1. Field of the Invention
The present invention generally relates to metallic covers and methods for making the same, and more particularly to a metallic cover used for electronic devices and method for making the same.
2. Discussion of the Related Art
Generally, a metallic cover has a more appealing appearance and a better surface feeling than a plastic cover, thus metallic covers are popularly used for electronic devices such as flat-panel display devices.
Referring to
In order to obtain a different appearance, an edge structure of another typical cover for connecting the side walls and the bottom base may be a sharp-cornered edge instead of the curve-cornered edge. Generally, the sharp-cornered edge is impossible to be made by metal drawing method. A typical method for making a metallic cover with a sharp-cornered edge is made by the two following steps: drawing a metal sheet into a preformed cover; pressing the preformed cover into a metallic cover with a sharp-cornered edge by a forming die. However, the above described method is prone to cause cracks in the edge structure of the metallic cover, thus decreasing quality of the metallic covers.
In addition, the metallic covers made by the above described method need to be processed by an anodizing process. After the anodizing process, color of surface of the edge structure of the metallic cover is quite different from that of other parts of the metallic cover, thereby decreasing the quality of the appearance of the cover.
Therefore, a new metallic cover is desired in order to overcome the above described shortcomings. A method for making the metallic cover is also needed.
In one aspect, a metallic cover includes a bottom base and a plurality of side walls. The side walls extend from bottom base. The bottom base and each of the side walls cooperatively are connected by an edge structure. The metallic cover is made of a metallic material that has a yield strength in the range from about 80 MPa to about 150 MPa, an elongation ratio in the range from about 15% to about 28%, and a hardness in the range from about 45 HV0.2 to about 70 HV0.2.
In another aspect, a method for making the metallic cover described above, comprising: drawing an aluminum alloy sheet that has a yield strength in the range from about 80 MPa to about 150 Mpa, an elongation ratio in the range from about 15% to about 28%, and a hardness in the range from about 45 HV0.2 to about 70 HV0.2 to form a preformed cover, the preformed cover including a bottom base and a plurality of side walls, and each of the side wall the and bottom base are connected by a curved-cornered edge structure; pressing the curved-cornered edge structure of the preformed cover into a sharp-cornered edge structure by a forming die; polishing the preformed cover; and anodizing the polished preformed cover to form the metallic cover.
Other novel features and advantages will become more apparent from the following detailed description, when taken in conjunction with the accompanying drawings.
The components in the drawings are not necessarily drawn to scale, the emphasis instead being placed upon clearly illustrating principles of the present metallic cover and method for making the same. Moreover, in the drawings, like reference numerals designate corresponding parts throughout several views, and all the views are schematic.
Reference will now be made to the drawings to describe preferred embodiments of the present metallic cover and method in detail.
Referring to
Empirical data shows that the cause of the cracks and the discolorations in the conventional metallic cover is due to the material of the conventional metallic cover. The conventional metallic cover is made of a material that has a relatively large yield strength (about 197 megapascals (Mpa) ) and a relatively low elongation ratio (about 12%). The material at and around the edge structure of the metallic cover deforms badly, thereby causing cracks and discolorations on the conventional cover. In order to avoid or decrease cracks and discolorations in the metallic cover 20, the metallic cover 20 should be made of a material that has a relatively low yield strength and a relatively large elongation ratio. In a preferred embodiment, the metallic cover 20 is made of a metallic material that has a yield strength in the range from 80 MPa to 150 MPa, an elongation ratio in the range from 15% to 28%, and a hardness in the range from 45 Vickers Hardness 0.2, (HV0.2) to 70 HV0.2. The metallic material is preferred to be aluminum alloys such as 5052-O aluminum alloy and 6061-T4 aluminum alloy. A zinc concentration in the above described aluminum alloys is less than 0.1%.
A yield strength of the 5052-O aluminum alloy is about 110 MPa, an elongation ratio of the 5052-O aluminum alloy is about 26%, a hardness of the 5052-O aluminum alloy is about 65 HV0.2, and a zinc concentration is about 0.07%. A yield strength of the 6061-T4 aluminum alloy is about 90 MPa, an elongation ratio of the 6061-T4 aluminum alloy is about 26%, a hardness of the 6061-T4 aluminum alloy is about 60 HV0.2, and a zinc concentration is about 0.06%.
Aluminum alloys used in making the metallic cover 20 have a relatively low yield strength and a relatively large elongation ratio, thus the aluminum alloys generally have good malleability, good corrosion resistance, and easy to anodize. The material of the edge structure of the metallic cover allows edge structures to be easily formed and limits deformation, thus, effectively reducing cracks in the edge structure 26. In addition, the material of the edge structure 26 is deformed slightly, and has a good corrosion resistance, thus effectively reducing discolorations of the metallic cover 20 that is processed by an anodizing process. Therefore, the metallic cover 20 has a good appearance.
Referring to
Referring to
In the drawing process, the aluminum alloy sheet 100 that has a yield strength in the range from 80 MPa to 150 Mpa, an elongation ratio in the range from 15% to 28%, and a hardness in the range from 45 HV0.2 to 70 HV0.2 is drawn to form a preformed cover 30. The aluminum alloy sheet is preferred to be made of 5052-O aluminum alloy or 6061-T4 aluminum alloy. The preformed cover 30 includes a bottom base 31 and a plurality of side walls 32. The side walls 32 cooperatively define a cavity (not shown) for receiving electronic components (not shown). After drawn, the bottom base 31 and each of the sidewalls 32 is connected by a curved-cornered edge 33.
In the pressing process, the curved-cornered edge 33 of the preformed cover 30 is pressed into a sharp-cornered edge structure 26 (see
After the pressing process, the preformed cover 30 is polished.
After the polishing process, the preformed cover 30 is anodized, and then the preformed cover 30 is made into the metallic cover 20.
In alternative embodiments, after the pressing process, the preformed cover 30 is milled by a milling process so that the preformed cover 30 can have a relative better appearance.
It is believed that the present embodiments and their advantages will be understood from the foregoing description, and it will be apparent that various changes may be made thereto without departing from the spirit and scope of the invention or sacrificing all of its material advantages, the examples hereinbefore described merely being preferred or exemplary embodiments of the invention.
Number | Date | Country | Kind |
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200710200819.2 | Jun 2007 | CN | national |