KR100922535B1 - An apparatus fixing test antenna - Google Patents

Abstract

The present invention relates to a test antenna fixing device. The test antenna fixing device according to the present invention is a test antenna fixing device for installing a test antenna in a satellite system model, a bottom portion connected to the satellite system model, rotatably connected to the bottom portion, support holes on both sides It is characterized in that it comprises a trunk portion having a, and a test antenna fixing jig rotatably connected to the support hole, the test antenna is inserted and fixed therein. The present invention can provide a test antenna fixing device that can control the position of the test antenna while fixing the test antenna to the satellite system model.

Satellite, antenna, RF characteristics

Description

Test antenna fixing device {AN APPARATUS FIXING TEST ANTENNA}

The present invention relates to a test antenna fixing device, and more particularly, to a test antenna fixing device for fixing the test antenna to the satellite system model.

In the situation where satellite orbits and frequency resources are depleted due to the rapidly increasing number of satellites, the development of complex satellites with various functions including signal processing satellites and communication functions can improve the efficiency and performance of communication satellites. It is becoming. In addition, for the saturation of frequency bands and the provision of broadband multimedia services, the development of satellites with higher frequency near millimeter wave bands (Ka bands) is being actively conducted.

Antennas installed in these satellite systems are important components for analyzing the radio frequency (RF) radiation characteristics and interference effects of satellites.

For more accurate analysis, a model such as a real satellite model may be prepared in advance, and a test antenna may be installed in the satellite system model to analyze radiation characteristics when the satellite system is operated.

For example, antennas of 2 GHz and 9 GHz bands installed in satellites may have respective frequency characteristics and generate interference due to harmonic components generated in respective RF stages. In particular, the 9GHz (X-band) band antenna is an antenna for transmitting the image data obtained from the ground to the ground station through the satellite, the beam pattern characteristics and antenna according to its azimuth and altitude It can be installed in the satellite system model to understand the effects of mutual interference.

These test antennas may be fixed to the satellite system via test antenna fixing devices.

The test antenna is composed of different sizes and shapes, and the location of the test antenna is different depending on the satellite system.

Therefore, the test antenna fixing device should be equipped with self-adjusting and fixing function to fix it well according to the size and shape of the test antenna, and be able to be stably supported and fixed to the satellite system model.

In the related art, as shown in FIG. 3, a test antenna was installed thereon by mounting a pedestal T perpendicular to the satellite system model S. FIG. For reference, the portion indicated by a dashed line in Figure 3 represents a test antenna fixing device according to the present invention to be described later.

However, this conventional method is not equipped with a function for stably fixing the test antenna, so that the problem of generating an error due to its own position deformation and vibration in analyzing the interference and noise generated when operating the satellite system is problematic. there was.

In addition, since the position and direction of the test antenna cannot be controlled, there is a difficulty in limiting the analysis of the RF characteristics according to the azimuth and elevation angles of the test antenna.

The present invention was created to solve the problems described above, the problem to be solved by the present invention is to provide a test antenna fixing device that can stably fix the test antenna to the satellite system model and adjust the position of the test antenna To provide.

According to an aspect of the present invention, there is provided a test antenna fixing device for testing antenna fixing device for installing a test antenna in a satellite system model, which is connected to the satellite system model; A body part rotatably connected to the bottom part, and having support holes at both sides thereof, and a body part having an empty space in which the test antenna fixing jig and the test antenna can be placed; And a test antenna fixing jig inserted into and connected to the support hole so as to be rotatable 360 °, and having a test antenna inserted therein, wherein the test antenna fixing jig is inserted at both ends into the support hole. And an upper member rotatable about an axis connected to the support hole and having an annular structure open in the center, and an upper member detachably connected to the lower member and having an annular structure corresponding to the annular structure of the lower member. It includes.
The upper member may include a protrusion coupled to the groove formed in the test antenna.
The hem may be connected to the satellite system model through a fixed shaft.

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As described above, according to the present invention, it is possible to provide a test antenna fixing device capable of fixing the test antenna to a satellite system model and adjusting the position of the test antenna.

In particular, the body portion and the test antenna fixing jig are configured to be rotatable to help analyze the RF characteristics of the satellite system according to the azimuth and elevation angles of the test antenna.

In addition, it is possible to provide a test antenna fixing device capable of controlling the position of the test antenna while fixing the test antenna according to the size, shape of the 9 GHz band antenna and the installation position in the satellite system.

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

Figure 1 shows a schematic structure of a test antenna fixing device according to an embodiment of the present invention, through which the test antenna can be fixed to the satellite system model.

As shown in Figures 1 and 2, the test antenna fixing device according to an embodiment of the present invention includes a bottom (1).

The foot 1 can be connected to the satellite system model. Referring to FIG. 3, a hole h is formed in the satellite system model S, and the bottom portion 1 has a fixed shaft 12 perpendicular to the center of the bottom surface, and the fixed shaft 12 is a hole. By inserting in (h) the hem 1 can be mounted perpendicular to the satellite system model S. FIG. In addition, the bottom 1 may be provided with a wide support plate so that the fixed shaft 12 can be stably supported around the inserted hole h.

The torso 1 may be rotatably connected to the body 2. Inside the trunk portion 2, an empty space is formed so that the test antenna fixing fixture 3 and the test antenna A (see FIG. 2) can be placed. Body portion 2 may be provided with support holes (22, 24) on both sides. The support holes 22 and 24 are for mounting the test fixture fixing fixture 3 and may be formed to face each other at the same height.

The test antenna fixing jig 3 mounted to the support holes 22 and 24 is a part directly connected to the test antenna A. The test antenna fixing fixture 3 may be divided into an upper member 32 and a lower member 34, and both ends of the lower member 34 may be connected to the support holes 22 and 24, respectively. At this time, the lower member 34 is rotatable about an axis connected to the support holes 22 and 24.

An annular structure is formed in the center of the test antenna fixing fixture 3 so that the test antenna A can be inserted and fixed. As shown in FIG. 2, with the detachable upper member 32 separated, the test antenna A is inserted into an annular structure open in the center of the lower member 34 and the upper member 32 thereon. Can be fastened. At this time, the annular structure portion of the upper member 32 is provided with protrusions 321 and 323 therein, and may be coupled to the grooves a and b formed in the test antenna A at the time of fastening. Therefore, the test antenna A can be completely fixed to the test antenna fixing fixture 3.

Figure 3 shows an example of how the test antenna fixing device according to an embodiment of the present invention can be installed in the actual satellite system model. For reference, the pedestal (T) mounted vertically to the satellite system model (S) in FIG. 3 corresponds to the prior art, as already described in the background art of the present specification.

In this embodiment, a 9 GHz band antenna A is applied as the test antenna A. FIG. 9 GHz band antenna (A) is fixed to the test antenna fixing device according to an embodiment of the present invention, as shown in Figure 3, the test antenna fixing device can be installed vertically on one side of the satellite system model (S). have.

When operating the satellite system model (S), the test antenna fixing device may control the azimuth angle of the test antenna (A) through the rotation of the body (2). In addition, it is possible to control the elevation of the test antenna (A) through the rotation of the test antenna fixing jig (3). Therefore, it is easy to analyze the RF characteristics of the satellite system model (S) according to the change in the position of the test antenna (A).

On the other hand, Figure 4 shows another embodiment of the present invention for achieving the above technical problem.

As shown in FIG. 4, the test antenna fixing device according to another embodiment of the present invention may be mounted on a bracket B installed in the satellite system model S to install the test antenna A. Can be.

The rod-shaped bracket B has one end fixed to the upper end of the satellite system model S, and is installed in a direction perpendicular to the ground along the side of the satellite system model S. FIG. The bracket (B) can be extended outward with respect to the satellite system model (S). In an embodiment of the present invention, the test antenna fixing device may be mounted at the bottom of the bracket (B).

The test antenna fixing device according to the embodiment of the present invention includes a connecting portion (4). Since the connecting portion 4 is mounted at the bottom of the bracket (B), the test antenna fixing device may be connected to the bracket (B).

Referring to the enlarged view of FIG. 4, through holes 41 and 43 are formed in the connecting portion 4, and fastening means 51 and 53 may be coupled to the through holes 41 and 43. For example, two female thread portions 41 and 43 may be formed in the connecting portion 4, and two screws 51 and 53 may be screwed into the two female thread portions 41 and 43, respectively. ) May be fixed to the bracket (B).

One end of the connecting portion 4 may be connected to the holder (6). As in the present embodiment, when the connecting portion 4 is mounted on the lower end of the bracket B installed perpendicular to the ground in the satellite system model S, the fixing table has a predetermined angle at the lower end of the connecting portion 4. One end of (6) can be fixed.

The test antenna A may be fixed to and supported by the holder 6. For example, through holes 61 and 63 are formed at the other end of the fixing table 6, and the fastening means 71 and 73 engage with the through holes c formed at one side of the test antenna A through the fastening means 71 and 73. The test antenna A may be fixed to the holder 6.

One end of the adjuster 8 may be connected to the other end of the connecting portion 4 (in the present embodiment, the upper end of the connecting portion). Like the holder 6, the adjuster 8 is coupled to and fixed with the test antenna A. The adjuster 8 is rotatably connected to the connecting portion 4 to the size and shape of the test antenna A. Therefore, it can be adjusted within a preset range of angles. Through-holes 81 and 83 are formed at the other end of the adjuster 8, so that the fastening means 91 and 93 engage with the through-holes d formed at the other side of the test antenna A through the test antenna ( A) can be fixed to the adjuster 8.

Therefore, when the test antenna fixing device is fixed to the bracket B to have a preset angle as in this embodiment, when the bracket B is fully extended, the direction of the test antenna A is upward (earth direction). Facing the ground (based on the ground of FIG. 4). Since the 9GHz band antenna has the purpose of transmitting the acquired image data to the earth's ground station, it is desirable to be installed so that the satellite always looks at the earth when performing its mission in orbit. In consideration of this, when using the test antenna fixing device according to an embodiment of the present invention, the position of the test antenna A installed in the satellite system model (S) on the ground is always configured to look upward (earth direction) can do.

Although the embodiments of the present invention have been described above, the scope of the present invention is not limited thereto, and the present invention is easily changed and equivalent to those of ordinary skill in the art to which the present invention pertains. Includes all changes and modifications to the scope of the matter.

1 is a view showing the structure and operation of the test antenna fixing device according to an embodiment of the present invention.

FIG. 2 is a side view of FIG. 1 and a diagram illustrating an insertion form of a test antenna.

FIG. 3 is a diagram illustrating an example in which FIG. 2 is installed in a satellite system model.

4 is a diagram illustrating a structure of a test antenna fixing device and an installation example thereof according to another embodiment of the present invention.

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

1 ... bottom, 12 ... fixed shaft,

2, body, 22, 23 ... support hole,

3, antenna fixing fixture for test, 32 upper member,

33 lower part, 321,322 ...

4 ... connections, 6 ... fixtures,

8 ... adjuster.

Claims (8)

A test antenna fixing device for installing a test antenna in a satellite system model, A foot end connected to the satellite system model; A body part rotatably connected to the bottom part, having support holes at both sides, and having a test antenna fixing fixture and an empty space in which the test antenna can be placed; And Antenna Fixture for Test Including; The test antenna fixing jig is inserted into and connected to the support hole so as to be rotatable 360 °, and the test antenna is inserted and fixed therein, The test antenna fixing jig is connected to both ends of the support hole is inserted into the lower member having an annular structure which is rotatable about an axis connected to the support hole and is open in the center, and detachably connected to the lower member. And an upper member having an annular structure corresponding to the annular structure of the lower member. Test antenna fixing device characterized in that. delete In claim 1, The upper member is a test antenna fixing device having a protrusion coupled to the groove formed in the test antenna on the inside. In claim 1, The bottom end is a test antenna fixing device connected to the satellite system model through a fixed shaft. delete delete delete delete

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