RU2309366C1 - Device for determination of coordinates of hitting points of laser fire simulators - Google Patents

Abstract

FIELD: laser system of fire simulation.

SUBSTANCE: the device has a carrying base, photodetector device, information processing and transmission system, light fibers. The carrying base is positioned on the hitting objective, the input ends of the light fibers are introduced in the carrying base, and output ends of the light fibers are combined and form of model geometrically similar to the hitting objective, and is optically integrated with the photodetector made in the form of a two-dimensional matrix photodetector, with the information processing and transmission system connected to its output. The device records and represents the coordinates of the hitting points of the laser fire simulator.

EFFECT: expanded field of application.

3 cl, 1 dwg

Description

The invention relates to laser systems simulating the shooting and destruction of personnel and armored vehicles at firing ranges in conditions as close to combat as possible.

Known devices (the “Fearless”, “Radar”, “Zorkiy” systems, Russia, as well as the MILS systems, USA) for determining the defeat of personnel and armored vehicles at firing ranges that use photodetectors (type FD-142, Russia), mounted on the base installed on the target, connected by a system of wires to a device for processing, transmitting and displaying information.

The disadvantages of this type of device for determining the coordinates of the lesion points are: bulkiness, a limited number of fixation points of the lesion, low noise immunity, the complexity of information processing. A significant drawback of these systems is that the lesion indicator is integral and works when any of the receivers is exposed, without fixing the position of the lesion point.

Also known devices for determining the coordinates of the points of destruction of shooting simulators in shooting conditions: RU 2046272, RU 2083944, RU 2151361, RU 2556827, RU 2147112 C1.

The closest is the invention RU 2147112 C1, in which "... a simulator screen is used, on which a light spot is formed with a laser emitter, an optoelectronic receiver mounted in front of the screen, containing two pairs of band diaphragms, focons and photodetectors located under 90 ° to each other, as well as photocurrent amplifiers, circuits for fixing the maximum signal level, analog-to-digital converters, a computer (computer) and a device for displaying the results of a shot (monitor), ”selected in as a prototype. The disadvantages of the prototype are: the possibility of use only in shooting conditions in the presence of a specialized target, the use of projection optics, the complexity of information processing, due to the organization of the image output to the photo-recording elements.

The aim of the invention is to provide a device for determining the coordinates of the points of destruction of laser simulators of shooting and destruction (target field) of personnel and armored vehicles at the ranges.

The purpose of the invention is achieved by the fact that in the device for determining the coordinates of the points of destruction of laser simulators of shooting and destruction, containing a carrier base, a photodetector, a processing system and information transmission, fiber, carrier base is placed on the target, the input ends of the optical fibers are introduced into the carrier base, the output is the ends of the optical fibers are combined to form a model geometrically similar to the target, and are optically coupled to a two-dimensional photodetector matrix connected to the processing and transmission system inf rmatsii. In addition, lesion indicators are located near the input ends of the optical fibers on a carrier basis, which are connected to the output of the information processing and transmission system through the defeat indication control unit.

The invention is illustrated in the drawing.

The drawing shows: a carrier base located on the target (target) 1, optical fiber 2, input ends of optical fibers 3, output ends of optical fibers 4, lens 5, two-dimensional photodetector 6, information processing and transmission system 7, defeat indication control unit 8, lesion indicators 9.

A device for determining the coordinates of the points of destruction of laser shooting simulators works as follows.

The carrier base 1, in which the optical fiber 2 is mounted, is placed on the target. When the radiation of a laser shooting simulator hits the input end of the optical fiber 3, it is transmitted through the optical fiber 2 to the output end of the optical fiber 4 and displayed using the lens 5 on a two-dimensional photodetector matrix 6, for example, a standard television. Moreover, since the output ends of the optical fibers are combined to form a model geometrically similar to the target, the display point corresponds to the lesion site. From the output of the photodetector matrix 6, the signal is fed to a system for processing and transmitting information 7, which generates signals about the location and extent of the lesion. From the output of the information processing and transmission system 7, the signals are transmitted to the defeat indication control unit 8, which includes defeat indicators 9. At the same time, the signals from the output of the information processing and transmission unit 7 are transmitted to the information collection center. To increase the efficiency of the work, the input ends of the optical fibers 3 can be equipped with an optical system, for example, a lens, a focon, or a gradan, which increases the input area and at the same time narrows the angle of the field of view, which provides noise immunity from tangential lesions and accidental exposure. The system of indicators of the defeat 9 denotes the point of destruction, for example by an optical or smoke signal, and at the same time affects the target at this point by a mechanical or weak electrical signal.

Claims (3)

1. A device for determining the coordinates of the points of destruction for laser firing simulators, containing a carrier base, a photodetector, a system for processing and transmitting information, fiber, characterized in that the carrier base is located on the target, the input ends of the optical fibers are inserted into the carrier base, and the output ends of the optical fibers combined with the formation of a model geometrically similar to the object of destruction and optically coupled to a photodetector made in the form of a two-dimensional matrix photodetector, to the output of the input of the information processing and transmission system is connected. 2. The device according to claim 1, characterized in that it is equipped with optical systems to increase the area and limit the angle of the field of view, installed at the input ends of the optical fibers. 3. The device according to claim 1, characterized in that the lesion indicators are located in the carrier base, which are connected to the output of the information processing system through the defeat indication control unit.