SU297924A1 - DETONATION SPEED MEASUREMENTS - Google Patents

Description

The invention relates to the field of instrumentation, namely to devices for measuring the detonation velocity of explosive vendesTv.

There are methods and instruments for measuring the detonation velocity, based on the use of optical and mechanical effects that accompany detonation, for example, high-speed photo recorders operating in continuous sweep mode or in a time magnifier mode; detonation velocity measurement methods in which the time between two signals from the sensors of the location of the detonation wave is measured using oscilloscopes, etc. The use of these devices is in most cases limited to the scope of laboratory tests.

A relatively simple device for detecting short periods of time is also known, in particular, used to measure the speed of sound waves using sparking lamps switched on by pulses from the front-position sensors of the process under study, such as contact sensors. The beam of light from the lamps of constant light using the optical system is focused on a rotating drum with photo paper. In the indicated device, the overlapping of the light path during the repeated revolutions of the drum and the loss of the mark are eliminated by the use of a relay switching the lamps in a certain sequence after registering the mark. The use of a relay as well as a precision optical system complicates the device and also limits the possibilities of using it in conditions as close as possible to production conditions — for example, when testing detonating cords at a base stock site, determining the detonation rate by the length of charges in deep wells and holes. great depths directly in the quarries.

The aim of the invention is the creation of such a device for measuring the detonation velocity, which would provide a high accuracy of measurements in combination with a clutter, in particular with the elimination of a relay system for switching on lamps, and the possibility of using it under production conditions.

To achieve this goal, instead of lamps with a constant luminosity and a relay system controlling the duration of their operation, the device uses flash lamps with a time-varying intensity of luminous flux installed directly on the opaque housing of the device against the holes in it for the passage of light signals.

light-proof casing / with holes 2 for the passage of light rays placed vertically, equipped with a removable cover 3, a drum 4 with photographic paper fixed on it using a photo paper, mounted on the drive shaft 5 placed on the cover 3 of the housing. Lampslips 6, for example, type IFK-120, are installed against each of the holes in the housing by means of special connectors in the sockets. The impulse to the igniting electrodes is supplied from the sensors of the location of the detonation wave front, included in the standard ignition circuit of the flashlights based on the pulse transformer. The ignition circuit and the power supply circuit of the discharge circuit are not shown in the drawing because of their well-knownness in the drawing.

The device works as follows.

Turning on a drive, such as an asynchronous motor, the drum with photographic paper mounted on it is driven to rotate at a predetermined number of revolutions controlled by a tachometer. When the signal from the sensor appears in the ignition circuit of the flash lamp from the signal in the secondary winding of the pulse transformer, the capacitor battery is discharged through the discharge gap of the lamp, and the intensity modulated signal is sent to the corresponding window in the case

discharge circuit (capacitor capacitance). The signal from the next sensor triggers a similar process, and the optical signal is recorded on the rotating photo paper offset vertically. One of the advantages of the instrument is the possibility of detecting signals from many sensors, for example, 20-30, with its help, which makes this instrument especially useful when conducting tests related to the measurement of the detonation velocity at many points.

Subject invention

A device for measuring the detonation velocity, containing a light-proof cylindrical body with openings for the passage of light rays and a removable cover, a drum with photosensitive material and a drive, light sources, sensors for the location of the detonation wave front, connected to the primary winding of a pulse transformer with a battery of high-voltage capacitors, different the fact that, in order to increase the reliability of measurements and increase the number of recorded points, the light sources in it are made of placed locally in a row on the body with the holes flash bulbs with a duration of the light pulse mensche period of rotation of the drum included in the secondary winding of the pulse transformer.

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