200907274 九、發明說明: 【發明所屬之技術領域】 特別是指其内部毛細組織結 本發明係涉及一種熱管 構型態之創新設計者。 【先前技術】 按,熱管 部之真空槽間 係由熱源接觸 的工作液到達 冷凝成液態, 如此完成整個 習知熱管 毛細組織11的 於實際應用上 織11内側12呈 則該部位導熱 如果令毛細組 熱端13之其餘 動之效率,造 是以,針 發出一種能夠 創新構造,實 者0 之主要構成要件係包括管體、設於該管體内 :細組織以及工作液;熱管之作動原理, 熱管的導熱端’使工作液蒸發成汽態,汽態 :的散熱端’再藉由該較冷的環境使工作液 最後由毛細组敏脾、、右台t 丛 、取财液恶工作液吸回導熱端, 循環。 1圖所示 態;惟, 熱端13而 細組織11 之效益將 ’則將造 進而影響 一步提昇 存在之問 益、更具 思索突破 ,其熱管10之 此種習知結構 言,其毛細組 之厚度較薄, 相對降低,但 成熱管1 0非導 汽化工作液流 之問題點。 題點,如何研 理想實用性之 之目標及方向 之毛細組織型態如第 内側12係為平直面型 發現’就熱管1 〇之導 平直面的設計,若毛 以及促使工作液汽化 織11之厚度整體增厚 區段内部空間縮減, 成散熱效果無法更進 對上述習知使用上所 更進一步提昇散熱效 有待相關業界再加以 200907274 有鑑於此,發明人本於多年從事相關產品之製造開發 與設計經驗,針對上述之目π,$ " |对上江之目軚,详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,係在提供一種熱 解決之問題點,係飪斟铟土為… 一吓攸 … 官之毛細組織内側係為平直 以思索突破;所述熱管包括4更之問題點加 細組織,·該管體包括導熱 :乂及毛 於管體内壁具預定厚度; …、端該毛細組織則結合 本發明解決問題之技術特點 内側面於至少對應導 在於该毛細組織之 垤别&而w 6 ^ #又係攻成階級型能4晟许至 異型恶而界定形成有局部 、、u尽度差 為單側邊、複數側邊;二’所述局部增厚部位可 計,使本發明對照先2 型態;藉此創新獨特設 ·· 大致可達到如下之優點 藉由該毛細組織具局部 加該部位之導熱效果以 位之设計,將可特別增 以大幅提昇熱管導熱端之敎傳:::汽化之效益’藉此得 細組織内側面之其餘區段户 政率,另—方面,由於毛 空間,以利於汽化工作液:::! ’俾可提供寬擴之導流 之散熱效果。 …、端快速導送,以達到最佳 200907274 【實施方式】 明,閱第2、3圖所不’係本發明之較佳實施例,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,所述熱管A主要係包括一管體2〇、設於該管體2〇内 邠之中空槽23以及毛細組織30 ;纟中該管體2〇包括一導埶 端21以及-散熱端22 ’該毛細組織3〇則可呈環狀結合於管 =内壁而具有敎之厚度,例如可藉由金屬顆粒燒結成 !者’本發明之主要核心設計在於: 該所述毛細組織30之内側面31,於至少對應管體别導 广2!之區段係設成階級型態或是厚度差異型態而界定形 成有局部增厚部位32者。 ^其中,如第2圖所示,所述局部增厚部位32可為設於 毛'、·田組織30内側面31單一側邊之結構型態者。 ;^其中’如第4圖所示’所述局部增厚部位32B可為設 毛細組織3〇内側面31之複數側邊或呈環狀之結構型態者 局心… ^丁綠玄毛細組織30内側面31之 41之32的成型方式’係可藉由-端部具偏心側面 褀'“。伸置於該議内部中空槽烈作為其治 该毛細組織30結合於管體20内壁並達成定型後,^ V 40抽出,即可藉由該模芯4〇 、 X 、〜 局部增厚部位32者。 “側面41相對形成所述之 “藉由上述之結構組成設計,本發明所揭教管Α主要可 精由其毛細組織30之内侧面31形 7 A主要叮 取虿局°卩增厚部位32之設 200907274 十得利用所述局部增厚部位32增加毛細組織3〇之局部厚 度,藉此以增加該部位毛細組織3〇的體積,如此也就能夠 相對增加該部位吸熱、導熱以及促使工作液蒸發汽化之效 ^,而由於該局部增厚部位32係對應於管體2〇之導熱端Μ 區段,該導熱端21係與預定熱源(# cpu )相接觸部位, 因此對於熱官之整體散熱效果將可產生極大助益。 又其中,如第5圖所示,所述毛細組織3〇亦可為僅結 口刀佈於官體20内壁局部側肖(如本實施例之毛細組織僅 刀佈於g體内壁底側)之型態者,而本實施例之局部增厚 口P位32同樣係藉由毛細組織3〇之階級狀態所構成。 —再如第6圖所示之毛細組織30,其同樣為僅結合分佈 於S體2G内壁局部側向之型態,而其有別於前述第$圖所 不之處,係在於其局部增厚部位32係藉由毛細組織卯之厚 又差狀心所構成者(請比較本圖之圖號31與犯所標註部 位之毛細組織厚度差異可知)。 【本發明之優點】 又曰主要藉由該毛細組織具局部增厚部位之創新獨 :°又计,"卑可特別增加該部位之導熱效果以及促使工作液 π化之效1,藉此得以大幅提昇熱管導熱端之熱傳導 ;另一方面,由热’平 田於毛細組織内側面之其餘區段厚度不 俾可提ί、見擴之導流空@,以利於汽化工作液朝散熱 速導达,以達到最佳之散熱效&。 、 -I— ^|| 所姐—X, 厅揭不者係藉以具體說明本發明,且文中 200907274 雖透過特定的術語進行說明’當不能以此 利範圍,1悉此項技術領域之人士當之專 則後對其進行變更與修改而達到等效月之精 寺交更與修改,皆 寺欢之目的,而此 定範疇中, …;如后所述之申請專利範圍所界 200907274 【囷式簡單說明】 第1圖 第2圖 第3圖 習知熱管結播 構之平面剖視圖。 面剖視圖。 成型方法示意圖 另一實施例圖。 另一實施例圖。 以及所呈現增厚 本發明埶營6士 m ± '、、、g、4構較佳實施例之平 本發明埶瞢少$ / … 之毛細組織階級型態 :4圖.本發明熱管之毛細組織階級型態 第5圖:本發明熱管之毛細組織分佈型態 第6圖·本發明熱管之毛細、组織分佈型態 部位型態之又一實施例圖。 【主要元件符號說明】 習知結構: ί、、、 3 10 毛細組織 11 内侧 12 導熱端 13 本發明部份: 姑1營 *、、\ & A 管體 2 0 導熱端 2 1 散熱端 2 2 中空槽 2 3 10 200907274 毛細組織 内侧面 增厚部位 模芯 偏心侧面200907274 IX. INSTRUCTIONS: [Technical field to which the invention pertains] In particular, the internal capillary structure of the invention relates to an innovative designer of a heat pipe configuration. [Prior Art] According to the heat pipe portion, the working fluid contacted by the heat source reaches the liquid state, so that the entire heat pipe capillary structure 11 is completed, and the inner side of the woven fabric 11 is 12, and the heat conduction of the portion is made. The efficiency of the rest of the hot end of the group 13 is made, and the needle emits an innovative structure. The main constituent elements of the actual body are the tube body, which is disposed in the tube body: fine structure and working fluid; the principle of operation of the heat pipe The heat-conducting end of the heat pipe evaporates the working fluid into a vapor state, and the heat-dissipating end of the vapor state: the cold working environment causes the working fluid to finally be sensitive to the spleen by the capillary group, and the right-hand t-cluster The liquid is sucked back to the heat conducting end and circulated. The state shown in Fig. 1; however, the benefit of the hot end 13 and the fine structure 11 will be the result of the one-step improvement of the existence of the one-step improvement, more thinking about the breakthrough, the conventional structure of the heat pipe 10, its capillary group The thickness is relatively thin and relatively low, but it becomes a problem of non-conducting working fluid flow in the heat pipe 10 . The problem, how to study the ideal and practicality of the target and direction of the capillary structure type, such as the inner 12 series is a flat surface type found 'in the design of the heat pipe 1 导 flat surface, if the hair and promote the working fluid vaporization woven 11 The thickness of the overall thickening section is reduced, and the heat dissipation effect cannot be further improved. The above-mentioned conventional use has further improved the heat dissipation effect. The related industry has to add 200907274. In view of this, the inventor has been engaged in the manufacture and development of related products for many years. The design experience, for the above-mentioned purpose π, $ " | on the goal of Shangjiang, after detailed design and careful evaluation, the invention will be practical. SUMMARY OF THE INVENTION The main object of the present invention is to provide a problem of heat solution, which is to infuse indium as a ... frightening... The inner side of the official capillary structure is straight to think about breakthrough; the heat pipe includes 4 more The problem is to add fine structure, the tube body comprises heat conduction: the 乂 and the hair have a predetermined thickness in the inner wall of the tube; the end of the capillary structure is combined with the technical feature of the present invention to solve the problem, and the inner side at least corresponds to the capillary structure The screening & and w 6 ^ # is also divided into class type can be 4 to the shape of the evil and defined to form a local, u-degree difference is a single side, a complex side; two 'the local thickening The position can be counted so that the present invention can be compared with the first type 2; thereby, the innovative unique design can achieve the following advantages: the capillary structure can be specially added by the partial heat transfer effect of the portion. Significantly improve the heat transfer end of the heat pipe::: The benefit of vaporization 'by taking advantage of the remaining section of the inner side of the organization, and on the other hand, due to the gross space, to facilitate the vaporization of working fluid:::!俾 提供 provides a widened diversion heat dissipation effect. ..., fast transmission to achieve the best 200907274 [Embodiment] It is to be understood that the preferred embodiments of the present invention are not described in the drawings, but the embodiments are for illustrative purposes only. The heat pipe A mainly includes a pipe body 2〇, a hollow groove 23 disposed in the pipe body 2〇, and a capillary structure 30; the pipe body 2〇 includes a guide The top end 21 and the heat dissipating end 22' of the capillary structure 3 can be annularly bonded to the tube = inner wall and have a thickness of tantalum, for example, can be sintered by metal particles! The main core design of the present invention is: The inner side surface 31 of the capillary structure 30 is defined as a class type or a thickness difference type to define a portion of the inner portion 31 of the capillary structure. Wherein, as shown in Fig. 2, the locally thickened portion 32 may be a structural type provided on a single side of the inner side surface 31 of the hair tissue field 30. ; ^ where 'the fourth thickened portion 32B as shown in Fig. 4 may be a plurality of sides of the inner side surface 31 of the capillary structure 3 or a ring-shaped structure type of the heart... ^ Ding green mysterious fine tissue The forming manner of 32 of 41 of the inner side surface 31 is 'by the end portion having an eccentric side 褀'". The inner hollow groove of the inner side is extended as the inner capillary groove 30 is bonded to the inner wall of the tubular body 20 and is achieved. After the shaping, ^ V 40 is extracted, and the core portion 4 can be locally thickened by the cores 4, X, and ~. "The side surface 41 is relatively formed." The design of the structure is as described above, and the invention is disclosed. The tube can be mainly refined by the inner side surface 31 of the capillary structure 30. 7 A is mainly taken from the 卩 卩 卩 卩 卩 卩 卩 200 200 907 907 907 907 907 907 907 907 907 907 907 907 907 907 907 907 907 907 907 907 907 907 907 907 907 907 907 利用 利用 利用Thereby, the volume of the capillary structure of the portion is increased, so that the heat absorption and heat conduction of the portion and the evaporation of the working fluid can be relatively increased, and the localized thickening portion 32 corresponds to the tubular body 2 a thermally conductive end section, the thermally conductive end 21 is associated with a predetermined heat source (# cpu The contact area, therefore, can greatly contribute to the overall heat dissipation effect of the heat official. In addition, as shown in Fig. 5, the capillary structure 3 can also be a knot only knife on the inner wall of the body 20 The side shawl (such as the capillary structure of the present embodiment is only disposed on the bottom side of the inner wall of the g body), and the local thickening port P position 32 of the embodiment is also composed of the class state of the capillary structure 3〇. - The capillary structure 30, as shown in Fig. 6, is also a type that is only combined with the local lateral distribution of the inner wall of the S body 2G, and is different from the above-mentioned Fig. The thickened portion 32 is composed of the thick and poor heart of the capillary tissue (please compare the difference between the thickness of the capillary structure of the figure 31 and the marked portion). [Advantages of the present invention] By the innovative structure of the localized thickening portion of the capillary structure: " 可 特别 particularly increases the thermal conductivity of the part and promotes the effect of the working fluid π, thereby greatly improving the heat conduction of the heat conducting end of the heat pipe; On the other hand, by heat 'Pingda on the inside of the capillary tissue The thickness of the remaining sections can not be improved, see the expansion of the guide flow @, in order to facilitate the vaporization of the working fluid towards the heat dissipation speed to achieve the best heat dissipation &, -I- ^|| X, the hall is not specifically to illustrate the invention, and in the text 200907274 is explained by specific terms 'When it is not possible to use this range, 1 person in this technical field will change and modify it as a special rule. And the equivalent of the equivalent of the temple of the temple and the modification, are the purpose of the temple, and in this category, ...; as described later, the scope of the patent application is bounded by 200,907,274 [Simple description] Figure 1 Figure 2 Fig. 3 is a plan sectional view showing a heat pipe knot structure. Sectional view. Schematic diagram of the molding method Another embodiment diagram. Another embodiment of the figure. And the thickness of the present invention is as follows: the thickness of the preferred embodiment of the invention is 6 ± m, ', g, 4, and the structure of the capillary structure of the invention is reduced by $ / ...: Figure 4. The capillary of the heat pipe of the present invention Fig. 5 is a diagram showing the distribution of the capillary structure of the heat pipe of the present invention. Fig. 6 is a view showing another embodiment of the shape of the capillary and the tissue distribution type of the heat pipe of the present invention. [Main component symbol description] Conventional structure: ί,,, 3 10 Capillary structure 11 Inside 12 Thermal conduction end 13 Part of the invention: 姑一营*,, \ & A Tube 2 0 Thermal conduction end 2 1 Heat dissipation end 2 2 Hollow groove 2 3 10 200907274 The inner side of the capillary structure is thickened at the core side of the core