RU195548U1 - HOUSING OPTICAL SENSOR - Google Patents

Abstract

The utility model relates to measuring technique and can be used to control the speed of detonation propagation during testing of products containing explosives. The claimed case-type optical sensor for determining the detonation speed is made in the form of a base with holes over which an optical fiber is laid. The technical result is an increase in the accuracy of measuring the speed of detonation. 1 ill.

Description

The utility model relates to measuring technique and can be used to control the speed of detonation propagation during testing of products containing explosives.

A known optical sensor described in the invention under the name "Method for determining the response characteristics of a detonating device" [p. RF №2590960, IPC (2006.01) F42B 35/00, G01P 3/36, 3/64, С06С 7/00 published July 10, 2016] containing an optical fiber (optical line). The optical line is installed perpendicular to the axis of the detonating device and faces with one end to the detonation transmission zone, and the other to the recording equipment.

The advantages of the known optical sensor are the ability to set not only the fact of the detonation output, but also the transfer of the detonation pulse to the initiated charge, which allows more reliable information on the response characteristics of the detonating device under study to more accurately calculate the gas-dynamic characteristics of the initiation systems.

The known sensor allows you to determine only the moment of transfer of the detonation pulse to the initiated explosive charge relative to the moment of supply of the activating pulse and is not used to determine the nature of detonation and measure the propagation velocity of the detonation wave along a given direction, since it is not supposed to place sensitive elements on different bases.

This optical sensor is taken as a prototype, as the closest in technical essence to the claimed utility model.

The problem to which the claimed utility model is directed is to create a case-based optical sensor that allows one to determine the nature of detonation and measure the detonation velocity of explosives in an opaque case.

The technical result, the claimed utility model is aimed at, is to increase the measurement accuracy and to measure the detonation velocity, due to the formation of radiation pulses at the moment the detonation wave reaches the given measurement bases.

The specified technical result is achieved by the fact that the housing optical sensor contains an optical fiber, according to a utility model, the sensor is made in the form of a base with holes over which the optical fiber is laid.

The presence in the claimed utility model of features that distinguish it from the prototype allows us to consider it appropriate to the condition of "novelty."

The utility model is illustrated in the drawing, in FIG. 1 is a longitudinal section through an optical housing sensor.

The housing optical sensor for determining the detonation velocity comprises a base 1 made in the form of a metal plate with holes 2 sequentially located along the central longitudinal axis of the base 1. Optical fiber 3 is laid over the holes 2, the cross section of which overlaps the holes 2.

The length and thickness of the base 1 is selected depending on the task.

The sensor works as follows

The sensor is mounted on a metal housing 4, inside of which BB 5 is located. Then, BB 5 is blown up.

In the process of detonation of BB 5 in the housing 4 and base 1, a shock wave propagates when holes 2 in base 1 pass through, forming successive high-frequency emissions of microparticles in the form of jets from holes 2, which are transmitted via optical fiber 3 to the recording equipment.

The time of occurrence of light pulses and the distance between the holes 2 determine the detonation velocity corresponding to the phase velocity of the shock wave along the housing 4 and the base 1.

The housing optical sensor allows you to record the times the shock wave travels through multiple holes 2, while all light pulses are transmitted through a single optical fiber 3.

Thus, the above information indicates the fulfillment of the following set of conditions when using the claimed utility model:

• a tool that embodies the claimed utility model in its implementation, is intended for measuring equipment and can be used to control the speed of detonation propagation in testing products containing explosives;

• for the claimed device in the form as described in the independent paragraph of the utility model formula, the possibility of its implementation is confirmed;

• a tool that embodies the claimed utility model in the implementation, is able to provide the creation of a housing optical sensor that allows to determine the nature of detonation and to measure the detonation velocity of explosives in an opaque case.

Therefore, the claimed utility model meets the condition of "industrial applicability".

Claims (1)

An optical housing sensor for determining the detonation velocity, comprising an optical fiber, characterized in that the sensor is made in the form of a base with holes over which the optical fiber is laid.

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