RU2229091C2 - Cartridge case for propellant charge - Google Patents

Abstract

FIELD: ammunition, in particular, cartridge cases for propellant charges, widely applicable for manufacture of artillery shots both of separate cartridge case and fixed round loading of various types. SUBSTANCE: the cartridge case for propellant charge has a body, bottom conjugate to the body in radius, nipple, seat as a means of ignition and a flange. The diameter of the nipple base is made equal to 0.18 to 0.63 of the maximum outside diameter of the cartridge case body, and the radius of conjugation of the bottom to the body is made equal to 0.03 to 0.25 of the maximum outside diameter of the body. The claim makes it possible to produce a cartridge case operating at a pressure of more than 300 Mpa, having a sealed seat-means of ignition joint at the maximum pressure of powder gases in the gun chamber, with provision of the necessary strength of the body at a shot, reliable extraction of the cartridge case by the gun semi-automatic equipment. EFFECT: provided multiple use after renovation. 9 cl, 2 dwg

Description

The invention relates to ammunition, in particular to the design of artillery shells, and can be widely used in the production of artillery rounds of both a separate shell and unit loading.

Currently, work is underway to improve artillery rounds aimed at increasing range, improving fire accuracy and improving operational characteristics.

In this regard, increased demands are placed on artillery shells to ensure the impermeability of the propellant charge, the strength of the bottom and body, reliable extraction and the possibility of reuse.

The peculiarity of these shells is that they are used to complete the shots with powerful large-caliber guns operating at significant pressures.

A well-known sleeve (see P.P. Pushchin "Gun shells." - M .: GIOP, 1941, p.10), consisting of dulce, ramp, housing, flange, socket for ignition and a flat bottom.

Such shells are widely used for small-caliber unitary loading artillery systems, mainly for automatic guns.

The disadvantage of this technical solution is the difficulty in manufacturing shells of this type for shots against powerful artillery pieces, which have a large-capacity charging chamber and operate at high working pressures.

To install a means of ignition corresponding to a propellant charge, a nest of a significant size is required, as a result of which the flat bottom of the sleeve will have a thickness exceeding the calculated strength properties by 2.0-2.5 times, which entails an increase in the mass of the sleeve and a significant consumption of material, going to its manufacture.

The objective of this technical solution was to create a cartridge case for shots to artillery systems of a caliber of not more than 30 mm and a working pressure of up to 300 MPa (3000 kg / cm ² ) without requiring performance in larger guns and pressures of more than 300 MPa.

Common signs with the design of the artillery shell proposed by the authors is the presence of a housing, a flange, a socket for a means of ignition and a bottom.

The closest in technical essence and the achieved technical result is a cartridge case for a propellant charge, comprising a housing, a bottom that is mated with the housing along the radius, a nipple, a socket for a means of ignition and a flange (see A.G. Gorst "Gunpowder and explosives." - M., 1971, 3rd edition, p. 167), adopted by the authors as a prototype.

As can be seen from this technical solution, the use of the nipple formed in the bottom of the sleeve allows you to set the appropriate means of ignition of the propellant charge, which develops a pressure of more than 300 MPa, without increasing the required thickness of the bottom in excess of the calculated.

The reasons that impede the achievement of the specified technical result when using the well-known shells for the propelling charge adopted by the authors for the prototype include the fact that the required thickness of the bottom is ensured by the use of the nipple, but at the same time in the shells to large-caliber artillery systems and a maximum working pressure of over 300 MPa are not provided:

- the necessary durability of the bottom of the cartridge case when firing, reliable extraction of the cartridge case with semi-automatic guns and the tightness of the socket connection — a means of ignition at the maximum pressure of powder gases in the chamber of the gun, as well as the possibility of reuse of spent cartridges due to violation of the integrity of the socket for the ignition means.

Common signs with the design of the cartridge case for the propellant charge proposed by the authors is the presence of a housing, a bottom that is mated with the housing along the radius, a nipple, a socket for a means of ignition and a flange.

In contrast to the prototype, in the propellant sleeve proposed by the authors, the diameter of the base of the nipple is made equal to 0.18-0.63 of the maximum outer diameter of the shell case, and the radius of conjugation of the bottom with the body is made equal to 0.03-0.25 of the maximum outer diameter of the shell.

In special cases, that is, in specific forms of execution, the invention is characterized by the following features:

- the socket for the ignition tool is threaded with an average thread diameter of 0.11-0.34 of the maximum outer diameter of the housing;

- the height of the nipple is made equal to 1.5-4.0 thickness of the bottom;

- on the body under the flange made an annular groove with a width of 0.2-0.6 bottom thickness;

- the diameter of the flange is made no more than the maximum outer diameter of the housing;

- an annular groove with a diameter of 0.75-0.95 flange diameters is made on the body;

- the sleeve is made of brass;

- the sleeve is made of steel;

- the sleeve has a protective zinc phosphate or chromate coating with a thickness of at least 6 microns.

It is this that allows us to conclude that there is a causal relationship between the totality of the essential features of the claimed technical solution and the achieved technical result.

These signs, distinctive from the prototype and to which the requested amount of legal protection applies, are sufficient in all cases.

The objective of the invention is the creation of a sleeve for a propellant charge, operating at a pressure of more than 300 MPa and a sealed connection of the socket - a means of ignition at the maximum pressure of the powder gases in the gun’s chamber, providing the necessary bottom strength during firing, reliable extraction of the sleeve by semi-automatic guns and the possibility of repeated use.

The specified technical result during the implementation of the invention is achieved by the fact that in the known sleeve for the propelling charge, comprising a housing, a bottom conjugated with the housing along the radius, a nipple, a socket for ignition means and a flange, the feature is that the diameter of the base of the nipple is made equal to 0, 18-0.63 of the maximum outer diameter of the sleeve body, and the radius of the interface between the bottom and the body is made equal to 0.03-0.25 of the maximum outer diameter of the case.

A new set of structural elements, as well as the presence of connections between them, allow, in particular, due to:

- execution of the diameter of the base of the nipple equal to 0.18-0.63 of the maximum outer diameter of the shell case - to provide its necessary strength when fired and, as a result, the safety of the socket under the ignition tool, necessary for repeated reuse of spent cartridges. When the diameter of the base of the nipple is less than 0.18 of the maximum outer diameter of the sleeve body, the stiffness of the nipple is significantly reduced, which during the shot leads to crushing of the walls of the nipple under the influence of the pressure of the powder gases and the formation on the side surface of the nest of cracks, folds, breakthrough of powder gases for the official cut of the gun by connecting the socket - the means of ignition, as well as squeezing out the means of ignition from the socket, which can lead to jamming of the gun’s shutter and the inability to extract the spent sleeve luavtomatiki guns. In addition, folds and cracks in the nest exclude the possibility of reuse of spent cartridges. When the diameter of the base of the nipple is more than 0.63 of the maximum outer diameter of the sleeve body, the placement and functioning of the propellant charge are worsened due to a decrease in the internal volume and the formation of stagnant zones between the walls of the body and the nipple.

The presence of stagnant zones during the shot leads to incomplete combustion of part of the propellant charge in them and, accordingly, to a drop in working pressure. The drop in working pressure leads to a decrease in the initial flight speeds of the projectile and the given firing range. In addition, the spread of the initial projectile flight speeds increases and, accordingly, the accuracy of fire decreases;

- making the radius of conjugation of the inner bottom surface with the side surface of the hull equal to 0.03-0.25 of the maximum outer diameter of the hull - to ensure the strength of the hull wall in the transverse direction and reliable extraction of the spent sleeve by the semi-automatic guns by increasing the length of the non-fit section with the gun’s chamber . When the radius of conjugation of the inner bottom surface with the side surface of the hull is less than 0.03 of the maximum outer diameter of the hull, the maximum thickness of the bottom of the sleeve in the mating zone sharply decreases, which leads to a violation of the transverse strength of the wall and, as a result, to the separation of the bottom of the sleeve when fired with a breakthrough powder gases for breech cut of the gun. When the radius of the conjugation of the inner bottom surface with the hull is more than 0.25 of the maximum outer diameter of the hull under the influence of the pressure of the powder gases, the deformation peak shifts to the region of plastic deformations in the bottom parts of the sleeve, the sleeve is skewed, it is pinched in the gun chamber and there is no extraction of the spent sleeve.

Signs characterizing the invention in specific forms of execution, allow, in particular, due to:

- execution of the average diameter of the thread in the socket equal to 0.11-0.34 of the maximum outer diameter of the body - to ensure the strength of the bottom when firing and reliable extraction of the spent sleeve from the gun’s chamber, to eliminate the violation of the integrity of the thread in the socket (cutting and crushing of the turns) and thereby ensure the possibility of reuse of the sleeve.

It is known that in the process of firing, the bottom of the sleeve experiences not only significant radial and axial elastoplastic deformations, but also bending deformations due to axial elastic deformation of the locking unit of the artillery gun. In this case, the maximum deformation (deflection) is experienced by the bottom sections located in the immediate vicinity of the center of the bottom, as far as possible from the walls of the liner body, and therefore having the least rigidity.

Fulfillment of the average diameter of the thread in the bottom socket less than 0.11 of the maximum outer diameter of the body leads to the location of the threaded connection in areas with maximum deflection deformation, which when fired from powerful artillery systems with high working pressures of the powder gases leads to a violation of the integrity of the thread, deterioration of the fit turns of a threaded socket - a means of ignition and a breakthrough of powder gases for an official cut of a gun (which is dangerous for the life of combat crews, especially artillery mountings and tanks), and violation of the integrity of the thread, crushing and cutting of part of the threads in the socket exclude the possibility of updating spent cartridges for their reuse. In addition, squeezing out the means of ignition by powder gases can clamp the wedge gate, which will lead to the inability to extract the spent sleeve by a semi-automatic gun.

It is known that the magnitude of the resulting stresses in the bottom of artillery shells during firing sharply increases in the radial direction from the center to the periphery. Therefore, with an average thread diameter in the socket of more than 0.34 of the maximum outer diameter of the housing, the connection of the threaded socket - ignition means is located on the site of the resulting stresses, which cause significant plastic deformations of the bottom metal. This leads to a deformation of the threads, deterioration of the tightness of the fit of the turns and, as a result, to the breakthrough of powder gases beyond the official cut of the gun. In addition, the clamping force of the sleeve in the gun’s chamber sharply increases, and therefore the extraction of the spent sleeve by the gun’s semi-automatic after the shot becomes impossible;

- performing a nipple height equal to 1.5-4.0 bottom thickness - to provide the necessary strength of the bottom of the sleeve during firing and its reliable extraction by semi-automatic guns. When the nipple height is less than 1.5 of the bottom thickness during the shot, the total radial deformations of the bottom of the artillery shell from the elastic deformation zone to the plastic zone are redistributed, which leads to a significant increase in the pinching forces of the cartridge case in the gun chamber and, as a result, to a sharp deterioration in its extraction by semi-automation guns. When the nipple height is more than 4.0 of the bottom thickness at the junction of the generatrix of the lateral surface of the nipple to the bottom, when the maximum pressure of the powder gases is reached, bending stresses appear in the sleeve body, which significantly exceed the strength characteristics of this section, which leads to the formation of annular tears, cracks and, accordingly, to breakthrough gunpowder gases for the official cut of the gun and the failure of the semi-automatic guns;

- execution on the body of the annular grooves with a width equal to 0.2-0.6 of the bottom thickness, - to ensure its multiple use. When the groove width is less than 0.2 of the bottom thickness, the reuse factor is reduced by reducing the compensation zone for radial plastic deformations of the bottom portions of the liner. The presence of a compensation zone is necessary to ensure reuse through updating by crimping the case. When the groove width is more than 0.6 of the bottom thickness, the wall thickness of the lower part of the body decreases and, accordingly, transverse breaks of the body occur;

- making the diameter of the flange no more than the maximum outer diameter of the housing - to provide automatic feeding of a shot from the link tape. When the diameter of the flange is more than the outer diameter of the housing, the feeding of charges into the chamber of the automatic guns is complicated due to the difficulty of moving the sleeve with the protruding flange in the feeding and loading mechanisms;

- performing an annular groove with a diameter of 0.75-0.95 of the diameter of the flange - to ensure reliable extraction of the spent sleeve from the gun’s chamber. When the diameter of the annular groove is less than 0.75 of the diameter of the flange, the sleeve flange is cut off by the legs of the extractors during the extraction of the sleeve. When the diameter of the annular groove is more than 0.95 of the diameter of the flange, the legs of the extractors jump off the flange due to a decrease in the contact area, and the shot sleeve remains in the gun chamber;

- execution of an artillery sleeve made of brass or steel - allows you to expand the raw material base and produce products that most fully satisfy the requirements of the customer;

- applying a protective zinc phosphate or chromate coating to the sleeve - allows protecting against the effects of correlating agents during storage and official handling.

The above features distinguishing the proposed technical solution from the prototype are not identified in other technical solutions and are not known from the prior art in the process of conducting patent research, which allows us to conclude that the invention meets the criterion of "novelty."

Examining the prior art during a patent search on all types of information available in the countries of the former USSR and foreign countries, it was found that the proposed technical solution does not explicitly follow from the prior art, therefore, we can conclude that the criterion of "inventive step" "

The essence of the invention lies in the fact that the sleeve for the propellant charge, comprising a housing, a bottom mating with the housing along the radius, a nipple, a socket for a means of ignition and a flange, in contrast to the prototype according to the invention, has a nipple base diameter of 0.18-0, 63 of the maximum outer diameter of the sleeve body, and the radius of the conjugation of the bottom with the body is made equal to 0.03-0.25 of the maximum outer diameter of the case.

The invention is illustrated by drawings, where figure 1 shows the sleeve for the propellant charge, figure 2 shows an embodiment of the sleeve for the propellant charge.

The proposed sleeve for propelling charge consists of a housing 1, the maximum outer diameter of the housing is Dк max, bottom 2 is conjugated with the housing along the radius R, the thickness of the bottom is TD, flange 3, the diameter of the flange is Df and nests for the ignition means 4, nipple 5, nipple height - Ns, diameter of the nipple base - doc, length of the non-fit area - lnp, camora - K.

In special cases, that is, in specific forms of execution in the sleeve, the nests for the ignition means 4 are threaded, with an average thread diameter of dcp equal to 0.11-0.34 of the maximum outer diameter of the housing Dк max, has a groove 6, the width of the groove is Shk , the annular groove is 7, the diameter of the groove is Dp.

The above device operates as follows.

A sleeve with a propellant charge (not shown in the drawing) is placed in the chamber of the gun K. After the means of ignition are activated (not shown in the drawing) located in socket 4, the propellant is ignited and burned. In this case, the pressure of the powder gases acts on the walls of the housing 1, the nipple 5, and on the inner surface of the nest under the ignition means 4 located in the bottom 2. The bottom portion of the housing is elastoplastic deformed with the formation of the non-fit area Lн / п. This provides the necessary stiffness and strength characteristics of the sleeve and its normal functioning.

The implementation of the sleeve for the propellant charge in accordance with the invention allows you to create a sleeve operating at a pressure of more than 300 MPa, having a tight connection "socket - means of ignition" at a maximum pressure of the powder gases in the gun’s chamber, with the necessary bottom strength when firing, reliable extraction of the sleeve by semi-automatic guns and reusable.

The invention can be used in the development of ammunition for various purposes and calibers.

The specified positive effect is confirmed by testing prototypes of cartridges for propellant charge, made in accordance with the invention.

Currently, design documentation has been developed, tests have been conducted, and mass production is scheduled.

Claims (9)

1. A sleeve for a propelling charge, comprising a housing, a bottom mating with the housing along the radius, a nipple, a socket for an ignition means and a flange, characterized in that the diameter of the base of the nipple is made equal to 0.18-0.63 of the maximum outer diameter of the housing of the sleeve, and the radius of the conjugation of the bottom with the body is made equal to 0.03-0.25 of the maximum outer diameter of the body. 2. The sleeve according to claim 1, characterized in that the socket for the ignition means is threaded with an average thread diameter of 0.11-0.34 of the maximum outer diameter of the housing. 3. The sleeve according to claim 1, characterized in that the height of the nipple is made equal to 1.5-4.0 thickness of the bottom. 4. The sleeve according to claim 1, characterized in that on the housing under the flange is made an annular groove with a width of 0.2-0.6 bottom thickness. 5. The sleeve according to claim 1, characterized in that the diameter of the flange is made no more than the maximum outer diameter of the housing. 6. The sleeve according to claim 1, characterized in that the housing is made of an annular groove with a diameter of 0.75-0.95 diameter of the flange. 7. The sleeve according to claim 1, characterized in that the sleeve is made of brass. 8. The sleeve according to claim 1, characterized in that the sleeve is made of steel. 9. The sleeve according to claim 1, characterized in that the sleeve is equipped with a protective zinc phosphate or chromate coating with a thickness of at least 6 microns.

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