KR20000065652A - Satellite antenna coupled to angle measurement device and mounting method of the same - Google Patents

Abstract

PURPOSE: A satellite antenna coupled to angle measurement device and a mounting method of the same are provided to measure the angle of the antenna without using an angle meter, a compass, an electro-meter and be greatly simplified. CONSTITUTION: A satellite antenna coupled to angle measurement device comprises bottom and top supporters(2,4), an angle table(6), a stand(7), a stand support(8), a foresight(11) and a sight(12). The supporters(2,4) are respectively connected to the bottom and top edges(1,3) of the antenna and connected each other. A cross mark(4-1) is formed on the center of the supporter(4). The angle table(6) for verifying the angle of the antenna by the shadow formed through the cross mark(4-1) is attached to a front surface of the antenna. Horizontal scales(9,10) for verifying the horizontal and vertical states of the antenna are mounted to the stand support(8). The foresight(11) and sight(12) are mounted on the center of the antenna to verify obstacles in front of the antenna.

Description

Satellite antenna combined with angle measuring device and installation method thereof (7)

[Field of Invention]

The present invention relates to a satellite antenna. More specifically, the present invention relates to a satellite antenna angle measuring device and a satellite antenna installation method using the measuring device. More specifically, the present invention relates to a method of installing a directional satellite antenna using the shadow of the sun.

[Background of invention]

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

Satellite antennas are most often used as a reflector plate reflecting the transmitted and received radio waves, there are some methods such as parabola, offset, etc. There are other methods to absorb the received radio waves.

Other undirected satellite antennas are also used.

Among these various antenna antennas, the directional satellite antenna must be precisely angled toward the satellite.

Therefore, when installing a satellite antenna, a goniometer, a compass, and an electric field strength measuring device are used. 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 field strength measuring device responds when the antenna angle reaches an approximate value but starts to receive satellite signals.

This problem is especially true when dealing with digital satellite signals that 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 measuring device and a satellite antenna combined with the measuring device which 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 beyond the approximation.

After that, he developed a measuring device that controls the angle of the satellite antenna using the shadow of the sun, or a satellite antenna combined with it, and has filed a patent application continuously related to it since the patent application was filed on Dec. 8, 1998, No. 98-53530. There is.

Previously patented inventions have the advantage that satellite antennas can be conveniently installed using the shadow of the sun, but it was inconvenient to check whether the antenna is horizontally or vertically when the antenna is fixed to the stand.

In other words, when the antenna is viewed from the front of the antenna with the azimuth adjusted, the stand must be installed so that the antenna does not tilt left and right, so the eyes should be vertically checked or a separate leveler should be used.

This problem is true for the conventional satellite antennas that do not use shadows, but is more necessary for satellite antennas controlled by the sun's shadows.

The most important object of the present invention is to combine the horizontal plane with the satellite antenna to adjust the angle by the shadow of the sun so that it is easy to determine whether the horizontal and vertical of the stand is secured when the satellite antenna is installed.

An object of the present invention is to provide a satellite antenna angle measuring device that can be measured 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 used 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 is to provide a satellite antenna with an obstacle identifying device made of a scale and a scale for identifying an obstacle within an angle to which the satellite antenna is directed.

Another object of the present invention is to provide a satellite antenna with a device for checking whether the stand supporting the antenna is inclined when installing the satellite antenna.

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

1, 3, 5, and 7 are front views schematically showing representative examples of various types of satellite antennas combined with the angle measuring device according to the present invention.

2 is a side view of FIG. 1, FIG. 4 is a side view of FIG. 3, FIG. 6 is a side view of FIG. 5, and FIG. 8 is a side view of FIG.

9 is a side view schematically showing a satellite antenna in which a horizontal system is installed.

10 is a rear view schematically showing a satellite antenna in which a horizontal system is installed.

FIG. 11 is a side view schematically showing a satellite antenna provided with an obstacle identifying apparatus.

12 schematically shows an angle table for reading the angle of the satellite antenna by the shadow position.

BRIEF DESCRIPTION OF THE MAIN SIGNS IN THE FIGURE

Lower part of 1 antenna, lower part of 2 support, upper part of 3 antenna, upper part of 4 antenna, 4-1 shadow generator, front of 5 satellite antenna, angle chart, 7 stand, support device for 8 stand, 9 horizontal, 10 horizontal Now, 11 scales, 12 scales, 13 obstacle checking device, 14 horizontal lines, 15 vertical lines

Satellite antenna combined with the angle measuring device of the present invention,

The lower support 2 protrudes forward from the lower part of the satellite antenna 1, and the upper support 4 is installed from the lower support 2 to the upper part of the satellite antenna 3, but in the middle of the upper support 4 Install the shadow generating device (4-1) of the crisscross shape,

An apparatus for supporting the stand 7 at the rear side of the satellite antenna by installing an angle table 6 for reading the angle of the satellite antenna by the shadow generated by the shadow generating device 4-1 on the satellite antenna front surface 5. (8), the horizontal ruler (9, 10) for checking the vertical and horizontal of the stand (7) is provided,

In the upper center 3 of the satellite antenna, an obstacle checking device 13 for checking the presence of obstacles in front of the scale 11 and the scale 12 is provided.

The angle table (Fig. 12), which reads the angle of the satellite antenna by the above shadow, is composed of a plurality of horizontal lines and a plurality of vertical lines, and in the vicinity of each line, A1, A2, A3. . . . And also B1, B2, B3. . . It is characterized by the inherent symbols described as.

According to the present invention, a method of adjusting the satellite antenna angle is as follows.

Check the horizontality of the satellite antenna by the horizontal ruler (9, 10),

The position of the shadow formed according to the satellite to be directed to the satellite antenna, the area where the satellite antenna is to be installed, the date and time to install the satellite antenna, and the shadow generator (4-1) and the angle table (x) Calculate with coordinates and y coordinates,

At this calculated position (x, y), the shadow of the intersection of the horizontal and vertical portions of the shadow generator 4-1 is matched.

It is characterized by checking whether there is an obstacle blocking the satellite antenna in front of the angle adjusted by the obstacle checking device (13).

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

1, 3, 5, and 7 are front views of various satellite antennas combined with the angle measuring device according to the present invention.

FIG. 2 is a side view of FIG. 1, FIG. 4 is a side view of FIG. 3, FIG. 6 is a side view of FIG. 5, and FIG. 8 is a side view of FIG.

Protrudes the lower support (2) forward from the satellite antenna lower (1),

When the horn is installed in front of the satellite antenna, it also serves as a support for the horn (2 in the first, second, third, and fourth degrees), and when the horn is installed in the rear of the satellite antenna, a separate lower support (the fifth Install 2) of 6, 7, 8 degrees.

The upper support 4 is installed from the end of the lower support 2 protruding from the satellite antenna 3, and a shadow generating device 4-1 having a crisscross shape is installed at the center of the upper support 4. That is, the lower part of the cross shape is fixed to the lower support (2), the upper part is fixed to the satellite antenna upper (3).

The material of the shadow generating device 4 is made of a structure and a material that is as small as possible in spite of the change of the climate. Wire, chains, chemical fibers, etc. may be used.

On the front surface of the satellite antenna (5), an angle table (6) for reading the satellite antenna angle by the shadow generated by the shadow generating device (4-1) is provided.

A1, A2, A2. . . Intersect with a plurality of longitudinal lines 14, designated by. And a plurality of longitudinal lines 14, and B1, B2, B3. . . It consists of a number of horizontal direction lines 15, designated as.

9 and 10 are installed in the device 8 for supporting the stand 7 in the rear of the satellite antenna, the horizontal (9, 10) for checking the vertical and horizontal of the stand (7) is installed, Figure 9 is a horizontal A side view of the satellite antenna, and FIG. 10 is a rear view.

This allows you to see exactly whether the antenna is tilted from side to side when viewed from the front.

11 is an obstacle identifying device 13 composed of a scale 11 and a scale 12 for checking the presence or absence of an obstacle within an angle to which the satellite antenna is directed.

It is to check whether there are obstacles such as buildings or trees within the adjusted angle range.

Satellite antenna angle adjustment according to the present invention is practical as follows.

Check the horizontal level of the antenna by the horizontal ruler (9, 10),

The position of the shadow to be formed according to the satellite to be directed to the satellite antenna, the place where the satellite antenna is to be installed, the date and time to install the satellite antenna, and the shadow generator (4-1) and the angle table (x) Calculate with coordinates and y coordinates,

This calculated position (x, y) matches the shadow of the intersection of the horizontal and vertical portions of the shadow generating device 4-1.

Then, it is characterized by checking whether there is an obstacle blocking the satellite antenna within the range controlled by the obstacle identification device (13).

The above coordinate calculation is

Principle that shadows are uniformly formed according to satellites aiming to satellite antenna, place to install satellite antenna, date and time to install satellite antenna, shadow generator (4-1) and angle table (6) It can be calculated by the following formula.

(x, y) = F (k, f ₁ (g, h), f ₂ (d, t), f ₃ (c, m))

In the above formula, x means the x coordinate in the angle table (6), on the angle table (6), A ₁ , A ₂ , A ₃ . . . And y denotes the y-coordinate in the angle table (6), B ₁ , B ₂ , B ₃ . . . . And the shadow position (x, y) by the shadow generating device 4-1 is k, f ₁ (g, h), f ₂ (d, t), f ₃ (c, m) As a function,

k is a variable determined by the position of the satellite to be directed,

f ₁ (g, h) is a function of the coordinates of the place where you want to install the antenna,

f ₂ (d, t) is a function of the date and time of installation of the satellite antenna,

f ₃ (c, m) is a function determined by the angle table 6 and the shadow generator 4-1.

Since this kind of formula is very complex, it is actually processed as follows.

Satellite antennas do not function independently and must be used with a separate receiver or transmitter.

These separate devices already have the hardware to install the input device calculation program to input the above data, and the output device (TV, etc.) showing the calculated results.

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

(Enter of satellite position)

In the above calculation program, the name and location of an existing satellite are input in advance, and in the case of an existing satellite, only the name of the satellite is selected. (Or, for newly launched satellites, enter the location of the satellite, such as 116 degrees long.)

(Enter region to install antenna)

In the region where the antenna is to be installed, the latitude and longitude are inputted in advance for each city, or the elevation angle and the azimuth angle are inputted in advance for each satellite for each satellite so that only the name of the city is selected.

(Enter date and time to install antenna)

The calculation program has a built-in calendar and clock.

(Enter the specification of shadow generator and angle table)

The satellite antenna according to the present invention may have various specifications, and the specifications of the shadow generating device 4-1 and the angle table 6 vary according to the specifications of the antenna. Depending on the type of 1) and the angle table (6), several satellite antenna model numbers are input in advance.

Therefore, when calculating the shadow position, selecting only the name of the satellite, the name of the region to be installed, and the model number of the satellite antenna outputs the position of the shadow.

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, if you output the shadow position as above, you can easily correct it by configuring it to output the direction and distance to which the shadow will move for the next three minutes.

Such a computing device performs the operation as follows.

For example, if you want to install a satellite antenna for the Mugunghwa satellite in Seoul, and the time is 13:30 and the model number of the antenna is "A2",

Check the horizontal level of the antenna by the horizontal ruler (9, 10),

Select the Mugunghwa satellite, Seoul, A2 among the data inputted to the above calculation device, and if you execute the calculation, the shadow position for it will be output as "the intersection of A15 and B11".

Therefore, the satellite antenna combined with the angle measuring device of the present invention,

Angle measurement is more convenient without the use of a goniometer, compass, or field strength measurement device.The angle measurement device can be permanently coupled to the satellite antenna, and unlike the field strength measurement device, the angle of the satellite antenna The response is not as close as possible, and obstacles within the angle of the satellite antenna are easily identified.

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 figures, as long as they have directivity, simple variations or modifications of the principle of using shadow generators and generated shadows are readily available to those skilled in the art. Can be implemented.

In particular, for the shadow generating device and the angle table shown in the drawings, modifications or changes within the scope of the principle of adjusting the satellite antenna angle by using the shadow of the sun are easily carried out by those skilled in the art. Can be.

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

Claims (7)

The lower support 2 protrudes forward from the lower part of the satellite antenna 1, and the upper support 4 is installed from the lower support 2 to the upper part of the satellite antenna 3, but the middle of the upper support 4 is provided. An angle table for installing a shadow generating device 4-1 having a crisscross shape and reading the satellite antenna angle by shadows generated by the shadow generating device 4-1 on the satellite antenna front surface 5 is provided. 6), the apparatus 8 for supporting the stand 7 behind the satellite antenna is provided with levelers 9 and 10 for checking the vertical and horizontal positions of the stand 7, and the upper center of the satellite antenna. (3) A satellite antenna characterized in that an obstacle checking device (13) for checking the presence or absence of an obstacle in front of the scale (11) and the scale (12) is provided. The method of claim 1, The angle table (Figs. 12 and 13) for reading the angle of the satellite antenna by the shadow is composed of a plurality of horizontal lines 14 and a plurality of new direction lines 15, and A1 and A2 in the vicinity of each line. , A3 .... Satellite antennas, characterized in that the unique symbols are described as B1, B2, B3 .... The method of claim 1, Satellite antenna, characterized in that the obstacle identification device 13 consisting of a scale (11) and the scale 12 for identifying the obstacle in the angle that the satellite antenna is directed to the upper portion of the center of the satellite antenna (3) The method of claim 1, The lower support 2 protrudes forward from the lower part of the satellite antenna 1, and the upper support 4 is installed from the lower support 2 to the upper part of the satellite antenna 3, but in the middle of the upper support 4 An angle table (6) in which a shadow generating device (4-1) having a crisscross shape is provided, and the satellite antenna front surface (5) reads the satellite antenna angles by shadows generated by the shadow growth paper (4-1) (6). ) And a horizontal antenna (9, 10) for checking the vertical and horizontal of the stand (7) is installed in the device (8) for supporting the stand (7) behind the satellite antenna. The lower support 2 protrudes forward from the lower part of the satellite antenna 1, and the upper support 4 is installed from the lower support 2 to the upper part of the satellite antenna 3, but in the middle of the upper support 4 An angle table (6) in which a shadow generating device (4-1) having a crisscross shape is provided, and the phase antenna angle (6) is read on the satellite antenna front surface (5) by shadows generated by the shadow generating device (4-1). ), The apparatus 8 supporting the stand 7 at the rear of the satellite antenna, is provided with levelers 9 and 10 for checking the vertical and horizontal positions of the stand 7, and the upper center ( 3), an obstacle checking device 13 for checking the presence of obstacles in front of the scale 11 and the scale 12 is provided. Check the horizontal level of the antenna by the horizontal ruler (9, 10), Calculate the position of the shadow formed according to the satellite to be oriented to the satellite antenna, the place where the satellite antenna is to be installed, the date and time to install the satellite antenna, the shadow generator and the angle table in x and y coordinates, Match the shadow at the intersection of the horizontal and vertical sections of the shadow generator at this calculated position (x, y), Satellite antenna installation method characterized by checking whether there is an obstacle blocking the satellite antenna within the range controlled by the obstacle identification device The method of claim 5, The lower support 2 protrudes forward from the lower part of the satellite antenna 1, and the upper support 4 is installed from the lower support 2 to the upper part of the satellite antenna 3, but in the middle of the upper support 4 Install the shadow generating device (4-1) of the crisscross shape, On the front surface of the satellite antenna 5, an angle table 6 for reading the satellite antenna angle by the shadow generated by the shadow generating device 4-1 is provided. In the device for supporting the stand (7) behind the satellite antenna (8), the horizontal (9, 10) for checking the vertical and horizontal of the stand (7) is installed, Check the horizontal level of the antenna by the horizontal ruler (9, 10), The position of the shadow formed according to the satellite to be directed to the satellite antenna, the place where the satellite antenna is to be installed, the date and time to install the satellite antenna, and the shadow generator (4-1) and the angle table (x) Calculate with coordinates and y coordinates, Satellite antenna installation method characterized in that the shadow of the intersection of the horizontal and vertical portions of the shadow generating device (4-1) to the calculated position (x, y) The method according to claim 5 and 6, The position (x, y) of the shadow of the shadow generating device (4-1) is a satellite antenna installation method, characterized in that determined by the following equation. (x, y) = F (k, f ₁ (g, h), f ₂ (d, t), f ₃ (c, m) In the above formula, x means the x coordinate in the angle table (6), on the angle table (6), A ₁ , A ₂ , A ₃ .... etc., y is the y coordinate in the angle table , B ₁ , B ₂ , B ₃ ..., etc., The position of the shadow (x, y) by the shadow generating device 4-1 is a function of k, f ₁ (g, h), f ₂ (d, t), f ₃ (c, m), k is a variable determined by the position of the satellite to be directed, f ₁ (g, h) is a function of the coordinates of the place where you want to install the antenna, f ₂ (d, t) is a function of the date and time of installation of the satellite antenna, f ₃ (c, m) is a function determined by the angle table (6) and the shadow generator (4-1).