RU2597034C1 - Method of detecting explosive charge blasting contained in test object, and explosion delay from the moment of the test object contact with obstacle and device for its implementation - Google Patents

Abstract

FIELD: measuring equipment; test equipment.

SUBSTANCE: method includes registration of optical radiation in the spectrum of photodiode sensitivity, accompanying initiation of explosive charge (EC), in the test object (TO). Registration of optical radiation, accompanying initiation of TO content, with the help of at least two photodetectors, containing photodiodes, operating in photodiode mode. First photodetector is placed at the measurement site and radiation in front of and behind obstacle in the direction of TO movement is recorded. Second photodetector is behind an obstacle and records the radiation in blue spectrum, that enables recovering initial moment of ES detonation, located in the TO he with additional "parasitic" light strikings. Moment of collision with the obstacle is registered. Device comprises at least two photodetectors with photodiodes placed at the measurement site, operating in photodiode mode, connected to recorders. First photodetector records the radiation in the spectrum of photodiode sensitivity in front of and behind the obstacle in the direction of TO movement, contact sensor of breakdown type mounted on the front obstacle surface in the direction of TO movement. Second photodetector is placed behind the obstacle, light filter is installed at the input of the measuring channel of the second photodetector.

EFFECT: invention allows confirming the blasting charge and determining the time interval between test object collision with obstacle and blasting charge.

2 cl, 1 dwg

Description

The invention relates to the field of testing and measuring equipment.

A known method and device for determining the presence of an explosive charge contained in the test object and measuring the time interval between the collision of the test object (OI), overcoming the obstacle, and the subsequent undermining of the explosive charge located in the OI (Gerasimov S.I., Faykov Yu.I. , Kholin S.A. Cumulative light sources (Sarov, RFNC-VNIIEF, 2011, pp. 42-44, Fig. 1.23). The method consists in registering before and behind the obstacle in the direction of the OI movement in the sensitivity spectrum of the silicon photodiode optical radiation accompanying the initiation of the explosive charge located in the OI using a photodetector installed on the measuring platform connected to the recorder. The measurement of the delay of detonation was carried out at the extremum points of the recorded light curve. The photodetector is made on the basis of a silicon photodiode included in the photodiode mode, which registers the optical radiation of time-separated processes, accompanied by their own glow. These method and device are selected as a prototype.

The disadvantages of the data of the method and device that reduce the accuracy and applicability are:

- the uncertainty of the arrival of the light signal (there is no fixed point of contact of the tested product with an obstacle),

- a constantly growing background signal before and after the collision of the test object with an obstacle shields both the collision process and the charge detonation, which can have a relatively small mass and contain damping shells that can significantly attenuate the light pulse.

The technical problem to which the claimed invention is directed is to provide a quantitative and qualitative assessment of the operability of the test object when it interacts with the target, confirming the presence / absence of an explosive charge detonation located in the OI, and determining the delay time in the charge initiation system from the moment the OI touches barriers to undermining the explosive charge located in the OI.

The technical result when using the inventive method and device consists in confirming the presence / absence of undermining of the explosive charge located in the OI, determining the time interval between the contact of the test object with an obstacle and undermining of the explosive charge in the OI (time delay in the charge initiation system located in the OI ), a qualitative and quantitative assessment of the performance of the test object during its interaction with the target environment.

The technical result is achieved due to the fact that in the claimed method for determining the presence of an explosion of an explosive charge (EX) contained in the test object (OI) and the delay of its undermining from the moment of contact of the OI with the obstacle, including registration in front of and behind the obstacle in the direction of movement of the OI optical radiation in the sensitivity spectrum of a photodiode accompanying the initiation of an explosive charge located in the optical field with at least one photodetector containing a photodiode operating in the photodiode mode, determination The detonation costs at the extremum points of the obtained light curve, in contrast to the prototype, additionally record the moment of collision between the optical radiation and the obstacle, the optical radiation accompanying the initiation of the explosive charge in the optical radiation is recorded using at least two photodetectors containing photodiodes operating in the photodiode mode moreover, the first photodetector is installed on the measuring site and the radiation is recorded in front of and behind the obstacle in the direction of the OI movement, and I install the second photodetector t behind the obstacle and register radiation in the blue region of the spectrum, while when determining the delay of the blasting, the moment of contact of the OI with the obstacle is taken as the reference point.

The technical result is also achieved due to the fact that the inventive device for determining the presence of a detonation of the explosive charge contained in the test object, and the delay of its detonation from the moment of contact of the test object with the barrier, containing at least one photodetector with a photodiode operating in photodiode mode, connected to the recorder, installed on the measuring platform for recording radiation in the sensitivity spectrum of the photodiode in front of and behind the obstacle in the direction of the OI movement, in contrast to of the ototype, further comprises a breakdown type contact sensor mounted on the front surface of the obstacle in the direction of the OI movement, equipped with at least two photodetectors containing photodiodes operating in the photodiode mode, the first photodetector connected to the first registrar and installed on the measuring platform for detecting radiation before and behind the barrier in the direction of the OI movement, and the second photodetector is connected to the second recorder and placed behind the barrier, while at the input of the measuring channel Ala of the second photodetector, a light filter is installed.

Fixing the moment of contact of the OI with the obstruction by using a breakdown type contact sensor mounted on the front surface of the obstruction in the direction of the OI movement, recording optical radiation accompanying the initiation of the OI contents using at least two photodetectors containing photodiodes operating in the photodiode mode, installation the first photodetector at the measuring site and radiation registration in front of and behind the obstacle in the direction of the OI movement for recording the moment of In the case of an abnormal operation of the test object during passage of the cutter, the detection of radiation in the blue part of the spectrum with the help of a second photodetector installed behind the barrier, due to the fact that a filter is installed at the input of the measuring channel of the second photodetector, allows against the background of additional “parasitic” flare highlight the initial moment of detonation of explosives located in the OI (confirm the presence of detonation), taking as the reference point when determining the delay in undermining the moment of contact of the OI with Doi possible to determine the time interval between the test object by impacting with an obstacle and erosion of the explosive charge located in the undulator (a time delay in the system initiating charge which is in OI), to evaluate performance of the test object upon its interaction with the target environment.

The claimed invention is illustrated in the drawing. The figure schematically depicts the inventive device for determining the presence of undermining of the explosive charge contained in the test object, and the delay of its detonation from the moment of contact of the test object with an obstacle, where 1 is a cutter; 2 - test object (OI); 3 - axis of flight of the aircraft; 4 - a barrier; 5 - breakdown type contact sensor (precontact); 6 - the second photodetector; 7 - the first photodetector; 8 and 9 are the second and first registrars, respectively (digital storage oscilloscopes).

Registration of optical radiation is performed by two photodetectors 6 and 7, made on the basis of photodiodes operating in the photodiode mode (in this example, silicon). A photodiode included in the photodiode mode has a low inertia and a linear lux-ampere characteristic in very wide ranges (from 0 to 10 ⁵ lux), which makes it possible to use it in the field in tasks related to chronographing of fast-running processes accompanied by their own glow.

The first photodetector 7 (in this example, the implementation of the SHEOF-4K) is installed on the measuring platform for recording optical radiation in the sensitivity spectrum of the photodiode in front of and behind the barrier 4 in the direction of motion of the OI 2, up to the cutter 1.

The second photodetector 6 (IDF-1) is installed behind the barrier 4 so that "beyond its field of view" is the beyond region in the direction of the OI movement. A light filter is installed at the input of the measuring channel of the second photodetector 6 (not shown in Fig.).

Photodetectors 7 and 6 register optical radiation signals in the sensitivity spectrum of the photodiode (first photodetector 7) and the blue (second photodetector 6) of the spectrum for the formation of electrical pulses synchronous to the radiation pulses, which are sent via cable lines to the first and second recorders 9 and 8 (digital storage oscilloscopes).

The start of the first 9 and second registrar 8 is carried out at time t = 0, corresponding to the closure of the contact sensor 5 (contact of OI 2 with obstacle 4) installed on the front surface of the obstacle 4 (precontact) by test object 2. The first recorder 9 operates with a fifty percent history . The thresholds of sensitivity of the recording channels and the duration of the registration is determined previously, based on calculated estimates.

The process of detecting the useful signal is accompanied by intense background illumination from the operation of auxiliary devices, including the relatively long glow of the region with a temperature of 1000-2000 K during explosions in air compared with the initial phase of expansion of the detonation products. Low-temperature radiation from the sensitivity zone of the photodiode of the second photodetector 6 is "cut off" by installing a light filter at the input of the measuring channel (sensing element) of the second photodetector 6, located behind the barrier 4, as a result, its sensitivity curve is shifted to the blue part of the spectrum. At a temperature of the order of 2000 K, the signal recorded by the photodiode is thousands of times smaller than at a temperature of 6000 K, that is, at practically any amplitude of the “background” signal, a “useful” high-temperature signal will be visible, associated with the initial stage of detonation of the explosive charge in the OI, in as a result, when using the proposed method and device, the presence of an explosive charge detonation located in the test object and the detonation delay from the moment of contact of the test object with an obstacle (delay in the explosive charge initiation system, contained in the OI), the operability of the test object is assessed when it interacts with an obstacle in almost any test conditions and without the use of sophisticated registration equipment.

The data from the registrars 8, 9 are processed, during which the fact of the presence / absence of a detonation of the explosive charge located in the OI is confirmed, and the delay of the detonation of the EXPLOSIVES located in the OI 2 is determined by the extremum points of the obtained illumination curve, while taking moment of contact of OI 2 with an obstacle 4.

Thus, the claimed method and device are simple to use, do not require the use of complex technical devices, measurements can be carried out at any time of the day, even under adverse weather conditions.

The inventive method and device are tested in the field conditions and have shown their performance.

Claims (2)

1. A method for determining the presence of explosive charge of an explosive substance contained in the test object (OI) and the delay of its undermining from the moment of contact of the OI with the obstacle, including registration of optical radiation in and out of the direction of the OI in the sensitivity spectrum of the photodiode accompanying the initiation of the explosive charge located in the OI using a photodetector containing a photodiode operating in the photodiode mode, determining the detonation delay by the extremum points of the obtained light curve, characterized in that additionally record the moment of collision between the optical element and the obstacle, the optical radiation accompanying the initiation of the explosive charge in the optical element is recorded using at least two photodetectors containing photodiodes operating in the photodiode mode, and the first photodetector is installed on the measuring site and the radiation is recorded in front of and behind the obstacle in the direction of the OI movement, and the second photodetector is installed behind the obstacle and the radiation is recorded in the blue region of the spectrum, while determining delay blasting taking as the origin point of contact with an obstacle RI. 2. A device for determining the presence of a detonation of the explosive charge contained in the test object and the delay of its detonation from the moment of contact of the test object with an obstacle, containing a photodetector with a photodiode operating in the photodiode mode, connected to the first recorder mounted on the measuring platform for recording radiation in the sensitivity spectrum of the photodiode in front of and behind the obstacle in the direction of the OI movement, characterized in that it additionally contains a breakdown type contact sensor, installed on the front surface of the obstacle in the direction of the OI movement, it is equipped with at least two photodetectors containing photodiodes operating in the photodiode mode, the first photodetector connected to the first registrar and installed on the measuring platform to register radiation in front of and behind the obstacle in the direction of the OI movement, and the second the photodetector is connected to the second recorder and placed behind the barrier, while a light filter is installed at the input of the measuring channel of the second photodetector.

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