1333827 九、發明說明: 【發明所屬之技術領域】 本發明係有關於一種「真空密封散熱用媒介之機構及其製 程」’其主要涉及一種可加工於包含有散熱用媒介之散熱系統 的機構及其製程,尤指對製品抽真空或導入散熱用媒介之機構 及其製程》 • 【先前技術】 目前無論是電腦主機、液晶螢幕、電漿電視…等易產生高 溫之電子設備,皆設有散熱系統’且為了得到更佳的散熱效果 及使易產生高溫之電子設備維持穩定的運作’水冷式散熱系統 因具有其它型式散熱系統所没有的特性,故亦被廣泛的運用。 查’中華民國專利公告號第M311235號之「水冷式散熱 裝置」新型專利前案中,揭露在易產生高溫之單元上置設一冷 (癱 却用之金屬冷却座,並於金屬冷却座上接設導管,導管接設有 散熱器;於導管中填入冷却液體,並使該冷却液體可於金屬冷 却座及導管中流動;當易產生高溫之單元運作時,設於易產生 向溫之單元上的金屬冷却座會將高溫傳導至流經金屬冷却座 之冷却液體’冷却液體在吸收高溫後,流經散熱器降溫冷却後 再回流金屬冷却座,以達到散熱之效果。 再者,習知技術中亦有以真空導入氣體代替冷却液體來達 到冷却效果,例如:中華民國專利公告號第丨276385號之「極 5 1333827 速之散熱裝置改良」發明專利前案;惟,無論真空導入氣體或 真空導入液體’該項技術雖已為習知,但製作上却較為困難, 對於製品的設計要求也較高。 緣是,有鑑於上述習用品所衍生的各項缺點,本案之發明 人遂竭其心智,潛心研究加以創新改良,終於成功研發完成本 件「真空密封散熱用媒介之機構及其製程」案,實為一具功效 增進之發明。 【發明内容】 本發明主要在解決習知真空導入氣體或真空導入液體的 製程中’無法降低真空導入氣體或真空導入液體所需求的設備 或製品產生的製造成本,以及需要的較困難之技術…等問題。 本發明之主要目的乃係在提供一種真空導入氣體或真空導入 液體之機構,該機構中包含有第一通道、第二通道及密封通 道,第一通道、第二通道一端係分別接設於抽氣單元或散熱用 媒介供應單元’另-端延伸貫通至密规道,雜封通道置設 有密封構件,該密封構件設有輸送通道。 本發明之次要目的乃係在提供一種真空導入氣體或真空 導入液體之製程’係包含有下列步驟:⑻將真空密封散熱用 媒介之機構接設於製品上,同時以密封構件剩第_通道及第 二通道;⑼將密封構件之輸送通道與第一通道接設,並對製 品抽真空’製品呈真空狀態後,真空作#暫停;⑹將密封構 6 1333827 件之輸送猶鮮二通道接設’賴製品導人餘用媒介導 入散熱用媒介後’導人作㈣停;(d)將密封構件嵌入製品, 以密封製品。 本發明之另-目的乃係在提供一種降低製造成本之機 構’其細設有輸親道之㈣構件,絲—通道或第二通道 對製品抽真空或導人散细媒介,同時嵌人製品達到密封製品 之功效者。 本發明之再-目的乃係在提供一種真空導入氣體或真空 導入液體之製程’係包含有下列步驟:⑻將真空密封散熱用 媒介之機構接設於製品上,同時以密封構件·第—通道及第 二通道;(b)將密封構件之輸送通道與第一通道接設,並對製 品導入散熱用媒介’導入散熱用媒介後,導入作業暫停;(c)將 密封構件之輸送通道與第二通道接設,並對製品抽真空,製品 呈真空狀態後,真空作業暫停;⑹將密封構件嵌人製品以 密封製品。 為達上述目的,本發明乃提供一種「真空密封散熱用媒介 之機構」’其主要包含有第-通道、第二通道及密封通道,第 -通道、帛H端齡繼設於贼單域散細媒介供 應單元,另一端延伸貫通至密封通道,該密封通道置設有密封 構件,該密封構件設有輸送通道’以供第一通道或第二通道對 製品抽真私導人散制媒介;前述散_媒介可為液體或氣 7 2密封散熱用媒介之製程,係包含有下列步驟: 、真空密封散熱用媒介之機構接設於製品上,㈤時以密封 構件封閉第-通道及第二通道; ^封構件之輸送通道與第—通道接設,並對製品抽真 空’製品呈真球態後,真空作業暫停; )將密封構件之輸騎道與第二通道接設,並雜品導入散 熱用媒介’導入散熱用媒介後,導入作業暫停; (d)將岔封構件嵌入製品,以密封製品。 刖述步驟(b)密封構件之輸送通道鮮—通道接設後,可 士製導入散熱用媒介,導入散熱用媒介後,導入作業暫 h ’其巾步驟⑹密封構件之輸送通道與第二通道接設後對 製°°抽真空,製品呈真空狀態後,真空作業暫停。 【實施方式】 本發明之上述目的及其結構與功能上的特性,將依據所附 圖式之較佳實施例予以說明。 本發明係提供一種「真空密封散熱用媒介之機構及其製 程」’ 參閱第1至5圖,係為本發明之第一較佳實施例,如 圖所示’該真空密封散熱用媒介之機構1係設有第一通道仂、 第二通道12及密封通道14,前述第一通道11、第二通道12 分別接設於抽氣單元111a、散熱用媒介供應單元121a,另一 1333827 端則延伸貫通至密封通道14。1333827 IX. DESCRIPTION OF THE INVENTION: TECHNICAL FIELD The present invention relates to a mechanism for vacuum-sealing heat-dissipating medium and a process thereof, which mainly relates to a mechanism that can be processed into a heat dissipation system including a heat-dissipating medium and The process, especially the mechanism for vacuuming or introducing a heat-dissipating medium to the product and its manufacturing process. • [Prior Art] At present, electronic devices that are prone to high temperatures, such as computer mainframes, liquid crystal screens, plasma TVs, etc., are provided with heat dissipation. The system's water-cooled cooling system is widely used because it has better characteristics than other types of heat dissipation systems in order to achieve better heat dissipation and to maintain stable operation of electronic equipment that is prone to high temperatures. In the case of the new patent of the "water-cooled heat sink" of the Republic of China Patent No. M311235, it is disclosed that a cold metal cooling seat is used on the unit that is prone to high temperature and is placed on the metal cooling seat. Connecting a conduit, the conduit is connected with a radiator; the cooling liquid is filled in the conduit, and the cooling liquid can flow in the metal cooling seat and the conduit; when the unit is easy to generate high temperature, it is set to be easy to generate temperature The metal cooling seat on the unit will conduct high temperature to the cooling liquid flowing through the metal cooling seat. After the high temperature is absorbed, the cooling liquid flows through the radiator to cool down and then returns to the metal cooling seat to achieve the effect of heat dissipation. In the art, vacuum is introduced to replace the cooling liquid to achieve the cooling effect. For example, the Republic of China Patent No. 276385 "Pole 5 1333827 speed heat sink improvement" invention patent case; however, regardless of vacuum introduction gas Or vacuum introduction of liquids. Although this technology is known, it is difficult to manufacture, and the design requirements for products are also high. In the shortcomings of the above-mentioned products, the inventors of this case exhausted their minds, devoted themselves to research and innovation, and finally succeeded in research and development of the "vacuum seal heat dissipation medium mechanism and its process" case, which is actually an effect. The invention is mainly for solving the manufacturing cost of equipment or articles required for vacuum introduction gas or vacuum introduction liquid in the process of solving the conventional vacuum introduction gas or vacuum introduction liquid, and the required manufacturing cost. Difficult technology, etc. The main object of the present invention is to provide a vacuum introducing gas or vacuum introducing liquid, the mechanism comprising a first passage, a second passage and a sealed passage, the first passage and the second passage One end is respectively connected to the air suction unit or the heat dissipation medium supply unit, and the other end extends to the dense regulation road, and the sealing passage is provided with a sealing member, and the sealing member is provided with a conveying passage. The secondary purpose of the present invention is The process of providing a vacuum introduction gas or vacuum introduction liquid includes the following steps: (8) The mechanism for vacuum-sealing the heat-dissipating medium is connected to the product, and at the same time, the first passage and the second passage are left by the sealing member; (9) the conveying passage of the sealing member is connected with the first passage, and the product is vacuumed and the product is in a vacuum state. After that, the vacuum is made to suspend; (6) the sealing structure of the 6 1333827 piece is transported to the second channel; the product is introduced into the heat-dissipating medium after the introduction of the media; the person is (4) stopped; (d) the sealing member is embedded in the product. Another object of the present invention is to provide a mechanism for reducing the manufacturing cost, which is provided with a member of the (4) member, and the wire-channel or the second channel is used to evacuate or guide the product. At the same time, the inlaid product achieves the effect of sealing the product. The re-purpose of the present invention is to provide a process for introducing a vacuum or introducing a liquid into a vacuum, which comprises the following steps: (8) mechanically connecting the medium for vacuum sealing and heat dissipation On the product, at the same time, the sealing member, the first passage and the second passage; (b) the conveying passage of the sealing member is connected with the first passage, and the medium for introducing heat to the product is introduced. After entering the medium for heat dissipation, the introduction operation is suspended; (c) connecting the conveying passage of the sealing member with the second passage, and vacuuming the product, the vacuum operation is suspended after the product is in a vacuum state; (6) the sealing member is embedded in the product Seal the product. In order to achieve the above object, the present invention provides a "mechanism for vacuum sealing heat dissipation medium" which mainly includes a first passage, a second passage and a sealed passage, and the first passage and the 帛H end age are successively set in the thief single domain. a thin medium supply unit, the other end extending through the sealing passage, the sealing passage is provided with a sealing member, and the sealing member is provided with a conveying passage for the first passage or the second passage to smear the product for the product; The above-mentioned dispersion medium can be a process for sealing a heat-dissipating medium with liquid or gas, and comprises the following steps: a mechanism for vacuum-sealing heat-dissipating medium is attached to the product, and (5) sealing the first channel and the second with a sealing member Channel; ^The conveying passage of the sealing member is connected with the first passage, and the product is vacuumed. After the product is in a true spherical state, the vacuum operation is suspended;) the connecting passage of the sealing member is connected with the second passage, and the miscellaneous product is introduced. After the heat-dissipating medium 'is introduced into the heat-dissipating medium, the introduction work is suspended; (d) The sealing member is embedded in the product to seal the product. Step (b) After the fresh-channel connection of the conveying passage of the sealing member, the conductive medium is introduced into the heat-dissipating medium, and after the heat-dissipating medium is introduced, the introduction operation is temporarily carried out, and the conveying passage and the second passage of the sealing member are (6) After the connection, the vacuum is applied to the system, and the vacuum operation is suspended. [Embodiment] The above object and its structural and functional characteristics of the present invention will be described in accordance with the preferred embodiments of the accompanying drawings. The present invention provides a "vacuum-sealing heat-dissipating medium mechanism and its manufacturing process". Referring to Figures 1 to 5, which is a first preferred embodiment of the present invention, as shown in the figure, the mechanism for vacuum-sealing heat-dissipating medium The first channel 11 and the second channel 12 are respectively connected to the air extraction unit 111a, the heat dissipation medium supply unit 121a, and the other 1333827 end is extended. Through to the sealing passage 14.
該製品2上具設有腔體21,該腔體21設有開口 211,於 開口 211處設置密封圈212 ’該密封圈212係供真空密封散熱 用媒介之機構彳接設製品2之開σ 211時,使真空密封散熱用 媒介之機構1與製品2之開σ 211接合處雜完全密封,同時 ^止散熱闕介15外、;前述腔體21具設有腔室213,雜 室213係供真空密封散熱用媒介之機構彳抽出該腔室213内 的氣體而呈Α錄紐以容聽_齡15之用。 前述抽氣單元111a,係用以抽出前述腔室213内之氣體 而使製品2㈣呈現真空狀態;前述散細媒介供應 單元121a ,包含具快速導熱、物效果佳之任何祕之齡。在此,界 定該散熱用媒介15可為液體或氣體。The product 2 is provided with a cavity 21, the cavity 21 is provided with an opening 211, and a sealing ring 212 is disposed at the opening 211. The sealing ring 212 is a mechanism for vacuum sealing the medium for heat dissipation. At 211, the mechanism 1 for vacuum-sealing the heat-dissipating medium and the opening σ 211 of the product 2 are completely sealed, and at the same time, the heat-dissipating heat-dissipating device 15 is provided; the cavity 21 is provided with a chamber 213, and the chamber 213 is provided. The mechanism for vacuum-sealing the heat-dissipating medium extracts the gas in the chamber 213 and is used for listening to the age of 15. The pumping unit 111a is configured to extract the gas in the chamber 213 to bring the product 2 (4) into a vacuum state; and the fine medium supply unit 121a includes any secret age with rapid heat conduction and good effect. Here, it is defined that the heat dissipating medium 15 may be a liquid or a gas.
前述密封通道14置設有密封構件13,並使密封構件13 可於密封通道14中滑動,贿封通道14於密封通道14中滑 動係可藉由真空密封散細媒介之機構1設置-推桿或活塞等 =動早凡16頂抵;前述密封構件13設有輸送通道131,由於 ^通道131係為—具有轉向特性之通道,故可供第-通道 或第二通道12對製品2抽真空或導入散熱用媒介15。 請參閲第1圖,係為密封構件13於密封通道14中之 价峨吻㈣麵至封閉第 、及第-通道12的位置’料—通道彳彳或第二通道 9 12上所設之第一閘口 112 '第二間口 122受到密封構件13的 阻擋,致使真空密紐熱用齡之機構】之密封通道忉與製 ^之腔室213之共通空間保持封閉,以使後續的真空作業便 *請參閱第2圖,係為真空密封賴用媒介之機構1之抽真 空狀態,如圖獅,當純單元111a _運倾,密封構件 13滑動至導通第—通道11及封閉第二通道的位置,故第 、一通道11之第一間口 112與密封構件13之輸送通道131連 通’且第二通道12上所設之第二閘口 122受到密封構件13 =阻撐,致使真空密封散油媒介之機構1之第-通道H、 密封構件13之輸送通道131、真空密缝熱用媒介之機構1 之密封通道14與製品2之腔室213之共通空間保持封閉,此 時使抽氣單元111a進行對製品2之腔室213的抽真空作業。 在抽真工作業過程中均保持一定之真空度雖然此時腔室 213内_、於大賴,但製品2在保持—定之真空度狀態 下並不會產生變形。當製品2呈真空狀態後真空作業暫停, 此真空作業暫停的動作可藉由關閉抽氣單元111a 、在現階段作 業中之韻構件14上方設置另—密封構件阻擋第一通道μ或 在第-通道11之第―閘口 112設置逆止閥113皆可連成。 °月參閱第3圖’係為真空密封散熱用媒介之機構1之導入 散熱用媒介狀態’如圖所示,當散熱用媒介供應單元121a開 始運作後,密封構件13滑動至封閉第一通道Ή及導通第二通 道12的位置’故第一通道H之第一閘口 112受到密封構件 13的阻擋,致使真空密封散熱用媒介之機構1之第二通道a、 密封構件13之輸送通道131、真空密封散熱用媒介之機構] 之密封通道14與製品2之腔室213之共通空間保持封閉,且 第二通道12上所設之第二閘口 122與密封構件13之輸送通 道131連通,此時使散熱用媒介供應單元12化進行對製品2 之腔室213的導入散熱用媒介作業,同時防止散熱用媒介仂 外洩。導入散熱用媒介15完成後,導入作業暫停,此導入作 業暫停的動作可藉由關閉散熱用媒介供應單元121a、在現階 段作業中之密封構件14上方設置另一密封構件阻擋第二通道 12或在第二通道12之第二閘口 122設置逆止閥123皆可達 成。 清參閱第4圖,係為真空密封散熱用媒介之機構j封閉狀 態,如圖所示,密封構件13將通過真空密封散熱用媒介之機 構1及製品2之密封圈212之間的位置,故密封構件13之输 送通道131受到真空密封散熱用媒介之機構1及製品2之密封 圈212的阻擋,致使密封構件13之輸送通道131與製品2之 腔室213之共通空間保持封閉,同時防止散熱用媒介15外洩。 凊參閱第5圖’係為真空密封散熱用媒介之機構,密封製 品2狀態,如圖所示,此時密封構件佗嵌入製品2,同時達 1333827 到密封製品2之目的。 凊參閱第6圖’本發明之上述内容係包括下列步驟:(a)將 真空密封散熱用媒介之機構接設於製品上,同時以密封構件封 閉第通道及第二通道;(b)將密封構件之輸送通道與第一通 道接設,鱗製品㈣製品呈真空狀驗,真空作業暫停; ⑹將密封構件之輸送通道與第二通道接言免,並對製品導入散 • 熱用媒介’導入散熱用媒介後,導入作業暫停;⑼將密封構 件嵌入製品,以密封製品。 請參閱第7圖’係為本發明之第二較佳實施例,如圖所示, 其整體結構與魏及實施型態纽與前-實關補,其不同 處係為第-通道U、第二通道12 一端係分別接設於散熱用媒 介供應單元111b、抽氣單元121b。 馨雜閱第8圖’本發明之上述内容係包括下列步驟:⑻將 真二Φ封散熱用媒介之機構接設於製品上,同時以密封構件封 才1第通道及第二通道;(b)將密封構件之輸送通道與第一通 道接叹’並對製品導入散熱用媒介,導入散熱用媒介後,導入 作業暫停;(c)將密封構件之輸送通道與第二通道接設,並對 製°〇抽真空’製品呈真空狀態後,真空作業暫停;(d)將密封 構件嵌入製品,以密封製品。 嗣本發明與先前技術比較,本發明誠具有下列所述之優 點及功效: 12 (1) 本發明域降低設備結構要求度、製品本身設計要求 度及操作技術要求度,使得製造成本、製品成本及人 員成本大幅下降。 (2) 本發明製程可藉由設定加工自動化,以達成量產之目 的。 ⑶本發明以設有輸送通道之密封構件,可供抽真空或導 入散熱用媒介,同時可供嵌入製品達到密封製品之功 效。 綜上所述’本發明所提供之一種「真空密封散熱用媒介之 機構及其餘」’確符合准予專利之要件,纽法提出專利申 請’祈請惠予專利’實為感禱。 惟以上所述者’僅縣發明之較佳可行之實施綱已,舉凡利 用本發明上叙方法、形狀、構造、裝置所為之變化,皆應包 含於本案之權利範圍内。 【圖式簡單說明】 第1圖為本發明第一較佳實施例密封構件於密封通道中之準 備狀態示意圖; 第2圖為本發明第一較佳實施例真空密封散熱用媒介之機構 之抽真空狀態; 第3圖為本發明第一較佳實施例真空密封散熱用媒介之機構 之導入散熱用媒介狀態; 13 1333827 第4圖為本發明第一較佳實施例真空密封散熱用媒介之機構 封閉狀態; 第5圖為本發明第一較佳實施例真空密封散熱用媒介之機構 密封製品狀態; 第6圖為本發明第一較佳實施例流程示意圖; 第7圖為本發明第二較佳實施例密封構件於密封通道中之準 備狀態示意圖; 第8圖為本發明第二較佳實施例流程示意圖。 【主要元件符號說明】 1 ··.真空密封散熱用媒介之機構 11 · · ·第一通道 111a . . ·抽氣單元The sealing passage 14 is provided with a sealing member 13 and the sealing member 13 is slidable in the sealing passage 14. The sliding passage 14 in the sealing passage 14 can be set by the mechanism 1 for vacuum sealing the fine medium - the push rod Or the piston or the like = the first 16 points; the sealing member 13 is provided with a conveying passage 131, and since the passage 131 is a passage having a steering characteristic, the first passage or the second passage 12 can be used to evacuate the product 2. Or introduce the heat dissipation medium 15. Referring to FIG. 1, the sealing member 13 is disposed on the sealing passage (four) surface of the sealing passage 14 to the closed portion and the position of the first passage 12, the material passage 彳彳 or the second passage 9 12 The first gate 112' of the second port 122 is blocked by the sealing member 13, so that the common space of the sealing channel 忉 and the chamber 213 of the vacuum-heating mechanism is kept closed, so that the subsequent vacuum operation is completed. *Please refer to Fig. 2, which is the vacuum state of the mechanism 1 of the vacuum sealing medium. As shown in Fig. lion, when the pure unit 111a _ tilts, the sealing member 13 slides to the conduction passage-channel 11 and the closed second passage. Position, so that the first port 112 of the first passage 11 communicates with the conveying passage 131 of the sealing member 13 and the second gate 122 provided on the second passage 12 is blocked by the sealing member 13 = causing the vacuum to seal the oil medium The common passage space of the first passage H of the mechanism 1, the conveying passage 131 of the sealing member 13, the sealing passage 14 of the mechanism 1 for vacuum-tight thermal medium, and the chamber 213 of the product 2 is kept closed, and at this time, the suction unit 111a is caused. Vacuuming the chamber 213 of the article 2 industry. In the process of pumping the real work, a certain degree of vacuum is maintained. Although the chamber 213 is in the middle of the process, the product 2 does not undergo deformation under the condition of maintaining the vacuum degree. When the vacuuming operation is suspended after the product 2 is in a vacuum state, the vacuum operation is suspended by closing the air suction unit 111a, and the other sealing member is disposed above the rhyme member 14 at the current stage to block the first channel μ or at the first The first gate 117 of the passage 11 can be connected to the check valve 113. Referring to Fig. 3, the state of the heat-transfer medium for the mechanism 1 for vacuum-sealing heat-dissipation is as shown in the figure. When the heat-dissipating medium supply unit 121a starts operating, the sealing member 13 slides to the closed first passage. And the position of the second passage 12 is turned on. Therefore, the first gate 112 of the first passage H is blocked by the sealing member 13, so that the second passage a of the mechanism 1 for vacuum-sealing the heat-dissipating medium, the conveying passage 131 of the sealing member 13, and the vacuum The common space of the sealing passage 14 and the chamber 213 of the product 2 is kept closed, and the second gate 122 provided on the second passage 12 communicates with the conveying passage 131 of the sealing member 13, at this time The heat-dissipating medium supply unit 12 performs the medium for introducing the heat-dissipating medium into the chamber 213 of the product 2, and prevents the heat-dissipating medium from leaking out. After the introduction of the heat-dissipating medium 15 is completed, the import job is suspended, and the action of the lead-in operation may be stopped by the heat-dissipating medium supply unit 121a, and another sealing member may be disposed above the sealing member 14 in the current stage to block the second passage 12 or The provision of the check valve 123 in the second gate 122 of the second passage 12 can be achieved. Referring to FIG. 4, it is a closed state of the mechanism j for vacuum-sealing heat-dissipating medium. As shown in the figure, the sealing member 13 will be vacuum-sealed between the mechanism 1 of the heat-dissipating medium and the sealing ring 212 of the product 2, so The conveying passage 131 of the sealing member 13 is blocked by the mechanism 1 for vacuum-sealing heat-dissipating medium and the sealing ring 212 of the product 2, so that the common space of the conveying passage 131 of the sealing member 13 and the chamber 213 of the product 2 is kept closed while preventing heat dissipation. Use the media 15 to leak.第 Refer to Figure 5 for a mechanism for vacuum-sealing heat-dissipating media. The state of the sealed product 2 is as shown in the figure. At this time, the sealing member is embedded in the product 2 and simultaneously reaches 1333827 to seal the article 2. Referring to Figure 6, the above-mentioned contents of the present invention include the following steps: (a) attaching a mechanism for vacuum-sealing a heat-dissipating medium to an article while closing the first passage and the second passage with a sealing member; (b) sealing The conveying passage of the component is connected with the first passage, the product of the squama (4) is in a vacuum test, and the vacuum operation is suspended; (6) the conveying passage of the sealing member is exempted from the second passage, and the product is introduced into the heat medium. After the medium for heat dissipation, the introduction operation is suspended; (9) the sealing member is embedded in the product to seal the product. Please refer to FIG. 7 for a second preferred embodiment of the present invention. As shown in the figure, the overall structure and the implementation type and the front-to-real relationship are different, and the difference is the first channel U, One end of the second passage 12 is connected to the heat dissipation medium supply unit 111b and the air suction unit 121b, respectively. The above-mentioned contents of the present invention include the following steps: (8) attaching the mechanism of the true two Φ heat-dissipating medium to the product, and sealing the first channel and the second channel with the sealing member; The sigh of the conveying passage of the sealing member is sighed with the first passage and introduces the heat-dissipating medium to the product, and after the introduction of the heat-dissipating medium, the introduction operation is suspended; (c) connecting the conveying passage of the sealing member with the second passage, and After the vacuuming of the product is in a vacuum state, the vacuum operation is suspended; (d) the sealing member is embedded in the article to seal the article.嗣 Compared with the prior art, the present invention has the following advantages and effects: 12 (1) The invention reduces the structural requirements of the device, the design requirements of the product itself, and the technical requirements of the operation, so that the manufacturing cost and the product cost are And personnel costs have dropped significantly. (2) The process of the present invention can be automated by setting processing to achieve mass production. (3) The present invention is provided with a sealing member provided with a conveying passage for vacuuming or introducing a heat dissipating medium, and at the same time, for embedding the article to achieve the effect of sealing the article. In summary, the "a mechanism for vacuum-sealing heat-dissipating medium and the rest" provided by the present invention is in conformity with the requirements for granting patents, and Newfa's patent application 'pray for patents' is a pray. However, the above-mentioned embodiments of the present invention are only applicable to the invention. The changes in the methods, shapes, structures and devices of the present invention are intended to be included in the scope of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing a state in which a sealing member is in a sealing passage according to a first preferred embodiment of the present invention; and FIG. 2 is a drawing of a mechanism for vacuum-sealing heat-dissipating medium according to a first preferred embodiment of the present invention; FIG. 3 is a schematic diagram of a medium for introducing a heat-dissipating medium for a mechanism for vacuum-sealing heat-dissipating medium according to a first preferred embodiment of the present invention; 13 1333827 FIG. 4 is a mechanism for vacuum-sealing heat-dissipating medium according to a first preferred embodiment of the present invention; Fig. 5 is a schematic view showing the state of the mechanism sealing product of the medium for vacuum sealing and heat dissipation according to the first preferred embodiment of the present invention; Fig. 6 is a flow chart showing the first preferred embodiment of the present invention; BRIEF DESCRIPTION OF THE PREFERRED EMBODIMENT A schematic diagram of a state in which a sealing member is in a sealed passage; FIG. 8 is a schematic flow chart of a second preferred embodiment of the present invention. [Description of main component symbols] 1 ··. Mechanism for vacuum sealing heat dissipation medium 11 · · · First channel 111a . . · Pumping unit
111b· ··散熱用媒介供應單元 112 · . ·第一閘口 113 · . ·逆止閥 12 ·..第二通道 121a·..散熱用媒介供應單元 121b · · ·抽氣單元 122 ...第二閘口 123 · · ·逆止閥 13 . . ·密封構件 1333827 131 · · ·輸送通道 14 ,.·密封通道 15 · · ·散熱用媒介 16 · ·.驅動單元 2 ··.製品 21 · · ·腔體 211 · · ·開口 212 · · ·密封圈 213 · · ·腔室111b···heat dissipation medium supply unit 112·.·first gate 113·.·check valve 12·..second passage 121a·..heat dissipation medium supply unit 121b···exhaust unit 122 ... Second gate 123 · · · Check valve 13 . . · Sealing member 1333827 131 · · · Conveying channel 14 , · Sealing channel 15 · · · Heat dissipating medium 16 · ·. Drive unit 2 ··.Product 21 · · · Cavity 211 · · · Opening 212 · · · Seal 213 · · · Chamber
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