RU2742787C1 - Guided projectile - Google Patents

Abstract

FIELD: military tech.

SUBSTANCE: invention relates namely to guided missiles and projectiles, and can be used in the development of guided missiles, anti-missiles and ballistic missiles. The controlled projectile contains a body, a steering drive with a control equipment unit and a power supply unit, control signal transmission lines. Open air optical communication line was used as a control signal transmission line, passing through all compartments inside the projectile through coaxial holes of the minimum size. Dividing prism is installed in each compartment. It provides removal of part of the laser beam energy to the transceiver for transmitting signals from the laser information transmission line to the consumers installed in this compartment.

EFFECT: technical result is increase in reliability of the projectile by means of ensuring protection of signal circuits from electromagnetic interference throughout their passage through projectile compartments, simplifying the assembly of products, as well as increasing the resistance of electrical installation to effects of large longitudinal and transverse accelerations and vibrations.

1 cl

Description

The technical field to which the invention relates

The invention relates to the field of military technology, namely to guided missiles and missiles, and can be used in the development of guided missiles and missiles, anti-missiles and ballistic missiles.

State of the art

It is known that ensuring the reliability of modern guided projectiles depends on control equipment and wiring, and due to the constant increase in the initial velocities of projectiles and missiles, therefore, the longitudinal and transverse accelerations and vibrations acting on them, ensuring the reliability of wiring becomes problematic. Conductors passing in the same bundle cause mutual interference and pickup, which requires the use of measures to screen low-current signal circuits. A significant limitation on the electrical installation inside the projectile is the use of various connectors for the installation of electrical harnesses, which, on the one hand, have transverse dimensions that significantly exceed the diameter of the electrical harnesses used. This requires providing through holes in the design of the projectile compartments sufficient in diameter to pull the used connectors and harnesses; on the other hand, the presence of a large number of contacts in the connectors increases the likelihood of problems with the reliability of contact connections in the projectile electrical circuit.

Known technical solutions for the design of guided projectiles:

- Invention "Guided artillery shell", RF patent RU 2110759, F42B 15/00, publication date: 05/10/1998;

- Invention "Guided projectile", RF patent RU 2191982 C1, F42B 15/00, publication date: 27.10.2002;

- Patent GB 1332911 A, F42B 15/00, publication date: 10.10.1973;

- Patent FR 2519752 A1 F42B 15/00, publication date: 07/18/1983;

- Patent JP 4-184100, F42B 15/00, publication date: 01.07.1992.

The proposed technical solutions for the design of guided missiles and projectiles, containing a body, a steering gear, a control equipment unit, located in the body and electrically connected to other elements of the projectile by means of stranded wires tied into a single bundle, make it possible to reduce the mass of electrical wiring, therefore, to increase its resistance to exposure to high accelerations and vibrations.

To eliminate electromagnetic interference and noise that distort low-current signals as a result of exposure to electric fields from other conductors, the above technical solutions use various methods of shielding signal wires in a bundle, with the shield grounded to the projectile body. However, signal circuits in electrical wiring run not only in the harness, but also in the communication board, and in the block with contacts that tie together the entire wiring.

The presence of circuits with high currents and voltages in the same installation elements does not completely solve the problem of protecting signal circuits from the influence of high-current circuits by shielding. In addition, the introduction of metal screens into the structure of the bundle increases its mass and, along with the complication of the design, reduces the resistance of electrical installations to the effects of large accelerations and vibrations.

As a prototype of the invention can be considered the technical solution proposed in the invention "Guided projectile", RF patent RU 2234668 C1, F42B 15/00, publication date 20.08.2004.

The essence of the invention lies in the fact that the projectile contains a housing, a steering gear with a control equipment unit and a power supply unit, connected to each other by multi-core ribbon wires tied into a single bundle, and containing low-current signal electrical control circuits. Low-current control signal circuits in the ribbon harness, the block with contacts and on the communication board are separated from other conductors of electrical wiring by conductors grounded to the shell of the shell. The implementation of the invention, according to the authors, makes it possible to provide electromagnetic decoupling of signal low-current control circuits among themselves and from high-current power supply circuits, to increase the reliability of the projectile and resistance to the effects of starting accelerations.

The disadvantages of the prototype of the invention are:

- incomplete shielding of low-current signal circuits;

- increased weight of the bundle by the value of the mass of the grounded conductors in the bundle, laid between the conductors of the signal low-current circuits to shield them from each other and from high-current power supply circuits;

- the presence of through holes in the design of the projectile compartments, significant in diameter for broaching the used connectors and harnesses;

- reduced reliability of connections during assembly and operation of shells due to an increase in the number of contacts in connectors.

These disadvantages reduce the reliability of the projectile due to the appearance of additional grounding contacts in the electrical connectors and the stability of the electrical harness as a whole to the effects of longitudinal and transverse accelerations and vibrations, and also reduce the mounting density, the total specific weight of the projectile.

The task of the proposed design is to eliminate the disadvantages of the above-described projectile, namely, to increase the reliability of the projectile by ensuring the protection of signal circuits from electromagnetic interference throughout their passage through the projectile compartments, simplifying the assembly of products, as well as increasing the resistance of electrical installation to the effects of large longitudinal and transverse accelerations and vibrations ...

Disclosure of the essence of the invention

The essence of the invention lies in the fact that the transmission of control signals in the bundle is carried out via an optical transmission line of open air passing through all compartments inside the projectile through coaxial holes of the minimum required size.

The positive effect of the proposed technical solution is:

- the fundamental impossibility of induction of electric and magnetic fields on the optical transmission line of control signals;

- a significant increase in the stability of signal transmission between the nodes and blocks of the projectile to the effects of large longitudinal and lateral accelerations and vibrations;

- a significant reduction in labor costs when assembling shells.

Implementation of the invention

The transmission of signal information in the projectile uses an open air optical communication line, passing through all the compartments inside the projectile through coaxial holes of the minimum required size.

A dividing prism is installed in each section of the projectile, which provides a diversion of part of the energy of the optical beam to the transceiver, which transmits signals from the optical data transmission line to the onboard equipment units installed in this compartment.

To provide power to the on-board equipment, one high-current connector for on-board power supply is installed in the compartments on the front and rear walls of each compartment. The connectors are interconnected by electric wires of sufficient cross-section and provide power supply to all consumers installed in each compartment. Connectors of adjacent compartments are joined together when assembling the projectile.

Claims (1)

A controlled projectile containing a housing, a steering drive with a control equipment unit and a power supply unit, a control signal transmission line, characterized in that an open air optical communication line is used as a control signal transmission line, passing through all compartments inside the projectile through coaxial holes of the minimum size, a dividing prism is installed in each compartment, providing a part of the laser beam energy to the transceiver for transmitting signals from the laser information transmission line to the consumers installed in this compartment.