EP0387675A2 - Bottom fuze for a grenade - Google Patents

Abstract

A bottom fuse for a grenade, which can be fired from a barrel by means of a propellant charge (21), contains a percussion-fuse device which consists of a detonator charge (3) and of an axially displaceable striking piece (6). A blocking element (3) carrying the detonator charge (5) can be adjusted perpendicularly relative to the grenade axis and, in the safety position, interrupts the ignition chain. As a result of the firing, it is released and is then transferred into the active position. For self-destruction in the event of a failure of the percussion fuse, there is a delay composition (12) which ignites during the firing. This is ignited during the firing by means of a second striking piece (9) which is arranged in a second striking-piece bore (10) extending parallel to the first striking-piece bore (8). The delay composition (12) bears against a partition wall (14) which can be destroyed by the gas pressure and which separates the receiving space (13) of the delay composition (12) from the first striking-piece bore (8). After the bursting of the partition wall (14), the gases of the delay composition (12) are applied to the first striking piece (6) which ignites the detonator charge (5).

Description

The invention relates to a ground detonator for a grenade, which can be fired from a tube with the aid of a propellant charge and contains an ignition chain, with an impact ignition device consisting of a detonator charge and an axially displaceable striking element with an ignition needle, and with an adjustable one perpendicular to the grenade axis, the blocking element carrying the detonator charge, which interrupts the ignition chain in a secured position, unlocks it by firing, and closes the ignition chain in the active position, a receiving space for a delay sentence firing on firing being delimited by a destructible partition.

A grenade with such a base igniter can be found, for example, in WO 87/01192. The striking piece shown there is provided with two opposing ignition pins. A spring-loaded adjustable slide perpendicular to the grenade axis serves as the locking element, which is held in front of the launch by a locking pin which is displaceable in the longitudinal direction of the grenade and unlocks during the launch. Of the two firing needles of the striking piece, one is intended for the actuation of a primer of a pyrotechnic set, which is delimited by a partition, and the other for the direct actuation of the detonator charge. The partition bursts at the appropriate gas pressure, which then suddenly causes the longitudinal displacement of the locking pin and thus the release of the slide. A self-ignition delay set which ignites at the same time represents a section of a second ignition chain which bypasses the impact ignition chain, a second detonator charge being provided in the slide which closes the second ignition chain in the active position.

From DE-OS 3441556 a grenade equipped with an impact detonator is known, which contains a self-dismantling. A fuse link is provided there as a down pipe protection, to which a heating set is assigned and which fixes a sleeve which contains a deceleration set and an impact piece. The ignited heating element melts the melting member so that the sleeve is released and ignites the delay element which acts on the striking element when the impact igniter fails.

It is also known from DE-PS 1101225, in an impact detonator in an axially displaceable impact body, the rear firing needle of which is prevented from acting on the detonator in a secured position by a locking element designed as a displaceable slide, an inner firing pin with a second, forward pointing ignition pin, an associated primer and two delay sets and a self-detonating ignition set. Here, when firing, the primer is acted upon by the inner firing pin, which ignites the two delay sets arranged on both sides of the inner firing pin. The combustion of the shorter-burning delay set releases a spacer or lets it melt, which keeps the rear firing pin of the striking element pressed into a recess in the slide in a secured position, so that it is fixed against displacement. After the impact body has been released, the slide can move, making it possible for the firing pin to pass through to the detonator upon impact. If this does not occur in the intended manner, the self-igniting primer, which initiates the action of the detonator by the rear firing needle, is ignited shortly thereafter by the longer-burning second retardation primer.

It has been shown that both according to DE-OS 3441556 and also according to DE-PS 1101225, the achievable gas pressure with which the striking piece is subjected to self-dismantling is sometimes insufficient.

The construction of an increased gas pressure to initiate a process is also known from EP-PS 48204. This shows a cartridge equipped with a spring-loaded slide with a launch tube and a projectile, the slide interrupting the ignition chain being secured twice. A transfer charge is separated from the main charge to be ignited by the slide, and a delay charge is then connected to it, the connection to the launch propellant charge being blocked via a locking piece provided with a pinch ring that can be moved parallel to the axis before the launch. When fired, the closure piece is only moved forward under the action of the propellant gases when the gas pressure is sufficient to compress the squeeze ring. The functional safety of the slide release is improved by the gas pressure required for the compression of the squeeze ring.

The invention has now set itself the task of creating a ground igniter of the type mentioned with improved front pipe security, in which a sufficient gas pressure is available in any case for the action of the striking piece for self-dismantling.

This is achieved according to the invention in that a second hammer with an ignition needle is arranged in a second hammer bore running parallel to the first hammer bore and the partition divides the receiving area from the first hammer bore for the ignition of the delay set.

The partition can be of any type, preferably it consists of a lead disc resting against a stop. By selecting the thickness and the material of the partition as well as the deceleration rate and their coordination, on the one hand a security against the pipe to a predetermined distance and on the other hand also in case of manufacturing inaccuracies the exposure of the detonator to the gases under increased pressure can be achieved.

When fired, the second percussion piece acts on the primer due to its persistence, the impact may be dampened by a weak spring, and ignites the delay set arranged in the receiving space. The locking element is usually additionally locked in the secured position before firing, for example by a recoil bolt and / or a spring-loaded, twist-evasive bolt, etc. After the locking element is released, it is moved into the active position, whereby the ignition chain closes. On impact, the first striking piece hits the detonator charge that can now be acted upon, which detonates the explosive charge or the like. detonates. Instead of the explosive charge, a hollow charge or the like can also be in the front part of the grenade. be arranged. If the impact ignition is not reached, sufficient gases have formed from the delay set to ensure that the detonator is acted upon by the pressure build-up with subsequent spontaneous breakthrough.

In a preferred embodiment it is provided that the receiving space of the delay set is designed as a diametrically extending channel into which the second striking hole opens on the one hand, and which on the other hand merges into an axially offset radial connecting channel to the first striking hole. Thereby the maximum length of the deceleration set is generated, which generates a very high gas pressure. The effect of the combustion gases is further improved if the second striking hole extends over the bottom part and the axially adjoining housing of the locking element, the second striking piece in the section lying in the housing and the primer in the section of the second striking hole in the bottom part Distance to the underlying receiving space of the delay set is arranged. The distance between the primer and the delay set provides a space that initially fills with combustion gases, which means that the partition cannot be destroyed prematurely.

A simple manufacture of the floor igniter according to the invention can be achieved if the receiving space is formed by a circumferential blind bore which is covered by a screw plug, and that the destructible partition wall which bears an overall outlet bore of smaller diameter in the connecting channel lies against the bottom of the blind bore.

The manufacture of the connecting channel and the transition between the two channels can also be simplified if the gas outlet bore and the connecting channel open on the bottom side into a depression in the form of a threaded bore on the circumference of the base part, into which a second screw plug is inserted.

The invention will now be explained in more detail with reference to the accompanying drawing, which shows an axial section through a floor igniter according to the invention.

The base igniter to be used in a grenade (not shown), in particular a 40 mm grenade, has one Bottom part 1 on which a housing 2 containing the locking element 3 is arranged. This takes up an inhibitor provided with a swirl protection 4, which is assigned to a carrier of a detonator charge 5. After loosening the swirl safety device, the carrier rotates, braked by the escapement, into the active position, in which the detonator charge 5 lies in the grenade axis and is aligned with a first striker 6, which is arranged in a first striker bore 8 and is braked by a spring.

Laterally next to the inhibitor and the carrier for the detonator charge 5, a second striking piece 9 is arranged in an axially parallel, second striking hole 10, which continues in the bottom part 1 as a blind hole. At the top of the bottom part 1 around the second hammer bore 10, a primer 11 is inserted, which is acted upon by the firing needle 20 when firing due to the persistence of the second spring-braked hammer 9. The section of the second percussion bore 10 below the primer 11 is empty and forms a collecting space for combustion gases which develop from a deceleration set 12 ignited by the ignition jet. The delay set 12 extends in a receiving space 13 formed by a diametrical bore, into which the striking hole 10 opens on one side and which is closed by a first circumferential locking screw 15. On the opposite side of the receiving space 13, an outlet bore 16 of reduced diameter is provided, which opens into a threaded bore into which a second, circumferential screw plug 17 is inserted. At the annular shoulder formed by the small outlet bore 16 there is a partition 14 which delimits the receiving space 13 for the deceleration set 12. In the threaded hole closed by the second screw 17 opens at an axial distance above the Receiving space 13, a radial connecting channel 19, the diameter of which corresponds approximately to that of the outlet bore 16, which ends in the first hammer bore 8. The second screw plug 17 is provided with a recess 18 connecting the outlet bore 16 and the connecting channel 19. At the bottom of the bottom part 1, a propellant charge cartridge 21 is inserted, via which the grenade is fired.

Upon firing, as already mentioned, the second striking piece 9 ignites the primer 11 and this the first slowly burning section 22 of the deceleration set 12. At the same time, due to the persistence of a rear-firing bolt, not shown, the inhibitor is released, the swirl device 4 of which is released due to the rotation of the grenade , so that the detonator charge 5 can pivot into the grenade axis. This process, which is slowed down by the inhibitor, extends over a first period in which the desired fore-pipe safety is ensured, since the first impact piece 6 cannot act on the detonator charge 5 during this period.

When striking the target, the first impact piece 6 is flicked forward and its firing pin 7 pierces the detonator charge. If the serve is too soft or the target is missed, the grenade will disassemble itself. The deceleration set 12 which burns during the flight generates combustion gases which enter the free space of the second striking hole 10, a gas pressure resulting from the cutting disc 14 until the deceleration set 12, which is a fast-burning charge in the second section 23 and which generates a large amount of gas, burns off builds up. This then causes the cutting disc 14 made of the material shown to burst, so that the gases under high pressure through the outlet bore 16, the recess 18 and the connecting channel 19 flow into the first hammer hole 8. Due to the very small channel cross section, there is only a slight relaxation of the combustion gases, so that these act on the first impact piece 6 with high pressure. The first impact piece 6 thus causes the detonator charge 5 to be ignited even without a corresponding surcharge. The time until self-disassembly can be set by appropriate selection of the delay set 12 and the cutting disc 14, the fore-pipe safety being ensured until the detonator charge is pivoted into the grenade axis. A lack of swirl or impact immediately after firing therefore does not lead to detonation, rather the first striking piece is flung forward due to the high gas pressure of the deceleration charge, the firing pin wedging in part of the carrier or the inhibitor.

Instead of the inhibitor with pivoting locking element 3, its design as a slide is also conceivable, which has no influence on the rest of the design of the ground igniter.

Claims (7)

1.Soil detonator for a grenade that can be fired from a pipe with the help of a propellant charge and contains an ignition chain, with an impact ignition device consisting of a detonator charge and an axially displaceable striking piece with an ignition needle, and with a detonator charge that is adjustable perpendicular to the grenade axis load-bearing locking element, which interrupts the ignition chain in a secured position, unlocks it by firing, and closes the ignition chain in the active position, a receiving space for a firing delay set which initiates self-dismantling being delimited by a destructible dividing wall that for the ignition of the delay set (12) a second hammer (9) with an ignition needle (20) is arranged in a second hammer bore (10) running parallel to the first hammer bore (8) and the partition (14) the receiving space (13) from the first punch compartment (8). 2. Soil igniter according to claim 1, characterized in that the receiving space (13) of the delay set (12) is designed as a diametrically extending channel, into which the second striking hole (10) opens and on the other hand into an axially offset radial connecting channel ( 19) passes to the first hammer hole (8). 3. Soil igniter according to claim 1 or 2, characterized in that the second hammer bore (10) itself Extends over the bottom part (1) and the axially adjoining housing (2) of the locking element (3), the second striker (9) in the section lying in the housing (2), and the primer (11) in the one in the bottom part (1 ) bearing section of the second hammer bore (10) is arranged at a distance from the underlying receiving space (13) of the deceleration set (17). 4. Soil igniter according to claim 2 or 3, characterized in that the receiving space is formed by a circumferential blind bore, which is covered by a screw plug (15), and that the destructible partition (14) is present on the bottom of the blind bore, which has a total outlet bore ( 16) of smaller diameter in the connecting channel (19). 5. Soil igniter according to claim 4, characterized in that the gas outlet bore (16) and the connecting channel (19) on the bottom end in a recess formed as a threaded bore on the circumference of the bottom part (1) into which a second screw plug (17) is inserted. 6. Soil igniter according to claim 5, characterized in that the second screw plug (17) has a the opening openings of the gas outlet bore (16) and the connecting channel (19) bridging recess (19). 7. Soil igniter according to one of claims 1 to 6, characterized in that the delay set (12) is in two parts, with a slowly burning larger part (22) is followed by a rapidly burning smaller part (23) which on the partition (14) is present.

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