KR20040073713A - Omnidirectional receive type satellite antenna - Google Patents

Abstract

PURPOSE: An omnidirectional receive type satellite antenna is provided to reduce costs by permitting the antenna to receive satellite signals in all directions. CONSTITUTION: An omnidirectional receive type satellite antenna comprises a dome shaped support portion(50) having a hollow interior; and a plurality of patches(60) arranged at preset intervals on the outer surface of the dome shaped support portion, in such a manner that the satellite signals transmitted from a satellite are received in all directions. The support portion is formed into a semi-spherical shape having a convex upper side, and made of an insulating material for preventing interferences with the satellite signal received at the patches.

Description

Omnidirectional receive type satellite antenna}

The present invention relates to the structure of the omni-directional receiving satellite antenna, and in particular, because the device used to direct the satellite to the satellite so that the satellite signal transmitted from the satellite can be received in all directions because of this because The present invention relates to an omni-directional receiving satellite antenna structure in which cost is reduced.

In general, satellite antennas are installed so that the direction of the main beam always enhances the satellites during installation. In particular, a moving object such as a vehicle adjusts the direction of the satellite antenna according to the satellite signal received from the satellite so that the main beam can always face the satellite.

As shown in FIG. 1, the conventional first satellite antenna structure includes a rotary plate 21 rotated to the left and a right, a drive motor 13 to drive the rotary plate 21, and the rotary plate 12. And a control unit (not shown) for controlling the driving motor according to the satellite signal received from the satellite and the planar antenna 11 installed above.

Here, the planar antenna 11 is formed such that the main beam has an oblique beam pattern, and the control unit drives the driving motor 13 according to the satellite signal received from the satellite, so that the rotating plate 12 is left and right. When rotated, the planar antenna 11 always faces the satellite.

However, the conventional first satellite antenna structure configured as described above has a low overall height because the planar antenna 11 is installed in parallel on the rotating plate 12, but the planar antenna 11 has an inclined beam pattern. Therefore, the antenna gain is low, and because of having a large side beam, there is a problem that it is vulnerable to the ambient interference.

As shown in FIG. 2, the second satellite antenna structure according to the related art for solving the above problems is located in a hemispherical dome and receives an antenna unit 20 for receiving satellite signals from the satellite, and the antenna A satellite position tracking unit (not shown) for identifying the position of the satellite through the satellite signal received from the unit 20 and generating and outputting a satellite tracking signal, and according to the satellite tracking signal output to the satellite position tracking unit. It is configured to include a rotating unit 30 for rotating the antenna unit 20.

Here, the rotation unit 30 receives a motor driving signal from the satellite position tracking unit driving motor 32 for driving the pulley 31 coupled with the drive shaft, and the driving motor 32 is coupled to the upper surface The rotating force generated by driving the rotating body 33 to which the antenna unit 20 coupled to a predetermined angle and the pulley 31 coupled to the driving motor 32 is transmitted through the timing belt 34. It consists of a fixed pulley 35 to receive and transfer to the rotating body (33).

However, the structure of the conventional second satellite antenna structure as described above is fixedly installed through the bracket, which is fixed in a flat horizontal area such as a vehicle. Not only does it work properly, but the antenna unit 20 is fixed in a state of maintaining a predetermined angle, when moving the inclined place, the antenna unit 20 is further inclined by the inclined angle effect of the ambient interference There is a problem that the satellite signal is not properly received by.

In addition, the first and second satellite antenna structure according to the prior art as described above is a satellite tracking that is used to move the planar antenna 11 and antenna unit 20 toward the satellite in accordance with the satellite signal. There is a problem that not only the configuration is complicated by the apparatus for the purpose, but also the cost accordingly.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems of the prior art, and its object is to enable the antenna to receive satellite signals in all directions so that devices for moving the antenna towards the satellite are not used. Accordingly, the present invention provides a omni-directional receiving satellite antenna structure that can reduce cost and improve price competitiveness.

1 is a view showing a structure of a first satellite antenna according to the prior art;

2 is a view showing a structure of a second satellite antenna according to the prior art;

3 is a plan view showing the omni-directional receiving satellite antenna structure according to the present invention;

4 is a side view showing the omni-directional receiving satellite antenna structure according to the present invention;

5 is a cross-sectional view taken along the line A-A of FIG.

<Explanation of symbols on main parts of the drawings>

50: support 60: patch

The omni-directional reception satellite antenna structure according to the present invention for solving the above problems is a satellite signal transmitted from the satellite is formed at a predetermined interval over the entire dome-shaped support portion and the entire area of the outer surface of the support portion It is configured to include a plurality of patches to be received for all directions.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. For reference, the embodiments disclosed herein are only presented by selecting the most preferred embodiment in order to help those skilled in the art from the various possible examples, the technical spirit of the present invention is necessarily limited or limited only by this embodiment It is not to be understood that various modifications and changes can be made without departing from the spirit of the present invention, as well as other equivalent embodiments.

3 and 5, the omni-directional reception satellite antenna structure according to the present invention has a hemispherical shape with a convex upper side and an empty dome-shaped support part 50 and an inner surface of the support part 50. It is formed with a plurality of patches (60) formed at intervals to enable the reception of satellite signals in all directions.

Here, the support unit 50 is fixed to the roof panel of the vehicle by a bracket or the like when installed on a moving object such as a vehicle.

In addition, the support part 50 is made of an insulating material, and when the satellite signal is received by the plurality of patches 60 formed on the outer surface of the support part 50, interference is caused to the received satellite signal by the support part 50. It is possible to prevent the occurrence in advance.

A plurality of patches 60 formed on the outer surface of the support 50 is formed with a size and interval set in the entire area of the outer surface of the support 50 so that the satellite signal can be received in all directions.

Here, the satellite signal is divided into a horizontal polarization and a vertical polarization according to the propagation type, wherein the horizontal polarization means a radio wave emitted from a vertical antenna with a propagation plane in which the polarization plane is perpendicular to the earth. Therefore, in the case of receiving the vertical polarization, the antenna must be vertical to receive the vertical polarization.

The horizontally polarized wave is an electromagnetic wave whose polarization plane is constant and is directed in the horizontal direction. Therefore, when receiving the radio wave of the horizontal polarization, the element of the antenna should be horizontal.

Therefore, since the plurality of patches 60 are formed in the size and the interval set in the entire area of the outer surface of the support 50, it is possible to receive both the horizontal polarization and vertical polarization, so that a device for satellite tracking is used separately. Since the cost can be reduced because of this, as well as a mobile body such as a vehicle, it is possible to use not only the ground stationary and personal portable type, but also its application range can be expanded.

On the other hand, when the wavelength of the satellite signal received by the plurality of patches 60 is λ, each of the patches 60 is made of a square having a side length of λ / 2, λ / 4 and the like, The interval between the patches 60 is also made of lambda / 2, lambda / 4.

Here, although the shape of the plurality of patches 60 is made of a square, the shape of the plurality of patches 60 can be changed according to the use and needs, the size and spacing of the plurality of patches 60 also uses and needs According to the size of the support unit 50 can be changed according to the number of the plurality of patches (60).

The omnidirectional receiving satellite antenna structure according to the present invention configured as described above has a horizontally polarized wave received from the satellite by forming a dome-shaped support portion having a hollow inside and a plurality of patches having a size and a distance set on an outer surface of the support portion. Since all vertical polarizations can be received, the location tracking device used to direct the antenna to the satellite becomes unnecessary, thereby reducing the cost.

In addition, since the horizontal polarization and the vertical polarization can be received, not only a moving object such as a vehicle, but also can be used as a ground fixed type and a personal portable type, so that the application range can be expanded.

Claims (3)

Dome-shaped support part with empty inside, And a plurality of patches formed at a predetermined interval on an outer surface of the support to allow satellite signals transmitted from the satellites to be received in all directions. The method of claim 1, The support portion is formed in a hemispherical convex upwards, Omni-directional receiving satellite antenna structure, characterized in that the insulating material is made to prevent the interference with the satellite signal received by the patch. The method of claim 2, The patch is formed in a square, the omni-directional reception satellite antenna structure, characterized in that the length of each side is made of λ / 2, λ / 4, etc. when the wavelength of the satellite signal is λ.