KR19980035440A - Antenna of portable radio communication device - Google Patents

Abstract

end. The technical field to which the invention described in the claims belongs.

The present invention relates to a dual antenna of a wireless communication device.

I. The technical problem to be solved by the invention.

According to the present invention, the manufacturing cost of the helical part is reduced a lot, and the helical coil is wound into the protruding helical part, and the submerged rod antenna functions as a helical antenna, so that the conventional rod antenna is used in the mobile phone. The present invention provides a dual antenna of a wireless communication device which prevents a gain deterioration phenomenon when infiltrating, and also prevents electromagnetic wave coupling between an infiltrating rod antenna and a helical antenna, which is exhibited in a conventional dual structure antenna.

All. Summary of the Solution of the Invention.

The present invention is installed in the rod antenna receiving portion of the helical protrusion which may include a rod antenna on the portion protruding from the upper end side of the housing, the helical to enter the helical receiving portion when immersed installed in the portion protruding from the upper end of the housing It is connected to the rod antenna means which operates as an antenna, and acts as a rod antenna at the time of extension, and the lower end of the helical housing of the rod antenna, and becomes a feeding means of the helical antenna when immersed, and the feeding means of the rod antenna at the same time It characterized in that it is composed of a screw-shaped metal contact means.

la. Important use of the invention.

The present invention is effective in preventing the gain deterioration phenomenon that the conventional single mode rod antenna has infiltrated into the mobile phone, and also fundamentally prevents electromagnetic wave coupling phenomenon, and achieves a reduction effect on the manufacturing cost of the helical antenna. to be.

Description

Antenna of Portable Wireless Communication Device

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an antenna of a portable radio communication device, and in particular, a rod antenna (antena) and a helical antenna (helical antena), which can be mounted (infiltrated and extended) into and out of the body of a radio device, are simultaneously implemented. It's about antennas.

In general, if only a rod antenna capable of immersion extension is used as the only antenna, when the rod antenna is immersed into the body of the radio equipment, the body and the assembled printed circuit board inside the body become radio obstacles, and then the position (ear The effective aperture of the antenna at the position) is reduced, and the difference in impedance is increased so that the effective gain of the antenna is significantly reduced.

Therefore, in order to solve the above problem, the antenna is fixed or a dual antenna method is adopted to operate another antenna when immersed. In the case of a mobile phone requiring a long distance call, the latter method is adopted. Although it is better in terms of portability and gain than a single antenna, there is a burden of cost increase due to the dual structure.

The dual-structure antenna uses a helical antenna with a small projecting part when the rod antenna is infiltrated to reduce the actual length and occupied space efficiently while maintaining the electrical length, but the gain is slightly lower than that of the rod antenna. Excellent efficiency

Such dual structure antennas have various related technologies due to different feeding methods, and especially in the data published in U.S. Patent No. 5,479,178 (Portable Radio antena) or antennas of the structure actually adopted in the current product, Everyone uses a separate rod and helical antenna.

As shown in Figure 1 to Figure 3, when looking at the configuration of a wireless communication device using a conventional rod antenna and a helical antenna disclosed in the US patent separately, the helical antenna 130 and the rod antenna 120 ) Is fixedly installed by the antenna cap 106 on one side of the upper end of the housing 301. And, the lug 107 is formed to insert and fix the rod antenna 120 on the upper inner surface of the antenna cap 106, the conductive ring 111 with the female thread 116 is the upper end of the housing 301 It is installed within the surface. A female thread 116 formed on the outer periphery of the cylindrical opening 115 is installed in the housing and coaxial with the conductive ring 111. The upper surface of the housing connector 109 is fixed to the bottom of the antenna cap 106.

In addition, a rod of polyacetal material 104 extends through the antenna cap 106, and the insulator 103 is located on top of the rod 104. And the knob 101 (knob) is formed on the top of the polyacetal rod. The stopper 110 is provided at the bottom of the acetal rod to prevent it from completely disappearing from the cylindrical opening 115 of the housing connector 109 while it is extended.

When the rod antenna 120 is submerged, the lug 107 formed on the upper inside of the antenna cap 106 is inserted into the flute 102, and when the rod antenna 120 is extended, the acetal rod 104 The stopper 110 fixed at the bottom end of the c) is fixed by a leaf spring 112 biased inward to form an electrical contact point. The leaf spring 112 is made of an electrically conductive elastic material and is located on the inner inner surface of the cylindrical opening of the housing connector 109.

The dual mode antenna having such a structure causes the following problems.

As described above, the manufacturing cost of the antenna is about 2 to 3 times that of the single antenna, so the cost of the radio terminal increases. In particular, the U.S. patent publication or antenna and some modifications thereof have been applied for a patent, and since the structure of the helical part of commercialized dual-structure antennas is very complicated and requires precise manufacturing, it is a bad factor in mass production. It can be seen as another disadvantage of the conventional method.

For example, when immersing and extending the rod antenna, the helical connection portion of the rod antenna should make the actual rod antenna contact electrical and mechanical smoothly, and the elastic force should be adjusted to the mechanical dimension accordingly. A manufacturing error occurs due to a given tolerance. In addition, in the process of casting in order to fix the helical coil part while having the structure of the above function, the spacing of the helical coil is changed by the pressure at the time of casting, which may cause non-uniformity of the characteristics. Adopted to prevent the variance of the helical coil to have a uniform impedance characteristics, but also increases the complexity of the process and production cost.

Therefore, when the popularization of mobile phones is rapidly progressing, the adoption of cheaper dual-structured antennas at the point of desperate need for low-cost entry-level personal mobile phones may help to reduce the price.

The present invention has been made to solve the above-mentioned problems, the object of the present invention is to provide a radio communication device that can reduce the manufacturing cost of the helical part by a large number away from the conventional method of the above-mentioned dual-structure antenna It is to provide a double antenna.

Another object of the present invention is a factor in which impedance mismatch occurs due to electromagnetic coupling between the lower feed part of the actual helical part and the loaded rod antenna in an operation mode in which only the helical part operates when the rod antenna is infiltrated. In particular, when the rod antenna is immersed for convenience of portability so as to compensate for the weakness in which the characteristics thereof change rapidly depending on the contact portion of the human body, the rod antenna is positioned entirely inside the terminal when immersed. By winding in the form of a helical coil into the protruding helical portion, the submerged rod antenna functions as a helical antenna, thereby preventing the gain reduction phenomenon that a conventional rod antenna has when penetrated into a mobile phone, and also Infiltrated Rod Antenna and Helical Antenna from Dual Antenna To provide a dual-antenna wireless communication device that prevents the electromagnetic coupling, you can get savings for the helical antenna manufacturing costs.

In order to achieve the above objects, the present invention is installed in the rod antenna receiving portion of the helical protrusion which may include a rod antenna in the portion protruding from the upper end side of the housing, and protrudes from the upper portion of the housing It enters the helical housing and operates as a helical antenna, and is connected to the rod antenna means operated as the rod antenna at the time of extension and the lower end of the helical housing of the rod antenna, and becomes a power feeding means of the helical antenna when immersed. The feeding means of the load rod antenna is characterized in that it is composed of a screw-shaped metal contact means at the same time.

1 is a cross-sectional view showing a state in which a rod antenna is extended in a state in which a rod antenna and a helical antenna are installed in a wireless communication device according to a conventional embodiment;

2 is a partially enlarged cross-sectional view of an antenna of a wireless communication device according to a conventional embodiment

3 is a cross-sectional view illustrating a state in which a load antenna is immersed in a state where a rod antenna and a helical antenna are installed in a wireless communication device according to an exemplary embodiment of the present invention;

4 is a cross-sectional view illustrating a state in which an antenna is extended in a dual antenna in which a rod antenna and a helical antenna are simultaneously implemented according to an exemplary embodiment of the present invention.

5 is a cross-sectional view illustrating a state in which an antenna is immersed in a dual antenna in which a rod antenna and a helical antenna are simultaneously implemented according to an exemplary embodiment of the present invention.

Explanation of symbols on the main parts of the drawing

10: rod antenna accommodating part 11: helical groove

20: rod antenna means 30: metal contact means

Hereinafter, with reference to the accompanying drawings will be described in detail the most preferred embodiment of the present invention. First, in describing each of the drawings, only the same components have the same reference numerals as much as possible even if shown on different drawings. In describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

As shown in Fig. 4, 5, when the components of the dual antenna of the wireless communication device according to an embodiment of the present invention is roughly divided, the rod antenna 21 is protruded from one side of the upper end of the housing 301 A rod antenna receiving portion 10 that is a helical protrusion (helical receiving portion) that may be included; A rod antenna means (20) installed at a portion protruding from an upper end of the housing (301) to enter the helical receiving portion (10) when immersed and acting as a helical antenna; And a screw-shaped metal contact means 30 which is connected to the lower end of the helical housing 10 of the rod antenna 21, becomes a power feeding means of the helical antenna when immersed, and simultaneously feeds the rod antenna during expansion. It is composed of

In detail, the helical combined rod antenna means 20 includes a core 101 (rod antenna) of a conductive flexible material (rod antenna) having a knob 101 assembled at the top, a knob 101 fixed at the top, and an exterior of the core wire. It consists of an exterior to protect it by coating. In addition, when the means 20 of the rod antenna is immersed, the rod antenna immersed into the helical protrusion 10 is operated as a helical antenna, and when the rod antenna is extended, the rod antenna is independent of the helical protrusion. Therefore, the helical groove 11 is formed on the inner surface of the rod antenna accommodating portion 10 so that the rod antenna is operated only as the rod antenna.

In this case, the helical combined rod antenna 21 should be a material capable of having a restoring force even when it is bent by an external force while maintaining a straight state without bending, and furthermore, a helical protrusion 10 In the case where the rod antenna is immersed in, the rod antenna must have the flexibility to maintain the coil shape in the helical protrusion. Although it is a bit expensive at present, the rod antenna means generally used as a antenna for a mobile phone is difficult to have a suitable elasticity and flexibility at the same time in the helical protrusion with a molded alloy material. In the case of a molded alloy, the restoring force is good, but when it is bent, there is no shortage of properties that maintain the characteristics of the bending itself. The coil shape can be stably fixed to the groove in a state in which it is slightly separated but immersed into the helical antenna protrusion.

In addition, when the helical protrusion 10 is converted into a rod antenna during stretching, a state in which the element (core wire) of the rod antenna exits from the helical groove 10 should be smooth. In consideration of the gap between the groove 11 and the groove 11 and at the same time the thickness between the groove formed on the inner wall of the helical protrusion 10 and the core of the rod antenna, its smoothness to smooth operation even when stretching and infiltrating Set considering the length.

As described above, when the rod antenna is immersed for convenience of carrying, unlike the conventional method in which the immersed rod antenna is positioned up and down inside the terminal, the present invention is wound in a helical coil form into a protruding helical portion. By entering, the infiltrating rod antenna functions as a helical antenna, thereby preventing the gain deterioration phenomenon that the conventional single mode rod antenna has infiltrated into the mobile phone, and also the infiltrating rod antenna shown in the conventional dual structure antenna. It fundamentally prevents electromagnetic wave coupling with helical antennas and is effective in achieving a reduction in the manufacturing cost of helical antennas. On the other hand, in the detailed description of the present invention has been described with respect to specific embodiments, it will be apparent to those skilled in the art that various modifications are possible without departing from the scope of the present invention.

Claims (2)

In the antenna that can be extended and immersed in the outside of the main body of the wireless communication device for mobile phones, A rod antenna receiving portion 10 of the helical protrusion which may include a rod antenna 21 at a portion protruding from an upper end side of the housing 301; A rod antenna means (20) installed at a portion protruding from the upper end of the housing (301) to enter the rod antenna accommodating portion (10) and to act as a helical antenna when operated, and to act as a rod antenna (21) upon extension; And a screw-shaped metal contact that is connected to the lower end of the helical receiving portion 10 of the rod antenna 21, becomes a feeding means of the helical antenna when immersed, and also feeds the rod antenna 21 at the same time. Dual antenna of a wireless communication device, characterized in that consisting of means (30). 2. The load antenna according to claim 1, wherein the rod antenna (21) submerged into the helical protrusion when the means (20) of the rod antenna is submerged is operated as a helical antenna, and the rod antenna when the rod antenna (21) is extended. Is a helical groove (11) formed on the inner surface of the rod antenna receiving portion to be operated only as a rod antenna independent of the helical protrusion (10).