KR20020032996A - Satellite antenna and installation method using relative position of astronomical object and satellite - Google Patents

Abstract

PURPOSE: A satellite antenna installed by using a relative position between a celestial body and a satellite and a method for installing the same are provided to correct a focus point common difference of the antenna without a satellite signal measuring unit. CONSTITUTION: A satellite antenna installed by using a relative position between a celestial body and a satellite comprises an upper side and a lower side separated by a plane between a part for supporting an arm(4) in a holder(3) of an LNB(2) of an antenna(1) and a part for supporting the LNB(2). The separated upper side is movable forward/backward and to the left/right on the lower side. Scales and numbers are indicated on the lower side or the vicinity of the lower side along moving distance. Taps for inserting bolts are formed on the separated upper and lower sides. Measuring points are indicated on the center of the antenna, a left boundary and a right boundary, respectively.

Description

Satellite antenna and its installation method using the relative position of celestial bodies and satellites {.}

[Field of Invention]

The present invention relates to a satellite antenna.

Specifically, the present invention relates to a satellite antenna installed by using a relative position between a celestial body including the sun and a satellite.

[Background of invention]

The inventors are continuously inventing and improving the satellite antenna installed by using the position of the celestial body and the relative position between the satellites.

The inventions filed by the inventors so far,

First, when the angle is adjusted using the celestial body, the antenna angle is changed by the tolerance of the focus point of the antenna itself, and there is a disadvantage that cannot be corrected without using a measuring instrument for satellite signal. Provide means.

Secondly, when the antenna was deformed, there was no relative reference to correct the focal position or correct the deformed as much as it was deformed.

In addition, the existing invention is equipped with a reference that can contact the left edge or the right edge of the antenna by rotating the stand pole behind the antenna when using the shadow of the sun, so that the azimuth can be easily adjusted. In order to be practical, first, the antenna should be angled in the direction of the sun, but the reference point was inconvenient. Therefore, in addition to the linear shadow forming means in front of the antenna to provide a measuring point to match the shadow in the center of the antenna reflector.

The object of the present invention,

Even when the angle is adjusted using a celestial body, the antenna angle is changed as much as the tolerance of the focus point of the antenna itself, and a method of correcting the tolerance without using a satellite signal measuring instrument is provided.

In addition, when the antenna is deformed, it is difficult to calibrate or calibrate without using a satellite signal measuring instrument, but the above two problems are solved without using a measuring instrument for measuring a satellite signal.

In addition, the existing invention is equipped with a reference that can contact the left edge or the right edge of the antenna by rotating the stand pole behind the antenna when using the shadow of the sun, so that the azimuth can be easily adjusted. In order to be practical, first, the antenna should be angled in the sun direction, which is inconvenient because there is no reference point to solve this problem.

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

1 is a side view of the satellite directivity and the shadow forming means.

2 is a side view of the LNB holder.

3 is a front view of the LNB holder.

4 is a front view of the scale and the measurement point on the antenna reflector.

5 is a front view of the verification pin insertion position on the antenna reflector.

6 is a front view showing the insertion of the verification pin.

7 is a side view showing the insertion of the verification pin.

8 is a view from the rear with respect to the reference.

[Brief Description of Drawings]

(1) Satellite antennas (2) Eleven (3) holders (4) arms (5) upper face (6) lower face (7) holders move back and forth (8) holders move left and right ( 9) Tab for bolt insertion (10) Center of antenna (11) Left edge (12) Right edge (13) Reflector plate (14) Bolt head (15) Verification pin (16) Nut (17) Bracket (18) Top of verification pin (19) edges of reflector plates (20) digital scales (21) sun shadow shaping means (22) points / scales (23) tops of antennas (24) edges (25) satellite (26) thin film-like surfaces ( 27) Satellite Top (28) Grace (29) Scale (30) Stand Column (31) Antenna Left Edge (32) Antenna Right Edge (34)

The present invention,

first,

Between the part supporting the arm 4 and the part supporting the L & N of the satellite antenna (1) L & B (2) holder (3) in a plane, the upper surface (5) and the lower surface (6) are separated. , The separated upper surface 5 is movable in the front and rear (7) left and right (8) direction on the lower surface (6), the lower surface (6) or near the scale along the movement distance A number is displayed,

The upper surface 5 and the lower surface 6 separated as described above are formed with a tab 9 for bolt insertion.

The antenna center 10, the left edge 11, and the right edge 12 are each marked with one measuring point 10, 11, 12.

second,

A separate verification pin 15 insertion nut 16 is formed on the bolt head 14 that is coupled to the reflector plate 13 and the bracket 17 of the satellite antenna 1 reflector plate 13, and the nut 16 Insert the verification pin 15 having a bolt in the lower part, and the height of the verification pin 15 is the upper part 18 of the verification pin 15 when the verification pin 15 is fully engaged with the nut 16. ) Is matched with the height of the edge 19 of the reflecting plate (13).

third,

In front of the satellite antenna (1) is provided a sun shadow forming means (21) having a straight or straight numerical scale (20),

In front of the antenna (1) is installed using the relative position between the celestial body and the satellite marked one or more points or scales 22,

At the upper edge 24 of the antenna 1 24, the satellite director 25 is erected perpendicularly to the antenna perpendicularly to the thin film shape, so that the surface 26 of the thin film shape is To maintain the azimuth angle,

The upper portion 27 is provided with a scale 28 and a scale 29 protruding from the upper portion 27, and an imaginary straight line connecting the scale 28 and the scale 29 in a straight line is a satellite antenna (1). The first and second devices above are additionally installed in the satellite antenna using the relative position between the celestial body and the satellite in which the satellite director 25 having the structure of forming the elevation angle is directed.

fourth,

A linear sun shadow forming means 21 is installed between the satellite antenna 1, the L & B 2, and the upper part of the antenna 23, and at the center of the surface of the antenna 1, one dot or scale ( 22, and the stator pillar 30 behind the antenna 1 has a reference arm 34 which can rotate the pillar about the axis 31 to contact the antenna left edge 32 or the right edge 33. ) Is installed.

It will be described with reference to the accompanying drawings.

(Variable holder)

Between the part supporting the arm 4 and the part supporting the L & N of the satellite antenna (1) L & B (2) holder (3) in a plane, the upper surface (5) and the lower surface (6) are separated. The separated upper surface 5 is movable on the front and rear sides 7 and 8 on the lower surface 6. The upper surface 5 and the lower surface 6 face each other in a fine sawtooth shape and cannot be twisted in a diagonal direction. On the lower face 6 or its vicinity, scales and numbers are displayed along its movement distance,

The upper surface 5 and the lower surface 6 separated as described above are formed with a tab 9 for inserting bolts. The bolt insertion tab 9 has a long shape so as not to interfere with the movement of the holder before the bolt is fixed.

One measuring point 10, 11, 12 is displayed at the center of the antenna 10, the left edge 11, and the right edge 12. This measuring point may be a concave-convex shape, or may be marked with ink.

(Verification pin)

Then, a separate verification pin 15 inserting nut 16 is formed on the bolt head 14 that is coupled to the reflector plate 13 and the bracket 17 of the satellite antenna 1 reflector plate 13, and the nut 16 The lower part is inserted into a bolt-shaped verification pin 15, but the height of the verification pin 15 is the upper portion of the verification pin 15 when the verification pin 15 is fully engaged with the nut 16. 18 coincides with the height of the edge 19 of the reflector plate 13. In addition, the upper part of the verification pin is preferably a slightly wider shape than a flat shape.

(Variable holder and verification pin and conventional device)

Combine the above two devices with the existing ones:

In front of the satellite antenna (1) is provided a sun shadow forming means (21) having a straight or straight numerical scale (20),

One or more dots or scales 22 are displayed on the front of the antenna 1,

Between the part supporting the arm 4 and the part supporting the LNB 2 of the antenna 1 LNB 2 holder 3 in a plane to the upper surface 5 and the lower surface 6. The upper surface 5 of the separated upper part is movable in the front and rear (7) left and right directions (8) on the lower surface 6, but is scaled along the moving distance in the lower surface 6 or its vicinity. And numbers are displayed,

The upper surface 5 and the lower surface 6 separated as described above are formed with a tab 9 for bolt insertion.

An additional verification pin inserting nut 16 is formed on the bolt head 14 which fastens the reflecting plate 13 and the bracket 17 at the center of the reflector 13 of the antenna 1, and the nut 16 has a rod shape. Insert the verification pin 18, the lower portion of which is formed with a bolt, the height of the verification pin 18 is when the verification pin 18 is fully engaged with the nut 16, the upper part 18 of the verification pin 18 is the reflecting plate Coincide with the height of the edge 19 of 13,

At the upper edge 24 of the antenna 1 24, the satellite director 25 is erected perpendicularly to the antenna perpendicularly to the thin film shape, so that the surface 26 of the thin film shape is To maintain the azimuth angle,

The upper portion 27 is provided with a scale 28 and a scale 29 protruding from the upper portion 27, and an imaginary straight line connecting the scale 28 and the scale 29 in a straight line is a satellite antenna (1). A satellite antenna installed using the relative position of the celestial body and the satellite, characterized in that the satellite directing device having a structure that forms an elevation angle such as the elevation angle to the

(Reference point, bar, azimuth reference)

Another embodiment of the present invention,

A linear sun shadow forming means 21 is installed between the satellite antenna 1, the L & B 2, and the upper part of the antenna 23, and at the center of the surface of the antenna 1, one dot or scale ( 22, and the stator pillar 30 behind the antenna 1 has a reference arm 34 which can rotate the pillar about the axis 31 to contact the antenna left edge 32 or the right edge 33. Install).

The present invention is practiced as follows.

first,

Satellite antenna (1) L & B (2) Distance from holder (3) to antenna (1) center measurement point 10 and distance from holder (3) to measurement point (11) on the left edge and right from holder (3) The tolerance of the focus of the antenna 1 is checked by measuring the distance to the measuring point 12 of the edge, and the upper surface 5 of the holder 3 of the LNB 2 is replaced by the lower surface 6. The position of the holder 3 is corrected by moving from above.

second,

Inserting the verification pin 15 into the bolt head 14 for fastening the reflector plate 13 and the bracket 17 in the center of the satellite antenna (1) reflector plate 13,

The presence or absence of deformation of the reflecting plate 13 is checked or the deformed reflecting plate 13 is corrected by matching the height of the verification pin 15 with the edges of the reflecting plate 13.

Alternatively, the antenna 1 is oriented so that the sun, one edge of the antenna, the verification pin 15, and the other edge of the antenna lie in a straight line, and the deformation of the reflector 13 of the antenna 1 is caused by the shadow formed thereon. Check the presence and absence, and correct the deformed reflector (13).

Alternatively, the reflector may be used by comparing the separation distances of the antenna 1 by closely matching a string of strings on an imaginary straight line connecting the edge of one side of the antenna 1 with the verification pin 15 and the other side of the antenna 1. Check the deformation of (13) and correct the deformed reflector plate 13.

third,

Combining the above two devices to the existing invention filed by the inventor bar after the configuration is as follows.

In front of the satellite antenna (1) is provided a sun shadow forming means (21) having a straight or straight numerical scale (20),

One or more dots or scales 22 are displayed on the front of the antenna 1,

Between the part supporting the arm 4 and the part supporting the LNB 2 of the antenna 1 LNB 2 holder 3 in a plane to the upper surface 5 and the lower surface 6. The upper surface 5 of the separated upper part is movable in the front and rear (7) left and right directions (8) on the lower surface 6, but is scaled along the moving distance in the lower surface 6 or its vicinity. And numbers are displayed,

The upper surface 5 and the lower surface 6 separated as described above are formed with a tab 9 for bolt insertion.

An additional verification pin inserting nut 16 is formed on the bolt head 14 which fastens the reflecting plate 13 and the bracket 17 at the center of the reflector 13 of the antenna 1, and the nut 16 has a rod shape. Insert the verification pin 18, the lower portion of which is formed with a bolt, the height of the verification pin 18 is when the verification pin 18 is fully engaged with the nut 16, the upper part 18 of the verification pin 18 is the reflecting plate Coincide with the height of the edge 19 of 13,

At the upper edge 24 of the antenna 1 24, the satellite director 25 is erected perpendicularly to the antenna perpendicularly to the thin film shape, so that the surface 26 of the thin film shape is To maintain the azimuth angle,

The upper portion 27 is provided with a scale 28 and a scale 29 protruding from the upper portion 27, and an imaginary straight line connecting the scale 28 and the scale 29 in a straight line is a satellite antenna (1). The satellite director 25 having a structure that forms an elevation angle, such as an elevation angle, is installed.

fourth,

In the present invention, the form in which the reference ruler 34 is added is

First, angle the antenna (1) toward the sun, and align the shadow of the shadow forming means (21) to the measuring point (10) at the center of the antenna (1), and when the antenna (1) changes its direction toward the satellite, the antenna ( Calculate the direction and distance to which the left edge 32 or the right edge 33 of 1) should move, and separate the reference ruler 34 from the antenna edge by the calculated value.

The right edge 33 or the left edge 32 of the antenna 1, which is spaced apart, is brought into contact with the reference member 34 by rotating the azimuth angle of the antenna 1.

And to set the elevation angle by using a separate goniometer does not need a separate solution because the relative criteria are obvious.

Therefore, the present invention,

Even when the object is angled, the tolerance of the focus point of the antenna itself can be corrected.

It also solves the problem without using a satellite signal meter when the antenna is deformed.

In addition, according to the existing invention, even when the angle toward the sun is first provided using the reference, it is possible to provide a reference point that is easy to identify.

Claims (9)

Between the part supporting the arm 4 and the part supporting the L & N of the satellite antenna (1) L & B (2) holder (3) in a plane, the upper surface (5) and the lower surface (6) are separated. , The separated upper surface 5 is movable in the front and rear (7) left and right (8) direction on the lower surface (6), the lower surface (6) or near the scale along the movement distance A number is displayed, The upper surface 5 and the lower surface 6 separated as described above are formed with a tab 9 for bolt insertion. Satellite antennas installed using the relative positions of the celestial bodies and the satellites, characterized in that one measuring point (10, 11, 12) is displayed at the center 10, the left edge 11, and the right edge 12 of the antenna. A separate verification pin 15 insertion nut 16 is formed on the bolt head 14 that is coupled to the reflector plate 13 and the bracket 17 of the satellite antenna 1 reflector plate 13, and the nut 16 Insert the verification pin 15 having a bolt in the lower part, and the height of the verification pin 15 is the upper part 18 of the verification pin 15 when the verification pin 15 is fully engaged with the nut 16. ) Is installed according to the relative position of the celestial body and the satellite, characterized in that the height of the edge 19 of the reflector plate 13 In front of the satellite antenna (1) is provided a sun shadow forming means (21) having a straight or straight numerical scale (20), One or more dots or scales 22 are displayed on the front of the antenna 1, Between the part supporting the arm 4 and the part supporting the LNB 2 of the antenna 1 LNB 2 holder 3 in a plane to the upper surface 5 and the lower surface 6. The upper surface 5 of the separated upper part is movable in the front and rear (7) left and right directions (8) on the lower surface 6, but is scaled along the moving distance in the lower surface 6 or its vicinity. And numbers are displayed, The upper surface 5 and the lower surface 6 separated as described above are formed with a tab 9 for bolt insertion. An additional verification pin inserting nut 16 is formed on the bolt head 14 which fastens the reflecting plate 13 and the bracket 17 at the center of the reflector 13 of the antenna 1, and the nut 16 has a rod shape. Insert the verification pin 18, the lower portion of which is formed with a bolt, the height of the verification pin 18 is when the verification pin 18 is fully engaged with the nut 16, the upper part 18 of the verification pin 18 is the reflecting plate Coincide with the height of the edge 19 of 13, At the upper edge 24 of the antenna 1 24, the satellite director 25 is erected perpendicularly to the antenna perpendicularly to the thin film shape, so that the surface 26 of the thin film shape is To maintain the azimuth angle, The upper portion 27 is provided with a scale 28 and a scale 29 protruding from the upper portion 27, and an imaginary straight line connecting the scale 28 and the scale 29 in a straight line is a satellite antenna (1). A satellite antenna installed using the relative position of the celestial body and the satellite, characterized in that the satellite directing device having a structure that forms an elevation angle such as the elevation angle to the A linear sun shadow forming means 21 is installed between the satellite antenna 1, the L & B 2, and the upper part of the antenna 23, and at the center of the surface of the antenna 1, one dot or scale ( 22, and the stator pillar 30 behind the antenna 1 has a reference arm 34 which can rotate the pillar about the axis 31 to contact the antenna left edge 32 or the right edge 33. Satellite antenna installed using the relative position of the celestial body and the satellite, characterized in that installed Satellite antenna (1) L & B (2) Distance from holder (3) to antenna (1) center measurement point 10 and distance from holder (3) to measurement point (11) on the left edge and right from holder (3) Check the tolerance of the focus of the antenna 1 by measuring the distance to the measuring point 12 of the edge, The relative position of the celestial body and the satellite, characterized in that the position of the holder (3) is corrected by moving the upper surface (5) of the holder (3) on the lower surface (6). Satellite antenna installation method using Each verification pin 15 is inserted into at least four bolt heads 14 which fasten the reflector plate 13 and the bracket 17 at the center of the reflector plate 13 of the satellite antenna 1, Checking the presence or absence of deformation of the reflector 13 or correcting the deformed reflector 13 by matching the height of the edge of the verification pin 15 with the edge of the reflector 13 How to install satellite antenna using location Inserting the verification pin 15 into the bolt head 14 for fastening the reflector plate 13 and the bracket 17 in the center of the satellite antenna (1) reflector plate 13, Check the presence or absence of deformation of the reflection plate 13 or correct the deformed reflection plate 13 by matching the height of the verification pin 15 and the edge of the reflection plate 13, The satellite antenna (1) holder (2) holder (3) measures the distance between the antenna (1) center measurement point (10) and the left edge measurement point (11) and the right edge measurement point (12) by measuring the antenna holder (2) holder. Installation using the relative position of the celestial body and the satellite, characterized in that the step of correcting and fixing the position of the holder (3) by moving the upper surface (5) of the upper (3) from the lower surface (6) How to install a satellite antenna The method according to any one of claims 6 to 7, While the antenna 1 is oriented so that the sun, one edge of the antenna, the verification pin 15, and the other edge of the antenna lie in a straight line, the shadow of the antenna 1 determines whether the reflector 13 is deformed. Checking and calibrating the deformed reflector plate 13, characterized in that the satellite antenna installation method using the relative position of the astronomical object and satellite The method according to any one of claims 6 to 7, The reflector plate 13 is a method of comparing the separation distance by bringing the strings of a tight shape close to each other on an imaginary straight line connecting the antenna 1 with one edge of the antenna 1 and the verification pin 15 and the other edge of the antenna 1. Method for installing the satellite antenna using the relative position of the astronomical object and the satellite, characterized in that the step of checking the presence of deformation and correcting the deformed reflector plate 13