200905903 九、發明說明: 【發明所屬之技術領域】 r 本發明是有關於一種太陽能電池散熱結構改良, 尤指一種可使電路層直接與薄膜絕緣層結合,取代習 用之緩衝層與陶瓷材料層,而達到提高散熱效率之功 效。 【先前技術J 按,一般習用太陽能電池散熱結構改良如第2圖 所示,其係其包含有一散熱鰭片組5、一層疊於散熱 鰭片組5—面上之之散熱膏5丄、一層疊於散熱膏 1 一面上之緩衝層5 2、一層疊於緩衝層一面上之陶 瓷材料層5 3、一層疊於陶瓷材料層5 3 一面上之電 路佈局層5 4、以及一層疊連接於電路佈局層$ 4一 面上之太陽能電池5 5 ;藉此,可利用太陽能電池5 5吸收太陽能光源進行光電轉換’並以電路佈局層5 4將轉換後之電能傳輸至後段之儲存單元上,且二夺 利用散錢片組5進行太陽能電池5 5及電路佈局層 5 4運作時之熱源散逸。 <自用之太陽能電池5 5可於光雷μ揸200905903 IX. Description of the invention: [Technical field to which the invention pertains] r The present invention relates to an improvement of a heat dissipation structure of a solar cell, and more particularly to a circuit layer directly bonded to a thin film insulating layer instead of a conventional buffer layer and a ceramic material layer. And to achieve the effect of improving heat dissipation efficiency. [Previous Art J, the conventional solar cell heat dissipation structure is improved as shown in FIG. 2, which comprises a heat dissipation fin group 5, a heat dissipation paste stacked on the surface of the heat dissipation fin group 5, and a heat dissipation paste. a buffer layer 52 laminated on one surface of the thermal grease 1 2, a ceramic material layer 5 3 laminated on one side of the buffer layer, a circuit layout layer 54 laminated on one surface of the ceramic material layer 5 3 , and a laminated connection circuit Layout layer $4 on the side of the solar cell 5 5; thereby, the solar cell 5 5 can be used to absorb the solar light source for photoelectric conversion' and the converted power is transmitted to the storage unit of the rear stage by the circuit layout layer 5, and The use of the loose money sheet group 5 carries out the heat dissipation of the solar cell 5 5 and the circuit layout layer 5 4 operation. <Used solar cells 5 5 can be used in light mines
池5 5及電路佈局層5 5進行太陽能電池5 5及電路 源散逸;但是由於該太陽能電 4於運作時係產生相當高之溫 200905903 度,因此,易使散熱膏5 1受高熱而變質,進而導致 散熱鰭片組5與陶瓷材料層5 3之間有脫落或無法穩 固連接之情形發生,造成太陽能電池5 5及電路佈局 層5 4於運作時所產生之高溫度無法有效散逸’而影 響太陽能電池5 5及電路佈局層5 4於使用時之速率 及穩定性。 【發明内容】 本發明之主要目的係在於,可使電路層直接與薄 膜絕緣層結合,取代f用之緩衝層與陶㈣料層,而 達到提高散熱效率之功效。 層 面上之太陽能電池 為達上述之目的’本發明係一種太陽能電池散轨 裝置’其包含有—具有平面部及多數W體之散 二:缘:層叠於平面部上之薄膜絕緣層;-層疊於 :膜:邑緣層一面上之電路層;以及-層疊連接於電路 :實施方式】 咅FI ^ m ^ - 斤 係本發明之剖面狀態示 本發明係-種太陽能電池散埶封穿 裝置,其至少係由—双…、对裒 —電路岸Ί i …早70 1、—薄臈絕緣層2、 路層3、-太陽能電池4所構成, 絕緣層2與散熱單元1穩固結合,取代;用 ㈣層與Μ材料層,而達到提高散熱效率之= 200905903 ^上述所提之散熱單元1係具有一平面部1 1,該 平面部1 1係延伸有多數鰭片體i 2,且該散熱單元 r 1係為銅之材質或為鋁、鎳之混合材質所製成。 该薄膜絕緣層2係層疊於上述散熱單元工之平面 部1 1上,而該薄膜絕緣層2做為黏著層使用係為塑 化奈米材質。 該電路層3係層疊於上述薄膜絕緣層2上,而該 電路層3係為金屬材質所製成;且該電路層3上係具 有配合太陽能電池4所需之電子電路佈局。 ” 該太陽能電池4係層疊連接於上述電路層3之一 如疋,藉由上述之結構構成一全新之太陽能電 池散熱結構改良。 ”’τ上所述本發明太陽能電池散熱結構改良可有 效改善習用之種種缺點,可使電路層藉㈣膜絕緣層 與散熱單元穩固結合,㈣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 確已符合發明專利申請之要件,麦依法提 出專利申請。 惟以上所述者,僅為本發明之較佳實施例而已, 當不能以此限定本發明實施之範圍;故,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 化與修飾,皆應仍屬本發明專利涵蓋之範圍内。 200905903 【圖式簡單說明】 第1圖,係本發明之剖面狀態示意圖。 第2圖,,係習用之剖面狀態示意圖。 r 【主要元件符號說明】 (本發明部分) 散熱單元1 平面部1 1 鰭片體1 2 薄膜絕緣層2 " 電路層3 太陽能電池4 (習用部分) 散熱鰭片組5 散熱膏5 1 緩衝層 52 陶瓷層 53 電路層 5 4 太陽能電池 5 5The solar cell 5 5 and the circuit layout layer 5 5 are used to dissipate the solar cell 5 5 and the circuit source; however, since the solar cell 4 generates a relatively high temperature of 200,905,903 degrees during operation, the thermal grease 51 is easily deteriorated by high heat. Further, the situation that the heat dissipation fin group 5 and the ceramic material layer 53 are disconnected or cannot be stably connected occurs, and the high temperature generated by the solar cell 5 5 and the circuit layout layer 54 during operation cannot be effectively dissipated. The rate and stability of the solar cell 5 5 and the circuit layout layer 5 4 in use. SUMMARY OF THE INVENTION The main object of the present invention is to enable a circuit layer to be directly bonded to a thin film insulating layer instead of a buffer layer for f and a ceramic (four) material layer, thereby achieving the effect of improving heat dissipation efficiency. The solar cell on the level is for the above purpose. The present invention relates to a solar cell track device comprising: a flat portion and a plurality of W bodies: a film insulating layer laminated on a flat portion; </ RTI> film: a circuit layer on one side of the rim edge layer; and - layered connection to the circuit: embodiment 咅FI ^ m ^ - 斤系 The cross-sectional state of the present invention shows the solar cell entanglement device of the present invention It is composed of at least - double ..., 裒 裒 - circuit Ί i ... early 70 1 , - thin tantalum insulating layer 2, road layer 3, - solar cell 4, the insulating layer 2 and the heat dissipating unit 1 are firmly combined, replaced; Using the (four) layer and the tantalum material layer to achieve heat dissipation efficiency = 200905903 ^ The above-mentioned heat dissipating unit 1 has a flat portion 1 1 , which extends a plurality of fins i 2 , and the heat dissipation The unit r 1 is made of copper or a mixture of aluminum and nickel. The thin film insulating layer 2 is laminated on the flat portion 1 1 of the heat dissipating unit, and the thin film insulating layer 2 is made of a plastic nano material as an adhesive layer. The circuit layer 3 is laminated on the thin film insulating layer 2, and the circuit layer 3 is made of a metal material; and the circuit layer 3 has an electronic circuit layout required for the solar cell 4. The solar cell 4 is laminated and connected to one of the circuit layers 3, such as a crucible, and the above structure constitutes a new solar cell heat dissipation structure improvement. "The improvement of the heat dissipation structure of the solar cell of the present invention can effectively improve the use. The shortcomings can make the circuit layer firmly combine with the heat dissipation unit by (4) the film insulation layer, and (4) improve the heat dissipation efficiency, thereby making the invention more progressive, more practical, and more suitable for use. Essentials, Mai filed a patent application. However, the above is only the preferred embodiment of the present invention, and the scope of the present invention is not limited thereto; therefore, the simple equivalent changes and modifications made in accordance with the scope of the present invention and the contents of the description of the present invention All should remain within the scope of the invention patent. 200905903 [Simplified description of the drawings] Fig. 1 is a schematic view showing the state of the present invention. Fig. 2 is a schematic view showing the state of the profile. r [Description of main component symbols] (part of the invention) Heat dissipating unit 1 Planar part 1 1 Fin body 1 2 Thin film insulating layer 2 " Circuit layer 3 Solar cell 4 (conventional part) Heat sink fin group 5 Thermal grease 5 1 Buffer Layer 52 ceramic layer 53 circuit layer 5 4 solar cell 5 5