RU2125706C1 - Base fuze - Google Patents

Abstract

FIELD: fuzes. SUBSTANCE: invention refers to base fuzes used in various types of ammunition such as grenades of grenade thrower rounds, rifle grenades, ammunition of directed action including shaped charges, ammunition of nonlethal action for which it is inadmissible to propel hitting elements presenting fragments of head fuze forward in direction of flight of ammunition. Base fuze has case housing firing gear in the form of tip with countersafety spring and spherical inertial body installed in cavity made in bottom part of case that includes conical bottom section and cylindrical section, safety system and firing circuit. Spherical inertial body is mounted for rolling. Parameters of conical section of specified cavity are so chosen that movement of tip under action of spherical inertial body when the latter moves along bottom conical section is less than working stroke of tip that is distance between sharp end of tip and initial element of firing circuit. Apart from them fuze can be fitted with mechanism of remote cocking and/or remote-control device and/or self-destruction mechanism and ignition mechanism to set them in action. EFFECT: fuze demonstrates high speed of action in contact with target and ensures remote operation. 1 cl, 4 dwg

Description

 The invention relates to fuses, and in particular to ground fuses used in various types of ammunition: grenade launcher rounds, rifle (barreled) grenades, directional ammunition (including cumulative), non-lethal ammunition (for which throwing of striking elements representing fragments of a head fuse, forward in the direction of flight of the ammunition), etc., including those that can be thrown according to the active or active-reactive scheme, both from a rifled and smooth barrel weapons.

 A grenade of a grenade launcher is understood to mean a structurally integrated set of elements of a grenade launcher that is tossed when firing from a grenade launcher, which includes a body with equipment and a fuse. Under the rifle (barreled) grenade refers to ammunition, throwing with the help of powder gases, forming when fired from small arms.

 Known bottom fuse, including a percussion mechanism in the form of a sting with a counter-safety spring, a fire chain, a safety system (UK application N 1429117, F 42 C 15/18, 1976). This fuse has a complex structure and can only be used for rotating shells.

 Known bottom fuse, containing a housing in which the shock mechanism is placed in the form of a sting by a counter fuse and a spherical inertial body mounted in a cavity made in the bottom of the body and having a bottom conical section and a cylindrical section, a protection system, a retardation system and a fire chain, characterized in that the spherical inertial body is installed with the possibility of rolling (patent GB N 1190205, F 42 C 1/06, 1970). This fuse is designed for non-rotating ammunition, since a spherical inertial body resting on a conical surface can move along it under the influence of inertia arising from the nutation of the rotating munition, as a result of which the sting can prick the initial element of the firing chain, which will cause the fuse to fire abnormally trajectories. In addition, this fuse has a slow action, which limits its use in cases where instant ammunition is required upon contact with the target, for example: in cumulative ammunition, in fragmentation ammunition when the projectile does not ricochet (if it enters soft ground, snow etc.).

 The problem to which this invention is directed, is to create a small-sized, bottom fuse, for both rotating and non-rotating ammunition, which has high sensitivity to contact action and high speed, including during oblique impact. In addition, the fuse should provide the ability to remotely (trajectory) the operation of ammunition.

 This is achieved by the fact that in the bottom fuse containing the housing, in which the shock mechanism is located in the form of a sting with a counter-safety spring and a spherical inertial body installed in a cavity made in the bottom of the body and having a bottom conical section and a cylindrical section, the protection system and fire chain, characterized in that the spherical inertial body is mounted with the possibility of rolling, the parameters of the conical section of the specified cavity are selected such that the movement of the sting under the action of sph when the latter moves along the bottom conical section, it is less than the working stroke of the sting, i.e. the distance between the tip of the sting and the initial element of the fire chain.

 In addition, the bottom fuse can be equipped with a long-range cocking mechanism and / or a remote device and / or a self-destruction mechanism and an ignition mechanism for actuating them.

 Figure 1 shows a longitudinal section of a bottom fuse; in FIG. 2 is a section AA in FIG. 1; in FIG. 3 is a section BB in FIG. 2, which shows an insert with a safety system and elements of the fire circuit of a remote device; in FIG. 4 - section GG in FIG. 2, which shows an insert with an ignition mechanism and elements of the fire circuit of a remote device.

 The bottom fuse contains a housing 1, in which a liner 2 is installed, which is the supporting element for most systems and mechanisms of the fuse. In the bottom part 3 of the housing 1, a cavity 4 is formed with a bottom conical section 5.

 The fuse mechanism of the fuse consists of a tip 6 with a counter-safety spring 7 installed in the stepped axial channel 8 of the insert 2, and a spherical inertial body 9 placed in the cavity 4 of the fuse housing 1 with the possibility of rolling provided by a guaranteed gap between the spherical inertial body 9 and the walls of the cavity 4 The parameters of the bottom conical section 5 (the diameter of the base and the angle of the solution) are selected so that the movement of the tip 6 under the action of a spherical inertial body 9 when the latter moves onicheskomu portion 5 was less than the stroke sting 6.

 The fuse chain consists of a damper 11 located in the diametral groove 10 on the upper end of the insert 2, in which the detonator capsule 12, a spring 13, designed to bias the damper 11 into position, and a detonator 14 located in the lid 15 installed in the housing are placed 1 to a threaded connection, and having an explosive charge 16, closed by a cup 17.

 The safety system (Fig. 3), which serves to fix the shutter 11 in a safe position during transportation and in official handling of the ammunition, consists of a stopper 19 placed in the channel 18 of the stopper 19, made with a hole 20 at the upper end, a neck 21 and a spring loaded 22 , a ball 23 mounted in an inclined groove 24 at the end of the liner 2 and holding the shutter 11 in a safe position by abutting on one side of the stopper 19, and on the other hand, in the recess 25 on the side surface of the shutter 11. The safety mechanism also includes a latch 26, koto for example, in the form of a two-stage cylindrical element or in the form of a ball, and the spring 27 of the retainer 26. In the insert 2 there is a decompression hole 28 connecting the cavity of the channel 18 with the discharge cavity 29 (see Fig. 1), formed by a recess 30 on the inner surface of the fuse housing 1 and the recess 31 on the outer side surface of the liner 2.

 The long cocking mechanism (Fig. 1) is installed if it is necessary to exclude the possibility of displacement of the shutter 11 from its official position to the combat position at the initial section of the trajectory. It consists of a housing 32, in which a pyrotechnic composition 33 is pressed in, for example, of the PK-5 brand, a stopper 34, a spring 35 and a sleeve 36. The stopper 34 holds the shutter 11 from moving to the combat position. The housing 32 has an outlet 37 communicating with the decompression port 38, which in turn communicates with the discharge cavity 29.

 The remote device (FIGS. 3 and 4) comprises a press-on device 40 located in the channel 39 of the insert 2, consisting of an igniter composition 41, which serves to perceive a fire pulse, an amplifier composition 42, necessary to initiate a delay composition 43, which sets the time for remote action, and an igniter composition 44, at the free end of which a cumulative recess 47 is formed to form a force of flame, initiating an amplifier 45 located in the cavity 59 through the hole 58, which also has a cumulative ISU 48 for reliable initiation placed in the cavity of the detonator capsule 46, designed to excite charge detonation in detonator 16, the firing circuit.

 The fuse may also contain a self-destruction mechanism (not shown), placed in an additional channel, made in the liner 2 and connected by a hole to the cavity 59. The design and operation of the self-destruction mechanism are similar to the remote action unit. The difference lies in the fact that the dimensions of the press-on retarder 43 are selected from the condition of ensuring a self-destruction time exceeding the flight time of the ammunition. The self-destruction mechanism initiates the charge 16 of the fuse's fire chain, if for some reason the fuse did not work upon contact with the target or due to the abnormal functioning of the fire chain.

 The ignition mechanism (figure 4) provides the initiation of pyrotechnic compositions of the long-range cocking mechanism, the remote device and the self-destruction mechanism. The specified mechanism includes a hammer 49, preloaded by a spring 50 and placed in the channel 51, made in the liner 2, and an igniter capsule 52, installed at the bottom of the channel 51. Channel 51 communicates with a decompression hole 53 with a discharge cavity 29. An opening 54 is made at the bottom of the channel 51 for transmitting the force of the flame of the igniter capsule 52 through the channel 55, made on the outer side surface of the liner 2, and the hole 56, communicating with the outlet 37 of the housing 32 of the long-range cocking, to the pyrotechnic composition 33 of the latter. Through the same channel 55 and the hole 57, made in the liner 2, and communicating with the channel 39, the same force ensures that the press-in device 40 of the remote device located in the channel 39 is activated. The self-destruction mechanism is activated in a similar way, while the length of the channel 55 increases , which is connected by a gas transmission hole to an additional channel in which the self-liquidation mechanism is located.

 The design described above is implemented in practice and has the following overall dimensions: diameter 27 mm, length 50 mm, which makes it possible to use this fuse in ammunition of a caliber of 30 mm or more.

In official use, the fuse is safe, which is achieved by the following:
- the detonator capsule 12 installed in the shutter 11 (Fig. 1) is offset from the tip 6 and the detonator 14 of the fire chain, which excludes the possibility of initiating the latter;
- the drummer 49 of the igniter mechanism (Fig. 4) is kept from moving to the igniter capsule 52 by the force of the spring 50.

When fired under axial overload:
- the stopper 19 of the safety system (Fig. 3), overcoming the resistance of the spring 22, goes down, where it is held by a latch 26, which moves against the stop in the neck 21 of the stopper 19 due to the force of the spring 27. The air located in the part of the channel 18 under the stopper 19 is forced out into the discharge cavity 29 through the opening 28 (see Fig. 3). The channel 18, through which the stopper 19 moves, can be connected by a hole 28 not with a cavity 29, but with a cavity 4, in order to prevent the combustion products from entering the pyrotechnic press-fit of the fuse into it. In this case, the ball 23, rolling along the inclined surface of the groove 24 of the insert 2, enters the hole 20 of the stopper 19. After that, the shutter 11 is kept from shifting to the combat position only by the stopper 34 of the long-range cocking mechanism;
- the igniter mechanism 49 (FIG. 4), overcoming the resistance of the spring 50, injects the igniter capsule 52. The air in channel 48 under the hammer 49 is forced into the discharge cavity 29 through the opening 53. The flame force of the igniter 52 through the opening 54 enters the channel 55 and initiates the pressing of the compositions in the long-range cocking mechanism through the holes 56 and the remote device through the hole 57.

On the trajectory cocking fuse:
- the latch 26 (Fig. 3) holds the stopper 19 in the lower position, which excludes the possibility of further fixing the shutter 11 in the service position by means of the ball 23;
- combustion products of the composition 33 of the long-range cocking mechanism (Fig. 1) through the hole 38 go into the unloading cavity 29, after the burn-out of the composition 33, the stopper 34 is disengaged by the spring 35 by the action of the spring 35, which is displaced by the force of the spring 13 into the fighting position.

 Thus, the fuse is cocked.

 The movement of the spherical inertial body 9 with the sting 6 to the detonator capsule 12 under the influence of the forces of accumulation is limited by the force of the counter-safety spring 7.

 The contact action is carried out when encountering the obstacle as follows: a spherical inertial body 9, rolling in the cavity 4 under the influence of inertia forces arising from the interaction of the munition with the obstacle, pushes the sting forward 6, providing an incendiary detonator capsule 12, the actuation of which causes the initiation of a 16 fire charge fuse chain, which leads to the operation of the warhead of the ammunition in which the fuse is installed.

 The rolling of a spherical inertial body reduces the friction force that impedes its movement, compared with the use of inertial bodies sliding along the guides, which increases the fuse's sensitivity to contact action.

 In an oblique impact, when the resulting inertial force acting on the spherical inertial body is directed to the fuse axis at an angle greater than one quarter of the cone’s opening angle, the projection of this force on the direction of the possible movement of the inertial body resting on the conical surface is greater than that case when the inertial body rests on a cylindrical surface. Therefore, when interacting with an obstacle in the process of increasing inertia forces, an inertial body resting on a conical surface will overcome the threshold value of the resting friction force and begin to move, pushing the sting to the initial element of the fuse's fire chain, before the body resting on a cylindrical surface. This ensures high speed fuse. It should be noted that after overcoming the threshold value of the rest friction force, rolling the inertial body along the conical surface does not give a gain in the speed of the fuse compared to rolling along the cylindrical guide, since the direction of its movement does not coincide with the direction of movement of the tip.

 Fuses in which an inertial body rests on a conical surface is not recommended for use in rotating ammunition, since the inertia forces resulting from nutation can move the inertial body along the conical surface, and if, as a result of this movement, the initial element of the fire chain is pierced, abnormal fuses may occur. The transition of the rolling of a spherical inertial body from a conical to a cylindrical surface, provided that the parameters of the conical surface are selected such as in the claimed invention, eliminates the possibility of fuse triggering under the influence of nutation forces, thus allowing it to be used in rotating ammunition.

 If there is no encounter with an obstacle, the fuse is determined by the burning time of the press-fit 40 of the remote device or a similar press-on of the self-destruction unit. Upon completion of the burning of the press-fit 40 (Fig. 4), the composition 44, in which the cumulative recess 47 is formed, forms a force of flame, initiating an amplifier 45 through the aperture 58 (Fig. 3). The amplifier 45 due to the cumulative recess 48 reliably initiates the detonator capsule 46, the operation of which leads to the initiation of a charge 16 of the fuse circuit.

Claims (2)

 1. A bottom fuse, comprising a housing in which a percussion mechanism is arranged in the form of a stinger with a counter fuse and a spherical inertial body mounted in a cavity made in the bottom of the body and having a bottom conical section and a cylindrical section, a safety system and a fire chain, characterized in that the spherical inertial body is installed with the possibility of rolling, while the parameters of the conical section of the specified cavity are chosen such that the sting is moved under the action of the spherical inertial when moving the latter along the bottom conical section, the working stroke of the sting is less.  2. The bottom fuse according to claim 1, characterized in that it is equipped with a long-range cocking mechanism and / or a remote device, and / or a mechanism and an igniter mechanism for bringing them into action.

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