NO132005B - - Google Patents

Description

The invention relates to ammunition of the kind comprising a cartridge case and a projectile, the rear section of which is equipped

with fragile fins0

The projectile can be fragile and hollow and carry a load of flowable material that spreads out on impact. The projectile also has a special drop shape to reduce turbulence.

The purpose of the invention is to arrive at a construction which ensures that the fragile fins in the projectile's rear section are not destroyed at the moment of firing, so that the fins are intact when the projectile leaves the cartridge case.

This is achieved by a flexible plate-like piece of easily breakable material being arranged enclosing or wrapping around the finned rear section of the projectile, the flexible piece lying yieldingly against and retaining the loose propellant in a chamber behind the piece.

A preferred embodiment according to the invention shall

in what follows is described in connection with the attached drawings where:

Fig. 1 is a partially sectioned perspective view of a projectile according to the invention. Fig. 2 is a partial view of a projectile, the cartridge case being shown in dash-dotted lines to give a clear illustration of certain parts; Fig. 3 is a view with parts of the projectile according to the invention pulled apart before assembly and filling. Fig. 4 is a partially sectioned perspective view of the projectile in fig. 1 and 2, after it has been assembled and filled. Fig. 5 is an extracted perspective view of the cartridge case after fueling, together with the projectile and the fuel-retaining part or pad, before they are inserted into the cartridge case. Figures 6 to 10 are schematic views of successive assembly operations, and fig. 11 is another partially sectioned view of the fully assembled projectile.

Reference will now be made to the details of the figures in the drawings, where the sleeve 11 is suitable for firing from a conventional, smooth-bore tooth piston shotgun and comprises a sleeve 21, a fin-stabilized, liquid-filled projectile 31 which shatters on impact with the target, a propellant charge 51 and a flexible, plate-shaped piece 41 which is arranged around and behind the fin-shaped area

on the projectile 31.

The sleeve 21 comprises a cylindrical shell which is preferably made of a suitable plastic, e.g. linear polyethylene, although it can be made from other suitable materials, e.g. a paper composition etc. The sleeve 21 is. designed with a conventional, bevelled, cup-shaped brass base with bottom wadding 27 of suitable cardboard, plastic or of a composite construction and an ignition cap 29 which may be of any conventional or desired construction, for igniting the propellant charge 51 by the impact of the ignition piston against the spark plug 29.

The projectile 31 has a substantially teardrop shape with a rounded nose section 33, a straight conical middle section 35 and a finned rear section with fins 39 located in the piece 41. The projectile 31 is held in the sleeve 21 by its nose section 33 being retained by contact with a rolled or crimped retaining tongue 23a which is formed at the end of the sleeve shell 23.

The projectile 31 has two sections 33 and 35 which are preferably made of easily moldable thermoplastic materials such as nylon and polyethylene and which can withstand the instantaneous high temperature combustion of the propellant charge 51 without melting or bursting. The sections 33 and 35 are assembled along annular, mating connection portions 33b, 33c, 33i and 35b, 35c, 35i by means of a suitable bonding agent such as cement, or by friction welding etc. The rear end of the section 35 is formed similarly designed with a filling nozzle 37 with a filling bore 37a and extending behind the fins 39 so that a desired, flowable material, preferably a liquid, can be filled onto the projectile after the two sections 33 and 35 are connected to each other. The projectile is preferably not filled completely to enable expansion if the previously assumed temperature rises above the ambient temperature during the projectile seal after filling. However, it is desirable that only a minimal expansion space remains in the projectile in order to obtain a maximum payload content. The quantity of the liquid filling 32 will thus depend on the thermal expansion coefficient for the liquid and on a normally expected temperature rise during use. After filling, the projectile filling nozzle 37 is closed, e.g. by fusion with a hot concave iron, so that a hermetic closure 37b is produced. The projectile nose section 33 is designed with suitable grooves, preferably radial v-grooves 33a which radiate from the center of the nose section and along the outer surface thereof, in order to obtain an easier breaking up of the nose section in several directions on impact with the target and a significant lateral spread and atomization of the liquid liquid material 32 in the target impact zone. The grooves 33a also help to hold the nose section 33 firmly by friction-welding the two sections 33 and 35. With this at impact

against the target breakable and liquid-filled projectiles, it is possible to shoot through a glass window, also including a laminated safety glass window, in cars, and thus spread out the liquid filling as a cloud of small liquid droplets in the target area within the window, which may be completely or partially pierced of the projectile, depending on the projectile speed and the glass strength. in the case of the use of an easily volatile, liquid agent such as liquid filling 32, the spread will

could be significantly improved when hitting the target, which can either be against a wall, through a window or other targets. The choice of agent or agents 32 is particularly dependent on the desired end result. If it is necessary to neutralize an escapee, a liquid filling 32 of CS or CN liquid solution will be effective, as it will be able to effect an initial neutralization and control of persons from a significant distance. A suitable CS liquid solution can be prepared from about 1 to 30 wt% CS and the balance methylene chloride or another volatile liquid solvent.

To achieve the desired accuracy, e.g. when fired through a window, the projectile is designed with fins 39 which incline in the order of 1-4 degrees, preferably 4 degrees, and which have a wing shape in longitudinal section. The inclination of the fins 39 gives the projectile a stabilizing rotational movement in the trajectory and the wing shape of the fins 39 helps with this gyroscopic stabilization due to the fact that the angled fins provide lift forces while providing a low turbulence and vortex surface and thus maximum speed, range and accuracy. The angle of inclination of the outer inclined surface of the rear section 35 should preferably be the maximum allowed which can still produce the desired, essentially laminar flow along and past the wing-shaped fins 39. This angle has been found to be of the order of magnitude of around 20 degrees . It is because of the desired laminar flow and the desire to accommodate maximum liquid payload that the preferred projectile design has a substantially straight, cone-shaped rear section 35, the straight conformal providing maximum internal volume with a cone angle close to the limit of laminar flow. nothing. The nose section 33 mainly has a rounded shape to achieve maximum payload capacity together with the desired low air resistance and maximum radial dispersion in case of breakage on impact.

It is highly desirable that the fins 39 are undamaged when the projectile 31 leaves the sleeve 21. However, since the fins 39 are made of a relatively easily breakable plastic material, e.g. nylon, they could easily break up or crack if a substantially uneven quantity distribution of the gunpowder charge 51 were to occur in the area between the fins 39. In order to prevent this difficulty from occurring, the flexible piece 41 is placed, according to the invention, which can advantageously be made up of a pad 41 of a soft, elastic material, e.g. pblyurethane foam or polyethylene foam, etc., so that it extends around and behind the fins 39 and the conical rear surface 35a between the fins. The fins 39 have a slightly smaller diameter than the inner diameter of the sleeve shell 23, so that the foam pad 41 can be introduced into the cartridge sleeve 21 by a fairly simple push down of the projectile into a vertically standing sleeve 21 as shown in figures 6 - 8 and after the preceding assembly and loading of the sleeve with firing cap 29 and gunpowder charge 51, as shown in fig. 5. Although others may be used, e.g. circular pad shapes, the preferred pad shape is square, as this is easily accommodated between the fins, and as can be seen in Figures 1, 9 and 11, the propellant charge can thereby be held firmly and effectively in place inside the chamber which is delimited by the bottom water 27, the firing cap 29, the casing shell '23 and the soft, elastic foam pad 41. The amount of gunpowder that extends along the thin-walled zone between the pad 41 and the casing shell 23 is relatively small and is held sufficiently evenly in a square pattern in relation to the amount, so that breakage of those in a four - edge arranged fins 39 are avoided when launching the projectile. It should be pointed out that the elastic yielding of the pad 41 will enable the absorption of different amounts of gunpowder charge while the pad 41 nevertheless exercises the desired good retention of the charge.

After the projectile 31 has been fully introduced in the longitudinal direction of the sleeve 21, as shown in fig. 9, the sleeve shell 23 is rolled or shrunk with a conventional end rolling tool 71, while the radial shape of the sleeve is maintained by a guide cylinder 73. This completes the manufacture of the ammunition 11 to the final shape according to figures 1 and 11.

Claims (3)

1. Ammunition comprising a cartridge case, a projectile the rear section of which is provided with frangible fins, and loose particle shaped ignitable propellant to propel the projectile out of the cartridge case, characterized in that a flexible plate-shaped piece (41) of easily breakable material is arranged enveloping or wrapping around the rear section (31) of the projectile provided with fins (39), as the flexible piece (41) rests yieldingly against and holds it loose the propellant (51) in a chamber behind the piece. 2. Ammunition as stated in claim 1, characterized in that the flexible piece (41) is made of a soft springy elastic foam material. 3. Ammunition as specified in claim 1 or 2, characterized in that the flexible piece (41) extends around the circumference between the fins (39) and the inner surface of the cartridge sleeve (21).