JPS5816642B2 - radome - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a triangular panel type radome.

A triangular panel type radome is known as a radome for protecting antennas from various weather conditions.

Such a triangular panel type radome is a polyhedral shape that is inscribed or circumscribed in a sphere by combining a large number of panels with a dielectric thin film on a triangular metal frame, and each panel has the same size. is common.

Therefore, if an attempt is made to reduce the amount of beam deviation from the antenna, the cost of the radome will increase significantly and the transmittance of radio waves will decrease considerably.

SUMMARY OF THE INVENTION An object of the present invention is to provide a radome in which the amount of beam deviation is reduced by a width while suppressing an increase in cost and a decrease in radio wave transmittance.

Examples will be described in detail below. FIG. 1 is a detailed explanatory diagram of the present invention, and FIG. 2 is a perspective view of the panel.

The radome 1 is fixed to a base 2 made of concrete or iron and protects the antenna 3 on the rotating table 4 from various weather conditions.The radome 1 is fixed to a base 2 made of concrete or iron and protects the antenna 3 on the rotating table 4 from various weather conditions. When d, then HoD>1.
It is configured in a polyhedral shape inscribed in a sphere with a diameter of 4d.

As shown in FIG. 2, the panel 5 has a dielectric film 7 provided on a triangular metal frame 6 with width w1 thickness tl and lengths 11, 12, 13 (11=12=43). The length of each side of the panel placed in range A within +D/3 from the horizontal plane passing through the center of the sphere in which 1 is inscribed: 11 mz 1
2 m% ls m is the length of each side of the panel placed in other parts '10% 120% 130 0.3~
0.8 times.

The length of each □ side mentioned above shall be at least 10 times the length of the used wave lrn, 2771% 3m, and the length of each side shall be at least 10 times the length of the used wave lrn, 2771% 3m. The length is selected.

The smaller the lengths 11, 12, and 13 of each side of the panel are, the more uniform the distribution of the metal frame 6 projected onto the antenna aperture plane will be when the antenna is rotated, so the beam deviation will be smaller. It is something.

However, on the other hand, the transmittance decreases and the cost increases.

Therefore, the panels other than range A, which covers all or most of the aperture surface of the antenna 3, have dimensions that can minimize the cost and maximize the transmittance, that is, the length of each side is 11o.
. The dimensions shall be selected in accordance with the following.

The width W and thickness t of the metal frame 6 of the panel in the range of d/2 (d - diameter of the antenna aperture) or less from the horizontal plane passing through the center of Manjushri are made larger than other parts of the panel,
Thereby, the 7-dome 10 strength can be increased without affecting the radiation characteristics of the radio waves.

Also, the panel size ratio 'im/110 x 1277L/
By plotting 12(h'3rpt lso on the horizontal axis and the beam deviation (relative value) and transmittance (coupling) on the vertical axis, the results shown in FIG. 3 were obtained.

In the figure, curve a indicates beam deflection, and curve a indicates transmittance.

Therefore, if the above-mentioned size ratio is 0.3 or less, the transmittance becomes extremely small, and if it is 0.8 or more, the transmittance becomes high, but the beam deviation becomes high.

For this reason, the size ratio is preferably in the range of 0.3 to 0.8.

As explained above, in a triangular panel type radome, the dimensions of each side of the panel in the part where the antenna 3 rotates and most of the radio waves radiated from the antenna 3 pass through are adjusted to the dimensions of the other parts. By making the dimensions smaller than the dimensions of each side of the panel, the distribution of the metal frame of the panel projected onto the antenna aperture is made uniform, thereby reducing the amount of beam deviation.

Further, by setting the reduction magnification to 0.3 to 0.8, the increase in cost is extremely small, and the decrease in transmittance is also small.

Furthermore, the width W and thickness t of the metal frame of the lower panel of the radome
By making the metal frame larger than the metal frame of the other parts of the panel, the strength of the radome can be increased.

[Brief explanation of the drawing]

FIG. 1 is a detailed explanatory diagram of the present invention, FIG. 2 is a perspective view of a panel, and FIG. 3 is a curved diagram of the relationship between size ratio, beam deflection, and transmittance. 1 is a radome, 2 is a base, 3 is an antenna, 4 is a rotating table, 5 is a panel, 6 is a metal frame, and 7 is a dielectric thin film.

Claims (1)

[Claims] 1. A triangular panel type in which a triangular metal frame and a dielectric thin film are combined to form a polyhedral shape inscribed in a sphere with a diameter at least 1.4 times the diameter of the antenna aperture. In the radome, the length of each side of the panel within ±D/3 centered on the horizontal plane passing through the center of the sphere,
A radome characterized in that the length of each side of the other parts of the panel is 0.3 to 0.8 times longer. 2. In a triangular panel type radome constructed by combining panels provided with a dielectric thin film on a triangular metal frame to form a polyhedral shape inscribed in a sphere with a diameter at least 1.4 times the diameter d of the antenna aperture. , the length of each side of the panel within ±D/3 centered on the horizontal plane passing through the center of the sphere is 0.3 to 0.8 times the length of each side of the panel in other parts. A radome characterized in that the width and thickness of the metal frame of the panel in the range of d/2 or less from the horizontal plane passing through the center of the front sphere are larger than those of other parts of the panel.