M336473 八、新型說明: 【新型所屬之技術領域】 本創作係有關於一種熱導管,尤其是一種熱 ‘官複合結構。其中該溝槽管的内表面為溝槽,增加管 内的截面積,促使該溝槽管的散熱能力更優良,且加入 適當之熱導體,也能夠提高導熱速度,使工作流體在流 動時速度更快,藉以提升整體的散熱效果。 【先前技術】 習知技術中為中華民國專利公告號M29641 1 一種 「熱導管之改良構造」,其為申請人原申請之專利案, 其主要係包含一圓直管’用來裝設於如筆記型電腦等體 積較小的散熱裝置上;其特徵在於:該圓直管係經過管 加工(擴管或縮管)後,形成一原管徑段及加工管护段, 且該二段管徑有著不同的圓a,而内壁上固定有適 狀的熱導體(如:銅粉、銅絲或銅網), 田y j) 仕填入適看的丁 作:k體後,將内部抽真空並予以封閉成一體; 用同樣材料的情況下,形成同時增加埶 而在使 熱速率的雙重效果,並達到節省材料成本的、及提昇導 目的者。 【新型内容】 所以本創作的目的係為解 上的問題,本創作中提出一種執 、〃白知技術 “、V ♦官複合έ士摄 主要特徵在於該溝槽管的内表面為溝槽,择:構’其 面積,促使該溝槽管的散熱能力更#曰θ加管内的載 又k良,工作流體在流 5 M336473 動時速度更快,藉以提升整體的散熱效果。 為達到上述目的本創作中提出一種熱導 合結構,係主要用來裝設於體積較小的散熱裝置上 熱導管複合結構,包含:一溝槽管,該溝槽管為一中 體,且該溝槽管的内表面為溝槽,且該溝槽管的第 及第二端均内縮,略呈錐形;其中該溝槽管内尚有 導體及一工作流體,該熱導體位於接近第一端處, 作流體則注滿於該溝槽管内;且於該第一端的頂部 之後,由該第二端置入適當的熱導體及該工作流體 後將内部抽真空並予以密封形成一體,該第一端及 端的頂部呈密封狀態。其中該熱導體為銅粉;其中 導體為銅絲;其中該熱導體為銅網及彈簧,其中該 置於彈簧之外側,且圍繞著彈簧四周;其中該工作 為純水。 由下文的說明可更進一步瞭解本創作 徵及其優點,閱讀時並請參考附圖。 【實施方式】 茲謹就本案的結構組成,及所能產生的功 優點,配合圖式,舉本案之一較佳實施例詳細 如下。 請參考圖一至圖七,顯示本創作之一種熱 複合結構,係主要用來裝設於如筆記型電腦等 較小的散熱裝置上,該熱導管複合結構,包令 管複 ,該 空殼 一端 一熱 該工 密封 ,隨 第二 該熱 銅網 流體 心特 效與 說明 導管 體積 6 M336473 一溝槽管1,該溝槽管1為一中空殼體,且該溝槽 管1的内表面為溝槽10,且該溝槽管1的第一端12及 第二端14均内縮,略呈錐形,該第一端12及第二端的 、 頂部呈密封狀態; ♦ 其中該溝槽管1内尚有一熱導體1 6及一工作流體 1 8,該熱導體1 6位於接近第一端1 2處,該工作流體1 8 ' 則注滿於該溝槽管1内;且於該第一端1 2的頂部密封之 • 後,由該第二端1 4注入適當的熱導體1 6及該工作流體 1 8,隨後將内部抽真空並予以密封形成一體。 如圖二所示,本創作中之該熱導體1 6為銅粉。 如圖三所示,本創作中之該熱導體1 6為銅絲。 如圖四所示,本創作中之該熱導體1 6為銅網及彈 簧,其中該銅網置於彈簧之外側,且圍繞著彈簧四周。 本創作的製程如下(請參考圖六): 取一圓型管體,其中該管體為金屬材料所製成,如 # 銅或鋁;該管體内部形成溝槽,如圖示之鋸齒形溝槽。 . 將該管體進行裁切(100); 清洗該管體並去毛邊(1 0 1); 該管之第一端縮管(102); 置一心棒於管内部(103); 充填熱管體於該第一端内部;並延伸一段距離。該 7 M336473 心棒的作用可以使得熱導體可以附著在心棒上,而不會 沉積在管子一端(104); 進行燒結(105); ♦ 將心棒從管中拆除(106); 該管第二端縮管(107); 將該第一端焊接完全密封(108); 充填工作液體於管内部;其中該工作液體純水 1 (1〇9); 該管内部除氣以達到真空狀態(11 0); 加熱進一步除氣(111); 該管子第二端焊接使得管體之兩端完全密封(11 2)。 本創作中主要特徵在於該溝槽管的内表面為溝槽, 增加管内的截面積,促使該溝槽管的散熱能力更優良, > 工作流體在流動時速度更快,藉以提升整體的散熱效果。 綜上所述,本案人性化之體貼設計,相當符 合實際需求。其具體改進現有缺失,相較於習知 技術明顯具有突破性之進步優點,確實具有功效 之增進,且非易於達成。本案未曾公開或揭露於 國内與國外之文獻與市場上,已符合專利法規 定。 上列詳細說明係針對本創作之一可行實施 8 M336473 例之具體說明,惟該實施例並非用以限制本創作 之專利範圍,凡未脫離本創作技藝精神所為之等 效實施或變更,均應包含於本案之專利範圍中。M336473 VIII. New description: [New technical field] This creation is about a heat pipe, especially a hot ‘official composite structure. The inner surface of the grooved tube is a groove, which increases the cross-sectional area in the tube, which promotes the heat dissipation capability of the grooved tube, and the addition of a suitable heat conductor can also increase the heat conduction speed and make the working fluid flow more slowly. Fast, to improve the overall heat dissipation. [Prior Art] In the prior art, the Republic of China Patent Publication No. M29641 1 "Improved structure of a heat pipe" is a patent application originally filed by the applicant, and mainly includes a straight pipe for being installed in a note. The utility model relates to a small-sized heat dissipating device such as a computer; the characteristic is that the straight straight pipe is formed by a pipe process (expanding or shrinking), forming a raw pipe diameter section and a processing pipe retaining section, and the two pipe diameters Have a different circle a, and the inner wall is fixed with a suitable heat conductor (such as: copper powder, copper wire or copper mesh), Tian yj) fill in the appropriate Ding: after the k body, the internal vacuum It is sealed into one body; in the case of the same material, it forms a double effect of increasing the enthalpy while increasing the heat rate, and achieves the material cost saving and the improvement guide. [New content] Therefore, the purpose of this creation is to solve the problem. In this creation, a technique of "execution and ambiguity" is proposed. "The main feature of the V **** official composite gentleman is that the inner surface of the grooved tube is a groove. Choice: The structure of the groove, the heat dissipation capacity of the grooved tube is increased. The load in the tube is good, and the working fluid is moving faster when the flow 5 M336473 is moved, thereby improving the overall heat dissipation effect. In the present invention, a heat conducting structure is proposed, which is mainly used for mounting a heat pipe composite structure on a small heat sink, comprising: a grooved tube, the grooved tube is a middle body, and the grooved tube The inner surface is a groove, and the second end of the groove tube is retracted and slightly tapered; wherein the groove tube has a conductor and a working fluid, and the heat conductor is located near the first end. a fluid is filled in the grooved tube; and after the top of the first end, a suitable heat conductor and the working fluid are placed by the second end, and the inside is evacuated and sealed to form an integral body, the first The tops of the ends and ends are sealed. The heat conductor is copper powder; wherein the conductor is a copper wire; wherein the heat conductor is a copper mesh and a spring, wherein the heat conductor is placed on the outer side of the spring and surrounds the spring; wherein the work is pure water. To further understand the creation and its advantages, please refer to the attached drawings when reading. [Embodiment] The structure of the case, and the advantages of the work that can be produced, together with the drawings, a preferred embodiment of the present invention The details are as follows. Please refer to FIG. 1 to FIG. 7 to show a thermal composite structure of the present invention, which is mainly used for mounting on a small heat sink such as a notebook computer, and the heat pipe composite structure is provided with a tube. The hollow shell has a thermal seal at one end, and the second embodiment of the hot copper mesh fluid effect and the description of the conduit volume 6 M336473 a grooved tube 1, the grooved tube 1 is a hollow shell, and the grooved tube 1 The inner surface is a groove 10, and the first end 12 and the second end 14 of the groove tube 1 are respectively retracted and slightly tapered, and the top end of the first end 12 and the second end are sealed; There is still a thermal conductor 1 in the grooved tube 1. 6 and a working fluid 18, the heat conductor 16 is located near the first end 12, the working fluid 18' is filled in the grooved tube 1; and sealed at the top of the first end 12 After that, the appropriate heat conductor 16 and the working fluid 18 are injected from the second end 14 and then the inside is evacuated and sealed to form an integral body. As shown in Fig. 2, the thermal conductor 1 in the present creation 6 is copper powder. As shown in Fig. 3, the heat conductor 16 in the present invention is a copper wire. As shown in Fig. 4, the heat conductor 16 in the present invention is a copper mesh and a spring, wherein the copper mesh On the outside of the spring, and around the spring. The process of this creation is as follows (please refer to Figure 6): Take a round tube, which is made of metal material, such as #铜 or aluminum; inside the tube A groove is formed, such as the zigzag groove shown. Cutting the tube body (100); cleaning the tube body and removing the burrs (1 0 1); the first end tube of the tube is constricted (102); placing a heart rod inside the tube (103); filling the heat tube body Inside the first end; and extending a distance. The 7 M336473 mandrel acts so that the thermal conductor can be attached to the mandrel without being deposited at one end of the tube (104); sintering (105); ♦ removing the mandrel from the tube (106); a tube (107); the first end is welded completely sealed (108); the working liquid is filled inside the tube; wherein the working liquid is pure water 1 (1〇9); the inside of the tube is degassed to reach a vacuum state (11 0) Heating further degassing (111); the second end of the tube is welded such that the ends of the tube are completely sealed (11 2). The main feature of the creation is that the inner surface of the grooved tube is a groove, and the cross-sectional area in the tube is increased, so that the heat dissipation capability of the grooved tube is better, > the working fluid is faster when flowing, thereby improving the overall heat dissipation. effect. In summary, the humanized and considerate design of this case is quite in line with actual needs. The specific improvement of the existing defects, compared with the obvious advancement advantages of the prior art, does have an improvement in efficacy and is not easy to achieve. This case has not been disclosed or disclosed in domestic and foreign literature and market, and has been in compliance with patent regulations. The detailed description above is a detailed description of the implementation of 8 M336473 for the purpose of this creation. However, this example is not intended to limit the scope of the patents of this creation. Any equivalent implementation or change without departing from the spirit of the art should be It is included in the patent scope of this case.
M336473 【圖式簡單說明】 圖一顯示本創作中熱導管進行縮管作業前之示意 圖。 圖二顯示本創作中之該熱導體為銅粉。 圖三顯示本創作中之該熱導體為銅絲。 圖四顯示本創作中之該熱導體為銅網及彈簧,其中 該銅網置於彈簣之外側,且圍繞著彈簧四周。 圖五顯示本創作之應用示意圖。 圖六顯示本創作之製作流程圖。 圖七顯示本創作之立體圖。 【主要元件符號說明】 1 溝 槽 管 12 第 •圓鍾 端 14 第 -- 端 16 熱 導 體 18 工 作 流體 10M336473 [Simple description of the drawing] Figure 1 shows the schematic diagram of the heat pipe before shrinking operation in this creation. Figure 2 shows that the thermal conductor in this creation is copper powder. Figure 3 shows that the thermal conductor in this creation is a copper wire. Figure 4 shows that the thermal conductor in this creation is a copper mesh and a spring, which is placed on the outside of the magazine and surrounds the spring. Figure 5 shows the application diagram of this creation. Figure 6 shows the flow chart of the creation of this creation. Figure 7 shows a perspective view of the creation. [Main component symbol description] 1 Groove tube 12 • Round clock end 14 First end 16 Thermal conductor 18 Working fluid 10