RU2667257C2 - Method for remote mine clearing - Google Patents

Abstract

FIELD: military science.SUBSTANCE: method of remote mine clearing relates to military engineering, mine clearing and anti-terrorism tools, is designed to ensure the safety of movement on the routes of special military equipment units, weapons and vehicles. Method for remote mine clearing is used for undermining at a safe distance, as well as for remote blocking engineering ammunition and self-made radio-controlled explosive devices (SRCED), comprising electronic components. Method is based on using pulsed electromagnetic superhigh-frequency (SHF) radiation and spatially oriented polarized ultra-wideband high-frequency (UWB-HF) radiation, which are localized in the scanned sector and in the direction of the remotely located mine clearing area.EFFECT: technical result is creation of a reliable and safe way, providing remote neutralization and destruction of radio-controlled and other explosive devices at a remote safe distance, exclusion of the threat of terrorist attacks on particularly important military and civilian objects, demining of transport, energy communication lines, other mined areas, safe movement of military equipment and weapons while performing tactical tasks on the routes and in areas of dislocation.5 cl, 1 tbl

Description

Technical field

The method of remote clearance refers to the field of military engineering, clearance and means of combating terrorism, designed to ensure the safety of movement of special military equipment, weapons and vehicles on the routes.

The method of remote clearance is used to eliminate detonation at a safe distance, as well as to remotely block engineering ammunition and improvised radio-controlled explosive devices (SRVU), which include electronic components.

The prior art (analogues)

A known method and device according to the description of patent No. 2497155 (RU) A method and device for detecting anti-personnel explosive devices (WU) with contact-wire target sensors [1].

According to the description of patent No. 2497155, a method for detecting anti-personnel explosive devices with contact-wire target sensors is that the conductor is excited by a frequency-tunable electromagnetic field with a frequency range overlap factor of at least two and a recorded rate of change of the reflected signal amplitude.

The disadvantage of this method is that for the implementation of the method requires a small and dangerous distance for the detection of mines and selective detection of WU only with contact-wire sensors.

Also known is a method of clearance according to the description of the invention to patent No. 2310811 "Method for the disposal of masked radio-controlled explosive devices" [2]. According to patent No. 2310811, the technical result is achieved by creating a moving pulsed electromagnetic radiation in the area of the predicted laying of radio-controlled explosive devices: along roads, highways, streets and marinas, in squares and stadiums. In the presence of radio-controlled explosive devices (RVU) in such areas, its radio receiver becomes unusable or destroyed.

The disadvantage of this method is the process of neutralization of the DOC, localized only in the zone of the predicted bookmark on the roadsides and highways, at a close and unsafe distance from the source of pulsed electromagnetic radiation, therefore, when the explosive device is destroyed, the pulsed electromagnetic radiation source itself can be damaged or completely destroyed. From the description of this method also follows a technical drawback, namely, that the source of pulsed electromagnetic radiation generates signals having pulsed frequency parameters, which require coordination with the speed of movement of electromagnetic pulsed radiation (EII). In addition, the need to coordinate the speed of movement and the parameters of EII indicates low energy and electromagnetic characteristics of radiation, resulting in reduced technical reliability of mine clearance.

Despite these drawbacks, the technical solution of the method for describing the invention to patent No. 2310811 [2], can be taken as a prototype, as the closest analogue.

The technical task and the technical result of the invention is the creation of a reliable and safe method that provides remote disposal and destruction of radio-controlled and other explosive devices at a safe distance.

The essence of the proposed method of remote clearance is to generate pulsed electromagnetic signals.

The signals are transmitted to emitters of a pulsed electromagnetic field.

Radiate a pulsed electromagnetic field.

Influenced by a pulsed electromagnetic field (EMF) on the WU and explosive devices with electronic components (VUEK).

Blocks explosive devices with electronic components.

Perform the elimination of VUEK undermining.

In this case, a pulsed microwave signal is generated.

In this case, ultra-wideband high-frequency (UWB-HF) signal is generated.

In this case, microwave and UWB-HF signals are transmitted to spatially oriented emitters of microwave and UWB-HF electromagnetic fields.

At the same time, radiation of the space-oriented microwave and UWB-HF signals of the electromagnetic field in the given direction of remote clearance is simultaneously performed.

At the same time, the emitters of directional microwave and UWB-HF EMF signals are simultaneously moved simultaneously.

At the same time, directed microwave and simultaneously directed UWB-HF EMF radiation are moved along a given mine clearance route.

Description of special cases

In the process of mine clearance, the UWB-HF EMF radiation is directed, possibly with orientation in a vertical plane.

In the process of mine clearance, the UWB-HF EMF radiation is directed, possibly with orientation in the horizontal plane.

In the process of clearing the directional radiation of UWB-HF EMF with orientation in the vertical plane and preferably performing simultaneously radiation with orientation in the horizontal plane.

In the process of clearance, the directional radiation of the microwave electromagnetic field is preferably performed simultaneously with the scanning of the spatially oriented axis of the directed microwave radiation in the target horizontal sector.

The implementation of the method

At the first stage, the electromagnetic signal of ultra-high frequency (UHF) and ultra-wideband high-frequency (UWB-HF) signal of predetermined modes and parameters are generated.

The energy and electrical modes of the generated pulsed electromagnetic signals are selected within the specified limits.

For example, to generate a microwave signal, characteristics are preferably selected within:

- pulse power of at least 1.5 MW;

- radiation wavelength 23.5 ... 23.7 cm; (1.271 GHz);

- pulse duration 3.5 ... 4.5 μs;

- duty cycle of pulses from 900 to 1000.

For example, to generate a UWB-HF signal based on a generator (GIN 3-500), the radiation parameters are selected, possibly within:

- max the amplitude of the voltage pulses (load 50 Ohms) - 3.0 kV;

- the duration of the pulse front is 200-300 ps;

- max pulse repetition rate - 1 MHz;

- the duration of electromagnetic pulses at the level of 0.5 amplitude - 0.2 ... 0.3 ns.

At the second stage, the transmission of pulsed electromagnetic signals, for example, through feeder paths, to spatially oriented microwave and UWB-HF electromagnetic fields (EMFs) is performed.

At the third stage, radiation of space-oriented microwave and UWB-HF electromagnetic field signals is produced in the direction of remote clearance.

For example, the EMF radiation flux density is chosen within not less than 0.3 W / cm ² at a distance of up to 100 meters from the HF emitters of the RF, as well as the EMF strength (not less than) 30 V / m at a distance of up to 100 meters from the microwave emitters.

At the fourth stage, remote exposure of the microwave and UWB-HF electromagnetic field signals to explosive devices with electronic components (VUEK) is carried out, VUEK is removed from the explosive state due to blocking and / or due to remote activation of the VUEK fuse (operation and elimination by remote detonation ) at a safe distance.

At all these stages, the process of moving directional emitters of microwave and UWB-HF radiation signals and simultaneously the process of moving directional polarized UWB-HF and scanning microwave EMF radiation along a given sector and mine route are performed.

At all these stages of the proposed method of remote clearance, the safety and integrity of the directed emitters of microwave and UWB-HF signals are ensured due to the remote detonation of the WU and / or VUEK at a remote safe distance, as well as due to the protected location of the emitters of microwave and UWB-HF signals.

Thus, the effect of remote clearance, undermining the VU, blocking the VUEK is obtained due to the combined directional radiation of the ultra-wideband high-frequency (UWB-HF) and ultra-high-frequency (UHF) electromagnetic fields that create radio interference and also create induction currents in the conductive elements and electrical circuits of the fuse radio receiver , incapacitation of these elements and the entire radio receiver as a whole, as well as receiving induced currents on the electric detonator, with the aim of its failure, operation detonation and remote destruction (elimination by subversion) of VUEK and other military units (explosive devices) at a safe distance.

Case Studies

In order to block VUEK and remote clearance, UWB-HF EMF radiation is polarized in the vertical plane, while moving along the mine clearance route.

In order to block VUEK and remote clearance, UWB-HF EMF radiation is produced with polarization in the horizontal plane, while moving along the mine clearance route.

In order to block VUEK and remote clearance, UWB-HF EMF radiation is polarized in the vertical plane and simultaneously polarized in the horizontal plane, while moving along the mine clearance route.

For the purpose of remote clearance, an electromagnetic field is irradiated with a microwave field along the clearance route while scanning the spatially oriented axis of the directed microwave radiation in a limited horizontal target sector, while moving along the clearance route.

The practical use of the remote clearance method is its use for the operation of executive electronic microwave devices for remote clearance based on mobile and other vehicles.

The implementation of the proposed technical solution is not limited to the above examples.

The technical result of the method is achieved due to the fact that they create microwave and UWB-HF radiation of a pulsed electromagnetic field with the proposed energy and electromagnetic parameters in horizontal and vertical polarized planes when moving along the mine route with simultaneous horizontal scanning of the microwave electromagnetic field in the directed target sector.

The inventors tested the claimed method, which confirmed the achievement of the technical result.

Tests of the method were carried out when moving microwave and UWB-RF emitters of microwave radiation at a speed of about 15 km / h using special vehicles. The values of the technical characteristics of the implementation of the method are given in the table:

The effectiveness of the remote clearance method for blasting and blocking explosive objects is confirmed by experimental field tests on samples of engineering ammunition in a total of 20 units (special assemblies of fuses of various types). As a result of the tests, the operation of samples of special assemblies of fuses in the amount of 18 units and the blocking of special assemblies in the amount of 2 units were detected, that is, all 20 units or 100% of the samples worked in total. Remote operation (clearance) of special assemblies occurred at a distance of up to 100 meters from the applied actuators of the method (from microwave and UWB-RF emitters of microwave emfs).

A comparative analysis showed that the obtained and tested practically modes and selected parameters of the developed method for remote clearance fully ensure the fulfillment of the mine function within the specified limits and characteristics.

This ensures the fulfillment of the technical task of creating a reliable and safe method that provides remote disposal and destruction of radio-controlled and other explosive devices at a safe distance.

The inventive method of remote clearance is implemented using industrially produced devices and materials, can be carried out at any enterprise in the electronic industry and will be widely used in military equipment and in the fight against terrorism.

INFORMATION SOURCES:

1. Patent No. 2497155 (RU) A method and device for detecting anti-personnel explosive devices with contact-wire target sensors, IPC G01V 3/11 (2006.01).

2. Patent No. 2310811 (RU) Method for the disposal of masked radio-controlled explosive devices, IPC F42D 5/04 (2006.01), G01V 3/17 (2006.01).

Claims (5)

1. The method of remote clearance, in which they generate pulsed electromagnetic signals, transmit these signals to emitters of a pulsed electromagnetic field, emit a pulsed electromagnetic field, act as a pulsed electromagnetic field (EMF) on explosive devices (WU) and explosive devices with electronic components (VUEK), block, eliminate VU and VUEK undermining, characterized in that they generate a pulsed microwave signal, generate ultra-wideband high-frequency (UWB-HF) s drove, transmit microwave and UWB-HF signals to spatially oriented emitters of microwave and UWB-HF signal, simultaneously perform directional emission of electromagnetic fields from space-oriented microwave and UWB-HF signals in a given direction of remote clearance, continuously transmit emitters of signals of directional microwave and UWB- HF EMF simultaneously, they move the directional microwave radiation and simultaneously directed UWB-HF EMF along a given mine clearance route. 2. The method according to p. 1, characterized in that the radiation of the UWB-HF electromagnetic field is performed directed with polarization in the vertical plane. 3. The method according to p. 1, characterized in that the radiation of the UWB-HF electromagnetic field is performed directed with polarization in the horizontal plane. 4. The method according to p. 1, characterized in that the radiation of the UWB-HF electromagnetic field is performed directed with polarization in the vertical and at the same time directed with polarization in the horizontal planes. 5. The method according to p. 1, characterized in that the radiation of the microwave electromagnetic field is directed simultaneously with scanning the spatially oriented axis of the directed microwave radiation in the target horizontal sector.