1307765 九、發明說明: 【發明所屬之技術領域】 本發明係涉及一種均埶板,牲 織 Ί熟极特別是指其内部毛細級 配置型態之創新設計者。 ' 【先前技術】 按,本發明所稱之均熱板係廣泛被作為-種散敎導引 結構體,例如作為電腦CPU散熱構件之用途者。 至於均熱板之習知結構,如第1圖所示(註:其專利 案請調閱臺灣專利證書號M299458 ),並大致係呈有I引 狀殼體10,該殼體10内部形成中空槽室Γί,復於該中2 室U之周壁覆設毛細組織12 (如燒結體、網狀體等心 進散熱效益,而為防止該中空槽^受熱時㈣造^ 10之頂'底壁13、14派拱變形,遂有業界並於該殼體頂 底壁之間增設有結合柱(或板條狀構件);惟,此 結構於實際應用上仍存在下述之問題點: σ 均熱板運作上,係先經_由今· > Μ τ η 竹无Α由該戏體ί0頂壁13將熱源 ,接者沿其殼體_壁到達其底壁14,再傳導至殼體 壁覆設之毛細組織12 4而達成全面性之導熱效益 此均熱板所形成之導熱路徑概呈環周狀之孤曲路^ ,故被導入之熱能無法快速由上至下傳達分佈至整個均執 板結構,,以致造成其整體熱傳導效能仍難以達到最佳效率、 之完善狀態者。 是以’針對上述習知均熱板使用上所存在之問題點, l3〇7765 如何研發出-種熱傳導效能更佳、更具理想實用性之 構造’實有待相關業界再加以思索突破之目標及方向者。1307765 IX. INSTRUCTIONS OF THE INVENTION: TECHNICAL FIELD OF THE INVENTION The present invention relates to a uniform slab, which is an innovative designer of the internal capillary level configuration. [Prior Art] According to the present invention, the soaking plate is widely used as a diverging guide structure, for example, as a heat sink member for a computer CPU. As for the conventional structure of the heat equalizing plate, as shown in Fig. 1 (note: please refer to Taiwan Patent Certificate No. M299458 for its patent case), and roughly have an I-shaped casing 10, and the inside of the casing 10 is hollow. The tank chamber Γί, the peripheral wall of the middle chamber U is covered with capillary structure 12 (such as sintered body, mesh body, etc.), in order to prevent the hollow groove from being heated (four) to make the top of the bottom wall 13,14 is arch deformation, there is an industry and a joint column (or slat-like member) is added between the top and bottom walls of the shell; however, the structure still has the following problems in practical application: σ In the operation of the hot plate, the heat source is passed from the top wall 13 of the theater ί0 to the bottom wall 14 and then to the shell. The wall-covered capillary structure 12 4 achieves a comprehensive thermal conductivity. The heat conduction path formed by the heat-sinking plate is a ring-shaped orbital road, so the introduced heat energy cannot be quickly transmitted from top to bottom to the whole. The structure of the board is implemented, so that the overall heat transfer efficiency is still difficult to achieve the best efficiency and perfect state. The existence of the above-mentioned conventional soaking plate use problems, l3〇7765 how developed - the kind of heat transfer for better performance, structure more practical ideal of 'real thought to be related to the industry coupled with breakthrough objectives and directions were.
有鑑於此,發明人本於多年從塞ω * σ ,TJ 7亍攸爭相關產品之製造開發 與設計經驗,針對上述之目標,詳Λ ^ 斤加設計與審慎評估後, 終得一確具實用性之本發明。 【發明内容】 本發明之主要目的,係在提供一種均熱板之毛細 構造,其所欲解決之問題點,係針對f知均熱板其中空槽 至毛細組織係沿其周壁覆設而構成其導熱路徑呈環周狀弧 曲路徑,以致熱能無法快速由上至下傳達分佈至整體均妖 板,造成整體熱傳導效能未能達到最佳效率之問題點加以 心索犬破,所述均熱板具—中空殼體,趙^ 4 & T工成體,復於該殼體内部 夂形成一中空槽室、一頂、底壁及彳 低土及側壁,以使所述毛細袓 織組設於該殼體中空槽室中; ’ 本發明解決問題之技術特點在 ^ 邊所述毛細組織係 、.且6又於該中空槽室頂、底壁之間,人兮主4力 - 又间 7 6亥毛細組織之第一側 與中工槽至之頂壁相接觸’並令該毛細組織之第二側盘中 空槽:之底壁相接觸者;藉此創新獨特設計,使本發明對 照先前技術而言,大致可達到如下之優點: 該殼體中空槽室之頂、底壁將可藉由毛細組織達成上 下直線連結狀態,使其頂壁所導入之熱 :運成 織快速傳達至中空槽室内1 、毛細組 耘至内邛以及底壁部位,進而 一步提昇其熱傳導效益之實用進步性。 1307765 【實施方式】 睛參閱第2、3圖所示,係本發明均熱板之毛細組織 構造之較佳實施例,惟此等實施例僅供說明之用,在專利 申請上並不受此結構之限制;所述均熱板A具有一中空之 殼體20,復於該殼體20内部界定形成_中空槽室21、一頂 壁22、一底壁23及二側壁24,以使所述毛細組織3〇係組設 於該殼體20之中空槽室21中;本發明之主要核心設計係在 於:In view of this, the inventor has been engaged in the manufacturing development and design experience of related products from the plug-in ω * σ, TJ 7 for many years, and in view of the above objectives, after the design and careful evaluation, the final result is The invention of the utility. SUMMARY OF THE INVENTION The main object of the present invention is to provide a capillary structure of a soaking plate, and the problem to be solved is to form a hollow-to-wool structure in which the hollow to capillary structure is covered along the peripheral wall thereof. The heat conduction path is a circular arc path, so that the heat energy cannot be quickly transmitted from top to bottom to the overall demon board, causing the problem that the overall heat conduction performance fails to achieve the best efficiency. The plate-hollow shell, the Zhao ^ 4 & T assembly, is formed in the interior of the casing to form a hollow chamber, a top, a bottom wall and a low soil and a side wall, so that the capillary is woven The group is disposed in the hollow chamber of the casing; 'The technical feature of the invention solves the problem is that the capillary structure is on the side, and 6 is between the top and bottom walls of the hollow chamber, and the main force of the person is 4 The first side of the 7 6 liter capillary structure is in contact with the top wall of the middle work tank and the second side disk of the capillary structure is in contact with the bottom wall; thereby the innovative and unique design makes this Compared with the prior art, the invention can achieve the following advantages: The top and bottom walls of the hollow chamber of the casing can be connected to the upper and lower lines by capillary structure, so that the heat introduced into the top wall can be quickly conveyed to the hollow chamber 1 , the capillary group to the inner and bottom The wall part, in turn, improves the practical progress of its heat transfer efficiency. 1307765 [Embodiment] The present invention is a preferred embodiment of the capillary structure of the soaking plate of the present invention, as shown in Figs. 2 and 3, but these embodiments are for illustrative purposes only, and are not applicable to the patent application. The structure of the heat-receiving plate A has a hollow casing 20 defined in the interior of the casing 20 to define a hollow chamber 21, a top wall 22, a bottom wall 23 and two side walls 24, so as to The capillary structure 3 is set in the hollow chamber 21 of the casing 20; the main core design of the present invention is:
所述毛細組織30,係組設於該殼體2〇中空槽室21的頂 、底壁22、23之間,令該毛細組織3〇之第一側31與中空槽 至21之頂壁22相接觸,並令該毛細組織3〇之第二側32與中 空槽室21之底壁23相接觸者。 其中,所述毛細組織3〇可為網狀管體、燒結體、捲狀 體者如第2 7圖所揭之毛細組織3〇係為網狀管體之實施 型悲者’ I中該第7圖所揭之網狀管體型態之毛細組織3〇 内部並設有支樓件4G (如螺旋狀桿體),藉以強化該毛細 組織30之結構強度者。 有關所述毛細組織3〇之配置型態可為下述態樣: 士第j 8圖所不之毛細組織3〇,其係為直條狀併靠 配置之型態者’此配置型態之變化例如第9圖所示,其毛 細組織30係平面兹目+法,,, ' 規之為斜向配置型態者;另如第4圖所示 之毛、田、’且織30 ’其各毛細組織3〇之間係為間隔配置之型態 者,又如第1〇、11圖所示之毛細組織30 ’其係分別為放射 狀配置以及彎曲狀之配置型態者,此等毛細組織30配置型 7 1307765 態均能達到本發明所預期之導熱功效者;又其中,該第8〜 η圖中之框格B所示係為該殼體20頂壁22主要導熱區域範 圍之標示者,本發明所揭之毛細組織3〇分佈區域係以對應 該主要導熱區域祀圍為主’藉以發揮其導熱之效益。 其中,如第5圖所示,該殼體2〇中空槽室21之頂、底 .壁22、23之間並可設有連結部5〇,所述連結部5〇可為柱狀 體(如第5圖所示者)、板狀體或匸型斷面之條狀體型態 者(如第6圖所不者);所述毛細組織30與該等連結部50 籲之間則可為第5圖所示之間隔設置型態;又或者如第6圖 所示,其連結部50Β係為〔型斷面型態,以使其毛細組織 30Β可結合於該連結部5〇Β 一側所形成之内叩部位中而成 為一體之結構型態者。 【本發明之優點】 本發明所揭「均熱板之毛細組織構造」主要藉由該毛 細組織30係組設於該均熱板中空槽室21頂、底壁22、㈡之 間’令毛細組織3。第一側31與中空槽室21頂壁22相接觸、 第-側則與中空槽室21之底壁23相接觸之創新獨特 使得本發明對照【先前技術】所提之f知均熱板結構而言 ’本發明所揭中空槽室21之頂、底壁22、23將可藉由毛細 組織30達成上下直線連結之狀態,使其頂壁22所導入之执 透過該毛細組織_速傳達至中空槽室Μ内部以^ =24部:’獲致最為快速有效率之熱傳導路徑,進而達 到更進—步提昇均熱板熱傳導效益之f用進步性者。 1307765 上述實施例所揭示者係藉以具體說明本發明, 雖ΐ過特定㈣料行說明,當不^此限定本發明 利犯圍m項技術領域之人士當可在瞭解本發明 2與原則後對其進行變更與修改而達到等效之目的, 專變更與修改,皆應涵蓋於如后所述之申請專利範圍 定範疇中。 文中 之專 之精 而此 所界 307765 【圖式簡單說明】 第1圖:習知均熱板結構之剖視圖。 第2圖:本發明均熱板結構較佳實施例之立心意圖。 第3圖:本發明均熱板結構較佳實施例之剖視圖。 第4圖:本發明之毛細組織配置型態另—實施例圖。 =5圖:本發明之毛細組織配置型態又—實施例圖。 第6圖:本發明之毛細組織與連結部結合為一體之實施例The capillary structure 30 is disposed between the top and bottom walls 22, 23 of the hollow chamber 21 of the casing 2, so that the first side 31 of the capillary structure 3 and the top wall 22 of the hollow groove 21 Contacting and contacting the second side 32 of the capillary structure 3 with the bottom wall 23 of the hollow chamber 21 is obtained. Wherein, the capillary structure 3〇 can be a mesh tube body, a sintered body, a roll body, such as the capillary structure disclosed in FIG. 27, and the crepe of the mesh tube body is implemented. The capillary structure of the mesh tube type disclosed in Fig. 7 is internally provided with a branch member 4G (e.g., a spiral rod) to strengthen the structural strength of the capillary structure 30. The configuration pattern of the capillary structure 3 can be as follows: The capillary structure of the j-th diagram is not 3, which is a straight strip and depends on the configuration type. For example, as shown in Fig. 9, the capillary structure 30 is a flat line + method, and 'the rule is an oblique arrangement type; and the other is the hair, the field, the 'and the weaving 30' shown in Fig. 4 The capillary structure 3〇 is a type of interval arrangement, and the capillary structure 30' shown in Figures 1 and 11 is a radial arrangement and a curved configuration, and these capillary structures are The 30 configuration type 7 1307765 state can achieve the heat conduction effect expected by the present invention; wherein, the sash B in the 8th to ηth diagram is the marker of the main heat conduction area range of the top wall 22 of the casing 20. The 3〇 distribution area of the capillary structure disclosed in the present invention is based on the main heat conduction area, thereby exerting the heat conduction benefit. As shown in FIG. 5, the housing 2 is disposed between the top, bottom, and walls 22, 23 of the hollow chamber 21, and may be provided with a connecting portion 5', which may be a columnar body ( As shown in Fig. 5, the strip shape of the plate-shaped body or the 匸-shaped section (as shown in Fig. 6); the capillary structure 30 and the connection portion 50 can be The shape is set to the interval shown in FIG. 5; or as shown in FIG. 6, the connecting portion 50 is a [section type] such that the capillary structure 30Β can be coupled to the connecting portion 5 A structural type that is integrated into the inner ankle portion formed by the side. Advantages of the Invention The "fine structure of the soaking plate" disclosed in the present invention is mainly composed of the capillary structure 30 being disposed between the top of the hollow plate chamber 21 of the heat equalizing plate, the bottom wall 22, and (b) Organization 3. The innovative uniqueness of the first side 31 in contact with the top wall 22 of the hollow chamber 21 and the first side in contact with the bottom wall 23 of the hollow chamber 21 allows the present invention to control the structure of the soaking plate according to the prior art. The top and bottom walls 22 and 23 of the hollow chamber 21 disclosed in the present invention can be connected to the top and bottom lines by the capillary structure 30, and the introduction of the top wall 22 can be transmitted to the capillary structure. Inside the hollow chamber, ^ = 24 parts: 'The fastest and most efficient heat conduction path is obtained, and the progress of the heat transfer efficiency of the heat transfer plate is further improved. 1307765 The above embodiments are disclosed to illustrate the present invention, and although the specific (four) description is given, those who do not limit the invention to the technical field of the invention can understand the present invention 2 and principles. It is subject to change and modification to achieve the purpose of equivalence, and the specific changes and modifications shall be included in the scope of the patent application scope as described later. The essence of the article is the essence of this article 307765 [Simple description of the diagram] Figure 1: A cross-sectional view of the conventional hot plate structure. Figure 2: The intention of the preferred embodiment of the soaked plate structure of the present invention. Figure 3 is a cross-sectional view showing a preferred embodiment of the soaking plate structure of the present invention. Fig. 4 is a view showing the configuration of the capillary structure of the present invention. Fig. 5 is a view showing the configuration of the capillary structure of the present invention. Fig. 6 is a view showing an embodiment in which the capillary structure of the present invention is integrated with the joint portion
圖。 第7圖 第8圖 第9圖 第10圖 第11圖 .本發明之毛細組織内 :本發明之毛細組織平 :本發明之毛細組織平 :本發明之毛細組織平 :本發明之毛細組織平 部具支撐件之實施例圖。 面配置型態之實施例一。 面配置型態之實施例二。 面配置型態之實施例三。 面配置型態之實施例四。Figure. Fig. 7 Fig. 8 Fig. 9 Fig. 10 Fig. 11 Fig. Fig. 11 in the capillary structure of the present invention: the capillary structure of the present invention: the capillary structure of the present invention: the capillary structure of the present invention: the capillary structure of the present invention A diagram of an embodiment of a support. Embodiment 1 of the face configuration type. Embodiment 2 of the surface configuration type. Embodiment 3 of the surface configuration type. Embodiment 4 of the surface configuration type.
【主要元件符號說明】 習知部份·· 中空槽室 頂壁 中空槽室 扁狀殼體 1〇 毛細組織 12 底壁 本發明部份: 均熱板 殼體 10 1307765 頂壁 2 2 側壁 2 4 毛細組織 30 第一側 31 支撐件 4 0 連結部 50 底壁 2 3[Explanation of main component symbols] Conventional part·· Hollow trough chamber top wall hollow trough chamber flat shell 1 〇 capillary structure 12 bottom wall part of the invention: soaking plate housing 10 1307765 top wall 2 2 side wall 2 4 Capillary structure 30 First side 31 Support member 4 0 Joint portion 50 Bottom wall 2 3
3 0 B 第二侧 323 0 B Second side 32
5 0 B 115 0 B 11