KR200279483Y1 - An antenna having a different kind of materials for plating - Google Patents

Abstract

The present invention relates to an antenna for a wireless communication terminal, and in particular, a heterogeneous antenna which is configured so that the plated part operates as a radiation element by double-injection after plating by using a heterogeneous material having different properties for plating. It relates to an antenna using a material.

The antenna structure according to the prior art forms a spiral groove on the outside of the insulator material, plated the entire insulator material, undergoes a cutting process to remove a metal layer applied to a portion other than the spiral groove, and then performs external molding. As a method of constructing an antenna, such a structure requires a complicated cutting process to remove the metal layer, thereby lowering productivity.

In order to solve the problems of the prior art, the antenna according to the present invention is to construct an antenna by using two materials having different properties for plating, and to use a material that can be plated, but the plated metal layer operates as a radiation element. 1 material; Using a material that is not plated, and having a second material that is double-injected with the first material; Fixing means provided at a lower portion of the first material to electrically maintain the contact point and to fix the terminal; It is configured to include; an outer cover for protecting the first material and the second material.

Therefore, the antenna according to the present invention has the effect of simplifying the manufacturing process by double injection after plating using a heterogeneous material having different properties for plating, thereby improving productivity, and the pitch of the metal layer to be plated according to the shape of the injection mold. Since it can be formed in various ways, there is an effect of improving the accuracy and precision in configuring the antenna.

Description

An antenna having a different kind of materials for plating}

The present invention relates to an antenna for a wireless communication terminal, and in particular, a heterogeneous antenna which is configured so that the plated part operates as a radiation element by double-injection after plating by using a heterogeneous material having different properties for plating. It relates to an antenna using a material.

The antenna structure according to the prior art forms a spiral groove on the outside of the insulator material, plated the entire insulator material, undergoes a cutting process to remove a metal layer applied to a portion other than the spiral groove, and then performs external molding. As a method of constructing an antenna, such a structure requires a complicated cutting process to remove the metal layer, thereby lowering productivity.

Looking at the prior art as described above with reference to the drawings, Figure 1a is a cross-sectional view showing a helical antenna structure of the prior art, by processing the groove 101 in the bobbin 102 by inserting the coil in a screw-fitting method and then the cover injection This method has the advantage that the characteristics of the coil do not change by injection, but when the coil is a double pitch (pitch) the machining of the groove 101 in the bobbin 102 is complicated and the problem that productivity is low have.

FIG. 1B is a view illustrating another conventional helical antenna structure, as shown in FIG. 1B, a spiral groove 104 is formed outside the insulator material 103, and the entire insulator material 103 is plated. After the cutting process to remove the metal layer plated in the portion other than the spiral groove 104, the outer cover 105 is ejected to configure the antenna, which is a complex cutting process to remove the metal layer Since there is a need to decrease productivity.

The present invention has been made in order to solve the above-mentioned conventional problems, it is intended to improve the productivity by simplifying the manufacturing process by double-injection after plating using a heterogeneous material having different properties for plating.

1A is a cross-sectional view showing a helical antenna structure of the prior art.

1B illustrates another prior art helical antenna structure.

Figure 2a is a cross-sectional view showing an embodiment of the antenna manufacturing process using a different material according to the present invention.

2b is a perspective view of the antenna of FIG. 2a;

FIG. 2C is a cross-sectional view of the antenna mold of FIG. 2A. FIG.

Figure 3a is a cross-sectional view showing another embodiment of the antenna manufacturing process using a different material according to the present invention.

3B is a perspective view of the antenna of FIG. 3A.

3C is a cross-sectional view of the antenna mold of FIG. 3A.

※ Explanation of code for main part of drawing

101, 104.Home 102. Bobbin

103. Insulator material 105, 205, 305. Outer cover

201, 301. First material 202, 302. Second material

203, 303. Plating parts 204, 304. Fastening means

211, 311. Mold 212, 312. Uneven portion

213, 313. Injection liquid injection port

In order to solve the problems of the prior art, the antenna according to the present invention is to construct an antenna by using two materials having different properties for plating, and to use a material that can be plated, but the plated metal layer operates as a radiation element. 1 material; Using a material that is not plated, and having a second material that is double-injected with the first material; Fixing means provided at a lower portion of the first material to electrically maintain the contact point and to fix the terminal; It is configured to include; an outer cover for protecting the first material and the second material.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Figure 2a is a cross-sectional view showing an embodiment of the antenna manufacturing process using a different material according to the present invention.

The antenna according to the present invention is manufactured by using a material having a different property for plating, and in a preferred embodiment, first, the first material 201 that can be plated is cylindrically injected, and the first material 201 is manufactured. After fixing to a mold 211 having a predetermined shape, the plating is performed by injecting and plating the second material 202 that is not plated, and the second material 202 fills the uneven parts 212 of the mold and is formed like a spiral strip. Since it is injected onto the first material 201, the plated metal layer is formed on the first material 201 along a predetermined groove formed between the helical bands during plating to configure the antenna.

FIG. 2B is a perspective view of the antenna of FIG. 2A, in which a plating part 203 plated on the first material 201 operates as a radiation element of the antenna, and a fixing means 204 is provided at a lower portion thereof to fix the terminal. In addition, it is configured to include an outer cover 205 to protect the plating from being peeled off. At this time, since the first material 201 that can be plated is first injected, the bottom surface is also plated together to make an electrical connection when connected to the fixing means 204.

As shown in FIG. 2C, the mold 211 is provided with a concave-convex portion 212 having a predetermined shape, and the first material 201 having a cylindrical shape is located along a central axis, and thus the second through the injection liquid inlet 213. When the injection liquid of the material 202 is injected, the uneven part 212 is filled and injected onto the first material 201. At this time, since the uneven portion 212 of the mold 211 is easily deformed in various forms, the accuracy and precision in the configuration of the antenna, such as a double pitch is improved.

Figure 3a is a cross-sectional view showing another embodiment of the antenna manufacturing process using a different material according to the present invention. As shown in the drawing, the antenna according to the present invention first ejects the second material 302 which is not plated into a cylindrical shape, and fixes the second material 302 to a mold 311 having a predetermined shape, and then the plating is possible. The first material 301 is plated by injecting the first material 301, and the first material 301 fills the uneven parts 312 of the mold, and is injected onto the second material 302 as a spiral strip. It is preferable to configure the antenna by forming a plated metal layer along the strip of material 301.

3B is a perspective view of the antenna of FIG. 3A, in which a plating part 303 plated on the first material 301 operates as a radiating element of the antenna, and a fixing means 304 is provided at a lower portion thereof to fix the terminal. In addition, it is configured to include an outer cover 305 to protect the plating from being peeled off. At this time, since the second material 302 which is not plated is injected first, the bottom surface is not plated so that a signal is transmitted by capacitive coupling when connected to the fixing means 304.

As shown in FIG. 3C, the mold 311 includes a concave-convex portion 312 having a predetermined shape, and the second material 302 having a cylindrical shape is located along a central axis, and thus, the first injection hole 313 may be used. When the injection liquid of the material 301 is injected, the uneven portion 312 is filled and injected onto the second material 302. At this time, since the uneven portion 312 of the mold 311 is easily deformed in various forms, the accuracy and precision in the configuration of the antenna, such as a double pitch is improved.

In the present invention, the first material and the second material has different properties with respect to plating, and in the most preferred embodiment, the present invention uses ABS for the first material which can be plated, and the plating is impossible. PC was used as a 2nd material.

Here, the ABS is a kind of plastic, a thermoplastic resin made from three monomers of acrylonitrile, butadiene, and styrene. It is a material widely used to materials, and the PC (Poly Carbonate) is a new material developed by General Electric Co., Ltd. of America as a glass supplement material, and has advantages such as excellent impact resistance and light weight.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and various substitutions, modifications, and changes are possible within the scope without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

As described above, the antenna according to the present invention has an effect of simplifying the manufacturing process by double-injecting after plating using a heterogeneous material having different properties for plating, thereby improving productivity, and a metal layer plated according to the shape of the injection mold. Since the pitch can be formed in various ways, there is an effect of improving accuracy and precision in configuring the antenna.

Claims (3)

The antenna is composed of two materials with different plating properties. The first material using a material capable of plating, the plated metal layer acts as a radiation element; And Using a material that is not plated, and a second material that is double-injected with the first material; and Fixing means provided at a lower portion of the first material to electrically maintain the contact point and to fix the terminal; And an outer cover to protect the first material and the second material. The method of claim 1, An antenna using a heterogeneous material, characterized in that ABS is used as the first material capable of plating. The method of claim 1, An antenna using a heterogeneous material, characterized in that the use of a PC as the second material that is impossible to plating.