RU2172466C1 - Guided projectile - Google Patents

Abstract

FIELD: jet artillery ammunition. SUBSTANCE: the guided projectile has a body, setting device with a strip rigidly fastened on the body with the aid of screws with taper heads. A supporting member with a longitudinal groove is rigidly installed inside the body. The setting unit with a strip is installed in the groove, the strip rests on the groove rear wall, and the threaded holes in the strip are shifted towards the projectile head relative to the holes in the projectile body. EFFECT: enhanced stability of projectile at action of pressure of powder gases at launch. 4 dwg

Description

 The invention relates to defense technology, and more specifically to guided missiles (URS) and guided missiles (UR).

 It is known that in modern high-precision weapons, especially in URS and UR with homing, software devices are widely used, with the help of which a cyclogram of URS or UR flight is set, as well as the sequence of switching on of various devices, letter frequencies, etc. To introduce such programs on URS and UR, special installation devices are used that are electrically connected to software devices. Turning the installation devices on and off is done either by mechanical switching or by a non-contact method (using the electronic input of the program; which is mainly used on large missiles). An example of the use of mechanical means for introducing a program is a 3OF39 high-explosive fragmentation projectile (see "15OF64 (3VOF93) 152-mm high-explosive fragmentation shell with 3OF39 high-explosive shell and charge N 1. Technical description and instruction manual 3VOF64.00.00.000 TO (3VOF93 .00.00.000 TO), Moscow, Military Publishing House, 1990). However, a whole set of installation tools used in this case and located in different parts of the projectile, which requires partial disassembly and assembly of the projectile, makes the preparation operation quite complicated and lengthy. shell to shooting and reduces its overall reliability.

 These shortcomings of the 3OF39 projectile are eliminated in the well-known guided projectile (see Russian patent N 2126950 class F 42 B 15/00 of 02.02.99), in which the control program switches are assembled in a single unit of units, rigidly fixed to the inner wall of the shell . The switching valves of the installation block through the openings are led out to the lateral outer surface of the housing, in front of the projectile guide belt, and to ensure the tightness of the exit points of the cranes in the rail of the installation block at its junction with the housing, an underflow is filled, filled with an elastically pressed sealing material and limited along the contour of the strip by a collar preventing rubber spreading during storage. The unit is fixed to the housing using 6 conical head screws evenly spaced across the joint area, which ensures guaranteed compression of the sealing material over its entire surface. The design of this installation device made it possible to simplify the input of control programs as much as possible, eliminating the need to use complex scale setting mechanisms, as well as partial disassembling and assembling the projectile during the input operation. The location of the installation block in front of the guiding belt of the projectile made it possible to reduce the pressure of the powder gases when fired at the switch cranes, and through them to the entire installation block and its attachment point with the housing, while the means of sealing the joint between the housing and the installation block used in the design made it possible to provide stable tightness during storage of the projectile and protection against the penetration of powder gases inside it when fired, at a pressure of up to 120 atm.

 However, the described design of a guided projectile according to Russian patent N 2126950 has, as shown by experiments, a significant drawback, since in addition to acting on the unit of the guns when firing powder gases from the barrel bore, it also has an inertial load from the starting acceleration, which can reach a significant value. Such loading of the screws fastening the unit to the housing becomes unfavorable: a bending load (from the action of inertia) is added to the tensile load (from the action of powder gases). As a result of such loading, deformation of the screws, loosening of their fastening connection with the strip of the installation block, deflection of the body wall under the influence of powder gases at the place of fastening of the strip inside the projectile and violation of its tightness can occur — all this can lead to breakthrough of the powder gases into the shell and possible damage its elements that are sensitive to the effects of high temperature and combustion products of gunpowder, which ultimately can cause projectile failure.

 The objective of the proposed technical solution is to eliminate the above drawback and increase the reliability of the guided projectile by increasing its resistance to the effects of starting accelerations under the influence of high pressure of hot powder gases. For this, in a guided projectile containing a housing, a unit of installation with a strap rigidly fixed to the housing using screws with conical heads, a support element is installed inside the shell of the projectile rigidly relative to it, in which a longitudinal groove is made, while the installation unit with a strap is installed in the groove so that the plank is abutted in the rear wall of the groove, and the threaded holes in the plank are displaced toward the head of the projectile relative to the holes in the shell of the projectile.

 In FIG. 1 shows a general view of a guided projectile; in FIG. 2 and 3 - its elements in an enlarged form; in FIG. 4 - clearance L, selected during assembly.

 The guided projectile consists of a housing 1, on which, using screws with conical heads 2 located in the corresponding holes 3 of the housing 1, a mounting block 4 is fixed with a strap 5 located in a longitudinal groove 6 made on a supporting element 7, rigidly fixed to the housing 1. Between the rear wall 8 of the groove 6 and the strap 5, there is a gap L to tighten the screws 2. When tightening the screws 2, the strap 5 is pressed (choosing the clearance L) to the rear wall 8 of the groove 6. This is achieved by the threaded holes 9 in bar 5 are offset relative to holes 3 in the housing 1 towards the head of the projectile by an amount greater than the gap L, which ensures a guaranteed tightness at the junction of the strip 5 with the back wall 8 of the groove 6. When tightening the screws 2 with a force P due to the interaction of the conical surfaces of the screws and holes 3, force F, attracting the bar 5 to the rear wall 8 of the groove 6.

 When a projectile is fired from a gun, an inertia force proportional to the value of the starting acceleration acts on the unit of installations. All this load is absorbed by the rear wall 8 of the longitudinal groove 6 in the supporting element 7. Powder gases, overtaking the projectile by the gaps between the projectile and the gun barrel, rush to the barrel cut, while in the area of the location of the openings for the exit of the switching valves of the program unit 4 creates a zone of increased pressure, which is transmitted through these holes to the unit. However, the screws 2 securely hold the unit 4, ensuring the tightness of the junction of the unit with the housing 1.

 The proposed design of a guided projectile eliminates the disadvantages of a guided projectile according to patent N 2126950, allows you to completely unload the screws that attach the unit to the housing from the action of inertia from the side of the unit, which significantly reduces the load on the screws, excluding its bending component, and this, in turn, makes it possible to maintain the necessary tightening of the screws and the tightness of the junction of the unit with the casing. The location of the strap in the longitudinal groove of the support element allows you to create a reliable support for the housing, which prevents the subsidence of the part weakened by the holes located at the junction with the installation block under the action of powder gases (during the shot), and also helps to maintain the joint tightness.

 The proposed design of a guided projectile after the manufacture of prototypes successfully passed experimental tests that confirmed the high efficiency of the proposed technical solution, which will soon be implemented in the national economy on a number of guided shells.

Sources of information
1. Patent of Russia N 2126950 class. F 42 B 15/00 dated 02.02.99

 2. "152OF 3VOF64 (3VOF93) round with 3OF39 high-explosive fragmentation shell and charge N 1 (reduced variable charge). Technical description and instruction manual 3VOF64.00.00.000 TO (3VOF93.00.00.000 TO)", Moscow , Military Publishing House, 1990

Claims (1)

 A guided projectile comprising a housing, a unit of installations with a strap rigidly fixed to the housing using taper head screws, characterized in that a supporting element is installed inside the shell of the shell, rigidly relative to it, in which a longitudinal groove is made, while the installation unit is equipped with a strap installed in the groove so that the bar is abutted in the rear wall of the groove, and the threaded holes in the bar are made with an offset towards the head of the projectile relative to the holes in the shell of the projectile.

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