1. Field of the Invention
The technical scope of the invention is that of priming devices (fuses) for spin-stabilized projectiles and in particular that of safety and arming devices equipping such priming devices.
2. Description of the Related Art
Spin-stabilized explosive projectiles, and in particular medium caliber projectiles (caliber of less than 50 mm), more often than not incorporate a safety and arming device that incorporates a rotor for the primer that is released further to the projectile being fired. This rotor has an out-of-balance that ensures the alignment of the primer with the rest of the pyrotechnic priming train.
Patents FR-2689972 and FR-2533686 describe such safety and arming devices. The out-of-balance rotor is put into place in a cage that is free to rotate with respect to the projectile's axis.
One drawback to these known devices lies in that they require a primer (thus a pyrotechnic component) to be put in place on the rotor. The primer must, in addition, be of a relatively small size for medium caliber applications (caliber of less than 50 mm).
Another drawback is that, if this solution is well adapted to projectiles in which the rotor primer is initiated by percussion, it is more difficult to implement for a projectile in which the primer is initiated by an electric current supplied by electronic fire control means. Such functioning modes are employed when projectiles are to be made that use a programmable timer fuse.
It is, in fact, difficult to make flexible conductors that are able to accompany the pivoting of the primer rotor without disturbing the latter's movement.
A safety and arming device is known by patent EP-1780495 that comprises a screen formed by two half-screens that obstruct a transmission channel linking a detonator and a pyrotechnic relay.
These half-screens are mobile via the action of motor means, for example one or several springs, released by electronically-controlled locks.
Such a solution is particularly well adapted to production in the form of micro electro-mechanical integrated circuits. However, to produce screens of larger sizes, the motor means or control locks become difficult to integrate, in particular in a medium-caliber projectile.
The aim of the invention is to propose a safety and arming device that is easily integrated into a projectile, even one of reduced caliber. This device enables the use of an electrically initiated detonator without its being necessary to install it in a rotor.
The invention thus proposes a safety and arming device that can be housed in the same volume as known rotor devices.
Thus, the invention relates to a safety and arming device for a spin-stabilized explosive projectile, such device incorporating a screen obstructing a transmission channel linking a detonator and a pyrotechnic relay, the screen being constituted by two half-screens able to move with respect to one another and transversally with respect to the transmission channel, the two half-screens obstructing the channel when they are in contact with one another, such device wherein the two half-screens are mounted able to slide in a bore hole carried by a rotor coaxial to the projectile, rotor which is itself mounted able to pivot with respect to the projectile's axis and which carries the transmission channel, the two half-screens being furthermore locked into the position in which they obstruct the channel by at least two locks, a first lock or inertial lock which retracts when the projectile is fired and a second lock or centrifugal lock that is formed by a spiral spring surrounding an external cylindrical surface of the rotor and thus applied against the ends of the half-screens, such spiral unwinding under the effect of the centrifugal force.
Advantageously, the half-screens are made in the form of cylindrical rods which have one end in contact with the spiral in the form of a spherical cap.
The rods forming the half-screens will preferably be in mutual contact by their ends incorporating matching conical machining.
The first lock may be constituted by a ring mounted able to slide with respect to the rotor and incorporating an internal conical seat that presses on the half-screens, the ring incorporating an external groove receiving a circular metallic band pressing on a limit stop integral with the device, such band ensuring the axial immobilization of the ring before the projectile is fired and which is deformed through the effect of the axial acceleration during firing to escape the limit stop and enable the ring to translate.
The metallic band is carried by a circular rim of the ring that is introduced, during the translation of the ring, into a groove in a fixed plate.
The invention also relates to a priming device implementing such a safety and arming device, priming device incorporating an electrically-initiated detonator whose assembly and integration are made easier.
This priming device is characterized in that the detonator is arranged along the projectile's axis and connected to an electronic card of a firing module.
The electronic card may carry a cup at least partially surrounding the detonator, such cup ensuring an electrical contact between the card and the detonator.
The invention will become more apparent from the following description of a particular embodiment, such description made with reference to the appended drawings, in which:
a shows a longitudinal section of a priming device for a medium caliber projectile incorporating a safety and arming device according to the invention, the safety device being shown in the safety position,
b is an enlarged view of part of the device in
a, 2b and 2c show three successive states for the safety device,
With reference to
The detonator 4 is electrically initiated. It incorporates an axial pin 4a that is directly connected to the electronic card 3. Furthermore, the electronic card 3 carries a conductive cup 5 (welded to the card) that surrounds the detonator 4 at least partially and ensures another electrical contact between the card 3 and the detonator 4.
The detonator 4 is thus fixed here, arranged along the axis 6 of the projectile and connected to the electronic card 3 of the firing module 2.
This results in a simplified mechanical module of this pyrotechnic element.
The electronic module 2 is arranged in a base 7 that closes the rear of the projectile and it is fixed to its body 8. The full projectile is not shown in the Figures. Part of its external profile is shown in dashes 8.
The base 7 carries a belt 9 intended to ensure gas-tightness during firing from a gun.
The priming device 1 also incorporates a safety and arming device that incorporates a screen 10 obstructing a transmission channel 11 linking the detonator 4 and a pyrotechnic relay 12. The transmission channel 11 has the same axis 6 as the projectile. The detonation relay 12 is intended to initiate an explosive load (not shown) placed inside the body 8.
The screen 10 is constituted by two half-screens 10a and 10b that are able to move with respect to one another and transversally with respect to the transmission channel 11. These two half-screens 10a and 10b obstruct the channel 11 when they are in contact with one another, in the safety position shown in
Each half-screen 10a or 10b is made in the form of a cylindrical rod mounted able to slide in a cylindrical bore hole 13 arranged in a rotor 14 that is coaxial to the projectile (
The rods 10a and 10b forming the half-screens are in mutual contact by their ends 25a and 25b which incorporate conical machining of matching shapes (
Thanks to such an arrangement, the interface between the two half-screens is not a plane and the stoppage of a pyrotechnic effect is ensured as efficiently as if the screen were of one piece.
The rotor 14 is mounted free to rotate with respect to the axis 6 of the projectile and thus with respect to the priming device 1. It thus incorporates cylindrical trunnions 14a and 14b that are positioned in matching seats integral with the priming device 1.
Note in
The bore hole 16 of the base 7 also houses a washer 19 and a spacer cage 20 applied against the washer 19 by a rear threaded plug 21 that closes the safety and arming device.
The threaded plug 21 incorporates a wall 21a (
The threaded plug 21 is screwed in a connecting ring 22, itself screwed to the device's base 7.
Note in
Note in
The ring 26 is mounted able to slide with respect to the rotor 14 and it incorporates an internal conical seat 26a which (in the locked position of the device) presses against the two half-screens 10a and 10b locking them into the safety position (obstruction of the channel).
The ring 26 also incorporates an external groove that receives a circular metallic band 23. In the locked position (
The external groove of the ring 26 carrying the band 23 is made in a circular rim of the ring whose thickness is less than the width of the groove 18. Thus, when the device is unlocked, the ring 26 can be introduced into the groove 18 in the plate 17.
Lastly, the safety and arming device incorporates a second lock (or centrifugal lock) that is constituted by a spiral spring 24 that surrounds the external cylindrical surface of the rotor 14. This spiral is thus pressed against the ends of the half-screens 10a and 10b.
Such a spiral spring is already known, namely by patents FR-2689972 and FR-2533686. It unwinds progressively further to the centrifugal force due to the projectile's spin. This is made possible because of the rotor's freedom to spin with respect to the rest of the device 1. It leads to a spin differential between the rotor 14 and the device body 1.
Thus, when the projectile is made to spin, an external end of the spiral will move away from the rotor 14 to press against the internal cylindrical surface of the spacer 20. The spiral will gradually unwind introducing a spin differential between the rotor 14 and the spacer 20 and will end up by completely disengaging from the rotor 14 to be pressed fully against the spacer 20.
Note in
The functioning of the safety and arming device will now be described with reference to
a shows the state of the device upon firing. The axial acceleration received by the projectile has caused the ring 26 to recoil, thereby causing a deformation of the band 23 which escapes from its limit surface on the washer 19. The ring 26 translates and its circular rim is introduced in the groove 18 in the plate 17.
The internal conical seat 26a in the ring 26 is thus no longer pressing against the half-screens 10a and 10b. The ring 26 is thus no longer locking the half-screens, but remains immobilized in the safety position, however, by the spiral 24.
The band 23 also engages in groove 18 and ensures the immobilization of the ring 26 in its unlocked position (
b shows the device after its exiting the gun barrel and once it has covered a safety distance from the muzzle of around a few tens of meters.
The projectile's spin has caused the spiral 24 to fully unwind until it presses on the inner surface of the spacer 20. The second lock of the half-screens 10a and 10b is thus released.
This state is momentary since the half-screens 10a and 10b, driven by the centrifugal force, move away from one another and press against the spiral 24 thereby fully releasing the axial transmission channel 11 (
The device is thus now in the armed state and the detonator 4 is able to initiate the relay 12 at the required time programmed before firing.
Number | Date | Country | Kind |
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10 03774 | Sep 2010 | FR | national |
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Entry |
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French Preliminary Search Report in French Patent Application No. 1003774; dated May 19, 2011 (with English-language translation). |
Number | Date | Country | |
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20120067241 A1 | Mar 2012 | US |