KR101641867B1 - Metal lighting button key and making method thereof - Google Patents

Abstract

The present invention relates to a method of manufacturing a metal light-emitting button key and a metal light-emitting button key, wherein light is transmitted through a letter or sign shape outside a button key.
A method of manufacturing a metal light emitting button key according to the present invention includes: a shape processing step of forming a button body by processing a metal plate; Forming a first transmissive portion of a light transmissive material on a back surface of the button body; A light transmitting groove forming step of forming a light transmitting groove in the button body such that light is transmitted through the letter or code in a forward direction and the button body is separated into the inner side and the outer side by the light transmitting groove; And a second transmissive portion forming step of forming a second transmissive portion of a light transmissive material in a rear surface of the button body on which the first transmissive portion is formed and in the light transmitting groove, And the medial side and the lateral side are supported by the first transmissive portion.

Description

METAL LIGHTING BUTTON KEY AND METAL LIGHTING BUTTON MANUFACTURING METHOD

The present invention relates to a method of manufacturing a metal light-emitting button key and a metal light-emitting button key, wherein light is transmitted through a letter or sign shape outside a button key.

The button key is generally used in an electronic device installed in a portable terminal or other electronic product or a vehicle. Such a button key can be classified into a film insert type and a mold type according to a manufacturing method.

A film insert type button key is formed by printing characters and a backlighting unit on a thin film of plastic, forming the film into a button shape, inserting the film into an injection mold, and integrally forming the film together with a transparent plastic.

The mold-type button key is formed by injection molding a transparent plastic button, painting the button, and laser-marking the character display portion to make it transparent, and the surface of the button is coated with UV.

However, a film insert type button key has a problem that a film portion is peeled off during prolonged use, a film and a plastic injection portion are separated at the time of a thermal shock test, and in particular, the button key is not luxuriously textured.

In addition, since the mold type button key has a low wear resistance reliability and can not express the texture of the metal, there is a limit to the expression of the texture and there is a problem that the post-processing technique applicable to the metal can not be applied.

In order to solve such a problem, Japanese Unexamined Patent Application Publication No. 10-2005-0047275 discloses a button key made of metal.

1 is a perspective view illustrating a conventional button key manufacturing process. First, a metal sheet S having a predetermined thickness is prepared as shown in FIG. 1 (a), and the metal sheet S is prepared by pressing or die casting, as shown in FIG. 1 (b) And molded into a case 10. At this time, the space portion 13 is formed in the case 10. Then, as shown in Fig. 1 (c), the surface of the case 10 is cut to form a display hole 11 having a number or letter shape. After the case 10 is inserted into the mold, a liquid transparent thermoplastic resin is injected into the space portion 13 of the case 10 to form the space portion 13 and the display hole 11 The filling part 20 made of transparent plastic is formed.

In the conventional button key as described above, when the display hole 11 including "0" or a similar shape is formed, the case 10 is separated into the inner portion and the outer portion by the display hole 11 , And a support portion (14) for connecting the inner portion and the outer portion, which are separated from each other, is formed to prevent the inner portion from being separated and the shape of the character being prevented from being displayed properly.

However, by forming the support portion 14 in the display hole 11 to connect the inner portion and the outer portion, the support portion 14 is exposed to the outside of the button key to hurt the beauty of the button key, There is a problem in that a part of the characters is not displayed because the light transmitted to the outside is shielded by the support portion 14. [

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a metal light emitting button key and a metal key which can completely express the shape of a character or a sign without partially obscuring or intercepting light transmitted to the outside of the button key, It is an object of the present invention to provide a method of manufacturing a light emitting button key.

According to an aspect of the present invention, there is provided a method for manufacturing a metal light button key, the method comprising: a shape processing step of forming a button body by processing a metal plate; Forming a first transmissive portion of a light transmissive material on a back surface of the button body; A light transmitting groove forming step of forming a light transmitting groove in the button body such that light is transmitted through the letter or code in a forward direction and the button body is separated into the inner side and the outer side by the light transmitting groove; And a second transmissive portion forming step of forming a second transmissive portion of a light transmissive material in a rear surface of the button body on which the first transmissive portion is formed and in the light transmitting groove, The medial and lateral portions are supported by the first transmissive portion.

In addition, in the first transmitting portion forming step, the first transmitting portion is integrally formed with the button body by an insert injection method after applying a thermal adhesive to the back surface of the button body, and the inner portion is attached and fixed to the first transmitting portion.

In addition, in the first transmissive portion forming step, the first transmissive portion may be attached to the button body by an adhesive bonding method or a heat fusion bonding method, and the inner side portion may be attached to the first transmissive portion and fixed.

A through hole is formed in the first transmissive portion so as to penetrate the first transmissive portion in the front-rear direction and communicate with the light-transmitting grooves.

And the light transmitting groove is formed such that the cross-sectional area gradually decreases toward the rear. When the light transmitting groove is filled with the second transmitting portion, the second transmitting portion formed in the light transmitting groove is formed in an undercut structure, .

The first transmitting portion includes a first back surface portion formed on a back surface of the button body and a first engaging portion protruding from the first back surface portion to form a latching groove and the second transmitting portion is filled in the latching groove And an engaging portion formed therein.

And the light transmitting groove is formed of a first light transmitting groove and a second light transmitting groove, the second transmitting portion is formed in the first light transmitting groove, and the second light transmitting portion is formed on the back surface of the button body before the second transmitting portion forming step A colored pad of a light transmissive material is disposed at a position where the groove is formed and light passing through the first light emitting groove and the second light emitting groove shines at least in two different colors.

A method of manufacturing a metal light emitting button key according to the present invention is a method of manufacturing a metal light emitting button key in which a light emitting groove is formed in a metal plate along a letter or sign shape, Groove processing step; A rib pressing step of pressing the rib to protrude rearward of the metal plate; A shape processing step of processing the metal plate to form a button body; Forming a first transmissive portion of a light transmissive material on a back surface of the button body; A rib removing step of removing the rib together with a part of the first transmitting portion covering the rib; And forming a second transmissive portion of a light transmissive material on a back surface of the button body on which the first transmissive portion is formed.

Meanwhile, the metal light-emitting button key of the present invention comprises: a button body made of a metal which has a light-transmitting groove through which light is transmitted according to a character or code shape and is separated into an inner side portion and an outer side portion by the light- A first transmissive portion formed on a rear surface of the button body and having a light-permeable material to which the inner portion and the outer portion are attached; And a second transmissive portion formed on a back surface of the button body on which the first transmissive portion is formed, the first transmissive portion including a first back portion formed on a back surface of the button body, And a second engaging portion protruding from the first back surface portion to form a latching groove and the second transmitting portion includes a second backing portion including a latching portion filled with the latching groove and covering the first engaging portion, And a second engaging portion protruding rearward from the back portion and protruding rearward of the button body and coupled to the electronic device.

The first transmitting portion is formed with a through hole communicating with the light transmitting groove through the first transmitting portion in the front-rear direction, and the second transmitting portion is filled into the light transmitting groove through the through hole.

The metal luminescent button key manufactured according to the present invention has the following effects.

The first transmission portion is formed on the back surface of the button body so that the light transmitted to the outside of the button body along the shape of the character or the code can be completely displayed without being partially obscured or disconnected, And can improve the quality and aesthetics.

Further, when the light-transmitting groove is formed in the button body, the cross-sectional area of the light-transmitting groove gradually decreases toward the rear, so that the inner side can be fixed so as not to be separated forward by the second transmitting portion formed in the light-

The engaging groove is formed in the first transmissive portion and the engaging portion formed in the second transmissive portion by being filled with the engaging groove, so that the coupling force between the first transmissive portion and the second transmissive portion can be increased.

In addition, by adding colored pads to the back surface of the button body, light of various colors can be emitted from one metal light emitting button key.

1 is a perspective view illustrating a conventional button key manufacturing process.
2 is a perspective view illustrating a metal light button key according to an embodiment of the present invention;
FIG. 3 is a flowchart of a method of manufacturing a metal-luminescent button key according to the first embodiment of the present invention.
4 is a view showing a shape machining step according to the first embodiment of the present invention.
5 is a view illustrating a first transmission portion forming step according to the first embodiment of the present invention.
6 is a view showing a step of forming a light transmitting groove according to the first embodiment of the present invention.
7 is a view illustrating a second transmission portion forming step according to the first embodiment of the present invention.
8 is a view illustrating a method of manufacturing a metal light button key according to a second embodiment of the present invention.
9 is a view illustrating a method of manufacturing a metal light button key according to a third embodiment of the present invention.
10 is a view illustrating a method of manufacturing a metal light button key according to a fourth embodiment of the present invention.
11 is a view showing steps of processing a light-transmitting groove according to a fourth embodiment of the present invention.
12 shows a rib pressing step according to a fourth embodiment of the present invention.
13 is a view showing a shape machining step according to a fourth embodiment of the present invention.
FIG. 14 is a view illustrating a first transmission portion forming step according to a fourth embodiment of the present invention; FIG.
15 is a view illustrating a rib removing step according to a fourth embodiment of the present invention.
16 is a view showing a second transmitting portion forming step according to the fourth embodiment of the present invention.

FIG. 2 is an engine start / stop button of a vehicle manufactured in accordance with an embodiment of the present invention. In FIG. 2, alphanumeric characters engraved on the surface of the button key are transmitted through the button, thereby increasing the visibility of the button key, . In manufacturing the button key of the present invention, characters such as "R "," O ", and " P "among the characters engraved on the button key form the groove of the same shape by processing the surface of the button key, Is separated into the medial side and the lateral side. However, according to the present invention, the inner part of the character shape can be separated and separated or can be fixed so as not to deviate from the correct position, so that a complete character can be expressed. This feature is equally applicable to other characters or codes of similar type not shown in Fig.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described in detail with reference to the following examples. The metal light emitting button key according to the embodiment of the present invention is divided into a front and a rear, and the front and the front are the directions in which the light transmitting grooves of the letter or the code are exposed, and the rear and rear surfaces are concave, Direction. The direction in which the front direction and the rear direction are directed according to the drawings may be different.

First Embodiment

Fig. 4 (a) is a cross-sectional view showing a button body in order to explain the shape-processing step according to the first embodiment of the present invention, Fig. 4 (b) 5 (a) is a cross-sectional view of a button body and a first transmissive portion to explain a first transmissive portion formation step according to the first embodiment of the present invention, and FIG. 5 (b) 6A is a cross-sectional view illustrating a button body and a first transmissive portion in order to explain a step of forming a light-transmitting groove according to the first embodiment of the present invention, and FIG. 6A is a cross-sectional view of a button body and a first transmissive portion, 6 (b) is a front perspective view of a button body having a light-transmitting groove formed in accordance with the light-transmitting groove forming step. FIG. 7 (a) Sectional view showing a section of the light-emitting button key, and Fig. 7 (b) is a front perspective view of the metal light button key.

As shown in FIGS. 3 to 7, the method for fabricating the metal light-emitting button key according to the first embodiment of the present invention includes a shaping step, a first transmitting part forming step, a light transmitting groove forming step, and a second transmitting part forming step.

In the shaping step, as shown in FIG. 4, the button body 110 is formed by pressing a metal plate. At this time, the metal plate may be aluminum (Al), SUS, or the like. The metal plate can be surface treated to express the appearance in a luxurious manner, and the surface treatment can be performed by various methods such as plating and oxidation.

5 (a), a first transmitting portion 200 of a light transmitting material (a material that can transmit a transparent material or other light) is attached to the back surface of the button body 110 . First, an adhesive layer (not shown) is formed by applying a thermosetting adhesive to the back surface of the button body 110, followed by heating and drying, and the first transmitting portion 200 is integrally formed with the button body 110 by an insert injection method . The adhesive layer increases the adhesion between the button body 110 and the first transmitting portion 200 when the first transmitting portion 200 is formed on the back surface of the button body 110. In addition, the first transmitting portion 200 may be directly attached to the back surface of the button body 110 by an adhesive bonding method or a heat fusion bonding method.

Specifically, the first transmitting portion 200 includes a first back surface portion 210 and a first coupling portion 220. The first back surface portion 210 is formed on the back surface of the button body 110 and is formed in a rectangular parallelepiped shape as shown in Fig. 5 (b). A portion indicated by A in Fig. 5 (b) is a portion where the light-emitting groove 111 is to be formed in the light-transmitting groove processing step. Accordingly, the first back surface portion 210 supports the inner portion 110a and the outer portion 110b, which are separated from each other through the light-transmitting groove processing step, so that the shape of the light-transmitting groove is maintained. For further details, refer to the light-emitting groove processing step. The first engaging portion 220 protrudes from the first back surface portion 210 to form an engaging groove 221. The first engaging portion 220 is formed to form an engaging groove 221 to increase the engaging force with the second transmitting portion 300a. The first engaging portion 220 protrudes outward from the outer surface of the first back portion 210 and is bent backward, Thereby forming an engaging groove 221 that is bent toward the inner center. As shown in FIG. 5 (b), it is preferable that two or more first coupling portions 220 are formed. Since the second transmitting portion 300a is filled in the thus formed latching groove 221, the coupling force between the first transmitting portion 200 and the second transmitting portion 300a can be increased. If the coupling force between the first transmission portion 200 and the second transmission portion 300a formed by the insert injection method is sufficient in manufacturing the metal light button key of the present invention, The first backside 210 may be formed without forming the second backside 220. (Refer to the second embodiment)

6, the light-transmitting grooves 111 are formed in the button body 110 so that light is transmitted through the letters or symbols in the forward direction. The light emitting groove 111 is formed in the button body 110 using a carving machine, CNC, laser, or the like. At this time, the button body 110 can be separated into the inner side portion 110a and the outer side portion 110b by the light emitting groove 111. That is, when the light-emitting groove 111 is formed in the shape of a figure, letter, symbol or figure such as "0", "ㅁ", or "A", the inner portion 110a and the outer portion 110b ). ≪ / RTI > Accordingly, the first transmitting portion 200 is formed on the back surface of the button body 110 to prevent the inner portion 110a separated from the outer portion 110b from moving out to prevent incomplete display of characters, symbols, and the like. Specifically, as shown in FIG. 6 (a), the inner side 110a separated from the outer side 110b is fixed in a state of being attached to the first back side 210 as the light-transmitting groove 111 is formed, The back surface portion 210 is attached to the outer side portion 110b so that the character shape of the light transmitting groove 111 is completely maintained.

Such a light-transmitting groove 111 is formed so that the cross-section of the light is gradually reduced toward the rear side as shown in a separately enlarged portion in FIG. 6 (a). In other words, the light-transmitting groove 111 is formed as an oblique surface whose side is inclined by 1 ° to 5 °, and gradually becomes narrower toward the rear. The second transmitting portion 300b formed in the light transmitting groove 300b is formed in an undercut structure so that the inner side portion 110a protrudes forward or is separated from the first transmitting portion 300b when the second transmitting portion 300b is filled in the light transmitting groove 111. [ Can be prevented.

As shown in FIG. 7, the second transmissive part forming step includes a step of forming the second transmissive parts 300a and 300b of a light transmitting material on the back surface of the button body 110 in which the first transmissive part 200 is formed, . The second transparent portions 300a and 300b are integrally formed with the button body 110 by an insert injection method. Here, the second transmitting portions 300a and 300b are made of the same synthetic resin as the first transmitting portion 200, and the first transmitting portion 200 and the second transmitting portions 300a and 300b are firmly coupled while being fused at the interface.

Specifically, as shown in FIG. 7 (a), the second transmitting portion 300a formed on the back surface of the button body 110 includes a second back portion 310 and a second coupling portion 320. The second back surface portion 310 includes an engaging portion 321 covering the first engaging portion 220 and formed by being filled in the engaging groove 221. Since the engaging portion 321 is formed in the engaging groove 221 as described above, the coupling force between the first transmitting portion 200 and the second transmitting portion 300a can be further increased. The second coupling portion 320 protrudes rearward from the second backside 310 and protrudes rearward of the button body 110 and is coupled to an electronic device or the like. An embodiment of the present invention is coupled to the vehicle with an engine start / stop button and is connected to the engine control system. The second coupling portion 320 is made of a light transmitting material and protrudes further to the rear side of the button body 110 so that light is transmitted along the side surface of the button body 110. As a result, annular light is emitted along the periphery of the button key, thereby increasing the visibility of the button key and improving the quality and aesthetics. The second transmitting portion 300b filled in the light transmitting groove 111 prevents the inner side portion 110a from being separated as described above.

The metal light button key manufactured by the above-described method includes a button body 110 having a light emitting groove 111 formed therein, a first transmissive portion 200 of a light transmissive material formed on the back surface of the button body 110, And second transmissive portions 300a and 300b formed on the back surface of the button body 110 on which the first transmissive portion 200 is formed. A detailed description of each configuration is omitted because it has already been described in the above-described manufacturing method.

Second Embodiment

8 (a) is a rear perspective view showing the button body and the first transmitting portion separated from each other to explain the first transmitting portion forming step according to the second embodiment of the present invention, and Fig. 8 (b) FIG. 8 (c) is a cross-sectional view illustrating a button body and a first transmitting portion, which are coupled to each other to explain the first transmitting portion forming step according to the second embodiment of the present invention. FIG. FIG. 8 (d) is a cross-sectional view of a button body and a first transmissive portion which are coupled to each other to explain a second light transmitting button forming step according to the second embodiment of the present invention. Fig.

The method of fabricating the metal light-emitting button key according to the second embodiment of the present invention includes a shape processing step, a first transmitting portion forming step, a light transmitting groove forming step, and a second transmitting portion forming step, as in the first embodiment.

The shape processing step according to the second embodiment is the same as the first embodiment, and the second embodiment differs from the first embodiment in the first transmissive portion forming step.

8A, the first transmitting portion 200 having a thickness of 0.3 to 1.5 mm is first formed, and the first transmitting portion 200 is formed in the front transmitting portion 200 in the forward and backward directions A plurality of through holes 230 are formed. As shown in FIG. 8A, the first transmitting portion 200 is formed in a substantially disc shape and is formed wider than a portion where the light transmitting groove 111 is formed so as to cover the entire light transmitting groove 111. The shape of the first transmitting portion 200 is not limited to the disc shape as in the second embodiment, and may be formed in various shapes. Then, as shown in FIG. 8 (b), the first transmitting portion 200 having the through holes 230 is attached to the back surface of the button body 110 by an adhesive bonding method or a heat fusion bonding method.

In the light-transmitting groove forming step, the light-transmitting groove 111 is formed in the button body 110 as in the first embodiment. At this time, as shown in FIG. 8 (c), the light transmitting groove 111 is communicated with the through hole 230, and the inner side 110a is attached and fixed to the first transmitting portion 200.

In the second transmissive portion forming step, the second transmissive portions 300a and 300b of a light transmitting material are attached to the back surface of the button body 110 and the light transmitting grooves 111 where the first transmissive portion 200 is formed, . 8 (d), the second transmitting portion 300b is formed in the light emitting groove 111 by filling the synthetic resin into the light transmitting groove 111 through the through hole 230. As shown in FIG.

As described in the first embodiment, the first transmitting portion 200 may be formed without including the structure of the first coupling portion 220, so that the second transmitting portion 300a is formed with a locking portion 321 You do not have to.

Except for the above-described points, the present embodiment is the same as the first embodiment, and thus a detailed description thereof will be omitted.

Third Embodiment

9 is a cross-sectional view of a metal light button key according to a third embodiment of the present invention.

The method of fabricating the metal light-emitting button key according to the third embodiment of the present invention includes the shape processing step, the first transmitting portion forming step, the light transmitting groove forming step, and the second transmitting portion forming step, as in the first embodiment.

The shaping step, the first transmitting portion forming step, the light transmitting groove forming step and the second transmitting portion forming step according to the third embodiment are the same as those of the first embodiment. However, in the third embodiment, the light transmitting grooves are divided into the first light transmitting grooves 111a and the second light transmitting grooves 111b for convenience of explanation. The first light-transmitting groove 111a and the second light-transmitting groove 111b may be light-emitting grooves formed in the shape of a different character or sign among a plurality of light-emitting grooves formed in the button body 110, One light emitting groove formed along the shape of the code may be divided into two parts.

The first light transmitting groove 111a is filled with the second transmitting portion 300b as in the first embodiment or the second embodiment. And the colored pad 400 is inserted into the second light-emitting groove 111b. Specifically, on the back surface of the button body 110, a light transmitting material (not shown) is formed on the back surface of the button body 110 having the second light transmitting grooves 111b formed therein as shown in FIG. 9 (a) The colored pads 400 are arranged. The colored pad 400 may be formed as a thin film, and synthetic resin may be insert-injected onto the back surface of the button body 110 by the second transmitting portion forming step As the second transmitting portion 300a is formed, it is pushed into the second light transmitting groove 111b by the synthetic resin. 9 (b), the colored pad 400 may be formed to fit the shape of the second light transmitting groove 111b and inserted into the second light transmitting groove 111b. As the colored pads 400 are arranged in the second light transmitting grooves 111b, light passing through the first light transmitting grooves 111a and the second light transmitting grooves 111b is shone at least in two different colors. That is, by adding the colored pads 400 to the back surface of the button body 110, light of various colors can be transmitted through one button key.

Except for the above-described points, the present embodiment is the same as the first embodiment, and thus a detailed description thereof will be omitted.

Fourth Embodiment

As shown in FIGS. 10 to 16, the method for fabricating the metal light-emitting button key according to the fourth embodiment of the present invention includes a step of applying an adhesive, a light-emitting groove forming step, a rib pressing step, a shaping step, A rib removing step and a second transmitting portion forming step.

In the adhesive applying step, a thermally-crackable adhesive is applied to one surface of the metal plate 100 and then heated and dried to form the adhesive layer 120.

As shown in Fig. 11, the light-transmitting grooving step is a step of machining the light-transmitting grooves 111 in the shape of letters or symbols on the metal plate 100 and forming the inner side of the metal plate 100 separated from each other by the light- A rib 112 connecting the outer side 110b and the outer side 110b is formed. That is, when the light transmitting grooves 111 are formed in the metal plate 100, the ribs connecting the inner side portions 110a and the outer side portions 110b are formed such that the inner side portions 110a and the outer side portions 110b are not completely separated by the light- (112).

As shown in FIG. 12, the rib pressing step presses the rib 112 backward to protrude rearward of the metal plate 100 on which the adhesive layer is formed.

In the shaping step, as shown in FIG. 13, the metal plate 100 is pressed to form a button body 110 having a forwardly convex shape. At this time, the adhesive layer 120 is formed on the inner surface of the button body 110, which is the back surface.

As shown in FIG. 14, the first transmissive portion 200 is formed on the rear surface of the button body 110. The first transmissive portion 200 is made of a light transmissive material. Specifically, the first transmitting portion 200 is formed on the button body 110 by an insert injection method. At this time, the adhesive force of the first transmitting portion 200 with the button body 110 is increased by the adhesive layer 120. The first transmitting portion 200 is filled in the light transmitting groove 111 and formed in the light transmitting groove 111.

The rib removing step removes the rib 112 together with a part of the first transmitting portion 200 covering the rib 112, as shown in FIG. Accordingly, a removal groove 113 is formed at a portion where the rib 112 is removed. The inner portion 110a and the outer portion 110b are completely separated from each other while the ribs 112 are removed, but the inner portion 110a and the outer portion 110b are attached to the first transmitting portion 200 and remain fixed.

As shown in FIG. 16, the second transmissive portion 300a is formed on the rear surface of the button body 110 in which the first transmissive portion 200 is formed. At this time, the second transmitting portion 300a is filled in the removing groove 113, and is also formed in the removing groove 113.

The method of manufacturing a metal-luminescent button key according to the fourth embodiment is different from that of the first embodiment in that a rib pressing step and a rib removing step are added and the order of each step is slightly different, but the shaping step, Since the basic conducting method of the second transmissive portion forming step is the same or similar, the first embodiment can be referred to for the portion not described in the fourth embodiment.

The method of manufacturing the metal light-emitting button key and the metal light-emitting button key of the present invention is not limited to the above-described embodiments, and various modifications may be made within the scope of the technical idea of the present invention.

The present invention relates to a button body and a method of manufacturing the same, and more particularly,
200: first transmitting portion, 210: first back portion, 220: first coupling portion, 221: engaging groove, 230: through hole,
300a, 300b: second transmitting portion, 310: second back portion, 320: second coupling portion, 321:
400: colored pad,

Claims (10)

A shape processing step of forming a button body by processing a metal plate;
Forming a first transmissive portion of a light transmissive material on a back surface of the button body;
A light transmitting groove forming step of forming a light transmitting groove in the button body such that light is transmitted through the letter or code in a forward direction and the button body is separated into the inner side and the outer side by the light transmitting groove; And
And a second transmissive portion forming step of forming a second transmissive portion of a light transmissive material in a back surface of the button body on which the first transmissive portion is formed and in the light transmitting groove,
The inner side portion and the outer side portion separated from each other in the light-transmitting groove processing step are supported by the first transmitting portion,
Wherein the first transmitting portion comprises a first back surface portion formed on a back surface of the button body and a first engaging portion protruding from the first back surface portion and forming a latching groove,
And the second transmitting portion includes a latching portion formed to be filled in the latching groove. The method according to claim 1,
Wherein the first transparent portion is formed integrally with the button body in an insert injection method after applying a thermal adhesive to the back surface of the button body in the first transparent portion forming step,
And the inner side is attached and fixed to the first transmitting portion. A shape processing step of forming a button body by processing a metal plate;
A first transparent portion of a light transmissive material is formed separately from the button body, a through hole penetrating the first transparent portion in the front-rear direction is formed on the first transparent portion, and then the first transparent portion is formed by an adhesive- A first transmitting portion forming step of attaching to a back surface of the button body;
A light emitting groove forming step of forming a light emitting groove communicating with the through hole so that the light penetrates forward through the shape of the letter or code on the button body, and separating the button body into the inner side and the outer side by the light emitting groove; And
And a second transmissive portion forming step of forming a second transmissive portion of a light transmissive material in a back surface of the button body on which the first transmissive portion is formed and in the light transmitting groove,
The inner side portion is attached and fixed to the first transmitting portion,
And the second transmitting portion formed in the light transmitting groove is formed by filling synthetic resin into the light transmitting groove through the through hole. delete The method according to claim 1,
Wherein the light transmitting groove is formed so that the cross-sectional area gradually decreases toward the rear, and when the light transmitting groove is filled with the second transmitting portion, the second transmitting portion formed in the light transmitting groove is formed in an undercut structure, Wherein the metal-light-emitting-button key is formed on the light-emitting surface. delete A shape processing step of forming a button body by processing a metal plate;
Forming a first transmissive portion of a light transmissive material on a back surface of the button body;
A light transmitting groove forming step of forming a light transmitting groove in the button body such that light is transmitted through the letter or code in a forward direction and the button body is separated into the inner side and the outer side by the light transmitting groove; And
And forming a second transmissive portion of a light transmissive material by inserting a synthetic resin into a back surface of the button body on which the first transmissive portion is formed,
The inner side portion and the outer side portion separated from each other in the light-transmitting groove processing step are supported by the first transmitting portion,
Wherein the light-transmitting groove comprises a first light-transmitting groove and a second light-transmitting groove,
And the second transmissive portion is formed in the first light-
Wherein a colored pad of a light transmitting material is disposed on a back surface of the button body at a position where the second light transmitting groove is formed before the second transmitting portion forming step,
The synthetic resin pushes the colored pads into the second light-transmitting groove in the second transparent portion forming step,
Wherein the light passing through the first light-transmitting groove and the second light-transmitting groove is at least two different colors. A light-transmitting groove processing step of processing a light-transmitting groove along a letter or symbol shape on the metal plate and forming a rib connecting the inner side and the outer side of the metal plate separated from each other by the light-transmitting groove;
A rib pressing step of pressing the rib to protrude rearward of the metal plate;
A shape processing step of processing the metal plate to form a button body;
Forming a first transmissive portion of a light transmissive material on a back surface of the button body;
A rib removing step of removing the rib together with a part of the first transmitting portion covering the rib; And
And forming a second transmissive portion of a light transmitting material on a back surface of the button body on which the first transmissive portion is formed. A button body made of a metal material having a light-transmitting groove through which light is transmitted according to a shape of a character or a code and being separated into an inner side portion and an outer side portion by the light-transmitting groove;
A first transmissive portion formed on a rear surface of the button body and having a light-permeable material to which the inner portion and the outer portion are attached; And
And a second transmissive portion of a light transmissive material formed on a back surface of the button body on which the first transmissive portion is formed,
Wherein the first transmitting portion comprises a first back portion formed on a back surface of the button body and a first engaging portion protruding from the first back portion to form a latching groove,
Wherein the second transmitting portion includes a second back surface portion including a latching portion formed in the latching groove and covering the first engaging portion, and a second back surface portion protruding rearward from the second back surface portion and projecting rearward of the button body, And a second coupling unit coupled to the first and second coupling units. The method of claim 9,
Wherein the first transmitting portion is formed with a through hole communicating with the light transmitting groove in the front and rear direction of the first transmitting portion,
And the second transmissive portion is filled in the light emitting groove through the through hole.

Images