UA9603U - Appliance for determination of the rate of detonation of explosive substances - Google Patents

Abstract

The utility model relates to detonation works. A unit for determination of the rate of detonation of the explosive substances includes a detonator, an explosive substance, a photoregistration unit. The explosive substance is placed on the screen in which there are provided in sequence apertures in the direction of motion of the front of the detonation wave; at that in the openings of the screen the ends of the light guides are placed, those are arranged with an air gap with respect to the explosive substance, and the opposite ends of the light guides are placed in the zone of the photoregistration unit connected to the electronic block for collection and treatment of information. 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 refers 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 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 explosive substances, which includes a detonator, an explosive substance, a photo-recording device Dubovik A.

S. Photographic registration of fast-flowing processes. - M.: Nauka, 1964). 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 photo-registration process does not allow conducting research in a wide range of speeds and is limited by the parameters of the photo-registration equipment.

The task of the useful model is to improve the device for determining the speed of detonation of explosives 12 by fixing the movement of the shock wave with the help of light guides located in series at a fixed distance in the direction of the movement of the shock wave front, which makes it possible to increase the accuracy of the measurement.

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, the explosive substance is located on a screen, in which through-holes are made sequentially at a fixed distance in the direction of the movement of the detonation wave front, while the ends of light guides with an air gap relative to the explosive substance are located in the holes of the screen, and the opposite ends of the optical fibers are located in the zone photo-recording device connected to the information storage and processing unit.

To improve the quality of fixing the light pulse when testing explosive substances, thin-walled empty glass microspheres filled with inert gas can be attached to the ends of the light guides.

The claimed utility model is illustrated by a diagram of the device (see Fig.). in

The device for determining the speed of detonation of explosives includes a detonator 1 attached to an explosive substance 2, which is located on a screen 3. In the screen C, at a fixed distance, holes 4 are sequentially made, in which the ends of light guides 6 are placed with an air gap 5 in relation to the explosive substance 2, the opposite ends of which are located in the area of the photo-recording device 7 (photoelectronic multiplier or electro-optical converter), which is connected to the information storage and processing unit Ha") (computer) 8.

The device is implemented in the following way. eh

With the help of detonator 1, an explosive substance (BP) 2 is initiated. The shock wave of detonation moves along Ge")

BP 2 It passes in the area of the hole 4 in the screen 3. When the shock wave exits the air gap 5 of the hole 4 39, a bright glow of gas occurs in the visible region of the spectrum. The light pulse moves along the light guide 6 and is recorded by the photo-recording device 7. After that, the information about the light pulse is sent to the electronic unit for storing and processing information 8.

As the detonation shock wave moves along BP 2, it reaches the zone of the next hole 4 in screen 3. 8

Similarly, a light pulse is formed, which is recorded by the photo-recording device 7, and also enters the electronic unit for the accumulation and processing of information 8. c Registering the moments of the shock wave exit at the interface of a solid substance with air, at a known

From the distance between the light guides (holes in screen 3) and the registered time interval between light flashes, the speed of propagation of the shock wave in the VR is determined and thereby its quality is controlled.

To improve the quality of light pulse fixation during tests, for example, emulsion VR, 49 empty thin-walled glass microspheres filled with inert gas are glued to the ends of optical fibers. When a shock wave hits such a gas scintillator, it will light up. The intensity of the flash is regulated by pressure

Ge") of gas in the microsphere, and the luminescence spectrum is a type of gas.

Thus, the claimed device provides the possibility of effective quality control of manufactured explosives. se" 20 The device can be used for the certification of explosives.

Claims (1)

Formula of the invention C; o55 A device for determining the speed of detonation of explosives, which includes a detonator, an explosive, a photo-recording device, which is characterized by the fact that the explosive is located on a screen, in which holes are made sequentially in the direction of the movement of the detonation wave front, while the ends of the light guides are located in the holes of the screen , are placed with an air gap in relation to the explosive substance, and the opposite ends of the light guides are located in the area of the photo-recording device connected to the electronic unit of information storage and processing 60. b5