UA150406U - Military spacecraft - Google Patents

Abstract

The military spacecraft includes homing missiles and propulsion control equipment, a computer, a system of protection against external influences installed both inside the combat compartment of the ship and on the outside of the hull, a space monitoring system connected to a video camera mounted on the outside the bow of the ship's warhead parallel to its longitudinal axis, a laser rangefinder with emitter and a reusable container for launching missiles with laser semi-active homing, which is installed so that the longitudinal axis of its launch window is parallel to the longitudinal axis of the ship. The emitter is mounted on the outer nose of the combat compartment and is located on a rotating platform in two planes, mechanically connected to the drives and sensors of the angle of rotation. In the initial state of the platform, the emitter is located along the longitudinal axis of the ship. The computer is connected to a reusable launch container, a monitoring system, a backlight rangefinder, platform drives and their rotation sensors, and to the engine compartment control equipment. 1

Description

The useful model belongs to the field of high-precision weapons, which is part of the armament complex of an unmanned spacecraft, the main components of which are installed inside and outside the combat compartment of the ship, and the destruction of the space object is carried out directly from space by homing missiles of the "Cosmos-Cosmos" class, equipment which perceives pulses of laser radiation reflected from the object, sent from the ship's side.

A known method of defeating a space object using an aviation interception complex for defeating artificial satellites of the Earth in low orbits (up to 1000 km). "ABAM-135 ABZAT anti-satellite missile (via /hy.mikiredia.ogu/lmiki/yero ch59E9501 9580 9500 95ВЕ9501 9582 9600 9688 9500 9582 9500 958

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The aircraft interceptor complex includes an E-15A carrier aircraft and a two-stage Air-Space missile. As the first stage, a solid rocket engine is used, and as the second stage, the MNIM interceptor is used. The interceptor contains several flight path correction engines and an infrared homing head.

The approach of the interceptor to the affected object occurs due to the perception by the infrared homing head of the thermal radiation of the object, caused both by its heating by the sun's rays and by the work of various types of equipment inside it.

The object is damaged by kinetic energy when an interceptor with a diameter of 300 mm hits it.

For a guaranteed destruction of an orbital object, it is necessary to deploy several carrier aircraft at remote bases. At the same time, the effectiveness of hitting orbital objects depends on the number of available carrier aircraft and the extent of the network of their bases.

The disadvantage of the known technical solution is the high cost of maintaining the complex. This disadvantage is due to the need to deploy several carrier aircraft at bases far from each other. The need for several carriers, in turn, is due to the impossibility of hitting more than one object without returning the carrier aircraft to the base.

The basis of the useful model is the task of creating such a spacecraft for military purposes, the use of which would allow to reduce maintenance costs for

Due to the location of the means of destruction in outer space, which in turn will allow its use against several objects located in a wide altitude range of orbits.

The task is solved by the fact that the spaceship of military purpose contains self-guided missiles and propulsion compartment control equipment, a computer, a system of protection against external influences, installed both inside the combat compartment of the ship and on the side of the outer hull of the ship, a space monitoring system connected with a video camera mounted on the outer bow side of the hull of the combat compartment of the ship parallel to its longitudinal axis, a laser rangefinder-illuminator with an emitter and a reusable container for launching missiles with laser semi-active homing, which is installed so that the longitudinal axis of its launch window is parallel to the longitudinal axis of the ship , and the emitter is installed on the outer bow side of the combat compartment and is located on a platform rotating in two planes, mechanically connected to drives and sensors of the angle of rotation, while in the initial state of the platform, the emitter is located along the longitudinal axis of the ship , and the computer is connected to the reusable launch container, the monitoring system, the rangefinder-illuminator, the platform drives and their rotation sensors and the propulsion compartment control equipment.

The design of a military spaceship allows for placement of weapons in outer space, which in turn will allow it to be used against several objects located in a wide altitude range of orbits.

The location of weapons in space and their use against several objects located in a wide altitude range of orbits will allow to significantly reduce the costs of their maintenance.

The useful model is explained by a detailed description of its implementation with references to the drawings, which show: - in Fig. 1 - military spacecraft, general view; - in Fig. 2 - military spacecraft, top view; - in Fig. C is a block diagram of the components of a military spacecraft.

A spaceship of military purpose contains several self-guided missiles 1 (Fig. 1), control equipment 2, propulsion compartment 3, computer 4, protection system 5 from external influence, installed both inside the combat compartment b and on the outside of the hull 7 of the ship, the space monitoring system 8, connected to the video camera 9, installed on the outer bow side 10 of the body 7 of the combat compartment b parallel to its longitudinal axis 11, a laser rangefinder-illuminator 12 with an emitter 13, a reusable container 14 for launching missiles 1 with laser semi-active homing , installed inside the fighting compartment 6 so that the axis of its launch window 15 is parallel to the longitudinal axis 11 of the ship.

The emitter 13 is installed on the outer bow side 10 of the fighting compartment 6 of the spaceship and is located on a platform 16 rotating in two planes, mechanically connected to the actuators 17 and sensors of the angle of rotation 18.

In the initial state of the platform 16, the emitter 13 is located along the longitudinal axis 11 of the ship, and the computer 4 is connected to the reusable launch container 14, the monitoring system 8, the rangefinder-illuminator 12, the drives 17 of the platform 16 and their rotation sensors 18 and to the control equipment 2 of the propulsion compartment 3.

The work of a military spacecraft is carried out in this way.

The spaceship with a rocket carrier should be brought into the zone of the orbit of the affected object, for example, to the geocentric orbit where the satellites of the SRB or GLONASS system are located (25,000-30,000 km).

According to the given program or according to the command from the Earth, the monitoring of outer space begins with the automatic monitoring system 8 based on the information from the video camera 9 for the purpose of detecting the object against the background of stars. Range finder 12, video camera 9, monitoring system 8 and on-board computer 4 participate in this mode, the brightness values of all stars (this is about 500) are entered into the memory, which can be compared in brightness with the brightness of the intended object of damage in the given sector review The video camera 9 captures the space with its sequential automatic strobing by the monitoring system 8.

The emitter 13 of the rangefinder 12, installed on the repeat platform 16, is turned according to the commands from the computer 4, which receives the values of the angles of rotation of the platform and the coordinates of each strobing point. According to these data, the rangefinder 12 sends a laser pulse.

If there is a reflected signal, the ship is turned by the command from the computer 4 with the help of the control equipment 2 and the maneuvering engines of the C compartment towards the object, forming a virtual axis between the ship and the target.

Platform 16 with the emitter 13 of the rangefinder-illuminator 12 located on it should be installed along the inner axis according to the command from the computer 4.

According to the command from the computer 4, the rocket is launched from the reusable container 14 through the launch window 15 (Fig. 2). After the missile leaves the ship at a given distance and the short-term operation of the rocket’s acceleration engine, it is fired from it, which makes it possible to determine the speed of the missile due to the laser pulses of the range finder 12 reflected from it. object (maximum range of about 30-40 km) the moment of switching off the rangefinder 12 in the illumination mode of the affected object at the end of its approach to the object.

The missile flight process is ensured so that the missile is away from the target for 3-4 seconds. in the area of its search for an object with a homing head. At the same time, the axis of motion of the missile is close to the virtual axis on which the target is located.

According to the commands of the homing head, the missile will be in the zone of destruction of the object. The object is damaged by its collision with the impact field associated with the missile body with a diameter of about 3-4 m.

For the approach to the next object, the marching and maneuvering engines installed in the propulsion compartment of the ship are used.

The operation of the ship's protection system 5 against external influence, for example from inspection satellites, consists in the fact that it engages minimortars (smooth-barreled guns) installed outside the fighting compartment body, on the command of the computer 4 according to the data of the range finder 12 and the monitoring system 8.

Mortars are located on hinged rods that open after the ship enters a given orbit and are equipped with a certain amount of shrapnel, which, when fired at an approaching object at a distance of less than 100 m, disable it.

Thus, the design of the spaceship for military purpose allows to place the means of destruction in outer space, which in turn will allow to use it against several objects located in a wide altitude range of orbits.

The location of weapons in space and their use against several objects placed in a wide altitude range of orbits will allow to significantly reduce the costs of their maintenance. 60 This weapon can be an effective means of non-nuclear deterrence of the enemy.

A useful model can be implemented using standard equipment, components and materials currently used in the aerospace industry.

List of markings on the drawings: 1 - self-guided missiles; 2 - engine compartment control equipment;

C - motor compartment; 4 - calculator; 5 - protection system; 6 - fighting compartment of the ship; 7 - ship hull; 8 - space monitoring system; 9 - video camera; 10 - outer front side of the fighting compartment housing; 11 - longitudinal axis of the combat compartment; 12 - rangefinder-illuminator; 13 - emitter of the rangefinder-illuminator; 14 - reusable container for launching homing missiles; 15 - launch window of a reusable container; 16 - rotary platform; 17 - platform rotation drives; 18 - platform rotation angle sensors.

Claims (1)

UTILITY MODEL FORMULA A military spaceship contains homing missiles and propulsion compartment control equipment, a computer, an external impact protection system installed both inside the combat compartment of the ship and on the outside of the ship's hull, a space monitoring system connected to a video camera, installed on the outer bow side of the hull of the combat compartment of the ship parallel to its longitudinal axis, a laser rangefinder-Zo illuminator with an emitter and a reusable container for launching missiles with laser semi-active homing, which is installed in such a way that the longitudinal axis of its launch window is parallel to the longitudinal axis of the ship, and the emitter is installed on the outer bow side of the combat compartment and is located on a platform rotating in two planes, mechanically connected to drives and sensors of the angle of rotation, while in the initial state of the platform, the emitter is located along the longitudinal axis of the ship, and the computer is connected to the reusable launch container, the monitoring system, the illuminator rangefinder, the platform drives and their rotation sensors, and the propulsion compartment control equipment.