TW201827858A - Manufacturing method of three-dimensional workpiece with anti-glare film - Google Patents

Abstract

The invention provides a manufacturing method of a three-dimensional workpiece with an anti-glare film. The manufacturing method comprises the following steps: providing a film, a hot-pressing mold and an injection molding machine, wherein the film comprises a visible area and a frame area, the injection molding machine is provided with a mold forming cavity for accommodating the film, and the mold forming cavity is provided with a first anti-glare structure; providing a second anti-glare structure on one surface of the film; placing the film on the hot-pressing mold and performing hot-pressing molding; placing the film in the mold forming cavity and performing pressing molding, so that the second anti-glare structure forms a smooth surface and a mixing part, and the second anti-glare structure of the mixing part and the first anti-glare structure are mixed; and providing a workpiece main body positioned on the other surface of the film. By the method, the defects that transfer rate is low when the anti-glare structure is transferred to the film in the manufacturing process of directly adhering the mold in the mold, the anti-glare structure is liable to damage or disappearance after environmental measurement and the film has less selectivity can be improved.

Description

Manufacturing method of three-dimensional workpiece with anti-glare film

The invention relates to an in-mold sticking technology, in particular to a method for manufacturing a three-dimensional workpiece with an anti-glare film, in which an anti-glare structure is manufactured on the surface of the film, and then the film is subjected to an in-mold sticking process to project out the workpiece body.

In-Mold Film (IMF) is a technology for spray coating on plastic surfaces to produce anti-fog, anti-glare, anti-fingerprint or anti-reflection coating technology.

Automotive display screen covers have safety considerations such as surface hardness (requires greater than 3H) and optical characteristics (such as light transmittance, anti-fog, anti-glare, anti-fingerprint or anti-reflection). Generally, anti-glare covers are fully coated. The visible area of the display screen can effectively prevent glare, but the surrounding border area will cause a visual white fog feeling, which will affect driving safety. For flat cover, anti-glare effect can be achieved by making surface coating through UV light imprint. However, for cover plates with three-dimensional structures such as curved surfaces, due to high security and surface hardness requirements, the industry currently chooses to use in-mold molds and compression injection molding technology to produce anti-glare cover plates, as shown in Figure 1, in The injection molding machine 1 is provided with an anti-glare structure 2, and the anti-glare structure 2 is transferred to the film 3 during compression injection molding. The above method can achieve the anti-glare coating only in the visible area. However, the anti-glare structure 2 has a low transfer yield, and the anti-glare structure is easily destroyed or disappeared after the test. There is still room for improvement.

The purpose of this creation is to provide a three-dimensional workpiece manufacturing method with anti-glare film, which can improve the conventional anti-glare cover plate manufacturing process. The anti-glare structure has a low transfer yield, the anti-glare structure is easy to be destroyed or disappeared after the test, and the film is selected. Less sexual and other disadvantages.

In order to achieve the above purpose, this creation is achieved by the following technical means. Among them, this creation provides a method for making a three-dimensional workpiece with an anti-glare film, including the following steps: a providing a film, a hot-pressing mold, and an injection molding machine The film includes a visible area and a border area, the border area is located around the outer edge of the visible area, the hot-pressing mold has a three-dimensional structure, the injection molding machine has a mold forming cavity, and the mold forming cavity is configured to receive the A film, and the mold forming cavity has a first anti-glare structure, and the position of the first anti-glare structure corresponds to the position of the visible area. b Provide a second anti-glare structure, the second anti-glare structure is located on a surface of the film. c Place the film on the hot-pressing mold for hot-pressing. d separate the film from the hot pressing mold so that the film forms the three-dimensional structure shape. e Placing the film in the mold forming cavity for a press-forming type, so that the second anti-glare structure is formed with a smooth surface and a mixing portion, the smooth surface is located on the frame area, and the mixing portion is located on the visible area And the second anti-glare structure of the mixing portion is mixed with the first anti-glare structure. f Provide a workpiece body on the other surface of the film. g Separate the film from the injection molding machine.

In order to achieve the above-mentioned purpose and effect, the technical means and structure used in this creation, here are some details about the features and functions of the preferred embodiment of this creation. I fully understand it, but it must be noted that these contents are not This constitutes the limitation of the present invention.

Please refer to FIG. 2 to FIG. 7 at the same time. This creation provides a method for making a three-dimensional workpiece with an anti-glare film, including the following steps:

Step 91: Provide a film 4, a hot-pressing mold 5, and an injection molding machine 6. The surface hardness of the film 4 is not less than 3H, and it may be a polymer film, a metal oxide film, or a nanosol film, but is not limited thereto. The film 4 includes a viewing area 41 and a border area 42, and the border area 42 is located around the outer edge of the viewing area 41. The hot-pressing mold 5 has a three-dimensional structure 51, and the hot-pressing mold 5 is used to shape the film 4 into a desired shape through hot-press molding. In this embodiment, the three-dimensional structure 51 is a curved structure. The injection molding machine 6 has a mold forming cavity 61 for receiving the film 4, and the mold forming cavity 61 has a first anti-glare structure 62. When the film 4 is placed in the mold forming cavity 61 When inside, the position of the first anti-glare structure 62 corresponds to the position of the visible area 41.

Step 92: A second anti-glare structure 43 is provided, and the second anti-glare structure 43 is located on a surface 44 of the film 4. The second anti-glare structure 43 is coated on the surface 44 of the film 4 with a solution (not shown) containing a photo-curable prepolymer, a diluent, a photoinitiator, and an inorganic nano metal component, and reused. Ultraviolet light was formed to cure the solution.

Step 93: The film 4 is placed on the hot-pressing mold 5 for hot-pressing. The other surface 45 of the film 4 not having the second anti-glare structure 43 is adhered to the surface of the hot-pressing mold 5, and the hot-press molding is performed to form the film 4 with a curved structure.

Step 94: Separate the film 4 from the hot-pressing mold 5 so that the film 4 forms the three-dimensional structure 51 shape.

Step 95: The thin film 4 is placed in the mold forming cavity 61 to perform a compression molding, so that the second anti-glare structure 43 is formed with a smooth surface 71 and a mixing portion 72. The smooth surface 71 is located on the frame area 42, the mixing portion 72 is located on the visible area 41, and the second anti-glare structure 43 of the mixing portion 72 is mixed with the first anti-glare structure 62. During the pressing process, the mold forming cavity 61 flattens the second anti-glare structure 43 located in the frame area 42 to form the smooth surface 71, and the first anti-glare structure 62 is transferred to the visible area 41. The second anti-glare structure 43 forms the mixing portion 72.

Please refer to FIG. 8 for more details. In an embodiment of the present invention, the first anti-glare structure 62 is a cone-shaped structure, and the second anti-glare structure 43 is a granular structure. The particles of the second anti-glare structure 43 located in the frame region 42 are pressed into the mold layer, so the surface of the frame 4 region of the film 4 is smooth. In addition to the granular structure, the visible area 41 also has a tapered structure transferred from the mold forming cavity 61.

Please refer to FIG. 9. In an embodiment of the present invention, the first anti-glare structure 62 and the second anti-glare structure 43 are cone-shaped structures. The second anti-glare structure 43 located in the frame region 42 is flattened, so the surface of the frame region 42 of the film 4 is smooth. In addition to the original tapered structure of the film 4 viewing area 41, the tapered structure transferred from the mold forming cavity 61 forms a hybrid structure.

Step 96: A workpiece body 8 is provided on the other surface 45 of the film 4. The injection molding machine 6 includes a channel 63 for injecting a plastic body (not shown) into the mold forming cavity 61, and the plastic body is solidified on the other surface 45 of the film 4 to form the workpiece body 8.

Step 97: Separate the film 4 from the injection molding machine 6.

Through the above methods, this creation reveals a method for making a three-dimensional workpiece with an anti-glare film, which uses In-Mold Film (IMF) technology to produce an anti-glare structure on the surface of the film through ultraviolet or coating. The film is then subjected to an in-mold sticking process to project the workpiece body. It improves the shortcomings of the prior art that the anti-glare structure is directly transferred to the film during the in-mold die-casting process, which is prone to low transfer rates, the anti-glare structure is easily damaged or disappeared after the ring test, and the film is less selective.

After the above detailed description, it has been fully shown that this creation has a progressive nature for implementation, and it is a new creation that has not been seen before, which fully complies with the requirements of the invention patent, and has filed an application in accordance with the law. However, the above is only a preferred embodiment of the present invention. When it cannot be used to limit the scope of the implementation of the invention, that is, equal changes and modifications made in accordance with the scope of the invention patent should all fall within the scope of the invention patent. .

1‧‧‧ injection molding machine

2‧‧‧ anti-glare structure

3‧‧‧ film

4‧‧‧ film

41‧‧‧Viewable Area

42‧‧‧Border area

43‧‧‧Second anti-glare structure

44, 45‧‧‧ surface

5‧‧‧Hot pressing mold

51‧‧‧Three-dimensional structure

6‧‧‧ injection molding machine

61‧‧‧Molding cavity

62‧‧‧The first anti-glare structure

63‧‧‧channel

71‧‧‧ smooth surface

72‧‧‧ Mixing Department

8‧‧‧ Workpiece body

91 ～ 97‧‧‧step

Figure 1 is a schematic diagram of the anti-glare cover plate made by the conventional technology compression injection molding technology; Figure 2 is a flowchart of the method of creative production method; Figures 3 to 7 are schematic diagrams of the manufacturing process of the creative production method; Schematic diagram of the anti-glare structure of the structure; Figure 9 is a schematic diagram of the anti-glare structure of the granular structure and the mixed cone structure.

Claims (8)

A method for manufacturing a three-dimensional workpiece with an anti-glare film includes the following steps: a providing a film, a hot-pressing mold, and an injection molding machine, the film including a visible area and a frame area, the frame area being located at the outer edge of the visible area Around, the hot-pressing mold has a three-dimensional structure, the injection molding machine has a mold forming cavity for receiving the film, and the mold forming cavity has a first anti-glare structure, the first anti-glare structure The position corresponds to the position of the visible area; b to provide a second anti-glare structure, the second anti-glare structure is located on a surface of the film; c to place the film on the hot-press mold for a hot-press molding; The film and the hot-pressing mold, so that the film forms the three-dimensional structure shape; e placing the film in the mold forming cavity to perform a pressing synthesis type, so that the second anti-glare structure is formed with a smooth surface and a mixing portion, the The smooth surface is located on the frame area, the mixing portion is located on the visible area, and the second anti-glare structure of the mixing portion is mixed with the first anti-glare structure; f 提A workpiece positioned on the other main surface of the film; G separating the film and the injection molding machine. The method for manufacturing a three-dimensional workpiece with an anti-glare film according to item 1 of the scope of patent application, wherein the three-dimensional structure is a curved structure. The method for manufacturing a three-dimensional workpiece with an anti-glare film according to item 1 of the scope of the patent application, wherein the second anti-glare structure is coated with a photocurable prepolymer, a diluent, a photoinitiator, and an inorganic nano-metal component. A solution is formed on the surface of the film, and the solution is cured by ultraviolet light irradiation. The method for manufacturing a three-dimensional workpiece with an anti-glare film according to item 1 of the scope of the patent application, wherein step b further comprises: the other surface of the film not having the second anti-glare structure is adhered to the surface of the hot-pressing mold. The method for manufacturing a three-dimensional workpiece with an anti-glare film according to item 1 of the scope of patent application, wherein the step e further includes: during the pressing process, the mold forming cavity presses the second anti-glare structure located in the frame area. The smooth surface is formed flat, and the first anti-glare structure is transferred to the second anti-glare structure located in the visible area to form the mixing portion. According to the method for manufacturing a three-dimensional workpiece with an anti-glare film according to item 1 of the scope of the patent application, the first anti-glare structure is a cone-shaped structure, and the second anti-glare structure is a granular structure. The method for manufacturing a three-dimensional workpiece with an anti-glare film according to item 1 of the scope of the patent application, wherein the first anti-glare structure and the second anti-glare structure are conical structures. According to the method for manufacturing a three-dimensional workpiece with an anti-glare film according to item 1 of the scope of patent application, the injection molding machine further includes a channel for injecting a plastic body into the mold forming cavity, and the plastic body is in the film. Solidified on the other surface to form the workpiece body.