KR200372297Y1 - Rotary Joint for Satellite Tracking Antenna - Google Patents

Abstract

The present invention secures a predetermined space in a portion where friction occurs with the stator due to the rotation of the rotor, and arranges a solid lubricant having high conductivity formed by compression molding in this space, thereby maintaining the signal characteristics of the antenna. The present invention relates to an active antenna rotary joint, which prevents wear between components and can significantly extend the life of the device. The present invention has a plunger 20 which is disposed in contact with the connecting pin 17 in an insulated state from the stator 1 and the rotor 11 to apply a high frequency signal received from the outside to the connecting pin 17. In the rotary joint of an active antenna having a plurality of plungers 120 in contact with the first washer 6 for the connection between the stator 1 and the rotor 11, the connecting pins 17 and the first Grooves 22a and 122a respectively formed at one side of the head of the plurality of plungers 20 and 120 in contact with the one washer 6; It is characterized in that it comprises a conductive solid lubricant 30 is formed in a shape corresponding to the grooves (22a, 122a) inserted into the grooves (22a, 122a), respectively.

Description

Rotary Joint for Satellite Tracking Antenna

The present invention relates to a rotary joint of an active antenna, and in particular, to secure a predetermined space at a portion where friction occurs with the stator due to the rotation of the rotor, and to place a solid lubricant having high conductivity formed by compression molding in this space. Accordingly, the present invention relates to an active antenna rotary joint, which can prolong the life of the device by preventing the wear between components while maintaining the signal characteristics of the antenna.

In general, the active antenna system for satellite communication is divided into a fixed part attached to a moving object such as a car or a ship, and a rotating part connected to an antenna body (rotating receiver) which rotates according to the position of the satellite. The rotary joint used in the connector is a kind of connector connecting the coaxial cable (signal line) of the fixed part and the rotating part, and rotates in a direction to obtain an optimal signal when the moving object rotates during the movement of the moving object. It is used to transmit a satellite signal received from a rotating receiver to a control unit fixedly disposed in a moving body so as to receive a clean satellite signal in real time regardless of a region and a direction.

Such a rotary joint device of an active antenna of the prior art has a technique of applying a radial bearing between a rotating part and a fixed part as in the case of Korean Patent Laid-Open No. 2001-0066972 to facilitate such rotation. Although it has been proposed, the rotating part and the fixing part of the shield wire (grounding wire) connecting means are configured to be in point contact through the connection part of the bearing and the body, so that the connection is unstable and deteriorates the characteristics of the signal quality. When the rotor rotates due to the contact between the rotors, rapid wear of metal occurs, resulting in a shortening of the service life of the connection part, and there is a problem in that power is not properly applied as power loss occurs.

In addition, in the case of mounting a radial bearing coated with a conductive liquid lubricant, when the lubricant flows out of the device during rotation, an apparatus that receives a high frequency signal such as an active antenna may cause abnormal operation. It was a cause of deterioration of signal characteristics.

The present invention is to solve the above problems, the purpose is to secure a predetermined space in the part where friction occurs with the stator in accordance with the rotation of the rotor to form a solid lubricant having a high conductivity formed by compression molding in this space As a result, the active antenna can be prevented from deteriorating the signal characteristics of the antenna by preventing the wear between parts and significantly extending the life of the device, and preventing the lubricant from flowing out of the device. To provide a rotary joint.

1 is a partial cross-sectional view showing a rotary joint of an active antenna according to the present invention,

FIG. 2 is a perspective view of the plunger and the compression molded conductive solid lubricant inserted into the plunger shown in FIG. 1.

* Description of the symbols for the main parts of the drawings *

1: Stator 2: Stator side port

3: first insulator 5: bushing

6: first washer 7: second washer

9: second insulator 10: tightening nut

11: rotor 13: connector on rotor side

15: Connection socket 17: Connection pin

20, 120: plunger 22, 122: head part

22a, 122a: Groove 23, 123: Coil Spring

30: conductive solid lubricant

In order to achieve the above object, the present invention is provided with a plunger disposed in contact with the connecting pin in an insulated state from the stator and the rotor to apply a high frequency signal received from the outside to the connecting pin, and the connection between the stator and the rotor is performed. A rotary joint of an active antenna having a plurality of plungers disposed in contact with a first washer, comprising: grooves formed at one side of a head portion of the plurality of plungers respectively contacting the connecting pin and the first washer; It has a shape corresponding to the groove provides a rotary joint of the active antenna, characterized in that it comprises a conductive solid lubricant is inserted into the groove respectively.

In this case, the conductive solid lubricant is assembled by compression molding or processing.

Therefore, in the present invention, it is possible to drastically extend the life of the device by preventing wear between the components of the active antenna, and at the same time to maintain the signal characteristics of the active antenna which receives the high frequency signal, thereby providing a uniform high frequency signal and power supply. Can supply

(Example)

Referring to the rotary joint of the active aneta having a conductive solid lubricant according to the present invention with reference to the drawings as follows.

1 is a partial cross-sectional view showing a rotary joint of an active antenna according to the present invention, Figure 2 is a perspective view showing a plunger and a conductive solid lubricant formed by compression molding inserted into the plunger shown in FIG.

Hereinafter, in an embodiment of the present invention, a rotary joint in a state in which the stator side connector 2 and the rotor side connector 13 are bent at right angles to each other will be described as an example.

First, the stator 1 and the rotor 11 are coupled through the tightening nut 10 so that the rotor 11 can rotate while the first and second insulators 3 and 9 are included therein.

In this case, a bushing 5 for supporting the rotation of the rotor 11 is disposed between the inner circumference of the stator 1 and the outer circumference of the rotor 11, and further includes a first bushing 5 and a lower side of the bushing 5. And second washers 6, 7 are arranged between the stator 1 and the rotor 11.

In addition, a connection socket 15 is disposed inside the rotor 11 in an insulated state from the stator 1 and the rotor 11 through the first and second insulators 3 and 9. The plunger 20, which acts as a brush type, is inserted into the lower end of the connection socket 15 while being supported by the coil spring 23.

In this case, the head portion 22 of the plunger 20 is kept in contact with the connecting pin 17 connected with a cable (not shown) inserted into the stator side connector 2. That is, one surface of the head portion 22 and one surface of the connecting pin 17 are disposed in contact with each other in a state of having a contact force corresponding to the elastic force of the coil spring 23.

In addition, the plurality of plungers 120 inserted along the axial direction at a predetermined distance from the center of the rotor 11 are similar to the plunger 20 inserted into the connection socket 15 by the coil spring 123. The head portion 122 is in contact with the first washer 6 in a touched state.

Therefore, when the rotor 11 rotates, the plunger (20, 120) acting as a brush in consideration of the fact that the wear portion between the connecting pin 17 or the first washer (6) is most advanced, the present invention In FIG. 1, grooves 22a and 122a are formed along one axial direction on one surface of the head portions 22 and 122 of the plunger 20 and 120 in contact with the connecting pin 17 and the first washer 6, respectively. And a solid lubricant 30 having conductivity as shown in FIG. 2 was inserted into the grooves 22a and 122a. In this case, the conductive solid lubricant 30 is formed by direct compression molding or by processing assembling lubricant.

As such, the solid lubricant 30 disposed at the portion where the friction between the two metal parts which transmit the high frequency signal is most rapidly progressed is different from the conventional liquid type conductive lubricant, and the lubricant is applied when the rotor 11 is rotated. By fundamentally blocking the flow to the outside, it is possible to eliminate the cause of the abnormal operation of the device receiving a high frequency signal, such as an active antenna, or the degradation of the signal characteristics of the antenna, thereby reducing the performance of the rotary joint Reliability can be maintained.

In addition, it is possible to extend the life of the device by preventing the rapid wear in the friction part when any one of the parts rotates or the two parts rotate in the opposite direction while the metal parts are in contact as described above. have.

In addition, the embodiment of the present invention has been described by way of example for the bent rotary antenna, but is not limited to this, it can be applied to any rotary power supply device that requires a high level of conductivity, such as power and high-frequency signals.

According to the present invention, it is possible to significantly extend the life of the device by preventing wear between the components of the active antenna, and at the same time to maintain the signal characteristics of the active antenna receiving the high frequency signal to supply a uniform high frequency signal and power. There is an advantage to this.

In the above, the present invention has been illustrated and described with reference to specific preferred embodiments, but the present invention is not limited to the above-described embodiments and the general knowledge in the technical field to which the present invention belongs without departing from the spirit of the present invention. Various changes and modifications will be possible by those who have the same.

Claims (2)

The connecting pin 17 is disposed in an insulated state from the stator 1 and the rotor 11 and includes a plunger 20 for applying a high frequency signal received from the outside to the connecting pin 17. In a rotary joint of an active antenna having a plurality of plungers 120 disposed in contact with a first washer 6 for connection between the rotor and the rotor 11, Grooves (22a, 122a) formed at one side of the head portion of the plurality of plungers (20, 120) respectively in contact with the connecting pin (17) and the first washer (6); The rotary joint of the active antenna, characterized in that it comprises a conductive solid lubricant 30 is formed in a shape corresponding to the groove (22a, 122a), respectively inserted into the groove (22a, 122a). The rotary joint of an active antenna according to claim 1, wherein the conductive solid lubricant (30) is assembled by direct compression molding or processing.