UA9602U - Appliance for determination of the rate of detonation of explosive substances - Google Patents

Abstract

The utility model relates to detonation works. An appliance for determination of the rate of detonation of explosive substances includes a detonator, an explosive substance, a photoregistration unit. At the axis of explosive substance a light guide is placed, one end of this one is placed in the zone of initiation of the explosive substance, and the other end û in the zone of photoreceiver of the registration unit connected to the block for collection and treatment of information; at that the light guide is connected to the source of formation of the pulse light flow. The utility model increases the accuracy of measurement at large distance from the source of the explosion.

Description

Description of the invention

The useful model is related to explosives and can be used to determine the technological 2 parameters of explosives of various purposes, in particular, to determine the speed of propagation of the detonation shock wave in the body of the explosive.

The closest technical solution chosen as a prototype is a device for determining the speed of detonation of explosives, which includes a detonator, an explosive, a photo-recording device | Dubovyk

A. S. Photographic registration of fast-flowing processes. - M.: Nauka, 19641. 70 The disadvantage of the known device is its low accuracy, because the study of the propagation speed of the detonation wave is based on high-speed photo-registration of a fast-flowing process. The process of photo registration does not allow conducting research in a wide range of speeds and is limited by the parameters of the recording equipment. In addition, the device does not allow to study the detonation process in extended technological charges of explosives and remotely. 12 The task of the useful model is to improve the device for determining the speed of detonation of explosive substances by fixing the movement of the shock wave with the help of a light guide located in the body of the explosive substance, which allows to increase the accuracy of the measurement at a significant distance from the source of the explosion, as well as to determine the quality of the explosive substance in specific technological conditions

The task is weighted due to the fact that the device for determining the speed of detonation of explosives includes a detonator, an explosive, and a photo-recording device.

According to a useful model, a light guide is placed along the axis of the explosive substance, one end of which is located in the zone of initiation of the explosive substance, and the other end is located in the area of the photoreceptor of the recording device connected to the information storage and processing unit, while the light guide is connected with a source of pulsed light flow formation, which is also connected to the information storage and processing unit.

The claimed useful model is illustrated by a diagram of the device. The device for determining the speed of detonation in explosives includes a detonator 1 and a light guide 3 placed along the axis of the explosive 2, one end of which is located in the zone of initiation of the explosive 2, and the other end - in the zone of the photoreceptor 4, the recording device, 5, connected with the information storage and processing unit b, while the optical fiber C is connected to the source of the pulse formation of the light flow 7, which is also connected to the information storage and processing unit 6 by its control unit 8. Ha»)

The device works in the following way.

A detonator 1 is placed in the explosive charge (BP) 2, and the light guide 3 is installed coaxially with the body of the charge 2. Ge»)

Explosive substance 2 is initiated with the help of detonator 1. The resulting shock wave moves through the body of explosive substance 2 and passes through light guide 3.

The width of the front of the shock wave in solid and liquid bodies is comparable to the interatomic distances and is much smaller than the wavelengths of visible light. Therefore, the light passing through the transparent undisturbed substance of the light guide and falling on the surface of the front of the shock wave, which separates the undisturbed substance from the compressed one, is reflected as from the usual boundary of two media. 50 Simultaneously with the initiation of the BP, from the control unit 8 the source of the formation of the pulsed light flow, with the source of stroboscopic light pulses 7 probe the light guide C at the moment of the explosion. By the time of submission and

From" the return of light pulses to the photo receiver 4, registration 5 and fixation by the information storage and processing unit 6 determine the speed of movement of the shock wave.

A similar design of the sensors allows them to be used for recording the shock wave propagating in extended well charges. In this case, the information will be discrete, represented by a series of light (electrical) pulses, the number of which is determined by the number of measuring channels (light guides).

Ge") The claimed device allows to control the quality and parameters of the explosive substance during technological processes of destruction of rocks, to control the quality of manufactured explosives, as well as remote control of the quality of conducted industrial explosions. They can be used for certification

ГЯ6) 20 explosives.

Claims (1)

The formula of the invention WITH; o55 A device for determining the speed of detonation of explosive substances, which includes a detonator, an explosive substance, a photo-recording device, which is characterized by the fact that a light guide is placed along the axis of the explosive substance, one end of which is located in the zone of initiation of the explosive substance, and the other end is in the zone of the device's photoreceptor, that registers, connected to the information storage and processing unit, while the light guide is connected to the source of the formation of the pulsed light flow. 60 b5