KR100460502B1 - Mounting table for parabolic antenna for satellite broadcasting - Google Patents

Abstract

The present invention relates to a mounting table of a parabolic antenna for satellite broadcasting that allows the reflector to be easily fixed so that the reflector does not flow in a state where adjustment of the azimuth and elevation angles of the reflector is completed, and improves the structure of the bracket for fixing the reflector. After the adjustment of the azimuth angle is completed, it is possible to firmly fix the reflector in a short time while preventing the angle change of the reflector.

To this end, the base 11 is fixed to the structure 10 of the building, the support rod 8 fixed to the base, and is rotatably coupled to the front end of the support rod and the mounting piece 13 is formed on both sides of the front The first bracket 12 for adjusting the azimuth angle of the reflecting plate 1 and the mounting arm of the first bracket are installed to be rotated up and down, and the converter arm 3 is fitted and fixed through the through hole 19 and the front surface is fixed. It consists of a second bracket 18 to which the reflecting plate 1 is fixed, and a breaker 20 installed inside the second bracket to act as a brake when the clamping force of the clamp 22 and the nut 23 is applied. will be.

Description

Mounting table for parabolic antenna for satellite broadcasting

The present invention relates to a satellite antenna for satellite broadcasting, and more particularly, to a mounting stage of a parabolic antenna for satellite broadcasting, which allows the reflector to be easily fixed so that the reflector does not flow in a state where adjustment of azimuth and elevation angles of the reflector is completed.

In general, the satellite broadcasting reception system broadcasts a signal from a terrestrial broadcasting station to a satellite located on a stationary orbit above about 35,000 to 36,000 km of the equator and relays it back to the ground. Listening by using the receiver enables broadcast listening.

As such, satellite broadcasting is widely received by viewers because it provides a clear picture and perfect sound without a blind spot within a radio wave range.

Such satellite broadcasting requires an appropriate receiver to receive a super high frequency (SHF) frequency signal in the range of 3 to 13 GHz, and has a conventional high frequency (VHF) of 3 to 30 MHz and ultra high frequency (30 MHz to 3 GHz). Frequency) Because the strength of radio waves on the ground is very weak compared to radio waves, it is affected by rain, cloud effects, buildings, and trees. Therefore, a good satellite antenna and satellite broadcasting receiver are necessary to obtain good image quality.

1 is a side view of a conventional stationary satellite antenna is installed, Figure 2 is a detailed view of Figure 1, Figure 3 is a side view of Figure 2, the satellite antenna has a certain diameter and arc-shaped reflector plate (1) As shown in FIG. 2, a converter 2 is fixed to the reflecting plate by a converter arm 3 for receiving a radio wave hit by the reflecting plate and transmitting it to a satellite broadcasting receiver (not shown). The rear surface of the reflecting plate 1 is hinged to the elevation fixing bracket 4 in which the long hole 4a is formed so that the elevation angle can be adjusted.

In addition, the inner surface of the elevation fixing bracket (4) "c" shaped antenna support frame (5) and azimuth fixing bracket (6) is fastened with a screw (7), when the fastening angle fixing bracket (4) and Between the azimuth fixing bracket 6, a free space must be secured so that the fixture (bottom or sidewall of the building) and the support rod 8 to which one end is fixed can be fitted.

Therefore, the bracket 9 is fixed to the structure 10 of the building, and then one end of the support rod 8 is firmly fastened with the bolt 11, and then the screw 7 which loosely tightens the other end (upper side) of the support rod 8 is tightened. It is fixed between the elevation fixing bracket (4) and the azimuth fixing bracket (6).

At this time, the screw 7 for fixing the support rod 8 is not tightened, because the azimuth angle of the reflecting plate 1 should be adjusted in the state where the installation work of the satellite antenna is completed.

After completing the installation work of the satellite antenna by the above-mentioned work, the angle of elevation and azimuth of the reflector (1) should be adjusted after connecting the cable (2) and the satellite broadcasting receiver located in the room. Image and sound quality can be obtained. The elevation angle is adjusted first and then the azimuth angle.

Therefore, if one person adjusts the reflector (1) installed in the outdoor up and down direction, the other person sends a signal to the person in the outdoor while checking the image quality and sound quality in the room, and then adjusts the elevation angle. Tightening completes the adjustment of the elevation angle.

When the elevation angle adjustment work of the reflection plate 1 is completed as described above, the azimuth angle is adjusted by rotating the reflection plate 1 inserted into the support rod 8 from side to side. Adjusting the azimuth angle is completed when the level of the reception state reaches the maximum value while adjusting, so that the adjustment of the elevation angle and azimuth angle of the reflector is completed by tightening the screw 7 that is loosely placed.

The reason for finely adjusting the reflector 1 on the south-south basis during the adjustment of the azimuth angle is because the Mugunghwa satellite is stationary at about 200 ° south-south.

Usually, the elevation angle of the reflector 1 is adjusted in the range of 90 °, and the azimuth is adjusted in the range of 180 °.

However, such a conventional satellite antenna has encountered a number of problems as follows.

First, in order to adjust the elevation angle and azimuth angle of the reflector, six bolts had to be firmly tightened in turn, so there was a large number of parts, which delayed the work and loosened the bolts.

Second, in the process of fastening the bolt after adjusting the elevation angle of the reflector, the position of the reflector after the angle adjustment is changed in the tightening direction of the bolt is changed. It became.

Third, if the reflector is repeatedly shaken due to the influence of the wind in the state in which the installation work of the reflector is completed, the bolt holding the reflector is loosened, and thus the reception degree of the radio wave decreases.

Fourth, when assembling the converter arm to the reflector, the radio wave reception degree is determined according to the gap and angle between the converter and the reflector, and there is a limit to precisely adjusting the gap between them according to the processing and assembly tolerances of the converter arm. If it is wrong, the focus of the converter will be poor.

The present invention has been made to solve such a conventional problem, and improved the structure of the bracket for fixing the reflecting plate to prevent the change in the angle of the reflecting plate in the state of completing the adjustment of the elevation angle and azimuth angle while the reflecting plate within a short time The purpose is to make it possible to fix it firmly.

According to an aspect of the present invention for achieving the above object, the base is fixed to the structure of the building, the support rod fixed to the base, rotatably coupled to the front end of the support rod and a mounting piece is formed on both sides of the front surface azimuth angle of the reflecting plate The first bracket for adjusting the, and the mounting bracket of the first bracket is installed to be rotated in the up and down direction, the converter arm is fitted and fixed through the through hole and the second bracket is fixed to the reflection plate on the front, and the second bracket There is provided a mounting table for a satellite broadcasting receiving parabolic antenna, characterized in that the breaker is installed inside the breaker to act as a brake when the clamping force of the clamp and the nut is applied.

1 is a side view of a state in which a conventional stationary satellite antenna is installed

2 is a detailed view of FIG.

3 is a side view of FIG. 2

Figure 4 is an exploded perspective view showing the main part of the present invention

5 is a longitudinal cross-sectional view of the coupled state of FIG.

6 is a cross-sectional view taken along the line A-A of FIG.

Explanation of symbols for main parts in the drawings

1: reflector 3: converter arm

11: base 12: first bracket

13: seating 16: recessed groove

17: bend 18: second bracket

19: through-hole 20: breaker

22: clamp 23: nut

Hereinafter, the present invention will be described in more detail with reference to FIGS. 4 to 6 as an embodiment.

Figure 4 is an exploded perspective view showing the main part of the present invention, Figure 5 is a longitudinal cross-sectional view of the coupled state of Figure 4 and Figure 6 is a cross-sectional view taken along the line A-A of Figure 4, the present invention is a base fixed to the structure 10 of the building ( 11, a pipe-shaped support rod 8 is fixed, and a first bracket 12 for adjusting the azimuth angle of the reflector plate 1 is rotatably coupled to the front end of the support rod. The mounting piece 13 is formed in this.

As shown in FIG. 6, at least one bending piece is formed on one surface of the first bracket 12 by embossing support protrusions 14 which are in linear contact with both side surfaces of the support rod 8. (15) is formed by the pressing operation, so that the first bracket 12 can be more conveniently assembled to the support rod 8, and the first bracket 12 from the support rod in a state where the first bracket 12 is fixed to the support rod. The fine flow of) is prevented in advance.

In addition, a concave inlet groove 16 into which the support rod 8 is fitted is formed on the upper surface of the first bracket 12, thereby assembling the first bracket 12 to the support rod 8 in a more precise position and at the same time. The assembled first bracket 12 is further complemented to the phenomenon that the flow.

The seating piece 13 is provided with a second bracket 18 having a bent portion 17 so as to be rotatable in an upward and downward direction, and a reflecting plate 1 is fixed to the front surface of the second bracket. The two brackets 18 are provided with upper and lower holes 19 respectively matching the outer diameter of the converter arm 3 so that the converter arms can be fitted through the holes 19 without adjusting the angle of the converter arm. If so, the angle of the converter arm does not change and is fixed in place.

The breaker 20 of the synthetic resin material is fitted to the bent portion of the second bracket 18, and the breaker is installed so as to surround the clamp 22 for fitting the fastening hole 21 formed in the first bracket 12. The clamp is fastened by the two nuts 23 in the state where the elevation and azimuth adjustment of the reflector 1 is completed.

Since the breaker 20 is made of a synthetic resin, the frictional resistance with the clamp 22 is increased, so that even if the nut 23 is loosely tightened for the elevation angle adjustment of the reflector 1, the reflector 1, the converter 2, and the converter The second bracket 18 is not rotated by the weight of the arm 3.

In the figure, reference numeral 24 denotes a rain gutter formed on the second bracket 18 which is closed to prevent rain water from flowing into the converter arm 3.

Referring to the operation of the present invention configured as described above is as follows.

First, when the first bracket 12 to which the second bracket 18 is coupled to the support rod 8 is inserted, the support rod 8 is supported by the support protrusions 14 and the bending pieces 15 formed on the first bracket 12. ) Is guided and coupled, so that the tip of the support rod 8 is located in the concave groove 16, so that the assembly of the support rod 8 and the first bracket 12 is completed.

As such, when assembling the first bracket 12 to which the second bracket 18 is coupled to the support rod 8, the reflector plate 1 and the converter arm 3 are assembled to the second bracket 18. Of course.

In this state, the base 11 on which the support rod 8 is fixed is fixed to the structure 10 of the building, and then the nut 23 screwed to the clamp 22 is rotated to some extent so that the first bracket ( After the 12 is pre-fastened, the clamp 22 surrounds the breaker 20 so that the frictional resistance is maximized, so that the second bracket from the first bracket 12 is caused by the weight of the reflector plate 1 and the converter arm 3. 18) It does not rotate up and down.

At this time, the reason for not firmly tightening the nut 23 for determining the positions of the first and second brackets 12 and 18 should be to adjust the elevation angle and azimuth angle of the reflector 1 in the state where the installation of the satellite antenna is completed. Because.

After fixing the support rod 8 of the mounting table to the structure 10 of the building by the above-described operation, and connecting the converter 2 for receiving radio waves and the satellite broadcasting receiver located in the room with the cable, Only by adjusting the elevation and azimuth angles can you obtain a good picture and sound quality.

As a result, one person rotates the reflector 1 installed outdoors to the upper and lower directions to adjust the elevation angle first. At this time, the bent portion 17 of the second bracket 18 to which the reflector 1 is fixed is fixed. The breaker 20 is coupled to the breaker is the first bracket 12 is wrapped around the clamp 22 pre-fastened with a nut 23 so that the other person is outdoors while checking the image quality and sound quality indoors Even if the rotation is stopped in response to a signal indicating that the elevation angles match, the upper and lower angles of the reflector 1 do not change.

When the elevation angle adjustment work of the reflector 1 is completed as described above, the first bracket 12 fitted to the support rod 8 is rotated left and right to adjust the azimuth angle. If the level of the reception state reaches the maximum value while finely adjusting the reflector 1, the azimuth adjustment is completed.

As described above, after adjusting the elevation angle by adjusting the upper and lower directions of the second bracket 18 and adjusting the azimuth angle by adjusting the left and right directions of the first bracket 12, the clamp 22 is applied. The installation of the mounting table is completed by firmly tightening only the two nuts 23 which are fastened. Even when the nut 23 is rotated, the first and second brackets 12 to which the reflector plate 1 is fixed are fixed. Since the position of 18 is not variable, there is no need to readjust the elevation and azimuth angles.

As described above, the present invention has several advantages as compared to the conventional mounting table.

First, in order to adjust the elevation angle and the azimuth angle of the reflector, only the two nuts are firmly fastened in the state where the angle of the reflector is adjusted, which makes the parts management very convenient.

Second, since only two nuts are fastened to the rear of the first bracket in the state where the elevation angle and azimuth angle of the reflector are adjusted, the angle of the adjusted reflector is prevented in advance, thereby preventing the phenomenon of shifting from the outside of the building. Installation of the parabola antenna can be performed quickly.

Third, even if the reflector is shaken up, down, left, or right due to the wind under the condition that the installation of the reflector is completed, the nut tightening the clamp is located at the right angle where the reflector is shaken. The radio wave reception of the broadcast can be kept constant at all times.

Fourth, it is possible to keep the focus of the converter constant because the position and angle of the converter arm are maintained accurately just by inserting and fixing the converter arm in the through hole formed in the second bracket.

Claims (3)

A base fixed to the structure of the building, a support rod fixed to the base, a first bracket that is rotatably coupled to the tip of the support rod, and a mounting piece is formed on both sides of the front surface to adjust the azimuth angle of the reflector plate, and the first bracket of When the converter arm is installed to be rotated up and down on the seating piece, and the converter arm is inserted and fixed through the through hole, and the front side of the second bracket is fixed to the reflecting plate, and when the clamping force of the clamp and the nut is applied to the inside of the second bracket. Parabolic antenna mounting bracket, characterized in that consisting of a breaker acts as a brake. The method of claim 1, And a support protrusion in line contact with both sides of the support bar on one surface of the first bracket, and at least one bent piece formed on a surface corresponding to the support protrusion. The method of claim 1, The mounting table of the parabolic antenna for satellite broadcasting, characterized in that the groove is formed in the upper surface of the first bracket is inserted into the support rod.