M321676 八、新型說明: 【新型所屬之技術領域】 一種組設有熱導管的散熱裝置之固定座結構, 本創作尤指一種利用成型於固定槽邊緣固定部,受 到沖壓力擠壓時,可將固定部向内壓入固定槽,= 固定熱導管的固定座。 【先前技術】 近年來’由於大型主機及個人電腦的中央處理 器(CPU)時脈,及其他處理晶片(如:繪圖晶片 顯示晶片及南北橋晶片等等)的錢增加,1耗電 量與發熱量也相對增加’為有效排散cpu或處理曰 片的熱量,以維持電腦系統運行時的穩定度,而: 市面上出現形形色色的散熱裝置,以使用熱導 2熱裝置為例,請參閱「第1圖」,為-般熱導管散 .、、、裝置的結構示意圖,如圖中所示,首先,係將數 個熱導官10各別組設於一固定座20上的數個固定 槽201内,接著,利用-蓋板202以螺固或是焊接 的方式封閉其固定座20¾來組設熱導管1〇的一 面,以達到固定熱導管10的目的,最後,再將複數 鰭片3G依序組設於熱導管1()上,其使用時, :V s 1 0 工作、流體在發熱端吸熱後蒸發成氣 恶’並在冷凝端放熱後進行凝結成液態,藉由毛細 結構所提供的毛細力,使卫作流體重新迴流至發熱 M321676 端,因此,其工作流體須剛好位於發熱端,而冷凝 端一定要等於或南於發熱端,才能達到最佳的散熱 功效,將與固定座20及熱導管1〇接觸的cpu或處 理晶片的熱量,傳導至各散熱鰭片3〇後,再利用增 加散熱面積的方式,以一散熱風扇將熱量強制快速 排散,但因為熱導管10與固定座2()進行組裝時, 而要増加一片蓋板2 0 2,其不僅增加製造及組裝的 成本,且組裝後其固定槽201與蓋板2〇2所形成的 二間,可能會造成熱導管1 〇無法穩固,而影響到散 熱時的散熱效率,故有必要加以改良。 【新型内容】 有鑑於習知固定座與熱導管組装時,容易造成 製造及組裝成本增加的缺點,本創作人爰精心研 九,並積個人從事該項事業的多年經驗,終設計出 一種嶄新的固定座。 本創作之主要目的,旨在提供一種便於組裝的 固疋座,可大幅降低組裝成本,且組裝後不會鬆脫。 為達上述目的,本創作之固定座係成型有一凸 ^其凸部上係形成數個呈平行排列的固定槽,而 在固定座對應於每個固定槽的兩端,係分別形成有 一定位孔,且每個固定槽開口邊緣處都成型有一向 上突起的固定部,當呈门字型的熱導管組設於固定 座後係將熱導管兩端分別插設於定位孔内,直至 6 M321676 熱導官落置於定位槽内,再藉由沖壓時所產生的沖 壓力’將固定部向内壓入固定槽以固定熱導管,而 降低組裝成本,且組裝後不會鬆脫。 為使貝審查委員能清楚了解本創作之内容,僅 以下列說明搭配圖示,敬請參閱。 [實施方式】 凊參閱「第2圖」,為本創作較佳實施例散熱裝 置的立體分解圖,如圖中所示,一般散熱裝置6〇係 用以維持電腦運轉時的穩定性,其包括有:一固定 座40、複數個熱導管5〇、一扣具6〇1、複數個散熱 鰭片602及一散熱風扇6〇3 ,其中,呈门字型的熱 導官50依序組裝固定座4〇的固定槽4〇2後其彎 折部501係落置於固定座4〇的間隔部4〇ιι上,熱 導管50的兩端再分別穿出固定座40另一面,利用 冲壓方式可使固定座4Q上的固定部4Q4產生變形, 以將熱導管50緊密固定於固定槽術内,接著,再 將散熱縛片602依序堆疊組設於熱導管5〇上,形成 平行堆疊的狀態,而扣具6〇1再組設於固定座4〇凸 部401的一面,直扣且Rni 八#具601的四周並組設有數個扣 :604’以用來固定散熱聚置6〇的位置,又,其散 ;;風扇6〇3係組設於呈堆疊狀的散熱㈣602 一 側’並使其出風時的風 缝隙“士 散熱鰭片6G2間的 縫隙,而形成一完整的散熱裝置60。 M321676 月多閱第3圖」,為本創作較佳實施例的立體 ㈤圖中所不’本創作之固定座40係用來組設前 述複數個熱導瞢qn, 且其熱導管5〇係呈门字型, 其固定座40係包括·一几如j • 凸^ 401,其係成型於此固 疋座4 0的中央都,并^# 並使其凸部401與固定座40其 t-相對端緣間成型有—間隔冑4〇ιι,且其凸部 4〇1高度係對應於熱導管50的前述彎折部5〇ι高 度;數個呈平行排列的固定槽402,其係形成於凸 部上,用以跨置熱導管50,並使其熱導管5〇放入 固疋槽4 0 2後,其變拆部ς ^ 1 y么# π» 攸八与折口Ρ501係落置於間隔部4〇11; 數個固定孔4 0 3,J:孫# + & π ^ /、’、v成於固疋槽402兩端的固 定座40間隔部4011 ±,用以組設熱導管5〇的兩 端,並使熱導管50兩端分別穿出於固定座4〇另一 面;以及數個向上突起的固定部4〇4,其係成型於 固定槽402相對邊緣處,當固定部4〇4受到沖壓力, 可向内壓入固定槽402内以固定熱導管5〇,又,為 了脫模順利及便於組裝熱導管5〇,其固定部4〇4的 端緣係成型為弧狀。 請參閱「第4圖」’為本創作較佳實施例散熱裝 置的使用示意圖,如圖中所示,前述之散熱裝置6〇 使用時,係將扣具6〇1上的數個扣釘6〇4依^纟且設 於一主機板70的固定孔701内,使固定座4〇的^ 述凸部401罪合於CPU 80的發熱面上,當cpu 運轉時’其熱量會不斷地由發熱面產生,透過前述 M321676 固疋座40與前述埶 ΓΡΤΐ 0Λ 1“、、導Β 5〇結合而成的受熱面,可 將CPU 80所產生的也田 p生的熱罝,向上傳導至呈堆疊狀排列 的政熱鰭片602 μ , 上,由於散熱縛片602可聚集由熱 所傳來埶| 日& ^ …、里的效果,以達到增加散熱面積的 、’輔以出風風向盥燄 Μ戶”政”、、·,、、曰片602呈平行的散熱 羽 ,而可利用散熱風扇603所吹出的風,將 匯聚於散熱,鳍片6〇2以p ㈣風將 2上的熱$快速排散,而本創作 之固定座40可將執道势 J肝熱V官50穩固地固定,使熱導營 5 〇與散熱鰭片6 〇 2 ia $ & < % 相互、、且狄後不會產生晃動,增加 組裝後的穩定性, 可減 >、組裝時間,達到降低組 展成本的目的。 多閱第5圖」’為本創作較佳實施例組裝時 的動作示意圖(-),如圖中所示,當前述的熱導管 5〇組裝於前述的固定座4〇時,係將熱導管5〇兩端 刀別穿设於固定座40上相對的兩定位孔403内,其 熱:管5。兩端可由固定座4〇另一面穿出,直至熱 50落置於固定座4〇的固定槽4〇2後,使熱導 管50的前述彎折部5〇1上;接著參閱「第6圖、」, 為本創作較佳實施例組裝時的動作示意圖(二),如 圖中所示’當依序完成數個熱導管50的組裝後,再 藉由沖壓時所產生的沖壓力,使固定槽402開口兩 側的固疋邛404產生形變,而向内壓入固定槽 内以固疋熱導官50在固定座4〇的位置,且熱導管 5〇受到沖壓力的影響下,也有一部份產生變形,使 9 M321676 固定座40凸部401的正面間隙減少,而達到增加散 熱效率的目的,並可降低組裝成本,且組裝後熱導 管50與固定座40間緊密地結合,因此不會有鬆脫 的情況發生。 如上所述,本創作其據以實施後,可將门字型 的熱導管兩端分別插設於定位孔内,直至熱導管落 置於疋位槽内,再藉由沖壓時所產生的沖壓力,將 固定部向内壓入固定槽以固定熱導管,確實達到提 供一種可降低組裝成本,且組裝後不會鬆脫的固定 座之目的。 唯’以上所述者,僅為本創作之較佳之實施例 而已,並非用以限定本創作實施之範圍;任何熟習 此技藝者,在不脫離本創作之精神與範圍下所作之 均等變化與修飾,皆應涵蓋於本創作之專利範圍内。 綜上所述,本創作固定座之功效,係具有新型 之「產業可利用性」、「新穎性」與「進步性」等專 要件申明人爰依專利法之規定,向鈞局提起 新型專利之申請。 (S ) 10 M321676 【圖式簡單說明】 第1圖,為一般熱導管散熱裝置的結構示意圖。 第2圖,為本創作較佳實施例散熱裝置的立體分解 圖。 第3圖,為本創作較佳實施例的立體圖。 第4圖,為本創作較佳實施例散熱裝置的使用示意 圖。 第5圖,為本創作較佳實施例組裝時的動作示意圖 (一)。 第6圖,為本創作較佳實施例組裝時的動作示意圖 【主要元件符號說明】 10 熱導管 20 固定座 201 固定槽 202 蓋板 30 散熱鰭片 40 固定座 401 凸部 4011 間隔部 402 固定槽 403 定位孔 404 固定部 11 M321676M321676 VIII. New description: [New technical field] A fixed seat structure of a heat dissipating device with a heat pipe, especially in the case of forming a fixing portion at the edge of the fixing groove, which can be pressed by the pressing force The fixing portion is pressed inward into the fixing groove, and the fixing seat of the heat pipe is fixed. [Prior Art] In recent years, due to the increase in the central processing unit (CPU) clock of mainframes and personal computers, and other processing chips (such as graphics chip display chips and north-south bridge chips, etc.), 1 power consumption and The calorific value is also relatively increased 'to effectively dissipate the cpu or handle the heat of the cymbal to maintain the stability of the computer system. However: There are various heat sinks on the market, for example, using a thermal conduction 2 thermal device, see "Fig. 1" is a schematic view of the structure of the device, as shown in the figure. First, several heat guides 10 are respectively arranged on a fixed seat 20. In the fixing groove 201, the side of the heat pipe 1 组 is assembled by screwing or welding the fixing seat 203⁄4, so as to fix the heat pipe 10, and finally, the plurality of fins are further fixed. The sheet 3G is sequentially arranged on the heat pipe 1 (). When it is used, :V s 1 0 works, the fluid absorbs heat at the heat generating end and evaporates into a gas odor ' and condenses into a liquid state after exothermic heat at the condensing end, by capillary The capillary force provided by the structure The fluid is reflowed to the end of the heat-generating M321676. Therefore, the working fluid must be located at the heating end, and the condensing end must be equal to or south of the heating end to achieve the best heat dissipation effect. It will be in contact with the fixing seat 20 and the heat pipe 1〇. The heat of the CPU or the processing chip is transmitted to the heat sink fins 3, and then the heat dissipation area is increased to force the heat to be quickly dissipated, but the heat pipe 10 is assembled with the fixed seat 2 (). At the same time, a cover plate 2 0 2 is added, which not only increases the cost of manufacture and assembly, but also the two spaces formed by the fixing groove 201 and the cover plate 2〇2 after assembly may cause the heat pipe 1〇 to be unstable. It affects the heat dissipation efficiency during heat dissipation, so it is necessary to improve it. [New content] In view of the shortcomings of the conventional fixing seat and the heat pipe assembly, which is likely to cause an increase in manufacturing and assembly costs, the creator has carefully studied the ninth and accumulated many years of experience in the business, and finally designed a kind of A new fixed seat. The main purpose of this creation is to provide a self-assembling shack that significantly reduces assembly costs and does not loosen after assembly. In order to achieve the above object, the fixed seat of the present invention is formed with a convex portion, and a plurality of fixing grooves arranged in parallel are formed on the convex portion, and a positioning hole is formed at each end of the fixing seat corresponding to each fixing groove. And an upwardly protruding fixing portion is formed at an edge of each of the fixing slot openings. When the heat pipe assembly of the gate type is disposed in the fixing seat, the two ends of the heat pipe are respectively inserted into the positioning holes until the heat of 6 M321676 The guide is placed in the positioning groove, and the pressing portion is pressed inwardly into the fixing groove to fix the heat pipe, thereby reducing the assembly cost and not loosening after assembly. In order for the Beck Review Committee to have a clear understanding of the content of this creation, please refer to the following instructions only. [Embodiment] Referring to "2nd drawing", an exploded perspective view of a heat dissipating device according to a preferred embodiment of the present invention is shown. As shown in the figure, a general heat dissipating device 6 is used to maintain stability during operation of a computer, including There are: a fixed seat 40, a plurality of heat pipes 5 〇, a buckle 6 〇 1, a plurality of heat dissipation fins 602 and a cooling fan 6 〇 3, wherein the door-shaped heat guides 50 are sequentially assembled and fixed After the fixing groove 4〇2 of the seat 4′′, the bent portion 501 is placed on the spacing portion 4〇 of the fixing seat 4〇, and the two ends of the heat pipe 50 are respectively passed through the other side of the fixing seat 40, and the punching method is adopted. The fixing portion 4Q4 on the fixing seat 4Q can be deformed to tightly fix the heat pipe 50 in the fixing groove. Then, the heat dissipating tabs 602 are sequentially stacked on the heat pipe 5〇 to form a parallel stack. In the state, the clips 6〇1 are further assembled on one side of the fixing portion 4〇 convex portion 401, and the buckles are arranged around the Rni and the 601 are arranged with a plurality of buckles: 604' for fixing the heat dissipation. The position, again, its dispersion; the fan 6〇3 series is set on the stack of heat dissipation (four) 602 side 'and make it wind The wind gap "the gap between the heat sink fins 6G2, and form a complete heat sink 60. M321676 more than the third figure", which is not fixed in the three-dimensional (5) figure of the preferred embodiment of the creation The seat 40 is used to assemble the plurality of heat guides nqn, and the heat pipes 5 are in the shape of a gate, and the fixing base 40 includes a plurality of protrusions 401, which are formed in the solid state. The center of the seat 40 is, and the convex portion 401 and the t- opposite edge of the fixing base 40 are formed with a space of 胄4〇ι, and the height of the convex portion 4〇1 corresponds to the heat pipe 50. The above-mentioned bent portion 5〇1 height; a plurality of parallel-arranged fixing grooves 402 formed on the convex portion for traversing the heat pipe 50 and placing the heat pipe 5 into the solid groove 40 After 2, the transformation part ς ^ 1 y么 # π» 攸8 and 折 Ρ 501 落 are placed in the partition 4 〇 11; several fixed holes 4 0 3, J: Sun # + & π ^ /, ' And v are formed in the fixing portion 40 of the fixing groove 402 at a spacing portion 4011± for assembling the two ends of the heat pipe 5〇, and the two ends of the heat pipe 50 are respectively worn by the fixing seat 4〇 and the other side; One The upper protruding fixing portion 4〇4 is formed at the opposite edge of the fixing groove 402. When the fixing portion 4〇4 is subjected to the pressing force, it can be pressed inwardly into the fixing groove 402 to fix the heat pipe 5〇, and, in order to take off The mold is smooth and easy to assemble the heat pipe 5, and the end edge of the fixing portion 4〇4 is formed into an arc shape. Please refer to FIG. 4 for a schematic view of the use of the heat dissipating device of the preferred embodiment of the present invention. As shown in the figure, when the heat dissipating device 6 is used, a plurality of pins 6 on the clip 6〇1 are used. 〇4 is disposed in a fixing hole 701 of a motherboard 70, so that the convex portion 401 of the fixing base 4 is sinned on the heat generating surface of the CPU 80, and when the CPU is operated, its heat is continuously The heating surface is generated, and the heat-receiving surface formed by the combination of the M321676 shackle 40 and the 埶ΓΡΤΐ 0Λ 1" and the guide Β 5 前述 can transmit the enthalpy of the yota sheng generated by the CPU 80 upward. The stacked heat-dissipating fins are 602 μm, and the heat-dissipating fins 602 can be gathered by the heat to transmit the effect of 日|日 & ^ ..., to increase the heat-dissipating area, supplemented by the wind direction盥 Μ ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” The hot $ is quickly dissipated, and the fixed seat 40 of this creation can firmly fix the typhoon J heat 50 official, so that the thermal guide camp 5 〇 With the heat sink fins 6 〇 2 ia $ &< % mutual, and after the Di will not sway, increase the stability after assembly, can be reduced, assembly time, to reduce the cost of group exhibition. Figure 5 is a schematic view (-) of the assembly of the preferred embodiment of the present invention. As shown in the figure, when the heat pipe 5 is assembled to the above-mentioned fixing seat 4, the heat pipe 5 is placed. The two ends of the knives are disposed in the opposite positioning holes 403 of the fixing base 40, and the heat is the tube 5. The two ends can be pierced from the other side of the fixing base 4 until the heat 50 falls on the fixing groove 4〇2 of the fixing seat 4〇, and the bending portion 5〇1 of the heat pipe 50 is placed; FIG. 2 is a schematic view of the operation of the preferred embodiment of the present invention. (2), as shown in the figure, 'when the assembly of the plurality of heat pipes 50 is completed in sequence, the punching force generated during the pressing is used to make The fixing 404 on both sides of the opening of the fixing groove 402 is deformed, and is pressed inwardly into the fixing groove to fix the position of the heat guiding member 50 at the fixing seat 4, and the heat pipe 5 is affected by the pressing force, and also A part of the deformation causes the front gap of the convex portion 401 of the 9 M321676 fixing seat 40 to be reduced, thereby achieving the purpose of increasing heat dissipation efficiency, and the assembly cost is reduced, and the heat pipe 50 and the fixing base 40 are tightly coupled after assembly. There will be no looseness. As described above, after the creation of the present invention, the two ends of the heat pipe of the door type can be respectively inserted into the positioning holes until the heat pipe is placed in the clamping groove, and then the punch is generated by punching. The pressure presses the fixing portion inwardly into the fixing groove to fix the heat pipe, and indeed achieves the purpose of providing a fixing seat which can reduce the assembly cost and does not loosen after assembly. The above description is only for the preferred embodiment of the present invention and is not intended to limit the scope of the present invention; any person skilled in the art can make equal changes and modifications without departing from the spirit and scope of the present invention. , should be covered by the scope of this creation patent. In summary, the effectiveness of the creation of the fixed seat is a new type of "industry availability", "novelty" and "progressive" and other special items. The claimant has filed a new patent with the bureau. Application. (S) 10 M321676 [Simple description of the diagram] Figure 1 is a schematic diagram of the structure of a general heat pipe heat sink. Fig. 2 is a perspective exploded view of the heat sink of the preferred embodiment of the present invention. Figure 3 is a perspective view of a preferred embodiment of the present invention. Fig. 4 is a schematic view showing the use of a heat sink according to a preferred embodiment of the present invention. Fig. 5 is a schematic view showing the operation of the preferred embodiment of the present invention when assembled (1). Figure 6 is a schematic view of the operation of the preferred embodiment of the present invention. [Main component symbol description] 10 Heat pipe 20 Fixing seat 201 Fixing groove 202 Cover plate 30 Heat sink fin 40 Mounting seat 401 Projection portion 4011 Spacer portion 402 Fixing groove 403 positioning hole 404 fixing part 11 M321676
50 熱導管 501 彎折部 60 散熱裝置 601 扣具 602 散熱縫片 603 散熱風扇 604 扣釘 70 主機板 701 固定孔 80 CPU 1250 Heat pipe 501 Bend 60 Heat sink 601 Buckle 602 Heat sink 603 Cooling fan 604 Stud 70 Motherboard 701 Fixing hole 80 CPU 12