200905904 九、發明說明: 【發明所屬之技術領域】 、本發明是有關於一種太陽能電池散熱封裝裝置, 尤指-種可使陶瓷層藉由緩衝層及黏著層與散熱單元 穩固結合,而達到提高散熱效率之功效者。 【先前技術】 —按:-般習用太陽能電池之散熱裝置如第3圖所 Γ:其包含有一散熱鰭片組8、一層疊於散熱鰭 __ 自上之之政熱膏81、-層疊於散熱膏81 面上之陶瓷材料層8 2、一層疊於陶瓷材料層82 局路佈局層83、以及一層疊連接於電路佈 陽:電池:^上之太陽能電池84 ;藉此,可利用太 路二展Q °及收太陽能光源進行光電轉換’並以電 。曰8 3將轉換後之電能傳輸至後段之儲存單元 上’且同時利用散教妹η 電路佈局居83、軍;:: 丁太陽能電池84及 句層8 3運作時之熱源散逸。 後,=2習用之太陽能電池84可於光電轉換200905904 IX. Inventive description: [Technical field of the invention] The present invention relates to a solar cell heat-dissipating packaging device, in particular to enable the ceramic layer to be stably combined with a heat dissipation unit by a buffer layer and an adhesive layer. The efficacy of heat dissipation efficiency. [Prior Art] - According to the conventional heat sink of the solar cell, as shown in Fig. 3, it comprises a heat sink fin group 8, a heat sink paste stacked on the heat sink fin __, and a layered on a ceramic material layer 8 on the surface of the thermal grease 81, a laminated circuit layer 83 on the ceramic material layer 82, and a solar cell 84 laminated on the circuit: battery: ^; Second, show Q ° and receive solar energy source for photoelectric conversion 'and electricity.曰8 3 Transfer the converted power to the storage unit of the latter stage and at the same time utilize the layout of the η 妹 η circuit, 83; Army;:: The heat source of the solar cell 84 and the sentence layer 8 3 are dissipated. After, =2 conventional solar battery 84 can be converted into photoelectric
上,、,佈局層8 3將電能傳輸至後段之儲存單元 上亚利用散執趙g έ日《、仓一 L 佈局層8 ^ 陽能電池8 4及電路 、.也8 之熱源散逸;但是由於該太陽能電 佈局層83於運作時係產生相當高之溫 :埶,片έ ^使政熱膏8 1受高熱而變質,進而導致 與Μ材料層82之間有脫落或無法穩 200905904 固連接之情形發生,造成太陽能電池8 4及電路佈局 層8 3於運作時所產生之高溫度無法有效散逸,而影 r響太陽能電池8 4及電路佈局層8 3於使用時之速率 i穩定性。 【發明内容】 本發明之主要目的係在於,可使陶瓷層藉由緩衝 層及黏著層與散熱單元穩固結合,而達到提高散熱效 率之功效。 為達上述之目的,本發明係一種太陽能電池散熱 封裝裝置,其包含有—具有平面部及鰭片體或只為一 平面之散熱單元;一層疊於平面部上之黏著層;一層 疊於黏著層上之緩衝層;一層疊於緩衝層一面上之陶 瓷層;一層疊於陶瓷層一面上之電路層;以及一層疊 連接於電路層一面上之太陽能電池。 【實施方式】 請參閱『第1A圖及第1B圖』所示,係分別為 本發明之第一實施杳!面狀態示意圖及本發明之第二實 施剖面狀態示意圖。如圖所示:本發明係—種太陽能 電池散熱封裝裝置,其至少係由-散熱單元丄、一黏 著層V 一緩衝層3、一陶兗層4、-電路層5以及 -太陽能電池6所構成,可使陶免層4#由緩衝们 3著層/與散熱單元1穩固結合,而達到提高散熱 效率之功效。 200905904 、声 迷所^之散熱單元1係具有一平面部ii,該 :面邛1 1係延伸有鰭片體i 2,且該散熱單元i係 為銅之材質或為紹、錄之混合材質所 熱單元i亦可為—平面之金屬板13。 該點著層2係層疊於上述散熱單元工之平面部工 1上,而該黏著層2係為錫膏。 該緩衝層3係層疊於上述黏著層2上,而該緩衝 3層係為錫膏材質所製成。 边陶兗層4係層叠於上述緩衝層3之一面上。 该電路層5係層疊於上述陶£層4之—面上,且 °玄電路層5上係具有配合太陽能電池6所需之電子電 路佈局6 該太陽能電池6係層疊連接於上述電路層5之一 ^藉由上述之結構構成一全新之太陽能電 池散熱封裝裝置。 立5月參閱『第2圖』所示,係本發明之使用狀態示 〜圖如圖所示·當本發明於運用時,係可於該電路 層f係連接有一能量儲存單元7;而使用時係藉由太 1¼把電池6及收太&之照射光源,並同時進行所需之 光^•轉換’之後II由電路層5之導通作為太陽能電池 6將光產生電之後傳輸至能量儲存單元?,達到光電 轉換後電能之儲存’當太陽能電池6吸收太陽之照射 7 200905904 光源、以及電路層5於運作時,係會同時產生高溫度 之熱源,此時該熱源即會由陶瓷層4吸收之後,透過 ,衝層3及黏著層2傳遞至散熱單,使該散熱 單兀* 1利用其鰭片體1 2進行熱源之散逸,藉以使太 陽能電池6及電路層5於運作時可獲較佳之散熱效 率,以提高太陽能電池6及電路層5於使用時之速率 及穩定性。 综上所述,本發明太陽能電池散熱封裝裝置可有 效改善習用之種種缺點,可使陶究層藉由緩衝層及黏 者層與散熱單元穩固結合,而達到提高散熱效率之功 效’進而使本發明之産生能更進步、更實用、更符合 使用者之㈣’確6符合發明專财請之要件,差依 法出專利申請。 *惟以上所述者,僅為本發明之較佳實施例而已, 虽不能以此限定本發明實施之範圍;&,凡依本發明 申請專利範圍及發明說明書内容所作之簡單的等效變 化與修_ ’皆應仍屬本發明專利涵蓋之範圍内。 200905904 【圖式簡單說明】 第1 A圖,係本發明 墙弟^剖面狀態示意圖 第1 Β圖’係本發明之篦-杳 Γ 弟一實轭剖面狀態示意圖 第2圖,係本發明之使用狀態示意圖。 第3圖,係習用之剖面狀態示意圖。 【主要元件符號說明】 (本贅明部分) 散熱單元1 平面部1 1 鰭片體1 2 金屬板1 3 黏著層2 緩衝層3 陶瓷層4 電路層5 太陽能電池6 能量儲存單元7 (習用部分) 散熱韓片組8 散熱膏8 1 200905904 陶瓷材料層8 2 電路佈局層8 3 太陽能電池8 4Up,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, Since the solar power distribution layer 83 generates a relatively high temperature during operation: έ, έ 使 使 政 政 政 政 使 使 使 政 政 政 政 政 政 政 政 政 政 政 政 政 政 政 政 政 政 政 政 政 政 政 政 政 政 政 政 政 政 政 政 政 政 政The situation occurs that the high temperature generated by the solar cell 84 and the circuit layout layer 83 is not effectively dissipated, and the rate i stability of the solar cell 84 and the circuit layout layer 8 is used. SUMMARY OF THE INVENTION The main object of the present invention is to enable the ceramic layer to be stably combined with the heat dissipating unit by the buffer layer and the adhesive layer, thereby achieving the effect of improving heat dissipation efficiency. In order to achieve the above object, the present invention is a solar cell heat dissipating packaging device comprising: a heat dissipating unit having a flat portion and a fin body or only a plane; an adhesive layer laminated on the flat portion; a buffer layer on the layer; a ceramic layer laminated on one side of the buffer layer; a circuit layer laminated on one side of the ceramic layer; and a solar cell laminated on one side of the circuit layer. [Embodiment] Please refer to "1A and 1B" for the first embodiment of the present invention, and a schematic view of the second embodiment of the present invention. As shown in the figure: the present invention is a solar cell heat dissipation packaging device, which is at least composed of a heat dissipating unit, an adhesive layer V, a buffer layer 3, a ceramic layer 4, a circuit layer 5, and a solar cell 6. The composition can make the ceramic layer 4# layered by the buffers 3/solidally combined with the heat dissipation unit 1 to achieve the effect of improving heat dissipation efficiency. 200905904 The heat dissipating unit 1 of the sound fan has a flat portion ii, the surface 邛1 1 is extended with a fin body i 2 , and the heat dissipating unit i is made of copper material or a mixed material of the recording and recording. The heat unit i can also be a flat metal plate 13. The dot layer 2 is laminated on the planar portion 1 of the heat dissipating unit, and the adhesive layer 2 is a solder paste. The buffer layer 3 is laminated on the adhesive layer 2, and the buffer layer 3 is made of a solder paste material. The side pottery layer 4 is laminated on one surface of the buffer layer 3. The circuit layer 5 is laminated on the surface of the above-mentioned ceramic layer 4, and the electronic circuit layer 6 required for the solar cell 6 is provided on the gradual circuit layer 5. The solar cell 6 is laminated and connected to the circuit layer 5 described above. A new solar cell heat dissipation package is constructed by the above structure. Referring to "Fig. 2" in May, the state of use of the present invention is shown in the figure. As shown in the figure, when the present invention is applied, an energy storage unit 7 can be connected to the circuit layer f; At the same time, by illuminating the light source 6 and the light source of the solar cell and simultaneously performing the required light conversion, the second layer is turned on by the circuit layer 5 as the solar cell 6 to generate electricity and then transmitted to the energy storage. unit? , to achieve the storage of electrical energy after photoelectric conversion 'When the solar cell 6 absorbs the sun's illumination 7 200905904 When the light source and the circuit layer 5 are in operation, a high-temperature heat source is simultaneously generated, and the heat source is absorbed by the ceramic layer 4 at this time. Through the transfer layer 3 and the adhesive layer 2 to the heat dissipation sheet, the heat dissipation unit*1 uses the fin body 12 to dissipate the heat source, so that the solar cell 6 and the circuit layer 5 can be better in operation. The heat dissipation efficiency is to increase the rate and stability of the solar cell 6 and the circuit layer 5 when in use. In summary, the solar cell heat dissipating packaging device of the present invention can effectively improve various disadvantages of the conventional use, and the ceramic layer can be stably combined with the heat dissipating layer by the buffer layer and the adhesive layer to achieve the effect of improving heat dissipation efficiency. The invention can be made more progressive, more practical, and more in line with the user. (4) 'There are 6 requirements for the invention of special funds, and the patent application for the law is poor. * The above is only the preferred embodiment of the present invention, and the scope of the present invention is not limited thereto; & simple equivalent changes made according to the scope of the present invention and the contents of the description of the invention And repairs should be within the scope of the invention patent. 200905904 [Simple description of the drawings] Fig. 1A is a schematic view of the profile of the wall of the present invention. Fig. 1 is a schematic view of the state of the present invention. State diagram. Figure 3 is a schematic view of the profile state of the conventional use. [Description of main component symbols] (This section) Heat dissipating unit 1 Planar part 1 1 Fin body 1 2 Metal plate 1 3 Adhesive layer 2 Buffer layer 3 Ceramic layer 4 Circuit layer 5 Solar cell 6 Energy storage unit 7 (custom part) Cooling Korean film set 8 Thermal grease 8 1 200905904 Ceramic material layer 8 2 Circuit layout layer 8 3 Solar battery 8 4