KR101230605B1 - Directional antenna for mobile communication and method of making the same - Google Patents

Abstract

PURPOSE: A directional sector antenna for mobile communication and a manufacturing method thereof are provided to manufacture a sector antenna for mobile communication by punching an aluminum disk with a press mold to simultaneously form a reflection plate and radiation devices. CONSTITUTION: A rectangular disk is prepared. A press mold with a pattern for forming a preset radiation device(120) is prepared. A dipole pattern(122,124) is formed in the aluminum disk by punching the aluminum disk with the press mold. A brass bar is pressed in a through hole formed on each dipole pattern of the radiation device. A reflection plate(110) is formed by vertically bending the peripheral part of the aluminum disk.

Description

Directional Sector Antenna for Mobile Communication and Manufacturing Method therefor {DIRECTIONAL ANTENNA FOR MOBILE COMMUNICATION AND METHOD OF MAKING THE SAME}

The present invention relates to a technology for manufacturing a directional antenna for mobile communication, and more particularly, to a directional sector antenna for mobile communication and a method for manufacturing the same, which can reduce manufacturing costs by improving a process by punching an aluminum disc to form a dipole.

In general, an antenna used in a mobile communication base station may be implemented as an omni-directional omni-directional antenna or a directional sector antenna. A sector antenna is provided with a reflector or radio behind the antenna after installing an antenna composed of a radiating element and a reflector as a support. By installing an absorber, it is possible to transmit and receive radio signals only in a certain direction. In addition, each sector antenna has an array antenna in which a plurality of unit antennas are arranged vertically to communicate with a mobile communication terminal in a specific region by beam pattern characteristics and directivity characteristics.

In the conventional mobile communication directional sector antenna 10, as shown in FIG. 1, a separate radiating element 14, usually tin-plated aluminum, is fastened to the reflector plate 12 with a bolt 16a, a nut 16b, or the like. After soldering with the feeder was prepared.

The conventional sector antenna manufacturing method for preparing individual dipoles plated with aluminum separately from the reflector plate and then fastening the dipole to the reflector plate using a bolt or the like requires an additional dipole material and a process of fastening with a bolt or the like, which makes the manufacturing process complicated. There is a problem that the manufacturing cost is increased.

The present invention has been proposed to solve the above problems, and an object of the present invention is to provide a directional sector antenna for mobile communication and a method for manufacturing the same by improving the process by forming a dipole by punching an aluminum disc. will be.

In order to achieve the above object, the method of the present invention comprises a first step of preparing a rectangular aluminum disc; A second step of forming a dipole pattern on the aluminum disc by punching an aluminum disc with a press mold having a pattern for forming a predetermined radiation element; A third step of press-fitting a brass bar into a through hole formed in each dipole pattern of each radiation element; A fourth step of bending the dipole pattern along the bending pattern to complete each radiation element shape, and vertically bending the periphery of the aluminum disc to form a reflecting plate; And a fifth step of soldering a feed line to the brass bar.

In the fourth step, the radiating element is formed by bending the first bend line to form a + dipole pattern and a dipole pattern, and the extension part for feeding the dipole pattern by bending the second bend line to be inserted into the through hole of the extension part. The core wire of the feed cable can be soldered to the brass bar, and the third bending line is bent to complete the shape of the reflector by raising the side of the reflector vertically.

In addition, in order to achieve the above object, the apparatus of the present invention is a dipole pattern is formed by punching, the dipole pattern is bent and the reflecting plate of the aluminum disc formed through holes in the remaining place, and the dipole pattern formed by punching the aluminum disc It consists of a plurality of radiating elements formed integrally with the reflective plate by bending,

Each of the radiating elements forms a dipole pattern by punching a reflective plate of an aluminum disc, inserts a brass rod into the through-hole of each dipole pattern, and then forms a radiating element by bending a first bend line to establish a + dipole pattern and a dipole pattern. And, by bending the second bent line to form an extension for feeding in the + dipole pattern is formed so as to solder the core wire of the feed cable to the brass rod inserted into the through-hole of the extension.

According to the present invention, a method of manufacturing a sector antenna for mobile communication is performed by punching one rectangular aluminum disc with a press mold to simultaneously form a reflector and a radiating element so that a separate radiating element is not required as in the related art. There is an advantage that a sector antenna can be manufactured.

1 is a schematic diagram of a sector antenna manufactured according to an existing process;
2 is a perspective view of a sector antenna for mobile communication according to the present invention;
3 is a flowchart illustrating an antenna manufacturing procedure according to the present invention;
4 is a diagram of a sector antenna made in accordance with the present invention;
5 is an enlarged view of a radiating element of an antenna manufactured according to the present invention;
6 is a state diagram of a power supply line connected to a radiating element of an antenna manufactured according to the present invention.

The technical problems achieved by the present invention and the practice of the present invention will be more clearly understood by the preferred embodiments of the present invention described below. The following examples are merely illustrative of the present invention and are not intended to limit the scope of the present invention.

2 is a flowchart illustrating a manufacturing process of a sector antenna for mobile communication according to the present invention.

In the mobile communication sector antenna manufacturing procedure according to the present invention, as shown in Figure 2, the step of preparing a rectangular aluminum disc (S1), and punching the aluminum disc with a press mold formed with a pattern for forming a predetermined radiating element Forming a dipole pattern on the original plate (S2), pressing a brass rod into the through hole formed in each dipole pattern of each radiation element (S3), and bending the dipole pattern along the bending pattern to form a shape of each radiation element. Finishing and bending the peripheral portion of the aluminum disc vertically to form a reflecting plate (S4), and the step of soldering the feed line to the brass bar (S5).

As described above, the method of manufacturing a sector antenna for mobile communication according to the present invention is performed by punching one rectangular aluminum disc with a press mold to simultaneously form a reflector and a radiating element so that a separate radiating element is not required as in the related art. There is an advantage in that a sector antenna for mobile communication can be manufactured. The antenna manufacturing method of the present invention is described in more detail through the following embodiments.

3 is a perspective view of a sector antenna for mobile communication according to the present invention, FIG. 4 is a diagram of a sector antenna manufactured according to the present invention, FIG. 5 is an enlarged view of a radiating element of the antenna manufactured according to the present invention, and FIG. 6 is a state diagram in which a feed line is connected to a radiating element of an antenna manufactured according to the present invention.

As shown in FIG. 3, the mobile communication sector antenna 100 manufactured according to the present invention includes a reflector plate of an aluminum disc in which a dipole pattern is formed by punching, the dipole pattern is bent, and a through hole 120a is formed in the remaining position. And the radiating elements 120-1 to 120-N of the aluminum original plate formed integrally with the reflective plate 110 by bending the dipole pattern formed by punching the aluminum original plate.

3 to 6, a plurality of radiation elements 120-1 to 120 -N are arranged in a line on the antenna reflector 110, and a power supply connector 102 is connected to one end side thereof. Each radiation element 120 is composed of four dipole elements arranged in a rhombus shape, and each dipole element is a dipole pattern 124 to which a ground (-) feed signal is connected and a dipole pattern 122 and a + feed signal are connected. ) And a through hole 122b is formed in the dipole pattern 122, and a brass bar 130 is press-fitted into the through hole 122b to solder the shield wire 144 of the feeder line 140. A through hole 124b is also formed in the extension part 126 of the dipole pattern 124. The brass bar 130 is press-fitted into the through hole 124b to solder the core wire 142 of the feeder line 140. It is supposed to be.

The radiating element 120 of the antenna according to the present invention forms the dipole patterns 122 and 124 by punching in the reflecting plate 110 of the aluminum disc as shown in FIG. 5, and through-holes 122a and 124a of each dipole pattern. ) And inserting the brass rod 130 into the first bending line (B1) by bending the + dipole pattern 122 and-dipole pattern 124 to form a radiation element, and bending the second bending line (B2) The extension part 126 to feed the + dipole pattern 124 to the brass bar 130 inserted into the through hole of the extension part 126 as shown in FIG. ) And the soldering rod 130 inserted into the through hole of the dipole pattern 122 allows soldering with the shield wire 144 of the cable 140. The third bending line B3 is bent to vertically lateral the reflecting plate 110 to complete the shape of the reflecting plate 110.

As described above, the mobile communication sector antenna 100 according to the present invention has an advantage in that it is easy to mass-produce and robust in structure by forming a reflective plate and radiation elements by simultaneously punching a rectangular aluminum disc with a press die. .

The present invention has been described above with reference to one embodiment shown in the drawings, but those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom.

102: power supply connector 110: reflector
120,120-1 ~ 120-N: Radiating element 122:-Dipole pattern
124: + dipole pattern 130: brass bar
140: feed cable

Claims (3)

A first step of preparing a rectangular aluminum disc;
A second step of forming a dipole pattern on the aluminum disc by punching an aluminum disc with a press mold having a pattern for forming a predetermined radiation element;
A third step of press-fitting a brass bar into a through hole formed in each dipole pattern of each radiation element;
A fourth step of bending the dipole pattern along the bending pattern to complete each radiation element shape, and vertically bending the periphery of the aluminum disc to form a reflecting plate; And
And a fifth step of soldering a feed line to the brass rod. The method of claim 1, wherein the fourth step
A bending cable is formed by bending the first bend line to form a radiation element by forming a + dipole pattern and a dipole pattern, and an extension part for feeding a + dipole pattern by bending a second bend line to feed a brass rod inserted into a through-hole of an extension part. A method of manufacturing a directional sector antenna for mobile communications, characterized in that the core wires of the wires can be soldered to each other, and the third bending line is bent to vertically lateral the reflecting plate to complete the shape of the reflecting plate. It is made of a plurality of radiation elements formed integrally with the reflector by forming a dipole pattern formed by punching and bending a dipole pattern formed by punching the aluminum disc by forming a reflecting plate of an aluminum disc formed by bending the dipole pattern and forming a through hole. under,
Each of the radiating elements
Form a dipole pattern by punching the reflective plate of the aluminum disc, insert a brass rod into the through hole of each dipole pattern, and band the first bend line to form a copy element by forming a + dipole pattern and a-dipole pattern. A directional sector antenna for mobile communication, characterized in that it is formed so as to be brazed by inserting a core wire of a feed cable into a brass rod inserted into a through hole of an extension by bending an curve to feed a + dipole pattern.

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