RU2133439C1 - Small-sized assembly cartridge of ring ignition with high impact energy - Google Patents

Abstract

FIELD: production of assembly cartridges. SUBSTANCE: use is made of compacted powder charge with alternating loading density within 0.95 to 1.15 g/cu.cm increasing from the cartridge case flange to the neck cut, and charge height within 1.70 to 2.0 of the cartridge case caliber. EFFECT: enhanced power of home and foreign assembly cartridges on the average by 30%. 2 dwg

Description

 The present invention relates to the production of mounting rings of annular ignition and can be used for attaching various structures to building foundations during the operation of mounting guns and other powder tools.

 Known mounting cartridges of caliber 5.6-9.0 mm with a wide range of energy of the powder charge (power) of the cartridges within each caliber (catalog company "Sellier and Bellot" p. 39-41) [1].

For cartridges 5.6 / 16 CAPS, the energy of the powder charge is 140-400 J
6.3 / 16 CAPS - 100-500 J
6.8 / 11 - 120-450 J
6.8 / 18M CAPS - 120-500 J
The design of the Sellier and Bellot mounting cartridges is a brass annular ignition shell in which the impact compound, powder charge, is placed. The sleeve of the sleeve is closed by a beam star to ensure charge sealing.

 The disadvantages of Sellier and Bellot mounting cartridges include the use of an expensive brass sleeve and the principle of “free filling of the powder charge” - without pressing it, which does not allow increasing the cartridge power by placing a larger mass of powder charge in the sleeve while maintaining the standard cartridge length.

 Mounting cartridges of 6.8x15 mm caliber (code "K" drawing. MSK. 000SB) and 6.8x22 mm (code "D" drawing. MSD.000 SB) domestic production are also known [2].

 Mounting cartridges of domestic manufacture of caliber 6.8 mm contain a steel varnished sleeve, which contains shock and powder charges. The sleeve of the sleeve is closed by a ray star.

The disadvantages of domestic mounting cartridges are:
- lack of designs of cartridges of caliber 5.6-6.3 mm;
- the sleeve length is overestimated in comparison with foreign counterparts by 3-4 mm, which does not meet the requirements of CIP - PMK of the Brussels Convention;
- insufficient strength of the steel sleeve when using a powder charge of increased power;
- the principle of free filling of the powder charge, limiting its energy, because the bulk density of domestic powders does not exceed 0.65-0.98 g / cm ³ .

 Mounting cartridges 6.8x22 with a steel coating sleeve are closest to the proposed invention and are taken as a prototype [2].

 The objective of the invention is the creation of a series of small-sized mounting ring-shaped cartridges of predominantly 5.6-6.8 mm caliber, with high charge energy, which allows to increase the power of cartridges by 25-30% in comparison with analogs, moreover, the cartridge uses a steel sleeve that ensures compliance with the requirements International Standard CIP - PMK of the Brussels Convention.

The problem is solved in that in the mounting ring ignition cartridge with high energy of charge, containing a steel sleeve, shock, powder charges and sealing means, the powder charge is pressed with a variable density in the range of 0.95-1.15 g / cm ³ and charge height 1.70-2.0 caliber cartridge, and the density of the mounting increases from the flange of the sleeve to the cut of its barrel, which allows you to perform a cartridge with a length of 2.45-2.75 caliber. For reliable operation of the cartridge with increased charge energies, the steel sleeve is made with the taper of the inner surface within 1: 55-1: 70, and the walls of the case body have an average hardness at the flange of 120-170 HV, increasing to the edge of the barrel to 150-170 HV.

 In an embodiment of a cartridge of 5.6 mm caliber, the wall thickness of the sleeve body is 0.50-0.70 of the bottom thickness at the flange and 0.30-0.45 of the bottom thickness at the muzzle section.

 In the embodiment of the cartridge of 6.3–6.8 mm caliber, the thickness of the walls of the sleeve body is 0.60–0.90 of the bottom thickness at the flange and 0.35–0.65 of the bottom thickness at the cut of the barrel.

 In all known mounting cartridges, the specified set of essential features was not found, which means that the invention meets the criterion of "novelty."

 The technical result of the claimed invention lies in the fact that a series of small-sized mounting cartridges of caliber 5.6-6.8 mm with a high charge energy is proposed, which allows to increase the cartridge power by an average of 25-30% in comparison with analogs. At the same time, for the cartridges, a steel sleeve of increased strength was used, satisfying the requirements of the international standard CIP - PMK of the Brussels Convention in terms of external geometric characteristics.

The technical result is achieved by the fact that in the mounting cartridge containing a steel sleeve, shock and powder charges and sealing means, there is a pressed powder charge with a variable density of 0.95-1.15 g / cm ³ increasing from the sleeve flange to its shaft, height charge in the range of 1.70-2.0 caliber cartridge, and the length of the cartridge is 2.45-2.75 caliber. Pressed powder charge allows you to place in the sleeve a large mass of gunpowder in comparison with analogues.

 The inner surface of the steel sleeve is made with a taper of 1: 55-1: 70, and the walls of the body of the sleeve have an average hardness at the flange of 120-140 HV, increasing to the edge of the barrel to 150-170 HV for all the proposed calibrations of the mounting cartridge.

 The wall thickness of the sleeve housing for a 5.6 mm cartridge is 0.50-0.70 of the bottom thickness at the flange. With an increase in the caliber of the cartridge, and, accordingly, power, the corresponding parameters of the thickness of the walls of the sleeve increase and are for cartridges of caliber 6.3-6.8 mm, respectively 0.60-0.90 thickness of the bottom of the flange and 0.35-0.65 of the thickness of the bottom cut dulce.

 The indicated features characterizing the cartridge and its elements, in combination, allow for a complete combustion of powder elements, a programmed character of combustion and reliable functioning of the cartridges during operation, when the energy of the powder charge is increased by 25-30% in comparison with analogues.

The invention is illustrated by drawings of a specific design of a cartridge of 6.3x16 mm caliber (Fig. 1) and a sleeve (Fig. 2). The cartridge contains a steel ring of annular ignition with a coating of 1, the flange of which is pressed into the impact composition 2, and a press powder charge with a density of 0.95-1.15 g / cm ^{3 is} placed in the housing 3. To ensure the tightness of the powder charge, the latter is closed from above with a cardboard wad 4. Cardboard wad 4 is held in the cartridge by varnishing (not shown) and by folding the edges of the housing 5.

In FIG. 2 shows a sleeve with a taper of the inner surface within 1: 55-1: 70, containing a flange 6, a housing 7 and a dulce 8. As a powder charge 3, spherical nitroglycerin powder with a bulk density of at least 0.9 g / cm ³ and powder energy is used charge not less than 4.4 MJ / kg. The mass of the powder charge is 0.36 g, which allows you to develop energy up to 750 joules when fired. This value of the energy of the powder charge exceeds the analogs by 25-30%.

 To provide increased energy of the powder charge with a shorter steel sleeve than the prototype, the sleeve with the taper of the inner surface in the range of 1.55-1.70 has a hardness of flange 6 in the range of 120-140 HV and wall thickness (0.6-0, 9) t, the hardness of the walls of the muzzle 8 is 150-170 HV and the thickness is (0.35-0.65) t, where t is the thickness of the bottom of the sleeve.

 The geometric parameters of the sleeve, combined with the hardness of the walls of the sleeve body, ensure reliable operation of the cartridge at high charge (power) energies and meet the requirements of the CIP - PMK Brussels Convention.

 When fired, the mounting cartridge with a high energy charge works as follows.

 When the striker is triggered, the pressed impact composition ignites the grains of the powder charge, which has a lower density in the lower part of the sleeve, which is almost equal to the bulk density. The gaps between the grains of gunpowder are sufficient for its stable combustion. An increasing charge density leads to a reduction in the gaps between the grains of gunpowder, prevents a sharp increase in the volume of combustion and the disintegration of the powder charge into separate combustion zones and leads to uniform layer-by-layer burning of the pressed charge.

 A smooth increase in the combustion volume provides a smooth change in the pressure of the powder gases, as a result of which an optimal gas intake is formed, the powder elements burn without residue, and the steel sleeve functions normally under such conditions. In addition, the increasing charge density delays the breakthrough of powder gases through the non-burning charge layer and the premature opening of the sprocket or the displacement of the cardboard wad.

 The variable density of the powder charge, which allows you to place a large mass of powder in the sleeve and its smooth and complete combustion, increases the power of the cartridge.

 The combination of the above ratios of the dimensions of the cartridge and the density of the powder charge in the sources of patent and scientific and technical information was not found and therefore is new.

 Cartridges with the specified parameter limits provide higher capacities compared to known cartridges with the same external overall dimensions and the use of a steel sleeve, therefore, the claimed cartridge size ratios are significant and meet the criteria of an inventive step.

 The indicated essential features of small-sized building and mounting cartridges are interconnected and a change in any of them leads to a decrease in efficiency.

 The taper of the inner surface of the sleeve within 1: 55-1: 70.

 The inner surface of the sleeve is made in the form of a truncated cone with a smaller diameter at the flange of the sleeve and a larger one at the cut of the muzzle. The taper of the inner surface of the sleeve less than 1: 55 reduces the internal volume of the sleeve, reduces the mass of the placed powder charge and, accordingly, reduces the power of the cartridge.

 An increase in taper of more than 1:70 increases the capacity of the powder charge, but in combination with the external dimensions of the cartridge reduces the thickness of the sleeve wall in the area of the barrel, which leads to "tight extraction of the sleeve" due to an increase in the degree of residual deformation and the possibility of flange detachment when the sleeve is removed from the cartridge .

 The average hardness of the sleeve body wall at the flange is 120-140 HV, and the dulza is 150-170 HV.

 We note such a significant fact that the prototype is characterized by almost equal values of hardness throughout the shell case.

 In the present invention, the value of hardness increases uniformly from flange to dulce.

 An increase in hardness values above 140 HV at the flange and above 170 HV at the dulse with the use of increased charges (more than 500 J) sharply reduces the strength of the liner during firing due to the appearance of cracks in the flange, body and dulz.

 A decrease in hardness below the level of 120 HV at the flange and 150 HV at the dule increases the degree of permanent deformation of the body during firing, making it difficult to remove the sleeve from the cartridge (the appearance of "tight extraction").

Pressed powder charge with a variable density in the range of 0.95-1.15 g / cm ³ .

 The use of pressed powder charge in the construction cartridges allows to increase the energy of the latter by 25-30% in comparison with domestic and foreign counterparts.

 An important condition is the variable density of the powder charge, increasing from the sleeve flange to the dulse, which is ensured by the pressing conditions.

 This distinctive feature of the invention allows to ensure the programmed nature of gas formation, increasing the pressure of the powder gases and achieving high values of power cartridges.

When the charge density is less than 0.95 g / cm ³ decreases the power level of the cartridge due to the low mass of the powder charge.

An increase in the charge density above 1.15 g / cm ³ violates the gas-dynamic characteristics of the charge burning process in the sleeve, which leads to a decrease in its completeness of combustion.

 The density limits of the powder charge are directly related and interdependent with its height.

 The height of the pressed charge is in the range of 1.70-2.0 caliber cartridge.

 If the height of the pressed powder charge is less than 1.70 caliber of the cartridge with the maximum permissible mass of gunpowder, this will entail re-pressurization of the charge, and an increase in height of more than 2.0 caliber limits the technological ability to place the maximum mass of gunpowder in the sleeve, as well as sealing means cartridge.

 The length of the cartridge within the range of 2.45-2.75 caliber cartridge.

 When the length of the cartridge is less than 2.45 caliber, the internal volume of the sleeve and the mass of the placed powder charge are reduced, which ultimately, while maintaining the other claimed ratios, reduces the power of the cartridge.

 The maximum cartridge length is limited by the size of the chamber of the respective powder tools.

 The thickness of the walls of the shell case.

 The thickness of the walls of the shell case, depending on many interrelated factors and the conditions of the process, is selected from the conditions for ensuring the reliability of the functioning of cartridges during firing.

 The effect of deviations from the given limits of wall thickness will be considered using the example of a sleeve for a cartridge with a caliber of 5.6x16 mm.

 The wall thickness of the sleeve housing at the flange is (0.50-0.70) t and (0.30-0.45) t at the section of the barrel, where t is the thickness of the bottom.

 The wall thickness of less than 0.50t at the flange and less than 0.30t at the muzzle cut reduces the strength of the liner, especially at maximum weights of the powder charge.

 An increase in wall thickness of more than 0.70t at the flange and 0.45t at the muzzle cut increases the strength of the sleeve, but reduces the internal volume of the sleeve, which does not allow the powder charge to be placed in the sleeve without violating the pressing limits.

 The wall thickness of the sleeve body for 6.3 mm and 6.8 mm cartridges is (0.60-0.90) t at the flange and (0.35-0.65) t at the muzzle section, where t is the bottom thickness.

 The effect of deviations from these limits on the functioning of cartridges is similar to the effect of deviations for a caliber of 5.6 mm.

 The claimed design of small-sized building and mounting cartridges with high charge energy at the ratios specified in the formula was verified in the production conditions of NZNVA OJSC. Experimental batches of cartridges were manufactured and successfully tested, which confirmed the reliability of the cartridges during operation both at NZNVA OJSC and at other enterprises. Experienced parties are sold to the consumer.

 Thus, small-sized building and mounting cartridges of ring ignition, with a high charge energy, which use a steel sleeve and pressed powder charge in their characteristics exceed the known domestic and foreign cartridges, and construction and mounting cartridges of calibers of 5.6 mm, 6.3 mm previously not produced by domestic industry.

Sources of information
1. Brochure of Sellier & Bellot, pp. 39-40.

 2. Mounting cartridge MSD.000 SB, tracing bracket of OJSC NZNVA, 1981

Claims (3)

1. A compact annular ignition mounting cartridge containing a steel sleeve with a flange and a housing, an impact and powder charge and means for its sealing, characterized in that the inner surface of the sleeve housing is made in the form of a truncated cone with a taper of 1:55 - 1:70, the housing wall have an average hardness of 120 - 140 HV at the flange, and 150 - 170 HV at the muzzle section, the powder charge is extruded with a variable density of 0.95 - 1.15 g / cm ³ , increasing from the flange to the muzzle section and height (1, 70 - 2.0) d, and the length of the cartridge is (2.45 - 2.75) d, g e d - caliber cartridge.  2. The cartridge according to claim 1, characterized in that the wall thickness of the sleeve body, mainly for a caliber of 5.6 mm, is respectively (0.50 - 0.70) t at the flange and (0.30 - 0.45) t at the cut of the muzzle, where t is the thickness of the bottom of the sleeve.  3. The cartridge according to claim 1, characterized in that the wall thickness of the sleeve body, mainly for calibres 6.3 - 6.8 mm, is respectively (0.60 - 0.90) t at the flange and (0.35 - 0 , 65) t at the cut of the dulce, where t is the thickness of the bottom of the sleeve.

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