M356370 五、新型說明: 【新型所屬之技術領域】 本創作係關於一種散熱模組,特別係關於一種提升結 合強度之散熱模組。 【先前技術】 一種習知散熱模組,如中華民國專利證書第M336668 號之新型專利案,其係由數個散熱片構成,該散熱片具有 ® -底板、二㈣及數個接合部;該二側牆彎折形成於該底 板之相對二側邊,且該接合部設置於該側牆;各該接合部 分別具有一扣接孔、一頂凸板及一勾板。當二個散熱片上 下對接時,由於該頂凸板係凸伸形成該侧牆之頂部,且該 側牆亦在該頂凸板下方對位開設有該扣接孔,藉此使位在M356370 V. New Description: [New Technology Field] This creation is about a heat dissipation module, especially for a heat dissipation module that improves the bonding strength. [Prior Art] A conventional heat dissipation module, such as the new patent of the Republic of China Patent Certificate No. M336668, which is composed of a plurality of heat sinks having a y-floor, two (four) and a plurality of joints; The two side walls are formed on the opposite sides of the bottom plate, and the joint portion is disposed on the side wall; each of the joint portions has a fastening hole, a top convex plate and a hook plate. When the two heat sinks are butt-joined, the top convex plate protrudes to form a top of the side wall, and the side wall also has the fastening hole oppositely disposed under the top convex plate, thereby
=散熱额之卡錢構:係^ 反卡抵於該下方散熱片之扣― 八”、、,口3、涵度+佳之缺點,該 係一種藉由該上方散熱片之勾 τ胃緣的單一卡合結構,來= The amount of heat dissipation card structure: Department ^ The anti-card is offset by the buckle of the lower heat sink - eight, , , mouth 3, the degree of tolerance + good, which is a kind of stomach edge of the upper heat sink Single snap structure, come
而具有結合強度;^之缺點。 疋,但僅罪該勾板定位該散 (例如m觸)而與相鄰 使得各該散熱u之結合穩固度較 M356370 另一種習知散熱模組,如中華民國專利證書第 M332363號之新型專利案’其係一種具有扣合結構之散熱 鰭片,其係由一金屬片體經沖壓及彎折而成,該散熱鰭片 之橫斷面係呈倒U形,其頂面上於鄰近兩侧面之對應位置 分別設有至少一定位孔,該散熱鰭片之兩側面係朝同一方 向被彎折,彼此平行’且垂直於該頂面,該兩侧面之邊緣 上於對應各該定位孔的位置,分別朝遠離該頂面的方向延 伸出一插接部,各該插接部上係分別沖設有至少一個卡扣 單元,使得二散熱鰭片相互對接時,位於下方之該散熱鰭 片之插接部能順利卡入位於上方之該散熱鰭片之定位孔 内,且該插接部上之卡扣單元能在穿過該定位孔後,向内 彈出,並抵靠在位於上方之該散熱鰭片的底面,如此複數 個散熱鰭片即可相互扣合。 然而,該習知散熱模組仍具有結合強度不佳之缺點, 該習知散熱模組係在該下方散熱鰭片之插接部卡入位於該 上方散熱鰭片之定位孔後,利用該插接部之卡扣單元彈出 後抵靠在該上方該散熱⑽的底面,以便該二散熱韓片相 互卡扣定位,但該散熱鰭片之卡扣單元係藉由彈力向内彈 ,抵靠在上方之該散熱鰭片的底面,使得該卡扣定位結構 谷易因外力作用(例如:碰撞或擠壓)而鬆脫;使得各該 散熱鰭片間之結合穩m度較差,而具有結合強度不佳之缺 點。 ' 【新型内容】 本創作係提供一種散熱模組,其結合強度佳,係為本 M356370 創作之主要目的。 為達到前述創作目的,本創作所運用之技術手段及藉 由該技術手段所能達到之功效包含有: 一種散熱模組’其係由數個散熱鰭片相互堆疊組成, 各該散熱鰭片分別包含一基板、數個卡抵件及數個扣合 件。該基板具有二側牆、數個嵌合槽、數個扣接部及數個 對位槽,该一側牆係該基板相對二側邊分別、彎折所形成, • 各該嵌合槽係貫穿該側牆並連通該基板,各該扣接部係對 應該欲合槽上方設置於該側牆之頂部,各該對位槽係貫穿 該扣接部且連通該嵌合槽。各該卡抵件係分別設置於該扣 接部之頂部。各該扣合件係分別可彎折的設置於各該卡抵 件之底緣。藉由上述之結構設計,使得本創作具有結合強 度佳之功效。 其中本創作之一第一散熱鰭片之卡抵件及扣合件穿 過該第二散熱鰭片之礙合槽,進而使該第二散熱韓片之定 • 位件扣入該第-散熱鰭片之嵌合槽内,使該第一散熱鰭片 2扣合件抵靠於該第二散熱片之基板頂面;將該第二散熱 則之卡抵件及扣合件亦穿過該第三散熱鰭片之嵌合槽, $而使該第三散熱鰭片之定位件扣人該第二散_片之谈 。槽内’使該第二散熱鰭片之扣合件係抵靠於該第三散熱 基板頂面’此時該第一散熱鰭片之卡抵件係頂撐於 =-散熱鰭片之基板底面;進而限制該第三散熱韓片之 』,、上下位移’使得各該散熱_片之間具有穩固之卡合結 ,而使得本創作之散熱模組不易受外力作用(例如: 里或擠壓)而鬆脫,而具有結合強度佳之功效。 M356370 曰由上4之組合結構,各該散熱則係相鄰之下 散熱鰭片之卡抵件及扣合件穩固將該散熱鱗片的 、固疋’使各該散熱則之間具有交錯之扣結關係,進 而使得本創作之散熱模組具有結合強度佳之功效。 【實施方式】 為讓本創作之上述及其他目的、特徵及優點能更明顯 ’下文特舉本創作之較佳實施例,並配合所附圖式, 作詳細說明如下: ,參照第1圖所示,本創作較佳實施例之散熱模組, ^數個散熱鰭片i相互堆疊域,各該散熱· i分別 w基板1卜數個卡抵件12及數個扣合件13。 該基板11具有二侧牆1U、數個喪合槽II2、數個扣 接部113、數個對位槽114及數個定位件115。該二侧牆 係分別由該基板n之相對二側邊彎折形成,且各該側 ㈢⑴較佳與該基板11相互垂直。各該喪合槽112係分別 设f於該側牆111上,且該嵌合槽112係貫穿該側牆⑴, 亚/山、該基板11之底面116相連通。各該扣接部113係對應 ,嵌合槽m上方設置於該側牆ln之頂部,且該扣接部 之形狀及尺寸與該嵌合槽112相同。各該對位槽ιΐ4 2穿該扣接部113,且該對位槽…係對位連通於該喪 θ槽m。各較位件115係設置於該基板u與 111之間之基板η側邊,且突伸於該嵌合槽n2。 各該卡抵件】2係分別形成於各該扣接部】13之 且亦與該嵌合槽n2相對位,各該卡抵件】2分別朝對向之 M356370 之頂面係作為— 侧牆111彎折呈一圓弧狀,且該卡抵件12 頂接面12卜 各該扣&件13之-端連結於各該卡抵件12之 另一端設有—抵接部131 ’各該扣合件U係為可彎折之撓 性材質,且該扣合件13與該側牆⑴之間預先留有一失^And has the strength of bonding;疋, but only sin that the hook plate locates the scatter (for example, m-touch) and the adjacent one makes the heat sink u more stable than the M356370. Another conventional heat-dissipating module, such as the new patent of the Republic of China Patent Certificate No. M332363 The case is a heat-dissipating fin having a fastening structure, which is formed by stamping and bending a metal sheet. The cross-section of the heat-dissipating fin is inverted U-shaped, and the top surface of the heat-dissipating fin is adjacent to the two The corresponding positions of the side surfaces are respectively provided with at least one positioning hole, and the two sides of the heat dissipation fin are bent in the same direction, parallel to each other and perpendicular to the top surface, and the edges of the two sides are corresponding to the positioning holes. Positioning, respectively, a plug portion extending away from the top surface, each of the plug portions is respectively provided with at least one snap unit, such that the heat sink fins located below when the two heat sink fins are butted together The plug portion can be smoothly inserted into the positioning hole of the heat dissipating fin located above, and the buckle unit on the plug portion can be ejected inward after passing through the positioning hole, and abuts on the upper side The bottom surface of the heat sink fin, so plural The heat sink fins can be snapped together. However, the conventional heat dissipation module still has the disadvantage of poor bonding strength. The conventional heat dissipation module is used after the insertion portion of the lower heat dissipation fin is inserted into the positioning hole of the upper heat dissipation fin. The buckle unit of the portion is ejected and abuts against the bottom surface of the heat dissipation (10), so that the two heat-dissipating fins are snap-fitted to each other, but the buckle unit of the heat-dissipating fin is inwardly biased by the elastic force, and is pressed against the upper portion. The bottom surface of the heat dissipating fin makes the snap positioning structure valley easy to be loosened by an external force (for example, collision or extrusion); so that the joint between the heat dissipating fins is stable, and the bonding strength is not Good shortcomings. ' [New Content] This creation department provides a heat dissipation module with a strong combination of strengths, which is the main purpose of the M356370 creation. In order to achieve the above-mentioned creative purposes, the technical means used in the creation and the functions that can be achieved by the technical means include: a heat dissipation module, which is composed of a plurality of heat dissipation fins stacked on each other, and each of the heat dissipation fins respectively The utility model comprises a substrate, a plurality of card fasteners and a plurality of fastening components. The substrate has two side walls, a plurality of fitting grooves, a plurality of fastening portions and a plurality of alignment grooves, wherein the one side wall is formed by bending the opposite sides of the substrate, and each of the matching groove systems Each of the fastening portions is disposed above the side wall of the side wall, and each of the alignment grooves extends through the fastening portion and communicates with the fitting groove. Each of the latching members is respectively disposed at the top of the fastening portion. Each of the fastening members is bendably disposed at a bottom edge of each of the fastening members. With the above structural design, this creation has the effect of combining strength. The card-receiving member and the fastening member of the first heat-dissipating fin of the present invention pass through the blocking groove of the second heat-dissipating fin, thereby causing the second heat-dissipating piece of the heat-dissipating piece to be buckled into the first heat-dissipating portion. The first heat dissipation fin 2 fastener is abutted against the top surface of the second heat dissipation fin in the fitting groove of the fin; the second heat dissipation latching member and the fastening component also pass through the The fitting groove of the third heat dissipation fin, and the positioning member of the third heat dissipation fin buckles the second piece of the film. In the slot, the fastening member of the second heat dissipation fin is abutted against the top surface of the third heat dissipation substrate. At this time, the first heat dissipation fin of the first heat dissipation fin is supported on the bottom surface of the substrate of the heat dissipation fin. And further restricting the third heat-dissipating Korean film, and the up-and-down displacement, so that each of the heat-dissipating sheets has a stable card-bonding relationship, so that the heat-dissipating module of the present invention is not easily subjected to external force (for example: inside or squeezed) ) and loose, and has the effect of good bonding strength. The M356370 is composed of the combination of the upper 4, and the heat dissipation is the card-receiving member and the fastening member of the heat-dissipating fins adjacent to each other, and the fixing of the heat-dissipating fins is fixed to make the heat-dissipating buckles The relationship between the knots and the heat-dissipating module of the present invention has the effect of combining strength. [Embodiment] The above and other objects, features and advantages of the present invention will become more apparent. The following detailed description of the preferred embodiments of the present invention, together with the accompanying drawings, will be described in detail as follows: In the heat dissipation module of the preferred embodiment of the present invention, a plurality of heat dissipation fins i are stacked on each other, and each of the heat dissipation units has a plurality of card-receiving members 12 and a plurality of fastening members 13 respectively. The substrate 11 has two side walls 1U, a plurality of sluice grooves II2, a plurality of fastening portions 113, a plurality of alignment grooves 114, and a plurality of positioning members 115. The two side walls are respectively formed by bending opposite side edges of the substrate n, and each of the side (3) (1) is preferably perpendicular to the substrate 11. Each of the sluice grooves 112 is respectively disposed on the side wall 111, and the fitting groove 112 penetrates through the side wall (1), and the sub/mountain and the bottom surface 116 of the substrate 11 communicate with each other. Each of the fastening portions 113 corresponds to the top of the side wall ln above the fitting groove m, and the shape and size of the fastening portion are the same as the fitting groove 112. Each of the alignment grooves ι ΐ 4 2 passes through the fastening portion 113, and the alignment groove is in alignment with the θ slot m. Each of the alignment members 115 is disposed on the side of the substrate η between the substrates u and 111 and protrudes from the fitting groove n2. Each of the engaging members 2 is formed in each of the fastening portions 13 and is also opposite to the fitting groove n2, and each of the engaging members 2 is opposite to the top surface of the opposite M356370 as a side The wall 111 is bent in an arc shape, and the abutting surface 12 of the latching member 12 is connected to the other end of each of the latching members 12 at the other end of the latching member 13 to provide an abutting portion 131' Each of the fastening members U is a flexible material that can be bent, and a loss is left between the fastening member 13 and the side wall (1).
請參照第2及3圖所示,本創作較佳實施例之散敎模 組於實際組裝時,將-第-散熱則丨,之扣接部113穿過 另-第二散熱則1”之嵌合槽112’使該第—散熱縛片r 之卡抵件12及扣合件13亦穿過該第二散熱鰭片丨,,之嵌合 槽112,進而使該第二散熱鰭片1,,之定位件115扣入該第 一散熱鰭片Γ之嵌合槽112内,且該第一散熱鰭片j,之卡 抵件12卡合於該第二散熱鰭片丨,,之對位槽114内;此時 該第一散熱鰭片1,之扣合件13之抵接部131係抵靠於該 第一散熱片1”之基板11頂面117,進而使用一工具(例如: 推動滑塊)由該基板11朝向該側牆111的方向推壓該第一 散熱鰭片Γ之抵接部131,使該第一散熱鰭片1,之抵接部 131彎折的卡抵於該第二散熱鰭片1”之基板u頂面ι17 (如第3圖所示),且該第二散熱鰭片1”之定位件U5以 增加該第一散熱鰭片1,之抵接部131之彎折空間,使得該 第一散熱鰭片Γ之抵接部131不易由該第二散熱鰭片1” 之嵌合槽112脫離。 請再參照第2至3圖所示,將該第二散熱鰭片1”之 扣接部113再穿過另一第三散熱鰭片1’’’之嵌合槽112, 使該第二散熱鰭片1”之卡抵件12及扣合件13亦穿過該第 M3 563 70 三散熱鰭片Γ”之嵌合槽112,進而使該第三散熱鰭片Γ” 之定位件115扣入該第二散熱鰭片丨,,之嵌合槽112内,且 該第二散熱鰭片1”之卡抵件12卡合於該第三散熱鰭片j,” 之對位槽114内;此時該第二散熱鰭片1”之扣合件13之 抵接部131係抵靠於該第三散熱鰭片丨,”之基板u頂面 117,進而使用一工具(例如:推動滑塊)由該基板n朝 向該侧牆U1的方向推壓該第一散熱鰭片1,之抵接部 131,使該該第二散熱鰭片丨”之抵接部131彎折的卡抵於 該第三散熱鰭片1”,之基板n頂面117 (如第3圖所示), 且該第二散熱鰭片1’’’之定位件115以增加該第二散熱鰭 片1”之抵接部U1之彎折g間,使得該第二散熱鰭片j” 之抵接部131不易由該第三散熱鰭片丨,”之嵌合槽112脫 離。同時該第-散熱鰭片1’之卡抵件12之頂接面121係 頂樓於該第三散_片i,”之基板n底面116 ;進而使該 第一散熱鰭片1之抵接部131卡抵於該第三散埶鰭片 之基板11頂面117,且同時該第—散熱則Γ之職面121 頂擇於該第二散熱韓片1,,’之基板u底面116,以限制該 第三散熱g 1’’’之相對上下位移。藉由上述之各散熱續 片1之組合結構’使得各該散熱鰭片丨之間具有穩固之卡 合結構,進而使得本創作之散熱模組不易受外力作用(例 如:碰撞或而鬆脫’而具有結合強度佳之功效。 如上所述’本創作之散熱模組之組合結構,各該散埶 韓片1係利用相鄰之下方該二片散熱鰭片之卡抵件12及;: 合件13穩固將該散熱韓片i的頂面117及底面116爽 定,使得各該散熱鰭片之間具衫錯之扣結關係,進而使 M356370 才于本創作之散熱模組不易脫落,而具有結合強度佳之功效。 雖然本創作已利用上述較佳實施例揭示,然其並非用 以限定本創作,任何熟習此技藝者在不脫離本創作之精神 和範圍之内,相對上述實施例進行各種更動與修改仍屬本 創作所保護之技術範轉,因此本創作之保護範圍當視後附 • 之申請專利範圍所界定者為準。 【圖式簡單說明】 第1圖:本創作較佳實施例之散熱模組之組合立體圖。 第2圖.本創作較佳實施例之散熱模組之組合側視圖。 第3圖:本創作較佳實施例之散熱模組之組合示意圖。 【主要元件符號說明】 〔本創作〕 1 散熱鰭片 V 散熱縫片 1” 散熱鰭片^ 1”, 散熱鰭片 11 基板 111 側牆 112 嵌合槽 113 扣接部 114 對位槽 115 定位件 116 底面 117 頂面 12 卡抵件 121 頂接面 13 扣合件 131 抵接部 Θ 夾角Referring to Figures 2 and 3, in the actual assembly of the present invention, the dilation module will be - the first heat dissipation, and the fastening portion 113 will pass through the other - the second heat dissipation. The engaging groove 112' allows the engaging member 12 and the engaging member 13 of the first heat-dissipating fin r to pass through the second heat-dissipating fins, the fitting groove 112, and the second heat-dissipating fin 1 , the positioning member 115 is engaged in the fitting groove 112 of the first heat dissipation fin ,, and the first heat dissipation fin j, the card offset member 12 is engaged with the second heat dissipation fin 丨, the pair In the first groove 114, the abutting portion 131 of the first heat sink fin 1 abuts against the top surface 117 of the substrate 1 of the first heat sink 1", thereby using a tool (for example: Pushing the slider) to press the abutting portion 131 of the first heat dissipating fin 由 in the direction of the substrate 11 toward the side wall 111, so that the first heat dissipating fin 1 is bent by the abutting portion 131 The top surface of the second heat sink fin 1" is as shown in FIG. 3, and the positioning member U5 of the second heat sink fin 1" is used to increase the abutment portion of the first heat sink fin 1. 131 bending space, making this The abutting portion 131 of the first heat sink fin is not easily detached from the fitting groove 112 of the second heat sink fin 1". Referring to FIGS. 2 to 3, the second heat sink fin 1" is buckled. The connecting portion 113 passes through the engaging groove 112 of the other third heat dissipating fin 1 ′′′, so that the engaging member 12 and the engaging member 13 of the second heat dissipating fin 1 ′′ also pass through the M3 563 70 . The fixing fins 112 of the three heat dissipating fins ,, and the positioning members 115 of the third heat dissipating fins 扣 are inserted into the second heat dissipating fins ,, the fitting grooves 112, and the second heat dissipating fins The abutting portion 131 of the engaging member 13 of the second heat dissipating fin 1" is abutted against the abutting portion 131 of the engaging member 13 of the second heat dissipating fin 1" The first heat-dissipating fin 1 is pressed by the substrate n toward the side wall U1 by using a tool (for example, pushing a slider) on the third heat-dissipating fin 丨, The abutting portion 131 abuts the abutting portion 131 of the second heat dissipating fin 抵" against the third heat dissipating fin 1", and the top surface 117 of the substrate n (as shown in FIG. 3) And the second heat sink fin 1'' The positioning member 115 is configured to increase the bending gap between the abutting portions U1 of the second heat dissipating fins 1 ′, so that the abutting portion 131 of the second heat dissipating fins j ′ is not easily smashed by the third heat dissipating fins. The fitting groove 112 is detached. At the same time, the top surface 121 of the first heat-dissipating fin 1 is a top surface of the bottom surface 116 of the substrate, and the abutting portion of the first heat-dissipating fin 1 The 131 card is in contact with the top surface 117 of the substrate 11 of the third heat sinking fin, and at the same time, the first heat dissipation surface 121 is selected from the bottom surface 116 of the second heat sinking film 1, ' Limiting the relative up and down displacement of the third heat dissipating g 1 ′′. The combination structure of the heat dissipating fins 1 described above makes the heat dissipating fins have a stable engaging structure, thereby enabling the heat dissipation of the creation. The module is not easily subjected to external force (for example, collision or looseness) and has the effect of combining strength. As described above, the combination structure of the heat dissipation module of the present invention, each of the loose Korean films 1 is utilized below the adjacent one. The two pieces of heat-dissipating fins 12 and the bottom member 117 of the heat-dissipating fins i are firmly fixed, so that the heat-dissipating fins have a wrong relationship between the heat-dissipating fins, and further The M356370 is not easy to fall off in the heat-dissipation module of this creation, but has the effect of combining strength. The present invention has been disclosed in the above-described preferred embodiments, and it is not intended to limit the present invention. Any modifications and modifications to the above-described embodiments are still protected by the present invention without departing from the spirit and scope of the present invention. The technical scope of this creation is subject to the definition of the patent application scope of the accompanying application. [Simplified description of the drawings] Fig. 1 is a perspective view of the combination of the heat dissipation modules of the preferred embodiment of the present invention. Fig. 2 is a side view of the combination of the heat dissipation modules of the preferred embodiment of the present invention. Fig. 3 is a schematic view showing the combination of the heat dissipation modules of the preferred embodiment of the present invention. [Description of main component symbols] [This creation] 1 heat sink fin Sheet V Heatsink 1" Heat sink fin 1", Heat sink fin 11 Base plate 111 Side wall 112 Fitted groove 113 Fastened portion 114 Alignment groove 115 Locating member 116 Bottom surface 117 Top surface 12 Snap member 121 Top surface 13 Fasteners 131 Abutment Θ Angle