KR20000061016A - Satellite antenna with angle measuring device and mounting thereof - Google Patents

Abstract

PURPOSE: A satellite antenna with an angle measuring device and mounting thereof is provided to simplify the angle adjusting device to offer a unified angle measuring device, so as to use and install the device with ease. CONSTITUTION: A satellite antenna with an angle measuring device and mounting thereof includes a straight holding bond(4) projected on the middle in an upper part of a holding bond of a feed horn(2), is connected to the middle in an upper part(3) of an antenna(1). A wire, a chains, or a chemical fiber is used as the straight holding bond(4) in order to be less elasticized under the changes of temperature. A device for making a cruciform shadow(5) by intercepting an irradiation of sunbeam is a wire or a plastic.

Description

Satellite antenna combined with angle measuring device and its installation method

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.

Background of the Invention

The satellite antenna is installed toward the satellite and used as a device for transmitting and receiving toward the satellite.

When installing such a satellite antenna, a goniometer, a compass, an electric field strength measuring device, etc. 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 general consumers to install by themselves.

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.

Thus, the present inventors have a purpose to provide a measurement device and a satellite antenna coupled with the satellite antenna can be easily used by anyone, because the structure is very simple, even if the angle of the satellite antenna far beyond the approximation.

After that, we developed a measuring device that controls the angle of the satellite antenna by using the shadow of the sun and its measuring device or a satellite antenna combined with it. The application is pending.

While the previously patented invention reads the angle of the antenna by the shadow, it has the advantage that it can be used in a wide range of areas with different elevation angles and azimuth angles.

The angle adjustment is divided into several stages, and the angle adjustment of the antenna is finished, and to check whether the antenna is misaligned during fixation and use, the position of the shadow must be read in several steps as in the case of installation.

The main object of the present invention is to further simplify the method of adjusting the antenna angle, so that it can be used complementary to that according to the previous invention.

An object of the present invention is to provide an integrated 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 greatly simplify the angle measuring device so that it can be permanently coupled to the 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.

It is another object of the present invention to further simplify the present invention even when the antenna is installed, or after the installation is completed and used, in checking the angle of the antenna.

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

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.

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

1 is a front view schematically showing a satellite antenna combined with the angle measuring device of the present invention.

2 is a side view schematically showing a satellite antenna combined with the angle measuring device of the present invention.

3 is a diagram for reading the angle of the antenna by the shadow of sunlight as part of the angle measuring device of the present invention.

4 is a side view schematically illustrating an obstacle identifying apparatus including a scale and a scale for checking the presence or absence of an obstacle within an angle to which the satellite antenna is directed according to the present invention.

Brief description of the main symbols in the drawings

1 antenna, 2 top horn support, 3 antenna top, 4 straight support, 5 shadow forming device, 6 chart, 7 horizontal direction line for shadow trajectory, 8 vertical direction line for vision,

Satellite antenna 1 combined with the angle measuring device of the present invention,

Providing a straight support (4) protruding from the upper center (2) of the feed horn support of the satellite antenna (1) connecting the upper center (2) of the antenna (1),

In the center of the straight support 4, a device (5) is formed in a cross shape to block irradiation of sunlight to form a cross shape shadow,

On the surface of the antenna 1, a chart 6 for reading the antenna angle by the shadow formed is provided,

The diagram (FIG. 3) shows the satellites to which the antenna 1 is to be directed, the area where the antenna is to be installed, and the trajectory of the shadow formed by the shadow forming apparatus for each date on which the antenna is to be installed as a plurality of horizontal lines 7,

Display a number of longitudinal lines 8 that intersect the above trajectory 7 and indicate the time of installation of the antenna,

The upper portion 3 of the center of the antenna 1 is composed of an obstacle checking device 11 for checking the presence or absence of an obstacle in front of the scale 9 and the scale 10.

According to the present invention, the method for adjusting the antenna angle finds the shadow track 7 corresponding to the date on which the antenna is installed on the chart 6 for reading the antenna angle by the shadow, and adjusts the track 7 and the antenna. When the shadow of the intersection of the horizontal and vertical portions of the shadow forming apparatus 5 coincides with the vertical direction line 8 corresponding to the installation time, the azimuth and elevation angles are simultaneously adjusted, and the scales (9) And by the obstacle check device 11 made of a scale (10) is characterized in that whether there is an obstacle, such as buildings or trees within the adjusted angle range as described above.

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

1 is a front view of a satellite antenna coupled to the angle measuring device according to the present invention, and FIG. 2 is a side view of a satellite antenna coupled to the angle measuring device according to the present invention.

A straight support (4) is installed to protrude from the upper center (2) of the top horn support of the satellite antenna and connects the upper center (3) of the antenna (1). Use chains, chemical fibers, etc.

In the center of the straight support 4, there is a device (5) which has a crisscross shape to block the irradiation of sunlight to form a crisscross shape, and a material such as wire or plastic is used.

3 is a diagram for reading the antenna angle by the shadow of sunlight as part of the angle measuring device of the present invention,

The antenna angle is read by the shadow formed on the surface of the antenna 1.

In this diagram, the satellites to orient the antenna, the area where the antenna is to be installed, and the trajectory of the shadow formed by the shadow forming apparatus for each date to install the antenna are represented by a plurality of horizontal lines (7),

It consists of a plurality of longitudinal lines 8 intersecting the above track 7 and indicating the time when the antenna is installed.

(In the above case, the horizontal direction line 7 and the vertical direction line 8 may be curved or oblique depending on the curved surface and the date of the antenna. This concept also includes the same.)

The diagram (Fig. 3) of the horizontal line 7 and the vertical line 8 is made according to the following principle.

After fixing the satellite antenna to a specific satellite in a specific area and installing the shadow forming apparatus 5, the horizontal direction line 7 is displayed according to the trajectory of the shadow generated for 365 days a year, and the horizontal direction line ( In 7), time display is performed, and when the displays corresponding to the same time among all the horizontal direction lines 7 are connected, the vertical direction line 8 is obtained.

In this way, the shadow's orbit 7 is indicated for several satellites in different regions.

However, at this time, not all 365 horizontal direction lines 7 are necessarily displayed, and lines may be displayed at three-day intervals, five-day intervals, or seven-day intervals depending on the purpose of the antenna.

In this case, the shadow trajectory of the antenna installation area, the shadow trajectory of the corresponding satellite, or the trajectory of the satellite and the area of the satellite may be displayed together in one diagram. Make it easy to distinguish.

4 is an obstacle identifying apparatus 11 including a scale 9 and a scale 10 for checking the presence or absence of an obstacle within an angle to which the satellite antenna is directed according to the present invention.

Consists of a scale (9) and the scale (10) is to determine whether there are obstacles such as buildings or trees in the adjusted angle range as described above.

For example, if you try to install an antenna for Mugunghwa satellite in Seoul, Korea on March 30, and the time is 13:00, you can find the Seoul area and Mugunghwa satellite on the chart (6). From the horizontal line (7), find the one corresponding to March 30, find the vertical line (8) corresponding to 13:00, and move the shadow of the intersection of the shadow forming device (5) to the intersection of these two lines. When released, the azimuth and elevation adjustments will end together.

On the other hand, to check whether the stand of the antenna 1 is inclined too much, first, check whether the shadow of the straight support 4 and the vertical line 8 coincide.

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

It is possible to measure angles without using a goniometer, compass, or field strength measuring device.The angle measuring device can be permanently coupled to the satellite antenna, and unlike the field strength measuring device, the angle of the satellite antenna is approximated toward the satellite. When the antenna is not reached, the reaction is performed, and the method of checking the angle of the antenna when installing the antenna or using the antenna after completing the installation is further simplified, compared to the inventor's previous invention, and the obstacle within the angle pointed by the satellite antenna. Even easy to check, it will be easier for the average consumer to install the antenna.

Claims (14)

Install a straight support (4) that protrudes from the upper center (2) of the horn support of the satellite antenna and connects the upper center (3) of the antenna, In the center of the straight support 4, a device (5) is formed in a cross shape to block irradiation of sunlight to form a cross shape shadow, On the surface of the antenna, a chart 6 for reading the antenna angle by the shadow formed is provided. A satellite antenna, characterized in that the center upper portion (3) of the antenna consisting of an obstacle confirming device (11) for checking the presence of obstacles in front of the scale (9) and the scale (10). The method of claim 1, The diagram for reading the antenna angle by the shadow (Figure 3), Satellites to orient the antenna, the area where the antenna is to be installed, and the trajectory of the shadow formed by the shadow forming apparatus for each date to install the antenna are represented by a plurality of horizontal lines (7), Satellite antenna characterized in that it consists of a plurality of longitudinal lines (8) that intersect the above orbit and represent the time to install the antenna. The method of claim 1, Satellite antenna, characterized in that the obstacle identification device 11 consisting of a scale (9) and the scale (10) for identifying the obstacles in the gigadodo that the satellite antenna is directed to the upper portion of the center of the antenna (3) The method of claim 1 Install a straight support (4) that protrudes from the upper center (2) of the horn support of the satellite antenna and connects the upper center (3) of the antenna, In the center of the straight support 4, a device (5) is formed in a cross shape to block irradiation of sunlight to form a cross shape shadow, Inside the surface of the antenna (1), a satellite antenna, characterized in that consisting of a chart (6) for reading the antenna angle by the shadow formed. On the diagram (6) installed on the antenna, which reads the antenna angle by the shadow, Find the shadow orbit (7) corresponding to the satellite to which the antenna will be directed, the area where the antenna will be installed, and the date on which the antenna will be installed. Adjust the angle by matching the intersection point of the horizontal part and the shadow part of the shadow forming apparatus 5 to the intersection point of the vertical direction line 8 representing the time of installing the antenna in the upper track 7, and the presence of obstacles in the front Satellite antenna installation method, characterized in that for confirming the obstacle in front by the device (11) to check. The method of claim 5, The diagram for reading the antenna angle by the shadow (Figure 3), A plurality of transverse lines (7) represent the satellites to which the antennas are to be directed, the area where the antennas are to be installed, and the shadow trajectory formed by the shadow forming apparatus for each date to install the antennas, Satellite antenna characterized in that it consists of a plurality of longitudinal lines (8) that intersect the above orbit and represent the time to install the antenna. The method of claim 5, On the chart (6) installed on the antenna, which reads the angle of the antenna by the shadow, find the satellite to direct the antenna, the area to install the antenna, and the shadow orbit (7) corresponding to the date on which the antenna is to be installed. Satellite antenna, characterized in that for adjusting the angle by matching the intersection of the shadow of the horizontal portion and the vertical portion of the shadow forming device to the intersection of the vertical direction line (8) indicating the time to install the antenna of the above orbit (7) How to install. The method according to claim 5 or 7, characterized in that the longitudinal direction (8) and the straight support (4) by checking whether the shadow of the coincidence, the inclination of the stand supporting the antenna (1) is checked. Satellite antenna installation method The method of claim 6, Satellite antennas characterized in that the shadow orbits are distinguished by different shapes or colors for each satellite to which the antenna is installed. Install the support protruding from the satellite antenna in front of the satellite antenna, This support is equipped with a device to block the irradiation of sunlight to form a shadow, On the surface of the antenna is provided a chart (Fig. 3) for reading the antenna angle by the shadow formed, The upper part of the antenna is a satellite antenna, characterized in that consisting of an obstacle check device for checking the presence of obstacles in front of the scale and scale. The method of claim 10, The diagram of reading the antenna angle by the shadow (Fig. 3) shows the orbits of the shadows formed by the shadow forming apparatus according to the satellites to which the antennas are to be directed, the area in which the antennas are to be installed, and the date to install the antennas. ), Satellite antenna characterized in that it consists of a plurality of longitudinal lines (8) that intersect the above orbit and represent the time to install the antenna. The method of claim 10, Satellite antenna, characterized in that the obstacle identifying device consisting of a scale and a scale for identifying the obstacle within the angle that the satellite antenna is directed to the upper portion of the center of the reflector The method of claim 10 Install the support protruding from the satellite antenna in front of the satellite antenna, This support is equipped with a device to block the irradiation of sunlight to form a shadow, The antenna according to claim 3, wherein the antenna surface is composed of a chart for reading the antenna angle by the shadows formed (Fig. 3). The method of claim 11, Satellite antennas characterized in that the shadow orbits are distinguished by different shapes or colors for each satellite to which the antenna is installed.