RU2014127800A - OPTICAL SENSOR EXPLOSIVER FOR ARTILLERY AMMO - Google Patents

Abstract

1. A fuse with an optical target sensor for artillery ammunition, comprising a housing inside which a power source is placed, a detonator, a safety cocking mechanism connected to an optical target sensor containing an electronic unit, two or more transmissive channels placed around its longitudinal axis, mainly at equal angular gaps around the circumference, each of which contains a pulsed optical radiation source and a photodetector connected to an electronic unit, characterized in that The optical unit of the optical target sensor includes a module that implements a time-pulse method of determining the distance to the target, the optical radiation source and the photodetector forming the receiving-emitting channel are installed almost close to each other, while their optical axes are parallel and directed in the direction of movement to the longitudinal axis sensor at an angle of 90 ° - (α + α) / 2, where α, α- respectively the minimum and maximum angles of approach to the target, defined as the angle of inclination of the longitudinal axis to the underlying surface in the plane t flight paths. 2. The fuse according to claim 1, characterized in that the electronic unit implements an algorithm for the simultaneous operation of at least two receiving-emitting channels and checking for registration of target identification signals simultaneously on two or more simultaneously functioning receiving-emitting channels. 3. The fuse according to any one of paragraphs. 1 or 2, characterized in that the simultaneously functioning receiving-radiating channels used to check for the simultaneous registration of target identification signals are installed around the longitudinal

Claims (4)

1. A fuse with an optical target sensor for artillery ammunition, comprising a housing inside which a power source is placed, a detonator, a safety cocking mechanism connected to an optical target sensor containing an electronic unit, two or more transmissive channels placed around its longitudinal axis, mainly at equal angular gaps around the circumference, each of which contains a pulsed optical radiation source and a photodetector connected to an electronic unit, characterized in that The optical unit of the optical target sensor includes a module that implements a time-pulse method of determining the distance to the target, the optical radiation source and the photodetector forming the receiving-emitting channel are installed almost close to each other, while their optical axes are parallel and directed in the direction of movement to the longitudinal axis sensor 90 _{° - (α min + α max} ) / 2, where α _min, α _max - the minimum and maximum angles of approach to the target, defined as the longitudinal axis inclination angle to the underlying surface loskosti trajectory. 2. The fuse according to claim 1, characterized in that the electronic unit implements an algorithm for the simultaneous operation of at least two receiving-emitting channels and checking for registration of target identification signals simultaneously on two or more simultaneously functioning receiving-emitting channels. 3. The fuse according to any one of paragraphs. 1 or 2, characterized in that the simultaneously functioning receiving-emitting channels used to check for the simultaneous registration of target identification signals are installed around the longitudinal axis of the range finder at the maximum angular distance from each other in the radial direction, mainly diametrically opposite. 4. The fuse according to claim 1, characterized in that the electronic unit implements an algorithm that provides simultaneous operation of two receiving-emitting channels installed at a maximum angular distance from each other, mainly diametrically opposed, monitoring the event of simultaneous registration of the target identification signal by the specified channels, and blocking the issuance of a command for the fuse in the event of the implementation of this event.