RU2375672C1 - Artillery shell - Google Patents

Abstract

FIELD: ammunition.

SUBSTANCE: invention relates to guided artillery shells. Proposed artillery shell features accelerating unit with disk, support and posts with holes, regularly fastened there between. Support represents a single housing furnished with six regular lengthwise slots accommodating blades fitted on axles therein. Through stepped holes are arranged in casing sectors between lengthwise slots that have threaded sections on the side of casing front face. Cylindrical posts are screwed into said through stepped holes. Inner holes of cylindrical posts and, partially, through steeped holes accommodate charges of bottom gas generator. Combustion products of the latter flow through said stepped hole into shell bottom part.

EFFECT: higher hitting power, small sizes and low weight.

2 dwg

Description

The present invention relates to the field of military equipment, in particular to guided artillery shells.

Known artillery shell M712 "Copperhead" (Janes Ammunition Handbook, 2003-2004, p. 357-358), made according to the normal aerodynamic scheme and consisting of three compartments: the guidance compartment, warhead, stabilization and control compartment. The stabilization and control compartment is located in the rear part of the projectile and contains a body, wings folding towards the aft part of the projectile with an opening mechanism and fixation elements, a control system including a two-element thermopile, a helium cylinder, a gas drive and electronic means and steering wheels folding towards the warhead with elements of their fixation.

The M712 shell uses a cumulative warhead. In this regard, the M712 projectile is a selective projectile and can only be used for a specific type of purpose. For a wider combat use of the projectile, it is necessary to provide for the use of a high-explosive fragmentation warhead. However, a high-explosive fragmentation warhead made in the dimensions of the cumulative warhead of the M712 shell will not be effective enough and requires an increase in size to increase its power.

This can be done by reducing the size of the wings and increasing their number, which in this design seems very problematic, since the compartment contains a significant number of constituent elements. In addition, this will require additional grooves in the body, which will lead to the need to increase the strength of the body and, consequently, to increase the mass of the projectile.

Also known is the artillery shell 3OF39 (152-mm round 3VOF64 (3VOF93) with high-explosive guided projectile 3OF39 and charge number 1 (reduced variable charge). Technical description and instruction manual. 3VOF 64.00.00.000 TO (3VOF 93.00.00.000 TO) . - M .: Military Publishing House, 1990, p.6-25), which is the prototype of this invention. The 3OF39 projectile is configured according to the aerodynamic scheme "duck". Steering wheels and stabilizers are made folding in the housing to ensure the launch of the projectile from the barrel. To accommodate the 3OF39 shell in standard installations of the fighting compartment of a self-propelled artillery shell, the projectile is made in the form of two compartments: a control compartment and a projectile compartment. On-board control equipment is located in the control compartment. The projectile compartment consists of a high-explosive fragmentation warhead with a fuse and a stabilizer block, made in conjunction with an accelerating engine.

The engine contains four combustion chambers mounted on a support - a strut, each of which is connected to the disk in the front part. The accelerating engine simultaneously serves as the housing of the stabilizer block. In the sectors between the uprights, four brackets are attached to the engine mount, in the grooves of which are placed blade-type blades fixed on the axes.

The insignificant dimensions of the warhead of the ZOF39 shell do not allow efficiently hitting modern highly armored targets. To complete this task it is necessary to increase its combat power.

To increase combat power, it is necessary to increase the dimensions of the warhead. This will lead to an increase in both the length of the projectile compartment and the length of the entire projectile. An increase in the length of the compartment will not allow it to be placed in a regular combat installation. In addition, an increase in the packing mass on the racks of the booster engine will lead to a thickening of the walls of the racks themselves and to an increase in the mass of the projectile as a whole. This method of increasing the combat power of the 3OF39 shell is unacceptable.

The problem solved by the invention is to increase the power of the projectile without changing its mass, dimensions and maintaining the firing range.

This is achieved by the fact that in an artillery shell containing a control compartment, a warhead and a stabilizer block, combined with an accelerating engine, including a disk, a support and struts with internal holes uniformly fixed between them, the support is made in the form of a single body equipped with six uniformly made longitudinal grooves with knife blades fixed to them on the axes, and racks with internal holes are made cylindrical and screwed into the sectors formed between the longitudinal pa through step openings with threaded sections from the front end face of the hull, while in the inner holes of the cylindrical racks and partially in the through step openings of the hull there are charges of the bottom gas generator with the possibility of discharge of combustion products of charges of the bottom gas generator through the through step holes of the hull into the bottom region of the artillery shell .

The technical problem is solved by forming a single stabilizer body, increasing the number of its blades and introducing a bottom gas generator into the design of the artillery shell.

The development of the booster of the booster engine together with the brackets of the stabilizer block in a single casing provides the possibility of making through it stepped through holes with a threaded section formed from the front end of the casing for screwing in cylindrical struts without any additional fastening elements. The longitudinal grooves cut in a single casing to accommodate the blades increase the rigidity of their embedment and installation accuracy by eliminating the brackets. An increase in the number of blades to six makes it possible to reduce (while maintaining the necessary area of aerodynamic surfaces) their length and, therefore, reduce the length of the stabilizer block itself. The length of the warhead increases by the amount of the reduced length of the stabilizer block, thereby increasing the power of the projectile as a whole.

The through-step openings made in the casing provide the possibility of the outflow into the bottom region of the artillery shell of the combustion products of the charges of the bottom gas generator, which are located in the inner cylindrical openings of the struts and partially in the through-step openings of the casing. The powder charges of the bottom gas generator, burning on the trajectory, reduce the bottom resistance, thereby reducing the drag coefficient of the incoming air flow for the projectile as a whole and preserving the given range of its flight.

The invention is illustrated in figures 1 and 2.

Figure 1 presents a General view of an artillery shell, figure 2 is a cross section of a block of stabilizers.

An artillery shell consists of a control compartment 1, a warhead 2 and a stabilizer block 3. The stabilizer block 3 contains a housing 4 in which six longitudinal grooves are made 5. In the grooves 5 on the axles 6, the blade blades 7 are pivotally fixed to the side of the warhead 2. In the sectors between the grooves 5, six through-step openings 8 are made with threaded sections 9 from the front end of the housing 4. Six cylindrical struts 10 are screwed into the threaded sections of 9 holes 8 until they stop in the housing 4. On the other hand, 10 are replicated between themselves by the disk 11. In the internal holes of the cylindrical struts 10 and partially in the through step openings 8 of the housing 4, charges 12 of the bottom gas generator are placed. This provides the possibility of the expiration of the combustion products of the charges 12 of the bottom gas generator through the through step openings 8 of the housing 4 into the bottom region of the artillery shell. In the initial position, the blades 7 are fixed by the locking mechanism 13.

When the artillery shell moves along the bore through the through step openings 8 in the housing 4, propellant propellant gases penetrate the charges 12 of the bottom gas generator and ignite them. When the projectile leaves the barrel, the locking mechanism 13 releases the leading edges of the blades 7 and they, turning on the axes 6, open under the action of centrifugal forces and the incoming air flow in the direction opposite to the movement of the projectile.

When the artillery shell moves along the trajectory, the combustion products of the charges of the 12th bottom gas generator flow through the through step openings 8 to the bottom region of the artillery shell. The bottom resistance of the projectile is reduced, reducing the drag coefficient of the entire projectile and maintaining a given flight range.

Thus, the formation of a single body of the stabilizer block, an increase in the number of its blades and the introduction of a bottom gas generator into the design of an artillery shell allow increasing the combat power of the projectile as a whole, without changing its weight, dimensions and preserving the firing range.

Claims (1)

An artillery shell containing a control compartment, a warhead and a stabilizer block, combined with an accelerating engine, including a disk, a support, and struts with internal holes evenly fixed between them, characterized in that the support is made in the form of a single body equipped with six longitudinal grooves uniformly made with knife blades fixed to them on the axes, and racks with internal holes are made cylindrical and screwed into the sectors formed between the longitudinal grooves in the housing kvoznye stepped holes with threaded portions by the front end of the housing, wherein in the inner holes of the cylindrical rack and partly through a stepped bore housing the charges are located bottom gasifier to enable the expiration combustion products bottom gasifier charges through the through stepped bore housing a bottom region of an artillery shell.

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