M3 04203 • * 、 八、新型說明: 【新型所屬之技術領域】 本新型之熱管式散熱器之扣裝結構,尤指一種具貫穿 式扣固散熱器於發熱性電子元件設計,同時不影響或限制 散熱器之熱導管佈設位置及數量,使熱導管與熱源間形成 較佳之熱平均傳遞匹配性與效率之熱管式散熱器及其扣 裝結構。 > 【先前技術】 已知,目前所應用於電子元件之散熱裝置及其扣裝結 構,如第一圖所示,都是透過在鰭片模組1 一預設位置, 較佳是在中央位置設一完全開放式之容槽1 1,以提供一 扣具2之壓臂跨設容組,配合扣件2 1緊扣結合於一設有 發熱性電子元件3之基座3 1及其壓掣扣部3 2。 惟,上述習知之結構設計,鰭片模組1之每一散熱鰭 > 片1 2面積因容槽1而被縮減,不僅直接影響散熱效率, 也造成每一散熱鰭片應力強度降低,於沖壓製作時易產生 變形,進而影響散熱鰭片組合時之定位不準、扣組不良等 問題,又提供扣具跨設之容槽1 1是以全開放式設於每一 散熱鰭片1 2之中央位置,使得鰭片模組1在緊結熱導管 之配置上,限制只能佈設及穿組僅結於容槽1 1之二側位 置,造成佈局不便,也影響熱導管佈設之數量和自由度, 特別是熱導管佈設位置及數量,將直接影響與發熱性電子 5 M3 04203 · , ^ 元件熱結合之熱源傳遞至各散熱鰭片之平均分佈性與熱 發散效率。 【新型内容】 本新型之主要目的,在於解決上述傳統缺失,避免缺 失存在,本新型將熱管式散熱器之散熱模組及其扣裝結構 重新設計,讓扣具是以貫穿式壓扣散熱器於發熱性電子元 件設計,同時不影響或限制散熱器之熱導管佈設位置及數 Φ 量,使熱導管與熱源間形成較佳之熱平均傳遞匹配性與效 率之熱管式散熱器及其扣裝結構,具有改善熱管佈設位 置、數量限制、熱傳遞效率及成本等問題,以提供使用者 更低廉但高傳熱效率之實用散熱器。 為達上述目的,本新型之熱管式散熱器之扣裝結構, 以緊結散熱器扣固於一基座及熱接合於發熱性電子元件 傳遞熱源發散,該結構包括有: • 一散熱器,具有鰭片模組及至少一緊結於上述鰭片模 組之熱導管,前述之鰭片模組是由多數散熱鰭片排列扣集 組成,於每一散熱鰭片表面設有一通孔,以於鰭片模組形 成一貫通之通道; 一扣具,具有至少一壓掣臂及一扣件,壓掣臂一端設 有扣耳,另端設有扣鉤以對應上述扣件鉤扣緊結定位; 其中,由上述扣具之壓掣臂一端貫穿上述散熱器中之 通道,配合扣件緊扣於上述基座,使熱導管熱接合於發熱 6M3 04203 • *, VIII, new description: [New technical field] The new type of heat pipe type radiator structure, especially a through-type fastening radiator in the design of heat-generating electronic components, without affecting or The heat pipe type heat sink and its fastening structure are formed by limiting the position and number of heat pipes disposed in the heat sink to form a better heat average matching and efficiency between the heat pipe and the heat source. > [Prior Art] It is known that the heat sink device and its fastening structure applied to the electronic component, as shown in the first figure, are transmitted through the fin module 1 at a predetermined position, preferably at the center. A fully open type of housing 1 1 is provided to provide a pressing arm spanning receptacle of the clip 2, and the mating fastener 2 1 is fastened and coupled to a base 3 1 provided with the heat generating electronic component 3 The buckle portion 3 2 is pressed. However, in the above-mentioned conventional structural design, the area of each fin of the fin module 1 is reduced by the slot 1 , which not only directly affects the heat dissipation efficiency, but also reduces the stress intensity of each fin. When the stamping is made, it is easy to be deformed, which in turn affects the problem of inaccurate positioning and bad buckle group when the heat sink fins are combined, and provides a socket for the fastener to be spanned. 1 1 is a fully open type disposed on each heat sink fin 1 2 The central position makes the fin module 1 in the configuration of the tight heat pipe, limiting the arrangement and the wearing only to the two sides of the cavity 1 1 , which causes inconvenient layout and affects the number and freedom of heat pipe layout. Degree, especially the placement and quantity of heat pipes, will directly affect the average distribution and heat dissipation efficiency of the heat source combined with the heat-generating electrons 5 M3 04203 · , ^ components. [New content] The main purpose of the new model is to solve the above-mentioned traditional defects and avoid the existence of the missing. The new type redesigns the heat-dissipating module of the heat pipe type heat sink and its fastening structure, so that the buckle is a through-type crimping radiator The heat pipe type heat sink and its fastening structure are designed for the design of the heat-generating electronic component without affecting or limiting the heat pipe layout position and the number of Φ of the heat sink, so as to form a better heat-average transfer matching and efficiency between the heat pipe and the heat source. It has the problems of improving heat pipe layout position, quantity limitation, heat transfer efficiency and cost, etc., to provide a practical heat sink with lower cost but high heat transfer efficiency for users. In order to achieve the above object, the buckle structure of the heat pipe type heat sink of the present invention is fastened by a heat sink attached to a base and thermally coupled to a heat transfer element of the heat generating electronic component. The structure includes: • a heat sink having a fin module and at least one heat pipe tightly connected to the fin module, wherein the fin module is composed of a plurality of heat dissipating fins, and a through hole is formed in a surface of each fin The film module forms a through passage; a buckle has at least one pressing arm and a fastening member, and one end of the pressing arm is provided with a buckle ear, and the other end is provided with a buckle to be positioned corresponding to the fastener hook fastening; The end of the pressing arm of the buckle penetrates the passage in the radiator, and the fastening member is fastened to the base to thermally engage the heat pipe 6
(I M3 04203 • * , ' 性電子元件。 又,為達上述目的,本新型另一實施例之熱管式散熱 器之扣裝結構,以緊結散熱器扣固於一基座及熱接合於發 熱性電子元件傳遞熱源發散,該結構包括有: 一散熱器,具有鰭片模組、至少一緊結於上述鰭片模 組之熱導管,及與上述鰭片模組及熱導管結合之導熱底 座,前述之鰭片模組是由多數散熱鰭片排列扣集組成,於 • 每一散熱鰭片表面設有一與導熱底座相連通之通孔,以於 散熱器中形成一貫通之通道; 一扣具,具有至少一壓掣臂及一扣件,壓掣臂一端設 有扣耳,另端設有扣鉤以對應上述扣件鉤扣緊結定位; 其中,由上述扣具之壓掣臂一端貫穿上述散熱器中之 通道,配合扣件緊扣於上述基座,使導熱底座熱接合於發 熱性電子元件。 _ 請參閱以下有關本新型一較佳實施例之詳細說明及其 附圖,將可進一步瞭解本新型之技術内容及其目的功效; 有關該實施例之附圖。 【實施方式】 茲有關本新型之技術内容及詳細說明,現配合圖式說 明如下: 請參閱第二至六圖所示,係本新型之熱管式散熱器之 扣裝結構一實施例的組成結構於各視面之示意圖,如圖所 7 (Sj M304203(I M3 04203 • * , 'Sexual electronic components. Further, in order to achieve the above object, the heat pipe type heat sink fastening structure according to another embodiment of the present invention is fastened to a base by a heat sink and thermally coupled to the heat. The electronic component transmits a heat source, and the structure comprises: a heat sink having a fin module, at least one heat pipe tightly attached to the fin module, and a heat conducting base combined with the fin module and the heat pipe. The fin module is composed of a plurality of fins arranged on the heat dissipating fins, and a through hole communicating with the heat conducting base is formed on the surface of each fin to form a through passage in the heat sink; The utility model has at least one pressing arm and a fastening component, wherein one end of the pressing arm is provided with a buckle ear, and the other end is provided with a buckle to be positioned corresponding to the fastener hook fastening; wherein the end of the pressing arm of the buckle penetrates the above The passage in the heat sink is fastened to the base by the fastening member, and the heat conductive base is thermally joined to the heat generating electronic component. _ Please refer to the following detailed description of a preferred embodiment of the present invention and the accompanying drawings, which may further To understanding The technical content of the present invention and the purpose of the present invention; related drawings of the embodiment. [Embodiment] The technical content and detailed description of the present invention are described below with reference to the following figures: Please refer to the second to sixth figures, The schematic diagram of the structure of the buckle structure of the heat pipe type heat sink of the present invention is shown in Figure 7 (Sj M304203)
1 I 示:本新型之熱管式散熱器之扣裝結構,包括有:一散熱 器4 一可貫穿上述散熱器4内部以扣裝定位之扣具5,以 構成具貫穿式扣固散熱器4與發熱性電子元件6緊結定 位,同時不影響或限制散熱器4之熱導管4 2佈設位置及 數量,使熱導管4 2與熱源間形成較佳之熱平均傳遞匹配 性與效率。 上述所提之散熱器4,是由一鰭片模組4 1及至少一 φ 緊結於上述鰭片模組4 1之熱導管4 2所組成,較佳的實 施方式係如第二至五圖所示;惟實務上並不以此為限,任 何型式之鰭片模組4 1和熱導管4 2的穿套組成,均可適 用本創作之扣裝結構。 請參閱前揭圖示,該鰭片模組4 1是由多數個,至少 二種不同型式設計之第一散熱鰭片4 1 1及第二散熱鰭 片4 1 2相互以本身所設之扣件4 1 3所扣集,形成間距 φ 排列,並由上述二散熱鰭片4 1 1、4 1 2於一端面組合 時形成之高度位差,以形成一開放區4 0,在上述第一散 熱鰭片4 1 1及第二散熱鰭片4 1 2之端面,設有至少一 組提供熱導管4 2緊結之結合孔4 1 4及至少一通孔4 1 5 (圖為二通孔4 1 5),該通孔4 15之設置位置較 佳是在每一散熱鰭片4 1 1、4 1 2端面積中央處,且位 於熱導管4 2兩側端位,使其相鄰於結合孔4 1 4或熱導 管4 2緊結佈設位置,如第三、四圖所示,換言之,透過 (S/ 8 M304203 上述每一散熱鰭片4 1 1、4 1 2端面上之通孔4 1 5, 而在鰭片模組4 1中形成一貫通,提供扣具5壓掣之通道 4 3 ,如第五圖所示。 該熱導管4 2係貫穿於上述鰭片模組4 1之各結合 孔4 1 4 ,配合緊結技術及製程與鰭片模組4 1緊結一 體,並使位於上述開放區4 0之熱導管4 2管表面積是呈 外露形態配置。 φ 所述之扣具5,如第六圖所示,是由一壓掣臂51及 一扣件5 2所組成,壓掣臂5 1 —端設有第一扣孔5 3, 延伸之另端末端設有扣鉤5 4,前述之扣件5 2具有一扣 座5 5及一樞合於扣座5 5之壓片5 6,扣座5 5上設有 第二扣孔5 7 〇 根據上述組成結構以應用緊扣散熱器4於一基座6 1及發熱性電子元件6熱結合定位,如第七圖所示,由上 • 述扣具5之壓掣臂51—端貫穿上述散熱器4中之通道 4 3,配合壓掣臂5 1之第一扣孔5 3,以及扣座5 5之 第二扣孔5 7分別與基座6 1之扣部6 2、6 3鉤扣,壓 掣臂5 1 —端之扣鉤5 4扣鉤於扣座5 5,透過壓片5 6 之壓控使壓掣臂5 1呈近接於每一散熱鰭片4 11、41 3形態,緊扣散熱器4透過開放區4 0之熱導管4 2熱結 合於發熱性電子元件6定位。 由於上述在組成鰭片模組4 1之每一散熱鰭片4 1 9 M3 04203 1、4 1 2設有之通孔4 1 5,而在鰭片模組4丄内部形 成一非開放式、貫穿之通道43,俾供上述扣具5及其壓 掣臂5 1 —端貫穿以配合扣件5 2鉤組扣裝,且使熱導管 4 2位於壓掣臂5 1之間,使其達到較佳空間配置和導弓| 穿套效能,壓掣臂51穿入通道,恰位於熱導管42之端 侧,藉以形成近接散熱黷片4 i i、4 i 2形態壓擎緊扣 散熱器4熱結合於發熱性電子元件6及其基座6 i,藉以 i改善熱導管佈設位置、數量限制、熱傳遞效率及成本等問 題。 再請參閱第八、九圖所示,係本新型之熱管式散熱器 之扣裝結構另施例結構組成示意圖,#圖所*:本實 施例與上述第二至七圖不同設計之處,主要係在該散熱器 4是由鰭片模組4 χ、至少一緊結於上述轉片模組*丄之 熱導管4 2 ’及與上述鰭片模組4丄及熱導管4 2結合之 >導熱底座4 4所構成,且該組成鰭片模組4 i之每一散熱 鰭片4 1 1、4丄2面積所設之通孔4工5,是一端與導 熱底座4 4相連通,而與上述實施例同樣在散熱器&内部 形成一貫通之通道4 3,俾供上述扣具5及其㈣臂“ (圖示為兩支)_端貫穿以配合扣件5 2鈞組扣裝,且使 熱導管4 2位於壓雙臂5 1 Jr ,Μ #、土 、饜1f b丄之間,使其達到較佳空間配置 和導引穿套效能,壓掣臂5 i穿入通道,恰位於熱導管4 2之端側’藉以形成近接散熱韓“ i i、41 2形態壓1 I shows: the buckle structure of the heat pipe type heat sink of the present invention comprises: a heat sink 4, a buckle 5 which can penetrate the inside of the heat sink 4 to buckle and position to form a through-type fastening radiator 4 The heat-dissipating electronic component 6 is tightly positioned, and does not affect or limit the position and number of heat pipes 42 disposed in the heat sink 4, so that a better heat-average transfer matching and efficiency between the heat pipe 42 and the heat source is formed. The heat sink 4 is composed of a fin module 4 1 and at least one heat pipe 42 that is tightly connected to the fin module 4 1 . The preferred embodiment is as shown in the second to fifth figures. As shown in the figure, the folding structure of any type of fin module 41 and heat pipe 42 can be applied to the present invention. Referring to the foregoing, the fin module 4 1 is a buckle provided by a plurality of at least two different types of first fins 41 and second fins 4 1 2 . The pieces 4 1 3 are buckled to form a pitch φ arrangement, and the height difference formed by the two heat dissipation fins 4 1 1 and 4 1 2 combined at one end surface forms an open area 40, in the first The end faces of the heat dissipating fins 41 1 and the second fins 4 1 2 are provided with at least one set of bonding holes 4 1 4 for providing heat pipes 42 and at least one through hole 4 1 5 (the figure is a through hole 4 1 5), the through hole 4 15 is preferably disposed at the center of the end surface area of each of the heat dissipation fins 4 1 1 and 4 1 2, and is located at both ends of the heat pipe 42 to be adjacent to the bonding hole. 4 1 4 or the heat pipe 4 2 is tightly arranged, as shown in the third and fourth figures, in other words, through (S/ 8 M304203, each of the heat dissipation fins 4 1 1 , 4 1 2 on the end face of the through hole 4 1 5 A through hole is formed in the fin module 4 1 to provide a channel 4 3 for pressing the buckle 5 as shown in the fifth figure. The heat pipe 42 is inserted through each of the fin modules 4 1 . Hole 4 1 4 The fastening technology and the process are tightly integrated with the fin module 41, and the surface area of the heat pipe 42 in the open area 40 is in an exposed configuration. φ The buckle 5 is as shown in the sixth figure. It is composed of a pressing arm 51 and a fastening member 5 2 . The first end of the pressing arm 5 1 is provided with a first fastening hole 5 3 , and the other end of the extension end is provided with a buckle 5 4 , and the aforementioned fastener 5 2 has a buckle seat 5 5 and a pressing piece 5 pivoted to the buckle seat 5 5 . The buckle seat 5 5 is provided with a second fastening hole 5 7 〇 according to the above structure to apply the fastening heat sink 4 to a base. The seat 61 and the heat-generating electronic component 6 are thermally coupled and positioned. As shown in the seventh figure, the pressure-clamping arm 51-end of the fastener 5 is inserted through the channel 4 3 in the heat sink 4, and the pressing arm 5 is engaged. The first fastening hole 5 3 of the first fastening hole 5 3 and the second fastening hole 57 of the fastening seat 5 5 are respectively hooked with the fastening portions 6 2 and 6 3 of the base 6 1 , and the buckle 5 4 of the pressing arm 5 1 end is closed. The buckle is hooked to the buckle seat 5 5 , and the compression arm 5 is pressed into the form of each of the heat dissipation fins 4 11 , 41 3 through the pressure control of the pressure piece 5 6 , and the heat pipe 4 is fastened through the heat pipe of the open area 40 . 4 2 thermal bonding to the location of the heat-generating electronic component 6. Since the through holes 4 1 5 are formed in each of the heat dissipation fins 4 1 9 M3 04203 1 and 4 1 2 constituting the fin module 4 1 , a non-open type is formed inside the fin module 4 . Through the passage 43 , the buckle 5 and the pressing arm 5 1 end thereof are penetrated to fit the fastener 5 2 hook group, and the heat pipe 42 is located between the pressing arms 51 to achieve The preferred space configuration and the guide bow | the performance of the sleeve, the compression arm 51 penetrates the passage, just at the end side of the heat pipe 42, thereby forming a short heat sink 4 ii, 4 i 2 form pressure squeezing the heat sink 4 heat The heat-generating electronic component 6 and its pedestal 6 i are combined to improve the heat pipe layout position, quantity limitation, heat transfer efficiency, and cost. Please refer to the eighth and ninth figures, which is a schematic diagram of the structure of the other embodiment of the heat pipe type heat sink fastening structure, #图图*: This embodiment is different from the above two to seven figures, Mainly in the heat sink 4 is a fin module 4 χ, at least one heat pipe 4 2 ′ which is tightly connected to the above-mentioned rotor module * 及 and combined with the above-mentioned fin module 4 丄 and heat pipe 42 2 The heat conducting base 44 is formed, and the through hole 4 of the heat sink fins 4 1 1 and 4 2 of the fin module 4 i is connected to the heat conducting base 44 at one end. Similarly, in the same manner as the above embodiment, a through passage 4 3 is formed in the radiator & and the above-mentioned fastener 5 and its (four) arm "(two pieces are shown) _ end penetrated to match the fastener 5 2 钧 buckle Installed, and the heat pipe 4 2 is placed between the pressure arms 5 1 Jr , Μ #, soil, 餍 1f b丄, so that it achieves better space configuration and guiding wear performance, the pressure arm 5 i penetrates the channel , just on the end side of the heat pipe 4 2 'to form a near heat sink Han ii, 41 2 form pressure
A 10 M3 04203A 10 M3 04203
- I 於發熱性電子元件6及其基座6 , 掣緊扣散熱器4熱結合 上列詳細說明係針對太新 野本新型之一可行實施例之具體說 明,惟該實施例並非用ri 限制本新型之專利範圍,凡未脫 離本新型技藝精神所為夕榮μ盘 …、等效實施或變更,例如:等變化 之等效性實施例,均雍4人μ [ 1應包含於本案之專利範圍中。 綜上所述,本案不/θ ^ -在系統架構與運作型態上確屬創 ❿ 新’並能較習用物品増進 s 上迹夕項功效,應已充分符合新 穎性及進步性之法定新切直 孓專利要件,爰依法提出申請,懇 請貴局核准本件新型專刺由▲主& 寻矛i申请案,以勵創作,至感德便。 【圖式簡單說明】 第一圖為習知一實施例組 '、且成結構立體分解示意圖。 第二圖為本新型一會力& f施例之散熱器組成立體示意圖。 第三圖為本新型一眚故^ T %例之散熱器組成侧視圖。 第四圖為本新型一膏力fe 、&例之散熱器組成側面剖視圖。 第五圖為本新型一眚你 貫施例之散熱器組成前視圖。 第/、圖為本新型奮 貫%例之扣具組成結構立體分解圖。 第七圖為本新型一; 乂 貫知例之扣裝應用形態示意圖。 第八圖為本新型另一香A , 也例之散熱器組成側視圖。 第九圖為本新型另一眚# 貫^例之扣裝應用形態示意圖。 11 M3 04203 【主要元件符號說明】 習知主要元件符號說明: 鰭片模組 扣具 2 發熱性電子元件 3 容槽 散熱鰭片 扣件 基座 扣部 本新型之主要元件符號說明: 散熱器 4 扣具 發熱性電子元件 6 開放區 鰭片模組 4 1 熱導管 通道 4 導熱底座 壓掣臂 1 扣件 第一扣孔 扣鉤 5 4 0 4 2 4 4 5 2 5 4 扣座 壓片 第 孔 7 基座- I in the heat-generating electronic component 6 and its base 6 , the thermal connection of the heat-sink 4 is described in detail above for a detailed description of one of the possible embodiments of the present invention, but this embodiment does not limit the use of ri The scope of the novel patents, which are not deviated from the spirit of the present invention, are equivalent to the equivalent embodiment of the variation, such as the equivalent embodiment of the variation, which is 4 persons μ [1 should be included in the patent scope of the present case. in. In summary, this case does not /θ ^ - in the system architecture and operational type is indeed a new 'and can be compared with the use of customary items s on the eve of the effect, should have fully met the novelty and progressive statutory new Cut the patent requirements, and apply in accordance with the law. You are requested to approve the application of this new type of special thorn by the ▲ Lord & Spears i application, to encourage creation, to the sense of virtue. BRIEF DESCRIPTION OF THE DRAWINGS The first figure is a schematic view of a conventional embodiment of the present invention. The second figure is a three-dimensional schematic diagram of the heat sink of the new one-force & f embodiment. The third figure is a side view of the heat sink of the new type of example. The fourth figure is a side cross-sectional view showing the composition of the heat sink of the new type of paste fe and & The fifth picture is a front view of the heat sink of the new type of embodiment. The first and the figure are three-dimensional exploded views of the structure of the fasteners of the new type of perseverance. The seventh figure is a schematic diagram of the new application model of the buckle; The eighth figure is a side view of the new fragrance A, and also the radiator. The ninth figure is a schematic view of the buckled application form of another novel example. 11 M3 04203 [Main component symbol description] Conventional main component symbol description: Fin module fastener 2 Heat-generating electronic component 3 Groove heat-dissipating fin fastener base buckle The main components of this new symbol Description: Radiator 4 Fastener-heated electronic components 6 Open-area fin module 4 1 Heat pipe channel 4 Heat-conductive base pressure arm 1 Fastener first button hole hook 5 4 0 4 2 4 4 5 2 5 4 Buckle tablet 7 base
扣部 第一散熱鰭片 第二散熱鰭片 4 12 扣件 結合孔 4 14 通孔 4 11 4 13 4 15Buckle first heat sink fin second heat sink fin 4 12 fastener joint hole 4 14 through hole 4 11 4 13 4 15