M393972 五、新型說明: 【新型所屬之技術領域】 本創作係一種熱傳導裝置,以一風扇設置在二散熱鰭 片間以有效率的達到將鰭片所吸收的熱量帶離的複合式散 熱器。 【先前技術】 目前現有所使用的事務機器,其中以電腦的構造而 言’其除了設有輸出、入裝置及顯示裝置之外,尚必須設 有資料處理裝置,由於該處理裝置在運作過程中將產生高 熱’例如:各種處理裝置中設有安裝在電路板上的中央處 理ι§ ,該中央處理器在運作過程中產生有大量的高熱,其 中所產生的高熱必須利用設有散熱鰭片組及所配合的風扇 組成的散熱器將其熱量帶離,如此始可有效率的降低中央 處理器的工作溫度,亦即使中央處理器在所設計的工作溫 度下即可維持其正常的工作效率。 包括有至少一組散熱鰭 s » 以現有使用的散熱器而 f組及散熱風扇,在各組散熱鰭片組之間設有熱管以將熱 量,行傳導,而其中一散熱錯片組與中央處理器貼靠以將 /、问熱傳導至其中一散熱鰭片組,經熱管傳導至另一散熱 鰭片組,並在該散熱韓片組上設有一風扇,以該風扇所產 生的乳流將散熱鰭片組所吸收的熱予以排出,麸如此” 僅僅只有其中—組散熱鰭片組較接近風扇並受 ^風扇所產生的氣流作用以進行降溫,故所可以達到的 放”,、效果極為有限為現有散熱器存在的缺點。 3 M393972 【新型内容】 ^本創作者有鑑於前述現有技術之散熱器在散熱效果上 受到限制無法提升,所重新設計的散熱器,將提供氣流流 動的風扇設計在兩組散熱趙片組之間,其產生導引的氣流 可分別流經兩組散熱鰭片組的各鰭片’藉以提高散熱效 果,又其中一散熱鰭片組可設計為位在另一散熱鰭片組的 側邊處以達到大幅使整體散熱器的高度縮減,以降低所需 的安裝高度及空間為其目的。 為了可達到前述的創作目的,本創作所運用的技術手 段在於提供一種複合式散熱器’其,其包括有一第一散熱 鰭片組、一第二散熱鰭片組及一風扇; 該第一散熱鰭片組,其設有複數片間隔排列的鰭片, 另設有至少一熱管,該熱管的一端穿設在各散熱鰭片上且 相互連接; 該第二散熱錯片組,相對設置在第一散熱韩片組位置 處並間隔有一距離’其設有一熱塊,其週邊設有複數片向 外突伸間隔排列的鰭片’該熱管的另一端設置在熱塊上; 該風扇’其設置在第一散熱鰭片組與第二散熱鰭片組 之間,所產生的散熱用氣流可通過各散熱鰭片組。 所述之複合式散熱器’其進一步設有一支架,該支架 具有一侧片體及一上片體,該上片體由該侧片體上方延伸 形成,該風扇安裝設置在上片體處,該側片體相對位於第 一散熱鰭片組處’且分別在側片體上設有固定孔及在第一 散熱鰭片組的鰭片上設有通孔,該熱管一端穿設位在該通 孔及該固定孔内;該側片體的下方延伸設有至少一支片, 4 M393972 另在第二散熱鰭片組上設有相對應於該支片的結合部,該 支片與結合部相互結合固定。 所述之複合式散熱器’其中第二散熱鰭片組的熱塊上 形成有長槽,以該長槽與熱管相互結合固定。 所述之複合式散熱器,其中第二散熱鰭片組的熱塊上 形成有二結合部’該結合部的自由端端面上形成有結合 槽,於支架上相對設有二支片,該支片與結合槽相互結合 固定。 _ 所述之複合式散熱器’其中第一散熱鰭片組的各韓片 下方形成有呈内凹狀的凹部。 所述之複合式散熱器’其中第一散熱鰭片組設計為具 有兩組散熱鰭片組,該兩組散熱鰭片組為間隔有一距離, 於第一散熱·鰭片組的熱塊上設有兩熱管,每一熱管盘—組 散熱鰭片組相互連接固定。 如双热顒月組分別位在第 所迷之複合式散熱 二散熱鰭片組的二外側邊處。 藉由本創作前述技術手段的運用,將風扇設置在兩間 隔設置的第-散熱鰭片組及第二散熱鰭片組之間,使得風 扇所產生的散熱用氣流可流經各散熱韓片組的各韓片以 有效率的將各趙片上的熱予以攜出’而具有較佳的散孰效 X再=據安裝需求使用由兩組呈間隔設置的散熱錯 熱_片組位在第二散熱鰭片組的外側位置處, 使整體的安裝空間高度明顯降 效。 又..肩降低以達到減少安裝安間的功 【實施方式】 5 M393972 參看圖1、圖2及圖3所示,本創作所設計的複合式散 熱器,其中第一種實施例的構造包括有一第一散熱縛片組 10、一第二散熱韓片組20' —支架3〇及—風扇4〇等; 該第一散熱鰭片組10,係由複數片間隔排列的鰭片】】 組成’各II片11於一端分別設有一通孔11〇,各通孔 可供一熱管13的一端穿設結合,另在中段位置的下方形成 有一内凹狀的凹部12; 該第二散熱鰭片組20,係相對於第一散熱鰭片組,〇 * 設置並間隔有一距離,其具有一呈塊體的熱塊21,於熱塊 21的底端表面内凹形成有數長槽211,於熱塊21的周邊形 成有若干向外突出且呈片體狀的鰭片22及突伸形成有兩結 合部23,該結合部23的自由端端面處形成有結合槽231 ; 該支架30,其具有一側片體31及一上片體32,於侧 片體31的兩端設有固定孔312,該兩固定孔312相對於鰭 片11的通孔110位置設置,又於支架3〇的下方突伸有兩 支片311,其位置相對於第二散熱鰭片組2〇所設的結合部 23處,該上片體32由側片體31的頂端側向延伸該風扇 40安裝設置在上片體32的底端面處。 配合參看圖4所示,該支架30以其支片31彳與第二散 熱鰭片組20的結合部23的結合槽231相互結合,圖中所 不的具體實施例,在支架311及結合部23上且位在相對位 句η又有可供與固定件(圖中未示)相互結合的孔;又上片體 32及所女裝的風扇均位在第二散熱鰭片組2〇上方前述第 2散熱鰭片組1〇的各鰭片11相對位在支架30側面,且其 央30的上片體32相對位在各鰭月11的凹部1 2處, 6 再:於第一散熱鰭片組1〇及第二散熱鰭片組2〇之間設有 熱S 13 ’該熱管13的一端可貫穿各鰭片11的通孔110及 ^架30的固定孔312並相互緊密結合固定,另一端的管體 置在長槽211内並緊密結合固定,圖中所示的具體實施 例在第一散熱鰭片組10及第二散熱鰭片組2〇之間的兩 側刀別认有一熱官1 3 ’藉此將熱塊21所吸收的熱量除了可 -由第:散熱鰭片組20的各鰭片22予以散熱外,另亦可藉 鲁由熱管13將部份的熱量傳導至第—散熱韓片組1〇的各鰭 片11處予以散熱,再配合風扇40所產生的氣流將各鰭片 11,22上的熱量帶離至外部,藉由此一構造設計除了可將整 體體積適度縮減之外,另可有效率的將熱量帶出,而具有 較佳之散熱效果。 '看圖5及圖6所示,本創作的第二種實施例的複合 式散熱器,其構造與第一種實施例不同之處,僅在於將位 在又有風扇40的支架30上方的第一散熱鰭片組改變為 _由兩組散熱縛片組]〇A, i 〇B組成,該兩組散熱鰭片組 i〇a,i〇b為呈間隔設置,且散熱韓片組1〇 —挪分別與第二散㈣片組20之間設有—熱管13^^ Ί、的散熱器設計相同具有良好的散熱效果。 參看圖7及圖8所示,本創作所設計又一實施例的複 合式散熱器’其係將第二種實施例位在第二散熱鰭片組2〇 及設有風扇40的支架30上方且設有兩呈間隔設置的兩組 散熱鰭片組10A,1〇B的構造,改變設計為在所設置的第二 散熱鰭片組51上方以支架53設有一風扇52,又在呈上、 下位置所設的第二散熱鰭片組51及風扇52的兩側位置分 7 M393972 別汉有一散熱鰭片組50A,5〇B,該兩散熱鰭片組5〇a,5〇b 與第一散熱鰭片組51之間分別以熱管54予以穿設連接, 如此十之下’除了可將第二散熱鰭片組51的熱量以熱管 M傳導至位在兩側處的散熱韓片組5QA,5QB處,此時利、用 風扇52所產生的氣流將熱予以排除而具有良好的散熱效果 :外’由於散熱鳍片組5〇A 5〇B位在兩側位置處如 整個散熱器的高度大幅降低減少以 : 估用。 门汉刁向的空間M393972 V. New Description: [New Technology Field] This creation is a heat conduction device with a fan placed between two heat sink fins to efficiently reach the composite heat sink that removes the heat absorbed by the fins. [Prior Art] At present, the transaction machine used in the prior art, in terms of the configuration of the computer, is required to have a data processing device in addition to the output, the input device and the display device, since the processing device is in operation It will generate high heat'. For example, various processing devices are provided with a central processing unit mounted on the circuit board. The central processing unit generates a large amount of high heat during operation, and the generated high heat must utilize the heat dissipation fin set. And the heat sink of the matched fan takes away the heat, which can effectively reduce the operating temperature of the central processing unit, and even if the central processing unit maintains its normal working efficiency at the designed operating temperature. Including at least one set of heat sink fins » With the existing heat sink and the f group and the heat dissipation fan, a heat pipe is arranged between each group of heat sink fins to conduct heat, and one of the heat dissipation pieces and the center The processor is placed to conduct heat to the heat dissipation fin group, is conducted to the other heat dissipation fin group through the heat pipe, and a fan is disposed on the heat dissipation Korean film group, and the milk flow generated by the fan is The heat absorbed by the heat sink fin group is discharged, and the bran is so "only the heat radiating fin group is closer to the fan and is subjected to the air flow generated by the fan to cool down, so the achievable discharge" is extremely effective. Limited to the shortcomings of existing heat sinks. 3 M393972 [New Content] ^The creator has in view of the above-mentioned prior art heat sink that can not be improved in heat dissipation effect. The redesigned heat sink will provide a fan for airflow flow design between two sets of heat dissipation groups. The generated airflow can flow through the fins of the two sets of heat dissipation fins respectively to improve the heat dissipation effect, and one of the heat dissipation fin sets can be designed to be located at the side of the other heat dissipation fin group to achieve Significantly reduce the height of the overall heat sink to reduce the required installation height and space. In order to achieve the foregoing creative purpose, the technical means used in the present invention is to provide a composite heat sink, which includes a first heat sink fin set, a second heat sink fin set and a fan; The fin assembly is provided with a plurality of fins arranged at intervals, and at least one heat pipe is disposed. One end of the heat pipe is disposed on each of the heat dissipation fins and connected to each other; the second heat dissipation chip group is oppositely disposed at the first The position of the heat-dissipating Korean chip group is spaced apart by a distance 'there is provided with a heat block, and a plurality of fins are arranged at intervals around the outer fins. The other end of the heat pipe is disposed on the heat block; the fan is disposed at The heat dissipation airflow generated between the first heat dissipation fin group and the second heat dissipation fin group can pass through each of the heat dissipation fin sets. The composite heat sink is further provided with a bracket having a side sheet body and an upper sheet body. The upper sheet body is formed by extending above the side sheet body, and the fan is installed at the upper sheet body. The side plate body is located at a position of the first heat dissipation fin group and is respectively provided with a fixing hole on the side piece body and a through hole on the fin of the first heat dissipation fin group, and one end of the heat pipe is disposed at the through hole. a hole and the fixing hole; at least one piece extending from the lower side of the side piece body, and 4 M393972 is further provided with a joint portion corresponding to the piece on the second heat-dissipating fin group, the piece and the joint portion Fixed together. The composite heat sink of the second heat dissipating fin group is formed with a long groove formed by the long heat sink and the heat pipe. In the composite heat sink, the heat dissipation block of the second heat dissipation fin group is formed with two joint portions. The joint end has a coupling groove formed on the end surface of the joint portion, and two brackets are oppositely disposed on the bracket. The sheet and the coupling groove are fixed to each other. In the composite heat sink of the above, a concave portion having a concave shape is formed under each of the Korean sheets of the first heat radiation fin group. The composite heat sink of the first heat sink fins is designed to have two sets of heat sink fins, and the two sets of heat sink fins are spaced apart by a distance, and are disposed on the heat block of the first heat dissipation fin group. There are two heat pipes, and each heat pipe plate-group heat-dissipating fin group is connected and fixed to each other. For example, the double-heated moon group is located at the two outer sides of the composite heat-dissipating fin group of the first fan. By using the foregoing technical means of the present invention, the fan is disposed between the two spaced-apart heat-dissipating fin sets and the second heat-dissipating fin set, so that the heat-dissipating airflow generated by the fan can flow through the heat-dissipating Korean group Each Korean film can efficiently carry the heat on each Zhao film. It has better dissipation efficiency. X. According to the installation requirements, the heat dissipation is set by two sets of heat dissipation. At the outer position of the fin group, the overall installation space height is significantly reduced. Further, the shoulder is lowered to reduce the work of installing the installation room. [Embodiment] 5 M393972 Referring to FIG. 1, FIG. 2 and FIG. 3, the composite heat sink designed by the present invention, wherein the configuration of the first embodiment includes The first heat-dissipating die set 10, the second heat-dissipating Korean chip set 20'-the bracket 3〇 and the fan 4〇, etc.; the first heat-dissipating fin set 10 is composed of a plurality of fins arranged at intervals] Each of the II pieces 11 is respectively provided with a through hole 11 于 at one end thereof, each of the through holes is configured to be coupled to one end of a heat pipe 13 , and a concave concave portion 12 is formed below the middle position; the second heat dissipation fin set 20, relative to the first heat sink fin group, 〇* is disposed and spaced apart by a distance, and has a block of thermal block 21, and a plurality of long grooves 211 are concavely formed in the bottom end surface of the heat block 21 for the heat block. A plurality of fins 22 projecting outwardly and in a sheet shape are formed on the periphery of the 21, and two joint portions 23 are formed, and a coupling groove 231 is formed at the end surface of the free end of the joint portion 23; the bracket 30 has a The side panel body 31 and the upper panel body 32 are provided with fixing holes 312 at both ends of the side panel body 31. The fixed hole 312 is disposed at a position relative to the through hole 110 of the fin 11 , and two pieces 311 protrude from below the bracket 3 , at a position relative to the joint portion 23 of the second heat dissipation fin set 2 , The upper sheet body 32 is laterally extended from the top end of the side panel body 31. The fan 40 is attached to the bottom end surface of the upper sheet body 32. Referring to FIG. 4, the bracket 30 is coupled with the coupling groove 231 of the joint portion 23 of the second heat radiation fin group 20, and the specific embodiment is shown in the bracket 311 and the joint portion. 23 is located in the relative position η and has a hole for being combined with the fixing member (not shown); and the upper body 32 and the fan of the women's clothing are all positioned above the second heat sink fin group 2 The fins 11 of the second heat dissipating fin set 1〇 are opposite to each other on the side of the bracket 30, and the upper sheet 32 of the center 30 is opposite to the recess 1 2 of each fin 11 , 6 again: for the first heat dissipation A heat S 13 ' is disposed between the fin set 1 〇 and the second heat sink fin set 2 ′. One end of the heat pipe 13 can penetrate through the through hole 110 of each fin 11 and the fixing hole 312 of the frame 30 and is tightly coupled with each other. The tube body at the other end is placed in the long slot 211 and tightly coupled and fixed. The specific embodiment shown in the figure is on both sides of the first heat sink fin group 10 and the second heat sink fin group 2 There is a heat official 1 3 'by which the heat absorbed by the heat block 21 can be dissipated by the fins 22 of the heat dissipation fin group 20, and the heat can be borrowed. The tube 13 conducts part of the heat to the fins 11 of the first heat-dissipating Korean chip group 1 to dissipate heat, and then, with the air flow generated by the fan 40, the heat on the fins 11, 22 is taken to the outside, In addition to the moderate reduction of the overall volume, the one design can efficiently carry the heat out and has a better heat dissipation effect. Referring to Figures 5 and 6, the composite heat sink of the second embodiment of the present invention differs from the first embodiment in that it is placed above the bracket 30 having the fan 40 again. The first heat-dissipating fin set is changed to be composed of two sets of heat-dissipating fin sets 〇A, i 〇B, and the two sets of heat-dissipating fin sets i〇a, i〇b are arranged at intervals, and the heat-dissipating Korean group 1 Between the 〇-Nuo and the second (four) chip group 20, the heat pipe 13^^ 的 has the same heat sink design. Referring to FIG. 7 and FIG. 8, the composite heat sink of another embodiment of the present invention is designed to position the second embodiment above the second heat sink fin group 2 and the bracket 30 provided with the fan 40. The two sets of heat dissipating fin sets 10A, 1B are disposed at intervals, and are designed to be provided with a fan 52 above the second heat dissipating fin set 51. The second heat-dissipating fin group 51 and the fan 52 are disposed at the lower position, and the two sides of the fan are divided into 7 M393972. The heat sink fin group 50A, 5〇B, the two heat-dissipating fin groups 5〇a, 5〇b and the first A heat-dissipating fin group 51 is respectively connected by a heat pipe 54 so that the heat of the second heat-dissipating fin group 51 can be conducted by the heat pipe M to the heat-dissipating Korean film group 5QA at both sides. At 5QB, at this time, the airflow generated by the fan 52 is used to remove the heat and has a good heat dissipation effect: externally, due to the heat sink fin group 5〇A 5〇B position at the two sides such as the entire heat sink The height is greatly reduced and reduced to: Estimated. The space that the door is facing
【圖式簡單說明】 圖1為本創作第一種實施例的外觀圖。 圖2為本創作第一種實施例的立體分解圖。 圖3為本創作第一種實施例的另一角度外觀圖 圖4為本創作第一種實施例的正視圖。 圖5為本創作第二種實施例的外觀圖。 圖6為本創作第二種實施例的正視圖。 圖7為本創作第三種實施例的正視圖。 圖8為本創作第三種實施例的外觀圖。 【主要元件符號說明】 10第一散熱鳍片組 11 0通孔 13熱管 21熱塊 22鰭片 2 31結合槽 11鰭片 12凹部 20第二散熱鰭片組 21 1長槽 2 3結合部 3〇支, 8 M393972 . 31側片體 31 2 固定孔 40風扇 50A.50B散熱鰭片組 51第二散熬鰭片組 53支架 311支片 32上片體 10A,10B散熱鰭片組 52風扇 54熱管BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is an external view of a first embodiment of the present invention. Figure 2 is an exploded perspective view of the first embodiment of the present invention. Figure 3 is another perspective view of the first embodiment of the present invention. Figure 4 is a front elevational view of the first embodiment of the present invention. Fig. 5 is an external view of the second embodiment of the creation. Figure 6 is a front elevational view of a second embodiment of the present invention. Figure 7 is a front elevational view of a third embodiment of the present invention. Figure 8 is an external view of a third embodiment of the present invention. [Main component symbol description] 10 first heat sink fin group 11 0 through hole 13 heat pipe 21 heat block 22 fin 2 31 joint groove 11 fin 12 recess 20 second heat sink fin group 21 1 long groove 2 3 joint portion 3 〇 ,, 8 M393972 . 31 side body 31 2 fixing hole 40 fan 50A.50B heat sink fin group 51 second 熬 fin group 53 bracket 311 piece 32 upper body 10A, 10B heat sink fin group 52 fan 54 Heat pipe