RU2755289C1 - Imitation reflector - Google Patents

Abstract

FIELD: military affairs.

SUBSTANCE: invention relates to the field of military affairs, and more specifically to disrupting the enemy’s reconnaissance by aerospace and ground-based laser means of location and ranging. The imitation reflector contains a laser irradiation indicator, a small-sized electric motor with a housing attached to its shaft, a small-sized power source and a device for automatically switching it on/off. The housing is represented by a support ball segment (7), with a protective casing (8) permanently attached to it, in the form of a ball, containing an internal inflatable chamber with a coupling, and a rod (11), with an adjustment mechanism on it, in the form of two corrugated disks on a single axis with a clamping handle (14). The reflecting elements (15) are made in the form of flat rectangular mirrors rigidly fixed along vertical forming lines to the protective casing, with distances between their rows equal to half the width of the mirror.

EFFECT: automation of operation is provided, which increases the operational characteristics of the simulation reflector and the ability to provide it with control of the entire airspace of the upper hemisphere over the hidden object.

1 cl, 5 dwg

Description

The invention relates to the field of military affairs, and more specifically for disrupting the conduct of reconnaissance by the enemy by laser means of ranging and ranging aerospace and ground based.

The closest analogue for the proposed technical solution, known from the prior art and disclosed in publicly available information sources, has not been identified, while the physical principle of operation of prism laser corner reflectors in the field of pulsed ranging and ranging is well known in itself (Tarasov L.V. - lasers ", published by Radio and communication, 1993, Fedorov BV" Lasers - the basics of the device and application ", published by DOSAAF, 1990; Orlov VA" Lasers in military technology. " , Military Publishing, 1986.).

The task of the proposed technical solution is to automate its functioning, which will increase the operational characteristics of the imitation reflector and the ability to ensure its control of the entire airspace of the upper hemisphere over the hidden object.

The solution to this problem is achieved by the fact that the proposed imitation reflector contains an indicator of laser irradiation, a small-sized electric motor with a housing fixed to its shaft, a small-sized power supply and a device for its automatic on / off, while the housing is represented by a supporting ball segment, with a protective casing permanently fixed to it. , in the form of a ball, containing an internal inflatable chamber with a couplung, and a bar, with an adjustment mechanism on it, in the form of two corrugated discs on a single axis with a tightening handle, and the reflecting elements are made in the form of flat rectangular mirrors rigidly fixed along the vertical generating lines to protective casing, with distances between their rows equal to half the width of the mirror.

The essence of the proposed technical solution is illustrated by the following images:

in fig. 1 shows a variant of installing an imitation reflector on a moving object (the object is shown conventionally);

in fig. 2 shows the reflector in the working position;

in fig. 3, 4 show a section and a node explaining its construction;

in fig. 5 shows the transport position of the reflector (the electric motor is conventionally not shown).

The proposed imitation reflector 1 (Fig. 1 ... 5) contains a laser irradiation indicator 2, a small-sized electric motor 3 with a housing 4 fixed to its shaft, a small-sized power supply 5 and a device for its automatic on / off 6. In the imitation reflector 1, housing 4 is presented a supporting ball segment 7, with a protective casing 8 permanently fixed to it, in the form of a ball, containing an internal inflatable chamber 9 with a couplung 10, and a rod 11, with an adjustment mechanism on it, in the form of two corrugated discs 12 on a single axis 13 with a tightening handle 14. In the imitation reflector 1, the reflecting elements 15 are made in the form of flat rectangular mirrors rigidly fixed along the vertical generatrix lines to the protective casing 8, with the distances between their rows equal to half the width of the mirror.

The simulated reflector works as follows. When moving around the terrain of the hidden object, the switched on laser irradiation indicator 2 constantly keeps the airspace under control. The reflector body 4 is installed on the highest part of the hidden object (for example, using a universal mounting support, Patent for utility model RU No. 176070). The air from the inflatable chamber is released, the protective casing 8 with reflective elements 15 is in a folded position in the support segment 7.

When laser irradiation from the enemy's laser emitter appears, indicator 2 is triggered and through the couplung (self-closing valve) 10 provides the supply of compressed air inside the inflatable chamber, using the pneumatic system of the vehicle on which the reflector is installed, or pre-prepared cylinders with compressed air (for example, used for diving), giving it a spherical appearance. Further, the indicator 2 sends a signal in the form of a pulse to the automatic on / off device, which turns on the electric motor 3. The electric motor starts rotation of the housing 4 with elements reflecting laser radiation, which re-reflect the electromagnetic radiation in the opposite direction, and since there is free space between the mirrors during rotation, then there is a breakdown of guidance, then again a capture and a new breakdown. Studies have shown that on the reflector body there should be at least 4 stripes 3 ... 5 cm wide not covered by mirrors. Under this condition, the disruption of the laser beam guidance is guaranteed.

The location of the mirrors along the entire perimeter of the protective casing provides full control of the airspace of the upper hemisphere, while re-reflection occurs both at a right angle (from the zenith) and parallel to the earth's surface.

The use of couplung allows you to connect the protective casing to the compressed air system without disconnecting the pressure, which saves the time of bringing the reflector into the working position. To transfer the reflector to the transport position, the air from the inflatable chamber is bled off by means of a couplung, and the protective casing with mirrors is placed inside the supporting ball segment.

The use of an adjusting mechanism in the proposed technical solution provides a rotation of the reflector housing relative to the axis of the electric motor and its installation at a given angle. This allows the hidden object to move over any terrain with the presence of slopes, rises and all kinds of turns.

The readiness of the proposed technical device for implementation is characterized by the presence of production capacities for the manufacture of the used metal parts (industrial enterprises with the presence of turning and milling shops and welding equipment, repair enterprises of automobile and tractor equipment, park equipment of military units), as well as the presence of a pneumatic casing made of airtight material ( CJSC NPP Rusbal, Moscow), couplings, widely used in the gas industry, mirrors produced by the Russian chemical industry for technical and domestic use, compact electric motors with an automatic on / off device and small-sized power supplies, presented in a wide range of domestic electrical industry , indicators of laser irradiation of the TShU type from the composition of the "Shtora" optical-electronic suppression complex, installed on armored vehicles.

Theoretical studies carried out in the process of developing the application materials showed that the proposed imitation reflector makes it possible to control the entire airspace of the upper hemisphere over the hidden object from the effects of laser radiation, bringing the survivability of the object to unity.

Claims (1)

An imitation reflector, characterized in that its design contains a laser irradiation indicator, a small-sized electric motor with a housing fixed to its shaft, a small-sized power supply and a device for its automatic on / off, while the housing is represented by a supporting ball segment, with a protective casing permanently fixed to it, in the form of a ball, containing an internal inflatable chamber with a kuplung, and a bar, with an adjusting mechanism on it, in the form of two corrugated discs on a single axis with a tightening handle, and the reflecting elements are made in the form of flat rectangular mirrors rigidly fixed along the vertical generating lines to the protective casing, with distances between their rows equal to half the width of the mirror.

Images