KR20020060534A - Satellite antenna combined with installation means and installation method - Google Patents

Abstract

PURPOSE: A satellite antenna connected to an installation device and an installing method thereof are provided to easily install the satellite antenna at other date and time when observing a sun or a heavenly body once only in one year. CONSTITUTION: A left side measuring reference point(2) is displayed at a left end of a satellite antenna(1). A right side measuring reference point(3) is displayed at a right end of a satellite antenna(1). Each of the left side measuring reference point(2) and the right side measuring reference point(3) has an uneven shape. Each of the left side measuring reference point(2) and the right side measuring reference point(3) is displayed by an ink or a paint. A stand measuring reference point(6) is displayed at one ends of a stand(4) and a pillar(5). A variable holder compensates for a location of a focus of an LNB holder. A level confirms whether the satellite antenna(1) is perpendicularly or horizontally located.

Description

Satellite antenna combined with installation means and installation method thereof {omitted}

[Field of Invention]

The present invention relates to a satellite antenna.

Specifically, it relates to a satellite antenna combined with the installation means.

[Background of invention]

Satellite antennas should be installed at precisely angles toward the satellite, which is very complicated for the general public.

So many people around the world have been commissioned by professional technicians

Recently, the inventor of the satellite antenna to install using the position of the sun or other celestial bodies has appeared to provide a breakthrough convenience. The antenna is exactly angled towards the satellite with a little effort, such as setting the sun's shadow as the separate program suggests.

One problem, however, was the lack of sun or moon (especially in Europe) or the closure of antennas at night.

The present invention provides a means which can be easily installed even in such a case.

The object of the present invention,

Observing the sun or celestial body only once during the sun or at any time of the year provides a means to easily install satellite antennas at different dates and times.

Another object of the present invention,

It provides a means to easily install satellite antennas by using the azimuth angle of the wall of the building where the celestial body is difficult to observe the body (especially in Europe) or where the antenna is installed.

1 and 4 show the present invention schematically with the left measuring point 2 and the right measuring point 3 in the backside.

2 and 5 schematically show the present invention centered on the left measuring point 2 and the right measuring point 3 at the top.

3 and 6 schematically illustrate the present invention in terms of aspects.

[Brief Description of Drawings]

(1) satellite antennas (2) reference points to the left (3) reference points to the right (4) stands (5) stand columns (6) reference points to the stands (7) walls

The present invention,

The left measurement reference point 2 is displayed at the left end of the satellite antenna 1, and the right measurement reference point 3 is displayed at the right end.

In another embodiment of the present invention, a stand measurement reference point 6 is additionally displayed at one end of the satellite antenna 1 stand 4 pillar 5.

Another aspect of the invention,

The variable capable of correcting the position of the focus (focus point) of the LCD holder further includes a holder.

Another aspect of the invention,

It is further provided with a level (not shown) that can determine whether the antenna 1 is vertical or horizontal.

Hereinafter will be described in detail with reference to the accompanying drawings.

The left reference point (2) is marked on the left end of the satellite antenna (1) and the right reference point (3) is displayed on the right end, and these reference points (2,3) are marked with irregularities or marked with ink or paint. do.

At one end of the satellite antenna (1) stand (4) column (5) the stand measurement reference point (6) is also displayed in the same way.

In addition, a variable holder capable of correcting the position of the focal point (focus point) of the LNB holder is further provided. The variable holder is divided into two planes between the elenby arm supporting portion and the elenby supporting portion, and the position of the focus of the antenna is adjusted according to the shape in which the separated surfaces are alternated. Conventional satellite antennas find the optimal antenna angle based on the amount of radio waves received from the satellite, but the antenna of the present invention does not adjust the angle by the amount of radio waves received. If the antenna is deformed and the focus position is wrong, it may be difficult to obtain an optimal signal.

In this case, a means for correcting the position of the focus is provided. (The variable holder is not shown.)

In addition, it is further provided with a level (not shown) containing a drop shape that can determine whether the antenna 1 is vertical or horizontal. Satellite antennas are difficult to obtain an optimal signal if the antennas are not aligned horizontally or vertically, especially for all antennas that do not angle according to the amount of satellite signals.

This invention is practiced as follows.

Most of the places where satellite antennas (1) are installed are around the building itself. In other words, there is almost nothing to install in the middle of the field. And every building has a square wall 7 or other structure (hereinafter referred to as "wall").

The wall 7 has a unique azimuth, which can be found using a sun or moon. Once you know the azimuth of the wall (7) by a celestial body only once a year, you can easily install the antenna (1) at any time. Alternatively, the azimuth can be determined by a precise map (especially an electronic map) and a goniometer (or a separate azimuth calculation program in the case of an electronic map).

And, when the satellite antenna (1) is installed to look at the satellite against the wall (7),

Knowing the azimuth angle of the wall (7), the center of the antenna (1) or the horizontal distance from the stand measurement reference point (6) to the wall (7), the position of the satellite to be directed by the antenna (1), and the coordinates to install the antenna (1) The horizontal distance from the left measurement reference point 2 to the wall 7 and the horizontal distance from the right measurement reference point 3 to the wall 7 can be calculated.

These calculations are made by computer programs rather than by hand, and are also used in the form of sending and receiving data and calculation values necessary for calculations using a computer communication network such as the Internet.

Alternatively, in measuring the distance from the center of the antenna 1 to the wall 7, a stand measuring reference point 6 may be used at one end of the stand 4 and the pillar 5.

In addition, the antenna holder is further calibrated using a variable holder.

On the other hand, in the step before adjusting the azimuth as above, first adjust the relief by a separate goniometer

When the antenna 1 is installed as above, when the antenna 1 is viewed from the front of the antenna 1 using a level, the left measuring reference point 2 and the right measuring reference point 3 of the antenna 1 are horizontal. To achieve.

Therefore, the present invention,

Observing the sun or other celestial bodies at any time during the year makes it easier to install satellite antennas at different dates and times.

Also,

It is now possible to easily install satellite antennas without using the celestial body in regions where the celestial body is difficult to observe, especially in Europe.

Claims (6)

Satellite antenna (1) combined with the installation means, characterized in that the left measuring reference point (2) at the left end and the right measuring reference point (3) at the right end are respectively indicated. The method of claim 1, Satellite antenna (1) Stand (4) Column (5) Satellite antenna (1) combined with installation means, characterized in that the stand measuring reference point (6) is additionally displayed at one end The method of claim 1, The LNB holder has a satellite antenna (1) combined with installation means, characterized in that it has a variable function capable of correcting the position of the focus point (focus point). The method of claim 1, Satellite antenna (1) combined with the installation means characterized in that it further comprises a level that can determine whether vertical or horizontal Satellite antenna (1) embossing step Computing the azimuth angle of the wall (7) in the vicinity where the satellite antenna (1) is installed, Measuring the horizontal distance from the wall (7) to the center of the antenna (1) or to the stand measurement reference point (6), The horizontal distance from the wall 7 to the left measurement reference point 2 or the right measurement reference point 3 from the wall 7 by the horizontal distance from the wall 7 to the center of the antenna 1 or the stand measurement reference point 6. Step is calculated, Method of installing a satellite antenna combined with the installation means, characterized in that the azimuth angle of the antenna (1) is adjusted so that the horizontal distance from the wall (7) to the left measurement reference point (2) or the right measurement reference point (3) is adjusted. The method of claim 5, Determination of the azimuth angle of the wall 7 and the horizontal distance from the wall 7 to the left measurement reference point 2 or the right measurement reference point 3 of the antenna 1 is made by a computer program. Satellite antenna installation method combined with installation means characterized in that it is used in the form of sending and receiving the necessary data and the value using a communication network