M295289 八、新型說明: 【新型所屬之技術領域】 本創作係有關於一種熱管毛細組織結構改良,尤指一 種以燒結粉末與編織網或溝槽所構成之熱管毛細組織結構 改良。 【先前技術】 、首。按’熱管係—種具有高熱傳能力、快速傳熱及高熱傳 .導率之熱傳兀件,其不僅可傳遞大量的熱且不消耗電力, 因而廣受散熱市場之需求。而目前的熱管管體内壁皆設有 ^田組織(widcstrueture),該毛細組織可為具有毛細管作 =織網或燒結粉末等所構成,俾藉由毛細組織的毛細 。 即可便於熱官内工作流體(working fluid )之傳輸 =而’以編織網或燒結粉末所構成的毛細 自有其優、缺點,例如: 飞你各 敏二末所構成之毛細組織而言’由於粉末較為細 但在iHi承受較高的熱量且可提供較佳的毛細力。 成固狀體^吏^ = 粉末#著於熱管管壁上後即形M295289 VIII. New description: [New technical field] This creation is about the improvement of capillary structure of heat pipe, especially the improvement of capillary structure of heat pipe composed of sintered powder and woven mesh or groove. [Prior Art], first. According to the 'heat pipe system', a heat transfer element with high heat transfer capability, rapid heat transfer and high heat transfer rate can not only transmit a large amount of heat but also consume no power, thus being widely demanded by the heat dissipation market. The current inner wall of the heat pipe is provided with a widcstrueture, which may be composed of a capillary tube or a sintered powder, and the capillary structure of the capillary structure. It can facilitate the transmission of the working fluid in the hot official = and the capillary composed of the woven mesh or the sintered powder has its own advantages and disadvantages, such as: flying the capillary structure of each of the two ends. Since the powder is finer, it is subjected to higher heat at iHi and provides better capillary force. Solid body ^吏^ = powder # is placed on the wall of the heat pipe
带总+厂 Μ…、B ^法經由彎曲而改變形狀,如「L 管内壁m 4 ’否則將使得燒結粉末脆裂而剝離 細不連續而無法順利傳輸等問題。 至於以編織網所禮 可撓性,故較適於作為冓=::::,由於其具有較佳的 織網係由多數金屬毛細組織。惟,由於編 織編成網狀物後所構成,在結構上 5 M295289 不如燒結粉末可承受較高的熱量,尤复 更為明顯,甚至有θ為敎#古二/ /、在心官的受熱端處 壁之虞。 又…、匕间使得編織網脫離熱管管内 有鑑於此,本創作人為改善 潛心研究並配合學理之運用,心=上述之缺失,乃特 对冷呈,、+、 之運用終於提出—種設計合理且有 效改η上述缺失之本創作。 【新型内容】 f創作之主要目的,在於可提供_種熱管毛細組織結 f 其主要係於該熱管之受熱端處,以燒結粉末作為 =内之毛細組織,而其餘管身内之毛細組織則以編織網 f溝槽4其它型式之毛細組織所構成,俾藉由二種不同種 =、型式之毛細材料作為該熱管内之毛細結構,以令該熱 吕除了可承文較南溫的熱源外,亦能適用於彎管場合上。 、為了達成上述之目白勺,本創作係提供一種熱管毛細組 、、哉、、、口構改良’包括一中空管體、以及設於該管體内壁面上 ^第一種毛細組織與第二種毛細組織;其中,該管體於其 #身上至y /、有受熱段,於此受熱段内壁面係設有所述 之第種毛細組織,而其餘管身内壁面則設有所述之第二 種毛細組織,且该第一種毛細組織係為粉末燒結所構成。 俾藉由上述之構造組成,以達到本創作之目的者。 【實施方式】 為了使貝番查委員能更進一步暸解本創作之特徵及 技術内容’請參閱以下有關本創作之詳細說明與附圖,然 而所附圖式僅提供參考與說明用,並非用來對本創作加以 M295289 限制者。 請參閱第-圖及第二圖,係 圖及第一圖之局部放大詳圖。 =作之相不思 組織社構改_ 本創作係提供一種熱管毛細 蛛“冓改良,该熱管!為—内呈真空 之封閉管件,並密封有適量之工 h= ^長度 包括一中处其丨〔體(圖略);其大致 _所構;以及設於該管體10内壁面上之毛細組 :=為銅材質所製成之中空管,視該細實 度而取材’其通常係先將底端封口後,經熱處理 再置入毛細組織及卫作流體、並經由除氣等製程,始進一 f將其頂端予以封口,以完成該熱管1 ”隹,此等熱管之 衣私皆屬習知技術且非屬本發明之申請範蜂,故不再資述 〇 該毛細組織11係貼附於上述管體10之内壁面上而形成 圓周,,並於該管體10之全管身102内壁面1〇3上皆貼附 之。當熱管1底端受熱時,因熱管丨内部之工作流體受熱 後,會由液相變為氣相,故能將熱由熱管i底端傳導至頂 端,再經由頂端冷卻後而使氣相的工作流體回復為液相, 同時藉由毛細組織11而產生毛細現象,以便於將工作流體 回流至熱管1底端,如此即能循環進行熱交換現象。而本 創作主要在於:該管體10於其管身102上至少具有一受熱 段10〇 ’在第一圖中,所述受熱段100為該熱管底端處, 同時’管體10内之毛細組織11為二種不同種類、型式之毛 細材料所構成,而於此受熱段1〇〇内壁面103上所貼附的 M295289 毛、田:且:哉係為第-種毛細組織no,所述第一種毛細組織 1二為粉末燒結而成,另管體10餘管身102内壁面103上 置之毛、、、田組織則為第二種毛細組織,所述第二種 二、、、我111可為金屬線所編織而成的編織網(如第一圖 二丁)經捲曲後而貼附於管體10内壁面103上;或以抽 管而形成於管體10内壁面103上之溝槽狀毛細組織(如第 ° 厂、)苐一種毛細組織111即位於如圖中熱管1頂 端之冷,破段101等及管身102其餘部位。 如第二圖所示,為避免第一種毛細組!歲110與第二種 ,、、、田:且織111未連接而造成毛細傳輸的不連續,在製造上 取好=令上述二種毛細材料之交接處予以重疊或緊密對接 ,以f保毛細傳輸路徑得以連續而不致中斷。 、藉由上述之構造組成,即可得到本創作埶管毛 細組織結構改良。 …、S毛 如第二圖所示,係為本創作熱管i應用於「 = 不意圖。其中,所述受熱段_係形成於熱i 而該熱h之另一端則為所述冷凝段肋, ::文熱段100與一熱源2相接觸,而冷凝段 接有複數散熱籍片3,且該熱管"皮彎曲部 = 毛細組織m可為編織網或溝槽,故該 2種 毛細結構的情況下被彎曲。 ’、“ 口在不破壞 第四圖所示’係為本創作熱管i’應用於一 之使用狀態示咅岡 ^, u」形管 熱段心:Γ「;於一般「U」形熱管r之受 於壬u」字型之底段處,故在本實施例中 M295289 ,所述受熱段1⑻,係形成於管體10,之中段處,而該管體 10之二端則各為一所述冷凝段101,,且受熱段1〇〇,同樣 與一熱源2’相接觸,二冷凝段1〇1,則共同串接有複數散熱 鰭片3 ,如此即可以第一種毛細組織11〇,之粉末燒結、及 第一種毛細組織111之編織網或溝槽來構成該熱管1,之毛 &、且、歲11 ,並達到熱官1受熱段1〇〇,所能承受之溫度較 咼、且其餘管段亦能適於彎管之目的。 • * 1宗上所述,本創作實為不可多得之新型創作產品,盆 nr翻之制目的,而解決習知之缺失,又因極具 法i出=步性,完全符合新型專利申請要件,爰依專利 權=出申,月,敬請詳查並賜准本案專利,以保障創作人之 拘限為本創作之較佳可行實施例,非因此即 内容所為之等效結構變化2運用本創作說明書及圖式 瞻内,合予陳明。 均同理皆包含於本創作之範圍 9 M295289 【圖式簡單說明】 示意圖。 示意圖。 示意圖。 第一屬係本創作之剖視示意圖。 第二圖係第一圖之局部放大詳圖。 第三圖係本創作第一實施例之剖視 第四圖係本創作第二實施例之剖視 第五圖係本創作第三實施例之剖視 【主要元件符號說明】 <本創作> 熱管 1 、:1, 管體 10 > 10, 受熱段 100 、 100, 冷凝段 101 Λ 101, 管身 102 内壁面 103 毛細組織 11 11, 第一種毛細组織 110 110, 第二種毛細虹織 111 > 111, 熱源 2 、2, 散熱鰭片 10With the total + plant Μ..., B ^ method changes shape by bending, such as "L tube inner wall m 4 ' otherwise it will make the sintered powder brittle and peel fine discontinuous and can not be transmitted smoothly. As for the woven mesh Flexible, it is more suitable as 冓=::::, because it has a better woven mesh system from most metal capillary structure. However, due to the weaving and braiding of the mesh, the structure is not as good as the sintered powder. Can withstand higher heat, especially more obvious, even θ is 敎#古二 / /, at the heat-receiving end of the heart of the wall. Also..., the woven woven fabric is removed from the heat pipe, in view of this, this In order to improve the research of the concentrating and cooperate with the application of the theory, the creator = the lack of the above, but the application of cold presentation, +, finally put forward a kind of design that is reasonable and effective to change the above-mentioned missing. [New content] f creation The main purpose is to provide a heat pipe capillary structure f which is mainly at the heat end of the heat pipe, with the sintered powder as the capillary structure in the inner body, and the capillary structure in the other pipe body as the woven mesh f groove 4 Other type The capillary structure is composed of two different kinds of types and the capillary material as the capillary structure in the heat pipe, so that the heat can be applied to the curved pipe in addition to the heat source of the south temperature. In order to achieve the above objectives, the present invention provides a heat pipe capillary group, 哉,, and mouth structure improvement 'including a hollow tube body, and is disposed on the inner wall surface of the tube ^ first type of capillary structure And the second type of capillary structure; wherein the tube body has a heat-receiving section on the body of the body, and the first capillary structure is disposed on the inner wall surface of the heat-receiving section, and the inner wall surface of the other body is provided The second type of capillary structure is described, and the first type of capillary structure is composed of powder sintering. The composition of the above-mentioned structure is used for the purpose of the present invention. [Embodiment] In order to enable the member of the Beppucha to be more Further understanding of the features and technical contents of this creation 'Please refer to the following for a detailed description of the creation and the drawings. However, the drawings are for reference and explanation only, and are not intended to limit the creation to M295289. - and a second view of the first map-based and local enlarged detail view of the phase for not think = tissue Co. configuration change _ present system provides a writing capillary heat pipe spider "ten billions improvement of the heat pipe.! a closed tube with a vacuum inside, and sealed with a proper amount of work h = ^ length including a middle portion of the body [body (not shown); its roughly _ structure; and the capillary provided on the inner wall surface of the tube body 10 Group: = hollow tube made of copper material, which is taken according to the fineness. 'It usually seals the bottom end, heats it and then puts it into the capillary structure and the fluid, and then processes it through degassing. Starting from a f, the top end is sealed to complete the heat pipe 1 隹. These heat pipes are privately owned and are not the application vane of the present invention, so the capillaries 11 series are no longer described. Attached to the inner wall surface of the pipe body 10 to form a circumference, and attached to the inner wall surface 1〇3 of the entire pipe body 102 of the pipe body 10. When the heat pipe 1 is heated at the bottom end, the heat pipe is internally closed. After the working fluid is heated, it will change from the liquid phase to the gas phase, so that heat can be transferred from the bottom end of the heat pipe i to the top end, and then cooled by the tip to return the working fluid in the gas phase to the liquid phase, and by the capillary structure. 11 to produce capillary phenomenon, so as to return the working fluid to the bottom of the heat pipe 1, so that The heat exchange phenomenon is cyclically performed. The present invention mainly consists in that the pipe body 10 has at least one heat receiving section 10'' on its pipe body 102 in the first figure, and the heat receiving section 100 is at the bottom end of the heat pipe, and at the same time' The capillary structure 11 in the tube body 10 is composed of two different types and types of capillary materials, and the M295289 hair and the field attached to the inner wall surface 103 of the heat receiving section 1 are: and the lanthanum is the first species. The capillary structure no, the first type of capillary structure 1 is sintered by powder, and the other body 10 is provided with a hair structure on the inner wall surface 103 of the tubular body 102, and the field structure is a second type of capillary structure. Two kinds of woven fabrics woven by metal wires (such as the first figure) can be attached to the inner wall surface 103 of the pipe body 10 after being crimped; or formed into a pipe by a pipe The grooved capillary structure on the inner wall surface 103 of the body 10 (such as the first factory), a capillary structure 111 is located at the top of the heat pipe 1 in the figure, the cold portion 101 and the rest of the pipe body 102. As shown, in order to avoid the first type of capillary group! Years old 110 and the second,,,, and field: and the weave 111 is not connected to cause hair Discontinuity of transmission, good in manufacturing = make the junction of the above two kinds of capillary materials overlap or close to each other, so that the capillary transmission path can be continuously and without interruption. With the above composition, the book can be obtained. The creation of the capillary structure is improved. ..., S hair is as shown in the second figure, which is applied to the creation heat pipe i. " = Not intended. The heat segment is formed in heat i and the heat h is another. One end is the condensing section rib, the ::heating section 100 is in contact with a heat source 2, and the condensation section is connected with a plurality of heat-dissipating sheets 3, and the heat pipe"skin bending part=the capillary structure m can be a woven mesh or The groove is bent in the case of the two kinds of capillary structures. ', ' The mouth is not destroyed. The figure shown in the fourth figure is the use of the creative heat pipe i'. The hot segment: ""; in the bottom section of the general "U" shaped heat pipe r, which is in the shape of 壬u", in this embodiment, M295289, the heated segment 1 (8) is formed in the pipe body 10, At the middle section, the two ends of the pipe body 10 are each of the condensation section 101, and are heated Section 1〇〇, also in contact with a heat source 2', the second condensation section 1〇1, a plurality of fins 3 are connected in series, so that the first type of capillary structure 11〇, the powder is sintered, and the first The woven mesh or groove of the capillary structure 111 constitutes the heat pipe 1, the hair &, and the age of 11, and reaches the heat-receiving section 1 of the heat officer 1, the temperature that can be withstood is relatively high, and the remaining pipe sections can also Suitable for bending purposes. • * 1 mentioned above, this creation is a rare new creative product, the purpose of the basin nr turn over, and the lack of understanding of the knowledge, but also because of the law, the full compliance with the new patent application requirements , according to the patent right = apply for the month, please check and grant the patent in this case, in order to protect the creator's restraint as the better feasible embodiment of the creation, not the content of the equivalent structural change 2 This creation manual and the drawing plan are combined with Chen Ming. The same reason is included in the scope of this creation. 9 M295289 [Simple description of the diagram] Schematic. schematic diagram. schematic diagram. The first genus is a schematic cross-sectional view of this creation. The second figure is a partial enlarged detail of the first figure. The third drawing is a cross-sectional view of the first embodiment of the present invention. The fifth drawing of the second embodiment of the present invention is a cross-sectional view of the third embodiment of the present invention. [Main component symbol description] <This creation> Heat pipe 1, : 1, pipe body 10 > 10, heated section 100, 100, condensation section 101 Λ 101, inner wall surface 103 of the body 102, capillary structure 11, 11, first capillary structure 110 110, second capillary Iridium 111 > 111, heat source 2, 2, heat sink fin 10