KR20010068451A - Apparatus, method and method for adjusting antenna angle using astronomical object - Google Patents

Abstract

PURPOSE: An apparatus and method for adjusting antenna angle through celestial body and antenna using such apparatus is provided to adjust antenna angle in an easy manner even when the shadow is not formed, while achieving improved convenience in installation and maintenance of the antenna. CONSTITUTION: An antenna angle adjusting apparatus comprises a shadow generating unit(10) arranged onto an antenna(1) so as to generate sun shadow; a scale marked in a vertical direction at the center of the front surface of the antenna; a scale belt(3) arranged to be rotatable along the outer periphery of a bracket(2), and which has a plurality of azimuth angle scales(4) marked onto the scale belt, wherein the bracket couples the antenna and a stand(7); a pin arranged at the scale belt so as to fix the scale belt at a predetermined position; a structure(8) fixed to the stand beneath the bracket, and which has a zero point(8-1) marked at the structure so as to adjust the angle of azimuth marked at the scale belt; and an angle gauge arranged at the bracket so as to measure elevation angle of antenna.

Description

Apparatus for adjusting the angle of the antenna using a celestial body, a method thereof, and an antenna using the apparatus {.}

The present invention relates to an antenna.

Specifically, the antenna is to be installed at an angle toward the transmitter or the satellite and is widely used in the field of satellite antenna.

The inventors have developed an antenna installed by using the shadow of the sun, and improved it, and have applied for a patent several times.

The inventions applied in the meantime,

In densely populated areas such as apartment complexes, the sun may not shine during low altitude seasons, or the sun may shine for a short time during the day, when shadows may form on the front of the antenna. There was no case.

Also, on cloudy days or at night, when the sun was not available, you couldn't adjust the angle of the antenna in such a way, or you would have to use the shadow again if you wanted to re-angle the antenna later.

It was inconvenient to have to go through such steps later when trying to move the angle towards another transmitter or satellite.

In addition, the above antenna once installed, it was not possible to automatically adjust the angle.

The present invention significantly compensates for these disadvantages of the prior art.

In other words, if the azimuth angle is determined by the shadow of the sun or the position of the celestial body, all the orientations around the antenna can be known.

From then on, the angle can be easily adjusted to any transmitter or satellite without the aid of shadows or shadow position calculation programs.

In addition, combining the antenna using the sun's shadow or the position of the celestial body with the motor's motorized angle-adjusting antenna makes it convenient for both initial installation and subsequent automatic movement of the angle.

The object of the present invention,

In areas of high buildings such as apartment complexes, the sun does not shine during low altitude seasons, or during the short days of the day, but at that time no shadows can form on the front of the antenna. In addition, once installed, the antenna provides a device capable of adjusting the angle of the antenna which can be easily changed to another transmitter or satellite even in the absence of sunlight on a cloudy day or at night, and a method and an antenna using the same device. do.

Another object of the present invention,

In addition, the combination of the antenna using the sun or celestial shadow and the motorized angle adjusting antenna using the motor provides convenience for both initial installation and automatic movement of the angle afterwards.

The above-listed and other objects are achieved by the present invention described below.

1, 2, and 3 are schematic views of a bracket in which the shadow generating means and the azimuth scale are displayed in the antenna angle adjusting device of the present invention.

5 shows a shadow generating device.

6 shows another shadow generating device from the front.

7 and 8 show the target point specifying means of the shadow by the shadow generating means.

9 and 10 show the obstacle identifying device and the celestial oriented person from the side.

11 and 12 show the obstacle identifying device and the celestial locator from the rear (actually a thin plate shape).

The present invention,

A device attached to the antenna 1 for directing the antenna 1 to a transmitter or satellite,

Shadow generating means 10 is installed at a predetermined position on the antenna to generate the shadow of the sun,

One graduation (31) displayed at the center of the front of the antenna (1),

On the lower part of the bracket (2) for coupling the antenna (1) and the stand (7) can be rotated the outer periphery of the bracket (2) graduation belt (3) marked with a plurality of azimuth scale (4),

One side of the scale belt 3 is a pin for fixing the scale belt 3 to a predetermined position, and a lower portion of the bracket 2 is fixed with the stand 7 and a zero point for adjusting the azimuth angle indicated on the scale belt 3 8-1) marked structure (8),

The other side of the bracket (2) is an goniometer (9) for measuring the elevation angle of the antenna,

Characterized in that consisting of.

In addition, the antenna 11, the upper portion 11, the obstacle confirming device 22 composed of a scale 20 and a scale 21 facing forward,

As a device for directing the antenna (1) to a specific celestial body is integrated with the obstacle identifying device 22, the celestial director 23 is fixed toward the front of the antenna (1),

As an apparatus for checking whether the antenna 1 stand is vertically secured, it is characterized in that it is additionally provided with a leveler at a predetermined position.

According to another method of the present invention, the shadow generating means 10 has one end fixed to the reflection signal pick-up part 13 of the antenna or on the holder 14 or around the pick-up part, and the other end of the antenna 1 It is composed of a bar (bar, 10) fixed to the outer circumferential surface (11), the bar (bar) is provided with a number of numbers and scales as a device for generating a shadow of numbers and scales,

The front of the antenna is characterized in that it is further provided with one or more lines 33 for specifying the point where the shadow by the shadow generating means should be located, and a plurality of scales 32 and scale numbers 34 are displayed on the lines. It is done.

Another way of the present invention,

In the antenna for adjusting the angle using the position of celestial bodies such as the sun,

The motor is installed at a predetermined position of the antenna and driven by a signal transmitted from another device, characterized in that it further comprises an actuator for adjusting the antenna angle by changing the rotational movement of the motor to a reciprocating motion of the piston system.

It will be described with reference to the accompanying drawings.

Figure 1 shows the center of the bracket and the graduation belt in the present invention.

The shadow generating means 10 is fixedly installed at a predetermined position on the antenna to generate the shadow of the sun. For example, in the case of a parabolic antenna, a straight bar is installed between the center 11 of the antenna 1 on the holder 14 supporting the reflected signal pickup 13.

In addition, one scale 31 is displayed on the front of the antenna 1, and the scale 31 is vertically long at a position corresponding to the center when the antenna is divided left and right, or below the center when the antenna is divided up and down. Is displayed vertically long.

Bracket (2) is a unique point to be able to rotate with the graduation belt (3) marked azimuth scale when the azimuth of the antenna (1) is rotated compared to the conventional one.

The scale belt 3 and the zero point 8-1 may be improved in precision by applying the same principle as the micrometer.

The goniometer installed on one side of the bracket 2 is for measuring the elevation angle and is similar in principle to the conventional one. Just increase the accuracy.

In addition, the upper portion 11 of the antenna 1 is provided with an obstacle checking device 22 composed of a scale 20 and a scale 21 facing the front, and the general person checks whether an object in front of the antenna obscures the antenna when adjusting the antenna angle. It is hard to know whether or not. In particular, in the case of offset parabolic antennas, the angle of the elevation angle and the reflector is further confused.

Separately, as an apparatus for directing the antenna 1 to a specific object, the apparatus includes an object directing device 28 which is integrated with the obstacle checking device 22 and fixed toward the front of the antenna 1.

This uses as thin and wide as possible. The reason for this is that, despite the high and low altitude of the celestial body toward the celestial body, the celestial locator interworking with the antenna 1 can be easily turned in that direction.

In addition, the antenna 1 of the present invention additionally includes a leveler (not shown) at a predetermined position because the accuracy of the vertical is excellent from the horizontal plane.

According to another method of the present invention, the shadow generating means 10 has one end fixed to the reflection signal pick-up part 13 of the antenna or the holder 14 or around the pick-up part, and the other end of the antenna 1 It consists of a bar (bar, 10) fixed to the outer circumferential surface (11), the bar (bar) is provided with a number of numbers and scales as a device for generating shadows of numbers and scales,

The front side of the antenna is further provided with one or more lines 33 for specifying the point where the shadow by the shadow generating means should be located, and a plurality of scales 32 and scale numbers 34 displayed on the lines.

The reason is that there are two ways to adjust the angle of the antenna selectively in the season or region where sunlight is well received or when it is not.

Another manner of the invention (not shown) is

In the antenna for adjusting the angle using the position of celestial bodies such as the sun,

Motor (not shown as usual) installed at a predetermined position of the antenna and driven by a signal transmitted from another device, and an actuator that adjusts the angle of the antenna by converting the rotational movement of the motor into a reciprocating motion of a piston (shown as typical) And not).

The reason is that the antenna which adjusts the angle by using the position of the celestial body such as the sun is very convenient at the time of the initial installation, but it has to be done manually when the angle is set toward another transmitter or satellite after the installation. On the other hand, the antenna that adjusts the angle by the power of the motor can be conveniently angled toward various transmitters or satellites once installed, but it is still difficult to set the angle at the initial installation.

Therefore, the initial installation is to adjust the angle by the sun's shadow or the position of the celestial body, and then to adjust the angle using the power of the motor.

This invention is practiced as follows.

While installing the antenna (1) stand (7) vertically,

The antenna 7 is oriented to the sun so that the shadow of the shadow generating means 10 is matched with one scale 31 long and vertically displayed at the center of the front of the antenna,

Get the azimuth values for the sun according to the date, time and region,

Only move the azimuth scale belt 3 attached to one side of the bracket 2 to fix the scale belt 3 to the bracket 2 at a point coinciding with the azimuth value for the sun,

While moving the azimuth of the antenna 1, the scale 4 of the graduation belt 3 interlocked with the azimuth is matched with the azimuth of the transmitter or satellite to which the antenna 1 is to be directed.

The elevation angle with respect to the said transmitter or satellite is matched by the goniometer 9 attached to the predetermined position of an antenna.

The above method of calculating the azimuth angle to the sun uses spherical triangulation, but the area, date, and time of antenna installation are applied.

In the following, the method for calculating the azimuth angle for another object is also the same.

Another practical method of the present invention,

While installing the antenna (1) stand (7) vertically,

Orient the celestial director 23 into one celestial body,

Get the azimuth value for this object according to the date, time and location,

Move the azimuth scale belt (3) attached to one side of the bracket (2) to fix the scale belt (3) to the point corresponding to the azimuth value for the sun,

Move the azimuth angle of the antenna (1) to match the scale belt (3) with the azimuth value for the transmitter intended to direct the antenna (1),

The elevation angle with respect to the said transmitter or a satellite is matched by the goniometer 9 attached to the predetermined position of the antenna 1.

Alternatively, the top of the antenna 1 11 may check the presence or absence of an obstacle within the angle of the antenna 1 through the obstacle checking device 22 composed of the scale 20 facing the front and the scale 21.

Another practical method of the present invention,

While installing the antenna (1) stand (7) vertically,

Calculate the intersection of the number and scale of the shadow of the teeyang shadow generating means 10 and the plurality of scales 32 displayed on the front of the antenna 1, and then align the sun shadow with the calculated intersection of the antenna (1). ) Adjust the angle.

Another practical method of the present invention,

The antenna angle is adjusted according to the position of the celestial body such as the sun, and then the antenna angle is automatically adjusted toward other transmitters or satellites by electric and electronic signals from external devices.

The present invention is not limited to the embodiment described above.

In particular, the examples shown in the accompanying drawings show only some of the possible implementations.

In addition, the present invention may be variously modified or modified by those skilled in the art, all of which are within the scope of the present invention.

The antenna of the present invention configured as described above is easy to adjust the antenna angle even when the shadow caused by the shadow generating means is formed on the front of the antenna at an angle directed to a specific transmitter or satellite, and is out of the range. The angle can be easily adjusted by the fixed celestial orientation by the position of, In some cases, the installation by the shadow of the sun or the position of the celestial body at the time of the first installation, and then automatically by using the power of the motor You can also adjust the angle of the antenna.

Claims (10)

A device attached to the antenna 1 for directing the antenna 1 to a transmitter or satellite, Shadow generating means 10 is installed at a predetermined position on the antenna to generate the shadow of the sun, One graduation (31) displayed vertically in the center of the front of the antenna (1), On the lower part of the bracket (2) for coupling the antenna (1) and the stand (7) can be rotated the outer periphery of the bracket (2) graduation belt (3) marked with a plurality of azimuth scale (4), One side of the scale belt 3 is a pin for fixing the scale belt 3 to a predetermined position, and a lower portion of the bracket 2 is fixed with the stand 7 and a zero point for adjusting the azimuth angle indicated on the scale belt 3 8-1) marked structure (8), The other side of the bracket (2) is an goniometer (9) for measuring the elevation angle of the antenna, Antenna angle control device, characterized in that consisting of The method of claim 1, The upper part 11 of the antenna 1 has an obstacle checking device 22 composed of a scale 20 and a scale 21 facing forward, As a device for directing the antenna (1) to a specific celestial body is integrated with the obstacle identifying device 22, the celestial director 23 is fixed toward the front of the antenna (1), An antenna angle adjusting device, characterized in that the antenna (1) further comprises a leveler at a predetermined position as a device for checking whether the vertical is secured from the horizontal plane The method of claim 2, One end of the shadow generating means 10 is fixed to the reflection signal pickup 13 of the antenna or the holder 14 of the pickup or around it, and the other end is fixed to the outer peripheral surface 11 of the antenna 1. It consists of a bar (bar, 10), the bar (bar) is provided with a number of numbers and scales as a device for generating a shadow of numbers and scales, The front of the antenna is characterized in that it is further provided with one or more lines 33 for specifying the point where the shadow by the shadow generating means should be located, and a plurality of scales 32 and scale numbers 34 are displayed on the lines. Antenna angle adjusting device As an angle adjustment method of the antenna 1 using the shadow of the sun, While installing the antenna (1) stand (7) vertically, The antenna 7 is oriented to the sun so that the shadow of the shadow generating means 10 is matched with one graduation 31 displayed at the center of the front of the antenna, Get the azimuth values for the sun according to the date, time and region, Only move the azimuth scale belt (3) attached to one side of the bracket (2) to fix the scale belt (3) to the point corresponding to the azimuth value for the sun, By moving the azimuth angle of the antenna (1), the scale (4) of the graduation belt (3) interlocked with the azimuth angle matches the azimuth value for the transmitter or satellite to which the antenna (1) is to be directed. Adjusting the angle of elevation of the transmitter or satellite by means of a goniometer (9) attached to a predetermined position of the antenna; As the angle adjusting method of the antenna 1 using a celestial body, While installing the antenna (1) stand (7) vertically, Orient the celestial director 23 into one celestial body, Get the azimuth value for this object according to the date, time and location, Move the azimuth scale belt (3) attached to one side of the bracket (2) to fix the scale belt (3) to the point corresponding to the azimuth value for the sun, By moving the azimuth angle of the antenna (1), the scale (4) of the graduation belt (3) interlocked with the azimuth angle matches the azimuth value for the transmitter or satellite to which the antenna (1) is to be directed. Adjusting the angle of elevation of the transmitter or satellite by means of a goniometer (9) attached to a predetermined position of the antenna (1) The method according to any one of claims 4 to 5, The upper part of the antenna 1 has an additional step of checking the presence or absence of obstacles within an angle of the antenna 1 through the obstacle checking device 22 composed of the scales 20 and the scales 21 facing forward. Antenna angle adjustment method Reflector or absorber plate for receiving signal propagation from transmitters or satellites, signal pick-up part consisting of a feed horn and a low noise block, a support arm for fixing the signal pick-up part to a predetermined position on an antenna, and the support arm or a separate arm A shadow forming means 10 for connecting the upper center 11 of the antenna 1 from the portion or around the arm, a scale for reaching a specific position of the shadow formed on the front surface of the antenna 1, On the lower part of the bracket (2) for coupling the antenna (1) and the stand (7) can be rotated the outer periphery of the bracket (2) graduation belt (3) marked with a plurality of azimuth scale (4), One side of the scale belt 3 has a pin for fixing the scale belt 3 to a predetermined position, and a lower portion of the bracket 2 has a zero point for matching the azimuth angle indicated on the scale belt 3 in one piece with the stand 7. 8-1) marked structure (8), The other side of the bracket (2) is an goniometer (9) for measuring the elevation angle of the antenna, Antenna assembly, characterized in that consisting of The method of claim 7, wherein The upper part 11 of the antenna 1 has an obstacle checking device 22 composed of a scale 20 and a scale 21 facing forward, As a device for directing the antenna (1) to a specific object, it is integrated with the obstacle identification device (22), the celestial director 23 is fixed toward the front of the antenna (1), Antenna assembly as an apparatus for checking whether the antenna 1 is secured vertically from the horizontal plane, characterized in that it further comprises a leveler at a predetermined position In the antenna for adjusting the angle using the position of celestial bodies such as the sun, The antenna assembly is provided with a motor installed at a predetermined position of the antenna and driven by a signal transmitted from another device, and an actuator for adjusting the antenna angle by converting the rotational motion of the motor into a reciprocating motion of a piston type. Adjusting the antenna angle toward the transmitter or the satellite according to the shadow of the sun or the position of the celestial body, and then automatically adjusting the antenna angle toward the other transmitter or satellite by an electric and electronic signal from an external device How to adjust