• M311234 八、新型說明: 【新型所屬之技術領域】 種用來和發熱 本新型疋關於一種水冷座,特別是指一 元件接觸,並可降低發熱元件熱量的水冷1。 【先前技術】 钺、欣晶螢幕、電視、電漿電視······• M311234 VIII. New description: [New technical field] Kind of heat and heat This new type of water-cooled seat, especially refers to a component contact, and can reduce the heat of the heating element. [Prior Art] 钺, Xinjing Screen, TV, Plasma TV······
子設備,在運作的過程中,有些電子零件會產生高溫,所 以需要加裝散熱裝置來強迫散熱,而早期的散熱裝置是以 風扇為主,但由於其散熱效果不理想,因此為了提 效果,近年來業界已研發出-種水冷式散熱裝置,係二電 子设備之發熱元件上貼設一個用於吸收高溫的水冷座,並 設有-個與水冷座補謂水冷劾的高溫㈣流出降二 錢回流到水冷座㈣水冷純,以利用冷卻液體不斷循 壞進出水冷座,來達到更佳的散熱效果。 如圖1、圖2與圖3所示,一種習知水冷座j的構造大 致包含-個鋁合金押出成型之基座u、一個與該基座η對 接蓋合的封蓋12,及左右平行地固定在該基座u與封蓋a 之間的二侧隔板13與一中隔板14。該基座U包括一水平 =壁1U'自該基壁lu之頂面垂直往上突出之數片側區隔 J 112、數片中區隔壁113,及一同體形成於基壁之底 面中央且貼靠在一發熱元件丨5(見圖2)上的貼靠部u4。該 基壁111之面積較大於貼靠部114,可用於增加散熱面積以 利於政熱。该等側區隔壁112之長度較短於中區隔壁113, 乃刀成兩部份地設在中區隔壁113的左右兩側,且其後側與 M311234 中區隔壁113之後側平齊,並與基壁lu之後邊緣形成一段 距離,至於該等側區隔壁112之前側則較中區隔壁丨丨3之前 側凹入,亦即側區隔壁112到基壁U1之前邊緣的距離,大 於中區隔壁113到該前邊緣的距離。 该封蓋12亦由鋁合金材料沖壓成型,是對應結合在基 座11之頂面上,並包括一位在基壁111上方的平面壁121 、一自平面壁121周緣往基壁lu直立延伸的圍繞壁122, 及一由該圍繞壁122之周緣向外水平延伸且固接於基壁工工J 頂面的結合壁123。該平面壁121具有兩個對應於該等側區 隔壁112之前方的通孔124,該等通孔124可分別供一導管 16(見圖2)插接固定。 而該等隔板13、14亦由鋁合金材料製成,乃分別垂直 地固接在基座11之頂面與封蓋12間,該等側隔板13是分 別平行地設在中區隔壁113與相鄰之側區隔壁112間,且各 側隔板13之後側與側區隔壁112之後側平齊,而前側則較 中區隔壁113之前側突出,並和圍繞壁丨22固接,該中隔板 14疋δ又在中區隔壁113中間,其前側與中區隔壁113之前 側平齊,而後側則較中區隔壁113之後側凸出,並和圍繞壁 122固接,藉此構成一條迂迴並連通該等通孔124的水路 17。4知水冷座1在使用時,主要係藉由貼靠部丨丨4與發熱 元件貼合,以將發熱元件15的熱量傳導至基座u,再如圖 3中前頭所指的方向,利用水路丨7中之液體將熱量帶出。 如圖1與圖4所示,為了更加瞭解水冷座1之基座^ 與隔板13、14間之構造,乃進一步簡要說明其製造方法: M311234 (1)一體成型基座Π:以鋁合金材料同體押出一尚未 切之基座11,在此基座u上形成有—基壁lu、 裁 也 双A平行 專長之側區隔壁112與中區隔壁113,以及一與基壁m々 長之貼靠部114。 等 (2) 裁切該等散熱板112、113:利用NC機具加工,將 該等散熱板112、113之後側部份切掉,並陸續切割該等側 區隔壁112與中區隔壁113之前側部份。 , (3) 裁切貼靠部U4:再利用Nc機具加工,將貼靠部 114之前、後兩側部份切掉。 (4) 製備並組接該等隔板13、14 : &別以铭合金材料沖 昼成型出該等隔板13、14,並將該等隔板13、14焊接在該 基壁111上。當然’在設計上也可以先將該等隔板U、Μ 對應安置在基座η與封蓋12之間後,再將之—起焊接固定 〇 ^上述習知水冷座1雖然可以構成一條迴流水路17,並 能將發熱元件15之熱量吸收帶走,然而,由於該基座u係 由鋁口金押出成型,所以其上之散熱板112、113將會具有 及疋厚度,並無法成型得較薄,而此種設計將使得液體和 政熱板112、113㈣接觸面積較小,目此實際上所能產生 的散熱效率較不理想。 【新型内容】 因此,本新型之目的係在提供一種可產生較佳散熱效 率之水冷座。 於疋,本新型之水冷座,包含:一基座、至少一散熱 M311234 鰭片,及一封蓋。該基座包括一基壁,及二分別自基壁之 左、右兩側緣在上延伸的側壁,在基壁與側壁間界定出至 少一流道。該散熱鰭片分別安裝在流道中,並具有複數直 向的鰭片部。該封蓋係與該基座對接蓋合,並包括一位在 散熱鰭片上的面壁,及二分別自面壁之前、後兩側緣往下 直立延伸至基壁的邊壁。 Τ»亥基座係直接一體成型並裁切出基壁、側壁與隔壁, 並在流道中安裝有薄型化且彎折之散熱鰭片,故可增進水 冷座之散熱效果。 【實施方式】 有關本新型之前述及其他技術内容、特點與功效,在 以下配合參考圖式之二個較佳實施例的詳細說明中,將可 清楚的呈現。 在本新型被詳細描述之前,要注意的是,在以下的說 明内容中,類似的元件是以相同的編號來表示。 如圖5、圖6與7所示,本新型水冷座之第一較佳實施 例疋用於貼靠在一發熱元件5上,且與一水冷系統6連結 用以將發熱元件之熱量帶走,並包含:一基座2、二散熱 鰭片3,及一封蓋4。 /基庄2係由紹合金材料經押出及裁切而成,並包括 水平基壁21、二分別自基壁21之左、右兩側緣往上直立 延伸的側壁22、一平行地位在該等側壁22之間且由基壁 之頂面往上直立延伸的隔壁23,及一形成在基壁21之 底面中央的貼靠部24。在隔壁23與相鄰之側壁22間分別 M311234 界定出一流道25,兩流道25之體積大致相等。而且該隔壁 23之後側和基壁21之邊緣具有一段距離,當然隔壁23亦 :以為兩片以上,其數量設計並不以本實施例為限。該貼 靠部24之面積較小於基壁21,且能貼靠在該發熱元件$上 〇 該等散熱鰭片3分別安裝在流道25中,每一散熱鰭片 3皆由一鋁合金薄片沖切而成,且反覆彎折成波浪狀,並具 有複數直向且略微傾斜的鰭片部31,而且每一鰭片部31之 頂、底側分別與兩側相鄰之鰭片部31相連接。此外,每一 縛片部31皆具有複數平行排列且直向貫通的開縫3ιι。 該封蓋4係由鋁合金材料沖壓成型,乃與該基座2對 接蓋合’且和該水冷系、统6連結,並包括一固接在隔壁U 與散熱H片3上方的水平面^ 41,及二分別自面壁Μ之前 、後兩侧緣往下直立延伸至基壁21㈣壁42。該後側邊壁 42與隔壁23之後側以及散熱鰭片3相間隔。而該前側邊壁 42則與隔壁23之前側銜接’並與散熱鰭片3相間隔,藉以 構成-條迴流水路7’且該前侧邊壁42具有兩個對綠在 隔壁23兩側的通孔421,該等通孔421可分別供該水冷系 統6之二導管61插接固定,以供水冷液體進出該水冷座。 當然在設計上,該等通孔421亦可以分別形成在面壁Μ之 左右兩側’且鄰近地位在前側邊壁42附近,再者,由於本 新型的改良重點與該水冷系统6之設計無關,所以在此不 再詳細說明。 本新型之水冷座在使㈣,主要係藉由貼靠部Μ與發 M311234 熱元件5貼合,用以將發熱元件5的熱量傳導至基座21, ,由於液體會如圖7中箭頭所指的方向在迴流水路7中流 動,所以透過散熱鰭片3與液體進行熱交換之後,即能利 用迴流水路7中之液體將熱量帶出至水冷系統6,以達到散 熱效果。須進一步說明的是,由於上述實施例中係是以發 熱元件5水平設置為例,所以在方向的說明上,皆是以水 冷座貼靠在發熱元件5的頂面上來說明,當然,若是該發 熱元件5係呈直立設置時,則本新型水冷座亦會隨之貼靠 在發熱元件5的側面上,此時水冷座各元件的方向亦會跟 著改變,在此不再分別舉例說明。 如圖5與圖8所示,為了更加瞭解水冷座之基座2與 散熱鰭片3間之構造,乃進一步簡要說明其製造方法: 0)-體成型該基座2 ·· f先以銘合金材料一體押出一橫 截面相同且尚未裁切之基座2,在此基座2上形成有一基壁 21、二側壁22’以及與侧壁22平行等長之一隔壁23與一 貼靠部24。 ⑺裁切該隔壁23:接著,可利用例如斜口鉗等簡翠工 具,將該隔壁23之後側部份剪掉。當然在設計上亦可利用 NC機具加工。 』j刃用 ,將貼靠部24 (3)裁切貼靠部24 : A夺丨丨田 ^ 非丨4冉利用NC機具加工 之前、後兩側部份切掉。 (4)製備並組接該等散熱 並反覆彎折成該等散熱鰭片 安置在基座2之流道25中, 鰭片3 :分別將鋁合金薄片沖切 3,即能將該等散熱鰭片3分別 而後可再將封蓋4蓋置並烊接 10 M311234 固定在基座2與散熱鰭片3上。 尸坏不,本新型水冷座 1 •…a只7吧Ί”的構造 大致與第-實施例相同’不同之處在於:本實施例之水冷 座車乂為小型,所以本實施例之基纟2設計不同,其係省略 第-實施例中隔壁及貼靠部之設置,而在基壁Η與側壁^ 間僅形成-流道25,且在此流道25中安裝一散熱鰭片% 並讓基壁21直接貼靠在發熱元件5上,而不會碰觸到其他 構件’故能在具有較佳之散熱效果下,達 之功效。此外,當'然亦可以在—流道25中放置兩個=;; 以上的散熱,鰭片3,而且封蓋4之尺寸與水冷系統6之流向 設計亦會對應基座2,在此不再詳細說明。 如圖1〇所示’本新型水冷座之第三較佳實施例的構造 大致與第-實施例相同’不同之處在於:本實施例之基座2 設計不同’其隔壁23較為靠近其中一側壁22,由圖Μ的 方向來看’上方流it 25 #寬度較大於下方流道25的寬度 ,而使得供液體進人之流道25寬度,較大於讓液體流出之 流道25寬度’因此可令輸出之液體壓力較大,以達到流動 順暢之功效。 由以上說明可知,本新型水冷座之設計,在加工上除 了須切除貼靠部24之外,另外只要剪掉數量較少之局部隔 壁23,甚至可以省略此步驟,因此加工上較為簡單。且其 更再將薄片化波浪狀之散熱縛片3安裝在該隔壁23與側壁 22之間’由於該等散熱鰭片3係設計成波浪狀之紹合金薄 片’另外在散熱鰭片3之各鰭片# 31上更設有複數開縫 M311234 用 311 ’上述設計將會大幅增加與液體的熱交換面積,相較之 下將能產生較佳之散熱效果,確實能夠達到本新型之 ’因此,本新型不僅是前所未有之創新,更可供產業上利 惟以上所述者,僅為本新型之較佳實施例而已,當不 ,以此限定本新型實施之範圍,即大凡依本新型中請專利 乾圍及新型說明内容所作之簡單的等效變化與修飾,皆仍 屬本新型專利涵蓋之範圍内。Sub-equipment, in the process of operation, some electronic parts will generate high temperature, so it is necessary to install a heat sink to force heat dissipation. The early heat-dissipating device is mainly a fan, but because the heat-dissipating effect is not ideal, in order to improve the effect, In recent years, the industry has developed a kind of water-cooled heat sink. The heating element of the two electronic devices is attached with a water-cooled seat for absorbing high temperature, and is provided with a high temperature (four) effluent drop with water-cooled seat. The second money returns to the water-cooled seat (4) water-cooled pure, in order to use the cooling liquid to continuously break into and out of the water-cooled seat to achieve better heat dissipation. As shown in FIG. 1 , FIG. 2 and FIG. 3 , the structure of a conventional water-cooled seat j generally includes an aluminum alloy extrusion molding base u, a cover 12 that is butted to the base η, and left and right parallel. The two side partitions 13 and the middle partition 14 are fixed between the base u and the cover a. The base U includes a horizontal=wall 1U' protruding from the top surface of the base wall lu, a plurality of side partitions J 112, a plurality of middle partition walls 113, and a common body formed at the center of the bottom surface of the base wall and attached The abutment portion u4 on a heating element 丨 5 (see Fig. 2). The base wall 111 has a larger area than the abutment portion 114 and can be used to increase the heat dissipation area to facilitate political heat. The side partition walls 112 are shorter in length than the middle partition wall 113, and are disposed in two parts on the left and right sides of the middle partition 113, and the rear side thereof is flush with the rear side of the partition 113 of the middle portion of the M311234, and Forming a distance from the rear edge of the base wall lu, and the front side of the side partition wall 112 is recessed from the front side of the middle partition wall 丨丨3, that is, the distance from the side partition wall 112 to the front edge of the base wall U1 is greater than the middle area. The distance from the partition 113 to the front edge. The cover 12 is also stamped and formed of an aluminum alloy material, and is correspondingly coupled to the top surface of the base 11, and includes a flat wall 121 above the base wall 111, and a vertical wall extending from the periphery of the flat wall 121 toward the base wall lu. The surrounding wall 122, and a bonding wall 123 extending horizontally outward from the periphery of the surrounding wall 122 and fixed to the top surface of the base wall worker J. The planar wall 121 has two through holes 124 corresponding to the front side of the side partition walls 112, and the through holes 124 are respectively insertably fixed by a duct 16 (see Fig. 2). The partitions 13 and 14 are also made of an aluminum alloy material, which are respectively vertically fixed between the top surface of the base 11 and the cover 12, and the side partitions 13 are respectively disposed in parallel in the middle partition. 113 is adjacent to the adjacent side partition wall 112, and the rear side of each side partition 13 is flush with the rear side of the side partition wall 112, and the front side protrudes from the front side of the middle partition 113 and is fixed to the surrounding wall 22. The middle partition 14 疋 δ is again in the middle of the middle partition 113, the front side of which is flush with the front side of the middle partition 113, and the rear side protrudes from the rear side of the middle partition 113 and is fixed to the surrounding wall 122. Forming a water path 17 that bypasses and connects the through holes 124. In the case of use, the water cooling seat 1 is mainly bonded to the heat generating component by the abutting portion 4 to conduct heat of the heat generating component 15 to the base. u, and in the direction indicated by the head in Fig. 3, the heat in the water channel 7 is taken out. As shown in FIG. 1 and FIG. 4, in order to better understand the structure between the susceptor of the water-cooled seat 1 and the partitions 13, 14, the manufacturing method is further briefly described: M311234 (1) One-piece base Π: aluminum alloy The material is in the same body as the uncut base 11 on which the base wall lu, the side partition 112 and the middle partition 113 of the double A parallel expertise are formed, and the base wall m is long. The abutment portion 114. And (2) cutting the heat dissipation plates 112, 113: cutting the rear side portions of the heat dissipation plates 112, 113 by NC machining, and successively cutting the front side partition walls 112 and the front side of the middle partition wall 113 Part. (3) Cutting the abutting part U4: The Nc machine is used for machining, and the front and rear portions of the abutting portion 114 are cut off. (4) Preparing and assembling the separators 13, 14: & not forming the separators 13, 14 by means of an alloy material, and welding the separators 13, 14 to the base wall 111 . Of course, in the design, the partitions U and Μ can be placed between the base η and the cover 12, and then the welding water is fixed. The above-mentioned conventional water-cooling seat 1 can constitute a reflow. The water path 17 can take away the heat absorption of the heating element 15. However, since the base u is extruded from the aluminum mouth gold, the heat dissipation plates 112, 113 thereon will have a thickness of 疋 and cannot be formed. It is thin, and this design will make the liquid and the hot plate 112, 113 (4) have a small contact area, so that the heat dissipation efficiency actually produced is less than ideal. [New content] Therefore, the object of the present invention is to provide a water-cooled seat which can produce better heat dissipation efficiency. Yu Yu, the new water cooling seat, comprises: a base, at least one heat dissipation M311234 fin, and a cover. The base includes a base wall and two side walls extending upward from the left and right side edges of the base wall, respectively defining at least a preferred path between the base wall and the side wall. The heat dissipating fins are respectively installed in the flow path and have a plurality of straight fin portions. The cover is abutted against the base and includes a face wall on the heat sink fin, and two side walls extending from the front wall and the rear side edges of the face wall to the base wall.亥»Hai base is directly integrated and cut out the base wall, side wall and partition wall, and the thinned and bent fins are installed in the flow channel, so the heat dissipation effect of the water cooling seat can be improved. The above and other technical contents, features and effects of the present invention will be apparent from the following detailed description of the preferred embodiments. Before the present invention is described in detail, it is noted that in the following description, similar elements are denoted by the same reference numerals. As shown in Figures 5, 6 and 7, the first preferred embodiment of the present invention is for abutting against a heating element 5 and is coupled to a water cooling system 6 for carrying away heat from the heating element. And includes: a base 2, two heat sink fins 3, and a cover 4. /Kizhuang 2 is made of slag alloy material by extrusion and cutting, and includes a horizontal base wall 21, two side walls 22 extending upward from the left and right side edges of the base wall 21, respectively, a parallel position A partition wall 23 extending between the side walls 22 and extending upward from the top surface of the base wall, and an abutting portion 24 formed at the center of the bottom surface of the base wall 21. Between the partition 23 and the adjacent side wall 22, M311234 defines a first-class track 25, and the volumes of the two flow paths 25 are substantially equal. Further, the rear side of the partition wall 23 and the edge of the base wall 21 have a certain distance. Of course, the partition wall 23 is also considered to be two or more pieces, and the number thereof is not limited to the embodiment. The abutting portion 24 has a smaller area than the base wall 21 and can be placed on the heating element $. The heat dissipating fins 3 are respectively mounted in the flow channel 25, and each of the heat dissipating fins 3 is made of an aluminum alloy. The sheet is die-cut, and is repeatedly bent into a wave shape, and has a plurality of straight and slightly inclined fin portions 31, and the top and bottom sides of each fin portion 31 are respectively adjacent to the fin portions on both sides 31 connected. Further, each of the tab portions 31 has a plurality of slits 3 πι which are arranged in parallel and straight through. The cover 4 is stamped and formed of an aluminum alloy material, but is joined to the base 2 and coupled to the water-cooling system 6 and includes a horizontal surface fixed to the partition wall U and the heat-dissipating H piece 3 41 And two, respectively, extend upright from the front and rear side edges of the face wall to the base wall 21 (four) wall 42. The rear side wall 42 is spaced apart from the rear side of the partition wall 23 and the heat radiating fins 3. The front side wall 42 is coupled to the front side of the partition wall 23 and spaced apart from the heat dissipation fins 3, thereby forming a strip return water path 7' and the front side wall 42 has two pairs of green on both sides of the partition wall 23. The through holes 421 can be respectively inserted and fixed by the two conduits 61 of the water cooling system 6 to supply cold liquid into and out of the water cooling seat. Of course, in the design, the through holes 421 can also be formed on the left and right sides of the face wall respectively and adjacent to the front side wall 42. Moreover, since the improvement of the present invention is not related to the design of the water cooling system 6, , so I won't go into details here. The water-cooling seat of the present invention is mainly used to bond the heat-receiving element 5 to the base 21 by means of the abutting portion and the heat-dissipating element M311234, since the liquid will be as shown by the arrow in FIG. The direction of the finger flows in the return water path 7, so that after heat exchange with the liquid through the heat radiating fins 3, the liquid in the return water path 7 can be taken out to the water cooling system 6 to achieve the heat dissipation effect. It should be further noted that, in the above embodiment, the heating element 5 is horizontally disposed as an example, so the description of the direction is described by the water-cooling seat abutting on the top surface of the heating element 5, of course, if When the heating element 5 is placed upright, the new water-cooling seat will also abut against the side of the heating element 5. At this time, the direction of each component of the water-cooling seat will also change, and will not be separately illustrated here. As shown in FIG. 5 and FIG. 8, in order to better understand the structure between the pedestal 2 of the water-cooled seat and the heat-dissipating fins 3, the manufacturing method is further briefly explained: 0) - Body-forming the pedestal 2 ·· f first The alloy material integrally extrudes a base 2 having the same cross section and not yet cut, and the base 2 is formed with a base wall 21, two side walls 22', and a partition wall 23 and an abutment portion of the same length as the side wall 22. twenty four. (7) Cutting the partition wall 23: Next, the rear side portion of the partition wall 23 can be cut off by a simple jade tool such as a diagonal pliers. Of course, NC tools can also be used in the design. 』J blade, the abutting part 24 (3) is cut and placed on the 24: A wins the field ^ Non-丨 4冉 is cut by the NC machine before and after the two sides are cut off. (4) preparing and assembling the heat dissipation and repeatedly bending into the heat dissipation fins disposed in the flow channel 25 of the base 2, and the fins 3: respectively punching the aluminum alloy foil 3, which can dissipate the heat The fins 3 can then be covered and the splicing cover 10 M311234 is fixed on the susceptor 2 and the heat dissipation fins 3, respectively. If the corpse is not damaged, the structure of the present invention is substantially the same as that of the first embodiment. The difference is that the water-cooled rudder of the present embodiment is small, so the basis of this embodiment is 2 is different in design, which omits the arrangement of the partition wall and the abutting portion in the first embodiment, and only the flow channel 25 is formed between the base wall and the side wall, and a heat sink fin % is installed in the flow channel 25 and The base wall 21 is directly placed on the heating element 5 without touching other components', so that it can achieve the effect of better heat dissipation. In addition, when it can be placed in the flow channel 25 The above two heat dissipation, fin 3, and the size of the cover 4 and the flow design of the water cooling system 6 will also correspond to the base 2, which will not be described in detail here. The configuration of the third preferred embodiment of the seat is substantially the same as that of the first embodiment. The difference is that the base 2 of the present embodiment is different in design. The partition wall 23 is closer to one of the side walls 22, as viewed from the direction of the figure. 'The upper flow it 25 # width is larger than the width of the lower flow channel 25, so that the liquid is introduced into the human The width of the channel 25 is larger than the width of the flow channel 25 for allowing the liquid to flow out. Therefore, the liquid pressure of the output can be made larger to achieve a smooth flow. As can be seen from the above description, the design of the water-cooled seat of the present invention requires removal in processing. In addition to the abutting portion 24, as long as the partial partition 23 having a small number is cut off, even this step can be omitted, so that the processing is relatively simple, and the wavy heat-dissipating tab 3 is further mounted on the partition wall 23. Between the sidewalls 22 and the sidewalls 22, the heat-dissipating fins 3 are designed to be wavy. In addition, a plurality of slits M311234 are provided on the fins #31 of the heat-dissipating fins 3. Significantly increase the heat exchange area with the liquid, which will produce better heat dissipation effect, and indeed achieve the new type. Therefore, the present invention is not only an unprecedented innovation, but also an industrially advantageous one. It is only a preferred embodiment of the present invention, and if not, the scope of the present invention is limited, that is, the simplicity of the patent application and the new description in the present invention. Efficiency changes and modifications are still within the scope of the genus of novel patent covers.
【圖式簡單說明】 圖1是一種習知水冷座的一立體分解圖; 圖2是圖1所示之水冷座的一側視剖面圖; 圖3是圖1所示之水冷座的一俯視剖面圖; 圖4是圖1所示之水冷座的一製造流程示意圖; 圖5是本新型之水冷座的一第一較佳實施例的一立體 分解圖;BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exploded perspective view of a conventional water-cooled seat; FIG. 2 is a side cross-sectional view of the water-cooled seat shown in FIG. 1; Figure 4 is a schematic view showing a manufacturing process of the water-cooling seat shown in Figure 1; Figure 5 is an exploded perspective view of a first preferred embodiment of the water-cooling seat of the present invention;
圖6是該第一較佳實施例之一側視剖面圖; 圖7是該第一較佳實施例之一俯視剖面圖; 圖8是該第一較佳實施例之一製造流程示意圖; 圖9是本新型之水冷座的一第二較佳實施例的一立體 分解圖;及 圖10是本新型之水冷座的一第三較佳實施例的一俯視 剖面圖。 12 M311234Figure 6 is a side cross-sectional view of the first preferred embodiment; Figure 7 is a top plan view of the first preferred embodiment; Figure 8 is a schematic view of a manufacturing process of the first preferred embodiment; 9 is an exploded perspective view of a second preferred embodiment of the water cooled seat of the present invention; and FIG. 10 is a top cross-sectional view of a third preferred embodiment of the water cooled seat of the present invention. 12 M311234
【主要元件符號說明】 2 基座 4 封蓋 21 基壁 41 面壁 22 側壁 42 邊壁 23 隔壁 421 通孑L 24 貼靠部 5 發熱元件 25 流道 6 水冷系統 3 散熱鰭片 61 導管 31 鰭片部 7 迴流水路 311 開縫 13[Main component symbol description] 2 Base 4 Cover 21 Base wall 41 Face wall 22 Side wall 42 Side wall 23 Partition wall 421 Pass L 24 Abutment part 5 Heating element 25 Flow path 6 Water cooling system 3 Heat sink fin 61 Pipe 31 Fin Part 7 return water path 311 slit 13