RU2190181C2 - Noiseless cartridge and method for its reconditioning - Google Patents

Abstract

FIELD: ammunition, in particular, cartridges of fighting smoothbore weapon, sporting guns and other non-automatic and automatic small arms. SUBSTANCE: the cartridge has a cartridge case with a primer (primer cap) and a shot chamber, having a contraction in the front open part with a tapered section, powder propelling charge, shot and a piston provided with a centering device for the shot tail section and positioned between the powder propelling charge and the shot. The novelty is in the fact that the piston is built up of two concentric bodies of revolution- the central tapered component made of more solid material and the peripheral stepped tapered component made of less solid material. The bases of the tapered components are oriented towards the propelling charge. The cartridge case may be made of two parts interconnected by means of a detachable, in particular, threaded joint. The tapered section of contraction may be positioned in the entire length of the chamber, in particular, with a run-out by the piston length. It may be also made two-stepped: in the front part of the cartridge -with a larger angle of taper and on a smaller length. The centering device is preferably made in the form of a central cylindrical seat, in particular, in diameter, enveloping both tapered component of the piston. It is recommended to make the cartridge case and the central tapered component of titanium. The novelty is also in the sequence of cartridge reconditioning operations. The central tapered component is pressed of the piston wedged on the tapered section through the open end face of the cartridge at a simultaneous release of residual powder and primer gases, the peripheral component is pressed off, the cartridge case parts are detached, the piston parts are extracted, the primer is extracted and a new one is installed, the piston is reconditioned with the used of the "fired" central tapered component, a new shot and the reconditioned piston are installed, a new propelling charge is formed, the cartridge case parts are joined. The piston parts may be pressed off without replacement of the punch and without its reversal. EFFECT: enhanced technical and economic characteristics of the noiseless cartridge. 4 cl, 3 dwg

Description

 The group of inventions relates to ammunition, specifically to cartridges for smooth-bore combat weapons, police carbines, pistols, submachine guns, hunting rifles and other non-automatic and automatic small arms.

There are three main ways to reduce the sound level (jamming) when fired [1]:
- limiting the rate of expiration of powder gases from the bore;
- limitation of bullet speed to subsonic (not more than 300 m / s);
- cutoff (blocking) of the powder gases inside the cartridge case.

 The latter method was implemented, in particular, in an American silent cartridge (for a 11.2 mm smooth-bore revolver) containing a steel sleeve with an igniter capsule and a projectile chamber with a threaded section in front, a powder propellant charge, a projectile (shotgun container) and the piston [1, p. 624]. At the threaded section, the piston stopped, cutting off (blocking) the powder and capsule gases inside the cartridge.

 Known and domestic silent cartridge SP-3, containing a sleeve with an igniter capsule and shell, having a narrowing in the front open part with a conical section, a propellant propellant charge, a projectile and a piston located between the propellant powder charge and the projectile. It provides a centering device in the form of a cylindrical neck for the central part of the projectile, and the igniter capsule is integrated in the threaded plug screwed into the end of the sleeve [2]. However, it is intended exclusively for non-automatic weapons and, after combat use, is subject to destruction by demolition (see [1], p.624), which is not economically feasible.

 Closest to the claimed invention for the purpose and combination of design features is a silent cartridge containing a sleeve with an ignition device and a projectile chamber having a narrowing in the front open part with a conical section, a powder propelling charge, a projectile and a piston equipped with a centering device for the tail of the projectile and located between the powder propellant charge and the projectile [3].

 In it, the shell chamber is made with two cylindrical sections, between which the said conical section is installed, the sleeve and the stepped piston with conical sections are made of all-metal (non-integral), and the shell is centered using a cylindrical narrowing section in the front open part of the sleeve and a centering device for its tail part , which is made in the form of a central conical elevation in the front end of the piston, a cap is used as an ignition device (powder propellant charge) Yule-percussion igniter, in the structure used mainly steel. Unlike the SP-3 cartridge, it is intended mainly for automatic weapons.

 However, in the prototype device there is a residual deformation of the piston, while it is impossible to remove it from the sleeve and restore the cartridge for repeated (multiple) use. Like the SP-3 cartridge, it is subject to undermining due to the unforeseen release of gases blocked in the piston space. In addition, the sharp narrowing of the projectile chamber in a relatively short conical section and its cylindricality in the main, long section (the piston stroke section) determines the underutilization of the possibilities of improving the obturation of powder gases and lowering the sound level (gas-dynamic and mechanical). All this leads to insufficiently high technical and economic characteristics.

 The available sources of information do not contain information about any methods of restoring silent cartridges.

 In ordinary cartridges (i.e., not silent special cartridges), only the sleeve is reused (repeatedly), and the remaining elements are replaced with new ones (and even then not in all cases).

 The objective was to increase the technical and operational characteristics of the silent cartridge by ensuring its rational restoration with a wide range of reusable components, as well as reducing sound level (noise).

 The solution to this problem is achieved by a group of inventions, united by a single inventive concept, namely the fact that in a silent cartridge containing a sleeve with an ignition device and a projectile chamber, having a narrowing in the front open part with a conical section, a powder propelling charge, a projectile and a piston equipped with a centering device for the tail of the projectile and located between the propellant propelling charge and the projectile, the piston is made up of two concentric bodies of revolution - the central cone element of a harder material and the peripheral stepped tapered element from a less rigid material, while the cone base elements are oriented towards the propellant powder. The liner can be made of two parts, interconnected by means of a detachable connection, mainly threaded. The front part with the shell chamber can be equipped with a shank with a cavity for powder propellant charge, and the bottom part containing the ignition device can cover the said shank. The conical section of the narrowing of the projectile chamber can be located along its entire length, run to the length of the piston and be two-stage, while the step in the front open part of the shell chamber can be made with greater taper and a smaller length. The piston centering device for the tail of the projectile can be made in the form of a central cylindrical nest sample with a diameter preferably covering both piston cone elements. The top of the central cone element of the piston may be located deeper than the end surface of the central nesting sample. The sleeve and the central conical element of the piston are recommended to be made of titanium.

 The solution to this problem is also achieved by applying the method of restoring a silent cartridge, characterized by the above set of basic structural features and the first additional distinctive feature (composite design of the sleeve), which consists in the partial replacement of the components of the used cartridge with new ones while maintaining the sleeve, in which they are pressed out from the open end of the sleeve a piston jammed in the conical portion of the narrowing of the projectile chamber, its central conical element while temporary bleeding of residual gases, acting on the top of the central conical element by a punch, the stuck peripheral conical element is extruded, the sleeve parts are disconnected by their detachable connection, the piston cone elements are removed, the used ignition device is removed and a new one is installed, the piston is restored by connecting its central conical element with a new peripheral conical element, sequentially insert a new sn in the front of the sleeve and the reduced number of piston form a new powder propellant charge and re-connect the front and bottom of the sleeve together. Sequential extrusion of the central and peripheral conical piston elements from the sleeve can be carried out without replacing the punch between the indicated operations, and sequential extrusion of the central and peripheral conical piston elements from the sleeve with the non-reversible movement of the punch.

 Among the known devices and methods, no such combination of essential features would coincide with the declared one. At the same time, it is due to the latter that a new technical result is achieved in accordance with the task: increasing the technical and operational characteristics of the cartridge by ensuring its rational restoration with a wide range of reusable components, as well as reducing sound level (noise).

The inventive device silent cartridge and method for its recovery are explained in the drawings, where:
in FIG. 1 shows an example of the design of a silent cartridge, a longitudinal section;
in FIG. 2 - the process of restoring the cartridge at the stage of extruding the stored element of the piston while bleeding off the residual powder and capsule gases;
figure 3 is the same, at the stage of extruding the disposable element of the piston from the stored sleeve.

 The silent cartridge contains (see Fig. 1) a sleeve 1 of standard diameter d with an igniter capsule (or other ignition device) 2 and a projectile chamber 3, a propellant propellant charge 4, a projectile (in particular, a bullet) 5 and a piston (positions are indicated element by element ) located between charge 4 and projectile 5.

The piston is made up of two concentric bodies of revolution — a central conical element 6 of a harder material, preferably titanium, and a peripheral (i.e. enclosing element 6) stepped conical element 7 of a less solid material, for example brass. The length (height) of the piston is h ₁ . The steppedness of the element 7 is expressed in the presence of at least two conical surfaces 8 successively arranged along the length (height) of the piston, forming a labyrinth seal. The bases of the elements 6, 7 are oriented towards the charge 4. The piston is equipped with a centering device 9 for the tail of the projectile 5, which is located on the front end of the piston.

 A further description of the cartridge arrangement relates to particular, advantageous constructs.

The alignment device 9 is made in the form of a central cylindrical nest sample with a depth of h ₂ and a diameter that preferably covers both piston cone elements 6, 7. The geometric dimensions of the elements 6, 7 and sample 9 are recommended to be selected so that the top of the element 6 is located deeper (in FIG. 1 - below) of the end surface of the sample 9, with the formation of a gap 10 between the element 6 and the shank of the projectile 5. The base of the element 6 can also be located deeper (in figure 1 - above) the rear end of the element 7 by a value of h ₃ with the formation of space 11.

 As a rule, the sleeve 1 should be made up of two parts, one of which (the front part 1a with the chamber 3) can be equipped with a shank 12 with a cavity for charge 4, and the other (the bottom part 1b containing an igniter capsule or other ignition device 2) - made in the form of a glass. In this case, part 1b is connected to part 1a, covering the shank 12 by means of a detachable, predominantly threaded, connection 13. It is also possible to connect parts 1a and 1b to cover part 1a of part 1b (while ensuring the liner wall strength at charge level 4 the inner diameter of part 1b can be reduced to the required value by reducing the diameter of the space for charge 4).

The projectile chamber 3 has a narrowing (conical section) along its entire length and is preferably run-out over the piston length (height) h ₁ . It (he) is made (en) two-stage: the first (rear) stage 14 is made with relatively less taper over a relatively large length I ₁ , and the second (front) stage 15 is made with relatively greater taper over a relatively shorter length I ₂ . For standard 12-gauge liners, a gradual decrease in the diameter of the projectile chamber (with a run-out of a piston length h ₁ ) of about 16 mm to 14 mm can be recommended.

 Thus, the projectile 5 of diameter D is centered in the chamber 3 in its head part in section 15 and the shank in sample 9.

 Between the igniter capsule 2 and the charge 4, a technological washer 16 with holes (aperture) 17 can be provided.

 The described example of the structural implementation of the claimed device does not exclude other possible options within the framework of the claims.

 The device operates as follows.

 The operation of the igniter capsule (or other ignition device) 2 and the subsequent burning of the charge 4 causes the piston to move along with the projectile 5. In this case, the central element 6, having a relatively large base area, first moves under pressure from the powder and capsule gases relative to the peripheral element 7 , which is accompanied by a bursting of the latter, sampling of the gap 10 and an increase in the space 11. The presence of the space 11 and the taper 15 further improves the gas obturation.

 Overcoming the resistance of the sleeve 1 on the conical section 15, the projectile 5 leaves the sleeve 1, and the piston is more gradually (compared to the prototype) braked sequentially by the tapers 14 and 15 until it stops completely at the boundary of sections 14, 15 (a positive phenomenon of the piston jam).

 As a result, powder and capsule gases turn out to be reliably cut off (blocked, locked) in the piston space and begin to gradually lose internal energy under isochoric conditions, which manifests itself in a decrease in their temperature and pressure.

 The noise level (degree of noiselessness) is determined by the quality of the gas obturation during firing (gas-dynamic component) and the braking dynamics of the moving parts of the cartridge (mechanical component).

 The used ("fired") cartridge (automatically, already without projectile 5), automatically or manually removed from the chamber, is usually subject to recovery with partial disposal.

 Recovery (equipment) of the cartridge for its repeated (multiple) use is carried out in the following way.

 The cartridge is fixedly mounted with an emphasis on the end face of the bottom part 1b in the press, for example, in a device of the type UPS (universal device for equipping hunting ammunition, [4]). It is recommended that the use of a punch 18 (see figure 2, 3) with a stepped nose 19. The punch 18 is inserted into the open end of the sleeve 1, abut the end of its nose 19 to the top of the central element 6 and slowly extrude it from the peripheral element 7, on the first stage bleeding residual, cooled powder and capsule gases through the resulting gap between the elements 6 and 7 and the annular space 3 to the outside (see figure 2).

 Then (as the most rational variant of the method), without replacing the punch 18 and without reversing its supply, the jammed element 7 is pressed out, acting with the end face at the base of the sock 19 (in other words, its “step”) on the bottom surface of the sample 9 in part 7. Due to taper 14, the disassembled piston is lying in the bottom 1b of the sleeve 1 (in this example, on the washer 16). The cartridge, without removing it from the fixing device or having previously released it (depending on the particular equipment and conditions), is disassembled by disconnecting the parts 1a and 1b of the sleeve 1 via their detachable connection 13 (unscrew the thread 13), remove the elements 6, 7 and send the deformed element 7 for disposal. Then, using known methods, the used ignition device 2 is removed (the used igniter 2 is pressed out) and a new one is installed in its place. After that (or at the same time at another workplace), the piston is restored by connecting the used element 6 to the new element 7. The following operations consist in inserting a new shell 5 and the restored piston in series 1a of the sleeve 1, forming a new powder charge 4 and again connect parts 1a and 1b of the sleeve 1 to each other.

 If during the above-described operation of the primary feed of the punch 18, the resting friction force of the pair "element 6 - element 7" turns out to be greater than the resting friction force of the pair "element 7 - sleeve 1", then the powder and capsule gases will be etched through the gap formed between the element 7 and the sleeve 1, the piston is extruded from the sleeve 1 entirely and the separation of the elements 6 and 7 will have to be done separately as an additional operation.

 Thus, a rational restoration of a silent cartridge with a wide range of reusable components is ensured, as well as a reduction in the sound level (noise) of the cartridge, which ultimately leads to an increase in the technical and economic characteristics of a silent cartridge.

Sources of information
1. Blagovestov A.I. What they shoot from the CIS: Handbook of small arms / Ed. ed. A.E. Taras. - Mn .: Harvest, 1999 .-- 656 p. - C.618-624.

 2. Volkovsky N. L. Forces of special operations. - SPb .: Polygon-AST, MCMXCVI.-C.96.

 3. RU 2059189, F 42 B 5/02, 04/27/96 (prototype device).

 4. Trofimov V.N. Hunting ammunition and equipment for cartridges for hunting rifles. - Mn .: OOO "SLK", 1996 - 320s. - S.196-198.

Claims (14)

 1. Silent cartridge containing a sleeve with an ignition device and a shell chamber having a narrowing in the front open part with a conical section, a powder propelling charge, a projectile and a piston equipped with a centering device for the tail of the projectile and located between the powder propelling charge and the projectile that the piston is made up of two concentric bodies of revolution — a central cone element of harder material and a peripheral step cone element of less hard m material, while the bases of the cone elements are oriented toward the propellant charge.  2. The silent cartridge according to claim 1, characterized in that the sleeve is made of two parts interconnected by means of a detachable connection.  3. The silent cartridge according to claim 2, characterized in that the detachable connection of the sleeve parts is threaded.  4. Silent cartridge according to any one of p. 2 or 3, characterized in that the front part of the sleeve with a shell chamber is equipped with a shank with a cavity for propelling charge, and the bottom part containing the ignition device covers the said shank.  5. The silent cartridge according to claim 1, characterized in that the conical portion of the narrowing of the projectile chamber is located along its entire length.  6. Silent cartridge according to claim 5, characterized in that the conical portion of the narrowing of the projectile chamber is run to the length of the piston.  7. Silent cartridge according to claim 5, characterized in that the conical portion of the narrowing of the projectile chamber is made two-stage, while the step in the front open part of the shell chamber is made with greater taper and a shorter length.  8. Silent cartridge according to claim 1, characterized in that the centering device of the piston for the tail of the projectile is made in the form of a central cylindrical nest.  9. Silent cartridge according to claim 8, characterized in that the central cylindrical nest sample is made in diameter, covering both cone elements of the piston.  10. The silent cartridge according to claim 8, characterized in that the apex of the central conical piston element is located deeper than the end surface of the central nesting sample.  11. The silent cartridge according to claim 1, characterized in that the sleeve and the central conical piston element are made of titanium.  12. The method of restoring the silent cartridge according to claim 2, which consists in partially replacing the components of the used cartridge with new ones while maintaining the cartridge case, while the central conical element is pressed out of the piston jammed in the conical portion of the narrowing of the projectile chamber, while the residual of powder gases, acting on the top of the central conical element with a punch, the jammed peripheral conical element is pressed out, parts of the sleeve are disconnected by means of their p removable connection, remove the piston cone elements, remove the used ignition device and install a new one, restore the piston by connecting its central cone element with a new peripheral conical element, insert a new shell and reconstituted piston into the front of the sleeve sequentially, form a new powder propellant charge and again connect the front and bottom of the liner to each other.  13. The method according to p. 12, characterized in that the sequential extrusion of the Central and peripheral conical elements of the piston from the sleeve is carried out without replacing the punch between these operations.  14. The method according to p. 12, characterized in that the sequential extrusion of the Central and peripheral conical elements of the piston from the sleeve is carried out by the irreversible movement of the punch.

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