RU2608648C1 - Artillery shell - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: invention relates to weapons, namely, to artillery shells. Includes cylindrical housing, fairing, projectile, inductance coil, capacitor. Additionally piezo-generator is introduced, located in housing. Housing is made of electrically insulating material with outer metal coating and equipped with fairing made of radiotransparent material. In housing sleeve is introduced arranged coaxially with possibility of movement inside housing. Sleeve front edge is coated with electrically insulating material. Sleeve inner diameter is greater than or equal to diameter of projectile with electrically insulating coating. Sleeve outer diameter is smaller than or equal to housing inner diameter. Housing has circular ledge to limit sleeve axial movement towards fairing. Sleeve has projectile arranged with possibility of axial displacement. Inductance coil is made without insulation and coiled into ring in form of toroid, located between housing annular projection and sleeve front edge. Toroid inner diameter is greater than or equal to projectile diameter passing through it. Toroid outer diameter is smaller than or equal to housing inner diameter. Piezo-generator is connected to inductance coil via capacitor by means of conductors. Between housing bottom and sleeve conductive ring is embedded. Spring-loaded conducting plate is attached to sleeve via electrically insulating gasket, together with conducting ring forming normally open electric contact. Piezo-generator first output is connected to inductance coil first input through capacitor and this contact. Inductance coil second input is connected to piezo-generator second output through capacitor second output. Increases use of artillery mount muzzle energy. Enhances artillery projectile armor-piercing action.

EFFECT: increases artillery shell service and storage life.

7 cl, 2 dwg

Description

The invention relates to devices designed to destroy protected objects, in particular to artillery shells. Currently, traditional means and methods of destruction of objects are provided through the use of ammunition, in which, as a rule, one striking factor is formed, which reduces the effectiveness of the processes of destruction of various protected objects. In this case, the muzzle energy of the artillery installation, reported to the shell, is spent with low efficiency, since it is used to create only one damaging factor. In addition, problems arise in the manufacture, storage and transportation of shells equipped with explosives.

All of the above indicates the need to use muzzle energy of an artillery installation to increase the damaging properties of shells by creating additional damaging factors.

Known armor-piercing armor-piercing projectile with a magnetic type master device (patent RU No. 2297592 C2, IPC F42B 14/06, bull. No. 11, 04/20/2007) containing a housing, fixed magnets placed therein, movable magnets with the possibility of separation from associated with them armor-piercing core and installed with their poles towards the same poles of the fixed magnets of the shell of the shell. When the projectile leaves the bore due to the action of magnetic field energy (repulsive magnetic forces), powder gases and an incoming air flow, a smooth and symmetrical core exit from the bore occurs, which reduces the dispersion of the projectile.

The disadvantages of this armor-piercing sub-projectile shell include the fact that it has one damaging factor (armor-piercing ability), and the muzzle energy of an artillery installation is not used to create an additional damaging factor.

Also known is a cumulative cluster munition (patent RU No. 2243492 C2, IPC 7 F42B 12/10, F42B 10/16, bull. No. 36, 12/27/2004) containing a housing, a lining, a cumulative charge, a target sensor, a safety-actuating mechanism and stabilizer. The body is cylindrical. A target sensor that is triggered in a collision with a target is rigidly mechanically and electrically connected to it, on the one hand, and a stabilizer, on the other hand, and the target sensor is made in the form of a piezoelectric sensor in the form of a cylinder with an axial channel. The implementation of the ring stabilizer inseparably and rigidly connected to the body allows you to quickly stabilize the ammunition in free flight and ensure its approach to the target plane at angles favorable for reliable operation of the piezoelectric sensor. The mechanical and electrical connection of the stabilizer with the housing and the safety-actuating mechanism creates a reliable electrical circuit that ensures the operation of the safety-actuating mechanism. When approaching the target with the hot gases of the carrier shell through the holes in the stabilizer, a safety-actuating mechanism is cocked. When the target surface is reached, the piezoelectric transducer is triggered and transmits an electrical impulse along the munition design elements to the safety-executive mechanism. The resulting cumulative stream reaches the surface of the target. The technical result is to simplify and increase the reliability of small-sized ammunition.

The disadvantages of this cumulative cluster munition include the fact that the muzzle energy of the artillery installation is not used to create an additional damaging factor. The presence of explosives makes the process of manufacturing, storage and transportation of ammunition unsafe and expensive. The affected object may continue to function if its electronic devices are not disabled.

Closest to the claimed device is an electromagnetic munition (EMBP), described by A.B. Prischenko in the book “Fire! On Weapons and Ammunition”, chapter 4 - “… I’ll pop out the eye!”, Moscow, Morkniga publishing house, 2009, suitable for barrel artillery, including a high-voltage capacitor connected to a copper pipe (equipped with explosive) and a coaxial pipe a spiral, as well as a shock core in the form of a cumulative copper funnel located at the end of the copper pipe.The explosion expands the pipe, forming a cone that strikes the winding, causing current to flow from a pre-charged capacitor. Then the contact point on the base of the cone moves along the spiral whether pushing through their insulation and shorting turn by turn, while amplifying the current that oscillates, since the capacitance of the circuit is significant.

The disadvantages of this closest analogue include the fact that it does not fully utilize the muzzle energy of the artillery mount, as well as the limited life and storage due to the limited shelf life of the explosive. The presence of explosives makes the process of manufacturing, storage and transportation of ammunition unsafe and expensive.

The tasks to which the invention is directed are to increase the use of muzzle energy of an artillery installation and give the armor-piercing rod additional acceleration, enhancing the armor-piercing effect of an artillery shell in the absence of explosive in it, as well as increasing the life and storage of an artillery shell.

This goal is achieved by the fact that the claimed artillery shell contains a cylindrical body, a cowl, a striking element, an inductor, a capacitor, an additional piezoelectric generator is located in the body, the body is made of electrically insulating material with an external metal coating and equipped with a radome made of radiolucent material into the body introduced a cup located coaxially with the ability to move inside the body, the inner diameter of the cup is greater than or equal to the diameter of the striking element with an electrically insulating coating, and the outer diameter is less than or equal to the inner diameter of the housing, with the front edge of the cup coated with electrically insulating material, an annular protrusion is made in the housing, limiting the axial movement of the cup toward the fairing, the damaging element is axially movable in the cup, the inductor is made without insulation and rolled into a ring in the form of a torus located between the annular protrusion of the housing and the front edge of the glass, the inner diameter of the torus is greater than or equal to the diameter at the striking element passing through it, and the outer diameter is less than or equal to the inner diameter of the housing, the piezoelectric generator is connected to the inductor through the conductors through the conductors, a conductive ring is cut between the bottom of the housing and the cup, and a spring-loaded conductive plate is attached to the cup through an insulating gasket, forming together with conductive ring normally open electrical contact, and the first output of the piezoelectric generator through a capacitor and this contact is connected to the first Odom inductor, and a second input inductor through the second output capacitor coupled to the second output pezogeneratora.

The striking element may be made in the form of an armor-piercing rod of ferromagnetic material placed coaxially in the housing.

Inside the fairing, a knockout plug may be located, attached by means of a screw to the front end of the armor-piercing rod, restricting the arbitrary axial movement of the armor-piercing rod inside the housing.

A capsule of electrically insulating material may be installed on the bottom of the housing, into which a piezoelectric generator and a capacitor are placed.

An elastic gasket may be located between the capsule and the glass.

Outside the cup, a longitudinal undercut can be made in which the conductors are laid, by means of which the piezoelectric generator is connected through a capacitor to the inductor.

Outside of the glass, a protrusion can be made that enters into a longitudinal groove inside the body and restricts the radial movement of the glass, the length of the protrusion is less than the length of the glass.

Thus, the technical result of the invention lies in the fact that the use of muzzle energy of the artillery installation is increased and the armor-piercing rod is given additional acceleration that enhances the armor-piercing effect of the artillery shell in the absence of explosive in it, and the life and storage of the artillery shell is increased.

In FIG. 1 shows a diagram of an artillery shell in longitudinal section.

In FIG. 2 shows a diagram of an artillery shell in a longitudinal section upon impact with an affected object.

The claimed invention includes a striking element, for example, in the form of an armor-piercing rod 1 (see Fig. 1) of a ferromagnetic material with an electrically insulating coating, placed coaxially in a cylindrical body 2 of an electrically insulating material with an external metal coating, a radome 3 of a translucent material, an annular protrusion 4 inside the cylindrical body 2, a toroidal inductor 5, covering the armor-piercing rod 1, located between the annular protrusion 4 of the cylindrical body 2 and the front edge takana 6, placed coaxially in the cylindrical body 2, the front edge of the glass 6 is covered with electrically insulating material, a piezoelectric generator 7 and a capacitor 8 located in the capsule 9 mounted on the bottom 10 of the cylindrical body 2, a knockout plug 11 attached to the front end of the armor-piercing rod 1 by means of a screw 12 and restricting the arbitrary axial movement of the armor-piercing rod 1 inside the housing 2, a longitudinal recess 13, made in the glass 6, and made on the opposite side of the glass 6, the protrusion 14, and the corresponding of the protrusion 14, a longitudinal groove 15 inside the cylindrical body 2, an elastic gasket 16 into which the cup 6 rests, a spring-loaded conductive plate 17 fastened, for example, by means of a screw 18 through an electrical insulating gasket 19 to the bottom of the cup 6, and a conductive ring 20 cut into a cylindrical body 2 between the capsule 9 and the glass 6, forming together a normally open electrical contact, the first output of the piezoelectric generator 7 through the capacitor 8 and this contact is connected to the first input of the inductor 5, and the second input Inductance Coils 5 through the second output capacitor 8 is connected to the second output pezogeneratora 7 by conductors arranged in a longitudinal recess 13 cups 6.

The metal coating of the cylindrical body 2 of electrically insulating material together with the inductor 5 is an emitter of electromagnetic energy (electromagnetic resonator) when the device is triggered.

The radiolucent material of the fairing 3 provides the free distribution of electromagnetic energy.

The insulating coating of the armor-piercing rod 1 serves to isolate the armor-piercing rod 1 from the turns of the inductor 5.

An insulating coating on the front edge of the cup 6 serves to isolate the cup 6 from the turns of the inductor 5.

The knockout plug 11 is designed to limit the axial movement of the armor-piercing rod 1.

An annular protrusion 4 inside the cylindrical body 2 serves to limit the axial movement of the glass 6 and to place an armor-piercing rod 1 in it.

The glass 6, the front edge of which is covered with an electrically insulating material, serves to place an armor-piercing rod 1 in it, to give the armor-piercing rod 1 additional acceleration and compression of the inductor 5, compression and displacement of the electromagnetic flux from it.

The longitudinal recess 13, made in the glass 6, serves for laying conductors and electrical connections of the first and second inputs of the inductor 5 with the first and second outputs of the capacitor 8.

The protrusion 14, made on the glass 6, and the corresponding longitudinal groove 15 inside the cylindrical body 2 serve to limit the radial movement of the glass 6.

The inductor 5 serves to create an electromagnetic field and its subsequent compression, up to turning it into an annular conductor (single-turn solenoid), covering the armor-piercing rod 1.

The elastic gasket 16, in which the glass 6 rests, serves to axially fix the glass 6.

The spring-loaded conductive plate 17 and the conductive ring 20, forming together a normally open electrical contact, serve to close the electrical circuit when the glass 6 moves.

An electrical insulating gasket 19, located between the glass 6 and the spring-loaded conductive plate 17, serves to insulate the glass 6.

A capsule 9 of electrically insulating material is used to place a piezoelectric generator 7 and a capacitor 8 therein and axially fix the glass 6 together with the elastic gasket 16.

The piezoelectric generator 7 is used to generate electrical energy when oscillations occur in the cylindrical body 2 during the firing and flight of an artillery shell.

The capacitor 8 serves to accumulate the charge and energy of the electric field with its subsequent discharge to the inductor 5 deformable upon impact.

The device operates as follows. In the initial state, the armor-piercing rod 1 is fixed in the glass 6 and rested against the knockout plug 11, as shown in FIG. 1. The inductor 5 is located between the annular protrusion 4 of the cylindrical body 2 and the front edge of the glass 6. The capacitor 8 is in a discharged state. When fired from an artillery installation and the artillery shell leaves the barrel in a cylindrical body 2, oscillations occur, under the influence of which the piezoelectric generator 7 connected to the capacitor 8 generates electricity, charging the capacitor 8 throughout the flight until it meets the target. Thus, the artillery shell is ready to meet with the target.

In FIG. 2 shows the work of an artillery shell when it hits an object. So, when meeting with a target, the artillery shell is braked, the cowl 3 is destroyed, and the armor-piercing rod 1 along with the glass 6 continues to move by inertia, breaking through the knockout plug 11. At the same time, the glass 6 closes a normally open electrical contact consisting of the front end of the artillery shell from a spring-loaded conductive plate 17 and a conductive ring 20, as a result of which the capacitor 8 begins to discharge on the inductor 5, which is compressed by the nozzle 6, located between the annular protrusion 4 qi the cylindrical body 2 and the front edge of the glass 6. When the inductor 5 is compressed and the capacitor 8 is discharged to it in the inductor 5, a significant electric current occurs, as a result, the electromagnetic field is compressed and displaced from the inductor 5, the turns of which are also compressed. At the moment when the cup 6 completes the motion by inertia, the inductor 5 turns into a ring conductor in the form of a single-turn solenoid, in which an electric current flows, giving the armor-piercing rod 1, covered by a single-turn solenoid, additional acceleration. At the same time, the metal coating of the cylindrical body 2 and the inductor 5, converted into a single-turn solenoid, form a powerful horn antenna of directional action. An electromagnetic pulse emitted by a horn antenna propagates in the direction of flight of an artillery shell and adversely affects all electronic devices of the affected object. Thus, the previously unused portion of the muzzle energy is returned both to give additional acceleration to the armor-piercing rod 1, and to create a damaging factor in the form of an electromagnetic pulse.

Thus, a technical result was obtained, namely, the use of muzzle energy of the artillery installation was increased and the armor-piercing rod was given additional acceleration, enhancing the armor-piercing effect of the artillery shell in the absence of explosive in it, and the life and storage of the artillery shell was increased.

Claims (7)

1. An artillery shell comprising a cylindrical body, a fairing, a striking element, an inductor, a capacitor, characterized in that the piezogenerator is additionally introduced, located in the housing, the housing is made of an electrically insulating material with an external metal coating and equipped with a radome made of radiolucent material, introduced into the housing a cup located coaxially with the ability to move inside the case, the inner diameter of the cup is greater than or equal to the diameter of the striking element with an electrically insulating coating being, and the outer diameter is less than or equal to the inner diameter of the case, with the front edge of the glass covered with an electrically insulating material, an annular protrusion is made in the body, limiting the axial movement of the glass towards the fairing, the damaging element is axially moved in the glass, the inductor is made without insulation and rolled into a ring in the form of a torus located between the annular protrusion of the body and the front edge of the glass, the inner diameter of the torus is greater than or equal to the diameter of the passage through it of the damaging element, and the outer diameter is less than or equal to the inner diameter of the housing, the piezoelectric generator is connected through the conductors to the inductor through conductors, a conductive ring is embedded between the bottom of the housing and the cup, and a spring-loaded conductive plate is attached to the cup through an electrically insulating gasket, forming together with the conductive ring a normally open an electrical contact, the first output of the piezoelectric generator through the capacitor and this contact connected to the first input of the inductor and a second input inductor through the second output capacitor coupled to the second output pezogeneratora. 2. An artillery shell according to claim 1, characterized in that the striking element is made in the form of an armor-piercing rod of ferromagnetic material placed coaxially in the body. 3. An artillery shell according to claim 2, characterized in that there is a knockout plug located inside the fairing, fastened by a screw to the front end of the armor-piercing rod, restricting arbitrary axial movement of the armor-piercing rod inside the body. 4. An artillery shell according to claim 1, characterized in that a capsule of electrically insulating material is installed on the bottom of the body, into which a piezoelectric generator and a capacitor are placed. 5. An artillery shell according to claim 4, characterized in that the elastic gasket is located between the capsule and the glass. 6. An artillery shell according to claim 1, characterized in that a longitudinal recess is made on the outside of the cup, into which the conductors are laid, by means of which the piezoelectric generator is connected through a capacitor to the inductor. 7. An artillery shell according to claim 6, characterized in that a protrusion is made outside the cup, which enters into a longitudinal groove inside the body and restricts the radial movement of the cup, the length of the protrusion is less than the length of the cup.

Images