KR200307343Y1 - Rotator for Antenna - Google Patents

Abstract

The present invention discloses a rotator for an antenna that can freely adjust the angle of the antenna by rotatably connecting a cable connected to the antenna.

The purpose of this invention is to improve the coupling structure of the hub and the body, to compact the product to reduce the volume.

To this end, the present invention is a known one in which a hub having a conductive shaft installed therein is rotatably connected to a body to rotatably connect a cable connected to an antenna. V " type, to form a bushing for removing the play of the ball inserted into the groove, characterized in that it is provided on the outer periphery of the bushing and has a sleeve connecting the hub and the body.

Accordingly, the use of ball bearings is eliminated, thereby reducing the volume of the product, minimizing the contact resistance between the hub and the body, thereby minimizing signal transmission loss.

Description

Rotator for Antenna

The present invention relates to an antenna rotator, and more particularly, to an antenna rotator that can freely adjust the angle of the antenna by rotatably connecting a cable connected to the antenna for receiving satellite signals or narrator signals.

As is well known, a satellite receiving antenna capable of receiving satellite signals or narrator signals is installed on a fixed structure such as a building or a moving object such as an aircraft or a ship. Since these radio signals have directivity, The direction of the antenna is changed so as to be suitable for reception, which is illustrated in FIG. 1.

According to this, the rotator 100 couples the hub 108 having the cable connector 109 formed on one side thereof and the conductive shaft 110 installed therein to the body 101 having the cable connector 102 formed therein as the sleeve 103. The ball bearing 104 is provided between the sleeve 103 and the hub 108.

In addition, an antenna 112 is installed above the rotator 100, and an end of the cable 114 connected to the circuit 113 of the antenna 112 is coupled to the cable connector 109 of the hub 108. The end of the cable 117 connected to the receiver is connected to the cable connector 102 of the body 101.

Since the rotator 100 has a bearing 104 installed between the body 101 and the hub 108, the hub 108 and the conductive shaft 110 can be freely rotated, and accordingly, the hub 108 can be rotated freely. The antenna 112 installed on the upper side of the antenna signal can be easily adjusted to match the direction of the satellite signal.

In addition, since the center conductors 118 and 115 of the cables 117 and 114 are soldered and connected to the upper and lower ends of the conductive shaft 110, respectively, and the outer conductors 119 and 116 are connected to the cable connectors 109 and 102, The inner conductor of the received signal is connected to the center conductor 118 through the center conductor 115 and the conductive shaft 110, and the outer conductor 116, the hub 108, the ball bearing 104, the sleeve 103 ) Is to be connected to the outer conductor 119 through the body 101, and the like.

At this time, since the insulator 111 is provided between the inner wall of the hub 108 and the conductor 110, the insulation between the outer conductors 116 and 119 and the center conductors 115 and 118 is maintained.

However, the rotator 100 is bulky, and loss of satellite signals transmitted to the outer conductors 116 and 119 is inevitable.

That is, since the ball bearing 104 is formed of the inner race 105 and the outer race 106 having excellent mechanical stiffness on both sides of the ball 107 but poor electrical transmission characteristics, the ball bearing due to the thickness of each of these parts Since the 104 has a considerable straight line, the overall diameter of the rotator 100 becomes large, making it difficult to compact. In addition, the satellite signal transmitted to the outer conductor 116 may be a hub 108, a ball bearing 104, a sleeve. It is transmitted to the outer conductor 119 through (103), the body 101, etc. in sequence, the material of the ball bearing 104 is poor in electrical transmission characteristics, by the grease injected to reduce the cloud friction inside There is a problem that the contact resistance is increased and the satellite signal transmission is not smooth.

An object of the present invention is to provide a rotator for an antenna that can reduce the volume by minimizing the loss of the transmission signal, by compacting the product by improving the coupling structure of the hub and the body in view of the above-mentioned conventional problems.

1 is an explanatory diagram showing a conventional antenna rotator;

Figure 2 is an exploded perspective view of the antenna rotator according to the present invention.

Figure 3 is a cross-sectional view of the antenna rotator according to the present invention.

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

10: rotator 11: body 12: cable connector

13: sleeve 14,16: inclined surface 15: bushing

17 ball 18 hub 19 cable connection

20: groove 21: conductive shaft 22: insulator

23,26: Cable 24,27: Center conductor 25,28: External conductor

29 antenna 30 circuit

The present invention for achieving the above object is a known one that is coupled to the hub with a conductive shaft installed therein to rotatably connect the cable connected to the antenna for receiving the transmission signal, a plurality formed on the outer periphery of the hub Antenna of any one of the four grooves to form a "V", to form a bushing for removing the play of the ball inserted into the groove, and is provided on the outer periphery of the bushing and having a sleeve connecting the hub and the body We propose a rotator.

Accordingly, the present invention is stably coupled with the hub and the body to minimize the loss of the transmission signal, and the product is compact and the volume is reduced.

When described in detail based on the accompanying drawings the configuration and operation of the present invention as follows.

2 is an exploded perspective view of the antenna rotator according to the present invention, Figure 3 is a cross-sectional view of the antenna rotator according to the present invention.

The present invention is provided with a conductive shaft 21 in the hub 18, the cable connector 19 is formed on one side, a plurality of insulators 22 between the conductive shaft 21 and the inner circumference of the hub 18 Install and form a plurality of grooves 20 on the outer periphery of the hub (18).

At this time, any one of the grooves 20 of the plurality of grooves 20 to form a "V" shape to determine the relative position of the hub 18 and the body 11, which is inserted into the grooves 20 The ball 17 is provided.

In addition, it is provided on the outer periphery of the hub 18 and provided with a bushing (15) in contact with the ball 17, the inclined surface (16) is formed on the inner periphery of the bushing (15), the lower end.

In addition, the inclined surface 14 is formed on one inner side of the sleeve 13 for coupling the hub 18 and the body 11 to be described later, and the cable connector on one side of the body 11 is screwed with the sleeve 13 And an antenna 29 for receiving a satellite signal on the hub 18.

According to the present invention configured as described above, the ball 17 inserted into the “V” type groove 20 among the balls 17 inserted into the plurality of grooves 20 is the “V” groove 2 point of the hub 18, the bushing. The ball 17 inserted into the other groove 20 to determine the relative position of the hub 18 and the body 11 by touching each other at four points, such as one point of the inclined surface of the (15), one point of the body (11) Is contacted at three points, such as one "V" groove of the hub 18, one inclined plane of the bushing 15, and one inclined plane of the sleeve 13, and occurs when the bushing 15 and the hub 18 are manufactured. The available error is compensated by adjusting the tightening of the inclined surface (14).

Accordingly, when the hub 18 is rotated, the ball 17 in contact with three points removes the play between the hub 18 and the body 11, and the ball 17 in contact with the four points is in contact with the hub 18. It is to connect between the body (11) stably.

That is, when the antenna 29 is rotated to match the desired direction, the hub 18 coupled to the antenna 29 rotates, and the ball 17 serves as a bearing and also occurs in the rotation process. The clearance to be removed is removed because the three-contacted ball 17 is supported by the inclined surface 14 of the sleeve 13 and the inclined surface 16 of the bushing 15.

In addition, the ball 17 is in contact with the four-point is pressed by the inclined surface 16 of the bushing 15 and the two points in contact with the hub 18 and the one point of the body 11, so that the body 11 and The contact resistance between the hubs 18 is removed.

Therefore, the signal is transmitted stably without loss due to contact resistance.

That is, the center conductor 27 of the cable 26 connected to the circuit 30 of the antenna 29 is soldered to one end of the conductive shaft 21, the outer conductor 28 is the cable connector of the hub 18 The center conductor 24 of the cable 23 coupled to the receiving device is soldered to the other end of the conductive shaft 21, and the outer conductor 25 is connected to the cable connector 102 of the body 101. ), The signal transmitted to the center conductor 27 among the received signals is transmitted to the center conductor 24 through the conductive shaft 21, and the signal transmitted to the external conductor 28 is the hub 18. The ball is transmitted to the body 11 through the ball 17 and then to the outer conductor 25.

Therefore, signals transmitted to the center conductors 27 and 24 as well as signals flowing to the external conductors 28 and 25 are transmitted without loss.

In addition, when the antenna 29 is rotated, the hub 18 and the cable 26 rotate together while the body 11 or the cable 23 is fixed, so that twisting or tangling between the cables 23 and 26 occurs. Therefore, the antenna 29 can be freely rotated to match the direction of the satellite signal.

As such, the present invention eliminates the use of ball bearings, thereby reducing the transmission loss occurring in the ball bearings with poor electrical characteristics, and the rotator 10 is compacted. As a result, the volume of the rotator 10 is reduced, and the hub 18 In spite of free rotation of), transmission signal can be transmitted stably.

As described above, the present invention forms a plurality of grooves on the outer circumference of the hub to which the antenna is coupled, and a bushing for removing the play of the ball inserted into the groove, and is installed on the outer circumference of the bushing to connect the hub and the body. By forming the sleeve, the use of the ball bearing is excluded, thereby reducing the volume of the product, there is no contact resistance between the hub and the body there is a useful effect such that the transmission signal is transmitted almost without loss.

Claims (5)

In order to rotatably connect the cables 23 and 26 connected to the antenna 29 receiving the satellite signal, the hub 18 having the conductive shaft 21 installed therein is connected to the body 11 by the sleeve 13. In known ones, A plurality of grooves 20 formed on the outer periphery of the hub 18, the ball 17 is inserted into the groove 20, and the bushing contacted and supported by the ball 17 to remove the play of the ball 17 A rotator for an antenna, characterized in that (15). The method of claim 1, Rotator for an antenna, characterized in that any one groove (20) of the plurality of grooves (20) formed in the hub (18) is a V groove. The method of claim 1, Rotator for an antenna, characterized in that the inclined surface 14 is formed on one inner side of the sleeve (13). The method of claim 1, Rotator for an antenna, characterized in that the inclined surface (16) is formed at the inner peripheral end of the bushing (15). The method of claim 1, The antenna rotator, characterized in that the three-point contact or four-point contact between the ball (17) inserted into the plurality of grooves (20) between the hub (18), the bushing (15), the sleeve (13), the body (11).