CS217093B1 - Broadband grounded transmitting antenna - Google Patents

Abstract

The invention aims to solve the problem of an antenna, the impedance profile of which, within wide limits, is adaptable to 50 ohms, is obtained by electrical use of the structure of existing mechanical anchors, with minimal additions. At the same time, the entire antenna insulation equipment is to be protected against the effects of atmospheric electricity by directly grounding all antenna elements. The basis of the invention is that each upper anchor is connected conductively to the top area of the antenna mast at the upper end and in the lower part is connected by a conductive coupling with the lower part of the lower anchor, which is provided with an upper anchor insulator in the left part between the attachment of the lower anchor to the antenna mast and the connection of the power supply conductor to the lower anchor.

Description

The invention relates to a broadband grounded transceiver beam anchors connected to the grounded mast and to the anchor block via anchor insulators.

In the case of transmitting antennas and grounded mast are known similar types of antennas, as not. side-powered antenna, stacked unipol e cage-like unipol, which are anchored by anchors, divided by insulators. These antennas are described not. in Henry Jaeik: Netenna Engineoring Handbook,

Uc Orsw Hill Book Company Inc., New York 1961.

A common drawback of these solutions is that they have acceptable impedance values for proportional antenna heights greater than about 0.18, possibly having a complex design.

The above-mentioned drawbacks edatraise the broadband grounded transmit antenna of the present invention, wherein each top anchor is conductively connected at the top end of the antenna mast e at the bottom of the anchor block above the anchor block anchor insulator connected to the bottom of the bottom anchor. , which is provided with a game anchor insulator in its part between the attachment of the lower anchor to the antenna mast and the connection of the supply conductor to the lower anchor. ’

The main advantages of the solution according to the invention are that the antenna uses a grounded anchorage mast without a foot insulator and that its impedance waveform, which is adaptable to 50 ohms within wide limits, is obtained by electrically exploiting the structure of existing mechanical anchors with minimal accessories. At the same time, the entire antenna insulation kit is protected from the effects of atmospheric electricity by directly grounding all the elements of the brightness antenna. The number of insulators used is small and the design of the antenna is simple.

The invention will be explained in more detail below with reference to an exemplary embodiment in connection with the drawing. .

FIG. 1 schematically illustrates an antenna according to the invention, and FIG. 2 schematically illustrates a possible variant of the embodiment, wherein for the sake of clarity there are shown one pair of anchors for anchoring in one direction.

The antenna consists of a grounded antenna mast 1 which is anchored in two levels in three or four directions by means of the upper anchor 2 and the lower anchor. ^the anchor bolt is conductively connected to the antenna mast 4 by its gaming boar, in the cladding below its top and on the left-hand part it is fastened to the ketva blau 4 via the anchor insulator 4. The lower anchor 4 is attached at its upper end to the middle part of the antenna mast 4 and is fastened to the anchor block g by the anchor insulator 6 at its lower end. The upper anchor line 2 and the lower anchors 4 are conductively connected to each other by The anchor insulators 4 securing the upper anchor 2 and the lower anchor 4 to the anchor block 6 and between the conductive coupling 6 and the anchor block 2 are ^not connected to the lower anchor. of the antenna mast £. The lower anchor 4 is provided with an upper anchor insulator 12 in the rod defined by the attachment of the lower anchor 3 to the antenna mast 1 and the supply conductor 4 to the lower anchor 12. The individual supply conductors 5 corresponding to the three or four anchor directions used are between In the area of connection to the insulators 8, they are connected to each other by means of an equipotential bus g, on which the power box 10 is also placed.

Antenna is fed by an unmarked voltage source against itself in its antenna power line 10 which generates a current flowing through the circuit consisting of the power conductor 2> lower part of the lower anchor 2, the conductive coupling 6, the upper anchor 2 with the antenna mast 1. Radiation effect The currents flowing in the individual elements of the antenna partially compensate each other under the influence of the superposition, thus creating the resulting current siege of the antenna, which causes its radiation. The antenna is from the electrical point of view Broadband, multiple folded unipol ee series compensation and is functional in the range of 0.11 to 0.4 antenna height ratio.

Claims (1)

BACKGROUND OF THE INVENTION Lithrocope A grounded transmission antenna with 0 anchors connected both to a grounded antenna mast and anchor insulators to an anchor block, characterized in that each upper anchor (2) is connected at the upper end to a conductive top of the antenna mast (1) and in the lower part above the anchor insulator (4) of the anchor block (5) and connected by a conductive coupling (6) and to the lower part of the lower anchor (3), which is in its part between attaching the lower anchor (3) to the antenna mast (1) the supply conductor (7) to the lower anchor (3) provided with an upper anchor insulator (18).