DE238719C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 238719-CLASS 72 i. GROUP

ISIDOR THEODOR from RISCH in VIENNA.

Mechanical projectile fuse. Patented in the German Empire on August 29, 1909 .

The mechanical projectile fuse according to the invention is based on the counting of the projectile revolutions around an axis arranged on the detonator, the rotation of the bullet does not participate. The invention lies in the special training of the setting the detonator and the parts used to trigger the firing pin.

In the drawing, Fig. Ι is a vertical one

ίο cut through the detonator, the parts in the Position before the shot; Figures 2 to 6 show details.

'The lower part ι (Fig. I) carries on his Pipe socket 2 the middle part consisting of a partition 3 with a pipe socket 4, which is covered by the plate 5. These parts are fixed together by the pins or screws 6, 7 (Figs. 2 and 3) tied together.

The adjusting ring 8 is pressed against the lower part by the partition 3. that it can only be turned by means of a key. In the same way, the Adjusting ring 9 through the screwed onto the plate 5 cap 10 against the edge of the Separating disk 3 pressed. ©

The axis 15 running in ball bearings 13, 14 is prevented by a weight 11 and a wind vane 15 ^a from participating in the rotation of the projectile. The axle 15 also carries a drive 19 which is connected to the ring gear 23 through the wheels 20, 21, 22. The ring gear 23 is mounted on a shoulder 24 (Fig. Ι and 6) of a sleeve 25 so as to be easily rotatable. A one-armed lever 26 (FIGS. 2 and 6), which can be rotated about the pin 27, is pressed against a pin 29 by the spring 28. The pin 27 is milled off halfway at its upper end and protrudes with this piece into a bore 24 ^{a of} the projection 24; this hole is covered by the inner edge of the ring gear 23 almost up to half.

The pin 29 (FIG. 1), which is guided through the lower part 1, the separating disk 3 and through holes in the counting disks 30, 31, holds the one-armed lever 26 (FIG. 6) firmly; characterized the pin 27 is prevented, with the milled sharp end 27 ^a under the action of the spring 28 against the inner edge of the ring gear 23 to fast wherein would be made with the drive by a wedge-like effect of a compound of the counting. These parts are arranged to be rotatable about the connecting piece 4.

The counting disk 30 has a pin 32 (Fig. I, 2 and 6), which engages in the notches of a wheel 33 with the star-shaped Disc 34 and is firmly connected to the drive 35 by an axle. The Drive 35 engages in the ring gear 36 of the second counting disk 31, while the star-shaped Disc 34 slides on the lower ring 37 of the counting disc 30, which prevents that a rotation of the lower counting disk 31 takes place. Only when the arranged on the ring 37 semicircular recess when the ring is rotated until it reaches the disk 34, the disk 34 can rotate. The rotation takes place through the pin 32, which engages in the notch of the wheel 33. the Counting disk 31 carries in a radial bore

an eccentric shaft 38 easily rotatable, which at the inner end with an eccentric 39 and is provided with a pawl 40 at the outer end. The lower end of this latch slides on the flange 41 of the adjusting ring 8 until the upper end of the pawl 40 the stop 42 of the adjusting ring 8 strikes. This rotates the eccentric shaft 38, so that the pawl now enters the recess 43 (Figs. 1 and 3).

The pipe sockets 2, 4 are provided with slots (FIGS. 2 and 3) in which the spokes of the wheels 44, 45 lie. These wheels are firmly connected to the axle 46, the upper end of which forms a pin mounted in the plate 5, and are displaceable in the axial direction of the detonator. They have a recess on the circumference, in which the eccentrics 39, 39 ^a engage. A bolt 47 is screwed into the axle 46 at the lower end, on which the sleeve 48 (FIGS. 1 and 4) can be displaced. The sleeve 48 comprises the balls 49 which engage in the recess 50 of the firing pin 51, which by the pull of the spring 52 snaps onto the capsule 53 at the moment of triggering and ignites it. - The upper counting disc 30 carries the same device as the counting disc 31, namely the eccentric shaft 38 ^a , the eccentric 39 ^a and pawl 40 ".

Only after the pawl 40 of the counting disk 31 is rotated, the pawl 40 ^{a is brought} into that position (FIG. 4 b) that it is held in position against the stop 54, which is a pivotable angle lever about a pin, and is held in its position by a spring is, abuts and thereby rotates the eccentric shaft 38 "and the eccentric 39". The lower end of the pawl 40 ^s then slides with its lower surface on the flange 55 (Fig. 4 b).

The capsule 53 sits in the racket, which consists of two parts 56, 57, which are in front of the shot held in the position according to FIG. 1 by the bent copper tabs 58 of the tube 59 are. In the interior of part 57, a flange 60 supports the firing pin. The part 56 of the racket sits on the bottom of the screwed-in flange tube 61.

If the detonator is only to act in the impact, the adjusting ring is adjusted with the help of the adjusting key 8 rotated back to a position indicated on the adjusting ring. This will make the Pin 62 (Fig. Ι and 3), on which the projection 63 is arranged, in the attached to the adjusting ring 8 Turning 64, the end 65 of which runs in the direction of a chord, against a Insertion on the reinforced lower part of the pin 29 pushed, creating a coupling between counting and drive is prevented.

The gear train is calculated in such a way that at 100 revolutions of the projectile around the Axis 15 one revolution of the ring gear 23, therefore also the counting disk 30, takes place, whereby the wheel 36 together with the pawl 40 is moved a certain distance.

The detonator now acts in the following way: the adjusting rings 8, 9 and thus the stops 42, 54 located on them are adjusted according to the point in time at which the detonator is to be brought into effect. With the start of the projectile movement, the pin 29 is first rushed in a known manner due to the inertia in the position shown in dotted lines in FIG. As a result, the one-armed lever 26 is rotated around the pin 27 by means of the spring 28 acting on it, whereby its sharp edge 27 ^a wedges into the inner edge of the wheel rim 23. Now the coupling of the counter with the drive is established. When the projectile begins its movement, the barrel and counter starts to work, since the axis 15 does not participate in this rotation when the projectile starts to rotate at the same time as the forward movement and the drive is therefore rotated around the drive 19. The counting disk 30 with its toothed ring and therefore also the pawl 40 ″ make as many complete revolutions as hundreds are set on the lower adjusting ring. Upon completion of each of these revolutions, the pin 32 rotates the small wheel 33 as well as the star-shaped disk 34 by one Notch, as a result of which the pawl 40 is also moved further by one division by means of the drives 35, 36. If the pawl 40 now reaches the stop 42 of the adjusting ring 8 (FIG The eccentric 39, which engages in the recess on the circumference of the wheel 44, thereby lifts the wheels 44, 45 a little from the position according to FIG ^{the eccentric 39 a} engaging in the wheel 45 moves the pawl 40 ^a from the position according to FIG. 4 a to that of FIG. 4 b the adjusting ring 9 along (Fig. 4 b) and by means of the eccentric 39 ^a pulls the wheels connected by the axle 46: 44, 45 after the tip of the detonator, whereby the sleeve 48 is raised so that the balls 49, the pressure of the firing pin located under the influence of the spring 52 51, move into the position according to FIG. 4 c and release the firing pin, which then ignites the capsule 53. The jet of fire is now directed through a pipe to the explosive charge of the projectile, which causes the explosion. From Fig. 5, the position of the pawl 40 ^a can be seen when the

Adjusting ring set to 99, 199 etc. and the counter has run down so far that it reaches the in Fig. 4 b assumes the position shown.

Claims (5)

Patent Claims: 1. Mechanical projectile fuse with drive by an axis not participating in the projectile rotation, characterized in that the triggering of the firing pin (51) is effected by means of adjusting rings (8, 9) sliding pawls (40, 4ο ³ ), which after the expiry of the set Ignition time, by means of wheels (44, 45) seated on a longitudinally displaceable axle (46), raise a sleeve (48) which in this case releases the firing pin. 2. igniter according to claim 1, characterized in that for setting the Ignition time two independently adjustable adjusting rings (8, 9) are provided, which carry the devices that determine the time of triggering, however both from the counting and drive as well as from the triggering itself Organs are independent. 3. The igniter according to claim 2, characterized in that the adjusting rings (8, 9) bear stops (42, 54) and flanges provided with recesses (41, 55) on which pawls (40, 40 ") can slide Eccentric shafts (38,38 ^a ) sit, at the other ends of which eccentrics engaging in grooves of the wheels (44, 45) mediating the triggering of the firing pin are provided so that when the pawls strike the stops (42, 54) the eccentric shafts are rotated and the wheels ^ 44, 45) together with the sleeve (48) causing the release of the firing pin are raised. 4. Detonator according to claim 1, characterized in that a lever (26) is provided on a disc (30) of the counter serving to trigger the firing pin, which is rotated by a spring (28) when it is released by the shot a sharp edge (27 ^a ) hits the rim of a gear wheel driven by the shaft (15) that does not participate in the rotation of the projectile, thereby coupling the drive to the counter. 5. igniter according to claim 1, characterized in that the two rotatable Counting disks (30, 31) through an intermediate gear (32, 33, 34, 35) with one another in this way are connected that after each revolution of one counting disc (30) the other (31) is rotated gradually around a certain piece. 1 sheet of drawings,