RU2055300C1 - Loader of artillery shot - Google Patents

Abstract

FIELD: artillery guns. SUBSTANCE: loader includes case, powder charge and axial igniter in the form of central tube with ignition hole in side wall and perforated bushing put on it with formation of ring space between them which houses igniting sample. Electric fuze in plastic jacket is placed into central tube at angle to its axis. It is oriented into ignition hole. Safety cap of case is manufactured from flexible material, mainly from low-carbon sheet steel, and is anchored on central tube with the aid of profiled nut. The latter is fabricated in the form of truncated cone which minor base is positioned on side of powder charge, it has circular recession formed by conical surface concentric with nut cone on side of projectile. After shooting safety cap is punched through with profiled nut and its peripheral part embraces inner conical surface of recession. For prevention of cap break-away it is flared out on to thin-walled skirt over inner diameter. Peripheral part of cap seals internal part of case thanks to flanging enveloping case across end face. EFFECT: simplified design for separate-case loading of artillery guns. 2 dwg

Description

 The invention relates to military equipment and can be used in the design of shots separately-shell loading for firing from artillery pieces.

 Currently, separate-shell loading rounds are widely used, in which the powder charge is placed in a sleeve and transported separately from the projectile. This ensures firing accuracy at various ranges with a warhead of the required weight.

Known charger for an artillery shot containing a metal sleeve with an initiator in the form of a capsule sleeve. The main bag with a powder charge and an igniter attached to its bottom, which is a sample of smoky gun powder, are placed in the sleeve. An additional powder charge is placed on the main package. The charge is covered from above with a normal cover (obturator) and a reinforced cover, which is poured with a compound for sealing the charge and removed before firing [1]
With this design, it is possible to change the weight of the powder charge immediately before the shot.

 However, such a device does not exclude the presence of unburned particles of gunpowder and repeated burning of these residues, which leads to a decrease in the total impulse of the powder charge and the appearance of the so-called "second flame" when the shutter is unlocked, which is unacceptable for tank or naval artillery guns.

A charger is known that partially solves the aforementioned disadvantages, comprising a sleeve with a powder charge placed therein, an initiator and a tube igniter connected to the initiator and placed along the axis of the sleeve inside the powder charge. An ignition hitch is placed inside the perforated tube. The end face of the sleeve is closed with a safety cover having an internal flange and made of elastic foam material. Due to the flanging, a forced mode of operation is ensured when the powder charge is ignited. On the front side, a recess is made in the body of the lid, and on the back side there is a cavity to reduce the mass and thickness of the lid with the formation of a pressure-destruction membrane powder gas. At the same time, pressure is created on the flanging of the sleeve, which provides a temporary delay of the cover in the sleeve. This reduces the pressure drop across the membrane, increases the stability of ignition of the powder charge and the maximum pressure in the barrel [2]
However, this charger does not fully guarantee the ejection of the destroyed parts of the lid from the barrel, which leads to a decrease in reliability when firing a subsequent projectile. Remains of the lid in the barrel can lead to jamming of the projectile in the barrel and the impossibility of a subsequent shot.

 The aim of the invention is to increase the reliability of the charger to an artillery shot by eliminating the remnants of the safety cover in the barrel after firing and stabilizing the pressure in the barrel.

The proposed charger has the following design differences:
placement of the igniter in the annular perforated cavity of the coaxial surface of the tube;
the initiator is made in the form of an electric igniter in a plastic sleeve and is placed in the tube igniter body at an angle to its longitudinal axis;
the safety cover is made of elastic metal in the form of low-carbon sheet steel and is mounted on the igniter body with a profiled nut made in the form of a truncated cone with a smaller base located on the side of the powder charge, and an annular recess concentric with the truncated nut cone is made in it;
on the inner end, the lid is sealed with an insert on a thin-walled skirt, and the peripheral part of the lid is made with a flange covering the sleeve of the sleeve along the end.

 Figure 1 shows a charger, a section; figure 2 device for securing the safety cover.

The charger for an artillery shot contains a sleeve 1 with a propellant powder charge 2 and a safety cover 3. The initiator 4 is made in the form of an electric igniter electrically connected to a power source 5 and closed by a plastic jacket 6. In this case, the initiator is placed inside the central tube 7 at an angle to its longitudinal axis and oriented output end into the firing hole 8, perpendicular to the axis of the tube. The igniter hinge 9 is placed in an annular cavity formed by a perforated sleeve 10 fixed around the central tube 7. The annular cavity is connected gasdynamically to the initiator by the ignition hole 8. The perforation in the sleeve and the ignition hole are closed by a combustible nitro film 11. The safety cover 3 is secured by a profile nut 12 on the central tube 7. Moreover, according to the inner diameter, it is rolled on the insert 13 of the profiled nut from the side of the propellant charge 2. On the inside, under the insert, milled nut is formed with a thin-walled skirt 14 which contacts the inturned portion of the cover. The profiled nut is made in the form of a truncated cone 15, placed a smaller base in the direction of the propellant charge 2. The angle at the apex of the cone is 50 70 ^about . On the side of the projectile in the profiled nut, an annular recess 16 is made, formed at the periphery of the conical surface 17 concentric with the truncated cone of the nut. On the inner side, the recess is formed by a cylinder 18 with through grooves 19. The face 20 of the profiled nut is made along the radius R, which ensures the bend of the safety cover without breaking. Usually this radius is 3-5 times the thickness of the safety cover. Dotted line 21 shows the safety cover after firing. The peripheral part 22 of the cover is cylindrical with a flange 23 at the end and installed with an interference fit in the barrel 24 of the sleeve. Flanging covers the muzzle of the sleeve at the end. The interface between the cover and the fastening elements and the sleeve is filled with sealant 25.

 The device operates as follows.

 The electric igniter gives out a force of flame, which hits the forming wall of the ignition hole 8 and burns the nitro film 11. In this case, the force is scattered throughout the volume of the annular cavity with the igniter hinge 9. Dispersion is achieved by installing the electric igniter at an angle to the axis of the ignition hole. The plastic shirt 6, in which the electric igniter is placed, provides less heat transfer from the electric igniter to the body of the fastening elements. Since a sample of a combustible composition in an electric igniter is usually small in size and has a large surface, a heat-insulating shirt significantly reduces the dispersion of the energy characteristics of the initiating sample, which increases the reliability and stability of ignition of the igniter.

 The resulting powder gases from the combustion of the igniter burn the nitro film overlying the perforation in the sleeve 10, ignite the propellant powder charge 2 from the inside. When the calculated pressure is reached in the cavity of the sleeve, the safety cover 3, deformed, releases powder gases into the shell space, forming an annular gap with the sleeve . Due to the fact that the profiled nut 12 holding the lid has an outer surface in the form of a cone 15 expanding from the lid, during deformation the lid is crimped along this cone without a kink in the zone of its bend, thereby eliminating its rupture. In addition, the cover, squeezed along the outer cone of the nut, has a cantilevered protrusion beyond the length of the profiled nut, which is affected by the pressure of the powder gases. Due to this pressure, the cantilever protrusion of the lid bends around the end face 20 of the profiled nut and is stamped inside the annular recess 16 along the surface of the inner cone (dotted line 21). The conical surface of the inner cone, the concentric surface of the outer cone, and the experimentally selected radius of curvature of the end face of the profiled nut provide crimping of the cover along the profile of the nut without breaking the cover and without protruding beyond the end of the sleeve. In addition, the transverse through grooves 19 in the cylinder 18 allow for the outflow of gases from the cavity of the annular recess 16 when folding the cover.

 In addition, when the propellant propellant charge 2 is triggered by the pressure of the powder gases, a thin-walled skirt 14 is crimped along the part of the safety cover rolled on the liner 13. This excludes the cover from being pulled out and ejected into the barrel, which is unacceptable for a subsequent shot.

 Installing the flanging 23 of the cover on the end face of the sleeve in the "lock" allows you to provide uniform conditions for undocking the cover and sleeve and thereby obtain a stable pressure value of the undocking of the cover with the sleeve. The pairing of the cap and sleeve along the cylinder and “into the lock” on the sealant ensures the tightness of the joint during storage and combat operation.

 The proposed charger has been factory tested with positive results.

Claims (1)

 CHARGING DEVICE FOR ARTILLERY SHOT, containing a sleeve, a powder charge, an axial igniter with a hitch of igniter composition, an initiator and a safety cover, characterized in that the axial igniter in it is made in the form of a central tube with an ignition hole in the side wall and a perforation fixed to it bushings with the formation of an annular cavity between them, the igniter hitch is placed in the specified cavity, and the initiator is made in the form of an electric igniter in a plastic jacket, placed in the central tube at an angle to its axis and oriented into the ignition hole, while the safety cover is made of elastic material, mainly low-carbon sheet steel, and is mounted on the central tube with a profiled nut made in the form of a truncated cone with a smaller base from the side of the powder charge, and from the side of the projectile, an annular recess is made in it, formed by a conical surface concentric with the nut cone mating with the cylinder nical its surface, wherein the lid is seamed to the thin-walled skirt liner formed on a lower end of the nut, and the peripheral portion of the lid is provided with eyelet covering Dultsev sleeve at its end.

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