KR20240010341A - Manufacturing Method of Flood Light Button using Double Injection Molding and The Button - Google Patents

Abstract

In the invention, metal plating is performed to show the metal texture, but in addition to showing its function, a plating layer is not formed in the light-transmitting part where the light of the lighting located at the bottom passes through, which improves nighttime visibility and does not require a separate plating layer removal process. This relates to a manufacturing method and button for a light emitting button using double injection, which improves productivity and quality and reduces labor costs.
The method of manufacturing a light-transmitting button using double injection is to supply a primary molten metal made of a material that is transparent and cannot be metal plated to the primary mold to form the light-transmitting part 10 through which light passes from the bottom while indicating the function of the button. A first molding step (S10) of injection molding the light transmitting part 10; A first demolding step (S20) of separating the light transmitting part 10 from the primary mold and cooling it; A secondary molding step of placing the light transmitting part 10 in the secondary mold for forming the base part 20, then supplying secondary molten metal capable of metal plating and injection molding the base part 20 using a double injection method. (S30); A secondary demolding step (S40) of separating the base part 20 with the light transmitting part 10 integrated from the secondary mold and then cooling it; And a plating step (S50) of putting the base part 20 into the plating molten metal so that metal plating is performed on the remaining surfaces excluding the light transmitting part 10.

Description

Manufacturing Method of Flood Light Button using Double Injection Molding and The Button}

The present invention relates to a method of manufacturing a light emitting button using double injection and to the button, and more specifically, to the button, which is metal plated to display a metal texture, indicating its function, and allowing the light of the lighting located at the bottom to pass through. This relates to a method of manufacturing a light emitting button using double injection, which improves visibility at night as no plating layer is formed on the miner, and improves productivity and quality and reduces labor costs by not requiring a separate plating layer removal process, and the button. .

In general, cars are equipped with various buttons, and automobile accessories such as smart keys are also equipped with various buttons. These automotive buttons have symbols or letters to indicate their functions.

These automotive buttons transmit the force to the electronic circuit so that the mechanical kinetic energy generated by the user can be converted into an electrical signal, thereby inducing the operation of the audio and air conditioning controller and various switches. These automotive buttons are divided into push type and hinge type depending on the implementation method. Recently, in order to improve productivity and quality, push buttons have been manufactured by injection molding using the double injection method to integrate the parts that were previously composed of a cap and knob. I am ordering it.

Among these automotive buttons, there is a light-transmitting button configured to transmit light from a lighting installed at the bottom to improve visibility at night. These light-transmitting buttons are made up of a light-transmitting part and a base part, and metal plating is formed to prevent light from transmitting through the remaining parts except for the light-transmitting part and to create a metallic texture.

However, the conventional method of manufacturing a light-transmitting button involves putting the entire button consisting of the light-transmitting part and the base part into a plating molten metal to form a plating layer, and then removing the plating layer of the light-transmitting part, so an additional process to remove the plating layer of the light-transmitting part is required. This causes a problem in that the quality of the product deteriorates.

In addition, there is another problem in that the second molten metal may not sufficiently flow into the inner space of the display unit, which appears in the form of symbols or letters to indicate the button function, and this causes the quality of the product to deteriorate.

Meanwhile, as a result of researching prior art related to the present invention, a number of domestic patent documents were searched, some of which are introduced as follows.

Patent Document 1 includes a primary resin portion having a shape that displays the function of a button protruding from its surface, and bridge holes formed in adjacent portions on the inside and outside of the shape, respectively; In the double injection button, which has a protrusion fitted into the bridge hole, covers the inner and outer surfaces of the shaped part with a thickness equal to the height of the shaped part, and includes a secondary resin part coupled to the primary resin part, By manufacturing the double injection button of the automobile heater control unit so that one or more coupling holes are formed in the primary resin part inside the shaped part, and the secondary resin part has a reinforcing protrusion that is inserted into and fixed to the coupling hole, the light of the light source is produced. Disclosed is a double injection button for an automobile heater control unit and a method of manufacturing the same, which can create a button with a clearer shape of the function display unit and an attractive appearance by excluding the influence of the bridge unit on the shape of the projected primary resin unit. there is.

Patent Document 2 is a first process of primary injection molding a cap and a rib forming the front of a vehicle push button, and a second process of secondary injection molding a knob with a guide portion formed on the rear of the cap after the first process. And, a third process of separating the injection molded product using a push pin applied to the side of the rib in the mold in which the push button was formed after the second process, and a fourth process of applying transparent paint to the cap and rib after the third process. A process, a fifth process of applying an impermeable paint to the cap and ribs after the fourth process, and a sixth process of processing a transparent symbol shape on the cap using a laser after the fifth process. Due to the shape of the ribs that are integrated with the cap, the cap, which is a light-transmitting area, is injection molded before the knob made of opaque material. This prevents the opaque material from mixing into the cap, thereby preventing product defects. A method of manufacturing a push button for a vehicle is disclosed.

Patent Document 3 is a button body portion; and a button surface portion located on an upper portion of the button body, comprising: a symbol printing portion located on the button surface portion; And a symbol button for an automobile including a metal plating layer located on the remaining surface of the button excluding the symbol printing portion, and manufacturing a button through a double injection method using a polymer material that can be metal plated and a polymer material that is not metal plated. steps; Printing a symbol on the surface of the button using a polymer material that is not plated with metal; and forming a metal plating layer on the surface of the button, manufacturing the button through a double injection method using a polymer material that can be metal plated and a polymer material that is not metal plated. A method of manufacturing a symbol button for an automobile is disclosed in which the body portion of the button is made of a polymer material that is not plated with metal, and the surface portion of the button is made of a polymer material that can be plated with metal.

KR 10-2003-0096774 A KR 10-2006-0004182 A KR 10-2019-0081859 A

The present invention was developed to solve the problems of the prior art described above, and metal plating is performed to show the metal texture, but in addition to indicating the function, a plating layer is not formed in the light-transmitting part through which the light of the lighting located at the bottom transmits. The purpose is to provide a method of manufacturing a light-emitting button using double injection and a button that improves visibility at night and does not require a separate plating layer removal process, thereby improving productivity and quality and reducing labor costs.

In order to achieve the above object, the method of manufacturing a light-transmitting button using double injection of the present invention is to supply a primary molten metal made of a transparent and non-metal plating material to the primary mold to form a light-transmitting part through which light passes through the lower part. First molding step of injection molding the part; A first demolding step of separating the light transmitting part from the first mold and cooling it; A secondary molding step of placing a light transmitting part in a secondary mold for forming a base part, supplying secondary molten metal capable of metal plating, and injection molding the base part using a double injection method; A secondary demolding step of separating the base part with the integrated light transmitting part from the secondary mold and then cooling it; And a plating step of putting the base part into the plating molten metal so that metal plating is performed on the remaining surfaces excluding the light transmitting part.

In addition, according to the light transmitting button using double injection and its manufacturing method of the present invention, the primary molten metal is made of transparent PC resin, and the secondary molten metal is made of ABS resin that can be plated.

In addition, according to the light transmitting button and its manufacturing method using double injection of the present invention, in the secondary molding step, the inner space of the letter or symbol and the inner space of the letter or symbol are formed so that the secondary molten metal can be injected into the inner space of the letter or symbol forming the light transmitting portion. It is characterized by forming a bridge hole connecting the external space in the light transmitting part and then injecting the second molten metal.

In addition, according to the light transmitting button and its manufacturing method using double injection of the present invention, the secondary molten metal has a black color, and the plating molten metal has a metallic color.

Method for manufacturing a light emitting button using double injection of the present invention, and the button is manufactured by double injection with a light transmitting part through which light transmits while representing the function of the button and a base part supporting the light transmitting part, and the light transmitting part is made of a material that is transparent and cannot be metal plated. Accordingly, the work of removing the metal plating layer of the light transmitting part after performing the plating process is omitted, which has the effect of significantly improving productivity, improving visibility at night, and improving product quality.

In addition, according to the method of manufacturing a light emitting button using double injection of the present invention and the button, the function of the button can be accurately identified through the display unit as the letters or symbols on the display unit indicating the function of the button are clearly displayed. This has the effect of improving product quality.

1 is a flow chart showing a method of manufacturing a light emitting button according to the present invention.
Figure 2 is a process diagram schematically showing a method of manufacturing a light emitting button using double injection according to the present invention.
Figure 3 is a cross-sectional view schematically showing the display portion of the light emitting button according to the present invention.
Figure 4 is a cross-sectional view schematically showing the base portion of the light emitting button according to the present invention.
Figure 5 is a cross-sectional view showing a light emitting button according to the present invention.

Hereinafter, the manufacturing method of the light emitting button of the present invention and the button will be described with reference to the attached drawings.

The terms used in the present invention are terms defined in consideration of the functions in the present invention, and may vary depending on the intention or custom of the user or operator, so the definitions of these terms are defined in accordance with the technical details of the present invention. It should be interpreted as a concept.

In addition, the embodiments of the present invention do not limit the scope of the present invention, but are merely illustrative of the components presented in the claims of the present invention, and are included in the technical idea throughout the specification of the present invention and are included in the claims. This is an embodiment that includes components that can be replaced as equivalents in the components.

In addition, the optional terms in the examples below are used to distinguish one component from another component, and the components are not limited by the above terms, and the drawings for each component show the corresponding components. It is only a schematic representation of the features and does not specifically depict the corresponding components.

Accordingly, in describing the present invention, detailed descriptions of related known technologies that may unnecessarily obscure the gist of the present invention will be omitted.

To explain a preferred embodiment of the present invention, Figure 1 is a flowchart showing a method of manufacturing a light-emitting button using double injection according to the present invention, and Figure 2 is a schematic diagram showing a method of manufacturing a light-emitting button using double injection according to the present invention. It is a process diagram shown as, Figure 3 is a cross-sectional view schematically showing the display part of the light-emitting button according to the present invention, Figure 4 is a cross-sectional view schematically showing the base part of the light-emitting button according to the present invention, and Figure 5 is a light-emitting button according to the present invention. This is a cross-sectional view showing.

As shown in Figures 1 and 2, the method of manufacturing a light-transmitting button using double injection according to the present invention is to use a material that is transparent and cannot be metal plated in the primary mold to form the light-transmitting part 10 through which light passes through the lower part. A primary molding step (S10) of injection molding the light transmitting part 10 by supplying primary molten metal consisting of; A first demolding step (S20) of separating the light transmitting part 10 from the primary mold and cooling it; After placing the light transmitting part 10 in a secondary mold to form the base part 20 for supporting and protecting the light transmitting part 10, secondary molten metal capable of metal plating is supplied to form the base part using a double injection method. A second molding step (S30) of injection molding (20); A secondary demolding step (S40) in which the base part 20 with the light transmitting part 10 integrated therein is separated from the secondary mold and then cooled; A plating step (S50) of putting the base part 20 into the plating molten metal so that metal plating is performed on the remaining surface except for the light transmitting part 10; and a finishing step (S60) in which various finishing processes are performed on the light transmitting portion 10 and the base portion 20.

Here, as shown in FIG. 3, the light transmitting part 10 is composed of a surface 11 exposed to the outside of the button and a support body 12 for supporting it, through which the light of the lighting located at the bottom of the button is transmitted. It is formed transparently so that And, as shown in FIG. 4, the base portion 20 is composed of a surface 21 exposed to the outside of the button and a base 22 that surrounds the support body 12 of the light transmitting portion 10, It is made opaque so that the light from the lighting does not pass through.

Specifically, the primary molten metal is made of transparent PC resin to form a transparent light-transmitting portion (10) so that the light from the lighting located at the bottom of the button is transmitted smoothly and the metal plating layer (30) is not formed on the surface (11). It is desirable. In addition, the secondary molten metal is preferably made of plating-able ABS resin so that the metal plating layer 30 can be smoothly formed on the surface 21, and may be made of a mixture of plating-able ABS resin and PC resin.

In addition, when a letter or symbol indicating its function is formed on the light transmitting part 10, the letter or symbol is formed so that the secondary molten metal can be injected into the internal space of the letter or symbol of the light transmitting part 10 in the secondary forming step. It is preferable to form a bridge hole connecting the internal space and external space of the symbol in the light transmitting part 10 and then inject the second molten metal. Accordingly, the second molten metal to form the base portion 20 of the button is injected around the letters or symbols formed in the light-transmitting portion 10, and is also injected into the inside of the letters or symbols of the light-transmitting portion 10 through the bridge hole. It can be injected into space, and as a result, the letters or symbols of the light transmitting part 10 appear clearly, improving identification.

Here, the secondary molten metal for forming the base portion 20 preferably has a black color, and the plating molten metal for forming the metal plating layer 30 preferably has a metallic color. The reason why the base portion 20 is formed in black color is to prevent the lighting from the bottom of the button from transmitting to the top even if the thickness of the metal plating layer 30 is thin.

As shown in FIG. 5, the light emitting button of the present invention manufactured through the above method has a metal plating layer 30 formed only on the surface 21 of the base portion 20 surrounding the light transmitting portion 10. , Since the metal plating layer 30 is not formed on the surface 11 of the light transmitting part 10, the appearance quality and night visibility are improved, and it is used as a window button of a car, etc.

Although the present invention has been described and illustrated in relation to several embodiments to illustrate the technical idea of the present invention, the present invention is not limited to the configuration and operation as described, and is within the scope of the technical idea described in the description of the invention. Those skilled in the art will be able to understand that many changes and modifications can be made to the present invention without departing from the above. Accordingly, all such appropriate changes, modifications and equivalents shall be considered to fall within the scope of the present invention.

10... Light transmitting part
11...Surface
12...Support body
20...Bass part
21...Surface
22...Bass
30...metal plating layer

Claims (5)

Primary injection molding of the light transmitting part 10 by supplying primary molten metal made of a transparent and non-metal plating material to the primary mold to form the light transmitting part 10 through which the light passes through while indicating the function of the button. Forming step (S10);
A first demolding step (S20) of separating the light transmitting part 10 from the primary mold and cooling it;
A secondary molding step of placing the light transmitting part 10 in the secondary mold for forming the base part 20, then supplying secondary molten metal capable of metal plating and injection molding the base part 20 using a double injection method. (S30);
A secondary demolding step (S40) of separating the base part 20 with the light transmitting part 10 integrated from the secondary mold and then cooling it; and
A method of manufacturing a light-transmitting button using double injection, comprising a plating step (S50) of putting the base portion 20 into the plating molten metal so that metal plating is performed on the remaining surface except for the light-transmitting portion 10.
According to paragraph 1,
The primary molten metal is made of transparent PC resin,
A method of manufacturing a light emitting button using double injection, characterized in that the secondary molten metal is made of platingable ABS resin.
According to paragraph 1,
In the secondary forming step, a bridge hole is formed in the light-transmitting part 10 to connect the internal space of the letter or symbol to the external space so that the secondary molten metal can be injected into the internal space of the letter or symbol of the light-transmitting part 10. A method of manufacturing a light emitting button using double injection, characterized by injecting a second molten metal.
According to paragraph 1,
A method of manufacturing a light emitting button using double injection, characterized in that the secondary molten metal has a black color and the plating molten metal has a metal color.
Manufactured according to the method according to any one of claims 1 to 4, a metal plating layer 30 is formed on the surface 21 of the base portion 20, and a metal plating layer 30 is formed on the surface 11 of the light transmitting portion 10. A light transmitting button characterized in that the plating layer 30 is not formed.