RU137362U1 - MILITARY ARMS DEVICE - Google Patents

Abstract

1. An anti-submarine weapon device made in the form of a missile containing a control system, a detachable underwater warhead and at least one detachable sonar buoy, while the rocket is equipped with an accelerating device, which is docked by means of a separation device, and its control system is equipped equipment for receiving information about the location of the target on the radio channel, characterized in that the missile is made in the form of a cruise missile and is equipped with a marching power plant based on air eaktivnogo dvigatelya.2. The device according to claim 1, characterized in that the propulsion engine is made turbojet. The device according to claim 1, characterized in that the air-propelled engine of the marching propulsion system is made direct-flow.

Description

The utility model relates to devices for hitting an underwater target, using the underwater warhead delivered by a rocket.

A device for hitting underwater targets at long ranges is known, patent RU No. 2371668, made in the form of a ballistic missile (BR), in the bow of which, under the dropping fairing, there is a cruise missile (CR) with a device for its separation; KR contains a detachable warhead underwater action, as well as at least one detachable sonar buoy; the control system of the Kyrgyz Republic is equipped with equipment for receiving information from a radio-acoustic buoy via radio channel about the location of the target. The BR is equipped with an accelerating engine (accelerating device), and may contain a device for its separation.

The essential features of the proposed device that match the features of the prototype are the following: anti-submarine weapon system made in the form of a missile containing a control system, detachable underwater warhead, and at least one detachable sonar buoy, while the missile is equipped with an accelerating device, with which it is docked by means of a separation device, and its control system is equipped with equipment for receiving information about the location of the target via a radio channel.

In the known device for the flight of the BR along a ballistic trajectory, the thrust of the booster must exceed the weight of the BR, which determines a large consumption and fuel supply, including a large consumption of oxidizer, which is technically impossible to take from the atmosphere, and therefore, in the volume of BR, besides fuel, the required for flight oxidizer reserve. These factors increase the mass of the device. In addition, during the flight of the BR, aerodynamic lifting force is not used, which additionally increases the required fuel consumption, its reserve in the composition of the BR and its mass. The large mass of BR complicates its manufacture, maintenance during operation, transportation and increases their cost, as well as facilitates opposition to enemy forces, which reduces the likelihood of hitting an underwater target.

The technical problem to which the proposed device is directed is to reduce its mass.

To solve the problem in an anti-submarine weapon system made in the form of a missile containing a control system, a detachable underwater warhead, and at least one detachable sonar buoy, the rocket is equipped with an accelerating device, which is docked by means of a separation device, and its control system is equipped with equipment for receiving information about the location of the target by radio channel, the missile is made in the form of a cruise missile and is equipped with a marching power plant based on f jet engine. For an economical flight on a marching section at altitudes of 0.05-15 km at subsonic speed, the rocket propulsion engine’s propulsion system is made turbojet. For an economical flight on a marching section at altitudes of 10-40 km at a supersonic speed, the rocket propulsion engine’s marching propulsion system is straight-through.

Distinctive features of the proposed device: the rocket is made in the form of a cruise missile and is equipped with a marching power plant based on an air-jet engine; the rocket propulsion engine is turbojet; the rocket propulsion engine of the rocket propulsion system is straight-through.

Due to the presence of these distinctive features in conjunction with the known, the following technical result is achieved - the mass of the device, the time and money spent on its manufacture, maintenance during operation and transportation are reduced, the range of the possible range of destruction of the underwater target is expanded, and the likelihood of damage to the underwater target is increased.

The proposed technical solution can find application in the development of anti-submarine weapons of reduced mass and an extended range range, increased probability of hitting submarine targets.

The device is illustrated in the drawing, in which the power plant used one of the options for an air-jet engine - ramjet (ramjet).

The anti-submarine weapons device is made in the form of KR 1, including a control system 2, steering surfaces 3 with actuators 4 in communication with the control system 2. KR 1 is equipped with a marching power plant containing ramjet 5, a fuel tank 6, a fuel supply line 7 to ramjet 5, containing a fuel metering device 8, in communication with the control system 2. KR 1 also contains a warhead 9 underwater with a device 10 for its separation, in communication with the control system 2, at least one radio-acoustic buoy 11 with a device 12 for its separation, in communication with the control system 2, including apparatus 13 for receiving radio waves, calculating the adjusted coordinates goals and definitions of the separation point of the underwater warhead 9, an accelerator made in the form of a solid propellant rocket engine (RDTT) 14 located in the ramjet cavity 15 5 and docked with the KR 1 by means of the device 16 about divisions. As an acceleration device, a carrier aircraft can also be used as the main acceleration device or additional. The ramjet 5 contains a multi-leaf adjustable jet nozzle 17. The orifice cavity 18 of the jet nozzle 17 of the ramjet 5 is connected to the atmosphere by a line 19 containing a shutoff valve 20 in communication with the control system 2.

The device operates as follows. The fuel reserve of the solid propellant rocket engine 14 is selected based on ensuring the acceleration of the rocket engine 1 to a speed sufficient to create aerodynamic lift supporting the flight of the rocket engine 1 and launch ramjet 5. Once the solid rocket rocket fuel burns out 14, the control system 2 activates the separation device 16, ensuring separation of the rocket engine 1 and rocket engine 14 , which is ejected under the influence of excess air pressure in the cavity 15 ramjet 5. The control system 2 provides the launch ramjet 5 and mid-flight KR 1 from the start to the target area. Moreover, due to the fact that the marching propulsion system based on ramjet ramjet 5 uses atmospheric oxygen to burn fuel coming from the fuel tank 6 through line 7 through the dispenser 8, the starting mass of KR 1 decreases several times due to a decrease in the required fuel supply for it board and, accordingly, reducing the mass of the power plant structure. The cruise flight of the Kyrgyz Republic 1 to the area of the marine target is carried out using aerodynamic lift, therefore, with low fuel consumption in the ramjet 5, and is performed at altitudes of 10-40 km. The use of ramjet 5 in a power plant provides an increase in the cruising speed of the KR 1 and reduces the flight time of the KR 1 to the target area. When a turbojet engine (turbojet engine, not shown) is used in the marching power plant instead of the ramjet 5, the low-cost march flight of rocket 1 to the sea target area, with low fuel consumption, is performed at altitudes of 0.05-15 km. The marching flight of CR 1 with a turbojet engine at low altitude reduces the visibility of CR 1 against the background of the Earth’s surface, which reduces the likelihood of its detection and counteraction, and thereby increases the likelihood of hitting an underwater target. The presence of a marching power plant based on an air-jet engine (ramjet 5 or turbojet engine) in combination with the possibility of maneuverable flight of the KR 1 in the atmosphere, provides a variety of flight paths of the KR 1 and delivery of the sonar buoy 11 and the underwater warhead 9 to both large and at short ranges, which extends the possible range of range of application of the device. The presence of a multi-leaf adjustable jet nozzle 17 allows, after the KR 1 has been set to altitude and flight speed, at the command of control system 2, the valve 20 is activated to shut off line 19, while the gas discharge from the suprastatic cavity 18 into the atmosphere ceases, and the gases flowing through the gaps between the wings the jet nozzle 17 into the cavity 18, increase the pressure in it, under the action of which the jet nozzle 17 is translated into position with a minimum critical section. The decrease in the critical cross section of the jet nozzle 17 leads to an increase in pressure in the combustion chamber and the thrust of the ramjet 5, which allows the control system 2 by acting on the dispenser 8 to reduce fuel consumption from the tank 6 along the line 7 in the ramjet 5 and thereby further reduce the required fuel supply in the fuel tank 6, the mass of the tank 6 and the mass of the CR 1 as a whole. In the area of the location of the underwater target, KR 1 separates at least one sonar buoy 11 by activating the device 12 of its separation. The presence in the KR 1 of several sonar buoys 11, allows, thanks to their location after splashdown at a distance from each other, with different angles of direction to the target, with known proper coordinates, to determine the coordinates of the underwater target with greater accuracy, and to ensure the involvement of the device 10 for splashdown warhead 9 underwater action closer to the location of the target, which further increases the likelihood of its destruction.

Claims (3)

1. An anti-submarine weapon device made in the form of a missile containing a control system, a detachable underwater warhead and at least one detachable sonar buoy, while the rocket is equipped with an accelerating device, which is docked by means of a separation device, and its control system is equipped equipment for receiving information about the location of the target on the radio channel, characterized in that the missile is made in the form of a cruise missile and is equipped with a marching power plant based on air eaktivnogo engine. 2. The device according to claim 1, characterized in that the propulsion engine is made turbojet. 3. The device according to claim 1, characterized in that the marching propulsion engine is made once-through.

Images