RU2235280C1 - Artillery cassette shell (versions) - Google Patents

Abstract

FIELD: defense industry; production of artillery cassette shells.

SUBSTANCE: the invention is dealt with the field of defense industry, production of ammunitions, in particular with cassette shells, i.e. consisting of one or several sub-ammunitions. The invention provides, that the cassette shell consists of: a body with a cylindrical shape cavity and a blow-out bottom; a fuse; a blow-out device and combat elements, the bodies of which in turn are made in the form of bush and they are laid in the cavity in rows along the length of the shell around its longitudinal axis. A body of a combat element in its cross-section is made asymmetrical along one of its axis. At that the wall of a body of a combat element additionally has the thinning in one or two places. According to the second version of the invention the wall of a body of a combat element additionally has thinning in two places, and the shell is supplied with an additional combat element located on a longitudinal axis of the shell and placed in the elastic element, interacting with each of combat elements in three points. The technical result is an increase of the combat efficiency at the expense of an increase of the area of destruction.

EFFECT: the invention allows to improve the combat efficiency at the expense of an increase of the area of destruction.

8 cl, 4 dwg

Description

The invention relates to ammunition, in particular cluster munitions, i.e. consisting of one or more submunitions.

Known artillery cluster shell containing a housing with a cavity and a knockout bottom, fuse, knockout device and combat elements, the shell of which, in turn, is made in the form of a sleeve, laid in rows in the cavity in rows along the length of the shell of the shell around its longitudinal axis (see, for example, application of Germany No. 3919314, F 42 B 12/58 for 1989).

Constantly facing the named field of technology is the task of increasing the combat effectiveness of products and known designs quickly enough become ineffective, which is a drawback of the aforementioned design.

Thus, the problem that was solved during the development of the proposed design has already been formulated and consists in increasing the combat effectiveness of the projectile due to the laying of combat elements and the identity of the functioning of the cluster shell from shot to shot.

To achieve this, in a well-known artillery cluster shell containing a body with a cylindrical cavity and a knock-out bottom, a fuse, a knockout device and combat elements, the body of which, in turn, is made in the form of a sleeve, stacked in cavities in rows along the length of the projectile around its longitudinal axis, according to the invention, the body of the combat element is made asymmetric in cross section along one of its axes, while the wall of the body of the combat element further has thinning in one or two places.

Effectively, if a part of the outer surface of the shell of the combat element, the length of which is determined by its central angle from 35 to 95 °, is made in a shape that repeats the shape of the inner cylindrical surface of the cavity of the shell of the shell, and interacts with it, and additional thinning of the wall of the shell of the combat element is made in two places and is located in the area of the bald patches on the outer surface of the hull in the places of interaction with each other of combat elements placed around the longitudinal axis of the projectile.

It is advisable if part of the outer surface of the shell of the combat element, the length of which is determined by its central angle from 35 to 95 °, is made in a shape that repeats the shape of the inner cylindrical surface of the cavity of the shell of the shell, and interacts with it, while the internal cavity of the combat element is made eccentric to it outer surface and placed in such a way that the additional thinning of the wall of the combat element is directed to the longitudinal axis of the projectile, and the combat elements placed around the longitudinal axis are inter operate with each other by forming on the outer surface of the housing.

The problem is also solved by the fact that in a well-known artillery shell containing a body with a cylindrical cavity and a knock-out bottom, a fuse, a knockout device and combat elements, the body of which, in turn, is made in the form of a sleeve, laid in rows along the length of the shell around it the longitudinal axis, according to the invention, the body of the combat element in cross section is made asymmetric along one of its axes, while the wall of the housing of the combat element additionally has thinning in two places, and the shell is equipped with an additional combat e ementom placed on the longitudinal axis of the projectile and placed in an elastic member cooperating with each of the surrounding submunitions at three points.

It is advisable if a part of the outer surface of the shell of the combat element, the length of which is determined by its central angle from 35 to 95 °, is made in a shape that repeats the shape of the inner cylindrical surface of the cavity of the shell of the shell, and interacts with it, and additional thinning of the wall of the shell is located in the area of flats on the outer surface of the hull in the places of interaction with each other of combat elements placed around the longitudinal axis of the projectile.

Reliably, if the shape of the outer surface of the shell of the combat element mounted on the longitudinal axis of the shell repeats the shape of the outer surface of any of the combat elements mounted around the longitudinal axis of the shell, while one or two are made on the inner surface of the elastic element in the region of each thinning of the walls of the shell protrusion.

Simply, if the elastic element is made in the form of a split sleeve made of an elastic material, such as polyethylene, and on its outer surface are made double protrusions according to the number of combat elements placed in a row around the longitudinal axis of the projectile, and in the region of the section one protrusion is made on each side of the section .

It is reliable if in the gaps between the shell of the shell and every two combat elements placed around the longitudinal axis of the shell hollow tubes are placed.

The set of distinctive features of the applicant is not known, which is proof of the novelty of the proposal, and each of the features of the claimed sets clearly does not follow from the prior art, which is proof of the presence of an inventive step in the proposal. Moreover, the authors emphasize the existence of a causal relationship between the totality of the essential features of the invention and the achieved technical result.

The invention is illustrated by drawings.

Figure 1 shows an artillery cluster shell; figure 2 is a section aa of figure 1 (first option); figure 3 is a section aa of figure 1 (second option); figure 4 - section aa figure 1 (the third option for laying combat elements).

An artillery cluster shell contains a housing 1 with a cylindrical cavity in which the combat elements are placed 2. A leading belt 3 is mounted on the housing in its lower part. The housing has a knockout bottom 4. A fuse 5 is mounted in the upper part of the housing and a knockout device 6 is installed based on the gasket 7. The housing of the combat element is made in the form of a sleeve and the sleeve is laid in the cavity in rows in rows along the length of the projectile around its longitudinal axis (see figure 2 and 3).

A number of combat elements, located in the region of the knockout bottom of the shell, is based on elastic rings 8, repeating in cross-sectional shape the shape of the outer surface of the shell of the combat element (not shown).

According to any embodiment, the combat element body is made asymmetric in one of its axes in cross section, while the wall of the combat element housing additionally has thinning in one or two places, which is clearly shown in Figs. 2, 3 and 4.

A part of the outer surface 9 of the combat element body (according to any embodiment), the length of which is determined by its central angle α from 35 to 95 ° in cross section, is made in a shape that repeats the shape of the inner cylindrical surface of the cavity of the shell of the projectile, and interacts with it. The central angle is determined by the diameter of the body of the combat element, i.e. its number in a row, the inner diameter of the shell of the shell and the permissible thinning of the wall of the shell of the combat element.

According to the first embodiment of the combat element (see Fig. 2), its wall has additional thinning in two places and it is located in the region of flats 10 on the outer surface of the hull in the places of interaction of the combat elements located around the longitudinal axis of the projectile in a row.

According to the second embodiment (see Fig. 3), the wall of the combat element body has an additional thinning in one place due to the fact that the internal cavity of the combat element is eccentric to its outer surface, which clearly follows from the drawing in Fig. 3, and the additional thinning of the wall the combat element is directed to the longitudinal axis of the projectile, while combat elements placed around the longitudinal axis interact with each other along a generatrix on the outer cylindrical surface of the shell.

According to the third embodiment (see Fig. 4), the wall of the combat element body has an additional thinning in two places, and the projectile is equipped with an additional combat element 11 placed on the longitudinal axis of the projectile and placed in an elastic element 12 interacting with each of the surrounding combat elements at three points due to the fact that the elastic element 12 is made in the form of a split sleeve from an elastic material, such as polyethylene, and on its outer surface are made double protrusions 13 according to the number of combat elements placed in a row g of the longitudinal axis of the projectile, and in the area of the cut, one protrusion is made on each side of the cut, i.e. the cut extends between the double projections 13. The shape of the outer surface of the shell of the combat element 11 mounted on the longitudinal axis of the projectile repeats the shape of the outer surface of any of the combat elements of this embodiment mounted around the longitudinal axis of the projectile in a row, while on the inner surface of the elastic element 12 in in the region of each thinning, one or two projections are made 14. In the intervals between the shell of the projectile and every two combat elements placed around the longitudinal axis of the projectile, These hollow tubes are 15 made of polyethylene.

All elastic elements contribute to the reduction of shock loads acting during firing and official handling of the projectile.

The cartridge shell is designed to hit equipment from above, so it has a remote fuse that activates a bomber, in this case, a charge that, when triggered in the live part of the projectile by means of a gasket 7, overcomes the fastening resistance of the bomber bottom and pushes the warheads out of the hull. Combat elements descend to the target vertically oriented due to devices placed on their bodies (tape parachutes), as is done in the prototype.

Since the shells of combat elements are asymmetric along the axes, they, using the rotation given to them in the gun barrel due to the leading belt, fly further, increasing the area of damage. The asymmetry of the bodies of the combat elements contributes to their rotation around the transverse axis passing through the center of gravity and to eliminate the rotation of the body around the longitudinal axis obtained during the shot when pushing the combat elements from the expelling device from the shell of the shell. Since the asymmetry of the bodies of combat elements does not affect the cumulative effect of their equipment, its use is preferable in the proposed designs, and more powerful equipment is provided for the first two versions of combat elements.

For the third embodiment, the effectiveness will also increase from the addition of a combat element in a row, i.e. five elements per shell. The identity of the work of structures from shot to shot is complete.

For the claimed inventions, as described in the independent claims, the possibility of implementation using the methods and means described in the application and known up to date is confirmed.

In turn, the claimed inventions, when implemented, are able to achieve the result perceived by the applicant, therefore, they meet the criterion of industrial applicability of patent law.

Claims (8)

1. An artillery cluster shell comprising a body with a cylindrical cavity and a knockout bottom, a fuse, a knockout device and military elements, the body of which, in turn, is made in the form of a sleeve, stacked in rows in rows along the length of the shell around its longitudinal axis, characterized in that the body of the combat element in cross section is asymmetric in one of its axes, while the wall of the body of the combat element additionally has thinning in one or two places. 2. The projectile according to claim 1, characterized in that a part of the outer surface of the shell of the combat element, the length of which is determined by its central angle from 35 to 95 °, is made in a shape that repeats the shape of the inner cylindrical surface of the cavity of the shell of the shell and interacts with it, and additional thinning of the wall of the shell of the combat element is made in two places and placed in the area of the flats on the outer surface of the shell at the points of interaction of the combat elements located around the longitudinal axis of the projectile. 3. The projectile according to claim 1, characterized in that a part of the outer surface of the shell of the combat element, the length of which is determined by its central angle from 35 to 95 °, is made in a shape that repeats the shape of the inner cylindrical surface of the cavity of the shell of the shell and interacts with it, this internal cavity of the combat element is made eccentric to its outer surface and placed in such a way that the additional thinning of the wall of the combat element is directed to the longitudinal axis of the projectile, and the combat elements placed around the noy axis, interact with each other by forming on the outer surface of the housing. 4. An artillery cluster shell containing a body with a cylindrical cavity and a knockout bottom, a fuse, a knockout device and combat elements, the shell of which, in turn, is made in the form of a sleeve, stacked in rows in rows along the length of the shell around its longitudinal axis, characterized in that the body of the combat element in cross section is made asymmetric in one of its axes, while the wall of the body of the combat element additionally has thinning in two places, and the shell is equipped with an additional combat element placed on the longitudinal axis of the projectile and placed in an elastic element interacting with each of the surrounding combat elements at three points. 5. The projectile according to claim 4, characterized in that a part of the outer surface of the shell of the combat element, the length of which is determined by its central angle from 35 to 95 °, is made in a shape that repeats the shape of the inner cylindrical surface of the cavity of the shell of the shell and interacts with it, and additional thinning of the hull wall is located in the region of the flats on the outer surface of the hull at the points of interaction of the combat elements located around the longitudinal axis of the projectile. 6. The projectile according to claim 4, characterized in that the shape of the outer surface of the shell of the combat element mounted on the longitudinal axis of the projectile repeats the shape of the outer surface of any of the combat elements mounted around the longitudinal axis of the projectile, while on the inner surface of the elastic element in the region of each the thinning of the walls of the housing is made one or two protrusions. 7. The projectile according to claim 4 or 6, characterized in that the elastic element is made in the form of a split sleeve made of an elastic material, for example polyethylene, and on its outer surface are made double protrusions according to the number of combat elements placed in a row around the longitudinal axis of the projectile, and in the area of the section, one protrusion is made on each side of the section. 8. The projectile according to claim 4, characterized in that in the spaces between the shell of the projectile and every two combat elements placed around the longitudinal axis of the projectile, elastic hollow tubes are placed.

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