KR20080102822A - Microwave antenna apparatus for mobile telecommunication and transmission of a radio wave - Google Patents

Abstract

A microwave apparatus for mobile telecommunication and transmission of a radio wave including a coaxial cable is provided to conveniently perform a transmission line work of a microwave unit and an antenna by removing a waveguide. A microwave apparatus for mobile telecommunication and transmission of a radio wave comprises the followings: a connector(210); an antenna(200) having the connector; a cooling plate(300) forming a hole(310); a microwave unit(400) having the connector(410); and a coaxial cable connecting the connector of the microwave unit and the antenna.

Description

Microwave antenna apparatus for mobile telecommunication and transmission of a radio wave

1 is an exploded perspective view showing a conventional microwave communication device for mobile communication,

Figure 2 is an exploded perspective view showing a microwave device for transmission and mobile communication according to the present invention,

Figure 3 is a rear perspective view showing the antenna and the heat sink of the microwave device for transmission and mobile communication according to the present invention,

4 is a perspective view showing an installation state of a coaxial cable according to the present invention;

Figure 5 is a cross-sectional view showing the assembly structure of the microwave device for transmission and mobile communication according to the present invention.

 <Explanation of symbols for the main parts of the drawings>

100: microwave device 200: antenna

210: connector terminal 300: heat sink

310: hole 320: groove

400: microwave unit 410: connector terminal

500: coaxial cable 510: connector

600: Pad

The present invention relates to a microwave device for transmission and mobile communication for transmitting and receiving microwaves, and more particularly, to a microwave device for transmission and mobile communication to simplify the structure of the microwave device to facilitate installation and separation operations. .

In general, the microwave device for mobile communication uses a microwave of 300 to 3,000 MHz belonging to the UHF band and 3 to 30 GHz belonging to the SHF band. It is used to improve the wireless communication environment in the shaded areas where radio waves are not received by the suburbs, mountains, or other features that cannot be reached.

The microwave device for mobile communication is installed in a high region or a high position as possible using a structure such as a steel tower for long-distance transmission and reception, and due to such specificity, the installation, maintenance and replacement work are performed by a single worker. ought.

In addition, the microwave communication device for mobile communication has to be completely exposed to the weather environment due to the nature of the installation site, which is very difficult to maintain compared to the normal base station or repeater.

Therefore, unlike the antenna equipment of other base stations or repeaters, the microwave device for mobile communication should be made of a structure that can be easily installed and disassembled by a single worker as well as electromagnetic shielding.

1 is an exploded perspective view showing a conventional microwave device for mobile communication, as shown in the pillar (P) is a bracket assembly 10 is installed, the bracket assembly 10, the antenna block 20 and the heating sink A microwave unit 30 having a function is installed, and the waveguide 40 is installed between the antenna block 20 and the microwave unit 30.

However, the conventional microwave communication device for mobile communication uses a heavy, expensive and bulky waveguide 40 for waveform preservation of the microwave, so that the cost of purchasing the waveguide 40 is high and workability is reduced, and the waveguide 40, a sealing member such as a packing 50 is used to seal the connection portion, such that workability due to the installation of the waveguide 40 is very troublesome.

In addition, the conventional microwave communication device for telecommunication communication has a large distance from the antenna and the microwave unit, and the shape is also block-shaped, it was heavy and bulky. Therefore, when installing the microwave device in a very high area such as steel towers or pillars, a problem arises that installation and separation work by a single worker is very difficult and dangerous.

The present invention has been made to solve the conventional problems as described above, the object of the present invention is to transmit and move to perform the operation of the transmission path of the antenna and the microwave unit simply and confidentially without using a waveguide To provide a microwave device for communication.

It is also an object of the present invention to provide a microwave device for transmission and mobile communication that can be easily and easily installed and detached by the operator by reducing the weight and weight of the microwave device.

Furthermore, another object of the present invention is to provide a microwave device for transmission and mobile communication that can improve the antenna performance by increasing the waterproofness of the antenna and the microwave unit transmission path and shielding the electromagnetic waves of the microwave antenna.

In order to achieve the above object, a microwave apparatus for transmission and mobile communication according to the present invention comprises: an antenna having a connector; A heat sink formed with holes; A microwave unit having a connector; It characterized in that it comprises a coaxial cable for connecting the antenna and the connector of the microwave unit.

Hereinafter, a detailed configuration of an embodiment according to the microwave device for transmission and mobile communication of the present invention will be described in detail with reference to the accompanying drawings.

2 is an exploded perspective view showing a microwave device for transmission and mobile communication according to the present invention, as shown in the microwave device 100 of the present invention is largely an antenna 200, heat sink 300, microwave unit 400 ), Coaxial cable (500).

First, the antenna 200 transmits and receives microwaves. In the present invention, the antenna 200 is formed in a plate type, and a connector terminal 210 is installed in the center thereof.

The heat sink 300 is installed on the pillar through a clamp or fixing plate (not shown) to serve as a heating sink for cooling the heat generated by the antenna 200 or the microwave unit 400, and the overall appearance of the plate It was formed in a type so that it can be easily assembled through the fastening members such as the antenna 200 and the bolt.

And the heat sink 300 forms a plurality of blades on the front to increase the cooling effect, the center portion of the back as shown in Fig. 3 to form a hole 310 and the pad groove 320 to form a pad 600 is formed It can be installed, through which the coaxial cable 500 passes, and when combined with the antenna 200 to ensure waterproofness.

The microwave unit 400 is a device for amplifying microwaves, as shown in FIGS. 3 and 4. The microwave unit 400 is installed in close contact with the front surface of the heat sink 300 to have waterproofness, and the connector terminal 410 is provided on an upper surface thereof. It can be connected to the coaxial cable 500.

As shown in FIG. 4, the coaxial cable 500 connects the antenna 200 and the microwave unit 400. In the present invention, the connector 510 is installed at both ends of the coaxial cable 500. One antenna 200 and the connector terminals 210 and 410 of the microwave unit 400 may be fastened, thereby securing a transmission path between the antenna 200 and the microwave unit 400. .

The microwave apparatus 100 for transmission and mobile communication according to the present invention configured as described above has a coaxial cable 500 at the connector terminals 210 and 410 of the antenna 200 and the microwave unit 400 as shown in FIG. 4. The connector 510 can be connected to the microwave unit 400 and the antenna 200 simply by connecting and fastening as a screw.

Therefore, the operator is very easy and quick to install and repair the microwave device 100 for transmission and mobile communication due to the relatively light weight and easy installation, unlike the conventional waveguide, which is heavy. In particular, considering the peculiarity of the work being performed by a single worker at a high position such as a steel tower, a simpler and quicker wiring can be performed.

In addition, the coaxial cable 500 is a structure coated with a material such as synthetic resin or rubber, the coupling is made by the connector 510 not only greatly improves waterproofness and airtightness, but also compared to the waveguide, the cost of purchase Since it is inexpensive, the cost is greatly reduced, and since a sealing member such as a separate packing is unnecessary, the number of parts is reduced and the cost is reduced.

Furthermore, as shown in FIG. 2, the present invention has a plate-like appearance of the antenna 200 and the heat sink 300, and the microwave unit 400 is installed to be in close contact with the heat sink 300. And trends. Therefore, the present invention can be installed and separated more easily and easily by the operator than the existing, thereby greatly improving the installation and maintenance workability.

In addition, the microwave device 100 of the present invention, as shown in FIG. 3, since the pad 600 of nickel and silicon coated with graphite is installed on the back surface of the heat sink 300, electromagnetic interference or Electromagnetic Interference (EMI) and electromagnetic compatibility (EMC, ElectroMagnetic Compatibility) shielding effect can be obtained, it is possible to prevent malfunction or performance degradation due to waterproof and external electromagnetic waves.

On the other hand, this embodiment of the present invention is only to describe a preferred example, the scope of the present invention is not limited to such, and can be changed as appropriate within the scope of the same idea.

As described above, the present invention connects the antenna and the microwave unit through a coaxial cable, thereby greatly reducing the cost of connecting the transmission path, and reducing the weight and number of parts, thereby improving workability of a single worker. That has a very useful effect.

In addition, the present invention can realize a thin and light weight due to the plate-type antenna and the heat sink, thereby significantly improving the installation and detachment workability of the microwave device.

In addition, the present invention has a very useful effect of increasing the waterproof performance of the antenna and the heat sink with the coaxial cable is installed through the pad, and to prevent malfunction and performance degradation through electromagnetic shielding.

Claims (4)

In the device for transmitting and receiving microwaves, An antenna 200 having a connector 210; A heat sink 300 having holes 310 formed therein; A microwave unit 400 having a connector 410; Coaxial cable 500 connecting the antenna 200 and the connector 210, 410 of the microwave unit 400 Microwave device for transmission and mobile communication, characterized in that consisting of. The microwave apparatus for transmission and mobile communication according to claim 1, wherein the antenna (200) and the heat sink (300) are formed in a plate type so as to be close to each other with the microwave unit (400). The microwave for transmission and mobile communication according to claim 2, further comprising a pad groove 320 in the hole 310 of the heat sink 300, and a pad 600 having an electromagnetic shielding function. Device. The microwave device for transmission and mobile communication according to claim 3, wherein the pad 600 is made of a silicon material including nickel coated with graphite.

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