RU35476U1 - TRANSPORT SATELLITE EARTH STATION - Google Patents

Description

TRANSPORT EARTH STATION OF SATELLITE COMMUNICATION.

The utility model relates to antenna designs, namely, to transported satellite communications earth stations located on trackless vehicles.

A well-known mobile television satellite station (J. “Television and radio broadcasting - No. 8 (28) December 2002), designed for broadcasting and operational organization of live broadcast from the scene. This station contains a car chassis in the form of a bus, an antenna post located on its roof, equipped with lifting and pointing drives with an equivalent diameter of 1.2 m, as well as a station control system located in the cabin. All these essential features, except for the equivalent diameter of 1.2 m, are common with the proposed technical solution.

The disadvantages of this station is that the station with an equivalent antenna diameter of less than 1.6 m does not allow you to receive the flow of information that provides the solution to the basic tasks of a bi-directional communication line, i.e. high-quality telecast, telephone channels on an industrial scale, high-speed Internet connection channel, etc. In addition, an antenna with an equivalent diameter of less than 1.6 m is not possible.

receiving signals from satellites located near the horizon, and the cost of operating satellite resources is much higher. As a rule, to solve the above problems, stationary satellite communications earth stations with an equivalent antenna diameter of at least 2.5 m are built.

The technical problem, which the proposed utility model is aimed at, is to ensure a high transmission speed and a wide range of types of information both for transmission and reception, based on a mobile and rapidly deployable station.

To solve the aforementioned technical problem in a transported satellite communications earth station containing a car chassis in the form of a bus, an antenna post located on its roof with aerial elevation and pointing drives, a station control system located in the cabin, a satellite antenna has an equivalent diameter of 1.6 to 2, 5 meters, the bus body additionally contains power elements to which the antenna base is attached, as well as jacks located in the front and rear of the chassis, with at least rear legs taken out of the area of the bus.

In addition, to ensure the exact orientation of the antenna, the lift and pointing actuators of the antenna are made in the form of linear electromechanisms containing an electric motor connected by a mechanical transmission with a retractable rod.

the speed of data reception and transmission when using generally accepted transmitter powers (including on satellites), and the upper limit of 2.5 meters is determined by vehicle size limits, according to the rules of the road.

Distinctive features of the proposed technical solution from the known (prototype) in that the satellite antenna has an equivalent diameter of 1.6 to 2.5 meters, the bus body additionally contains power elements to which the antenna base is attached, as well as located in the front and rear parts of the chassis of the support in the form of jacks, while at least the rear supports are moved outside the area of the bus, and, in addition, the elevator and pointing drives of the antenna are made in the form of linear electromechanisms containing electric motors tor connected to a mechanical transmission with a retractable rod.

Due to the presence of these distinguishing features, the following technical result is achieved - a significant increase in the speed of information transfer providing a solution to the main tasks of a bi-directional communication line, i.e. high-quality telecast, telephone channels on an industrial scale, high-speed Internet connection channel, etc. In addition, this station provides reception of signals from satellites located near the horizon. At the same time, it works both on reception and transmission, while maintaining the properties of mobility and deployability in the working position.

The described device is illustrated by drawings of FIG. 1-3.

In FIG. 1 shows a general view of a transported satellite earth station.

In FIG. 2 shows a section of a communication station along the rear power elements and supports.

In FIG. 3 is a drawing of a linear electric drive.

Depicted in FIG. 1, 2, the transported satellite earth station contains a car chassis in the form of a bus 1, an antenna post 2 with lift drives 3 and 4 antenna pointing 5 located on its roof, a station control system (not shown) located in the cabin, and a satellite antenna 6 has an equivalent diameter of 1.6 to 2.4 meters, the bus body contains power elements 7 to which the base of the antenna 5 is attached, as well as supports 8 and 9 located in the front and rear of the chassis in the form of jacks, and at least least rear support 9 made h 1. Square bus limits lifting actuators 3 and 4 pointing the antenna 5 (FIG. 3) are in the form of linear electric mechanisms comprising, for example, an electric motor 10 connected mechanically via a belt transmission 11 a nut 12 with a sliding rod 13.

The proposed transported satellite earth station operates as follows. Upon arrival at the place of work, the supports 8 and 9 are installed in the working position, see FIG. 1 and 2. Then, on command from the control panel, the reflector and feed of antenna post 2 rise

in the working position with the help of drives 3, 4 and the antenna post 2 is pointed at an artificial earth satellite (AES) according to the commands received on the drives 3, 4 from the control system. After that, a communication line is organized through the satellite.

Claims (2)

1. The transported satellite communications earth station, characterized in that it contains a car chassis in the form of a bus, an antenna post located on its roof with elevator and antenna pointing drives, a station control system located in the cabin, and the satellite antenna has an equivalent diameter of 1, 6 to 2.5 m, the bus body contains power elements to which the antenna base is attached, as well as jacks located in the front and rear of the chassis, with at least the rear pillars being out of the plane adi bus. 2. The satellite communications station according to claim 1, characterized in that the antenna lift and pointing drives are made in the form of linear electromechanisms containing an electric motor connected by a mechanical transmission to a retractable rod.