HU198356B - Microwave periscopic aerial system - Google Patents

Abstract

FIELD OF THE INVENTION The present invention relates to a microwave periscope antenna system, preferably for semi-mobile radio relay connections, wherein an electromagnetic reflective plane surface is provided on the upper part of the stable antenna tower. In the vicinity of the lower part of the antenna tower, a rotational parabolic antenna is positioned in the orientation directed to the surface of the mirror. In the microwave periscope antenna system according to the invention, the antenna tower (2) can be adjusted to the stable base (6) in horizontal and vertical directions and has a fixing device (7) that can be fixed in the set position. The rotary parabolic antenna (3) is attached to one of at least two fastening elements (5) formed in the support bracket (4) mounted on the bottom of the mast. An electromagnetic reflecting plane surface (1) mounted on the upper part of the antenna tower (2) is fixedly fixed, whereby the antenna tower (2) is mounted together with the rotary parabolic antenna (3) and the electromagnetic reflecting plane mirror surface (1) at all times. Figure 1 -1-

Description

The present invention relates to a microwave periscope antenna system, preferably for half mobile radio relay connections. In microwave point-to-point or point-to-multipoint connections (having a usable frequency band of 400 MHz to 40 GHz), the modulated signal produced by the microwave transmitter is transmitted to the antenna system via a power line / cable, which radiates from it 1 ... 100 km antenna system, where the signal is directed to the microwave receiver.

For microwave transceivers and receivers, fixed installation is closed, while for mobile connections, the design is outdoor. The required height of the antenna system should always be determined by the frequency band, landmarks, vegetation, distance, or distance between two geographical locations. wave propagation! parameters determined by statistics.

Depending on the frequency band, the following solutions are used to connect the antenna system to the microwave transceiver:

1) coaxial cable in the 400 MHz to 2 GHz frequency band,

2) A rectangular, circular, elliptical tube feed line is used in the frequency band 2 GHz, .40 GHz,

3) In the 2 GHz to 10 GHz frequency bands, for fixed installations, a periscope antenna system is used which is directed by a reflector plane mirror on the top of the tower and by adjusting the antenna on the ground.

Such literature data can be studied e.g. See Siemens: Planning and Engineering of Radio Relay Ltnks, pages 80, 84-86, and 142.

The microwave periscope antenna system of the present invention relates to the antennas used in the 2 GHz to 10 GHz frequency bands mentioned above under heading 3.

Known solutions for periscope antenna systems have the following disadvantages:

- they are slow and cumbersome to install, so they are only used in fixed (mainly postal) systems.

While the use of coaxial cables and tube feeds in the frequency bands mentioned above results in energy loss, microwave periscope antenna systems can be scaled to make the antenna system profitable. However, it takes a very long time to set up a profit, which may be a couple of weeks.

- Because the plane mirror on the antenna system tower or on top of it requires two-dimensional (3-dimensional) movement, its implementation is possible behind the plane mirror. This circumstance requires both a tower structure that allows climbing and movement, and requires a constant radio link. ground manager and both operators of the euphemism.

Adjusting the illuminating aijtenna at the bottom of the antenna system tower also requires dual movement. Thus, the number of connection setup variants is almost infinite. The degree of freedom of the system is 4x3 = 12. Since the setup process cannot in principle be convergent, successful setup is always random, which is only allowed with fixed antenna systems.

The microwave periscope antenna system of the present invention is intended to provide the following additional features over known antenna systems of similar function:

- the contact time of the microwave connections can be minimized.

- Can be mounted on low-load, low-weight antenna masts and assembled in a reproducible manner.

- Provides a stable connection even in extreme climatic conditions (wind, snow, rain, ice, etc.).

As a very important requirement, the gain of the microwave periscope antenna system according to the invention is the same as that of the most advanced antenna systems of the same purpose.

BACKGROUND OF THE INVENTION The present invention relates to a microwave periscope antenna system, preferably for semi-mobile radio relay connections, wherein an electromagnetic reflecting plane mirror surface is provided on the top of the stable antenna tower. In the vicinity of the lower part of the antenna tower, a rotating parabolic antenna is located on the surface of the plane mirror in a directed position.

The novelty of the microwave periscope antenna system according to the invention is that the antenna tower is adjustable horizontally and vertically to the stable base of the antenna system and can be fixed in a set position. The rotation satellite antenna is attached to one of at least two mounting brackets in the lower bracket mounted on the mast. The electromagnetic reflecting plane mirror surface mounted on the top of the antenna tower is fixedly mounted, so that the antenna tower is always adjustable together with the rotation paraboloid antenna and the electromagnetic reflecting plane mirror surface.

The antenna tower mounting structure is made up of a horizontal plain bearing and a vertical joint. The coarse adjusting element for the vertical reflection angle of the fixed fixed electromagnetic reflecting surface is formed by fasteners formed in the bracket. The vertical adjustment angle of the fixed reflection angle of the fixed electromagnetic reflecting surface consists of a fork eccentric located between the rotation paraboloid antenna and the anchoring element.

The most important advantages of the microwave periscope antenna system according to the invention are:

- very quick installation.

- All operations on the full set-up can be done on the ground.

- Both installation and antenna alignment are extremely fast and easy to operate due to ground-level adjustment.

- Lightweight design for low weight and easy mobilization.

The microwave periscope antenna system of the present invention is significantly more advantageous than the substantially smaller weight of the antenna mast compared to known antenna systems of similar function.

- There is a significant advantage in providing low cost operation based on the above.

An exemplary embodiment of the microwave periscope antenna system of the present invention will be described in more detail by reference to the drawings in which:

Figure 1 is a schematic view of a microwave periscope antenna system according to the invention,

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Figure 2 illustrates a console of a microwave periscope antenna system according to the invention, with a mounted antenna and a portion of the flame adjusting organ,

Figure 3 illustrates an exemplary structure of a horizontal actuator interposed between the antenna tower of a microwave periscope antenna system and the base of the invention.

As shown in Figure 1, the microwave periscope antenna system of the present invention is configured such that the retaining structure 7, which is connected to the stable base 6, is pivotable horizontally. An antenna tower 2 is attached to the mounting device 7, the upper part of which is provided with an electromagnetic reflecting plane mirror surface 1. The antenna tower 2 is fixed with an electromagnetic reflecting plane mirror surface 1 on its upper part. At the lower part of the antenna tower 2 is the bracket 4, on which there are three fixing elements 5, which can receive three rotating paraboloid antennas 3 as shown in Fig. 1. However, according to the distance between the three mounting elements 5, the angle of the radius of the rotating paraboloid 3 antenna reflected from the surface of the electromagnetic reflecting flat mirror 1 to the central fixing element 5 radiates with a center-positioning fine angle 1a. 1 on an electromagnetic reflecting plane mirror surface from where the shaking occurs at an angle of 1 lb. When the rotation paraboloid antenna 3 is connected to the mounting element 5 closer to the antenna tower 2, the left mounting structure 12a radiates with a fine adjustment angle to the electromagnetic reflecting plane mirror surface 1, whereby the radiation is produced at the reflection angle 12b. When the rotation paraboloid antenna 3 is connected to the left mounting element 5 shown in Fig. 1, radiation is transmitted to the electromagnetic reflecting plane mirror surface 1 at a fine adjustment angle 13a of the right mounting device 13a, from where the reflection takes place at the right reflection angle 13b.

Fig. 2 illustrates a rotation paraboloid antenna 3 mounted on a support bracket 4 with a fork-like eccentric 10 between the latter organs for vertical adjustment of the rotation paraboloid antenna 3.

3, the antenna tower 2 is connected to a stable pedestal 6 by means of a horizontal plain bearing 8 and a vertical joint 9, which allow both vertical and horizontal alignment.

The coarse adjusting member of the vertical reflection angle of the fixedly fixed electromagnetic reflecting plane mirror surface 1 is formed by the fastening elements 5 formed in the bracket 4. Adjustment of the vertical angle of reflection of the fixedly fixed electromagnetic reflecting plane mirror surface 1 is arranged between the rotation paraboloid antenna 3 and the mounting element 5

It consists of 10 forks eccentric.

The specifications of one embodiment of the antenna system according to the invention are as follows: Horizontal range: 4x90 °

Vertical adjustment range: ± 3 °

System gain: dB-1.5 ... + 1.5

Wind load: 100 km / h (operation)

Mirror mounting angle: (relative to mast) 45 ° ± i Directional width: ± 3 °

Claims (4)

·, G Claims 1. A microwave periscope antenna system, preferably for semi-mobile radio relay connections, wherein an electromagnetic reflecting plane mirror surface is located on the top of the stable antenna tower. In the vicinity of the lower part of the antenna tower 20, a rotational paraboloid antenna is located on the plane of the mirror mirror in a directional position, characterized in that the antenna tower (2) can be adjusted horizontally and vertically to the stable base (6) and 2g having a fastening device (7) which can be locked in the set position; The electromagnetic reflecting plane mirror surface (1) mounted on its upper part (2) is fixedly fixed so that the antenna tower (2) can be mounted together with the rotation paraboloid antenna (3) and the electromagnetic reflecting plane mirror surface (1) at all times. The microwave peris35 dome antenna system according to claim 1, characterized in that the antenna tower (2) has a fastening structure (7) made of a horizontal sliding bearing (8) and a vertical joint (9). The microwave periscope antenna system according to claim 1, characterized in that: 40, that the coarse adjusting member of the vertical reflection angle of the fixedly fixed electromagnetic reflecting plane mirror surface (1) is formed by the fastening elements (5) formed in the bracket (4). 4. The ₄ g turbulent periscope antenna system according to any one of claims 1 to ₄ , characterized in that the adjustable fork angle (10) between the rotation paraboloid antenna (3) and the fixing element (5) is arranged to adjust the vertical reflection angle of the fixed fixed electromagnetic reflecting plane mirror surface (1). .