KR100932079B1 - An antenna module and its manufacturing method - Google Patents

Abstract

PURPOSE: An insert antenna module for a portable terminal and a manufacturing method thereof are provided to be applied to a portable terminal with various curved surfaces by forming an antenna radiator made of conductive metal material. CONSTITUTION: An insert antenna module for a portable terminal includes an antenna radiator(210) and a radiator cover. The antenna radiator is cut and bended along an antenna pattern. The antenna radiator is made of the conductive metal material and is formed in an outer surface of the antenna module by the insert injection molding. A connection terminal(211) is formed in the antenna radiator and is connected to the internal circuit of the portable terminal. The thickness of the antenna radiator is 0.5 mm. The radiator cover is formed in the outer surface of the antenna radiator to protect the antenna radiator.

Description

Insert antenna module for portable terminal and its manufacturing method {An antenna module and its manufacturing method}

The present invention relates to an insert antenna module for a mobile terminal and a method of manufacturing the same. More particularly, in the manufacture of the antenna module, the antenna radiator is formed of a conductive metal to enable formation of two or more curved surfaces, and is formed on the outer surface of the antenna module. It is intended to facilitate the production of the antenna module by insert molding integrally and to improve the durability of the antenna module.

In general, an antenna module used in a mobile terminal requiring wireless transmission and reception, such as a mobile phone and a PDA, radiates radio waves into the air and receives radio waves in the air for smooth wireless transmission and reception.

The antenna module of the portable terminal as described above was implemented to protrude in the shape of a bar on the outer surface of the body of the portable terminal, but there was a problem that it is easily damaged due to aesthetic degradation due to the external protrusion and external collision in the use process.

Therefore, a case-type antenna module having a built-in antenna module and a case-type antenna module mounted inside the case and folded or provided separately has been developed and used.

As described above, the antenna module of the portable terminal is configured by injection molding the module body and combining the antenna radiator from the injection molded module body.

Here, the coupling of the antenna radiator is injection molding by forming a binding protrusion in the module body, and forming a binding hole corresponding to the binding protrusion in the antenna radiator, and then binding the protrusion of the module body protruding through the binding hole of the antenna radiator. The antenna radiator was coupled to the module body by heat fusion using a soldering iron or the like.

On the other hand, Korean Patent Publication No. 2007-44140 discloses that an antenna radiator is formed on a substrate, the substrate is coupled to the antenna housing, and then the antenna housing is insert molded on the plane of the electronic device housing so that the antenna can be embedded. have.

However, the antenna module of the conventional portable terminal as described above is composed of the coupling projection of the module body through the heating fusion through the coupling hole of the coupling of the antenna radiator, the aesthetics of the antenna module due to the exposed antenna radiator There was a problem of deterioration.

In addition, the fabrication process is performed by assembling the antenna module to the injection molded module body and heat-bonding the binding protrusion with the iron. The antenna radiation body, which is sensitive to its performance, is deformed according to the pattern shape. In the process of work, the antenna radiator is exposed to the base and corrosion damage occurs, and the coupling is a structure in which the antenna radiator is simply combined, so that its durability is weak.

In addition, in the case of Publication No. 2007-44140, the substrate is formed by printing an antenna radiator on a substrate or by attaching a film on which the antenna radiator is formed, and inserting the substrate into a flat portion of the housing of the electronic device. Since the shape is limited to a flat plate type, there is a problem in that it is not easy to apply to previous devices such as portable terminals having various curved surfaces.

Accordingly, the present invention improves the problem of low productivity and low durability due to the deterioration of aesthetics and complexity of the conventional antenna module as described above, and a problem in that it is not easy to apply to a portable terminal in which various curved surfaces of two or more axes are formed. It is to be done.

That is, in the manufacture of the antenna module, the antenna radiator is formed of a conductive metal body capable of forming two or more curved surfaces, and the antenna radiator is manufactured by insert molding the antenna radiator to be integrated with the outer surface of the antenna module.

Therefore, in the manufacture of the antenna module, the antenna radiator may be formed of a conductive metal to form a curved surface of two or more axes, which may be applied to a housing of an electronic device having two or more curved surfaces. By manufacturing by injection molding, the antenna radiator is formed in the insert state to the antenna module to improve the durability of the antenna module.

Hereinafter, described in detail by the accompanying drawings as follows.

The present invention is to insert injection molding the antenna radiator to improve the manufacturing, productivity and durability.

That is, the present invention is a method of manufacturing an antenna module for use in portable terminals such as mobile phones and PDAs, as shown in Figure 1, is cut and bent according to the antenna pattern is made of a conductive metal body having a curved surface of two or more axes Synthetic resin after supporting and coupling the antenna radiator 210 made of a connection terminal connected to the internal circuit of the mobile terminal to be seated on the bottom surface of the base mold 310 formed of the base mold 310 and the cover mold 320 By implanting the antenna radiator 210 is integrally inserted into the outer surface of the antenna module, and manufactured by forming the connection terminal connected to the internal circuit of the portable terminal in an exposed state.

Here, the antenna radiator 210 is formed in the base mold 310, the radiator receiving groove 311 to accommodate the antenna radiator 210 in the same plane as the bottom surface to prevent deformation by the resin introduced in the insert molding process. It can be done by.

In addition, the antenna radiator 210 coupled to the radiator receiving groove 311 of the base mold 310 is not lifted on either side of the antenna radiator 210 and the cover mold 320. It can be carried out by forming a support protrusion 410 to support not to protrude.

On the other hand, in the practice of the present invention, as shown in Figure 2 to the base mold 310 and the cover mold 320 to protect the antenna radiator 210 inserted into the outer surface of the antenna module 110 The antenna radiator 210 is coupled to the bottom surface of the base mold 310 of the forming mold to be seated, and then the injection molding is performed by inserting the synthetic resin into the antenna module 110 to expose the antenna radiator 210 of the antenna module. The outer cover 120 is formed on the outer surface.

The radiator cover 120 may be implemented by selecting any one of the same shape as that of the antenna module 110 and the case of the portable terminal.

Meanwhile, as described above, the insert antenna module according to the present invention, in which the antenna radiator 210 is inserted, is cut and bent according to the antenna pattern, and the antenna radiator 210 made of a conductive metal having two or more curved surfaces is made of synthetic resin. It is made of an insert integrally formed on the outer surface of the antenna module 110 and exposed to the connection terminal 211 is connected to the internal circuit of the portable terminal inside the antenna module 110.

In addition, the antenna radiator 210 is integrally inserted into the outer surface of the antenna module 110 may be provided with a radiator cover portion 120 to protect the antenna radiator 210.

In addition, the radiator cover part 120 may be performed by injection molding integrally on the outer surface of the antenna radiator 210 in a state in which the antenna module 110 in which the antenna radiator 210 is integrally inserted is inserted into a molding die. It is.

On the other hand, the radiator cover 120 may be configured by selecting any one formed of the same shape as the antenna radiator 210 and made of a case of the portable terminal.

In addition, the antenna radiator is formed in 0.5mm, the thickness including the antenna module is formed within 1mm, the thickness including the radiator cover portion is formed within 1.5mm and can be applied to a mobile terminal having a thin film thickness.

Hereinafter, the manufacturing process of the present invention will be described.

In the manufacturing method of the antenna module as described above, the base mold of the molding mold is formed by cutting and bending according to the antenna pattern and having an antenna radiator 210 made of a conductive metal having a curved surface of at least two axes. The antenna radiator 210 is manufactured in a state of being integrally inserted into the outer surface of the antenna module by injecting a synthetic resin after supporting and bonding to be seated on the bottom, and is formed by cutting and bending according to the antenna pattern and having a curved surface having two or more axes. The antenna radiator 210 made of a sieve is made of synthetic resin, and is formed integrally with an outer surface of the antenna module 110, and has an exposed connection terminal 211 connected to an internal circuit of a mobile terminal inside the antenna module 110. The manufacture of the present invention is to cut the antenna material made of a conductive metal plate according to the pattern according to the antenna design And the antenna radiator 210 according to the shape of the mobile terminal case having various curved surfaces of two or more axes by bending.

As described above, by injecting a synthetic resin in a state in which the antenna radiator 210 is coupled to the base mold 310 of the molding die, the antenna module 110 into which the antenna radiator 210 is inserted is manufactured.

In this case, when the antenna radiator 210 and the cover mold 320 are provided with the support protrusion 410 on one side, the antenna radiator 210 coupled to the molding mold is not deformed in the injection molding process. The front and back are formed in a constant thickness and maintained in the inserted state is made according to the design.

Therefore, the present invention can be applied to a portable terminal having various curved surfaces by forming the antenna radiator into a conductive metal body capable of forming various curved surfaces of two or more axes by cutting and bending.

In addition, since the antenna radiator is manufactured by insert injection molding, the antenna radiator is not exposed to the outer surface, thereby improving the aesthetics of the antenna module, and the antenna radiator is configured to accommodate the insert, thereby improving the durability of the antenna module and minimizing the manual work, thereby minimizing the production cost. It will be saved.

In addition, deformation of the bent portion of the antenna radiator of the bent portion according to the case shape of the portable terminal is prevented to ensure uniformity of antenna characteristics.

In addition, the antenna radiator is not exposed to the outer surface is not exposed to the base in the transport and manufacturing process to prevent corrosion damage.

1 is an exemplary manufacturing process showing an embodiment according to the present invention.

Figure 2 is an illustration of the manufacturing process showing that the radiator cover with another embodiment according to the present invention.

3 is an exemplary manufacturing process showing that the support projection on the antenna radiator according to another embodiment according to the present invention.

4 is an exemplary manufacturing process showing that the support mold is provided on the antenna radiator in the cover mold according to another embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

110: antenna module 120: radiator cover

210: antenna radiator 211: connection terminal

310: base mold 311: radiator receiving groove

320: cover mold

410: support protrusion

Claims (5)

A method of manufacturing an antenna module for use in a portable terminal; It is formed by cutting and bending according to the antenna pattern and made of a conductive metal body having two or more curved surfaces. The antenna radiator is integrally inserted into the outer surface of the antenna module and molded with the connection terminal connected to the internal circuit of the portable terminal exposed by injecting a synthetic resin after supporting and coupling to be seated on the bottom surface. Insert injection molded by inserting the antenna module insert-molded into the base mold bottom of the base mold and the cover mold to protect the insert-shaped antenna radiator on the outer surface of the antenna module, and then inserting the synthetic resin The method of manufacturing an insert antenna module for a portable terminal, characterized in that the forming by forming a radiator cover on the outer surface of the antenna radiator exposed side of the antenna module by molding. The method of claim 1; The antenna radiator forms a radiator receiving groove in the base mold to accommodate the antenna radiator on the same surface as the bottom surface to prevent deformation due to the resin introduced during the insert molding process. Any one of the antenna radiator and the cover mold is a method of manufacturing an insert antenna module for a portable terminal, characterized in that the projecting protrusions for supporting the antenna radiator coupled to the radiator receiving groove so as not to lift. The method of claim 1 or 2; The radiator cover part manufacturing method of the insert antenna module for a portable terminal, characterized in that configured to select any one formed of the same shape as the antenna module and configured with a case of the portable terminal. By the manufacturing method according to claim 1, It is formed by cutting and bending processing according to the antenna pattern, made of a conductive metal body having two or more curved surfaces, and an antenna radiator 210 made of a synthetic resin integrally formed with a connection terminal 211 connected to an internal circuit of a mobile terminal. An insert is formed integrally with the outer surface of the antenna module and exposes the connection terminal 211 connected to the internal circuit of the mobile terminal inside the antenna module. An antenna module in which an antenna radiator is integrally inserted into an outer surface is provided with a radiator cover part for protecting the antenna radiator, wherein the radiator cover part is formed in the same shape as the antenna radiator and is configured as a case of a mobile terminal. Make up, The antenna radiator is 0.5mm, the thickness including the antenna module is formed within 1mm, the thickness including the radiator cover portion insert antenna module for a mobile terminal, characterized in that formed within 1.5mm. delete

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