KR20030084017A - A Fixing Structure Of Helical Antenna In Portable Terminal - Google Patents

Abstract

PURPOSE: A helical antenna of a portable terminal is provided to improve the reliability of a fixing structure of helical antenna by using a high frequency heating induction method or an ultrasonic welding method. CONSTITUTION: A helical antenna of a portable terminal includes a metallic connector(14), a dielectric(12), a helical coil(10), and an insulating cover(20). The dielectric(12) is formed at an upper side of the metallic connector(14). A corresponding helical coil(10) is inserted into the dielectric(12). The corresponding helical coil(10) is fixed to the dielectric(12) by using a high frequency heating induction method or an ultrasonic welding method. The insulating cover(20) is inserted into an upper portion of the metallic connector(14). The insulating cover(20) is fixed to the metallic connector(14) by using a high frequency heating induction method or an ultrasonic welding method.

Description

Helical Antenna of Portable Terminal {A Fixing Structure Of Helical Antenna In Portable Terminal}

The present invention relates to a helical antenna of a portable terminal that can be bonded and fixed in a helical coil using a dielectric regardless of a frequency band, and more specifically, to a helical coil according to a frequency band. Even if the mold of the dielectric is not manufactured separately, the helical coil is directly inserted into the dielectric or the dielectric is omitted, and the helical coil is bonded to the metal connector together with the insulation cover by high frequency heating or ultrasonic welding. The present invention relates to a helical antenna of a portable terminal capable of improving the reliability even without the need for manufacturing a mold according to a shape.

With the rapid development of analog and digital communication technology in the world, various kinds of mobile communication services such as cellular, PCS, GSM, PHS, and Iridium services using satellites are being implemented.In Korea, cellular, PCS, CT-2, etc. This is among commercial services.

Personal handheld terminals used in mobile communication services have been developed with the aim of miniaturization, multifunction, light weight, and low power, and antennas, which are essential for base stations and terminals, are the key components that determine the call quality at the beginning and end of signal input and output. It is a highly difficult field of basic theory and design technology

In particular, since the performance of the small antenna varies depending on the type and material of the terminal to be mounted, unlike other core components, there is a difficulty in that the design of the small antenna varies according to the terminal model.

The antenna for the terminal mainly uses an omni-directional retractable antenna for the purpose of bi-directional communication and easy portability, and the antennas of commercially available terminals depend on the signal waiting state and the call state. Two suitable antennas are combined, respectively, and antennas are used that easily transmit and receive linearly polarized signals.

The protruding part on the top of the terminal is usually a helical antenna, which is mainly for the purpose of receiving the spring, and has the advantage of being able to make a call regardless of the position where the terminal is placed. It is a monopole antenna whose main purpose is transmission, which performs better than a helical antenna when it is perpendicular to the earth's surface. In theory, signal reception is impossible when it is horizontal.

On the other hand, mobile communication terminals currently in use are not compatible between services using different frequency bands such as cellular and PCS. Products developed to overcome this problem are dual band terminals, and mobile devices differ according to signal states and regions. As it provides the best of the telecommunications services, it has been well received in Europe and the United States, and is expected to increase rapidly in the future.

Research into small antennas suitable for this purpose is also being actively conducted, and one of them is a trend of actively researching a helical antenna having the same size as a conventional small antenna and having a double structure.

4A and 4B illustrate a fixing structure for a helical antenna of a portable terminal currently used, wherein the helical coil 110, which is a helical antenna, is fixed to the dielectric 112 above the metal connector 114 in a spiral shape. In order to fix the helical coil 110 to the dielectric 112, a coil seating groove 116 must be formed in accordance with the size of the helical coil 110.

That is, until now, the helical coil 110 was assembled and fixed as if a screw was screwed into the dielectric 112 produced by manufacturing a mold that matches the rotational speed and spacing of the helical coil 110. Since the mold fabrication was to be performed according to the shape of), it had to take time and economic losses.

In addition, when the helical coil 110 is applied as a helical antenna having a dual structure for a dual band terminal, that is, the helical coil 110 has a dual pitch form in which the upper and lower portions are 1st helix and 2nd helix. In this case, since the dielectric 112 cannot be formed as a coil seating groove 116 of a double structure accordingly, this method has a considerable difficulty in implementation, and moreover, even in a multiband having two or more frequency bands There was a problem in itself.

Therefore, the conventional helical antenna for coupling and fixing the helical coil 110 by forming a coil seating groove 116 in a screw shape so that the helical coil 110 can be fitted into the dielectric 112 according to the related art is the dielectric 112. There was a problem that the production of the mold is more complicated than necessary and its production cost is also high.

In addition, according to the shape of the helical coil 110, as well as the manufacturing of the mold, the insulation cover 126 must be insert molding, so the mold production must be carried out, and thus must bear the time and economic loss, in particular insert molding When the insulating cover 126 by filling the helical coil 110 has a problem that the helical coil 110 may be out of position.

In addition, as the bonding between the insulating cover 126 and the metal connector 114 is to be made by a separate bonding liquid, there is a problem such that the appearance is deteriorated as well as the defective rate increases. Unexplained reference numeral 124 denotes a monopole antenna.

Accordingly, the present invention was developed in view of the above circumstances, and even if the band shape of the helical coil is changed according to the frequency band, the helical coil is insulated from the metal connector together with the insulating cover without the need to separately manufacture a mold of the dielectric. It can be easily fixed by joining by ultrasonic welding, so there is no need to manufacture helical coil mold according to the shape of helical coil, and there is no need to insert molding insulation cover, and the mechanical work reliability is reduced while reducing the overall work process. It is an object of the present invention to provide a helical antenna of a portable terminal that can improve the performance.

1A and 1B are structural diagrams of a helical antenna separated state and a bonded state fixed by high frequency induction heating before fixing the junction according to the basic embodiment of the present invention.

2a to 2d is a process diagram showing the working sequence of the helical antenna according to the present invention.

3 is a bonded state structure in which a helical coil is bonded and fixed by an insulating cover in a state in which a helical coil is directly bonded to a metal connector without a dielectric.

Figure 4a is a structural diagram of a helical antenna fixed state in which the coil seating groove is formed in a screw form so that the helical coil can be fitted into the dielectric of the prior art.

Figure 4b is a state in which the helical coil is inserted into the dielectric with the coil seating groove according to the prior art.

Explanation of symbols on the main parts of the drawings

10 helical coil 12 dielectric

14 metal connector 16 heating joint

20: insulation cover 22: heating coil

The helical antenna of the portable terminal of the present invention for achieving the above object, basically the helical coil is fitted to the dielectric on the upper side of the metal connector irrespective of the frequency band is assembled and fixed by bonding by high frequency heating induction or ultrasonic welding Insulated cover penetrated inside the helical coil allows the helical coil to be press-fitted to be press-fitted onto the metal connector on which the helical coil is installed, thereby being fixed by bonding by high frequency heating induction or ultrasonic welding, and in particular, the insulating cover is attached to the helical coil. It is characterized in that the joint is fixed by bonding by high-frequency heating induction or ultrasonic welding without additional bonding treatment for the metal connector without insert molding.

In addition, the helical antenna of the portable terminal according to the present invention has a helical coil positioned above the metal connector irrespective of the frequency band, and an insulating cover through which the helical coil is penetrated so that the helical coil can be inserted is located above the metal connector. It is characterized in that the fitting may be fixed by bonding by high frequency heating induction or ultrasonic welding.

Hereinafter, exemplary embodiments of a helical antenna of a portable terminal according to the present invention will be described in detail with reference to the accompanying drawings.

1A and 1B illustrate a helical antenna separated state and a bonded state fixed structure fixed by high frequency induction heating before being fixed fixed according to a basic embodiment of the present invention, and FIGS. 2A to 2D illustrate a helical structure according to the present invention. The working sequence of the antenna is shown by process.

As shown in the figure, the helical antenna according to the present invention, even if the band of the helical coil 10 according to the frequency band does not need to separately manufacture a mold of the dielectric 12 suitable for it, basically a helical coil of arbitrary specifications ( 10) is directly attached to the dielectric 12 and fixedly fixed by bonding by high frequency heating induction or ultrasonic welding, and insulated from the helical coil 10 heated and bonded to the dielectric 12. The insulating cover 20, the helical coil 10, and the metal connector (10) are formed by inserting the cover 20 into an internally penetrated form without insert molding, and assembling them by high frequency heating induction or ultrasonic welding. 14) can be fixedly fixed to each other cleanly.

That is, the helical coil 10 is inserted into the dielectric 12 above the metal connector 14 in contact with the wireless device, and the helical coil 10 is assembled to be bonded and fixed by heat generation by high frequency heating induction. It is positioned in the heating coil 22 for a predetermined time so that the passage proceeds, and the helical coil 10 and the metal connector 14, which are the conductors, are heated by induction heating from the heating coil 22, and the resin dielectric ( The junction portion of 12) is melted to form the exothermic junction 16, and as a result, the helical coil 10 and the dielectric 12 can be integrally structured by the exothermic junction 16.

In addition, the insulation cover 20 is fixed by bonding by high frequency heating induction or ultrasonic fusion as in the bonding method between the helical coil 10 and the dielectric 12 without insert molding the helical coil 10. The insulating cover 20 should be molded into an internally penetrated shape so that the insulating cover 20 can be inserted into the dielectric 12 and pressed into the heat-coupled helical coil 10.

That is, the inner cover 20 is press-fitted onto the metal connector 14 to which the helical coil 10 is coupled and fixed, and the insulating cover 20 is connected to the helical coil 10 in the same manner as the above method. The press-fit metal connector 14 is once again placed in the heating coil 22 of the conventional high frequency heating induction apparatus for a predetermined time so that the passage proceeds, so that the helical coil 10 and the metal connector 14, which are conductors, The heat generated by the induction heating from the heating coil 22 may be integrally structured by heat bonding with the insulating cover 20 of the resin material.

As a result, the bonding portion of the insulating cover 20 can be reliably fixed to the metal connector 14 and the helical coil 10 while partially melting, and between the metal connector 14 and the insulating cover 20. In addition to the need for a separate bonding operation using a bonding liquid for fixing and fixing the adhesive, the adhesion failure between the metal connector 14 and the insulating cover 20 due to the bonding process of the bonding liquid can also be structurally prevented and the appearance is beautiful. It can be improved.

And since the helical antenna fixing structure of the present invention shrinks and expands according to the wire diameter and material of the helical coil 10, the helical coil 10 should be used as a material capable of shrinkage, and the helical coil 10 ) Is a helical coil 10 of any applicable type, such as a zigzag coil type, not a spiral coil type, depending on the mobile terminal can be used.

On the other hand, the helical antenna of the present invention may be an embodiment of the application as a fixed structure that can be fixed by the insulating cover 20 in a state in which the helical coil 10 is directly bonded to the metal connector 14 without the dielectric 12 Can be.

That is, unlike in the above basic embodiment, the helical coil 10 is positioned in contact with the metal connector 14 irrespective of the frequency band, and the helical coil 10 is insulated through the inner cover so that the helical coil 10 can be press-fitted. 20 may be press-fitted onto the metal connector 14 in which the helical coil 10 is installed to be fixed by bonding by high frequency heating induction or ultrasonic welding.

As described above, the helical antenna of the portable terminal according to the present invention does not need to separately manufacture a mold of a dielectric in which coil seating grooves are formed according to the frequency band of the helical coil according to the frequency band. In the state of direct insertion, simply by high frequency heating induction or bonding by ultrasonic welding, the insulation cover is also pressed by high frequency heating induction or ultrasonic welding once again in the state of press-fitting on the metal connector like the helical coil. By bonding and fixing by bonding, it is possible to form a fixed structure of the helical antenna with improved mechanical reliability without the need to manufacture a dielectric mold and an insulating cover mold according to the shape of the helical coil.

In particular, the helical antenna of the present invention is bonded by high frequency heating induction or ultrasonic welding, and the helical coil and the insulation cover are directly bonded and fixed to the metal connector through fixing, so no adhesive is needed, and mass production is possible by instant and strong bonding fixing. In addition, the surface of the product can be clean without deformation or deterioration, as well as to improve the quality and cost of the product, and as a result, it is easy to solve the difficult mold structure of the product.

Claims (3)

Regardless of the frequency band, the helical coil 10 is fitted to the dielectric 12 above the metal connector 14 to be assembled and fixed by bonding by high frequency heating induction or ultrasonic welding, and the helical coil 10 is press-fitted. Helical antenna of the portable terminal, characterized in that the inner cover through the inner cover 20 is press-fitted on the metal connector 14, the helical coil 10 is installed to be bonded by high frequency heating induction or ultrasonic welding . The method of claim 1, wherein the insulation cover 20 is fixed by bonding by high frequency heating induction or ultrasonic welding without additional bonding treatment to the metal connector 14 without insert molding for the helical coil Helical antenna of a portable terminal. Regardless of the frequency band, the helical coil 10 is positioned in contact with the upper portion of the metal connector 14, and the helical coil 10 has an insulating cover 20 penetrated therein so that the helical coil 10 can be press-fitted. Helical antenna of the portable terminal, characterized in that the press-fit fitted above the metal connector (14) is installed and fixed by bonding by high frequency heating induction or ultrasonic welding.