TW201240925A - Solid structure glass and method for making the same - Google Patents

Abstract

A solid structure glass includes an outer surface and an inner surface. The inner surface is formed by one curved surface, or a combination of at least two curved surfaces, or a combination of at least one curved surface and one flat surface, or a combination of at least two flat surfaces. Similarly, the outer surface is formed by one curved surface, or a combination of at least two curved surfaces, or a combination of at least one curved surface and one flat surface, or a combination of at least two flat surfaces. As a result, the solid structure glass can be formed of multiple different shapes so as to be suitable for corresponding shapes of the electronic products. Besides, a method of making such solid structure glass is also disclosed.

Description

201240925 VI. Description of the invention: [Technical field to which the invention pertains] This creation relates to a method of making a structure of a hearing glass, which can be applied to various electronic products, such as a screen protection glass or a product as a display device. Appearance components such as the outer casing or the cover of the product, or functional buttons, touch devices, or touch panels of the product. [Prior Art] The hot glass is to heat the glass to its soft tilt, and to make the glass a non-planar shape by means of various molds. Existing curved glass products with scale process plus 1, such as used in automobile windshield or curved glass for construction, etc., after the glass is heated to a moldable temperature, 'self-gravity, calendar assist, or mechanical aid The drooping bend molding 'its glass itself needs a certain weight, and the thickness is between 5mm and ΐ9·. In general, the glass that is processed is the most sleeved in the face. Existing surface-made glass tonics, which can not accurately control the glass surface lamp type, the money, the glass, the secret, the injection mold, the injection mold, the shape of the same product, the existing use The curved glass made by the lining process has a constant thickness, and the surface © is relatively rough and bubbles are formed inside. The existing curved glass products formed by the blow molding process, such as glass crafts, are mainly made of liquid glass, which is a secret of the marriage, and the surface of the curved glass that is formed by the blow process is not the size of the irr. Precise control, its surface is relatively timid, and internal gas will be formed. ======·Shishi rim glass, flat: r-type three-dimensional structural glass, its structure is - concave top surface and - forming stereoscopic ^ glass ^ The middle plane and the curved surface of the edge. The existing mechanical addition g amount, the manufacturing process is complicated, and the structure is simple, no complicated

S 3 201240925. . A conventional fine-mold process for shaping a curved surface product, such as an optical component, has a structure that is earlier and has an axisymmetric design. [ϋ ϋ t design, 立体 种 种 种 立体 立体 立体 立体 立体 立体 立体 立体 立体 。 。 。 。 。 The technology to be solved by the creation of the ice licking _ is to provide a three-dimensional structural glass that is required to meet the requirements of the product and a manufacturing method thereof. For the above purpose, the three-dimensional structural glass of the present invention has a thin cross section, the glass rib surface and the nucleus surface, and the inner surface of the hull structure is a curved surface or a combination of at least two curved surfaces. Or a combination of a curved surface and a plane, or at least two planes = combined 'the outer surface of the solid structural glass is a curved surface, or a combination of at least two curved surfaces, or a curved surface combined with a flat mosquito, or at least a combination of rhodium. For the above purpose, the inventive three-dimensional structural glass comprises a main body portion and a plurality of extension portions extending from an outer edge body of the main body portion, the main body excluding an inner surface and an outer surface, and the extension portion is also covered Table © and the outer surface, the shouting surface of the Li County includes an inner surface of the main body portion and an extension surface, the outer surface of the main body portion and the outer surface of the extension portion, the three-dimensional surface The inner surface of the structural glass is a curved surface, or a combination of at least two curved surfaces, or a combination of curved surfaces and planes, or a combination of at least two planes; the outer surface of the three-dimensional structure is a curved surface, or a combination of at least two curved surfaces, or A combination of a surface and a plane, or a combination of at least two planes. In order to achieve the above object, the three-dimensional structural glass of the present invention has an annular shape, and the three-dimensional structural glass includes two main body portions which are torn and two main portions of the main body portion which are connected to the two main body portions. The outer surface is flat, the inner and outer surfaces of the connecting portion are curved surfaces, and the inner surface of the three-dimensional structural glass includes an inner surface of the main body portion and an inner surface of the connecting portion, and the outer surface of the three-dimensional structural glass includes The outer surface of the body portion and the outer surface of the connecting portion. In order to achieve the above object, the method for manufacturing the three-dimensional structural glass comprises the steps of: heating the glass blank together with the forming mold to a moldable temperature of the glass blank; S2, pressurizing the forming mold to perform the glass embryo Pressing the material to obtain the finished glass product; S3, cooling the forming mold and the finished glass product; s 201240925 S4 'separating the finished glass product from the forming mold, the finished glass product is a three-dimensional structured glass, the three-dimensional emitting glass The inner surface of the three-dimensional structural glass is a curved surface, or a combination of at least two curved surfaces, or a combination of curved surfaces and planes, or a combination of at least two planes; The outer surface of the three-dimensional structural glass is a curved surface, or a combination of at least two curved surfaces, or a combination of curved surfaces and planes, or a combination of at least two planes. Compared with the prior art, the outer surface of the three-dimensional structural glass and the inner surface of the three-dimensional structural glass are all - "or at least (four) faces, or a combination of curved surfaces and planes, or a combination of at least two planes, thereby Three-dimensional structure glass _ external type of lining to achieve diversification, 之外 ΐϊΐ ΐϊΐ ΐϊΐ ΐϊΐ ΐϊΐ ΐϊΐ 另 另 另 另 另 另 另 另 另 另 另 另 _ _ _ _ 玻璃 玻璃 玻璃 玻璃 玻璃 玻璃 玻璃 玻璃 玻璃 玻璃 玻璃 玻璃 玻璃 玻璃 玻璃 玻璃 玻璃 玻璃[Embodiment] Embodiment 1: Referring to FIG. 1 (8) and FIG. 1 (b), Embodiment 1 of the present disclosure discloses a three-dimensional structure glass including a main body portion 1 and a curved portion ι2 connected to the main body portion 1〇1. The main body portion 1G1 includes an outer surface 112 assisting surface 122, ^ Π 3 123 〇 101, and the surface 122 is a flat surface, and the outer surface 113 of the f curved portion 1〇2 The inner surface U of the curved portion 1〇2 is a curved surface. Referring to FIG. 9(9), the three-dimensional structure glass type configuration, wherein the outer surface 113 of the curved portion 102 and the inner surface of the curved portion 1〇2^^ Rate can be m to be non-zero Or a continuously varying curvature. The continuous variation "may be a linearly varying curvature (ie, a free-form surface) or a non-linear initial sentence shouted by a combination of a plane and a #-surface, from the (four) bottle-integrated product. Embodiment 2: Please refer to As shown in FIG. 2 , a second embodiment of the present invention discloses a structural glass 2 according to an embodiment, which includes a main body portion and a first-f curved portion 205 and a second curved portion extending from the periphery of the main body portion 200 . 2%. The first curved second curved portion 206 is connected to the main body portion. The three-dimensional structural glass 2 comprises an outer surface % 5 201240925 = 7 ^ surface 2 〇 8 , wherein the outer surface 2 〇 7 and the inner surface 2 (10) are each composed of three # faces. The cross-section of the three-dimensional structural glass 2 is the mouth and the =r can be a fixed curvature that is not zero. The rate == is a linearly varying curvature (ie, a free-form surface) or a non-linearly varying curvature: The curvature of the surface is illusion ', the inner surface of the body portion 200 ^ ==; the curvature of the outer surface of the first, 205 is rainbow, the first: ΐ: two ===: the first, the outer portion of the portion 206 (4) The curvature of the inner surface of L is R1; from the cross-section, the outer surface R2, and the outer surface 2〇7 of R3' are composed of three non-zero curvatures, respectively, which are illusory, 7^, cent, and Through the curvature illusion, illusion, illusion, illusion, 112, the link between two tl: the phase ^ or the different. The second implementation of this creation can also be - the main Zhao Department - implementation three: like ===== - The second type of the method is as follows and the second _ 〇 2. ==== the first outer surface 312 and the first inner surface = 313 and the third inner surface 323; 31 b 3U and the second, the first The two planes' and the second and third outer surfaces 3 have a thin cross section. The two-dimensional structure glass ===tr continues to change, ====立=:璃=由=. Overall, the The outer surface 31 and the first The second outer surface 312, the inner surface 32 combined with the (10), that is, the outer surface; the m321th combination, the second inner surface 323 has a negative curvature. 6 201240925 4: Please refer to FIG. 4, the three-dimensional structural glass 4 of the present embodiment, including the outer surface 41 ^ 矣 "4 kinds of methods"::::: continuous (four) howling turtle implementation five: Referring to FIG. 5, in the fifth embodiment of the present invention, a three-dimensional structural glass 5' includes a main body portion 5 (8) and a main body portion 5 (8) connected to the main body portion 5 (8) = a curved portion 502. The difference between the three-dimensional structure glass 5 and the three-dimensional structure glass 2 is that the outer surface and the inner surface of the first-middle body portion 2GG are curved surfaces. Accordingly, the outer surface 51 and the inner surface 52 of the glazing 5 are each a combination of a plane and two curved surfaces. Embodiment 6: As shown in FIG. 6 , Embodiment 6 of the present invention discloses a three-dimensional structural glass 6 similar to Embodiment 5, which includes a main body portion _ and a first bending portion 601 connected to the main body portion. And a second bent portion 602. The inner and outer surfaces of the main body portion 6〇〇, the first bent portion 6〇, and the second bent portion 602 are all flat. Viewed from a cross-section, the three-dimensional structural glass 6 includes an outer surface 61 and an inner surface 62. The outer surface 61 and the inner surface 62 t are composed of three planes from b, and the junctions of adjacent two planes 63, 64 An angle is formed respectively, the angle being greater than the twist is less than 180 degrees. The outer surface 61 and the inner surface 62 of the three-dimensional structural glass 6 of the sixth embodiment can also be formed by combining a curved surface and two planes. Embodiment 7: Referring to Embodiment 7 of the present invention, a three-dimensional structural glass 7 similar to that of Embodiment 6 is disclosed, which includes a main body portion 700 and a bent portion 701 connected to the main body portion 700. The difference between the three-dimensional structural glass 7 and the three-dimensional structural glass 6 is that the first curved portion 601 is missing. The outer surface and the inner surface of the three-dimensional structural glass 7 of the seventh embodiment can also be combined by a curved surface and a flat surface. Embodiment 8:

S 7 201240925 Referring to FIG. 8 (8), the eighth embodiment of the present invention discloses a three-dimensional structural glass 8' similar to the embodiment, which includes a main body portion, and a curved portion 8 connected to the main body portion 8 (U). a first extending portion 8〇 extending from the first bending portion 801, a second bending portion 803 connected to the main body portion, and a second extending portion extending from the second bending portion 8〇3, the main body portion 800, The inner and outer surfaces of the extending portion 802 and the second extending portion 8〇4 are both planar. The inner and outer surfaces of the first curved portion 801 and the second curved portion 8〇3 are curved surfaces: the first The second extending portion 803, 804 is perpendicular to the main body portion 8. The three-dimensional structural glass 8 includes an outer surface 81 and an inner surface 82, and the outer surface 81 and the inner surface 82 are alternately arranged by several The curved surface and the flat surface are formed. Referring to FIG. 8(b), as another variation of the three-dimensional structural glass 8, the first and second extending portions 803 and 804 may be disposed not perpendicular to the main body portion 8〇. 〇, forming an angle with the body portion _. The angle is greater than the twist is less than 180 degrees and not equal to 90 degrees. Mode 9: Referring to FIG. 9(a), Embodiment 9 of the present invention discloses a three-dimensional structural glass 9' similar to Embodiment 8, which includes a main body portion 900 and a first bend connected to the main body portion 9A. a portion 901 and a first extending portion 9〇2 extending from the first curved portion 901. The first extending portion 902 is perpendicular to the main body portion 900. The three-dimensional structural glass 9 shown in Fig. 9(a) and Fig. 8(a) The difference between the three-dimensional structural glass 8 shown is that the second curved portion 8〇3 and the second extending portion 804 are missing. ° Referring to FIG. 9(b), another variation of the three-dimensional structural glass 9 is shown. The three-dimensional structural glass 9 shown in FIG. 9(b) differs from the three-dimensional structural glass 8 shown in FIG. 8(b) only in that the second curved portion 803 and the second extended portion 804 are missing. Embodiment 10: Please refer to FIG. (a) and FIG. 10(b), Embodiment 10 of the present invention discloses a three-dimensional structural glass 10' which includes a rectangular main body portion 1000 and four extending portions 1021 integrally extending from the periphery of the main body portion 1000. 1022, 1023, 1024. The main body portion 1 is flat-shaped, and its outer surface and inner surface are flat. The extensions 1021, 1022, 1023, and 1024 are curved. The outer surface and the inner surface thereof are both curved surfaces. As a whole, the outer surface 1001 and the inner surface 1002 of the three-dimensional structural glass 10 are both planar and plural. Referring to FIG. 10(b), the geometric shape 201240925 of the three-dimensional structural glass 10 is a quadrilateral shape. The cross-section of the three-dimensional structural glass 1G is a thin shape, wherein the curvature of the curved surface may be Zero solid curvature or continuously varying curvature. The curvature of the correlation may be a linearly varying curvature (ie, a freeform surface) or a non-linearly varying curvature. Embodiment 11: Referring to FIG. 11( a ) and FIG. 11( b ), Embodiment 11 of the present invention discloses an embodiment of the present invention, which includes a main _ leak and an autonomy. Four extensions lm, 1122, 1123, 1124 extending around the body 11〇〇. The outer surface and the inner surface of the main body portion 11GG are curved surface extension portions 1121, 1122, m3, and im, and the outer surface and the inner surface are curved surfaces. As a whole, the outer surface Φ 1U 〇 and the screaming surface (four) of the three-dimensional structural glass 11 are composed of (four) number curved surfaces. Referring to Fig. 11(b), the top view of the three-dimensional structure glass bowl u also has a quadrilateral shape. The cross section of the three-dimensional structural glass 1G is a thin shape in which the curvature of the curved surface may be a non-zero IU fixed curvature or a continuously varying curvature. The continuously varying curvature may be a linearly varying curvature (i.e., a freeform surface) or a non-linearly varying curvature. Embodiment 12: Referring to FIG. 12(a) and FIG. 12(b), Embodiment 12 of the present disclosure discloses a three-dimensional structural glass 12 similar to Embodiment 10, which includes a main body portion 12 and Four extending portions 122 1222, 1223, and 1224 integrally extending from the periphery of the main body portion 1200. The outer surface and the inner surface of the main body portion 1200 are both flat. The outer surface and the inner surface of the extending portions 1221, 1222, 1223, 1224 are all flat. The angle between the extensions 1221, 1222, 1223, 1224 and the main body portion 12 is greater than the twist of less than 18 degrees. Overall, the outer surface 1210 and the inner surface 122 of the structural glass 12 are each composed of a plurality of planes. Referring to Fig. 12(b), the top view of the three-dimensional structural glass 12 also has a quadrilateral geometry. The outer surface and the inner surface of the main body portion 12 of the twelfth embodiment may be curved surfaces. Embodiment 13: Referring to FIG. 13(a) and FIG. 13(b), Embodiment 13 of the present invention discloses a three-dimensional structural glass 13 similar to Embodiment 10, and the difference between the two is only three-dimensional. The structural glass 13 has two penetration holes 13〇1, 13〇2 in its rectangular body portion 1300. The penetration hole 1301 has a slot shape, and the penetration hole 13〇2 has a circular shape.

9 S 201240925 Embodiment 14: Referring to FIG. 14(a) and FIG. 14(b), Embodiment 14 of the present invention discloses a main structure of a three-dimensional structural glass 14' Eight extensions 1421, 1422, 1423, 1424, 1425, 1426, 1427, 1428 extending integrally around the body. The main body portion is just in the form of a flat plate, and its outer surface and inner surface are both flat. The extensions 1421, 1422, 1423' 1424, 1425, 1426, 1427 ' 1428 are all • curved. The surface of the silk surface is curved. As a whole, the outer surface 141 and the inner surface 142 of the three-dimensional structure are composed of a plurality of curved surfaces. Referring to FIG. 14 , the top view of the three-dimensional structural glass 14 has a polygonal shape. The cross-section of the three-dimensional structural glass 14 is a thin shape, wherein the curvature of the curved surface may be a fixed curvature that is not zero or continuous. The curvature of the change, the continuously varying curvature may be a linearly varying curvature (ie, a free-form surface) or a non-linearly varying curvature. The extensions 142 of the fourteenth embodiment 1422, 1423, 1424, 1425, 1426, 1427 ' 1428 may also be Embodiment 15: As shown in FIG. 15(a) and FIG. 4, the fifteenth embodiment of the present invention discloses a three-dimensional structural glass 15 including a main body portion 15 (8) and an outer edge from the main body portion 15A. Shaped extension 1521. The extension portion 1521 can be (4) interpreted as being connected by a plurality of extensions. The _ 15 〇〇 _ surface and surface can be a plane or a curved surface 1 stretched coffee _ inner surface and outer surface is a curved surface. The cut-away shape of the three-dimensional structural glass 15 may be such that the curvature of the curved surface may be zero or constant curvature or . The continuously varying curvature may be a linearly varying curvature (i.e., a freeform surface) or a non-normalized curvature. Referring to Fig. 15(b), the top view of the three-dimensional structural glass 15 has a circular shape. In the embodiment shown in Fig. 16 (8) and Fig. 16), the sixteenth embodiment of the present invention discloses a glass 16 similar to a three-dimensional structure, and the difference between the two is only: stereo ^ Circle = π with reference to the figure) The top view of the three-dimensional structural glass 16 can be shaped as a trace of the sum of the distances from the plane to the two fine points. Can turn, three-dimensional knots _ ship riding present _ He shape can be U-Motor 201240925 f-bow-shaped part of the sector is surrounded by the arc between the elliptical path and the radius, the bow is also a circle on the circle The string is divided into two parts by a circle. Embodiment 17: Embodiment 17 of the present invention discloses a ten-type (four) three-dimensional structure glass π, which includes a main body portion 1700 and an extension portion 1721 extending integrally from the periphery of the main body portion 17〇〇. , 1722, 1723, 1724. The outer surface and the inner surface of the main body portion may be flat or curved. The extensions mi, the body, m3, and π4 are curved. The outer surface and the silk surface are curved surfaces. L, the outer surface m of the π structure and the inner surface 172, the complex plane and the curved surface, or both are composed of curved surfaces. Referring to Figure n(b), the geometry of the three-dimensional structural glass 1γ is designed to be non-long, and is designed from the required tillage type of the towel-level product. Embodiment 18: Embodiment 18 of the present invention discloses a three-dimensional structural glass 18' similar to the embodiment of the bribe, which includes a main body portion 18〇〇 and four extensions integrally extending from the periphery of the main body portion 18〇〇 Department view, 1822, 1823, 1824. The outer surface and the inner surface of the body portion surface may be a flat surface or a curved surface. The extensions, 1822, 1823, and the like are f-shaped, and the outer surface and the inner surface are curved surfaces. Referring to the figure, the top view of the three-dimensional structural glass 18 presents a geometrically symmetrical free shape. Embodiment 19: Embodiment 19 of the present invention discloses a three-dimensional structural glass 19' similar to Embodiment 18, which includes a main body portion 1900 and four extending portions 192, 1922 extending from the main body contact body. 1923, 1924. At least one of the extensions 192, 1922, 1923, 1924 has a notch 1925, such that the extension has an irregular shape. Embodiment 20: Referring to FIG. 20(a) and FIG. 20(b), Embodiment 20 of the present invention discloses a three-dimensional structural glass 20 including a main body portion 2〇12 and a main body portion 2〇12. The first and second extensions 2011, 2〇13 are integrally extended on both sides. The inner surface and the outer surface of the main body portion 2〇12 are curved surfaces. The first and second extensions 2〇11 and 2〇13 are all flat and have an inner surface and an outer surface. The cross section of the three-dimensional structural glass 2 is a thin shape, wherein the curvature of the curved surface may be a fixed curvature that is not zero or a continuously varying curvature. The curvature of the continuous change of 201240925 may be a linearly varying curvature (ie, a free-form surface) or a non-linearly varying curvature. In general, the three-dimensional structural glass 2G includes an outer surface 201 composed of a combination of a curved surface and two surfaces, and an inner surface 2〇2 composed of a combination of a curved surface and two flat surfaces. Embodiment 20': As shown in FIG. 21(a) and FIG. 21(b), the twenty-first embodiment of the present invention discloses a «___ 21 'the edge portion including the main body portion and the self-body portion 21 The extension portion integrally extends out of the three-dimensional structure glass shape, wherein the outer surface 2111 and the inner surface 212 of the main body portion are j-planes. The outer surface of the extending portion 2101 includes a first plane 2114, a second plane 2113 opposite to the first plane 2114 and located at the bottom of the first plane 2114, and a first curved surface 2112 connecting the first and second planes 2114, 2113. The inner surface of the extension portion leak is a second curved surface 2122 located inside the first curved surface 2112. Referring to FIG. 21(b), the edge portion of the three-dimensional structural glass 21 includes a silk surface 211 and an inner surface 212. The outer surface 211 is a combination of two planes and a curved surface, that is, The outer surface 2 is combined with the first curved surface 2112 and then combined with the second flat surface 2113; the inner surface 212 is a combination of a plane and a curved surface, that is, a combination of the inner surface 2121 and the second curved surface 2122. The =surface 2111 is coplanar with the first plane 2114. The curvature of the above curved surface may be a fixed curvature or a continuous change rate which is not zero. The continuously varying curvature may be a linearly varying curvature (i.e., a freeform surface) or a non-linearly varying curvature. Of course, the surface 2111 and the inner surface 2121 can also be set as curved surfaces. Embodiment 22: Referring to FIG. 22(a) and FIG. 22(b), the twenty-second embodiment of the present invention discloses a difference from the twenty-fourth (four) three-dimensional structural glass 22 of the embodiment. Only the second curved surface 2122 of the edge portion of the solid structural glass 21 is replaced with the second flat surface 2222, that is, the region is a solid structure. Referring to FIG. 22(c), as a further modification of the three-dimensional structural glass 22, the edge portion of the three-dimensional structural glass 22 may further be provided with a slit 2231 recessed from the second flat surface 2222, that is, the structure of the region is grooved. . Embodiment 23: Referring to FIG. 23(a) and FIG. 23(b), the twenty-third embodiment of the present invention discloses a 12 § 201240925 three-dimensional structural glass 23, which includes two bodies which are oppositely disposed. The portions 2311 and 2321 and the two connecting portions 2312 and 2322 of the main body portions 2311 and 2321 are connected from both sides, so that the cross section of the three-dimensional structure glass 23 is annular. The inner and outer surfaces of the main body portion 231 are all planar. The inner and outer surfaces of the connecting portions 2312 and 2322 are curved surfaces. Viewed in cross-section, the three-dimensional structural glass 23 includes an outer surface 231 and an inner surface 232, both of which are combined by two planes and two curved surfaces. The curvature of the above 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 (i.e., a freeform surface) or a non-linearly varying curvature. Embodiment 24: Referring to Figures 24(a) and 24(b), a twenty-fourth embodiment of the present invention discloses a three-dimensional structural glass 2 comprising an outer surface 241 and an inner surface 242. The outer surface 241 and the inner surface 242_the distance τ (i.e., the thickness of the vertical _ 24A) are fixed. The variation graph Μ"0 and Fig. 24(4) show that the thickness T of the three-dimensional structure glass is linearly changed. ( 24 (_ 24, _, the thickness of the three-dimensional structural glass 24c is nonlinear, that is, Ή, T2, T3, T4 is a non-linearly varying thickness. The material 2, the thickness variation characteristic described above can also be used in all of the above embodiments, that is, the above-mentioned Lishe two-thickness or a structure having a thickness variation, thereby reinforcing the structure of the three-dimensional structural glass, so that It is not easy to damage. The thickness of the three-dimensional structure glass can be 〇lmm to 1〇 leg, and its 'can be a free-form surface, and it can be easily matched with the final product phase E according to its shape. ^_Connection method. Therefore ' can be in the cover == in the vertical _ glass are::=: r transparent guide "transparent _=^ this creation stand · view __ surplus, that is, put _ into the molding die

S 13 201240925 i mold and add; 'Lai heating to the plastic temperature of the glass miscellaneous material; to obtain the finished glass product for the finished product W; for the forming mold and glass into i, and two g: to eliminate thermal stress; and release the force to make the glass The finished product and the forming mold are separately taken out to obtain a three-dimensional structural glass. By adopting the above-mentioned molding process, the ancient: ^丨, ° Gan can have a variety of different structures, and the curvature of the three-dimensional structure area is more than the current spot, and the curvature is not limited, and can be a free-form surface. In addition, the three-dimensional thickness of the creation is 〇.lmm to 1〇mm ′ and its shape is different, which can be matched with the product. It can be used as a three-dimensional structure glass (4) as a casing/appearance component, or as a casing, or a casing, or a product (such as a computer, a USB disk, a mouse, a headphone, etc.) as a display device. The control device, or the cover plate for producing ασ, or the function button of the product, or the touch panel. Referring to FIG. 25, the present invention also discloses a method for manufacturing a three-dimensional structure glass, which comprises the following steps: si, heating a glass blank together with a molding die to a moldable temperature of the glass blank; S2 adding a molding die The glass preform is pressed to obtain a finished glass product; S3' cools the molding die and the finished glass product; and S4 separates the finished glass product from the molding die, which is the three-dimensional structural glass in each of the foregoing embodiments. Wherein, in step S2, "the step of placing the glass blank material into the molding die is further included before the step S1; and the step of annealing is further included in the step S3 to eliminate the thermal stress; the step is performed, the pressure is released to make the finished glass and the molding The mold is separated to facilitate the removal of the finished glass. Further, in the step S2, the moldable temperature is between the temperature of the glass transition point and the temperature of the glass softening point. The finished glass in step S2 is an integrally formed structure, and its cross section is a thin shape. The pressure treatment in step S2 can improve the adhesion of the glass blank material to the molding die, so that the glass product obtained in step S4 does not require subsequent auxiliary processes to achieve the structural and dimensional accuracy required for the three-dimensional structure glass. Reduced manufacturing costs. Of course, in order to improve the performance of the three-dimensional structural glass, the above manufacturing method further includes the step of covering the inner surface or the outer surface of the three-dimensional structural glass with a surface film layer, wherein the surface film layer is a non-conductive film layer or a conductive film layer, The non-conductive film layer is an explosion-proof film, or a decorative film, 201240925 or an optical film, or an anti-fouling film, or a surface-hardened film; the conductive film layer is a non-transparent conductive film or a transparent conductive film; the optical film is anti-glare Membrane or anti-reflective film. In summary, this creation has indeed met the requirements of the invention patent, and loves to apply for a patent 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(a) is a perspective view of a three-dimensional structural glass in a first embodiment of the present invention. Fig. 1(b) is a cross-sectional view taken along line 1A of Fig. 1(a). Figure 2 is a cross-sectional view of a three-dimensional structural glass in the second embodiment of the present invention. Figure 3 is a cross-sectional view of a three-dimensional structural glass in a third embodiment of the present invention. Figure 4 is a cross-sectional view of a three-dimensional structural glass in a fourth embodiment of the present invention. Fig. 5 is a cross-sectional view showing a three-dimensional structural glass in a fifth embodiment of the present invention. Fig. 6 is a cross-sectional view showing a three-dimensional structural glass in a sixth embodiment of the present invention. Figure 7 is a cross-sectional view of a three-dimensional structural glass in a seventh embodiment of the present invention. Figure 8 (a) is a cross-sectional view of a three-dimensional structural glass in an eighth embodiment of the present invention. Fig. 8(b) is a cross-sectional view showing another variation of Fig. 8(a). Figure 9 (a) is a cross-sectional view of a three-dimensional structural glass in a ninth embodiment of the present invention. Fig. 9(b) is a cross-sectional view showing another variation of Fig. 9(a). Fig. 10 (a) is a perspective view of a three-dimensional structural glass in a tenth embodiment of the present invention. Fig. 10(b) is a plan view of Fig. 10(4). Fig. 11 (a) is a perspective view of a three-dimensional structural glass in an eleventh embodiment of the present invention. Figure 11 (b) is a plan view of Figure 11 (a). Fig. 12 (a) is a perspective view of a three-dimensional structural glass in a twelfth embodiment of the present invention. Fig. 12 (b) is a plan view of Fig. 12 (a). Fig. 13 (a) is a perspective view of a three-dimensional structural glass in a thirteenth embodiment of the present invention. Figure 13 (b) is a plan view of Figure 13 (4). Fig. 14 (a) is a perspective view of a three-dimensional structural glass in the fourteenth embodiment of the present invention. Fig. 14 (b) is a plan view of Fig. 14 (4). Fig. 15 (a) is a perspective view of a three-dimensional structural glass in a fifteenth embodiment of the present invention. 201240925 图图图 Figure 15(b) is a top view of Figure 15(8). Figure 16 (a) is a sixteenth embodiment of the present invention. Figure 16 (b) is a plan view of Figure 16 (a). : A perspective view of a three-dimensional structure glass. Fig. 17 (a) is a seven-dimensional embodiment of the present invention, Fig. 17 (b is a simplified view of the Π(8), a three-dimensional view of the #read structure _. Fig. 18(a) is a plan view of the eighteenth embodiment of the present invention (four) (8) Fig. 19(a) is a plan view of Fig. 19(b) and Fig. 19(4) in the nineteenth embodiment of the present invention. Fig. 19 is a perspective view of a glass structure. Figure 22 (b) is a cross-sectional view of Figure 22 (8). Figure 22 (c) is a perspective view of the three-dimensional structure shown in Figure 22 (4) in another variation of the perspective view 23 (4) is the original creation. The twenty-third embodiment of the three-dimensional structure Fig. 23(b) is a perspective view of Fig. 23(a) at another angle. Fig. 24(8) is a perspective view of the third embodiment of the present invention, and Fig. 24(b) is a sectional view of Fig. 24(4). (c) is a cross-sectional view of the three-dimensional structural glass shown in @24(a) in another variation, and is a cross-sectional view of Fig. 24(c). Fig. 24(e) is a three-dimensional structural glass shown in Fig. 24(a) A perspective view of another variation (Fig. 24(f) is a cross-sectional view of Fig. 24(e). Fig. 25 is a flow chart showing the manufacture of the three-dimensional structural glass of the present invention. DESCRIPTION OF REFERENCE TO RELATED APPLICATIONS] Stereostructured glass 1 Main body 101 201240925 Curved portion 102 Outer surface 110, Inner surface 120, 122, 123 Stereostructured glass 2 Main body portion 200 First curved portion 205 Second curved portion 206 Outer surface 207 Inner surface 208 Stereostructured glass 3 body portion 300 first curved portion 301 second curved portion 302 first outer surface 312 first inner surface 322 second outer surface 311 second inner surface 321 third outer surface 313 third inner surface 323 outer surface 31 Inner surface 32 three-dimensional structure glass 4 outer surface 41 inner surface 42 three-dimensional structure glass 5 main body portion 500 first curved portion 501 second curved portion 502 outer surface 51 inner surface 52 three-dimensional structure glass 6 main body portion 600 first bent portion 601 Two bent portions 602 outer surface 61 inner surface 62 joints 63, 64 three-dimensional structure glass 7 main body portion 700 bent portion 701 three-dimensional structure glass 8 main body portion 800 first curved portion 801 first extended portion 802 second curved portion 803 Second extension portion 804 outer surface 81 inner surface 82 three-dimensional structure glass 9 main body portion 900 first curved portion 901 first extension Portion 902 Stereostructured Glass 10 Body Section 1000 Extensions 1021, 1022, 1023 ' 1024 Outer Surface 1001 Inner Surface 1002 Stereostructured Glass 11 201240925 Body 1100 Extension 1121 ' 1122 ' 1123 , 1124 Outer Surface 1110 Inner Surface 1120 Stereostructured Glass 12 body portion 1200 extension portion 1221, 1222 1223, 1224, outer surface 1210 inner surface 1220 three-dimensional structure glass 13 body portion 1300 through hole 1301 '1302 three-dimensional structure glass 14 body portion 1400 extensions 1421, 1422 1428, 1423, 1424, 1425, 1426, 1427 outer surface 141 inner surface 142 three-dimensional structure glass 15 body portion 1500 extension portion 1521 three-dimensional structure glass 16 body portion 1600 three-dimensional structure glass 17 body portion 1700 extension portion 1721 ' 1722 ' 1723 ' 1724 outer surface 171 inner surface 172 Three-dimensional structural glass 18 main body portion 1800 extension portion 1821 ' 1822 1823 , 1824 , three-dimensional structure glass 19 main body portion 1900 extension portion 1921 ' 1922 > 1923 > 1924 notch 1925 three-dimensional structure glass 20 main body portion 2012 first extension portion 2011 second Extension 2013 outer surface 201 Inner surface 202 solid structural glass 21 body portion 2100 extension 2101 outer surface 2111 inner surface 2121 first plane 2114 second plane 2113 201240925

First curved surface 2112 Second curved surface 2122 External surface 211 Inner surface 212 Stereostructured glass 22 Second plane 2222 Slotted 2231 Stereostructured glass 23 Main body 2311 ' 2321 Connecting portion 2312, 2322 External surface 231 Inner surface 232 Solid structure glass 24A Surface 241 inner surface 242 three-dimensional structure glass 24B three-dimensional structure glass 24C

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Claims (1)

201240925 七:,申诮: Patent scope Weng:::,^ * - . ... — . 'vV ' , '··., - .- :jvir 1. - A three-dimensional structure angry 'its cross-section shape The stereo-junction--package_surface and outer surface are characterized in that: the inner surface of the three-dimensional structure glass "a curved surface, or a combination of at least two curved surfaces, or a combination of curved surfaces and planes, or at least The combination of the two planes; the outer surface of the three-dimensional structure glass is a curved surface, or a combination of at least two curved surfaces, or a combination of a curved surface and a plane, and at least a combination of at least a sheep and a shame, 2: as claimed in the patent scope: i item & stereoscopic gold ^., wherein the thickness of the stereoscopic structure glass is 0.1mn^ to 10mm.. 沁一Ά - 3. Such as "patent fine!" Item "Three-dimensional structure _., the body structure of the body includes the body portion and the main _ phase _ at least one bay turn, the main _ pie table = = the inner surface g of the body is a plane, or a curved surface, or The combination of sharp face and "the bend.: the outer surface of the portion 4 and the inside of the curved portion are each "". The outer surface of the three-dimensional structural glass and the inner surface of the three-dimensional structural glass are both by the face and the curved surface. Contained. 1 .. if the special female 丨 观 立体 立体 立体 、 、 、 、 、 、 、 、 、 立体 立体 立体 立体 立体 立体 立体 立体 立体 立体 包括 包括 包括 包括 包括 包括 包括 包括 包括 包括 包括 包括 包括 包括 包括 包括 包括 包括 包括 包括The outer surface of the first f-curved portion and the inner surface of the first curved portion are both the outer surface of the second curved portion and the outer surface of the second curved portion. The two-curved surface _ surface is also a curved surface, and the outer surface of the three-dimensional two-structure glass and the _ surface of the three-dimensional glazed glass are at least. Two curved surfaces are one: = patent _ 1' item axe three-dimensional knot turtle, The body surface is: the body portion and the body portion _ lotus and 1 from the body portion are twisted and twisted at least one of the curved inner and outer surfaces of the bent portion are flat and the body portion and the bend The junction of the folds forms an angle 'the angle is greater than the twist is less than 18 degrees. In the scope of the first item, the three-dimensional structure is static, and its stereoscopic structure is broken from the main body. Decrease—the round ρ, '.all 延伸 part of the extension at least—extension of the main body and ―, its (four), bend, ·, outside _ for the song -:.-· _· 5:^: .- ... alone.F :..-.:.3⁄4.—Ge::.'. 201240925 Forming an angle 'The angle of loss is greater than 0 degrees and less than 180 degrees. Please refer to the full-scale 所述 构 构 , , , , , 所述 所述 所述 所述 所述 所述 所述 所述 所述 所述 所述 所述 所述 所述 所述 所述 所述 所述 所述 所述 所述 所述 所述 所述 所述 所述 所述 所述 所述 所述 所述 所述 所述 所述 所述 所述The outer surface of the surface and the main body (4) are curved surfaces, and the second and second extension portions are flat and the outer surface of the first and second extension portions of the first and second extension portions; the three-dimensional structure Both the glass-filament and the three-dimensional structure surface comprise a combination of a curved surface and two planes. The three-dimensional structural glass according to claim 1, wherein the three-dimensional structure glass body comprises a main body portion and an extending portion integrally extending from the main body portion, and an outer surface of the extending portion includes a plane and a first The second plane of the plane opposite and at the bottom of the first plane, and the first surface of the second plane, the second plane, the outer surface of the solid structure glass is a combination of two planes 1151 curved surface. 9. A three-dimensional structural glass comprising a body portion and a body edge extending from the body portion, a plurality of extensions 4', wherein the body portion includes a shouting surface and a silk surface. The extension portion also includes an inner surface and an outer surface. The inner surface of the three-dimensional structural glass includes an inner surface of the main body portion and an extension=inner surface, and the outer surface of the erecting structure includes an outer surface of the line portion and an extension portion=outer surface, wherein the three-dimensional structural glass The inner surface is a curved surface, or a combination to a surface, or a combination of a curved surface and a plane, or a combination of at least two planes; the outer surface of the body structure is a curved surface, or at least two curved mosquito combinations: or a curved surface and a plane A combination, or a combination of at least two planes. The three-dimensional structural glass according to claim 9, wherein the outer surface of the main body portion and the outer surface of the main body portion are flat or curved, and the inner surface of the extending portion and the inner surface of the extending portion are curved surfaces. The three-dimensional structural glass of claim 9, wherein the outer portion j of the main body portion and the surface of the main body portion are flat, and the outer surface of the material extending the outer surface and the extending portion are also flat. The angle between the extension portion and the main body portion is greater than Q degree less than 18 degrees. Kind of age structure_, county micro, #杂铋: (4) set up the ship 1 glass including the relative arrangement _ main body and division _ connect the two parts of the two parts, the 21 & 201240925 within the main body, The outer surface is flat, the inner and outer surfaces of the connecting portion are curved surfaces, and the inner surface of the three-dimensional structural glass includes an inner surface of the main body portion and an inner surface of the connecting portion, and the outer surface of the three-dimensional structural glass includes a main body The outer surface of the portion and the outer surface of the connecting portion. I3. If you declare the patent scope 帛! The three-dimensional structural glass according to any one of the preceding item, wherein the three-dimensional structural glass is manufactured by a molding process. The three-dimensional structural glass according to any one of the preceding claims, wherein the vertical erecting glass-looking ride presents a money shape, or a circle, or an ellipse, or Sector, or bow, or freeform, or a combination of the above. 15. For the structural glass as described in item (4) of the application, the glass glazing is provided with at least a fine penetration, and the front through hole penetrates the inner surface of the three-dimensional structural glass and the three-dimensional structural glass. Outside surface. 16· As claimed in any one of the items i to 12 of the patent application, as a product with a display device, or as a patent scope! Item to item 12 (4): 3⁄4 scales are _ _, or are heterozygous. Itzi or anti-reflective 臈. /Electric film, the optical 臈 is anti-glare 409 201240925 2 〇 _ - a method for manufacturing a three-dimensional structure glass, comprising the following steps: S1, heating the glass blank together with the forming mold to a moldable temperature of the glass blank S2, pressurizing the molding die to press the glass blank material to obtain the finished glass product, · 53 'cooling the molding die and the glass finished product; 54 ' separating the finished glass product from the molding die, the finished glass product is a three-dimensional structure The cross section of the three-dimensional structure is -_hetero, and the inner surface of the three-dimensional structural glass is a curved surface, or a combination of at least two curved surfaces, or a combination of curved Φ and a plane. Or a combination of at least two planes; the outer surface of the three-dimensional structural glass is a curved surface, or a combination of at least two curved surfaces, or a combination of curved surfaces and planes, or a combination of at least two planes. 21. The manufacturing method according to claim 2, wherein before the step, the step of placing the glass preform in the molding die is further included; and in the step S4, the pressure is released to separate the glass product from the molding die. 22. The method of manufacture of claim 2, wherein in step ,, the moldable temperature is between a glass transition and a temperature. For the manufacturing method described in the scope of claim 2G, the ΪΪΐ ϋ ϋ ϋ 步骤 步骤 步骤 步骤 步骤 疳 疳 疳 疳 疳 疳 疳 疳 疳 疳 疳 疳 疳 疳 疳 疳 疳 疳 疳 疳 疳 疳 疳 疳 疳 疳 疳 疳 疳 疳 疳The 2G item Wei Zhi made the miscellaneous, and the geometric shape of the towel riding structure glass is polygonal, or circular, or elliptical, or fan-shaped, or == coffee TM secret - tearing structure or manufacturing as described in item 20 The method wherein the thickness of the solid structure glass is mosquitoes, or is linearly variable, or is nonlinear. 26. The manufacturing method according to claim 2G, wherein the towel is enclosed in a three-dimensional, Wei-wei shouting face or a nuclear surface covering the secret layer, = surface film scale conductive film layer or conductive film layer, The material of the film explosive film, or fiber repair, film = 23 5 201240925 non-transparent guide crane or _ guide; set silk __ thin or anti-reflective film. The manufacturing method according to the second aspect of the invention, wherein the three-dimensional structure glass is used as a f-screen protection glass for an age-old device product, or a product for cultivating a shell or a product. . The cover, or the outer cover, the touch, or the product, or the touch panel. 24 S