DE2345336C2 - Fastening of trip wires to a release head of a jumping mine detonator - Google Patents

Description

F i g. 3 to 6 are a second and a third embodiment, and in the

F i g. 7 to 9 show a fourth and a fifth exemplary embodiment

In the execution form from FIGS. 1 and 2 are on used three trip wires on the detonator Cut the holes 2 made in the release head 1 that hole 3 in which the firing pin 4 is guided so far that pierced balls 5 in which the trip wires 6 are attached, from the respective bore 2 with the firing pin 4 tensioned itself can not emerge under tension on the wire 6.

However, if the tensile force acting on the wire 6 reaches a value that is necessary for rotating the release head 1 and so that the firing pin 4 is released, it snaps onto the primer (not shown) and thereby releases the tripwires 6 engaging the balls 5, so that the mine through the wires 6 is no longer disabled

It is assumed that the tripwires 6 acting on the ball 5 are only tensioned in such directions that the wires are not kinked when they emerge from the bores 2. In the construction shown, this results in an angle tx of approximately 17 °. If one further assumes that the construction of the trigger head limits the maximum magnitude of the force P in such a way that the torque which leads to the triggering of the detonator _{assumes the value P 3} · r _s , where r means the radius of the firing pin, then the result is Possibility in the release head 1 in the plane which is determined by the three ball centers to provide a recess 7 limited by two tangents T from the respective ball center to the circumference of the firing pin 4 with a height which corresponds to the ball diameter.

By this measure, the angle α is expanded many times over to the angle & \ , so that the tripwires can be tensioned in the most favorable position in accordance with this angle <x \.

In order to reduce the tensile force on tripwires 6 in their preferred direction to trigger the detonator and at the same time to increase the angle χ , the point of application of the tensile force can also be arranged at a greater radial distance from the firing pin axis. In the present case, this is achieved by interposing a second ball 8 (FIG. 3). If the tensile force acting on the wire is to be reduced even further, this can be achieved by interposing two or more balls 8, as shown in FIG G. 4 to 6 show. Due to the larger diameter of the release head 1, it is also possible to make the bore 2, which determines the direction of the applied tensile force, considerably deeper behind the ball and to use pretensioned springs 9 behind the ball 5, which when the ball at the end of the wire is released 5 throw them out as well, which means that the mine is released from the tripwires much more quickly.

Based on the F i g. 4 the acting forces are to be explained. Programs from the drawn Kräfteparallelo be seen that the tripping force P, a force P) exerts on the firing pin 4 in dependence on the chosen angle. As can be seen, the force Pe at the given angle is about 1.5 times the force P. The force Pf causes friction in the firing pin guide to be overcome by the firing pin spring. In order to be able to enlarge the angle χ , the ball 5 could be attacked at the end of the wire closer to the circumference of the release head - seen in the direction of the force P. In order to reduce the size of the crow Pe , the angle is to be selected correspondingly smaller, as it is e.g. B. in Fig. 5 is shown

Another solution for releasing the tripwires of the mine is shown in FIGS. 7 and 8 shown the firing pin 4 also passes through the release head 1. Above this release head 1, the disks 10, 11 and 12 are in

Arranged in such a way that their central bores 10 ', 11', 12 'receive the firing pin 4. Each of these disks has a cylinder jacket sector 13, 14, 15 on its circumference, which engages under the release head 1 in the direction of the firing pin axis with a claw . Outside of the cylinder jacket sectors 13, 14, 15, projections 19, 20, 21 provided with bores are arranged to which the tripwires can be attached. This arrangement of the disks iQ, 11, 12, each of which is attacked by a tripwire, enables the firing pin 4 to be released by a rotary movement of the release head 1.

As a result of its movement towards the primer, the hammer 4 disengages from the disks 10, 11, 12 and unlocks them. The disks are therefore pulled off when the mine is thrown upwards. To the Compressive springs 22, 23, 24 can be inserted into bores for faster throwing off of the disks be arranged, which act on the cylinder jacket sectors 13 to 15 in the radial direction.

According to FIG. 9, the rotation of the disks around the release head, which is prevented by lugs according to FIG. 7, is excluded by the fact that circular sections 25 are milled off from the release head. The cylinder disks are also here, as shown in FIG. 7, provided with a bore in which the firing pin 4 is received, and angled in such a way that the webs parallel to the firing pin axis grip ^{the release head 1 under r.} The individual panes are released and thrown off as in the example according to FIG. 7 by the downward movement of the firing pin 4 with the help of the pretensioned springs 22 to

24. In terms of production engineering, the construction according to FIG. 9 easier to manufacture than that according to FIG. 7th

If it is now assumed that the tripwires are not stretched in their preferred direction at an angle λ greater than 45 °, there are two possible angles λ for each pane for the permissible direction of the tripwires. Compared to the solutions described above, the clamping directions are doubled.

For this purpose 2 sheets of drawings

Claims (1)

1 2 arranged propellant charge throws the mine accordingly claims: correspondingly vertically upwards. The mine is detonated at a predetermined height 1. Attachment of tripwires to an exit and, according to its construction, causes a release head of a spring mine detonator, in which a fe- 5 splinter scattering radially on all sides. The height at which the loaded firing pin is detonated by a locking device is kept locked by the release device, which depends on speaking measures or devices, pulling tripwires to unlock the z. B. from the burning time of a delay explosive through under the force of the spring down from the zes or vcn the length of a wire, which is releasably anchored io mine in the ground under the release head exiting firing pin and is anchored to a second in, the stoiper wires on the release head The detonator arranged in the mine attacks if the result of the release of the locking device mine reaches a height so that the wire is fastened in a tensioned releasable manner This detonator also detonates in advance (1) if the detonator is designed as a rotary detonator, at a certain height the mine detonates,
which the locking device of the striker- It is a release head of a jumping mine detonator zens (4) by turning the trigger head (1) known (DE-AS 11 18 657), which is released except as a pressure detonator, attached to the trigger head (1) and designed as a rotary detonator, at the end in one Running transversely to the firing pin (4), the locking device of the firing pin is triggered in the bore (2) radially at a distance from the axis 20 by turning the release head. With the firing pin (4) a thickening (ball 5) on this known release head, the tripwires attached to it that grip behind the firing pin after the triggering of the firing pin (4) or one between the thickening (ball 5) cannot point from release the release head. The and the firing pin (4) arranged ball (8) optimal effect of a jumping mine of the described on the firing pin (4) is locked and 25 form can only occur if the axis unlocked by its exit from the release head at the time of detonation vertical This can be reached but is only possible if the release head of the Z device according to claim 1, characterized by jumping mine attacking tripwires after Auslözeich that the thickening (ball 5) on a projection of the firing pin from its holder on the trigger Spring (9) is supported 30 sekopf released, so that a retention of the 3. Attachment of trip wires to an Aus mine with the result that their axis is vertical The release head of a spring mine detonator, in which a spring leaves, can be avoided. The loaded firing pin from a locking device is locked by pulling tripwires to unlock the tripwires in a known case (US-PS 29 35 949) under the force of the spring .iach down from the achieved by that the brackets for the tripwire release head escaping firing pins are designed as two-armed levers, each of which is, with the tripwires on the release head being inserted through an eyelet on the release head the release of the locking device and are detachably fastened with their free end in an annular groove in the striker, characterized in that 40 zen engage. By pulling on the S? O! Perdrähten the stoiper wires (6) on the release head (1) are pivoted with these levers and thereby pull the formation of the igniter as a rotary igniter, in which the firing pin slightly upwards, so that the free lever locking device of the firing pin (4) end out of the groove of the firing pin and can be triggered by turning the release head (1), thereby unlocking it. In the known Verriegam the circumference of each disc (10, 11, 12) with 45 Iungsvorrichtung, however, the angled Heeiner the firing pin (4) receiving central after releasing the firing pin in the eyelet hole (10 ', 1Γ, 12') attached and that the clipper wires that are held in a locked position on the release head are not released.
ben (10,11,12), which rotate with the release head (1) The invention solves the problem of a fixed connection, by exiting the striker 50 fixing the tripwires in the release head of a zen (4) from the central one To design disc bores (10 ', rotary igniter of a spring mine so that the 1Γ, 12') can be unlocked. ends of the tripwires attached to the release head 4. Apparatus according to claim 3, characterized by being released before the ignition of the propellant charge,
indicates that the disks (10, 11, 12) are each supported according to the invention by the characterizing features from claim 1 or the tensioned spring (22, 23, 24) acting radially to the release head (1) are. Claim 3 achieved With the invention, the ends of the tripwire te locked in the trigger head of the detonator so that releasing the firing pin also releases the ends 60 of the tripwires. This can be done with- The invention relates to the fastening of stumbling blocks from a spring arranged in the release head on a release head of a jumping mine pen of claims 2 or 4 additionally favored ders according to the preamble of claim 1 or 3. By triggering a detonator for a Schüt- The invention is based on embodiments zen spring mine, a propellant charge is explained using the drawing,
sets, through which the mine in the direction of action of the propellant F i g. 1 shows schematically a release head and charge is thrown up. In the normal case, FIG. 2 shows a section through this release head Mine installed horizontally in the ground and the line 1I-II below in FIG. 1. In the