RU2590960C1 - Method for determining characteristics of actuation of detonating device - Google Patents

Abstract

FIELD: measuring equipment.

SUBSTANCE: method for determining characteristics of detonating device actuation relates to measurement equipment, and can be applied to determining characteristics of detonating device actuation that provides for initiation of explosive substance (ES) charges, particularly for determining moment of ES charge initiation by detonating device relative to moment of involve pulse supply. Knowledge of these time moments simplifies design and development of initiation systems, wherein detonating devices are included, for calculation of their gas-dynamic characteristics. Proposed method comprises supply of involve pulse and generation of detonation wave in ES charge of detonating device, which involves ES charge being initiated. Moment of involve pulse supply to detonating device and moment of detonation pulse transfer to initiated charge are determined. Recording of second moment is performed at least by one optical sensor based on fibre-optic line installed perpendicular to axis of detonating device and facing one end towards area of detonation transfer, and another end towards recording equipment. Detecting light flashes of optical radiation is performed by conversion light signal into electric one, whereof moment of transmitting detonation pulse to initiated ES charge is registered relative to moment of involve pulse supply to detonating device.

EFFECT: invention increases reliability of information during tests.

1 cl, 2 dwg

Description

The invention relates to measuring technique and can be used to determine the response characteristics of detonating devices that initiate explosive charges (EX), in particular determine the moment of initiation of an explosive charge by a detonating device relative to the moment of supply of the activating pulse. Knowledge of these points in time facilitates the design and development of initiation systems, which include detonating devices, to calculate their gas-dynamic characteristics.

A known method and device for determining the response characteristics of pyrotechnic products with electrical initiation (patent RU 2495366, IPC (2006.01): F42B 35/00, G01P 3/64, public. 10.10.2013). The method consists in the fact that an electric current is supplied to the incandescent element of the pyrotechnic product, the current supply time t ₁ and the value of the supplied current I are recorded, when the explosive charge inside the pyrotechnic product is activated, the vibrations registered by the vibration detection device installed on the pyrotechnic product are excited in the latter and the fixed point ignition of the pyrotechnic charge products t ₂ to time of occurrence of vibration on the body of the pyrotechnic articles, determine the time of initiation pirotehniche one product of T, as the difference between the instant of ignition of the pyrotechnic articles and the instant t ₂ supplying a constant electric current t ₁ and for initiation time T depending on the different values of the magnitude of current I supplied to the above operation is repeated with different values of currents required number of times.

A device for determining the response characteristics of pyrotechnic products consists of a blast circuit with a power source connected to an incandescent element of the pyrotechnic product. A vibration detection device installed on the pyrotechnic product and a unit for determining the initiation time are introduced therein. The blasting circuit consists of a series-connected power source, a key for closing the circuit, an incandescent element of the pyrotechnic product, a device for measuring the current strength in the blasting circuit. The outputs of the vibration detecting device and the current measuring device are electrically connected to the inputs of the initiation time determination unit.

However, this method and device can only be used to determine the initiation time of pyrotechnic products, and cannot be used to determine the response characteristics of detonating devices, in addition to vibrations reaching the sensor, the latter must be rigidly connected to the body of the pyrotechnic assembly, which is structurally unsuitable to determine the moment of initiation of the explosive charge by the detonating device.

A device is known for determining the response characteristics of detonating devices, in particular, the response time of an initiator-free detonator capsule having a shock wave tube with a translucent sheath as a pulse conductor from its actuating device (patent RU 2328748, published on July 10, 2008, IPC (2006 / 01): G01P 3/64, C06C 7/00, F42B 35/00). The known device comprises a chronograph, a first photosensor that provides a chronograph start and is located near the shock wave tube, and a chronograph stop sensor in the form of a photosensor that responds to radiation when a triggerless detonator capsule is triggered, located near it and placed in a metal sleeve in which a slot is made . As photosensors, sensors with an operating range in the wave region covering the visible and infrared parts of the electromagnetic spectrum are used.

The method for determining the response characteristics of the detonator capsule using this device is the closest analogue of the claimed method and consists in the following. Involve a shock wave tube. The first photosensor responds to radiation from the front of the detonation wave passing inside the shock wave tube after its initiation. Radiation (light or infrared, depending on the type of photodetector of the photosensor) from the front of the detonation wave enters through the hole in the housing in which the shock wave tube is installed, on the sensitive element of the photodetector. The electric circuit of the photosensor converts the signal from the photodetector into an electrical control signal, which is fed to the input of the chronograph, triggering it, which is the moment the time starts. The chronograph starts the countdown of the detonator capsule. The moment of the end of the countdown is recorded by the second photosensor as follows. The detonation wave, passing through the entire segment of the shock wave tube, initiates the explosive charge of the detonator capsule, when triggered, the photosensor generates a signal converted by its electric circuit to a control signal to stop the chronograph, which captures the value of the response time of the detonator capsule equal to the time interval from the moment the front of the detonation wave passes in the internal channel of the shock-wave tube section of the reference point until the explosive charge of the detonator capsule detects a fixed sensor com.

Since in the known method the first sensor records the moment the front of the detonation wave passes a certain point, the so-called reference point of time, and not the moment of supply of the activating pulse, and the second sensor records the moment of operation of the explosive charge of the detonator capsule, and not the moment of transfer of the detonation pulse generated by the detonator capsule the charge initiated by him, the knowledge of which is necessary for calculating the gas-dynamic characteristics of the explosive charge, this reduces the reliability of information about the characteristics of the slab yvaniya investigated detonating devices. It should also be noted that there are measurement errors associated with the inertia of the sensors and input circuits of the chronograph, to reduce which it is necessary to carefully select the elements of the electrical circuits of the sensors and the chronograph according to the sensitivity of the inputs. In addition, there is a measurement error associated with an error in determining the reference point on the segment of the shock wave tube.

The technical result of the proposed method is to increase the reliability of information during testing.

The specified technical result is achieved due to the fact that in the known method for determining the response characteristics of a detonating device, including the supply of an activating pulse and the formation of a detonation wave in the explosive charge of a detonating device, registration using sensors of the moments of the beginning and end of the countdown, which determine response characteristics, new is that the detonating device under study initiates the explosive charge, while time counts are determined by the moment of applying the activating pulse to the detonating device, and the time of the end of the counting time is determined by the moment of transfer of the detonation pulse generated by the detonating device to the initiated charge, and the second moment is recorded using at least one optical sensor based on fiber optic a line installed perpendicular to the axis of the detonating device and facing one end to the detonation transmission zone, and the other to the recording apparatus D is carried out registration of optical radiation flashes of light by converting the light into an electric signal, which is fixed and the time of transmission of detonation pulse initiated by a charge of explosive, with respect to time supply pulse to involve detonating device.

The initiation of the explosive charge by the detonating device under study makes it possible, using appropriate sensors, to establish not only the fact of detonation output, but also the transfer of the detonation pulse to the initiated charge, which is an effective way to control the operation of the detonating device under study.

Determining the start time of the timing at the time of applying the activating pulse to the detonating device and the end of the timing of the time of transfer of the detonation pulse generated by the detonating device to the initiated charge allows you to obtain more reliable information about the response characteristics of the detonating device under study for more accurate calculation of the gas-dynamic characteristics of the initiation systems, which use a detonating device.

The registration of the second moment, using at least one optical sensor based on a fiber optic line mounted perpendicular to the axis of the detonating device and facing one end to the detonation transmission zone and the other to the recording equipment, allows registration of optical light flashes by conversion of the light signal into an electric one, by which the moment of transmission of the detonation pulse to the initiated explosive charge is recorded, relative to the time Aci employs pulse detonating device, which provides registration of points without complex constructions and assemblies of bulky and increases accuracy of registration.

In FIG. 1, 2 schematically shows a device for determining the response characteristics of a detonating device explaining the inventive method, where:

1 - investigated detonating device;

2 - explosive charge of the detonating device;

3 - optical sensor;

4 - initiated explosive charge;

5 - generator of the activating pulse;

6 - light receiver - optoelectronic converter;

7 - recording equipment.

An example of a specific implementation of the device explaining the inventive method is a device for determining the characteristics of the operation of a detonating device involved in an electric pulse. The detonating device under study is mounted on an initiated explosive charge. Two optical sensors based on fiber optic lines are placed perpendicular to the axis of the detonating device so that some of their ends are directed to the detonation transmission region of the initiated explosive charge, and the other ends of the fiber optic lines are connected to an optoelectronic converter, which in turn is connected to recording equipment, which is used as Agilent type oscilloscope. The activating pulse generator is connected to the detonating device and the recording equipment.

The method is implemented as follows:

- carry out the supply of an activating electric pulse from the generator 5 to the sensitive element of the detonating device 1 - wire and record the moment of supply of this pulse by the oscilloscope 7,

- form a detonation wave in the explosive charge 2 of the detonating device 1 to activate the initiated explosive charge 4 and the formation of a detonation wave in it,

- the detonation wave formed in the detonating device 1 throws a metal plate onto the surface of the initiated charge 4. Light flashes arising from the initiation of charge 4 are introduced into optical sensors 3 made on the basis of an optical fiber line connected to an optoelectronic converter 6,

- light pulses in the optoelectronic Converter 6 are converted into electrical and fed to the oscilloscope 7,

- the fact of the activation of the initiated explosive charge 4, formed in the explosive charge 2 of the detonating device 1 by the detonation wave, is determined by 7 pulses registered by the oscilloscope,

- determine the operating time of the detonating device as the difference between the moment of activation of the initiated charge of explosive 4 and the moment of supply of the activating pulse to the detonating device 1 from the generator 5.

The determination of the operating time of the detonating device of the claimed method allows to more accurately determine the characteristics of the detonating device, as well as to calculate the gas-dynamic characteristics of the initiating system, which includes this detonating device.

Claims (1)

The method for determining the response characteristics of a detonating device, including the supply of an activating pulse and the formation of a detonation wave in the explosive charge of a detonating device, registration with the help of sensors the moments of the beginning and end of the countdown, which determine the response characteristics, characterized in that the studied detonating device is carried out initiation of explosive charge, while the moment the time begins to be determined by the moment of applying the activating pulse to the child the blasting device, and the moment of the end of the time counting - at the moment of transfer of the detonation pulse generated by the detonating device to the initiated charge, and the second moment is recorded using at least one optical sensor based on a fiber optic line installed perpendicular to the axis of the detonating device and facing one end to the detonation transmission zone, and the other to the recording equipment, register optical flashes of optical radiation by conversion of the light signal into an electric one, by which the moment of transmission of the detonation pulse to the explosive charge initiated is recorded, relative to the time of supply of the activating pulse to the detonating device.

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