KR101038546B1 - Method for manufacturing case of mobile device with an embedded direct inmold antenna - Google Patents

Abstract

PURPOSE: A method for manufacturing a mobile phone case equipped with a direct in-mold antenna is provided to cost-effective manufacture the mobile phone case by forming antenna patterns based on stainless steel. CONSTITUTION: A lower layer sheet based on a first plastic resin is combined with a stainless steel(STS) plate to form first intermediate(101). Antenna patterns are formed by etching or patterning the STS plate of the first intermediate(102). Based on the antenna patterns, the first intermediate is cut to form an antenna module(103). A mobile phone case is formed by injecting a second plastic resin which is the same as the first plastic resin. The antenna module is combined in the mobile phone case(104).

Description

Method for manufacturing case of mobile device with an embedded direct inmold antenna}

It relates to an antenna module and a case manufacturing technology of a portable device.

Due to the rapid development of information in recent years, portable wireless communication devices have been widely distributed. The portable wireless communication device goes beyond simple communication means and functions as a payment means such as credit cards and electronic money as well as the Internet, and the demand for miniaturization and light weight with the additional functions of the portable wireless communication device is constantly increasing. The trend is.

Portable wireless communication devices have antennas for communication. In addition, this antenna is usually embedded in a portable wireless communication device, but often protrudes outward when used. The external exposure of such antennas is an obstacle that does not meet the demand for miniaturization and weight reduction.

Accordingly, a built-in antenna has emerged, in which the antenna is not exposed even in use. Typically, the built-in antenna is formed by making a copper sheet in the form of an antenna and attaching it on a thin film. However, this type of built-in antenna has a problem in that it is not easy to make an antenna circuit and is not particularly firmly coupled to a portable wireless communication device.

Provided is a method for manufacturing a cell phone case with a direct in-mold antenna that is firmly coupled to a portable wireless communication device and can be mass produced at a time.

According to an aspect of the present invention, there is provided a method for manufacturing a mobile phone case having an embedded in-mold antenna, wherein an adhesive sheet is placed between a lower layer sheet made of polycarbonate resin and an STS plate made of stainless steel, thereby compressing the lower layer sheet and the STS plate. 1 forming an intermediate; Etching or patterning the STS plate of the first intermediate to form an antenna pattern; Cutting the first intermediate body based on the formed antenna pattern, and bending the cut first intermediate body in consideration of the shape of a component to be seated in the phone case or the position of a terminal to be exposed to form an antenna module; And placing the antenna module in a mold and injecting polycarbonate resin into the mold to form the mobile phone case and simultaneously coupling the antenna module to the inside of the mobile phone case. It may include.

According to another aspect of the present invention, there is provided a method for manufacturing a cell phone case having an embedded in-mold antenna, wherein an adhesive sheet is placed between a lower layer sheet made of polycarbonate resin and an STS plate made of stainless steel, and then the first lower layer sheet and the STS plate are compressed. Forming an intermediate; Etching or patterning the STS plate of the first intermediate to form an antenna pattern; Placing an adhesive sheet between the upper sheet composed of a polycarbonate resin and the first intermediate member having the antenna pattern formed thereon, and compressing the upper sheet and the first intermediate member to form a second intermediate member by hot press bonding; Cutting the second intermediate body based on the formed antenna pattern, and bending the cut second intermediate body in consideration of the shape of the component to be seated in the phone case or the position of the terminal to be exposed to form an antenna module; And placing the antenna module in a mold and injecting polycarbonate resin into the mold to form a mobile phone case and simultaneously coupling the antenna module to the inside of the mobile phone case. It may include.

According to the disclosed contents, since the antenna pattern is formed of stainless steel, the manufacturing cost can be lowered. And because the antenna module is made of a sheet of the same material as the mobile phone case, it is possible to firmly seat the antenna module inside the mobile phone case. In addition, since the use of a plate-like structure such as plastic resin sheet and STS plate when forming the antenna module and forming the antenna pattern through etching or patterning, it is possible to quickly produce a large number of antenna modules at once without complicated process have.

FIG. 1A illustrates an example of a method of manufacturing a mobile phone case with a direct in-mold antenna.
Figure 1b shows another example of a method for manufacturing a cell phone case with a direct in-mold antenna.
2A illustrates a cross-section of a direct in-mold antenna module according to one embodiment of the invention.
2B illustrates a cross section of a direct in-mold antenna module according to another embodiment of the invention.
3A is a cross-sectional view of a cell phone case with a direct in-mold antenna according to an embodiment of the present invention.
3B is a cross-sectional view of a cell phone case with a direct in-mold antenna according to another embodiment of the present invention.
4A to 4I illustrate an example of a method of manufacturing a direct in-mold antenna module.
5 illustrates an example of a method of coupling the antenna module and a mobile phone case of the present invention.

Hereinafter, specific examples for carrying out the present invention will be described in detail with reference to the accompanying drawings. The embodiments to be described below are provided to illustrate the present invention by way of example and the scope of the present invention is not limited to the specific embodiments.

1A illustrates a method of manufacturing a mobile phone case with a direct in-mold antenna according to an embodiment of the present invention. Referring to Figure 1a, the manufacturing method according to the present embodiment will be described.

First, a first intermediate body is formed by combining a cover sheet made of plastic resin and an STS plate made of stainless steel (STS). As the plastic resin, PC (polycarbonate), ABS (Acrylonitrile-butadiene-styrene), PET (polyethylene terephtalate) resin, etc. may be used. Stainless steel may be an alloy steel in which chromium and / or nickel are added to iron. For example, the first intermediate can be made by placing an adhesive sheet between the PC sheet and the STS plate and pressing the PC sheet and the STS plate.

When the first intermediate is formed, the antenna pattern is formed by etching or patterning the STS plate of the first intermediate (102). Since the STS plate is conductive, it is possible to remove part of the STS plate to make an antenna pattern. For example, a photosensitive material may be applied onto an STS plate, a patterning mast may be placed on the photosensitive material, and then exposed to light to form a predetermined antenna pattern. In this case, a plurality of antenna patterns having the same shape may be formed in the first intermediate body.

When the antenna pattern is formed, the antenna module is formed by cutting the first intermediate body based on the formed antenna pattern (103). For example, when a plurality of antenna patterns having the same shape are formed, it is possible to cut the first intermediate body for each antenna pattern. In addition, it is also possible to bend the first intermediate cut for each antenna pattern in consideration of the shape of the battery to be seated in the fuse case or the position of the terminal to be exposed.

When the antenna module is formed, the antenna module is seated inside the mobile phone case (104). For example, the formed antenna module is placed in a mold for injection molding, and the same plastic resin as the plastic resin that forms the cover sheet is injected into the mold to form a mobile phone case, and at the same time, the antenna module is coupled inside the mobile phone case. According to the present embodiment, the mobile phone case is illustrated, but is not limited to the mobile phone. That is, it will be apparent to those skilled in the art that the present invention can be applied to various communication devices such as smart phones, DMB players, and navigation devices.

1B is a view illustrating a method of manufacturing a mobile phone case with a direct in-mold antenna according to another embodiment of the present invention. Referring to Figure 1b, the manufacturing method according to the present embodiment will be described.

First, a first intermediate body is formed by combining a lower cover sheet made of plastic resin and an STS plate made of stainless steel (STS). As the plastic resin, PC (polycarbonate), ABS (Acrylonitrile-butadiene-styrene), PET (polyethylene terephtalate) resin, etc. may be used. Stainless steel may be an alloy steel in which chromium and / or nickel are added to iron. For example, the first intermediate can be made by placing an adhesive sheet between the PC sheet and the STS plate and pressing the PC sheet and the STS plate.

When the first intermediate is formed, the antenna pattern is formed by etching or patterning the STS plate of the first intermediate (120). Since the STS plate is conductive, it is possible to remove part of the STS plate to make an antenna pattern. For example, a photosensitive material may be applied onto an STS plate, a patterning mast may be placed on the photosensitive material, and then exposed to light to form a predetermined antenna pattern. In this case, a plurality of antenna patterns having the same shape may be formed in the first intermediate body.

When the antenna pattern is formed, a second intermediate body is formed by combining the upper cover sheet made of the same plastic resin as the lower cover sheet and the first intermediate body on which the antenna pattern is formed (130). For example, an upper cover sheet is made of the plastic resin used to make the lower cover sheet, an adhesive sheet is placed between the upper cover sheet and the first intermediate member having the antenna pattern, and the upper sheet and the first intermediate are placed in the first temperature range. After pressing at, it is possible to make the second intermediate via hot press bonding again in the second temperature range, which is hotter than the first temperature range.

When the second intermediate is made, the antenna module is formed by cutting the twenty-first intermediate based on the formed antenna pattern (140). For example, when a plurality of antenna patterns having the same shape are formed, it is possible to cut the second intermediate body for each antenna pattern. In addition, it is also possible to bend the second intermediate cut for each antenna pattern in consideration of the shape of the battery to be seated or the position of the terminal to be exposed inside the phone case.

When the antenna module is formed, the antenna module is seated inside the mobile phone case (150). For example, the formed antenna module is placed in the mold, and the same plastic resin as that of the upper and lower layer cover sheets is injected into the mold to form a mobile phone case, and the antenna module is coupled to the inside of the mobile phone case.

2A shows a cross section of an antenna module according to an embodiment of the invention.

2A, the antenna module 200 according to the present embodiment includes an STS plate 201, a lower layer sheet 202, and an adhesive sheet 204.

STS plate 201 is formed of stainless steel. The STS plate 201 may be formed of an antenna pattern capable of transmitting and receiving radio waves through etching or patterning. The thickness of the STS plate 201 may be about 0.01 mm to 0.15 mm.

The lower layer sheet 202 is formed of PC resin, ABS resin, PET resin, or the like. The lower layer sheet 202 may be formed of the same material as the inside of the mobile phone case in which the antenna module 200 is to be seated. The lower sheet 202 may have a thickness of about 0.05 mm to 0.1 mm.

The STS plate 201 and the lower layer sheet 202 are joined by the adhesive sheet 204. The adhesive sheet 204 may be a film having an adhesive force. The thickness of the adhesive sheet 204 may be about 0.025 mm. For example, it is possible to put the adhesive sheet 204 between the STS plate 201 and the lower layer sheet 202 and to apply pressure in both directions.

In FIG. 2A, the STS plate 201 is described as being exposed to the outside, but a separate adhesive sheet may be formed on the STS plate 201. For example, it is also possible to form another separate adhesive sheet on the STS plate 201 and to combine the surface on which the adhesive sheet is formed with the inner surface of the mobile phone case.

2B illustrates a cross section of an antenna module according to another embodiment of the present invention.

2B, the antenna module 200 according to the present embodiment includes an STS plate 201, a lower layer 202, an upper layer 203, and an adhesive sheet 204.

STS plate 201 is formed of stainless steel. The STS plate 201 may be formed of an antenna pattern capable of transmitting and receiving radio waves through etching or patterning. The thickness of the STS plate 201 may be about 0.01 mm to 0.15 mm.

The lower layer sheet 202 is formed of PC resin, ABS resin, PET resin, or the like. The lower layer sheet 202 may be formed of the same material as the inside of the mobile phone case in which the antenna module 200 is to be seated. The lower sheet 202 may have a thickness of about 0.05 mm to 0.1 mm.

The upper sheet 203 is also formed of PC resin, ABS resin, PET resin, or the like. In addition, it is possible to make the upper sheet 203 the same as the material inside the mobile phone case on which the antenna module 200 is to be seated so that the upper sheet 203 and the inside of the mobile phone case are integrally molded. The thickness of the upper sheet 203 may be about 0.05 mm, similar to the thickness of the lower sheet 202.

The STS plate 201, the lower layer sheet 202, and the upper layer sheet 203 are joined by the adhesive sheet 204. The adhesive sheet 204 may be a film having an adhesive force. The thickness of the adhesive sheet 204 may be about 0.025 mm. For example, the adhesive sheet 204 may be provided between the STS plate 201 and the upper and lower layer sheets 202 and 203 to be bonded by applying pressure in both directions.

3A is a cross-sectional view of a mobile phone case having an antenna according to an embodiment of the present invention. This illustrates that the antenna module according to Figure 2a is coupled to the inside of the mobile phone case.

2A and 3A, the antenna module 200 is coupled to the inner surface of the mobile phone case 301. For example, in FIG. 2A, the surface on which the STS plate 201 is formed and the inner surface of the mobile phone case 301 may be coupled to face each other. Various methods can be used for the bonding method. For example, the antenna module 200 as shown in FIG. 2A is placed in a mold for molding the mobile phone case 301, and a plastic resin of the same material as the lower layer sheet 202 is injected onto the mold to carry the mobile phone case 301. At the same time forming the antenna module 200 may be seated inside the mobile phone case 310. In addition, in the antenna module 200 as shown in FIG. 2A, after the adhesive sheet is further formed on the STS plate 201, injection molding may be performed.

3B is a cross-sectional view of a mobile phone case with an antenna according to another embodiment of the present invention. This illustrates that the antenna module according to Figure 2b is coupled to the inside of the mobile phone case.

2B and 3B, the antenna module 200 is coupled to the inner surface of the mobile phone case 301. For example, in FIG. 2B, it is possible for the surface on which the upper sheet 203 is formed and the inner surface of the mobile phone case 301 to be coupled to face each other. Various methods can be used for the bonding method. For example, the antenna module 200 as shown in FIG. 2B is placed in a molding frame for molding the mobile phone case 301, and a plastic resin of the same material as the upper sheet 203 is injected onto the molding frame to carry the mobile phone case 301. At the same time forming the antenna module 200 may be seated inside the mobile phone case 310.

Next, a method of manufacturing an antenna module according to an embodiment of the present invention will be described in more detail with reference to FIGS. 4A to 4I. As described above, there are two types of antenna modules according to an embodiment of the present invention. For example, there may be a case where there is only one sheet as shown in FIG. 2A and a case where there are two sheets as shown in FIG. 2B. 4A to 4I illustrate the case where the upper and lower layer sheets are used. If the form has only one sheet, some of the steps to be described later may be omitted.

In FIG. 4A, first, a lower layer sheet 401 is formed. The lower layer sheet 401 may be made using a polycarbonate pc sheet. The thickness of the lower layer sheet may be about 0.05 mm to 0.1 mm. In addition, a feeding point 402 and a guide hole 403 may be formed in the lower layer sheet 401. The feeding point 402 or guide hole 403 may provide a space for forming a connection terminal or a space for ease of assembly with other components.

4B and 4C, the first intermediate is formed by bonding the lower layer sheet 401 and the STS plate 405 using the adhesive sheet 404. For example, as shown in FIG. 4B, a thickness of about 0.05 mm to 0.1 mm of the lower layer sheet 401 made of polycarbonate resin and a thickness of about 0.01 mm to 0.15 mm of STS plate 405 made of stainless steel are obtained. A 0.025 mm adhesive sheet 404 is disposed. And, as shown in Figure 4c, the lower layer sheet 401 and the STS plate 405 by using a roll may be pressed for about 6 seconds to 10 seconds at about 150 to 200 degrees to form a first intermediate.

In FIG. 4D, the STS plate 405 of the first intermediate body is processed to form the antenna pattern 406. For example, after applying a photosensitive material on the STS plate 405 and placing a mask for the antenna pattern 406, it is possible to form the antenna pattern 406 through exposure and etching. In other words, while a portion of the STS plate 405 is removed, an antenna pattern 406 suitable for the purpose of use is formed on a stainless steel base. There may be a plurality of antenna patterns 406 formed.

On the other hand, in FIG. 4E, the upper sheet 407 is formed. The upper sheet 407 may be made of polycarbonate resin of the same material as the lower sheet 401. The thickness of the upper sheet 407 may also be about 0.05 mm to 0.1 mm, similarly to the lower sheet 401.

4F and 4G, the upper layer sheet 407 and the first intermediate body (ie, the lower layer sheet 401 + the adhesive sheet 404 + the STS plate 405 on which the antenna pattern is formed) are preliminarily bonded. For example, as shown in FIG. 4F, an adhesive sheet 409 having a thickness of about 0.025 mm is disposed between the upper layer sheet 407 and the first intermediate body, and the upper layer sheet 407 and the agent are formed using a roll as shown in FIG. 4G. 1 Intermediate can be squeezed at about 150 to 200 degrees for about 6 to 10 seconds to form a temporary joint.

And, even at 4h, the joint of approximately 150 to 200 degrees about 100kg / cm ² to 200kg / 50 min at a pressure of cm ² to 90 minutes a hot press (hot press) junction for making a second intermediate It is possible.

4I, the second intermediate body is appropriately processed to form the antenna module. For example, when cutting the second intermediate body for each antenna pattern formed and mounted inside the mobile phone case, it is possible to appropriately bend in consideration of the position of the connection terminal or the position of other components.

5 illustrates a method of combining an antenna module and a mobile phone case according to an embodiment of the present invention. This may be an example of a method for seating the antenna module made as shown in Figures 4a to 4i inside the mobile phone case.

Referring to FIG. 5, the antenna module 501 is placed in a molding mold for injection molding the mobile phone case 502. When the molten plastic resin is injected through the injection hole for the mold, the plastic resin is solidified and the mobile phone case 502 is made according to the mold. At this time, by injecting a plastic resin of the same material as the upper sheet 407 of the antenna module 501, the antenna module 501 and the mobile phone case 502 are integrally formed and at the same time the antenna module 501 is a mobile phone case 502 Make sure it is firmly seated inside.

As described above, according to the disclosed embodiment, since the antenna pattern is formed of stainless steel, the manufacturing cost can be reduced. And because the antenna module is made of a sheet of the same material as the mobile phone case, it is possible to firmly seat the antenna module inside the mobile phone case. In addition, since the use of a plate-like structure such as plastic resin sheet and STS plate when forming the antenna module and forming the antenna pattern through etching or patterning, it is possible to quickly produce a large number of antenna modules at once without complicated process have.

Claims (11)

Combining the lower sheet made of the first plastic resin with the STS plate made of stainless steel to form a first intermediate body;
Etching or patterning the STS plate of the first intermediate to form an antenna pattern;
Cutting the first intermediate body based on the formed antenna pattern to form an antenna module; And
Placing the antenna module in a mold and injecting a second plastic resin, which is the same as the first plastic resin, into the mold to form a mobile phone case and simultaneously coupling the antenna module to the inside of the mobile phone case; Direct in-mold antenna embedded mobile phone case manufacturing method comprising a. The method of claim 1,
And the first plastic resin and the second plastic resin are at least one of a PC resin, an ABS resin, and a PET resin. The method of claim 1,
The forming of the first intermediate may include placing an adhesive sheet between the lower layer sheet and the STS plate and compressing the lower layer sheet and the STS plate. The method of claim 1,
The forming of the antenna module may include cutting the first intermediate body according to the formed antenna pattern, and bending the cut first intermediate body in consideration of the shape of the component to be seated in the phone case or the position of the terminal to be exposed. Direct in-mold antenna embedded mobile phone case manufacturing method comprising a. Combining the lower sheet made of the first plastic resin with the STS plate made of stainless steel to form a first intermediate body;
Etching or patterning the STS plate of the first intermediate to form an antenna pattern;
Combining the upper sheet made of the first plastic resin and the first intermediate member having the antenna pattern to form a second intermediate member;
Cutting the second intermediate body based on the formed antenna pattern to form an antenna module; And
Placing the antenna module in a mold and injecting a second plastic resin, which is the same as the first plastic resin, into the mold to form a mobile phone case and simultaneously coupling the antenna module to the inside of the mobile phone case; Direct in-mold antenna embedded mobile phone case manufacturing method comprising a. The method of claim 5, wherein
And the first plastic resin and the second plastic resin are at least one of a PC resin, an ABS resin, and a PET resin. The method of claim 5, wherein
The forming of the first intermediate may include placing an adhesive sheet between the lower layer sheet and the STS plate and compressing the lower layer sheet and the STS plate. The method of claim 5, wherein
The forming of the second intermediate body may include placing an adhesive sheet between the upper layer sheet and the first intermediate body having the antenna pattern formed thereon, and compressing the upper layer sheet and the first intermediate body at a first temperature range, followed by a first temperature range. Method for manufacturing a cell phone case with a direct in-mold antenna comprising the step of hot press bonding in the second higher temperature range. The method of claim 5, wherein
The forming of the antenna module may include cutting the second intermediate body according to the formed antenna pattern, and bending the cut second intermediate body in consideration of the shape of the component to be seated in the phone case or the position of the terminal to be exposed. Direct in-mold antenna embedded mobile phone case manufacturing method comprising a. An adhesive sheet having a thickness of 0.025 mm is placed between a lower layer sheet having a thickness of 0.05 mm to 0.1 mm made of polycarbonate resin and an STS plate having a thickness of 0.01 mm to 0.15 mm made of stainless steel. Pressing at 200 degrees for 6 to 10 seconds to form a first intermediate;
Etching or patterning the STS plate of the first intermediate to form an antenna pattern;
Cutting the first intermediate body based on the formed antenna pattern, and bending the cut first intermediate body in consideration of the shape of a component to be seated in the phone case or the position of a terminal to be exposed to form an antenna module; And
Placing the antenna module in a mold and injecting polycarbonate resin into the mold to form a mobile phone case and simultaneously coupling the antenna module to the inside of the mobile phone case; Direct in-mold antenna embedded mobile phone case manufacturing method comprising a. An adhesive sheet having a thickness of 0.025 mm is placed between a lower layer sheet having a thickness of 0.05 mm to 0.1 mm made of polycarbonate resin and an STS plate having a thickness of 0.01 mm to 0.15 mm made of stainless steel. Pressing at 200 degrees for 6 to 10 seconds to form a first intermediate;
Etching or patterning the STS plate of the first intermediate to form an antenna pattern;
An upper layer sheet having a thickness of 0.05 mm to 0.1 mm and an adhesive sheet having a thickness of 0.025 mm are disposed between the first intermediate member formed with the antenna pattern and the upper layer sheet and the first intermediate member at 150 to 200 degrees. after crimping 6 seconds to 10 seconds, and the step of again 150 to 200 in 50 minutes to 1 hour and 30 minutes 100kg / cm ² to the hot press bonded at a pressure of 200kg / cm ² for forming a second intermediate;
Cutting the second intermediate body based on the formed antenna pattern, and bending the cut second intermediate body in consideration of the shape of the component to be seated in the phone case or the position of the terminal to be exposed to form an antenna module; And
Placing the antenna module in a mold and injecting polycarbonate resin into the mold to form a mobile phone case and simultaneously coupling the antenna module to the inside of the mobile phone case; Direct in-mold antenna embedded mobile phone case manufacturing method comprising a.

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