NO146653B - UNIVERSAL projectile - Google Patents

Description

The present invention relates to a universal

projectile of the kind described in the introduction to claim 1.

Within the weapons sector, grenades are known

with fire effect or impact effect with self-destruct

, grenades on which you can adapt mantles with re-

gers, and final accessories for grenades that form the class-

sic tails with steering fins.

You also know especially grenades that can

used either as offensive or defensive hand grenades,

or as defensive rifle grenades that activate either on impact or by self-destruction.

However, no universal projectile has previously existed which, with simple immediate adaptation, can be a hand grenade, or a rifle grenade with its own forward

operation, or bomber projectile, or projectile delivered with its own launching part, as each of these five variants

ter, on the other hand, can be used for offensive or defensive purposes, as each of these ten sub-variants can be regulated instantly for impact or fire

effect or fire and impact effect (self-destructive

gende).

The universal projectile according to the present op-

invention has been explored in such a way that it can be applied immediately in these thirty cases. In addition, during manufacturing,

is filled with chemical compositions with explosive, fire,

light, smoke or tear gas effect or inactive etc., as the variants of this projectile are thus countless.

Despite its universal character is

this projectile is easy to manufacture and the costs of

The position is very reasonable.

The invention is thus characterized by the

features that appear from the characterizing part of the after-

the following requirements.

The different characteristic features will

can better be seen from the following detailed description under reference

ning to the drawings, where fig. 1 is an axial section of the pro-

the sectile, fig. 2 is a section along the line A-A in fig. 1 and

shows the inertia device, fig. 3 is a plan view of the selector viewed from the line B-B in position for projection and with delay, fig. 4 is a corresponding view of the selector in position for delay, fig. 5 is a corresponding view of the selector in the position for impact, fig. 6 is a corresponding view of the selector in a fully secured position, fig. 7 is a cross-section showing the individual reinforcing bar, fig. 8 is an axial section of a percussion part, fig. 9 is an end elevation of a percussion part and shows the pyrotechnic interruption, FIG. 10 is a partial elevation showing the markings, on the cap and the annular part, fig. 11 is a partial section of the drive device for launch with a bomb launcher, fig. 12 is an end elevation of the device in fig. 11, fig. 13 is an elevation of a helical tail fin, fig. 14 is an end elevation of the same tail fin as in fig. 13, fig. 15 is an axial section of the substrate and the sleeve, fig. 16 is a perspective view of the projectile and its container in firing position and fig. 17 is an elevation of the container.

Fig. 18 is an axial section of a variant of the top of the fire pipe, fig. 19 is an axial section of another variant of the fire pipe, fig. 20 is an axial section of a projectile with another variant of the firing tube and a variant of the tail section, fig. 21 is a partial plan view of the fire pipe, fig. 22 is an axial section of a variant of the fire pipe, fig. 23 is a bottom view of a retardation composition for the fire transfer, FIG. 24 is a corresponding drawing as fig. 23,

and fig. 25 is a section of the same part as in fig. 23 and 24.

That in fig. The universal projectile shown in 1 comprises a main part 1 of metal or plastic material easy to manufacture and to fill or charge due to its shape, which at its lower part has threads 2 which serve to attach an explosive sleeve 3 and to attach an added bottom 4, as this bottom is extended downwards by means of a mounting part 5 which can have the form of a handle as shown in the figure or a female and can occupy the front part of a tail 6 provided with control fins 7, the fastening of this tail to the bottom holds an additional drive device 8. In the rear part of the control fin tail there is a drive device

9 equipped with a sealing gasket 10, charges 11, igniter 12, explosive charge 13 and wings 14 which hold the charges 11 against the guide fin part 7. A dome-shaped part 15 for adjusting the caliber is held between the bottom 4 and the tail part 6. In the front part of the projectile's main part 1 is mounted a fire tube which has an impact system 16 and a delay system 17'blocked by means of a single reinforcing rod 18 held in place by a coiled band 19 whose end is provided with part of a ring 20 which is laid into a constriction 38a of the fire pipe casing 38 which is extended by means of an extension 38c as shown in fig. 10. Above this reinforcing bar, which on the one hand isolates the feng caps 21 and on the other hand the transfer charges 22, and thus forms a pyrotechnic interruption, the selector 23 is located in the form of a round plate coaxial with the fire tube and with recesses 24 and 25 which, when turned, releases one or the other or both systems or neither of the two systems. Above the selector is a plate-shaped catch cap holder 26 which has passages 27 and 28 which connect the recesses 24 and 25 with the interior of the space for the inertial part 29. This inertial part 29 is held in place by a spring 30 and rests on one side against the pusher 31 in the stop system and, on the other hand, against the projections 32 and 33. When the impact angle is small, the entire equipment with the inertial part works either immediately in the guide 34 or by rocking movement on the cap 35 cone. The parts that form this fire pipe are very easy to manufacture and are built up by simple stacking from the base 36 comprising the mounting bolts 37, the fire pipe casing 38, the selector 23, the plate 26 and the cap 35. The container or container (fig. 17) is together -consisting of two half-cylinders 39 and 40 which engage each other with a notch or groove, and are provided in the middle with bores 41 which occupy the projection 42 for a substrate 43 extended forward with a sleeve 44 for a launch tube 45 and a propellant charge 46, as the substrate 43 lies close to the convex outer wall of a half-cylinder.

That in fig. The impact system 16 shown in 7, 8 and 9 comprises an ignition piston 16a with its locking ball 16b which will enter the opening 16c in the pusher and the catch cap holder 31 placed on the side and at a different height from the height of the ball in the locking position.

In a first variant shown in fig. 18, the cap 35 is open at its upper front part 47, so that it allows the immediate penetration of particles and elements into the impact surface (soil, sand, snow, water, etc.). This opening can be covered by a closure 48 which is deformable by extension or breakage and is produced e.g. of rubber or plastic. This closure can be in one piece with the cap 35 and only form a deformable part thereof. The inertial part 29 may comprise a part 49 which touches the opening 47 so that it is instantly thrown back at the actual moment of impact for the projectile.

In another variant shown in fig. 19, the fire tube contains only the delay system 17. To simplify the construction, the transfer charge 22 is placed in the substrate 36. The ignition piston of the delay system is blocked by means of the reinforcing rod 18 which is held in place by means of the band 19 which ends in the ring part 20. A bore 27 forms for -connection between the upper chamber 50 and the surroundings to allow an outflow in the event of an unforeseen ignition of an igniter charge, and thus ensure a pyrotechnic interruption, i.e. break the igniter connection to the transfer charges 22.

In a third variant shown in fig. 20 and 21

the fire tube and tail section are simplified. The inertia part 51 is spherical and the opening of the cap 35 is located above the tangent circle of the inertia part 51 with the cap 35. The band 19 and the ring part 20 are prevented from turning in their space 38a by the presence of a stop 52 and by various irregularities 38b. The sleeve 3 and the bottom 4 of the main part 1 for the projectile have an external diameter equal to the diameter of the guide fins 7. The tail part 6 is internally hollowed out by a fire line 13 which is partly coaxial and opens to the outside (at 53 and

54) and deflects the flame jet towards the propellant charges 11. In order to

serve as a rifle grenade, the tail part 16 can have a simple tubular shape, the part opposite the guide fins 7 being immovably attached to a tight cap 55 which is adapted to the bottom 4 of the main part of the projectile.

In a fourth variant shown in fig. 22, 23, 24

and 25 the fire tube is modified. In fig. 22, the stop system 16 is held by means of a round disc 56 attached to the fire pipe enclosure. The delayed portion 22a of the transfer charges 22 for the delay system 17 is placed in a tube 57 which is substantially circular and whose dimensions allow the achievement of a long combustion duration. A round disc 58 and a closing disc 59 which ensure sealing of the delay charge 22a are oriented in such a way that their openings 60 come directly opposite the ignition and that it becomes possible for the delay charge 22a to burn simultaneously in the two semi-circles of the channel 57 as shown in fig. 23, while in fig. 24, the position of the openings 60 and the interruption of the delay charge 22a at 61 will ensure a longer delay. In fig. 25, the pipe or channel 57 can have a helical shape.

Claims (4)

1. Universal projectile with an explosive effect and which can be thrown by hand or launched using a rifle or grenade launcher, comprising mainly a fire tube, a main part (1) and a tail part (6), the main part (1) having a device at its front end for releasable mounting of the fire pipe and at its rear end a device (5) for releasable mounting of the tail section (6), the fire pipe having two independent and selectable systems for detonation, one of which (16) functions on impact and the other ( 17) at a certain delay after the projectile has been fired, at the same time that the fire tube has a band (19) which is wound externally axially to prevent ejection of a reinforcing pin (18), characterized in that the band (19) is provided at its end with a ring (20) which is deformable by hand before throwing the grenade and deformable by means of the inertial force in relation to the fire tube when fired with a firearm, so that a unwinding is caused by the band during all types of ejection, and that the fire tube , the main part (1) and the tail part (6) are designed in such a way that no part can prevent the unwinding of the band (19) with the ring (20) during the course of a fast axial projectile trajectory resulting from a firing by means of a firearm, the band (19) being wound in a cylindrical recess (38a) on the fire tube, rest -ken recess (38a) has a truncated cone-shaped part (38c) in the part facing the tail part (6). 2. Projectile according to claim 1, characterized in that the cylindrical recess is uneven and has a stop stop (52) to prevent the band (19) and the ring (20) from turning. 3. Projectile according to one or both of claims 1-2, where the firing tube has a firing pin and a firing pin, characterized in that the arming pin (18) cuts the firing pin's path and isolates the firing pin. 4. Projectile according to one or more of the preceding claims, characterized in that the fire tube has a barrel-shaped casing (38) and that pyrotechnic carrier charges (22) are arranged in a mainly circularly bent pipeline (57) which is located inside the housing (38).