201249758 六、發明說明: 【發明所屬之技術領域】 本發明涉及-種具有立鮮狀賴及其模具、觸概應裝置與製 造方法,該立體造型之玻璃可應用於各種電子產品上,例如作為具有顯 示裝置產品之螢幕保護玻璃、或者產品之外殼、或者產品之蓋板等外觀 件、或者觸控裝置、或者產品之功能按鍵、或者觸控面板等。 【先前技術】 熱彎玻璃係將玻璃加熱到接近其軟化點,並藉由各種特定的模具使 玻璃成為具有非平面形狀之產品。習知採用熱彎製程加工的曲面玻璃製 ’例如使驗汽賴風玻璃或_用的曲面玻料,此種在玻璃加熱 達到可塑型溫度後,采自身重力作用、氣壓式輔助、或機械式輔助的^ 垂脊曲成型,其玻璃本身需要有-定的重量,並且厚度在5mm至19mm 間。一般而言,此種製程進行加工之玻璃其最小曲率半徑約在 1000mm ’且該玻璃表面均無立體造型。現有具有顯示裝置產品之保護 玻璃、外殼、蓋板或觸控面板玻璃,主要採用平板玻璃,且無立體造型。 現有採用機械加X成型之立體結構_,其結構為—凹面頂面及一平面 底面,其中頂面包括中間之平面以及邊緣之曲面。現有採用機械加工成 型的立體結構玻璃板,其製造過程繁複,且結構單一,無法達成複雜之 外型设現有採用模造製程加工成型的曲面玻璃製品,如光學元件, 其,.’σ構举一且為軸對稱之設計,亦無立體造型。 【發明内容】 、鑒於上述内容,本發明之目的在於提供一種具有立體造型之玻璃、 2以製k該玻璃之模具及其製造方法、以及由該玻成的觸控感應裝 置’所述玻璃具有由凹紋或者凸紋所形成之立體造型區。 本發明之目_細如下技術方輯成的:—種—體麵且具有立 f造型之賴,所述_包括補設置料表面_表面,所述玻璃包 形成於外表面或者内表面上的立體造舰,所述立體造型區包括自外 表面或者喊面凹郷成之酿或者凸出外表面或相表面之凸紋。 201249758 進-步地’所述凹紋或者凸紋構成文字、數字或者圖樣。 進一步地’所述_解板綱,所料表面與喊_為平面。 進一步地’所述玻璃為立體結構玻璃,所述外表面為-曲面、或者 至少兩曲狀組合、或者曲面與平面之組合 '或者至少兩平面之組合; 所述内表面為-曲面、或者至少兩曲面之組合 ^ 合、或者至少斜面之組合^ 面之組 進-步地,所述立體造型區位於曲面或者平面處。 進-步地’所述玻觀括主體部及自主體部的週邊—體延伸出來的 若干延伸部,所述玻翻俯視圖所呈現的幾何形狀為多邊形 或糖圓形、或扇形、或弓形、或自由造型、或以上形狀之組合。 進一步地,所述玻璃包括±體部及與主體部相連且自主體部的至少 -側延伸之料部’所述主體雜有第—外表面及第—内表面,所述臀 曲部包括第二外表面及第二内表面,所述玻璃的外表面包括第—外表面 及第二外表面’所述玻璃的内表面包括第—内表面及第二内表面,所述 立體造型區包括第一立體造型區及第二立體造型區。 、進-步地,所述立體造型區形成於第一外表面與第二外表面上所 述立體造型ϋ包括凸出第—外表面之第—凸紋及凸出第二外表面之第 二凸紋。 、進-步地’所述立體造型區形成於第一外表面與第二外表面上,所 述立體造型區包括凹人第-外表面之凹紋及凸出第二外表面之第二凸 紋。 進一步地’所述玻璃用以作為具有顯示裝置產品之螢幕保護玻璃、 或者產品之外殼、或者產品之蓋板、或者觸控裝置、或者產品之功能按 鍵、或者觸控面板。 本發明之目的亦可藉以如下技術方案達成的:製造上述玻 璃之模具’所賴具包括料立财型之模倾賴仁設有對應於立體 造型區之模仁立體造型區。 4 201249758 進-步地’所述模仁立體造㈣可以拆卸、#換或者組合以呈現出 不同的立體造型。 進一步地,所述模仁係指上模仁或者下模仁或者上模仁與下模仁之 組合。 本發明之目的亦可藉以如下技術方案達成的:一種具有立體造型之 觸控感應裝置,其包括上述玻璃,所述玻璃還包括觸控感測元件區,所 述觸控感測元件區用以感應觸控感應裝置之觸控感應區域是否被觸碰。 進一步地’所述觸控感測元件區位於内表面。 進一步地,所述觸控感測元件區位於與内表面對應之另一基板。 進一步地,所述觸控感測元件區位於所述玻璃之側面。 進一步地,所述觸控感測元件區所對應之觸控感測元件可為透明導 電膜或者光學元件或其他具有觸控感應功能元件。 本發明之目的亦可藉以如下技術方案達成的:一種具有立體造型之 玻璃的製造方法,其包括如下步驟: si ’將玻璃胚材放入具有模仁立體造型區之成型模具中; S2,將玻璃胚材與成型模具一起加熱至玻璃胚材之可塑型溫度·, 53 ’對成型模具施加壓力進行玻璃胚材壓造,以將模仁立體造型區 之立體造型轉印至玻璃胚材上,得到玻璃成品; 54 ’將成型模具與玻璃成品進行冷卻退火,以消除玻璃熱製程帶來 的熱應力; 55 ’釋放壓力’將玻璃成品從成型模具中取出以得到上述具有立體 造型之玻璃。 進一步地’所述可塑型溫度為介於玻璃轉化點和玻璃軟化點之間的 溫度。 與習知技術相比,本發明具有如下功效··藉由凹紋或者凸紋所形成 201249758 的立體造麵’所述酿或者凸紋可以構成文字、數字及圖樣,以便於 修飾或識別。 【實施方式】 請參圖1所示,本發明揭示了-種—體成型且具有立體造型之玻璃 100 ’其包括相對設置的外表面11與内表面12、以及形成於外表面u 或者内表面12上之立體造型區13(參圖i的虛線圈所示)。 請參圖2⑻至圖2(h)所示’所述立體造型區13包括自外表面u或 者内表面12凹設形成之酿14或者凸出外表面u或者内表面12之凸 紋15。具體地’請參圖2⑻所示,所述凸紋15向外突出於外表面^。 作為圖2⑷所示截面的另一種變化,圖中所顯示的凸紋15之 形狀與圖2⑻所示之凸紋15不同,惟圖2(b)中所顯示的凸紋15亦 突出於外表面11。 作為圖2(a)所示截面的另-種變化,@ 2(c)中所顯示的凸紋κ 形狀與圖2⑷所示之凸紋15相同,惟圖2(c)中所顯示的凸紋 内表面12。 作為圖2(b)所示截面的另-種變化,圖2⑷中所顯示的凸紋^ 形狀與圖2(b)所示之凸紋15相同,_ 2⑷中所顯示的凸紋15 内表面12。 ^ 請參圖2⑻所示,所述凹紋14係自外表面u凹陷形成的。201249758 VI. Description of the Invention: [Technical Field] The present invention relates to a mold having a vertical shape, a mold, a touch device and a manufacturing method, and the glass of the three-dimensional shape can be applied to various electronic products, for example, as A screen protection glass having a display device product, an outer casing of a product, or a cover such as a product cover, or a touch device, or a function button of the product, or a touch panel. [Prior Art] The hot bending glass heats the glass to near its softening point, and the glass becomes a product having a non-planar shape by various specific molds. It is known that the curved glass made by the hot bending process is used, for example, to make a wind-proof glass or a curved glass material, which is self-gravity, pneumatically assisted, or mechanically heated after the glass is heated to a moldable temperature. Auxiliary ^ vertical ridge bending, the glass itself needs a fixed weight, and the thickness is between 5mm and 19mm. Generally, the glass processed by such a process has a minimum radius of curvature of about 1000 mm' and the glass surface has no three-dimensional shape. Existing protective glass, housing, cover or touch panel glass with display device products mainly adopt flat glass and have no three-dimensional shape. In the prior art, a three-dimensional structure formed by mechanical plus X molding is used, and the structure is a concave top surface and a flat bottom surface, wherein the top surface includes a middle plane and a curved surface of the edge. The existing three-dimensional structural glass plate which is formed by machining has a complicated manufacturing process and a single structure, and cannot be complicated to form a curved glass product which is formed by using a molding process, such as an optical component, It is also axisymmetric and has no three-dimensional shape. SUMMARY OF THE INVENTION In view of the above, an object of the present invention is to provide a glass having a three-dimensional shape, a mold for manufacturing the glass, a method for manufacturing the same, and a touch sensing device of the glass. A three-dimensional modeling area formed by concave or convex lines. The object of the present invention is as follows: a kind of - decent and has a vertical f-shape, the _ includes a surface of the sizing material, the glass package is formed on the outer surface or the inner surface In the three-dimensional shipbuilding, the three-dimensional modeling area includes a embossing which is formed from the outer surface or the squeaking surface or protrudes from the outer surface or the surface surface. 201249758 Further, the indentation or relief forms a character, a number or a pattern. Further, the _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Further, the glass is a three-dimensional structural glass, and the outer surface is a curved surface, or at least two curved combinations, or a combination of curved surfaces and planes or a combination of at least two planes; the inner surface is a curved surface, or at least The combination of the two curved surfaces, or at least the combination of the inclined surfaces, is performed in a stepwise manner, and the three-dimensional modeling area is located at a curved surface or a plane. Further, the glass body includes a plurality of extensions extending from the body portion and the periphery of the body portion, and the top view of the glass top is geometric or polygonal, or fan-shaped, or arcuate, Or free-form, or a combination of the above shapes. Further, the glass includes a body portion and a material portion connected to the body portion and extending from at least a side of the body portion, wherein the body has a first outer surface and a first inner surface, and the hip portion includes a first portion a second outer surface and a second inner surface, the outer surface of the glass comprising a first outer surface and a second outer surface, the inner surface of the glass comprising a first inner surface and a second inner surface, the three-dimensional modeling area comprising A three-dimensional modeling area and a second three-dimensional modeling area. Stepwise, the three-dimensional modeling area is formed on the first outer surface and the second outer surface, and the three-dimensional shape includes a first protrusion protruding from the first outer surface and a second outer surface protruding from the second outer surface Embossed. Forming, in a stepwise manner, the three-dimensional modeling area is formed on the first outer surface and the second outer surface, the three-dimensional modeling area comprising a concave surface of the concave first-outer surface and a second convex protruding from the second outer surface Pattern. Further, the glass is used as a screen protection glass having a display device product, or a cover of a product, or a cover of a product, or a touch device, or a function key of a product, or a touch panel. The object of the present invention can also be achieved by the following technical solution: the mold for manufacturing the above-mentioned glass is provided with a mold-shaped three-dimensional modeling area corresponding to the three-dimensional modeling area. 4 201249758 Progressively, the mold cores can be disassembled, #changed or combined to present different three-dimensional shapes. Further, the mold core refers to an upper mold core or a lower mold core or a combination of an upper mold core and a lower mold core. The object of the present invention can also be achieved by the following technical solutions: a touch sensing device having a three-dimensional shape, comprising the glass, the glass further comprising a touch sensing component region, wherein the touch sensing component region is used for Whether the touch sensing area of the inductive touch sensing device is touched. Further, the touch sensing element region is located on the inner surface. Further, the touch sensing element region is located on another substrate corresponding to the inner surface. Further, the touch sensing element region is located on a side of the glass. Further, the touch sensing component corresponding to the touch sensing component region may be a transparent conductive film or an optical component or other device having a touch sensing function. The object of the present invention can also be achieved by the following technical solution: a method for manufacturing a three-dimensional shaped glass, comprising the steps of: si 'putting a glass blank into a molding die having a three-dimensional molding area of a mold; S2, The glass blank material is heated together with the molding die to a moldable temperature of the glass blank material, and 53 'pressure is applied to the molding die to press the glass blank material to transfer the three-dimensional shape of the three-dimensional molding area of the mold core to the glass blank material. Obtaining a finished glass product; 54 'Cooling and annealing the forming mold and the finished glass product to eliminate the thermal stress caused by the glass hot process; 55 'Release pressure' to take the finished glass product out of the forming mold to obtain the above-mentioned three-dimensional glass. Further, the moldable temperature is a temperature between the glass transition point and the glass softening point. Compared with the prior art, the present invention has the following effects: • formed by concave or convex lines. The three-dimensional surface of the 201249758 'the brewing or embossing can constitute characters, numerals and patterns for decoration or recognition. [Embodiment] Referring to Figure 1, the present invention discloses a seed-shaped and stereoscopically shaped glass 100' comprising an outer surface 11 and an inner surface 12 disposed opposite each other, and an outer surface u or an inner surface. The three-dimensional modeling area 13 on the 12 (shown in the dotted circle of Fig. i). Referring to Figures 2(8) through 2(h), the three-dimensional modeling area 13 includes a frit 14 formed by recessing the outer surface u or the inner surface 12 or projecting the outer surface u or the inner surface 12. Specifically, as shown in Fig. 2 (8), the ridge 15 protrudes outward from the outer surface ^. As another variation of the cross section shown in Fig. 2 (4), the shape of the ridge 15 shown in the figure is different from that of the ridge 15 shown in Fig. 2 (8), but the ridge 15 shown in Fig. 2 (b) also protrudes from the outer surface. 11. As another variation of the cross section shown in Fig. 2(a), the shape of the ridge κ shown in @2(c) is the same as that of the ridge 15 shown in Fig. 2(4), but the convexity shown in Fig. 2(c). Inner surface 12 of the grain. As another variation of the cross section shown in Fig. 2(b), the shape of the ridges shown in Fig. 2 (4) is the same as that of the ridge 15 shown in Fig. 2 (b), and the inner surface of the ridge 15 shown in _ 2 (4) 12. ^ As shown in Fig. 2 (8), the concave pattern 14 is formed by recessing from the outer surface u.
作為圖2(e)所示截面的另-種變化,圖2(f)中所顯示的凹紋M =與圖2⑻所示的凹紋14不同,2附所顯示的凹紋14同樣 外表面11凹陷形成的。 曰 作為圖2⑻所示截面的另一種變化,圖处)中所顯示的凹紋 =狀與圖2⑻所示的凹紋14相同,2(g)中所顯示的· 14係自^ 表面12凹陷形成的。 作為圖2(f)所示截面的另一種變化,圖2(h)中所顯示的凹紋以 狀與圖2(f)所示的凹紋14相同,惟圖2(h)中所顯示的凹紋⑷系自内表 201249758 面12凹陷形成的。 睛參圖3所示,本發明揭示了另—種—體成型且具有立體造型之玻 璃200 ’其與具有立體造型之玻璃i〇G的主要差別在於立體造型區之位 置及凹紋與凸紋之形狀。所述具有立體造S之玻璃2⑻包括相對設置的 外表面21與内表面22、以及形成於外表面21或者内表面22上的立體 造型區23(參圖3的虛線圈所示)。 請參圖4(a)至圖4(d)所示,所述立體造型區23包括自外表面21或 者内表面22凹設形成的酿24或者凸出外表面21或者内表面22的凸 紋25。所述凹紋24或者凸紋25可以構成文字或者數字以代表公司 名稱、產品名稱及產品型號等。具體地,請參圖4(a)所示,所述凸紋25 ^出於内表面22。請參圖4(b)所示,所述凸紋25亦可被設置成突出於 外表面2卜當然,作為圖4⑻與圖綱的另一種變化,所述凸紋25也 可以被凹紋24替代並且自内表面或者外表面a凹陷形成(請分別參 圖4(c)及圖4(d)所示)。 請參圖5所示’本發明揭示了另—種—體成型且具有立體造型之玻 璃300,其與具有立體造型之玻璃2〇〇的主要差別在於增加了凹紋與凸 紋之形狀以構成新的圖樣。所述具有立體造型之玻璃3⑻包括相對設置 =表面31與内表面32、以及形成於外表面31或者内表面32上的立 體ie型區33(參圖5的虛線圈所示)。 請參圖6⑻至圖6⑷所示,所述立體造型區33包括自外表面η或 =表面32凹設形成的酿34或者凸出外表面31或相表面%的凸 34或者驗35可⑽叙字、數字及_,以代表 a司名稱、產品名稱、產品载及商標等^ ^ 6(b)^, ,ί™ f ίΓ/Τ,面L作為圖6(a)與圖6(b)的另一種變化,所述 分別_ 自内表面32或者外表面31凹陷形成(請 具有立體造型之玻璃100、、300均為平板玻璃,所述外表面 7 201249758 U、2卜31與内表面L 22、32均為平面。 疲^參f 7所不’本發明揭示了另—種體成型且具有立體造型之玻 ^去^包括相對設置的外表面41與内表面42、以及形成於外表面 立ΐίΓ 上之立體造型區43(參圖7的虛線圈所示)。所述具有 ^體每型之玻璃4GG為立體結構玻璃,所述 431及第二立體造型區极。請她⑷所示,從^上觀之 有立體造狀麵_包括主體料及與·卩帅連且自主 =46的兩側延伸之兩彎曲部47。所述主體部姑設有第一夕卜表面461 及第-内表面462,所述彎曲部47包括第二外表面仍及第 玻璃的外表面41包括第一外表面461及第二外表面471, =述=400的内表面42包括第一内表面462及第二内表面π。在 = 所述第一外表面461與第一内表面俯均為平面, ΪΪϋ 1與第二内表面472均為曲面,即所述玻璃400的外 ^面4i為曲面與平面之組合,所述玻璃· _表面42亦為曲面與平 πΐΐί。當然’在其他實施方式中,所述玻璃伽的外表面41亦可 、或者至少兩曲面之組合、或者至少兩平面之組合;所述 2鄉之内表面42亦可設置為一曲面、或者至少兩曲面之組合或 從而使玻璃4GG的外形能夠達成多樣化,易於配 _立體造型區43位於曲面或者平面處(在圖示的 ===㈣趟叫聯s梅n權型區 請參圖8⑷至圖8(d)所示,所述第一立體造型區431包括自外表面 41或者内表面42凹設形成之酿μ或者凸出外表㈣或者内表面幻 ^凸紋45。請參圖8⑷及圖8(e)所示,所述第—立體 =外表面如與第二外表面471上,所述第一立體造型區431^凸 出第一外表面46i的第一凸紋451及凸出第二外表面471的第二凸紋 452。請參圖_及0 8⑷所示,所述第一立體造型區431包括凹入第 一外表面461之凹紋44及凸出第二外表面之第二凸紋松。 201249758 請參圖9⑷至圖9(d)所*,所述第二立體造型區432包括自外表面 41或者内表面42凹設形成之凹紋44〇或者凸出外表面41或者内表面 42之凸紋450。所述酿440與凸纹45〇的形狀及所設置的位置與圖 6(a)至圖6(d)所示的酿34與故35相同,在此*再賛述。 晴參圖1G所示’本發明還揭示了 _種肋製造具有立體造型之玻 璃100、200、300、400的模具500,其包括一具有立體造型之上 51或-具有立體造型之下模仁52,所述上模仁51或者下模仁52設有 對應於立體造型區13、23、33、43之模仁立體造型區53,所述模仁立 體造型區53可以拆卸、替換或者組合以呈現出不同之立體造型。可以 理解地’在其他實施方式中,所述模仁也可以為上模仁與下模仁之組合。 請參圖11及圖12所示,本發明還揭示了一種觸控感應裝置6〇〇, 其包括圖1所示的具有立體造型之玻璃1〇〇,所述玻璃1〇〇還包括觸控 感測元件區61、62以感應觸控感應裝置6〇〇之觸控感應區域是否被觸 碰。所述玻璃100還包括位於外表面U與内表面12之間的兩側面16、 17,其中所述觸控感測元件區61位於内表面12上或位於與内表面12 對應位置之另一基板上、所述觸控感測元件區62位於其中一側面17 上。所述觸控感測元件區61、62所對應之觸控感測元件可為透明導電 膜或者光學元件或其他具有觸控感應功能元件。 請參圖13至圖15所示,本發明還揭示了另一種觸控感應裝置7〇〇, 其包括圖7所示的具有立體造型之玻璃400,所述玻璃4〇〇還包括觸控 感測元件區71、72以感應觸控感應裝置700之觸控感應區域是否被觸 碰。所述玻璃400還包括位於外表面41與内表面42之間的兩側面48、 49 ’其中所述觸控感測元件區71位於内表面42上或位於與内表面42 對應位置之另一基板上、所述觸控感測元件區72位於其中一側面49 上。所述觸控感測元件區71、72所對應之觸控感測元件可為透明導電 膜或者光學元件或其他具有觸控感應功能元件。 請參圖16⑻及圖16(b)所示,本發明還揭示了 一種一體成型且具有 立體造型之玻璃800a,其包括多邊形的主體部1400、立體造型區145 201249758 及自主體部1400的週邊一體延伸出來的八個延伸部1421、1422、1423、 1424、1425、1426、1427、1428。所述具有立體造型之玻璃8〇〇a亦可 被稱之為立體結構玻璃。所述主體部14⑻為平板狀,其外表面及内表 面均為平面。所述延伸部 1421、1422、1423、1424、1425、1426、1427、 1428均料曲狀’其外表面及内表面均為曲面。整體上觀之所述立 體結構玻璃8GGa的外表面143及喊面144均由複數曲面所組成。請 參照圖16(b)所*,所述立體結構玻璃驗的俯視圖所呈現的幾何形狀 為多邊形,該多邊形可為由大於2的有限線段組成,且首尾連接起來畫 出的形狀,包含但不限於三角形、四邊形、五邊形等。立體結構玻璃 800a的截面為帛型形狀,其中曲面的曲率可以為不為零的固定曲率 或者連續變化的曲率。所述連續變化的曲率可以為線性變化曲率或者非 線性變化曲率(即自由曲面)。所述延伸部刚、1422、i423、1424、1425、 二26-1427、1428亦可為平面。所述立體造型區145可為圖1至圖9(d) 各種立體造型區13、23、33、43,即所述立體造型區145包 =卜表面143或者内表面144凹設形成的凹紋或者凸出外表面⑷或 =面144的凸紋。所述凹紋或者凸紋可以構成文字、數字及圓樣, 以厂表么司名稱、產品名稱、產品型號及 可位於立聽構賴嶋之曲面處或平面處。4體輕[ 立體^種-觀型且具有 部測._:;= ===== 璃800b亦可被稱之A立雜社心* 狐具有立體造型之玻 數個延料連所述延伸部1521可以理解為由複 伸科接而成。所述主體部15⑽的内表面 H所述延伸部1521的的内表面及外表面為曲面。立 _b的截面為-薄型形狀 體、··。構玻璃 或者連續變化的曲率。所述連續2 可以為不為零的固定曲率 線性變化曲率(即自由曲面)為線性變化曲率或者非 _b的俯視圖所呈現的幾 ()不所述立體結構玻璃 視圖亦可__、_、3#為=,所社聽構麵祕之俯 稿示的各種立體造型=所=造f 155可為圖丨至圖 33、43,即所述立體造型區155 201249758 =自外表面153或者内表面152凹設形成_紋或者凸料表面i53 j者内表面152的凸紋。所述贱或者凸紋可以構成文字、數字及圖 ’以代表公司名稱、產品名稱、產品型號及商標等。所述立體造型區 155可位於立體結構玻璃8〇〇b之曲面處或平面處。 請參圖18⑻及圖l8(b)所示,本發明還揭示了一種一體成型且具有 立體型之玻璃8GGe ’其包括主體部17GG、立體造型區175及自主體 部1700的四周-體延伸出來的四個延伸部⑺卜i722、、簡。 所述具有讀造R玻璃謙柯觀之紅聽構顧。所述主體 4 1700的外表面及内表面可以為平面或者曲面。所述延伸部mi、 Π22、I723、I724為_錄,其外表面及内表面均為曲面。整體上觀 之,所述立體結構玻璃800c的外表面171及内表面172由複數平面與 曲面、或者均由曲面所組成。請參照圖·所示,所述立體結構玻璃 8〇〇c的俯視圖所呈現喊何形狀為非對稱自由造型,所述立體結構玻 璃800c的俯視圖亦可為對稱之自由造型。所述立體造型區175 ^為圖 1至圖9(d)中所示的各種立體造型區13、23、33、43,即所述立體造型 區Π5包括自外表面171或者内表面172 形成的凹紋或者凸出外表 面171或者内表面172的凸紋。所述凹紋或者凸紋可以構成文字、數字 及圖樣,以代表公司名稱、產品名稱、產品型號及商標等。所述立體造 型區175可位於立體結構玻璃8〇〇c之曲面處或平面處。 請參圖19(a)及圖19(b)所示,本發明還揭示了一種一體成型且具有 立體造型之玻璃800d,其包括主體部19〇〇、立體造型區195及自主體 部1900 —體延伸出來的四個延伸部1921、1922、1923、1924。所述具 有立體造型之玻璃800d亦可被稱之為立體結構玻璃且與圖18(3)及"圖 18(b)所示的立體結構玻璃800c類似。至少一個延伸部192i、1922、 觸、簡上設有缺口聰,從而使該延伸部為不規則形狀。請參照 圖18(b)所示,所述立體結構玻璃8〇〇d的俯視圖所呈現的幾何形狀為^ 稱自由造型。所述立體造型區195可為圖〗至圖9(d)中所示的各種立體 造型區13、23、33、43,即所述立體造型區195包括自外表面或者内 表面凹設形成的凹紋或者凸出外表面或者内表面的凸紋。所述凹紋或者 201249758 凸紋可以構成文字、數字及圖樣,以代表公司名稱產 等。所述立體造型區195可位於立體結構破璃8_之二As another variation of the cross section shown in Fig. 2(e), the concave pattern M shown in Fig. 2(f) is different from the concave pattern 14 shown in Fig. 2(8), and the same outer surface of the concave pattern 14 shown in Fig. 2 is attached. 11 depressions formed.曰 as another variation of the cross section shown in Fig. 2 (8), the concave pattern = the shape shown in Fig. 2 is the same as the concave pattern 14 shown in Fig. 2 (8), and the 14 series shown in 2 (g) is recessed from the surface 12 Forming. As another variation of the cross section shown in Fig. 2(f), the concave pattern shown in Fig. 2(h) is the same as the concave pattern 14 shown in Fig. 2(f), but is shown in Fig. 2(h). The concave pattern (4) is formed by the depression of the surface 12 of the inner surface 201249758. As shown in Fig. 3, the present invention discloses that the main difference between the glass body 200' which is formed by a body and has a three-dimensional shape is the position of the three-dimensional modeling area and the concave and convex lines. The shape. The glass 2 (8) having a three-dimensional shape includes an outer surface 21 and an inner surface 22 which are oppositely disposed, and a three-dimensional modeling area 23 (shown by the dashed circle of Fig. 3) formed on the outer surface 21 or the inner surface 22. Referring to FIG. 4(a) to FIG. 4(d), the three-dimensional modeling area 23 includes a brewing 24 or a convex outer surface 21 or a convex surface 25 of the inner surface 22 which is recessed from the outer surface 21 or the inner surface 22. . The intaglio 24 or the relief 25 may constitute a letter or number to represent the company name, product name, product model, and the like. Specifically, as shown in FIG. 4( a ), the ridges 25 ^ are from the inner surface 22 . Referring to FIG. 4(b), the ridges 25 may also be arranged to protrude from the outer surface 2. Of course, as another variation of FIG. 4(8) and the figure, the ridges 25 may also be concave 24 Instead, it is formed by recessing from the inner surface or the outer surface a (please refer to FIG. 4(c) and FIG. 4(d), respectively). Referring to FIG. 5, the present invention discloses another type of glass 300 which is formed by a body and has a three-dimensional shape. The main difference between the glass 300 and the three-dimensional shape is that the shape of the concave and convex lines is increased to constitute New pattern. The three-dimensionally shaped glass 3 (8) includes a relative arrangement of the surface 31 and the inner surface 32, and a vertical i-shaped region 33 formed on the outer surface 31 or the inner surface 32 (shown by the dashed circle of Fig. 5). Referring to FIG. 6(8) to FIG. 6(4), the three-dimensional modeling area 33 includes a brewing 34 or a convex outer surface 31 or a surface surface % convex 34 formed from the outer surface η or the surface 32. , number and _, to represent the name of the company, product name, product and trademark, etc. ^ ^ 6 (b) ^, , ί TM f Γ / Τ, face L as Figure 6 (a) and Figure 6 (b) In another variation, the respective _ is formed by recessing from the inner surface 32 or the outer surface 31 (please have the glass 100, 300 having a three-dimensional shape as a flat glass, the outer surface 7 201249758 U, 2b 31 and the inner surface L 22 32 is a flat surface. The invention discloses that the other body is formed and has a three-dimensional shape, and the outer surface 41 and the inner surface 42 are oppositely disposed, and the outer surface is formed on the outer surface.立体ίΓ on the three-dimensional modeling area 43 (shown in the dashed circle of Figure 7). The glass 4GG of each type has a three-dimensional structure glass, the 431 and the second three-dimensional shape area. Please show her (4), From the top view, there is a three-dimensionally shaped surface _ including a main body material and two curved portions 47 extending on both sides of the autonomous = 46. The first outer surface 461 and the first inner surface 462 are provided, and the curved portion 47 includes a second outer surface and the outer surface 41 of the glass includes a first outer surface 461 and a second outer surface 471. The inner surface 42 of the 400 includes a first inner surface 462 and a second inner surface π. The first outer surface 461 and the first inner surface are both planar, and the first inner surface 472 and the second inner surface 472 are curved surfaces, that is, The outer surface 4i of the glass 400 is a combination of a curved surface and a flat surface, and the glass surface _ surface 42 is also a curved surface and a flat surface. Of course, in other embodiments, the outer surface 41 of the glass gamma may also be, or a combination of at least two curved surfaces, or a combination of at least two planes; the inner surface 42 of the two towns may also be provided as a curved surface, or a combination of at least two curved surfaces or so that the outer shape of the glass 4GG can be diversified, and it is easy to match The modeling area 43 is located at a curved surface or a plane (in the illustrated ===(4) 趟 联 s n n n n n n n n n n 请 请 请 请 请 请 请 请 , , , , , , , , , , , , , , , , , , , The surface 41 or the inner surface 42 is recessed to form a brewed μ or a convex outer surface (four) or an inner surface ^ embossing 45. Referring to Figure 8 (4) and Figure 8 (e), the first three-dimensional = outer surface and the second outer surface 471, the first three-dimensional modeling area 431 ^ protrudes from the first outer surface a first relief 451 of the 46i and a second relief 452 protruding from the second outer surface 471. As shown in FIGS. _ and 0 8(4), the first solid modeling region 431 includes a concave recessed into the first outer surface 461. The pattern 44 and the second embossed protrusion protruding from the second outer surface. 201249758 Referring to Figures 9(4) to 9(d), the second solid modeling area 432 includes recessed from the outer surface 41 or the inner surface 42. The indentations 44 〇 either protrude from the outer surface 41 or the relief 450 of the inner surface 42. The shape and position of the brewing 440 and the ridge 45 相同 are the same as those of the brewing 34 and the 35 shown in Figs. 6(a) to 6(d), and will be further described herein. As shown in FIG. 1G, the present invention also discloses a mold 500 for manufacturing a glass 100, 200, 300, 400 having a three-dimensional shape, which includes a mold having a three-dimensional shape or a mold having a three-dimensional shape. 52. The upper mold core 51 or the lower mold core 52 is provided with a three-dimensional modeling area 53 corresponding to the three-dimensional modeling area 13, 23, 33, 43. The mold three-dimensional modeling area 53 can be disassembled, replaced or combined. Different stereo styles are presented. It is to be understood that in other embodiments, the mold core may also be a combination of an upper mold core and a lower mold core. Referring to FIG. 11 and FIG. 12, the present invention also discloses a touch sensing device 6A, which includes a stereoscopic glass 1 shown in FIG. The sensing element regions 61, 62 sense whether the touch sensing area of the touch sensing device 6 is touched. The glass 100 further includes two sides 16 , 17 between the outer surface U and the inner surface 12 , wherein the touch sensing element region 61 is located on the inner surface 12 or another substrate at a position corresponding to the inner surface 12 . The touch sensing element region 62 is located on one of the side faces 17. The touch sensing components corresponding to the touch sensing component regions 61 and 62 may be transparent conductive films or optical components or other touch sensing functional components. Referring to FIG. 13 to FIG. 15 , the present invention further discloses another touch sensing device 7A, which includes the glass 400 having a three-dimensional shape as shown in FIG. 7 , and the glass 4 〇〇 further includes a touch sense. The sensing component areas 71, 72 sense whether the touch sensing area of the touch sensing device 700 is touched. The glass 400 further includes two sides 48, 49' between the outer surface 41 and the inner surface 42. The touch sensing element region 71 is located on the inner surface 42 or another substrate at a position corresponding to the inner surface 42. The touch sensing element region 72 is located on one of the side faces 49. The touch sensing components corresponding to the touch sensing component regions 71 and 72 may be transparent conductive films or optical components or other touch sensing functional components. Referring to FIGS. 16(8) and 16(b), the present invention also discloses an integrally formed and stereoscopically shaped glass 800a comprising a polygonal body portion 1400, a three-dimensional modeling region 145 201249758, and a peripheral integral from the main body portion 1400. Eight extensions 1421, 1422, 1423, 1424, 1425, 1426, 1427, 1428 extend. The glass 8〇〇a having a three-dimensional shape may also be referred to as a three-dimensional structure glass. The main body portion 14 (8) has a flat shape, and its outer surface and inner surface are both flat. The extensions 1421, 1422, 1423, 1424, 1425, 1426, 1427, 1428 are all curved. The outer and inner surfaces are curved. The outer surface 143 and the outer surface 144 of the structural glass 8GGa as a whole are composed of a plurality of curved surfaces. Referring to FIG. 16(b), the top view of the stereoscopic glass test shows a geometric shape of a polygon, and the polygon may be composed of a finite line segment larger than 2, and the shapes drawn together by the end and the tail, including but not Limited to triangles, quadrangles, pentagons, and the like. The cross-section of the three-dimensional structural glass 800a is a 帛-shaped shape, wherein the curvature of the curved surface may be a fixed curvature that is not zero or a continuously varying curvature. The continuously varying curvature may be a linearly varying curvature or a non-linearly varying curvature (i.e., a freeform surface). The extensions just 1422, i423, 1424, 1425, two 26-1427, 1428 may also be planar. The three-dimensional modeling area 145 may be the various three-dimensional modeling areas 13, 23, 33, and 43 of FIG. 1 to FIG. 9(d), that is, the three-dimensional modeling area 145 includes a concave surface formed by the concave surface 143 or the inner surface 144. Or the relief of the outer surface (4) or the = surface 144. The intaglio or embossing may constitute a character, a number, and a circle, and may be located at a surface or a plane of the surface of the erected structure. 4 body light [stereo ^ species - view type and has a partial test. _:; = ===== glass 800b can also be called A Li miscellaneous heart * Fox has a three-dimensional shape of the glass extension The extension 1521 can be understood as being formed by a double extension. The inner surface of the main body portion 15 (10) H and the outer surface of the extending portion 1521 are curved surfaces. The cross section of the vertical _b is a thin shape body, ···. Glass or a continuously varying curvature. The continuous 2 may be a non-zero fixed curvature linearly varying curvature (ie, a free-form surface) is a linearly varying curvature or a non-b-top view of the top view () not the stereoscopic view of the glass view may also be __, _, 3# is =, the various stereoscopic shapes shown by the company's listening facets are as follows: = f 155 can be as shown in Figures 33, 43, ie the three-dimensional modeling area 155 201249758 = from the outer surface 153 or inside The surface 152 is recessed to form a relief of the inner surface 152 of the embossing or embossing surface i53. The 贱 or embossments may constitute words, numbers, and figures to represent company names, product names, product models, and trademarks. The three-dimensional modeling area 155 may be located at a curved surface or a plane of the three-dimensional structural glass 8〇〇b. Referring to FIGS. 18(8) and 18(b), the present invention also discloses an integrally formed three-dimensional glass 8GGe' including a main body portion 17GG, a three-dimensional modeling region 175, and a peripheral body extending from the main body portion 1700. The four extensions (7), i722, and Jane. The above has the red listening structure of the reading glass R. The outer surface and the inner surface of the main body 4 1700 may be flat or curved. The extensions mi, Π22, I723, and I724 are recorded, and the outer surface and the inner surface thereof are curved surfaces. As a whole, the outer surface 171 and the inner surface 172 of the three-dimensional structural glass 800c are composed of a plurality of planes and curved surfaces, or both surfaces. Referring to the figure, the top view of the three-dimensional structure glass 8〇〇c shows an asymmetrical free shape, and the top view of the three-dimensional structure glass 800c may also be a symmetrical free shape. The three-dimensional modeling area 175 ^ is the various three-dimensional modeling areas 13 , 23 , 33 , 43 shown in FIGS. 1 to 9 ( d ), that is, the three-dimensional modeling area 包括 5 includes a surface formed by the outer surface 171 or the inner surface 172 . The indentations either protrude from the outer surface 171 or the relief of the inner surface 172. The intaglio or relief may constitute words, numbers, and patterns to represent the company name, product name, product model, and trademark. The three-dimensional shaped area 175 may be located at a curved surface or a plane of the solid structural glass 8〇〇c. Referring to FIG. 19(a) and FIG. 19(b), the present invention also discloses an integrally formed glass 300d having a three-dimensional shape, which comprises a main body portion 19A, a three-dimensional modeling area 195 and a self-body portion 1900. The four extensions 1921, 1922, 1923, 1924 extend out of the body. The glass 800d having a three-dimensional shape may also be referred to as a three-dimensional structure glass and is similar to the three-dimensional structure glass 800c shown in Figs. 18(3) and "Fig. 18(b). The at least one extension portion 192i, 1922 is provided with a notch, so that the extension portion has an irregular shape. Referring to Fig. 18(b), the geometrical shape of the three-dimensional structure glass 8〇〇d is a free shape. The three-dimensional modeling area 195 may be the various three-dimensional modeling areas 13, 23, 33, 43 shown in FIG. 9 to FIG. 9(d), that is, the three-dimensional modeling area 195 includes a recess formed from the outer surface or the inner surface. The indentation or the relief of the outer surface or the inner surface. The indentations or 201249758 embossments may constitute words, numbers, and drawings to represent the company name. The three-dimensional modeling area 195 can be located in the three-dimensional structure broken glass 8_bis
請參圖20⑻及圖20(b)所示,本發明還揭示了 1 立體造型之玻璃嶋,其包括主體部議、立體造型區135及自$ 部1300的四周-體延伸出來的四個延伸部。所述 驗亦可_之為立_構賴。料主_ 13Q 均為平面。所述延伸部之外表面及内表面均為平面。所述=== 部窗的夾角大於〇度小於18〇度。整體上觀之,所述立體结^玻璃 外表面助表面均由複數平面所域1參糊轉)所示所 述立體結構_嶋_視騎呈賴幾何形狀料狹, ^主===絲_表W為㈣。立騎構_^在 其矩㈣主體部1300上開設了兩個穿透孔洞13〇i、13〇2 洞1301為狹槽狀,而穿透孔洞13〇2為圓形。所述立體造型區】 圖!至圖9⑷中所示的各種立體造型區13、23、%、43,即所述立體造 括自外表面或者内表面凹設形成的贱或者凸料表面或 =^面的凸紋。所述酿或者凸紋可轉成文字、數字及·,以代 ^品名稱、產品型號及商標等。所述立體造型區135可位 於立體、纟σ構玻璃800e之曲面處或平面處。 所述具有立體造型之玻璃〗⑻、' 3⑽、4⑽、隱祕錢、 Γ㈣以作為具有顯示裝置產品之螢幕鋪玻璃心他G_、 i老觸^ ΐ電腦、TV盒、鍵盤、滑鼠、耳機等)之外殼或外觀件、 ^者觸控裝置、或者產品之蓋板、或者羞品之功能按鍵、或者觸控面板 麵、, S1,將玻螭胚材放入具有模仁立體造型區之成型模具中; S2 ’將玻璃胜材與成型模具—起加熱至玻璃胚材之可塑型溫度,· 12 201249758 53 ’對成型模具施加壓力進行玻璃胚材壓造,以將模仁立體造型區 之立體造型轉印至玻璃胚材上,得到玻璃成品; 54 ’將成型模具與玻璃成品進行冷卻退火,以消除玻璃熱製程帶來 的熱應力; 55 ’釋放壓力,將玻璃成品從成型模具中取出以得到上述具有立體 造型之玻璃。 所述可塑型溫度為介於玻璃轉化點(Tg)和玻璃軟化點(Sp)之間的溫 度。 综上所述,本創作確已符合發明專利之要件,爰依法提出申請專 利。惟,以上所述者僅係本發明之較佳實施方式,本發明之範圍並不以 上述實施方式爲限’舉凡熟習本案技藝之人士援依本發明之精神所作之 等效修飾或變化,皆應涵蓋於以下申請專利範圍内。 【圖式簡單說明】 圖1係本發明具有立體造型之玻璃於第一實施方式中之立體示意 圖2⑻至圖2(h)係圖1所示的玻璃沿A_A線之截面示意圖其中該 截面示意圖顯示了各種類似的截面變化。 ^ 係本發明具有立體造型之玻璃於第二實施方式中之立體示 圖 圖 意 截面線之截面示意圖,其中該 圖5 圖 係本發有立親型之麵於第三實财式中之立 體示意 圖6(a)至圖6(d)係圖5所示的玻璃沿 截面示意圖顯示了各種類似的截面變化。狀截面不意圖’其中該 圖7係本發明具有立體造型之麵於第四實施方式中之立體示意 201249758 圖8(a)至圖8(d)係圖7所示的玻璃沿D-D線之截面示意圖,其中該 截面示意圖顯示了各種類似的截面變化β Λ 圖9(a)至圖9(d)係圖7所示的玻璃沿Ε-Ε線之截面示意圖,其中該 戴面示意圖顯示了各種類似的截面變化。 圖10係本發明用以製造具有立體造型之玻璃的模具示意圖。 圖11係本發明觸控感應裝置於第一實施方式中之立體示意圖。 圖12係圖11所示的觸控感應裝置沿F_F線之截面示意圖。 圖13係本發明觸控感應裝置於第二實施方式中之立體示意圖。 圖14係圖13所示的觸控感應裝置沿G_G線之截面示意圖。 圖15係圖13所示的觸控感應裝置沿H_H線之截面示意圖。 圖16(a)係本發明具有立體造型之玻璃於第五實施方式中之立 意圖。 圖16(b)係圖16⑻之俯視圖。 圖17(a)係本發明具有立體造型之玻璃於第六實施方式中之立體示 意圖。 圖17(b)係圖17(a)之俯視圖。 圖18(a)係本發明具有立體造型之玻璃於第七實施方式中之立 意圖》 、 圖18(b)係圖18⑷之俯視圖。 圖19(a)係本發明具有立體造型之玻璃於第八實施方式中之立 意圖。 μ 圖19(b)係圖19⑷之俯視圖。 圖20(a)係本發明具有立體造型之玻璃於第九實施方式中之立體示 201249758 圖20(b)係圖20⑻之俯視圖。 圖21係本發明製造具有立體造型之玻璃的製造流程圖。 【主要元件符號說明】 具有立體造型之 100、200、300、400、800a、800b、800c、800d、 玻璃 800e 外表面 1卜 21、3卜 41、143、153、171 内表面 12、22、32、42、144、152、172 立體造型區 13、23、33、43、135、145、155、175、195 穿透孔洞 1301、1302 凹紋 14、24、34、44、440 内壁面 141 142 卜 1422、1423、1424、1425、1426、1427、 &伸部 1428、152卜 172卜 1722、1723、1724、192卜 1922、1923、1924 凸紋 外壁面 兩側面 缺口 第—立體造型區 第二立體造型區 第一凸紋 第二凸紋 主體部 第一外表面 第—内表面 彎曲部 第二外表面 第二内表面 15'25'35'45'450 151 16、17 1925 431 432 451 452 46、1300、1400、1500、1700、1900 461 462 47 471 472 15 201249758 兩側面 48、49 模具 500 上模仁 51 下模仁 52 模仁立體造型區 53 觸控感應裝置 600、700 觸控感測元件區 61 > 62 16Referring to FIG. 20(8) and FIG. 20(b), the present invention also discloses a three-dimensionally shaped glass crucible comprising a main body portion, a three-dimensional modeling area 135, and four extensions extending from the periphery of the portion 1300. unit. The test can also be used as a stand-by. The material master _ 13Q is flat. The outer surface and the inner surface of the extension are both planar. The angle of the === window is greater than the twist of less than 18 degrees. As a whole, the three-dimensional structure of the outer surface of the glass surface is represented by a complex plane. The three-dimensional structure is shown in the figure _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Table W is (4). The vertical riding structure _^ has two through holes 13 〇i, 13 〇 2 in the main body portion 1300 of the moment (4), and the hole 1301 is a slot shape, and the through hole 13 〇 2 is circular. The three-dimensional modeling area] Figure! The various three-dimensional modeling regions 13, 23, %, and 43 shown in Fig. 9 (4), that is, the three-dimensionally formed ridges or embossed surfaces or embossed embossments formed from the outer surface or the inner surface. The brewing or embossing can be converted into characters, numbers and ·, in order to replace the product name, product model and trademark. The three-dimensional modeling area 135 can be located at a curved surface or a plane of the three-dimensional, 纟 构 构 glass 800e. The three-dimensional shape of the glass (8), '3 (10), 4 (10), hidden money, Γ (four) as a display device product screen glass heart G_, i old touch ^ ΐ computer, TV box, keyboard, mouse, headphones, etc. ) the outer casing or appearance, the touch device, or the cover of the product, or the function button of the shame, or the touch panel surface, S1, the glass bulb is placed in the three-dimensional molding area of the mold In the mold; S2 'The glass material and the molding die - heated to the plastic temperature of the glass material, · 12 201249758 53 'The pressure applied to the molding die to press the glass material to form the three-dimensional shape of the mold The shape is transferred to the glass blank to obtain the finished glass; 54 'The forming mold and the glass finished product are cooled and annealed to eliminate the thermal stress caused by the glass hot process; 55 'release pressure, the glass finished product is taken out from the forming mold The above-mentioned glass having a three-dimensional shape is obtained. The moldable temperature is the temperature between the glass transition point (Tg) and the glass softening point (Sp). In summary, this creation has indeed met the requirements of the invention patent, and the patent application is filed according to law. However, the above-mentioned embodiments are merely preferred embodiments of the present invention, and the scope of the present invention is not limited to the above-described embodiments, and those skilled in the art will be able to make equivalent modifications or variations in accordance with the spirit of the present invention. It should be covered by the following patent application. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic cross-sectional view of a glass having a three-dimensional shape in a first embodiment of the present invention in a first embodiment; FIG. 2(8) to FIG. 2(h) are a cross-sectional view of the glass shown in FIG. Various similar cross-sectional changes. ^ is a schematic cross-sectional view of a perspective view of a glass having a three-dimensional shape in the second embodiment of the present invention, wherein the figure 5 is a three-dimensional shape in the third solid form Figures 6(a) through 6(d) show various similar cross-sectional variations of the glass shown in Figure 5 along a cross-sectional schematic. The cross-section is not intended to be 'in which FIG. 7 is a perspective view of the present invention having a three-dimensional shape in the fourth embodiment. 201249758. FIG. 8(a) to FIG. 8(d) are the cross-section of the glass along the DD line shown in FIG. Schematic diagram, wherein the cross-sectional schematic view shows various similar cross-sectional changes β Λ FIG. 9( a ) to FIG. 9( d ) are schematic cross-sectional views of the glass along the Ε-Ε line shown in FIG. 7 , wherein the wearing diagram shows various Similar cross-section changes. Figure 10 is a schematic view of a mold for producing a glass having a three-dimensional shape according to the present invention. 11 is a perspective view of the touch sensing device of the present invention in the first embodiment. 12 is a schematic cross-sectional view of the touch sensing device shown in FIG. 11 taken along line F_F. FIG. 13 is a perspective view of the touch sensing device of the present invention in a second embodiment. 14 is a schematic cross-sectional view of the touch sensing device shown in FIG. 13 along the line G_G. 15 is a schematic cross-sectional view of the touch sensing device shown in FIG. 13 along the line H_H. Fig. 16 (a) is a perspective view of a glass having a three-dimensional shape in the fifth embodiment of the present invention. Figure 16 (b) is a plan view of Figure 16 (8). Fig. 17 (a) is a perspective view showing a three-dimensionally shaped glass of the present invention in a sixth embodiment. Figure 17 (b) is a plan view of Figure 17 (a). Fig. 18 (a) is a plan view showing a glass having a three-dimensional shape in the seventh embodiment of the present invention, and Fig. 18 (b) is a plan view of Fig. 18 (4). Fig. 19 (a) is a perspective view of the glass having a three-dimensional shape of the present invention in the eighth embodiment. μ Figure 19 (b) is a plan view of Figure 19 (4). Fig. 20 (a) is a perspective view of a glass having a three-dimensional shape in the ninth embodiment of the present invention. 201249758 Fig. 20 (b) is a plan view of Fig. 20 (8). Figure 21 is a flow chart showing the manufacture of a glass having a three-dimensional shape according to the present invention. [Description of main component symbols] 100, 200, 300, 400, 800a, 800b, 800c, 800d, three-dimensional shape, outer surface of glass 800e, 21, 3, 41, 143, 153, 171 inner surface 12, 22, 32 , 42, 144, 152, 172 three-dimensional modeling areas 13, 23, 33, 43, 135, 145, 155, 175, 195 through the holes 1301, 1302 concave grooves 14, 24, 34, 44, 440 inner wall surface 141 142 1422, 1423, 1424, 1425, 1426, 1427, & extensions 1428, 152 172 172, 1722, 1723, 1724, 192 192, 1922, 1923, 1924 embossed outer wall surface two side notch first - three-dimensional modeling area second three-dimensional Forming area first relief second relief main body first outer surface first inner curved portion second outer surface second inner surface 15'25'35'45'450 151 16, 17 1925 431 432 451 452 46, 1300, 1400, 1500, 1700, 1900 461 462 47 471 472 15 201249758 Two sides 48, 49 Mold 500 Upper mold 51 Lower mold core 52 Mould three-dimensional modeling area 53 Touch sensing device 600, 700 Touch sensing component area 61 > 62 16