KR100369926B1 - A Transportable Satellite Antenna Devices - Google Patents

Abstract

The present invention controls the control board of the satellite antenna to carry out the planar antenna to capture the satellite signal, to direct the satellite antenna in the direction of the satellite, even if there is no information on the azimuth direction to capture the position of the satellite effectively satellite signal It relates to a portable satellite antenna device characterized in that receiving.

The portable satellite antenna device of the present invention includes a flat antenna (2) for receiving satellite signals from satellites, and a satellite signal input from the flat antenna (2) attached to one side of the flat antenna (2) as an intermediate frequency satellite signal. An antenna unit 30 including an LNB 3 for converting; The plate antenna 2 is rotatably coupled to the rotating plate 1 and the through hole 18 formed at the center of the rotating plate 1 and connected to the LNB 3 through a coaxial cable 4b. A rotary part 31 including a rotary joint 13 to be formed; A body portion 6 coupled to a lower end of the rotating plate 1 to support rotation of the rotating plate 1; A function manipulation unit 32 installed on an outer circumferential surface of the body portion 6 to set an operation of the satellite antenna device; The drive motor 21 for rotating the worm gear unit 33 coupled to the rotating plate 1 through the drive shaft 16 and the strength of the intermediate frequency satellite signal transmitted from the rotary joint 13 are measured. Control board 20 to control the operation of the drive motor 21 so that the antenna unit 30 is directed to the position of the satellite to determine the location, and the power supply to the drive motor 21 and the control board 20 Internal operation unit 34 is provided with a charging battery 25 to supply, the intermediate frequency satellite signal output from the control board 20 of the internal operation unit 34 of the body portion 6 The broadcast signal output through the coaxial cable 4a connected to the F-type connector 8 to the set top box 9, and the broadcast signal output through the set top box 9 to the monitor 11 through the video connection line 17. It is characterized in that the output.

Description

Portable Satellite Antenna Devices

The present invention relates to a portable satellite antenna device, and more particularly, by controlling the control board of the satellite antenna to perform a planar antenna to capture the satellite signal, and to orient the satellite antenna in the direction of the satellite, the information about the azimuth direction The present invention relates to a portable satellite antenna device which is capable of efficiently receiving satellite signals by capturing the position of a satellite even if there is no signal.

In the conventional satellite antenna, an actuator is used to direct a fixed parabola antenna, but such a conventional satellite antenna captures the shadow of the sun to locate the satellite and manually installs the satellite antenna or receives a satellite broadcast receiver. Since it is installed using the strength of the raw signal, it is difficult to find the receiving point by matching the receiving direction of the satellite signal and the satellite antenna. In addition, since the mobility of the satellite antenna is inferior and complicated to install, it is difficult to receive a satellite signal at a necessary place.

The present invention is to solve the above problems, the object of the present invention is to widen the angular beam of the flat antenna, narrow the azimuth beam, and control the satellite antenna control board to capture the satellite signal In addition, the present invention provides a portable satellite antenna apparatus for receiving a satellite signal by directing the satellite antenna to find and direct the position of the satellite even without information on the azimuth direction.

The satellite antenna device of the present invention for achieving the above object is a flat panel antenna for receiving satellite signals from the satellite, and an LNB attached to one side of the flat plate antenna to convert the satellite signal input from the flat antenna into an intermediate frequency satellite signal An antenna unit comprising; A rotating part including a rotating plate to which the plate antenna is rotatably coupled and a rotary joint coupled to the through hole formed at the center of the rotating plate and connected to the LNB through a coaxial cable; A body part coupled to a lower end of the rotating plate to support rotation of the rotating plate; A function manipulation unit installed on an outer circumferential surface of the body portion to set an operation of the satellite antenna device; A drive motor for rotating the worm gear unit coupled to the rotating plate through a drive shaft, and a driving motor to determine the position of the satellite by measuring the strength of the intermediate frequency satellite signal transmitted from the rotary joint and direct the antenna to the identified satellite position. And an internal operation unit having a control board for controlling the operation of the battery, and a charging battery for supplying power to the drive motor and the control board. The intermediate frequency satellite signal output from the control board of the internal operation unit includes: The coaxial cable connected to the negative F-type connector is output to the set top box, and the broadcast signal output through the set top box is output to the monitor through the video connection line.

Here, the flat plate antenna is preferably one side is fixed to be rotatable combined with the rotating body formed on the upper edge of the rotating plate.

And, the function control unit is a power supply connector for supplying power supplied from the outside to the charging battery provided in the body portion, and a power jack for supplying the power charged in the charging battery to the set-top box and the monitor through the power connection line And a power switch configured to supply or cut off power supplied to the charging battery to the satellite antenna device, a satellite select switch for selecting a satellite reception frequency to receive a desired satellite signal from the satellite, and the antenna unit. And an F-type connector for transmitting the intermediate frequency satellite signal transmitted to the internal operation unit through the rotary joint to the set top box via the coaxial cable.

In addition, the worm gear portion of the inner operation portion comprises a worm gear coupled to the drive shaft of the drive motor in a linear axis, and a worm wheel gear coupled to the worm gear to rotate the rotating plate coupled to the upper by the drive of the drive shaft. desirable.

In addition, the control board of the internal operation unit is a power divider for distributing the intermediate frequency satellite signal transmitted from the rotary joint, and receives one AGC signal according to the strength of the signal received by the intermediate frequency satellite signal distributed by the power divider A central processing unit for determining the position of the satellite having the greatest strength of the satellite signal by judging the output tuner, the AGC signal output from the tuner, and a motor driver for driving the driving motor under control of the central processing unit; It is preferable to comprise a.

According to another aspect of the present invention, there is provided a planar antenna for receiving satellite signals from a satellite, and an LNB attached to one side of the planar antenna and converting a satellite signal input from the planar antenna into an intermediate frequency satellite signal. An antenna unit made of; A rotary part including a rotary plate coupled to the plate antenna and a spacer spaced at predetermined intervals, and a rotary joint coupled to the through hole formed at the center of the rotary plate and connected to the LNB through a coaxial cable; A body part coupled to a lower end of the rotating plate to support rotation of the rotating plate; A function manipulation unit installed on an outer circumferential surface of the body portion to set an operation of the satellite antenna device; A drive motor for rotating the worm gear unit coupled to the rotating plate through a drive shaft, and a driving motor to determine the position of the satellite by measuring the strength of the intermediate frequency satellite signal transmitted from the rotary joint and direct the antenna to the identified satellite position. It includes a control board for controlling the operation of the inner operating portion is provided with a charge battery for supplying power to the drive motor and the control board.

Other objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and the preferred embodiments associated with the accompanying drawings.

1 is a perspective view of a portable satellite antenna device according to an embodiment of the present invention,

2 is a cross-sectional view when the antenna is taken along the line A-A shown in FIG.

3 is a cross-sectional view when the antenna is folded along the line A-A shown in FIG.

4 is a cross-sectional view of a portable satellite antenna device according to another embodiment of the present invention;

5 is an internal plan view showing a body portion of the present invention;

6 is a block diagram showing a control board of the present invention;

7 is a flowchart illustrating a method of operating a portable satellite antenna according to an embodiment of the present invention.

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

1: rotating plate 2: plate antenna

3: LNB 4a: coaxial cable

4b: coaxial cable 5: rotating body

6: body portion 7: power switch

8: F-type connector 9: set top box

10: Video Cable 11: Monitor

12: Power Jack 13: Rotary Joint

14: power charging connector 15: satellite select switch

16: drive shaft 17: power line

18: through hole 19: fixture

20: control board 21: drive motor

22: Worm Gear 23: Worm Wheel Gear

24: fixing pin 25: charging battery

26: spacer 30: antenna portion

31: rotating part 32: function control

33: worm gear part 34: internal operation part

61: central processing unit 62: tuner

63: power divider 64: motor driver

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

1 is a perspective view of a portable satellite antenna device according to an embodiment of the present invention, Figure 2 is a cross-sectional view of the antenna in accordance with the line AA shown in Figure 1, Figure 3 is a line AA shown in Figure 1 This is a cross-sectional view when the antenna is folded.

1 to 3, the portable satellite antenna device according to the present invention includes an antenna unit 30 for receiving satellite signals, and a rotating unit 31 for rotating the antenna unit 30 in the direction of the satellite. And a body part 6 supporting the rotation of the rotary part 31, a function manipulation part 32 installed on an outer circumferential surface of the body part 6 to set an operation of the satellite antenna device, and the body part ( And an internal operation part 34 installed inside the control part 32 to control the rotation of the rotation part 31 according to the setting of the function operation part 32. The satellite signal received by the antenna part 30 is It is transmitted to the set-top box 9 and the monitor 11 for outputting via satellite broadcasting.

The antenna unit 30 is an intermediate frequency satellite signal for receiving a satellite signal from a satellite and a satellite signal input from the plate antenna 2 attached to the rear surface of the plate antenna 2. After conversion to the LNB (Low Noise Block Down Converter) 3 is transmitted to the rotating unit 31 through the coaxial cable (4b).

The rotating part 31 is composed of a circular rotating plate 1 which is rotated by the control of the inner operating part 34. A through hole 18 is formed at the center of the rotating plate 1, and the through hole 18 is formed. The rotary joint 13 is fixed to the). The coaxial cable 4b of the antenna unit 30 is connected to the rotary joint 13 coupled to the center of the rotating plate 1 so that the coaxial cable 4b connected to the rotary joint 13 even if the rotating plate 1 rotates. ) Is prevented from twisting. In addition, a rotating body 5 coupled to one side of the flat plate antenna 2 is formed at one side of the upper surface edge of the rotating plate 1, and the flat plate antenna 2 coupled to the rotating body 5 through a hinge or a screw. ) Can rotate up and down.

The body part 6 is coupled to the lower end of the rotating part 31 to support the rotation of the rotating part 31. The inner operating part 34 is provided inside the body part 6, and a function manipulation part 32 is provided on the outer circumferential surface thereof.

The function manipulation unit 32 includes a power supply connector 14 for supplying power supplied from the outside to the charging battery 25 provided in the body part 6, and the power charged in the charging battery 25. A power jack 12 for supplying the set-top box 9 and the monitor 11 through the power connection line 17 and the power charged in the charging battery 25 to each component of the satellite antenna device or cut off. A power switch 7 to be set, a satellite selection switch 15 for selecting a satellite reception frequency in order to receive a desired satellite signal from the satellite, and an internal operation unit through the rotary joint 13 from the antenna unit 30; And an F-type connector 8 for transmitting the intermediate frequency satellite signal transmitted to the set top box 9 through the coaxial cable 4a.

The internal operation unit 37 receives the intermediate frequency satellite signal transmitted to the rotary joint 13 through the coaxial cable 4b to determine the position of the satellite and accordingly determines the position of the satellite where the flat antenna 2 is identified. A control board 20 for controlling the rotation of the rotating plate 1 to direct the drive, a drive motor 21 driven by the control of the control board 20 to rotate the drive shaft 16, and the drive shaft 16 It comprises a worm gear 22 is coupled to the worm to rotate the rotating plate (1). The internal operation unit 37 operates by receiving power from the charging battery 25 by setting the power switch 7. The set top box 9 refers to a conventional satellite broadcasting receiver, and the internal operation is performed. After receiving the intermediate frequency satellite signal through the F-type connector 8 and the coaxial cable 4a from the control board 20 of the unit 34 and converting it into a broadcast signal, the monitor 11 is connected through the video connection line 10. ), Satellite broadcasting is displayed on the monitor 11. The set top box 9 and the monitor 11 operate by receiving power from the charging battery 25 provided in the body portion 6 through the power jack 12 and the power connection line 17. In the satellite antenna device, a fixing pin 24 is attached to the other side of the plate antenna 2 on which one side of the rotating body 5 of the rotating plate 1 is coupled, and a rotating plate having the rotating body 5 on one side thereof. The other side of the 1) is attached to the fixing pin 24 and the fixing body 19 is fixed so that the antenna unit 2 is fixed to the rotating part 31 when the satellite antenna is folded.

4 is a cross-sectional view of a portable satellite antenna device according to another embodiment of the present invention. As shown in FIG. 4, a spacer 26 protrudes a predetermined height on a lower surface of the plate antenna 2 and an upper surface of the rotating plate 1. ) Is attached and fixed. At this time, since the antenna unit 30 is fixedly coupled to the rotating unit 31 so that the beam of the plate antenna 2 is not directed in the elevation angle of the satellite, the antenna beam is tilted by tilting the beam of the plate antenna 2. Try to form a directed elevation.

5 is an internal plan view of the body part 6 according to the invention. As shown in Figure 5, the worm gear 22 is coupled to the drive shaft 16 of the drive motor 21, the worm gear 22 and the worm wheel gear 23 is coupled to the rotating plate (1) It is configured to rotate in engagement with each other. Accordingly, the worm wheel gear 23 rotates as the worm gear 22 is driven, and the antenna part is fixedly coupled to the rotor plate 1 while the rotor plate 1 rotates by the rotation of the worm wheel gear 23. 30 is rotated.

Figure 6 is a block diagram showing a control board according to the present invention. As shown in Figure 6, the control board 20 is a power divider for distributing the intermediate frequency satellite signal transmitted from the rotary joint 13 ( 63), a tuner 62 which receives one intermediate frequency satellite signal distributed by the power divider 63 and outputs an AGC (Automatic Gain Control) signal according to the signal strength, and the tuner A central processing unit 61 for grasping the position of the satellite by A / D conversion of the AGC signal output from the 62 and judging the strength of the AGC signal, and the driving motor 21 under the control of the central processing unit 61. It comprises a motor driver 64 for driving (). The central processing unit 61 sets a channel of a satellite reception frequency to be tracked in advance in the tuner 62 to receive a signal of a desired satellite. The other intermediate frequency satellite signal distributed by the power divider 63 is transmitted to the set-top box 9 through the F-type connector 8. A process of the control board 20 determining the position of the satellites When the power is first applied to the satellite antenna device, the central processing unit 20 drives the driving motor 21 to continuously transmit pulses so that the antenna unit 30 rotates 360 degrees in the azimuth direction. Is continuously measured and compared with the AGC signal strength of the intermediate frequency satellite signal transmitted, and the number of pulses at the point where the signal strength is the largest is memorized. The position of the satellite is determined by rotating and fixing the antenna unit 30 to the point where the stored signal strength is the greatest.

7 is a flowchart illustrating the overall operation of a portable satellite antenna according to an embodiment of the present invention.

As shown in FIG. 7, the power of the portable satellite antenna device is input and the desired satellite channel is selected by the satellite selection switch 15 to input the channel selection signal to the central processing unit 61 (S10). When the power is applied and the satellite channel is selected, the central processing unit 61 transmits a motor driving signal for rotating the initial antenna unit 360 degrees to the motor driver 64 (S20), and the LNB 3 The satellite signal input from the planar antenna 2 is converted into an intermediate frequency and input to the power divider 63 (S30).

At this time, the satellite signal of the power divider 63 is transmitted to the tuner 62 and the set-top box (9) (S40), the set-top box (9) converts the intermediate frequency satellite signal into video and audio signals to monitor ( 11), the tuner 62 outputs an AGC signal to the CPU 61. The central processing unit 61 compares the strength of the satellite signal transmitted from the tuner 62 and finds the position where the strength of the satellite signal is greatest while the antenna unit 30 rotates 360 degrees, and the antenna unit 30 ) Transmits a driving signal to the motor driver 64 to direct the position where the strength of the satellite signal is the largest, thereby driving the driving motor 21 (S50). By directing the antenna unit 30 to the identified position of the satellite signal is continuously received, the received satellite signal is displayed through the set-top box 9 and the monitor 11 it is possible to watch satellite broadcasting.

As described above, according to the portable satellite antenna device according to the present invention, by performing the planar antenna to be directed in the direction of the satellite, it is possible to obtain the effect of receiving the satellite signal without the information on the azimuth direction.

The portable satellite antenna device according to the present invention is to direct the satellite antenna in the direction of the satellite, has a feature that can be easily installed during the movement and efficiently derive accuracy and reliability.

Although the invention has been described in connection with the preferred embodiments mentioned above, other various modifications and variations may be made without departing from the spirit and scope of the invention. Accordingly, it is intended that the appended claims cover such modifications and variations as fall within the true scope of the invention.

Claims (6)

A portable satellite antenna device, A flat antenna (2) for receiving satellite signals from the satellites, and an LNB (3) attached to one side of the flat antenna (2) to convert satellite signals input from the flat antenna (2) into intermediate frequency satellite signals; An antenna unit 30; The plate antenna 2 is rotatably coupled to the rotating plate 1 and the through hole 18 formed at the center of the rotating plate 1 and connected to the LNB 3 through a coaxial cable 4b. A rotary part 31 including a rotary joint 13 to be formed; A body portion 6 coupled to a lower end of the rotating plate 1 to support rotation of the rotating plate 1; A function manipulation unit 32 installed on an outer circumferential surface of the body portion 6 to set an operation of the satellite antenna device; The drive motor 21 for rotating the worm gear unit 33 coupled to the rotating plate 1 through the drive shaft 16 and the strength of the intermediate frequency satellite signal transmitted from the rotary joint 13 are measured. Control board 20 to control the operation of the drive motor 21 so that the antenna unit 30 is directed to the position of the satellite to determine the location, and the power supply to the drive motor 21 and the control board 20 It includes a; the inner operating portion 34 is provided with a charging battery 25 to supply, The intermediate frequency satellite signal output from the control board 20 of the internal operation part 34 is transferred to the set top box 9 through the coaxial cable 4a connected to the F-type connector 8 of the body part 6. And a broadcast signal output through the set top box (9) to a monitor (11) through a video connection line (17). The method of claim 1, wherein the flat plate antenna 2 Portable satellite antenna device, characterized in that one side is fixed to be rotatable combined with the rotating body (5) formed on the upper edge of the rotating plate (1). The method of claim 1, wherein the function control unit 32 A power charging connector 14 for supplying power supplied from the outside to the charging battery 25 provided in the body part 6; A power jack 12 for supplying the power charged in the charging battery 25 to the set top box 9 and the monitor 9 through a power connection line 17; A power switch 7 configured to supply or cut off the power charged in the charging battery 25 to the satellite antenna device; A satellite selection switch 15 for selecting a satellite reception frequency to receive a desired satellite signal from the satellite; F-type connector 8 for transmitting the intermediate frequency satellite signal transmitted from the antenna unit 30 to the internal operation unit 34 via the rotary joint 13 to the set top box 9 via the coaxial cable 4a. Portable satellite antenna device characterized in that comprises a). The worm gear part 33 of claim 1, wherein the worm gear part 33 of the internal operation part 34 is The worm gear 22 coupled to the drive shaft 16 of the drive motor 21 in a linear axis, and the rotating plate 1 coupled to the worm gear 22 and coupled to the upper by the drive of the drive shaft 16 Portable satellite antenna device comprising a worm wheel gear 23 to rotate. A portable satellite antenna device, A flat antenna (2) for receiving satellite signals from the satellites, and an LNB (3) attached to one side of the flat antenna (2) to convert satellite signals input from the flat antenna (2) into intermediate frequency satellite signals; An antenna unit 30; The LNB (3) is coupled to and fixed to the rotating plate (1) spaced at predetermined intervals through the plate antenna (2) and the spacer 26 and the through hole (18) formed in the center of the rotating plate (1) And a rotary part 31 including a rotary joint 13 connected to the coaxial cable 4b. A body portion 6 coupled to a lower end of the rotating plate 1 to support rotation of the rotating plate 1; A function manipulation unit 32 installed on an outer circumferential surface of the body portion 6 to set an operation of the satellite antenna device; The drive motor 21 for rotating the worm gear unit 33 coupled to the rotating plate 1 through the drive shaft 16 and the strength of the intermediate frequency satellite signal transmitted from the rotary joint 13 are measured. Control board 20 to control the operation of the drive motor 21 so that the antenna unit 30 is directed to the position of the satellite to determine the location, and the power supply to the drive motor 21 and the control board 20 It includes a; the inner operating portion 34 is provided with a charging battery 25 to supply, The intermediate frequency satellite signal output from the control board 20 of the internal operation part 34 is transferred to the set top box 9 through the coaxial cable 4a connected to the F-type connector 8 of the body part 6. And a broadcast signal output through the set top box (9) to a monitor (11) through a video connection line (17). delete