KR20100113258A - A manufacturing process for flexible antenna and the flexible antenna using conductive matter - Google Patents

Abstract

PURPOSE: An antenna using conductive materials and a manufacturing method thereof are provided to receive various frequency bands by implementing a conductive film with a single or both surfaces and a single or laminated structure. CONSTITUTION: A conductive film(20) is positioned on a conductive film(10). An antenna sheet is made by forming the conductive film. A conductive film layer(20a,20b,20c,20d) is comprised of a single conductive film or multi conductive films. An antenna pattern is formed on each laminated conductive film.

Description

TECHNICAL FIELD OF THE INVENTION An antenna manufacturing method using a conductive material and an antenna manufactured by the manufacturing method

The present invention relates to an antenna using a conductive material, and relates to an antenna manufacturing method using a conductive material suitable for a case of a small communication terminal such as a mobile communication terminal and an antenna manufactured by the manufacturing method.

The rapid development of multimedia communication technology has made it possible to have a mobile terminal device having various and complex functions, and it is possible to realize various and complicated functions in consideration of mobility in consideration of the characteristics of the mobile phone, but also to reduce the size of the terminal. The miniaturization to make it possible.

In particular, rod-type antennas and helical antennas of mobile communication terminals are designed to be exposed to the outside of the main body of the device. Due to its complexity, it acts as a limiting factor for designing antennas, and also has difficulty in designing a mobile communication terminal for miniaturization.

In addition, in the case of a mobile communication terminal to which various frequency bands are applied, the size of the terminal is increased because the space for the antenna is needed to design and configure the antennas for holding the respective frequency bands. Restrictive factors occur, such as the need to change the structure.

Accordingly, a mobile communication terminal using an in-mold (IML) type antenna for embedding the antenna in a device body has been commercialized.

In-mold antenna is suitable for broadcasting antennas such as DMB, DVB-H and FM radio antennas, SUB antennas such as GPS and Bluetooth, and N.F.C (Near Field Communication) solutions.

An in-mold antenna is an in-mold injection method that implements an antenna on an in-mold film and simultaneously implements a case and an antenna through an injection process, and refers to an antenna embedded in a case.

As the in-mold antenna is configured to the antenna inside the terminal case, it has the following advantages.

(a). In the implementation of the antenna characteristic, an area for implementing a separate antenna on the terminal main board is not needed.

(b). As the antenna is implemented on the outer surface of the terminal, the volume for the antenna characteristic is widened, thereby facilitating the characteristic implementation.

(c). In-mold injection cost is high compared to general injection to implement main antenna alone, but there is a price advantage when compared to broadcasting antenna (external type).

(d). The antenna is inside the case to prevent antenna duplication.

In contrast, the in-mold antenna can be affected by the human body as the antenna is located in the outermost part of the terminal (the antenna is in contact with the human hand), and thus it is not easy to use as the main antenna. Rather, there is a disadvantage that the manufacturing price will rise.

In the conventional in-mold antenna as shown in Figure 1 when the in-mold injection to the carrier film (in-mold film) using a conductive ink to print in the shape of the antenna to produce the antenna at the same time injection.

In the method of printing the conductive ink as described above, since the antenna base is made of plastic, work must be performed at a temperature at which plastic deformation does not occur.

Therefore, the antenna pattern formed on the base should be printed using a low temperature paste, but the paste should be selected in consideration of the printing degree, adhesiveness, etc., so there are many material restrictions.

In addition, not only conductive materials but also organic substances are added to the conductive ink for printing and adhesion of the conductive ink. When the conductive ink is subjected to high temperature treatment, organic substances may be removed, but when the low temperature treatment is performed, the organic substance remains as it is. do. Since the polymer base is used as the base of the antenna, it cannot be subjected to high temperature, so that the organic material in the conductive ink remains even after the antenna radiator is formed. As a result, the most important electrical conductivity is lowered as the antenna radiator, which may cause degradation of antenna radiation characteristics.

In addition, printing a conductive ink on a three-dimensional antenna base has a difficulty in processing.

In another conventional method, an antenna radiator is formed by a sputtering process on a carrier film, and a carrier film having an antenna radiator is inserted into a mold of a mobile communication terminal case and injected, thereby forming a carrier film; The mobile communication terminal is integrally combined.

As described above, in the method of forming an antenna radiator through the sputtering process, as the antenna is formed through the sputtering process, the terminal is not soldered to the antenna at the connecting portion between the antenna and the terminal board, and fixed by paste.

Therefore, a problem arises in fixing the antenna terminal, and the fixing force is weak, so that the terminal may be separated during the process.

In addition, since the mold is held by the mold when the antenna terminal is fixed, the mold force that is pushed to fix the terminal during the pushing process causes an appearance defect that the film of the portion is pushed outward.

The present invention relates to a soft molded antenna providing method having a preferred characteristic here as configured in the terminal case to attach or within the external, electrically conductive, such as conductive plastic (plastic), a conductive film (film), a metal (metal) It is intended to provide an antenna that has an antenna radiator with good radiation characteristics by using a material having the same, and makes the most of the mounting space in configuring the terminal case.

The present invention is characterized in that it comprises a step of forming an antenna sheet by molding a conductive film having an antenna pattern formed on at least one surface of the carrier film through an extrusion or rolling process.

The present invention is characterized in that it comprises a step of forming an antenna formed with an antenna pattern through a double injection or insert injection process of the conductive plastic.

The present invention is characterized in that the metal is formed through the process of forming an antenna sheet in the form of a film by attaching a metal on which the antenna pattern is formed on one or both sides of the carrier film through a pressing process.

According to the present invention, in the configuration of the antenna in the mobile phone terminal, can be configured according to the shape of the terminal case can be attached to the inner and outer case surface to maximize the space for configuring the antenna, designed for miniaturization of the terminal It is advantageous in this case.

Therefore, in the case of a mobile communication terminal including a plurality of reception frequencies for receiving different frequency bands, a plurality of antennas are required. When using the antenna according to the present invention, the space for configuring the antenna can be maximized. Very advantageous.

In addition, the present invention is to use a conductive film, such as a conductive film, a conductive plastic, a metal to have an antenna radiator with good radiation characteristics.

In addition, the present invention is advantageous in designing the terminal case can be formed freely by forming the shape of the conductive plastic as the radiator, such as double injection or insert injection.

In the case of the antenna using the conductive film of the present invention, the conductive film may be implemented in one or two sides, and in a single layer or a laminated structure, and thus may be advantageously configured for an antenna for receiving various frequency bands and have different conductivity and electrical properties. The characteristics of the antenna can be corrected.

Referring to the embodiment shown in the accompanying drawings, an antenna manufacturing method using the conductive material of the present invention will be described the configuration and process as follows.

1 shows a first embodiment of the present invention, which shows an antenna manufacturing method using a conductive film.

Antenna production method using the conductive film of the present invention,

An antenna sheet is formed by molding the conductive film 20 having the antenna pattern formed on at least one surface of the carrier film 10 made of an insulating polymer material through an extrusion or rolling process.

According to such a manufacturing method, it is possible to manufacture an antenna using a flexible antenna conductive film composed of an antenna radiator made of a conductive film 20 formed by an extrusion or rolling process on one surface of the carrier film 10.

Such an antenna manufacturing method using the conductive film of the present invention,

The carrier film 10 is prepared, and a film 10 of a conductive material having an antenna pattern is formed through an extrusion or rolling process on one surface of the carrier film 10.

At this time, the conductive film layer may be composed of the conductive film 20 on both sides or the conductive materials 20 and 20a on both sides, as shown in (a) and (b) of FIG. As in b), the conductive film 20a, 20b, 20c, 20d, 20e layer may be composed of a single conductive film 20 or a multi layer.

That is, a conductive film layer can be comprised like single in single side, multi in single side, single in both sides, and multi in both sides.

When configuring the conductive film in multi, it can be configured to have different electrical conductivity or different electrical properties.

Each of the stacked conductive films 20, 20a, 20b, 20c, 20d, and 20e are each formed with an antenna pattern.

Antenna according to the antenna manufacturing method using such a conductive film can be multi-correct the characteristics of the antenna.

The antenna as described above may be configured by determining the size according to the shape of the terminal case and attaching to the outside or the inside of the case.

Or inserting a flexible antenna into a mold in the form of a mobile communication terminal case and injecting a molding material into the mold to form a mobile communication terminal case integrally coupled with the antenna sheet, thereby inserting into the mold when the case is ejected. It can also be comprised integrally in the inside of a case.

The antenna using the conductive film of the present invention has a structure that is easy to attach.

In addition, another embodiment of the present invention proposes an antenna manufacturing method using a metal.

Referring to Figure 4 attached to the antenna manufacturing method using the present invention metal as follows.

Preparing a carrier film 10 made of an insulating polymer material, and attaching a metal 30 having an antenna pattern to at least one surface of the carrier film 10 through a bonding process to form an antenna sheet. It features.

According to such a manufacturing method, an antenna using a metal having a structure in which a metal 30 having an antenna pattern formed on a carrier film 10 is attached by a bonding process may be manufactured.

As shown in (b) of FIG. 4, the antenna sheet may be formed by attaching the metals 30 and 30a having the antenna patterns on both surfaces thereof to the carrier film 10 through a bonding process.

Meanwhile, another embodiment of the present invention manufactures an antenna using a conductive plastic.

Another embodiment of the present invention is a method of manufacturing an antenna using a conductive plastic, it characterized in that to form an antenna including an antenna pattern using a conductive plastic by double injection or insert injection of the conductive plastic.

5 is a view showing an antenna structure using a conductive plastic.

According to the manufacturing method according to the present invention, the base mechanism 51 capable of forming the conductive plastic material 40 as the antenna radiator 41 by using a double injection or insert injection process, and combining it with the terminal using the non-conductive plastic material 50. Has an antenna structure formed of

1 is a view showing an antenna structure using a conductive film prepared by the method for manufacturing an antenna using the conductive material of the present invention.

2 and 3 is a view showing another embodiment of the antenna using the conductive film of the present invention.

Figure 4 is a view showing the antenna structure using a metal produced by the antenna manufacturing method using a conductive material of the present invention.

5 is a view showing an antenna structure manufactured by an antenna manufacturing method using a conductive plastic material.

Claims (8)

And a method of manufacturing an antenna using a conductive material, comprising the step of forming an antenna sheet by forming a conductive film having an antenna pattern formed on at least one surface of a carrier film by extrusion or rolling. The method of claim 1, further comprising forming an antenna sheet by forming a conductive film having an antenna pattern formed on the opposite side of the carrier film through an extrusion or rolling process. The antenna sheet is formed by stacking conductive films by repeating one or more steps of forming a conductive film having an antenna pattern through an extrusion or rolling process on one side or the opposite side of the carrier film. An antenna manufacturing method using a conductive material, characterized in that. Conductive plastic material and non-conductive plastic material by double injection or insert injection to form a conductive plastic material as an antenna radiator, and an antenna formed by a base mechanism that can combine the non-conductive plastic material with a terminal conductive Antenna manufacturing method using the material. The method of manufacturing an antenna using a conductive material, characterized in that the metal formed with an antenna pattern is attached to one or both sides of the carrier film through a bonding process to form an antenna sheet in the form of a film. An antenna using a conductive material, characterized in that the antenna sheet formed with a conductive film layer is formed on one side or both sides of the carrier film surface through the extrusion or rolling process formed with at least one antenna pattern. An antenna using a conductive material, characterized in that the conductive plastic is made of a film sheet antenna sheet is formed through the double injection or insert injection process. An antenna using a conductive material, characterized in that made of an antenna sheet in the form of a film with a metal attached to the antenna pattern attached to one side or both sides of the carrier film through a bonding process.

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