EP1170570A2 - Safety for a pyrotechnically activated impact fuze for a projectile - Google Patents

Abstract

In the case of a detonator-free projectile (10) with a so-called pyrotechnic impact detonator, pipe safety and down pipe safety are achieved by a spring-supported ball (43) in a central bore (72) in a valve body (65). The valve body (65) separates an explosive charge (60) on the projectile side from an impact-sensitive ignition charge (28). The primer charge (28) lies within a projectile hood (24) and surrounds a pin (30) of the valve body (65) which acts as an anvil. <IMAGE>

Description

The invention relates to a fuse for a pyrotechnic impact detonator a ballistic explosive projectile according to the preamble of claim 1.

DE 195 44 458.2-21 discloses such a fuse for a pyrotechnic Knockout fuses known. In the storey log there is an igniting one when it hits pyrotechnic mass. With the room in which the pyrotechnic mass the interior of the floor is connected via a central ignition channel. Lateral ignition channels open into the ignition channel. In addition, the central ignition channel intended to hold a ball. This arrangement has the function that pipe safety is given, d. that is, during the pipe run of the Projectile a possible ignition of the pyrotechnic mass from the bullet in the Ignition channel is sealed so that there is no ignition of the explosive charge comes in the interior of the projectile body.

The object of the invention is to increase the functional reliability of the ball fuse.

According to the invention, this is according to the characterizing features of Claim 1 reached. Developments of the invention are the subclaims remove.

The greater functional reliability of the ball lock is due to that on the ball attacking spring element in front. The spring element ensures in a simple manner ensuring that the ball is seated back in the direction of the floor. in this connection the ball seals the circumference of the central ignition channel. Surprisingly it has been shown that fumes that may pass over the side of the ball stopped by the spring element or made harmless as far as that there is no ignition of the booster charge arranged downstream comes. Any fumes are ignited by the overleaf Spring element reduced several times and partly deflected in the centripetal direction, where they reduce or cancel each other out in terms of their energy.

Fig. 1

ein Geschoß im Längsschnitt,

Fig. 2

einen vergrößert gezeichneten Abschnitt des Geschosses nach Fig. 1 und

Fig. 3

den Abschnitt nach Fig. 2 in einer Sicherungsfunktion.

An embodiment of the invention is shown in the drawing. It shows:

Fig. 1

a projectile in longitudinal section,

Fig. 2

an enlarged section of the floor of Fig. 1 and

Fig. 3

the section of FIG. 2 in a security function.

A ballistic projectile 1 with a caliber of 40 mm consists of a projectile body 10 with annular groove 11 for a propellant charge sleeve, not shown, one piece Threaded ring 12, a guide ring 6, a ground screw 2, a cavity 13 with explosive charge 60, a valve body 65 and a hood 24.

The valve body 65 and the hood 24 are connected via threaded connections 66, 67 screwed to the threaded ring 12.

Located in the cavity 26 between the valve body 65 and the projectile hood 24 there is an ignition charge 28 consisting of an impact sensitive secondary explosive.

The valve body 65 lies with a collar 68 both on an end face 69 of the Threaded ring 12 and with a collar 70 on an annular surface 71 of the projectile hood 24 on. These constructive measures prevent a so-called, circumferential ongoing detonation of explosive vapors of the detonated secondary explosive 28 to the explosive charge 60.

In addition, the collar 68 protects the armor penetrable threaded ring 12 the explosive effect of the primer 28. Contributes to armor penetration also the step section 15 of the projectile body 10 at.

A transition 9 from the cylindrical inner wall 16 to the cone 17 of the projectile body 10 forms a predetermined breaking point, which is indicated as a wavy line 8. at Detonation of the explosive charge 60 tears the projectile body 10 at the predetermined breaking point 8 and accelerates the step section 15 with the threaded ring 15 as one piece Part for the purpose of armor penetration.

A pin 30 of the valve body 65 has lateral ignition channels 41 and a two-stage Central bore 72. The central bore 72 is divided into a ball guide 42 with ball 43, a flanged board 44, a helical compression spring 73 and in a bore 77.

The ball 43 is made of brass and seals in particular in a section 74 the central bore 72 from the circumference by the circumference of the ball 43 with little Play in the ball guide 42 is stored. The ball 43 can also be from another Material such as steel or plastic.

The helical compression spring 73 is light between a shoulder 75 and the ball 43 biased. In the usual way, it has a central channel 76. The diameter the central channel 76 corresponds approximately to the diameter of the bore 77 the central bore 72.

Following the bore 77 is a conical in a conical recess 80 Charge 29, consisting of a secondary explosive, arranged. This conical charge 29 serves as a booster charge. The conical charge 29 lies with its large base 31 on the explosive charge 60. With that, the Charge 29 in the sense of a pointed cone charge has a large impulse effect.

The cavity 13 of the projectile body 10 is conical on the ogive side Section 14 provided. Accordingly, the explosive charge 60 lies with its conical Section 63 on the conical charge 29. The conical section 63 has a free end face 62 that covers almost the entire area, ie almost 100% of the Base 31 of the cargo 29 touched.

During the acceleration phase of the projectile 1 in a not shown Guns sit the bullet 43 on the compressed due to the inertia Coil compression spring 73 corresponding to FIG. 3.

During the pipe passage of the floor 1 and the adjoining one Flight distance of 2 to 3 m ensures that the ignition charge 28 is ignited by a random event not to ignite the conical charge 29 and thus leads to the ignition of the explosive charge 60. The ball 43 seals the central bore 72 in section 74 on the circumference against pressure and fumes. This means that the pipe safety and also the front pipe safety is about 2 to 3m given the gun barrel.

Should the primer 28 either during the tube passage through the Gun barrel or outside the gun barrel in the area of the front pipe security have been ignited, the floor 1 is after completion of the ballistic Flight route as a dud, which can be cleared easily.

Dangerous ignition means are neither included in the ignited charge 28 nor Ignition charge 28 not ignited.

After the pre-pipe safety phase, that is after the ball 43 through the Helical compression spring 73 from the sealing position shown in FIG. 3 in the unlocked position 2 arrives, ignites the primer charge when the projectile 1 hits the target 28. The primer 28 is against the pin 30 acting as an anvil Valve body 65 shock-pressed and thus ignited. Fumes arrive under high pressure through the lateral ignition channels 41 into the free central bore 72 and ignite the conical charge 29. This then ignites the explosive charge 60. The projectile 1 detonates with the formation of fragments of the projectile body 10.

In the case of a slightly armored target, the priming charge 28 detonates at the same time armor penetration occurs. The threaded ring 12 with the step section 15 perform the penetration work, so that the detonation of the projectile 1 is done inside the target.

Claims (6)

Safety device for a pyrotechnic impact detonator of a ballistic explosive projectile with a pyrotechnic mass that ignites on impact, a ball safety device only coming into focus after the projectile has been fired, and wherein a central ignition channel (72) is arranged in a penetration channel of a valve body (65) and is provided with a ball guide (42) with spaced stops (44, 75) on the end face for a ball (43) mounted therein, and lateral ignition channels (41) open into the central ignition channel (72) behind the ball (43) in focus, characterized, that between the ball (43) and the explosive-side stop (75) is a prestressed spring element (73), and the ball (43), which is in a safe position, seals the ignition channel (72) with the lateral ignition channels (41) which open into the ignition channel (72) against the swathes of ignition flowing through. Fuse according to claim 1,
characterized in that the ball (43) seals on the circumference with the wall of the ball guide (42). Fuse according to claim 1,
characterized in that the ball (43) consists of metal such as steel, brass or plastic. Fuse according to claim 1,
characterized in that the spring element is designed as a helical spring (73) with a central channel (76). Fuse according to claim 1,
characterized in that the penetration core (18) is screwed to the projectile body (10). Fuse according to claim 1,
characterized, that the valve body (65) has an explosive charge (29) on the outlet side in a conically widening recess (80), which bears on a main explosive charge (60) of the explosive projectile (1) over a large area.

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