M424528 五、新型說明: 【新型所屬之技術領域】 本創作係關於一種附熱管散熱器及其散熱片的改良, 尤指一種利用散熱片下方的延伸片收折形成—緊縮塊,且 在緊縮塊底部沖壓形成一個以上呈半開放狀的緊配槽,並 將各散熱片的緊縮塊相鄰合併而構成一可模擬底座的塊狀 體,藉此與熱管緊配結合而組成一附熱管散熱器。 【先前技術】 占知附熱管散熱杰,主要係包括一散熱片模組、一金 屬底座及一個以上的熱管,散熱片模組是以複數散熱月相 鄰堆疊排列而結合於金屬底座的端面,金屬底座為一實心 塊體,熱管則是貫穿或嵌入結合於底座的底部,其係將該 底座或熱管貼觸於熱源(如CPU中央處理器晶片或記憶體 等電子元件),使熱溫可直接通過熱管、底座而快速傳遞 至散熱片模組’以提高散熱效率。 上述習知散熱器,因散熱片模組、底座與敎管的么士人 ,經常需使用錫膏等焊接媒介進行焊結加工,而各主要^ 件往往是不同金屬的異種材質,故焊結前尚必須通過電鑛 處理’因此加工複雜、成本增加、組裝不便,不符人環保 ,2熱器絲係-實心金屬塊體,不但重量沉1較 ,金屬材質耗虿大,因此整體的製造成本偏高。 【新型内容】 本創作之主要目的,乃在於提供—種_管散熱 ”政熱片設計,制是在構成散熱#巍的各散熱片下方 3 M424528 成型-延伸片,並將該延伸片收折或捲曲形成—緊縮塊, 且在緊縮塊底部沖壓形成-個以上呈半開放狀的緊配槽, 利用各散熱片的緊縮塊可相鄰合併而構成—可模擬底座的 塊狀體’用以適配結合熱管,形成緊喊人,再施以擠壓 整平而組成-附熱管的散熱器’其係以延伸片形成的緊縮 塊相鄰合併而構成-可频底座的塊㈣,故能省略並取 代實心的金屬底座,簡储熱H㈣触成,也盎 輝結加工,不僅能節省材料、降低成本,亦確保散熱片模 組與熱管的結合更緊密穩固,且電子元件的熱溫可直接通 過熱官與散熱片模組而立即進行散熱降溫,故散熱效率極 本創作之次要目的,乃在於提供一種附熱管散熱器及 〃散熱片設計,該散熱片的外觀形狀可不拘特^,其下方 的延伸片係依需要而可為任意的選定長度。 ” 12作之又—目的,乃在於提供—種附熱管散熱器及 折=設計,該散熱片的延伸片係可施以依序相鄰的對 折而形成-緊縮塊,或可將延伸片施以一次 成—緊縮塊’或亦可將延伸片施以捲曲收折而形成 外觀相同的緊縮塊。 ^作之另一目的’乃在於提供一種附熱管散孰器及 配^,、片設計,該賴片的緊縮塊,其係於底部 分別形成一與槽深等高的支 二 緊配肷入後,可具有相隔的間隙。 史合”“ 本創作之再一目的,乃在於提供一種附熱管散熱器及 M424528 其散熱片設計,該散熱片的緊縮塊,其係於底部相鄰的緊 配槽之間,可分別形成一小於槽深的支撐肋,該支撐肋的 高度與緊配槽的槽深具有一高度差,以使各熱管緊配嵌入 後,可形成不具有相隔間隙的無接缝組合形態。 本創作之再一目的,乃在於提供一種附熱管散熱器及 其散熱片設計,該散熱片的緊縮塊係可沖壓設有一個以上 的搭接扣部,使前後相鄰的散熱片可利用搭接扣部形成相 互對應的相連扣合,藉此加強各前後散熱片的緊密結合。 本創作之再一目的,乃在於提供一種附熱管散熱器及 其散熱片設計,該散熱片的緊縮塊係可沖壓設有一個以上 的鉚合孔,使前後相鄰的散熱片可利用鉚合孔配合鉚釘的 貫穿而鉚合固定,藉此確保該模擬底座的塊狀體結構更為 緊密穩固。 本創作之再一目的,乃在於提供一種附熱管散熱器及 其散熱片設計,該散熱片模組係可於該模擬底座的塊狀體 兩側分別結合一擋持塊,並可於各擋持塊上鉚合螺柱,以 供固定結合於電路基板上。 【實施方式】 茲依附圖實施例將本創作結構特徵及其他作用、目的 詳細說明如下: 如第一圖所示,係本創作所為附熱管散熱器的散熱片 1立體圖,該散熱片1的外觀形狀係不拘特定,主要是在 散熱片1的下方成型一延伸片11 (如第二圖),並將該延伸 片11收折(或捲曲)形成一半成型緊縮塊11a(如第三圖),且 5 M424528 在半成型緊縮塊1 la的底部沖壓形成一個以上呈半開放狀 的緊配槽111a(如第一圖),如此於複數個散熱片1相鄰堆 疊形成為一散熱片模組10時(如第四圖的示意狀態),可將 各散熱片1成型後的緊縮塊lib相鄰合併而構成一可模擬 底座的塊狀體A,且以複數相鄰的緊配槽ma串連構成的 緊配通道A1 (參閱第三圖),用以適配結合熱管2,形成相 對的緊配嵌入,再施以擠壓整平,即能組成一附熱管的散 熱器100(如第五圖)。 本創作的散熱片1,其下方的延伸片U係依需要而可 為任意的選定長度,並將延伸片丨丨施以依序相鄰的對折而 形成一緊縮塊1 lb(如第六圖),或請參照第七圖所示,所述 延伸片11亦可施以一次以上的相互對折而形成一外觀相同 的緊縮塊lib,或請參閱第八圖所示,所述延伸片u係亦可 施以捲曲收折而形成一外觀相同的緊縮塊llb。 如第九圖所示,上述散熱片i的緊縮塊llb,其於底部 相鄰的緊配槽11 la之間,係分別形成一與槽深等高的支撐 肋12,使各熱官2緊配嵌入後,可具有相隔的間隙(如第 五圖)。 如第十圖的實施例所示,散熱片1的緊縮塊Ub,苴係 於底部相鄰的緊配槽⑴a之間,係分別形成—小於槽深的 支,肋12 ’ 4支樓肋12’的高度與緊配槽出a的槽深具有 又差Η則吏各熱官2緊配我入後,可形成不具有相 隔間隙的無接縫組合形態(如第十一圖)。 如第十一圖與第十三圖所示的實施例,本創作進一步 ΜΉ-Ζ^-^Ζδ ^可於散熱片i的緊縮塊Ub ’沖壓設有—個以上的搭接扣 M12a ’使前後相鄰的散熱片1可利用搭接扣部112&形成 2互對應的相連扣合’藉此加強各前後散熱片i之間的緊 毪、、’° δ,以使塊狀體A的結構更為穩固。 /第十四圖與第十五圖所示的不同實施例,本創作進 f係可於散熱片1的緊縮塊llb,再沖壓設有—個以上的 . :孔113a,使如後相鄰的散熱片1可利用鉚合孔113a以 酉己合鉚釘114a的貫穿而鉚合固定,藉此確保塊狀體 •構更能緊密穩固。 λ本創作所為的附熱管散熱器,纟係'包括如上述複數個 :f熱片1相鄰堆疊形成的散熱片模組10以及一個以上的熱 、吕2所組成’各散熱片丄並在其上端位置開設一個以上的 $孔13 ’而於堆疊後形成—貫通孔,以供熱管2的散熱端 3體可相對貫穿並呈緊配結合,而熱管2的吸熱端管體則 是緊配嵌入塊狀體A的緊配通道A1 ’以獲得緊配結合。 •晶依本創作没計’所述的散熱片1,其形狀、大小或堆 立排列形恶,係可視不同需要而做任意變化,附圖的實施 : 幻僅係揭蕗本創作之主要技術特徵,但並非用以限定本案 的技^範圍’若有涉及等效應用或本創作主要技術所為的 '、^易增減憂更或置換,自仍應視為本案的技術範圍; 例如第四圖所示,所述的散熱片模組10,係可於塊狀體A 的兩側再分別結合一擋持塊14,並可於各播持塊Μ上柳合 累柱141以供固定結合於電路基板上,凡此簡易改變,均 可基於本創作而任意增減衍生。 7M424528 V. New Description: [New Technology Field] This paper is about the improvement of a heat pipe heat sink and its heat sink, especially a kind of shrinkage block formed by the extension piece under the heat sink, and in the compact block. The bottom stamping forms one or more semi-open tight fitting grooves, and the compact blocks of the heat sinks are adjacently combined to form a block body capable of simulating the base, thereby being combined with the heat pipe to form a heat pipe radiator. . [Prior Art] Zhanzhi heat pipe heat dissipation is mainly composed of a heat sink module, a metal base and more than one heat pipe. The heat sink module is an end face of the metal base which is arranged in a plurality of adjacent heat dissipation months. The metal base is a solid block, and the heat pipe is inserted or embedded in the bottom of the base, and the base or the heat pipe is attached to a heat source (such as a CPU central processor chip or an electronic component such as a memory) to make the heat temperature It is quickly transferred to the heat sink module directly through the heat pipe and the base to improve heat dissipation efficiency. The above-mentioned conventional heat sinks, because of the heat sink module, the base and the hose of the warrior, often need to use soldering medium such as solder paste for welding, and the main components are often different materials of different metals, so the welding It must be processed by electric ore beforehand. Therefore, the processing is complicated, the cost is increased, the assembly is inconvenient, and it is not environmentally friendly. 2 hot wire system - solid metal block, not only the weight is heavy, but the metal material is expensive, so the overall manufacturing cost High. [New content] The main purpose of this creation is to provide a kind of _tube heat dissipation political heat film design, which is made up of 3 M424528 molding-extension pieces under the heat sinks that constitute heat dissipation #巍, and the extension piece is folded. Or crimping to form a compacting block, and stamping at the bottom of the compacting block to form more than one semi-opening tight fitting groove, and the compacting blocks of the respective heat sinks can be adjacently combined to form a block body capable of simulating the base Adapting to the heat pipe, forming a shouting person, and then applying the extrusion and flattening to form a heat sink with a heat pipe, which is formed by squeezing the squeezing blocks formed by the extending piece to form a block (four) of the frequency base, so Omit and replace the solid metal base, the simple heat storage H (four) touch, but also the glory processing, not only can save materials, reduce costs, but also ensure that the heat sink module and heat pipe combination is more tight and stable, and the thermal temperature of electronic components can be Directly through the thermal officer and the heat sink module to immediately cool down, so the heat dissipation efficiency is the second objective of the creation is to provide a heat pipe heat sink and a heat sink design, the shape of the heat sink can be The extension piece below the frame can be any selected length as needed. The 12-piece purpose is to provide a heat pipe heat sink and fold design, and the heat sink extension film can be The squeezing block is formed by sequentially arranging adjacent pleats, or the extending piece may be applied as a squeezing block. Alternatively, the extending piece may be crimped and folded to form a compact block having the same appearance. Another purpose of the work is to provide a heat pipe diverter and a matching piece, a sheet design, and a compact block of the sheet which is formed at the bottom to form a branch with a groove depth and the like. After that, there may be spaced gaps. "Shihe"" Another purpose of this creation is to provide a heat pipe heat sink and M424528 heat sink design, the heat sink of the shrinking block, which is tied between the adjacent tight groove at the bottom, can form a separate The support ribs are smaller than the groove depth, and the height of the support ribs has a height difference from the groove depth of the tight fitting grooves, so that after the heat pipes are tightly fitted, a seamless joint form without the gaps can be formed. A further object of the present invention is to provide a heat pipe heat sink and a heat sink design thereof. The shrinking block of the heat sink can be stamped with more than one overlapping buckle portion, so that the front and rear adjacent heat sinks can be utilized. The buckle portions form mutually corresponding interlocking snaps, thereby reinforcing the tight engagement of the front and rear fins. A further object of the present invention is to provide a heat pipe heat sink and a heat sink design thereof. The shrinking block of the heat sink can be stamped with more than one riveting hole, so that the front and rear adjacent heat sinks can be riveted. The hole is riveted and fixed with the rivet, thereby ensuring that the block structure of the simulated base is more tight and stable. A further object of the present invention is to provide a heat pipe heat sink and a heat sink design thereof. The heat sink module can be combined with a block on both sides of the block body of the simulated base, and can be respectively arranged in each block. The studs are riveted on the block for fixed bonding to the circuit substrate. [Embodiment] The structural features and other functions and purposes of the present invention are described in detail below with reference to the accompanying drawings. As shown in the first figure, the present invention is a perspective view of a heat sink 1 with a heat pipe heat sink, and the appearance of the heat sink 1 The shape is not limited, mainly an extension piece 11 (such as the second figure) is formed under the heat sink 1, and the extension piece 11 is folded (or curled) to form a half-shaped compact block 11a (as shown in the third figure). And 5 M424528 is stamped at the bottom of the semi-molded compact block 1 la to form more than one semi-open tight fitting groove 111a (as shown in the first figure), so that a plurality of heat sinks 1 are adjacently stacked to form a heat sink module 10 At the time (as in the schematic state of the fourth figure), the compacting blocks lib of each of the heat sinks 1 can be adjacently combined to form a block body A capable of simulating the base, and connected in series with a plurality of closely spaced slots ma The tightly fitting channel A1 (refer to the third figure) is configured to fit the heat pipe 2, form a relatively tight fit, and then apply extrusion and flattening, that is, a heat sink 100 capable of forming a heat pipe (such as the fifth) Figure). The heat sink 1 of the present invention has an extension piece U below which can be any selected length as needed, and the extension piece is applied in a sequence of adjacent folds to form a compact block 1 lb (as shown in the sixth figure). Or, as shown in FIG. 7 , the extension piece 11 may be folded one at a time to form a compact block lib having the same appearance, or as shown in FIG. 8 , the extension piece u is A crimping fold can also be applied to form a compact block 11b having the same appearance. As shown in the ninth figure, the shrinking block llb of the heat sink i is formed between the adjacent tight grooves 11 la at the bottom to form a supporting rib 12 having a height equal to the groove depth, so that the heat officials 2 are tight. After embedding, there may be gaps (such as the fifth figure). As shown in the embodiment of the tenth embodiment, the constricted block Ub of the fin 1 is tethered between the adjacent tight fitting grooves (1)a at the bottom, respectively forming a branch smaller than the groove depth, and the rib 12' 4 rib 12 The height of 'the groove depth of the tight fitting groove a has the same difference. Then, after the heat officials 2 are tightly fitted, the joint form without the gap can be formed (such as the eleventh figure). As shown in the eleventh and thirteenth embodiments, the present invention further ΜΉ-Ζ^-^Ζδ ^ can be stamped with more than one lap buckle M12a ' in the shrinking block Ub ' of the heat sink i The front and rear adjacent fins 1 can be formed by the lap fasteners 112& forming a corresponding interlocking joint of the two, thereby reinforcing the tightness, '° δ between the front and rear fins i, so that the block A The structure is more stable. / Different embodiments shown in the fourteenth and fifteenth drawings, the present invention can be formed in the compacting block 11b of the heat sink 1, and then stamped with more than one. : hole 113a, so as to be adjacent The fins 1 can be riveted and fixed by the rivet holes 113a through the penetration of the rivet 114a, thereby ensuring that the block structure is more tightly secured. λ This is a heat pipe heat sink, which consists of a plurality of heat sink modules 10 formed by adjacent stacking of f heat sheets 1 and more than one heat and heat. The upper end position is provided with more than one hole 13', and after the stacking, a through hole is formed, so that the heat radiating end 3 of the heat pipe 2 can be relatively penetrated and tightly coupled, and the heat absorbing end pipe of the heat pipe 2 is tightly matched. The tight channel A1' embedded in the block A is obtained to obtain a tight fit. • The heat sink 1 described in this creation does not count as the shape, size or stacking of the heat. It can be arbitrarily changed according to different needs. The implementation of the drawing: The magic only reveals the main technology of this creation. Features, but not intended to limit the scope of the case 'If there is an equivalent application or the main technology of this creation, ', ^ easy to increase or decrease or replace, it should still be regarded as the technical scope of the case; for example, the fourth As shown in the figure, the heat sink module 10 can be combined with a blocking block 14 on both sides of the block body A, and can be stacked on each of the holding blocks 147 for fixed bonding. On the circuit board, any simple change can be arbitrarily increased or decreased based on the creation. 7
M42452B 综上所述,誠可見本創作所為附熱管散熱器及其散熱 片的改良設計,其手段應用確屬申請前所未見,且功效確 實,故已符合實用性與創作性要件,謹依法提出專利申請 ,敬祈詳審並准專利。 【圖式簡單說明】 第一圖為本創作附熱管散熱器的散熱片立體圖。 第二圖為本創作散熱片於成型前的展開圖。 第三圖為本創作散熱片呈半成型緊縮塊的狀態圖。 第四圖為本創作將複數個散熱片堆疊成一散熱片模組 # 的狀態示意圖。 第五圖為本創作於熱管嵌入後形成相隔間隙的散熱器 組成立體圖。 第六圖為本創作散熱片將延伸片依序相鄰對折而形成 緊縮塊的狀態示意圖。 第七圖為本創作散熱片將延伸片施以一次以上相互對 折而形成緊縮塊的狀態示意圖。 第八圖為本創作散熱片將延伸片施以捲曲收折而形成· 緊縮塊的狀態示意圖。 第九圖為本創作於散熱片緊配槽之間形成一與槽深等 高的支攩肋之實施例圖。 第十圖為本創作於散熱片緊配槽之間形成—小於槽深 的支撐肋之實施例圖。 第十一圖為本創作於熱管嵌入後形成無接縫組合的散 熱器組成立體圖。 8 M424528 θ為本;ii作於散熱片Ί缩塊沖設可前後相互搭 的接扣部之另一實施例圖。 第十一圖為第十二圖實施例呈相連扣合的狀態圖。 第十四圖為本創作於散熱片緊縮塊沖設鉚合孔以配合 鉚釘鉚合固定的又一實施例圖。 第十五圖為第十四圖實施例呈鉚合狀態示意圖。 【主要元件符號說明】 1 散熱片 11 延伸片M42452B In summary, it can be seen that this creation is an improved design of the heat pipe radiator and its heat sink. The application of the method is indeed unprecedented before the application, and the effect is indeed, so it has met the practicality and creative requirements. File a patent application, and pray for a detailed review and quasi-patent. [Simple description of the diagram] The first figure is a perspective view of the heat sink of the heat pipe radiator. The second figure is the development of the created heat sink before molding. The third figure is a state diagram of the semi-formed compact block of the created heat sink. The fourth figure is a schematic diagram of the state in which a plurality of heat sinks are stacked into a heat sink module #. The fifth figure is a perspective view of the heat sink formed by the heat pipes after the heat pipes are inserted. The sixth figure is a schematic view of the state in which the heat sink forms the compact block by sequentially folding the extension sheets in the same order. The seventh figure is a schematic view showing a state in which the fins are applied to the extension sheets one or more times to form a constricted block. The eighth figure is a schematic view showing a state in which the heat sink is formed by crimping and folding the extension piece to form a compact block. The ninth figure is an embodiment of the embodiment in which a rib is formed between the fins and the groove of the groove. The tenth figure is an embodiment of a support rib formed between the fins of the heat sink and having a smaller than the groove depth. The eleventh figure is a perspective view of a heat sink formed by forming a seamless joint after the heat pipe is embedded. 8 M424528 θ-based; ii is another embodiment of the heat sink retractable block punching portion which can be overlapped with each other. Fig. 11 is a view showing a state in which the embodiment of the twelfth embodiment is connected and fastened. Fig. 14 is a view showing still another embodiment in which a rivet hole is punched in the fin shrinkage block to fit the rivet riveting. The fifteenth figure is a schematic view showing the riveted state of the fourteenth embodiment. [Main component symbol description] 1 Heat sink 11 Extension piece
lla半成型緊縮塊 10散熱片模組 A塊狀體 2 熱管 12 ' 12’支撐肋 112 a 搭接扣部 114a 鉚釘 111a 緊配槽 lib 成型後緊縮塊 A1 緊配通道 100附熱管的散熱器 Η 高度差 113a鉚合孔 13 通孔Lla semi-formed compact block 10 heat sink module A block body 2 heat pipe 12 '12' support rib 112 a lap joint portion 114a rivet 111a tight groove lib formed after compacting block A1 tightly fitting channel 100 with heat pipe radiator Η Height difference 113a riveting hole 13 through hole