KR20010004442A - An electromagnetic wave shielding device of mobil communication system - Google Patents

Abstract

PURPOSE: An electromagnetic waves interrupting device of a mobile communication terminal is provided to prevent electromagnetic waves from an antenna from being harmful to a user with the terminal. CONSTITUTION: An electromagnetic waves interrupting device of a mobile communication terminal comprises an antenna(ANT) which transmits and receives a radio wave corresponding to a constant frequency and is connected to a transmission and reception module of the terminal(100). A reflector(90) is installed to the antenna(ANT) so as to be opposed to a user of the terminal(100). A mounting part(70) is fixed to the terminal, and maintains a direction of the reflector(90). The mounting part(70) has a guide hole for guiding pull-in and pull-out of the reflector(90) and the antenna(ANT).

Description

Electromagnetic wave shielding device for mobile communication terminal {AN ELECTROMAGNETIC WAVE SHIELDING DEVICE OF MOBIL COMMUNICATION SYSTEM}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile communication terminal. In particular, a reflector made of an electromagnetic wave reflecting material having a high dielectric constant and conductivity and having a near reflection coefficient of electromagnetic waves of about 1 can be installed in an antenna of a mobile communication terminal to block electromagnetic waves directly applied to a user from the antenna. It relates to an electromagnetic wave shielding device of a mobile communication terminal.

In general, a mobile communication terminal uses a frequency of 800MHz ~ 1.5GHz and is a device that allows communication between individuals through a repeater and a base station.

Hereinafter, a conventional mobile communication terminal will be described with reference to FIGS. 1 and 2. 1 is a block diagram illustrating a conventional mobile communication terminal, and FIG. 2 is a side view illustrating a radiation pattern of electromagnetic waves output from an antenna of a conventional mobile communication terminal.

As shown in FIG. 1, first, the mobile communication terminal 10 includes a key panel 1, a control module 2, an oscillation module 3, a transmission / reception module 4, and an input / output module 5. .

In the mobile communication terminal 10 configured as described above, when a switching signal is input from the key panel 1 installed in the mobile communication terminal 10, the control module 2 converts the switching signal of the key panel 1 into a corresponding code. The converter outputs the control signal and transmits the corresponding control signal to the transmission / reception module 4. In addition, the oscillation module 3 generates a frequency used by the mobile communication terminal 10 and outputs it to the transmission / reception module 4.

Then, the transmission / reception module 4 modulates the control signal currently input from the control module 2 to the corresponding frequency applied from the oscillation module 3.

That is, the transmission / reception module 4 generates or tunes a radio wave corresponding to the frequency generated by the oscillation module 3, and the input / output module 5 converts a user's voice signal into an electrical signal to transmit / receive a module. (4), or at the time of reception by converting the signal detected by the transmission and reception module 4 so that the user can hear, it is possible to mutual transmission and reception between individuals.

In addition, an antenna 9 is connected to the transmission / reception module 4 to increase the output of radio waves transmitted to and received from the mobile communication terminal 10. Accordingly, the communication frequency of the specific band transmitted from the base station is received through the antenna 9 and transmitted to the transmission / reception module 4. On the contrary, the radio waves corresponding to the frequency generated by the oscillation module 3 are transmitted from the transmission / reception module 4. It is radiated in a predetermined pattern through the antenna (9).

On the other hand, the mobile communication terminal 10 generates strong electromagnetic waves exceeding a reference value in the antenna 9 and the speaker (not shown) due to the characteristics of the electronic device that transmits and receives radio waves, and 90% or more of them are generated by the antenna 9. Occurs in

In particular, the radiation pattern of the electromagnetic wave output from the antenna 9 of the mobile communication terminal 10 is as shown in the general dipole antenna or monopole antenna, the horizontal plane is omni-directional and the vertical plane is the omnidirectional antenna radiation It is formed into a pattern.

That is, as shown in Figure 2, the electromagnetic wave output in the omnidirectional radiation pattern from the antenna 9 of the conventional mobile communication terminal 10 is not only transmitted to the base station, but also a person holding the mobile communication terminal 10 It also has a direct impact on.

Therefore, as is known from the recent research results, as the electromagnetic waves generated from the antenna 9 of the conventional mobile communication terminal 10 is continuously applied to the human body to raise the temperature of the brain cells cause brain abnormalities, Problems causing fatal effects on the human body, such as causing heart disease and increasing blood histamine, are occurring.

The present invention has been made in order to improve such a conventional problem, the technical problem of the present invention is that the electromagnetic wave output from the antenna of the mobile communication terminal is not directly applied to the user holding the mobile communication terminal.

Technical problem of the present invention as described above, the antenna is connected to the transmission and reception module of the mobile communication terminal for transmitting and receiving radio waves corresponding to a predetermined frequency, and installed in the longitudinal direction on the antenna so as to face the user of the mobile communication terminal and transmit and receive Electromagnetic wave shielding device of a mobile communication terminal comprising a reflector made of an electromagnetic wave reflecting material which is earthed to a module, and a mounting part fixed to the mobile communication terminal and guiding a guide hole for guiding the introduction and withdrawal of the antenna and the reflector while maintaining the direction of the reflector It is achieved by providing.

1 is a block diagram showing a conventional mobile communication terminal,

2 is a side view illustrating a radiation pattern of electromagnetic waves output from an antenna of a conventional mobile communication terminal;

3 is a schematic diagram showing an electromagnetic wave shielding device of a mobile communication terminal according to the present invention;

Figure 4a is a perspective view showing a preferred embodiment of the present invention,

Figure 4b is a perspective view showing another preferred embodiment of the present invention,

Figure 5 is a side view showing a radiation pattern of electromagnetic waves output from the antenna of the mobile communication terminal according to the present invention.

<Explanation of symbols for main parts of drawing>

ANT: Antenna 50: Transceiver Module

61: protrusion 65: guide hole

70: mounting portion 81: long groove

90: reflector 100: mobile communication terminal

3 is a schematic view showing an electromagnetic wave shielding device of a mobile communication terminal according to the present invention, Figure 4a is a perspective view showing a preferred embodiment of the present invention, Figure 4b is another preferred embodiment of the present invention 5 is a side view illustrating a radiation pattern of electromagnetic waves output from an antenna of a mobile communication terminal according to the present invention. Referring to the accompanying drawings, a preferred embodiment of the present invention will be described below.

The electromagnetic wave shielding device of the mobile communication terminal according to the present invention is connected to the transmission and reception module 50 of the mobile communication terminal 100 for transmitting and receiving radio waves corresponding to a predetermined frequency (ANT) and the mobile communication terminal 100 Reflector 90 is installed in the antenna ANT in the longitudinal direction so as to face the user of (), and fixed to the mobile communication terminal 100, while maintaining the directionality of the reflector 90 of the antenna (ANT) and reflector 90 It is configured to include a mounting portion 70 is formed with a guide hole 65 for guiding the withdrawal and withdrawal.

The reflector 90 is made of an electromagnetic wave reflecting material having a high dielectric constant and a high conductivity and a reflection coefficient of electromagnetic wave close to 1 to reflect the electromagnetic wave output from the antenna ANT toward the user of the mobile communication terminal 100.

The reflector 90 is earthed to the transmission / reception module 50 so that a small amount of electromagnetic waves absorbed without being totally reflected by the reflector 90 does not affect the internal device of the mobile communication terminal 100.

The reflector 90 is always positioned to face the user of the mobile communication terminal 100 when the lead or withdrawal with the antenna ANT through the guide hole 65 of the mounting portion 70, the reflector 90 as described above Preferred embodiments for maintaining the orientation of) are as follows.

First, a preferred embodiment of the present invention is made by the reflector 90 and the guide hole 65 of the mounting portion 70 is formed of a corresponding polygon. That is, as shown in FIG. 4A, the reflector 90 is formed in a triangle, and the guide hole 65, which is in surface contact with the reflector 90, is formed in a corresponding polygon.

And, according to another preferred embodiment of the present invention as shown in Figure 4b, the longitudinal groove 81 in the longitudinal direction is formed on the outer surface of the reflector 90, the mounting portion 70 so as to fit and slide in the long groove 81 The protrusion 61 is formed on the inner surface of the guide hole 65).

Hereinafter, the manufacturing process of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 3, the present invention provides a reflector 90 of electromagnetic wave reflecting material so that electromagnetic waves output from an antenna ANT connected to the transmission / reception module 50 are not directly applied to a user holding the mobile communication terminal 100. ) Is fixedly installed on the antenna (ANT) in the direction facing the user.

In more detail, first, the reflector 90 is installed in the longitudinal direction on the antenna ANT of the mobile communication terminal 100. In this case, the reflector 90 may be formed of an electromagnetic wave reflecting material capable of reflecting electromagnetic waves output from the antenna ANT, that is, having a high dielectric constant and conductivity, and having a reflection coefficient of electromagnetic wave close to one.

As an example, the reflector 90 reflects electromagnetic waves such as a component in which a zeolite is mixed with a conductive and radioactive material to form a molecular structure of high temperature firing, or a component coated with a thin coating of copper and nickel, which are conductive metals in a polyester. Various materials can be adopted.

Next, the antenna ANT, to which the reflector 90 is fixed, is inserted through the guide hole 65 of the mounting unit 70, and then the mounting unit 70 is fixed to the upper end of the mobile communication terminal 100 by screwing. The antenna ANT to which the reflector 90 is fixed is introduced into the inside of the mobile communication terminal 100 through the guide hole 65 of the mounting unit 70 and also to the outside.

At this time, one side of the reflector 90 causes the transmission and reception module 50 provided inside the mobile communication terminal 100 to earth.

In addition, the reflector 90 always faces the user of the mobile communication terminal 100 when it is drawn in or drawn out together with the antenna ANT through the guide hole 65, thereby maintaining the orientation of the reflector 90.

One preferred embodiment of the present invention for maintaining the orientation of the reflector 90 as described above is made by forming the reflector 90 and the guide hole 65 in a corresponding polygon.

That is, as shown in FIG. 4A, the reflector 90 is formed in a triangle, and the guide hole 65 in which the reflector 90 is in surface contact is also formed in a corresponding polygon so that the edges of the antenna ANT are caught. ) And the reflector 90 are not self-rotating inside the guide hole 65 of the mounting portion 70, thereby maintaining the directionality of the reflector 90.

And another preferred embodiment of the present invention for maintaining the orientation of the reflector 90, the long groove 81 in the longitudinal direction is formed on the outer surface of the reflector 90, the guide hole 65 so as to fit and slide in the long groove 81 Is formed by forming the protrusion 61 on the inner surface of

That is, as shown in FIG. 4B, the antenna ANT and the reflector 90 guide the mounting portion 70 in a state where the protrusion 61 of the guide hole 65 is fitted into the long groove 81 of the reflector 90. By allowing the retracting or withdrawing through the hole 65, the antenna ANT and the reflector 90 rotate internally within the guide hole 65 of the mounting part 70 by the long grooves 81 and the protrusions 61 engaged with each other. Therefore, the directionality of the reflector 90 is maintained.

Hereinafter, the operation of the present invention will be described in detail with reference to the accompanying drawings.

First, when the radio wave corresponding to the frequency of the mobile communication terminal 100 is output through the antenna ANT of the transmission and reception module 50, some electromagnetic waves output from the antenna ANT toward the user of the mobile communication terminal 100 The electromagnetic waves reflected by the reflector 90 installed in the antenna ANT and, as a result, are output from the radiation pattern of the directional antenna having a predetermined direction.

In more detail, as shown in a general dipole or monopole antenna, the electromagnetic waves output from the transceiver module 50 of the mobile communication terminal 100 are omnidirectional and the vertical plane is directional. Initially output as the radiation pattern of the directional antenna.

However, the electromagnetic wave reflecting material, that is, a reflector 90 having a high dielectric constant and conductivity and having a reflection coefficient of electromagnetic wave close to 1 is installed in the antenna ANT in the longitudinal direction, so that the electromagnetic wave initially output omnidirectionally from the antenna ANT is reflected ( 90 is converted into a radiation pattern of the directional antenna which is reflected by the high direction and outputs toward a specific direction, that is, the base station.

That is, the radiation pattern of the electromagnetic wave last output from the antenna ANT of the mobile communication terminal 100 is output as the radiation pattern of the directional antenna having directivity in both the horizontal plane and the vertical plane.

In addition, the reflector 90 is fixed in the direction so as to face the user of the mobile communication terminal 100, as shown in Figure 5, the electromagnetic wave output from the antenna ANT is not applied to the user and vice versa By outputting in the direction, it is possible to block the electromagnetic waves to the user of the mobile communication terminal 100.

And since the reflector 90 is earthed in the transmission / reception module 50 provided inside the mobile communication terminal 100, a small amount of electromagnetic waves absorbed by the reflector 90 without being totally reflected by the reflector 90 are transmitted and received. By being consumed through the negative terminal of the module 50, it does not affect the internal device of the mobile communication terminal 100.

As described above, according to the electromagnetic wave shielding device of the mobile communication terminal of the present invention, by installing the reflector 90 of the electromagnetic wave reflecting material having a high dielectric constant and electrical conductivity and having a reflection coefficient of electromagnetic wave close to 1 on the antenna ANT to face the user. It is possible to block the electromagnetic wave applied directly to the user from the antenna ANT, and also to convert the electromagnetic wave output from the antenna ANT into a radiation pattern of a directional antenna that is output high toward a specific direction, that is, a base station. There is a useful effect that can be obtained.

While the invention has been shown and described with respect to certain preferred embodiments thereof, the invention is not limited to the embodiments described above, but in the fields belonging to the invention without departing from the spirit of the invention claimed in the claims. Any person with ordinary knowledge will be able to make various modifications.

Claims (3)

An antenna (ANT) connected to the transmission / reception module 50 of the mobile communication terminal 100 to transmit and receive radio waves corresponding to a predetermined frequency; A reflector (90) of electromagnetic wave reflecting material which is installed in the longitudinal direction on the antenna (ANT) so as to face the user of the mobile communication terminal (100) and is earthed by the transmission / reception module (50); And The mounting part 70 is fixed to the mobile communication terminal 100 and has a guide hole 65 for guiding the introduction and withdrawal of the antenna ANT and the reflector 90 while maintaining the directionality of the reflector 90. Electromagnetic wave shielding device of a mobile communication terminal, characterized in that comprises a. The electromagnetic wave shielding device of a mobile communication terminal according to claim 1, wherein the reflector (90) and the guide hole (65) are formed in a corresponding polygon. The long groove 81 in the longitudinal direction is formed on an outer surface of the reflector 90, and a protrusion 61 is formed on the inner surface of the guide hole 65 so as to slide into the long groove 81. Electromagnetic wave shielding device of a mobile communication terminal, characterized in that.