1266588 九、發明說明: 【發明所屬之技術領域】 本發明係損於-種「橫流翻之散熱模組」,其主要涉及 散熱模組之結構,尤指具設有横流風扇與散熱器之散熱模組。 【先前技術】 請參閱第-及二圖,係為習用之散熱模組,如圖所示,其 主要包含有軸流式風扇11及散熱器12,其中該軸流式風扇n 係由定子結構⑴、轉子結構112及扇框il3所組成,該轉子 結構112係由轂部!丨2a、環設於較部丨丨2a周圍之扇葉及 磁性元件112c所組成,該定子結構⑴係包含有砍鋼片⑴ H 111b 座ilk及絕緣架Uld,係組設於扇框⑴内並 結構U2相樞設,而該散熱器12係包含有複數個散熱片 1及複數·_121之_形成之散誠道122。 Z時,難流式風扇u固設於散熱器12上,並藉由軸 效:以使"=子:? U1與轉子結構112達到換相運轉之功 動。=㈣112a周圍之扇葉⑽一同轉 的其所產生的氣流將受到散熱通細 惟112’错以將散熱器12上之熱帶離散熱器12。 足之處:、〔白用之政熱輪组’其散熱功能確仍具有如下列不 田"轴机式風扇11之定子結構ill與轉子結構112達 1266588 玉剛目連轉之功效並同時帶動穀部112a及環設於敎部心周 圍之扇葉112b -同轉動時’其所產生之氣流往往集中於扇葉 咖下方’使得穀部112a下方形成散熱的死角,惟,當散熱 器12與待散熱物,例如組設於電路板131上之cpui3(c〇即耐1266588 IX. Description of the Invention: [Technical Field] The present invention is detrimental to a "cross-flowing heat dissipation module", which mainly relates to the structure of a heat dissipation module, in particular to a heat dissipation device having a cross flow fan and a heat sink Module. [Prior Art] Please refer to the first and second figures. It is a conventional heat dissipation module. As shown in the figure, it mainly includes an axial fan 11 and a radiator 12, wherein the axial fan n is composed of a stator structure. (1) The rotor structure 112 and the fan frame il3 are composed of a hub portion! The 丨2a is composed of a fan blade disposed around the 丨丨2a and a magnetic member 112c. The stator structure (1) includes a steel cutting piece (1) H 111b seat ilk and an insulating frame Uld, and is assembled in the fan frame (1). The structure U2 is pivoted, and the heat sink 12 includes a plurality of heat sinks 1 and a plurality of _121 formed by the scatter channel 122. In the case of Z, the hard-flow fan u is fixed on the heat sink 12, and is axially actuated to cause the "= sub: U1 and the rotor structure 112 to perform the commutation operation. = (d) The airflow generated by the fan blades (10) around 112a will be subjected to heat dissipation to make the heat on the radiator 12 away from the radiator 12. Foot:: [White-use political hot wheel set] its heat dissipation function still has the same effect as the following: "The stator structure ill of the shaft fan 11 and the rotor structure 112 up to 1266588 The fan-shaped portion 112a and the fan blade 112b disposed around the crotch portion of the crotch portion - the same airflow generated during the same rotation is concentrated on the underside of the fan blade, so that a dead space for heat dissipation is formed under the valley portion 112a, but when the radiator 12 is And the heat sink, such as cpui3 set on the circuit board 131 (c〇
Pr〇Cessing相接設時,係以散熱器12之中心處與待散執 物相接設,職是,概鮮12之中4係為溫度最高 散熱的地方’而該制之散熱模組卻無法針對散魅12之中心 處直接散熱,據此,將使得整體之餘魏大大的降低。 ⑵當該健式風扇n之定子結構⑴與轉子結構⑴達 至鬥胸目運轉之功效並同時帶動&部心及環設於數部心周 一同轉動時,其所產生之氣流經由散熱器口兩 所¥㈣氣流量獨,錄造成賴H 12 _的_效果不 ―’使得職熱n12之導熱效果無法完全提升。、 人遂立H鑑於^述習用品所衍生的各項缺點,本案之發明 改声:日W從事該行業多年之經驗,潛心研究加以創新 2良呈終於成功研妓縣件「橫㈣型讀麵 為一具功效增進之發明。 」米只 【發明目的】 種可提升散熱效果的横流 本發明之主要目的乃係在提供一 扇型之散熱模組。 、 6 1266588 【發明内容】 本發明之上述目的及其結構與功能上的雜,將依據所附 圖式之較佳實施例予以說明。 【實施方式】 本發明係提供-種「橫流扇型之散熱模組」,請參閱第三 圖’係為本發明之第-較佳實關,如圖所示,其主要包含有 橫流風扇21及賴器22,財該橫流闕21包含找子社構 2η及轉子結構212,該轉子結構212包含有扇葉服、穀部 212b及磁性%件212e,該扇葉212a係呈環狀排列於較部皿 周圍以形成-離心風扇’雜部212b與定子結構2ιι相互柩 設,該定子結構211係包含有極片211a(如石夕鋼片)、線圈⑽、 承座211c及絕縣21 Id,而練熱n 22係包含#複數個散熱 片221及複數個散熱片22L之間所形成之散熱通道怨,將該 橫流風扇21組設於散熱器22之一側,以使轉子結構212所產 生之氣流導引通過散熱器22。 於組裝時,將定子結構211組設於扇框213内並與轂部212b 相樞設,穀部212b與扇葉212a之間係以支撐部簡相互接 設,最後再將橫流風扇21組設於散熱器22之一側。 請配合參閱第四圖’如圖所示,該扇框213兩側係開設有 相對應之入風口 213a與出風口 213b,以使該轉子結構212所 產生之氣流流向係由入風口 2i3a進入而從出風口 2i3b導出。 請再繼續參閱第五及六圖,係為本發明之第二較佳實施 1266588 例,如圖所示,其特徵在於,該扇框313 一侧係開設有入風口 313a,且於與人風口 313a相鄰之—侧設有域口獅,以 使捕子結構312所產生之氣流流向係由入風口 3〗如進入轉折 90°後再從出風口 313b導出。 請再繼續錢第七圖’係為本發明之第三較佳實施例,如 圖所示,其特徵在於’該散熱器42係、包含有複數個散熱片421 及複數個散熱片421之間所形成之散熱通道422,其中該散熱 器42之複數個散熱片421係設於方形基座423上,且該散熱器 42之兩側皆設有橫流風扇41,兩橫流風扇41所產生之氣流經 由散熱通道422引導至該散熱器42之中心處時,由於散熱器 42上方之風壓小於散熱通道422内之風壓’使得兩横流風扇41 所產生之氣流會向上排出。 睛再繼績參閱第八圖’係為本發明之第四較佳實施例,如 圖所示,其特徵在於,該散熱器52係包含有複數個散熱片521 及複數個散熱片521之間所形成之散熱通道522,其中該散熱 器52之複數個散熱片521係設於中央突出之基座523上,且該 散熱裔52之兩侧皆設有橫流風扇51,兩橫流風扇51所產生之 氣流經由散熱通道522引導至該散熱器52之中心處時,由於散 熱器52之基座523係呈中央突出,使得兩橫流風扇51所產生 之氣流會向上排出。 請再繼續參閱第九及十圖,係為本發明之第五較佳實施 1266588 例,如圖所示,其特徵在於,該散熱器62係為柱狀式散熱器, 且包含有複數個散糾621及複數個散熱片621之間所形成之 散熱通道622,其中該散熱器62之複數個散熱片621係設於基 座623上,且該散熱器62之一側設有橫流風扇61,該橫流風 扇61所產生之氣献由散熱通道622引導通過該散熱器62 時,此氣流會將該散熱器62上所產生之熱迅速排出。 此外,該橫流風扇61亦可為本發明第二較佳實施例中所示 之橫流風扇。 請再繼續參閱第十—及十二圖,係為本發明之第六較佳實 施例,如圖所示,其在於,該散熱器62之兩側皆設有橫流 風扇61 ’兩橫流風丨61所產生之氣流經由散熱通道⑽引導 至該散熱H 62之中心處時,由於散熱n 62上方之風壓小於散 熱通這622内之風壓,使得兩橫流風扇61所產生之氣流會向上 或經由散熱器62之中心處而向外排出。 硐,由上述之說明,而將本發明與先前技術作一比較,當 可得知本發明誠具有下列所述之優點及功效: (1) 本發明散熱裔(22、42、52、62)之側邊所組設之橫流風 扇(2卜41、51、61),其所產生之氣流可平均到達散熱器(22、 犯、52、62)各處,因而可提升該散熱器(22、42、52、62)整體 之散熱功效。 (2) 本务明政熱态(22、42、52、62)之側邊所組設之橫流風 1266588 扇(21、41、5卜61),其所產生之氣流經由散熱器(22、42、52、 62)兩側所導出之氣流量均勻,因此,該散熱器(22、42、52、 62)的每個散熱通道(222、422、522、622)皆會有相同的氣流進 出。 (3)本發明散熱器(22、42、52、62)兩侧皆可設置橫流風扇 (21、41、51、61),以增加散熱通道(222、422、522、622)内 之氣流,並進而提升散熱器(22、42、52、62)散熱效率。 /上·,本發贿提供之—種「触翻之散讎組」, 確符口准予專利之要件,爰依法提出專利申請,祈請惠予專 利,實為感禱。 似上所述者’僅係本發明之触可行之實施例而已,舉 凡利用本發明上述之方法、形狀、構造、裝置所為之變化,皆 應包含於本案之權利範圍内。 【圖式簡單說明】 第一圖為·散熱触之組合剖面示意圖; 第二圖為習賤熱池之俯視示意圖; 第三圖為本發明第一較佳 第四圖為本發明第一較佳 弟五圓為本發明第二較佳 苐六圖為本發明第二較佳 貫鈿例之俯視局部剖面示意圖; 實施例之立斷合示意圖; 貝%例之俯視局部剖面示意圖; 實施例之立驗合示意圖; 1266588 第七圖為本發明第三較佳實施例之俯視局 第八圖為本發料四較佳實施例之立體組合示意圖_ 圖為本發五錄實關之他局部細示意圖; f圖為本發明第五較佳實施例之立體組合示意圖; *第十i為本發明第六較佳實施例之俯視局部剖面示意圖 第十-圖為本發明第六較佳實補之側視勤示意圖。 【主要元件符號說明】 11 · ••軸流式風扇 111a · ••矽鋼片 111c · ••承座 112 · ••轉子結構 112b · ••扇葉 113 · ••扇框 121 · ••散熱片 13 · ••CPU 21 · ••橫流風扇 211a· ••極片 211c · ••承座 212 · ••轉子結構 212b · ••轂部 212d · ••支撐部 111 · · •定子結構 111b· · •線圈 11 Id· · •絕緣架 112a· · •轂部 112c· · •磁性元件 12 •散熱器 122 · · •散熱通道 131 · · •電路板 211 · · •定子結構 211b· · •線圈 211d· · •絕緣架 212a· · •扇葉 212c· · •磁性元件 213 · · •扇框 1266588 213 a · ••入風口 213b · ••出風口 22 · ••散熱器 221 · ••散熱片 222 · ••散熱通道 312 · ••轉子結構 313 · ••扇框 313a · ••入風口 313b · ••出風口 41 · ••橫流風扇 42 · ••散熱器 421 · ••散熱片 422 · ••散熱通道 423 · ••方形基座 51 · ••橫流風扇 52 · ••散熱器 521 · ••散熱片 522 · ••散熱通道 523 · ••中央突出之基座 61 · ••橫流風扇 62 · ••散熱器 621 · ••散熱片 622 · ••散熱通道 623 · ••基座 12When Pr〇Cessing is connected, the center of the radiator 12 is connected to the object to be dissipated. The position is that the 4 series of the 12 are the places with the highest temperature heat dissipation, and the heat dissipation module of the system is It is impossible to directly dissipate heat at the center of the distraction 12, and accordingly, it will greatly reduce the overall Wei. (2) When the stator structure (1) and the rotor structure (1) of the healthy fan n reach the function of the operation of the chest and the center of the ring and the ring is set to rotate on several hearts, the airflow generated by the fan is transmitted through the radiator. The mouth of the two ¥ (four) gas flow alone, recorded the ah H 12 _ _ effect is not ― 'The thermal effect of the job heat n12 can not be fully improved. In view of the shortcomings derived from the description of the articles, the invention of this case changed its voice: Day W has been engaged in the industry for many years of experience, and has devoted himself to research and innovation. 2 Liang Cheng finally succeeded in researching the county's "transverse (four) type reading The invention is an effect-enhancing invention. "Meter" [Invention Purpose] A cross-flow that can improve the heat dissipation effect The main purpose of the present invention is to provide a fan-type heat dissipation module. BRIEF DESCRIPTION OF THE DRAWINGS The above object, its structure and function of the present invention will be described in accordance with the preferred embodiments of the accompanying drawings. [Embodiment] The present invention provides a "cross-flow fan type heat dissipation module". Please refer to the third figure, which is the first preferred embodiment of the present invention. As shown in the figure, it mainly includes a cross flow fan 21 And the device 22 includes a search mechanism 2η and a rotor structure 212. The rotor structure 212 includes a fan blade, a valley 212b, and a magnetic component 212e. The blade 212a is arranged in a ring shape. The stator structure 211 includes a pole piece 211a (such as a Shishan steel piece), a coil (10), a bearing seat 211c, and a county 21 Id. And the heat-heating n 22 system includes a heat dissipation channel formed between the plurality of heat sinks 221 and the plurality of heat sinks 22L, and the cross-flow fan 21 is disposed on one side of the heat sink 22 to make the rotor structure 212 The resulting airflow is directed through the heat sink 22. During assembly, the stator structure 211 is disposed in the fan frame 213 and is pivoted with the hub portion 212b. The valley portion 212b and the blade 212a are connected to each other by the support portion, and finally the cross flow fan 21 is assembled. On one side of the heat sink 22. Please refer to the fourth figure as shown in the figure. The fan frame 213 is provided with a corresponding air inlet 213a and an air outlet 213b on both sides thereof, so that the airflow generated by the rotor structure 212 enters through the air inlet 2i3a. It is derived from the air outlet 2i3b. Please refer to the fifth and sixth figures again, which is a second preferred embodiment of the present invention. The first embodiment of the present invention is shown as a second embodiment of the present invention. As shown in the figure, the fan frame 313 is provided with an air inlet 313a on one side and a human air outlet. The adjacent side of the 313a is provided with a domain lion, so that the flow of the air generated by the trap structure 312 is derived from the air inlet 3, such as after entering the transition 90° and then from the air outlet 313b. The seventh embodiment of the present invention is a third preferred embodiment of the present invention. As shown in the figure, the heat sink 42 includes a plurality of heat sinks 421 and a plurality of heat sinks 421. The heat dissipation channel 422 is formed, wherein the plurality of heat dissipation fins 421 of the heat sink 42 are disposed on the square base 423, and the two sides of the heat sink 42 are provided with a cross flow fan 41, and the airflow generated by the two cross flow fans 41 When guided to the center of the heat sink 42 via the heat dissipation passage 422, since the wind pressure above the radiator 42 is smaller than the wind pressure in the heat dissipation passage 422, the airflow generated by the two cross flow fans 41 is discharged upward. The eighth embodiment is a fourth preferred embodiment of the present invention. As shown in the figure, the heat sink 52 includes a plurality of heat sinks 521 and a plurality of heat sinks 521. The heat dissipation channel 522 is formed, wherein the plurality of heat sinks 521 of the heat sink 52 are disposed on the central protruding base 523, and the two sides of the heat sink 52 are provided with a cross flow fan 51, which is generated by the two cross flow fans 51. When the airflow is guided to the center of the heat sink 52 via the heat dissipation passage 522, since the base 523 of the heat sink 52 is centrally protruded, the airflow generated by the two cross flow fans 51 is discharged upward. Continuing to refer to the ninth and tenth drawings, which is a fifth preferred embodiment of the present invention, as shown in the figure, as shown in the figure, the heat sink 62 is a columnar heat sink and includes a plurality of The heat dissipation channel 622 is formed between the plurality of heat sinks 621 and the plurality of heat sinks 621. The plurality of heat sinks 621 of the heat sink 62 are disposed on the base 623, and a cross flow fan 61 is disposed on one side of the heat sink 62. When the air generated by the cross flow fan 61 is guided through the heat sink 62 by the heat dissipation passage 622, the air flow rapidly discharges the heat generated on the heat sink 62. Further, the cross flow fan 61 may also be a cross flow fan as shown in the second preferred embodiment of the present invention. Please refer to the tenth and the twelfth drawings again, which is a sixth preferred embodiment of the present invention. As shown in the figure, the radiator 62 is provided with a cross flow fan 61' on both sides thereof. When the airflow generated by the air passage 61 is guided to the center of the heat dissipation H 62 via the heat dissipation passage (10), since the wind pressure above the heat dissipation n 62 is smaller than the wind pressure in the heat dissipation passage 622, the airflow generated by the two cross flow fans 61 may be upward or It is discharged outward through the center of the radiator 62.硐, from the above description, the present invention is compared with the prior art, and it can be known that the present invention has the advantages and effects described below: (1) The heat sink of the present invention (22, 42, 52, 62) The cross-flow fan (2, 41, 51, 61) assembled on the side of the side can reach the radiator (22, violent, 52, 62) on average, so that the radiator can be lifted (22, 42, 52, 62) overall heat dissipation. (2) The cross-flow wind 1266588 fan (21, 41, 5 b 61) set up on the side of the Ming dynasty hot state (22, 42, 52, 62), the airflow generated by the radiator (22, 42) , 52, 62) The air flow derived from both sides is uniform, so each heat dissipation channel (222, 422, 522, 622) of the heat sink (22, 42, 52, 62) will have the same airflow in and out. (3) The cross-flow fans (21, 41, 51, 61) may be disposed on both sides of the heat sink (22, 42, 52, 62) of the present invention to increase the airflow in the heat dissipation channels (222, 422, 522, 622). And further improve the heat dissipation efficiency of the radiator (22, 42, 52, 62). /上·, this bribe provides a kind of "touching the divergence group", it is true that the requirements for patents are granted, and the patent application is filed according to law, praying for the patent, it is a pray. It is to be understood that the above-described embodiments of the present invention are susceptible to variations of the methods, shapes, structures and devices of the present invention, and are intended to be included within the scope of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS The first figure is a schematic cross-sectional view of the heat-dissipating contact; the second figure is a top view of the hot pool of the Xi; the third figure is the first preferred fourth drawing of the present invention. The fifth preferred embodiment of the present invention is a top cross-sectional view of a second preferred embodiment of the present invention; a schematic view of a vertical sectional view of the embodiment; a schematic partial cross-sectional view of the example of the present invention; BRIEF DESCRIPTION OF THE DRAWINGS FIG. 7 is a perspective view of a third embodiment of a preferred embodiment of the present invention; FIG. FIG. 1 is a perspective view of a fifth preferred embodiment of the present invention; FIG. 10 is a top plan view of a sixth preferred embodiment of the present invention. FIG. Diligent diagram. [Main component symbol description] 11 · ••Axial flow fan 111a ·••Steel plate 111c ·•• Seat 112 ·••Rotor structure 112b ·••Leaf 113 ·•• Sector 121 ·•• Heat sink 13 ·••CPU 21 ·•• Cross-flow fan 211a·••Pole piece 211c ·•• Seat 212 ·••Rotor structure 212b ·•• Hub 212d ·••Support 111 · ·• Stator structure 111b· · • Coil 11 Id · · Insulation frame 112a · · Hub 112c · · Magnetic element 12 · Heat sink 122 · · • Heat dissipation channel 131 · · • Circuit board 211 · · • Stator structure 211b · · • Coil 211d · • Insulation frame 212a · · • Fan blade 212c · · Magnetic element 213 · · • Fan frame 1266588 213 a · •• Air inlet 213b · •• Air outlet 22 · •• Heat sink 221 ·•• Heat sink 222 · ••Cooling channel 312 ·••Rotor structure 313 ·••Fan frame 313a ·••Air inlet 313b ·••Air outlet 41 ·•• Cross flow fan 42 ·•• Heat sink 421 ·•• Heat sink 422 · • Heat Dissipation Channel 423 · •• Square Base 51 · •• Cross Flow Fan 52 · •• Heat Sink 521 · •• Heat Sink 522 · •• Heat Dissipation Channel 523 · •• Centrally Projected Base 61 · •• Cross Flow Fan 62 · •• Heatsink 621 · •• Heat sink 622 · •• Heat sink 623 · •• Base 12