M268893 四、創作說明(1) 【新型所屬之技術領域】 本創作是有關於一種均溫板散熱器(五), 於電腦之發熱元件上,可將發熱元件所產生之熱^厂種設 出’而增加散熱器之熱傳效果及散熱效率。 里迅逮導 【先前技術】 目前業界在電子元件之散熱方面,係利用埶总 組織等導熱結構所具有高熱傳能力,快速傳熱了 =、毛細 率、重量輕、結構簡單及多用途等特㉟,可=熱傳導 熱且:消耗電力’因此非常適合電子產品的散熱=量的 將熱官結合韓片體所組成之熱管散熱器,、^,故 之重要課題。 马知決放熱 一般習知之熱管散熱器,如第一圖所示,且主 ,一底座1〇3、複數熱管20a及多數籍 /、 ?广:座1〇“系呈-板片狀,該底趣之頂面係與各該孰管 2 0a之一端貼附接觸,而夂兮 、口 结各該㈣片?而各5亥熱吕2〇a之另一端則係串接連 一° ^ w - a上,使用時係將該底座1 〇a設置於一發熱 =*广^孩發熱兀件4〇a運作產生熱量時,該熱量係 而達成熱量之散逸。 亥熱官心及韓片體_上’ 果· Πϊί管散熱器,雖具有達成熱量散逸之效 果’ “而,由於各該熱管20a與底 30a 之接觸型態,僅為線接網七,I ± 久谷°亥知/袢 40a所產峰之埶旦面積接觸,使得發熱凡 斤產生里,攸底座l〇a端傳導至各 體3〇技 上,相當地缓慢且費時,而造成該散熱J 果及散 第5頁 M268893 四、創作說明(2) 熱效率不佳。 之經:疋並ΐ:S有^:上述問題點及從事該行業多年 實際之運用H灯ί °之問題點’乃潛心研究並配合 求精之精神’終於提出-種設計合 里且有效改善上述問題點之本創作。 【新型内容】 (五)本:::主要目的’在於提供一種均溫板散“ 二專ίΓ均溫板本體綱片體具有大面積的:觸及 同熱傳速度,以將發熱元件所產生之 安觸及 加散熱器之熱傳效果及散熱效率。 、V出,而增 為達上述之目的,本創作係一 設於電腦之發埶元件上,勺#古 々,皿板政熱益(五), 板本體係呈—「L」字型,且其係包含: r ϊ ΐ ?容腔内設置有導熱結構;而各該韓片ί 了 §又ί 一供上述均溫板本體串接連結之條形穿孔。姐上 【貫施方式】 均f u二、三及四圖』戶斤示,係分別為本釗作 二恤 -/刀解圖、散熱器立體分解圖及組合示奇圖之 創作係提供一種均、、奴妬埒赦哭r χ、 π班 …圖,本 樘均恤板政熱杰(五),設置於電腦之發執一 干 匕括有一均溫板本體10及複數鰭片體20,盆中“、、% 本體工。包含一上板,及一下板體12,讀 " 、 矩形底板及從底板四周向上延伸之側柄 成,當該上板體11蓋合連接於下板體12時,於上板體 M268893 四、創作說明(3) :板體1—2間形成有—中空容腔13,於該中空容腔設有 複數熱管14,該熱管u係呈一扁平狀, ^ : f 組織及形成-真空狀態,各該熱Ml作;面 ==體U及下板體12之内壁貼附接觸,且各該熱 :曲置:最後,#對組合後均溫板本體10施以 弓 而成形為—「L」型均溫板本體1〇。 各:鰭片體2〇上開設有一供均溫板本體1〇之 連結之條形穿孔2 1,日夂兮鍺η驊9 n * =-^ Λ ^ 9 1 1放办且各3 ·、、、曰片體20之牙孔2 1端緣係分別 有一流道22。 义面上,並於一相郴之鰭片體20間形成 組合時係可將各該鰭片體20之穿孔21依序迫緊壓入均 溫板本體H)上,或於均溫板本體1〇(或凸緣211内=之入表々 ^ ί t 2 ^ f 23(請參閱第五圖),該導熱介質23係可 j v熱s或錫貧之型態,來增加均溫板本體1〇與各嗜键 凸'Ϊ211的結合緊密效果;如是,藉由上述之結曰構 構成一均溫板散熱器(五)。 之僅ΐ Π:第五及六圖』戶斤示,係分別為本創作散熱器 將該二圖狀態剖視圖,當使用時係 體12 ίΐ: 該發熱元件30運作.產生熱量時,該下板 -2係直接吸收發熱元件3〇之熱量後,再均勻傳導至 内之各熱管14上,並藉由熱们4之液氣相變化/皿 、、、、里快速導引到均溫板本體1G之上方處,藉均溫板本 M268893 四、創作說明(4) 體10與各該鰭片體20間之大面積接觸及高埶傳 速地將熱量傳導至各ϋ片體20上;如是,而'增加二熱 熱傳效果及散熱效率。 ^ 另者,可於該均溫板本體1 0之一侧處,且對應夂 片體20之流道22方向,設有一風扇(圖未示),藉:f = 送氣流並導引至各鰭片體20間之流道22處,以^囤二= 該鰭片體2 0與流道2 2間之熱量吹出,而達成更、j D 逸效果。 土 <熟ϊ散 m 睛參閱『第七及八圖』所示,係分別為本創作之一 均溫板立體分解圖及第七圖連接鰭片體之使用狀態剖視一 圖,該均溫板本體10之中空容腔13内,除可如上述實施例 設有複數熱管14外,亦可於該中空容腔13内間隔設置有毛 細組織15及導熱體16,先將上板體u、下板體a、毛細組 織15及導熱體16施以彎曲成形後,再依序置入連結組合, 於上、下板體11、1 2之相接處焊接封合,再注入適量工作 ΪΓ.圖Λ7?後,並對該均溫板本體10之内部抽成〆真空 好i埶=忒導熱體16係可為一熱管、支撐體或其他或良 好¥熱性之元件所製成。 之種Ξ i:述二本創作均溫板散熱器(五)可有效改善習用 、2 ’可將發熱元件所產生而增 加散熱器之執傳崎I b丸也厂方 …里迅速¥出 步、更實用、争ί ί ’使本創作之?生能更 社之要侔Λ更付5使用者之所須,確已符合新塑專利申 明之要件,犮依法提出專利申請。 惟以上所述者,僅為本創作之較佳實施例而已,當不M268893 IV. Creation Instructions (1) [Technical Field to which the New Type belongs] This creation is about a temperature-equalizing plate radiator (5). On the heating element of the computer, the heat generated by the heating element can be set in the factory. 'And increase the heat transfer effect and heat dissipation efficiency of the radiator. Li Xun led [previous technology] At present, in the field of heat dissipation of electronic components, the industry uses the high heat transfer ability of heat conduction structures such as 埶 general organization, and rapid heat transfer =, capillary rate, light weight, simple structure and multi-purpose features. ㉟, can = heat conduction heat and: power consumption 'so it is very suitable for the heat dissipation of electronic products = the amount of heat pipe heat sink combined with the Korean official heat pipe radiator, ^, so important issues. The heat pipe radiator commonly known by Ma Zhijie is a heat pipe, as shown in the first figure, and the main body, a base 103, a plurality of heat pipes 20a, and a large number of bases, and a wide base: The "10" system is-plate-shaped, the The top surface of the bottom fun is in close contact with one end of each of the cymbals 20a, and the cymbals are swollen, and the mouth is knotted. The other end of each 5a is connected in series by one degree ^ w -On a, when using, the base 1 〇a is set to a heat = * wide ^ child heating element 40a operation to generate heat, the heat is to achieve the dissipation of heat. Haier official heart and Korean film body _ 上 'Fruit · Πϊί tube radiator, although it has the effect of achieving heat dissipation' "And, due to the contact type of each of the heat pipe 20a and the bottom 30a, it is only a wire connection, I ± Kugu ° 海 知 / 袢 40a The contact of the produced peak area caused heat generation, and the 10a end of the base was transmitted to the 30 technology of each body, which was quite slow and time-consuming, which caused the heat dissipation. Creative Note (2) Poor thermal efficiency. The experience: 疋 and ΐ: S have ^: The above problem points and the practical use of the lamp in the industry for many years have been the problem of the point 'is the spirit of intensive research and cooperation with refinement' was finally proposed-a kind of design and effective improvement The original creation of the above problems. [New content] (5) This :: The main purpose is to provide a homogenizing plate dispersion. The secondary body of the homogenizing plate has a large area: it touches the same heat transfer speed to transfer the heat generated by the heating element. The heat transfer effect and heat dissipation efficiency of AnTao and the radiator. V, and increase to achieve the above purpose, this creation is based on a computer hairpin element, spoon # 古 々, 板板 政 热 益 (五), The plate-based system is "L", and it includes: r ϊ 导热? The cavity is provided with a heat-conducting structure; and each of the Korean films is §§ ί for the above temperature-equating plate body in series connection Bar-shaped perforations. My sister ’s [Performance Method] “Every Two, Three, and Four Pictures” is a household display, which provides a uniform design for the two-shirt-/-knife solution, a three-dimensional exploded view of the radiator, and a combination of unique illustrations. 、,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, π, class ... Picture, Ben Qi is a board member of Zheng Zhengjie (5), installed in the computer's hairpin, a dagger is equipped with a constant temperature plate body 10 and multiple fin bodies 20 The main body is composed of an upper plate and a lower plate body 12. The rectangular base plate and side handles extending upward from the periphery of the base plate are formed. When the upper plate body 11 is connected to the lower plate body 12 At the time, on the upper plate M268893 IV. Creation instructions (3): A hollow volume 13 is formed between the plates 1-2, and a plurality of heat pipes 14 are provided in the hollow volume. The heat pipe u has a flat shape, ^ : f organization and formation-vacuum state, each of the heat M1; surface == body U and the inner wall of the lower plate body 12 are in contact with each other, and each of the heat: curved set: finally, #pair combination of the isothermal plate body 10 Formed with a bow— “L” -shaped isothermal plate body 10. Each: a fin body 20 is provided with a bar-shaped perforation 21 for the connection of the temperature-equalizing plate body 10, and the sun-shaped germanium η 骅 9 n * =-^ Λ ^ 9 1 1 The end edges of the tooth holes 21 of the body 20 are respectively provided with first-level channels 22. On the positive surface, and when a combination is formed between a pair of fin bodies 20, the perforations 21 of each fin body 20 can be pressed into the thermostatic plate body in sequence, or on the thermostatic plate body. 1〇 (or inside the flange 211 = into the table 々 ^ t 2 ^ f 23 (see the fifth figure), the thermally conductive medium 23 can be jv heat s or tin lean type to increase the body of the isothermal plate The combination effect of 10 and each key bond convex Ϊ211; if so, a constant temperature plate radiator (5) is formed by the above structure. Only ΐ Π: Fifth and Sixth Figures " The sectional view of the two-picture state for this creative radiator respectively. When used, the body 12: The heating element 30 operates. When generating heat, the lower plate-2 directly absorbs the heat of the heating element 30 and then conducts it evenly. Go to each of the inner heat pipes 14 and quickly guide to the upper part of the isothermal plate body 1G by the liquid / gas phase change of the heat 4 / pan, and borrow the isothermal plate M268893. IV. Creation instructions ( 4) The large area contact between the body 10 and each of the fin bodies 20 and the heat transfer to each cymbal body 20 at a high rate of heat transfer; if so, the 'increasing two heat and heat transfer effects and Thermal efficiency. ^ In addition, a fan (not shown) may be provided at one side of the temperature equalizing plate body 10 and corresponding to the direction of the flow passage 22 of the cymbal body 20. By: f = air flow and guide To the flow channel 22 between each fin body 20, the heat is blown out with ^ = the fin body 20 and the flow channel 22, so as to achieve a more effective effect. The soil < cooked ϊ scattered m See "Seventh and Eighth Figures" for a three-dimensional exploded view of the isothermal plate and a sectional view of the use state of the fin body connected to the seventh figure. In the cavity 13, in addition to the plurality of heat pipes 14 as described in the above embodiment, a capillary tissue 15 and a heat conductor 16 may be arranged in the hollow volume cavity 13 at intervals. First, the upper plate u, the lower plate a, and the capillary After the tissue 15 and the heat conductor 16 are subjected to bending forming, the connection assembly is sequentially placed, and the joints are welded and sealed at the joints of the upper and lower plates 11, 12 and then injected with a proper amount of work. The inside of the temperature-equalizing plate body 10 is evacuated, i.e., 埶 = 忒, and the thermal conductor 16 is made of a heat pipe, a support, or other elements with good thermal properties. Ξ i: The two books on the creation of a temperature equalizing plate radiator (five) can effectively improve the custom, 2 'can pass the heating element to increase the heat sink of the legendary Izaki Ibomaru factory ... quickly ¥ step out, more Practical and content ί 'Enhancing the creation of this product? The key to the creation of a new energy company is to meet the requirements of 5 users. It has indeed met the requirements of the new plastic patent declaration, and filed a patent application in accordance with the law. However, as mentioned above, It is only the preferred embodiment of this creation.
M268893M268893
第9頁 M268893Page 9 M268893
圖式簡單說明 [ 圖 示 簡單說明】 第 一 圖 係習知熱管散 熱器之結構圖。 第 二 圖 係本創作之均 溫板立體分解圖。 第 —- 圖 係本創作散熱 器之立體分解圖。 第 四 圖 係本創作散熱 器之組合示意圖。 第 五 圖 係本創作散熱 器之使用狀態剖視 第 六 圖 係本創作散熱 器之另一側使用狀 第 七 圖 係本創作之另 一均溫板立體分解 第 八 圖 係第七圖連接 趙片體之使用狀態 [ 主 要 元件符號說明】 ( 習 用 部分) 底 座 10a 熱管20a .奈蓄 片 體30a 發熱元件4 0 a ( 本 創 作部分) 均 溫 板本體1 0 上板體11 下 板 體12 中空容腔1 3 熱 管 14 毛細組織1 5 導 熱 體16 結 片 體20 穿孔21 凸 緣: 211 流道22 導 熱 介質23 發 熱 元件3 0 第ίο頁Brief Description of the Drawings [Illustration Brief Description] The first diagram is a structural diagram of a conventional heat pipe radiator. The second picture is a three-dimensional exploded view of the isothermal plate in this creation. Figure —- is a three-dimensional exploded view of this creative radiator. The fourth figure is the combined schematic diagram of this creative radiator. The fifth picture is a cross-sectional view of the use of this creative radiator. The sixth picture is the use of the other side of this creative radiator. The seventh picture is another three-dimensional exploded view of the isothermal plate of this creation. The eighth picture is connected to Zhao. The use status of the chip body [Description of the main component symbols] (conventional part) Base 10a heat pipe 20a. Nano-sheet body 30a heating element 4 0 a (part of this creation) isothermal plate body 1 0 upper plate body 11 lower plate body 12 hollow Receptor cavity 1 3 Heat pipe 14 Capillary tissue 1 5 Heat conductor 16 Piece body 20 Perforation 21 Flange: 211 Flow channel 22 Thermal medium 23 Heating element 3 0 page