KR100278142B1 - Satellite antenna with installation means and installation method - Google Patents

Abstract

The satellite antenna to which the installation means of the present invention is coupled is provided with a solar shadow forming means (6) connecting the center of the support of the horn horn (2) and the upper center of the antenna reflector (1), and of the antenna reflector (1) The azimuth angle is determined by attaching an azimuth chart to the inside, and the azimuth chart shows the azimuth line determined according to the area and satellite type to receive the satellite signal in the horizontal direction, and the time when the satellite antenna is installed in the diagonal direction. The shadow of the shadow forming means 6 by sunlight is shown in the vertical direction. The method for adjusting the azimuth angle according to the present invention checks the azimuth line in the horizontal direction and the time line at the installation in the antenna reflector 1 having the elevation angle determined and fixed, and the sunlight shadow 8 in the vertical direction at the point where they meet each other. What is necessary is just to rotate the antenna reflector 1 so that is located. Once the azimuth angle is determined, the antenna reflector 1 is completely fixed to prevent movement.

Description

Satellite Antenna with Means for Installation and Method of Installing the Same

[Field of Invention]

The present invention relates to a satellite antenna. More specifically, the present invention relates to a satellite antenna coupled to the installation means and to a method for installing the satellite antenna to facilitate installation.

[Background of invention]

The satellite antenna is a device for receiving a satellite signal transmitted from the satellite, the satellite signal received by the satellite antenna is converted into an image signal through the receiver. 1 is a perspective view schematically showing one aspect of a conventional satellite antenna.

As shown in Fig. 1, the satellite antenna includes an antenna reflector 1 for receiving and reflecting satellite signals transmitted from satellites, and a feed horn 2 for collecting satellite signals reflected from the antenna reflector. A cable 3 for transferring the satellite signal collected in the feed horn to the receiver 4, a receiver 4 connected to a TV receiver (not shown) and converting the satellite signal of the satellite into an image signal; and It consists of a fixed shaft 5 for fixing the antenna reflector 1.

In order to install a satellite antenna, first, the fixed shaft 5 should be installed and fixed at an appropriate position to be installed, and the antenna reflector 1 should be installed on the fixed shaft. However, the installation of the antenna reflector 1 on the fixed shaft 5 has only been possible by a technician with considerable installation technology. This is because when the satellite antenna is to be installed, the antenna reflector 1 must be installed so that the elevation angle and the azimuth angle are exactly matched. The elevation angle refers to the angle of inclination of the antenna reflector 1 in FIG. 1, and the azimuth angle refers to the angle of the antenna reflector formed in the rotational direction about the fixed shaft 5. In FIG. 1, the movement in the direction of arrow A is for adjusting the elevation angle, and the movement in the direction of arrow B is for adjusting the azimuth angle. The elevation and azimuth angles are determined according to the location of the area where satellite signals are to be received and the type of satellites to which they are to be received. For example, in the case of receiving satellite signals of the Mugunghwa satellite in the Korean Peninsula, the elevation angle and the azimuth angle have their own values.

When receiving a satellite signal, the elevation angle and the azimuth angle must be installed. The elevation angle can be installed more easily than the azimuth angle. After the fixed shaft 5 is installed vertically and the inclination of the antenna reflector 1 is adjusted to an elevation angle in the region by using an angleometer such as a protractor, the antenna reflector 1 may be fixed. That is, in Fig. 1, the antenna reflector 1 moves in the direction of arrow A and fixes the antenna reflector 1 at the exact elevation position.

However, it is not easy to accurately match the azimuth angle of the antenna reflector 1. In particular, consumers who want to install a satellite antenna is difficult to find the exact azimuth. Therefore, if a satellite antenna is to be installed, it is natural that almost all of them will be referred to a professional engineer, thereby increasing the installation cost.

Until now, the expert installing the satellite antenna has confirmed the approximate orientation by a compass, and again, using the field strength measuring device, the trial and error is continued to set the correct azimuth angle. A general consumer who wants to install a satellite antenna is not equipped with a compass or field strength measuring device or because they are not familiar with how to use satellite antennas.

The present invention solves the above-mentioned problems when installing the satellite antenna completely, without using a compass or electric field strength measuring device, the satellite antenna is combined with the installation means that can be easily and accurately set the azimuth to install the satellite antenna And how to install them.

An object of the present invention is to provide a satellite antenna coupled to the installation means for installing a satellite antenna by simply and accurately setting the azimuth angle without using a compass or a field strength measuring device.

Another object of the present invention is to provide a satellite antenna that can be easily installed by a general consumer without a professional technician.

Still another object of the present invention is to provide a satellite antenna coupled to the installation means that can be installed by the general consumer to reduce the installation cost.

Still another object of the present invention is to provide a method for easily and accurately installing a satellite antenna by a general consumer without using a compass or a field strength measuring device.

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

1 is a perspective view schematically showing the installation of one embodiment of the conventional satellite antenna.

Figure 2 is a perspective view schematically showing a satellite antenna coupled to the installation means according to the present invention.

3 is a plan view showing one embodiment of a diagram representing azimuth / time / shadow in accordance with the present invention (hereinafter referred to as an azimuth chart).

<Description of the symbols for the main parts of the drawings>

1 antenna reflector 2 feed horn

3: cable 4: receiver

5: fixed shaft 6: shadow forming means

7: Azimuth Chart 8: Sun Shadow

The satellite antenna to which the installation means of the present invention is coupled is provided with a solar shadow forming means (6) connecting the center of the support of the horn horn (2) and the upper center of the antenna reflector (1), and the The azimuth angle is determined by attaching an azimuth chart to the inside, and the azimuth chart shows the azimuth line determined according to the area and satellite type to receive the satellite signal in the horizontal direction, and the time when the satellite antenna is installed in the diagonal direction. The shadow of the shadow forming means 6 by sunlight is shown in the vertical direction.

According to the present invention, the method of installing the azimuth angle checks the azimuth line in the horizontal direction and the time line at the installation in the antenna reflector 1 having the elevation angle determined and fixed, and the sunlight shadow 8 in the vertical direction at the point where they meet each other. What is necessary is just to rotate the antenna reflector 1 so that is located. Once the azimuth angle is determined, the antenna reflector 1 is completely fixed to prevent movement.

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

1 is a perspective view schematically showing the installation form of one embodiment of a conventional satellite antenna. The satellite antenna includes an antenna reflector 1 for receiving and reflecting satellite signals, a horn horn 2 for collecting satellite signals reflected from the antenna reflector, a cable connecting the horn horn and a receiver, and images of the satellite signals. A receiver 4 for converting into a signal and a fixed shaft 5 for fixing the antenna reflector. In the present invention, the azimuth angle, which is the angle in the direction of the arrow B in FIG. 1, is easily measured.

Figure 2 is a perspective view schematically showing a satellite antenna coupled to the installation means according to the present invention. The satellite antenna coupled to the installation means of the present invention is installed with the shadow shadow forming means (6) connecting the center of the support of the horn horn 2 and the upper center of the antenna reflector (1) and the inside of the antenna reflector (1) Is attached to the azimuth chart (7). The shadow forming means 6 forms the shadow 8 by sunlight.

The sun shadow forming means 6 is preferably flexible, such as strings, ropes and the like. The shadow forming means 6 preferably uses a yarn made of chemical fibers having low resistance to propagation, and may be made of metal.

The azimuth chart 7 is a diagram showing the azimuth angle, the time of day and the shadow of the sun, and shows one embodiment in FIG. The azimuth chart 7 is made differently according to the size of the satellite antenna, the type of the satellite, and the region where the satellite signal is to be received, and is attached to the inside of the antenna reflector 1. The azimuth chart 7 consists of a horizontal line 71 representing azimuth angle, an oblique line 72 representing time, and a vertical line 73 coinciding with the sunlight shadow 8.

In the azimuth chart (7), the azimuth is determined by the type of satellite and its region. The time of the diagonal line 72 means the satellite antenna installation time. Diagonal lines 72 representing time may be displayed in appropriate time units, for example, in 3 minute increments. If possible, use the time when the azimuth angle of the sun coincides with the satellite and the time before and after the error can be reduced.

The method for setting the azimuth angle of the satellite antenna in the present invention is as follows.

Check the azimuth angle of the satellite to be received in the azimuth chart 7 attached to the antenna reflector 1 of the satellite antenna, and the point where the horizontal direction line 71 indicating the azimuth angle and the diagonal line 72 indicating the installation time meet. The antenna reflector 1 is adjusted in the direction of arrow B of FIG. 1 so that the sunlight shadow 8 coincides with the vertical line 73 existing in the vertical direction at. When the sunlight shadow 8 coincides with the vertical line 73 at the point where the horizontal line 71 and the diagonal line 72 meet, the antenna reflector 1 is firmly fixed.

For example, if the azimuth angle of the satellite to be received is DI99, check the horizontal direction line corresponding to DI99 in the azimuth chart (7), and if the current time is 12 o'clock, the point where the horizontal direction line of DI99 meets the diagonal line of T12 ( 80, and the sun shadow (8) to match the vertical line passing through the point 80 in the vertical direction.

The satellite antenna according to the present invention can easily install a satellite antenna even by a general consumer by easily and accurately setting the azimuth angle and easily checking an obstacle within the angle pointed by the satellite antenna without using a compass or a field strength measuring device. According to the satellite antenna installation method of the present invention, it is possible to install without having to have a professional technician has the effect of reducing the installation cost.

Simple modifications or changes of the present invention can be easily carried out by those skilled in the art, and all such modifications or changes can be seen to be included in the scope of the present invention.

Claims (4)

Solar shadow forming means (6) is provided to connect the center of the support of the horn horn (2) of the satellite antenna and the upper center of the antenna reflector (1), and the azimuth angle (7) is attached to the inside of the antenna reflector. And a horizontal line (71) indicating azimuth angle, an oblique line (72) indicating time, and a vertical line (73) coinciding with the sunlight shadow (8). 2. Satellite antenna according to claim 1, characterized in that the sun shadow forming means (6) is a thread, string or rope made of chemical fibers. The satellite antenna according to claim 1, wherein the azimuth chart (71) is manufactured according to the type of the satellite antenna, and the oblique line representing the time is made to change with time intervals. In the azimuth chart 7 attached to the antenna reflector 1, check the point where the horizontal direction line 71 indicating the azimuth angle and the diagonal line 72 indicating the installation time meet, and the vertical line facing in the vertical direction from the meeting point ( 73) adjusting the antenna reflector (1) so that the sun shadow (8) coincides.