200837324 九、發明說明: 【發明所屬之技術領域】 一種導熱管與座體結合裝置,尤指一種應用於 散熱器,且更便於組配之裝置者。 【先前技術】 按,習用之導熱管B與座體A結合,如第1圖 所示,係先將散熱銅板C與導熱管B先置於模具中, 採一體成型方式製作,此種方式在實際施行後具有 以下各弊端: 1、 係因散熱銅板C與導熱管B先置於模具中,無法 確實定位散熱銅板C與導熱管B。 2、 係因採一體成型方式製作,若座體A成型不良, 則需整組報廢,無法回收散熱銅板C與導熱管 B,如此,將大大耗費製造成本。 【發明内容】 本發明提供一種「導熱管與座體結合裝置」,希 藉此設計,改善公知一體成型方式製作之導熱管與座 體結合易因座體成型不良而產生整組報廢的問題,乃 提供導熱管置於吸熱銅板上面,再將座體上蓋與座體 下蓋以卡扣方式扣合,達快速結合,為主要之發明目 的。 為達到前述發明目的,本發明所運用的技術手段 為提供一種導熱管與座體結合裝置,其組件包括有導 熱管、吸熱銅板及一具有座體上、下蓋之組合式座 體;其中,該吸熱銅板四周設有段差以增加強度及減 5 200837324 低成本,亦可在置入座體下蓋後同時達到定位快速之 效果;該導熱管直接置於吸熱銅板上方,可藉由座體 下蓋前、後側所設之相對應於導熱管外型之溝槽來定 位;該組合式座體拆分為座體上蓋與座體下蓋,係採 先分開製作成型後組裝使用,解決了前述導熱管與座 體為一體成型於製作時所產生無法回收吸熱銅板及 導熱管的問題’同時也提局了產業利用性。 【實施方式】 至此,為提供本發明更詳盡之外觀及特徵,現 配合圖示說明如下: 請參閱第2圖及第3圖所示,本發明之導熱管與 座體結合裝置40,包括有組合式座體10、導熱管20 及吸熱銅板30 ;其中, 該組合式座體1 0係採分開式組配,並為分開成 型且具有座體上蓋11與座體下蓋12,該座體止蓋11 左、右侧分別設有卡槽1 1 1,用以與座體下蓋1 2結 合,前、後側則設有兩翼部1 1 2,其上設有數透孔1 1 2 1 可用以置入並固定導熱管 2 0,内側則設有數分隔肋 113,用以定位導熱管20;而該座體下蓋12左、右 侧設有相對應於座體上蓋1 1左、右側之卡槽1 1 1的 卡勾121,與座體上蓋11的卡槽111形成結合,前、 後側則設有相對應於導熱管2 0外型之溝槽1 2 2,用 以定位導熱管 2 0,下側則設有一相對應於吸熱銅板 30外型之内槽框123,用來定位並固定吸熱銅板30。 該吸熱銅板3 0四周設有段差3 1以增加強度並減 6 200837324 低成本,亦可在置入座體下蓋12之内槽框123後同 時達到定位快速之效果,而吸熱銅板3 0内側平面3 2 設有一凹槽平面33,可使導熱管20的下平面21更 貼近熱源。 該導熱管2 0則置於吸熱銅板3 0上方,其中,該 導熱管為一體成型,其外型設為U型,並於底部以一 個大管道211與數個相連通之小管道212為造型,且 與吸熱銅板3 0相接觸之位置設有下平面2 1 ;藉由座 體下蓋1 2前、後侧所設之相對應於導熱管2 0外型之 溝槽1 2 2與座體上蓋1 1内側所設之數分隔肋1 1 3形 成定位與緊固。 本發明在組配上,係先將吸熱銅板3 0置於座體 下蓋1 2内側所設置之内槽框1 2 3中,然後將導熱管 20置於吸熱銅板30之内側平面32的凹槽平面33之 上,兩侧置入座體下蓋1 2前、後側所設之相:對應於 導熱管2 0外型之溝槽1 2 2,以達到定位之效果,再 把座體下蓋1 2的左、右側所設之卡勾1 2 1與座體上 蓋11左、右側所設之相對應的卡槽1 1 1結合後完成 組配,並***座體上蓋1 1翼部1 1 2所設之透孔1 1 2 1 内,可同時利用座體上蓋11内側所設之分隔肋1 1 3 同時抵固導熱管20與吸熱銅板30。 為解決習用導熱管與座體結合裝置之問題, 本發明在實施上,係先將本發明之導熱管2 0利用組 合式座體10之座體上蓋 11與座體下蓋 12以 7 200837324 卡扣方式扣合組配後,再與一散熱器組 5 0結合 後,置於熱源處之上;如第4圖所示之散熱器組50 包括有散熱鰭片5 1、鰭片蓋體5 2及一散熱風扇5 3 ; 其中,該散熱鰭片51上設有數切槽散熱孔,四角設 有結合孔,用以與鰭片蓋體52結合後,與一散熱風 扇5 3搭配使用,而形成一散熱性能極佳之散熱器5 0。 【圖式簡單說明】 第1圖為習用導熱管與座體結合裝置之外觀立體 圖。 第2圖為本發明之立體分解圖。 第3圖為本發明之導熱管之俯視圖。 第4圖為第3圖A-A位置之剖視圖。 第5圖為本發明之立體組合圖。 第6圖為本發明與一散熱器組之立體組合圖。 1 1、座體上蓋 1 1 2、翼部 1 1 3、分隔肋 121 、卡勾 1 2 3、内槽框 21、下平面 【主要元件符號說明】 1 0、組合式座體 1 1 1、卡槽 1121、透孔 12、座體下蓋 1 2 2、溝槽 20、導熱管 200837324 211.大管道 3 0、吸熱銅板 32、内側平面 4 0、結合裝置 5 1、散熱鰭片 53、散熱風扇 2 1 2、小管道 31、段差 33、凹槽平面 50、散熱器組 5 2、鰭片蓋體 9200837324 IX. Description of the invention: [Technical field to which the invention pertains] A heat pipe and a seat body coupling device, especially a device that is applied to a heat sink and is more convenient to assemble. [Prior Art] According to the conventional heat pipe B combined with the seat A, as shown in Fig. 1, the heat-dissipating copper plate C and the heat-conducting pipe B are first placed in a mold, and are integrally formed. After the actual implementation, it has the following disadvantages: 1. Because the heat-dissipating copper plate C and the heat-conducting tube B are first placed in the mold, the heat-dissipating copper plate C and the heat-conducting tube B cannot be reliably positioned. 2. It is made by one-piece forming method. If the seat A is badly formed, the whole group needs to be scrapped, and the heat-dissipating copper plate C and the heat-conducting pipe B cannot be recovered. Therefore, the manufacturing cost will be greatly consumed. SUMMARY OF THE INVENTION The present invention provides a "heat-conducting pipe and a seat body bonding device", which is designed to improve the combination of a heat-conducting pipe and a seat body which are produced by a known integrated molding method, which is easy to form a whole group due to poor molding of the seat body. The heat pipe is placed on the heat absorbing copper plate, and the upper cover of the seat body and the lower cover of the seat body are fastened by snapping, which is the main purpose of the invention. In order to achieve the foregoing object, the technical means for the present invention is to provide a heat pipe and a seat body assembly device, the assembly comprising a heat pipe, a heat absorbing copper plate and a combined body having a seat upper and a lower cover; The endothermic copper plate is surrounded by a step to increase the strength and reduce the low cost of 200837324. It can also achieve the rapid positioning effect after the lower cover of the seat body is placed; the heat pipe is directly placed above the heat absorbing copper plate, and can be placed under the seat body. The front and rear sides of the cover are positioned corresponding to the grooves of the heat pipe shape; the combined seat body is divided into the upper cover of the seat body and the lower cover of the seat body, which are separately assembled and assembled, and solved. The heat pipe and the seat body are integrally formed at the time of production, and the problem that the heat absorbing copper plate and the heat pipe cannot be recovered is also produced. At the same time, industrial utilization is also proposed. [Embodiment] So far, in order to provide a more detailed appearance and features of the present invention, the following description will be made with reference to the drawings: Referring to Figures 2 and 3, the heat pipe and the housing coupling device 40 of the present invention includes The combined base 10, the heat pipe 20 and the heat absorbing copper plate 30; wherein the combined body 10 is assembled separately and is separately formed and has a seat upper cover 11 and a seat lower cover 12, the seat body The left and right sides of the cover 11 are respectively provided with a card slot 1 1 1 for coupling with the lower cover 12 of the seat body, and the front and rear sides are provided with two wing portions 1 1 2, and a plurality of through holes 1 1 2 1 are provided thereon. It can be used to insert and fix the heat pipe 20, and the inner side is provided with a plurality of dividing ribs 113 for positioning the heat pipe 20; and the left and right sides of the seat lower cover 12 are provided corresponding to the left and right sides of the seat cover 1 1 The hook 121 of the card slot 1 1 1 is combined with the slot 111 of the upper cover 11 of the base body, and the front and rear sides are provided with a groove 1 2 2 corresponding to the outer shape of the heat pipe 20 for positioning heat conduction. The tube 20 is provided with an inner frame 123 corresponding to the outer shape of the heat absorbing copper plate 30 for positioning and fixing the heat absorbing copper plate 30. The endothermic copper plate 30 is provided with a step difference of 3 1 to increase the strength and reduce the low cost of 200837324. It can also achieve the rapid positioning effect after inserting the inner frame 123 of the lower cover 12 of the seat body, and the inner side of the heat absorbing copper plate 30 The plane 3 2 is provided with a groove plane 33 which allows the lower plane 21 of the heat pipe 20 to be closer to the heat source. The heat pipe 20 is placed above the heat absorbing copper plate 30. The heat pipe is integrally formed, and its outer shape is U-shaped, and is formed by a large pipe 211 and a plurality of small pipes 212 communicating with each other at the bottom. And a lower plane 2 1 is disposed at a position in contact with the heat absorbing copper plate 30; a groove 1 2 2 corresponding to the outer shape of the heat pipe 2 0 is provided by the front and rear sides of the lower cover 1 2 of the seat body The plurality of partition ribs 1 1 3 provided on the inner side of the upper cover 1 1 are positioned and fastened. In the assembly, the heat absorbing copper plate 30 is first placed in the inner slot frame 1 2 disposed inside the lower cover 12 of the seat body, and then the heat pipe 20 is placed on the inner plane 32 of the heat absorbing copper plate 30. Above the groove plane 33, the sides of the lower cover 1 2 are placed on the front and rear sides of the seat body: corresponding to the groove 1 2 2 of the heat pipe 20, in order to achieve the positioning effect, and then the seat body The hooks 1 2 1 provided on the left and right sides of the lower cover 1 2 are combined with the corresponding card slots 1 1 1 provided on the left and right sides of the upper cover 11 to complete the assembly, and inserted into the upper cover of the seat cover 1 1 In the through hole 1 1 2 1 provided in the 1 1 2, the heat transfer pipe 20 and the heat absorbing copper plate 30 can be simultaneously secured by the partition rib 1 1 3 provided on the inner side of the seat cover 11 at the same time. In order to solve the problem of the conventional heat pipe and the body joint device, the present invention firstly uses the heat pipe 20 of the present invention to utilize the seat cover 11 and the seat cover 12 of the combined base 10 to 7 200837324 card. After the buckle is assembled, it is combined with a heat sink 50 and placed on the heat source; the heat sink 50 shown in FIG. 4 includes the heat sink fins 5 1 and the fin cover 5 2 and a cooling fan 5 3 ; wherein the heat dissipating fins 51 are provided with a plurality of slotted heat dissipation holes, and the four corners are provided with coupling holes for combining with the fin cover 52 for use with a heat dissipation fan 53; A heat sink 50 with excellent heat dissipation performance is formed. [Simple description of the drawing] Fig. 1 is an external perspective view of a conventional heat pipe and a seat body coupling device. Figure 2 is an exploded perspective view of the present invention. Figure 3 is a plan view of the heat pipe of the present invention. Figure 4 is a cross-sectional view of the position A-A of Figure 3; Figure 5 is a perspective assembled view of the present invention. Figure 6 is a perspective assembled view of the present invention and a heat sink assembly. 1 1. Seat cover 1 1 2, wing 1 1 3, partition rib 121, hook 1 2 3, inner frame 21, lower plane [Description of main components] 1 0, combined seat 1 1 1 Card slot 1121, through hole 12, seat lower cover 1 2 2, groove 20, heat pipe 200837324 211. large pipe 30, heat absorbing copper plate 32, inner plane 40, bonding device 5 1, heat sink fin 53, heat dissipation Fan 2 1 2, small pipe 31, step 33, groove plane 50, radiator set 5 2, fin cover 9