NO124008B - - Google Patents

Description

Projectile.

The present invention relates to projectiles of the kind which have a useful charge, such as light or signal rockets which must be triggered at a point on their trajectory and then slowed down in relation to the rest of the projectile.

In known projectiles of this kind, the useful charge is usually separated from the rest of the projectile at a certain point on the trajectory by means of a time igniter containing a small explosive charge of the black powder type and a clock mechanism which is set before firing the projectile. The payload is provided with a parachute which opens at the moment of separation and which, due to its braking effect, allows the payload to continue its downward movement at low speed. in

at the moment of separation, the projectile splits into many parts.

Some parts are heavy and large, and when they continue their movement at a speed close to the speed of the projectile at the moment of separation, they can meet the open or partially open parachute, so that they can tear the parachute open or prevent it from opening themselves. The bottom part of the projectile is actually the most dangerous part for the parachute due to its weight and position. This part of the projectile is heavy as during firing it must be able to withstand the pressure of the gases and therefore its wall is thick off strong. In addition, this bottom part in many cases carries rear fins, and in the case of self-propelled projectiles, drive means. It is clear that after the separation of the useful charge and the opening of the braking parachute, the danger that the bottom part of the projectile will destroy the parachute will increase very quickly with the dimensions of the parachute, and this requires eh limitation of the weight of the useful charge and thus of the projectile's properties.

The projectile according to the invention is of the type that includes a time igniter for igniting the useful charge, an explosive charge that ejects from the projectile body the useful charge that is connected to a braking parachute, and a side-directed nozzle that is placed behind the projectile's center of gravity,

so that it provides, under the influence of gases formed by the combustion of the propellant charge, a moment of force which tilts the projectile, and the projectile according to the invention is characterized by the fact that the bottom part of the projectile comprises, in addition to the charge which ejects the useful charge, a propellant charge which feeds gases into said side-directed nozzle , and delay means arranged between the time igniter and the ejector charge and the propellant charge respectively, which delay means are of such a nature that the combustion of the propellant charge precedes the ignition of the ejector charge by a time sufficient to allow the projectile to be; significantly tilted on its trajectory by a few tens of degrees before the useful charge is ejected.

In a preferred embodiment of the invention, the ejection charge and the propellant charge are mutually connected by means of the delay means with an axial gunpowder charge arranged at the rear of the projectile in an axial tube which transmits the flames as .

is formed by the charge in the timer..

These and other features of the invention will be apparent from the following description with reference to the attached drawings. Fig. 1 is a longitudinal section of a projectile according to the invention.

Fig. 2 is a section along the line 2-2 of fig. 1.

Fig. 3 is a partially detailed longitudinal section of the projectile on a larger scale than in Fig. 1, and Figs. 4 - 8 are schematic drawings showing elements of the projectile at different stages on the projectile's trajectory.

The illustrated embodiment of the invention shows the projectile consisting of a head A, a body B, a bottom part C and a wing structure D which is carried by the bottom part. This projectile contains a useful charge E which in the embodiment shown is a light or signal charge.

The projectile's head A contains a time igniter 1, including an adjustable delay device and an explosive charge 2 of black powder attached to a support 3.

The body B of the rocket comprises a cylindrical capsule 4, the front end of which is connected to the support 3 by means of cut-off pins 5. This body contains the useful charge E, consisting of a container 6 containing a light charge 1, which can be ignited by means of the charge 2 of the timer igniter through a pyrotechnic delay device 8.

Attached to this container 6, by means of a cable 9

and suspension lines 9a (see fig. 7), is the parachute 10. This parachute is placed in an enclosure consisting of two half-capsules 11 and 11<a> and a pot 12. The half-capsules 11 and 11<a> and the pot 12 are held firmly in the body 4 by means of a ring 13 which rests against a flange 14 on the pot and constitutes only a tight fit in the body 4. screwed into this ring 13 is the front end of the bottom part C.

The projectile body has an axial tube 15 which extends through the projectile and transfers backwards the flames from the combustion of the igniter charge 2 to two rear charges 16 and 17 over delay openings 18, 19.

The charge 16 can ignite, over pyrotechnic delay means 20 (Figs. 1 and 2) a pot ejection charge 21, while the charge 17 can ignite over apertures 22, an auxiliary propellant charge 23 whose ignition provides propellant gases which can be ejected through the bore 24 by a lateral nozzle 25 , after a closing plug 26

is driven out by the gas pressure..

The delay means 8, 20 and 22 are of such a nature that the action of the igniter 1 and the ignition of the charge 2 in the time T results firstly in the ignition by means of the openings 22

of the propellant charge 23 whose combustion lasts approximately 0.04 second,

and then in the ignition using. delay means 20 of the pot ejection charge 21 for a time of approximately T + 0.06 second, and finally in the ignition by delay means 8 of the useful charge 7 for a time of approximately T + 1 second.

The projectile therefore works in the following way:

At the end of the time T, set by the igniter, the charge 2 is ignited by the igniter. The projectile is located at p-<*-> on

its trajectory. It drives e.g. with a speed V of 200

meters per Sec.

The propellant charge 23 is ignited, and it burns from about T

to T + 0.04 second. The gases formed eject the side plug 26,

and the gas jet J (fig. 4) then produces a laterally directed .

reaction force R lying behind the center of gravity C for the entire projectile. The projectile therefore tilts on its trajectory. is the time

T + 0.04 second the projectile has tilted to the position P<2> (fig.5),

and its longitudinal axis then occupies an angle of e.g. 30° with the tang-

ten T of the trajectory. At this moment, the combustion of the auxiliary charge 23 has stopped, but the projectile continues to tilt under the influence of the inertial force, reaching at time T + 0.06

second e.g. position p<3>, inclined at 40°. At this moment, the pot ejector charge 21 is ignited, while the velocity of the projectile is still V.

The charge 21 explodes, and the pins 5 are severed

under the action of the pressure and projectile contents, namely of the igniter 1, the charge E, and the parachute with its casing (11,

12) is thrown forward in a direction parallel to

the projectile's longitudinal axis (fig. 6) with a speed v in relation to the entire projectile, (body E, bottom part c, wing structure D) of e.g. 10 - 20 meters per second.

Within a few hundredths of a second, e.g.

T + 0.10 second, the useful charge E has moved a few decimetres in relation to the projectile (E,C,D), and the tilt angle is then 45° (fig. 6).

At the time of T. + 0.12 second, the parachute starts 10 a

open at the end of the suspension line 9a which connects it with the charge E over the cable 9, while the half-capsules 11, 11<a> and the pot 12 are separated from it (Fig. 7).

The relative arrangement of the parachute 10 and the rear part (B, C, D) is then such (fig. 8) that the parachute, when it is fully

permanently open, is located behind the projectile and is displaced there by a distance a of at least 30 cm, after which the dangerous projectile parts continue to move with a speed v of

200 meters per second, while the charge E slows down from 200

meters per second to y = approximately 5 meters per second due to the parachute's braking force, and there is no longer any risk of the dangerous projectile parts meeting the parachute.

The device according to the invention therefore has the following advantages:

There is no longer any risk of the parachute

can be destroyed by the parts B,C,D, and the charge E ignited in the time T + 1 second, slowly falls down and produces the desired effect (illumination in the present case).

The device can be used for projectiles with small ca-

liber (60-81 mm), as it requires little space.

The projectile is very strong as the severable pins 5

is placed in the projectile's front part, as the unit A, B and C form a rigid unit.

Claims (2)

1. Projectile with a useful charge that must be triggered by a point on the trajectory of the projectile, of the kind that includes a time igniter for igniting the useful charge, an explosive charge that ejects from the projectile body the useful charge" connected to a braking parachute, and a lateral nozzle located behind the center of gravity of the projectile , so that it provides, under the influence of gases formed by the combustion of the propellant charge, a moment of force which tilts the projectile, characterized in that the projectile's bottom part (C) comprises, in addition to the charge (21) which ejects the useful charge (E), a propellant charge ( 23) which feeds gases into said side-directed nozzle (25), and delay means (20,22) arranged between the time igniter (1) and respectively the ejection charge (21) and the propellant charge (23), which delay means are of such a nature that the combustion of the propellant charge (23) precedes the ignition of the ejection charge (21) by a time sufficient to allow the projectile to be significantly tilted on its trajectory by no tens of degrees before the useful charge is ejected. 2. Projectile as stated in claim 1, characterized in that the ejection charge (21) and the propellant charge (23) are connected by means of said delay means (20,22) with an axial gunpowder charge (16,17) arranged behind the projectile in a axial tube (15), which transmits the flames formed by the charge (2) in the timer igniter (1).