M244721 五、創作說明(1) 【新型所屬之技術領域】 本創作為一散熱裝置結構改良, ::-集風罩體,罩體底部設一集風輪η式風扇, 風扇,將散熱風集中後突破散熱底座皁使渦輪式 以直接吹襲散熱底座之中心'點的随抗力, 二以減輕柱了頁的阻抗風·,並利用散熱四狀形態 藉由散熱底座之曲面引導流向效應,::聚焦集熱, 的導流仰角,形成一上揚之廣角度二羽之罩體形成 的引流效應,將散熱底座全面廣=二二σ並配合集風罩 效排除,藉由集風管效應排除舊式風1死^熱大量並有 大之散熱效果。 之死角,產生更強 【先前技術】 ’運算高階 之散熱效應 以直接形風 風洞理論等 之問題存在 風扇D,由 此風扇之中 微弱’形成 於熱聚焦效 就散熱效應 重大瓶頸; ,無模組化及 ,變成必須相 扇產生之風力 效應,對於產 ;請參照第二 於風扇為藉扇 心點形成風眼 散熱死角E。 應,往往散熱 而言,往往背 且理論上,散 由於電子資訊發展越趨精密 空間極小化等效應下,電腦系統 應成長配合之必要事項,但坊間 ,因風向Η杈廣、風力較弱且因 生排熱效應上一直有一散熱死角 圖,習用散熱器,主要為直接式 葉Α偏轉角度形成送風效能,因 現象’不是完全無風,就是風力 但以散熱器底座B而言,由 底座中心就是熱能最高的地方, 道而馳,因此形成散熱裝置上的 M244721 五、創作說明(2) ,因此鰭片或散熱柱的密 疋習用的散熱底座上,因 風壓的效應也會因密度提 或柱狀體不能過密;否則 並降低進入散熱體的風量 風扇裝置D1 ,請參看第 強使風向Η 1不能控制, 谷易因散熱底座的不同, 成另一散熱死角Ε2,使 擾’造成散熱器在改進降 式散熱器之產生。 之產生,不利於電子產品 式散熱裝置之散熱死角等 為本案創作人所欲解決之 熱的表面積越大,散熱效應越高 度越高’則散熱效應會越強,可 ,片或針柱體頂端C的界面阻抗 南而加大,使得散熱底座的鰭片 也會因柱頂之阻抗風壓將風反彈 及風速’大幅降低散熱效應。 再者,雖然換成渦輪式散熱 一之一圖:由於風量且因風力較 因此產生風流向Η 1的不穩性, 產生紊流或是過度集中,也會形 政熱效應提升有限,亦為重大困 溫效率之一大瓶頸,因而有水冷 但因水冷式散熱器常有溼氣 之精密,是故如何解決舊有風冷 瓶頊’將上述缺失加以摒除,即 技術困難點之所在。 【創作内容】 本創作係提供一種耑埶壯艰.# 所示係由-渦輪式風扇Πf結構改良,如第三、四圖 有罩體2 2,再於其·;:一;扇内設數扇頁2 1其外並設 風口 24 ;渦輪式風扇2底;::2 5 ’且於底部設-出 散熱柱34,且散熱底座之广6又一散熱底座3,設有數根 面,第三圖之底部界界面”…2 2為曲 d乙丄為向内凹陷之弧面,第四圖M244721 V. Creation Description (1) [Technical Field to which the New Type belongs] This creation is an improvement of the structure of a heat sink. ::-Air collection cover, a bottom of the cover is provided with a fan η-type fan. The fan concentrates the cooling air. After breaking through the cooling base soap, the turbine type directly hits the center point of the cooling base. The second is to reduce the impedance wind of the column, and the four-shaped form of heat dissipation is used to guide the flow direction effect through the curved surface of the cooling base: : Focusing on the heat collection, the diversion elevation angle of the formation of a drainage effect formed by a rising wide-angle two-feather hood, comprehensively dissipating the heat dissipation base = 22 σ and eliminating the effect of the air-collecting hood, and eliminating it by the air-collecting tube effect The old style wind is dead and has a lot of heat and has a large heat dissipation effect. Dead angle, resulting in stronger [prior art] 'The problem of high-level heat dissipation effects of direct calculation of wind tunnel theory exists in fan D, which is weak among fans', which is a major bottleneck of heat dissipation effects caused by thermal focusing effects; The organization and the wind effect must be generated by the phase fan. For the production, please refer to the second to form the blind eye E of the cooling eye by the fan. Therefore, in terms of heat dissipation, often and theoretically, due to the effects of the development of electronic information, the space becomes smaller and smaller, the computer system should grow and cooperate with the necessary matters. However, due to the wide wind direction, weak wind and Due to the heat dissipation effect, there has always been a dead-end heat dissipation diagram. Conventional radiators mainly use the direct leaf A deflection angle to form the air supply efficiency. Due to the phenomenon 'not completely windless, or wind, but in the case of the radiator base B, the center of the base is the thermal energy. The highest place is the road, so the M244721 on the heat sink is formed. V. Creation Instructions (2). Therefore, due to the effect of wind pressure, the density of the fins or heat sink on the conventional heat sink base will also increase due to the density. The shape should not be too dense; otherwise, the air volume fan device D1 entering the heat sink can be reduced. Please refer to No. 1 to make the wind direction Η 1 uncontrollable. Gu Yi will form another heat sinking dead angle E2 due to the difference of the heat sink base, which will cause the heat sink to interfere Improve the generation of drop radiators. The generation of heat dissipation dead angles that are not conducive to electronic product-type heat sinks is the larger the surface area of the heat that the creators of this case want to solve, and the higher the heat dissipation effect is, the higher the heat dissipation effect will be. The interface impedance of C increases southward, so that the fins on the heat sink base will also bounce the wind due to the impedance wind pressure at the top of the column and the wind speed will greatly reduce the heat dissipation effect. Moreover, although it is replaced by a turbine-type heat dissipation diagram, due to the instability of the wind flow direction Η 1 due to the amount of wind and the relatively large wind force, the occurrence of turbulence or excessive concentration will also increase the limited thermal effect and is also significant. One of the major bottlenecks of temperature efficiency is water cooling, but because water-cooled radiators often have the precision of moisture, it is how to solve the old air-cooled bottle 顼 to eliminate the above-mentioned shortcomings, which is the technical difficulty. [Creation content] This creative department provides a kind of strong and difficult. # The system shown is improved by the -turbine fan Πf structure, such as the third and fourth figures have a cover 2 2, and then its · ;: a; inside the fan Several fan pages 2 1 are provided with an air outlet 24 outside; a turbo fan 2 bottom; :: 2 5 ′ and a cooling column 34 is provided at the bottom, and the cooling base is wide 6 and another cooling base 3 is provided with several faces, Bottom boundary interface in the third picture "... 2 2 is the curved surface of the inward depression, the fourth picture
M244721 五、創作說明(3) -^- 之底部界面3 2 2為向内凸起之弧面。而渦輪式風 藉由螺絲3 0透過螺孔2 3嫘固於底座之螺杈3 1 Y 口 jT 固定結合。 ,加以 實施原理,請參看第七、七之一圖:當渦輪式風扇將 風向H3由外吸入,藉由集風罩2 5的集風效應,加強風 力及風量,集中於出風口 2 4向下,此時風向會因散熱柱 頂C 3的凹形面,降低阻抗力滅少分流產升,但分流仍會 沿柱頂與罩體的弧面穩定的散出’對柱頂產升散熱效應。 另大部份之風量集中向下吹拂散熱底座3的中心區, 由於底座面3 2 1為凹弧狀,因此對風向Η 3 ,形成導引 的作用,使風向Η 3可以形成均勻的角度,廣泛的接觸散 熱柱’將廢熱帶出;此時因為散熱底座凹弧面3 2 1與集 風罩體2 5的雙重作用,導引風向Η 3,使整體散熱裝^ 之政熱效應上完全無死角產生,且由集風罩之集風效應, 使風力強大,可以大幅降低柱頂的阻抗力,同時,可以排 除與底座凹弧面中心接觸時,產生的風壓阻抗,及紊流的 產升。達到突破性的的散熱效應。 口々而由於本創作之中心風壓及風量強大,因此可以利用 I ί七之一圖的底座凸弧面3 2 2,一般以凸弧狀底座, 了聚焦效應較強,因昔用的散熱方式,因散熱死角的瓶頸 f本無法有效帶出中心點的廢熱,本創作則針對此缺點 ^ 里;中心點,可以將中心點廢熱完全帶出凸弧面的 ^焦效應’因此可以產生另一更強的溫差效應,更有效 產生強力散熱及排熱效果。M244721 V. Creation Instructions (3)-The bottom interface 3 ^ 2 of 2 is a curved surface protruding inward. The turbine wind is fixedly combined with the screw branch 3 1 Y port jT through the screw hole 2 3 through the screw hole 2 3. For the implementation principle, please refer to one of the seventh and seventh pictures: when the turbo fan draws in the wind direction H3 from the outside, by the wind collecting effect of the wind collecting hood 25, the wind force and the amount of wind are strengthened, and the wind is concentrated in the outlet 24 At this time, the wind direction will reduce the resistance force due to the concave surface of the column top C 3, which will reduce the shunt and rise, but the shunt will still stably spread along the arc surface of the column top and the cover. effect. The other part of the air volume concentrates on the central area of the heat dissipation base 3. Since the base surface 3 2 1 is concavely curved, it guides the wind direction Η 3 so that the wind direction Η 3 can form a uniform angle. Extensive contact with the heat dissipation column will exhaust the waste heat; at this time, due to the dual role of the concave arc surface 3 2 1 of the heat dissipation base and the wind collecting cover 25, the wind direction Η 3 is guided, so that the overall heat dissipation effect of the heat dissipation device is completely absent. Dead angles are generated, and the wind collecting effect of the wind collecting hood makes the wind strong, which can greatly reduce the resistance force at the top of the column. At the same time, it can exclude the wind pressure resistance and turbulent flow produced when it contacts the center of the concave arc surface of the base. Rise. Achieve breakthrough thermal effects. Because of the strong wind pressure and air volume in the center of this creation, you can use the convex curved surface 3 2 2 of the base of I VII. Generally, the convex curved base has a strong focusing effect. Method, because the bottleneck f of the heat sinking dead corner cannot effectively bring out the waste heat at the center point, this creation aims at this shortcoming; the center point can completely remove the waste heat from the center point out of the convex effect of the convex arc surface, so it can produce another A stronger temperature difference effect can more effectively produce strong heat dissipation and heat removal effects.
M244721M244721
五、創作說明(4) 【實施方式】 為使本創作更加顯現出其進步性與實用性 比較分析如下·· 用缺失》 風量較小,易產升散熱死角。ΐ座中心為熱聚焦區,習用效能散熱不易 售式風扇因葉片旋轉效應,中心風量最小 熱效應。 L量L因此散熱底座之散熱片或散熱柱必需減少 =政熱風流動,大幅降低散熱器散熱表面積。 二?以渦輪式風扇因風力過強缺乏整流及導引裝置 因此較快,風壓角度集中,反易形成死角 仏成散熱效應不佳。 作一 《習 2 4 茲與習用 不利散 《本創作優點》 並強化中心區的散熱效應,有效提升整體 2、=破散熱底座桂頂反壓,將散熱風有效送抵散熱器内 可以大幅增加 大幅提升效能 引流風罩兼具 完全無散熱死 政熱枉或散熱鰭片,增加散熱表面積 〇 集中及引流效應,有效普及散熱底座 角所在’有效提升散熱效能。 4 M244721V. Creation Description (4) [Implementation Mode] To make this creation show its progressiveness and practicability, a comparative analysis is as follows: "Using the Deficiency" The air volume is small, and it is easy to produce and raises the heat. The center of the scorpion is a thermal focus area, which is not easy to dissipate heat with conventional efficiency. Due to the blade rotation effect, the sales fan has the smallest central air volume thermal effect. Therefore, the amount of L must be reduced. The heat sink or column of the heat sink must be reduced. two? Due to the strong wind, the turbo fan lacks rectification and guidance devices, so it is faster, the wind pressure angle is concentrated, and it is easy to form a dead angle, resulting in poor heat dissipation. Make a book "Xi 2 4" and "Using Unfavorable" "The Advantages of This Creation", and strengthen the heat dissipation effect in the center area, effectively improve the overall 2, = break the heat dissipation base Guiding back pressure, and effectively send the cooling air to the radiator can greatly increase Significantly improved performance The drainage hood has both no heat dissipation and thermal fins or cooling fins, which increases the surface area of heat dissipation. Concentration and drainage effects, effectively popularizing the corners of the cooling base, effectively improve the cooling performance. 4 M244721
第9頁 M244721 圖式簡單說明 第一圖係習用散熱裝置立體圖。 第二圖係習用之散熱裝置風壓及流向示意圖。 第二之一圖係習用之散熱裝置改以渦輪式風後風壓及流向 示意圖。 第三圖係本創作之主要結構分解圖。 第三之一圖係本創作之另一實施例。 第四圖係本創作之立體圖。 第五圖係本創作之風扇結構立體圖。 第五之一圖係本創作之風扇結構側視圖。 第六圖係本創作侧視圖。 第六之一圖係本創作之另一侧視圖。 第七圖為本創作實施後風向完全導流圖。 第七之一圖為本創作另一實施例風向導流圖。 明 說 號 圖 ABCCDEHD2 3Page 9 M244721 Brief description of the diagram The first diagram is a perspective view of a conventional heat sink. The second picture is a schematic diagram of wind pressure and flow direction of a conventional heat sink. The second picture is the schematic diagram of the wind pressure and flow direction after the conventional heat sink is changed to turbine wind. The third picture is an exploded view of the main structure of this creation. The third picture is another embodiment of this creation. The fourth picture is a three-dimensional view of this creation. The fifth picture is a perspective view of the fan structure of this creation. The fifth figure is a side view of the fan structure of this creation. The sixth picture is a side view of this creation. The sixth figure is another side view of this creation. The seventh picture is the complete diversion map of the wind direction after the implementation of the creation. The seventh figure is a wind flow diagram of another embodiment of the creation. Ming description sign ABCCDEHD2 3
3 Η 2 1 EH •扇葉 •散熱器底座 •針柱體頂端 •散熱柱頂 •直接式風扇 •散熱死角 •風向 •渦輪式散熱風扇裝置 •渴輪式風扇3 Η 2 1 EH • Fan blade • Radiator base • Needle cylinder top • Radiator column top • Direct fan • Radiating dead angle • Wind direction • Turbine type cooling fan device • Thirsty wheel fan
第10頁 M244721 圖式簡單說明 2 1.......扇頁 2 2.......罩體 2 3.......螺孔 2 4.......出風口 25.......集風罩 3 ........散熱底座 3 0.......螺絲 3 1.......螺柱 321、322·•底部界面 3 4.......散熱柱 第11頁Page 10 M244721 Brief description of the diagram 2 1 ....... Fan page 2 2 ....... Cover body 2 3 ....... Screw hole 2 4 ....... Air outlet 25 ....... collecting hood 3 ........ heating base 3 0 ....... screw 3 1 ....... studs 321, 322 · • Bottom interface 3 4 ....... The cooling column 第 11 页