DE1646372C3 - Detonators for explosive charges - Google Patents

Description

The invention relates to a detonator for explosive charges, in particular anti-tank mines, with a Step mechanism, an ignition trigger and an ignition charge, the rest position of the ignition trigger (in relation to to its ignition position), the step mechanism step by step by load pulses on the ignition trigger in the direction of the ignition position feasible and time-dependent in the direction of its rest position back-

«5 is feasible and with the detonator under the action of the successive load pulses can be triggered if they take effect at time intervals that do not exceed a specified period of time.

A known detonator of the type described at the outset (cf. DT-AS 10 54 351) is essentially hydraulic This has the consequence that the pulse height of the load pulses, the pulse duration of the load pulses and the time interval between the individual load impulses are also decisive for whether the detonator triggers or not

Incidentally, it is a detonator for explosive charges known (see. US-PS 25 16 890), the one with a mechanically operating, a rotatable toothed disk having step works. However, this has not stimulated the professional community to the effect that in the case of the detonator described at the outset to remedy the previously identified inadequacies.

The invention is based on the object of providing the detonator for explosive charges described above

to design and further develop that he is based on a precisely adjustable number of load pulses then and only then ignites if in each case a load impulse corresponds to the previous one within a specified period Period of time follows

The detonator according to the invention, in which this object is achieved, is characterized in that the Step mechanism (first step mechanism) has a rotatable toothed disk and that another mechanical one Step mechanism (second step mechanism), which with each step triggered by a load pulse, the ignition

'brings the ignition into the ignition position, an actuating device for the simultaneous switching of the two step mechanisms under the action of the load impulses, a locking and unlocking device that can be actuated by the second step mechanism and a timing element connected to the second step mechanism, with which the predetermined period of time for locking the first step mechanism is determined is provided, wherein the first step mechanism can be locked and unlocked by the locking and unlocking device and can be returned to the rest position after unlocking. if no further load impulse occurs within the specified period of time.
In the case of the igniter according to the invention, the pulse height of the load pulses is irrelevant if a minimum value - the response limit - is exceeded, i.e. every load pulse is registered as equivalent regardless of the pulse height. Furthermore, the time interval from load impulse to load impulse is

⁶ S as long as it is not greater than a specified period of time, irrelevant, i.e. every stress impulse is registered equally regardless of when it occurs.

Ix

In particular, there are various ways of using the detonator according to the invention for explosive charges to design and develop, which will be explained in the following only by way of example.

A preferred embodiment of the invention Zünders, which is structurally simple and easy to produce in terms of production, is characterized by that the toothed disc of the first Schrhtwerkes with a disc with a central hole, two in the Disc 8 with a projection 9 provided on the circumference and with a sleeve 10, one on the sleeve 10 seated pinion 11, with which a timing element 12, z-B. a well-known escapement gear, continuously engaged is, and a non-rotatably connected to the disk 8 toothed disk 13 is provided. The disc 8 with the Projection 9 and the sleeve 10, the pinion 11 and the toothed disk 13 form the second step mechanism. The timing element 12 is designed so that it is used for the purpose of

Mittelbtihrung ending radial slots and on the io fit of the detonator is firmly connected to the respective scope of use provided projections, can be adjusted for purpose. This possibility is that the second step mechanism consists of a disc with a
Central hole and a projection provided on the umiang of the disc and one with the timing element

not only important for the individual mines, but also especially with regard to the set-up of a minefield, in which the blasting of the mines

z. B. is coupled via a pinion sleeve and that 15 measured a predetermined sequence should take place so

the ignition trigger from one through the central hole of the disc of the first stepper mechanism, the central hole the disc of the second Schriawerkes and the sleeve penetrating firing pin with one of the

The tip facing the ignition charge and attached to a housing (not shown) in FIG. 20. Due to the ignition position through the radial slots of the disk return springs 14,15, the disks 1,8 (and thus the cross pin passing through the first step mechanism
consists. The locking and unlocking device can be used after each step of the first step mechanism

the first step mechanism over the projections of the disk 25 see the first step mechanism and the second step locking, loaded by a compression spring and work) is an actuating device 18 to have at the same time by the projection of the disk of the second step mechanism resettable stop.
In addition, a preferred embodiment of the

the minefield is as effective as possible

Return springs 14, 15 act on the disks 1, 8; the return springs 14, 15 are on the one hand to the Discs 1, 8 and on the other hand at fixed points 16, 17

the first step mechanism and the second step mechanism) endeavors to return to the respective rest position. Between the pulleys 7 and 13 (and thus between

term switching of the two step mechanisms is provided. In the illustrated embodiment belong to of the actuating device 18, actuating fingers 19, 20,

The detonator according to the invention is characterized in that 3 ° which engage in the toothed disks 7, 8. To the actuation

that through the disc of the second step mechanism a transmission device 18 is a restoring spring

pivotable, the ignition charge receiving support 25 connected, which in turn at a fixed point 26

can be brought into the back position. of the housing, not shown, is attached.

The invention is described below with reference to an IE. The stop 21 can be pivoted about an axis 22

the drawing representing an embodiment example 35 and loaded with a compression spring 23 which is attached to a

explanation explained in more detail; it shows

F i g. 1 in front view, partly in section, a mine with a detonator,

F i g. 2 in opposite to FIG. 1 fixed substantially enlarged fixed point 24 of the housing, not shown is.

The ignition charge 27 is accommodated in a channel extending transversely through a support member 28. The

ßerter representation, a simplified schematic 4 ° support member 28 is parallel to the main axis AB

Representation of the igniter of the mine according to Fig. 1, in the rest position,

F i g. 3 the subject of FIG. 2 after the occurrence of the first load impulse, extending axis 29 pivotable and is under the action of a return spring 30 which is at a fixed point 31 of the housing, not shown, is attached. With the aid of the return spring 30, the support arm 28

F i g. 4 the subject of the F i g. 2 and 3 in 45 drawn against a control member 32 which is attached to the disc

8 of the second step mechanism is connected and a rotary movement of the disk 8 participates.

Finally, one of the things shown in FIGS. 2 to 5 shown igniter nor the ignition trigger, which is shown in the Embodiment of a firing pin 33, one provided at the upper end of the firing pin 33 Cross pin 34, a point 35 provided at the lower end of the firing pin 33, a collar 36 and a compression spring 37 is made. The cross pin 34 is dimensioned so that it, with a corresponding angular position, can slide freely downward through the slots 5,6 of the disc 1 of the first step mechanism. The compression spring 37 is supported on the one hand on the pinion 11 and on the other hand on the collar 36.

In the illustrated embodiment, the ignition charge 27 is followed by a transfer charge 38, which in turn is connected to the main charge of the mine, the is to be ignited, is in connection.

As the F i g. 2 to 5 show, the igniter is triggered when, on the one hand, the slots 5 and 6 of the disc 1 of the first step mechanism are located exactly under the cross pin 34 of the ignition trigger, if on the other hand the ignition charge 27 under the tip 35 of the ignition trigger

an intermediate position and

F i g. 5 the subject of the F i g. 2 to 4 in the Ignition position, so after a certain number of load pulses each within a predetermined Time span occurred.

The F i g. 1 shows a mine, specifically an anti-tank mine, with its head T, the point at which the detonator according to the invention is arranged by the arrow A.

In detail, the one shown in FIGS. 2 to 5 of the igniter shown in FIG. 1 anti-tank mine shown structured as follows:

The detonator initially has a housing (not shown). Inside the case are a washer 1 with two projections 2, 3 provided on the circumference, with a central bore 4 and with two diametrically opposite one another opposing slots 5, 6 which open into the central bore 4, and a toothed washer 7 intended. The disk 1 and the toothed disk 7, which together represent the first step mechanism, are with one another non-rotatably connected and rotatable together. Inside the housing, not shown, are further, coaxial to the disc 1 and the toothed disc 7, one

sers lies. The rest position of the ignition trigger can be adjusted with respect to its ignition position in that the starting angle between the transverse pin 34 of the ignition trigger and the slots 5, 6 of the disc 1 of the first step mechanism is adjustable. For this purpose, the firing pin 33 can be provided with a suitable adjustment device, with the aid of which the firing pin can be rotated about the main axis AB - without the axial displaceability of the firing pin being hindered as a result. The adjustment device mentioned above can have a reading head with a scale, which can be assigned a marking on the housing (not shown).

The adjustable starting angle between the cross pin of the ignition trigger and the slots 5,6 of the disc 1 of the first step mechanism determines the number of load pulses that must occur before the detonator can trigger.

The function of the detonator described above is as follows:

If the actuator 18 is mechanical, hydraulic, electrical or magnetic Away or otherwise with the head Tder in F i g. 1 coupled anti-tank mine shown, this is how every load impulse acting on the head of the anti-tank mine and in relation to the impulse height A minimum value - response limit - is transmitted to the actuating device 18. The actuating device 18 causes a simultaneous counter to the force of the return spring 25 Switching on the two step mechanisms in which the actuating fingers 19.20 engage in the toothed lock washers 7.13.

In the following it is assumed that the actuating device 18 through the toothed disks 7,13 the disks 1, 8 adjusted by 45 ° and that in each case the control member 32 brings the support member 28 with the ignition charge 27 under the tip 35 of the ignition trigger. So that the invention Detonator after two load impulses that take effect at time intervals that are predetermined Do not exceed the time span, the transverse pin 34 of the ignition trigger is triggered at right angles to the diametrical opposing slots 5, 6 of the disc 1 of the first step mechanism. Besides that the timing element 12 is set so that thereby the disc 8 of the second step mechanism in its rest position is returned when the predetermined period of z. B. is exceeded one second.

If a first load pulse acts on the actuating device 18, the two Disks 1,8 of the first step mechanism and the second step mechanism rotated at the same time by 45 °. Through this the ignition charge 27 is brought under the tip 35 of the ignition trigger. The firing pin 33 of the ignition trigger does not change its axial position, however, since the position of the transverse pin 34 of the ignition trigger does not change the position of the two diametrically opposed slots 5, 6 of the disc 1 of the first step mechanism coincides. After the disc 8 of the second step mechanism has left its rest position its projection 9 no longer holds the stop 21 of the locking and unlocking device in the position, the in F i g. 2 is shown. The stop 21 of the locking and unlocking device is through the force of The compression spring 23 moves and arrives in front of the projection 3 of the disk 1 of the first step mechanism and locks thus the first step.

When the first load pulse has subsided, the disk 8 becomes the second step mechanism returned to the rest position by the force of the return spring 15, as shown in FIG. 4 shown, but with a delay predetermined by the timer 12. If now during the given period of time from Z. B. one second no further load pulse is effective, then the disk reaches 8 of the second Step mechanism again the in F i g. 2 rest position shown. The projection 9 then has the disk be 8 of the second step mechanism the stop 21 of the locking and unlocking device again against the Force of the compression spring 23 moved so that the disc 1 of the first step mechanism return to its rest position can.

However, if within the predetermined period of z. B. one second to the first load pulse a second load impulse follows, the disk 8 of the second step mechanism is again in the Ignition position brought, d. H. the ignition charge 27 comes to rest under the tip 35 of the ignition trigger, and the disc 1 of the first step mechanism is rotated through a further angle of 45 ° the first step mechanism thus achieves a total rotation of 90 °, so that the slots 5,6 of the disc 1 of the first step mechanism come under the cross pin 34 of the ignition trigger, so that the ignition trigger is effective will, d. H. the firing pin 33 drives the tip 35 into the ignition charge 27 and thus ignites the ignition charge 27

For this purpose 2 sheets of drawings

Claims (4)

Patent claims: 1. Detonator for explosive charges, especially from anti-tank mines, with a step mechanism, a Ignition trigger and an ignition charge, the rest position of the ignition trigger (with respect to its Ignition position) adjustable and the step mechanism step by step by means of exposure impulses to the ignition trigger in the direction of the ignition position and, depending on the time, in the direction of: its rest position is retractable and wherein the igniter is under the A; effect of the successive load impulses can be triggered if these take effect at time intervals that are a predetermined time period not exceed, characterized that the step mechanism (first step mechanism [1,7]) has a rotatable toothed disk (7) and that a Another mechanical step mechanism (second step mechanism [8.13]) that with each step triggered by a load pulse, the ignition charge (27) in brings the ignition position, an actuating device (18, 19, 20) for simultaneous further switching of the two step mechanisms under the action of the load impulses, one by the second step mechanism (8, 13) actuatable locking and unlocking device (2, 3, 9, 21 to 24) and one with the second step mechanism (8, 13) connected timer (11, 12), with which the predetermined period of time for locking the first step mechanism (1,7) is set, are provided, the first step mechanism (1, 7) through the locking and unlocking device can be locked and unlocked and, after unlocking, in the rest position can be traced back if there is no further load pulse within the specified period of time occurs. 2. igniter according to claim 1, characterized in that the toothed disc (7) of the first step mechanism (1, 7) with a disk (1) with projections (2, 3) provided on the circumference with a central bore (4) and is firmly connected to two radial slots (5, 6) ending in the central bore (4), that the second step mechanism (8,13) consists of a disc (8) with a central hole and one on the circumference the disc (8) provided projection (9) and a with the timing element (11,12) z. B. via a pinion (11) coupled sleeve (10) and that the ignition trigger (33 to 35) consists of a through the central bore (4) of the disc (1) of the first step mechanism (1, 7), the central hole of the disc (8) of the second step mechanism (8,13) and the sleeve (10) penetrating firing pin with one of the detonating charge (27) facing tip (35) and from one in the ignition position through the radial slots (!!, 6) the disc (1) of the first step mechanism (1, 7) through transverse pin (34). 3. igniter according to claim 2, characterized in that the locking and unlocking device (2,3, 9, 21 to 24) one after each step of the first step mechanism (1,7) over the first step mechanism (1, 7) the projections (2,3) of the disc (1) locking, loaded by a compression spring (23) and through the projection (9) of the disc (8) of the second step mechanism (8, 13) resettable stop (21) having. 4. igniter according to claim 2 or 3, characterized in that through the disc (8) of the second Step mechanism (8, 13) a pivotable, the ignition charge (27) receiving support member (28) in the Ignition position can be brought