JPH03145806A - Microwave band parabolic antenna system - Google Patents

Abstract

PURPOSE:To improve the electric performance without making useless any part a metallic body being a raw material by providing a folding part folded in a direction opposite to a reflecting direction to an outer circumferential ridge of a reflecting mirror formed rectangle and made of a steel metallic plate. CONSTITUTION:A folding part 14 folded in a direction opposite to a reflecting direction is formed to an outer circumferential part of a rectangular reflecting mirror 11 using a rectangular steel made metallic plate using an aluminum plate or a steel plate as a raw material. The strength to the deflection or distortion of the rectangular reflecting mirror 11 is ensured by the folding part 14. Moreover, When the rectangular size (CXD) of the rectangular reflection mirror 11 in the parabolic antenna system is made correspondent to a major diameter A and a minor diameter B of the reflecting mirror 1 in a conventional parabolic antenna, the aperture of the rectangular reflecting mirror 11 is clearly wider than the aperture of the conventional reflecting mirror 1, the gain characteristic is improved more than the spread of the aperture area and the waste of the metallic body in the manufacture is eliminated.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a microwave band parabolic antenna device used, for example, as a satellite broadcasting antenna or a satellite communication antenna.

[Prior Art] Conventionally, as a parabolic antenna for satellite broadcasting, an offset type parabolic antenna is mainly used.

Figure 5 shows the external configuration of a conventional offset parabolic antenna. In the figure, 1 is a reflector that receives and converges satellite broadcast radio waves, and 2 is a reflector that receives satellite radio waves converged by this reflector 1. A primary radiator; 3 is a converter that performs frequency conversion, amplification, etc. of the satellite signal received by the primary radiator 2; 4 is a stay that fixes the -order radiator 2 at the reflection convergence position of the reflector 1; .

[Problems to be Solved by the Invention] FIG. 6 shows the manufacturing process of the reflecting mirror 1 in the above-mentioned offset parabolic antenna. Since the rectangular metal body 5 corresponding to the minor axis B is used as the raw material, the remaining metal bodies 5a to 5d in the shaded portion (21.6%) are treated as waste material.

On the other hand, in the case of a center-feed parabolic antenna,
The reflecting mirror is constructed in a perfect circular shape (A-B), but in this case as well, a square metal body is used as the raw material.
The corners are treated as waste material.

The present invention has been made in view of the above-mentioned problems, and an object of the present invention is to provide a microwave band parabolic antenna device that can improve electrical performance without creating unnecessary parts in a metal body serving as a raw material. purpose.

[Means for solving the problem] A microwave band parabolic antenna device according to the present invention includes:
A reflecting mirror made of a steel metal plate and formed into a rectangular shape, a bent portion formed on the outer peripheral edge of the reflecting mirror in a direction opposite to the reflecting direction, and a front surface of the reflecting mirror in the reflecting direction. The primary radiator is located at the primary radiator.

[Function] In other words, for example, in the case of an offset type, by using a rectangular steel metal plate as it is as a rectangular reflecting mirror, it is possible to eliminate unnecessary parts and increase the reflection aperture area, thereby improving the gain. It will be possible to achieve this goal.

[Example〕 An embodiment of the present invention will be described below with reference to the drawings.

Figures 1 (A) to (C) respectively show the external configuration, side configuration, and front configuration of the microwave band parabolic antenna device. A rectangular reflecting mirror 12 made of a metal plate as a raw material is erected from the center of the rectangular reflecting mirror 11, and a rear-feed-type secondary radiator whose emission position is set as the convergence position of the reflected radio waves in the front in the reflection direction. 13 is a converter that is installed upright from the center of the back surface of the rectangular reflecting mirror 11 in succession to the primary radiator 12;
A bent portion 14 is formed on the outer peripheral edge of the light emitting diode 1 in a direction opposite to the direction of reflection.

Here, the strength against bending and distortion of the rectangular reflecting mirror 11 in the parabolic antenna device is ensured by the bending portion 14.

FIG. 2 shows the installation state of the microwave band parabolic antenna device. In this case, one side of the rectangular reflector 11 (
By fixing the long sides) with suction cups 16a and 16b, adjusting the rotation angle of the mounting bracket 15 provided on the back side of the reflector 11, and selecting the fixing position of the suction cup 16c at the tip, the reflection The reflection elevation angle of the mirror 11 is set in accordance with the arrival direction of the satellite radio waves.

That is, when the rectangular dimension (CXD) of the rectangular reflector 11 in the parabolic antenna device with the above configuration is made to correspond to the major axis A and the minor axis B of the reflective mirror 1 in the conventional parabolic antenna (FIG. 5), the rectangular reflective The aperture area of vL11 is clearly larger than that of the conventional reflecting mirror 1.

Therefore, in the parabolic antenna device according to this embodiment using the rectangular reflecting mirror 11, its gain characteristics are improved in accordance with the expansion of the aperture area.

Further, in this case, by using a rectangular steel metal plate having the rectangular dimensions (CxD) as the raw material, there is no waste of metal bodies during manufacturing.

Fig. 3 shows the relative directivity characteristics of the microwave band parabolic antenna device, and Fig. 4 shows the directivity level corresponding to the planar area of the parabolic antenna device. If the long side direction is the H plane of the rectangular reflecting mirror 11 and the short side direction is the E plane, the directivity level corresponding to the outer peripheral end 14a of the rectangular reflecting mirror 11 is 8 to 1.
It is possible to obtain a directivity characteristic that is uniformly within the 0 dB range, wide in the H plane and sharp in the E plane, and the directivity level, which was conventionally 8 dB, can be improved to approximately 9 dB. can.

In the above embodiment, the rear feed type primary radiator 12
However, this -order radiator may be, for example, a circular or square horn antenna, a helical antenna,
Diagonal antenna, multimode antenna, corrugated horn antenna, slot antenna, patch antenna,
Alternatively, a linear antenna or the like may be used.

Furthermore, as for the type of parabolic antenna, in addition to the center foot type and the offset type, a Cassegrain type or a D'Agorian type may be used.

[Effects of the Invention] As described above, according to the present invention, there is a reflecting mirror made of a steel metal plate and formed in a rectangular shape, and the outer peripheral edge of the reflecting mirror is bent in a direction opposite to the direction of reflection. The formed bent portion;
For example, in the case of an offset type, a rectangular steel metal plate can be used as it is as a rectangular reflector, eliminating unnecessary parts. In addition, the reflection aperture area is widened and the gain can be improved, so we provide a microwave band parabolic antenna device that does not create unnecessary parts in the metal body that is the raw material and has improved electrical performance. can.

[Brief explanation of the drawing]

FIGS. 1A to 1C are an external view, a side view, and a front view showing the configuration of a microwave band parabolic antenna device according to an embodiment of the present invention, and FIG. 2 is a diagram showing the microwave band parabolic antenna described above. A diagram showing the installation state of the device, TS3 diagram is a diagram showing the relative directivity characteristics of the microwave band parabolic antenna device, FIG. 4 is a diagram showing the directivity level corresponding to the planar area of the microwave band parabolic antenna device, Fifth
The figure is an external view showing the configuration of a conventional offset parabolic antenna, and FIG. 6 is a diagram showing the state of manufacturing and processing of a reflector in the conventional offset parabolic antenna. DESCRIPTION OF SYMBOLS 11... Rectangular reflecting mirror, 12... Rear feed type - order radiator, 13... Converter, 14... Bending part,
15...Mounting metal fittings, 16a-16c...Suckers.

Claims (1)

[Claims] A reflecting mirror made of a steel metal plate and formed into a rectangular shape, a bent portion formed on the outer peripheral edge of the reflecting mirror in a direction opposite to the reflecting direction, and a front surface of the reflecting mirror in the reflecting direction. A microwave band parabolic antenna device comprising a primary radiator located at