TW201325933A - Workpiece with three-dimensional pattern - Google Patents

Abstract

A workpiece with three-dimensional pattern having a three-dimensional surface and suitable for an electronic device is provided. A multiple three-dimensional micro patterns formed on the three-dimensional surface reflects an environment light to form images with a visual effect. The workpiece with three-dimensional pattern includes a workpiece and an adhesive layer. The adhesive layer is disposed on the workpiece and impressed to form the multiple three-dimensional micro patterns, and the workpiece is punched to form the three-dimensional surface. A first part of the multiple three-dimensional micro patterns on the three-dimensional surface reflects the environment light to form a first reflecting light beam. A second part of the multiple three-dimensional micro patterns on the three-dimensional surface reflects the environment light to form a second reflecting light beam. The images with the visual effect includes at least the first reflecting light beam, the second reflecting light beam, and the multiple three-dimensional micro patterns.

Description

Workpiece with three-dimensional pattern

The present invention relates to a workpiece, and more particularly to a workpiece having a three-dimensional pattern.

At present, many electronic devices, such as notebook computers, mobile phones, and digital cameras, often use metal materials as materials for appearance components. In order to add a design that is aesthetically pleasing to the electronic device, it is often necessary to form various patterns on the exterior member. In the prior art, the manner of forming a pattern on the surface of a metal material is usually performed by etching a metal material with a solvent or by painting or transferring. However, the surface treatment technology of the former is complicated and difficult, and the process is highly polluting, while the latter is limited by the chemical nature of the metal material, so that a better appearance cannot be obtained.

The invention provides a workpiece, wherein a glue layer having a plurality of three-dimensional micro-patterns is disposed on the workpiece to form a stereoscopic effect.

An embodiment of the invention provides a workpiece having a three-dimensional pattern having a three-dimensional surface and being suitable for use in an electronic device. A plurality of three-dimensional micro-patterns are formed on the three-dimensional surface and reflect an ambient light to form a plurality of three-dimensional micro-pattern images having a light-dark effect. The workpiece having a three-dimensional pattern includes a workpiece and a glue layer. The glue layer is disposed on the workpiece. The glue layer forms a plurality of three-dimensional micro-patterns by embossing, and the workpiece forms a three-dimensional surface by punching. A first portion of the plurality of solid micro-patterns on the solid surface reflects ambient light to form a first reflected light. A second portion of the plurality of solid micropatterns on the solid surface reflects ambient light to form a second reflected light. The complex three-dimensional micro-pattern image having the light and dark effect is composed of at least a first reflected light, a second reflected light, and a plurality of three-dimensional micro-patterns.

Based on the above, in the above embodiment of the present invention, the glue layer is disposed on the workpiece such that a portion of the plurality of three-dimensional micro-patterns on the three-dimensional surface reflects ambient light to form the first reflected light, and is located on the three-dimensional surface. Another portion of the plurality of three-dimensional micropatterns reflects ambient light to form a second reflected light. The first reflected light and the second reflected light may have different phases and may be offset by the same phase or have the same phase to form a stereoscopic effect to enhance the aesthetic appearance of the workpiece.

The above described features and advantages of the present invention will be more apparent from the following description.

1 is a schematic view of a workpiece in accordance with an embodiment of the present invention. Referring to FIG. 1, a workpiece having a three-dimensional pattern includes a workpiece 100 and a glue layer 200. The glue layer 200 is disposed on the workpiece 100 and forms a plurality of three-dimensional micro-patterns by embossing. The workpiece 100 forms a solid surface 110 by stamping. A first portion of the plurality of stereo micro-patterns on the stereoscopic surface 110 reflects ambient light L1 to form a first reflected light L2, and a second partial reflection of the plurality of stereo micro-patterns on the solid surface 110 The ambient light L1 forms a second reflected light L3 to form an image having a light and dark effect. The image having a light and dark effect is composed of at least a first reflected light L2, a second reflected light L3, and the plurality of three-dimensional micro-patterns. The workpiece having the three-dimensional pattern shown in FIG. 1 is, for example, a part of an electronic device.

In the above configuration, the adhesive layer 200 is disposed on the workpiece 100 such that a portion of the plurality of microscopic micropatterns on the stereoscopic surface 110 reflects the ambient light L1 to form the first reflected light L2, and is located on the solid surface 110. Another portion of the complex three-dimensional micropattern reflects ambient light L1 to form second reflected light L3. The first reflected light L2 and the second reflected light L3 may have different phases and complement each other or have the same phase to form a stereoscopic effect to enhance the workpiece by the complex three-dimensional micropattern of the glue layer 200. 100 beautiful.

For example, the first reflected light L2 is reflected by the adhesive layer 200, and the second reflected light L3 is reflected by the workpiece 100 and is refracted by the adhesive layer 200 such that the first reflected light L2 and the second reflected light L3 have different phases. And the offsets or the same phase are added together.

When the plurality of rays are respectively irradiated to different regions of the adhesive layer 200, the complex three-dimensional micropattern of the adhesive layer 200 may have different reflection effects and different refraction effects in different regions of the adhesive layer 200, so that the phase change of a light can be Different from the phase change of another light. Thereby, in different regions, the offset effect and the additive effect of the reflected light will be different to form the stereoscopic effect described above.

In the present embodiment, the material of the workpiece 100 is, for example, a metal material suitable as an appearance member such as an aluminum alloy (5052), stainless steel (430, 304), cold rolled steel (spcc), or magnesium alloy (AZ91D, AZ61).

In detail, the glue layer 200 has a plurality of optical microstructures 210 to form the plurality of three-dimensional micro-patterns. Each of the optical microstructures 210 has a square cross section. The width W of each of the optical microstructures 210 is 20 to 500 μm (preferably 50 to 150 μm), and the height H of each of the optical microstructures 210 is 1 to 20 μm (preferably 5 to 12 μm). The thickness T of the adhesive layer 200 is 5 to 50 μm (preferably 10 to 20 μm), and the light transmittance of the adhesive layer 200 is 5 to 100%. In other embodiments, each of the optical microstructures 210 can have any other suitable width and any other suitable height. The glue layer 200 can have any other suitable thickness and any other suitable light transmittance, which is not limited by the present invention.

2 is a partial schematic view of a workpiece having a three-dimensional pattern according to another embodiment of the present invention. Referring to Figure 2, each optical microstructure 210' of the glue layer 200 has a semi-circular cross section. In other embodiments, the cross section of each optical microstructure may be any other suitable shape, which is not limited in the present invention.

In the present embodiment, the workpiece 100 is, for example, a metal sheet, a fiber and sheet metal or a carbon fiber and sheet metal. Therefore, in the process of manufacturing the workpiece 100, the workpiece 100 can be transported and processed by a roller device to improve the production efficiency of the workpiece 100.

3A to 3C are manufacturing flow charts of the workpiece having the three-dimensional pattern of Fig. 1. The glue layer 200 is disposed on the workpiece 100 as shown in FIG. 3A, and the glue layer 200 disposed on the workpiece 100 is embossed by the mold 300 as shown in FIG. 3B to form a plurality of three-dimensional micro-patterns as shown in FIG. 3C. Next, the workpiece 100 is stamped to form the solid surface 110 shown in FIG.

In the present embodiment, the workpiece 100 can be profiled by a stamping apparatus to stamp the workpiece 100 from a sheet state into a three-dimensional workpiece. Accordingly, the workpiece 100 of the present embodiment can be formed on the workpiece 100 by arranging the adhesive layer 200, and then forming a plurality of three-dimensional micro-patterns before the sheet state, and then pressing the workpiece 100 according to the desired shape. The equipment is processed. This not only avoids the technical difficulty of forming a plurality of three-dimensional micro-patterns on the surface of the three-dimensional workpiece, but also increases the applicability of the workpiece 100.

4 is a partial schematic view of a workpiece having a three-dimensional pattern according to another embodiment of the present invention. Different from the above embodiment, before applying the adhesive layer 200 on the workpiece 100, a primer 900 may be applied to the workpiece 100 to connect the adhesive layer 200 with the workpiece 100, wherein Layer 900 then reflects the ambient light to form a visual effect. Moreover, the embodiment further includes a color layer 400 disposed on the adhesive layer 900 to color the workpiece 100, wherein the color layer 400 also reflects the ambient light to form a visual effect. Here, the present embodiment does not limit the manner in which the workpiece 100 is colored, which may be disposed on the adhesive layer 900 using a coating, screen, lithography or intaglio. The color layer 400 can have a two-dimensional pattern 410, and the two-dimensional pattern 410 and the plurality of three-dimensional micro-patterns are continuous in the bent portion of the workpiece 100. The thickness of the glue layer 200 positioned at the bent portion of the workpiece 100 is less than the thickness of the glue layer 200 positioned at the flat portion of the workpiece 100. Thereby, the complex three-dimensional micro-pattern and the two-dimensional pattern 410 of the adhesive layer 200 can form a pattern or a grating having a stereoscopic effect by interference of light. In addition, after the adhesive layer 200 is cured, a protective layer 500 may be disposed on the adhesive layer 200 to avoid damage to the surface of the workpiece 100 during the subsequent stamping process, wherein the protective layer 500 reflects the ambient light to form a visual effect.

In the present embodiment, more color layers having different colors may be disposed between the adhesive layer 200 and the adhesive layer 900, which is not limited by the present invention.

FIG. 5 is a partial schematic view of a workpiece having a three-dimensional pattern according to another embodiment of the present invention. Referring to FIG. 5, in the embodiment, the workpiece 100 has a first surface S1 and a second surface S2 opposite to each other. Before the adhesive layer 200 is applied, a first adhesive layer 600 and a second adhesive layer 700 are respectively coated on the first surface S1 and the second surface S2. This makes the first surface S1 and the second surface S2 of the workpiece 100 both viscous. Subsequently, the glue layer 200 is applied to the first adhesive layer 600. After the step of curing the adhesive layer 200 is completed, a plurality of the three-dimensional members 800 can be formed on the second adhesive layer of the second surface S2 of the workpiece 100 by the in-mold ejection technique. These three-dimensional members 800 are, for example, a plurality of bosses to facilitate assembly of other members on the workpiece 100.

On the other hand, please refer to FIG. 4 and FIG. 5 simultaneously. In the embodiment of FIG. 5, the first adhesive layer 600 is a color-adhesive layer, which is, for example, added a color dye to the adhesive layer 600, and thus need not be in FIG. The color layer 400 is separately printed on the adhesive layer 900 to achieve the purpose of coloring the workpiece 100.

In summary, in the above embodiment of the present invention, the glue layer is disposed on the workpiece such that a portion of the plurality of micro-patterns on the three-dimensional surface reflects ambient light to form the first reflected light, and is located in the three-dimensional Another portion of the complex three-dimensional micropattern of the surface reflects ambient light to form a second reflected light. The first reflected light and the second reflected light may have different phases and may be offset by the same phase or have the same phase to form a stereoscopic effect to enhance the aesthetic appearance of the workpiece.

Although the present invention has been disclosed in the above embodiments, it is not intended to limit the invention, and any one of ordinary skill in the art can make some modifications and refinements without departing from the spirit and scope of the invention. The scope of the invention is defined by the scope of the appended claims.

100. . . Workpiece

110. . . Three-dimensional surface

200. . . Glue layer

210, 210’. . . Optical microstructure

300. . . Mold

400. . . Color layer

410. . . Two-dimensional pattern

500. . . The protective layer

600. . . First layer

700. . . Second subsequent layer

800. . . Three-dimensional member

900. . . Next layer

H. . . height

L1. . . Ambient light

L2. . . First reflected light

L3. . . Second reflected light

S1. . . First surface

S2. . . Second surface

T. . . thickness

W. . . width

1 is a schematic view of a workpiece in accordance with an embodiment of the present invention.

2 is a partial schematic view of a workpiece having a three-dimensional pattern according to another embodiment of the present invention.

3A to 3C are manufacturing flow charts of the workpiece having the three-dimensional pattern of Fig. 1.

4 is a partial schematic view of a workpiece having a three-dimensional pattern according to another embodiment of the present invention.

FIG. 5 is a partial schematic view of a workpiece having a three-dimensional pattern according to another embodiment of the present invention.

100. . . Workpiece

110. . . Three-dimensional surface

200. . . Glue layer

210. . . Optical microstructure

H. . . height

L1. . . Ambient light

L2. . . First reflected light

L3. . . Second reflected light

T. . . thickness

W. . . width

Claims (18)

A workpiece having a three-dimensional pattern having a three-dimensional surface and being suitable for an electronic device, wherein a plurality of three-dimensional micro-patterns are formed on the three-dimensional surface and reflecting an ambient light to form a plurality of three-dimensional micro-pattern images having a light-dark effect, The workpiece of the three-dimensional pattern includes: a workpiece; and a glue layer disposed on the workpiece, wherein the glue layer forms the plurality of micro-patterns by embossing, and the workpiece forms the three-dimensional surface by stamping, wherein the A first portion of the plurality of micro-patterns on the three-dimensional surface reflects the ambient light to form a first reflected light, and a second portion of the plurality of micro-patterns on the three-dimensional surface reflects the ambient light to form a first The two reflected light rays, wherein the plurality of three-dimensional micro-pattern images having the light-dark effect are composed of at least the first reflected light, the second reflected light, and the complex three-dimensional micro-pattern. The workpiece having a three-dimensional pattern as described in claim 1, wherein a phase of the first reflected light is different from a phase of the second reflected light. The workpiece having a three-dimensional pattern as described in claim 1, wherein the phase of the first reflected light is the same as the phase of the second reflected light. The workpiece having a three-dimensional pattern as described in claim 1, wherein the thickness of the adhesive layer is 5 to 50 μm, preferably 10 to 20 μm. The workpiece having a three-dimensional pattern as described in claim 1, wherein the adhesive layer has a light transmittance of 5 to 100%. The workpiece having a three-dimensional pattern as described in claim 1, wherein the glue layer has a plurality of optical microstructures to form the plurality of three-dimensional micro-patterns. The workpiece having a three-dimensional pattern as described in claim 6 wherein each of the optical microstructures has a width of 20 to 500 μm, preferably 50 to 150 μm. The workpiece having a three-dimensional pattern as described in claim 6 wherein each of the optical microstructures has a height of 1 to 20 μm, preferably 5 to 12 μm. The workpiece having a three-dimensional pattern as described in claim 6, wherein each of the optical microstructures has a semicircular or square cross section. The workpiece having a three-dimensional pattern according to claim 1, further comprising: an adhesive layer disposed between the workpiece and the adhesive layer, wherein the adhesive layer reflects the ambient light to form the visual effect. The workpiece having a three-dimensional pattern according to claim 10, further comprising: a color layer disposed between the adhesive layer and the adhesive layer, wherein the color layer reflects the ambient light to form the visual effect. The workpiece having a three-dimensional pattern as described in claim 11, wherein the color layer has a two-dimensional pattern, and the two-dimensional pattern forms a stereoscopic effect with the plurality of three-dimensional micro-patterns. The workpiece having a three-dimensional pattern as described in claim 10, wherein the adhesive layer is a color-adhesive layer. The workpiece having a three-dimensional pattern as described in claim 10, wherein the workpiece has a first surface and a second surface opposite to each other, the adhesive layer comprising a first adhesive layer and a second adhesive layer, And the first adhesive layer and the second adhesive layer are respectively coated on the first surface and the second surface, wherein the adhesive layer is coated on the first adhesive layer located on the first surface. The workpiece having a three-dimensional pattern as described in claim 14, further comprising: a three-dimensional member disposed on the second adhesive layer located on the second surface. The workpiece having a three-dimensional pattern as described in claim 1, further comprising: a protective layer disposed on the adhesive layer, wherein the protective layer reflects the ambient light to form the visual effect. The workpiece having a three-dimensional pattern as described in claim 1, wherein the workpiece is a metal plate, a fiber and a metal plate or a carbon fiber and a metal plate. The workpiece having a three-dimensional pattern as described in claim 1, wherein the workpiece is formed into a three-dimensional workpiece by punching.