KR102368652B1 - Radio Jamming Apparatus for Explosive Ordnance Disposal - Google Patents

Abstract

The present invention relates to a radio wave jamming apparatus for EOD, capable of enabling a quick maneuver by reducing the number of antennas through the frequency broadband conversion of an antenna radiating a jamming radio wave and enabling embedment in a storage bag through the application of an antenna of a low profile structure; and reducing energy consumption by radiating a jamming radio wave in an omnidirectional beam form from an antenna and obviating radio interference by an EOD body. The radio wave jamming apparatus includes: a storage bag (40) comprising a body (41) having a storage space of a predetermined size, and a cover member (42) having a storage space of a predetermined size and integrated with the body (41); an EOD body (10) generating and amplifying a jamming radio wave for jamming radio waves from the outside and stored in the body (41) of the storage bag (40); an antenna member (20) stored in the cover member (42) of the storage bag (40) to omnidirectionally radiate the jamming radio wave generated by the EOD body (10), and comprising at least one antenna formed in a low profile structure; and an embedded battery (30) stored in the body (41) of the storage bag (40) to supply electric power to the EOD body (10) and the antenna body (20) separately. In the cover member (42) of the storage bag (40), a shielding plate (43), in which a circuit is wired to obviate radio interference occurring between the antenna member (20) and the EOD body (10) as well as connect the antenna member (20) with the EOD body (10), is installed.

Description

Radio Jamming Apparatus for Explosive Ordnance Disposal

The present invention relates to a radio wave jamming device for EOD, and more particularly, by reducing the number of antennas through frequency broadening of an antenna emitting jamming waves and applying an antenna of a low-profile structure so that it can be embedded in a storage bag. It relates to a radio wave jamming device for EOD that enables maneuvering, radiates jamming waves in an omnidirectional beam shape from an antenna, and reduces energy consumption by excluding radio wave interference by the EOD body.

In general, a radio wave jamming device is a device that prevents normal communication by generating a signal similar to a radio signal used for communication. These jammers prevent normal communication such as R/C, mobile communication, wireless LAN, radar, GPS, and military satellite communications. It is used for the purpose of making it impossible to control externally using remote signals or mobile phones through radio wave jamming methods in preparation for terrorism using objects suspected of being

Explosives have the purpose of destroying facilities or killing people, so explosives disposal teams that have received specialized training perform tasks such as removal and dismantling of explosives. there is. However, in the process of handling explosives, there is a risk that explosives may be detonated by remote signals or mobile phones. to avoid explosions,

Specifically, recent explosives are operated wirelessly according to the development of wireless technology. Personal injury resulting in death may occur. Therefore, anti-terrorism units, commandos, etc. of each military are engaged in the removal work in a state that blocks external control radio waves by installing a radio wave jamming screen around the explosives removal.

A typical EOD jammer used at this time includes an antenna bag in which a plurality of omni antennas emitting jamming waves for each band are accommodated, and a jamming wave is generated and transmitted to the omni antenna, and the omni antenna is detachably coupled. It includes an EOD bag including an EOD body, and a battery for supplying power to the EOD body. Here, as the battery, an external battery configured separately from the EOD bag or a built-in battery installed inside the EOD bag may be used.

Therefore, when an EOD situation occurs, the EOD processing panel couples all of the plurality of omni antennas to the EOD body, and supplies power to the EOD body using a battery. causing disturbance.

This EOD radio jamming device ensures the safety of the commandos constituting the explosives disposal team, as well as neutralizes or removes explosives or explosives during military operations, thereby preventing accidents caused by explosives or suspected explosives in advance. In addition to preventing and protecting national institutions and national infrastructure from terrorism, it enables fast and safe mission execution from terrorism caused by explosives.

However, in the conventional EOD jamming device, the omni antenna is stored in the antenna bag in a state separated from the EOD body, so a plurality of omni antennas are coupled to the EOD body and the EOD body and the battery are connected. Not only does it take 7 to 10 minutes, but as a number of omni antennas are stored in the antenna bag, it is difficult to secure mobility as the antenna bag and EOD bag are moved separately when moving. .

In addition, due to the characteristics of the omni antenna, the radiation pattern is directed upward according to the frequency, so the radiation efficiency in the horizontal direction is lowered, and radio wave interference caused by the EOD body cannot be predicted. Since the interference cannot be predicted, there are other problems in that the radio wave transmission efficiency is lowered and the power consumption is large, so that the size of the battery is inevitably increased.

In addition, as a plurality of omni antennas are used, there is another problem in that a shape in which a radiation pattern of a stewed product EOD equipment is radiated evenly in all directions is not made.

Moreover, most of the omni antennas currently in use are imported products and have a problem that acts as a cause of foreign currency outflow.

On the other hand, as a result of investigating the prior art related to the present invention, a number of patent documents were searched, and some of them are introduced as follows.

Patent Document 1 discloses a plurality of antennas for transmitting and receiving signals of each set frequency band; A signal detector that detects whether a radio signal is received through any one of a plurality of antennas, a frequency measurer that measures the frequency of a radio signal received through the antenna detected by the signal detector, a voltage-controlled oscillator, and a set frequency band A noise generator generating a noise signal having different signal patterns, a modulation control unit controlling the voltage-controlled oscillator to oscillate a signal having a frequency of a radio signal measured by a frequency measuring instrument, and a noise signal corresponding to a frequency band of the radio signal a control unit including a noise control unit for controlling the noise generator to generate ; and a modulator that modulates the noise signal generated by the noise generator with the frequency of the signal generated by the voltage control oscillator to generate a radio disturbance signal and propagates the radio signal through the received antenna. Disclosed is a radio wave jamming device that generates a radio wave jamming signal in response to a frequency.

Patent Document 2 discloses a digital signal generator including a first generator and a second generator for generating and sweeping two CW signals in a selected IF band, and RF for upconverting a carrier signal in the IF band to a commercial frequency band. an amplifier for amplifying the RF output to a set power level; and an input unit to which a frequency band selected by a user is input, wherein the digital signal generator is configured to sweep the first CW signal and the second CW signal to the IF band by varying the step and sweep times of the CW tone from the input unit, respectively. Accordingly, a random noise device using a CW signal having high-efficiency disturbance performance corresponding to signals of various frequency bands is disclosed.

Patent Document 3, in a node device, but generates a jamming signal for a signal, the signal is a reception device intended to receive the signal from the base station (intended) and reception of the signal is unintended (unintended) reception which is transmitted to the device, a jamming signal generator; a beamforming vector determiner configured to determine a beamforming vector of the jamming signal in consideration of a received power level of the jamming signal in the intended receiving device; and a transmitter for transmitting a jamming signal based on the determined beamforming vector, wherein the jamming signal is transmitted to prevent the risk of eavesdropping by internal users sharing the same communication resource in a mobile communication network in which multiple users exist. An apparatus and method are disclosed.

KR 10-0887767 B1 KR 10-1516308 B1 KR 10-2014-0046969 A

The present invention has been devised to solve the problems of the prior art, and by reducing the number of antennas and applying a low-profile structure antenna through the frequency broadening of the antenna emitting jamming waves, it can be embedded in a storage bag. An object of the present invention is to provide a jamming device for EOD that enables rapid maneuvering.

In addition, the present invention enables the antenna of the antenna member to radiate jamming radio waves in an omnidirectional beam shape, and to reduce energy consumption and reduce the size of the built-in battery by excluding radio wave interference caused by the EOD body. Another object is to provide a disturbance device.

The present invention for achieving the above object, the storage bag comprising a body provided with a storage space of a predetermined size, a storage space provided with a storage space of a predetermined size and integrally coupled to the body; an EOD main body that generates and amplifies a disturbing electric wave for disturbing radio waves from the outside and is accommodated in the main body of the storage bag; an antenna member accommodated in the cover member of the storage bag to radiate the disturbance wave generated from the EOD body in all directions and comprising one or more antennas formed in a low-profile structure; Built-in batteries accommodated in the body of the storage bag to supply power to the EOD body and the antenna member, respectively, and the cover member of the storage bag excludes radio wave interference generated between the antenna member and the EOD body In addition, it is characterized in that a shielding plate for wiring a circuit connecting the antenna member and the EOD body is installed.

In addition, according to the radio wave jamming device for EOD of the present invention, the storage bag is characterized in that it is provided with a wheel for moving installed at the lower end of the main body, and a handle coupled to the main body to retract and retract.

In addition, according to the radio wave jamming device for EOD of the present invention, the shielding plate is characterized in that it is formed of an aluminum material.

In addition, according to the radio wave jamming device for EOD of the present invention, the antenna member has a circular top and a cone-shaped conductor at the bottom, and has a low-profile monocon structure connected to a circular grounding part with a line, The first antenna is installed in the center and radiates disturbance waves in the low-band frequency band of 20 to 300 MHz in all directions, and it is formed in a low-profile monocon structure and is disposed at the lower left and upper left ends of the first antenna, respectively, and 300 to 1000 A mono having a second antenna and a third antenna that radiate disturbance waves of high frequency bands of MHz and 1000 to 3000 MHz in all directions, a tapered vertical polarization radiation element on the upper part, and a horizontal polarization element on the lower part It is formed in a cone structure and is disposed on the upper right and lower right ends of the first antenna, respectively, and includes a fourth antenna and a fifth antenna that radiate disturbance waves of high frequency bands of 3000 to 5000 MHz and 5000 to 6000 MHz in all directions. characterized in that

In addition, according to the radio wave jamming device for EOD of the present invention, the first antenna is composed of an omni-directional antenna having a radiation gain exceeding -7 dBi and a voltage standing wave ratio of 2 or less, and the second antenna and the third antenna are It consists of an omni-directional antenna having a radiation gain exceeding -3 dBi and a voltage standing wave ratio of 2 or less, wherein the fourth and fifth antennas have a radiation gain exceeding 3 dBi and a voltage standing wave ratio of 2 or less. characterized in that it consists of

Further, according to the radio wave jamming device for EOD of the present invention, the first antenna is formed to have a diameter of 35 cm and a height of 15 cm, and the second antenna has a diameter of 20 cm and a height of 7 cm, and the The third antenna has a diameter of 12 cm and a height of 5 cm, and the fourth and fifth antennas have a diameter of 6 cm and a height of 5 cm.

In addition, according to the radio wave jamming device for EOD of the present invention, the second antenna, the third antenna, and the fourth antenna and the fifth antenna are disposed higher than the first antenna.

The radio wave jamming device for EOD of the present invention has a low profile antenna that emits jamming waves and is built into a storage bag together with the EOD body and the built-in battery, so it can be operated alone to secure mobility and to quickly respond in the event of an explosive terrorist attack. It has the effect of making it possible.

In addition, according to the radio wave jamming device for EOD of the present invention, the number of antennas is reduced by increasing the frequency band of the antenna, and the EOD body and the antenna part are completely separated to maintain the omnidirectional beam shape as much as possible, so that the omnidirectional radiation efficiency is improved. With the shielding plate, radio wave interference caused by the EOD body is excluded and the amplifier output is improved, the battery required capacity is reduced by more than 40%, so the size and weight of the built-in battery can be reduced, and the weight of the equipment is improved by more than 20%. It has the effect of making it easier to reduce weight and secure mobility.

Therefore, it is possible to secure the safety of the explosives disposal team at an early stage by significantly shortening the preparation time for operation, which takes more than 10 minutes in the existing EOD radio wave jamming device.

In addition, according to the radio wave jamming device for EOD of the present invention, since the plurality of antennas constituting the antenna member are formed in a low-profile monocon structure, there is an effect that they are stably accommodated in the cover member of the storage bag.

1 is a block diagram showing a radio wave jamming device for EOD according to the present invention.
Figure 2 is a reference diagram showing the state when moving the radio wave jamming device for EOD according to the present invention.
3 is a perspective view showing the antenna member of the radio wave jamming device for EOD according to the present invention.
Figure 4 is a front perspective view of the antenna member of the radio wave jamming device for EOD according to the present invention.
5 is a reference view showing the appearance of the first to third antennas of the EOD jamming device according to the present invention.
6 is a reference view showing the appearance of the fourth antenna and the fifth antenna of the EOD jamming device according to the present invention.
7 is a reference diagram showing a circuit constituting the antenna member of the radio wave jamming device for EOD according to the present invention.
8 is a block diagram showing the EOD main body and the battery of the EOD radio wave jamming device according to the present invention.
9 is a reference view showing a high-power amplifier constituting the EOD main body of the EOD radio wave jamming device according to the present invention.

Hereinafter, the radio wave jamming device for EOD of the present invention will be described with reference to the accompanying drawings.

The terms used in the present invention are terms defined in consideration of the functions in the present invention, which may vary depending on the intention or custom of the user or operator, so the definitions of these terms correspond to the technical matters of the present invention and should be interpreted as a concept.

In addition, the embodiments of the present invention do not limit the scope of the present invention, but are merely exemplary matters of the components presented in the claims of the present invention, and are included in the technical spirit throughout the specification of the present invention and the scope of the claims. It is an embodiment including a substitutable component as an equivalent in the component.

In addition, optional terms in the examples below are used to distinguish one component from other components, and the components are not limited by the terms.

Accordingly, in describing the present invention, detailed descriptions of related known technologies that may unnecessarily obscure the gist of the present invention will be omitted.

In order to explain a preferred embodiment of the present invention, FIG. 1 is a configuration diagram showing the EOD jamming device according to the present invention, and FIG. 2 is a reference diagram showing the state of moving the EOD jamming device according to the present invention. , FIG. 3 is a perspective view showing the antenna member of the EOD jamming device according to the present invention, and FIG. 4 is a front perspective view of the antenna member of the EOD jamming device according to the present invention. 5 is a reference view showing the appearance of the first to third antennas of the EOD jamming device according to the present invention, and FIG. 6 is the fourth antenna and the fifth antenna of the EOD jamming device according to the present invention. 7 is a reference diagram showing the circuit constituting the antenna member of the EOD jamming device according to the present invention, and FIG. 8 is the EOD body and battery of the EOD jamming device according to the present invention. is a block diagram, and FIG. 9 is a reference diagram showing the high-power amplification unit of the EOD main body of the EOD radio wave jamming device according to the present invention.

As shown in FIGS. 1 to 7, the EOD radio wave jamming device of the present invention includes a body 41 having a storage space of a certain size, a storage space of a certain size, and is integrally coupled to the body 41. a storage bag 40 made of a cover member 42 and; an EOD main body 10 that generates and amplifies a jamming radio wave for disturbing radio waves from the outside and is accommodated in the main body 41 of the storage bag 40; an antenna member 20 accommodated in the cover member 42 of the storage bag 40, radiating the disturbance wave generated from the EOD body 10 in all directions, and comprising one or more antennas formed in a low-profile structure; and a built-in battery 30 accommodated in the body 41 of the storage bag 40 to supply power to the EOD body 10 and the antenna member 20, respectively.

At this time, the cover member 42 of the storage bag 40 excludes radio wave interference generated between the antenna member 20 and the EOD body 10 and the antenna member 20 and the EOD body 10. A shielding plate 43 made of an aluminum material to which a circuit for connecting is wired is installed.

In addition, as shown in FIG. 2 , the storage bag 40 includes a wheel 44 for moving installed at the lower end of the main body 41 and a handle 45 coupled to the main body 41 to retract and retract. By doing so, it is preferable that one person hold the handle 45 and move it smoothly.

As shown in FIGS. 8 and 9, the EOD body 10 includes a pulse generator 11 that generates a disturbance wave to disturb an external radio signal, a broadband amplifier 12 that amplifies the generated disturbance wave, and and an antenna connector 13 connected to each antenna by a circuit so as to transmit the amplified jamming wave to the antenna member 20 .

The pulse generator 11 is a high-efficiency and high-speed radio wave disturbance signal generator using a field programmable gate array (FPGA), and generates signals of various prenatal bandwidths at high speed. For example, the pulse generator 11 is configured to enable frequency hopping control from a 2.4 GHz band to a narrowband channel of approximately 60 to 75 MHz. Accordingly, it simulates a jamming signal assuming a narrowband control channel, generates an efficient disturbance signal through the control level signal division of a wideband control signal, analyzes the turnaround time of the control control signal, It will be possible to generate a pulse spectrum using frequency modulation through a smart digital jamming source.

The wideband amplification unit 12 is capable of wideband amplification and is miniaturized, and as shown in FIG. 9 , it has a high-power amplification unit of 900 to 1000 MHz, 1100 to 1500 MHz, and 2400 to 2500 MHz, and has an output of 20W. have

And, as shown in FIGS. 3 to 6, the antenna member 20 has a circular top and a cone-shaped conductor at the bottom, and has a low-profile monocon structure connected to a circular grounding part with a line, and is shielded. The first antenna 21 is installed in the center of the plate 43 and radiates the jamming wave of the low-band frequency band of 20 to 300 MHz in all directions, and the first antenna 21 is formed in a low-profile monocon structure. The second antenna 22 and the third antenna 23 are disposed on the lower left and upper left, respectively, and radiate disturbance waves of high frequency bands of 300 to 1000 MHz and 1000 to 3000 MHz in all directions, and the upper part has a tapered shape. It is formed in a monocon structure with a vertically polarized radiation element of It consists of a fourth antenna 24 and a fifth antenna 25 radiating the jamming wave of the band in all directions.

Here, the first antenna 21 is formed to have a diameter of 35 cm and a height of 15 cm, and is composed of an omnidirectional antenna having a radiation gain exceeding -7 dBi and a voltage standing wave ratio of 2 or less. In addition, the second antenna 22 is formed with a diameter of 20 cm and a height of 7 cm, and is composed of an omni-directional antenna having a radiation gain exceeding -3 dBi and a voltage standing wave ratio of 2 or less. In addition, the third antenna 23 is formed with a diameter of 12 cm and a height of 5 cm, and has a radiation gain exceeding -3 dBi and a voltage standing wave ratio of 2 or less, similarly to the second antenna 22 . It consists of a directional antenna. In addition, the fourth antenna 24 and the fifth antenna 25 are formed with a diameter of 6 cm and a height of 5 cm, and are omni-directional antennas having a radiation gain exceeding 3 dBi and a voltage standing wave ratio of 2 or less. is done

In this case, the second antenna 22 , the third antenna 23 , and the fourth antenna 24 and the fifth antenna 25 are preferably disposed higher than the first antenna 21 .

Although the above has been described and illustrated in relation to several embodiments for illustrating the technical idea of the present invention, the present invention is not limited to the configuration and operation as described above, and the scope of the technical idea described in the description of the invention It will be apparent to those skilled in the art that many changes and modifications can be made to the present invention without departing from the scope of the present invention. Accordingly, all such suitable alterations and modifications and equivalents are to be considered as falling within the scope of the present invention.

10...EOD body
11...pulse generator
12...Broadband Amplifier
13....Antenna connection
20...Antenna part
21...first antenna
22...Second antenna
23...third antenna
24...4th antenna
25...5th antenna
30...Built-in battery
40...storage bag
41... the body
42...Lid member
43...shield
44...Moving wheels
45... handle

Claims (6)

a storage bag 40 comprising a body 41 having a storage space of a predetermined size and a cover member 42 integrally coupled to the body 41 and having a storage space of a predetermined size;
an EOD body 10 that generates and amplifies a jamming wave for disturbing radio waves from the outside and is accommodated in the main body 41 of the storage bag 40;
an antenna member 20 accommodated in the cover member 42 of the storage bag 40 to radiate the disturbance wave generated from the EOD body 10 in all directions, and comprising one or more antennas formed in a low-profile structure;
Including; and a built-in battery 30 accommodated in the body 41 of the storage bag 40 to supply power to the EOD body 10 and the antenna member 20, respectively,
The cover member 42 of the storage bag 40 excludes radio wave interference generated between the antenna member 20 and the EOD body 10 and connects the antenna member 20 and the EOD body 10 to each other. The shielding plate 43 to which the circuit is wired is installed,
The EOD body 10 includes a pulse generator 11 that generates a disturbance radio wave to disturb an external radio signal, a broadband amplifier 12 amplifies the generated disturbance radio wave, and the antenna member 20 ), including an antenna connection unit 13 connected to each antenna by a circuit,
The antenna member 20 is
The upper part is circular, and the lower part is made of a cone-shaped conductor, and has a low-profile monocon structure connected to a circular grounding part. A first antenna 21 comprising an omni-directional antenna that radiates a disturbance wave of
It is formed in a low-profile monocon structure and is disposed at the lower left and upper left ends of the first antenna 21, respectively, and radiates disturbance waves of high frequency bands of 300 to 1000 MHz and 1000 to 3000 MHz in all directions and exceeds -3 dBi A second antenna 22 and a third antenna 23 comprising an omnidirectional antenna having a radiation gain and a voltage standing wave ratio of 2 or less;
It is formed in a monocon structure having a tapered vertical polarization radiation element at the upper portion and a horizontal polarization element at the lower portion, and is disposed at the upper right and lower right ends of the first antenna 21, respectively, at 3000 to 5000 MHz and 5000 to 6000 MHz. A fourth antenna (24) and a fifth antenna (25) comprising an omnidirectional antenna that radiates a disturbance wave in a high frequency band of A radio wave jamming device for EOD, characterized in that.
According to claim 1,
The storage bag (40) is a radio wave jamming device for EOD, characterized in that it further includes a wheel (44) for movement installed at the lower end of the body (41) and a handle (45) coupled to the body (41) to be retractable. .
According to claim 1,
The shielding plate 43 is a radio wave jamming device for EOD, characterized in that it is formed of an aluminum material.
delete delete According to claim 1,
The radio wave jamming device for EOD, characterized in that the second antenna 22, the third antenna 23, and the fourth antenna 24 and the fifth antenna 25 are disposed higher than the first antenna 21.

Images