Supports: cabinet structure – For particular electrical device or component – Housing for computer or computer related equipment
Reexamination Certificate
2001-08-14
2004-03-02
Elve, M. Alexandra (Department: 1725)
Supports: cabinet structure
For particular electrical device or component
Housing for computer or computer related equipment
C164S312000, C361S689000
Reexamination Certificate
active
06698852
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to an injection molding method of low melting point metal material, injection molding device and box, and more particularly, to injection molding the low melting point metal material that is the material of the shell of a notebook personal computer (hereinafter referred to as notebook PC).
2. Description of the Related Art
Shown in
FIG. 1
, the magnesium alloy of a low melting point metal material has been commonly used for the shell
60
forming the outer part of a notebook PC
50
. By taking advantage of the feature of the magnesium alloy, the personal computer main body is trimmed down to weigh less and has increased hardness.
In the case of manufacturing the shell
60
of the notebook PC, molten metal of magnesium alloy heated to the predetermined temperature is poured at the predetermined injection rate into the predetermined shape injection molding space, hereinafter referred to as a cavity, provided in a metal mold by using the injection molding device of a hot chamber system, for example. After chilling and solidifying the injected molten metal, the injected molten metal is removed from the metal mold as the molded goods, and the shell
60
having the same shape as the cavity can be manufactured.
Then, on the surface of the manufactured shell
60
, the model name and logo marks are printed and mounted into the main body of the notebook PC and shipped for later use.
However, since the model name and logo marks are displayed on the surface of the shell
60
by printing, it was difficult to give a high quality impression and upscale quality feeling to the user by the shell
60
of the notebook PC. Accordingly, in recent years it has been required to form the model name and logo marks with characters to be expressed with a slightly dented form, or detent, or etchlike with respect to the surface of the shell
60
(hereinafter referred to as impressed character).
As shown in
FIG. 2
, in the case of manufacturing a shell with impressed characters formed with the name of model type and logo mark using impressed characters on the surface by using the hot chamber system injection molding device
1
, a metal mold
11
having the shape wherein a cavity
2
formed by the left metal mold
3
A and the right metal mold
3
B corresponds to the shell with impressed characters will be used.
The injection molding device
1
injects the molten metal of magnesium alloy heated to a temperature greater than the metal mold
3
into the cavity
2
from the injection device
9
. After chilling and solidifying said injected molten metal, the right metal mold
3
B is moved in the direction of an arrow C by the hydraulic cylinder
8
and the left metal mold
3
A and the right metal mold
3
B are separated and the molded goods is taken out from the cavity
2
.
However, as shown in
FIG. 3
, the molten metal that was poured into the cavity
2
of the metal mold
3
reflects irregularly in the direction shown by an arrow at the convex part
4
provided corresponding to the impressed characters formed on the surface of the shell. Deviation occurs in the flow of molten metal poured into the cavity
2
and the molten metal does not flow constantly in the cavity
2
, and thus interference streaks occur on the surface of the shell with impressed characters after it is molded.
Moreover, in the injection molding device
1
of the hot chamber system, since the molten metal that was heated to a higher temperature than the metal mold
3
is poured into the cavity
2
of the metal mold
3
heated to the predetermined temperature at the predetermined injection rate, the molten metal of high temperature runs against the convex part
4
severely.
Accordingly, in the injection molding device
1
, the convex part
4
of the left metal mold
3
A is further heated and deteriorated. Thus, breakage occurs, for example the edge of the convex part
4
is chipped. Thus, in the box with the impressed characters, after it is molded by the injection molding device
1
, a disadvantage occurs such as the contour of the impressed character part becomes unclear due to the chipped edge of the convex part
4
.
At the sane time, in the injection molding device
1
of the hot chamber system, since the high temperature molten metal runs severely against the convex part
4
and the convex part
4
is further heated, the molten metal sticks onto the surface of the convex part
4
while cooling and solidifying the molten metal, and thus making the molded goods difficult to be taken out from the metal mold
3
. And as a result, unevenness occurs on the bottom surface of the impressed character formed on the surface of the shell with the impressed characters.
Thus, in the conventional injection molding device
1
, since such as interference streaks occur on the surface of the shell with impressed characters after being molded, disadvantages such as the contour of the impressed character formed on the surface becomes unclear and the unevenness occurs on the bottom surface, and the breakage such as chip occurs on the convex part
4
of the left metal mold
3
A, it has been difficult to manufacture a large quantity of shells with impressed characters without defect, and this created a problem that yields of shells with good quality were not good
SUMMARY OF THE INVENTION
In view of the foregoing, an object of this invention is to provide an injection molding method of low melting point metal material capable of easily forming the desired shape impressed design molding unit on the surface of the molded goods in the case of injection molding using the low melting point metal material, an injection molding device and a shell provided with the impressed design molding unit and having high quality.
The foregoing object and other objects of the invention have been achieved by providing an injection molding method of low melting point metal material, an injection molding device, and a shell. In the injection molding method of low melting point metal material for injecting the molten metal formed of low melting point metal material into the injection molding cavity with the predetermined shape provided in the metal mold, and after cooling off and solidifying the molten metal, taking out molded goods from the injection molding cavity. The injection molding cavity is formed inside by the first metal mold unit and the second metal mold unit contacted, the metal mold having the trapezoidal shape convex design forming unit with the predetermined height on the metal mold inside surface of the first metal mold unit or the second metal mold unit forming the injection molding cavity is heated to the predetermined metal molding temperature, and the molten metal heated to the predetermined melting temperature is injected into the injection molding cavity in the heated metal mold. After the injected molten metal is cooled off and solidified, the molded goods is taken out from the injection molding cavity by separating the first metal mold unit and the second metal unit. The flow of the molten metal that was poured into the injection molding cavity would not be disturbed but can be poured in at a uniform rate because of the oblique side of the convex design forming unit having the trapezoidal shape. And thus, the concave design forming unit having clear contour corresponding to the convex design forming unit can be formed on the surface of the shell easily.
Furthermore, according to the present invention, in the injection molding device for injecting the molten metal formed of low melting point metal material heated to the predetermined temperature into the injection molding cavity with the predetermined shape provided in the metal mold heated to the predetermined metal mold temperature and taking out the molded goods from the injection molding cavity after cooling off and solidifying the molten metal injected; since the metal mold forms an injection molding cavity by the first metal mold unit in contact with the second metal mold unit and the trapezoidal convex design molding un
Elve M. Alexandra
Kananen Ronald P.
Tran Len
LandOfFree
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