RU2224222C2 - Method for testing of objects containing electroblasting devices for effect of electromagnetic fields - Google Patents

Abstract

FIELD: testing of objects containing electroblasting devices for the effect of electromagnetic fields. SUBSTANCE: the invention consists in production of electromagnetic fields and establishment of the fact of actuation of the electroblasting devices after the effect of electromagnetic fields on the object. Subjected to the effect of an electromagnetic field is an object with electroblasting devices installed on it with an enhanced sensitivity, and the characteristic of the electromagnetic field influencing the object is determined according to a preset formula. EFFECT: possibility of tests on installations with limited technical potentialities. 1 dwg

Description

 The invention relates to the testing of objects, for example, military equipment, containing electric explosive devices, for exposure to electromagnetic fields (EMF), in particular, lightning discharges, power lines, radio equipment, radar stations, etc.

 When developing objects of military equipment, one of the most important tasks is to ensure the safety of its operation under the influence of electromagnetic fields. When an EMF acts on objects containing electric explosive devices (EEDs), induced currents occur in the electric circuits to which the EEDs are connected, with a sufficient value of which an unauthorized operation of the EEDs can occur, which will lead to an explosion, fire, rocket launch, and other dangerous consequences. In order to check the facilities under development for operational safety under the influence of electromagnetic fields, special tests are carried out at facilities that create electromagnetic fields with the necessary characteristics.

 A known method of testing objects for exposure to electromagnetic fields, described in / 1 /. According to the specified method, tests are carried out by exposure to electromagnetic fields on an object placed in the test volume of a modeling installation, while the parameters of the object are controlled. The main disadvantage of this method is that in order to conduct EMF tests, unique high-voltage and energy-intensive expensive equipment is required, the equipment of which is currently still low in testing laboratories. Therefore, tests are often forced to be carried out at facilities that have limited technical capabilities and provide reduced amplitude levels of EMF, subsequently extending the results of these tests by linear extrapolation to the actual conditions of exposure, which reduces the reliability of the test results.

 In addition, this method does not allow an assessment of the safety of objects containing EVUs at low amplitude levels of EMFs by establishing the fact of operation or failure of the EVU.

 The prior art did not reveal a technical solution that we could use as a prototype for the proposed method for testing objects containing EVU.

 The objective of the invention is to provide the ability to test objects containing EVU, on installations with limited technical capabilities that do not provide specified levels of the impacting EMF, which will reduce the cost of testing.

где Е - характеристика (напряженность или плотность потока энергии) ЭМП, воздействующего на объект при испытаниях;
Е_зад - заданная в техническом задании характеристика (напряженность или плотность потока энергии) ЭМП, при которой должна быть обеспечена работоспособность объекта;

- ток (энергия, напряжение) срабатывания ЭВУ объекта при испытаниях (указывается в технических условиях на ЭВУ);

- ток (энергия, напряжение) срабатывания штатного ЭВУ объекта (указывается в технических условиях на ЭВУ).The solution to this problem is achieved by subjecting the object to electromagnetic radiation with electrical explosive devices installed in it instead of standard electric explosive devices with increased sensitivity (with reduced response parameters), while the characteristics of the electromagnetic field acting on the object during testing are determined by the formula:

where E is the characteristic (tension or energy flux density) of the electromagnetic field acting on the object during testing;
E _ass - the characteristic specified in the technical assignment (tension or energy flux density) of the electromagnetic field, at which the facility must be operational;

- current (energy, voltage) of operation of the object's EVU during testing (indicated in the technical specifications for the EVU);

- current (energy, voltage) of the operation of a standard EVU facility (indicated in the technical specifications for the EVU).

 The proposed test method allows testing on installations with limited technical capabilities that do not provide the specified levels of the acting EMF.

 This is achieved due to the fact that an object equipped with more sensitive EVUs compared to standard object EVUs is exposed to EMF on a modeling installation.

 For example, when using an EEC with a tripping current of 40 mA for testing, instead of a standard EED with a tripping current of 200 mA, it becomes possible to conduct tests at EMF levels five times lower than those set for an object.

 The invention is illustrated in the drawing, which shows a diagram of a device for testing.

In the drawing are indicated:
1 - generator of current and voltage pulses,
2 - antenna device (field-forming system),
3 - support field-forming system,
4 - object
5 - EVU,
6 - measuring system,
7 - shielded cab.

 The generator 1 generates electromagnetic waves that are transmitted to the antenna device 2 mounted on the supports 3. The antenna device 2 forms in the test volume the electromagnetic field, which acts on the object 4 and causes the induced current to flow in the chains of its EVU 5.

 If the magnitude of the induced current flowing through the EVU is sufficient for its operation, the EVU is triggered, which is recorded by the measuring system 6 located in the shielded cabin 7. The fact of the operation of the EVU is the basis for a negative conclusion about the safety of the object. If the magnitude of the induced current flowing through the EVD is insufficient for its operation, the operation of the EVD does not occur and on this basis it is concluded that the facility is safe.

 Thus, the proposed test method provides the ability to test at facilities with limited technical capabilities that do not provide the specified levels of the acting EMF, which reduces the cost of testing.

Sourse of information
1. V.I. Kravchenko. "Lightning protection of electronic equipment." Directory. M. Radio and Communications, 1991, p. 214, 250, 252.

Claims (1)

The method of testing objects containing electric explosive devices for electromagnetic fields, which consists in creating electromagnetic fields and establishing the fact of the operation of electric explosive devices after exposure to electromagnetic fields, the object with the installed electromagnetic explosive devices with increased sensitivity, and the characteristic the electromagnetic field acting on the object is determined by the formula

where E is the characteristic (intensity or energy flux density) of the electromagnetic field acting on the object during testing; E _ass - a given characteristic (intensity or density of the energy flux) of the electromagnetic field, at which the facility must be operational;

- current (energy, voltage) of the operation of the electric explosive device of the object during testing;

- current (energy, voltage) of the operation of the standard electric explosive device of the object.