M412067 五、新型說明: _ 【新型所屬之技術領域】 本新型是有關於-種石夕橡踢層狀物,特別是指一種可 防止鏡面沾黏且耐壓的石夕橡耀薄片。 【先前技術】 見有之太陽4電池層I機在進行太陽能電池熱歷成型 作業時,為了達到加廢均勾、熱傳導性良好目的,是在一 加壓換具與該太陽能電池之間墊有一石夕橡朦層,但是該石夕 橡勝層表面與該太陽能電池麼合後容易產生鏡面沾黏,不 僅㈣響太陽能電池的產能,且剝離時更會造成石夕橡膠層 的1化、耐久性差,矽橡膠層需經常更換,也會降低產能 及提高耗材的成本。再者,這種矽橡膠層還必須具備耐壓 的機械強度。 —另外,用於成型印刷電路板之印刷電路板熱壓機,在 進行印刷電路板熱壓成型作業時,也必須在一加壓模具與 該印刷電路板之間墊有一矽橡膠層,且同樣也會產生上述 的問題。 【新型内容】 因此本新型之目的,即在提供一種可克服鏡面沾黏 問題、可提高產能且可提昇耐壓強度之可防止鏡面沾黏且 耐壓的矽橡膠薄片。 於疋,本新型可防止鏡面沾黏且耐壓的矽橡膠薄片, 芩合一耐壓織物層及一矽橡膠層。該耐壓織物層材質為聚 對苯一曱酿對苯二胺,由多數經向紗及多數緯向紗交錯編 3 M412067 織而成,該等經向紗與該等緯向紗的編織密度為8目〜2〇目 ,且該等經向紗與該等緯向紗分別由多股聚對苯二甲醯對 苯一胺複絲所撚成,該矽橡膠層包覆在該耐壓織物層外部 ,並具有一設於該耐壓織物層一側的第一外表面及一設於 該耐壓織物層另一側的第二外表面,該第—外表面與該第 二外表面至少其中之-呈霧面狀,表面平均粗度為〇〇〇5以 m~0.7 // m 〇 本新型之功效:利用該第一、二外表面至少其中之一 的表面平均粗度為0.005 ym〜0.7em,則可防止產生鏡面沾 黏,進而可提昇產能,且利用該耐壓織物層的設置,則可 提昇耐壓之機械強度。 【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。. 如圖1及圖2所示,本新型可防止鏡面沾黏且耐壓的 ♦橡膠薄#⑽之較佳實施例,適用於—為太陽能電池層 壓機之加壓裝置與一太陽能電池之間(圖未示),就形狀而 言’該石夕橡膠薄片100呈矩形,並具有一第一端部n〇、一 與該第一端部110相反的第二端部120、一連結在該第一、 二端部110、120之間的帛一侧緣13〇、一連結在該第一、 一端部U〇、120之間且與該第一側緣130相反的第二側緣 140 ’該第一、二側緣130、140之間的寬度ffi為500醒 4200 mm,該第_、二端部11〇、i2〇之間的長度u為 4 M412067 4000 mm〜4800咖。就紐 沉〜構而s,該矽橡膠薄片1〇〇包含— 财壓織物層10及一矽橡膠層20。 該耐壓織物層10 的材質為聚對苯二甲醯對苯二胺(太 實施例採用杜邦公司商垆 J冏铽名「Kevlar」之產品),且由多 經向紗11及多數緯向绅六奴站i 双 v 12父錯編織而成,該等經向紗 與該等緯向紗12的編键穷。 θ t 纖在度了為8目〜20目(目:mesh,8 疋在英于平方的面積有8x8個由經向.紗11及緯向紗 12圍出的網目,20目县私产»,丄τ 疋和在一央吋平方的面積有20x20個 由經向紗11及緯向纱τ ? 2圍出的網目),本實施例之耐壓織 物層的編織密度為1Q目,且該等經向紗u與該等緯向紗 12分別由多股聚對笨二甲酿對苯二胺複絲所樵成,該等經 向紗11與該等緯向紗12的撚度均為1GG〜_ (撚度是指每 公尺扭轉圈數),本實施例的撚度為2〇〇。 該石夕橡膠層2G包覆在該耐壓織物層外部,並且有― 於該耐壓織物層1G_側的第__外表面21及—設於該财壓 織物層10另一側的第二外表面22,該第―、二外表面21 、22均呈霧面狀’且表面平均粗度均狀奶m。 本實施例中是將該第…二外表面21、22均製成霧面 狀,但也可將該第—外表面21或該第二外表面22其中之 一製成霧面狀(圖未示)。 因此,當該太陽能電池層壓機在進行太陽能電池熱壓 成型作業時,在該加壓裝置與太陽能電池之間墊有該矽橡 膠薄片100,且利用該矽橡膠薄片100之第一、二外表面 21、22的表面平均粗度均為〇 〇〇5/zm〜〇 7wm,則可降低該 5 石夕橡膝薄片100與該太陽能電池壓合後產生鏡面沾黏,不 僅不會影響該太陽能電池的產能,且該矽橡膠薄片1〇〇與 該太陽能電池分離容易,剝離時可降低矽橡膠薄片1〇〇的 劣化程度、耐久性佳,再者,該矽橡膠薄片100不需要經 常更換’也可提昇產能及降低耗材的成本。 再者,利用該耐壓織物層10的設置,則當該矽橡膠薄 片1〇〇被壓制時,能產生較佳之抗壓強度,可抵抗的壓力 可高達16kg/cm2,所以具有較佳耐壓之機械強度,可延長 使用壽命。 再如圖3及圖4所示,本新型可降低鏡面沾黏且耐壓 的矽橡膠薄片100’之第二較佳實施例,適用於一為印刷電 路板熱壓機之加壓裝置與一為印刷電路板之被壓物之間( 圖未示),且與第一實施例的差異在於:該第一、二側緣 130, 、140’之間的寬度们為5〇〇咖〜6〇〇咖,該第一、二 端部110’、120’之間的長度L2為600麵〜15〇〇咖,但是總 厚度t2也為0.75刪〜20 mm。且本新型第二較佳實施例之矽 橡膠薄片100’,亦可達到與第一實施例相同的目的及功效 〇 本新型第二實施例也將該第一、二外表面21,、22,均製 成霧面狀,但也可將該第一外表面21,或該第二外表面22, 其中之·一製成霧面狀(圖未示)。 值得說明的是,上述矽橡膠薄片1〇〇、1〇〇,的製程可採 連續硫化方式,依序經過押出、壓延、一次硫化、二次硫 化等作業,其中一次硫化作業可採鼓式加硫機,二 M412067 作業可採烘箱,所製成的半成品長度不受侷限。上述實施 • 例中的長度Ll、L2是視產品應用之需要而裁切。此外,上 . 述矽橡膠層的材料可包含主劑【例如乙烯矽酯橡膠(VSi ) 、苯矽酯橡膠(PSi)、乙烯矽酯橡膠與苯矽酯橡膠聚合體( ’ PVSl)或氟化矽酯橡膠(FVSi)】、架橋劑(例如低溫反應 % 型過氧化物)及其他配合劑。 惟以上所述者’僅為本新型之較佳實施例而已,當不 • 能以此限定本新型實施之範圍,即大凡依本新型申請專利 • ㉚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。 【圖式簡單說明】 圖1是一前視組合圖,說明本新,可防止鏡面沾黏且 ί®的石夕橡膠薄片的—第—較佳實施例; 圖2疋本新型上述較佳實施例之一側視組合圖; - 疋本新型一第二較佳實施例的一前視組合圖;及 目X本新型第二較佳實施例之一側視組合圖。 7 M412067 【主要元件符號說明】 100 ... •…矽橡膠薄片 110… •…第一端部 120… •…第二端部 130… •…第一側緣 140… •…第二側緣 10…… …·耐壓織物層 11…… …經向紗 12…… …·緯向紗 20…… …矽橡膠層 21...... …第 外表面 22...... …第二外表面 W1…… …寬度 L1 ··..· …長度 tl…… …總厚度 100,… …矽橡膠薄片 110,… …第一端部 120, ... …第二端部 130,… …第一側緣 140, ... …第二側緣 21,..... …第 外表面 22,…… •..弟—外表面 W2…… …寬度 L2 … …長度 t2…… •••總厚度M412067 V. New description: _ 【New technical field of the invention】 This new type is related to the kind of Shixia rubber kick layer, especially the Shishi rubber sheet which can prevent the mirror from sticking and withstand pressure. [Prior Art] See the solar 4 battery layer I machine in the solar cell thermal calendar forming operation, in order to achieve the purpose of adding waste and good thermal conductivity, there is a pad between the pressurized converter and the solar cell. Shixi rubber layer, but the surface of the Shixia rubber layer is easy to produce mirror adhesion after the solar cell is combined, not only (4) the capacity of the solar cell, but also the peeling of the Shixia rubber layer. Poor performance, the rubber layer needs to be replaced frequently, which will also reduce the production capacity and increase the cost of consumables. Furthermore, such a rubber layer must also have mechanical strength against pressure. - In addition, a printed circuit board hot press for forming a printed circuit board must also have a rubber layer between a press mold and the printed circuit board during the hot press forming operation of the printed circuit board, and the same It will also cause the above problems. [New content] Therefore, the object of the present invention is to provide a ruthenium rubber sheet which can overcome the problem of mirror adhesion, can improve the productivity, and can improve the pressure resistance, and can prevent the mirror from being sticky and withstand pressure. Yu Yu, this new type can prevent the mirror-stick and pressure-resistant enamel rubber sheet, and combine a pressure-resistant fabric layer and a rubber layer. The pressure-resistant fabric layer is made of polyparaphenylene-p-phenylenediamine, which is woven from a plurality of warp yarns and a plurality of weft yarns interlaced with 3 M412067, and the warp yarns and the weft density of the weft yarns. It is 8 mesh to 2 mesh, and the warp yarns and the weft yarns are respectively formed by a plurality of poly(p-xylylene)-p-phenyleneamine multifilaments, and the rubber layer is coated with the pressure resistance. Outside the fabric layer, and having a first outer surface disposed on one side of the pressure resistant fabric layer and a second outer surface disposed on the other side of the pressure resistant fabric layer, the first outer surface and the second outer surface At least one of them - a matte surface, the average surface roughness is 〇〇〇5 to m~0.7 // m. The effect of the novel: the average surface roughness of at least one of the first and second outer surfaces is 0.005 Ym~0.7em can prevent the mirror surface from sticking, which can increase the productivity, and the use of the pressure-resistant fabric layer can improve the mechanical strength of the withstand voltage. 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. As shown in FIG. 1 and FIG. 2, the preferred embodiment of the present invention can prevent the mirror surface from being sticky and pressure-resistant. The preferred embodiment of the rubber thin film (10) is suitable for the pressure device of a solar cell laminator and a solar cell. Between the figures (in the shape of the shape), the stone-like rubber sheet 100 has a rectangular shape and has a first end portion n〇, a second end portion 120 opposite to the first end portion 110, and a a first side edge 13〇 between the first and second end portions 110 and 120, and a second side edge 140 connected between the first and second end portions U〇 and 120 and opposite to the first side edge 130 The width ffi between the first and second side edges 130, 140 is 500 awake 4200 mm, and the length u between the first and second end portions 11 〇 and i2 为 is 4 M412067 4000 mm to 4800 café. The enamel rubber sheet 1 〇〇 comprises a financial layer 10 and a rubber layer 20. The material of the pressure-resistant fabric layer 10 is polyparaphenylene terephthalamide (the product of the example is "Kevlar" by DuPont Co., Ltd.), and the multi-directional yarn 11 and most latitudinal directions are used. The six-slave station i double v 12 father is woven, and the warp yarns and the weft yarns 12 are poorly programmed. The θ t fiber has a degree of 8 mesh to 20 mesh (mesh: 8 疋 in the square of the area of 8x8 meshes surrounded by warp yarns 11 and weft yarns 12, 20 mesh county private goods»,丄τ 疋 and 20x20 meshes surrounded by warp yarns 11 and weft yarns τ 2 in an area of square 在一 square, the weaving density of the pressure-resistant fabric layer of the present embodiment is 1Q mesh, and such The warp yarns u and the weft yarns 12 are respectively formed by a plurality of poly-p-diphenylene-p-phenylenediamine multifilament yarns, and the warp yarns 11 and the weft yarns 12 have a twist of 1GG~ _ (捻 degree refers to the number of turns per meter), and the twist of this embodiment is 2〇〇. The stone-like rubber layer 2G is coated on the outside of the pressure-resistant fabric layer, and has a first outer surface 21 on the pressure-resistant fabric layer 1G_ side and a second side on the other side of the financial fabric layer 10. The outer surface 22 of the second outer surface 22 has a matte shape and a uniform surface roughness of the milk m. In this embodiment, the second outer surfaces 21, 22 are all made into a matte surface, but one of the first outer surface 21 or the second outer surface 22 may be made into a matte surface (Fig. Show). Therefore, when the solar cell laminator performs the hot press forming operation of the solar cell, the crucible rubber sheet 100 is interposed between the pressurizing device and the solar cell, and the first and second outer sheets of the crucible rubber sheet 100 are utilized. The average surface roughness of the surfaces 21 and 22 is 〇〇〇5/zm~〇7wm, which can reduce the surface adhesion of the 5 stone ridge rubber sheet 100 to the solar cell, which will not affect the solar energy. The production capacity of the battery is such that the ruthenium rubber sheet is easily separated from the solar battery, and the degree of deterioration of the ruthenium rubber sheet 1 、 can be reduced and the durability is good, and the ruthenium rubber sheet 100 does not need to be frequently replaced. It can also increase production capacity and reduce the cost of consumables. Moreover, by using the arrangement of the pressure-resistant fabric layer 10, when the enamel rubber sheet 1 is pressed, a better compressive strength can be produced, and the resistive pressure can be as high as 16 kg/cm2, so that the pressure is better. The mechanical strength can extend the service life. As shown in FIG. 3 and FIG. 4 , the second preferred embodiment of the present invention can reduce the viscous and pressure-resistant enamel rubber sheet 100 ′, and is suitable for a pressing device for a printed circuit board hot press and a It is between the pressed objects of the printed circuit board (not shown), and differs from the first embodiment in that the width between the first and second side edges 130, 140' is 5 〜 〜 〜 6 The length L2 between the first and second end portions 110' and 120' is 600 to 15, but the total thickness t2 is also 0.75 to 20 mm. Moreover, the second rubber sheet 100' of the second preferred embodiment of the present invention can achieve the same purpose and effect as the first embodiment. The second and second outer surfaces 21, 22 are also used in the second embodiment of the present invention. Each of the first outer surface 21 or the second outer surface 22 may be formed into a matte surface (not shown). It is worth noting that the above-mentioned enamel rubber sheet 1 〇〇, 1 〇〇, the process can be continuously vulcanized, followed by extrusion, calendering, primary vulcanization, secondary vulcanization, etc. The sulfur machine, the two M412067 work can be used in the oven, and the length of the semi-finished products made is not limited. The above implementations • The lengths L1 and L2 in the example are cut as needed for the application of the product. In addition, the material of the rubber layer may include a main agent such as vinyl oxime rubber (VSi), benzoate rubber (PSi), vinyl oxime rubber and benzoate rubber polymer ('PVSl) or fluorinated. Ester ester rubber (FVSi), bridging agent (such as low temperature reaction type peroxide) and other compounding agents. However, the above description is only a preferred embodiment of the present invention, and can not limit the scope of the implementation of the present invention, that is, the simple equivalent of the patent application, the scope of the new application, and the new description. Changes and modifications are still within the scope of this new patent. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front view combination diagram illustrating a new preferred embodiment of the present invention, which can prevent the mirror from being adhered and the ф® rubber sheet. FIG. 2 is a preferred embodiment of the present invention. An example of a side view of a second preferred embodiment of the present invention; and a side view of a second preferred embodiment of the present invention. 7 M412067 [Description of main component symbols] 100 ... • 矽 rubber sheet 110... • First end 120... • Second end 130... • First side edge 140... • Second side edge 10 ...... ... pressure-resistant fabric layer 11 ... ... warp yarn 12 ... ... ... weft yarn 20 ... ... 矽 rubber layer 21 ... ... outer surface 22 ... ... Two outer surfaces W1 ... ... width L1 · ·.. · ... length tl ... ... total thickness 100, ... 矽 rubber sheet 110, ... first end 120, ... second end 130, ... ...the first side edge 140, the second side edge 21, the outer surface 22, ....., the outer surface W2 ... ... the width L2 ... the length t2 ... ••Total thickness