KR101562516B1 - Hair line processing method for a core surface of injection mold - Google Patents

Abstract

The present invention relates to a method for processing a hairline on a core surface of an injection mold wherein time and manpower for processing the hairline can be reduced and process defects can be minimized by making a grinding process on an asymmetric cylindrical core having an asymmetrical curved surface be possible. The method for processing a hairline includes: a core preparation step of preparing the asymmetric cylindrical core having an asymmetrical curved surface by processing the same; a rotation center selection step of selecting a rotation center, which enables the core to be rotationally processed, by arranging an inclined block on a lower side of the core and tilting the core in one direction; a core fixation step of fixating a lower end portion of the core with the inclined block to a rotation shaft to make the selected center of rotation and the center of the rotation shaft match; a core rotation step of rotating the core with the inclined block by rotating the rotation shaft; and a surface grinding step of processing the hairline by grinding the curved surface of the core by making a sandpaper come in close contact with the curved surface of the core while the core is rotating.

Description

[0001] HAIR LINE PROCESSING METHOD FOR A CORE SURFACE OF INJECTION MOLD [0002]

The present invention relates to a method of machining a hairline on a core surface of an injection mold for machining a hairline on the surface of an injection mold core, and more particularly, to a method for grinding an asymmetric cylindrical core having an asymmetric curved surface The present invention relates to a hair-line processing method of a core surface of an injection mold for minimizing processing defects while remarkably reducing the time and manpower of hairline processing.

In general, a hair line is a surface finishing method for IT products or high-end electronic appliances. It is an implementation method in which a plurality of thin wires are repeatedly inserted. The hair line is a surface processing technique (aluminum or stainless steel And drawing thin lines on the same thin metal plate).

As a method for realizing such a hair line, a method of constructing a hair line by processing thin wire into a thin metal plate such as aluminum or stainless steel is generally used.

In recent years, hair lines have been processed on the outer surface of plastic injection molds instead of metal sheets to express metal-like textures.

A method of processing a hair line in such an injection molded article is a method of embodying a hair line by processing a hair line into a mold cavity or core of a metallic material and then molding the molded article into an injection molded product. The method includes grinding, There are several ways to implement hairlines such as laser processing, buffing, and the like.

However, the above-described conventional techniques have the following problems.

Generally, machining of a hair line by grinding of a mold core is applied only to a core in a planar state, and a core having a shape similar to an asymmetric cylinder has an asymmetrical curved surface, which is difficult to grind, The corrosion processing of the cylindrical core takes a lot of time and manpower, and the corrosion treatment is not smoothly carried out, resulting in frequent machining defects.

Open Patent No. 2010-0041488 "Injection mold with hair line and its article" (2010.04.22)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

SUMMARY OF THE INVENTION It is an object of the present invention to provide a hair-line processing method of a core surface of an injection mold that minimizes defective machining while significantly reducing the time and manpower of hairline processing by allowing grinding to be performed on asymmetric cylindrical cores having asymmetric curved surfaces .

It is another object of the present invention to provide a hair line processing method of a core surface of an injection mold which smoothly forms a hair line while easily grinding the surface of the core by grinding the sandpaper in the order of small particle size to large particle size .

It is a further object of the present invention to provide a method of forming hair lines on a core surface of an injection mold that smoothes a hair line to a smaller diameter, Line processing method.

In order to achieve the above object, a "hair line processing method of a core surface of an injection mold according to the present invention" comprises: a core preparation step of processing and preparing an asymmetric cylindrical core having an asymmetric curved surface; A center-of-rotation selecting step of selecting a center of rotation, which is a center at which the core can be rotated, by tilting the core to one side by disposing an inclined block inclined on the lower surface of the core; A core fixing step of fixing the lower end of the core to the rotation shaft together with the inclined block so that the center of the rotation center is aligned with the center of rotation selected; A core rotating step of rotating the rotating shaft to rotate the core together with the inclined block; A surface grinding step of grinding the curved surface of the core to adhere the sandpaper to the curved surface of the core while the core is rotating to process the hair line; .

In addition, in the surface grinding step of the " hair line processing method of the core surface of injection mold according to the present invention ", the curved surface of the core is used in the order of relatively small particle size of the sandpaper and relatively large particle size, .

The surface grinding step of the " hair line processing method of core surface of injection mold according to the present invention "is a step of grinding first with a sandpaper having a particle size of # 2000 to # 2500, And a third grinding step using a sandpaper having a grain size of # 100 to # 140.

Further, the third step of grinding the core surface of the injection mold according to the present invention further comprises a step of fourth-order grinding with sandpaper having a particle size of # 70 to # 90 .

Further, in the surface grinding step of the "hair line processing method of the core surface of injection mold according to the present invention ", the hair line formed on the curved surface of the core has a shape in which the diameter of the core is inclined toward the side having a relatively small diameter Is machined so as to have a predetermined thickness.

As described above, according to the present invention, asymmetrical cylindrical cores having asymmetric curved surfaces can be grinded, the time and manpower of hairline processing can be significantly reduced, machining defects can be minimized, and productivity of asymmetric cylindrical cores can be significantly improved Effect.

Further, the present invention has an effect that the surface treatment of the core is easily performed by grinding the sandpaper in the order of small particle size to large particle size, and generation of the hair line is more smoothly performed.

Further, according to the present invention, the hair line is inclined toward the smaller diameter, so that the release of the article to the core is smoothed, and the hair line is more smoothly formed on the article.

1 is a view showing a hair line processing method according to the present invention,
FIGS. 2 to 3 are diagrams showing a hair line processing method according to the present invention,
Figure 4 is a photograph showing a print produced by a core processed in accordance with the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood, however, that the invention can be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

FIG. 1 is a view showing a method of processing a hair line according to the present invention, FIGS. 2 to 3 are views showing a hair line processing method according to the present invention, and FIG. It is the photograph which showed the article of the donation.

As shown in the drawings, a hair line processing method for a core surface of an injection mold according to the present invention includes a core preparation step S10 for preparing a core C having an asymmetric curved surface, A core fixing step S30 for fixing the core C to the rotation axis S and a core fixing step for fixing the core C for rotating the core C, And a surface grinding step (S50) of grinding the asymmetric curved surface of the core (C) to form a hair line (H).

The core preparing step S10 is a step of preparing an asymmetric cylindrical core C having an asymmetric curved surface by machining. This step is a step of preparing and preparing an asymmetric cylindrical core C for forming the hair line H on the outer surface (see Fig. 2 (a)).

The inclination block B is inclined at the lower surface of the core C so that the core C is tilted to one side so that the core C can be rotated And selecting the center (RC). This step tilts the asymmetric cylindrical core C having an asymmetric curved surface in a direction in which the core C can be rotated to find the center of rotation RC so that the inclination block B (See Fig. 2 (b)).

Here, the center of rotation RC is an asymmetric cylindrical shape, and the center of gravity of the core C is the most suitable center at which most of the curved surface of the core C can be circularly rotated.

In addition, the inclined block B is formed with an inclined surface on its upper surface, and is a center correcting means for correcting the inclined center of the core to be aligned with the center of the rotation axis S.

The core fixing step S30 is a step of fixing the lower end of the core C to the rotating shaft together with the inclined block B so that the center of the rotation axis is aligned with the predetermined rotation center RC. In this step, the core (C) and the inclined block (B) are integrally mounted on the end of the rotary shaft so as to be rotatable (see Fig. 2 (b)).

The core rotation step S40 rotates the rotation axis S to rotate the core C together with the inclined block B. In this step, the rotation axis S is rotated through a driving means such as a motor so that the asymmetric curved surface of the core C can be ground while rotating so that the core C is rotated (See Fig. 3 (c)).

In the surface grinding step S50, the sandpaper P is brought into close contact with the curved surface of the core C while the core C is being rotated to grind the curved surface of the core C to process the hair line H . This step is a final step of the method in which the fixing tool T is brought into close contact with the outer surface of the core C while the sandpaper is fixed to the end of the fixing tool T so that the sandpaper P contacts the core C (See FIG. 3 (c)) by grinding the asymmetric curved surface of the core C by grinding the asymmetrical curved surface of the core C.

The fixing tool T is a tool that allows the sandpaper P to smoothly adhere to the outer surface of the core C while fixing the sandpaper P. [

In the hair line processing method according to the present invention configured as described above, the hair line H is formed on the asymmetric curved surface of the asymmetric cylindrical core C through a unique step of selecting the rotation center RC.

Further, in the surface grinding step (S50) of the present hair line processing method, the curved surface of the core (C) is used in the order of the particle size of the sandpaper (P) being relatively small and the particle size being relatively large, This is because the sandpaper P having a small particle size is first used to surface-process the outer surface of the core C to a fine particle size, and then the core (P) C to form the hair line H by cutting out the grooves on the outer surface of the hair-

That is, in the surface grinding step S50, the outer surface of the core C is finely processed first with the sandpaper P having a small particle size, and the outer surface of the core C is smoothly surface- The hairline H is formed by sequentially dugging grooves on the outer surface of the core C by using the punch P as shown in Fig.

Specifically, for example, the surface grinding step S50 may include a first grinding process with a sandpaper having a particle size of # 2000 to # 2500 and a second grinding process using a sandpaper having a particle size of # 200 to # And a third grinding process with a sandpaper having a grain size of # 100 to # 140.

The surface grinding step (S50) may further include a fourth grinding step with a sandpaper having a grain size of # 70 to # 90 next to the third grinding step, To form a hair line H having a groove.

In the surface grinding step S50 of the hair line processing method, the hair line H formed on the curved surface of the core C has a shape in which the core C is inclined toward the side having a relatively small diameter (See Fig. 3 (d)).

4 is injection molded into the core C and the hairline H protrudes obliquely in a direction in which the article is released when the article shown in FIG. 4 is released to the outer surface of the core C, ) Is smoothly prevented from being damaged or defective in the hair line formed on the article, which may occur in the article during the release.

4 has an asymmetrical tubular inner curved surface formed by injection molding with the asymmetric cylindrical core C, and a hair line is formed on the inner curved surface of the asymmetric tubular shape.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is clear that the present invention can be suitably modified and applied in the same manner. Therefore, the above description does not limit the scope of the present invention, which is defined by the limitations of the following claims.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention.

C: Core
B: inclined block
RC: center of rotation
S:
P: Sandpaper
T: Fixing tools
H: Hairline

Claims (5)

A core preparing step (S10) of preparing and preparing an asymmetric cylindrical core having an asymmetric curved surface;
(S20) for selecting a center of rotation, which is a center at which the core can be rotated, by inclining the core to one side by disposing a slanting inclined block on the lower surface of the core;
A core fixing step (S30) of fixing the lower end of the core to the rotation shaft together with the inclined block so that the center of the rotation center is aligned with the predetermined rotation center;
A core rotating step (S40) for rotating the rotating shaft to rotate the core together with the inclined block;
A surface grinding step (S50) of grinding the curved surface of the core by pressing the sandpaper against the curved surface of the core while rotating the core to machine the hairline;
Wherein the method comprises the steps of:
The method according to claim 1,
Wherein the curved surface of the core is subjected to grinding in the order of relatively small particle size of the sandpaper and relatively large particle size in the surface grinding step (S50). .
The method according to claim 1,
The surface grinding step (S50)
A first grinding process with sandpaper having a grain size of # 2000 to # 2500,
Second grinding with sandpaper having a grain size of # 200 to # 160,
The third grinding process with sandpaper having a particle size of # 100 to # 140 is performed,
Wherein the method comprises the steps of:
The method of claim 3,
Next to the third grinding process, a process of fourth grinding with sandpaper having a grain size of # 70 to # 90,
Wherein the method further comprises the step of forming a core of the injection mold.
The method according to claim 1,
Wherein in the surface grinding step (S50), the hair line formed on the curved surface of the core is processed so as to have a shape in which the diameter of the core is inclined toward a side having a relatively small diameter. Line processing method.

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