RU2204111C2 - Device for determining the shell muzzle velocity - Google Patents

Abstract

FIELD: development and perfection of specimens of weapon, in particular, experimental ballistics at determination of dispersion of bullets and shells in trajectory. SUBSTANCE: used as the measurement base is the length of the bullet or shell, and the muzzle velocity is determined by measurement of the time of passage of the measurement base through a photoelectric target. The device has photoforming units of measurement of the time of flight by the shell of the measurement base. The units are positioned at the end of the armament barrel in two bodies installed on plates bolted to the barrel. The units are poured in by vibration-shock-proof compound and positioned in the upper and lower bodies, they can measure the time of flight of the measurement base by formation with the aid of a phototransducer unit of the first signal at an interruption of the light beam by the front edge of the shell, and of the second signal when the shell leaves the barrel due to opening of the light beam to the phototransducer. EFFECT: enhanced reliability of measurement. 3 dwg

Description

 The invention relates to the development and improvement of weapons, in particular, to experimental ballistics in determining the technical dispersion of bullets and shells on the trajectory.

 Closest to the invention is a device for determining the velocity of a projectile containing photoconversion units for measuring the time of flight of a projectile measuring base according to DE 2754420, B2, class G 01 P 3/68, 07.02.80. A disadvantage of the known device is its lack of reliability of the mounting of the measuring and converting elements. The objective of the invention is to develop a reliable device for measuring muzzle velocity of a projectile directly at the exit of the barrel.

 Schematic diagram of the device shown in the drawing.

 The device consists of the following units located at the end of the gun’s barrel 1: monochromatic light emitter 2, photoconverter 3, power supply 4, amplifier 5, carrier frequency generator 6, analog-to-digital converter (ADC) 7 and calculator 8 connected via a connector 9 with a display unit 10 on the firing control panel.

 All units, except the power supply, are filled with a vibration-shock-resistant compound. Blocks 2, 4, 5 are placed in the upper case 10, and blocks 3, 6, 7, 8 in the lower case 12. Both cases are mounted on plates 13, 14, drawn to the barrel by bolt joints 15 without strict vertical upholding.

 The device operates as follows.

 The projectile 16, flying out of the barrel, interrupts the light beam from the emitter 2 with the leading edge and the photoconverter through the amplifier 6 generates the first signal about the passage of the initial measuring base. When the shell leaves the barrel, the trailing edge opens the light beam from the emitter and the hot powder gas to the photoconverter, and it forms a second signal about the passage of the final measuring base.

где L - длина измерительной базы.Thus, the measuring base is the length of the projectile from its front to the trailing edge. These analog signals are converted into digital ones in the ADC, and the calculator determines the time difference between the first and second signals Δτ, after which it measures the velocity of the projectile according to the algorithm

where L is the length of the measuring base.

 For conventional small arms, the carrier frequency of the generator should be 100 ÷ 200 kHz, for guns - 10 ÷ 20 kHz.

Claims (1)

 A device for determining the muzzle velocity of a projectile, containing photoconversion units for measuring the time of flight of a projectile shell measuring base, characterized in that the blocks are placed on the end of the gun barrel in two buildings mounted on plates, pulled to the barrel by bolt joints, and the blocks are filled with vibration, shock-resistant compound, located in the upper and lower cases and have the ability to measure the time of flight of the measuring base by forming with the help of the photoconverter unit the first signal during interruption SRI monochromatic beam emitter leading edge of the projectile and a second signal when the output of the projectile from the barrel through its open rear edge beam of the hot propellant gas to phototransformator, wherein as measuring bases used projectile length.