述平坦板材由圓形或四角形以上多角形狀所成 ,且上述線材被配設於上述平坦板材兩面爲特徵。 本發明薄型平面型散熱管之其他形態乃以上述液體冷 凝機構之上述平坦板材料由具多數穿孔之穿孔板所成爲特 本紙張尺度適用中國國家捸準{ CNS ) Α4规格(210X297公釐)-13 - 4 經濟部智慧財/1局員工消費合作社印製 5 2642 A7 ___B7 五、發明説明(彳1 ) 徵。 本發明薄型平面型散熱管之其他形態係以與配設於上 述液體冷凝機構之上述平坦板材一面或兩面之上述線材呈 交叉更予以配設線材爲特徵。 本發明薄型平面型散熱管之其他形態則以上述上側板 材或上述下側板材之至少一方在中央部具有凹陷部,且藉 將上述上側板材及上述下側板材予以組合並接合外周部, 而形成中央部具有上述空洞部之上述容器爲特徵。 本發明薄型平面型散熱管之其他形態尙以上述液體冷 凝機構之上述穿孔板單元由圓形成四角形以上多角形狀所 成,且上述線材被配設於上述穿孔板單元外側兩面爲特徵 〇 〔圖示之簡單說明〕 圖1爲將本發明板型散熱管之一形態予以分解之說明 圖。 圖2爲圖1線材之其他配置要領顯示圖。 圖3爲本發明液體冷凝機構之一形態顯示圖。 圖4爲本發明液體冷凝機構之其他形態顯示圖。 圖5爲本發明板型散熱管之一形態顯示圖。 圖6爲容器之一板材與線材接觸部位剖面顯示圖《 圖7爲本發明板型散熱管之其他形態顯示圖。 圖8爲本發明液體冷凝機構之其他形態顯示圖。 圖9爲本發明容器之封閉部槪略顯示立體圖。 本紙張尺度適用中國國家揉準(CMS ) A4规格(210X297公釐)-14 - : L 裝------"订------線 (請先閱讀背面之注意事項厂/寫本頁) 452642 經濟部智慧財產局員工消費合作社印製 2,9 :棒條 5:兩棒條群 1 1,1 4 :平板 15:上側平板 1 8,2 3 :穿孔板 2 0 : Y方向金屬線 2 5 :下側板材 3 1 :外周部 3 3 :角隅部 A7 _____B7_ 五、發明説明(12 ) 圖1 0爲圖9容器之封閉部平面圖。 圖11爲習知鋁製容器顯示圖。 圖1 2爲習知散熱管之剖面顯示圖。 圖1 3爲習知之其他散熱管之剖面顯示圖。 圖1 4爲平面型散熱管之習知封閉部顯示圖》 〔元件對照表〕 1 * 3 :銅製薄平板 4,6,7 :板材 8 :網狀物 1 2 ’ 1 7 :凸起 1 6 :另側平板 1 9 : X方向金屬線 2 1 :上側板材 2 2,2 4 :金屬線 3 2 :中央部 發明之較佳實施形態 茲參照圖示說明本發明。 本發明之薄型平面型散熱管之一形態,係由(1 )以 所定間隔互相平行配置於同一平面上之多數條金靥製線材 ,與(2 )分別接觸於上述線材並挾持該線材之相向銅製 薄板所成之上側板材及下側板材予以構成且具有密閉減壓 空洞部之容器,以及(3 )被收容於上述容器內作爲作動 本纸張尺度適用中國國家標準( 210X297公釐) -15 - ~ I,---^------^-------ΪΤ------0 (讀先閱讀背面之注意事項一V、寫本頁) 經濟部智慧財產局8工消費合作社印製 452642 A7 B7____ 五、發明説明(13) 流體之水所成。 又,本發明之薄型平面型散熱管之一形態亦可由(1 )以所定間隔互相平行配置於同一平面上之多數金屬製線 材,及與上述線材呈予以配設且以所定間隔互相平行配置 於同一平面上之多數另外線材所成之線材群,與(2 )分 別接觸於上述線材群並挾持該線材之相向銅製薄板所成之 上側板材及下側板材予以構成而具密閉減壓空洞部之容器 ,以及(3 )被收容於上述容器作爲作動流體之水所成》 另,本發明薄型平面型散熱管之一形態更可在上述線 材與上述上側板材或上述下側板材之間,上述線材與上述 另外線材之間,上述線材群與上述上側板材或上述下側板 材之間裝設網狀物。 就上述本發明薄型平面型散熱管之形態更詳細說明如 下。如圖1所示,將多數棒條2例如予以平行排列,予先 在接觸部位塗抹焊劑,並以兩片銅製薄平板1 * 3挾持平 行排列之棒條,再移送至爐內,則不限定材質爲鋁,實質 上可獲得圖11所示型式之容器。位於最外之棒條爲形成 容器之外壁,故該部份替代圓形棒條亦可使用方形棒條。 依據上述本發明之容器,針對圖1 1所示習知容器之 隔開構件呈垂直豎立,由於棒條2之圓弧周面與平板1 , 3所成角度爲銳角,致棒條2本身即具液體冷凝機構之功 能,而能減少另件數較爲有利。 又,圖1 1所示習知之擠壓成型棒材之情形則其X方 向(橫斷容器隔開構件之方向)之傳熱較Y方向(沿容器 本紙掁尺度速用中國國家梂準(CNS ) A4規格(210X297公釐)· 16 · I.---^--h----裝------,訂------線 {請先閱讀背面之注意事項寫本頁) 452642 kl B7 經濟部智慧財產局員工消費合作社印製 五 、發明説明(14 ) I 隔 開構件之方向) 之傳熱爲劣· 針 對之 ,上述 本 發 明 之 容 1 1 I 器 乃如圖2 ( b ) 所示藉將棒條 2 予以 斷紋配 > 而 與 Y 1 1 方 向一起可提昇X 方向之傳熱特 性 a此 時如圖 4 所 示 ♦ 藉 i [ 在 —側板材7與棒 條9之間挾設 網 狀物 8 尙 可 賦 予 容 器 先 閲 1 所 需程度。 讀 背 面 I 如圖3所示, 在將平行配置 之 兩棒 條群5 予 以 交 差 設 之 it 意 1 I 置 ,並由板材4, 6挾持所成之 薄 型平 面型散 埶 y ^ Vt 管 1 則 不 事 項 f 需 將棒條斷紋配置 ,而空間沿X及Y雙方向連繫。 本 1 裝 且*如上述圖 4所示之於平 行 配置 之棒條 9 群 與 平 板 頁 1 1 7 之間挾設網狀物 之構造,該棒 條 9可 作爲液 體 冷 凝 機 構 1 1 之 一部份作用同時 ,亦能完成使 主 要液 體冷凝 機 構 之 網 狀 ί 1 I 物 8固定於一側板材7以確保蒸氣流路之任務。 ! 訂 又,本發明薄 型平面型散熱 管 之其 他一形 態 亦 可 由 ( 1 1 )以銅製薄板所 成上側板材及 銅 製薄 板所成 下 側 板 材 予 1 1 以 形成,且上述上 側板材或上述 下 側板 材之一 面 設 有 多 數 1 1 凸 起•而具有密閉 減壓空洞部之 容 器, 與(2 ) 被 收 容 於 I 線 I 上 述容器內,並由 上述多數凸起 予 以擠 壓固定 於 上 述 容 器 I 1 之 對向內壁之液體 冷凝機構•以 及 (3 )被收 容 於 上 述 容 1 器 內之作動流體加. 以構成。 1 如圖5所示, 將兩平板之一 方 平板 1 1設 置 多 數 凸 起 I I 1 並使兩平板對向 接合以形成一 容 器。 此時如 將 一 方 平 板 1 1 I 1 1之中央部設成 凹陷形狀時, 該 凹陷 即成容 器 之 內 部 空 1 1 間 。尤其被要求容 器之規格極爲 薄 型時 ,藉擠 壓 成 型 能 容 1 1 易 地形成該凹陷。 此時上述凸起 1 2亦 可在形 成 凹 陷 同 時 1 1 1 本紙張尺度逍用中國國家橾率(CNS ) A4規格(2I0X297公釐) -17 452642 A7 B7 五、發明説明(15 ) 予以形成。該凸起1 2例如以正三角排列被設於平板1 1 之凹陷部全面。該凸起之形狀例如圓柱形成四角柱形均可 。凸起之高度乃設定爲容器內之一方板材及另方板材之間 隙幅度與容器內收容之積層網狀物之厚度之差較宜。 如上述,將經加工有凹陷及凸起之兩平板1 1 ,1 4 予以組合在兩平板間挾持積層網狀物1 3 ,並由焊接密閉 外周部。之後在外周部之一部位插入細管,且在該部位進 行注入液體、脫氣、密封以形成薄型平面型散熱管。 凸起1 2具有押注網狀物之功能同時•並藉其可確保 蒸氣流通過之蒸氣流路空間。又作爲液體冷凝機構最有助 於作動液環流之網狀物部份係如上述,爲容器內壁面與剖 面形狀呈圓形之構成網狀物之線材所成銳角隅部份。依據 本發明之平面型散熱管,由於網狀物確實介凸起密接於壁 面,故亦可提昇作動液之還流效果。 該液體冷凝機構之構造不僅是網狀物,以線材群,編 組物形成亦能如上述相同之效果。 又,別於上述凸起群,另設與容器內一方平板與另方 平板之間隙幅度相同高度之第二凸起群,並將如此設成之 第二凸起群以容器之補強材料予以作用時,乃可提昇容器 強度而較宜。該第二凸起群之排列密度比第一凸起群稀疏 即可。唯液體冷凝機構之構造由網狀物所成時’則以對應 第二凸起群之排列、形狀之排列、形狀預先在積層網狀物 形成穿孔較妥。此時由兩平板挾持液體冷凝機構時’該第 二凸起群之尖端部即會接觸於另方平板面。藉將該部位進 本紙張尺度迫用中國國家樣準(CNS ) A4规格U10X297公釐)-18 - II---^---„---^-I^-- (请先閱讀背面之注意事項κ 寫本齊) 訂 線 經濟部智慧財產局員工消費合作社印製 642 642 5 經濟部智慧財產局員工消費合作社印製 4 A7 _B7_____ _ 五、發明説明(16) 行與外周部相同之焊接,而在散熱管內壓比大氣壓大時, 亦可抑制容器壁面之變形。 其次,就本發明液體冷凝機構之一形態加以說明。本 發明液體冷凝機構之一形態乃是被收容於具薄型平面型散 熱管之密閉減壓空洞部之容器內,且由平坦板材及捲繞於 該平坦板材之線材所成之液體冷凝機構。 又,本發明液體冷凝機構之一形態亦可爲將上述平坦 板材由至少一方設有多數凸起之相向兩穿孔板組成爲具有 上述凸起高度之間隙之穿孔板單元加以構成。 又,本發明液體冷凝機構之一形態亦可爲上述平坦板 材呈其端部設有欠口或支柱之圓形或四角形以上之多角形 ,且上述線材以上述欠口或支柱爲折返點予以捲繞被配設 於上述平坦板材一側面。 又,本發明液體冷凝機構之一形態亦可爲上述平坦板 材由具多數穿孔之穿孔板所成。 又,本發明液體冷凝機構之一形態尙可爲交叉於上述 穿孔板單元外側兩面所配設上述線材再予以配設線材。 其次即就本發明薄型平面型散熱管之再另形態加以說 明之。本發明薄型平面型散熱管亦可由(1 )銅製薄板所 成上側板材及銅製薄板所成下側板材予以形成,且具密閉 減壓空洞部之容器*與(2 )被收容於上述容器內,並由 平坦板材及捲繞於上述平坦板材之線材所成之液體冷凝機 構,以及(3 )被收容於上述容器內之作動流體予以構成 本紙法尺度適用中國圃家橾準(CNS ) A4^格(210X297公釐)-19 - 1>---:--L----裝--------訂------線 {讀先W讀背面之注意事項V Y寫本頁) 452642 Α7 Β7 五、發明説明(17 ) (請先Μ讀背面之注意事項f :寫本頁) 又,本發明薄型平面型散熱管之一形態亦可由(1 ) 銅製薄板所成上側板材及銅製薄板所成下側板材予以形成 且具有密封減壓空洞部之容器,與(2 )將線材配設於上 述上側板材或下側板材任一方位於上述容器內之面所成之 液體冷凝機構,以及(3 )被收容於上述容器內之作動流 體加以構成。 又,本發明薄型平面型散熱管之一形態亦可由(1 ) 銅製薄板所成上側板材及銅製薄板所成下側板材予以形成 且具有密閉減壓空洞部之容器,與(2 )被收容於上述容 器內*並由將至少一方設有多數凸起之相向兩穿孔板以具 有上述凸起高度之間隙地予以組合形成之穿孔板單元,及 捲繞於該穿孔板單元所成之液體冷凝機構,以及(3 )被 收容於上述容器內之作動流體加以構成。 又,本發明薄型平面型散熱管亦可與上述液體冷凝機 構之上述穿孔板單元外側兩面分別配設之線材呈交叉狀再 予以配設線材。 經濟部智慧財產馬8工消費合作社印製 又,本發明薄型平面型散熱管亦可爲上述液體冷凝機 構之上述平坦板材由其端部設有欠口或支柱之圓形或四角 形以上多角形予以形成,且將上述線材以上述欠口或支柱 爲折返點予以捲繞配設於上述平坦扳材一側面》 又,本發明薄型平面型散熱管亦可爲上述液體冷凝機 構之上述乎坦板材由圓形或四角形以上多角形予以形成, 且上述線材被配設上述平坦板材兩面。 又,本發明薄型平面型散熱管亦可爲上述液體冷凝機 本紙乐尺度適用中囯固家標準(CNS ) A4規格(210X297公釐)-20 - 452042 經濟部智慧財產局員工消骨合作社印製 A7 _B7___五、發明説明(18) 構之上述平坦板材由具多數穿孔之穿孔板加以構成。 又,本發明薄型平面型散熱管亦可與上述液體冷凝機 構之上述平坦板材一面或兩面所配設線材呈交叉再予以配 設線材。 又,本發明薄型平面型散熱管亦可爲上述上側板材或 上述下側板材至少一方於中央部具有凹陷部,且藉將上側 板材及下側板材予以組合並接合外周部,而形成中央部具 有空洞部之上述容器。 又,本發明薄型平面型散熱管亦可爲上述液體冷凝機 構之上述穿孔板單元係由圓形或四角形以上之多角形予以 形成,且上述線材被配設於上述穿孔板單元外側兩面。 又,本發明薄型平面型散熱管係由具下述步驟之製造 方法予以製成。 (1 )準備以所定間隔互相平行配置於同一平面上之 金屬製線材/ (2 )將分別接觸於上述線材且於與上述線材接觸部 位被塗敷焊劑之由銅製薄板所成相向上側板材及下側板材 ,以挾住上述線材地予以配設爲假裝配容器, (3 )將假裝配上述容器加熱至所定溫度,形成上述 線材,上述上側板材,上述下側板材一體化之密閉容器, (4 )將上述容器予以減壓,並作爲作動流體將水予 以裝入。 就上述本發明薄型平面型散熱管之更其他形態如下再 更加詳細地予以說明。即,以作動液可使用水之銅金屬選 本纸乐尺度適用中國國家揉準(CNS > A4規格(210X297公釐)-21 - (請先閲讀背面之注意事項V1-寫本頁) 45 2642 A7 A7 B7 五、發明説明(19) (請先閱讀背面之注意事項-、寫本頁) 擇爲容器及液體冷凝機構之材料時,實際上將0 . 5mm 必以下銅線順沿於容器管壁頗爲困難,因此本發明乃採取 以促使上述銅線順沿所需支承材料而使用銅製薄板,並將 捲繞金屬線之銅製薄板作爲液體冷凝機構舖滿於容器內之 方式。 例如在方形銅製薄板之對向短邊間架設金屬線,將金 屬線自薄板表面至背面,復自背面再至表面予以稠密捲繞 ,此時之金屬線一端則被捆於薄板角隅所設欠口等固定之 。如此即得同一方向具最佳液體環流機構之板狀液體冷凝 機構。將如此所獲液體冷凝機構如同網狀物裝設於散熱管 容器內亦可,更如同5所示,在容器一側內壁面設置凸起 1 2群將捲繞金屬線之平板予以擠壓於另側內壁面亦可。 以液體冷凝機構之收納方式言之,雖爲將上側板材, 下側板材及側面板材之六面板材予以組合之容器構造亦可 ,但如散熱管爲非常薄型時,則爲由一方板材被凹成如鍋 蓋之兩平板予以組合之構造亦可。 經濟部智葸財產局負工消費合作社印製 但,此時捲繞於薄片銅板兩面之金屬線中之被配置於 一方側面之金屬線,由於未被供應蒸氣致不產生蒸氣凝集 ,故有變成無意義之靜區之虞。對平面型散熱管要求之功 能之一乃是薄型化,而無靜區較宜。在薄片銅板短邊以適 當間距設置欠口,並以其爲折返點僅在薄片銅板一側配設 金屬線亦可,此時可使上述靜區消逝。 又將僅在一側面配設金屬線之薄板使用爲散熱管容器 之一壁面時,另件數目變少而更加有效。 本紙乐尺度適用中國國家標準(CNS ) A4規格(210X297公釐) -22 - 45 26 42 第89117538號專利申請案 中文說明書修正頁 ^ A7 B7 9075729#^]補充 民國90年05月修正, 五、發明說明(20 捲繞金屬線之上述薄板通常雖由平板所成,唯替代之 亦可使用3^孔板C芽孔金屬板)。此時,在表裏捲繞金屬 線之情形下亦不會致使上述側面之被配置金屬線群之空間 呈靜區’而蒸氣即凝集於表裏雙面,任一面均可利用爲液 體還流通路。 又’將金屬線捲繞於單一方向時,環流功能僅對單一 方向有效’致平面型散熱管之功能受限定。因此爲謀圖作 動液還流之二次元化(縱向及橫向),係有將第一金屬線 架設於穿孔板短邊之間予以捲繞後,再將第二金屬線予以 架設於長邊之間,促使第一及第二金屬線在穿孔板上呈交 差之方法。此經一看似乎不過是可達成與網狀物相同功能 而已,其實效果全然不同。 即|網狀物時,單線係沿壁面延伸且另外單線與之交 叉,致單線未經常接觸於壁面。而本發明之金屬線接觸於 壁面之如圖6所示A部則經常密接於壁面。換言之’本發 明之由金屬線所成所謂直通流路乃呈以雙樓層構成所構造 。將本例顯示於圖7。在圖7,係在具凹陷之上側平板 1 5內面形成凸起1 7 ’且在穿孔板1 8配置有X方向金 屬線及Υ方向金屬線之液體冷凝機構即由該凸起1 7予以 擠壓於另側平板1 6內壁。 然而,雖在網狀物爲例之圖5所示情形亦同’此種蒸 氣流路確保型液體冷凝機構之具押住液體冷凝機構作用之 上側板僅能凝集蒸氣而已’並未裝設有助於蒸氣環流之構 造。 請 先 閱 讀 背 面 注 意 事 項 再 填 _ ί裝 頁 訂 « 經 濟 部 智 ‘慧 財 產 局 員 X 消 費 合 η 社 印 製 本纸張尺度適用中國國家標準(CNS)A4規格(2ί〇χ 297公芨) -23- 2 642 A7 B7 五、發明説明(21 ) (請先閲讀背面之注意事項fv·寫本頁> 因此,爲使以穿孔板固定金屬線之上述方式更加有效 ,藉由兩穿孔板形成一方穿孔板與另方穿孔板間具有所定 蒸氣流路之穿孔板單元,再將金屬線捲繞於如此形成之穿 孔板單元外側即可。藉此可有效活用空間,並對穿孔板雙 面賦予相同功能。 經濟部智慧財產局員工消費合作社印製 在圖8,係在兩穿孔板2 3之一方(未圖示)設置凸 起群,將該兩穿孔板2 3組合形成爲穿孔板單元,且在該 穿孔板單元兩面外側分別沿X方向捲繞金屬線2 2之後, 更在其上面沿Y方向予以捲繞金屬線2 4。接著將如此構 成之液體冷凝機構全體收納於由上側板材2 1 ,下側板材 2 5所成之框體(容器)內。此時,如將穿孔板兩張份之 板厚,穿孔板之間隙(凸起高度)及金屬線四層份之總和 設爲框體內部空間高度,則外側金屬線群(Y方向)2 4 即密接於框體內壁。又內側金屬線群(X方向)2 2即密 接於穿孔板2 3。並由兩穿孔板間之間隙確保蒸氣流路, 穿過穿孔板之孔蒸氣乃在金屬線群凝集。於是在平面型散 熱管上面,下面於X,Y兩方向均具有由直通還流通路所 成之液體冷凝機構構造,且確保蒸氣流路之優異構造,可 由本發明予以提供之。 本發明平面型散熱管之容器之一形態則是將中央部具 有凹陷部並外周部一部位具有通至外部之通路之平板與另 外平板予以組合,且藉使用焊劑貼合上述外周部以密封上 述通路,而在中央部形成密閉空間之平面型散熱管之容器 本紙張尺度適用中圉围家揉率(〇阳>六4規格(2丨0乂297公釐> -24- 4 5 2 6 4 2 經濟部智慧財產局員工消費合作社印製 A7 B7 五、發明説明(22 ) 圖9爲顯示本發明容器之密閉部之槪略立體圖。圖 1 0爲圖9容器之密閉部之平面圖。 如圖9所示•將矩形銅板擠壓加工成形爲對矩形外周 部3 1其中央部3 2呈凹陷之形狀。但外周一部位之角隅 部3 3乃與中央部3 2位於同一平面。 而在外周部3 1上,使用焊劑再組合貼接另一通常之 銅製平板,即能獲得角隅部3 3具開口之容器。 之後’自該角隅部3 3注入液體,並加熱該容器以沸 騰法驅出氣體。且將該角隅部3 3予以斜向斂縫再溶接之 即得平面型散熱管。 或將角隅部3 3之角收納於開口部具柔軟塡料之真空 抽氣系統,由蒸氣注入及真空抽氣予以散熱管化亦可》 以如此方法,不管平面型散熱管之形狀是例如外形厚 度爲1mm,平板厚度爲0 · 2mm,內部空間高度爲 0 · 6mm之規格,均能予以充份進行散熱管加工。 又,亦可預先在平板一方以所定間隔設置恰好爲內部 空間之間隙程度高之凸起,並於該等凸起突端塗抹焊劑, 而以上述方法予以貼合同樣進行散熱管化。 藉如此方法,係能簡便地對薄肉構造體加以補強,假 設內壓爲1 k g/cm2時,如將凸起以1 Omm間距排列 成正方形,即不致於發生構成問題之變形。 圖9之容器材料乃採用經過擠壓加工之銅板最爲有效 。以加工性言之,鋁金屬材料原本較銅金屬優異’卻由於 無法使用水爲作動液,致在特性上劣勢。因此由銅金屬材 本紙伕尺度適用中國國家橾準(CNS)A4说格U10X297公釐)-25- ! I I —ί 裝 I 訂 I I I I 線 (請先閲讀背面之注意事項-s·寫本頁) 452642 Α7 Β7 經濟部智慧財產局員工消費合作社印製 五、發明説明(23) 料加以形成之本發明可說在特性上具有顯著之效果。 又,本發明薄型平面型散熱管之一形態爲具上述容器 之平面型散熱管,亦是由(1 )以所定間隔互相平行配設 於同一平面上之線材,及與上述線材呈交叉狀予以配置, 且以所定間隔互相平行配設於同一平面上之另外線材所成 之線材群,與(2 )由分別接觸於上述線材群,並使用中 央部形成有可收容上述線材群之凹陷部又角隅部形成有自 凹陷部通至外部之通路之銅製薄板所成上側板材,及以平 坦銅製薄板所成下側板材予以構成,並經接合外周部以封 閉上述通路而具有密閉減壓空洞部之容器,以及(3 )被 收容於容器內作爲作動流體之水所成之薄型平面型散熱管 e 又,本發明薄型平面型散熱管亦可爲由(1 )使用中 央部形成有凹陷部並角隅部設有自上述凹陷部通至外部之 通路之銅製薄板所成上側板材及以平坦銅製薄板所成下側 板材加以構成•且接合外周部以封閉上述通路而具有密閉 減壓空洞部之容器,與(2 )被收容於上述容器內,並由 平坦板材及捲繞於上述平坦板材之線材所成之液體冷凝機 構,以及(3 )被收納於上述容器內之作動流體予以形成 ΰ452642 A7 B7____ V. Description of the invention (1) The present invention relates to a flat heat pipe, a liquid condensing mechanism and a container for cooling electronic equipment. According to the press, one of the means for effectively dissipating the heat generated by the semiconductor wafers of electronic equipment that is increasing every year is a heat pipe. Especially from the point of ensuring the heating surface and heat diffusion of the chip surface, the flat type heat pipe among the heat pipes has attracted much attention. The radiating pipe is formed by a hollow container inside. The container is in a decompressed vacuum state and is filled with an appropriate amount of liquid as a working fluid. When a part of the outside of the container is heated, the liquid existing in the heated part is evaporated, and the latent heat of evaporation is absorbed there. Vapor is filled in the container due to the pressure difference, and condenses outside the heated part on the inner surface of the container, and emits latent heat of evaporation β. The condensed liquid is a so-called liquid formed by a network, iron wire, etc. provided in the inner tube wall in advance The liquid return mechanism of the condensation mechanism returns to the evaporation section * and then evaporates in the evaporation section. The result of repeating the above cycle has the effect of spreading heat to the entire container. Printed by the Consumer Cooperative of the 4th Bureau of the Ministry of Economic Affairs (please read the precautions on the back to write this page). Inject the working fluid into the container, and complete the heat dissipation tube after removing the gas other than the working fluid. Regardless of whether to remove the gas by boiling the working fluid or by using a vacuum pump to extract it, the heat sink container must have a closed part, and this part should be open to the outside until the final project. The general heat pipe is in the shape of a pipe body. At this time, one end of the pipe body is a closed portion. After vacuum injection or degassing, the part is caulked and then sealed by welding is a general method. However, when the heat pipe is not in the shape of a tube but in a flat shape, the paper scale cannot be applied to the Chinese national standard (CNS > Α 仙 I 格 (2 丨 0 > < 297 mm) -4 · Printed by the Ministry of Economic Affairs / Intelligent Finance / 1 Bureau employee consumer cooperatives 2 642 A7 ____B7_ V. Description of the invention (2). The method is shown in Figure 14. Figure 4 shows the conventional closed section of a flat heat pipe. As shown in FIG. 14, the upper plate 1 0 4 * the lower plate 1 0 5 and the side plate 1 106 are combined into a hexahedron by welding. At this time, a thin tube 1 07 is inserted into the side plate 1 〇6 forms a closed portion. Secondly, a conventional flat heat pipe is shown in FIG. 11. The flat heat pipe is made of an aluminum extruded container 101. However, the container shown in FIG. 11 can be made of aluminum. It is difficult for the metal forming part to be formed by copper metal. Moreover, water is an excellent working liquid. However, the container formed of aluminum metal has the problem that it cannot use water with an excellent working liquid, that is, aluminum and water will react to deteriorate. Function of heat pipe. In order to solve the above problems, as shown in Figure 12 or Figure 13, a planar heat pipe is used to insert a mesh into the hollow part of the container formed by the upper side plate and the lower side plate. The container shown is formed of copper, so it can act as an excellent liquid. Water is used. However, in the flat type heat pipe shown in Fig. 12, it is difficult to insert the mesh into the container stably, and the heat pipe has a problem of chaos. Also, the known mesh, group ( Objects), iron wires, etc. have the following problems. That is, as shown in Figure 6. • When using iron wires, the geometric acute angle 隅 part (the part shown in A in the figure) formed by the cross section is continuous along the wire axis. I hope the superior circulation of the moving fluid. However, although the iron wire can be stored in the container of the heat pipe, it is very difficult to securely fix it to the wall structure, and the state of the wire floating in the hollow cannot achieve the function of the liquid condensation mechanism. In the flat type heat pipe, the circulation direction of the working fluid is not a fixed direction. According to the form of the heat pipe, sometimes it is required to return to any plane on the plane. The paper size is forced to use China's i ^ i (CNS) A4 regulations. Drain (210X297 mm) — ^ I .-- ^ ---- install -------- order ------ line (please read the precautions on the back first, '4 write this page) 452642 A7 B7 Printed by the Ministry of Economic Affairs' Smart Money is an employee's co-operative cooperative Also, if the direction of circulation of the working fluid is not the same as that of the iron wire when using a mesh or grouping, it must have a component that intersects with the more direction, but instead constitutes an obstacle to axial flow. Also, use the above-mentioned practice The planar heat sink of the known liquid condensation mechanism has the following problems. That is, as mentioned above, in the field of cooling technology for electronic devices such as semiconductor wafers, the trend is to reduce the overall size of the machine and increase the assembly density, and the heating density has increased dramatically. Large. However, the conventional liquid condensing mechanism cannot fully cope with it. Moreover, the conventional closed section also has the following problems. As mentioned above, the field of cooling technology for semiconductor wafers of electronic equipment is in the miniaturization of the entire machine. The tendency to increase the assembly density causes the planar heat sink to be considerably restricted in thickness direction. For example, when the overall height of the heat pipe is set to 1mm and the wall thickness is set to 0.2mm, as shown in Figure 14 • The outer diameter of the thin tube 10 7 inserted into the side plate is 0.61111114, and the inner diameter is 0. 4mm0. Therefore, the injection needles currently on the market cannot be filled with liquid. And insert the thin tube into the side plate so that the thin tube protrudes out of the container. And because the thin tube is located on the side of the container, there is a problem of gas remaining in the corner when the gas is extracted. That is, the object of the present invention is to provide a semiconductor container or the like that can effectively cool electronic equipment with a rapid increase in heat generation density, and can more easily provide a closed container, a thin flat-type heat sink, and a liquid condensation mechanism. And in order to solve the above-mentioned conventional problems, the inventors of this case have deliberately studied " ^ ί ~ " 丨 forder ™-I 1 line (please read the precautions on the back first, Qi wrote this page) The paper flower scale is applicable to China National Standards (CNS) A4 specification (210X297 mm) -6- Printed by the Consumer Goods Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs 45 2642 A7 _B7_ V. Description of the invention (4) The results were as insightful as before. That is, it is important for the liquid condensing mechanism to have sufficient capillary suction. The capillary suction is usually obtained by arranging a mesh or the like along the pipe wall, but the geometric acute angle of the cross section of the cross section is consistent with the structure in the flow direction. That is, when a single iron wire is arranged along the wall surface, it has a cross-sectional shape as shown in FIG. In the situation shown in Fig. 6, the ribbed and returning person is the part A. Regardless of whether the mesh or the grouping is microscopically speaking, it is an assembly of iron wires. As long as it can be fixed on the wall surface of the heat pipe, it has the A part, which is effective for the liquid to flow ten times. Therefore, it is noticed that a convex group is provided on one side of the container, and the inner wall of the container is fixed by the convex group, so that a universal space for steam flow can be ensured. At the same time, the mesh is tightly connected to the inner wall of the container, causing the inside of the container. The angle between the wall surface and the circular cross-section wire forming the mesh is an acute angle, and it has an excellent liquid circulation effect. Also, it is found that the mesh that combines the iron wires in the X direction and the Y direction in a grid shape is closely attached. On the inner wall of the container, the angle formed by the inner wall surface of the container and the circular wire of the mesh construction material is an acute angle, which has an excellent liquid circulation effect. It is even more noticeable that a depression in the center of the thin copper plate is formed that is different from the outer periphery. • When a passageway that is connected to the outside as a closed part is provided in the outer peripheral part, it can be closed only by caulking the part, but it is formed in the corner part, so it is difficult for the gas to remain inside when the gas is extracted. The present invention is developed based on the above-mentioned knowledge and perception. The first form of the liquid condensing mechanism of the present invention is housed in a closed decompression cavity with a thin flat heat pipe, and consists of flat plates and rolls. Applies to the Chinese paper standard (CNS) A4 specifications (2) 0X297 mm around this paper size -7-I-„--- ^ ------ ^ ------ 1T-- ---- ^ {Please read the precautions on the back V / \ Write this page) 452642 A7 B7 V. Description of the invention (5) Liquid condensing mechanism made of flat plate wire. < Please read the precautions on the back ^ write this page) The second form of the liquid condensing mechanism of the present invention is that the above-mentioned flat plate is composed of two opposite perforated plates with at least one side provided with a plurality of protrusions to form the above protrusion height It is characterized by a perforated plate unit formed with a large gap. The first form of the thin flat heat pipe of the present invention is a thin flat heat pipe made of the following members. (1) Metal wires arranged parallel to each other on the same plane at a predetermined interval, and (2) Upper plate and lower plate formed of opposite copper plates that contact the wire and hold the wire, respectively, and are sealed. The container of the decompression cavity portion and (3) the water contained in the container as the working fluid are described below. The second form of the thin flat heat pipe of the present invention is a thin flat heat pipe made of the following components. (1) Metal wire rods arranged parallel to each other on the same plane at a predetermined interval, and wire groups formed to intersect with the wire rod and arranged parallel to each other at a predetermined interval, and employees of the Intellectual Property Bureau of the Ministry of Economic Affairs Printed by a consumer cooperative (2) A container with a closed decompression cavity composed of an upper plate and a lower plate formed by contacting a wire group and holding opposite copper sheets of the wire group, respectively, and (3) housed in a container Water as the working fluid inside. The third form of the thin flat heat pipe of the present invention is a thin flat heat pipe made of the following components. (1) The upper side plate made of copper sheet and the copper paper sheet are used by the China Paper Standard Speed Car (CNS) A4 * t (210X297 mm) -8- 452642 A7 ___B7_ 5. Description of the invention (6 ) (锖 Please read the precautions on the back of the book first. V V book education) The lower plate is formed, and the container with a closed decompression cavity is (2) housed in the above container, and is made of a flat plate and wound on The liquid condensing mechanism * formed by the wire of the flat plate and (3) the working fluid contained in the container. The fourth embodiment of the thin flat heat pipe of the present invention is a thin flat heat pipe made of the following members. (1) A container formed by a top sheet made of a copper sheet and a bottom sheet made of a copper sheet, and having a closed decompression cavity, and (2) one of the above upper sheet or the lower sheet is located in the container The inner surface is provided with a liquid condensing mechanism formed by the wire, and (3) the working fluid contained in the container. A fifth aspect of the thin flat heat pipe of the present invention is a thin flat heat pipe made of the following members. (1) A container made of an upper plate made of a copper sheet and a lower plate made of a copper sheet, and one of the sides of the upper plate or the lower plate is provided with a plurality of protrusions, and a container having a closed decompression cavity, Printed with the Consumer Goods Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs (2) is housed in the container, and is squeezed and fixed to the opposite inner wall of the container by the majority of the protrusions, and is made of a flat plate and wound on the flat The liquid condensation mechanism formed by the wires of the plate, and (3) the working fluid contained in the container. The sixth form of the thin flat heat pipe of the present invention is a thin flat heat pipe made of the following components: (1) The upper side plate made of a copper sheet and the lower side plate made of a copper sheet are formed, and are sealed. The container in the decompression cavity part is in accordance with the Chinese standard (CNS) A4 specification (210χ: 297 mm) for this paper size. -9-Printed by A. _B7_______ of the Intellectual Property Cooperation Department of the Intellectual Property Bureau of the Ministry of Economic Affairs. 7) (2) The perforated plate unit which is contained in the above container and is formed by combining two opposing perforated plates having at least one protrusion with a plurality of protrusions to form a gap having the height of the protrusions, and wound on the perforated plate unit The liquid condensing mechanism formed by the wire, and (3) the working fluid contained in the container. The seventh form of the thin flat heat pipe of the present invention is characterized in that the wires are arranged in a cross shape with the wires arranged on the two outer sides of the perforated plate unit of the liquid condensing mechanism, respectively. An eighth aspect of the thin flat heat pipe of the present invention is a thin flat heat pipe made of the following members. (1) A group of wires made of metal wires arranged parallel to each other on the same plane at a predetermined interval, and arranged to cross the wire, and arranged in parallel to each other on the same plane at a predetermined interval, And (2) the upper side plate made of a copper thin plate which is in contact with the above-mentioned group of wires | the central part is provided with a recessed portion that can accommodate the above-mentioned group of wires, and a corner is formed with a passage from the above-mentioned recessed portion to the outside; A bottom plate made of a copper thin plate is formed, and a container having a closed decompression cavity is sealed by joining the outer peripheral portion to close the above path, and (3) water contained in the container as an operating fluid. * The thin flat type heat sink of the present invention The ninth aspect of the tube is a thin flat-type heat-radiating tube formed by the following members. (1) An upper plate made of a copper thin plate with a recess formed in the central portion and a corner provided with a passage from the recess to the outside, and a lower plate made of a flat copper thin plate, and joined to the outer periphery Closed on the cover ΓΓ --- ^ -------- install ------ • order ------- line (please read the precautions on the back first to write this page) Applicable to China National Standard (CNS > A4 specification (210X297 mm) -10- 452642 A7 B7 V. Description of the invention (8) A container with a closed decompression cavity in the passage mentioned above, and Matters // Write this page) (2) Liquid condensing mechanism formed by the flat plate and the wire wound around the flat plate, and (3) the working fluid contained in the container The tenth aspect of the thin flat heat pipe of the present invention is a thin flat heat pipe made of the following members. (1) A convex portion is formed in the central portion and a corner portion is provided to pass from the above concave portion to the outside. The upper side plate made of a copper sheet and the lower side plate made of a copper sheet are formed. The upper side plate or one of the lower side plates is provided with a plurality of protrusions, and a container having a closed decompression cavity portion which is connected to the outer peripheral portion to close the passage, and (2) is housed in the container, and is subject to the majority of the protrusions. The liquid condensing mechanism formed by the flat plate and the wire wound around the flat plate and the wire wound around the flat plate is fixed on the opposite inner wall of the container, and (3) the working fluid contained in the container. The eleventh form of the thin flat heat pipe is a thin flat heat pipe made of the following components. Printed by the Consumer Finance Cooperative of the Ministry of Economic Affairs and the Intelligent Finance Bureau (1) The central part has a recessed part and a corner part. A container provided with an upper plate made of a copper sheet and a lower plate made of a copper sheet from the above-mentioned recessed portion to the outside, and a container having a closed decompression cavity portion joined to the outer peripheral portion to close the above-mentioned path and 2) The perforated plate unit which is contained in the container and has at least one pair of opposite perforated plates provided with a plurality of protrusions is combined to form a perforated plate unit having the above-mentioned protrusion height gap, and a roll The paper size made by the wire of the perforated plate unit is quickly used by the Chinese National Standard (CNS) A4 (210X297 mm) -11-Printed by the Ministry of Economic Affairs, Intellectual Property Bureau, Work and Consumer Cooperatives 452642 A 7 B7___ V. Description of the invention (9) The liquid condensing mechanism and (3) the working fluid contained in the container. The twelfth aspect of the thin flat heat pipe of the present invention is the perforation provided with each of the liquid condensing mechanisms. The above-mentioned wires on the two outer sides of the plate unit are crossed and then arranged with wires. The thirteenth form of the thin flat heat pipe of the present invention is characterized in that the upper plate is integrally formed by extrusion processing. The plane heat pipe of the present invention The first form of the container is a combination of a flat plate with a concave portion in the central portion and a corner portion provided with a passageway to the outside and other plates, and the above-mentioned outer circumference portion is closed by using a flux to close the passageway. In addition, a container having a flat-type heat dissipation tube with a closed space formed in the central portion. The second aspect of the container of the flat heat pipe of the present invention is characterized in that the flat plate and the other flat plates have recessed portions and passages corresponding to the central portion and the outer peripheral portion. One form of the manufacturing method of the thin flat heat pipe of the present invention is a manufacturing method of a thin flat heat pipe having the following steps. (1) Prepare metal wires that are arranged parallel to each other on the same plane at a predetermined interval. (2) The upper side plate and the lower side of the copper plate that will be in contact with the wire and the solder will be applied to the part in contact with the wire. Side plate * A container for false assembly is arranged to hold the above-mentioned wire rod, (3) The false-assembled container is heated to a predetermined temperature to form the above-mentioned wire rod, a closed container 1 with an upper plate and a lower plate integrated; I installed. Thread setting (please read the notes on the back tsv first to write this page) This paper size is applicable to China National Standard (CNS > A4 size (2 丨 0X297 mm > -12-452642 A7 _ B7) V. Description of the invention (10 ) (4) The inside of the container is decompressed, and water is charged as the working fluid. . (Please read the precautions on the back first, write this page) The other form of the liquid condensing mechanism of the present invention is that the above-mentioned flat plate of the liquid condensing mechanism is formed by a circular or quadrangular polygon with an undercut or a pillar at the end. And the above-mentioned wire is characterized in that the above-mentioned undercut or pillar is a winding point and is arranged on the side of the flat plate. The other form of the liquid condensing mechanism of the present invention is characterized in that the above-mentioned flat plate of the liquid condensing mechanism is characterized by a perforated plate having a plurality of perforations. The other form of the liquid condensing mechanism of the present invention is configured separately from the outer two sides of the perforated unit. The above-mentioned wires are characterized by being crossed and then provided with wires. The other form of the thin flat heat pipe of the present invention is between the above-mentioned wire and the above-side sheet or the below-side sheet, and between the above-mentioned wire and the other wires. It is also characterized in that a mesh is provided between the wire group and the upper plate or the lower plate. Other forms of printing of the thin flat heat pipe of the present invention by the Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs also use the above-mentioned flat plate of the liquid condensing mechanism from a circular or polygonal shape with an undercut or a pillar at the end, In addition, the wire is characterized in that the under-α or the pillar is wound and arranged on a side of the flat plate material as a turning point. The other form of the thin flat heat pipe of the present invention is characterized in that the flat plate of the liquid condensing mechanism is formed by a circle or a polygon with a shape of more than a quadrangle, and the wire is arranged on both sides of the flat plate. The other form of the thin flat heat pipe of the present invention is that the above-mentioned flat plate material of the liquid condensing mechanism is made of a perforated plate with a large number of perforations. The paper size is applicable to the Chinese National Standard {CNS) A4 specification (210X297 mm)- 13-4 Printed by the Consumer Finance Cooperative of the Ministry of Economic Affairs / Bureau of Economy 5 2642 A7 ___B7 V. Description of Invention (彳 1) Levy. Other forms of the thin flat-type heat sink of the present invention are characterized in that the wire is arranged so as to intersect the wire on one or both sides of the flat plate disposed on the liquid condensing mechanism. In another form of the thin flat heat pipe according to the present invention, at least one of the upper side plate or the lower side plate has a recessed portion in a central portion, and the upper side plate and the lower side plate are combined and joined to an outer peripheral portion to form It is characterized by the said container which has the said hollow part in the center part. Another form of the thin flat heat pipe of the present invention is characterized in that the perforated plate unit of the liquid condensing mechanism is formed by a circle forming a polygon with a shape of more than a quadrangle, and the wire is arranged on both sides of the outer side of the perforated plate unit. Brief Description] Fig. 1 is an exploded view illustrating one form of the plate-type heat pipe of the present invention. FIG. 2 is a view showing other configuration essentials of the wire of FIG. 1. FIG. FIG. 3 is a view showing a form of a liquid condensing mechanism of the present invention. Fig. 4 is a diagram showing another form of the liquid condensing mechanism of the present invention. FIG. 5 is a view showing one form of a plate-type heat pipe according to the present invention. FIG. 6 is a cross-sectional view showing a contact portion between a plate and a wire of a container. FIG. 7 is a view showing another form of a plate-type heat pipe according to the present invention. Fig. 8 is a diagram showing another form of the liquid condensing mechanism of the present invention. FIG. 9 is a schematic perspective view showing a closed portion of a container of the present invention. This paper size is applicable to China National Standard (CMS) A4 (210X297mm) -14-: L Pack ------ " Order ------ Line (Please read the precautions on the back first factory / (Write this page) 452642 Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs 2,9: Sticks 5: Two sticks group 1 1, 1 4: Flat plate 15: Upper flat plate 1 8, 2 3: Perforated plate 2 0: Y Direction metal wire 2 5: Lower side plate 3 1: Outer periphery 3 3: Corner part A7 _____B7_ 5. Description of the invention (12) FIG. 10 is a plan view of the closed part of the container of FIG. 9. FIG. 11 is a display diagram of a conventional aluminum container. FIG. 12 is a cross-sectional view of a conventional heat pipe. FIG. 13 is a cross-sectional view of another conventional heat sink. Fig. 14 is a conventional enclosed display of a flat heat pipe. [Component comparison table] 1 * 3: Copper thin flat plate 4, 6, 7: Plate 8: Mesh 1 2 '1 7: Bump 1 6 : The other flat plate 19: The X-direction metal wire 2 1: The upper plate 2 2, 2 4: The metal wire 3 2: The preferred embodiment of the central invention will be described with reference to the drawings. One form of the thin flat heat pipe of the present invention is (1) a plurality of gold-made wires arranged parallel to each other on the same plane at a predetermined interval, and (2) respectively contact the above-mentioned wires and hold the wires facing each other. A container made of a copper sheet with an upper side plate and a lower side plate, which has a closed decompression cavity, and (3) is housed in the above container as an operation. The paper size applies the Chinese national standard (210X297 mm) -15 -~ I, --- ^ ------ ^ ------- ΪΤ ------ 0 (Read the first note on the reverse side and write this page) Intellectual Property Bureau, Ministry of Economic Affairs Printed by 8 Industry Consumer Cooperatives 452642 A7 B7____ 5. Description of the invention (13) Made of fluid water. In addition, one form of the thin flat heat pipe of the present invention can also be formed by (1) a plurality of metal wires arranged parallel to each other on the same plane at a predetermined interval, and arranged with the wires and arranged parallel to each other at a predetermined interval. A group of wires formed by a plurality of other wires on the same plane and (2) are respectively in contact with the above-mentioned group of wires and hold the upper side sheet and the lower side sheet made of opposite copper sheets of the wire to form a closed decompression cavity. The container and (3) formed by the water contained in the container as the working fluid. In addition, one form of the thin flat heat pipe of the present invention may be between the wire and the upper plate or the lower plate. A mesh is provided between the wire group and the upper side plate or the lower side plate with the other wire. The form of the thin flat type heat sink of the present invention will be described in more detail as follows. As shown in FIG. 1, for example, a plurality of rods 2 are arranged in parallel. First, apply a flux to the contact portion, and hold the parallel-arranged rods with two copper thin plates 1 * 3, and then transfer them to the furnace. The material is aluminum, and a container of the type shown in FIG. 11 can be substantially obtained. The outermost rods form the outer wall of the container, so this part can be used instead of round rods. According to the container of the present invention described above, the partition member of the conventional container shown in FIG. 11 is vertically erected. Since the angle formed by the arc peripheral surface of the rod 2 and the flat plates 1 and 3 is an acute angle, the rod 2 itself is It has the function of a liquid condensation mechanism and can reduce the number of other pieces. Also, in the case of the conventional extruded rod shown in Fig. 11, the heat transfer in the X direction (the direction that crosses the container partition member) is faster than that in the Y direction (along the scale of the container paper). ) A4 size (210X297 mm) · 16 · I. --- ^-h ---- install ------, order ------ line {Please read the notes on the back first to write this page) 452642 kl B7 Employee Consumer Cooperatives, Bureau of Intellectual Property, Ministry of Economic Affairs Printed 5. Description of the invention (14) I The direction of the partition member) The heat transfer is inferior. In view of this, the above-mentioned capacity 1 1 I device of the present invention is shown in Figure 2 (b). Pattern distribution> With the Y 1 1 direction, the heat transfer characteristics in the X direction a can be improved at this time as shown in Fig. 4 ♦ By i [setting a mesh 8 between the side plate 7 and the rod 9 Give container a first reading of the required degree. Read the back I as shown in Figure 3, where the two parallel bar groups 5 arranged in parallel are set to 1 and I, and are held by the plates 4, 6 to form a thin flat-shaped diffuser y ^ Vt tube 1 then No matter f, the bars need to be arranged in a broken pattern, and the space is connected in both X and Y directions. This one is installed and * as shown in Fig. 4 above, a network structure is arranged between a group of rods 9 arranged in parallel and a flat sheet 1 1 7. The rod 9 can be used as a part of the liquid condensation mechanism 1 1 At the same time, it can also complete the task of fixing the mesh-shaped 1 1 object 8 of the main liquid condensation mechanism to the side plate 7 to ensure the vapor flow path. In addition, another form of the thin flat heat pipe of the present invention can also be formed by (1 1) an upper sheet made of a copper sheet and a lower sheet made of a copper sheet to 1 1, and the upper sheet or the lower sheet One surface of the plate is provided with a plurality of 1 1 protrusions, and a container having a closed decompression cavity is (2) housed in the above-mentioned container of line I and squeezed and fixed to the above-mentioned container I 1 by the majority of the protrusions. The liquid condensing mechanism facing the inner wall and (3) the working fluid contained in the container described above. To pose. 1 As shown in FIG. 5, one of the two flat plates 1 1 is set with a plurality of protrusions I I 1 and the two flat plates are joined together to form a container. At this time, if the central part of a square flat plate 1 1 I 1 1 is set into a concave shape, the depression becomes the inner space of the container 11 spaces. In particular, when the specifications of the container are extremely thin, the depression can be easily formed by extrusion and molding. At this time, the above-mentioned protrusions 1 2 can also be formed into depressions. At the same time, the size of this paper is in accordance with the Chinese National Standard (CNS) A4 specification (2I0X297 mm) -17 452642 A7 B7. 5. Description of the invention (15). The protrusions 12 are arranged on the entire surface of the recessed portion of the flat plate 1 1 in a regular triangular arrangement, for example. The shape of the protrusion may be, for example, a cylinder forming a quadrangular prism. The height of the protrusions is preferably set to the difference between the width of the gap between one of the square plates and the other plate in the container and the thickness of the laminated network contained in the container. As described above, the two flat plates 1 1, 1 4 processed with depressions and protrusions are combined to hold a laminated network 1 3 between the two flat plates, and the outer peripheral portion is sealed by welding. Then, a thin tube is inserted into one part of the outer peripheral part, and liquid is injected, degassed, and sealed at this part to form a thin flat heat pipe. The bulge 12 has the function of betting the net at the same time, and it can ensure the vapor flow path space through which the vapor flow passes. As the liquid condensing mechanism, the part of the mesh that is most conducive to the circulation of the liquid is as described above. It is an acute angled part formed by the wire that forms the mesh on the inner wall surface and the cross-section of the container. According to the flat type heat pipe of the present invention, since the mesh is indeed tightly connected to the wall surface through the protrusions, the flow-back effect of the working fluid can also be improved. The structure of the liquid condensing mechanism is not only a net, but also a group of wires, and the formation of a group can also achieve the same effect as described above. In addition to the above convex group, a second convex group having the same height as the gap between one flat plate and the other flat plate in the container is set, and the second convex group thus set is used as the reinforcing material of the container. It is more suitable to increase the strength of the container. The arrangement density of the second protrusion group may be thinner than that of the first protrusion group. Only when the structure of the liquid condensing mechanism is made of a mesh, it is appropriate to form a perforation in the laminated mesh in advance according to the arrangement, shape, and shape of the second convex group. At this time, when the liquid condensing mechanism is held by the two plates, the tip portion of the second convex group will contact the other plate surface. By borrowing this part into the standard of this paper, we must use China National Standard (CNS) A4 specification U10X297 mm -18-II --- ^ --- „--- ^-I ^-(Please read the Note for κ) (book copy) Printed by the Consumers ’Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs 642 642 5 Printed by the Consumer ’s Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs 4 A7 _B7_____ _ V. Description of the invention (16) The same welding as the outer peripheral, When the internal pressure of the heat dissipation pipe is larger than the atmospheric pressure, deformation of the container wall surface can also be suppressed. Next, a form of the liquid condensing mechanism of the present invention will be described. One form of the liquid condensing mechanism of the present invention is housed in a thin flat type A liquid condensing mechanism formed by a flat plate and a wire wound around the flat plate in the container of the closed decompression cavity of the heat dissipation pipe. In addition, one form of the liquid condensing mechanism of the present invention may be that the flat plate is made of At least one of the two opposing perforated plates provided with a plurality of protrusions is constituted by a perforated plate unit having a gap having the above-mentioned height of the protrusions. In addition, one form of the liquid condensation mechanism of the present invention may be the flat plate described above. It is a circle or a polygon with more than a quadrangle with an undercut or a pillar at its end, and the wire is wound with the undercut or the pillar as a turning point, and is arranged on one side of the flat plate. Also, the liquid of the present invention One form of the condensing mechanism may be that the above-mentioned flat plate is made of perforated plates with a large number of perforations. In addition, one form of the liquid condensing mechanism of the present invention may be that the above-mentioned wires are arranged on the two sides of the outer side of the perforated plate unit, and then the The wire is provided. Next, the thin flat heat pipe of the present invention will be described in another form. The thin flat heat pipe of the present invention can also be formed by (1) an upper plate made of a copper sheet and a lower plate made of a copper sheet. And the container with a closed decompression cavity part and (2) are contained in the container, and a liquid condensing mechanism formed of a flat plate and a wire wound around the flat plate, and (3) are contained in the container The working fluid in the paper constitutes the scale of this paper method. It is applicable to the Chinese Garden Standard (CNS) A4 ^ (210X297 mm) -19-1 > ---: ----------------------- -Order ------ line { Read first and read the notes on the back VY write this page) 452642 Α7 Β7 V. Description of the invention (17) (Please read the notes on the back f first: write this page) Also, one form of the thin flat heat sink of the present invention It can also be formed by (1) the upper plate made of a copper sheet and the lower plate made of a copper sheet with a sealed decompression cavity, and (2) either the wire is arranged on the upper plate or the lower plate. The liquid condensing mechanism formed on the inner surface of the container and (3) the working fluid contained in the container are constituted. In addition, one form of the thin flat heat pipe of the present invention may also be formed by (1) an upper side made of a copper thin plate. A container having a lower pressure plate formed of a plate and a copper sheet and having a closed decompression cavity, and (2) housed in the above container *, and having two perforated plates facing each other provided with at least one protrusion to have the above The perforated plate unit formed by combining the raised height gaps, the liquid condensation mechanism formed by winding the perforated plate unit, and (3) the working fluid contained in the above container. Constitution. In addition, the thin flat heat pipe of the present invention may be arranged in a cross shape with the wires arranged on the two outer sides of the above-mentioned perforated plate unit of the liquid condensing mechanism, and then the wires may be arranged. Printed by the Intellectual Property Co., Ltd. of the Ministry of Economic Affairs, and the thin flat heat sink of the present invention can also be the flat plate of the liquid condensing mechanism described above by a circular or quadrangular polygon with an undercut or pillar at its end. Formed, and the above-mentioned wire rod is wound with the above-mentioned undercut or pillar as a turning point and arranged on a side of the above-mentioned flat pull-out material. Furthermore, the thin flat heat pipe of the present invention can also be used as the above-mentioned sheet material of the liquid condensation mechanism. A circle or a polygon with a shape of a quadrangle or more is formed, and the above-mentioned wire is arranged on both sides of the flat plate. In addition, the thin flat heat pipe of the present invention can also be used for the above-mentioned liquid condensing machine. The paper scale is applicable to China Solid Standard (CNS) A4 specifications (210X297 mm) -20-452042 printed by the bone removal cooperative of the staff of the Intellectual Property Bureau of the Ministry of Economic Affairs. _B7___ V. Description of the invention (18) The above-mentioned flat plate structure is composed of a perforated plate with a large number of perforations. In addition, the thin flat heat pipe of the present invention may be arranged to intersect with the wires arranged on one or both sides of the flat plate of the liquid condensing mechanism described above. In addition, the thin flat heat pipe of the present invention may have at least one of the upper side plate or the lower side plate having a recessed portion in the central portion, and the upper side plate and the lower side plate are combined and joined to the outer peripheral portion to form a central portion having The above container in the hollow part. In addition, the thin flat heat pipe of the present invention may be the perforated plate unit of the liquid condensing mechanism, which is formed by a circle or a polygon with a shape of more than a quadrangle, and the wires are arranged on both sides of the outer side of the perforated plate unit. Further, the thin flat type heat radiation pipe of the present invention is manufactured by a manufacturing method having the following steps. (1) Preparation of metal wires arranged parallel to each other on the same plane at a predetermined interval / (2) Copper plates made of copper plates that will come into contact with the wires and are coated with solder at the contact points with the wires The lower plate is configured as a pseudo-assembly container so as to hold the wire, (3) heating the pseudo-assembly of the container to a predetermined temperature to form the wire, the upper plate, and the lower plate integrated closed container, ( 4) The above container is decompressed, and water is charged as a working fluid. The other forms of the thin flat type heat pipe of the present invention described above will be described in more detail below. That is, the copper paper selected for use as a working fluid can be selected from the Chinese paper standard (CNS > A4 (210X297 mm) -21-(Please read the precautions on the back V1-write this page) 45 2642 A7 A7 B7 V. Description of the invention (19) (Please read the notes on the back-first, write this page) When selecting the material of the container and the liquid condensation mechanism, it will actually be 0. It is quite difficult for the copper wire below 5mm to follow the vessel wall. Therefore, the present invention adopts a copper sheet to promote the above-mentioned copper wire along the required supporting material, and the copper sheet wound with the metal wire is used as a liquid condensation mechanism. Way full of containers. For example, a metal wire is set between the short sides opposite to the square copper sheet, and the metal wire is densely wound from the surface of the sheet to the back, and then from the back to the surface. At this time, one end of the metal wire is tied to the corner of the sheet. Odd mouths are fixed. In this way, a plate-shaped liquid condensation mechanism with the best liquid circulation mechanism in the same direction is obtained. The liquid condensing mechanism thus obtained can also be installed in a heat pipe container like a mesh, as shown in Fig. 5. On the inner wall surface of one side of the container, a group of 1 or 2 groups is provided to squeeze the flat plate wound with metal wires. The other inner wall surface is also acceptable. In terms of the storage mode of the liquid condensation mechanism, although it is a container structure that combines the upper side plate, the lower side plate, and the six side plates of the side plate, if the heat pipe is very thin, the one plate is recessed. It is also possible to combine the two flat plates into a pot lid. Printed by the Consumer Goods Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs. However, at this time, among the metal wires wound on both sides of the thin copper plate, the metal wires arranged on one side are not condensed due to the lack of supply of steam. The meaningless quiet zone. One of the functions required for a flat-type heat pipe is thinning, and no dead zone is better. An undercut is provided at an appropriate interval on the short side of the thin copper plate, and it is also possible to arrange a metal wire only on one side of the thin copper plate with the turning point as this, so that the above-mentioned dead zone can disappear. When a thin plate provided with a metal wire on only one side is used as one wall surface of the heat pipe container, the number of parts becomes smaller and more effective. This paper scale is applicable to the Chinese National Standard (CNS) A4 specification (210X297 mm) -22-45 26 42 No. 89117538 patent application Chinese manual amendment page ^ A7 B7 9075729 # ^] Supplement to the May 1990 amendment, V. Description of the invention (Although the above-mentioned thin plate of 20-wound metal wire is usually made of a flat plate, only a 3 ^ -hole plate C bud hole metal plate can be used instead). At this time, even when the metal wire is wound on the surface, the space where the metal wire group is arranged on the side will not cause a quiet zone 'and the vapor will condense on both sides of the surface. Any side can be used as a liquid return flow path. Also, when the metal wire is wound in a single direction, the circulation function is effective only in one direction, so that the function of the planar heat sink is limited. Therefore, in order to achieve the second element (longitudinal and horizontal) of the fluid flow, the first metal wire is erected between the short sides of the perforated plate and wound, and then the second metal wire is erected between the long sides. A method to promote the intersection of the first and second metal wires on the perforated plate. At first glance, it seems that it can achieve the same function as the mesh, but the effect is completely different. That is, in the case of a mesh, a single line extends along the wall and another single line crosses it, so that the single line does not often touch the wall. Whereas the metal wire of the present invention is in contact with the wall surface, as shown in Fig. 6, Part A is often in close contact with the wall surface. In other words, the so-called through flow path formed by the metal wire of the present invention is constructed with a two-story structure. This example is shown in FIG. 7. In FIG. 7, a liquid condensing mechanism is formed on the inner surface of the upper flat plate 15 with a depression, and a liquid condensing mechanism is provided with a metal wire in the X direction and a metal wire in the Υ direction on the perforated plate 18. Squeeze on the inner wall of the other flat plate 16. However, although the situation shown in FIG. 5 is the same as the example of a mesh, the side plate can only condense vapor when the liquid condensing mechanism of this type of vapor flow path securing type liquid condensing mechanism is used. Contribute to the structure of steam circulation. Please read the precautions on the back before filling in. Ί Binding page «Member of the Ministry of Economic Affairs, Intellectual Property Bureau X Consumer Co., Ltd. Printed on this paper The size of the paper is applicable to Chinese National Standard (CNS) A4 (2ί〇χ 297 公 芨)- 23- 2 642 A7 B7 V. Description of the invention (21) (Please read the precautions on the back fv · Write this page > Therefore, in order to make the above method of fixing the metal wire with a perforated plate more effective, it is formed by two perforated plates A perforated plate unit having a predetermined vapor flow path between one perforated plate and the other perforated plate, and then a metal wire can be wound outside the perforated plate unit thus formed. This can effectively utilize space and provide both sides of the perforated plate. Same function. Printed in Figure 8 by the Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs, a convex group is arranged on one of the two perforated plates 23 (not shown), and the two perforated plates 23 are combined to form a perforated plate unit. And after winding the metal wires 2 2 in the X direction on the outer sides of the two sides of the perforated plate unit, the metal wires 2 4 are further wound in the Y direction on the upper surface of the perforated plate unit. Then, the liquid condensing mechanism thus configured is housed as a whole. In the frame (container) formed by the upper plate 2 1 and the lower plate 25. At this time, if the thickness of the two pieces of the perforated plate, the gap (protrusion height) of the perforated plate and the metal wire are four layers The sum of the parts is set to the height of the inner space of the frame, and the outer metal wire group (Y direction) 2 4 is closely connected to the inner wall of the frame. The inner metal wire group (X direction) 2 2 is closely connected to the perforated plate 23. The gap between the two perforated plates ensures the steam flow path. The vapor passing through the holes of the perforated plate is condensed in the group of metal wires. Therefore, the liquid formed by the straight through flow path is provided above the planar heat pipe and below X and Y. The structure of the condensing mechanism and the excellent structure to ensure the steam flow path can be provided by the present invention. One form of the container of the flat heat pipe of the present invention is to have a recess in the central portion and a passage to the outside in one part The flat plate is combined with another flat plate, and a container of a flat-type heat dissipation tube forming a closed space in the central portion is sealed by welding the outer peripheral portion with a flux to seal the above path. Yang > 6 4 specifications (2 丨 0 乂 297 mm > -24- 4 5 2 6 4 2 Printed by the Consumers ’Cooperative of Intellectual Property Bureau of the Ministry of Economic Affairs A7 B7 V. Description of the invention (22) Figure 9 shows the invention A schematic perspective view of the closed portion of the container. Fig. 10 is a plan view of the closed portion of the container of Fig. 9. As shown in Fig. 9 • The rectangular copper plate is extruded to form a rectangular outer peripheral portion 3 1 and a central portion 32 thereof is recessed. Shape. However, the corner section 33 of the outer part is located on the same plane as the central section 32. On the outer section 31, another common copper flat plate is bonded with a flux, and the corner section 3 can be obtained. 3 containers with openings. Afterwards, a liquid was injected from the corner portion 33, and the container was heated to expel the gas by boiling. And the corner portion 33 is obliquely crimped and then melted to obtain a flat heat pipe. Or put the corner of the corner part 3 3 in a vacuum pumping system with soft material in the opening part, and the heat pipe can be made by steam injection and vacuum pumping. "In this way, regardless of the shape of the flat heat pipe, for example, The external thickness is 1mm, the thickness of the flat plate is 0 · 2mm, and the height of the internal space is 0 · 6mm. Moreover, it is also possible to arrange in advance protrusions on the side of the flat plate at a predetermined interval, which have a high clearance degree, and apply flux to the protruding ends of the protrusions, and attach them in the same manner as described above to perform heat dissipation. In this way, the thin meat structure can be easily reinforced. Assuming that the internal pressure is 1 kg / cm2, if the protrusions are arranged in a square at a pitch of 10 mm, it will not cause deformation that will cause problems. The container material in Figure 9 is the most effective using copper plate after extrusion processing. In terms of processability, an aluminum metal material is originally superior to a copper metal ', but is inferior in characteristics because water cannot be used as a working fluid. Therefore, the paper size of the copper metal material is applicable to China National Standards (CNS) A4 standard U10X297 mm-25-! II — ί I-III line (Please read the precautions on the back-s · write this page) 452642 Α7 Β7 Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs. 5. Description of the Invention (23) The present invention can be said to have significant effects in terms of characteristics. In addition, one of the forms of the thin flat heat pipe of the present invention is a flat heat pipe with the above container, which is also composed of (1) wires arranged parallel to each other on the same plane at a predetermined interval, and intersecting with the wires The wire group formed by other wires arranged parallel to each other on the same plane at a predetermined interval, and (2) each of which is in contact with the wire group, and a recessed portion that can accommodate the wire group is formed in the central part. The corner is formed with an upper plate made of a copper thin plate that leads from the recessed portion to the outside, and a lower plate made of a flat copper thin plate. The outer peripheral portion is joined to seal the above passage and has a closed decompression cavity. The container and (3) a thin flat heat pipe made of water contained in the container as the working fluid, and the thin flat heat pipe of the present invention can also be formed by (1) using a central portion with a recessed portion and The corner part is provided with an upper plate made of a copper thin plate and a path from the recessed portion to the outside, and a lower plate made of a flat copper thin plate. A container having a closed decompression cavity portion for closing the passage, and (2) a liquid condensing mechanism which is housed in the container and is formed by a flat plate and a wire wound around the flat plate, and (3) The working fluid stored in the container is formed.
本發明薄型平面型散熱管亦可由(1 )使用中央部形 成有凹陷部並角隅部形成有自上述凹陷部通至外部之通路 之銅製薄板所成上側板材及以銅製薄板所成下側板材加以 構成,且上述上側板材或下側板材之一面設有多數凸起I II---:---„---^1 裝--------訂------線 (讀先Μ讀背面之注意事項-S.寫本頁) 本紙乐尺度適用中国國家標窣(CNS)A4規格(2丨0X297公釐) -26 - 642 經濟部智丛財產局員工消費合作社印製 5 4 A7 _ B7五、發明説明(24 ) 則藉接合外周部以封閉上述通路而具有密閉減壓空洞部之 容器,與(.2 )被收容於上述容器內,並被上述多數凸起 予以擠壓固定於上述容器之對向內壁,且由平坦板材及捲 繞於該平坦板材之線材所成之液體冷凝機構,以及(3 ) 被收容於上述容器內之作動流體予以形成。 又,本發明薄型平面型散熱管亦可由(1 )以中央部 形成有凹陷部並角隅部形成有自該凹陷部通至外部之通路 之銅製薄板所成上側板材及由銅製薄板所成下側板材予以 形成,且接合外周部以封閉上述通路而具有密閉減壓空洞 部之容器,與(2 )被收容於上述容器內,且由將至少一 方設有多數凸起之兩對向穿孔板予以組合形成之具上述凸 起高度程度間隙之穿孔板單元,及捲繞於該穿孔板單元之 線材所成之液體冷凝機構,以及(3 )被收容於上述容器 內之作動流體加以構成。 在上述本發明薄型平面型散熱管之形態,被形成於角 隅部之通路只要斂縫該部份即能予以封閉,不僅不會形成 突出部且被形成爲角隅部|故在抽出氣體時氣體不易殘留 於內部。 又,本發明薄型平面型散熱管亦可與分別被配設於上 述液體冷凝機構之上述穿孔板單元外側兩面之上述線材以 交叉狀再配置線材。 又,本發明薄型平面型散熱管亦可將上述上側板材以 擠壓加工予以一體成型。 如上述,依據本發明係容易以沸騰法抽出氣體。特別 (許先聞讀背面之注意事項i·'-寫本頁) 本纸張尺度適用中®國家標準(CNS ) A4規格(2ι〇χ297公釐) -27- 4 5 2642 45 264 2 A7 B7 經濟部智慧財產局員工消費合作社印製 五、發明説明(25) 是不易於容器角隅殘留氣體。且只要斂縫角隅部即可’故 能簡便地以廉價予以製成。 〔實施例〕 實施例1 依據本發明之一,使用厚度0 . 2mmx橫向2 0 111111\縱向5〇111111之兩銅板,與〇.21111110><長度 50mm之銅線1 〇條,及#2000篩網4片如下述予 以形成爲平面型散熱管之容器》 在一方銅板上將銅線以2mm間距予以平行配置’且 將4片重疊之網狀物挾於所配置銅線與另方銅板之間。銅 線及各網狀物端部均預先塗抹以焊劑》又銅板端部則配以 密封用方形材料。 將如此形成之配置有銅線及網狀物之銅板整體以固定 工具予以挾住,以其狀態流送至爐內》 且,予先將細徑銅管以自容器內突出外部之形態予以 挾設,利用之進行脫氣,注入液體,而製成橫向2 0 X縱 向5 0 X厚度1 mm之超薄型平板型散熱管β使用如此製 成之超薄型平板型散熱管進行晶片冷卻結果可實施有效率 之冷卻。 實施例2 除下述之外,係使用與上述實施例1相同材料,進行 同樣加工以形成平面型散熱管之容器。即將4片網狀物分 本纸張尺度速用中固固家榇车(CNS ) A4说格(210X297公釐)-28- I | * I n I —I 訂— -,™ I I I 線 <讀先閱讀背面之注意事項i /寫本頁) A7 B7 452642 五、發明説明(26 ) 爲各兩片。並將平行配置之銅線群由各分成兩片之網狀物 予以挾住,復將如此由網狀物挾住之銅線群自外側以兩銅 板再予以挾住製成橫向2 Ο X縱向5 Ο X厚度1mm之超 薄型平板型散熱管。使用如此製成之超薄型平板型散熱管 進行晶片冷卻結果可實現有效率之冷卻》 實施例3 依據本發明之一,承製厚度0 . 2mmx橫向40 111111\縱向6〇111111之兩銅板,與直徑0.3111111(^\長 度6〇111111之銅線3 6條,及直徑0.3111111<;1〇\長度 4 0mm之銅線5 6條,並製成如圖3槪略顯示之薄型平 板型散熱管。 將銅線5以1 mm間距平行配置於銅板4上,銅線乃 預先塗抹以焊劑。且在將銅線切斷爲如上述長度之前以固 定工具予以捆緊賦予張力,並擠向配置於其下面之銅板端 部而形成一單元。 將以如此方法使銅線5排列於銅板4,6之兩單元, 令銅線之軸向呈直交地予以相向,並在銅板端部配設密封 用方形材料,與實施例1同樣藉焊接予以一體化。 又,預先將細徑銅管以自容器內突出於外部之形態予 以挾設,並利用之進行脫氣、注入液體而製成橫向40 mm X縱向6 0 mm X厚度1 mm之超薄型平板型散熱管 。使用如此製成之超薄型平板型散熱管進行晶片冷卻結果 可實施有效率之冷卻》 本紙張尺度適用中國國家標準(CNS > 格(210X297公釐) -29 - II---_-----„丨裝---j---:訂------線 (請先閱讀背面之注意事項ΐ-'寫本頁) 經濟部智砮財產局W工消費合作社印製 452642 A7 B7 五、發明説明(27) 實施例4 (锖先閱讀背面之注意事項V /寫本頁) 依據本發明之一,在厚度0.21:1111\橫向2 5111111 X縱向5 Omm之矩形銅板,於其保留2mm寬外周之中 央部形成具約0.8mm高差之凹陷部。且在矩形銅板四 個角隅之一之外周部形成連通至外部之通路。該通路之寬 度爲lmm,而具有與中央部之凹陷部相同高度之高度。 則通路與銅板側邊所呈角度4 5 ° 。並由擠製加工形成爲 如此形狀。 另,在與上述銅板相同尺寸之另外銅板形成以3mm 間隔之正方形排列之高0 . 4 m m,直徑1 m m 之圓柱 狀凸起。並亦由擠製加工成形之。 以液體冷凝機構準備2 Ommx 4 5 mm尺寸之網狀 物(# 1 2 0 ) 4片,將該網狀物四片重疊予以嵌入於上 述銅板之凹陷部。 且於銅板外周2 mm寬部份塗抹焊劑,之後將另外銅 板覆蓋於其上面,復以鉗具固定整體送至爐內予以一體化 ο 經濟部智慈財產局員工消費合作社印製 又自0.8mmx1mm之通路開口部以注射筒注入 水,由沸騰法予以散熱管化《即如此而製成外形厚度 1.2111111\橫向2 5111111/縱向5〇111111之超薄型平板 型散熱管。將如此製成之超薄型平板型散熱管使用於冷卻 晶片結果,可進行有效率之冷卻。 本紙呆尺度速用中圉國家樣準(CNS ) A4洗格(210X297公釐) · 30 · ι452642 Α7 __Β7_._ 五、發明説明(28 ) 實施例5 {請先閲讀背面之注意事項V /寫本頁) 依據本發明之一,將厚度0.2111111\橫向5〇111111 X縱向1 0 Omm矩形銅板之保留2mm寬度外圍之中央 部予以凹陷呈具lmm左右高差。且在該中央部以1 0 mm間隔之正方形排列形成高1mm,直徑3 mm中之圓 柱狀凸起群。並由擠壓加工形成如此形狀。 另,在與上述銅板同樣尺寸之另外銅板以5 mm間隔 之正方形排列形成高0 . 5mm、直徑3mm0中之圓柱 狀凸起。並由擠壓加工成形之。 以液體冷凝機構準備4 5mmx 9 5mm尺寸之網狀 物(#200) 6片並予以重叠,且對應銅板所形成圓柱 狀凸起以1 Omm間隔予以穿設3mm0孔•而將銅板之 凸起插入於6片重疊之網狀物。 在銅板外周及凸起突端塗敷焊劑後,將另外銅板覆蓋 於其上,將整體以鉗具固定送至爐內予以一體化。 經濟部智慧財產局員工消贫合作社印製 復自lmmx 1mm開口部以注射筒注入水,經沸騰 法加以散熱管化β即如此製成外形厚度1 4 m m X橫向 5 Ommx縱向1 0 0mm之超薄型平板型散熱管。將如 此製成之超薄型平板型散熱管使用於冷卻晶片結果,可進 行有效之冷卻。 實施例6 依據本發明之一,就厚度0.2111111\橫向2 5111111 X縱向7 Omm矩形銅板之除去外周2mm寬度部位之殘 本紙張尺度適用中國國家標準(CNS) A4規格(210x297公釐) -31 - 4 b 26 42 A7 B7 mt. 29^ ιΤ \ ^* ^11—«· 年月曰_Μ 經濟部智慧財產局員工消費合作社印製 五、發明說明(29 ) 留2 lmmx 6 6mm部份’沿短邊之2 1mm兩邊以 〇 . 5mm 間隔設置 40 個高 〇 · 8mm,〇 之圓柱狀合釘,並將0 . 2 m m 0銅線捲繞於銅板之一方 側面,以及將捲繞起端與捲繞終端分別捆紮於最端邊之合 釘。 又,就另別厚度0 · 2minx橫向2 5mmx縱向 7 0 mm矩形銅板之除去外周2 mm覓之殘留中央部予以 凹陷0 · 6mm高差。且在外周四角隅之一,以相同於中 央部之高度並與側邊呈4 5°角形成自中央部連紋之寬1 m m通路,而由擠製加工予以成形如此形狀。 將焊劑塗敷於銅板之外周2 m m寬部份之後,以另外 銅板覆蓋於其上並由鉗具固定全體送至爐內予以一體化。 自所形成之上述1 m m x 〇 6 m τη通路之開口部以注射 筒注入水,藉沸騰ί散熱管化之。而如此製成外形厚度 1.〇111111\橫向2 5 111111\縱向7〇111111之超薄型平板 型散熱管。使用如此製成之超薄型平板型散熱管進行冷卻 晶片結果’乃可有效實施冷卻作業。 實施例7 依據本發明之一’將〇 2 m m 4銅線捲繞於以 2 m m間隔穿設有正方形排列之孔之厚〇 · 2 m m X橫向 2 ◦ m m X縱向6 5 m m之穿孔銅板。其捲繞法則是在穿 孔板短邊之2 0 m m兩邊間以〇 5 m m間隔經過穿孔板 表裏合計予以捲繞3 8往回。捲繞起端及捲繞終端乃紮止 -------------裝 -----!.訂--------線 (請先閱讀背面之注意事項再填寫本頁) 本紙張尺度適用中國國家標準(CNS)A4規格(210 * 297公f ) . 32 - 45 2642 A7 B7 經濟部智慧財產局員工消費合作社印繁 五、發明説明(30 ) 於最端邊之孔。 又,將與此另別之厚度0,2mmx橫向25mmx 縱向7 0mm矩形銅板之保留外周2 mm寬之中央部予以 凹陷1 . 0mm高差。且在外周四角隅之一以相同於中央 部之高度形成與側邊呈4 5°角之自中央部連續之寬 1 mm通路,並由擠製加工形成如此形狀。又對與銅板相 同尺寸之另外銅板以3 m m間隔之正方形排列予以形成高 0 . 4mm,直徑1 «Α之圓柱狀凸起。即藉擠壓加工成形 如此形狀。 在銅板之凹陷部,作爲液體冷凝機構嵌入起初之捲繞 妥金屬線之穿孔板。並將焊劑塗敷於銅板外周2 mm寬部 位之後,覆蓋另別銅板於其上,再由鉗子予以固定送至爐 內一體化之。 且自上述lmmx 1mm通路之開口部用注射筒注入 水,由沸騰法予以散熱管化,而如此製成外形厚度1 . 4 mmx橫向2 5mmx縱向7 0mm之薄型平面型散熱管 =使用如是製成之超薄型平板型散熱管進行冷卻晶片結果 ,乃能有效地予以冷卻。 實施例8 依據本發明之一,將以2 m m間隔之正方形排列穿設 有孔之厚度0 . lmmx橫向2 0mmx縱向 6 5 m m穿孔銅板A,與同樣以2 m m間隔之正方形排列 穿設有lmm0且又以l〇mm間隔立設有lmm0, {請先閱讀背面之注意事項V··寫本頁) 本紙張尺度適用中國國家標準(CNS 规格(210X297公釐)-33 - 4 5 2642 A7 B7 五、發明説明(31 ) 〇 * 2mm高圓柱狀合釘之穿孔銅板B ,令合釘位於內側 予以重疊而形成穿孔板單元。 將0 · 2mm 0銅線捲繞於該穿孔板單元,其捲繞方 法則是在穿孔板單元長邊之6 5 m m兩邊間以1 m m間隔 通過穿孔板表裏予以捲繞合計6 2往回。並於其上,在短 邊之2Omm兩邊間以0.5mm間隔通過穿孔板表裏予 以捲繞合計3 8往回。而捲繞起端及捲繞終端則分別綁止 於正方形排列之最端部之孔。 又,將與此另別之厚0.2mmx橫向25mmx縱 向7 0mm矩形銅板之保留外周2mm寬度之中央部予以 凹陷呈具1 . 2mm高差。但在外周四角隅之一,以與中 央部相同高度並與側邊呈45°角予以形成自中央部連續 之寬度1 mm通路》即由擠製加工成形如此形狀6 銅板之凹陷部乃嵌入起初之捲繞妥金屬線之穿孔板單 元爲液體冷凝機構。且在銅板外周2mm寬部位塗敷焊劑 之後,於其上覆蓋以與銅板相同尺寸之單純平板之另別銅 板,並由鉗具固定整體送至爐內予以一體化。 自上述lmmxl . 2mm通路之開口部以注射筒注 入水*經沸騰法予以散熱管化。而如此製成外形厚度 1.6爪111\橫向2 5111爪父縱向7〇111111之薄型平面型 散熱管。使用如此製成之超薄型平板型散熱管進行冷卻晶 片結果,可實施有效之冷卻。 實施例9 本纸張尺度適用中國國家標準(CNS ) A4坑格(210X297公釐)· 34 - ! n I I n n I K u i I I i 線 (讀先閱讀背面之注意事項窍本頁) Θ 經濟部智慧財產局員工消費合作社印製 452642 A7 B7 五、發明説明(32 ) (請先閲讀背面之注意事項ί〆寫本頁) 依據本發明之一,在厚度0.2111111><橫向2 5111111 X縱向5 Omm矩形銅板之保留外周2mm寬度之中央部 形成約0 . 6 mm高差之凹陷部。並於矩形銅板外周部四 角隅之一形成通至外部且寬度1 mm及具與該凹陷部相同 高差之通路。該通路與銅板側邊所成角度爲45° 。即藉 擠製加工予以形成如此形狀。 另,在與上述銅板相同尺寸之另別銅板以1 0mm間 隔之正方形排列形成高0 . 6mm,直徑3mm0之圓柱 狀凹起。亦由擠製加工成形之。 將20mmx45mm尺寸之網狀物(#120) 4 片準備將液體冷凝機構之構造。且對積疊之網狀物對應於 銅板所形成圓柱狀凸起以1 0mm間隔穿設3inm4孔。 將銅板之凸起插入於經如此穿孔之網狀物,並積叠四片予 以嵌入於凹陷部。 將焊劑塗敷於凸起尖端及銅板外周2 mm寬部份之後 |覆蓋另別銅板於其上,復由鉗具加以固體全體送至爐內 予以一體化。 經濟部智慧財產局員工消費合作社印製 且自0 . 6mmxlmm通路之開口部以注射筒注入 水,藉沸騰法予以散熱管化。而如此製成外型厚度1 mm X橫向2 5mmx縱向5 0mm之超薄型平板型散熱管。 使用如此製成之超薄型平板型散熱管進行冷卻晶片時,則 可實施有效之冷卻。 依據本發明,係能以實質上可使用水爲作動液之銅材 料製成多孔形狀之平面型散熱管容器" 本紙張尺度適用中國困家樣準(CNS)A4規格(210X297公釐) -35- ^642 經濟部智慧財度局員工消費合作社印製 A7 B7五、發明説明(33 ) 且藉將網狀物固定於內壁,而可確保穩定之蒸氣流路 。又亦可提供不使用網狀物之僅由金屬線所成之液體冷凝 機構成。並提供簡便量產該等之方法。 又’依據本發明,比及習知將網狀物單純予以容納者 更能確保蒸氣用通路,且由於網狀物確實接觸於內壁面致 可倍增最大熱量輸送。 亦可獲得不會因內壓而變形之超薄型平板型散熱管* 並在平面型散熱管可確實將金屬線固定容器之內壁面。且 以液體冷凝機構成可不損及金屬線之長邊,提供一種與網 狀物相同之液體均能還流於X方向,Υ方向之方式。 又依據本發明,乃可提供一種能確保蒸氣用流路且上 面,下面均具有卓越液體冷凝機構構造之平面型散熱管》 依據本發明,在平面型散熱管之容器可獲得價廉且構 造簡便之密閉部。尤其外形厚度1.5mm以下之薄型平 面型散熱管亦可有效地設置密閉部。 {請先閱讀背面之注意事項广V寫本頁) 本纸張尺度通用中國國家標準(CNS ) A4規格(2ϊ〇X297公羞)-36-The thin flat heat pipe of the present invention can also be composed of: (1) an upper plate made of a copper sheet with a recess formed in the central portion and a passage from the recessed portion to the outside at a corner; and a lower plate made of a copper sheet Structure, and one side of the upper side plate or the lower side plate is provided with a plurality of protrusions I II ---: ----- --- ^ 1 (Notes on the back of the first reading and reading-S. Write this page) The paper scale is applicable to the Chinese National Standard (CNS) A4 specification (2 丨 0X297 mm) -26-642 Printed by the Employees' Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs System 5 4 A7 _ B7 V. Description of the invention (24) A container having a closed decompression cavity by joining the outer peripheral portion to close the above path, and (.2) are housed in the container and are raised by the majority of the above A liquid condensing mechanism made of a flat plate and a wire wound around the flat plate, and a liquid condensing mechanism formed on the opposite inner wall of the container, and (3) the working fluid contained in the container. The thin flat heat pipe of the present invention can also be formed with a depression at (1) the central portion An upper plate made of a copper sheet and a lower plate made of a copper sheet are formed at the corner part to form an external path from the recessed part to the outside, and the outer peripheral part is closed to close the above path and has a closed decompression cavity. The container and (2) a perforated plate unit having the above-mentioned height gap of the protrusions formed by combining at least one pair of opposed perforated plates provided with a plurality of protrusions in the above-mentioned container and wound around the same The liquid condensing mechanism formed by the wire of the perforated plate unit and (3) the working fluid contained in the container are configured. In the form of the thin flat heat pipe of the present invention, the path formed in the corner portion only needs to be converged. This part of the seam can be closed, not only does not form a protruding part and is also formed as a corner part | so the gas is not easy to remain in the interior when the gas is drawn out. Moreover, the thin flat heat pipe of the present invention can also be provided separately. The wires on the two outer sides of the perforated plate unit of the liquid condensing mechanism are arranged in a cross shape, and the thin flat heat pipe of the present invention may also be used. The upper sheet is integrally formed by extrusion. As mentioned above, according to the present invention, it is easy to extract gas by the boiling method. In particular (Xu Xianwen read the notes on the back i · '-write this page) This paper applies the national standard ® (CNS) A4 specifications (2 × 297 mm) -27- 4 5 2642 45 264 2 A7 B7 Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs. 5. Description of the invention (25) It is not easy for the container to corner residual gas. As long as the corner crotch is crimped, it can be easily and inexpensively made. [Example] Example 1 According to one of the present invention, two copper plates having a thickness of 0.2 mmx horizontal 2 0 111111 \ longitudinal 5011111 are used. And 0.21111110 10 copper wires with a length of 50mm, and 4 pieces of # 2000 screen mesh formed into a flat heat sink as described below "On one copper plate, the copper wires are arranged in parallel at a pitch of 2mm 'and Place 4 overlapping meshes between the arranged copper wire and the other copper plate. The copper wire and the ends of each mesh are pre-coated with solder, and the end of the copper plate is equipped with a square material for sealing. The entire copper plate with the copper wires and meshes thus formed was held by a fixed tool and flowed into the furnace in its state ", and the small-diameter copper tube was first protruded from the container to the outside. Let ’s use it for degassing and injecting liquid to make an ultra-thin flat-plate heat sink with a width of 20 X vertical 50 X and a thickness of 1 mm. Effective cooling can be implemented. Embodiment 2 Except for the following, a container made of the same material as in the above-mentioned Embodiment 1 and subjected to the same processing to form a flat heat pipe. That is to say, 4 pieces of mesh are quickly used in the paper scale. CNS A4 (210X297 mm) -28- I | * I n I —I order —-, ™ III line < Read the precautions on the back i / write this page) A7 B7 452642 5. The invention description (26) is two pieces each. And the copper wire group arranged in parallel is clamped by a mesh divided into two pieces, and the copper wire group thus clamped by the mesh is clamped from the outside with two copper plates and then clamped horizontally to make it horizontal 2 〇 X longitudinally 5 〇 X 1mm ultra-thin flat heat pipe. Using the ultra-thin flat-plate heat pipe produced in this way to achieve wafer cooling results in efficient cooling. Example 3 According to one of the present invention, two copper plates with a thickness of 0.2 mmx horizontal 40 111111 \ longitudinal 60111111 are produced. And 36 copper wires with a diameter of 0.3111111 (^ \ length 6〇111111) and 5 copper wires with a diameter of 0.3111111 < 10 \ length 40 mm and made into a thin flat plate heat pipe as shown in Fig. 3 The copper wires 5 are arranged in parallel on the copper plate 4 at a pitch of 1 mm. The copper wires are pre-coated with solder. Before the copper wires are cut to the length described above, they are tied with a fixed tool to give tension, and squeezed toward the A unit is formed at the end of the copper plate below it. The copper wire 5 is arranged in the two units of the copper plate 4 and 6 in such a way that the axial direction of the copper wire is orthogonal to each other, and a seal is provided at the end of the copper plate. The square material was integrated by welding in the same manner as in Example 1. In addition, a small-diameter copper pipe was set in advance so as to protrude from the inside of the container, and was degassed and filled with liquid to make a horizontal 40 mm. X length 60 mm X thickness 1 mm Flat plate type heat pipe. Using the ultra-thin flat plate type heat pipe made in this way to cool the wafer results in efficient cooling. ”This paper size applies to Chinese national standards (CNS > grid (210X297 mm) -29-II ---_----- „丨 install --- j ---: order ------ line (please read the precautions on the back first-'write this page) Ministry of Economic Affairs, Intellectual Property Bureau, W Printed by the Industrial and Commercial Cooperatives 452642 A7 B7 V. Description of the invention (27) Example 4 (read the precautions on the back V / write this page) According to one of the inventions, the thickness is 0.21: 1111 \ horizontal 2 5111111 X longitudinal 5 A rectangular copper plate of Omm has a recessed portion having a height difference of about 0.8 mm in the central portion of the outer periphery that retains a width of 2 mm. A passageway to the outside is formed at one of the four corners of the rectangular copper plate. lmm, and it has the same height as the recessed part of the central part. The angle between the passage and the side of the copper plate is 45 °. It is formed into this shape by extrusion processing. In addition, it is formed on another copper plate of the same size as the above copper plate. Cylinders with a height of 0.4 mm and a diameter of 1 mm arranged in squares at 3 mm intervals It is convex. It is also formed by extrusion processing. Prepare 4 pieces of mesh (# 1 2 0) of 2 Ommx 4 5 mm size by liquid condensing mechanism. Four pieces of this mesh are overlapped and embedded in the above copper plate. The recessed part. Then apply flux to the 2 mm wide part of the outer periphery of the copper plate, and then cover the other copper plate, and then fix the whole with clamps and send it to the furnace for integration. It is printed by the Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs. Water is injected from the opening of the passageway of 0.8mmx1mm through a syringe, and the tube is radiated by the boiling method. In this way, an ultra-thin flat-type radiant tube with an external thickness of 1.2111111 \ horizontal 2 5111111 / vertical 5010111 is produced. As a result of using the ultra-thin flat-plate heat pipe thus manufactured to cool the wafer, efficient cooling can be performed. Quick and easy-to-use Chinese Standard for National Standards (CNS) of this paper (CNS) A4 wash case (210X297 mm) · 30 · ι452642 Α7 __Β7 _._ V. Description of the invention (28) Example 5 {Please read the precautions on the back V / write (This page) According to one of the present inventions, the central portion of the rectangular copper plate with a thickness of 0.2111111 \ transverse 5〇111111 X longitudinal 10 mm and a width of 2 mm is recessed with a height difference of about 1 mm. And at the center, squares with 10 mm intervals are arranged to form a group of cylindrical protrusions with a height of 1 mm and a diameter of 3 mm. This shape is formed by extrusion. In addition, other copper plates of the same size as the above-mentioned copper plates are arranged in squares at 5 mm intervals to form cylindrical protrusions having a height of 0.5 mm and a diameter of 3 mm. And formed by extrusion processing. Use a liquid condensing mechanism to prepare 6 pieces of mesh (# 200) of 4 5mm x 9 5mm size, and overlap them, and pass through 3mm0 holes at 10mm intervals corresponding to the cylindrical protrusions formed by the copper plate • Insert the copper plate protrusions Over 6 overlapping webs. After soldering is applied to the outer periphery of the copper plate and the protruding end of the protrusion, another copper plate is covered thereon, and the whole is fixed to the furnace with clamps for integration. Printed by the Anti-Poverty Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs, the water is injected from a 1mmx 1mm opening through a syringe, and is heat piped through a boiling method. Β is thus made into a thickness of 4 mm X horizontal 5 Ommx longitudinal 100 mm Thin flat heat pipe. The ultra-thin flat-plate heat pipe made in this way can be used to cool the wafer, and it can be effectively cooled. Example 6 According to one of the present inventions, for the thickness of 0.2111111 \ horizontal 2 5111111 X longitudinal 7 Omm rectangular copper plate, excluding the remaining 2mm width part of the outer paper, the paper size applies the Chinese National Standard (CNS) A4 specification (210x297 mm) -31- 4 b 26 42 A7 B7 mt. 29 ^ ιΤ \ ^ * ^ 11— «· Month and month__ Printed by the Consumers’ Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs 5. Description of the invention (29) Leave 2 lmmx 6 6mm part 'along For the short side of 21 mm, set 40 cylindrical staples with a height of 0.8 mm and 0 at 0.5 mm intervals, and wind the 0.2 mm 0 copper wire on one side of the copper plate. The winding terminals are respectively bound with staples at the extreme edges. In addition, the remaining central portion of the rectangular copper plate having a thickness of 0 · 2minx 2 · 5mm in width and 7 · 0mm in length was removed by a height difference of 0 · 6mm. And in one of the four corners of the outer periphery, a channel with a width of 1 mm from the central line is formed at the same height as the central portion and at an angle of 45 ° to the side, and formed into this shape by extrusion processing. After the flux was applied to a 2 mm wide part of the outer periphery of the copper plate, it was covered with another copper plate, and the whole was fixed by the clamps and sent to the furnace for integration. Water was injected from the opening of the above-mentioned 1 m m 〇 6 m τη passage through an injection tube, and it was boiled to form a heat pipe. In this way, an ultra-thin flat plate heat pipe with an outer thickness of 1.〇111111 \ horizontal 2 5 111111 \ longitudinal 7〇111111 is manufactured. As a result of cooling the wafer using the ultra-thin flat-plate heat pipe thus produced, the cooling operation can be effectively performed. Embodiment 7 According to one aspect of the present invention, a copper wire of 0 2 m 4 is wound on a perforated copper plate having a square arrangement of holes arranged at a distance of 2 mm, and a horizontal copper hole of 2 m m X 6 5 m m in length. The winding rule is that the two sides of the short side of the perforated plate are wound at a distance of 0.5 mm between the two sides of the perforated plate. The winding start and winding ends are tied ------------- installation -----! (Fill in this page again) This paper size is in accordance with Chinese National Standard (CNS) A4 (210 * 297 male f). 32-45 2642 A7 B7 Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs. 5. Description of invention (30) Holes on the edges. In addition, the central portion of the rectangular copper plate having a thickness of 0,2 mmx 25 mm x 70 mm in length and remaining 2 mm wide at the outer periphery was recessed by a height difference of 1.0 mm. And one of the four corners of the outer periphery is formed at a height equal to that of the central portion and a continuous 1 mm passage from the central portion is formed at an angle of 45 ° to the side, and is formed into this shape by extrusion processing. Another copper plate of the same size as the copper plate is arranged in a square array with a space of 3 mm to form a cylindrical protrusion with a height of 0.4 mm and a diameter of 1 «Α. That is, the shape is formed by extrusion. In the recessed portion of the copper plate, a perforated plate wound with a metal wire was initially inserted as a liquid condensing mechanism. After applying the flux to a 2 mm wide portion of the outer periphery of the copper plate, cover the other copper plate on it, and then fix it with pliers and send it to the furnace for integration. In addition, water is injected from the opening of the above 1mmx 1mm passage with a syringe, and the heat dissipation tube is formed by the boiling method. Thus, a thin flat heat dissipation tube with an external thickness of 1.4 mmx a horizontal 2 5mmx a longitudinal 70 mm is manufactured. As a result, the ultra-thin flat-plate heat pipe can cool the wafer effectively, but it can be effectively cooled. Embodiment 8 According to one of the present invention, perforated copper plates A with a hole thickness of 0.1 mmx transversely 20 mmx longitudinally 65 mm are arranged through a square arranged at 2 mm intervals. Lmm0 is also set up at 10mm intervals. {Please read the precautions on the back V ·· write this page first.) This paper size applies to Chinese national standards (CNS specifications (210X297 mm)-33-4 5 2642 A7 B7 V. Description of the invention (31) 〇 * Perforated copper plate B of 2mm high cylindrical studs, with the studs located on the inside to overlap to form a perforated plate unit. A copper wire of 0 · 2mm 0 is wound around the perforated plate unit, and its roll is rolled. The winding method is to wind through the perforated plate at a distance of 1 mm between the two sides of the long side of the perforated plate unit at a distance of 1 mm. A total of 6 2 back. On top of it, pass between the two sides of the short side of 20 mm at a distance of 0.5 mm. The perforated plate is rolled back and forth for a total of 3 8 back. The winding start and winding ends are respectively tied to the holes at the end of the square array. Also, the thickness is 0.2mmx 25mmx 7 The central part of the 0mm rectangular copper plate with a width of 2mm on the outer periphery is recessed It has a height difference of 1.2 mm. However, at one of the four corners of the outer periphery, it is formed at the same height as the central portion and at an angle of 45 ° to the side. A width of 1 mm continuous from the central portion is formed by extrusion processing. 6 The recessed part of the copper plate is a perforated plate unit embedded with the original wound metal wire as the liquid condensation mechanism. After applying a flux to the 2mm wide portion of the outer periphery of the copper plate, it is covered with a simple flat plate of the same size as the copper plate The copper plate is sent to the furnace by the clamps and integrated into the furnace for integration. Water is injected from the opening of the above lmmxl. 2mm passage through the injection tube * and the tube is radiated by the boiling method. The thickness of the outer shape is 1.6 claws 111 \ horizontal 2 5111 claw father 7007111111 thin flat heat pipe. Using the ultra-thin flat heat pipe made in this way to cool the wafer results in effective cooling. Example 9 This paper size applies Chinese national standards ( CNS) A4 pit (210X297mm) · 34-! N II nn IK ui II i line (read the precautions on the reverse side of this page) Θ Printed by the Intellectual Property Bureau of the Ministry of Economic Affairs and Consumer Cooperatives 452 642 A7 B7 V. Description of the invention (32) (Please read the note on the back first to write this page) According to one of the inventions, the outer periphery of the rectangular copper plate with a thickness of 0.2111111 > < transverse 2 5111111 X longitudinal 5 Omm 2mm is reserved 2mm The central portion of the width forms a recessed portion with a height difference of about 0.6 mm. A passageway to the outside with a width of 1 mm and the same height difference as the recessed portion is formed in one of the four corners of the outer peripheral portion of the rectangular copper plate. The angle between the passage and the side of the copper plate is 45 °. That is, it is formed into this shape by extrusion. In addition, another copper plate of the same size as the above-mentioned copper plate is arranged in a square shape with a 10 mm interval to form a cylindrical depression having a height of 0.6 mm and a diameter of 3 mm0. Also formed by extrusion processing. Prepare a 20mmx45mm mesh (# 120) 4 piece structure to condense the liquid. And the stacked nets corresponded to the cylindrical protrusions formed by the copper plates with 3inm4 holes passing through at 10mm intervals. The protrusions of the copper plate were inserted into the mesh thus perforated, and four pieces were stacked to be embedded in the depressions. After applying the flux to the raised tip and the 2 mm wide part of the outer periphery of the copper plate, cover the other copper plate, and then send the whole solid to the furnace with clamps for integration. Printed by the Employees' Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs, and injected water from the opening of the 0.6mmxlmm passage through a syringe, and heat-piped it by the boiling method. In this way, an ultra-thin flat-plate heat pipe with an outer thickness of 1 mm X a width of 2 5 mm x a length of 50 mm in length is manufactured. When the ultra-thin flat-plate heat pipe manufactured in this manner is used to cool the wafer, effective cooling can be performed. According to the present invention, it is a flat-shaped heat pipe container capable of being made into a porous shape by using a copper material that can substantially use water as a working fluid. "This paper size is applicable to the Chinese Standard for Household Standards (CNS) A4 (210X297 mm)- 35- ^ 642 A7 B7 printed by the Consumer Cooperatives of the Ministry of Economic Affairs and the Financial Affairs Bureau. 5. Description of the Invention (33) and by fixing the mesh on the inner wall, a stable steam flow path can be ensured. It is also possible to provide a liquid condenser made of metal wire without using a mesh. And provide a simple method for mass production of these. Furthermore, according to the present invention, it is possible to ensure a passage for steam more than simply accommodating a netter in a conventional case, and the net heat source can double the maximum heat transfer because the netlet actually contacts the inner wall surface. It is also possible to obtain an ultra-thin flat-plate heat pipe that will not be deformed by internal pressure *, and the flat-type heat pipe can surely fix the metal wire to the inner wall surface of the container. And the liquid condenser is used to form the long side of the metal wire without damaging it, providing a way that the same liquid as the net can flow in the X direction and the Y direction. According to the present invention, it is possible to provide a flat type heat pipe capable of ensuring a steam flow path and having an excellent liquid condensing mechanism structure above and below. According to the present invention, a container with a flat type heat pipe can be obtained at a low price and has a simple structure. The closed department. In particular, a thin flat-type heat sink having an outer thickness of 1.5 mm or less can effectively provide a sealed portion. {Please read the precautions on the back first to write this page.) This paper size is in accordance with the Chinese National Standard (CNS) A4 specification (2ϊ〇X297 public shame) -36-