KR200442840Y1 - Support Bracket for Satellite Antenna - Google Patents

Abstract

The present invention relates to a support bracket for a satellite antenna, the first support unit for fixing at least one pair of antennas in the installation position and operative to adjust at least one of the azimuth, elevation angle of each antenna, the first support unit and each A second support unit is installed between the antennas and operates to independently adjust the azimuth angle of each antenna. As a result, according to the present invention, since a plurality of antennas that receive satellite broadcast signals transmitted from a plurality of satellites can be installed using one bracket, the antennas can be installed more easily and the number of support brackets is reduced. As a result, cost and installation cost can be reduced.

Satellite antenna, support bracket, first support unit, second support unit, azimuth, elevation

Description

SUPPORT BRACKET FOR SATELLITE ANTENNA}

The present invention relates to a support bracket for a satellite antenna, when a plurality of antennas are provided to simultaneously receive satellite broadcast signals transmitted from different satellites, the support bracket for a satellite antenna to adjust the azimuth angles of the plurality of antennas, respectively. It is about.

Satellite communication is a communication method that communicates with base stations on the earth by using satellites floating in the surface of the earth. Various communication services and broadcasts are performed using frequencies of C band of 4-8 GHz or Ku band of 12.5-18 GHz. Used to provide a service.

With satellite communication, a communication signal for a communication service or a broadcasting service can be broadcast directly to the general public in a specific region of the earth, and the satellite is equipped with a repeater to transmit a signal directly to the terminal of the general public.

Among these satellite communications, the frequency is 14 GHz for satellites in ground stations and 12 GHz (8 channels) in satellites. Since the radio wave is very weak and terrestrial radio reception is very weak, the reception side uses a highly directional parabolic antenna or a planar antenna that is a collection of several small antenna elements.

On the other hand, satellite broadcasts around the world have individual reception forms, but the number of satellites provided in each country is different. In this case, when there are several satellites performing communication or broadcast services in one country, and the positions of each satellite cannot be covered by one antenna, a plurality of antennas may be required.

In Japan, for example, JCSAT and Super Bird, both of the civilian telecommunications satellites, use TVs and music broadcasts on a different frequency than the 12 GHz broadcast satellite. Since the positions of these communication satellites are far from each other, and the satellites are also far apart from each other, a separate receiving antenna is required.

However, in order to receive signals from the broadcasting satellites and the communication satellites in this way, when a separate antenna is provided, a relatively large space is required to install the antennas, and additionally, a cost is required due to the purchase of additional antennas.

Accordingly, it is necessary to find a way to eliminate the space and cost consumption due to the installation of two antennas.

An object of the present invention is to provide a support bracket for the antenna to be able to adjust the azimuth angle of the plurality of antennas, respectively, to install a plurality of antennas using one bracket.

The object may include: a first support unit for fixing at least one pair of antennas to an installation position and operative to adjust at least one of an azimuth angle and an elevation angle of each antenna; And a second support unit installed between the first support unit and each antenna, the second support unit being operable to independently adjust the azimuth angle of each antenna. .

The second support unit is formed in a plate shape and coupled to the first support unit coupled to the first support unit, both ends in the longitudinal direction of the support plate, and the support plate so that each antenna is accessible and spaced apart from the support plate It may include a plurality of adjustment member for connecting each antenna.

The support plate may include a plurality of support parts formed in an elongated plate shape in one side along the longitudinal direction of each antenna and arranged in parallel with each other, and a connection part connecting the central regions of the support parts to each other.

Both end portions of each support portion are formed with a support piece that is bent from both sides with respect to the longitudinal direction of each support portion to be coupled to the adjustment member, and the support piece is provided with an adjustment hole that extends long along the extending direction of the support piece. Can be.

The support piece is formed in a substantially triangular shape having a right angle side forming a right angle with respect to the support portion and an inclined side gently formed with a predetermined inclination angle with respect to the right angle side, and the adjustment hole is long along the inclined side. It is formed and may have a gentle curvature along the longitudinal direction.

The adjusting member may include a coupling surface coupled to the antenna and a fixing piece that is bent and extends from both ends of the coupling surface.

At the end of the fixing piece may be provided with a pin inserted into the adjustment hole of the support piece.

According to the present invention, since a plurality of antennas receiving satellite broadcast signals transmitted from a plurality of satellites can be installed using a single bracket, the antennas can be installed more easily, and a plurality of support brackets are not required. No Therefore, not only the space for installing the antenna can be reduced, but also the cost and the installation cost can be reduced.

In the embodiment to be described later it shows and describes the support bracket of the configuration for supporting a pair of antennas, it can also be manufactured in a configuration for supporting a larger number of antennas according to the structure of the support bracket.

1 is a perspective view of the antenna support bracket according to the present invention is coupled to the antenna.

In this embodiment, the antenna coupled to the antenna support bracket 1 is composed of a pair of planar satellite antennas, and each planar satellite antenna has different azimuth angles because it receives satellite signals from different satellites.

The support bracket (1) includes a first support unit (10) for fixing each antenna (5) at a fixed fixed position and adjusting the elevation angle and azimuth angle of each antenna (5), and each antenna (5) and the first support. A second support unit 50 is coupled between the units 10 to independently adjust the azimuth angle of each antenna 5.

2 and 3 are perspective views of the first support unit viewed from different angles.

The first support unit 10 includes an azimuth adjustment member 20 for adjusting the azimuth angle and an elevation angle adjustment member 30 for adjusting the elevation angle.

The azimuth adjustment member 20 is coupled to a seating position for mounting the antenna, for example, a wall or a floor or a separate seat, and adjusts the azimuth by rotating the antenna about one axis.

The azimuth adjustment member 20 includes a plate-shaped seating plate 21 in contact with a seating position, and a combination 25 for supporting the elevation angle adjusting member 30.

The mounting plate 21 has one end portion formed in a semicircular shape, and a semicircular azimuth angle adjusting hole 22 having a constant curvature is formed at this end portion. The azimuth adjustment hole 22 is formed with a plurality of scales for indicating the angle, a projection (not shown) is inserted into the azimuth adjustment hole 22 is formed in the seating position where the first support unit 10 is seated The azimuth angle can be grasped according to the position of the projection in each adjustment hole 22. And the center of the curvature radius of the azimuth adjustment hole 22 is formed with a coupling hole 23 is coupled to the screw for fixing the azimuth adjustment member 20 in the seating position.

Combination body 25 is formed in the form of a hollow rectangular column, the elevation angle controlled by the elevation control member 30 is displayed on the side wall of the combination 25, the elevation control hole of the elevation control member 30 An elevation protrusion 26 inserted into the 34 is formed.

The elevation angle adjusting member 30 adjusts the vertical angle of the antenna, and the first coupling plate 31 coupled to the second support unit 50 and both sides along the longitudinal direction of the first coupling plate 31. And a second joining plate 33 which is bent from and extends to abut both side walls of the assembly 25.

One end of the first coupling plate 31 is formed in a semicircular shape, and an angle adjustment hole 32 having a constant curvature is formed in this one end. A scale indicating an angle is displayed at the edge of the angle adjusting hole 32, and a screw penetrates the angle adjusting hole 32 to couple the first coupling plate 31 and the second supporting unit 50 to each other so that they can flow together. do. A screw hole (not shown) is formed at the lower portion of the angle adjusting hole 32 so that the screw inserted into the angle adjusting hole 32 can move along the angle adjusting hole 32 so that the first coupling plate 31 and the second supporting unit ( 50).

The second coupling plate 33 has a screw hole 35 for fixing the elevation control member 30 to the assembly 25 and an elevation control hole 34 formed to rotate the elevation control member 30 in the up and down direction. It is formed long with this predetermined curvature. And, on one side of the second coupling plate 33, an indication piece 36 for indicating a scale formed on the assembly 25 is protruded.

In this first support unit 10, as the first support unit 10 is rotated along the azimuth adjustment hole 22 of the azimuth adjustment member 20, the antenna (5) can be rotated from side to side. Azimuth can be adjusted. The antenna 5 is rotatable in the vertical direction along the elevation control hole 34 of the elevation control member 30, and thus the elevation angle can be adjusted. As the antenna 5 is rotatable along the angle adjusting hole 32 of the elevation control member 30, the inclination of the antenna 5 may be adjusted in the planar direction in the case of the planar antenna.

4 is a perspective view of a support plate of the second support unit of FIG. 1, FIG. 5 is a front view of the support plate of FIG. 4, and FIG. 6 is a bottom view of the support plate of FIG. 4. The structure of the second support unit 50 will be described with reference to FIGS. 4 to 6 and FIG. 1 as follows.

The second support unit 50 is formed in a plate shape, the support plate 60 coupled to the first support unit 10, and a plurality of adjustment members 70 coupled to both ends along the longitudinal direction of the support plate 60. It includes.

The support plate 60 includes first and second support portions 61 and 62 which are formed in a long plate shape on one side along the longitudinal direction of each antenna 5 and support different antennas 5, respectively. The second supporting parts 61 and 62 are arranged in parallel with each other. In the central region of the first and second support portions 61 and 62, a connecting portion 63 is formed to interconnect the support portions 61 and 62. Accordingly, the support plate 60 is formed in the 'H' shape. In the present embodiment, a pair of support portions 61 and 62 are formed to control the pair of antennas 5, but a plurality of support portions may be formed according to the number of antennas.

The connecting portion 63 has a screw hole 67 through which a screw for coupling with the elevation angle adjusting member 30 of the first support unit 10 passes, and a scale for displaying an angle adjusted by the angle adjusting hole 32. Is formed.

At both ends of the first and second support portions 61 and 62, a pair of support pieces 65 are formed to be bent and extended from both side portions in the longitudinal direction of the first and second support portions 61 and 62. . That is, a pair of support pieces 65 are formed at both ends in the longitudinal direction of the first support part 61, and a pair of support pieces 65 are also provided at both ends in the longitudinal direction of the second support part 62, respectively. Is formed.

Each support piece 65 is coupled to the adjusting member 70, and has a right angle to form a right angle with respect to the first and second support portions 61 and 62, and a slope formed gently with a predetermined inclination angle with respect to the right angle. It is formed into an almost right triangle with sides. And each support piece 65 formed on both sides along the longitudinal direction of the 1st and 2nd support parts 61 and 62 is formed so that inclined sides may mutually oppose. The support piece 65 is formed with a control hole 66 that is long penetrated along the extending direction of the support piece, the control hole 66 is formed long along the inclined side. At this time, as the inclined sides of each support piece 65 are formed to face each other, the adjustment hole 66 formed in each support piece 65 is also formed so that the inclination direction is opposite to each other, each adjustment hole 66 is a longitudinal direction It is formed with a gentle curvature along it.

The plurality of adjustment members 70 coupled to the respective support pieces 65 and connecting the first and second support parts 61 and 62 and the respective antennas 5 are coupled to the antenna, as shown in FIG. 1. And a fixing piece 73 that is bent and extended from both ends of the coupling surface 71. Coupling surface 71 is formed in a rectangular plate is fixed to the back of the antenna (5). The fixing piece 73 extends toward each supporting piece 65 of the first and second supporting parts 61 and 62 and is formed in a triangular shape. At the end of the fixing piece 73, a pin 75 is inserted into the adjustment hole 66 of the support piece 65. The pin 75 may be provided with a protrusion or a screw. In the case of the protrusion, the pin 75 is integrally formed with the fixing piece 73, and with the screw, a pin is formed at the end of the fixing piece 73 to be coupled.

The second support unit 50 having such a configuration has an azimuth angle of each antenna 5 as the pin 75 of each adjustment member 70 is movable along the adjustment hole 66 of each support piece 65. Can be finely adjusted.

In the case of the antenna 5 coupled to the first support 61, to adjust the azimuth angle so that the antenna 5 is inclined to the right, the pin 75 of the right adjusting member 70 is along the adjusting hole 66. Pull the antenna 5 of the corresponding area so as to be adjacent to the first support part 61, and the pin 75 of the left side adjusting member 70 is spaced apart from the first support part 61 along the adjusting hole 66. Pressurizes the antenna (5). Then, as shown in Figs. 1 and 7, the antenna 5 is tilted to the right.

On the contrary, in order to adjust the azimuth angle so that the antenna 6 coupled to the second support 62 is inclined to the left side, the pin 75 of the right side adjusting member 70 moves along the adjusting hole 66 to the second angle. Press the antenna 6 in the corresponding area so as to be spaced apart from the support 62, and the pin 75 of the left side adjusting member 70 moves along the adjusting hole 66 to be adjacent to the second support 62. Pull the antenna 6 out of the area. Then, as shown in FIG. 1, the antenna 6 is tilted to the left.

As such, when the second support unit 50 is used, not only the azimuth angles of the antennas 5 and 6 can be finely adjusted, but also the azimuth angles of the plurality of antennas 5 and 6 can be adjusted independently. Therefore, when a plurality of satellites are used like Japanese satellite broadcasting, all satellite broadcast signals transmitted from each satellite can be transmitted.

1 is a perspective view of the antenna support bracket coupled to the antenna according to the present invention,

2 and 3 are perspective views of the first support unit viewed from different angles,

4 is a perspective view of a support plate of the second support unit of FIG.

5 is a front view of the support plate of FIG.

6 is a bottom view of the supporting plate of FIG. 4, FIG.

7 is a side perspective view of the support bracket for the antenna of FIG.

Claims (6)

A first support unit for fixing at least one pair of antennas to an installation position and operative to adjust at least one of an azimuth angle and an elevation angle of each antenna; And And a second support unit installed between the first support unit and each antenna, the second support unit being operable to independently adjust the azimuth angle of each antenna. The second support unit, A support plate formed in a plate shape and coupled to the first support unit; It is coupled to both ends of the support plate in the longitudinal direction of the support plate, and includes a plurality of adjusting members connecting the support plate and each antenna so that each antenna is accessible and spaced apart from the support plate, The support plate, A plurality of support parts formed in a long plate shape on one side along the longitudinal direction of each antenna and arranged in parallel to each other; It includes a connecting portion for interconnecting the central area of each support, At both ends of each of the support portions is formed a support piece which is bent from both sides with respect to the longitudinal direction of each support portion and coupled to the adjustment member, The support piece is provided with a control hole long penetrating along the extending direction of the support piece, The adjusting member, A coupling surface coupled to the antenna and a fixing piece bent and extending from both ends of the coupling surface, At the end of the fixing piece is a support pin for the satellite antenna, characterized in that the pin is inserted into the adjustment hole of the support piece is movable along the control hole. delete delete The method of claim 1, The support piece is formed in a triangular shape having a right angle side forming a right angle with respect to the support portion and an inclined side gently formed with a predetermined inclination angle with respect to the right angle side, The adjusting hole is formed along the inclined side elongated support bracket for a satellite antenna, characterized in that has a curvature along the longitudinal direction. delete delete

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