RU2258893C1 - Radio-controlled missile - Google Patents

Abstract

FIELD: armament.

SUBSTANCE: the radio-controlled missile has a body, engine, control equipment, whose input via feeder channels is connected to the antennas. The control equipment is positioned in the axisymmetric space formed inside the engine near its front end face. The feeder channels are provided with high-frequency connectors, having a threaded joint between them. The connector bodies are made in the form of a bottom cylinder with a central axial hole. A tapered-section nut is installed on the cylinder outer surface by means of a threaded connection, it is positioned in a radial tapered hole made on the side surface of the missile body near the front end face of the engine concentrically to the connectors, whose parts located on the side of the control equipment, are fastened inside the body.

EFFECT: reduced length of the missile.

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Description

The invention relates to the field of rocket technology and can be used in missile systems with a radio command control system.

Known radio-controlled missile complex "Crotal" [1], containing an engine located in the rear of the rocket, control equipment with antennas (devices that convert radio waves into directed electromagnetic waves, and vice versa) located at the ends of the tail in the rear of the rocket and connected to the equipment control, located in front of the rocket, feeder path. Aiming commands from the ground radar are received by the antenna devices of the rocket and transmitted via feeder paths to the control equipment. The disadvantage of this device is the high level of signal reception of the side and rear lobes of the antenna radiation patterns due to the lack of the ability to suppress side lobes due to the small dimensions of the antennas located on the plumage, which reduces the noise immunity of the complex. In addition, due to the large length of the feeder path (since energy is channeled from the front of the rocket to the rear), energy losses and interference due to it occur. electromagnetic interference from the outside.

The prototype of this proposed invention is selected "Radio-controlled anti-aircraft missile" [2], which contains an engine mounted in the rear of the rocket, a feeder path located between the rocket body and its rear part, which connects the external antennas to the input of the equipment located in the rocket body. The device allows to reduce the signal reception level of the side lobes of the antenna pattern due to their shielding by the motor housing and to reduce the length of the feeder path, which provides higher noise immunity and reduces energy loss in the feeder path. However, the device has the following drawback - the location of the feeder path between the rear end of the rocket and the engine increases the length of the rocket, which significantly reduces the stiffness and strength of the airframe and limits the value of the permissible overload of the rocket, and therefore its maneuverability. In addition, the necessary placement in this case of control equipment at the minimum possible distance from the rear end of the rocket body to reduce energy loss imposes certain restrictions on the possibility of optimal rocket layout.

The objective of the invention is to reduce the length of the rocket while increasing the values of the permissible overload of the rocket by increasing its rigidity.

The solution to the problem is achieved in that in a radio-controlled rocket containing a body, an engine mounted on the rear end of the body, control equipment located in the rocket body, the input of which is connected by feeder paths to antennas mounted on the outer surface of the rocket, the control equipment is placed in an axisymmetric cavity, formed inside the engine at its front end, and the feeder paths are equipped with high-frequency connectors located inside the housing and having a threaded connection between them, while the whiskers of the connectors located on the side of the antennas are made in the form of a bottom cylinder with a central axial hole, on the outer surface of which, by means of a threaded connection, a conical section nut is installed, located in the radial conical hole made in the side surface of the rocket body at the front end of the engine concentrically to the connectors, parts which, located on the part of the control equipment, are fixed inside the housing.

The invention is illustrated (figure 1, 2), which depicts a radio-controlled missile in flight.

The radio-controlled missile contains a housing 1, an engine 2, control equipment 3 located in the cavity “c”, antennas 4, high-frequency connectors 5, conical nuts 6 installed in the conical holes “b” of the rocket body, and feeder paths 7.

Placing control equipment (3) in the cavity “c”, formed inside the engine (2) at its front end, allows to obtain the minimum possible length of the rocket and accordingly increase its rigidity, which in turn increases the accuracy of guidance, especially when performing the rocket according to the aerodynamic configuration "duck". The specified location of the control equipment (3), the presence of high-frequency connectors (5) in the entire connection of the feeder path (7) directly in front of the engine (2) provides the minimum cavity size “in” in the engine and the minimum possible length of the feeder paths, which reduces energy loss and increases missile immunity. The coaxial arrangement of high-frequency connectors (5), having a threaded connection between each other, with holes “b” on the rocket body (1) and their subsequent fixing is ensured by assembly technology. To prevent air flow during flight into the missile’s body and to ensure reliable fixation of the high-frequency connector under vibration loads, a conical nut (6) is installed in the housing’s hole, and the return connector connected to it by means of a threaded connection is made in the form of a bottom cylinder with a central axial hole used to install the feeder.

Thus, the present invention allows to reduce the length of the radio-controlled missile, increase the value of the permissible overload and improve the accuracy of guidance at the launch site of the flight.

Sources of information

1. Information manual TsAGI. October 1970 (1 sheet).

2. RF patent 2189003 IPC ⁷ F 42 V 15/00.

Claims (1)

A radio-controlled rocket comprising a housing, an engine mounted on the rear end of the housing, control equipment located in the rocket body, the input of which is connected by feeder paths to antennas mounted on the outer surface of the rocket, characterized in that the control equipment is located in an axisymmetric cavity formed inside the engine at its front end, and the feeder paths are equipped with high-frequency connectors located inside the housing and having a threaded connection between them, while the connector housings, n extending from the side of the antennas, made in the form of a bottom cylinder with a central axial hole, on the outer surface of which, by means of a threaded connection, a conical section nut is installed, located in a radial conical hole made in the side surface of the rocket body at the front end of the engine concentrically to the connectors, parts of which are from the side of the control equipment, fixed inside the case.

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