SU1467617A1 - Shielding adaptor for rod aerial with counterweight - Google Patents

Abstract

The invention relates to antenna technology. The purpose of the invention is to expand the working frequency band and improve the shielding properties. The shielding nozzle for a whip antenna 6 with a counterweight 4 includes a housing 1 with a controversial flange 2, a gasket 3 with a hole 5, radial grooves 7 with inserts 8 of magnetized material. The inserts 8, mounted in the grooves 7 of the flange 2, tightly press the gasket 3 of flexible non-magnetic conductive material to the surface of the counterweight 4 made of ferromagnetic material. This leads to a decrease in the wave resistance of the radial waveguide formed between the gasket 3 and the surface of the counterweight 4, and consequently, to the expansion of the working frequency band and the improvement of the shielding properties. The attachment of claim 2 of the flap is characterized by the introduction of additional inserts of magnetized material in the additionally made grooves of flange 2. These inserts press the peripheral part of the strip 3 to the counterweight surface 4, which further reduces the wave resistance of the radial waveguide, -1 ffl, 2 silt S

Description

Pha.1

from ferromagnetic material. This leads to a decrease in the wave resistance of the radial waveguide formed between the gasket 3 and the surface of the counterweight 4, and, consequently, to the expansion of the working frequency band and the improvement of the shielding properties.

Additional inserts 10 of magnetized material, installed-. additional grooves 9

(Fig. 2), the peripheral part of the J5 masonry 3 is pressed against the surface of the counterweight 4, which leads to an additional decrease in the wave resistance of the radial waveguide.

11467617

The invention relates to antenna engineering and can be used for. switching on a whip antenna with a counterweight to a closed channel during operation, when the radio emission on the air is undesirably on the spot when checking the complex of radio communication equipment at the sites together with the whip antenna

The purpose of the invention is to expand the working frequency band and improve the shielding properties.

FIG. 1 shows a shielding nozzle for a whip antenna with a counterweight, a longitudinal section in FIG. 2, a support flange of the shielding nozzle, a bottom view,

Claims (2)

The screen is equipped with a counterbalance whip antenna with 1 with 1 supporting flange 2 made- 20 Formula according to the invention of a conductive material 3 gasket with a supporting flange and a pro- - it is 5 for insertion of a whip antenna 6. a pressing case with a support flange, you- Gasket 3 is made of flexible, not-25 of conductive material, magnetic conductor material and galvanically connected to the external end of the support flange 2. the bottom surface of the support flange. 2, 1 radial grooves 7 are extended into each of the working band extensions, a part of which is inserted into 8 of ™ t and improved shielding properties, the magnetized material and the length of each of which is equal to a quarter of the average wavelength working range, and the counterweight 4 is made of ferromagnetic material. On the peri-: meter of the inner surface of the support flange 2 (FIG. 2), between the ends of the radial grooves 7, additional grooves 9 are made into each of which additional liner 10 of magnetized material is inserted. Screened attachment for a whip antenna with a counterweight works as follows. W, and 1 with the fact that along the perimeter of the inner inserts 8 of the magnetized, material-inner surface of the reference opening set in a gasket between the support flange and the counterweight, provided with a hole for insertion of the whip antenna, the gasket is made of flexible non-magnetic conductive material and is galvanically connected to the external face of the supporting flange, radial grooves are made on the internal surface of the supporting flange, in each of The insert is made of a magnetized material and the length of each of which is chosen equal to a quarter of the average wavelength of the working range, and the counterweight is made of a ferromagnetic material. 2. The nozzle, pop. 1, the distinctive end of the radial grooves is made with additional grooves, into each of which an additional contribution of magnetized material is inserted. . the grooves 7 of the support flange. 2. Press the gasket 3 of flexible non-magnetic conductive material tightly to the surface of the counterweight 4., made of a ferromagnetic material. This leads to a decrease in the wave resistance of the radial waveguide formed between the gasket 3 and the surface of the counterweight 4, and, consequently, to the expansion of the working frequency band and the improvement of the shielding properties. Additional inserts 10 from magnetized material, installed in additional grooves 9 (Fig. 2), the peripheral part of the gasket 3 is pressed against the surface of the counterweight 4, which leads to an additional decrease in the wave resistance of the radial waveguide.  The invention of the shielding nozzle for a whip antenna with a counterweight, containing a housing with a supporting flange made of conductive material, extending the working band of the frequency t and improving the shielding properties a gasket between the support flange and the counterweight, provided with a hole for insertion of the whip antenna, The invention of the shielding nozzle for a whip antenna with a counterweight, containing a housing with a supporting flange made of conductive material, extending the working band of the frequency t and improving the shielding properties W, and 1 with the fact that along the perimeter of the inner strip is made of a flexible non-magnetic conductive material and is galvanically connected to the outer end of the supporting flange, radial grooves are made on the inner surface of the supporting flange, in each The insert is made of a magnetized material and the length of each of which is chosen equal to a quarter of the average wavelength of the working range, and the counterweight is made of a ferromagnetic material. 2. Attachment, pop. 1, is different inside the surface of the reference fly At the ends of the radial grooves, additional grooves are made, each of which has an additional insert made of magnetized material. . ten Fie.2