M358344 五、新型說明: 【新型所屬之技術領域】 本創作是有關一種散熱模組結合結構,特別是關於一 種利用一第一對接部及一第二對接部的結合結構,使風扇 與散熱器快速組裝結合且降低生產成本的散熱模組結合結 構。 【先前技術】 按,隨著電子產業的迅速發展,如電腦中電子元件的 運算速度大幅度提高,其產生的缝也隨增,如何將 電子元件的熱量散發出去,以保證其正常運行,一直是業 者必需解決的問題。騎壯,巾鱗職是電腦系統的 核心,其性能的優劣直接決定整個電腦的性能,所以當電 腦運行時’巾央處理器會產生相當高的熱量,*過多的熱 量會導致中央處理ϋ無法正常運行,如使電腦當機。… 胃為有效散發上述巾央處理n在運行過財產生的熱 重’通常在其上加裝—散賴組,峡將其敍的熱量散 發出去’該散賴組主要由-風敍—散熱驗成,其中 風扇鎖在散熱H上,散熱II置於巾央處理肚,從而中央 處理器工作時產生的熱量,—方面從散熱器散發,另-方 面風扇運魅生的風吹向散熱II,以騎從雜器帶走熱 量,避免中央處理器過熱而降低工作效率。 請參閱第1Α圖所示,圖1Α係為習知之散熱模組的立 體結構示意圖;該散熱模組包括-風扇10、一支架u及 M358344 一散熱器12,前述風扇10係與相對該支架u對接,且其 ,對角處分別設有貫穿孔101 ’則該支架u罩設在該散熱 器12上,其恰介於該風扇1〇與該散熱器12之間,前述支 架11相對該風扇10的端面上具有四支凸柱lu,該等凸 ,111係與對應風扇10的貫穿孔101相固定結合,i散熱 β 1一 2相對支架11的相反端面與一發熱電子元件接觸(圖中 未示),故藉以支架的連接使得風扇1〇可安裝在散熱器12 然而,每一散熱模組在組裝生產過程中,風扇1〇如亥 散熱器12都需透過上述支架u達到連結固定,因此,俾 使每-散熱顯在組裝上皆需多增加前述支架丨卜以致於 造成增加生產成本及生產工時過長,並且因多增加支架^ 這個組裝步驟,導致整體生產上的組裝效率降低。“ 續參閱第1B圖所示’ ® 1B係為習知之另一散熱模組 的立體結構示意圖;該散熱模組係包括:-風扇1〇、」連 接件11及一散熱器12,該風扇10設於該連接件Π的端 面上,且其二對角處分別設有貫穿孔1〇1,前述貫穿孔仙 恰與相對該連接件U端面上的複數凸柱⑴相卡接,前述 連接件π係為如連接座,係設在相對散熱器12的上端面, 且其恰介於風们〇與散熱H 12間,*上述餘㉙12的下 端:與相對應的-發熱電子元件接觸(圖中未示),所以藉 由前述連接件11的連接使得風扇10可安裝在散熱器 上。 但疋’由於每-散熱模組在組裝生產過程中,風扇⑺ M358344 ”散熱器12須經由連接件11做為前躺者之間的連接桥 樑,才能使風扇10固定在該散熱器12上,因此,—方^ 使縣一散熱模組的組裝上軚額外增加 =:r本及生產— 過前述連接件11連接結合一起,因而造成 以上所述’習知的技射具有下列之缺點:M358344 V. New description: [New technical field] This creation is related to a heat dissipation module combination structure, in particular, a combination structure using a first butt joint and a second butt joint to make the fan and the radiator fast A heat dissipation module bonding structure that combines assembly and reduces production cost. [Prior Art] According to the rapid development of the electronics industry, for example, the computing speed of electronic components in computers has been greatly improved, and the seams generated are also increasing. How to dissipate the heat of electronic components to ensure their normal operation. It is a problem that the industry must solve. Riding a strong, towel scale is the core of the computer system, its performance directly determines the performance of the entire computer, so when the computer is running, the towel processor will generate a relatively high amount of heat, * too much heat will cause the central processing can not Normal operation, such as making the computer down. ... The stomach is effective to dissipate the above-mentioned towel processing n. The heat weight generated by running the money is usually installed on it - the stagnation group, the gorge will dissipate the heat of the narration. In the test, the fan is locked on the heat sink H, and the heat sink II is placed in the towel to process the belly, so that the heat generated by the central processing unit is discharged from the heat sink, and the fan is sent to the heat sink II. Take the heat away from the trap to avoid overheating of the central processor and reduce work efficiency. Referring to FIG. 1 , FIG. 1 is a schematic perspective view of a conventional heat dissipation module. The heat dissipation module includes a fan 10 , a bracket u and a M358344 a heat sink 12 , and the fan 10 is opposite to the bracket u. Docking, and a through hole 101 ′ is respectively disposed at a diagonal corner, and the bracket u is disposed on the heat sink 12 , which is just between the fan 1 〇 and the heat sink 12 , and the bracket 11 is opposite to the fan The end surface of the 10 has four protrusions lu, and the protrusions 111 are fixedly coupled with the through holes 101 of the corresponding fan 10. The heat dissipation β 1 - 2 is in contact with a heat-emitting electronic component with respect to the opposite end surface of the bracket 11 (in the figure) Not shown), so that the fan 1 can be mounted on the heat sink 12 by the connection of the bracket. However, in the assembly and production process, the fan 1 such as the sea radiator 12 needs to be connected and fixed through the bracket u. Therefore, it is necessary to increase the number of the above-mentioned brackets for each of the heat-dissipating components, so that the production cost and the production time are too long, and the assembly efficiency of the brackets is increased, resulting in a decrease in assembly efficiency in the overall production. . Continuing to refer to the '1B' shown in Figure 1B is a schematic view of a three-dimensional structure of another heat-dissipating module; the heat-dissipating module includes: a fan 1 〇, a connecting member 11 and a heat sink 12, the fan 10 It is disposed on the end surface of the connecting piece ,, and is provided with a through hole 1〇1 at two opposite corners thereof, and the through hole hole is engaged with the plurality of protruding columns (1) on the end surface of the connecting piece U, the connecting piece The π system is, for example, a connection base, which is disposed on the upper end surface of the opposite heat sink 12, and which is just between the wind and the heat dissipation H 12, * the lower end of the above-mentioned remainder 2912: contact with the corresponding - heat-emitting electronic component (Fig. Not shown in the drawings, so that the fan 10 can be mounted on the heat sink by the connection of the aforementioned connecting member 11. However, since each of the heat dissipation modules is assembled and manufactured, the fan (7) M358344 "heatsink 12" must be connected as a bridge between the front linings via the connecting member 11 to fix the fan 10 to the heat sink 12. Therefore, the additional assembly of the heat-dissipating module of the county is increased by =: r and production - the above-mentioned connecting members 11 are joined together, thus causing the above-mentioned conventional techniques to have the following disadvantages:
1.增加生產成本。 2·生產工時過長。 3·組裝效率低。 4.散熱效果不佳。 是以’要如何解決上述習用之問題與缺失,即為本案 之創作人與從事此行«之相_廠商所亟欲研究改善之方向 所在者。 Π 【新型内容】1. Increase production costs. 2. The production time is too long. 3. Assembly efficiency is low. 4. The heat dissipation effect is not good. It is the question of how to solve the above-mentioned problems and lacks, that is, the creator of the case and the person who is engaged in this business. Π 【New content】
差:此, 係提供一種 結構。 為有效解決上述之問題,本創作之主要目的, 具有降低生產成本及生紅時的餘模組結合 本創作之次要目的,係一種具有提高組裝效率的散敎 模組結合結構。 本創作之次要目的,係一種具有增加散熱效能的散熱 模組結合結構。 ’ 為達上述目的,本創作係提供一種散熱模組結合結 構,其包括:一散熱器具有複數散熱鰭片及一主體,前述 5 M358344 邊設有至申形成至少—固定部,並且該固定部的侧 ;第—對接部’該等散熱鰭片散置於各固定部 二沿該主體周緣向外延伸構成;及-風扇包含-框體 f一扇輪’該框體相對散熱器的-侧具有至少-第二對接 縣凸壁,該第二對接部相對前述第一對接部,該凸壁 具$凸伸端延伸抵職散熱器,並在該風扇與散熱器間 界疋二間’該扇輪係配置於該框體巾,藉以前述各對接 縣速組裝風扇與散熱器,以有效達到提升組裝效率,進 而又具有降低生產成本及生產工時的效果者。 【實施方式】 本創作之上述目的及其結構與功能上的特性,將依據 所附圖式之較佳實施例予以說明。 -併請參閱第2、3、3A、4、4A、5圖所示’本創作係 種散熱模組結合結構,在本創作之一較佳實施例中,係 包括一散熱器2及一風扇3,前述散熱器2具有複數散熱 鰭片20及一主體22,該主體22周側向外延伸形成至少」 固定部220,前述固定部220 —端連接該主體四,其另一 端設有一鎖固孔223 ’且該鎖固孔223係用以與一第一固 疋件5結合(如第4圖所示),其中前述第—固定件5係為 螺絲。 如述固定部220的側邊ό又有至少~第一對接部221, 該等散熱鰭片20散置於各固定部220之間並沿該主體22 周緣向外延伸構成;前述風扇3具有一框體3〇及一扇幹· M358344 卜相對散熱器2的一侧具有至少—第 及一凸壁302 ’前述第二對接箱:對= 具有,延伸抵散 並在该風扇3與散熱器2間界定—空間4 對接部分別與該固定部刎及框㈣係-體成型各Poor: This provides a structure. In order to effectively solve the above problems, the main purpose of the creation is to reduce the production cost and the secondary module of the creation of the red when combined with the secondary purpose of the creation, which is a divergent module combination structure with improved assembly efficiency. The secondary purpose of this creation is a heat sink module combination structure with increased heat dissipation. In order to achieve the above objective, the present invention provides a heat dissipation module combination structure, comprising: a heat sink having a plurality of heat dissipation fins and a main body, wherein the 5 M358344 side is provided to form at least a fixing portion, and the fixing portion The side of the first and second sides of the heat sink fins are disposed on each of the fixing portions 2 and extend outward along the circumference of the main body; and the fan includes a frame body f a fan wheel Having at least a second docking county convex wall, the second butting portion is opposite to the first butting portion, the convex wall has a convex end extending to the heat sink, and between the fan and the heat sink The fan wheel system is disposed on the frame body towel, and the fan and the heat sink are assembled by the above-mentioned docking county to effectively improve the assembly efficiency, and further reduce the production cost and the production man-hour. [Embodiment] The above object of the present invention, as well as its structural and functional features, will be described in accordance with the preferred embodiments of the drawings. - Please also refer to the combination of the heat dissipation module of the present invention shown in Figures 2, 3, 3A, 4, 4A, and 5, and in a preferred embodiment of the present invention, a heat sink 2 and a fan are included. The heat sink 2 has a plurality of heat dissipating fins 20 and a main body 22, and the main body 22 extends outwardly to form at least a fixing portion 220. The fixing portion 220 is connected to the main body 4 at one end and is provided with a locking member at the other end. The hole 223' is coupled to a first fixing member 5 (as shown in FIG. 4), wherein the first fixing member 5 is a screw. The heat dissipation fins 20 are disposed between the fixing portions 220 and extend outward along the circumference of the main body 22; the fan 3 has a first side. The frame 3〇 and a dry M358344 have at least one and a convex wall 302' on one side of the heat sink 2, the aforementioned second docking box: pair = has, extends and disperses and is in the fan 3 and the heat sink 2 Inter-definition-space 4 docking part and the fixing part 刎 and frame (4)
/述凸壁她係為增加該風扇3與該等散熱鰭片20間 距,以減少風扇3之出風口導入的流體對前述散敎 2〇的沖擊’進而亦可達到降健音的效果;另者,因、雜 體30的凸壁繼面積大過於該風扇3内出風口面的面積, 以使風扇3與該等散熱鰭片2()間形成__相對擴大的封閉流 道(即刖述帥4),前述觸流道係為該凸壁3G2將風扇3 内出風口導人的氣賴騎形成的,所以可避免靜壓的損 失且又具有增加散熱效果者。 並且,該扇輪31係配置於該框體3〇中,藉由前述第 ―、二對接部22卜3GG快速組裝風扇3與散熱器2,不僅 提高組裝效率且又能增加散熱效能,以及又亦可達到具有 降低生產成本及生產工時的效果者;藉由以上所述,本創 作確實有效改善習知技術中無法降低生產成本及生產工 時、纟且裝效率低及散熱效果不佳的問題。 接著請一併參閱第2至13A圖所示,前述第一對接部 221係為固定孔及凸體兩者其中任一,則第二對接部3〇〇 為叇兩者另一,且前述第一、二對接部221、300彼此相互 7 M358344 搭配、、且δ,在本較佳實施例前述第一、二對接部221、300 搭配組合係以三種態樣說明表示,其中第一態樣是前述第 -對接部221為固定孔’且該第二對接部為凸體卡接 (或後接)於該固定孔内(如第2、3、3Α、4、4Α、5、6圖所 嗣’第二態樣是第一對接部221為凸體,且上述第二 對接部300為固定孔以與相對應的凸體結合(如第7、8、 8Α 9 9Α、1〇圖所示第三態樣是該第一對接部细及 第二對接部3GG為蚊孔,並經由至少—第二固定件6貫 穿前述固定孔以將第一、二對接部221、3〇〇連接(如第工〇、 1卜12、13、13Α圖所示),前述連接方式為該第二固定件 6以螺接或插接方式結合對應的第一、二對接部&卜獅; 其中該第二固定件6係可為螺絲及插銷之其中任—。 續參閱第6、1G圖所示’前述框體3()係包含—基座 32及複數支撐部33 ’該基座32樞接承载上述扇輪3ι,該 等支撐部33具有-第一端331連接該基座犯,及一第二 端332連接該框體30,前述第二對接部3〇〇設於鄰近第二 端332處。以下將敘述本創作各較佳實施例的具體實施: -併復參閱第2、3、从、4、从、5、6_示,在本 較佳實施,前述固定部22〇之第一對接部221 4固定孔, 以及前述框體30之第二對接部期為凸體(即如前述第— 態樣); M358344 當散熱模組於組裝時,對該風扇3施力使其該第二對 接部300卡接至對應該散熱器2的第-對接部221結合, 則此時該框體30的凸壁302之凸伸端3〇3恰抵觸前述散熱 器2,使風扇3内出風口與相對該散熱器2的複數散熱鰭 片20間形成前述空間4,換言之,也就是說增加風扇3與 散熱器2間的距離’進而可減少風扇3内出風口導入的流 體對該等散熱籍片20的沖擊,及避免靜壓損失,嗣,該第 • 一固定件5 一端貫穿入對應的鎖固孔223的-端内,且由 則述鎖固孔223的另-端穿出與對應的一電子元件(如主 機板;圖中未示)相結合,因此,使得可達到迅速組裝散熱 模組,以提高組裝效率,進而又具有增加散熱效能、降低 生產成本及生產工時的效果。 接著續參閱第7、8、8A、9、9a、1〇圖所示,係為本 _之另-較佳實施例,該其整體結構及树間連結關係 大致與前-實施例相同,在此不另外資訴相同處,在本實 ,施例中相較前一實施例不同處為前述固定部22〇之第一對 .接部221為凸體’以及前述框體30之第二對接部_為固 定孔(即如前述第二態樣); 當散熱模組触料,_顺3 _散細2方向 施力’使風扇3的第二對接部3〇〇與對應該散熱器2的第 -對接部221卡合結合,則此時該框體3〇的凸壁她之凸 伸端303恰抵觸前述散熱器2 ’使風扇3内出風口與相對 M358344 也二二器2的稷數散熱鰭片20間形成前述空間4,換言之, 扇^出㈣加風4 3與散熱器2 _距離,進而可減少風 ^ 風口導入的流體_··# % 免靜墨損失^ ^ 1定件5 —端貫穿人對應的鎖 3-端内’再經由前述鎖固孔223另端穿出並與對 ‘1則述電子元件(如主機板;圖中未示)結合-起,因此, 使得可達到迅速絲賴模組,不健高組裝效率,且又 具有增加散熱效能、降低生產成本及生產工時的效果。 請參閲第10、11、12、13、13A圖所示,係為本創作 之f-較佳實施例’該其整體結構及元件間連結關係大致 與前-實施例相同,在此不另外贅訴相同處,在本實施例 中相較前一實施例不同處為前述固定部220的第-對接部 221為固定孔,以及框體3〇的第二對接部3〇〇為固定孔(即 如前述第三態樣); 當散熱模組於組裝時,將前述各第一對接部221與各 第二對接部300彼此相對並緊貼觸後,並透過前述第二固 疋件6鎖入(或插入)貫穿前述第一、二對接部221、3〇〇之 固定孔,以使前述風扇3與散熱器2緊密結合,而此時前 述框體30的凸壁302之凸伸端303恰抵觸前述散熱器2, 使風扇3内出風口與相對該散熱器2的複數散熱鰭片2〇間 形成前述空間4 ’換言之,也就是說增加風扇3與散熱器2 間的距離’進而可減少風扇3内出風口導入的流體對該等 M358344 散熱籍片20的沖擊,以及避免靜壓損失,飼,該第一固定 件5 一端貫穿入對應的鎖固孔223 -端内,並由前述鎖固 孔223另端穿出與對應的上述電子元件(如主機板;圖中未 示)結合’因此,使得可制迅速組裝賴模組,以提高組 裝效率,進而又具有增加散熱效能、降低生產成本及生產 工時的效果。 以上所述,本創作之散熱模組結合結構具有下列優點: ► 1·她於,的散熱模組’由於本解之散纏組無須多 增加-個元件來組裝,因此,使得有效達到提高組裝效 率之效果。 2. 相較於習知的散熱模組,由於本創作之散賴組無須多 增加-個7G件來組裝,因此將可以降低散熱模組的成 本’進而可減少生產卫時及生產成本之目的。 3. 本創作係透過框體的凸壁’以增加風扇與散熱器間的距 _ 離,所以能夠減少風扇内出風口導入的流體對前述散熱 鰭片的沖擊,且又達到降低噪音的效果。 4. 本創作係透過前述凸壁之凸伸端延伸抵頂該散熱器,俾 使該風扇與散熱關形成前述空間,_可達到避免靜 壓損失’且相對地又能提高散熱·的散熱效率。 准以上所述者’僅係本創作之較佳可行之實施例而 已舉凡利用本創作上述之方法、形狀、構造、裝置所為 之變化,皆應包含於本案之權利範圍内。 11 M358344 【圖式簡單說明】 第1A圖係習知之散熱模組立體結構示意圖; 第1B圖係習知之另一散熱模組立體結構示意圖; 第2圖係本創作之較佳實施例分解示意圖; 第3圖係本創作之較佳實施例組合示意圖; 第3A圖係本創作之較佳實施例組合局部放大示意圖; 第4圖係本創作之較佳實施例組合局部剖面示意圖; 第4A圖係本創作之較佳實施例組合局部剖面放大示意圖·, 第5圖係本創作之較佳實施例侧式示意圖; ,6圖係本創作之—風祕樣立體示意圖; 第7圖係本創作之另—較佳實關之分解示意圖; ^ 8圖係本創作之另—較佳實施例之組合示意圖; 第8A圖係本創作之另一較佳實施例組合局部放大示意圖; 第9圖係本創作之另—較佳實施顺合局部剖面示意圖; 第9A圖係本創作之另一較佳實施例組合局部剖面放大示 意圖; 弟1〇圖係本創作之另-風扇態樣立體示意圖; 第11圖係本創作之另―健實酬分解示意圖; =12圖係本創作之另—較佳實施例組合示意圖; 圖系本則作之另—較佳實施例組合局部剖面示意 圆,及 圖係本創作之另-較佳實施例組合局部剖面放大示 12 M358344 【主要元件符號說明】 散熱器 … 2 凸伸端 … 303 散熱縛片 … 20 扇輪 … 31 主體 … 22 基座 … 32 固定部 … 220 支撐部 33 第一對接部… 221 第一端 … 331 鎖固孔 … 223 第二端 … 332 風扇 … 3 空間 … 4 框體 30 第一固走件… 5 第二對接部… 300 第二固定件… 6 凸壁 … 302 13/ The convex wall is to increase the distance between the fan 3 and the heat dissipation fins 20, so as to reduce the impact of the fluid introduced by the air outlet of the fan 3 on the above-mentioned heat sink 2', and thus achieve the effect of reducing the sound; The area of the convex wall of the hybrid body 30 is larger than the area of the air outlet surface of the fan 3, so that the fan 3 and the heat dissipation fins 2 () form a closed channel with a relatively enlarged __ Shuai Shu 4), the above-mentioned contact flow path is formed by the convex wall 3G2 which guides the air outlet of the fan 3 to the air outlet, so that the loss of static pressure can be avoided and the heat dissipation effect can be increased. Moreover, the fan wheel 31 is disposed in the frame body 3, and the fan assembly 3 and the heat sink 2 are quickly assembled by the first and second docking portions 22, 3GG, which not only improves assembly efficiency but also increases heat dissipation performance, and It can also achieve the effect of reducing production cost and production man-hours; by the above, the creation is effective in improving the conventional technology, which cannot reduce the production cost, the production time, the assembly efficiency, and the heat dissipation effect. problem. Referring to FIGS. 2 to 13A, the first butting portion 221 is a fixed hole and a convex body, and the second butting portion 3 is the other one, and the foregoing The first and second docking portions 221 and 300 are matched with each other by 7 M358344, and δ. In the preferred embodiment, the first and second docking portions 221 and 300 are combined and represented by three aspects, wherein the first aspect is The first butting portion 221 is a fixing hole ′ and the second abutting portion is engaged (or followed) by the convex body (as shown in the second, third, third, fourth, fourth, fifth, and sixth figures). The second aspect is that the first butting portion 221 is a convex body, and the second butting portion 300 is a fixing hole to be combined with the corresponding convex body (as shown in the seventh, eighth, eighth, and nineteenth The third aspect is that the first butt joint portion and the second butt portion 3GG are mosquito holes, and the first and second butting portions 221 and 3 are connected through the at least the second fixing member 6 through the fixing holes (eg, The first connection member 6 is screwed or plugged to the corresponding first and second docking portions. And the second fixing member 6 can be any of the screws and the latches. Continuing to refer to the figures 6 and 1G, the aforementioned frame 3 () includes the base 32 and the plurality of supporting portions 33. The base 32 is pivotally supported by the above-mentioned fan wheel 3, the support portion 33 has a first end 331 connected to the base, and a second end 332 is connected to the frame 30, and the second abutting portion 3〇〇 It is disposed adjacent to the second end 332. The specific implementation of the preferred embodiments of the present invention will be described below: - Referring to the second, third, fourth, fourth, and fifth, and the sixth embodiment, in the preferred embodiment, The first abutting portion 221 4 of the fixing portion 22 is fixed to the hole, and the second abutting portion of the frame 30 is a convex body (ie, as in the foregoing first aspect); M358344 when the heat dissipating module is assembled, The fan 3 is biased to engage the second abutting portion 300 to the first butt portion 221 corresponding to the heat sink 2. At this time, the protruding end 3〇3 of the convex wall 302 of the frame 30 is in contact with the heat dissipation. The space 2 is such that the air outlet of the fan 3 and the plurality of heat dissipation fins 20 of the heat sink 2 form the space 4, in other words, the fan 3 is added. The distance between the radiators 2 can further reduce the impact of the fluid introduced into the air outlet of the fan 3 on the heat-dissipating pieces 20 and avoid the static pressure loss. The one end of the first fixing member 5 penetrates into the corresponding locking. The end of the hole 223, and the other end of the locking hole 223 is connected to a corresponding electronic component (such as a motherboard; not shown), thereby enabling rapid assembly of the thermal module. In order to improve assembly efficiency, and in turn, it has the effect of increasing heat dissipation efficiency, reducing production cost and production man-hours. Continued to refer to Figures 7, 8, 8A, 9, 9a, and 1〇, which is based on _ In the preferred embodiment, the overall structure and the inter-tree connection relationship are substantially the same as those of the previous embodiment, and the same is not claimed herein. In the present embodiment, the fixed portion is different from the previous embodiment. The first pair of 22 .. The connecting portion 221 is a convex body 'and the second abutting portion _ of the frame body 30 is a fixing hole (that is, the second aspect as described above); when the heat dissipation module touches the material, _ 顺 3 _ 散Applying force in a thin 2 direction to make the second butt joint 3 of the fan 3 and the first butt joint corresponding to the heat sink 2 When the 221 is engaged, the protruding wall 303 of the frame body 3 恰 is in contact with the heat sink 2 ′ so that the air outlet of the fan 3 and the number of the heat dissipation fins 20 of the opposite M358344 2 The space 4 is formed, in other words, the fan (4) winds 4 3 and the radiator 2 _ distance, thereby reducing the fluid introduced by the wind vents _··# % free static ink loss ^ ^ 1 fixed 5 end through The corresponding lock 3 end of the person is further passed through the aforementioned locking hole 223 and combined with the electronic component (such as the motherboard; not shown) of the '1, so that the rapid wire can be reached. Lai module, not high assembly efficiency, but also has the effect of increasing heat dissipation, reducing production costs and production man-hours. Please refer to Figures 10, 11, 12, 13, and 13A for the f-better embodiment of the present invention. The overall structure and the inter-element relationship are substantially the same as in the previous embodiment. In the present embodiment, the first butt joint portion 221 of the fixing portion 220 is a fixing hole, and the second butting portion 3 of the frame body 3 is a fixing hole. That is, in the third aspect as described above; when the heat dissipation module is assembled, the first butting portions 221 and the second butting portions 300 are opposite to each other and are in close contact with each other, and are locked by the second fixing member 6 Inserting (or inserting) a fixing hole penetrating through the first and second abutting portions 221 and 3, so that the fan 3 and the heat sink 2 are tightly coupled, and at this time, the protruding end 303 of the convex wall 302 of the frame body 30 is 303. Just in contact with the heat sink 2, the air outlet of the fan 3 and the plurality of heat dissipation fins 2 of the heat sink 2 form the space 4', in other words, the distance between the fan 3 and the heat sink 2 is increased. Reducing the impact of the fluid introduced into the air outlet of the fan 3 on the heat sink 20 of the M358344 To avoid static pressure loss, the first fixing member 5 has one end penetrating into the corresponding locking hole 223 - end, and the other end of the locking hole 223 is pierced out and corresponding to the above electronic component (such as a motherboard); Not shown) in combination, therefore, it is possible to quickly assemble the Lai module to improve assembly efficiency, and in turn, to increase heat dissipation efficiency, reduce production cost, and produce man-hours. As described above, the heat-dissipating module combination structure of the present invention has the following advantages: ► 1·She, the heat-dissipating module 'is not necessary to increase the number of components to assemble the entangled group of the solution, thereby effectively improving assembly The effect of efficiency. 2. Compared with the conventional heat dissipation module, since the creation of the stagnation group does not need to be increased by a 7G piece assembly, the cost of the heat dissipation module can be reduced, thereby reducing the production time and production cost. . 3. This creation system increases the distance between the fan and the heat sink through the convex wall of the frame, so that the impact of the fluid introduced into the air outlet of the fan on the heat sink fin can be reduced, and the noise reduction effect can be achieved. 4. The creation system extends through the convex end of the convex wall to the top of the heat sink, so that the fan and the heat dissipation are closed to form the space, which can avoid the static pressure loss and relatively improve the heat dissipation efficiency. . It is intended that the above-described methods, shapes, configurations, and apparatus variations of the present invention are included in the scope of the present invention. 11 M358344 [Simplified Schematic] FIG. 1A is a schematic diagram of a three-dimensional structure of a conventional heat dissipation module; FIG. 1B is a schematic perspective view of another heat dissipation module of the prior art; FIG. 2 is an exploded perspective view of a preferred embodiment of the present invention; 3 is a schematic view showing a combination of preferred embodiments of the present invention; FIG. 3A is a partially enlarged schematic view showing a combination of preferred embodiments of the present invention; FIG. 4 is a partial cross-sectional view showing a preferred embodiment of the present invention; The preferred embodiment of the present invention is combined with a partial cross-sectional enlarged view. FIG. 5 is a schematic side view of a preferred embodiment of the present invention; 6 is a three-dimensional schematic diagram of the wind-like secret of the present creation; Further, a schematic diagram of the decomposition of the preferred embodiment; Fig. 8A is a schematic diagram showing the combination of another preferred embodiment of the present invention; and Fig. 8A is a partially enlarged schematic view of another preferred embodiment of the present invention; The other part of the creation is a schematic diagram of a partial cross-sectional view of the preferred embodiment of the present invention; FIG. 9A is a schematic cross-sectional view of another preferred embodiment of the present invention; Figure 11 is a schematic diagram of another embodiment of the creation of the real reward; =12 is a schematic diagram of another embodiment of the present invention; the figure is the other embodiment - the preferred embodiment combines the partial section schematic circle, and Illustrated embodiment of the present invention - a preferred embodiment combination partial cross-section enlarged view 12 M358344 [main component symbol description] heat sink... 2 convex end... 303 heat sinking tab... 20 fan wheel... 31 body... 22 pedestal... 32 fixed Parts... 220 Support part 33 First butt joint... 221 First end... 331 Locking hole... 223 Second end... 332 Fan... 3 Space... 4 Frame 30 First fixed part... 5 Second docking part... 300 Two fixing parts... 6 convex wall... 302 13