M407289 五、新型說明: 【新型所屬之技術領域】 . 本新型係有關一種能更有效提升水箱放熱率之冷管、散 熱鰭片組合技術領域。 【先前技術】 . 如第一、二及三圖所示,一般水箱係由兩側循環水槽 '(91)、若干冷管(92)、若干波浪狀散熱鰭片(93)及二支撑板 • (94)所構成;其中;兩侧循環水槽(91)於相向的表面系列沖 製有組裝孔槽(911),該等組裝孔槽(911)係供各冷管(92)端 部一一密接,該冷管上、下各對稱的具有幅寬(92A)16麵之 扁平面,令相鄰冷管(92)於相對扁平面之間形成有一長條狀 空間,用以供散熱鰭片(93)固置,令散熱鰭片(93)頂端、底 端呈彎折的焊接於對應冷管(92)扁平面,用以將該長條狀空 、間平均分割出複數個散熱流道,俾構成水箱之基本結構,該 •等結構並於兩側循環水槽(91)上下兩端跨設有支撐板(94), 用以強化整體結構,使之組構成一可循環散熱之水箱。 現有與冷管(92) 16nun幅寬(92A)相匹配之散熱鰭片(93) 幅宽(93A),其亦控制於相同之16咖,至於散熱鰭片(93)高 度(93B)則是控制於5咖,如此才能保持良好放熱率,但是水 箱除了考慮放熱率外,尚需考量其他機構強度、製經濟性, 具體而舌’在習知水箱中,由於沒有考慮到冷管⑼)幅寬縮 小後’具有能降低冷管(92)製造材積以及使結構更為強化之 3 M407289 諸多優點,此乃因為在冷管(92)幅寬(92A)係與放熱率成正 比’換言之,在縮小冷管(92)幅寬(9以)下,水箱整體放熱率 ^自然同時下降,因此,如果能在冷管(92)幅寬縮小後,尚能 保持水箱良好之放熱率,便成為亟需努力研究發展的方向。 【新型内容】 本創作主要内容在於:提供一種水箱之冷管及散熱鰭片 •組合構造,其主要將冷管幅寬降低至14. 5麵,至於波浪狀散 擊熱鰭片之幅宽則疋控制於14· 5〜16. 5麵、高度則是控制於 5〜7.5 mm,如此除能降低冷管製造材積以及使水箱整體結構 更為強化外,尚能保持水箱處於最佳放熱率狀態,進而改善 習用水柏之不足處。 【實施方式】 為使貴審查委員能進一步瞭解本創作之結構,特徵及 ‘ 其他目的,玆附以較佳實施例之圖式詳細說明如後: _ 請參閱第四、五圖,本創作水箱配置有複數列扁平冷管 (10),該冷管(10)左右兩端係銜接至第一圖所示之側循環水 槽,令冷管(10)前後兩端定義出一幅寬(10A),該冷管(10) 上、下各對稱的具有14. 5腿幅寬(92A)之扁平面,該等上、 下相鄰冷管(10)之中心距離係定義出一固定管距(10B),該固 定管距(10B)係介於6. 7~9, 2釀’如此便令相鄰冷管(1〇)於相 對爲平面之間形成有一長條狀空間’使之能供散熱鰭片(2〇) 固置; 4 所述冷管(10)係以板片兩側對接圈繞而成,使其内部形 成斷面呈長圓狀之管孔,且令該冷管(10)於上、下扁平面之 間定義出一管厚(10C),該管厚(10C)是介於14〜2mm ; 此散熱鰭片(20)係呈一波浪狀,令其頂端(21)、底端(22) 呈彎折的焊接於對應冷管(10)扁平面,且令散熱鰭片(2〇)於 相鄰頂端(21)、底端(22)之間連接有芯板(23),令相鄰芯板 (23)疋義出敢熱流道(24),在不斷的實驗測試中,發現與冷 管(10)14· 5 mm幅寬(10A)相匹配之芯板(23)幅宽(2〇A),最好 是控制於14. 5〜16.5咖,至於芯板(23)於頂端(21)、底端(22) 之間所形成高度(20B),則是控制於5〜7. 5 mm為最佳; 該等芯板(23)開設有氣窗單元,此氣窗單元係由貫穿芯 板(23)兩面之第一氣窗(30)、第二氣窗(3〇〇)組成,令第一氣 囪(30)之_ 口(301)係朝則的斜向設置於芯板(μ)前段,至於 第二氣窗(300)之窗口(302)係朝後的斜向設置於芯板(23)後 ’又,令第一、一氣窗(30)(300)之開窗角度(3〇a)方向不同且 呈相對稱之22。〜26。,且界定窗距(30B)為〇.7〜〇.8mm。 由上述之結構說明得知,本創作主要將冷管(1〇)幅寬 (10A)降至14.5刪,用以達到減少冷管製造材積以及使水箱 整體結構更為強化之功能,此外,更控制具有氣窗單元之散 熱‘鰭片(20)幅宽(20A)係介於14. 5〜16. 5 mm、高度(2〇B)介於 5~7. 5 mm時,俾能同時保持水箱最佳放熱率,進而大大改善 習用水箱之不足處。 ^407289 請參看第四及五圖’本創作冷管(10)係以板片兩侧密接 圈繞而成,至於第六圖則是進一步的界定該板片兩側緣係内 彎併排抵接,用以形成冷管(1〇)中之加強肋(11),藉此加強 肋(11)設置而強化此冷管(10)之結構性。 綜上所述,本創作整體結構新穎,且具有上述之功效增 術理念上的高度創作,應符專财請要件, 例而已以上所述者’僅為本創作之-較佳實施 作申請專利範_==創作實施之範圍,即大凡依本創 蓋之範圍内。 ή等變化與修飾’皆應仍屬本新型涵 M407289 【圖式簡單說明】 第一圖:係習用水箱之分解示意圖。 第二圖:係習用水箱之組合示意圖。 第三圖:係習用水箱之冷管及散熱鰭片結構示意圖。 第四圖:係本新型冷管及散熱鰭片之立體結構示意圖。 第五圖:係本新型冷管及散熱鰭片之平面結構示意圖。 第六圖:係本新型第二實施例示意圖。 【主要元件符號說明】 (10) 冷管 (10A)幅寬 (10B)管距 (10C)管厚 (11) 加強肋 (20)散熱鰭片 (20A)幅宽 (20B)高度 (22)底端 (24)散熱流道 (30)第一氣窗 (301)(302)窗口 (30B)窗距 (91) 侧循環水槽 (92) 冷管 (93) 散熱鰭片 (21)頂端 (23)芯板 (300)第二氣窗 (30A)開窗角度 (911)組裝孔槽 (92A)幅宽 (93A)幅宽 (93B)高度 (94)支撐板 7M407289 V. New description: [New technical field] The new type relates to a cold pipe and heat sink fin combination technology which can effectively improve the heat release rate of the water tank. [Prior Art] As shown in the first, second and third figures, the general water tank is made up of two sides of the circulating water tank '(91), several cold tubes (92), a number of wavy fins (93) and two supporting plates. (94); wherein; the circulating water tanks (91) on both sides are serially punched with assembly holes (911), and the assembled holes (911) are provided for the ends of the cold tubes (92). In close contact, the symmetrical tube having a width (92A) of 16 faces on the upper and lower sides of the cold tube causes an adjacent cold tube (92) to form a long space between the relatively flat surfaces for the fins. (93) Fixing, so that the top end and the bottom end of the heat dissipating fin (93) are bent and welded to the flat surface of the corresponding cold tube (92), and the average strip and space are equally divided into a plurality of heat dissipating channels The 俾 constitutes the basic structure of the water tank, and the support structure (94) is arranged across the upper and lower ends of the circulating water tank (91) on both sides to strengthen the overall structure, so that the group forms a water tank capable of circulating heat. The existing heat sink fins (93) with the width of the cold tube (92) 16nun (92A) are wide (93A), which is also controlled by the same 16 coffee, as for the heat sink fin (93) height (93B). Controlled in 5 coffee, in order to maintain a good heat release rate, but in addition to considering the heat release rate, the water tank needs to consider the strength and economy of other institutions, specifically the tongue 'in the conventional water tank, because the cold pipe (9) is not considered) After the width is reduced, there are many advantages of the 3 M407289 which can reduce the volume of the cold pipe (92) and make the structure more reinforced. This is because the width (92A) of the cold pipe (92) is proportional to the heat release rate. In other words, When the width of the cold pipe (92) is reduced (9), the overall heat release rate of the water tank naturally decreases at the same time. Therefore, if the cold pipe (92) is reduced in width, the heat transfer rate of the water tank can be maintained. Efforts should be made to study the direction of development. [New content] The main content of this creation is to provide a cold pipe and fins of the water tank and a combined structure, which mainly reduces the width of the cold pipe to 14.5 faces, as for the width of the wave-shaped hot fins. The 疋 is controlled at 14·5~16. The 5 faces and the height are controlled at 5~7.5 mm. This can keep the water tank in the best heat release rate, in addition to reducing the cold pipe manufacturing volume and strengthening the overall structure of the water tank. In order to improve the inadequacy of the use of water. [Embodiment] In order to enable the review board to further understand the structure, features and 'other purposes of this creation, the drawings of the preferred embodiment are described in detail as follows: _ Please refer to the fourth and fifth figures, the creation tank A plurality of flat cold pipes (10) are arranged, and the left and right ends of the cold pipe (10) are connected to the side circulating water tank shown in the first figure, so that a width (10A) is defined between the front and rear ends of the cold pipe (10). The cold tube (10) has a flat surface having a width of 14.5 leg width (92A) above and below, and a center distance between the upper and lower adjacent cold tubes (10) defines a fixed pipe spacing ( 10B), the fixed pipe spacing (10B) is between 6. 7 and 9, 2 brewing 'so that the adjacent cold pipe (1 〇) forms a long strip between the relatively flat planes' to make it available The heat dissipating fins (2〇) are fixed; 4 The cold pipe (10) is formed by winding butt joints on both sides of the plate, so that a pipe hole having an oblong cross section is formed inside, and the cold pipe is made (10) A tube thickness (10C) is defined between the upper and lower flat faces, and the tube thickness (10C) is between 14 and 2 mm; the heat sink fins (20) are wavy, so that the top end (21) The bottom end (22) is bent and welded to the flat surface of the corresponding cold pipe (10), and the heat radiating fin (2〇) is connected with the core plate between the adjacent top end (21) and the bottom end (22) (23) ), so that the adjacent core plate (23) deny the hot runner (24), in the continuous experimental test, found that the cold tube (10) 14 · 5 mm width (10A) matching core board (23 The width (2〇A) is preferably controlled at 14. 5~16.5 coffee. As for the height (20B) formed between the top (21) and the bottom end (22) of the core plate (23), it is controlled. 5 to 7. 5 mm is the best; the core plates (23) are provided with a louver unit, which is composed of a first louver (30) and a second louver (3 贯穿) penetrating both sides of the core plate (23). The composition is such that the first port (301) of the first air chamber (30) is disposed obliquely to the front of the core plate (μ), and the window (302) of the second air window (300) is oriented backward. After being disposed on the core board (23), the opening angle (3〇a) of the first and first air windows (30) (300) is different and is symmetrical. ~26. And the defined window distance (30B) is 〇.7~〇.8mm. According to the above structural description, this creation mainly reduces the width (10A) of the cold pipe (1〇) to 14.5, in order to reduce the volume of cold pipe manufacturing and to strengthen the overall structure of the water tank. Control the heat dissipation of the louver unit [Fin (20) width (20A) is between 14. 5~16. 5 mm, height (2〇B) between 5 and 7. 5 mm, 俾 can keep the water tank at the same time The best heat release rate, which greatly improves the disadvantages of the water tank. ^407289 Please refer to the fourth and fifth pictures of 'The cold pipe (10) is made by tightly encircling the sides of the plate. The sixth figure further defines the sides of the plate and bends side by side. Used to form the reinforcing ribs (11) in the cold pipe (1), whereby the reinforcing ribs (11) are arranged to strengthen the structure of the cold pipe (10). In summary, the overall structure of the creation is novel, and it has the above-mentioned high-level creation of the concept of the effect enhancement, which should be in accordance with the requirements of the special wealth, for example, the above-mentioned only for the purpose of this creation - the preferred implementation of the patent Fan _== The scope of the creative implementation, that is, within the scope of the creation of the genius. ή 变化 变化 变化 修饰 修饰 修饰 407 407 407 407 407 407 407 407 407 407 407 407 407 407 407 407 407 407 407 407 407 407 407 407 407 407 407 The second picture: a schematic diagram of the combination of the water tanks. The third picture shows the structure of the cold pipe and the fins of the water tank. The fourth picture is a schematic diagram of the three-dimensional structure of the new cold tube and heat sink fin. Figure 5: Schematic diagram of the planar structure of the new cold tube and fins. Figure 6 is a schematic view of a second embodiment of the present invention. [Main component symbol description] (10) Cold pipe (10A) width (10B) pipe pitch (10C) pipe thickness (11) Reinforced rib (20) heat sink fin (20A) width (20B) height (22) bottom End (24) Heat Dissipating Channel (30) First Air Window (301) (302) Window (30B) Window Distance (91) Side Circulation Sink (92) Cold Tube (93) Heat Sink (21) Top (23) Core Plate (300) Second louver (30A) Window opening angle (911) Assembly hole groove (92A) Width (93A) Width (93B) Height (94) Support plate 7