RU199377U1 - Antenna device - Google Patents

Abstract

The utility model relates to the field of antenna technology. The technical result is the creation of a dual-band antenna device located on one mast and having circular antenna patterns in the horizontal plane for each range. The specified technical result is achieved by the fact that the antenna device containing the first lightning-proof coaxial half-wave vibrator installed on the carrier pipe, consisting of two arms, in the form of coaxial cylindrical metal cups, the bottom of which is connected to the carrier pipe passing through the longitudinal axis of the cups, inside the carrier pipe a cable is placed connecting the said first half-wave vibrator with the first high-frequency connector installed on the base of the antenna device; a second lightning-proof coaxial half-wave vibrator is additionally installed on the carrier pipe coaxially with the first half-wave vibrator, consisting of two arms, in the form of coaxial cylindrical metal glasses, the length of each of the said cups is not equal to the length of each coaxial cylindrical metal cup of the first half-wave vibrator, and a second cable is placed inside the carrier pipe connecting the said second half-wave vibrator with a second high frequency connector. 1 ill.

Description

The device belongs to the field of radio engineering, in particular, to antenna technology, and can be used to operate as part of VHF and UHF radio communications for stationary radio stations.

The lack of free space on the object (for example, the roof of a building) for placing single-band antennas (each on its own mast), as well as the desire to avoid the mutual influence of antennas on each other and distortion of their radiation patterns (DP) when placing two or more antennas on one mast, leads to the use of dual-band antennas.

Of the known, structurally the closest to the proposed one is the antenna (lightning-proof coaxial half-wave vibrator), described in the book Soloviev V.I. Marine antennas. P. 191, Fig. 6.3 b. The vibrator's arms are made of two coaxial metal cylinders connected at the top with a supporting tube.

However, this antenna is single-band.

The task of the proposed technical solution is to create a dual-band antenna device located on one mast and having circular AP in the horizontal plane for each band.

The task is achieved by the fact that the antenna device containing the first lightning-proof coaxial half-wave vibrator installed on the carrier pipe, consisting of two arms, each of which is made in the form of a coaxial cylindrical metal cup, the bottom of which is connected to the said carrier pipe passing through the longitudinal axis of the glass , a cable is placed inside the carrier pipe connecting the said first half-wave vibrator with the first high-frequency connector installed on the base of the antenna device; on the said carrier tube coaxially with the first half-wave vibrator, a second lightning-proof coaxial half-wave vibrator is additionally installed, consisting of two arms, each of which is made in the form coaxial cylindrical metal glass, while the length of each of the said glasses, which are respectively the first and second branches of the second half-wave vibrator is not equal to the length of each coaxial cylindrical device the thallic glass of the first half-wave vibrator, and inside the said carrier tube there is a second cable connecting the said second half-wave vibrator with the second high-frequency connector.

The proposed device is illustrated by a drawing.

The antenna has a base 1, which serves as its lower part for attachment to the mast (the mast is not shown in the figure). On the upper part of the base 1, a carrier pipe 2 and a dielectric casing 3 are fixed. On the base there are high-frequency connectors 4 and 5, connected by cables 6 and 7, respectively, passing inside the carrier pipe 2, with lightning-proof coaxial half-wave vibrators 8 and 9, respectively, operating in their own frequency range.

The upper half-wave vibrator 8 operates as a single-band antenna, as it is excited by its coaxial line. The inner surface of the upper 10 and lower 11 arms of the vibrator 8 together with the outer surface of the carrier pipe 2 act as a metal insulator, isolating the end of the lower arm of the vibrator 6 from the carrier tube 2.

The lower half-wave vibrator 9 also works as a single-band antenna, since it is excited by its coaxial line. The inner surface of the upper 12 and lower 13 arms of the vibrator 9 together with the outer surface of the carrier pipe 2 act as a metal insulator, isolating the end of the lower arm of the vibrator 9 from the carrier tube 2.

Thus, the two half-wave vibrators 8 and 9 do not affect each other and work independently, and due to their location one above the other, they have a DP close to circular in the horizontal plane.

The dielectric casing 3 serves for additional fastening and balancing of the supporting pipe 2 and coaxial half-wave vibrators 8 and 9.

The proposed design makes it possible to create a dual-band antenna device located on one mast and having close-to-circular AP in the horizontal plane for each band.

Claims (1)

An antenna device containing the first lightning-proof coaxial half-wave vibrator installed on the carrier pipe, consisting of two arms, each of which is made in the form of a coaxial cylindrical metal cup, the bottom of which is connected to the said carrier pipe passing through the longitudinal axis of the cup, a cable is placed inside the carrier pipe, connecting the said first half-wave vibrator with the first high-frequency connector installed on the base of the antenna device, characterized in that a second lightning-proof coaxial half-wave vibrator is additionally installed on the said carrier pipe coaxially with the first half-wave vibrator, consisting of two arms, each of which is made in the form of a coaxial cylindrical metal glasses, while the length of each of the said glasses, which are respectively the first and second arms of the second half-wave vibrator, is not equal to the length of each coaxial cylindrical metal glass the first half-wave vibrator, and a second cable is placed inside the said carrier pipe connecting the said second half-wave vibrator with the second high-frequency connector.

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