M283150 八、新型說明: 【新型所屬之技術領域】 本新型係有關於一種浸置式熱交換器,尤指一種於接熱座與 外罩體間,用以容納冷卻液進入並作熱交換區域的容置室中,裝 設有由多數鰭片所組成的鰭片組,使鰭片組常時浸置於冷卻液 中,使冷卻液可以依序流經該鰭片組之各縛片,以充分的進行熱 交換,以增進熱交換效率者。 【先前技術】 目月)應用於如電腦主機中之液冷式熱交換元件,如第六圖所 示’係呈一中空熱接座(91),跨接於一熱源⑽)上,以使熱源之 熱能可以傳遞至該巾空熱接座⑼)上,於該熱接座(91)上,係設 有一進水口(911),以接引冷卻液流入該中空熱接座(91)之中,與 傳遞至中空驗座(91)上之熱能產生熱交換後,夾帶熱能並自中 二熱接座(91)之一出水口(912)向外送出。 上述之熱交換元件,於應用上,由於當冷卻液進入中空熱接 座(91)後’很快地便會由出水口⑽)向外送出,因此常不能使冷 卻液夹帶更多的熱量;又該熱源⑽所傳遞之熱能,並不能很快 傳遞至中空熱接座(91)之各處,往往集中於中空熱接座(91)與熱 源(92)之交界面上,因此熱能也無法很快地與冷卻液充分的進行 熱交換,使其熱交換效能無法提升,而顯現其缺點。 本案創作人有鑑於此,乃加研究創新,揭示出—種浸置式熱 5 M283150 交換器 【新型内容】 本新型之目的旨在提供—種浸置式熱交換器,係包括:—接 熱座’可跨置於—熱源上者;鰭片組,由多數組成,跨置於 。亥接熱座上’使熱源之熱能可經由接熱麵速傳遞至則組之各 ^上丄―外罩體’密接於該接熱座上,並與該接熱座間,形成 今置至’以容置該則組於内,且於該外罩體上触一冷卻液 進口及冷卻㈣口者;如是當冷卻㈣冷躲itn竄人該外罩體 ”接熱座間所構成之谷置室巾時,便可使該則組浸置於冷卻液 中’由於熱源之熱能被快速傳遞至各則上,因此可有效增加冷 卻液之熱交換面積,以增其散熱效率者。 7 本新型之可取實體’可由以下之説明及賴各圖式,而得以 明晰之。 【實施方式】 味參閱第-至五®所示,本新型係有關於—種浸置式熱交換 為,係包括:-接熱座(20),可跨置於一熱源⑽上者;結片組 (40),由多數縛片(41)組成,跨置於該接熱座⑽上,使熱源(3〇) 之熱能可經由接熱座(20)迅速傳遞至鰭片組(4〇)之各鰭片(41) 上,一外罩體(50),密接於該接熱座(2〇)上,並與該接熱座(2〇) 間,形成一容置室(51),以容置該鰭片組(4〇)於内,且於該外罩 體(50)上設有一冷卻液進口(52)及冷卻液出口(53)者;如是當冷 卻液由冷卻液進口(52)竄入該外罩體(50)與接熱座(2〇)間所構成 M283150 ’之容置室(51)中時,便可使該鰭片組⑽浸置於冷卻液中,由於 熱源⑽之減被快速傳遞至各㈣⑻上,@此可有效增加冷 卻液之熱交換面積,以增其散熱效率者。 如第一圖所示,本新型所揭示之接熱座(20),係可製自銅、 紹.等回熱傳導效率之材料,於該熱接座(2〇)之周緣,係設有 一突緣盤部⑵),並於該突緣盤部(21)上穿設有多數固定螺孔 (211)以鎖接該外罩體(5〇)者。 • 如第一至五圖所示,本新型所揭示之韓片組(40),係含有·· 多數籍片(41),並於各該縛片⑷)上穿設有鼓孔(411)者;以及導 熱官(42),依序穿套於各制⑷)之航⑷1)t,组各該縛 片⑷),並令該導熱管(42)之一端,緊貼、固定於該熱接座(2〇) 上者。 本新型所揭示之則組⑽),其中各觸⑷)之周緣,係 由多數之連接構件(43)連接,其連接方式可為雜絲接,本新 • 型並不予自限。 本新型所揭示之鰭片組(4〇),其中於各該鰭片(41)上,進一 步穿π又有穿孔(412),以容許冷卻液由該穿孔⑷2)流入下一層錯 片(41),如第一、三圖所示,本新型所揭示之鰭片(41),其中穿 置於各兩相鄰層之韓片⑷)上的穿孔⑷2),係投影於不同位置, 例如第二圖所示’位於第一層最上層鰭片(41)之穿孔(412)係位於 圖中之右側,而其下一層鰭片(41)之穿孔(412)則位於圖中之左 側,而第三層之鰭片(41)其穿孔(412)係位於圖中之右側,依此類 M283150 -推,如是當冷卻液注入後,便會於第一層鰭片(41)之穿孔(412)竄 入第-、二層片⑷)間’並由右側流向左側,而後再由第二層 韓片(41)之穿孔(412)向下流人第二、三層的_片⑷)間,並由第 二圖中之左側流向右侧……,如此使冷卻循環地流動於各層鰭片 (41)之間’而有效地使冷卻液與各則⑷)上之熱能充分地完成 熱交換,使夾帶熱能之冷卻液,可依序流經各鰭片(41)後將夾帶 的熱能由冷卻液出口向外送出。 鲁 如第一、二、四、五圖所示,本新型所揭示之鰭片組(4〇)中 之導熱官(42)係呈-U型狀,其中段(421)係跨接於該接熱座(2〇) 上,並於兩側,分別形成一向上彎曲的自由段(42幻,以分別串接 多數鰭片(41)者,本新型並不自限其導熱管(42)之型狀者。 本新型所揭示之外罩體(50)之底端,係突設有一突緣(54), 並於該突緣(54)穿設有多數固定孔(541),以分別對應該熱接座 ⑽突緣盤部⑵)上之固定螺孔(211),以藉多數螺絲穿入後,緊 ^ _接賴接座⑽)與外罩體⑽);上述之熱接座⑽)與外罩體 (50)間係跨置一防漏墊圈(56),以擋阻冷卻液外漏者。惟上述之 外罩體(50)與熱接座(2〇)之鎖接方式,本新型並不予自限。 如第四、五圖所示,本新型所揭示之外罩體(5〇),其内部投 影於該冷卻液進水口(52)與冷卻液出水口(53)間,係設有一隔板 (55),以將該外罩體(5〇)與接熱座(2〇)間所構成之容置室(51)區 隔成第一、二區域(5ia、51b),使本新型於應用時,冷卻液可以 由冷卻液進水口(52)流入後,進入第一區域(51a),並與第一區域 M283150 (51a)之各鰭片(41)先作一次熱交換,再由該隔板(55)與接熱座 (20)間之空隙流入第二區域(51b)中,並與置於該第二區域(51b) 中之鰭片(41)進行熱交換,最後再由冷卻液出口(53)向外流出, 如是可使今入之冷卻液,依序流過每一片鰭片(41),使其夾帶的 •熱能達到飽和後再向外流出,以有效提升其熱交換效率。 本新型於應用安裝時,係可藉由扣具(7〇),跨置於本新型上, 藉該扣具(70)緊固於一固定物(80,如主機板),以聯動地迫使本 • 新型之熱接座(20),緊貼於一熱源(30)上。惟本新型並不自限其 使用、安裝方式者。 本新型所揭示浸置式熱交換器,乃具有以下特徵及優點: 1·位於接熱座⑽與外罩體⑽間,用以容納冷卻液進入並作熱 父換區域的容置室(51)中,係裝設有由多數鳍片所組成的轉片 組,使籍片組常時浸置於冷卻液中,並令該轉片組可以將熱源 之熱能快速傳導至每一個鰭片上者。 • 2.冷卻液可以依序流經韓片組⑽之各縛片(41),而有效地與各 錯片(41)進行熱交換,以增進熱交換效率。 本新型所揭狄結構、·,可料違本新型之精神及騎 下加以修飾應用,本新型並不予自限。 了 【圖式簡單說明】 第-圖·係本新型之分解示意圖。 第二圖··係本新型立體圖。 第三圖:係第二圖之3〜3方向剖示圖。 M283150 第四圖:係第二 第五圖:係四圖 圖之4一4方向剖視圖。 所示之前視圖。 第六圖·S知液冷式散熱元件之示意圖。 【主要元件符號說明】 (20)接熱座 (21)突緣盤部 (211)固定螺孔 (30)熱源 (40)鰭片組 (41)鰭片 (411)嵌孔 (412)穿孔 (42)導熱管 (421)中段 (422)自由段 (43)連接構件 (50)外罩體 (51)容置室 (51a)第一區域 (51b)第二區域 k (52)冷卻液進口 (53)冷卻液出口 (54)突緣 (541)固定孔 (55)隔板 (56)防漏墊圈 (70)扣具 (80)固定物M283150 VIII. Description of the new type: [Technical field to which the new type belongs] This new type relates to an immersion heat exchanger, especially a container between the heat receiving seat and the outer shell, which is used to contain the coolant entering the heat exchange area. In the installation room, a fin group composed of a plurality of fins is installed, so that the fin group is always immersed in a cooling liquid, so that the cooling liquid can sequentially flow through the binding pieces of the fin group in order to fully Those who perform heat exchange to improve heat exchange efficiency. [Prior technology] Meyue) It is applied to a liquid-cooled heat exchange element in a computer host, as shown in the sixth figure, 'It is a hollow heat socket (91), which is connected across a heat source ()), so that The heat energy of the heat source can be transferred to the air-to-air heat socket (⑼), and a water inlet (911) is provided on the heat socket (91) to lead the cooling fluid into the hollow heat socket (91). After heat exchange with the heat energy transferred to the hollow test seat (91), the heat energy is entrained and sent out from the water outlet (912) of one of the two heat sockets (91). In the application of the above-mentioned heat exchange element, since the cooling liquid will be sent out from the water outlet 'soon after the cooling liquid enters the hollow heat receiving base (91), it is often impossible to entrain the cooling liquid with more heat. ; And the heat energy transferred by the heat source ⑽ cannot be quickly transferred to all parts of the hollow heat socket (91), and is often concentrated on the interface between the hollow heat socket (91) and the heat source (92), so the heat energy is also The heat exchange with the coolant cannot be performed quickly enough, so that the heat exchange efficiency cannot be improved, and its shortcomings appear. In view of this, the creators of this case have researched and innovated and revealed-an immersion type heat exchanger 5 M283150 [new content] The purpose of this new type is to provide-an immersion type heat exchanger, which includes:-a heating block ' Can be placed across-heat source; fin group, consisting of a majority, placed across. On the heat-receiving seat, the heat energy of the heat source can be transferred to each of the group through the heat-receiving surface velocity. The outer cover is tightly connected to the heat-receiving seat and forms a current position with the heat-receiving seat. Hold the group inside, and touch a cooling liquid inlet and a cooling mouth on the outer cover; if the cooling cover hides itn and intrudes on the outer cover, the valley room towel formed by the hot seat, This group can be immersed in the cooling fluid. 'Because the heat energy of the heat source is quickly transferred to each, it can effectively increase the heat exchange area of the cooling fluid to increase its heat dissipation efficiency. 7 This new desirable entity' It can be made clear by the following description and various drawings. [Embodiment] Please refer to the fifth to fifth ®, the new model is about an immersion type heat exchange behavior, which includes: 20), which can be straddled on a heat source 结; the patch group (40), consisting of a majority of binding pieces (41), is straddled on the heat receiving socket ⑽, so that the heat energy of the heat source (30) can be connected through The thermal seat (20) is quickly transferred to each fin (41) of the fin group (40), and an outer cover (50) is closely attached to the fin (41). The heat base (20) and the heat receiving base (20) form an accommodating chamber (51) for accommodating the fin group (40) inside, and the outer cover (50) ) Is provided with a coolant inlet (52) and a coolant outlet (53); if the coolant is channeled from the coolant inlet (52) into the housing (50) and the heat receiving seat (20), M283150 is formed When the storage chamber (51) is placed, the fin group ⑽ can be immersed in the cooling liquid, and the reduction of the heat source 快速 is quickly transferred to each ㈣⑻, @this can effectively increase the heat exchange area of the cooling liquid In order to increase its heat dissipation efficiency, as shown in the first figure, the heat-dissipating base (20) disclosed in the new model is made of copper, Shao, and other materials with heat-returning conduction efficiency. ) Is provided with a flange plate portion ⑵), and the flange plate portion (21) is provided with a plurality of fixing screw holes (211) for locking the outer cover body (50). As shown in Figures 1 to 5, the Korean film group (40) disclosed in the new model is composed of a plurality of Korean films (41), and drum holes (411) are formed on each of the binding films ⑷; and Thermal Conductor (42) Hanging 1) t of the system 组), group each of the binding pieces ⑷), and make one end of the heat pipe (42) close to and fix to the heat receiving base (20). Group ⑽), where the periphery of each contact is connected by a majority of connection members (43), and the connection method can be a wire connection, and the new type is not self-limiting. The fin group disclosed in this new type (40), wherein on each of the fins (41), there is further perforation (pi) and a perforation (412) to allow the cooling liquid to flow from the perforation (2) into the next layer (41), as shown in the first and third figures As shown in the figure, the fins (41) disclosed in this novel, wherein the perforations 穿 2) which are placed on the two adjacent layers of Korean ⑷) are projected at different positions, for example, as shown in the second figure, 'located in the first The perforation (412) of the uppermost layer of fins (41) is located on the right side of the figure, while the perforation (412) of the lower layer of fins (41) is located on the left side of the picture, and the third layer of fins (41) ) The perforation (412) is located on the right side of the figure, and so on. M283150-Push, if the coolant is injected, it will penetrate into the first and second layers of the perforation (412) of the first layer of fins (41). Kataki And it flows from the right to the left, and then from the perforation (412) of the second layer of Korean film (41) down to the second and third layer of _ film ⑷), and from the left in the second picture to the right ..., so that the cooling cycle flows between the layers of fins (41) so as to effectively complete the heat exchange between the cooling liquid and the heat energy on each ⑷), so that the cooling liquid entrained with heat energy can flow in sequence. After passing through each fin (41), the entrained thermal energy is sent out from the cooling liquid outlet. As shown in the first, second, fourth, and fifth figures of Lu, the heat conduction officer (42) in the fin group (40) disclosed in this new model is -U-shaped, and the middle section (421) is connected across the Connected to the heat base (20), and on both sides, respectively, a free segment (42) is formed which is bent upward, and the majority of the fins (41) are connected in series. The new model does not limit its heat pipe (42). The bottom end of the outer cover (50) disclosed by the new model is provided with a protruding edge (54), and a plurality of fixing holes (541) are perforated on the protruding edge (54), respectively. The fixing screw hole (211) on the flange part ⑵) of the socket 热 should be hot-connected, so that it can be tightened by most screws ^ _ depends on the socket ⑽) and the outer cover ⑽); the above-mentioned hot socket ⑽) A leakproof washer (56) is placed across the outer cover (50) to block the leakage of the cooling liquid. However, the above-mentioned locking method of the outer cover body (50) and the thermal connection seat (20) is not limited by this model. As shown in the fourth and fifth figures, the inner cover of the outer cover (50) disclosed in the present invention is projected between the coolant inlet (52) and the coolant outlet (53), and a partition (55) is provided. ) To separate the accommodation room (51) formed by the outer cover (50) and the heat receiving seat (20) into the first and second areas (5ia, 51b), so that when the new model is applied, The coolant can flow in through the coolant inlet (52), enter the first area (51a), and perform a heat exchange with each fin (41) of the first area M283150 (51a), and then pass through the partition ( 55) The gap between the heat receiving seat (20) flows into the second area (51b), and heat exchange is performed with the fins (41) placed in the second area (51b), and finally, the cooling liquid exit ( 53) Outflow, if it can make the incoming coolant flow through each fin (41) in sequence, the entrained heat energy will be saturated and then flow out to effectively improve its heat exchange efficiency. When the new model is applied and installed, it can be straddled on the new model by a fastener (70), and the fastener (70) can be fastened to a fixed object (80, such as a motherboard) to force the linkage. The new type of thermal connector (20) is close to a heat source (30). However, this new model does not limit its use and installation. The immersed heat exchanger disclosed by the new model has the following characteristics and advantages: 1. It is located between the heat receiving seat ⑽ and the outer cover ⑽, and is used for accommodating the cooling fluid into the accommodating chamber (51) which is used as a heat exchange area. It is equipped with a rotating fin group composed of most fins, so that the fin group is always immersed in the cooling liquid, and the rotating fin group can quickly transfer the heat energy of the heat source to each fin. • 2. The cooling liquid can flow through the binding pieces (41) of the Korean film group in sequence, and effectively perform heat exchange with the wrong pieces (41) to improve the heat exchange efficiency. The structure disclosed in this new model can be modified and applied in violation of the spirit of this new model, and this new model is not self-limiting. [Brief description of the diagram] Figure-Figure · is an exploded diagram of the new model. The second picture is a perspective view of the new type. The third figure is a sectional view in the direction of 3 ~ 3 of the second figure. M283150 The fourth figure: the second figure The fifth figure: the fourth figure The sectional view in the direction of 4-4. Front view shown. Fig. 6 is a schematic diagram of a liquid-cooled heat sink. [Description of the main component symbols] (20) Hot seat (21) Flange disk (211) Fixing screw hole (30) Heat source (40) Fin group (41) Fin (411) Embedded hole (412) Perforation 42) heat pipe (421) middle section (422) free section (43) connecting member (50) outer cover body (51) accommodation chamber (51a) first area (51b) second area k (52) coolant inlet (53 ) Coolant outlet (54) Flange (541) Fixing hole (55) Baffle (56) Leakproof washer (70) Fastener (80) Fixing