KR20000059635A - Aaaaa - Google Patents

Abstract

PURPOSE: An apparatus and a method for measuring azimuth angle of satellite antenna are provided to ensure correct measurement in a simple way by using shadow of solar light instead of a compass or a field strength meter. CONSTITUTION: A level gauge(4) is attached to the upper side(2) of a panel(1) to determine the horizontal state of the side(2). Shadow producing means(5-1,5-2) are arranged in front of the panel(1) in a crosswise shape to produce a shadow. A support(6) is arranged which is connected with the shadow producing means(5-1,5-2) and is protruded from the panel(1). A chart is attached on the surface of the panel(1). The chart is provided a number of horizontal lines and vertical lines marked thereon. The position of a shadow on the chart is calculated by a calculator.

Description

Satellite antenna angle measuring device and satellite antenna installation method using the same device {AAAAA}

The present invention relates to a satellite antenna angle measuring device and a satellite antenna installation method using the same device.

Background of the Invention

In the past, it was difficult for the general public to directly adjust the satellite antenna.

The reason for this is that when the angle of the satellite antenna is adjusted, the dependence on the field strength measuring device is high, and the field strength measuring device responds when the angle of the satellite antenna is close and starts to receive the satellite signal. If the antenna is slightly out of angle, the field strength measuring device cannot respond.

This problem is especially true when dealing with digital satellite signals, which are increasing in popularity. Therefore, many ordinary consumers do not solve this problem, and are requesting a professional engineer to install the antenna. The inventors try to solve this point. That is to say, the inventors have invented a measuring device that can respond even when the angle of the antenna is greatly outside the close range, and can be used more conveniently.

An object of the present invention is to provide an azimuth measuring device that can easily and accurately adjust the azimuth angle of a satellite antenna by a shadow of sunlight without using a compass or an electric field strength measuring device.

Hereinafter, the configuration and operation of the present invention will be described in detail with reference to the accompanying drawings.

The present invention,

Plate (1) flat on both sides, strap (3) connected to the upper part of the plate (1) to attach and detach the rear of the upper plate to the front of the satellite antenna, and is attached to the side (2) of the upper part of the upper plate (1) A level gauge 4 for measuring whether the sides of the upper plate are horizontal, a means for forming shadows by blocking the irradiation of sunlight in the shape of ten crosses in front of the upper plate 1,

A support 6 connected to the means for protruding from the upper plate 1 to form a shadow, a diagram attached to the surface of the upper plate 1 (figure 5), and A1, A2.A3 .. A plurality of longitudinal lines referred to as .. etc., a plurality of transverse lines referred to as B1, B2, B3, ..., etc., an apparatus for calculating the position of the shadow to be formed on the above diagram,

The above calculation device includes an input device capable of inputting a satellite position, earth coordinates, an antenna installation time, a shadow forming means and a form of a chart, and an x coordinate and a y coordinate of a shadow position based on the input data. And an output device for outputting the calculated position (x, y).

In more detail about the device for calculating the position of the shadow, when the shadow forming means and chart configured as above are installed and fixed to a specific satellite in a certain global coordinate, 365 shadows on the chart change according to the change of season and time. That creates the orbit of,

As described above, the data affecting the change of the shadow is input, the position of the shadow is calculated based on the input data, and the calculated position of the shadow is output.

The satellite antenna azimuth controller configured as described above is practically used as follows.

The diagram (figure 5) and the shadow forming means 5 are provided on the upper or lower part of the front surface of the satellite antenna as shown in FIG. 3 by using the strap 3 connected to the upper part of the plate 1 on which the diagram and the shadow forming means are installed. Attach the installed plate (1), and form the horizontal of the upper plate (1) by using a level gauge (4), or the vertical shadow 11 on the chart (figure 5) and the vertical shadow of the shadow forming means (5) ) In such a way that the sides of the upper plate 1 are horizontal, so that the azimuth angle of the antenna and the azimuth angle of the diagram (FIG. 5) coincide and interlock.

And input the position of the satellite, the earth coordinates, the time to install the antenna, the shadow forming means and the chart form in the input device of the above calculation device.

(In this case, input the position of all the existing satellites on the earth and the azimuth and elevation angles for each satellite, or the calculation formula of the azimuth and elevation angles, the shadow formation means, and the form of the chart in advance in the computing device. Built in, so you can select data using the above input device)

Then, the calculating device calculates the position of the shadow on the chart (figure 5) by the x coordinate and the y coordinate according to the inputted data as above, and the output device converts the calculated position (x, y) into characters. Output

If the x-coordinate is A15 and the y-coordinate is B10, the center of the shadow formed by the shadow forming means (the shadow of the portion where the horizontal and vertical directions of the shadow forming means intersect) and the vertical line of A15 on the chart; If the horizontal line of B10 is moved to the intersection, the azimuth and elevation angles are adjusted.

1 is a front view of a plate provided with a chart and a shadow forming means in the satellite antenna angle measuring device of the present invention.

2 is a side view of the first FIG. Device.

3 is a front view of the satellite antenna with the first FIG. Device attached.

4 is a rear view of the satellite antenna with the first view device attached thereto.

5 is a diagram for measuring the azimuth angle by the shadow of sunlight.

Description of the main symbols in the drawings

1. Edition

2. The upper part of the plate

3. string

4. Level

5. Shadow Forming Means

6. Support for shadow forming means

7. Vertical direction line

8. Horizontal direction line

Missing configuration and action of the invention

In this way, if the azimuth angle of the satellite antenna is adjusted, the measuring device can respond even if the angle of the antenna is out of close range. The installation cost can be reduced.

Claims (6)

Plate (1) flat on both sides, A strap (3) connected to the top of the plate (1) to attach the rear of the upper plate to the front of the satellite antenna, A level gauge 4 attached to the upper side 2 of the upper plate 1 and measuring whether the upper side of the upper plate is horizontal; Means (5) for forming a shadow by blocking the irradiation of sunlight in the shape of a cross in front of the upper plate (1), A support 6 connected to the means for protruding from the upper plate 1 and forming a shadow, Diagram (figure 5) attached to the surface of the upper plate (1), In the diagram above, there are a plurality of longitudinal lines called A1, A2, A3 ..., and a plurality of horizontal lines called B1, B2, B3, ..., A device for calculating the position of the shadow to be formed on the diagram above, The above calculation device includes an input device capable of inputting a satellite position, earth coordinates, an antenna installation time, a shadow forming means and a form of a chart, and an x coordinate and a y coordinate of a shadow position based on the input data. Satellite antenna angle measuring device, characterized in that consisting of an output device for outputting the calculated position (x, y) The method of claim 1 Plate (1) flat on both sides, A level gauge 4 attached to the upper side 2 of the upper plate 1 and measuring whether the upper side of the upper plate is horizontal; Means (5) for forming a shadow by blocking the irradiation of sunlight in the shape of a cross in front of the upper plate (1), A support 6 connected to the means for protruding from the upper plate 1 and forming a shadow, Diagram (figure 5) attached to the surface of the upper plate (1), In the diagram above, there are a plurality of longitudinal lines called A1, A2, A3 ..., and a plurality of horizontal lines called B1, B2, B3, ..., A device for calculating the position of the shadow to be formed on the diagram above, The above calculation device includes an input device capable of inputting a satellite position, earth coordinates, an antenna installation time, a shadow forming means and a form of a chart, and an x coordinate and a y coordinate of a shadow position based on the input data. Satellite antenna angle measuring device, characterized in that consisting of an output device for outputting the calculated position (x, y) The method of claim 1, Plate (1) flat on both sides, A strap (3) connected to the top of the plate (1) to attach the rear of the upper plate to the front of the satellite antenna, Means (5) for forming a shadow by blocking the irradiation of sunlight in the shape of a cross in front of the upper plate (1), A support 6 connected to the means for protruding from the upper plate 1 and forming a shadow, Diagram (figure 5) attached to the surface of the upper plate (1), In the diagram above, there are a plurality of longitudinal lines called A1, A2, A3 ..., and a plurality of horizontal lines called B1, B2, B3, ..., A device for calculating the position of the shadow to be formed on the diagram above, The above calculation device includes an input device capable of inputting a satellite position, earth coordinates, an antenna installation time, a shadow forming means and a form of a chart, and an x coordinate and a y coordinate of a shadow position based on the input data. Satellite antenna angle measuring device, characterized in that consisting of an output device for outputting the calculated position (x, y) The method of claim 1, Plate (1) flat on both sides, Means (5) for forming a shadow by blocking the irradiation of sunlight in the shape of a cross in front of the upper plate (1), A support 6 connected to the means for protruding from the upper plate 1 and forming a shadow, Diagram (figure 5) attached to the surface of the upper plate (1), In the diagram above, there are a plurality of longitudinal lines called A1, A2, A3 ..., and a plurality of horizontal lines called B1, B2, B3, ..., A device for calculating the position of the shadow to be formed on the diagram above, The above calculation device includes an input device capable of inputting a satellite position, earth coordinates, an antenna installation time, a shadow forming means and a form of a chart, and an x coordinate and a y coordinate of a shadow position based on the input data. Satellite antenna angle measuring device, characterized in that consisting of an output device for outputting the calculated position (x, y) The method according to claim 1, 2, 3, 4, A method of installing a satellite antenna, characterized in that the position of the shadow is calculated by the x coordinate and y coordinate, and the shadow of the shadow forming means is replaced at the calculated position (x, y). The method according to claim 1, 2, 3, 4, Satellite inputs, earth coordinates, time to install the antenna, an input device for inputting the form of shadow forming means (5) and chart (figure 5), and the x coordinate of the shadow position by the input data as described above. And a satellite antenna angle measuring device comprising a device for calculating the coordinates with y and an output device for outputting the calculated position (x, y).