KR101880618B1 - A Light Bar with a radio wave interrupter - Google Patents

Abstract

The present invention relates to a light guide bar with a radio wave interrupter and, more particularly, to a light guide bar with a radio wave interrupter, which is composed of a lighting unit (10) including an antenna (12) on which an LED light source (11) is mounted and a handle part (20) in which a signal generating unit (21) and a battery unit (22) for driving the lighting unit (10) are embedded, thereby increasing practicality to be easily used while being moved.

Description

A light bar with a radio wave interrupter,

[0001] The present invention relates to a light guide bar having a radio wave interrupter, and more particularly, to a light guide bar having a radio frequency interrupter, The present invention relates to a light guide rod provided with an LED that emits a signal of a radio frequency band to which a wireless signal is transmitted and received and which has an electromagnetic wave interrupter capable of generating a signal by emitting light to the outside or disturbing the operation of an unauthorized unmanned air vehicle will be.

Generally, the remote control of UAV (Unmanned Aerial Vehicle) is divided into visible distance communication, visual relay communication, ground relay communication, and non-visible communication method using GPS automatic navigation method. Here, the nonvisible distance communication improves the cruising distance of the UAV to several hundred km.

These unmanned aerial vehicles are also called 'drones', and can be piloted remotely from the ground without piloting directly to the air vehicle, or auto-piloted or semi- auto-piloted), and recently, artificial intelligence has been developed into a flight vehicle that performs mission according to its own environment judgment.

Particularly, in the case of the above-mentioned drone, it is difficult to detect by the radar device because the value of the RCS (Radar Cross Section) of the aircraft is very small, and when it is painted similar to the surrounding environment, it can not be discriminated by optical image and naked eye, A variety of jammers have been proposed.

Korean Patent Laid-Open Publication No. 10-2015-0115364 (October 14, 2015) discloses a smart jammer device for air defense.

The prior art smart jammer device for air defense includes an RF up converter, a HPA (High Power Amplifier), a circulator capable of separating transmission and reception signals, an LNA (Low Noise Amplifier) unit and a TRM (Transmitter & And a transmission / reception antenna for transmitting / receiving the transmission / reception signal,

The TRM is designed as a plug-in type that can be selectively inserted / detached according to a frequency detection band.

However, the above-mentioned prior art can prevent security and terrorism of a main building by installing a smart jammer device on the roof of a main building and radiating a jamming signal with a directional antenna, There has been a problem that additional equipment must be added and operated during protection or movement.

In addition, the jammer apparatus according to the related art is operated to generate disturbance signals of all the frequency bands in one place, so that it takes a lot of cost in the initial installation and consumes a lot of power in operation.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the related art as described above, and it is an object of the present invention to provide a light- A light interrupter having a logarithmic periodic antenna for radiating a disturbance signal of a predetermined frequency band in a sweep manner so that the light interrupter can be used as a light interrupter.

In order to accomplish the above object, a light guide rod provided with a radio wave interrupter according to the present invention is a light guide rod having a built-in LED light source which emits light of a bright luminance so as to generate a readily recognizable reception signal around the LED light source, And an antenna for emitting an interference signal to the outside; And a grip portion extending outward from one end of the illumination portion,

The handgrip includes a signal generator for generating and transmitting the disturbance signal to the antenna and a battery for supplying power to drive the signal generator.

Wherein the signal generator comprises: a first phase oscillator for generating a disturbance signal corresponding to a frequency band of GPS and GLONASS signals; and a first amplifier for amplifying and outputting the disturbance signal generated by the first phase oscillator; A control disturbance stage consisting of a second phase oscillation section for generating a disturbance signal corresponding to a frequency band used by the controller of the UAV and a second amplification section for amplifying and outputting the disturbance signal generated by the second phase oscillation section; And a coupler for coupling the automatic navigation disturbance stage and the disturbance signal output from the control disturbance stage to the illumination unit.

And a phase difference detector that detects a phase difference between the reference frequency and a phase frequency and outputs the detected phase difference, wherein the first phase oscillator includes: a reference frequency generator for generating a reference frequency; A loop filter for receiving the output signal of the phase frequency comparator and outputting a voltage; a voltage controlled oscillator for generating an output signal having a predetermined frequency according to a voltage applied from the loop filter and delivering the output signal to the first amplifying unit; And a divider dividing the output signal output from the voltage-controlled oscillator and feeding back the output signal to the phase frequency comparator.

The antenna is provided with an algebraic periodic antenna so that the frequency band of the disturbing signal radiated to the outside has a wide band characteristic, the logarithmic periodic antenna is made of a PCB type, and a circuit is formed in the antenna to supply power to the LED light source .

The second phase oscillation unit has the same configuration as the first phase oscillation unit, and sweeps an output frequency of 2.4 GHz to 2.5 GHz input to the second amplification unit.

As described above, the light guide bar provided with the radio wave interrupter according to the present invention has the following effects.

Firstly, since a radio wave interrupter is provided in a light guide rod having an LED light source, the radio wave interrupter is not directly exposed to the outside,

Second, since the disturbance signal generated by the radio wave interrupter is provided with an automatic navigation disturbance stage covering the GPS and GLONASS signal bands and a control disturbance stage covering the 2.4 GHz band, which is mainly used by the controller of the drones, It is possible to generate and block the radio disturbance frequency,

Thirdly, since the antennas radiating the radio disturbance frequency are provided as logarithmic periodic antennas and are provided in the PCB type, it is possible to cover a wide frequency band,

Fourth, the automatic navigation disturbance stage and the control disturbance stage are used to sweep the specific frequency band interval, thereby preventing the propagation of the signal.

1 is a configuration diagram of a smart jammer according to the prior art,
2 is a perspective view of a light guide bar provided with a radio wave interrupter according to the present invention,
3 is a cross-sectional view illustrating the inside of the light guide rod according to the present invention,
4 is a block diagram of a signal generator according to the present invention,
5 is a block diagram illustrating a configuration of a phase oscillator according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an embodiment of a light guide bar provided with a radio wave interrupter according to the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIGS. 2 to 3, the light guide rod having the electromagnetic wave interrupter according to the present invention is a light guide rod having an LED light source 11 that emits light of a bright luminance so as to generate a readily recognizable reception signal around the LED An illumination unit 10 having a light source 11 and an antenna 12 on which the LED light source 11 is mounted and which radiates an interference signal to the outside; And a handle 20 extending outward from one end of the illumination unit 10,

The handgrip 20 is provided with a signal generator 21 for generating and transmitting the disturbance signal to the antenna 12 and a battery 22 for supplying power to drive the signal generator 21 do.

The signal generating unit 21 applies a voltage to a core wire (not shown) of the antenna 12 to radiate a high frequency signal to the outside. As shown in FIG. 2, a switch S for turning on / off the power supply of the signal generating unit 21 is provided outside the handle 20.

4 and 5, the signal generator 21 includes a first phase oscillator 25a for generating a disturbance signal corresponding to a frequency band of GPS and GLONASS signals, An automatic navigation disturbance stage 25 including a first amplification unit 25b for amplifying and outputting the disturbance signal generated by the automatic navigation disturbance unit 25a; A second phase oscillator 26a for generating a disturbance signal corresponding to a frequency band used by a controller of the unmanned airplane (drone), a second amplifier 26a for amplifying and outputting the disturbance signal generated by the second phase oscillator 26a, A control disturbance stage 26 made up of a part 26b; And a coupling unit 27 for coupling the automatic navigation disturbance stage 25 and the disturbance signal outputted from the control disturbance stage 26 to the illumination unit 10.

Here, the automatic navigation disturbance stage 25 generates a disturbance signal in the 1.5 GHz band (1.5 to 1.61 GHz) and supplies it to the antenna 12. In the control disturbance stage 26, The disturbance signal of 2.4 GHz to 2.5 GHz band is supplied.

The first phase oscillating unit 25a includes a reference frequency generating unit 251 for generating a reference frequency, a phase varying potentiometer 252 for outputting a phase frequency corresponding to the phase difference with respect to the reference frequency, A loop filter 254 for receiving the output signal of the phase frequency comparator 253 and outputting a voltage, and a phase comparator 253 for outputting the phase difference signal from the loop filter 254 A voltage controlled oscillator 255 for generating an output signal having a predetermined frequency according to the applied voltage and transmitting the generated output signal to the first amplifying unit 25b; And a frequency divider 256 for feedback-outputting the output signal to the filter 253.

The phase frequency comparator 252 detects the phase difference between the signals output from the first reference frequency generator 251 and the phase variable valve 252 and outputs the output of the voltage controlled oscillator 255 in the frequency divider 256 And supplies the signal to the phase frequency comparator 252. The signal output from the phase frequency comparator 252 is varied to generate a high frequency signal sweeping a predetermined frequency band.

The antenna 12 is provided with an algebraic periodic antenna 12 'so that a frequency band of an interference signal radiated to the outside has a broadband characteristic, the logarithmic periodic antenna 12' is made of a PCB type, A circuit is formed in the antenna 12 so as to supply power to the LED light source 11. That is, the LED light source 11 emits light according to an interference signal supplied to the antenna 12.

As described above, the second phase oscillating unit 26a has the same configuration as the first phase oscillating unit 26a. The second phase oscillating unit 26a has an output frequency of 2.4 GHz to 2.5 GHz By sweeping the band, it is possible to generate and emit a disturbing signal that interferes with the control of the satellite controlled drones and the drones controlled by the controls.

The operation of the light guide rod having the electromagnetic wave interrupter according to the present invention constructed as above is as follows.

2 to 5, the light guide rod according to the present invention includes the signal generating unit 21 and the battery unit 22 inside the handle 20 and the antenna is provided in the illumination unit 10, And functions as a radio wave interrupter.

The power source of the battery unit 22 is supplied to the signal generating unit 21 and the signal generating unit 21 generates a signal of the frequency of the GPS signal and the GLONASS signal, The frequency of the 2.4 GHz band, which is used mainly by the bands and controllers of the drone, is provided in a sweep manner. At this time, the power supplied to the signal generating unit 21 supplies power to the LED light source 11 seated on the outer periphery of the antenna 12, so that the LED light source 11 emits light and lights the outside.

Here, the signal generator 21 oscillates to generate a sweep frequency corresponding to the frequency band of the GPS signal and the GLONASS signal in the first phase oscillator 25a. In the second phase oscillator 26a, And generates a disturbance signal corresponding to the frequency band in which the signal is generated.

The frequency signals oscillated by the first and second phase oscillating units 25a and 26a are amplified by the first and second amplifying units 25b and 26b and applied to the combining unit 27, The coupling unit 27 couples the signals input from the first amplification unit 25b and the second amplification unit 26b and supplies them to the core of the antenna 12 through one output port, .

More specifically, the reference frequency generator 251 and the phase-shifter 252 convert the reference frequency and the phase frequency of the first phase oscillator 25a into the first phase oscillator 25a and the second phase oscillator 25b, respectively, The phase difference comparator 253 detects the phase difference between the reference frequency and the phase frequency. The detected phase difference is output as a voltage from the loop filter 254, The voltage controlled oscillator 255 generates an output frequency according to the applied voltage and supplies the generated output frequency to the first amplifying unit 25b and the second amplifying unit 26b do. At this time, if there is no phase difference, the loop filter 254 outputs a fixed voltage so that the voltage controlled oscillator 255 generates a disturbance signal having a constant output frequency.

The frequency divider 256 divides the output signal of the voltage-controlled oscillator 255 into 1/100, 1/200, 1/250, and the like to the phase frequency comparator 253, Is supplied through the voltage controlled oscillator (255).

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

Description of the Related Art
10: illumination part 11: LED light source
12: antenna 12 ': logarithmic periodic antenna
20: handle 21: signal generator
22: Battery compartment 25: Automatic navigation disturbance stage
25a: first phase oscillation section 25b: first amplification section
26: Control disturbance stage 26a: Second phase oscillation section
26b: second amplification unit 27:
251: Reference frequency generator 252: Phase-
253: Phase frequency comparator 254: Loop filter
255: voltage controlled oscillator 256: frequency divider
S: Switch

Claims (5)

In a light guide rod incorporating an LED light source (11) which emits light of a bright luminance so as to generate a recognizable reception signal around the periphery,
An illumination unit 10 having the LED light source 11 and an antenna 12 on which the LED light source 11 is mounted and radiating an interference signal to the outside; And a handle 20 extending outward from one end of the illumination unit 10,
The handgrip 20 is provided with a signal generator 21 for generating and transmitting the disturbance signal to the antenna 12 and a battery 22 for supplying power to drive the signal generator 21 Wherein the electric wave interrupter is provided with a light interrupter. The method according to claim 1,
The signal generating unit 21
A first phase oscillator 25a for generating a disturbance signal corresponding to the frequency band of the GPS and GLONASS signals and a first amplifier 25b for amplifying and outputting the disturbance signal generated by the first phase oscillator 25a An automatic navigation disturbance stage (25);
A second phase generator 26a for generating an interference signal corresponding to a frequency band used by the controller of the UAV and a second amplifier 26b for amplifying and outputting the interference signal generated by the second phase oscillator 26a (26);
And a coupling part (27) for coupling the automatic navigation disturbance stage (25) and the disturbance signal outputted from the control disturbance stage (26) to the illumination part (10). 3. The method of claim 2,
The first phase oscillating unit 25a
A phase shift potentiometer 252 for outputting a phase frequency corresponding to a phase difference between the reference frequency and the reference frequency, a phase detector 260 for detecting and outputting a phase difference between the reference frequency and the phase frequency, A frequency comparator 253, a loop filter 254 for receiving the output signal of the phase frequency comparator 253 and outputting a voltage, and a comparator 258 for generating an output signal having a predetermined frequency according to the voltage applied from the loop filter 254 A voltage controlled oscillator 255 for transmitting the output signal from the voltage controlled oscillator 255 to the first amplification unit 25b and a frequency divider 256 for outputting the output signal to the phase frequency comparator 253 The light interrupter of claim 1, The method according to claim 1,
The antenna 12 is provided as an algebraic periodic antenna 12 'so that the frequency band of an interference signal radiated to the outside has a broadband characteristic,
The logarithmic periodic antenna 12 'is made of a PCB type,
Wherein the antenna (12) is provided with a circuit for supplying power to the LED light source (11). 3. The method of claim 2,
The second phase oscillating unit 26a
The first phase oscillator 25a has the same configuration as the first phase oscillator 25a,
And the output frequency inputted to the second amplifying unit (26b) sweeps a band of 2.4 GHz to 2.5 GHz.

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