KR20010066972A - Rotary Joint Apparatus of Active Antenna - Google Patents

Abstract

PURPOSE: A rotary joint apparatus for an active antenna is provided to efficiently use space inside an active antenna and facilitate connection between other element by making a cable being narrow. CONSTITUTION: An active antenna is fixed on a predetermined portion of a mobile object, such as a ship or a train, etc. A rotating part(10) is disposed on an inside of the active antenna, coupled on an upper end of the first support part of an antenna body, rotated along with the antenna body, and receives a high frequency signal from a coaxial cable. The high frequency signal is amplified through a receiving amplifying part. The first connection pin(31) and the second connection fin(32) receive the high frequency signal from the rotating part(10). The second support part is fixedly formed on the mobile object. A fixing part(40) is coupled with the second support part on a lower end thereof and with the rotating part to be rotated and transfers a signal amplified from the first and second connection pins(31,32) to a control part. The control part is disposed on a predetermined position inside the mobile object.

Description

Rotary Joint Apparatus of Active Antenna

The present invention relates to a rotary joint device of an active antenna, and by forming a compact to transmit a small amount of DC current and high frequency signals at the same time through one cable, the space inside the active antenna can be used efficiently, the cable is thin The present invention relates to a rotary joint device of an active antenna that can be easily connected to other components.

In general, the active antenna system for satellite communication is mounted on a moving object such as a ship or a train to perform a function of tracking a satellite so that a clean and perfect satellite reception can be performed in real time regardless of a region while moving.

The conventional rotary joint device of an active antenna is a kind of connector for connecting a pair of rotating coaxial cables. For example, a satellite signal received from a rotating antenna and passed through a signal amplifier is transmitted to a control unit fixedly disposed in a moving object. It is used to.

However, the rotary joint device according to the prior art is designed to be connected to a 6-channel connecting cable in order to use a large-capacity DC current, and the volume thereof is enlarged. It is not easy, and the thickness of the connection cable is thick, the connection with other components is not flexible, there is a problem that the work is delayed.

In order to solve the problems as described above, an object of the present invention is to form a compact to transmit a small amount of DC current and high frequency signals at the same time through one cable can effectively use the space inside the active antenna, the cable is The present invention provides a rotary joint device of an active antenna for receiving satellite signals, which is thinly structured and easily connected to other components.

1 is a schematic diagram showing a state in which a rotary joint device according to the present invention is coupled into an active antenna;

2 is an exploded view showing a rotary joint device of an active antenna according to the present invention;

3 is an assembly view showing a rotary joint device of an active antenna according to the present invention.

* Description of Codes for Main Parts in Drawings *

10: rotating part 11: the first metal body

13: first clamp 15: metal cover

17: gasket 21: first insulator

22: second insulator 31: first connecting pin

32: second connecting pin 40: fixed part

41: second metal body 43: second clamp

51: movable pin 53: spring

60: bearing 61: bearing

63: bushing 70: rotary joint

80: bag nut

In order to achieve the above object, the present invention is a rotary joint device of the active antenna for rotatably connecting the first coaxial cable drawn from the active antenna body and the second coaxial cable for transmitting to the control unit of the moving object A first clamp having an inner circumferential portion connected to a shield wire of the first coaxial cable to the outside, and a first clamp coupled to the inner circumferential portion and extending with the outer diameter portions of the first and second diameters. A metal body, a bearing portion screwed to the second outer diameter portion of the first metal body, and a screwed portion coupled to the second outer diameter portion of the first metal body to position the bearing portion and at the same time The back nut for preventing the body body from being separated, the bearing portion is inserted into the first inner diameter portion, the front end portion of the first metal body body is in contact with the second inner diameter portion, and the third inner diameter portion is formed. A fixing part having an outer circumference fixedly coupled to the movable body, a first insulator having an outer circumference supported by the first inner diameter of the first metal body and having an inner circumference, and having an inner circumference supported by the third inner diameter of the fixed part; A second insulator having a second insulator, an outer circumferential portion supported by the inner circumferential portion of the first insulator, a core of the first coaxial cable coupled to a rear end portion, a first connecting pin having a first coupling groove at a tip portion thereof, and an outer circumferential portion thereof A second connecting pin supported on the inner periphery of the second insulator, the core of the second cable being coupled to the rear end, and having a second coupling recess at the front end; a spring inserted into the first coupling recess; It consists of a movable pin for elastically supported in the first coupling groove and the second coupling groove to electrically connect the first and second connecting pins; The first clamp, the first metal body, and the first connecting pin are rotatably supported by the fixed part through the bearing part according to the rotation of the antenna body.

The fixing part may further include a second metal body fixedly coupled to the movable body, a metal cover fastened to the front end of the second metal body to prevent the bearing part from being separated from the second metal body, and the second metal body. And a second clamp coupled to a third inner diameter portion of the sieve body, the second clamp having a second inner diameter portion in electrical contact with the distal end portion of the first metal body.

And a ground path connected to the shield wire of the second coaxial cable via a first clamp, a first metal body, and a second clamp connected to the shield wire of the first coaxial cable.

As described above, the rotary joint device of the present invention can reduce the manufacturing cost by miniaturizing the size so that it can be connected to the connection cable of a thin channel, a series of operations such as maintenance by using a large internal space of the active antenna Can be easily proceeded.

(Example)

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings in which preferred embodiments are shown.

1 is a schematic view showing a state in which a rotary joint device according to the present invention is coupled to an active antenna, FIG. 2 is an exploded view showing a rotary joint device of an active antenna according to the present invention, and FIG. 3 is an active view according to the present invention. It is an assembly drawing which shows the rotary joint apparatus of an antenna.

First, the rotary joint 70 according to the present invention is disposed inside the active antenna 1 fixed to a predetermined portion of the moving body 9 such as a ship or a train as shown in FIG. An upper end is coupled to the first support part 4 of (2) and rotates together with the antenna body 2, and receives a high frequency signal received by the antenna body 2 and amplified through the reception amplifier 3. A rotating part 10 applied from the coaxial cable 6, first and second connecting pins 31 and 32 receiving the high frequency signal from the rotating part 10, and a second fixed part of the moving body 9. The lower end is fastened to the support portion 5, the rotating portion 10 is rotatably coupled to the inner peripheral portion and the control unit disposed at a predetermined position inside the moving body to receive the signals received from the first and second connecting pins (31, 32) It consists of a fixed portion 40 to transmit to (8).

The rotating part 10 is inserted into and coupled to the first metal body 11 having the inner diameter parts 11a and 11b of the first to second diameters, and the first inner diameter part 11b of the first body 11. And a first clamp 13 coupled to the first support part 4 extending upward in the antenna body 2 to rotate the antenna body 2 according to a driving unit (not shown). It is.

In addition, a first insulator 21 having an inner circumferential portion 21a is supported and coupled to the first inner diameter portion 10a of the first metal body 11.

In addition, one end of the first connecting pin 31 inserted into the inner circumferential portion 21a of the first insulator 21 while being insulated from the first metal body 11 is connected to the first connecting cable 6. The first coupling recess 31b is formed at the rear end, and its surface is plated with a highly conductive metal.

On the other hand, the fixing part 40 is the second metal body 41, the lower end of the outer peripheral portion is fixed to the moving body 2 and the second to prevent the bearing portion from being separated from the second metal body 41 The metal body cover 15 coupled to the fastening portion 41a of the inner circumference of the metal body 41 and the third inner diameter portion 41d of the second metal body are coupled to the first metal body. The distal end portion of the second clamp 22 includes a second clamp 22 having a second inner diameter portion 43b in electrical contact therewith.

In addition, a second insulator 22 having an inner circumferential portion 22a having a predetermined diameter is supported and inserted in the second inner diameter portion 41c of the second metal body 41, and is connected to the second insulator 22. The second connecting pin 32 inserted and supported by the inner circumferential portion 22a of the second insulator 22 in an insulated state is connected to the core of the second coaxial cable 7 and the second coupling recess 32a is provided at the front end thereof. ) Is formed, the surface of which is plated with a highly conductive metal.

Meanwhile, a spring 53 is inserted into the recess 31a of the first connecting pin 31, and is burnt in the first coupling recess 31a and the second coupling recess 32a by the spring 53. A movable pin 51 is formed to be sexually supported to electrically connect the first and second connection pins.

In this case, the movable pin 51 receives the high frequency signal applied from the signal amplifying unit from the first connecting pin 31 connected to the first coaxial cable 6, and then the second connecting cable. It is electrically connected to the said 1st and 2nd connection pins 31 and 32 so that it may transmit to the control part 8 arrange | positioned in the moving body 9 via the 2nd connection pin 32 connected with (7).

It is connected to the shield wire of the second coaxial cable 7 via the first clamp 13, the first metal body 15, and the second clamp 43, which are connected to the shield wire of the first coaxial cable 6. Have a ground path.

In addition, a bearing portion 60 is formed between the first inner diameter portion 41b of the second metallic body 41 and the first metallic body 11, and the bearing portion 60 is a pair of bearings. And a bushing 65 disposed between the bearings 61 and 63 and the bearings 61 and 63.

In this case, the back nut 80 is fastened to the outer periphery of the lower end of the first metal body 11 so as to prevent the flow of the bearing part 60 according to the rotation of the first metal body 11. Accordingly, by reducing friction with the second inner diameter portion 41b of the second metal body 41, the bearing portion 60 may be maintained in a set position.

In the present invention, the size of the rotary joint device is miniaturized so that a small capacity DC power source can be used. Accordingly, it is easy to connect the maintenance and connection cables to other parts by efficiently utilizing the internal space of the active antenna 1. .

As described above, the rotary joint device of the present invention can reduce the manufacturing cost by miniaturizing the size so that it can be connected to the connection cable of a thin channel, a series of operations such as maintenance by using a large internal space of the active antenna Can be easily proceeded.

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 present invention is not limited to the spirit of the present invention. Various changes and modifications will be possible by those who have the same.

Claims (3)

In the rotary joint device of the active antenna for rotatably connecting the first coaxial cable drawn from the active antenna body 2 and the second coaxial cable for transferring the satellite signal to the control unit 8 of the mobile body 9, A first clamp 13 connected to the outside of the shield wire of the first coaxial cable and having an inner circumference; A first metallic body 11 coupled to the inner circumference and extending elongated with outer diameters of the first and second diameters; A bearing portion 60 screwed to a second outer diameter portion of the first metal body 11; A back nut 80 which is screwed to the second outer diameter portion of the first metal body 11 to position the bearing portion and prevents the first metal body from being separated; A fixed part 40 in which the bearing part is inserted into a first inner diameter part, a front end part of the first metal body is in contact with a second inner diameter part, a third inner diameter part is provided, and an outer circumferential part is fixedly coupled to the movable body; A first insulator 21 having an outer circumference portion supported by the first inner diameter portion of the first metal body body and having an inner circumference portion; A second insulator 22 supported by the third inner diameter portion of the fixing portion and having an inner circumference portion; A first connecting pin 31 having an outer circumferential portion supported by the inner circumferential portion of the first insulator, a core of the first coaxial cable coupled to a rear end portion, and a first coupling recess 31a provided at the front end portion thereof; A second connecting pin 32 having an outer circumferential portion supported by the inner circumferential portion of the second insulator, a core of a second cable coupled to a rear end thereof, and a second coupling recess 32a provided at the front end thereof; A spring 53 inserted into the first coupling recess 31a, It is composed of a movable pin 51 for elastically supported in the first coupling groove 31a and the second coupling groove 32a by the spring 53 to electrically connect the first and second connection pins. ; And the first clamp, the first metal body, and the first connecting pin are rotatably supported by the fixing part through the bearing part in accordance with the rotation of the antenna body. The method of claim 1, wherein the fixing portion 40 A second metal body 41 fixedly coupled to the movable body; A metal cover 15 fastened to a tip of the second metal body 41 to prevent the bearing part from being separated from the second metal body 41; And a second clamp 22 coupled to the third inner diameter portion 41d of the second metal body and having a second inner diameter portion 43b in contact with the tip of the first metal body. A rotary joint device of an active antenna characterized by the above-mentioned. The active circuit according to claim 1, further comprising: a ground path connected to the shield wire of the second coaxial cable via a first clamp, a first metal body, and a second clamp connected to the shield wire of the first coaxial cable. Rotary tightening device of the antenna.