RU2110036C1 - Radio fuze blocking device - Google Patents

Abstract

FIELD: means used for fighting mines and other explosive objects having radio fuzes, intended for blocking (suppressing) control signals of radio fuze receiving devices. SUBSTANCE: radio fuze blocking device has a radiated signal generating unit, using two or more channels with non-coinciding emission bands, power amplifiers, radiating antennas of each channel and a power unit. The channel antennas are made in the form of spatial conductors located on a surface enveloping the radiated signal generating unit, power amplifiers and the power unit. The channel antennas may be made as flat current conducting plates positioned on lateral faces of a parallelepiped. EFFECT: enhanced efficiency of suppression of radio fuze receiving devices reduced probability of antenna damage in service of transmitters. 4 cl, 1 dwg

Description

 The invention relates to means of combating mines and other explosive objects (GP) with radio fuses, and is intended to block (suppress) control signals of receiving devices of radio fuses.

 Known broadband jammers that can be used to prevent the operation of radio fuses by emitting broadband noise that overlaps the frequency of the control signals of the receiver of the radio fuse, and containing a signal generation unit such as "white noise", a power amplifier, a power supply unit and a radiating pin type antenna, for example [ one].

 The disadvantage of such transmitters is the low efficiency of suppressing the receivers of radio fuses, due to the low interference power reduced to a single segment of the frequency band, the unevenness of the electrical components of the radiation of the pin antennas in the vertical and horizontal planes, and, as a result, the limited area of the zone of suppression by the transmitter of the interference of the receiver of fuses , as well as a high probability of damage to the antennas during the operation of the transmitters.

 Known interference transmitter containing a signal generation unit of type "white noise", a narrowing of the emission band, a power amplifier, a power supply and a radiating antenna, and providing, if necessary, an increase in the interference power in the selected frequency band due to its narrowing [2] (prototype).

 The disadvantage of such an interference transmitter is the low suppression efficiency of radio fuse receivers, caused either by a low interference power when emitting a white noise signal with irregularities in the vertical and horizontal plane, or by the need for prior knowledge of the frequency of the control signal, which in practice is possible only in rare cases , as well as a high probability of damage to the antennas during the operation of the transmitters.

 The objective of the present invention is to increase the suppression efficiency of receiving devices of radio fuses and reduce the likelihood of damage to the antennas during operation of the transmitters.

 The problem is solved in that in a device for blocking radio fuses containing a block for generating a radiated signal, power amplifiers, a radiating antenna and a power supply unit, a block for generating a radiated signal is divided into two or more channels with non-coincident emission bands, each of which is equipped with its own radiating antenna, wherein the channel antennas are made in the form of spatial conductors placed on a surface covering the block for generating the emitted signal, power amplifiers and the block nutrition. Channel antennas can be made in the form of flat conductive plates placed on the side faces of the parallelepiped covering the block for generating the emitted signal, power amplifiers and a power supply, for example, of foil textolite or getinax in the form of a sequence of horizontal, vertical and inclined ribbon type conductors, total length which is 0.1 - 0.25 averaged over the wavelength range of the radiation. In addition, the channel antenna of the decameter radiation band can be provided with an inductive load included in the gap of the conductors, made in the form of several inductors with ferrite open cores.

 The analysis of the proposed device showed that increasing the suppression efficiency of the receiving devices of the radio fuses and reducing the likelihood of damage to the antennas during the operation of the transmitters provide by dividing the emitted signal generating unit into two or more channels with mismatched signal emission bands, each of which is equipped with its own emitting antenna, and the implementation of the antenna channels in the form of spatial conductors placed on the surface covering the block forming the rad hoped-for signal, power amplifiers and power supply. Dividing the unit for generating the emitted signal into several channels, in each of which the values of the lower and upper limits of the emission band differ, as a rule, no more than 2 - 2.5 times, which can significantly improve the matching of the output stages of the power amplifier with the antenna and, accordingly , increase the efficiency of the antenna. Antennas in the form of spatial conductors containing horizontal, vertical and inclined sections allow solving the problem of unevenness of the electric component of electromagnetic radiation in various planes. Placing the antennas in the form of spatial conductors on a surface that covers the unit for generating the emitted signal, power amplifiers, and the power supply allows avoiding shielding of the antenna radiation by these elements and provides an almost circular radiation pattern.

 The drawing shows a diagram of a device for blocking radio fuses with two radiation channels with a scan on the plane of projections of the antennas.

 A device for blocking radio fuses contains a block for generating a radiated signal 1, which consists of two independent channels 2.3 with non-coincident emission bands (for example, 20-40 MHz and 120-240 MHz with a 3 W signal supplied to each antenna), power amplifiers 4, 5; radiating antennas 6.7 for each channel 2.3 and power supply 8. Antennas 6.7 are made, for example, of foil textolite or getinax in the form of a sequence of horizontal, vertical and inclined conductors 9 tape type, the total length of which is 0.1 - 0.25 averaged over the radiation wavelength range. The use of a decameter radiation band (20 - 40 MHz) in the channel antenna that is included in the gap of the conductors of the inductive load 10, made in the form of several inductors with ferrite open cores, can improve the radiation pattern and reduce the size of the antenna. A device for blocking radio fuses is usually placed in an attache case of the "Pilot" type.

 As the comparative tests showed, the design of the device for blocking radio fuses given in comparison with analogs allows to increase the radius of suppression of receiving devices of radio fuses in these frequency bands by an average of 15 - 25%.

 Thus, the proposed device provides an increase in the suppression efficiency of receiving devices of radio fuses and a decrease in the likelihood of damage to the antennas during the operation of the transmitters, with a corresponding increase in the safety of work on the search and disposal of explosive devices with radio fuses.

Sources of information:
1. Ivliev S., Maistrenko N. et al. Search and disposal of explosive devices. / M .: Fund for Economic Security, 1996, p. 60-64.

 2. P.A. Allen & Company. Internal Security Equipment Catalog, page 42.

Claims (4)

 1. A device for blocking radio fuses, comprising a block for generating a radiated signal, a power amplifier, a radiating antenna and a power supply, characterized in that the block for generating a radiated signal is divided into two or more channels with non-coincident emission bands, each of which is equipped with its own radiating antenna, this channel antennas are made in the form of spatial conductors placed on a surface that covers the unit for generating the emitted signal, power amplifiers and power supply.  2. The device according to claim 1, characterized in that the channel antennas are made in the form of flat conductive plates placed on the side faces of the parallelepiped covering the emitted signal generating unit, power amplifiers and a power supply unit.  3. The device according to claim 1 or 2, characterized in that the antenna of each channel is made of foil textolite or getinax in the form of a sequence of horizontal, vertical and inclined ribbon type conductors, the total length of which is 0.1 - 0.25 averaged over the range radiation wavelengths.  4. The device according to any one of claims 1 to 3, characterized in that the antenna of the decameter band of the radiation channel is provided with an inductive load included in the gap of the conductors, made in the form of several inductors with ferrite open cores.