KR20060094762A - Production method of antenna mechanism for tv signal receiving - Google Patents

Abstract

The present invention relates to a method of manufacturing an antenna mechanism for receiving a TV signal by combining four or five metal tubes each having a length of about 10 cm in thickness to receive a TV signal from a mobile phone or a portable TV. It is a prior art that the rod antenna having a length ranging from 30 cm to 40 cm manufactured must be mounted on a mobile phone or a portable TV.

However, the antenna having a length of 30cm to 40cm mounted on a mobile phone or a portable TV has a very inconvenient side of use, and each time the TV reception channel is changed, the length and angle of the antenna must be adjusted, and careless physical handling is required. When the force is applied, the metal tube may be deformed or severely bent or broken.

The present invention is characterized by enabling the manufacture of a small antenna mechanism for a mobile phone or a portable TV by a method of compensating the inductance of the TV receiving antenna using a ferrite core to improve this.

Mobile Phone DMB TV Ferrite Core Antenna

Description

Manufacturing Method of Antenna Mechanism for TV Signal Reception {Production Method of Antenna Mechanism for TV Signal Receiving}

1A is an external view of an antenna mechanism for receiving a TV signal of the present invention

1B is a detailed view of an antenna for a mobile phone of the antenna mechanism for receiving a TV signal of the present invention

2A is a longitudinal cross-sectional view of an antenna mechanism for receiving a TV signal of the present invention constructed using a columnar ferrite core

2B is a longitudinal cross-sectional view of the antenna mechanism for TV signal reception of the present invention constructed using a half-moon ferrite core

2C is a longitudinal sectional view of the antenna mechanism for receiving a TV signal of the present invention constructed using a cylindrical ferrite core

<Description of the code | symbol about the principal part of drawing>

a. Cell phone antenna b. Upper cap

c. Cellular phone antenna terminal d. TV antenna coil

e. TV antenna terminal f. Lower cap

j. Cell phone antenna contacts k. Variable Position Ferrite Core

m. Columnar ferrite core n. Half Moon Ferrite Core

p. Cylindrical ferrite core

The present invention relates to a method of manufacturing an antenna mechanism for use in a mobile phone or a portable TV equipped with a TV signal receiving function.

In general, the frequency of radio waves used in mobile phones has a very short wavelength of 800MHz or more, but the frequency of TV signals is about 200MHz, which is longer than the frequency used in mobile phones. Reception was almost impossible.

Therefore, in the prior art, an antenna for receiving a TV signal is inevitably required separately from a mobile phone antenna. However, due to the structural problems of mobile phones, many researches have been carried out to manufacture antennas with long-wavelength frequency characteristics in small sizes and to mount them on mobile phones. It is a prior art to receive a TV signal using an antenna having a length of about 30cm to 40cm made of a tube.

In the prior art, a metal tube antenna is used in a portable TV as well as a mobile phone. Since the frequency range of the TV signal is relatively wide, the length of the antenna should be adjusted to tune the frequency of the TV signal channel. In addition, it was necessary to adjust the angle of the antenna for the adjustment of the required angle depending on the location of the TV station and the conditions of the TV receiving area.

The antenna of a mobile phone or a portable TV equipped with a TV signal reception function manufactured according to the prior art is configured by combining the antenna elements made of thin metal tubes in various stages and varying the diameters of the tubes. It is easily deformed by force and can be bent or broken in severe cases, and the length of the antenna should be adjusted each time the channel is changed to match the reception conditions according to the frequency of the TV signal having a relatively wide frequency range. The inconvenience of having to adjust the angle of the antenna according to the local conditions was to be taken. In addition, when a TV receiver is mounted on a mobile phone, it is a conventional technology that an antenna for a mobile phone and a TV receiver should be independent of two antennas.

Therefore, an object of the present invention is to provide a method of manufacturing an antenna mechanism in which an antenna used in a cellular phone equipped with a TV receiving function integrates a cellular phone antenna and an antenna for receiving a TV signal into one and makes TV reception extremely easy.

Therefore, an object of the present invention is applicable to the TV signal reception and mobile phone as an integrated antenna mechanism as a single unit, apart from the method of separating and installing the antenna and the mobile phone antenna for TV signal reception made of metal tubes, as in the prior art. It is to provide a method of manufacturing an antenna mechanism.

This problem has a structure in which a mobile phone antenna (a) equipped with a variable position ferrite core (k) is inserted in the antenna coil (d) for receiving a TV signal as shown in FIG. This can be achieved simply.

The antenna mechanism for receiving a TV signal of the present invention includes an antenna coil (d) for receiving a TV signal, with an enamelled copper wire around a columnar ferrite core (m), a half moon ferrite core (n), or a cylindrical ferrite core (p). 1 or 2, the TV antenna coil d is formed by using a Litz wire, and a cellular phone antenna a having a variable position ferrite core k is inserted in the center thereof.

When the mobile phone antenna a is moved up and down as shown in FIGS. 2A, 2B and 2C, the inductance of the TV antenna coil d is changed by the position change of the variable position ferrite core k in the TV antenna coil d. Is changed to tune to the TV signal reception frequency.

In addition, when the cellular phone antenna (a) is raised to the upper cap (b), the cellular phone antenna contact (j) is connected to the upper cap (b) of metal and is attached to the upper cap (b). ) Is connected to the transceiver circuit of the mobile phone.

The TV antenna coil (d) is electrically connected to the lower cap (f), and the TV signal received by the TV antenna coil (d) is connected to the TV tuner circuit through the TV antenna terminal attached to the lower cap (f). do.

As described above, in the manufacture of a mobile phone equipped with a TV signal receiving function, the problem with the antenna is really important and in that it becomes an element that determines the competitiveness of the mobile phone equipped with the TV signal receiving function. The manufacturing method of the antenna mechanism will greatly contribute to the leap of Korea's information and communication equipment industry.

In addition, the status of the information and communication equipment industry in the international information and communication equipment market will be enhanced.

Claims (3)

TV signal reception having a structure in which a mobile phone antenna (a) equipped with a variable position ferrite core (k) is inserted into a TV antenna coil (d) constructed using a columnar ferrite core (m) as shown in FIG. Method of manufacturing an antenna mechanism for the As shown in FIG. 2A, a TV signal reception having a structure in which a cellular phone antenna (a) equipped with a variable position ferrite core (k) is inserted into a TV antenna coil (d) constructed using a half moon ferrite core (n) Method of manufacturing an antenna mechanism for As shown in FIG. 2A, a TV signal reception having a structure in which a cellular phone antenna (a) equipped with a variable position ferrite core (k) is inserted into a TV antenna coil (d) constructed using a cylindrical ferrite core (p) is provided. Method of manufacturing an antenna mechanism for

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