201237345 六、發明說明: 【發明所屬之技術領域】 本發明係與一種散熱結構有關,尤指一種熱管與導熱 座之限位組配結構。 【先前技術】 按’利用熱管(Heat pipe)與導熱座結合,以增加導熱 座之熱傳效率者,已為現今散熱器上常見的技術手段或結 構之一。而以往欲將熱管結合於導熱座上時,通常會透過 知料以將熱管固定於導熱座的溝槽内、或是利用略呈橢圓 的弧狀溝槽使熱管相接觸的表面產生變形,進而防止熱管 結合於導熱座的溝槽内時發生滑動等脫落問題。 然而,僅管如上所述,若熱管與導熱座間未使用焊料 等黏著劑作為©定時,熱管與導熱座間仍因相接觸的表面 呈弧狀而容易產生滑動、甚至脫落等偏位問題,且當所欲 結合的熱管為複數時,各熱管間也由於溝槽略呈擴圓而加 ί了彼此的間距’使得在多熱管的應用場合下無法將各熱 :有效集中;而若是使用焊料等黏著劑作為固定時,則有 知料過少無法黏固、過多容易溢出而影響外觀等困擾,且 使用焊料也增加了材料與製造成本,殊不盡理想。 、有鑑於此’本發明人係為改善並解決上述I缺失,乃 特潛心研究並配合學理之運用 ._ 予主之運用,終於提出一種設計合理且 有效改善上述缺失之本發明。 【發明内容】 本發明之主要目的,在於可提供一種熱管與導熱座之 201237345 限位組配結構,其係可在無需使用焊料的情況下,使熱管 被擠入導熱座之溝槽内後,即可被限位而不易產生偏位, 且可適用在斷面呈正弧形(即約略為二分之一半圓)之溝槽 上,能在組配多熱管時將各熱管有效集中。 為了達成上述之目的,本發明係提供一種熱管與導熱 座之限位組配結構,包括一導熱座、以及至少一緊迫於該 導熱座上的熱管;其中,導熱座具有一表面,並於該表面 上凹設有一溝槽,且溝槽内表面上係一體突出有一限位肋 ,熱管則緊迫於導熱座之溝槽内,而限位肋係咬入熱管位 於溝槽内的部位表面處,以於熱管位於溝槽内的部位表面 處上形成一凹入、且與所述限位肋相配合的限位缺口;俾 藉由限位肋咬入熱管上而形成限位缺口,以達到上述使熱 管於溝槽内不易偏位之目的。 【實施方式】 為了使貴審查委員能更進一步瞭解本發明之特徵及 技術内容,請參閱以下有關本發明之詳細說明與附圖,然 而所附圖式僅提供參考與說明用,並非用來對本發明加以 限制者。 請參閱第一圖,係為本發明之立體組合圖。本發明係 提供一種熱管與導熱座之限位組配結構,包括一導熱座1 、以及至少一緊迫於該導熱座1上的熱管(Heat pipe) 2, 俾透過熱管2結合於導熱座1上,以增加該導熱座1之熱傳 效果者;其中: 該導熱座1可為銅或鋁等導熱性良好之材質所製成, 其係可作為如散熱器用以貼附於熱源上之基座,並至少具 201237345 有-用以貼附熱源之底面10、以及—相對於該底面ι〇另一 側之頂面η;而在本發明所舉之實施例中,上述熱管2係 結合於該導熱座1之底面10上,且該導熱座工於^頂面n 處可進一步增設複數散熱片3,以構成一散熱器。 請-併參閱第二圖所示,該導熱座i之底面10上係凹 設有與所述熱管2的數量相當之溝槽12,但所述溝槽12不 以設於導熱座1之底面10上為限。各溝槽12的斷面可略呈 大於二分之一半圓的正弧形者,並用以供上述熱管2分別 擠入,且於各溝槽12内皆由其内表面上一體突出有至少一 限位肋120,而各限位肋12〇乃沿其所對應之溝槽12長度方 向而被拉伸成型。 據此,請一併參閱第三圖及第四圖所示,當各熱管2 被擠入相對應的溝槽12内時,熱管2進入溝槽12内的部位 表面處,係恰好與溝槽12内的限位肋12〇相對而抵頂,故限 位肋120能咬入熱管2相對應的表面處而形成一凹入的限 位缺口 20,進而使熱管2與導熱座1原本以弧狀相接觸的 關係,因受限位肋120擠壓於熱管2相對應的表面,而使熱 管2與導熱座1間不再是透過弧狀的接觸關係,藉以有效 防止熱管2於導熱座1之溝槽12内發生偏位等鬆脫問題, 且可供熱管2在無需使用焊料的情況下,亦能緊密地與導 熱座1相結合且彼此間直接接觸(即彼此間不具有焊料)。 此外’熱管2未能進入溝槽12内的部位則被擠壓成一受熱 面21 ’並可令所述受熱面21與導熱座1之底面10相平齊, 以便得與熱源作接觸。 另’請一併參閱第五圖及第六圖所示,係為本發明第 201237345 二實施例者;其中,各溝槽12内之限位肋120亦可增設為複 數,且該等限位肋120於溝槽12内表面上呈間隔排列設置, 以視所增設的數量均勻分布,俾增加熱管2與導熱座1間 之限位效果。 再者,請一併參閱第七圖及第八圖所示,係為本發明 第三實施例者;其中,所述限位肋120可進一步位於其所對 應之溝槽12槽口内一側處、或進一步於各溝槽12槽口内的 二侧處皆分別設有一所述限位肋120,如此,不僅可達到上 述之目的與效果外,亦可令限位肋120將熱管2由溝槽12 槽口向内抵頂,以更有效地防止熱管2由溝槽12内脫落。 此外,如第九圖所示,係為本發明第四實施例,其係更進 一步將上述第二、三實施例整合為一體,以同時兼具該兩 實施例之優點與功效。 是以,藉由上述之構造組成,即可得到本發明熱管與 導熱座之限位組配結構。 綜上所述,本發明實為不可多得之發明產品,其確可 達到預期之使用目的,而解決習知之缺失,又因極具新穎 性及進步性,完全符合發明專利申請要件,爰依專利法提 出申請,敬請詳查並賜准本案專利,以保障發明人之權利 〇 惟以上所述僅為本發明之較佳可行實施例,非因此即 拘限本發明之專利範圍,故舉凡運用本發明說明書及圖式 内容所為之等效結構變化,均同理皆包含於本發明之範圍 内,合予陳明。 201237345 【圖式簡單說明】 第一圖係本發明之立體組合圖。 第二圖係本發明第一實施例之組配動作圖。 第三圖係本發明第一實施例熱管與導熱座組配前之示 意圖。 第四圖係本發明第一實施例熱管與導熱座組配後之示 意圖。 第五圖係本發明第二實施例熱管與導熱座組配前之示 意圖。 第六圖係本發明第二實施例熱管與導熱座組配後之示 意圖。 第七圖係本發明第三實施例熱管與導熱座組配前之示 意圖。 第八圖係本發明第三實施例熱管與導熱座組配後之示 意圖。 第九圖係本發明第四實施例熱管與導熱座組配後之示 意圖。 【主要元件符號說明】 I 導熱座 II 頂面 120 限位肋 20 限位缺口 10 底面 12 溝槽 2 21 熱管 21 受熱面 散熱片201237345 VI. Description of the Invention: [Technical Field] The present invention relates to a heat dissipation structure, and more particularly to a limit assembly structure of a heat pipe and a heat conduction seat. [Prior Art] The combination of a heat pipe and a heat transfer seat to increase the heat transfer efficiency of the heat transfer seat has become one of the common technical means or structures on the present heat sink. In the past, when the heat pipe was to be bonded to the heat conducting seat, the heat pipe was usually fixed in the groove of the heat conducting seat through the knowledge, or the surface of the heat pipe contacting was deformed by the slightly elliptical arc groove. The problem of slippage or the like occurs when the heat pipe is prevented from being bonded into the groove of the heat transfer seat. However, as described above, if an adhesive such as solder is not used as a timing between the heat pipe and the heat conducting seat, the surface of the heat pipe and the heat conducting seat that is in contact with each other is curved, which is liable to cause a problem of slippage or even falling off. When the heat pipes to be combined are plural, the distance between the heat pipes is slightly increased due to the slight expansion of the grooves, so that the heat cannot be effectively concentrated in the application of the multi-heat pipe; if it is adhered using solder or the like When the agent is fixed, it is too small to be surely adhered, too much is likely to overflow, and the appearance is affected, and the use of solder increases the material and the manufacturing cost, which is not ideal. In view of the above, the present inventors have made great efforts to improve and solve the above-mentioned I deficiency, and have devoted themselves to research and cooperation with the use of academics. _ The application of the present invention finally proposes a present invention which is reasonable in design and effective in improving the above-mentioned defects. SUMMARY OF THE INVENTION The main object of the present invention is to provide a 201237345 limit assembly structure of a heat pipe and a heat conducting seat, which can be used to extrude a heat pipe into a groove of a heat conducting seat without using solder. It can be restricted and not easy to produce offset, and can be applied to the groove with a positive arc shape (ie, about one-half semicircle), which can effectively concentrate the heat pipes when assembling multiple heat pipes. In order to achieve the above object, the present invention provides a limiting assembly structure of a heat pipe and a heat conducting seat, comprising a heat conducting seat and at least one heat pipe pressing on the heat conducting seat; wherein the heat conducting seat has a surface, and a groove is recessed on the surface, and a limiting rib is integrally protruded on the inner surface of the groove, and the heat pipe is pressed into the groove of the heat conducting seat, and the limiting rib is bitten into the surface of the heat pipe located in the groove. A limiting notch is formed on the surface of the portion of the heat pipe located in the groove, and the limiting rib is matched with the limiting rib; and the limiting rib is bitten into the heat pipe to form a limiting gap to achieve the above The heat pipe is not easily misaligned in the groove. [Embodiment] In order to make the present invention more fully understand the features and technical contents of the present invention, the following detailed description of the present invention and the accompanying drawings are provided. The invention is limited. Please refer to the first figure, which is a three-dimensional combination diagram of the present invention. The invention provides a heat limiting structure of a heat pipe and a heat conducting seat, comprising a heat conducting seat 1 and at least one heat pipe 2 pressed against the heat conducting seat 1 , and the heat pipe 2 is coupled to the heat conducting seat 1 through the heat pipe 2 In order to increase the heat transfer effect of the heat conducting seat 1; wherein: the heat conducting seat 1 can be made of a material having good thermal conductivity such as copper or aluminum, and can be used as a base for attaching to a heat source such as a heat sink. And having at least 201237345 - a bottom surface 10 for attaching a heat source, and - a top surface η opposite to the other side of the bottom surface; and in the embodiment of the present invention, the heat pipe 2 is coupled to the The bottom surface 10 of the heat conducting base 1 is further provided with a plurality of heat sinks 3 at the top surface n to form a heat sink. Please refer to the second figure, the bottom surface 10 of the heat conducting seat i is recessed with a groove 12 corresponding to the number of the heat pipes 2, but the groove 12 is not provided on the bottom surface of the heat conducting seat 1. 10 is limited. The cross-section of each of the grooves 12 may be slightly more than one-half of a semi-circular arc, and is used for the heat pipes 2 to be respectively extruded, and at least one of the grooves 12 is integrally protruded from the inner surface thereof. The limiting ribs 120 are stretched and formed along the length direction of the corresponding groove 12 thereof. Accordingly, as shown in the third and fourth figures, when the heat pipes 2 are squeezed into the corresponding grooves 12, the heat pipe 2 enters the surface of the portion in the groove 12, which is exactly the groove. The limiting ribs 12 12 12 are opposite to the top, so the limiting ribs 120 can bite into the corresponding surface of the heat pipe 2 to form a concave limiting notch 20, thereby making the heat pipe 2 and the heat conducting seat 1 originally arc The contact relationship of the contact phase is that the restricted rib 120 is pressed against the corresponding surface of the heat pipe 2, so that the heat pipe 2 and the heat conducting seat 1 are no longer in an arc-shaped contact relationship, thereby effectively preventing the heat pipe 2 from being in the heat conducting seat 1 The problem of looseness such as eccentricity occurs in the groove 12, and the heat pipe 2 can be tightly combined with the heat conducting seat 1 and directly in contact with each other (i.e., without solder between each other) without using solder. Further, the portion where the heat pipe 2 fails to enter the groove 12 is extruded into a heat receiving surface 21', and the heat receiving surface 21 is flush with the bottom surface 10 of the heat conducting seat 1 so as to be in contact with the heat source. In addition, please refer to the fifth and sixth figures together, which is the second embodiment of the invention No. 201237345; wherein the limiting ribs 120 in each groove 12 can also be added to the plural, and the limits are The ribs 120 are arranged at intervals on the inner surface of the groove 12 to uniformly distribute the number according to the added amount, thereby increasing the limit effect between the heat pipe 2 and the heat conducting seat 1. Furthermore, please refer to the seventh embodiment and the eighth embodiment, which are the third embodiment of the present invention; wherein the limiting rib 120 can be further located at the side of the corresponding groove 12 of the groove Or further, the limiting ribs 120 are respectively disposed at two sides of the slots of the grooves 12, so that not only the above objects and effects can be achieved, but also the limiting ribs 120 can be used for the heat pipes 2 by the grooves. The 12 notches are inwardly abutted to more effectively prevent the heat pipe 2 from falling out of the groove 12. Further, as shown in the ninth embodiment, the fourth embodiment of the present invention is further integrated into the second and third embodiments to simultaneously combine the advantages and effects of the two embodiments. Therefore, by the above-mentioned structural composition, the limiting structure of the heat pipe and the heat conducting seat of the present invention can be obtained. In summary, the present invention is a rare invention product, which can achieve the intended purpose of use, and solve the lack of conventional knowledge, and because of the novelty and progress, fully meet the requirements of the invention patent application, snuggle In the application of the patent law, please refer to the patent in detail to protect the rights of the inventor. However, the above description is only a preferred embodiment of the present invention, and thus the scope of the patent of the present invention is not limited thereby. The equivalent structural changes of the present specification and the contents of the drawings are all included in the scope of the present invention and are combined with Chen Ming. 201237345 [Simplified description of the drawings] The first figure is a three-dimensional combination diagram of the present invention. The second drawing is a combination action diagram of the first embodiment of the present invention. The third figure is a schematic view of the heat pipe and the heat transfer seat of the first embodiment of the present invention. The fourth figure is a schematic view of the heat pipe and the heat transfer seat of the first embodiment of the present invention. The fifth drawing is a schematic view of the heat pipe and the heat transfer seat of the second embodiment of the present invention. The sixth drawing is a schematic view of the heat pipe and the heat transfer seat of the second embodiment of the present invention. The seventh drawing is a schematic view of the heat pipe and the heat transfer seat of the third embodiment of the present invention. The eighth drawing is a schematic view of the heat pipe and the heat transfer seat of the third embodiment of the present invention. The ninth drawing is a schematic view of the heat pipe and the heat transfer seat of the fourth embodiment of the present invention. [Main component symbol description] I Thermal relay II Top surface 120 Limit rib 20 Limit notch 10 Bottom surface 12 Groove 2 21 Heat pipe 21 Heating surface Heat sink