FR2540240A1 - Pyrotechnic safety device for a projectile - Google Patents

Abstract

Pyrotechnic safety device for a projectile. The device comprises, inside a body 1, 4 having a channel 7, a detonating fuse 24 and a material mass 25 movable relative to the body 1, 4 between a safety position, in which this mass 25 is interposed between the detonating fuse 24 and the channel 7, and a priming position, in which it is retracted and opens communication between the detonating fuse 24 and the channel 7; this material mass 25 has a deformability correlated with the explosive energy released by the ignition of the detonating fuse 24, in such a way that, if such an ignition occurs when said mass 25 is in the safety position, this mass 25 is deformed, without breaking, in order to come into intimate contact with the body 1, 4 on the periphery of the channel 7, and thus closes the latter off sealingly relative to the gases resulting from the explosion of the detonating fuse 24. The invention is used to improve the pyrotechnic safety of projectiles.

Description

 The present invention relates to a pyrotechnic safety device for a projectile.

 More specifically, it relates to a pyrotechnic safety device of the type comprising, inside a body having a channel, a detonator primer and a mass of material movable relative to the body between a safety position in which this mass is interposed between the detonator initiator and the channel and an arming position in which said mass is retracted and releases the communication between the detonator initiator and the channel.

 Projectiles for smooth or rifled tubes are generally equipped with such devices which make it possible, in the event of accidental firing of the detonator primer during storage and handling of the projectile and during its journey through the weapon tube premature ignition of the explosive charge carried.

 To this end, the mass of mobile material, constituted as the case may be by exile by a switch flap or by a zone of a member internally enclosing the detonator primer and capable of moving inside the body between two respective corresponding positions in the safety position and in the arming position, is retained in the safety position by locking means during the storage of the projectile, its handling, its introduction and its path in the weapon tube, and generally the first meters from its trajectory outside the latter; then, the locking ceases and the mass of material is retracted, for example by inertia, and then releases the communication between the detonator bar and the channel so that subsequent firing of the detonator primer, by appropriate royens, causes a propagation of hot gases and a shock wave in the channel, until a detonation relay which, then excited by athermic effect, ignites the explosive charge carried away.

 Such a passage cannot in principle occur if the mass of mobile material occupies its safety position, but it appears however that, in the majority of cases, devices of this type currently known do not provide, in the safety position, a sufficient tightness around the channel of the body to prevent the passage of hot gases in the event that the detonator primer should be accidentally ignited, so that there is a significant probability for such an accidental ignition , while the mass of nubile material occupies its safety position, causes the explosion of the explosive charge carried away.

 The object of the present invention is to remedy this drawback, that is to say to propose a means making it possible to close the body channel in a truly sealed manner when the detonator primer accidentally explodes while the mass of mobile material occupies in relation to the body its secure position.

 To this end, the present invention provides a pyrotechnic safety device of the type generally known mentioned in the preamble, characterized in that said heap of material has a deformability correlated with the explosive energy released by the firing of the detonator primer so that, in the case of such a firing while said mass is in the safety position, this mass deforms without breaking to come into intimate contact with the body at the periphery of the channel and thus close the latter of tightly vis-à-vis gases resulting from the explosion of detonator love.

 Thus, by a judicious choice of the mechanical and plastic properties of the mass of nobile matter according to the nature of the detonator primer and the dimensioning of the various elements of the device, this choice being in itself none of the domain of the normal aptitudes of the '' Skilled in the art, we obtain that the shock wave resulting from a possible explosion of the detonator primer while the mass of nobile material occupies the safety position causes this mass to form against a matrix formed by the channel and by the areas of the body adjacent to the latter, with the effect of a considerably improved obstruction of the channel due to intimate contact, around it, between the mass of mobile material and the body.

 This results in a greatly improved ability to prevent the passage of pressurized hot gases to the blown explosive charge resulting from the explosion of the detonator.

 Other characteristics and advantages will emerge from the description below, relating to a non-limiting implementation node, as well as from the appended drawings which form an integral part of this description.

- Figure 1 shows a schematic view of a device for igniting the explosive charge carried with a revolving projectile, implementing a pyrotechnic safety device according to the invention, in section through a longitudinal axial plane of the projectile t this figure illustrates the safety position without explosion of the detonator primer;
- Figure 2 shows a similar view, after accidental firing and explosion of the detonator initiator while the device was still in the safety position.

 In these figures, generally designated by 1 the body of the projectile, having a longitudinal axis 2; during the firing, the body 1 of the projectile moves in translation in a determined direction 3 parallel to this axis t 2, around which it acccmr simultaneously folds a movement of gyration in a direction determined by that of the possible scratches of the weapon tube ; meaning 3 will be taken as a reference for the expressions "front" and "rear" used in the following description.

 Internally, the body 1 carries, here in an integral manner but possibly in a movable manner in particular with respect to the relative rotation about the axis 2, a hollow cage 4, internally delimiting a cavity 5 having a shape of revolution around the axis 2.

 Towards the rear, the cavity 5 is delimited by an inner peripheral surface 6, hemispherical with axis 2, of the cage 4, in this surface 6 opens, along axis 2, a pyrotechnic channel 7 cylindrical of revolution around this axis and also emerging, rearward, on a spangle 8 closing an axial hole 9 of a part 10 secured to the body 1 and juxta posed the cage 4, behind that; towards the rear, the hole 9 opens onto a detonator relay 11 housed inside the part 10 and placed in contact, towards the rear, with the carried explosive charge or main charge 12 of the projectile.

 Towards the front, the hemispherical inner peripheral surface 6 of the cage 4 is extended along the axis 2, over a length of the rattans equal to its radius, by an inner peripheral surface 13, cylindrical of revolution around the axis 2 with the radius, from cage 4.

 By this inner peripheral surface 13, the cavity 5 opens out towards the front on a part 14 secured to the body 1, which part 14 closes the cavity 5 towards the front except for an axial zone in which the part 14 is pierced right through a cylindrical channel 15 of revolution around the axis 2 and in which, if we refer to the state illustrated in Figure 1, is immobilized an initiating primer 16 which then closes it ; forward, the channel 15 opens into a chartbre 17 of the body 1, which in particular contains a striker 18 intended to strike the force 16 to ignite it under the action of means known to those skilled in the art. Business and which will not be detailed insofar as they do not intervene in the operation of the safety device according to the invention.

 The cavity 5 has the function of accommodating inside the cage 4 a gyroscopic rotor 19 capable of being hydroplated between two positions, namely a safety position in which it is illustrated in solid lines in FIG. 1, and in which it is retained by locking means such as a pin 20 during the storage and handling of the projectile, during its introduction into the weapon barrel and its journey therein, and if necessary during the course of the first nitres at the exit of the weapon barrel, and an arming position illustrated in phantom in Figure 1, which it tends to gain by gyroscopic effect, as soon as it is released from the action of the locking means such that the pin 20 by appropriate means known to those skilled in the art, generally after a course of these first few meters out of the weapon barrel and by exenple under the action of centrifugal force following the gyration of the projectile around axis 2.

 As is known per se, the rotor 19 has a spherical outer peripheral surface 21, of a significant radius equal to that of the inner peripheral surface 6 of the cage 4 so as to be able to pass from one position to the other drowning a slip on this surface; along one of its diameters 22, the rotor 19 is pierced right through with a cylindrical channel 23 of revolution around this diameter 22, with a radius generally close to that of the channels 15 and 7; in the state illustrated in FIG. 1, inside the channel 23 is immobilized a detonator primer 24.

 In the safety position illustrated in solid lines in FIG. 2, the diameter 22 of the rotor 19, that is to say the axis of the channel 23 thereof, present with respect to the axis 2, that it cuts, an angular offset a sufficient for the channel 23 to be out of any communication with the channel 7, that is to say so that next to this channel 7 is placed the outer peripheral surface 21 of the rotor 19, which corresponds to the intercalation between the channel 7 of a mass 25 of the material constituting the rotor 19; in other words, the pyrotechnic chain constituted by the striker 18, the channel 15 retaining the initiator initiator 16, the channel 23 retaining the detonator initiator 24, the channel 7, the hole 9 retaining the paillet 8, the relay detonation 11 and the main charge 12 is interroeped by the mass of material 25; on the other hand, in the cocking position illustrated in phantom in FIG. 1, the diameter 22 coincides with the axis 2, and the channel 23 containing the detonator air force 24 ensures continuity between the channels 15 and 7, which established the continuity of the technical pyro chain.

 Only the safety position, in which the rotor 19 is temporarily held relative to the cage 4 by the locking means such as the pin 20, is of interest to the present invention.

 If, in this safety position, the detonator primer 24 is accidentally ignited, for example by an impact, either due to an inadvertent firing of the primer 16, or without prior firing of the latter in which case it is itself ignited by the detonator primer 24, there appears on the one hand a main shock wave propagating along the diameter 22, and on the other hand an emission of hot gases resulting chemical reactions of detonation decarposition of the detonator primer 24 in particular.

 Due to the angular offset a between the axis 22 and the axis 2, which results in closing one of the ends of the channel 23 by the hemispherical inner peripheral surface 6 of the cage 4 and in opening the other end of the channel 23, towards the front, opposite the cylindrical inner peripheral surface 13 of this cage 4, the main shock wave tends to propagate towards the front, and to press the mass of material 25 against the surface 6 in particular around the periphery of channel 7; in the devices of the prior art, this plating is not sufficient to establish between the surfaces 6 and 21, around the channel 7, a seal capable of preventing the infiltration, towards this channel 7, of the hot gases which can thus cause, by destruction or heating of the straw 8, firing of the relay 11 and therefore that of the main load 12.

 To avoid such a passage, it is provided according to the present invention to use the detonation energy of the detonator primer 24, that is to say the shock wave developed by this, to cause, if the rotor 19 is in the safety position, a deformation without rupture, towards the rear, of the massive zone 25 of the rotor 19 against the cage 8 then playing the role of counter-forming matrix, so that the outer peripheral surface 21 of the rotor 19 comes closely to marry the inner peripheral surface 6 of the cage 4 around the channel 7 and penetrate into the latter by forming a plug therein.

 The skilled worker can easily establish, by using their normal skills, the correlation then having to exist between the explosive energy or detonation energy released by the detonator primer 24, the mechanical and plastic properties of the material constituting the rotor 19 , and the dimensions of the latter and of the cage 4.

 By way of nonlimiting example, good results have been obtained in tests by making the rotor 19 of light alloy with high elongation, in particular based on alunnium or magnesium, and by making the cage 4 in machined steel, the detonator primer 24 being constituted by a mass of 70 to 100 mg of a primary explosive, based on lead-tetrazene azide, releasing to the explosion of gases at a temperature of the order of 2000 of, based on H2, OO, CH4, No2, etc .; naturally, these indications are given by way of nonlimiting example.

 Thus, in the event of an accidental ignition and explosion of the detonator initiator 24 while the rotor 19 occupies the safety position, the following phenomena follow.

 In a first outfit, practically simultaneous with the explosion, the shock wave which we have seen tends to press the area of the rotor 19 close to its massive area 25 backwards against the cage 4 causes, by deformation of the zone 25 and of the neighboring rotor zones, the formation on the rotor 19 of a stud 27 penetrating rearward into the channel 7, and a plating of the external peripheral surface 21 against the surface 6 practically without deformation of that -this ; thus, the channel 7 is closed in a gas-tight manner; the rotor 19 also deforms forward but, due to its retention by the locking means such as the pin 20 still in position, the existing clearance generally between it and the part 14, and the tendency of the wave shock and hot gases whose appearance immediately follows the latter to emerge from the channel 23 forward, in an initial direction corresponding to that of the diameter 22 angularly offset from the longitudinal axis 2, this is reflected by an asymmetric deformation preserving a freedom of passage between the channel 23, the front part of the cavity 5 and the channel 15; supposing that it was not the explosion of the initiator primer 16 which caused that of the detonator primer 24, the hot gases cause the ignition and the explosion of this initiator primer 16 which frees the passage for these gases towards the front, that is to say towards the cantor 17 where they can remain, by seeping, if necessary, more or more long term to other volumes available inside the body 1 of the projectile, or towards the outside thereof, it will be noted that the quantity of gas produced by a detonator primer 24 is small enough to accumulate in the volumes available inside the body 1 of a projectile without exceeding a pressure which would allow them to pass through the watertight plug formed by the contact between the outer peripheral surface 21 of the rotor 19 and the cage 4 at the periphery of the channel 7 fast enough and in sufficient quantity so that they present a danger of initiating the relay detonation 11.

 Note that, if necessary, the deformation of the rotor 19, characteristic of the invention, can be accompanied by a slight deformation of the cage 4 and of the part 14; these are however made of a material having sufficient mechanical characteristics so that these deformations do not have dangerous repercussions t in the example illustrated, this deformation can be retained by radial contact of the cage 4 and of the part 14 with a reinforcing wall 28 of the body 1 which can deform very slightly at its face 30; in other embodiments, in which the cage 4 cannot be brought into contact with such a wall, for example when it is necessary to reserve between it and such a wall a space capable of receiving additional cores of the locking means proper here constituted by the pin 20, the deformation of the cage 4 can be kept sufficiently small, serious to an appropriate choice of the material constituting it, so that the explosion of the detonator initiator 24 and the deformation of the rotor 19 does not cause damage to the cage 4 around the channel 7, and allows the desired seal to be obtained.

 Another precaution for implementing the present invention consists in measuring the deformability of the rotor 19 and the length h of the channel 7, measured along the axis 2 between the spangle 8 and the spherical envelope defined by the outer peripheral surface 2i of the rotor 19 assumed to be immobilized 6 in its safety position, so that the height ht of the stud 27 measured in the same way remains less than h, so that the appearance of the stud 27 does not cause damage to the straw 8.

 Naturally, the application of the pyrotechnic safety device according to the invention is not limited to the case where a pyrotechnic chain of the projectile is used to intergrate or establish the pyrotechnic chain having internally a channel containing a detonator primer; it can be generalized in all cases ot, in a safety position, a mass of material (constituted by the massive zone 25 of the rotor 19 in the example illustrated) is interposed between a detonator primer and a pyrotechnic channel, this mass being movable relative to the body of the projectile in order to gain a mental weapon position in which it is retracted and releases communication between the detonator initiator and the channel; the various considerations above, relating to the massive zone 25 of the rotor 19, then apply to this mass of material which, in accordance with the present invention, is deformed under the effect of the shock wave following the explosion of the detonator primer, to come intimately marry the periphery of the channel and thus seal the latter in a sealed manner vis-à-vis the gases resulting from the explosion.

Claims (7)

 1. Pyrotechnic safety device for a projectile of the ccmportant type, inside a body (1, 4) having a channel (7), a detonator primer '(24) and a mass of material (25) movable by relation to the body (1, 4) between a safety position in which this mass (25) is interposed between the detonator primer (24) and the channel (7) and an arming position in which said mass (25) is retracted and releases the communication between the detonator primer (24) and the channel (7), characterized in that said mass of material (25) has a deformability correlated with the explosive energy released by the firing of the primer detonator (24) so that, in the case of such a firing when said mass (25) is in the safety position, this mass (25) deforms without breaking to come into intimate contact with the body ( 1, 4) at the periphery of the channel (7) and thus seal the latter in a sealed manner vis-à-vis the gases resulting from the explosion of the detergent primer onator (24).  2. Device according to claim 1, characterized in that said mass is of light alloy, and the body of steel in the grooves at the periphery of the channel.  3. Device according to any one of claims 1 and 2, characterized in that said mass (25) is constituted by a zone of an organ (19) having internally a channel (23) in which the primer is retained detonator (24), this member (19) being movable inside the body (1, 4) between two positions corresponding respectively to the safety position, in which the channel (23) of this member (19) is misaligned by relative to the channel (7) of the body (1, 4), and to the arming position, in which the two channels (23, 7) are aligned and communicate.  4. Device according to claim 3, characterized in that said member (19) is a gyroscopic rotor of spherical outer envelope (21), crossed diametrically by its channel (23), and in that the body (1, 4) has at least at the periphery of its channel (7) a spherical inner shell (6) oarplémentaire in which this channel (7) opens radial t.  5. Device according to any one of claims 1 to 4, characterized in that the body (1, 4) has opposite its channel (7) relative to the detonator primer (24), at least at starting from the ignition thereof, means (15, 17) for evacuating the gases resulting from the explosion of the detonator primer (24).  6. Device according to claims 4 and 5 in combination, characterized in that the body (1, 4) has, in a position diametrically opposite its channel (7) relative to said inner envelope (6), a second channel ( 15) open towards volumes (17) of the projectile capable of receiving the gases resulting from the explosion of the detonator primer and / or discharging them towards the outside of the projectile, and shut off until the firing of the detonator primer (24) by a primer (16) initiating it.  7. Device according to any one of claims 1 to 6, characterized in that it further comprises locking means (20) temporarily immobilizing said mass (25) in the safety position relative to the body (1, 4) at least during storage, nanomanagement, the path in the gun barrel.