DE1111991B - Mechanical timer for underwater explosive charges - Google Patents

Description

The invention relates to a mechanical time fuse for underwater explosive charges.

In the case of time fuzes, safety devices are already known that only allow the clock to run then allow if the clockwork is set to a minimum expiry time.

In such detonators, axially adjustable temp shafts and blocking devices are also known.

The invention relates to a known mechanical time fuse for underwater explosive charges, from a detonator which can be ignited by an ignition needle under the pressure of a spring consists, the holding of the ignition needle in the safety position by a locking device takes place, the release of which is controlled by a clockwork after tempering the detonator and its latch, which sits in an opening of one of the parts adjacent to the ignition needle, covered in the safety position is by a controlled by the movement of the movement movable part with a recess that is brought by the movement of this part in such a position that when unlocking the bolt in the recess occurs.

The invention improves such a detonator in terms of handling and structural design and the effect of the fact that as part of the locking device which can be adjusted by the clockwork a sleeve which is driven to rotate by the clockwork and has an opening that accommodates the bolt is provided, which is arranged coaxially with a further sleeve provided with an opening, such that that the openings in the safety position offset from one another through the movement of the clockwork be brought into congruence, with one of the two coaxial sleeves with the Tempierwelle from consists of one piece, which is adjustable both in the rotational and in the axial direction and one end of which the control member carries, furthermore the locking rod of the clockwork axially from the Tempierwelle is entrained and a conditionally acting security device against axial displacement of the Tempierwelle is provided, namely of such a design that a release of the axial displacement for angular rotations of the Tempier shaft that are below a minimum value for the expiry time of the clockwork is excluded.

The Tempierwelle can have a cavity into which the firing needle and its loading spring are inserted in such a way that the ignition needle follows the movements made by the Tempierwelle.

The sleeve driven by the clockwork is expediently the outer of the two coaxial sleeves.

Mechanical time fuse
for underwater explosive charges

Applicant:
MEFINA SA, Friborg (Switzerland)

Representative: Dr.-Ing. F. Mayer, patent attorney,
Berlin-Dahlem, Hüttenweg 15

Claimed priority:
Switzerland from January 17, 1959

Robert Simmen and Rene Morel, Geneva (Switzerland),
have been named as inventors

In the case of the detonator with a swing slide that carries a detonator capsule, which is operated during the pre-safety period of the clockwork keeps the detonator detonator away from the path of the ignition needle, the the sleeve driven by the clockwork has a ratchet tooth at its end facing the detonator, which holds the swing slide, which is loaded by a spring, in the safety position.

The blocking rod for the balance of the clockwork is preferably connected to the Tempierwelle via a plate tied together.

There can also be means for automatically releasing the control member from the Tempierwelle after Tempierung and be provided after axially outward displacement of the shaft.

In general, there is a cooperating with the control member and in the axial direction in the Tempierwelle engaging spindle present, one lying in a radial bore of the Tempierwelle The pin engages in a recess in the spindle in such a way that it is in the Tempierstellung this with the Tempierwelle connects, while he is outwardly directed axial displacement of the Tempierwelle in radial Direction exits and so the spindle and the control member releases, whereupon the pin the Tempierwelle in Security position blocked.

The Tempierwelle is preferably firmly connected in the direction of rotation to a Tempierscheibe, which by at least one locking lever under the action of a spring in the safety

109 649/52

is held in position, the blocking lever interacts with the circumference of the temp disk in such a way that that he holds her immovably in the Tempier position.

The drawings represent, in schematic form and as an example, an embodiment of the invention Fuse.

Fig. 1 is an axial section of the igniter;

Fig. 2 is a plan view of the same;

Fig. 3 is a section along line III-III of Fig. 1; Fig. 4 is a section: along line IV-IV of Fig. 1; Fig. 5 is a section on line V-V of Fig. 1;

Fig. 6 is a section along line VI-VI in Fig. 1, which shows an ignition fuse with which the detonator is equipped, this ignition fuse is shown in the safety position;

Fig. 7 is a view similar to the preceding showing the fuse unlocked.

The mechanical time fuse intended for explosive underwater charges consists of a fuse body, which is to be screwed into the shell body 2 of the explosive charge. The detonator body 1 carries a detonator sleeve 3, which is attached to it by means of a screw 4 and with the interposition of a sealing lining 5 is being held. The detonator sleeve 3 surrounds the entire mechanism of the detonator.

In the vicinity of the explosive charge, i. H. at the end of the detonator is the detonator attached to a plate 7 6 arranged. An ignition fuse is arranged between the plate 7 and a second plate 8, those by a movable, rotatable about an axis 10 and subjected to the action of a spring 11 Oscillating slide 9 is formed. The swing slide 9 carries a detonator 12 (Fig. 1,6 and 7), in such a way that they are driven by the detonator 6 and the path of a detonating needle arranged in the detonator axis

13 is kept away as long as the detonator has not been tempered and triggered.

The ignition needle 13 is in a central cavity

14 of a Tempierwelle 15 arranged. The firing needle 13 has a collar 16, and between the bottom of the Cavity 14 and the collar 16, a spring 17 loading the ignition needle is placed around the ignition needle.

The ignition needle 13 is in spite of the load exerted by the spring 17 by a locking device, whose release is controlled by a clockwork 18, held in the safety position. The clockwork 18 is attached to three plates 8, 19, 20. Between the plates 8 and 19 is the spiral drive spring 21 of the clockwork arranged, the outer end of which is attached to the plates 8 and 19, while the inner The end serves to drive a hollow shaft 22. The hollow shaft 22 is extended towards the top so that that it encloses the lower end of the Tempier shaft 15.

The shaft 22 carries a main gear 23 which, through a transmission gear 24 to 27, forms a ratchet wheel 28 drives (Fig. 1 and 5). The movements of the ratchet wheel 28 are controlled by a spiral spring 30 provided balance wheel 29 controlled, the balance wheel carries a pin 31, the movements of the armature with a 33 controlling small fork 32 cooperates. The axis 34 of the balance 29 has a recess 35 for the passage of the end of the fork 32 at each of its through the entry of the pin 31 in the slot 36 of the fork 32 caused oscillating movements.

The locking device of the ignition needle 13 consists of a bolt, which in this case is through a ball 37 is formed, which is inside two coaxial, mutually independent sleeves 38 and 39 is arranged. The inner sleeve 38 is formed by the end of the Tempierwelle 15, while the outer sleeve 39 is formed by the. In the immediate vicinity of the end of the hollow shaft 22, which the Tempierwelle 15 surrounds a certain part of its length. The sleeve 38 has an opening 40 in which the ball 37 is captured. The sleeve 39 has an opening 41 which is opposite in the axial direction the opening 40 is shifted into the fuse position in order to release the ignition needle 13 to prevent the ball from escaping radially through openings 40 and 41.

On the Tempierwelle 15 a plate 42 is attached, which is a blocking spindle 43 of the balance 29 wears. When the detonator is in the secured position, the end 44 of the spindle 43 lies in a hole 45, which has the balance 29. A spring 46 placed around the spindle 43 seeks to push the spindle back, so that its end 44 remains in the hole 45 of the balance 29. In addition, one is looking for between the plate 42 and a plate 48 lying against the igniter body 1 lying spring 47 the To get Tempierwelle 15 in the safety position.

Resilient inserts 49 provide the seal between the igniter body 1 and the Tempierwelle 15 ago. The Tempierwelle 15 carries a control member 50 at its outer end. This is also releasable connected to the outer end of the Tempierwelle 15 that it separates from this shaft as soon as the time of Tripping has been set and after the shaft has been moved outward in the axial direction Has. For this purpose, the control member 50 also has a spindle that engages axially in the Tempierwelle 15 51 on. A pin 52 is inserted into a radial bore 53 of the Tempierwelle 15 that his conical inner end 54 engages in a recess 55 of the spindle 51 to this with the Tempierwelle 15 hold together tightly. After an axial displacement of the shaft 15 outward, which by a on the control knob 50 exerted train after turning it by a certain angle is, the pin 52 has emerged in the radial direction and is thus the spindle 51 and thereby the Controller 50 free. The pin 52 then enters a notch 56, in which it the Tempierwelle 15 in the loading position blocked.

The Tempierwelle 15 is also firmly connected in the direction of rotation to a Tempierscheibe 57, which is shown in FIG a recess 58 of the detonator body 1 is located. The Tempierscheibe 57 has a nose 59, which in a The longitudinal groove 60 of the shaft 15 engages in such a way that the shaft 15 is completely free in the axial direction lets move. The temp disk 57 is secured by a ring 61 inserted in the detonator body 1 Detonator body 1 held. The ring 61 carries the Tempier scale 62 (FIG. 2).

The temp disk 57 is secured by two parts, some of which are located in an annular groove 64 of the igniter body 1 Blocking lever 63 held in the safety position. The inner end 65 of each lever 63 passes through an opening 66 and engages under the load of a spring 67 in one on the circumference of the disc 57 provided fine toothing 68 a. The outer end 69 of each lever 63 passes through an opening 70

1 ill

into the outer part of the igniter body 1 through. The release of the temp disk 57 is therefore carried out by Compression of the ends 69 of the two levers 63, the ends 65 of which are removed from the toothing 68 of the disk 57 releases.

The detonator described also has a safety device that controls the axial displacement the Tempierwelle 15, which has the release of the clockwork 18, only permitted if the named shaft such an angular rotation, by which a minimum expiry time is determined, issued has been. This safety device is formed by the edge 71 of a slot 72 of the plate 48, through which the Tempierwelle 15 passes. A groove 73 is provided around the shaft 15, leaving a hump 74 standing. The hump 74 cooperates with the edge 71 in such a way that that the Tempierwelle 15 is held in a secured axial position. However, one can see without further ado from Fig. 3 that with each angular adjustment of the shaft 15 by about 30 ° to both sides of their Middle position, the shaft can move axially, since the edge 71, the hump 74 only on a relatively holds back a small angle.

Holding the rocker slide 9 carrying the detonator in the safety position against the Pressure of his spring 11 is achieved by a locking tooth 75 of that end of the hollow shaft 22, the is opposite to that in which the Tempierwelle 15 engages (Fig. 1 and 6). The described mechanical time detonator works in the following way:

The devices of the detonator shown in FIGS. 1 to 6 are in the safety position Location, d. i.e., the ball 37 blocks the ignition needle 13, the spindle 43 blocks the balance 29, the locking tooth 75 holds the rocking slide 9 in the position shown in FIG. 6, and the levers 63 hold the temp disk 57 in the position shown in FIG.

To temper the detonator, the ends 69 of the levers 63 are pressed in with the fingers to encircle the tempering disc 57 release. The disk 57 can then be rotated with the aid of the control button 50 move and mark 76 depending on the desired delay time for the ignition set any point of division 62. The division 62 gives the delay duration in minutes, for example which you can choose between 15 and 120 minutes. By having the controller £ 0 set in rotation, the inner sleeve 38 is imparted with respect to the sleeve 39 which is coaxial with it an angular rotation, whereby the openings 40 and 41 are separated from each other by a certain angle corresponding to the delay time indicated on the division 62. If you like the tempation has caused, the igniter operator exerts a pull on the control button 50, whereby the Tempierwelle 15 is pulled outward, which takes the spindle 43 with it, the end 44 of which is out of the hole 45 exits and the balance 29 releases. The clockwork 18 then begins to run. The wave 15 granted Axial movement has the openings 40 and 41 of the two coaxial sleeves 38 and 39 in the same plane brought. At the end of the axial displacement of the shaft 15, the pin 52 is the button 50, which is from the shaft 15 releases, and the pin 52 blocks the shaft 15 in the loading position. Due to the solving of the Control button 50 from the shaft, the detonator is now in the ready position and runs until he detonates the explosive charge.

After a period of time for the clockwork 18 to rotate through approximately 30 ° of the hollow shaft 22 the locking tooth 75 releases the rocking slide 9, and the spring 11 brings the detonator 12 in the path of the ignition needle 13 near the detonator 6. When the full duration has elapsed, the opening 41 of the sleeve 39 and the opening 40 of the coaxial sleeve 38 are opposite one another. the under the pressure of the collar 16 equipped with a conical end face (which is loaded by spring 17 is) standing ball 37 exits in the radial direction through the openings 40 and 41 and is the Firing pin 13 free. The ignition needle 13, which is under the load of its spring 17, ignites the detonator 12 and therefore the detonator 6 and the entire explosive charge.

The mechanical time fuse described can be handled particularly safely, which is the case with the difficult ones Working conditions under which the operators handle the detonators underwater must be very beneficial. The temp disk 57 can rotate in one direction or the other be moved. This allows tempting on z. B. 120 minutes very quickly, just as quickly such as one on 15 minutes.

The control button 50 does not need to be detachable from the shaft 15. Besides, he needs Igniter not to be equipped with the ignition safety device 9 to 12. The coaxial sleeves 38 and 39, instead of being part of the Tempier shaft 15 or the drive shaft 22 of the clockwork to form part of the organs driven by the two shafts 15 and 22.

Another advantage of the igniter described is that the working conditions of the drive spring 21 of the clockwork 18 are influenced by the frictional forces, the z. B. between the Tempierwelle 15 and the sealing inserts 49 can exist independently are, since the spring 21 is the shaft 15, which is only used for tempering and starting the clockwork 18 serves, not drives.

Claims (8)

PATENT CLAIMS: 1. Mechanical time detonator for underwater explosive charges, consisting of a detonator which can be ignited by a detonating needle under the pressure of a spring, the detonation needle being held in the safety position by a locking device, the release of which is controlled by a clockwork after the detonator has been tempered and its bolt, the seated in an opening of a part adjacent to the firing needle, is covered in the safety position by a movable part controlled by the flow of the clockwork with a recess which is brought into such a position by the movement of this part that the bolt enters the recess when unlocking , characterized in that the part of the locking device which can be adjusted by the clockwork (18) is a sleeve (39) which is driven to rotate by the clockwork (18) and has an opening (41) which receives the bolt (37) and which is coaxial with another a sleeve (38) provided with an opening (40) is arranged in such a way that the openings (40, 41) are brought into cover by the sequence of the clockwork (18), one (38) of the two coaxial sleeves (38, 39) with the Tempierwelle (15) in one piece, which both is adjustable in both the rotational and axial directions and one end of which carries the control element (50), wherein the blocking rod (43) of the clockwork (18) can also be axially carried along by the Tempier shaft (15) and a conditionally acting safety device (71, 74) against axial displacement the Tempierwelle (15) is provided, namely of such a design that a Release of the axial displacement for such angular rotations of the Tempierwelle (15), which under a minimum value for the expiry time of the clockwork (18) are excluded. 2. igniter according to claim 1, characterized in that the Tempierwelle (15) has a cavity (14), in which the ignition needle (13) and its loading spring (17) are inserted so that the ignition needle (13) follows the movements imparted to the Tempierwelle (15). 3. igniter according to claims 1 and 2, characterized in that the clockwork (18) driven sleeve (39) is the outer of the two coaxial sleeves (38, 39). 4. Igniter according to claims 1 to 3 with a swing slide carrying an detonator capsule, which during the precautionary period of the clockwork the detonator from the path of the Keeps ignition needle removed, characterized in that the sleeve driven by the clockwork (18) (39) at its end (22) lying towards the detonator (6) has a ratchet tooth (75) which the holds the swing slide (9) loaded by a spring (11) in the safety position. 5. igniter according to claims 1 to 4, characterized in that the blocking rod (43) for the balance (29) of the movement (18) with the Tempier shaft (15) via a plate (42) connected is. 6. igniter according to claim 1, characterized by means (51 to 55) for automatic release of the control member (50) from the Tempierwelle (15) after the Tempierung and after axially outward displacement the shaft (15). 7. igniter according to claims 1 and 6, characterized by one with the control member (50) interacting spindle (51) which engages in the axial direction in the Tempier shaft (15), wherein a pin (52) lying in a radial bore (53) of the Tempierwelle (15) in a recess (55) of the spindle (51) engages in such a way that it is in the Tempierstellung this with the Tempierwelle (15) connects while he is axially displacing the Tempierwelle outward (15) emerges in the radial direction and thus releases the spindle (51) and the control element (50), whereupon the pin (52) blocks the Tempierwelle (15) in the safety position. 8. igniter according to claim 1, characterized in that the Tempierwelle (15) in the direction of rotation is firmly connected to a Tempierscheibe (57), which by at least one under the Effect of a spring (67) standing blocking lever (63) is held in the safety position, wherein the blocking lever (63) cooperates with the circumference (68) of the temp disk (57) in such a way that that he holds her immovably in the Tempier position. Considered publications:
German Patent No. 671254;
U.S. Patent Nos. 2149,470, 2,514,499. For this purpose 2 sheets of drawings © 109 649/52 7.61