KR100413217B1 - Antenna direction control apparatus for satellite signal reception system - Google Patents

Abstract

The present invention provides a satellite signal reception antenna which maintains the satellite orientation angle based on the external horizontal positioning control signal in the horizontal direction while maintaining the satellite orientation angle by the weight of the weight in the vertical direction. It relates to a position adjusting device.

According to a preferred embodiment of the present invention, an antenna vertical positioning mechanism is provided with a bracket member and a weight body interposed between a rear surface of a satellite signal reception antenna and a case to perform vertical positioning of the antenna; And an antenna horizontal position adjusting portion for electrically adjusting the horizontal direction of the antenna, wherein the bracket member is pivotally coupled to the inclined antenna coupling surface and the front end of the case so that the antenna is coupled with the satellite orientation angle. It is composed of a bracket body, the upper side of the bracket body is formed a weight coupling hole for coupling the bracket rotation fixing hole and the weight body, the bracket rotation fixing hole is a rotation support rivet for supporting the bracket body to be pivoted to the case In addition to being inserted, a coupling screw is installed through the central hollow portion of the pivot support rivet, and the weight is screwed into the weight coupling hole.

In addition, the antenna horizontal position adjusting unit is coupled to the driven pulley via a drive belt and a timing belt coupled to the shaft of the electric motor installed downward in the case, the outer periphery of the rotating fixed shaft protruding upward from the center of the driven pulley In addition to the bearing is coupled to the bearing cover to cover the bearing and to prevent the departure of the bearing is provided with a bearing departure prevention member that is fastened on the rotating fixed shaft of the driven pulley.

Description

ANTENNA DIRECTION CONTROL APPARATUS FOR SATELLITE SIGNAL RECEPTION SYSTEM}

The present invention relates to an apparatus for adjusting the position of a satellite signal receiving antenna, and more particularly, to an apparatus for adjusting the position of a satellite signal receiving antenna so that an antenna for receiving a satellite signal ensures an optimal tracking position with respect to a satellite at all times. .

As is well known, in the case of communicating a signal including video / audio components or communicating a specific type of data signal through a wireless channel, when an obstacle is located in a transmission path through which the signal is propagated, normal signal communication is performed. You will not lose.

That is, when a broadcast signal including a video / audio component is transmitted from a broadcasting station to an unspecified number of destinations through a radio channel (that is, an over-the-air channel), if an obstacle is located in the transmission path of the broadcast signal, the broadcast is broadcast by the obstacle There is a so-called 'blind hearing area' (or hearing loss area) where the signal is disturbed.

In view of such a point, in recent years, even when an obstacle is located in a signal transmission path, satellite communication using satellites is being noticed in order not to be affected by the obstacle and to normally communicate with the signal.

Such satellite communication requires a satellite signal receiving antenna to receive satellite signals. Since the satellite signal receiving antenna must be maintained at a position that always follows satellites in order to receive satellite signals normally, the satellite signal receiving antenna must Various methods have been studied and put into practical use in order to follow the satellite at the optimal angle of view at all times.

As a representative example, a vertical / horizontal positioning device including a plurality of electric motors is separately provided in the vertical direction and the horizontal direction of the satellite signal receiving antenna, so that the gain of the satellite signal received by the satellite signal receiving antenna is improved. The satellite signal reception antenna always follows the satellite by driving the vertical positioning device and / or the horizontal positioning device including the electric motor on the basis.

However, in the above-described method employing a vertical / horizontal positioning device including an electric motor to position the satellite signal receiving antenna in the vertical and horizontal directions to follow the satellite, a plurality of electric motors will be required. In addition, based on the gain of the satellite signal received from the satellite signal receiving antenna, driving of the vertical / horizontal positioning device including the electric motor is required, which complicates the overall driving mechanism of the satellite signal receiving antenna. .

Also, in the method of positioning the satellite signal receiving antenna by the vertical / horizontal positioning device based on the gain of the satellite signal received by the corresponding satellite signal receiving antenna, for example, the satellite signal receiving antenna is used, for example, in a ship. When the ship is agitated in a loaded state, the satellite signal reception antenna is generally in a vertical swing state, and thus the response characteristic is deteriorated due to the variable gain of the satellite signal received by the satellite signal reception antenna. Because of the situation, high-precision positioning of the satellite signal receiving antenna is impossible.

The present invention has been made in view of the above-described prior art, and installs gimbals for vertical positioning of a satellite signal receiving antenna and applies a horizontal positioning device including an electric motor to the horizontal positioning. Therefore, the purpose of the present invention is to provide a satellite signal receiving antenna positioning device designed to direct the satellite at all times by the gimbal at least in the vertical direction.

In order to achieve the above object, according to a preferred embodiment of the present invention in the position adjustment apparatus of the satellite signal receiving antenna for controlling the antenna of the flat-type antenna equipped with a low noise block-down converter (LNB) to always track the satellite An antenna vertical positioning mechanism having a bracket member and a weight body interposed between the rear surface of the antenna and a case to perform vertical positioning of the antenna; Provided is a position adjusting device for a satellite signal receiving antenna including an antenna horizontal position adjusting portion for electrically adjusting a horizontal direction of the antenna.

Preferably, the bracket member of the antenna vertical positioning mechanism comprises an inclined antenna coupling surface and a bracket body which is pivotally coupled to the front end of the case so that the antenna is coupled with a satellite orientation angle, The upper side is formed with a weight coupling hole for coupling the bracket pivot fixing hole and the weight body, the bracket pivot fixing hole is provided with a pivoting support rivet for supporting the bracket body to be pivoted in the case, and the central hollow portion of the pivot support rivet A coupling screw is installed therethrough, and the weight is screwed to the weight coupling hole.

In addition, the antenna horizontal position adjustment unit is coupled to the bottom of the case in the direction of the electric motor is fixedly coupled, the drive pulley installed to be exposed to the case while being coupled to the shaft of the electric motor, the drive pulley and the timing belt Driven pulley for interlocking by connecting the antenna coupled to the case in a horizontal direction, a bearing coupled to the outer periphery of the rotary fixed shaft protruding upward from the center of the driven pulley, bearing cover coupled to the bearing, The bearing is provided with a bearing detachment prevention member that is fastened on the rotation fixed shaft to prevent the bearing from being separated in the state coupled to the outer periphery of the rotation fixed shaft of the driven pulley.

The positioning device of the satellite signal receiving antenna according to the present invention is a bracket member having an antenna coupled to the satellite orientation angle is coupled to enable free rotation on both sides of the front end of the case, the lower side of the bracket member to the bracket member A weight body that acts to maintain the angle at which the combined antenna is always directed to the satellite is coupled so that the antenna tracks the satellite at all times by the weight of the weight body, and to a horizontal positioning control signal applied externally to the case. In addition, the electric motor is installed in the forward / reverse rotation and the drive pulley is coupled to the shaft of the motor, the driven pulley is coupled to the driven pulley fixed on the set-top box via a timing belt, for example A bearing, a bearing cover, and a bearing detachment preventing member are coupled to the rotating shaft, thereby rotating the electric motor. The case in which the antenna is coupled is rotated forward / backward so that the antenna rotates at an angle to the satellite in the horizontal direction.

1 is a schematic diagram of a satellite signal receiving antenna to which a positioning device according to a preferred embodiment of the present invention is applied;

2 is a view showing the structure of the antenna unit shown in FIG.

3 is an exploded perspective view illustrating the structure of the antenna vertical positioning mechanism shown in FIG. 1;

4A and 4B are exploded perspective views of the antenna horizontal position adjusting unit shown in FIG. 1;

FIG. 5 is a schematic side view illustrating an assembly state of a positioning device of a satellite signal receiving antenna including an antenna horizontal positioning unit shown in FIGS. 4A and 4B.

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

10: antenna portion, 10a: antenna,

10b: LNB, 20: antenna vertical positioning mechanism,

20a: bracket member, 26a, 26b: weight body,

30: case, 40: antenna horizontal positioning unit,

44: electric motor, 46: drive pulley,

48: driven pulley, 50: bearing,

52: bearing cover, 60: timing belt.

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

1 is a schematic diagram showing a satellite signal receiving antenna to which a position adjusting device according to a first embodiment of the present invention is applied.

In the drawing, reference numeral 10 denotes a flat antenna unit adapted to follow satellites at all times and receive satellite signals transmitted from the satellites.

Further, 20 denotes an antenna vertical positioning mechanism which is separately installed at both front ends of the case 30 of the corresponding satellite signal receiving antenna, so that the antenna unit 10 always directs the satellite in the vertical direction.

40 denotes an antenna horizontal position adjusting unit installed at the bottom of the case 30 to rotate the antenna unit 10 to follow the satellite in the horizontal direction.

Here, one side of the case 30 is provided with a tuner module (not shown) for applying the operating power of the LNB 10b and receiving an RF signal from the LNB 10b.

Referring to FIG. 2, the antenna unit 10 is integrally installed on the rear surface of the antenna main body 10a and the antenna main body 10a having a planar shape to receive satellite signals transmitted from satellites, and the antenna main body 10a. Low Noise Block-down Converter (LBN) 10b for low noise amplification and frequency down of the satellite signals from the antenna.

In this case, the LNB 10b usually has a low noise amplifier for low noise amplification in consideration of the weakening of the satellite signal received through the antenna 10a, and a signal passed through the low noise amplifier in the low noise amplifier by only a predetermined frequency band. And a mixer which performs a frequency down action by obtaining a difference signal from a frequency signal provided from the local oscillator in order to reduce the signal passing through the band pass filter to a predetermined frequency.

Referring to FIG. 3, the antenna vertical positioning mechanism 20 is provided with a bracket member 20a fixedly interposed between the antenna unit 10 and the case 30, and the bracket member 20a. ) Is an antenna coupling surface 20b having a predetermined inclination angle and a bracket body 20c fastened to the front of the case 30 so that the antenna 10 of the antenna unit 10 is coupled with an optimal satellite orientation angle. Will be done.

Preferably, a plurality of screw coupling holes 20d are formed in the antenna coupling surface 20b for fixing the antenna 10a of the antenna unit 10 by screws (not shown).

In addition, the bracket rotation fixing hole for coupling the bracket member 20a to the front end of the case 30 to the bracket body 20c of the bracket member 20a to enable free rotation (see an enlarged part of FIG. 1). 20e and a weight coupling hole 20f to which a weight body (Gimbal) to be described below is coupled so that the antenna unit 10 always directs the satellite to an optimal tracking angle.

That is, for the bracket rotation fixing hole 20e of the bracket body 20c of the bracket member 20a that is separately installed at both front sides of the case 30, the bracket body 20c is supported to be rotatable. The rotation support rivet 24 is inserted, and the coupling screw 22 penetrates through the central hollow portion of the rotation support rivet 24 so that each bracket body 20c is rotatably coupled to both front sides of the case 30. (See enlarged part of FIG. 1).

The weight coupling holes 20f formed in the bracket body 20c of the bracket member 20a, which are separately installed at both front sides of the case 30, have a plurality of weight bodies 26a and 26b on both sides thereof. Is provided, a screw through hole 26c is formed in the center of the weights 26a and 26b.

Accordingly, the nut 28b is made to pass through the weight coupling screw 28a through the screw through hole 26c of the weight bodies 26a and 26b and the weight coupling hole 20f of the bracket body 20c. The weights 26a and 26b are provided by fastening.

Here, according to the present invention, the weights 26a and 26b may be set such that the weights of the antennas 10a of the antenna unit 10 always point the satellites, and the number thereof may be provided in a single or multiple.

4A and 4B, the antenna horizontal position adjusting unit 40 includes an electric motor 44 fixedly coupled to face downward by a base bracket 42 provided on the bottom surface of the case 30. It is configured to include a drive pulley 46 installed to be coupled to the shaft 44a of the electric motor 44 so that the case 30 is exposed to the lower side.

In addition, the antenna horizontal position adjustment unit 40 is connected to the drive pulley 46 in conjunction with the rotation of the electric motor 44 by a timing belt (see 60 in Fig. 5) of the electric motor 44 A driven pulley 48 which is driven driven by rotation and rotates the case 30 to which the antenna unit 10 is coupled in the horizontal direction as a whole, and a rotation fixing upwardly protruded from the center of the driven pulley 48. A bearing 50 coupled to the outer periphery of the shaft 48, a bearing cover 52 covering the bearing 50 coupled to the outer periphery of the rotational fixed shaft 48 of the driven pulley 48, the bearing Bearing separation prevention is fastened on the rotation fixing shaft 48 to prevent the bearing 50 from being separated in the state in which 50 is coupled to the outer periphery of the rotation fixing shaft 48 of the driven pulley 48. The member 54 is also provided.

In FIG. 4B, reference numeral 56 denotes a connector having a plurality of wires for transmitting an RF signal received from the LNB 10b of the antenna unit 10 or a motor driving power source from the outside.

5 is a schematic side view of a state in which a positioning device for a satellite signal receiving antenna according to the present invention having the above-described configuration is assembled.

That is, referring to the drawings, the pivot support rivets 24 and the coupling screws 22 are pivotally installed at both front ends of the case 30 at the bracket pivot fixing holes 20e of the bracket member 20a. In addition, the weight bodies 26a and 26b are installed by the weight coupling screws 28a and the nuts 28b through the weight coupling holes 20f formed under the bracket member 20a.

In addition, the antenna 10a including the LNB module 10b is coupled to the antenna coupling surface 20b defined in front of the bracket member 20a.

In addition, a lower side of the bottom of the case 30 is provided in such a manner that the driving pulley 46 coupled to the shaft 44a of the electric motor 44 is exposed, and the timing belt 60 is provided for the driving pulley 46. The driven pulley 48 is connected through

Here, the driven pulley 48 is fixedly installed on the set top box 62 for satellite signal processing, and the bearing 50 or the bearing 50 shown in FIG. 4B on the rotation fixed shaft 48a of the driven pulley 48. Bearing cover 52 is assembled sequentially.

Therefore, according to the position adjusting device of the satellite signal receiving antenna according to the present invention, for example, even if the satellite signal processing set-top box 62 is displaced in a vertical direction (for example, a ship or a displacement due to the shaking of the vehicle), the bracket The member 20a is subjected to the weight of the weights 26a and 26b provided at the lower side thereof, and thus the support of the pivot support rivet 24 and the coupling screw 22 provided at the upper side of the bracket member 20a. As the bracket member 20a maintains a constant angle at all times even when the case 30 swings in the vertical direction, the antenna unit 10 installed at the front thereof maintains the angle toward the satellite at all times.

For example, when the set top box 62 deviates from the direction of the satellite in the horizontal direction, the control is based on the AGC level of the satellite signal received by the LNB module 10b similarly to the well-known horizontal position control process. When a rotation driving signal is applied to the electric motor 44 through the connector 56 from the means (not shown), the electric motor 44 rotates in the forward / reverse direction, and thus the electric motor 44 The drive pulley 46 coupled to the forward / reverse rotation.

Forward / reverse rotation of the drive pulley 46 is transmitted to the driven pulley 48 via the timing belt 60, and the driven pulley 48 is fixed on the fixed set top box 62. As a result, the rotational force acts on the case 30 with the support of the bearing 50 such that the case 30 is rotated forward / backward as a whole, and thus the rotation of the case 30 causes the The entire horizontal rotation of the antenna unit 10 is enabled, and the following of the satellite is achieved.

On the other hand, the present invention is not limited to the above examples and various changes and modifications can be made within the scope not departing from the technical gist and gist of the invention. For example, the weight may be formed in any shape as long as the antenna unit 10 maintains the angle of directing the satellite at all times.

As described above, according to the position adjusting device of the satellite signal receiving antenna according to the present invention, a weight body which is maintained by self-weight is provided on both sides of the front end of the case where the flat antenna is coupled so that the antenna is always in the vertical direction. In addition to tracking the horizontal positioning, satellite orientation characteristics can be secured to a high degree by allowing a well-known electric motor to be applied.

In addition, by adopting a weight body without the electric motor, the vertical positioning structure of the antenna is not only simplified in the vertical positioning structure of the antenna, but also the manufacturing cost can be reduced.

Claims (3)

A satellite signal receiving antenna including an antenna horizontal positioning unit for controlling a horizontal antenna to be always tracked by a flat-type antenna equipped with a low noise block-down converter (LNB), thereby allowing horizontal positioning to be adjusted by the rotational force of the electric motor. In the position adjusting device of The positioning device further includes an antenna vertical positioning mechanism including a bracket member and a weight body interposed between the rear of the antenna and the case, and the vertical position adjustment of the antenna by the weight body, And a bracket pivotal fixing hole to which the bracket body is pivoted to the case, and a weight coupling hole to which the weight is screwed to the bracket body. The satellite signal according to claim 1, wherein the bracket body and the case are coupled by a pivot support rivet inserted into the bracket pivot fixing hole and a coupling screw penetrated through a central hollow portion of the pivot support rivet. Receiving antenna positioning device. delete