KR100892305B1 - Antenna and its manufacturing method for handheld device - Google Patents

Abstract

An antenna for a portable terminal and a manufacturing method thereof are provided to reduce a manufacturing cost by integrally injection-molding an antenna radiator and a plastic supporting body. An antenna radiator(10) is made of a metal plate, includes at least one or more solder pad(20), is mounted on a substrate into a SMT(Surface Mounted Technology) method, and is inserted inside a mold for injection-molding a plastic supporting body(50). A molten plastic material is injected inside the mold. The plastic supporting body is integrally formed with the antenna radiator. At least one or more fixing leg is formed in an inner side of a bottom of the plastic supporting body corresponding to the solder pad of the antenna radiator. The fixing leg disperses an inner shock and an outer shock supplied to the solder pad of the antenna radiator.

Description

Antenna manufacturing method and antenna for mobile terminal manufactured by the same {Antenna and its manufacturing method for handheld device}

The present invention relates to an antenna manufacturing method and an antenna for a portable terminal manufactured by the same, and more particularly, to an antenna manufacturing method which can reduce the process time or cost required for mounting to a substrate by combining the antenna and its support structure and It relates to a portable terminal antenna manufactured thereby.

In general, external antennas such as load antennas and helical antennas, which are mounted on mobile communication terminals such as GPS, PDA, cellular phones, and wireless notebooks, protrude to the outside of the terminal by a certain length, so there is a limit to miniaturization of mobile communication terminals. And portability deteriorates.

In contrast, an internal antenna mounted inside a mobile communication terminal such as a surface mounted chip antenna has a relatively low risk of damage compared to an external antenna.

Conventionally, the internal antenna used for the portable terminal is mounted on the substrate by integrating the metal constituting the antenna radiator and the plastic injection material, which is a support, and assembling the same.

However, in the conventional built-in antenna as described above, the process of assembling the antenna radiator and the plastic injection molding is performed by human hands in the process of fabricating the antenna, and the plastic injection molding is deformed by applying high temperature in the heat fusion process after assembly. There is a possibility that the defect rate of the completed antenna is high accordingly.

Accordingly, the present invention proposes an antenna manufacturing method and a portable terminal antenna manufactured by the antenna manufacturing method to compensate for this problem to lower the defective rate and to enable mass production.

More specifically, the method for manufacturing an antenna for a portable terminal according to an embodiment of the present invention comprises the steps of forming an antenna radiator from a metal plate; Inserting the formed antenna radiator into a mold for injecting the plastic support; And injecting molten plastic material into the mold to form a plastic support integrally coupled with the antenna radiator, wherein forming the plastic support comprises: distributing an impact from the inside and the outside to the antenna radiator. Forming an antenna by inserting the antenna radiator together into a mold when the plastic support is injected, including forming at least one fixing foot protruding into the bottom surface of the plastic support at the position where the solder pad is formed to increase the defective rate. It is possible to manufacture the antenna for the portable terminal by a simple method in a relatively short time, eliminating the assembly and heat welding process.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a plan view showing an antenna for a portable terminal according to an embodiment of the present invention.

In the antenna 100 for a portable terminal according to an embodiment of the present invention, as shown in FIG. 1, an antenna radiator 10 and an antenna radiator 10 for transmitting and receiving wireless data signals are supported and fixed to a substrate of the mobile terminal. It comprises a plastic support 50 to be mounted and the antenna radiator 10 and the plastic support 50 is molded together in a mold to manufacture a single piece.

The antenna radiator 10 according to an embodiment of the present invention is provided with at least one solder pad 20 to be integrally formed with the plastic support 50 and then coupled to a surface mounted type (SMT) on a substrate. In addition, an adhesive hole may be further formed in the solder pad 20 so that the antenna radiator 10 may be fixed in the mold.

The antenna radiator 10 is three-dimensionally formed so that a metal plate surrounds a portion of the upper and side surfaces of the plastic support 50 having a rectangular parallelepiped shape. A plurality of fixing holes 15a and 15b are formed on a surface of the antenna radiator 10 that is in contact with the top surface of the plastic support 50. The portion 15b of the fixing hole may fix the antenna radiator 10 so that the antenna radiator 10 is not twisted or moved due to the molding pressure when the antenna radiator 10 and the plastic support 50 are integrally molded in a mold. The fixing hole (for example, 15a) not only fixes the antenna radiator but also the plastic molten resin injected finely flows toward the antenna radiator to fill the space of the fixing hole so that the plastic support 50 and the antenna radiator 10 can be further secured. Make sure they are firmly coupled.

In this case, as the metal material for forming the antenna radiator 10, silver (Ag), nickel (Ni), or copper (Cu) having high conductivity may be used, and at least one or more of the above metal materials may be used as the main material. It may be an alloy material.

In the antenna for a portable terminal according to an embodiment of the present invention, the plastic support 50 is preferably formed of an engineering plastic material, the engineering plastic material is used for industrial applications such as mechanical parts, automotive parts, electrical and electronic parts, etc. Plastic materials used in the present invention include polyamide (PA), polyacetal (POM), polycarbonate (PC), modified polyoxide (M-PRO), polybutylene terephthalate (PBT), and the like. Can be used in the examples, and optionally polyimide (PI), polyphenylene sulfide (PPS), polyamideimide (PAI), polyetherimide (PEI), polyetherketone (PEK), liquid crystalline polyester (LCP) And the like can be used. However, the plastic material forming the plastic support 50 according to the embodiment of the present invention is not limited to the above-described plastic material and can be easily transformed by the producer.

2 is a rear view showing an antenna for a portable terminal according to an embodiment of the present invention, Figure 2 (a) is a rear view showing the antenna according to an embodiment of the present invention, Figure 2 (b) Is a rear perspective view of the antenna according to an embodiment of the present invention.

The antenna 100 for a portable terminal according to an embodiment of the present invention has a structure in which an antenna radiator 10 is located on an outer surface thereof and a plastic support 50 is disposed therein, and the plastic support 50 is illustrated in FIG. At least one fixing foot 60, 60 'protrudes inwardly of the bottom surface as shown in FIG. The fixing feet 60 and 60 'are subjected to excessive load on the solder pad 20 of the antenna 100 when warping occurs due to an impact or molding pressure from the outside, and accordingly the antenna radiator 10 and the plastic support In order to prevent the 50 from being separated, it is formed to protrude to the inside of the antenna at the position where the solder pad 20 protruding out of the antenna 100 is formed, so that the load imposed on the solder pad 20 is fixed. Disperse through feet (60. 60 ').

In addition, at least one fixing groove 53 may be formed to prevent the antenna radiator 10 or the plastic support 50 from being deformed by the molding pressure when molded into a mold in a mold. Any holes that are shaped by can be formed together.

The fixing feet 60 and 60 'may be formed in an arrow shape as shown in FIG. 2, but is not limited thereto. The shape of the fixing groove 53 may be arbitrarily made by a producer in addition to the wedge shape.

In addition, the plastic support and the antenna radiator, as shown in Fig. 2 (b), the separation of the antenna radiator is formed to cover the side of the plastic support is formed so that the plastic support part covers the radiator at each point where the solder pad is formed To prevent it.

3 is a side perspective view showing an antenna for a portable terminal according to an embodiment of the present invention.

In the antenna for a portable terminal according to an embodiment of the present invention, as shown in FIGS. 1 to 3, the solder pad 20 is bonded to the substrate 150 of the portable terminal so that the antenna 100 may be fixedly mounted. Make sure At this time, the plastic support 50 of the antenna is formed together with the fixing projections 70 protruding to a predetermined size on the surface facing the substrate 150, the substrate 150 to be mounted is engaged with the fixing projections 70 The groove 155 may be formed. In this case, since the fixing protrusion 70 is fixed by being inserted into the groove 155 of the substrate in the process of mounting the antenna 100 on the substrate 150, it may be mistaken or handled in the mounting process. Inadvertent movement of the antenna 100 can be prevented.

In addition, as described above, the solder pads 20 may have adhesive holes 23 formed in each or a part to increase solderability, and at one end, grooves 27 of any shape may be used to increase bonding strength with the substrate during soldering. This can be formed.

4 is a diagram illustrating a method of manufacturing an antenna for a portable terminal according to an embodiment of the present invention.

First, a metal plate 10 for use as an antenna radiator is formed. The metal plate is preferably made by a press method, but is not limited thereto. In some cases, the metal plate may also be manufactured through a film forming process such as a sputtering process.

Next, the formed metal plate 10 is placed in a mold 200 for molding the plastic support 50. At this time, the metal plate 10 is fitted to the fast pin that is inserted into the installation from the outside of the mold 200 is fixed to a predetermined position in the mold 200 is installed.

When the metal plate 10 is fixed in the mold 200, an injection molding process proceeds, and the injection molding process proceeds in the order of closing the mold-> injection-> holding pressure-> cooling-> opening the mold. It can be repeated to manufacture the integrated antenna continuously.

The injection molding machine may be divided into a mold opening and closing part and an injection part, and the mold part is responsible for opening and closing of the mold 200, and the injection part is heated and melted to inject the plastic resin material into the mold 200.

The mold 200 is a metal mold for making a plastic resin material into a predetermined shape, and a plurality of holes such as a cooling hole for circulating a medium for controlling the mold temperature (for example, hot water or oil), a hole equipped with a heater, and the like. Is formed and temperature management is performed through this.

The molten plastic resin material 90 is injected into the mold 200 through a spool and passes through a runner 230 and a gate to fill a cavity which is a molding space. Next, after the cooling process, the mold is opened to take out the molded product.

In more detail, when the mold 200 is closed, the mold 200 includes at least two or more templates, for example, an upper plate 210 and a lower plate 220, which form a cavity therein, and the upper plate 210 and The metal plate 10 is fixed to a predetermined position inside the lower plate 220. At this time, the injection portion heats the plastic resin material to be molded into a molten state. Next, when the upper plate 210 and the lower plate 220 are engaged with each other and closed, the molten plastic resin 90 is injected into one surface of the metal plate 10 through the spool and the runner 230. After the injected molten plastic resin 90 completely fills the cavity, the upper plate 210 and the lower plate 220 are separated again after a cooling process for a predetermined period, and the portable terminal according to the embodiment of the present invention is used. The antenna 100 can be taken out.

In this case, the fixing hole formed in the metal plate 10 may be formed at a position extending in parallel to the gate to serve as a runner for guiding the plastic molten resin 90 introduced into the cavity through the gate during injection.

The antenna for a mobile terminal according to an embodiment of the present invention is manufactured as described above, and is simply made of a process of forming a metal plate for use as an antenna radiator and a process of molding a plastic support, so that a finished antenna can be manufactured. Reduction and mass production by process automation is possible.

On the other hand, the antenna for a portable terminal according to an embodiment of the present invention can be actually implemented as follows.

5 is a diagram showing an actual implementation of an antenna for a portable terminal according to an embodiment of the present invention, Figure 5 (a) is shown one side of the antenna for a portable terminal actually implemented according to an embodiment of the present invention 5 (b) is a perspective view showing the other side of the antenna for the portable terminal.

 An antenna for a mobile terminal according to an embodiment of the present invention may be implemented as shown in FIG. 5, and is bonded to the plastic support 50 and the plastic support 50 having a rectangular parallelepiped shape as described above. It is composed of a metal plate 10 that surrounds a portion of the top and side of the 50 and serves as an antenna radiator. The metal plate 10 includes a plurality of solder pads 20 protruding outward from the bottom surface of the plastic support 50 and provided with conductive electrode pads at positions corresponding to each other of the solder pad 20 and the substrate. By attaching to the antenna 100 according to an embodiment of the present invention to be mounted on the substrate in the SMT method.

A plurality of fixing holes 15 are formed on the upper surface of the metal plate 10, and the plastic molten resin injected into the mold to prevent the metal plate 10 from moving or deforming in the mold is formed in the fixing hole 15. As the plastic support 50 is formed while filling the space, the bonding force between the metal plate 10 and the plastic support 50 can be increased.

In addition, as shown in FIG. 5 (b), some or all of the solder pads 20 are provided with adhesive holes 23 having a predetermined size, while maintaining the shape of the solder pads 20 in the mold. When mounting the finished antenna according to an embodiment of the invention on the substrate to increase the solderability of the solder pad 20 to be more strongly bonded to the substrate.

6 is a rear view showing an antenna actually implemented according to an embodiment of the present invention.

In the antenna according to an embodiment of the present invention, the plastic support 50 which is injection molded together with the antenna radiator of metal has a back structure as shown in FIG. That is, the plastic support 50 includes at least one fixing groove 53 and a hole 55 at the bottom and the inside thereof, and the hole 55 is formed by molding pressure or the like during molding of the plastic support 50. It is to prevent the shape deformation and to fix the position of the molding, it may be formed by a fixing pin provided at a position corresponding to the hole 55 in the mold.

The fixing groove 53 is to be able to fix the shape or position of the plastic support 50 similar to the hole 55 may be formed at least one or more on the bottom edge of the plastic support 50, It may be formed by a protrusion provided on the inner surface to correspond to the groove 53. That is, in the antenna for a portable terminal according to an embodiment of the present invention, at least one fixing groove or hole is formed in the plastic support as described above, so that the shape thereof can be maintained intact even at the molding pressure during injection molding. Can be reduced.

The plastic support 50 may include at least one or more fixing protrusions 70 protruding to a predetermined size on a support member provided on the inner side of the rear surface, and the fixing protrusions 70 may be at least one embodiment of the present invention. When the antenna is mounted on the substrate, the antenna is inserted into the groove formed in the substrate to facilitate the assembly of the antenna and to be more firmly fixed, thereby preventing the antenna from being separated from external impact.

On the other hand, in the antenna for a mobile terminal according to an embodiment of the present invention made as described above, the mold of the plastic support may be made as follows.

7 is a perspective view showing a mold structure for manufacturing an antenna for a portable terminal according to an embodiment of the present invention, Figure 7 (a) is a perspective view showing the overall structure of the mold, Figure 7 (b) is Some of these are enlarged views.

Antenna 100 according to an embodiment of the present invention may be molded through a mold 200 having a structure as shown in Figure 7, the mold 200 is closed, the upper mold to form a cavity (cavity) inside It includes a plate and a lower plate, it may include a top plate structure and base plate connected to the lower plate to be connected to the upper plate to enable the upper plate to move up and down. In addition, the ejector plate disposed on the lower side of the lower plate comprises a plurality of ejector pins and return pins that can penetrate through the lower plate to the upper surface during the upward movement and the ejector pins and return pins are installed to move up and down It may include. The return pin may have a spring coupled to support the ejector plate upwardly and may include a knockout pin for pushing the ejector plate upward.

Therefore, in the method of manufacturing an antenna for a portable terminal according to an embodiment of the present invention, the mold operates as follows. First, the cavity opens the upper and lower mold plates of the mold having the plastic support molding shape, and then the antenna radiator. The metal plate to function is placed and fixed to the metal plate fixing pin provided in the upper and lower die plates.

After the top plate and the bottom plate are closed, the molten plastic resin is injected into the cavity through the spool and the runner, and the plastic support is molded and the metal plates are joined together. When the injection of the molten plastic resin is completed, the upper and lower plates are cooled for a predetermined time through a cooling hole provided in the mold to solidify the injected plastic resin in a solid state.

After a certain time, when the injected plastic resin is completely solidified, the upper plate and the lower plate are separated again, and when the knockout pin of the base plate moves upward, the entire ejector plate including the ejector pin and the return pin is lifted upward. At this time, the ejector plate is lifted and the ejector pin is inserted into the pin hole provided in the lower plate, and the ejector pin penetrates the pin hole to push out the completed antenna mounted on the lower plate. At this time, the return pin guides the vertical movement of the ejector pin, and the spring coupled to the return pin is compressed together as the ejector plate is lifted, and then returns the elastic restoring force to the ejector plate so that the ejector plate can be returned to its original position.

As described above, the antenna for a portable terminal and a method of manufacturing the same according to the present invention have been described with reference to the illustrated drawings, but the present invention is not limited to the embodiments and drawings disclosed herein, and the antenna radiator and the plastic support are integrally integrated at once. It is apparent that the technical idea of the present invention, which can be molded to reduce the antenna manufacturing cost and improve the defective rate, can be easily applied by those skilled in the art within a protected range.

1 is a plan view showing an antenna for a portable terminal according to an embodiment of the present invention,

2 is a rear view showing an antenna for a portable terminal according to an embodiment of the present invention;

3 is a side perspective view showing an antenna for a portable terminal according to an embodiment of the present invention;

4 is a view illustrating a method of manufacturing an antenna for a portable terminal according to an embodiment of the present invention;

5 is a perspective view showing an actual implementation of an antenna for a portable terminal according to an embodiment of the present invention;

6 is a rear view showing an actual implementation of an antenna for a portable terminal according to an embodiment of the present invention;

7 is a perspective view showing a structure of a mold for manufacturing an antenna for a portable terminal according to an embodiment of the present invention.

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

100: antenna for mobile terminal 200: mold

10: antenna radiator 20: soldering pad

50: plastic support 60, 60 ': fixed foot

70: fixing protrusion 150: substrate

Claims (10)

Forming an antenna radiator from a metal plate including at least one solder pad for mounting on a substrate in a surface mounted type (SMT); Inserting the antenna radiator into a mold for injecting a plastic support; And Injecting molten plastic material into the mold to form the plastic support integrally coupled with the antenna radiator Wherein the forming of the plastic support comprises: forming at least one fixing foot protruding into the bottom surface of the plastic support at the position where the solder pad is formed on the antenna radiator to disperse the impact from the inside and the outside; Method of manufacturing an antenna for a mobile terminal comprising the step. The method of claim 1, The metal plate is a method of manufacturing an antenna for a portable terminal made of at least one of silver (Ag), nickel (Ni), copper (Cu). The method of claim 1, The forming of the antenna radiator may include forming at least one adhesive hole in the metal plate to increase bonding strength with the plastic material. The method of claim 1, The forming of the antenna radiator may include forming at least one fixing hole in the metal plate such that the metal plate is fixed in the mold. The method of claim 1, And inserting the antenna radiator into a mold such that the antenna radiator is covered on a part of the top and side surfaces of the plastic support. The method of claim 5, wherein The soldering pad is formed in a shape protruding to the outside of the antenna for the portable terminal, a method for manufacturing a portable terminal antenna is formed. delete The method of claim 1, Forming the plastic support comprises a step of forming a fixing protrusion for inserting the hole in the substrate in the lower portion of the plastic support so that the antenna for the portable terminal fixedly mounted on the substrate. The method of claim 1, And forming the plastic support comprises covering the plastic support with a portion of a surface of the antenna radiator to prevent the antenna radiator and the plastic support from being separated from an external impact. delete

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