M318116 八、新型說明: 【新型所屬之技術領域】 本創作係有關一種散熱結構,尤指一 之熱管結構。 U毛細組織 【先鈾技術】 人新^:前所見的電子產品’在技術殘提昇下,並配 二:,的開發,在功能上的整合上已經十足的成長, 方便性,更朝向輕薄短小的設計為主要導向;々而= 子產品追求輕薄化的同時, 匕夕: Λ 迅 種組件亦曰益增加,相對所產生二::::的影響下,各 此為了使電子產〜s熱置亦曰益提昇,因 谙而卜吊白0工作皿度運作,避免溫昇環 的‘所在1^的使用壽命’適度的散熱對策成為發展 =具有熱管的散熱結構成了最佳的散 =部設有用來傳導熱量的毛細組織及工作流體,經由 傳導至散熱體上後,相狀態,將熱量快速 至原卢y液相狀態,最後再經由毛細組織作用回流 之:,:= 盾環式導熱:由於熱管的結構具有輕型化 對策。田、口作為以輕薄化為主軸的電子產品的散熱 由於熱管的導熱效率是建立 相互配合,特別Bhη a乇、、、田,、且織與工作流體的 j疋在毛細組織,係提供工作流體產生毛細 5 M318116 現象’俾使工作流體在熱管肉 後,經由毛細現象再重新猶環,因此:,量後凝結成液態 該熱管的導熱效率。 細現象的強弱攸關 …而過去習知技術係將金屬粉末燒結於熱管管, 以形成多孔性的毛細組織結構, 土 的毛細組織雖然可以提供工:流體;=屬粉末所構成 工作流體的回流,但相對因::屬== 結構亦產生較大的熱阻效應,削弱了熱管的導=、我 毛二:後=技:採用編織網結構來作為熱管内部的 A, 、,蜀如末咼熱阻的缺點,作編蚪_ 的網狀孔洞較大,所產生的毛細力卻不如全屬於 的結構,仍然無法達到最佳 ' 生 熱管内部以澧掸裕士 $ …议呆,而另一種利用在 組織來加強熱管的毛細力,但以 溝夂形成的毛細結構容易在 過程中破壞苴構㈣革έ / 弓B或屋扁的成型加工 虐 守文"刚述兩種結構的缺失,又r善 顧兩者的優勢,成為 兼 【新型内容】 孜灰者从待解決的問題所在。 合結構之1:=失:本創作之主要目的在於提供-種複 槽之管體内辟上=由將複數之纖維束設於具有複數溝 有間隙二多孔 部,除了方便製作外體固定於該管體内 進該熱管之導熱效率。 組織之毛細力,增 6 M318116 * 為了達到上述之目的,本創作係提供一種熱管之毛細 組織結構,係設於熱管之管體内壁面位置,該結構係包括 複數纖維束及一支標體,其中該管體内壁具有複數之軸向 長形溝槽,又’該纖維束係均勻分佈於該管體之内壁表面 及溝槽内部以提供管體軸向之長距離毛細力,最後, 撐體上設有複數穿槽,係貼抵於該熱管管體内壁面,將 維束固,於該管體内壁面與支撐體間,並使各纖維束及纖 馨維束與官壁間緊密貼合形成多孔性結構,藉此提昇對於工 作流體之毛細力,以提昇該熱管之導熱效率。 【實施方式】 茲將本創作之結構配合圖式加以說明: 請參閱第一圖及第二圖’係分別為 分解圖及組合完成圖。本創作之 I、口構 體1及-毛細組織2,其中毛=、;冓係包括-熱管管 =位^_管體2内壁面上設有複數二= 形溝槽11,致使該埶營瞢 仅 …s肢1之橫切面呈線鋸齒狀;另, :亥= 組織2係包括複數纖維束21及—支樓體22所组】, 稷數稷數纖維束21係均勻且緊密散佈 1内壁面之局部表面及溝槽11内部(如第三圖之:;二肢 不),於本實施例中該纖维穿 · ϋ7圖所 、芦來d係由金屬所構, 入 舄,亦该纖維束21由碳纖維戶斤構成 至 幻亦可如第六圖所示,係’該複數纖維束 内壁面之表面及溝槽内部,·:::该熱官管體1整個 於本實施例中係為-編織網,著㈣22係為—片體, 知&耆官體1内壁面利用首 7 M318116 尾相接之方式以環貼於該熱管管體1内壁面上,且將該局 部設置之複數纖維束21固定於該内壁面與支撐體22之間, 另該支撐體22上設有複數貫穿支撐體22片體之穿槽221 , 於本實施例中該穿槽221係呈長形且平行於軸向,曰用以讓 工=流體成為蒸氣後之流道;最後,該熱管管體丨加入工 作流體(圖未明示)並使管體)内部形成真空 成該熱管之結構。 & 70 •請參閱第三圖及第四圖,係為本創作之熱管剖視圖及 J放大圖。可看出,當毛細組織2中之支撐體22將局部 :又置之複數纖維束21i^於該内壁表面及溝槽㈣ 複數纖維束21彼此緊密接合,使各纖維束21間以 ==與溝槽U間形成微形間隙,由剖面觀之猶如形 ^在運如弟四圖之局部放大圖所示,致使該熱管 了大’藉由該複數纖維束21所形成之多孔性結構 >回产i亲庚门士卞作用之毛細力,加快工作流體之 以^' %配合該支禮體22所開設之複數穿槽221, 二I:流體吸收熱量後蒸發成氣態後之流道,俾使提 幵熱官整體之導熱效率。 平使杈 請參閱第五圖及第丄同 種^ /、圖,係為本創作支撐體22之另兩 只也方式’可看出,該雕 以上所、十、 牙脰22上之牙槽221設計除了 淮以上所述之實施方式, 能以此限定本創作實施^《為較γ土之貧施實例,當不 ' β ’若依本創作申請專利範圍及 8 M318116 兒月曰内谷所作之等效變化或修飾,皆應屬本創作下 專利涵蓋範圍。 【圖式簡單說明】 第圖、係為本創作之立體結構分解圖。 第一圖、係為本創作之組合完成圖。 第一圖、係為本創作之熱管剖視圖。 f四圖、係為本創作之熱管局部放大圖。 ::圖、知為本創作之支撐體之另一實施例剖視示意圖。 、圖係、為本創作之纖維束之另一實施例剖視示意圖。 【主要元件符號說明】 、 管體1 溝槽11 毛細組織2 纖維束2] 支撐體22 穿槽221M318116 VIII. New Description: [New Technology Field] This creation is about a heat dissipation structure, especially a heat pipe structure. U capillary structure [first uranium technology] People new ^: The electronic products seen before 'in the technical debris upgrade, and equipped with two:, the development, the functional integration has been fully developed, convenience, more oriented to light and short The design is the main guide; 々 = = sub-products pursue thin and light, at the same time, 匕: Λ 迅 迅 种 组件 组件 组件 组件 组件 组件 组件 组件 组件 迅 迅 迅 迅 迅 迅 迅 迅 迅 迅 迅 迅 迅 迅 迅 迅 迅 迅 迅 迅 迅 迅 迅 迅 迅 迅It is also beneficial to improve the situation, because the 吊 吊 吊 white 0 work space degree operation, to avoid the temperature rise ring 'the life of the 1 ^' moderate heat countermeasures become development = heat pipe with heat pipe becomes the best dispersion = The capillary structure and the working fluid for conducting heat are transmitted to the heat dissipating body, and the phase state is used to quickly transfer the heat to the original y liquid phase, and finally reflow through the capillary structure: ,:= shield ring type Heat conduction: Lightweight measures are taken due to the structure of the heat pipe. The heat dissipation of the electronic products that are thin and thin as the main axis of the field and the mouth are established because the heat transfer efficiency of the heat pipes is mutually compatible, especially the Bhη a乇, ,, ,, and the working fluid are in the capillary structure, providing the working fluid. Produce capillary 5 M318116 phenomenon '俾The working fluid is re-circulated through the capillary phenomenon after the heat pipe meat, therefore: the heat transfer efficiency of the heat pipe is condensed into a liquid state after the amount. The strength of the fine phenomenon is crucial... In the past, the conventional technique was to sinter metal powder into a heat pipe to form a porous capillary structure. Although the capillary structure of the soil can provide a fluid: = the reflux of the working fluid formed by the powder However, the relative cause:: genus == structure also produces a large thermal resistance effect, weakening the heat pipe guide =, my hair two: after = technology: using the woven mesh structure as the heat pipe inside the A,,, The shortcomings of the thermal resistance, the mesh hole of the braiding _ is larger, and the capillary force generated is not as good as the whole structure, and still can not reach the best 'heating tube inside, 澧掸 士 $ ... ... ... , , , , , , , The use of tissue to strengthen the capillary force of the heat pipe, but the capillary structure formed by the gully is easy to destroy the structure in the process (4) leather έ / bow B or the flat shape of the processing of the abuse of the text "just describe the lack of two structures, and r takes care of the advantages of both, and becomes a new type of problem. Structure 1: 1: Loss: The main purpose of this creation is to provide the tube of the complex groove. The fiber bundle is provided with a plurality of porous sections with a plurality of grooves, in addition to facilitating the fabrication of the external body. The heat transfer efficiency of the heat pipe into the tube body. The capillary force of the tissue is increased by 6 M318116. * In order to achieve the above purpose, the present invention provides a capillary structure of a heat pipe which is disposed at the inner wall surface of the heat pipe, and the structure includes a plurality of fiber bundles and a standard body. Wherein the inner wall of the tube has a plurality of axially elongated grooves, and the fiber bundle is evenly distributed on the inner wall surface of the tube body and inside the groove to provide a long distance capillary force in the axial direction of the tube body. Finally, the support body The utility model is provided with a plurality of slots, which are attached to the inner wall surface of the heat pipe, and are bundled between the inner wall surface of the pipe and the support body, and the fiber bundles and the vibrating bundles are closely attached to the official wall. The porous structure is formed, thereby increasing the capillary force for the working fluid to improve the heat transfer efficiency of the heat pipe. [Embodiment] The structure of this creation is described in conjunction with the drawing: Please refer to the first figure and the second figure, respectively, for the exploded view and the combined completed figure. I, mouth body 1 and - capillary structure 2 of the present invention, wherein the hair =,; the lanthanum includes - the heat pipe = the position ^ _ the inner wall surface of the pipe body 2 is provided with a plurality of two = shaped grooves 11, so that the 埶The camp only has a cross-section of the limb 1 in a zigzag pattern; in addition, the :hai = tissue 2 series includes a plurality of fiber bundles 21 and a branch body 22, and the number of the fiber bundles 21 is evenly and closely dispersed. 1 part of the inner wall surface and the inside of the groove 11 (as in the third figure:; the two limbs are not), in this embodiment, the fiber wears the ϋ7 map, the relaid d is made of metal, into the raft, The fiber bundle 21 is also composed of carbon fiber hustle and illusion, as shown in the sixth figure, which is the surface of the inner wall surface of the plurality of fiber bundles and the inside of the groove, and the::: the thermal official pipe body 1 is entirely implemented in the present embodiment. In the example, the woven mesh is used, and the (4) 22 series is a sheet body, and the inner wall surface of the & amp 耆 利用 利用 利用 利用 利用 利用 利用 利用 首 M M M M M M M M M M M M M M M M M M M M M The partially disposed plurality of fiber bundles 21 are fixed between the inner wall surface and the support body 22, and the support body 22 is provided with a plurality of through grooves 221 penetrating through the support body 22, In the example, the through groove 221 is elongated and parallel to the axial direction, and is used to make the fluid = the flow path after the steam; finally, the heat pipe body is added to the working fluid (not shown) and the pipe body) A vacuum is formed inside to form the heat pipe. & 70 • Please refer to the third and fourth figures for a cross-sectional view of the heat pipe and an enlarged view of J. It can be seen that when the support 22 in the capillary structure 2 is partially: the plurality of fiber bundles 21i are disposed on the inner wall surface and the grooves (four) of the plurality of fiber bundles 21 are tightly joined to each other, so that the respective fiber bundles 21 are replaced by == A micro-shaped gap is formed between the grooves U, and the cross-sectional view is like a shape, as shown in a partial enlarged view of the image of the fourth figure, so that the heat pipe has a large porous structure formed by the plurality of fiber bundles. The capillary force of the returning i-gengmen 卞 , , 加快 加快 加快 加快 加快 加快 加快 加快 加快 加快 加快 加快 加快 加快 加快 加快 加快 加快 加快 加快 加快 加快 加快 加快 加快 加快 加快 221 221 221 221 221 221 221 221 221 221 221 221 221 221 221 221 The overall heat transfer efficiency of the hot official is raised. Please refer to the fifth figure and the same species of ^ /, figure, which is the other two ways of creating the support body 22, as can be seen, the carving of the above, ten, the alveolar 221 on the gums 22 Designing the implementation method described above in Huai, can limit the implementation of this creation ^ "for the example of the poorer γ soil, when not 'β' if the patent application scope and 8 M318116 曰月曰内谷Equivalent changes or modifications shall be covered by the patent under this creation. [Simple description of the diagram] The first diagram is the exploded view of the three-dimensional structure of the creation. The first picture is a combination of the creation of the creation. The first picture is a cross-sectional view of the heat pipe of the creation. f Four diagrams are a partial enlargement of the heat pipe of the creation. A schematic cross-sectional view of another embodiment of the support of the present invention. A schematic cross-sectional view of another embodiment of the fiber bundle of the present invention. [Main component symbol description], pipe body 1 groove 11 capillary structure 2 fiber bundle 2] support body 22 through slot 221