RU2040771C1 - Plastic wad-container for shot cartridge - Google Patents

Abstract

FIELD: ammunitions for hunting guns. SUBSTANCE: wad-container includes container for shots, damper, shutter in the form of disc with cylindrical skirt and brake tabs. Tabs 7 are located on inner or face surface 5 of skirt at acute angle to generating line of skirt. Vertexes of tabs face side opposite to disc 3. Length and width of skirt amount correspondingly to not less than 1/5 and not more than 1.15 of wad caliber. EFFECT: facilitated manufacture. 2 dwg, 1 tbl

Description

 The invention relates to elements of sports and hunting ammunition and can be used in high-performance cartridges for this purpose.

Known plastic wads-containers for shot cartridges, consisting of a container for shots, inside of which a plug-in shock absorber is located in its bottom part, in the tail part of the wad container is equipped with a seal in the form of a skirt [1]
A disadvantage of the described wads is that the cartridges equipped with these wads are characterized by a low fractional velocity and a high maximum pressure of the powder gases in the bore. This drawback is due to the fact that when moving as a result of acceleration, the walls of the wad-container are wedged out by the compressed shock absorber, the wad body is partially crushed in the area released as a result of the shock absorber compression. This causes resistance to the movement of the shot projectile in the bore and accordingly leads to an increase in the pressure of the powder gases and a decrease in the speed of the shot.

Also known is the wad container, consisting of a cylindrical container for shots, divided in front by cuts into petals, a shock absorber made in the form of a spring element, a seal, including a disk and a seal skirt [2]
The disadvantage of this wad is the low accuracy of the shotgun shell. This drawback is caused by the uneven opening of the petals of the container when the wad leaves the trunk channel, which leads to a deviation of the wad axis from the flight path of the fraction and causes a corresponding disturbance in the movement of individual grains, which ultimately leads to a decrease in ballistic characteristics (speed, accuracy, uniformity of location of holes) .

Closest to the proposed invention is a plastic wad container, including a container for shot, a shock absorber, petals for braking the wad on the trajectory, obturating the skirt in the tail of the wad [3]
The disadvantages of this wad are the high pressure of the powder gases created by it as part of the cartridge and the low speed of the shot. These shortcomings are due to the wedging action of the shock absorber and additional resistance to the movement of the wad with a shot shell in the barrel channel, provided by the petals in contact with the barrel walls.

 The aim of the invention is to increase the effectiveness of the shot by increasing the uniformity of the location of holes and the speed of the shot projectile.

 The goal is achieved in that in a known wad-container, comprising a shotgun container, a shock absorber, a disc-shaped obturation device with a cylindrical skirt and petals for braking a container wad, according to the invention, the petals are placed on the inner or end surface of the obturating skirt and are located symmetrically with respect to the longitudinal axis wad-container, the tops of the petals are turned in the direction opposite to the disk and their planes make an acute angle from the generatrix of the skirt, and the skirt itself is made with a length of at least 1/5 caliber wad and has a thickness of not more than 1/15 caliber.

 In FIG. 1 shows a wad container with petals made on the end surface of the obturating skirt; in FIG. 2 the same, with petals on the inner surface of the obturation skirt.

 The wad container contains a shotgun container 1, a shock absorber 2 located behind the tank 1 and consisting of a springing element of the type of legs or the like, a sealing device including a disk 3 and a sealing skirt 4. On the front 5 (Fig. 1) or the inner 6 (Fig. 2) surface of the obturation skirt 4 made of petals 7.

 During the shot under the influence of gas pressure created in the charging chamber by the igniter capsule, the wad skirt 4 wad tightly pressed against the walls of the liner, preventing the breakthrough of powder gases. The shock absorber 2 is compressed before the fraction starts to move, thereby preventing a sharp increase in pressure in the charging chamber.

 When moving a wad-container with a shot shell in the sleeve and in the bore, neither the shock absorber nor the petals show resistance. When the wad-container with a shot projectile leaves the bore, the obturating skirt 4 under the action of a jet of powder gases flowing from the bore at a high speed is turned onto the obturating disk 3. This is facilitated by the elasticity of the skirt due to its relatively large geometrical dimensions (1/5 caliber ) length and small thickness (1/15 gauge), as well as heating it with powder gases and friction against the bore. After the obturating skirt 4 is wrapped on a disk 3, the petals 7 located on the inner 6 or end 5 of the surface of the skirt are turned towards the movement of the wad container with a shotgun. Due to their deviation to the axis of the wad before the shot, after the shot and eversion of the obturating skirt, the plane of the petals are deflected from the axis of the wad and the petals provide additional resistance to the movement of the wad. This effect provides quick and stable shot-to-shot separation of the wad-container from the shot without introducing disturbances into the flying stream of shot elements.

 Thus, the placement of the petals on the inner or end surface of the obturating skirt, made with structural dimensions that ensure its eversion after leaving the wad from the barrel channel, as well as the deviation of the plane of the petals before the shot to the longitudinal axis of the wad provides a decrease in resistance to movement of the wad container in the barrel channel, and as a result, it reduces the maximum pressure of the powder gases in the bore, increases the speed of the shot, and also reduces the effect of the wad-container on the grains after their departure of the barrel, thereby enhancing the uniformity of spaced holes. Increasing the speed of the shot and the uniformity of the location of the holes contributes to a more reliable destruction of the targets, i.e., with the growth of these characteristics, the effectiveness of the shot as a whole increases.

For firing tests, samples were made of 12-gauge wad containers of polyethylene with an obturating skirt having a length of 5 mm and a thickness of 0.8 mm at the disc. Four trapezoidal petals with a base width of 5 mm and a total height of 3 mm were made on the end surface of the obturation skirt. Petals plane diverted to the longitudinal axis of the wad 30 ^of. As shown by firing with wads having a skirt shorter than 1/5 caliber and a thickness at the base of more than 1/15 caliber, the obturating skirts with this aspect ratio were not reversed.

 The tests were carried out as part of 12-caliber sports cartridges using plastic shells with Zhevelo-N capsules, lead shot N 7 weighing 28 + 0.5 g, and Sokol gunpowders GOST 22781-77 and Sunar-SV TU 84- 859-80 with 2.1 and 1.6 g, respectively. The tests were carried out in groups of 10 shots in comparison with a standard wad-container (prototype) with petals and a shock absorber. The test results are shown in the table.

 As can be seen from the proposed results, the use of the proposed wad-container design in comparison with the prototype allows to increase the speed of the shot projectile, the accuracy of the battle and the uniformity of the location of holes.

Claims (1)

 PLASTIC WADGE CONTAINER FOR Shotgun cartridges, containing a shotgun container, a shock absorber, a disc-shaped obturation device with a cylindrical skirt and brake petals, characterized in that, in order to increase the efficiency of the shot, the petals are placed symmetrically on the inner or end surface of the obturating skirt relative to its axis and are located at an acute angle to the generatrix of the skirt, with the tops of the petals facing the opposite side of the disk, and the length and thickness of the skirt are respectively not less than 1/5 and more less than 1/15 caliber wad.

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