PL31309B1 - flkciova spolecnost dfive Skodovy zavody v Plzni, Prague and Bohdan Pantoflicek, Plzeň-Lochotin Fuse fuse - Google Patents

Description

A number of fuses with fuses are known, in which the deprotection takes place under the action of inertia forces generated during the flight of the projectile due to its braking after it exits the barrel, the appropriate mass of which, for example, a valve, a fuse holder or a protective sleeve Although such a device is intentional, it has a fundamental drawback, consisting in the fact that the forces delaying the flight of a projectile in particularly heavy missiles with good ballistic and fired properties with a low initial speed, they are often so slight that even the slightest resistance, friction or abutment of one part of the fuse on the other is enough to overcome the resulting slight inertia forces, as a result of which the fuse is not activated at all and led out of its the securing position, which causes the missile to explode. This fundamental disadvantage of known fuses is not Provides a fuse according to the present invention, the safety or igniting devices of which, e.g. a short impulse, which initiates their movement, makes these tools move then until the fuse is unlocked. Several examples are shown in the drawings. The execution of a burner fuse according to the invention. In the example of the embodiment according to Fig. 1, the fuse consists of balls 1 and 2, which In order to deprotect the rtapainics they must move out of channel 3. This occurs under the action of negative acceleration acting on the projectile and causing the balls / and 2 to move forward against the bullet or sleeve 4. In order to initiate the movement of these balls According to the invention, they receive, according to the invention, a delay impulse by means of a spring 5, which, at the moment of shooting, is compressed by a size of 7 under the pressure of a ball 11 2 and the inertia 6. A similar device is shown in Fig. 2, in which the spring 5 and the inertia 6 are replaced by a resilient plate 8, curved by the amount 7 under the pressure of the invertor 9 during the positive acceleration of the plow. This is to initiate the motion of the igniter, which will continue to move forward as a result of the negative acceleration action on the projectile. The thrust lasts for a period of time while the fuse is still secured. , the inertia 9 and the balls 1 and 2 can be secured in any way during transport, this protection being destroyed, for example, only when shooting. According to Fig. 3, the initial impulse in space 7 receives the entire sleeve 4, covered from the bottom of the screw 6, on which the piston 11A rests against the wire 15, this piston at the end of its movement taking position 13, shown by dashed lines, and thus enables the flame to be transferred through channels 5 and 14 in the direction of arrow 15 to The stimulating coupler is applied indirectly to the safety devices 1 and 2, for example only due to the friction of the sleeve 4 against these devices, in the embodiment according to FIG. 4. In the case of a shot, the sleeve 4 is moved by a size 7, tensioning the spring 5, which, after unlocking it, moves the sleeves 4 by the same distance 7. This sleeve takes away the balls 1 and 2 by friction and thus gives them a predetermined initial speed. IN! In the example of the embodiment according to FIG. 5, the inertor 9 from the igniting flux receives an initial impulse from the sleeve 4 against the bottom of which rests, and when the arrow of the sleeve 17 is moved to its lowest position, the ball 19 falls out, and then, after a positive projectile acceleration is established, the sleeve 17 moves unhindered to the upper position up to the flange 21 by the action of the spring 22, which causes the safety of the ball or the balls 23 and therefore of the inertial element 9. Figs. 6 and 7 show examples of embodiments in which the release of the fuse is 6, the sleeve 25 is held in a locking position by means of a locking device 26 pressed against a ring 27, which is under the pressure of a spring 28. This ring is held in place by a sudden shock when shooting. on the conical surface 29 of this sleeve 25, as a result of which it releases the tools 26 and with them also the sleeves 25. At the same time, the spring 5 is compressed, which and initiates the forward movement of the sleeve 25. In the embodiment according to FIG. 7, the sleeve 25 receives an initial pulse due to the impact of the ring 27, which is unlocked in the lower end position, and unlocks both the tool 26 and the sleeves 25. by the action of the axial start pulse in this way, the sleeve 25 moves further until after a predetermined securing period of time it releases the organs 26 and thus the needles 33 (Fig. 6). The described examples do not exhaust all possible fuses according to the present invention. It follows from the above that the starting pulse is achieved in such a way that at the time of the shot and during the duration of the positive acceleration of the projectile, the spring is tensioned, which, after the cessation of the positive acceleration of the projectile, makes a very short movement to initiate movement of the appropriate mass, either directly or indirectly. This action may otherwise be achieved when any small mass is released when the bullet exits the barrel, which strikes the safety device directly or indirectly and causes it to move in a straight line. It is clear that the safety or incendiary devices do not need to perform only rectilinear movements, but can move in any way, e.g. go crazy. The initiation of this movement is due to the action of a suddenly released force, for example a spring, which acts only on a very short path, the further movement of the masses being maintained by the inertia force until the fuse is completely deprotected. PL

Claims (5)

Patent claims. 1. The fuse of the fuse, provided with a safety or actuating device or devices, moving from the lower safety position to the upper safety position under the action of the force generated by braking (pressure during a flight, characterized by the fact that it has a device that transmits a very short pulse of relatively slow speed prior to the commencement of the release stroke. 2. The fuse of the fuse according to claim 3. A device according to claim 1, characterized in that the organs f1, 2), such as balls or an acid tube made of a fluff, are embedded in a sleeve and rest on an elastic tool, for example a spring-loaded inertia, which is without The indexer retracts at the moment of the shot, as a result of which the tools (1, 2), after leaving the muzzle of the barrel, receive an initial impulse to move forward 3. Fuse according to claim 1, characterized in that the spheres or the index of the incendiary flap rest against a resilient plate on which is seated a sleeve containing the index or spheres. 4. Fuse according to claim 1, characterized in that the sleeve containing the balls surrounds them with friction and is mounted on the spring, so that the sleeve at the moment of the shot settles slightly, compressing the spring, with the balls resting against the stationary part of the fuse. 5. Fuse according to claim 1, characterized in that the sleeve, containing the balls or the inertia, has a screwed bottom and rests against the spring plate, which activates it together with its inertia after the positive acceleration of the stroke ceases. 6. Fuse according to claim A method as claimed in any one of claims 1 to 5, characterized in that a spring-loaded sleeve is mounted on a spring on the appropriate securing sleeve, which as a result of its return movement imparts a certain initial speed to the correct securing sleeve. A k c i o v a spolecnost dfive S k io1 d o v y z a v o d y v P 1 z n i Bohdan Pantoflicek Deputy: engineer F. Winnicki patent attorney 40248r / c i To the patent description No. 31309 Ark. 1 Fi'cj. 2. To the patent description No. 31309 Ark. 2 Ficj. 5. F / g.ff. PL