RU2348002C2 - Homing shell - Google Patents

Abstract

FIELD: weaponry.

SUBSTANCE: invention relates to arms. The proposed shell comprises a homing head, nose unit with its casing fixed on the said homing head and housing a piston with pyrotechnical device and spring. The said piston can move towards the joint with the head and rests upon the head bearing surface.

EFFECT: higher reliability of homing shell.

1 dwg

Description

The invention relates to the field of weapons and can be used in homing guided missiles.

As you know, homing guided shells are equipped with nose blocks detachable on the trajectory, the use of which is caused by the need to protect the optical system of the homing head (GOS), as well as providing the required aerodynamic characteristics of the projectile. In this case, the separation scheme is mainly used, which is based on the interaction of two telescopically connected elements - the case, which moves when the pyrotechnic device is triggered with the destruction of its fastening elements to the GOS, and the piston, which relies on the GOS. Thus, the seeker interacts with the nose block along two supporting surfaces - the body and the piston.

It should be noted that the reliable operation of the GOS and the projectile depends not only on the reliable isolation of the optical system of the GOS. It is necessary to exclude damage to the optical system of the seeker from exposure to the nasal block during separation. This is especially important when increasing the power of the pyrotechnic device to ensure separation at high projectile speeds.

Known guided projectile with detachable nose cone (RF patent No. 2141975, IPC ⁶ F42B 15/08), containing a lively shell, the open rear end of which is adapted to connect to the front end of the projectile, the separation device in the form of a stepped piston, a larger diameter of which is installed contrary to the end of the inner cavity of the shell and the front end of the projectile, which is the input window of the optical system of the seeker. This installation of the piston is caused by the need for its guaranteed clearance-free pressing through the shell to the front end of the projectile. The presence of a gap in the specified junction leads to the impact of the piston on the front end of the projectile during initiation of the pyrotechnics of the separation device and possible damage to the elements of the optical seeker system that are most vulnerable to such influences. However, with the noted piston installation, there is inevitably a gap at the junction of the shell with the GOS, since It is not possible to provide a gap-free connection simultaneously at several joints of the device. The presence of this gap does not provide reliable protection of the elements of the optical system of the seeker during operation.

A homing guided projectile is also known, including a nose unit with a ballistic cap, electric igniter, charge, piston, GOS [152 mm 3VOF64 (3VOF93) shot with a high-explosive guided projectile 3OF39 and charge No. 1 (reduced variable charge). Technical description and instruction manual. M., Military Publishing House, 1990, p. 32]. The ballistic cap is equipped with holes for installing bursting screws for fastening the nose block to the homing body. An o-ring is installed in the groove of the bearing surface of the cap.

The piston is installed all the way into the end of the working chamber of the cap.

The installation of the piston identical to the one described above also determines a common drawback - the presence of a gap at the junction of the cap with the GOS. As a result, the calculated tightness along the sealing ring at the joint and reliable protection of the elements of the optical seeker system during operation are not ensured.

The closest to the claimed design is adopted for the prototype seeker with a nose unit (RF patent №2266512, ⁷ IPC F42B 15/00), comprising a body with mounted therein from its opening end of the piston and the abutment, a pyrotechnic separation device, wherein a gap is made between the end face of the piston and the bottom of the working chamber in the housing. The presence of the specified gap indicates that there is a gap either between the supporting surfaces of the piston and the seeker, or at the junction of the housing with the seeker. As noted above, this does not ensure the reliable functioning of the projectile.

The task of the invention is to remedy these disadvantages of the known homing projectile, increasing its reliability.

The problem is solved in that a homing projectile, including a seeker, a nose unit with a body mounted on a homing head, in which a piston with a pyrotechnic separation device is installed, is equipped with a spring installed in the housing and interacting with the piston, which is positioned to move in the direction of the joint with the head homing and pressing to the supporting surface made on it.

The introduction of the spring, which presses the piston to the supporting surface on the GOS, ensures their gap-free connection, which eliminates the impact of the piston on the GOS when the pyrotechnic device is triggered. Placing the piston with the ability to move in the direction of the junction with the GOS also provides a gapless fit of the housing to the GOS when attaching the nose block, guaranteeing a calculated tightness along the sealing ring at the junction of the housing with the GOS.

The invention is illustrated in the drawing, which shows the head of the homing guided projectile.

The nose unit 1 is mounted on the seeker 2 with break screws 3 installed in the openings of the housing 4. The sealing of the input window 11 of the optical system of the seeker is provided by a sealing ring 5. A piston 7 is installed in the housing with an axial clearance 6, spring-loaded with a leaf spring 8. The spring is located in the gap 6, relies on the plug 9, which closes the hole in the housing to check the tightness of the working chamber, and when installing the nose block presses the piston to the supporting surface on the seeker. A pyrotechnic compartment device with an electric igniter 10 is installed in the piston.

The interaction of the elements of the projectile is as follows. When an electrical impulse is supplied to the electric igniter 10, the pyrotechnic device located in the piston 7 is triggered. The screws 3 for attaching the nose unit 1 to the seeker 2 are destroyed, the housing 4 is separated from the seeker. In this case, the piston remains pressed by the pressure of the powder gases to the GOS. At the end of its free stroke, the housing “picks up” the piston, the nose block is completely separated. The input window 11 of the optical system of the seeker opens, the projectile begins to function in the homing area.

Thus, in the proposed design of a homing missile, a clearance-free connection with both the piston and the nose block housing is ensured with the GSN, which solves the task of increasing the reliability of protection of the elements of the optical seeker system during operation, and at the same time eliminates the impact of the nose block piston on it at its separation.

Claims (1)

A homing projectile including a homing head, a nose unit with a housing fixed to a homing head in which a piston with a pyrotechnic separation device is installed, characterized in that it is provided with a spring installed in the housing and interacting with a piston that is arranged to move in the direction of the joint with homing head and pressing to the supporting surface made on it.