KR100894108B1 - An antenna having a reflector function - Google Patents

Abstract

An antenna including functions of reflector is provided to make the mobile communication relay of the high gain as the antenna is built in a copy machine. An antenna(100) including functions of reflector comprises: a board(25) having a wave diffraction guard protrusion(21) formed in the bottom surface; A closure(26) of square pipe shape on the board; a reflector(20) having the wave diffraction guard protrusion whose lower part is narrow but upper part is wide, installed on the closure; a copy machine copying an electric wave, placed in the closure; a closure cover plate(35) placed the copy machine with being sealed; first four holes formed in the closure cover plate at a regular interval; second four holes(34) formed in the copy machine at a regular interval; and bolt four nuts passing through the closure cover plate, inserted into the second four holes, fixing a part of the copy machine.

Description

AN ANTENNA HAVING A REFLECTOR FUNCTION

The present invention relates to an antenna having a reflection function, and in particular, a copier is installed in the lower housing of the antenna to enable high-gain mobile communication relays with improved front and rear ratios, and a reflection function that facilitates impedance matching with a cable. It relates to an antenna having a.

In general, the antenna of the present invention is used for a mobile communication antenna. The substrate used for the antenna has the advantage of good propagation characteristics and delicate manufacturing. Dipole antennas are also widely used in mobile communication antennas.

In a dipole antenna such as a yagi antenna, an element installed inside the antenna has an alphabetic T shape, and is widely used for mobile communication relay by effectively radiating a supplied electric wave with vertical or horizontal polarization.

The reflector antenna is roughly divided into a horn antenna and a corner beam antenna.

However, when the conventional dipole antenna is inherent to the antenna of FIG. 2, its inherent impedance Z decreases rapidly, so that high-gain mobile communication cannot be realized, and impedance matching with a cable having a natural impedance Z of 50? ) Is not well done, there was a problem that the size is large.

On the other hand, the current mobile communication is making a lot of development, the development direction is miniaturization and simplicity.

That is, the size of the antenna is getting smaller, and the pursuit of easy production and easy installation. In addition, antennas with good radio wave radiation characteristics are preferred.

Due to this background, many antennas are being developed. Conventional antennas are large in size and large in size, and are made of an element made of a conductive material, which makes the production inconvenient and difficult to grasp the characteristics suitable for the purpose. There was also a bad problem.

In addition, the conventional antenna is a F / B (front and rear ratio) is bad because it is impossible to relay the close distance at the same frequency requires expensive additional equipment, there is a problem that interference occurs by the antenna and equipment.

Applicant of the present invention has already filed an invention similar to the present invention under the name "antenna using a plurality of reflectors (application number: 10-2007-0106096)", Figure 1 is a conventional antenna using a plurality of reflectors It is a perspective view which shows a structure.

As shown in FIG. 1, a conventional antenna using a plurality of reflectors is provided at a rear side of the radiator 4 at a predetermined interval and reflects the radio wave emitted from the radiator 4 to the front ( 6), the third reflecting plate (7), the rear of the third reflecting plate (7) which is installed flatly at a predetermined distance from the rear and reflects the radio wave radiated backward from the radiation section (4) for radiating the radio waves The fourth reflector plate (3) pursuing the F / B and high gain by reflecting the radio wave received directly from the outside to be installed inclined starting from the rear side located in the rear, starting at the rear surface and the fourth reflector plate (3) The fifth reflector 5 and the reflector 6 at regular intervals are installed at an inclined angle and serve to extinguish the residual radio waves passing through the fourth reflector 3 so that the F / B is very high. Installed and fed from the external Radiating part 4 for emitting a wave, and is provided in front of the radiating part 4 and consists of a wave guide part 2 for guiding forward and radio waves radiated forward from the radiator 4 forward. .

However, the conventional antenna using a plurality of reflectors configured as described above has a problem that the size of the reflector must be adjusted in order to improve the gain.

In addition, the antenna using the conventional multiple reflector has a problem that high-gain mobile communication cannot be realized and its size is large.

The present invention devised to solve the above problems is to install a copier in the lower case of the antenna to enable a high gain mobile communication relay with improved front and rear ratio, and has a reflection function that facilitates impedance matching with the cable. The object is to provide an antenna.

Antenna having a reflection function of the present invention for achieving the above object is a bottom plate having a wave diffraction prevention jaw formed on the bottom, the enclosure formed in a square tube shape on the bottom plate, the lower portion in the shape of an inverted square pyramid on the housing The upper part includes a reflector plate having a propagation prevention bump formed to be wider, a copying machine for radiating radio waves formed to be located at a predetermined portion in the enclosure, and a housing cover plate formed in a form in which the copying machine is built in the enclosure and then sealed.

The housing cover plate is formed with four first holes in a rectangular shape at regular intervals, four bolt nuts are inserted into the four first holes, the four bolt nuts are the bottom plate of the copier It is characterized in that the fixed coupling.

The copier has four second holes formed in a quadrangular shape at regular intervals, and four bolt nuts penetrating the housing cover plate are inserted into the four second holes, and the four bolt nuts The copier is fixedly coupled to a predetermined portion in the enclosure of the upper base plate.

The present invention constructed as described above has the effect of smaller size, larger gain, improved front and rear ratio, easy impedance matching with the cable, and low installation cost.

In addition, the present invention has the effect of improving the size and gain of the reflector a lot by adjusting the angle of the reflector.

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

2 is a perspective view showing the configuration of the antenna with a reflection function of the present invention, Figure 3 is an exploded perspective view of the antenna with a reflection function of the present invention.

In general, loop antennas include a CQ antenna, an XQ antenna, and an SXQ antenna of the present invention.

The CQ antenna is a loop antenna, which is more noise and higher gain than other directional antennas, and the gain of the first device is about 1.5 to 2 db.

XQ antennas are expanded cubical quad antennas, and CQ antennas are 1 wavelength loop circuits. XQ antennas are 2 wavelengths and are electrically isolated. db.

The SXQ antenna is a special antenna named by the inventor of the present invention by supplementing and improving the problem of fabrication adjustment gain of the XQ antenna. The SXQ antenna simultaneously generates four polarizations each having a 45 degree difference in polarization direction, and is refracted and diffracted. It is easy to remove the hearing loss.

When the SXQ antenna, which is the antenna 100 having the reflection function of the present invention, is installed in the air, its intrinsic impedance Z is 2 kΩ to 3 kΩ, but inherent in the antenna 100 of FIG. Since impedance Z is between 40Ω and 60Ω, impedance matching with a cable with native impedance Z of 50Ω is easy.

As shown in Figures 2 and 3, the antenna 100 with a reflection function of the present invention is a bottom plate 25 having a radio wave diffraction preventing jaw 21 formed on the bottom, a square tube over the bottom plate 25 Reflector plate 20 having a wave diffraction preventing jaw 21 formed so that the lower portion is narrower and the upper portion is wider in the shape of an inverted pyramid on the enclosure 26. It includes a copier 30 for radiating radio waves formed so as to be installed in a certain part of the body, the housing cover plate 35 is formed in a form that seals the copier 30.

Four housings 36 are formed in the housing cover plate 35 in a rectangular shape at regular intervals, and the four bolt nuts 37 are formed by the four first holes 36. Is inserted is characterized in that the copier 30 is fixedly coupled to the base plate 25 upper housing.

The copier 30 has four second holes 34 formed in a quadrangular shape at regular intervals, and the four penetrating the housing cover plate 35 through the four second holes 34. Four bolt nuts 37 are inserted to fix the copier 30 to a predetermined portion in the upper housing of the bottom plate 25.

The enclosure 26 and the reflector 20 may be made of aluminum.

The housing 26 and the reflecting plate 20 described so far reflect the radio waves emitted from the copier 30, and their reflectance is very high, and the front and rear ratio is very high.

In addition, the antenna connector 17 is inserted from the inside of the antenna 100 through the antenna connector installation hole 22 and is connected to an external lead wire, and the antenna connector 17 is fixed through the connector fixing member 24. Lose.

Figure 4 (a) is a perspective view showing the configuration of the copying machine which is part of the antenna using the reflector of the present invention, Figure 4 (b) is assembled integrally installed in accordance with the impedance matching point hole of the copying machine on Figure 4 (a) It is a figure of installation state of the connector 17 and the balun 15. FIG.

As shown in FIGS. 4 (a) and 4 (b), the copier 30 forms a plate and is formed on a substrate 13 made of resin, and formed on the upper surface of the substrate 13, and has a circular shape. An element 11 made of copper or aluminum, a short bar 16 shorting the ends of the two side-by-side elements 11 which are folded into the center portion of the element 11, two of which are turned into the center portion of the element 11; It is installed in the middle of the side of the element 11 and includes a balun 15 for feeding the radio wave, and an external introduction connector 17 connected to the balun 15 and coupled with the connecting connector 17 to supply the radio wave do. Since the copiers of FIGS. 4A and 4B are formed with two dipole antennas perpendicular to each other, the copier in the 45 ° direction is formed by not only two vertical polarizations perpendicular to each other but also a combination of polarizations formed in two dipole antennas. Polarization is formed.

The substrate 13 is a circuit board generally used, and a copper layer or an aluminum layer is usually formed on a plate such as synthetic resin or silicon.

The substrate 13 is installed parallel to the flat surface, the element 11 is formed on the upper surface.

The element 11 is formed in a shape in which a copper layer or an aluminum layer of the substrate 13 is separated from a circle, and the other side is separated and folded, thereby forming the element 11 through an etching operation. .

The short bar 16 serves to form the element 11 as a circuit, and at the electronic mating point of the element 11 that is bent in the circular shape of the element 11. The balun 15 and the connector 17, which are integrally assembled, are coupled to each other.

In addition, the antenna 100 in which the balun 15 and the connector 17 are integrally formed and coupled to each other should be installed in the impedance matching point hole 32 according to its characteristics.

The impedance matching point hole 32 is holes for finding the impedance matching point of the antenna 100, and the impedance matching point of the antenna 100 depends on the position of the impedance matching point hole 32. Is determined.

Radio waves are supplied to the external lead wire and transmitted to the element 11 to radiate radio waves.

The external introduction connector 17 is a special line used for high frequency, and serves to receive the radio wave generated by the radio wave generator and supply it to the balun 15.

5 is a view showing a state in which the copier on FIG. 4 (a) is installed on a lower surface of an antenna having a reflection function of the present invention, and FIG. 6 is a view showing the copier on FIG. 4 (a) having the reflection function of the present invention. It is sectional drawing which shows the state installed in the lower surface of an antenna.

As shown in Figure 5 and 6, it can be seen that the copying machine 30 in Figure 4 (a) is installed on the lower surface of the antenna 100 with a reflection function of the present invention, due to this configuration, By adjusting the angle of the reflector, the size and high gain of the reflector can be obtained.

In addition, as shown in FIG. 1, the antenna using the conventional multiple reflector of FIG. 1 uses a plurality of copiers, while the present invention can obtain a high gain even using a single copier.

1 is a perspective view showing the configuration of an antenna using a conventional multiple reflector.

Figure 2 is a perspective view showing the configuration of an antenna having a reflection function of the present invention.

Figure 3 is an exploded perspective view of the antenna with a reflection function of the present invention.

Fig. 4 (a) is a perspective view showing the configuration of a copying machine which is part of an antenna having a reflecting function of the present invention.

Figure 4 (b) is a state diagram of the connector and balun installed in accordance with the impedance matching point hole of the copier on Figure 4 (a).

Fig. 5 is a diagram showing a state in which the copier on Fig. 4 (a) is installed on the bottom surface of the antenna with a reflection function of the present invention.

Fig. 6 is a cross-sectional view showing a state in which the copier on Fig. 4 (a) is installed on the bottom surface of the antenna with a reflection function of the present invention.

<Description of Symbols for Main Parts of Drawings>

2: waveguide 3: fourth reflection plate

4: copy unit 5: fifth reflector

6: reflector 7: third reflector

20: reflector 21: radio wave diffraction bump

25: base 26: enclosure

30: copier

32: impedance matching point hole 34: second holes

35: housing cover plate 36: first holes

37: Bolt nut part (fixed part) 100: Antenna

Claims (5)

Bottom plate having a wave diffraction prevention jaw formed on the bottom, The enclosure is formed in the shape of a square tube on the base plate, Reflector plate having a wave diffraction bump formed in the shape of the inverted square pyramid on the enclosure, the lower portion is narrower and the upper portion is wider, Copiers are formed to be located in a predetermined portion in the upper plate housing, propagating four polarizations in which the electric field is inclined 45 degrees, respectively, Antenna with a reflection function comprising a housing cover plate formed in a form that seals the copier. The method of claim 1, The cover plate is formed with four first holes in the form of a rectangle at regular intervals, Four bolt nuts inserted into the four first holes; It is formed to include more And the four bolt nuts are fixed to the copier at a predetermined portion in the upper housing of the base plate. The method of claim 1, The copier has four second holes formed in a quadrangular shape at regular intervals, Four bolt nuts inserted into the four second holes through the housing cover plate; It is formed to include more The bolt nut is an antenna having a reflection function, characterized in that for fixing the copier to a predetermined portion in the upper plate housing. The method of claim 1, The enclosure and the reflector is an antenna having a reflection function, characterized in that made of aluminum. The method of claim 1, The antenna having a reflection function, characterized in that the impedance matching with the cable.

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