KR20010003535A - Aaaaa - Google Patents

Abstract

PURPOSE: A satellite antenna installed using a shadow of the sun and a method for installing the satellite antenna are provided to facilitate the installation of the satellite antenna by adopting a shadow creating device. CONSTITUTION: A satellite antenna(0) comprises a supporter(2) protruded towards a front portion of the satellite antenna(0). Shadow creating devices(4,5,6,7,8) are installed from the supporter(2) to an upper portion(9) of the satellite antenna(0). The first shadow creating device(4) is made of flexible material and has a linear shape. The second shadow creating device(5) is made of non-flexible material and has a cross and circular shape. The third shadow creating device(6) is made of non-flexible material and has a linear shape. The fourth shadow creating device(7) is made of non-flexible material and has a cross shape. The fifth shadow creating device(8) is made of non-flexible material and has a linear shape. An angle table is installed at a front portion(10) of the satellite antenna(0). A horizontal state measuring device is installed at a bracket of the satellite antenna(0).

Description

Satellite antenna installed by the shadow of the sun and its installation method {AAAAA}

[Field of Invention]

The present invention relates to a satellite antenna.

More specifically, the present invention relates to a satellite antenna installed by a shadow of the sun and a method of installing the same.

[Background of invention]

Satellite antennas are installed toward satellites and used as devices for transmitting and receiving satellites.

Satellite antennas are most commonly used as reflectors that reflect the transmitted and received radio waves. Among them, there are several types of satellite antennas, and those that absorb the received radio waves.

Other undirected satellite antennas are also used.

Among these various satellite antennas, the directional satellite antenna must adjust its angle toward the satellite.

Therefore, when installing a satellite antenna, a goniometer, compass, level meter, or spectrum is mobilized. These measuring devices are complicated in structure and cannot be permanently coupled to the antenna, and are detachable as necessary. It is very difficult for ordinary consumers to install satellite antennas directly.

In particular, the level meter and the spectrum can react only when the antenna angle reaches an approximate value, but only when the signal of the satellite starts to be received.

These problems are especially true when using digital signals, which are rapidly spreading in recent years.

Of course, if you use a non-directional satellite antenna or a satellite antenna with an electric angle adjustment device is not such inconvenience, but the structure is complicated, the economic burden can not be popular.

Therefore, the present inventors have an object of providing a satellite antenna that can be easily used by the general consumer because the structure is very simple and shows a response even when the angle of the satellite antenna is far from the approximation.

So, we have developed a satellite antenna for installation using the shadow of the sun, and we have already applied for a patent for this antenna and are continuing to apply for improvement.

Previously patented inventions have significant breakthrough advantages over other satellite antennas, but have the following disadvantages.

First, it was difficult to locate the shadow generator.

In other words, if the crosshairs of the shadow generating device are installed close to the angle table, the distance to the shadow formed on the angle table will be close, and the distance of the shadow moving by a certain time will be shortened. It is difficult to set the location of the shadow generator that can be conveniently used in these various situations because the location of the shadow is short within the range of the angle table, and there is also a big difference in the shadow location for each satellite that is directed seasonally by region.

Second, the shadow generating device is difficult to read the shadow position due to the wind shake, there was also a problem that the shadow generating device is easily deformed by hitting other objects during the transport or use of the antenna.

Third, when the satellite antenna is used for a special communication, there may be a demand for more accurate angle adjustment than in general broadcasting. In other words, if the level meter should not be used, and the spectrum must be used, there was still a need to use the spectrum.

Fourth, the area of the angle table was so narrow that it could not be used for a long time. Conventional satellite antennas do not have a diameter or length on the left or right longer than the diameter or length of the top and bottom, and the sun's shadow generally moves from left to right or right to left with time.

The inventors seek to provide a satellite antenna that solves even the four problems mentioned above.

An object of the present invention is to provide a satellite antenna angle measuring device that can be installed without using a goniometer, a compass, an electric field strength measuring device.

Another object of the present invention is to simplify the above angle measuring device so that it can be permanently coupled to the satellite antenna.

Another object of the present invention is to provide a satellite antenna that can be easily installed by a general consumer.

Another object of the present invention is to provide a measuring device that exhibits a response even when the angle of the satellite antenna is not approximated toward the satellite, unlike the electric field strength measuring device.

Another object of the present invention,

In the satellite antenna installed by the shadow of the sun,

Despite the height of the sun, which varies from season to season on every part of the globe, it aims to provide an easy-to-use shadow generator.

Another object of the present invention,

In the satellite antenna installed by the shadow of the sun,

The intention is to provide a shadow generator that will not be shaken by the wind, and will be restored to its original shape even if it is deformed by hitting other objects during transport or use.

Another object of the present invention,

In the satellite antenna installed by the shadow of the sun,

Even if the satellite antenna needs to be precisely angled using the spectrum, it is intended to provide a satellite antenna with high precision so that it can still be installed using the shadow of the sun.

Another object of the present invention,

In the satellite antenna installed by the shadow of the sun,

The goal is to provide satellite antennas with a longer time to use the shadows of the sun by increasing the area of the angle table.

The above main objects and other objects can be achieved by the present invention described below.

1 is a side view of the shadow generating device of the present invention, FIG. 2 is a front view of FIG. 1, FIG. 3 is a fifth layer portion of the shadow generating device, FIG. 4 is a ring portion of the fifth layer of the shadow generating device, and FIG. Combining the part shown in FIG. 3 and the part shown in FIG. 4, FIG. 6 shows a shadow generator and an angle table, FIG. 7 shows a leveling device installed on the bracket behind the antenna, and FIG. A front view of the long offset antenna, FIG. 9 is a side view of FIG. 8, FIG. 10 is a front view of a long flat antenna, and FIG. 11 is a side view of FIG. The above drawings are all schematically shown.

BRIEF DESCRIPTION OF THE MAIN SIGNS IN THE FIGURE

(0) satellite antennas (1) bottoms of satellite antennas (2) supports (3) upper supports (4) shadows

First layer of growth (5) Second layer of shadow generator (6) Third layer of shadow generator

(7) fourth layer of shadow generator (8) fifth layer of shadow generator (9) top of satellite antenna

(10) Front of satellite antenna (11) Angle chart (12) Portrait line (13) Landscape line (14) Bra

Collar (15) Horizontal (16) Ball (17) 5th Layer of Shadow Generator (18) Bolt (19)

Nut

Satellite antenna installed by the shadow of the sun of the present invention,

Protruding the support (2) from the satellite antenna (0) lower part 1 toward the front,

From the support (2) to the upper part of the satellite antenna (9) install a shadow generating device (4,5,6,7,8) composed of several layers in a straight line, the shadow generating device (4,5,6,7,8) The first layer (4), which is the lowermost part of), is made of a material having a high elasticity and flexibility and is formed in a straight shape, and the lower part thereof is fixed to the vicinity of the protruding end portion 3 of the support 2,

The second layer 5, which is the upper part thereof, is made of a material having elasticity and inflexibility and has a crisscross shape and a circle surrounding it.

The third layer 6, which is an upper portion thereof, is made of a non-elastic material and has a linear shape.

The fourth layer 7, which is the upper portion thereof, is a material having elasticity and inflexibility and has a crisscross shape.

The fifth layer 8, which is an upper portion thereof, is made of a non-elastic material and is formed in a straight shape to be fixed to the upper center 9 of the satellite antenna.

On the front surface of the satellite antenna (0), the shadow antennas (4,5,6,7,8) are satellite antennas generated by the date, time, coordinates of the earth, and the shadow of the sun generated by the satellites directed by the satellite antenna. Install the angle table (11) to adjust the angle of

The bracket 14 at the rear side of the satellite antenna 0 is characterized in that the leveler 15 is installed to check whether the left and right sides of the satellite antenna are horizontal.

Hereinafter, with reference to the accompanying schematic drawings will be described in detail the contents of the present invention.

1 is a side view of a satellite antenna installed by the shadow of the sun of the present invention

2 is a front view of FIG. 1

3 is a view of inserting the ring of the fifth layer that is the top of the shadow generating device.

4 is a portion of the fifth layer which is the top of the shadow generating device.

5 is a combination of the third and fourth

6 is a front view of a satellite antenna with a shadow generator and an angle table installed

7 is a leveling device installed in the rear bracket portion of the satellite antenna

8 is a front view of an offset antenna having a long left and right diameter.

9 is a side view of FIG. 8

10 is a front view of a flat antenna having long left and right lengths

11 is a side view of FIG.

Protrudes the support (2) toward the front from the bottom (1) of the satellite antenna (0),

From the support 2 to the upper portion of the satellite antenna 9, a shadow generating device (4, 5, 6, 7, 8) composed of several layers in a straight line is installed.

The first layer 4, which is the lowermost part of the shadow generating device 4,5,6,7,8, is elastic and flexible rubber band and is formed in a linear shape, and the lower part is near the protruding end of the support 2 ( 3) fixed to,

The second layer 5, which is the upper part thereof, is made of a material having elasticity and inflexibility and has a crisscross shape and a circle surrounding it.

The third layer 6, which is an upper portion thereof, is made of a non-elastic material and has a linear shape.

The fourth layer 7, which is the upper portion thereof, is a material having elasticity and inflexibility and has a crisscross shape.

The fifth layer 8, which is an upper portion thereof, is made of a non-elastic material and has a straight shape and is fixed to the upper center 9 of the satellite antenna.

The reason why the shadow generating devices 4, 5, 6, 7, and 8 are configured as follows is as follows.

First, the altitude of the sun varies greatly from season to season and from region to region, and the elevation angle of satellite antennas for satellites varies greatly from satellite to region.

That is, in some areas, the elevation angle to the satellite is so low that the crisscross part of the shadow generating device may be installed close to the angle table 11 so that shadows are generated in the lower part of the front of the antenna. The position of the ground shadow rises up, shortening the distance from the shadow generator to the shadow generated. The shorter this distance, the shorter the hourly movement distance of the shadow, which is a disadvantage in accuracy when adjusting the antenna angle.

Therefore, depending on the region, season, and the satellite to be directed, the shadow for the second layer or the fourth layer part of the shadow generating device 4, 5, 6, 7, or 8 may be selectively used for convenient use under various conditions. To do this.

Second, the shadow generating device (4, 5, 6, 7, 8) is not functioning if it is shaken by the wind during use or damaged by hitting other objects during transportation. Therefore, the first layer 4, which is the lowest of the shadow generating devices 4, 5, 6, 7, and 8, is installed by stretching the elastic band having a good elasticity and flexibility to have a proper contraction force. In this case, the shadow generating device (4,5,6,7,8) is not shaken by the wind due to the contracting force of the rubber band, and the rubber band is stretched to prevent damage by temporarily hitting another object.

(How to fix the shadow generator)

If the horn is an antenna of the type installed in front of the antenna, a device for supporting the horn is installed at the protruding end of the support 2, and a shadow generating device (4, 5) is provided at the upper part for supporting the horn. The first layer 4 of 6,7,8 is fixed, and the fifth layer 8 of the shadow generators 4,5,6,7,8 is fixed to the upper center 9 of the satellite antenna. .

If the horn is an antenna of the type installed behind the antenna, the device for supporting the horn is omitted on the support 2, and the shadow generating devices 4, 5, 6, 7, and 8 are provided.

The fifth layer 8 of the shadow generating device 4,5,6,7,8,

A hole 16 is made in the upper center 9 of the satellite antenna, and a ring 17 connecting the fifth layer 8 is inserted into the ball 16.

The ring 17 protruding to the opposite side of the insertion hole 16 is bent toward the bottom of the satellite antenna,

The end of the ring 17 is composed of bolts 18, by tightening the nut 19 therein so that the ring cannot escape,

The shadow generating devices 4, 5, 6, 7, and 8 are capable of some movement from side to side and from side to side, but are configured to maintain a straight line as a whole by the contracting action of the elastic material part 4 of the first layer.

(Angle Chart Installation)

On the front surface of the satellite antenna (0), the shadow antennas (4,5,6,7,8) are satellite antennas generated by the date, time, coordinates of the earth, and the shadow of the sun generated by the satellites directed by the satellite antenna. Install the angle table 11 to adjust the angle of the.

(Type of angle chart)

There may be various kinds of angle tables. For convenience, the following four types will be described.

First, the angle table by shadow trajectory

The angle table (7), which allows the satellite antenna angle to be adjusted by the shadow of the sun,

The fourth layer (7) and the second layer (5) of the shadow forming apparatus (4,5,6,7,8) according to the satellites directed by the satellite antenna, the area where the satellite antenna is installed, and the date on which the satellite antenna is installed. ) Shows the shadow trajectory to be formed by the part,

In the vicinity of the shadow orbit, write the satellite, region, and date.

The time to install the satellite antenna is represented by a plurality of visual lines that intersect the trajectory of the shadow, and characterized in that the configuration is described in the vicinity of the visual line.

(Shadow orbits have different shapes depending on the region and the satellites they are aiming at, so they explain only the principle without showing the shadow trajectory and the visual line.)

Second, angle table by various kinds of shadow orbits

Angle table 11 for adjusting the satellite antenna angle by the shadow of the sun,

The second layer 5 and the fourth layer of the shadow forming apparatus 4,5,6,7,8 according to the satellite to which the satellite antenna is directed, the area where the satellite antenna is installed, and the date to adjust the satellite antenna angle. 7) the shadow trajectory to be formed by the part is represented by a plurality of lines,

In the vicinity of the shadow orbit, write the satellite, region, and date.

The time to install the satellite antenna is represented by a number of visual lines that intersect the shadow trajectory, and the corresponding satellite, area, and date are written near the visual line.

It is characterized by the configuration of integrating two or more different angle tables according to the satellites aimed at each area where satellite antennas are installed, by dividing them into lines having different shapes and colors.

(Shadow orbits have different shapes depending on the region and the satellites they are aiming at, so they explain only the principle without showing the shadow trajectory and the visual line.)

Third, angle table by shadow position calculation method

Angle table 11 for adjusting the satellite antenna angle by the shadow of the sun,

It is indicated by a plurality of horizontal lines 13 and a plurality of vertical lines 12, x1, x2, x3 in the vicinity of each line. . . . And also y1, y2, y3. . . Write your own symbols, such as.

In the plurality of longitudinal lines 12, portions of the first layer 4, the third layer 6, and the fifth layer 8 of the shadow generating devices 4, 5, 6, 7, and 8 may be changed according to time. The shadow to be formed is displayed at regular intervals to form a fan shape.

Fourth, integrated angle table by shadow trajectory and angle table by calculation method

Angle table 11 for adjusting the satellite antenna angle by the shadow of the sun,

The fourth layer 7 and the second layer of the shadow forming apparatus 4,5,6,7,8 according to the satellites directed by the satellite antenna, the area where the satellite antenna is installed, and the date of adjusting the satellite antenna angle. 5) The shadow trajectory to be formed by the part is represented by a number of lines, and the corresponding satellite, region, and date are written near the shadow trajectory.

The time to install the satellite antenna is represented by a number of time lines intersecting the orbit of the shadow, and the time is written near the time line,

Apart from this, a line having a different color and shape is represented by a plurality of horizontal lines 13 and a plurality of vertical lines 12, and in the vicinity of each line, x1, x2, x3. . . . And also y1, y2, y3. . . Write your own symbols, such as.

In the plurality of longitudinal lines 12, portions of the first layer 4, the third layer 6, and the fifth layer 8 of the shadow generating devices 4, 5, 6, 7, and 8 may be changed according to time. The shadow to be formed is displayed at regular intervals to form a fan shape.

(The shadow trajectory does not show the shadow trajectory and the visual line separately, since the shadow trajectories are all different in shape depending on the region and the satellite being directed.)

(Horizontal installation)

The bracket 14 at the rear of the satellite antenna 0 is provided with a leveler 15 for checking whether the left and right sides of the satellite antenna are horizontal.

Satellite antennas installed by the sun's shadow should not tilt the antenna to the left or to the right when viewed from the front. Since it is important to keep this level, it is to install the leveler 15.

(Kind of antenna)

Satellite antennas installed by the sun's shadow can be applied to all existing satellite antennas.

For convenience, only the following eight items are described.

First, satellite antenna with option parabola

Second, satellite antenna with center feed method

Third, back feed satellite antenna

Fourth, flat antenna

Fifth, the satellite antenna, characterized in that the offset parabola method, the left and right diameter is longer than the diameter of the upper and lower, so that the time of the shadow of the sun by the shadow generating device is long (Fig. 8, front view, 9 side view)

Sixth, the satellite antenna, characterized in that the center feed method, the diameter of the left and right is longer than the diameter of the upper and lower, so that the time of the shadow of the sun by the shadow generating device is formed longer

Seventh, the satellite antenna, characterized in that the back feed method, but the left and right diameter is longer than the upper and lower diameters so that the time of the shadow of the sun by the shadow generating device is longer

Eighth, the satellite antenna, characterized in that the flat way, the length of the left and right longer than the length of the top and bottom, so that the time of the shadow of the sun by the shadow generating device is formed (Fig. 10 front view, Fig. 11 side view)

The purpose of using the fifth to eighth antennas is as follows.

The sun's shadow moves from the left side of the angle table 11 to the right, or from the right side to the left, in most regions of the earth.

Satellite antennas that do not use the sun's shadow have the same length or length than the diameter and length of the top and bottom, so the shadow cannot form for many hours.

The present invention is practiced as follows.

First, practical methods of the shadow generating apparatuses 4, 5, 6, 7, and 8 and the angle table 11 will be described.

As described above, since the angle table 11 has various types, there are various types of angle adjustment methods.

First method (installation method by shadow orbit)

By the leveler 15 installed on the satellite antenna, the satellite antenna is leveled from side to side,

On the angle table installed in front of the satellite antenna, the shadow of the fourth layer 7 part or the second layer part 5 of the shadow generating devices 4, 5, 6, 7, 8 is lowered in the angle table. About what is made,

Find the satellites that will orient the antenna, the area where the antenna will be installed, and the shadow orbit corresponding to the date on which the antenna will be installed,

Find a line of sight that intersects the shadow orbit above and represents the time of installation of the antenna,

By adjusting the direction of the antenna, it is characterized in that the shadow of the corresponding portion of the shadow forming apparatus (4,5,6,7,8) at the intersection of the two types of lines.

Second method (installation method by calculating shadow position)

The horizontal level of the antenna is checked by the leveler 15 installed in the satellite antenna,

Satellite to be oriented to satellite antenna, place to install satellite antenna, date and time to install satellite antenna, second layer (5) or second of shadow generating device (4,5,6,7,8) The position of the shadow formed according to the fourth layer 7 and the angle table 11 is calculated by the x coordinate and the y coordinate,

By adjusting the direction of the antenna, at this calculated position (x, y), the center portion of the fourth layer 7 or the second layer 5 of the shadow generators 4, 5, 6, 7, and 8 are located. Characterized by matching the shadow of the central part.

Third method (Installation method using elevation angle by angle meter and azimuth angle by shadow position calculation)

In some cases, satellite antennas require a high degree of precision that the angle must be adjusted using the spectrum when used for special communications. In this case, we still explain how to install using the sun's shadow.

After adjusting the elevation angle with a separate goniometer,

The horizontal level of the antenna is checked by the leveler 15 installed in the satellite antenna,

After calculating the vertical direction line 12 that the shadow should reach in the angle table 11 according to the satellite to be oriented to the satellite antenna, the place where the satellite antenna is to be installed, and the date and time to install the satellite antenna,

By adjusting the direction of the antenna,

Among the shadow generating devices 4, 5, 6, 7, and 8, the lowermost part of the shadow formed by the first layer 4, the third layer 6, and the fifth layer 8 is formed in the angle table 11. The shadow is characterized by matching the vertical direction line 12 calculated above.

Explain why this installation method is accurate to the level of spectrum use.

The shadow formed at the bottom of the angle table keeps its distance from the shadow generator (4,5,6,7,8) at a constant distance in spite of the antenna elevation and the change of the altitude of the sun. Longest.

The object which casts the shadow on the part may be the first layer, the third layer, or the fifth layer of the shadow generating device 4, 5, 6, 7, 8 in some cases. .

Fourth method (combination of shadow trajectory and shadow position calculation)

The first angle table by shadow trajectory is relatively simple to use and cannot be used for all regions or all satellites around the world.

The third angle table 11 by the shadow position calculation method has a disadvantage in that it is accompanied by a calculation by a microprocessor in use, but has an advantage that it can be used anywhere in the world.

So, by using the angle table combined the two above, it is characterized in that it is selectively used in some cases.

(Shadow Position Calculation Method)

This section describes various ways to calculate the shadow position or to use the calculated result.

First, the calculation program is installed on a separate computer, but the operation is performed, and the results are exchanged with the data for operation through communication such as the Internet.

Second, how to input various calculation results in a separate computer and use them as needed

Third, how to make a lookup table based on various calculation results and use them as needed.

Fourth, the operation program is installed in the microprocessor built in the satellite broadcasting receiver used with the satellite antenna and operated

Fifth, a method of inputting various calculation results into a memory device built in a satellite broadcasting receiver used with a satellite antenna and using them as necessary.

Etc. Here, the fourth method is described in more detail as a representative example.

(When using a satellite broadcast receiver)

Satellite antennas do not function independently, but must be used with satellite receivers, etc.

The receiver already has an arithmetic unit that can install and operate a program that calculates the shadow position of the sun as described above, a receiver that can show the calculated results, and a keyboard (remote control) to perform the arithmetic.

Therefore, you only need to install the operation program on the above hardware.

In this calculation program, the names and positions of all existing satellites are inputted, and additional names and positions of satellites to be launched can be additionally inputted. Allows you to enter your name and latitude longitude.

Pre-set calendar and clock,

Enter the specifications of the shadow generator and angle table according to the model of the antenna.

When you want to install satellite antenna using such a calculation program,

Turn on the satellite receiver and receiver and enter the installation menu.

First, let the antenna choose the name of the satellite to be directed,

Second, choose a place to install the antenna,

Third, select the model number of the antenna.

According to this guidance, if you select the name of the satellite, the name of the area, and the model number of the antenna, the location of the shadow is output.

In some cases, there may be a difference of a few minutes between the time when the operation is performed and the time when the satellite antenna angle is adjusted. In this case, when outputting the position of the shadow as described above, there is a method of continuously outputting the position to move the shadow over time.

Therefore, the satellite antenna installed by the shadow of the sun of the present invention,

Despite the altitude of the sun, which varies widely across the globe, it provides an easy-to-use shadow generator.

It provides a shadow generator that can be restored to its original shape even if it is not shaken by the wind, and it is deformed by hitting other objects during transportation or use.

Even if satellite antennas require high precision that must be angled using the spectrum, satellite antennas with improved precision can be provided so that they can still be installed using the shadow of the sun.

The area of the angle table has been expanded to provide satellite antennas with longer time to use the sun's shadows.

All other goals have been achieved.

Simple modifications or variations of the present invention can be readily made by those skilled in the art.

Especially in the case of satellite antennas not shown in the drawings,

As long as it has directivity, simple modifications or variations of the principle of adjusting the satellite antenna angle using the shadow of the sun can be easily carried out by one of ordinary skill in the art.

In particular, in the shadow generator and the angle table,

Modifications or changes within the principle range for adjusting the satellite antenna angle using the relationship between the position of the sun and the position of the satellite can be easily carried out by those skilled in the art.

Such modifications and variations are all within the scope of the present invention.

List of Claims (for Reference)

summary

[Claim 1] Satellite antennas installed under the shadow of the sun

Shadow generator

[Claim 2] Support

[Claim 3] How to fix the shadow generator

Angle table

[Claim 4] Angle Table by Shadow Orbit

[Claim 5] Angle table by various types of shadow trajectories

[Claim 6] Angle table by shadow position calculation method

[Claim 7] Angle Table by Shadow Orbit + Angle Table by Calculation Method

Type of antenna

[Claim 8] Offset Antenna

[Claim 9] Center Feed Antenna

[Claim 10] Backfeed Antenna

[Claim 11] Flat Antenna

[Claim 12] Offset antennas with long left and right diameters

[Claim 13] Center-feed Antenna with Long Left and Right Diameter

[Claim 14] Backfeed Antenna with Long Left and Right Diameter

[Claim 15] Flat antenna with long left and right

How to install

[Claim 16] Installation Method by Shadow Orbit

[Claim 17] Angle Table 16

[Claim 18] Installation Method by Shadow Positioning Method

[Claim 19] Angle Table 18

[Claim 20] Calculation Formulas of Clause 18

[Claim 21] The method by shadow trajectory

Combined method by shadow position calculation

[Claim 22] Angle Table 21

[Claim 23] The elevation angle is determined by a goniometer.

Azimuth is installation method by shadow position calculation

[Claim 24] Angle Table 21

Claims (24)

Protrudes the support (2) toward the front from the bottom (1) of the satellite antenna (0), From the support (2) to the top of the satellite antenna (9) install a shadow generating device (4,5,6,7,8) composed of several layers in a straight line, The first layer 4, which is the lowermost part of the shadow generating device 4,5,6,7,8, is made of a material of high elasticity and flexibility and is formed in a linear shape, and the lower part thereof is near the protruding end portion of the support 2 ( 3) fixed to, The second layer 5, which is the upper part thereof, is made of a material having elasticity and inflexibility and has a crisscross shape and a circle surrounding it. The third layer 6, which is an upper portion thereof, is made of a non-elastic material and has a linear shape. The fourth layer 7, which is the upper portion thereof, is a material having elasticity and inflexibility and has a crisscross shape. The fifth layer 8, which is an upper portion thereof, is made of a non-elastic material and is formed in a straight shape to be fixed to the upper center 9 of the satellite antenna. On the front surface of the satellite antenna (0), the shadow antennas (4,5,6,7,8) are satellite antennas generated by the date, time, coordinates of the earth, and the shadow of the sun generated by the satellites directed by the satellite antenna. Install the angle table (11) to adjust the angle of A satellite antenna, characterized in that the bracket (14) behind the satellite antenna (0) is provided with a leveler (15) for checking whether the left and right sides of the satellite antenna are horizontal. The method of claim 1, A device for supporting the horn is installed at the protruding end of the support 2, and the first layer 4 of the shadow generating device 4, 5, 6, 7, or 8 is disposed at the upper part of the support horn. And a fifth layer 8 of the shadow generators 4, 5, 6, 7, 8 is fixed to the upper center 9 of the satellite antenna. The method of claim 1, The fifth layer 8 of the shadow generating device 4,5,6,7,8, A hole 17 is drilled 16 in the upper center 9 of the satellite antenna, and a ring 17 connecting the fifth layer 8 of the shadow generators 4, 5, 6, 7, 8 to the ball 16. Insert it, The ring 17 protruding to the opposite side of the insertion hole 16 is bent toward the bottom of the satellite antenna, The end of the ring 17 becomes a bolt 18, which is configured to clamp the nut 19 to prevent the ring from slipping out, Although the shadow generators 4, 5, 6, 7, 8 can be slightly moved back and forth, the elastic material portion 4 of the first layer of the shadow generators 4, 5, 6, 7, and 8 is possible. Satellite antenna, characterized in that the entire shadow generating device (4,5,6,7,8) is configured to maintain a straight line by the contracting action of the The method of claim 1, The angle table (7), which allows the satellite antenna angle to be adjusted by the shadow of the sun, The fourth layer (7) and the second layer (5) of the shadow forming apparatus (4,5,6,7,8) according to the satellites directed by the satellite antenna, the area where the satellite antenna is installed, and the date on which the satellite antenna is installed. ) Shows the shadow trajectory to be formed by the part, In the vicinity of the shadow orbit, write the satellite, region, and date. A satellite antenna, characterized in that the time to install the satellite antenna is represented by a plurality of visual lines that intersect the orbit of the shadow, and the corresponding time is recorded in the vicinity of the visual line. The method of claim 1, Angle table 11 for adjusting the satellite antenna angle by the shadow of the sun, The second layer 5 and the fourth layer of the shadow forming apparatus 4,5,6,7,8 according to the satellite to which the satellite antenna is directed, the area where the satellite antenna is installed, and the date to adjust the satellite antenna angle. 7) the shadow trajectory to be formed by the part is represented by a plurality of lines, In the vicinity of the shadow orbit, write the satellite, region, and date. The time to install the satellite antenna is represented by a number of time lines that intersect the shadow trajectory, and the time is recorded near the time line. Satellite antenna, characterized in that it consists of two or more different angle tables for each area where satellite antennas are installed, divided into lines with different shapes and colors, and integrated into one place. The method of claim 1, Angle table 11 for adjusting the satellite antenna angle by the shadow of the sun, It is indicated by a plurality of horizontal lines 13 and a plurality of vertical lines 12, x1, x2, x3 in the vicinity of each line. . . . And also y1, y2, y3. . . Write your own symbols, such as. In the plurality of vertical direction lines 12, portions of the first layer 4, the third layer 6, and the fifth layer 8 of the shadow generating devices 4, 5, 6, 7, and 8 may be changed according to time. A satellite antenna, characterized in that a fan-shaped shape by displaying the shadow to be formed at regular intervals. The method of claim 1, Angle table 11 for adjusting the satellite antenna angle by the shadow of the sun, The fourth layer 7 and the second layer of the shadow forming apparatus 4,5,6,7,8 according to the satellites directed by the satellite antenna, the area where the satellite antenna is installed, and the date of adjusting the satellite antenna angle. 5) The shadow trajectory to be formed by the part is represented by a plurality of lines, In the vicinity of the shadow orbit, write the satellite, region, and date. The time to install the satellite antenna is represented by a number of time lines intersecting the orbit of the shadow, and the time is written near the time line, Apart from this, a line having a different color and shape is represented by a plurality of horizontal lines 13 and a plurality of vertical lines 12, and in the vicinity of each line, x1, x2, x3. . . . And also y1, y2, y3. . . Write your own symbols, such as. In the plurality of longitudinal lines 12, portions of the first layer 4, the third layer 6, and the fifth layer 8 of the shadow generating devices 4, 5, 6, 7, and 8 may be changed according to time. A satellite antenna, characterized in that a fan-shaped shape by displaying the shadow to be formed at regular intervals. The method of claim 1, Satellite antennas are offset parabolic satellite antennas The method of claim 1, Satellite antenna is a center feed satellite antenna The method of claim 1, Satellite antenna is a back feed satellite antenna The method of claim 1, Satellite antenna is a flat antenna The method of claim 1, The satellite antenna is an offset parabola method, and the diameter of the left and right is longer than the diameter of the upper and lower, so that the shadow shadow of the sun by the shadow generating device is longer (8th front view, 9th side view). Satellite antenna The method of claim 1, The satellite antenna has a center feed method, but the left and right diameters are longer than the upper and lower diameters, so that the time for the shadow of the sun to be formed by the shadow generating device becomes longer. The method of claim 1, The satellite antenna is a back feed method, but the left and right diameters are longer than the upper and lower diameters, so that the time for which the shadow of the sun is formed by the shadow generating device becomes longer. The method of claim 1, The satellite antenna is a flat antenna, which is longer than the length of the upper and lower sides, and is configured to increase the time for the shadow of the sun to be formed by the shadow generating device. By the leveler 15 installed on the satellite antenna, the satellite antenna is leveled from side to side, On the angle table installed in front of the satellite antenna, the shadow of the fourth layer 7 part or the second layer part 5 of the shadow generating devices 4, 5, 6, 7, 8 is lowered in the angle table. About what is made, Find the satellites that will orient the antenna, the area where the antenna will be installed, and the shadow orbit corresponding to the date on which the antenna will be installed, Find a line of sight that intersects the shadow orbit above and represents the time of installation of the antenna, Adjusting the direction of the antenna, satellite antenna installation method, characterized in that the shadow of the corresponding portion of the shadow forming apparatus (4,5,6,7,8) at the intersection of the two kinds of lines. The method of claim 16, The angle table, which adjusts the angle of the satellite antenna by the shadow of the sun, 4th layer (7) and 2nd layer (5) part of the shadow forming apparatus (4,5,6,7,8) according to the satellite to be directed to the satellite antenna, the area where the satellite antenna is to be installed, and the date to install the satellite antenna. The shadow trajectory to be formed is represented by a number of lines, and the corresponding satellite, region, and date are written near each shadow trajectory. A satellite antenna, characterized in that the time to install the satellite antenna is represented by a plurality of visual lines intersecting the orbit of the shadow, and the corresponding time is recorded in the vicinity of each visual line. The horizontal level of the antenna is checked by the leveler 15 installed in the satellite antenna, Satellite to be oriented to satellite antenna, place to install satellite antenna, date and time to install satellite antenna, second layer (5) or second of shadow generating device (4,5,6,7,8) The position of the shadow formed according to the fourth layer 7 and the angle table 11 is calculated by the x coordinate and the y coordinate, By adjusting the direction of the antenna, at this calculated position (x, y), the center portion of the fourth layer 7 or the second layer 5 of the shadow generators 4, 5, 6, 7, and 8 are located. Satellite antenna installation method characterized by matching the shadow of the central part The method of claim 18, Angle table 11 for adjusting the satellite antenna angle by the shadow of the sun, It is indicated by a plurality of horizontal lines 13 and a plurality of vertical lines 12, x1, x2, x3 in the vicinity of each line. . . . And also y1, y2, y3. . . Write your own symbols, such as. In the plurality of longitudinal lines 12, portions of the first layer 4, the third layer 6, and the fifth layer 8 of the shadow generating devices 4, 5, 6, 7, and 8 may be changed according to time. A satellite antenna, characterized in that a fan-shaped shape by displaying the shadow to be formed at regular intervals. The method of claim 18, The position (x, y) of the shadow with respect to the portion of the fourth layer 7 or the portion of the second layer 5 among the shadow generating devices 4, 5, 6, 7, and 8 is determined by the following equation. Satellite antenna installation method. (x, y) = F (k, f1 (g, h), f2 (d, t) f3 (c, m) In the above formula, x means the x coordinate in the angle table 11, on the angle table 11, x1, x2, x3. . . . And y means the y coordinate in the angle table, and y1, y2, y3 on the angle table 11. . . . And so on, The position (x, y) of the shadow with respect to the portion of the fourth layer 7 or the portion of the second layer 5 among the shadow generating devices 4, 5, 6, 7, and 8 is k, f1 (g, h), As a function of f2 (d, t), f3 (c, m), k is a variable determined by the position of the satellite to be directed, f1 (g, h) is a function of the coordinates of the place where you want to install the antenna, f2 (d, t) is a function of the date and time of installing the satellite antenna. f3 (c, m) is determined by the fourth layer 7 part or the second layer 5 part 5 of the angle table 11 and the shadow generating devices 4, 5, 6, 7, and 8. Function By the leveler 15 installed on the satellite antenna, the satellite antenna is leveled from side to side, On the angle table installed in front of the satellite antenna, the shadow of the fourth layer 7 part or the second layer part 5 of the shadow generating devices 4, 5, 6, 7, 8 is lowered in the angle table. About what is made, Find the satellites that will orient the antenna, the area where the antenna will be installed, and the shadow orbit corresponding to the date on which the antenna will be installed, Find a line of sight that intersects the shadow orbit above and represents the time of installation of the antenna, By adjusting the direction of the antenna, satellite antenna installation method, characterized in that the shadow of the corresponding portion of the shadow forming apparatus (4,5,6,7,8) at the intersection of the two types of lines; The horizontal level of the antenna is checked by the leveler 15 installed in the satellite antenna, Satellite to be oriented to satellite antenna, place to install satellite antenna, date and time to install satellite antenna, second layer (5) or second of shadow generating device (4,5,6,7,8) The position of the shadow formed according to the fourth layer 7 and the angle table 11 is calculated by the x coordinate and the y coordinate, By adjusting the direction of the antenna, at this calculated position (x, y), the center portion of the fourth layer 7 or the second layer 5 of the shadow generators 4, 5, 6, 7, and 8 are located. Satellite antenna installation method characterized by matching the shadow of the central part How to install satellite antenna selectively The method of claim 21, Angle table 11 for adjusting the satellite antenna angle by the shadow of the sun, It is indicated by a plurality of horizontal lines 13 and a plurality of vertical lines 12, x1, x2, x3 in the vicinity of each line. . . . And also y1, y2, y3. . . Write your own symbols, such as. In the plurality of longitudinal lines 12, portions of the first layer 4, the third layer 6, and the fifth layer 8 of the shadow generating devices 4, 5, 6, 7, and 8 may be changed according to time. A satellite antenna, characterized in that a fan-shaped shape by displaying the shadow to be formed at regular intervals. After adjusting the elevation angle with a separate goniometer, The horizontal level of the antenna is checked by the leveler 15 installed in the satellite antenna, After calculating the vertical direction line 12 that the shadow should reach in the angle table 11 according to the satellite to be oriented to the satellite antenna, the place where the satellite antenna is to be installed, and the date and time to install the satellite antenna, By adjusting the direction of the antenna, Among the shadow generating devices 4, 5, 6, 7, and 8, the shadows of the shadows formed by the portions of the first layer 4, the third layer 6, and the fifth layer 8 are located at the bottom in the angle table 11. Method of installing a satellite antenna, characterized in that the matching shadow to the longitudinal direction 12 calculated above the shadow The method of claim 23, wherein Angle table 11 for adjusting the satellite antenna angle by the shadow of the sun, A plurality of vertical lines 12 are displayed, and a unique symbol is written near each line, In the plurality of longitudinal lines 12, portions of the first layer 4, the third layer 6, and the fifth layer 8 of the shadow generating devices 4, 5, 6, 7, and 8 may be changed according to time. A satellite antenna characterized by forming a fan shape by displaying the shadow to be formed at regular intervals.