M341872 八、新型說明: 【新型所屬之技術領域】 本創作係有關於-種固定架,尤指於應用於中央處理器之散熱器 之固定架結構。 【先前技術】 - 按’電腦的運算及運作主要係藉由中央處理器⑽)來完成,缺 .•而隨著中央處理器運作速度的越來越快,巾央處職、之發熱量也隨著 鲁越來越大,為了能使中央處理器能正常之運作,所以電腦業者皆會在 中央處理器上設置有散熱模組。 而白知之散熱核組1,請茶閱圖-所示,主要係在,中央處理器2 上裝設-散熱器1 1,且在散熱器i !之上方設置一散熱風扇工2, 該散熱器1 1下方通常會鎖設―固定架i 3,該固定架i 3設有螺孔 131可供政熱&1 1以螺絲s予以鎖固,而於固定架13之四隅延 伸有支架13 2,該支架13 2上設有固定孔工3 3,該固定孔工3 耨3可供螺固元件13 4穿設,該螺固元件13 4套設有-彈性元件1 • 35。该中央處理器2係設於電路基板3上,該電路基板3之底側設 有-底座14,該底座14之四隅分別延設有安裝支臂丨41,該底 座14之安裝支臂χ 4工上設有貫穿之固定孔丄4 2,該固定孔丄4 2可供螺栓元件15之套穿。 邊散熱模組1於組裝時,係將散熱器1 1以螺絲s鎖設於固定架 13之螺孔131上,並將固定架13置於電路基板3之上方,以螺 固兀件134穿過固定架13之固定孔13 3及電路基板3之固定孔 5 M341872 31後,再與底座14安裝支臂141上之螺栓元件15相螺合,即 .完成該散熱模組1與電路基板3之結合。然而,由於該固定架丄3支 架13 2上之固定孔丄3 3係為預先設好之成品,因此,當電路基板 3之規格有所不同時,該蚊架1 3也必麵著電路基板3而有所改 變,如圖二所示,以供該螺固元件134可對應電路基板3之固定孔 :31後穿設鎖固;然而此一方式容易造成該固定架i 3之庫存風險及 ··成本之增加。於是,另有業者於固定架1 3之支架1 3 2上,設置至 % 少一個或一個以上的固定孔13 3,藉由該複數個固定孔13 3,可 配合該電路基板3之規格,選擇適合之固定孔i 3 3,再將螺固元件 13 4穿過電路基板3後鎖固於底座14之螺栓元件15上,如圖 二、圖四所不;然而,此一固定架丄3之結構,雖然可以應用於不同 規格之電路基板3,但由於該固定架丄3之支架丄3 2上必須增加固 疋孔13 3,也因此造成加工程序之繁複,且該固定孔13 3之亦容 易因加工不當造成公差過大。 # 有鑒於習知之散熱器之固定架具有上述之缺失,是以,要如何提 供一能降低庫存風險及避免固定孔公差過大之散熱器固定架,實為目 前散熱模組製造業者所亟待克服之課題。 【新型内容】 本創作之主要目的,乃在提供一種散熱器固定架結構,該散熱器 固定架可供散熱器以螺絲予以鎖固,於散熱器固定架之角落延伸有支 架,該支架上設有一長圓形之固定孔,該固定孔可供一調整元件套設, 该調整元件一端設有一貫穿孔,於調整元件下方延設有一穿套部,該 M341872 牙套部之形狀係與固定孔相對應,於穿套部之二端之下緣向上形成有 • 一勾扣部,該穿套部於接近勾扣部之底端處設有一溝槽,該溝槽可使 .勾扣部具有一可壓縮之彈性,進而可令該穿套部能更輕易的套入固定 孔中;該調整元件之貫穿孔可供—螺目元件穿設,該_元件套設有 一彈性兀件,而螺固元件底端之螺紋部則可穿過電路基板之穿孔,並 •與底座之螺栓元件_結合;#由改變_整元件於固定孔之套合方 •向,而可令雜關定架_於不同規格之f絲板及底座,以降低 春該散熱器固定架之庫存風險,並能簡化該散熱器固定架固定孔之加工 程序,並能達到有效減少該固定孔公差之功效。 【實施方式】 為使f審查員能更易於了解本創作之結構及所能達成之功效, 茲配合圖式說明如后: 首先,睛先㈣圖五所示,本創作主要係在巾央處㈣5上裝設 .有一散熱模、组4 ’該散熱模組4包括有一散熱器4工,且錄熱器^ • 1之上方設置一散熱風扇42,該散熱器41下方通常會鎖設一固定 架4 3 ’該固定架4 3設有螺孔4 3工可供散熱器4工以螺絲s工予 以鎖固,而於固絲43之四隅延伸有支架43 2,該支架4 3 2之 端緣設f —長圓形之固定孔4 3 3,該固定孔4 3 3可供1整元件 ^套設’該調整元件4 4係以歸射出成型製成,該調整元件 一端設f —貫穿孔4 41,於調整元件4 4下方延設有—穿套部4 4 2,該穿套部4 4 2之形狀係姻定孔4 3 3姉應,於穿套部4 4 2之二端之下緣向上形成有一勾扣部4 4 3,該穿套部4 4 2於接近 7 M341872 勾扣部4 4 3之底端處設有—溝槽4 4 4,該溝槽4 4 4可使-邊之 .勾扣部4 4 3具有-可壓縮之彈性;調整元件4牧貫穿孔4 4丄可 .供-_元件4 5穿設’該_元件4 5絞有—彈性元件4 6,而 螺固凡件4 5底端之咖卩4 5㈣可穿過電絲板5丨之穿孔5 2,並與底座6之螺栓元件61螺固結合。 ’本創作於實施時,請參麵六、七所示,係將調整元件4 4依照 电路基板51牙孔5 2之位置,以穿套部4 4 2穿設過固定孔4 3 籲3並々牙套。P4 4 2二端之勾扣部4 4 3勾設於固定孔4 3 3之底 緣’藉由該勾扣部4 4 3及調整元件4 4上方之凸緣,可令調整元件 4 4固疋於HU孔4 3 3中’而藉由穿套部4 4 2底部之溝槽4 4 4,則可令該勾扣部4 4 3具有—可_之彈性,以方便套入固定孔 4 3 3中’接著將套設有彈性耕4 6之螺固元件4 5穿過調整元件 4 4之貝牙孔4 41及電路基板51之穿孔5 2,再將螺固元件4 5 -底端之螺紋部4 5 1與底座6之螺栓元件6 1_結合,即完成本創 @ 作之組合。 本創作於散熱11 4 1固定架43之g]定孔433中套設-調敕-件4扣並藉由改變該調整元件4 4於固定孔4 3 3之套合方向= 可令该固疋架4 3上之調整元件4 4適用於不顯格之電路基板5】 及底座6 ’而可降低該固定架4 3之庫存風險,且能簡化該固定架4 3之固定孔4 3 3的加工程序,以節省該固定架43之加工成本,此 外:藉由該調整元件4 4可有效減少·定孔4 3 3因加1所產生所 之公差,以達到該固定孔4 3 3精度之要求。 8 M341872 綜上所述’本創作藉由上述散熱器固定架結構,可達到所訴求之 目的與功效,應已符合專利實用、新穎性以及進步性之要件,麦依法 提出新型翻之巾請,祈請貴審查貞之詳鑑,惠賜騎予專 定,至感德便。 審 【圖式簡單說明】 :圖一係習知散熱模組之立體分解圖。 :圖二係另一習知散熱模組之立體分解圖。 φ 圖二係又一習知散熱模組之立體分解圖。 圖四係圖三之剖面示意圖。 圖五係本創作之立體分解圖。 圖六係本創作之剖面示意圖。 圖七係本創作另一實施例之剖面示意圖。 【主要元件符號明】 1散熱模組 1 1散熱器 12散熱風扇 1 3固定架 1 3 1螺孔 1 3 2支架 13 3固定孔 13 4螺固元件 13 5彈性元件 1 4底座 141安裝支臂 2中央處理器 14 2固定孔 15螺栓元件 3電路基板 3 1固定孔 4散熱模組 4 1散熱器 4 2散熱風扇 9 M341872 5中央處理器 6底座 S、S1螺絲 4 3固定架 4 3 2支架 4 4調整元件 4 4 2穿套部 4 4 4溝槽 4 51螺紋部 51電路基板 61螺栓元件 4 3 1螺孔 4 3 3固定孔 4 41貫穿孔 4 4 3勾扣部 4 5螺固元件 4 6彈性元件 5 2穿孔M341872 VIII. New description: [New technical field] This creation is about a kind of fixed frame, especially the fixed frame structure of the heat sink applied to the central processor. [Prior Art] - According to the 'computer computing and operation is mainly done by the central processing unit (10)), and with the speed of the central processor operating faster and faster, the heat and the heat of the towel As Lu grows larger, in order to enable the central processor to operate normally, the computer industry will have a thermal module on the central processor. And Bai Zhizhi's heat core group 1, please read the picture - mainly, the central processor 2 is equipped with a heat sink 1 1, and a heat sink fan 2 is placed above the heat sink i! The fixing frame i 3 is usually locked under the device 1 1 , and the fixing frame i 3 is provided with a screw hole 131 for the thermal heat & 1 1 to be locked by a screw s, and the bracket 13 of the fixing frame 13 extends. 2, the bracket 13 2 is provided with a fixing hole 3 3, the fixing hole 3 耨 3 is provided for the screwing member 13 4 , and the screwing member 13 4 is provided with the elastic member 1 • 35. The central processing unit 2 is disposed on the circuit board 3, and the bottom side of the circuit board 3 is provided with a base 14. The four sides of the base 14 are respectively provided with a mounting arm 41, and the mounting arm of the base 14 is 4 A fixing hole 丄 4 2 is provided through the workpiece, and the fixing hole 丄 42 is slidable by the bolt member 15 . When the heat dissipating module 1 is assembled, the heat sink 1 is locked with the screw s on the screw hole 131 of the fixing frame 13 , and the fixing frame 13 is placed above the circuit board 3 to be threaded by the screw 134 . After the fixing hole 13 3 of the fixing frame 13 and the fixing hole 5 M341872 31 of the circuit board 3 are screwed together with the bolt member 15 of the mounting arm 141 of the base 14 , that is, the heat dissipation module 1 and the circuit substrate 3 are completed. The combination. However, since the fixing hole 丄 3 3 on the holder 丄 3 bracket 13 2 is a pre-set finished product, when the specifications of the circuit board 3 are different, the mosquito holder 13 must also face the circuit substrate. 3, as shown in FIG. 2, for the screwing member 134 to be corresponding to the fixing hole of the circuit board 3: 31 and then the locking; however, this method easily causes the inventory risk of the fixing frame i 3 and ··The increase in cost. Therefore, another manufacturer can provide one or more fixing holes 13 3 on the bracket 1 3 2 of the fixing frame 13 , and the plurality of fixing holes 13 3 can be matched with the specifications of the circuit board 3 . The fixing hole i 3 3 is selected, and then the screwing member 13 4 is passed through the circuit board 3 and then locked on the bolt member 15 of the base 14, as shown in FIG. 2 and FIG. 4; however, the fixing frame 3 Although the structure can be applied to the circuit board 3 of different specifications, since the fixing hole 13 3 must be added to the bracket 丄 3 2 of the fixing frame 3, the processing procedure is complicated, and the fixing hole 13 3 It is also easy to cause excessive tolerance due to improper processing. # In view of the above-mentioned shortcomings of the fixed radiator, it is necessary to provide a radiator holder that can reduce the inventory risk and avoid excessive tolerance of the fixing hole. Question. [New content] The main purpose of this creation is to provide a heat sink fixing frame. The heat sink fixing frame can be fixed by a screw, and a bracket is extended at a corner of the heat sink fixing frame. There is an oblong fixing hole, and the fixing hole is sleeved by an adjusting component. The adjusting component has a continuous perforation at one end, and a sleeve portion is arranged under the adjusting component. The shape of the M341872 braces is fixed to the fixing hole. Correspondingly, a hook portion is formed on the lower edge of the two ends of the sleeve portion, and the sleeve portion is provided with a groove near the bottom end of the hook portion, and the groove can make the hook portion have a The compressible elasticity can make the wearing part more easily fit into the fixing hole; the through hole of the adjusting component can be provided for the screw element, the element sleeve is provided with an elastic element, and the screw element is screwed The threaded portion of the bottom end of the component can pass through the perforation of the circuit substrate, and • be combined with the bolt component of the base; ##change_the whole component is fixed to the fixing hole of the fixing hole, and the misalignment can be made Different specifications of f wire plate and base to drop Inventory risk radiator bracket of the spring, and to simplify the processing procedure of fixing holes of the heat sink RM, and to achieve an effective reduction in the fixed effect hole tolerance. [Embodiment] In order to make it easier for the inspector to understand the structure of the creation and the effect that can be achieved, the following diagrams are followed: First, the first (4) Figure 5 shows that the creation is mainly at the center of the towel. (4) 5 upper mounting. There is a heat-dissipating mold, group 4'. The heat-dissipating module 4 includes a heat sink 4, and a heat-dissipating fan 42 is disposed above the heat-receiving device 1 , and a fixed heat is fixed under the heat sink 41 The frame 4 3 'the fixing frame 4 3 is provided with a screw hole 4 3 for the radiator 4 to be locked by a screw s work, and the bracket 43 2 extending from the four turns of the fixing wire 43 , the end of the bracket 4 3 2 The edge is set to f—the fixed hole 4 3 3 of the oblong shape, and the fixing hole 4 3 3 is provided for the one component to be sleeved. The adjusting component 4 4 is formed by injection molding, and the adjusting component is provided with f-through The hole 4 41 is extended under the adjusting element 4 4 - a sleeve portion 4 4 2 , and the shape of the sleeve portion 4 4 2 is an abutting hole 4 3 3 ,, at the two ends of the sleeve portion 4 4 2 The lower edge is formed with a hook portion 4 4 3 at a bottom end of the hook portion 4 4 3 close to the bottom of the 7 M341872 hook groove 4 4 4 , the groove 4 4 4 Make-side The hooking portion 4 4 3 has a compressible elasticity; the adjusting member 4 has a through hole 4 4 丄. The _ element 4 5 is pierced 'the _ element 4 5 is twisted — the elastic member 4 6 is screwed The curry 4 5 (4) at the bottom of the piece 45 can pass through the perforation 52 of the wire plate 5 and is screwed into the bolt member 61 of the base 6. 'In the implementation of this creation, please refer to the six or seven, the adjusting element 4 4 according to the position of the tooth hole 5 2 of the circuit board 51, through the sleeve portion 4 4 2 through the fixing hole 4 3 call 3 and 々 Braces. P4 4 2 two-end hooking portion 4 4 3 is hooked on the bottom edge of the fixing hole 4 3 3 'by the hooking portion 4 4 3 and the flange above the adjusting element 4 4, the adjusting element 4 4 can be fixed疋 in the HU hole 4 3 3 ' and by the groove 4 4 4 at the bottom of the sleeve portion 4 4 2, the hook portion 4 4 3 can be made elastic, so as to facilitate the insertion of the fixing hole 4 3 3 '' then inserts the elastic cultivating element 4 5 through the shell hole 4 41 of the adjusting element 4 4 and the perforation 5 2 of the circuit substrate 51, and then the screwing element 4 5 - the bottom end The threaded portion 4 5 1 is combined with the bolt member 6 1_ of the base 6, that is, the combination of the present invention is completed. The present invention is provided in the fixed hole 433 of the heat dissipating 11 4 1 fixing frame 43 and the shackle-piece 4 buckle is set and the fixing direction of the adjusting member 4 4 in the fixing hole 4 3 3 is changed. The adjusting component 4 4 on the truss 43 is suitable for the non-displayed circuit substrate 5] and the base 6' to reduce the inventory risk of the fixing frame 43 and to simplify the fixing hole 4 3 3 of the fixing frame 43 The processing procedure is to save the processing cost of the fixing frame 43. In addition, the adjusting element 44 can effectively reduce the tolerance of the fixing hole 4 3 3 by adding 1 to achieve the fixing hole 4 3 3 precision. Requirements. 8 M341872 In summary, the creation of the above-mentioned radiator fixing frame structure can achieve the purpose and effect of the claim, and should meet the requirements of patent practicality, novelty and progressiveness. I would like to ask you to review the details of the 贞 , , , , , , , , , , , , , , , , , , , , , , , , , , , Review [Simple description of the diagram]: Figure 1 is an exploded view of the conventional heat dissipation module. Figure 2 is an exploded perspective view of another conventional heat dissipation module. φ Figure 2 is an exploded perspective view of another conventional heat dissipation module. Figure 4 is a schematic cross-sectional view of Figure 3. Figure 5 is a three-dimensional exploded view of the creation. Figure 6 is a schematic cross-sectional view of the creation. Figure 7 is a schematic cross-sectional view showing another embodiment of the present creation. [Main component symbol] 1 heat dissipation module 1 1 heat sink 12 cooling fan 1 3 fixing frame 1 3 1 screw hole 1 3 2 bracket 13 3 fixing hole 13 4 screwing element 13 5 elastic element 1 4 base 141 mounting arm 2 central processing unit 14 2 fixing hole 15 bolt element 3 circuit board 3 1 fixing hole 4 heat dissipation module 4 1 heat sink 4 2 cooling fan 9 M341872 5 central processing unit 6 base S, S1 screw 4 3 fixing frame 4 3 2 bracket 4 4 adjusting element 4 4 2 wearing sleeve 4 4 4 groove 4 51 threaded portion 51 circuit board 61 bolt element 4 3 1 screw hole 4 3 3 fixing hole 4 41 through hole 4 4 3 hooking portion 4 5 screwing element 4 6 elastic element 5 2 perforation
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