M284870 八、新型說明: 【新型所屬之技術領域】 本創作係一種組合式散熱體,其係一種藉由卡扣體向外擴張之弧曲部,使 卡扣體可確實卡扣在賴巾,增加卡扣齡,進而不⑽落或有晃動之情形產 生之結構者。 【先前技術】 按,一般習知組合式之散熱結構,請參照第卜1A圖所示,其設有一散熱 體90、該散熱體90係由複數個散熱片1〇〇組成,該等散熱片兩邊分別接設 有向内彎折呈90度之折片11Q’該等折片⑽與散刻⑽相接處分別設有矩 开/之開口 101 ’而該等折片11〇在與開口 1Qi相對處之端緣上則分別設有一向外 延伸之卡扣片⑽,該等卡扣片⑽上設有向内凹折之騎部H組裝時,係 將-散熱片100之折片110之卡扣片1〇2卡扣在另一散熱片⑽之折片別之 開口 HU t ’如此不斷重複上述之動作,即可組成一散熱龍,惟因該卡扣片 102卡扣在開口101中時,係藉__深入開口⑻中,而使卡扣片102 與開口⑻之卡扣面僅有沿折片⑽延伸方向所以,當拿取散熱體的之方向 與Γ胸M,_熱請編嶋,㈣解,且在拆解時’ 因号折部1G3係卡扣在開口 1G1 t,因此 便用者必須彺彎折部103彎折之相 反方向用力’找w㈣3_鳴,如此不_ 101變形。 合易w成開口 【新型内容】 創作綱要: 研究與實驗 為改進上述f贿·叙各種缝,_人㈣長久努力 M284870 終於開發設計出本創作之組合式散熱體。M284870 VIII. New Description: [New Technology Field] This creation is a combined heat sink, which is an arc-shaped part that expands outward by the buckle body, so that the buckle body can be surely buckled on the towel. A structure that increases the age of the buckle and thus does not (10) fall or sway. [Prior Art] According to the conventional heat-dissipating structure of the conventional combination, please refer to FIG. 1A, which is provided with a heat dissipating body 90, which is composed of a plurality of fins 1〇〇, the fins The two sides are respectively connected with a flap 11Q' which is bent inwardly at 90 degrees. The flaps (10) and the scatter (10) are respectively provided with a moment opening/opening 101', and the flaps 11 are at the opening 1Qi An outwardly extending snap tab (10) is disposed on the opposite edge of the opposite end. When the snap tab (10) is provided with the inwardly recessed riding portion H, the flap 110 of the heat sink 100 is attached. The buckle piece 1〇2 is fastened to the opening of the other heat sink (10), and the above-mentioned action is repeated to form a heat dissipation dragon, because the buckle piece 102 is buckled in the opening 101. When the __ is deepened into the opening (8), the snap surface of the locking piece 102 and the opening (8) are only extended along the flap (10), so when taking the direction of the heat sink and the topless M, _ hot please Codification, (4) Solution, and at the time of disassembly, the 1G3 of the spliced part is buckled at the opening 1G1 t, so the user must bend the bending part 103 instead To force 'to find w㈣3_ Ming, so do not _ 101 deformation. Heyi w into the opening [New content] Creation outline: Research and experiment In order to improve the above-mentioned bribes and narration, _ people (four) long-term efforts M284870 finally developed and designed the combined heat sink of this creation.
本創作之-目的,在提供一種組合式散熱體,該散熱體上設有複數片藉由 冲壓成^之散熱片’5亥等散熱片—端分別S有—彎折之折片,且該等散熱片在 與折片相接處設有與之平行之賴,另,鱗折片上分別設有_由折片向與散 熱片相接處延伸且呈開放狀之開槽,該開槽係、與錢垂直且相連通,且等折片 自由端上設有-向外延伸之卡扣體,該卡扣體—端分別與職兩術目接,且該 卡扣體在該端設有向内縮合之頸部,該頸部另一端則接設有向外擴張之弧曲 部,該弧曲部之直徑大於賴之直徑,組裝時,可將—散熱片之卡扣體插扣在 另-相鄰散熱片之嵌槽中,關卡扣體係接設在開槽兩端,令卡扣體在進入嵌 槽時’可藉_槽之開設,使卡扣體具有彈性,而產生變形向内縮合,而使卡 扣體上較嵌樣_可通過賴,並在通猶回復原狀,進而卡抵在 嵌槽邊緣上,如此一來,不但可因嵌槽與卡扣體之開設方向不在同一平面上且 互相垂直,而令該等散熱片任—平面皆卡扣在—起,且更可藉由卡扣體之弧曲 部緊抵,而能較習知散熱片之卡扣僅有單一平面更為穩固。 • 本創作之另—目的,在提供—種組合式散熱體,其卡扣體並略呈向内傾斜 狀,以利於卡扣於散熱片之嵌槽中。 本創作之再-目的,在提供-種組合式散熱體,其卡扣體之自由端可為封 閉狀或開放狀。 【實施方式】 本創作係-種組合式散熱體,請參照第2、2A _示,其為本創作其中一 實施例,在提供-種組合式散熱體,該散熱體1G係由複數個散熱片2()組合而 成,該等散熱片20兩邊分別接設有向内彎折呈90度之折片21,且該等散熱片 6 M284870 20在與折片21相接處設有與之平行之嵌槽201,另,該等折片21上分別設有 一由折片21向與散熱片2〇相接處延伸且呈開放狀之開槽2U,該開槽2n係貫 穿整個折片21且分別位於折片21兩側,且該開槽211係與嵌槽2〇1垂直且相 連通。 再者,該等折片21自由端上接設有一向外延伸且略向内傾斜之卡扣體22, 4卡扣體22分別位於開槽211兩側,且該卡扣體22在該與開槽211兩側相接 端設有向内縮合之頸部221,該頸部221另一端則接設有向外擴張之弧曲部 鲁222,該弧曲部222之直徑大於嵌槽2〇1之直徑,且該卡扣體烈之自由端係呈 開放狀又,該等折片21在卡扣體22外側分別設有一凹口 223,以增加卡扣體 22之彈性。 組裝時,請參照2、3、3A圖所示,先將一散熱片20之卡扣體22插扣在另 一相鄰散熱片20之嵌槽201中,而在卡扣體22進入嵌槽201中時,可因該卡 扣體22係呈向内傾斜狀,而使卡扣體22易於進入嵌槽2〇1中,且因卡扣體22 係接設在開槽211兩端,且其外側分別設有凹口 223,令卡扣體22在進入嵌槽 鲁201時,可藉由開槽211及凹口 223之開設,使卡扣體22具有彈性,而產生變 形向内縮合,以使卡扣體22上較嵌槽201直徑長之弧曲部222可通過嵌槽2〇1, 並在通過後回復原狀,進而卡抵在後槽2〇1邊緣上,同時,卡扣體22之頸部221 隨之壓靠在嵌槽201内側面上,如此一來,不但可因嵌槽2〇1與卡扣體22之開 設方向不在同一平面上且互相垂直,且更可藉由卡扣體22之弧曲部222緊抵, 而令該等散熱片20任一平面皆卡扣在一起,而能較習知散熱片之卡扣僅有單一 平面更為穩固。 請參照第4、4A圖所示,其為本創作之另一實施例,該散熱體1〇係由複數 7 M284870 個散熱片20組合而成,該等散熱片2〇兩邊分別接設有向内彎折呈9〇度之折片 21且該等散熱片2〇在與折片21相接處設有與之平行之嵌槽2〇1,另,該等折 片21上分別設有-由折片21向與散熱片2〇相接處延伸且呈開放狀之開槽叫, 賴槽211係貫穿整個折片21且分別位於折# 21兩側,且該開槽211係與嵌 槽201垂直且相連通。 再者該等折片21自由端上接設有一向外延伸且略向内傾斜之卡扣體a, 该卡扣體22分別位於開槽211兩側,且該卡扣體22在該與開槽211兩側相接 _端設有向内縮合之頸部22卜該頸部221 # 一端則接設有向外擴張之弧曲部 222,該弧曲部222之直徑大於嵌槽2〇1之直徑,且該卡扣體22之自由端係呈 封閉狀,又,該等折片21在卡扣體22外側分別設有一凹口 223,以增加卡扣體 22之彈性。 組裝時’先將一散熱片20之卡扣體22插扣在另一相鄰散熱片20之嵌槽201 中,而在卡扣體22進入嵌槽201中時,可因該卡扣體22係呈向内傾斜狀,而 使卡扣體22易於進入嵌槽201中,且因卡扣體22係接設在開槽211兩端,且 鲁其外側分別設有凹口 223,令卡扣體22在進入嵌槽2〇1時,可藉由開槽211及 凹口 223之開設,使卡扣體22具有彈性,而產生變形向内縮合,以使卡扣體22 上較嵌槽201直徑長之弧曲部222可通過嵌槽2〇1,並在通過後回復原狀,進而 卡抵在嵌槽201邊緣上,同時,卡扣體22之頸部221隨之壓靠在嵌槽2〇1内側 面上,如此一來,不但可因嵌槽201與卡扣體22之開設方向不在同一平面上且 互相垂直,且更可藉由卡扣體22之弧曲部222緊抵,而令該等散熱片20任一 平面皆卡扣在一起,而能較習知散熱片之卡扣僅有單一平面更為穩固。 請參照第5、5A圖所示,其為本創作又一實施例,該散熱體1〇係由複數個 8 M284870 散熱片20組合而成,該等散熱片20兩邊分別接設有向内彎折呈⑽度之折片21, 該等折片21自由端兩側分別接設有與該等折片21不在同一平面之一卡扣體 23,該等卡扣體23相鄰處設有-向内凹入之凹口 2烈,且該卡扣體烈上設有一 凹入之凹槽231,該凹槽231恰可卡扣在散熱片2〇與折片21相鄰處,如此一來, 該等卡扣體23可藉由凹口 223所產生之間隙具有彈性,而在組裝時,可分別向 外擴張,並分別卡扣在散熱片20與折片21相接之端緣上,如此不斷組接,即 可形成一散熱體10。 • 紅所述,本創作在物品形狀、構造、結構上屬首先創作,且可改良習用 技術之各種缺點,在使用上能增進功效,合於實用,充分符合新型專利要件, 實為一理想之創作。 【圖式簡單說明】 第1圖:為習知結構之立體分解圖。 第1A圖:為習知結構散熱片部分結構放大示意圖。 第2圖:為本創作之立體組合示意圖。 • 第2A圖:為本創作卡扣體與嵌槽之放大示意圖。 第3圖:為本創作組合時之俯視示意圖。 第3A圖:為本創作組合時之斷面示意圖。 第4圖:為本創作另一實施例之立體示意圖。 第4A圖:為本創作另一實施例之卡扣體及嵌槽之放大示意圖。 第5圖:為本創作又一實施例之立體示意圖。 第5A圖:為本創作又一實施例之部份放大示意圖。 【主要元件符號說明】 9 M284870 散熱體 10 散熱片 20 嵌槽 201 折片 21 開槽 211 卡扣體 22、23 頸部 221 0 弧曲部 222 凹口 223 凹槽 231 10The purpose of the present invention is to provide a combined heat sink having a plurality of heat sinks, such as heat sinks, which are stamped into a heat sink, and having a folded flap, respectively, and The fins are disposed in parallel with the flaps, and the scale flaps are respectively provided with slats extending from the flaps to the fins and opening in an open manner. Vertically connected to the money, and the free end of the folded piece is provided with an outwardly extending buckle body, the buckle body end is respectively connected with the two operations, and the buckle body is provided at the end Inwardly condensing the neck, the other end of the neck is connected with an outwardly expanding arcuate portion, the diameter of the curved portion is larger than the diameter of the lap, and when assembled, the buckle body of the heat sink can be buckled In the adjacent groove of the adjacent heat sink, the buckle system is connected at both ends of the slot, so that the buckle body can be opened by the slot when entering the slot, so that the buckle body has elasticity and the deformation direction is generated. Internal condensation, so that the buckle body is more embedded _ can pass through, and then return to the original shape, and then the card is on the edge of the groove, so that, However, since the insertion groove and the snap body are not in the same plane and perpendicular to each other, the heat sinks are all buckled in the plane, and can be tightened by the curved portion of the buckle body. The buckle of the known heat sink is more stable than a single plane. • Another purpose of this creation is to provide a combined heat sink with a snap-fit body that slopes slightly inwardly to facilitate snapping into the recess of the heat sink. The re-purpose of the present invention provides a combined heat sink in which the free end of the snap body can be closed or open. [Embodiment] The present invention relates to a combined heat sink, please refer to the second and second embodiments. It is an embodiment of the present invention, and a combined heat sink is provided. The heat sink 1G is composed of a plurality of heat sinks. The fins 2 are combined, and the fins 20 are respectively bent at 90 degrees inwardly, and the fins 6 M284870 20 are disposed at the junction with the flaps 21; The parallel grooves 201, and the flaps 21 are respectively provided with a slit 2U extending from the flap 21 to the end surface of the fin 2, and the slit 2N extends through the entire flap 21 And respectively located on both sides of the flap 21, and the slot 211 is perpendicular to and communicates with the slot 2〇1. Further, the free ends of the flaps 21 are respectively provided with an outwardly extending and slightly inwardly inclined latching body 22, wherein the latching bodies 22 are respectively located at two sides of the slot 211, and the latching body 22 is in the The end of the slot 211 is provided with an inwardly condensed neck 221, and the other end of the neck 221 is connected with an outwardly expanding arcuate portion 222 having a larger diameter than the slot 2 The diameter of the buckle body is open and the free ends of the buckle body are open. The flaps 21 are respectively provided with a notch 223 on the outer side of the buckle body 22 to increase the elasticity of the buckle body 22. When assembling, refer to the figures 2, 3, and 3A. First, the latching body 22 of one heat sink 20 is buckled into the recess 201 of another adjacent heat sink 20, and the latch body 22 enters the slot. In the case of 201, the latch body 22 is inclined inwardly, so that the latch body 22 can be easily inserted into the slot 2〇1, and the latch body 22 is fastened at both ends of the slot 211, and The outer side is respectively provided with a notch 223, so that when the locking body 22 enters the grooved groove 201, the locking body 22 can be elasticized by the opening of the groove 211 and the notch 223, and the deformation is inwardly condensed. The arcuate portion 222 of the buckle body 22 having a longer diameter than the recessed groove 201 can pass through the recessed groove 2〇1 and return to the original shape after passing, thereby being stuck on the edge of the rear groove 2〇1, and at the same time, the buckle body The neck portion 221 of the 22 is pressed against the inner side surface of the recessed groove 201, so that not only the direction in which the recessed groove 2〇1 and the buckle body 22 are opened but not perpendicular to each other is perpendicular to each other, and The arcuate portion 222 of the latching body 22 abuts, so that any of the fins 20 can be snapped together, and the buckle of the conventional heat sink can be more stable than a single plane. Please refer to FIG. 4 and FIG. 4A , which is another embodiment of the present invention. The heat dissipating body 1 is composed of a plurality of 7 M 284 870 heat sinks 20 , and the fins are respectively connected to the two sides. The inner flap is bent into a flap 21 of 9 degrees, and the fins 2 are provided with a recessed groove 2〇1 parallel to the flap 21, and the flaps 21 are respectively provided with- The groove 21 extends from the flap 21 to the opening of the fin 2, and is open. The groove 211 extends through the entire flap 21 and is located on both sides of the fold # 21, and the slot 211 is fitted with the slot. 201 is vertical and connected. Further, the free ends of the flaps 21 are respectively provided with an outwardly extending and slightly inwardly inclined latching body a. The latching bodies 22 are respectively located at two sides of the slot 211, and the latching body 22 is opened at the same The two ends of the groove 211 are connected to each other. The end is provided with an inwardly condensed neck portion 22. The end of the neck portion 221 is connected with an outwardly expanding curved portion 222 having a larger diameter than the embedded groove 2〇1. The diameter of the buckle body 22 is closed, and the flaps 21 are respectively provided with a notch 223 outside the buckle body 22 to increase the elasticity of the buckle body 22. During assembly, the latching body 22 of one heat sink 20 is first fastened into the recess 201 of another adjacent heat sink 20, and when the latching body 22 enters the recess 201, the latch body 22 can be used. The buckle body 22 is easily inclined into the slot 201, and the buckle body 22 is connected to the two ends of the slot 211, and the outer side of the sleeve is respectively provided with a recess 223, so that the buckle When the body 22 enters the slot 2〇1, the slot body 211 and the recess 223 can be opened to make the buckle body 22 elastic, and the deformation is inwardly condensed, so that the latch body 22 is more embedded in the slot 201. The curved portion 222 having a long diameter can pass through the groove 2〇1 and return to the original shape after passing, thereby being stuck against the edge of the groove 201, and at the same time, the neck 221 of the buckle body 22 is pressed against the groove 2 The inner side surface of the cymbal 1 is not only in the same plane and perpendicular to the direction in which the recessed groove 201 and the latching body 22 are opened, but also can be abutted by the curved portion 222 of the latching body 22, and The planes of the heat sinks 20 are all snapped together, and the buckles of the conventional heat sinks are more stable than a single plane. Please refer to FIG. 5 and FIG. 5A , which is a further embodiment of the present invention. The heat sink 1 is formed by combining a plurality of 8 M284870 heat sinks 20 , and the heat sinks 20 are respectively connected with inward bends. The flaps 21 are folded into a (10) degree, and the two ends of the free ends of the flaps 21 are respectively connected with one of the latching bodies 23 which are not in the same plane as the flaps 21, and the latching bodies 23 are adjacent to each other - The recessed recess 2 is inwardly recessed, and the latch body is provided with a recessed recess 231 which is slidably adjacent to the fin 2 and the flap 21, thus The latching bodies 23 can be elasticized by the gaps generated by the notches 223, and can be respectively expanded outwardly when assembled, and respectively fastened on the end edges of the fins 20 and the flaps 21, In this way, a heat sink 10 can be formed. • According to Red, this creation is the first creation in the shape, structure and structure of the article, and it can improve various shortcomings of the conventional technology. It can improve the efficiency in use, is practical, and fully conforms to the new patent requirements. It is an ideal. creation. [Simple description of the drawing] Fig. 1 is an exploded perspective view of a conventional structure. Figure 1A is an enlarged schematic view showing the structure of a conventional heat sink. Figure 2: Schematic diagram of the three-dimensional combination of the creation. • Figure 2A: An enlarged view of the creation of the snap body and the slot. Figure 3: A schematic view of the top view of the creation. Figure 3A: Schematic diagram of the section when the creation is combined. Figure 4 is a perspective view of another embodiment of the present invention. 4A is an enlarged schematic view showing a buckle body and a groove of another embodiment of the present invention. Figure 5 is a perspective view of another embodiment of the present invention. Fig. 5A is a partially enlarged schematic view showing still another embodiment of the present invention. [Main component symbol description] 9 M284870 Heat sink 10 Heat sink 20 Insert slot 201 Fold 21 Slotted 211 Snap body 22, 23 Neck 221 0 Arc 222 Notch 223 Groove 231 10