M379787 五、新型說明: 【新型所屬之技術領域】 本創作係為一種用於主機板之通用塑散熱固定件結構及 其散熱固定件結構,特別為一種適用於主機板上’用以組配各 種尺寸規格散熱件之散熱固定件結構。 【先前技術】 ' 隨著資訊科技的快速發展’個人電腦及筆記型電腦皆需要 • 更快的處理速度,以負荷更大的邏輯運算處理資料。由於個人 電腦及筆記型電腦中的内部設備,例如主機板、中央處理器 (CPU)及積體電路元件等發熱元件運作時皆會產生高熱,並且 處理速度越快,相對產生的熱能也越高,因此若無法適時地將 熱能散去,必定會影響其正常的運作,導致執行速度降低或甚 至影響其使用壽命。 而為改善上述問題,在習知技術中最常見的方式就是直接 設置散熱件於發熱元件上,M379787 V. New Description: [New Technology Field] This creation is a general-purpose plastic heat-dissipating fixture structure for the motherboard and its heat-dissipating fixture structure, especially for one type suitable for the motherboard. Heat sink fixture structure for dimensional heat sinks. [Prior Art] 'With the rapid development of information technology, both PCs and notebook computers need to be faster. Processing speeds and processing data with more powerful logic operations. Since internal devices in personal computers and notebook computers, such as motherboards, central processing units (CPUs), and integrated circuit components, generate high heat when operating, and the faster the processing speed, the higher the relative heat energy generated. Therefore, if the heat energy is not dissipated in a timely manner, it will definitely affect its normal operation, resulting in a slower execution speed or even affect its service life. In order to improve the above problems, the most common way in the prior art is to directly set the heat sink on the heating element.
’為了配合裝設散熱 有穿孔以供散熱固定件結構鎖 隨不同規格的主機板而有不 的散熱效果。 固定件結構, 固於其上,4曰 同的設置, 構,主機板上大多會設 ,但是穿孔之位置常伴 因此製造商需配合主機 3 M379787 板之規格而製造或更換不同尺寸大小的散熱固定件結構。因 此’將會造成備料上的成本提向並導致組裝上的不便。 【新型内容】 本創作係為一種用於主機板之通用型散熱固定件結構及 其散熱固定件結構,由於散熱固定件結構可適用於不同規格的 主機板及散熱件,因此可改善以往散熱固定件結構使用上的不 便性及不具共用性。 本創作係為一種用於主機板之通用型散熱固定件結構及 其散熱固定件結構,藉由將散熱固定件結構設計成可旋轉開合 之形式以利於改變其尺寸,進而使得散熱固定件結構可適用於 固定各種不同尺寸散熱件。 本創作係為一種用於主機板之通用型散熱固定件結構及 其散熱固定件結構,利用在散熱固定件結構上設置定位件,並 在主機板上對應設置結合開孔,以利於散熱固定件結構對應扣 合固定於主機板上,可提升使用者裝設散熱固定件結構之便利 性。 為達上述功效,本創作係提供一種用於主機板之通用型散 熱固定件結構,其包含:一主機板,其具有複數結合開孔;一 第一板體,其為長條狀且具有一第一中央部位,第一板體之兩 端各形成有一第一開口,又接近第一中央部位處設有至少一第 一定位件;以及一第二板體,其為長條狀且具有一第二中央部 位,第二板體之兩端各形成有一第二開口,又接近第二中央部 位處設有至少一第二定位件;其中,第二中央部位與第一中央 M379787 部位係藉由一結合件旋轉結合為一體,並藉由第一定位件及第 二定位件分別與結合開孔相互扣合固定。 為達上述功效,本創作提供一種通用型散熱固定件結構, 其包含:一第一板體,其為長條狀且具有一第一中央部位,第 一板體之兩端各形成有一第一開口,又接近第一中央部位處設 有至少一第一定位件;以及一第二板體,其為長條狀且具有一 " 第二中央部位,第二板體之兩端各形成有一第二開口,又接近 _第二中央部位處設有至少一第二定位件;其中,第二中央部位 鲁 與第一中央部位係藉由一結合件旋轉結合為一體。 藉由本創作的實施,至少可達到下列進步功效: 一、 可適用於各種不同尺寸及規格的散熱件及主機板,以改善 以往的不便性及不具共用性。 二、 利用定位件之設置,以使得散熱固定件結構可輕易地裝設 固定於主機板上,以利於裝設散熱固定件結構。 三、 藉由使用通用型散熱固定件結構,可減少備料的材料成 本,也可減少設計製造散熱固定件結構所耗費的時間及人 氟 力成本。 為了使任何熟習相關技藝者了解本創作之技術内容並據 以實施,且根據本說明書所揭露之内容、申請專利範圍及圖 式,任何熟習相關技藝者可輕易地理解本創作相關之目的及優 點,因此將在實施方式中詳細敘述本創作之詳細特徵以及優 【實施方式】 5 M379787 第1圖係為本創作之一種通用型散熱固定件結構丨之分解 實施例圖。第2A圖係為第1圖之結合實施例圖。第2B圖係 為本創作之一種通用型散熱固定件結構1與散熱件70結合之 分解實施例圖。第3圖係為本創作之一種通用型散熱固定件結 構1之第-實施態樣。第4圖係為本創作之一種通用型散熱固 定件結構1之第二實施態樣。第5圖係為本創作之一種用^主 機7之通用型散熱固定件結構!應用於固定散熱件之分解 實H樣。第6A圖係為第5圖之結合實施例圖。第6B圖 為沿第6A圖中A_A剖線之剖視實施例圖。帛7圖係為本創 =-種用於主機板之通用型散熱岐件結構丨應用於固定散 圖實施態樣二。第8A圖係為第7圖之結合實施例 圖係為沿第8A圖中b_b剖線之剖視實施例圖。 1第1圖所7F ’本實施例係為—種㈣型散熱岐件結構 1 ’散熱固定件結構1白冬.咕 再 2〇。 .一第一板體1〇 ;以及一第二板體 ^板體ω為-長錄之_,並有 二部…且在兩端分別形成有-第-開口 12,1第: 開口 12可以是一個長形 此,當使用老㈣妓 以形成類似滑軌的構造。因 田使用者以螺絲30穿設於第一 可在第-開口 U中自由地滑動*開口 12中時’螺絲3〇便 又在接近第一中央部相η 當第-板體10僅具有、一個第―設有至少-第-定位件, 可設在第-中央部位u之—Z件13時,第—定位件13 體10具有兩個第—定位件 4 2A圖所不),而當第一板 3時,則可分別設在第一中央部位 11之兩側(如第3圖所示)。 二中之㈣,在其中央處具有-第 22,同樣切m的 =之㈣各形財—第二開口 使用者以螺絲30穿咬在^口 4成類似滑執的結構,當 中自由第—開口 22中時’螺絲-亦可在第 同樣的,在接近第二中央部位21處設有至+ — 23 ’當第二板體20僅具有-個第二定位件2/ 一疋位 件23可設在第二中央部位2ι之一側 時,第二定位 第二板體20且右*他# 圖所示),而當 极關具有兩個第二定位件 央部位U之兩側(如第3圖所示)。 Η刀另“又在第-中 其_,第-定位件13與第二定位件23 一定位孔Μ列如,告用以斟旛斗人 疋位柱或 時(如第5 7㈣件是—結合開孔71、52 可以為一定位柱(如第:圖1第第2一:圖了-;3與並第二定位件” 於笸一㈣Μ 固次弟2Α圖所不)’並可以分別凸出 η &第二板體20 ’用以插設於對應的結合開孔 而固定第-板體10及第二板體20之位置。 件圖所7^ ’例如欲將散熱固定件結構1與一散熱 =〇固“合’當第1位件13與第二定位件23為一定位 社人則可使第(位件13與第二定位件23與散熱件70上 二開孔71相互對位’並形成連通之空間,再分別藉由固定 鎖件80穿過第-定位件13、第二定位件Μ及對應之結合開孔 以固定第-板體10及第二板體2〇的位置。 其中,在第-令央部位u及第二中央部位21處可形成一 M379787 孔/同111 211 ’當使用者藉由—結合件4〇(例如鉚釘)穿設於孔 洞111、211之中,即可將第一中央部位η與第二t央部位21 相互結合,因此,當第-板體1G及第二板體2g相互結合為一 體後可依據結合件40為中心作旋轉開合(如第2A圖所示)。由 於可以調整第一板體10及第二板體20之間的角度與距離,因 此散熱固定件結構14寻以應用於固定各種不同尺寸規格的散轨 件。 …、 如第3圖所示,其係為本創作另一較佳實施例,其中,第 -板體10及第二板體20皆可進一步具有至少一第三開口 M、 24’且第!開口 14是形成於第一開口 12與第一中央部位η 之間’第二開口 24則形成於第二開口 22與第二中央部位2ΐ 之間。同樣的’第三開π 14、24也可以是—個長形的開口並 形成類似滑執的構造。 第一定位件13及第二定位件23可以是一 τ型件,並可滑 動的穿設於第三開口 14、24中,以配合不同尺寸的散熱件或 主機板上結合開孔之位置。而且’第三開σ 14、24的長产分 別可小於第-開口 12及第二開口 22的長度,進而增加螺二。 在第-開π 12及第二開口 22中滑動的距離與自由度,以使得 散熱固定件結構1可鎖固於各種不同尺寸規格的散熱件或是主 機板上。 又如第4圖所示,第一板體10上的第一開口 12與第三開 口 Μ可以相互連通,並且第二板體2〇上的第二開口 與第 三開口 24也可以相互連通。在本創作一較佳實施例中,第一 開口 12與第三開口 η相互連通處以及第二開口 22與第三開 σ 24相互連通處皆可進—步具有— 制第一定位# W 25 ’以分別限 牛13及第一疋位件23之滑動範圍。 其中,第一定位件13及螺絲30皆可姑 框標示)分別進入第二開口 14及菌ρ 限制部15(虛線 絲3。滑動於第”第一開口 12中,並可限制螺 螺= 制部15之間,而第二定位㈣及 ==經由限制部25進入第三開口 24及第丄Ϊ 並可限制螺絲3G滑動於第二開口 2 限制第二定位件#叙认# 、限制4 25之間及 疋位件23滑動於第三開口 24與限制部25之間。 第一開口 U如所第Λ圖所示,由於在螺絲3〇上具有溝槽31,而 斤形成的滑軌則具有相對應之軌 3〇可藉由溝槽31启舳堵^心軌道121,因此螺絲 類似社播⑽ 軌道121上滑動,而於第二開口 22中亦有 =4 ’所以螺絲3G可分別在第—開口丨 有 中自由地滑動。 汉弟一開口 22 鱼第因=35圖所示’使用者可藉由調整第-定位件丨3 整Γ置來與散熱件7G對應定位,並可藉由調 螺4 〇之位置來與主機板50對應固定。 施方^ 了將序述散熱固定件結構1應用於在主機板50上之實 央處理=ST主機板5〇上設置有發熱元件6〇(例如一中 、 在發熱元件60上可設置一散埶件70,用 發熱元件6fl推#狀…、汁/u用以協助 ”,、。如第5 ®所示’散_定件結構1可 之正面(與發熱元件60同側)來固定散熱件7〇。 ”,散熱件70上可設置錢數結合開孔],以供散執 9 M379787 固疋件結構1的第-定位件13及第二定位件23分 7〇的結合開孔71相互扣合固定,以先固定第-板體10及第二 =體20所夾的角度’並可同時較散熱件7()與散熱固定件結 構1間之相對位置。接著,因為在主機板50上有設置複數螺 孔51,因此使用者可藉由將第一開口 12及第二開口 22中之螺 絲30鎖固於主機板50上的螺孔5卜以達到將散熱件%固定 於發熱元件60上之功效(如第6A圖及第6B圖所示)。 由於螺絲30可在第-開口 12及第二開口 22中自由滑動, 因此螺,絲3 0可輕易地滑移至螺孔5!的位置,用以適用於固定 各種不同尺寸規格的散熱件70及主機板50。 如第7圖所示,散熱固定件結構i亦可由主機板5〇之反 面(與發熱7G件60不同一侧)來固定散熱件7〇。其中,主機板 50上係設置有複數結合開孔52,而第—定位件13及第二定位 件23可與結合開孔52相互扣合固定,以固定第-板體1〇及 第二板體20所夾的角度,並可固定主機板5〇與散熱固定件結 構1間之相對位置,以簡化裝設散熱固定件結構1之步驟。 又散熱件70上也設置有複數螺孔72,並且在主機板5〇 上也有與螺孔72位置相對應之穿孔53,因此螺絲3〇可在第一 開口 12及第二開口 22中滑移至穿孔幻之位置並穿設穿孔μ 後’再鎖固於散熱件70上的螺孔72,以達到將散熱件7〇固定 於主機板50上的發熱元件6〇之功效(如第圖及第8β圖所 示)。 藉此,由於第一板體10及第二板體2〇間之角度可配合結 合開孔52、71、螺孔51、72或穿孔53的位置而調整,所以可 M379787 通用於不同尺寸規格的散熱件70或主機板50,進而可減+備 料的材料成本,也可減少設計製造散熱固定件結 = 時間及人力成本。 、的 惟上述各實施例係用以說明本創作之特點,复 /、曰的在使熟 習該技術者能瞭解本創作之内容並據以實施,而非限定本創^ 之專利範圍,故凡其他未脫離本創作所揭示之精神而完成之等 效修飾或修改,仍應包含在以下所述之申請專利範圍中。 • 【圖式簡單說明】 第1圖係為本創作之一種通用型散熱固定件結構之分解實施例 圖。 第2A圖係為第1圖之結合實施例圖。 第2B圖係為本創作之一種通用型散熱固定件結構與散熱件結 合之分解實施例圖。 ...... 第3圖係為本創作之一種通用型散熱固定件結構之第一實施熊 •樣。 第4圖係為本創作之一種通用型散熱固定件結構之第二實施態 樣。 〜 苐5圖係為本創作之一種用於主機板之通用型散熱固定件結構 應用於固定散熱件之分解實施態樣一。 第6A圖係為第5圖之結合實施例圖。 第6B圖係為沿第6A圖中A_A剖線之剖視實施例圖。 第7圖係為本創作之一種用於主機板之通用型散熱固定件結構 應用於固定散熱件之分解實施態樣二。 M379787 第8A圖係為第7圖之結合實施例圖。 第8B圖係為沿第8A圖中B-B剖線之剖視實施例圖 【主要元件符號說明】 1..................散熱固定件結構 10............. ...第一板體 11............. ...第一中央部位 111、211 ·_ ...孔洞 12............. …第一開口 121........... ...執道 13............. …第一定位件 14、24 ..... …第二開口 15、25 ..... ...限制部 20............. ...第二板體 21............. …第二中央部位 22............. ...第二開口 23"............ ...第二定位件 30............. ...螺絲 31............. ...溝槽 40............. ...結合件 50............. ...主機板 51 > 72 … ...螺孔 52 ' 71 ..... ...結合開孔 53............. ...穿孔 12 M379787 60................發熱元件 70................散熱件 80................固定鎖件‘In order to match the heat dissipation, there are perforations for the heat-dissipating fixture structure lock. It has different heat dissipation effects with different specifications of the motherboard. The fixing structure is fixed on it, and the same configuration and structure are used. Most of the main board will be set up, but the position of the perforation is often accompanied by the manufacturer's need to manufacture or replace different sizes of heat with the specifications of the host 3 M379787 board. Fixture structure. Therefore, it will cause the cost of the preparation to be raised and cause inconvenience in assembly. [New Content] This creation is a general-purpose heat-dissipating fixture structure for the motherboard and its heat-dissipating fixture structure. Since the heat-dissipating fixture structure can be applied to different specifications of the motherboard and the heat sink, it can improve the heat dissipation in the past. The inconvenience and non-commonness of the use of the structure. The present invention is a general-purpose heat dissipating fixture structure for a motherboard and a heat dissipating fixture structure thereof, and the heat dissipating fixture structure is designed to be rotatable and open to facilitate changing its size, thereby enabling the heat dissipating fixture structure. Can be used to fix a variety of different sizes of heat sinks. The present invention is a general-purpose heat dissipating fixture structure for a motherboard and a heat dissipating fixing structure thereof, and a positioning member is disposed on the structure of the heat dissipating fixing member, and a corresponding opening is arranged on the main board to facilitate the heat dissipating fixing member. The structure is fastened and fixed on the main board, which can improve the convenience of the user to install the heat dissipating fixing structure. In order to achieve the above-mentioned effects, the present invention provides a general-purpose heat dissipating fixture structure for a motherboard, comprising: a main board having a plurality of combined openings; a first board having an elongated shape and having a a first central portion, a first opening is formed at each end of the first plate body, and at least one first positioning member is disposed adjacent to the first central portion; and a second plate body is elongated and has a a second central portion, a second opening is formed at each end of the second plate body, and at least one second positioning member is disposed adjacent to the second central portion; wherein the second central portion and the first central portion M379787 are A joint member is rotatably coupled and fixed to each other by the first positioning member and the second positioning member. In order to achieve the above effects, the present invention provides a general-purpose heat dissipating fixture structure, comprising: a first plate body having an elongated shape and having a first central portion, wherein the first plate body is formed with a first end at each end thereof The opening is further provided with at least one first positioning member near the first central portion; and a second plate body having an elongated shape and having a second central portion, wherein the two ends of the second plate body are respectively formed The second opening is adjacent to the second central portion and is provided with at least one second positioning member; wherein the second central portion and the first central portion are integrally coupled by rotation by a coupling member. With the implementation of this creation, at least the following advancements can be achieved: 1. It can be applied to heat sinks and motherboards of various sizes and specifications to improve the inconvenience and non-compatibility of the past. Second, the positioning member is used so that the heat dissipating fixing member structure can be easily installed and fixed on the main board to facilitate the installation of the heat dissipating fixing member structure. Third, by using a general-purpose heat sink structure, the material cost of the material can be reduced, and the time and human cost of designing and manufacturing the heat sink structure can be reduced. In order to make any skilled person understand the technical content of the present invention and implement it according to the content, patent application scope and drawings disclosed in the specification, any skilled person can easily understand the purpose and advantages related to the creation. Therefore, the detailed features of the present invention and the preferred embodiments will be described in detail in the embodiments. 5 M379787 FIG. 1 is a disassembled embodiment of a general-purpose heat dissipating fixture structure of the present invention. Fig. 2A is a view showing a combined embodiment of Fig. 1. Fig. 2B is an exploded perspective view showing a combination of a general-purpose heat dissipating member structure 1 and a heat dissipating member 70. Fig. 3 is a first embodiment of a general-purpose heat dissipating fixture structure 1 of the present invention. Fig. 4 is a second embodiment of a general-purpose heat dissipating member structure 1 of the present invention. Figure 5 is a general-purpose heat sink fixture structure for the main machine 7 of this creation! It is applied to the decomposition of the fixed heat sink. Fig. 6A is a view showing a combined embodiment of Fig. 5. Fig. 6B is a cross-sectional view of the embodiment taken along line A_A of Fig. 6A. The 帛7 diagram is a general-purpose heat-dissipation component structure for the motherboard, and is applied to the fixed-scatter diagram implementation. Fig. 8A is a combination of Fig. 7 and Fig. 8 is a cross-sectional view of the line taken along line b_b of Fig. 8A. 1Fig. 7F' This embodiment is a type (four) type heat dissipation element structure 1 'The heat dissipation fixing structure 1 white winter. 咕 2 〇. a first plate body 1〇; and a second plate body plate body ω is a long-distance _, and has two parts... and at each end are respectively formed with a -th opening 12, a first opening 12 It is a long shape when using the old (four) 妓 to form a slide-like structure. When the user of the field is inserted through the screw 30 and can be freely slid in the first opening U* in the opening 12, the screw 3 is closer to the first central portion η. When the first plate body 10 has only a first-providing at least-first-position member, which may be disposed at the -Z member 13 of the first central portion u, the first positioning member 13 body 10 has two first-position members 4 2A, but not The first plate 3 can be respectively disposed on both sides of the first central portion 11 (as shown in Fig. 3). In the middle of the second (four), in the center has - the 22nd, the same cut m = (4) each form of wealth - the second opening user with a screw 30 bite in the ^ mouth 4 into a similar slippery structure, among which free - In the case of the opening 22, the screw can also be provided in the same manner to the second central portion 21 to + 23 ' when the second plate 20 has only one second positioning member 2 / one clamping member 23 When disposed on one side of the second central portion 2ι, the second positioning second plate body 20 and the right side * is shown in the figure), and when the pole closing has two sides of the second positioning member central portion U (such as Figure 3). The boring tool is further "in the first - middle _, the first locating member 13 and the second locating member 23 are aligned with the locating holes, for example, for the squatting squatting column or when (as in the 5th (4)th piece is - The combined opening 71, 52 may be a positioning post (such as: Figure 1: No. 2: Figure -; 3 and the second positioning member) in the first one (four) 固 次 次 2 2 2 The protrusion η & second plate body 20 ′ is inserted into the corresponding joint opening to fix the position of the first plate body 10 and the second plate body 20 . 1 and a heat dissipation = tamping "combination" when the first position member 13 and the second positioning member 23 are a positioning person, the first position member 13 and the second positioning member 23 and the heat dissipating member 70 are provided with two openings 71. Inter-aligning 'and forming a space for communication, and then fixing the first-plate body 10 and the second plate body 2 through the first positioning member 13, the second positioning member Μ and the corresponding combined opening by the fixing lock 80, respectively Wherein, a M379787 hole/same 111 211 ' can be formed at the first-order portion u and the second central portion 21 when the user passes through the hole 111 by means of a coupling member 4 (for example, a rivet), Among 211 The first central portion η and the second central portion 21 can be coupled to each other. Therefore, when the first plate body 1G and the second plate body 2g are integrated with each other, the first and second plate bodies 1G and the second plate body 2g can be rotated and opened according to the coupling member 40 (for example, As shown in Fig. 2A), since the angle and distance between the first plate body 10 and the second plate body 20 can be adjusted, the heat dissipation fixture structure 14 can be applied to fix the track pieces of various sizes and specifications. As shown in FIG. 3, it is another preferred embodiment of the present invention, wherein the first plate body 10 and the second plate body 20 may further have at least one third opening M, 24' and the first opening 14 The second opening 24 is formed between the first opening 12 and the first central portion η. The second opening 24 is formed between the second opening 22 and the second central portion 2A. The same 'third opening π 14, 24 may be - The first positioning member 13 and the second positioning member 23 may be a τ-shaped member and slidably disposed in the third opening 14 and 24 to match different sizes. The position of the heat sink or the motherboard combined with the opening. And the 'third open σ 14, 24 The long-term production may be smaller than the length of the first opening 12 and the second opening 22, respectively, thereby increasing the distance between the first opening π 12 and the second opening 22 and the degree of freedom, so that the heat-dissipating fixing structure 1 can be locked. The first opening 12 and the third opening 第一 on the first plate body 10 can communicate with each other, and the second plate body 2 〇 is fixed to the heat dissipating members of different sizes and the main plate. The second opening and the third opening 24 may also communicate with each other. In a preferred embodiment of the present invention, the first opening 12 and the third opening η are in communication with each other, and the second opening 22 and the third opening σ 24 are connected to each other. The step can be made with - the first positioning # W 25 ' to limit the sliding range of the cattle 13 and the first clamping member 23, respectively. The first positioning member 13 and the screw 30 can be respectively displayed in the second opening 14 and the bacteria ρ restriction portion 15 (the broken wire 3 is slid in the first opening 12), and the screw can be restricted. Between the portions 15, the second positioning (four) and == enter the third opening 24 and the second through the restricting portion 25 and can restrict the screw 3G from sliding to the second opening 2 to restrict the second positioning member ####, limit 4 25 The gap between the third opening 24 and the restricting portion 25 is slid between the third opening 24 and the restricting portion 25. The first opening U has a groove 31 on the screw 3〇, and the sliding rail formed by the pin is as shown in the figure. With the corresponding rail 3〇, the core rail 121 can be opened by the groove 31, so the screw slides on the track (10) track 121, and there is also =4 in the second opening 22, so the screw 3G can be respectively The first opening 丨 slides freely. Handi's opening 22 fish is as shown in Fig. 35. 'The user can adjust the position of the first positioning member 调整3 to position the heat sink 7G, and can borrow The position of the screw 4 is fixed corresponding to the motherboard 50. The application of the heat dissipation fixture structure 1 is applied to the host. 50 on the central processing = ST motherboard 5 is provided with a heating element 6 〇 (for example, in the middle, a heat sink 60 can be provided with a heat sink 70, with the heating element 6fl push # shape..., juice / u To assist, ", as shown in Figure 5, the front side of the scatter-fixing structure 1 (on the same side as the heating element 60) to fix the heat sink 7 〇.", the heat sink 70 can be set with a combination of money and opening ], the first positioning member 13 and the second positioning member 23 of the solid member structure 1 for the loosening of the 9 M379787 are respectively fastened and fixed to each other to fix the first plate body 10 and the second body first. The angle 20 of the body 20 can be compared with the position of the heat sink 7 () and the heat dissipating fixture structure 1. Then, since the plurality of screw holes 51 are provided on the motherboard 50, the user can The screw 30 in the opening 12 and the second opening 22 is locked to the screw hole 5 of the motherboard 50 to achieve the function of fixing the heat sink % to the heating element 60 (as shown in Figures 6A and 6B). Since the screw 30 can slide freely in the first opening 12 and the second opening 22, the screw and the wire 30 can be easily slid to the position of the screw hole 5! The heat sink 70 and the motherboard 50 are fixed for fixing various sizes and specifications. As shown in FIG. 7, the heat sink structure i can also be fixed by the reverse side of the motherboard 5 (on the side different from the heat-generating 7G member 60). The main board 50 is provided with a plurality of combined openings 52, and the first positioning member 13 and the second positioning member 23 can be fastened and fixed to the combined opening 52 to fix the first plate body 1〇. And the angle between the second board 20 and the relative position between the main board 5〇 and the heat dissipating structure 1 to simplify the step of installing the heat dissipating structure 1. The heat sink 70 is also provided with a plurality of screw holes 72, and the main plate 5 has a hole 53 corresponding to the position of the screw hole 72, so that the screw 3〇 can slide in the first opening 12 and the second opening 22. To the position of the perforation and the through hole μ, the screw hole 72 is re-locked on the heat sink 70 to achieve the function of fixing the heat sink 7〇 to the heating element 6 on the motherboard 50 (as shown in the figure and Figure 8β shows). Thereby, since the angle between the first plate body 10 and the second plate body 2 can be adjusted in accordance with the positions of the coupling holes 52, 71, the screw holes 51, 72 or the through holes 53, the M379787 can be used for different sizes. The heat sink 70 or the motherboard 50 can further reduce the material cost of the stock preparation, and can also reduce the design and manufacture of the heat sink fixtures = time and labor costs. However, the above embodiments are used to illustrate the characteristics of the present creation, and the complex/recognition is to enable the skilled person to understand the content of the creation and implement it according to the patent, and not to limit the scope of the patent. Other equivalent modifications or modifications made without departing from the spirit of the present invention should still be included in the scope of the claims described below. • [Simplified Schematic Description] Figure 1 is an exploded view of a general-purpose heat sink fixture structure. Fig. 2A is a view showing a combined embodiment of Fig. 1. Fig. 2B is a disassembled embodiment of a general-purpose heat dissipating fixture structure and a heat dissipating member of the present invention. ...... Figure 3 is the first implementation of a general-purpose heat sink fixture structure. Fig. 4 is a second embodiment of a general-purpose heat dissipating fixture structure of the present invention. ~ 苐5 is a general-purpose heat-dissipating fixture structure for the motherboard. It is applied to the decomposed implementation of the fixed heat sink. Fig. 6A is a view showing a combined embodiment of Fig. 5. Fig. 6B is a cross-sectional view of the embodiment taken along line A_A of Fig. 6A. Fig. 7 is a schematic view of a general-purpose heat dissipating fixture structure for a main board, which is applied to a fixed heat sink. M379787 Figure 8A is a diagram of a combined embodiment of Figure 7. Figure 8B is a cross-sectional view along the line BB in Figure 8A. [Main component symbol description] 1.................. Heat-dissipating fixture structure 10. ..................first plate body 11.............first central portion 111, 211 ·_ ... hole 12 ...................The first opening 121.................Exercising 13.............. a positioning member 14, 24 ..... ... second opening 15, 25 ..... ... limiting portion 20 .......... ... second plate body 21 ................the second central part 22.............the second opening 23".......... .. ...the second positioning member 30............. screw 31................groove 40... .......... ...bonding piece 50................Board plate 51 > 72 ... screw hole 52 ' 71 ... .. ...in combination with opening 53.............perforated 12 M379787 60................heating element 70.. ..............heat sink 80................fixed lock