DE2644230A1 - HAND GRENADE WITH END DELAY - Google Patents

Description

26 672

Ing.Francesco Moneta, Milan (Italy)

Hand grenade with delayed ignition

The invention relates to a hand grenade with delayed ignition.

Hand grenades with an ignition system that has a delay time - generally on the order of four seconds between the moment a firing pin device on a detonator strikes, and the moment of detonation of a small charge, which in turn ignites the Explosive charge causes are known. The known hand grenades can, however, without a fundamental change not be used both as a hand grenade for training purposes and for military service. In addition, is the reusability in the former case is not given.

It is therefore the object of the invention to construct a hand grenade that without any fundamental change to the Grenade case and can be rebuilt on the firing pin device, with the use as a training device The effects of the explosion remain limited, so that most of the hand grenade can be reused.

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According to the invention this object is achieved in that The hand grenade has a sleeve made of an easily destructible shell, in which the ignition system, explosive charge and the destructive mass are arranged interchangeably.

The advantages that can be achieved with the invention are, in particular, that the hand grenade can be used without any fundamental modification can be used for both training and war purposes. It can therefore look the same with a grenade, Weight and the same throwing characteristics are practiced, which can also be used in war. Since also Most of the training grenade can be reused by using the training grenade resulting costs are reduced. In addition, the production costs themselves can be reduced because the sleeve is made of thermoplastic Resin material can be manufactured by means of compression molding by injection. Another advantage is the high storage, Transport and treatment safety, as an ignition system is provided, which consists of a uniform, originally a separate structure from the hand grenade.

For war purposes, the destructive mass advantageously consists of metal particles between the explosive charge and the Garnet wall are arranged and given the necessary energy to their destructive and lethal effects within a certain Distance from the center of the explosion. The individual particles have certain masses and certain geometric properties and dimensions to ensure that they are due to the fast Reduce their speed in the air a certain safe distance - not to reach the 2On-, which is significantly smaller than that from which a thrower of usual dexterity and muscle strength is able to throw the hand grenade. Here is the

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Measure the delay time longer than the time segment which the grenade itself needs to reach the stated safety distance.

Preferably, the metal particles consist of steel particles of the same size and weighing in the order of magnitude 0.08 to 0.13 g, preferably about 0.1 g, with a sharp-edged prism-like shape, preferably a cuboid (e.g. a cube). It is thus achieved that as a result of the explosion of the explosive charge, the particles with a Speed thrown through the air that in the requested effectiveness distance their size of movement maintains the necessary value that gives them the necessary penetration - in general, it will measured by the ability to make a wooden panel of 50 mm Thickness to pierce - while their drag is so great that their speed is within the said Safety distance practically drops to zero.

For training purposes, on the other hand, the grenade advantageously has a robust steel tube inserted along the axis of the grenade which includes a cavity in which a pyrotechnic charge and the ignition system are arranged, so that the effects of the explosion remain limited and the integrity, the recovery and the repeated Use of the other grenade components are guaranteed.

Further features and advantages of the invention are described below with reference to the accompanying drawings.

1 and 2 show in the respective planes of symmetry, partly in side view and partly in cross-section, the hand grenade for war use and its adaptation for training use.

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Pig. 3 shows the entirety of the main components of the hand grenade for war operations in a separate manner and the position shifted in the axial direction and its cross-section along said plane of symmetry.

Fig. 3A shows the component of the mechanical safety system and the firing pin device.

3B shows the side view of the ignition system, which is initially separated from the grenade and is then to be inserted into the mounted grenade for activation for use; FIGS. 3, 3A and 3B together show all components of the grenade for use in war.

Fig. 4 shows the component of Fig. 3 in the course of a characteristic phase of the assembly process.

As can be seen from the joint consideration of FIGS. I ₃ 3 _S 3A and 3B, the grenade has a structure which is based on the coaxial juxtaposition of two cup-shaped hollow bodies 10 and 12, the hollow bodies being provided with edges 14 and 14 which can be plugged into one another and anchored are, which combine the hollow body 10 and 12 to form an oval sleeve, the surface of which is processed so that it ensures the hand of the thrower a good and safe grip. The security of the hermetic seal can, if necessary, be increased by using a suitable adhesive. Said hollow bodies 10 and 12 are made of a plastic material which has high elasticity properties, for example a polyamide resin (a nylon) or an acrylonitrile-butadiene-styrene copolymer (an ABS), which is suitable for the production of a body that is butted and others

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To withstand stresses. This sleeve offers practically no resistance to the explosion, as it is instantly decomposed under their influence and thus neither fragments nor uniform fragments forms Blasting the pieces of the pre-fragmented cargo in all directions impaired.

The above-mentioned bodies 10 and 12 are combined with cylindrical inner sleeves 18 and 20 which, after assembly, complement each other coaxially (Fig. 1) and in their interior form the seat for the explosive charge 22, which consists of a cast or a preformed piece ( Fig. 3) _} so that, on the one hand, it completely fills the cavity and, on the other hand, can easily be introduced into the said sleeves by axial displacement.

Between said sleeves 18 and 20 and the inner sides the body 10 and 12 are the cavities and 26 (Fig. 3), which together form the seat with barrel-like Outer wall for the metal particles 28 result, the particles consisting of a plurality of cuboid steel particles, preferably consist of cubes with an edge length of 2 mm and a weight of approx. 0.1 g, with which the above-mentioned penetration power within the effective distance and the rapid decay of speed in the air and the related amount of movement in the safety distance is guaranteed. Because of the uniformity of their weight and their geometric shapes these particles are evenly distributed in the room within the safe distance. In a hand grenade that has a total weight of 200-250 g, the cavity 24 and 26 can accommodate approximately 1200 particles which, as already explained, around an explosive charge 22 with a weight of 60 g.

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A particularly advantageous method for this purpose is that the cavities of the two bodies 10 and 12, both facing upwards, with the respective amounts of particles 28a and 28b to the edge be filled so that one of the filled bodies (e.g. the body 12) acts on an electromagnet (in Fig. 4 with indicated) is placed, so that the amount of particles (28b) while the body is turned over and on the second always the body pointing upwards is still inserted, attracted by the magnet and placed in its cavity (26) is retained, after which the electromagnet is switched off and removed again.

If this partial assembly has taken place, you have a loaded / however, unsharp grenade, since trinitrotoluene and similar explosive charges have a well-known impact and stability exhibit other stresses and both the necessary ignition system and the firing pin device are not yet inserted.

For the installation of the ignition system, the upper body 12 is furthermore provided with a sleeve 32 which is open at the top and for which a corresponding cavity 3 ^ (Fig. 3 and 4) is provided within the explosive charge mass 22 the ignition system 36 (Figs. 1 and 3B) is plugged in. The ignition system, which is known per se and forms part of the invention only insofar as its method of insertion into the grenade is being considered, contains in a small tubular sleeve: in the end part the actual ignition charge 38, which thus reaches the bottom of the seat 32 , under the opposite head disk and partially enclosed in this the firing pin ignition capsule hO and between the ignition charge and the capsule a pyric-gaseous delay mixture.

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The grenade is fired by a firing pin device Activation of the capsule 40 and completed by the respective safety devices. The firing pin device is shown in Fig. 1 in its ready-to-use, but secured condition; their components are shown in Figure 3A.

The firing pin device is attached to the grenade body by means of a suitable plug 50, which is supplied with its threaded end piece 52 in the threaded seat of the body 12 is screwed tight and which has a through hole 56, which as an extension of the sleeve serves for the ignition system, which is held in place by a flanged plug 58. The flanged plug 58 is made of a slightly elastic Plastic material, for example made of a polyethylene resin, is fastened, for example by the elastic Soft its enlarged edge is used in the mentioned hole 56, from which it is easily removed again can be obtained by removing the ignition system 36 from the grenade want to defuse them completely.

The device provides a handle lever (designated as a whole by 60), the head part 62 of which has a hole 64 (FIG. 3A) which is traversed by the said plug 58 (the plug 58 is anchored to the said head part by means of its flange 58 '), and has a hook-shaped end piece 66, the inwardly directed hook of which is anchored under a projection 68 of the plug 50. The opposite end of said head portion 62 merges into a long curved lever 70 (FIG. 1) places with charged grenade at a side de _s grenades mantle 10,12 and the ends with small flaps 72, which part

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cover the shell of the grenade. This achieves that while handling the grenade in preparation for the throw of the handle lever with ease and safety and maintains this ajar position through the instinctive handle.

The small firing pin lever 76 is attached below the starting part of the lever 70 and is bolted at one end to the plug by means of a pin 78 which can rotate freely in the holes 80 of the small jaws 74 attached to the plug 50. A needle spring acts on lever J6 to rotate counterclockwise (Fig. 1) with the loops of spring 82 wrapped around said pin 78, one arm 84 acts on lever 76 and the other arm 86 acts on the Stopper counteracts. The lever J6 is combined with a light firing pin 88 (together with the spring 82 it forms the only metal parts of the device and the grenade structure), which is mounted in such a way that it is triggered by the action of the spring 82-86 and in the absence of resistance along its trajectory (as will be explained below) strikes violently on the capsule of the ignition system.

The loaded firing pin device (Fig. 1) is firstly supported by a mechanical fuse, e.g. a metallic pin 90 is made through the side holes 92 of the beginning piece of the handle lever and through the holes 94 of the jaws 74 of the plug (Fig. 3A) is performed, and also, when said linch pin is removed, by the reaction between the End piece 96 of the small lever 76 and the inside of the long lever 70 retained in position. The restoring force of the spring 82 is such that the Firing pin 88 at the moment of the hit is given a movement magnitude that is by far sufficient for detonation

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the capsule 40 is sufficient, but that on the lever 70 one of the Grenade jacket lifting force acts, which is easily overcome by the finger force of the thrower, with the Paust includes the grenade and the lever 70, 72 when thrown, but without covering the linch pin 90 and the pull ring 98.

The operation of the grenade described above is obvious. Usually the grenade is defused and stored and transported with the firing pin device loaded but secured (Fig. 1), i.e. without an ignition system 36-40, which is stored and preserved separately, and with inserted cotter pin 90. For preparation for Use and possibly just before use, the grenade is loaded by putting the primer through the holes 64 and 56 is inserted into its seat 32. For the The grenade is gripped tightly by throwing your fingers around the jacket 10, 12 and around the end of the Handle lever 70 including flaps 72 are placed while with the other hand the ring 98 including the linch pin 90 can be pulled and completely removed. After the Throw, the handle lever 60 rotates quickly counterclockwise (FIG. 1), free of any hold, whereby it is detaches from protrusion 68, which initially served as a rotation core, and the grenade exits plug 58 with removing, whereby the capsule 40 is exposed and is hit directly by the firing pin 88, because the associated lever during its rotation to the pin 78 no longer encounters any resistance. The explosion then takes place after the delay time is determined by the ignition system. and after the thrown grenade is already outside the safe distance of the thrower is located.

The design of the grenade shown in the description and in the drawings is only given as an example and therefore not to be construed as a narrowing of the range of possibilities of realizing the grenade. Consequently

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can provide numerous equivalent technical and structural solutions, especially the firing pin and the mechanical Safety device is concerned, can be recovered without thereby departing from the scope of the present invention to kick.

The adaptation of the grenade for use in exercises is described below with reference to FIG the components that are the same as those of the war grenade are denoted by the same numbers are; their description is not repeated. The said match will naturally work for industrial series production prove to be very beneficial.

The adaptation of the war grenade for the training use assumes, of course, that not only the dimensional Properties, but also and mainly those properties rigorously maintained, which the modalities and modes of action, with the exception of lethal ones, determine. The adaptation consists primarily in the removal of the metal particles 28 and their replacement by a mass of the same weight, as well as by the replacement of the explosive charge 22 by a practically inoffensive pyric Charge. According to the invention, the powerful explosive charge 22 is created by a small pyric shape contained in the case 18 * Charge 22 'replaced that used in lower body 10' is, this being modified so that it has a lower opening. The pyric charge is intended to that when ignited it causes a flash of flame, a bang and the formation of smoke.

The ignition takes place by means of a small ignition charge 38 ', which is weaker than the charge 38 of the firing system of the grenade for military use and which is modified

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Ignition system 36 'is included, the latter with a percussion capsule and is activated with the same means and modalities as those of the war grenade same. The sleeve 18 'is provided with an opening on the side opposite the priming charge 38', those with a plug 18 ", made of celluloid or similar easily yielding and flammable material, is closed, the said plug of the jet flame emanating from the ignition charge, none Resists and promotes the ignition of the pyrotechnic charge 22 '.

The weight of the metal particles 28 is replaced by that of a robust steel pipe 20 ', the pipe also fulfills the important puncture in the axial Zone of the grenade body to close off a cavity by walls that prevent the explosion of the detonating charge 38 'and the resist pyrotechnic charge 22 ', so that the explosion of the training grenade in the statistical majority the case does not destroy the component of the grenade structure and the firing pin device.

To ensure the integrity of the upper body 12 ', the container 32 'for the ignition system 36' is on lower end opened and shortened so that it ends a considerable distance before said cargo 38 ', whose small explosion wave is practically discharged over and in the pyrotechnic charge 22 'and thus contributes to the expulsion of the latter through the open bottom of the body 10 '.

In the majority of cases, a training grenade is that Figure 2 is structured according to, recoverable and by simply inserting a new ignition system 36 and a new pyrotechnic charge 22 'in your case 18' reusable.

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Claims (16)

26 672 Claims \ 1. ' Hand grenade with delayed ignition, characterized in that it has a sleeve made of an easily destructible shell (10, 12) in which the ignition system, explosive charge (22) and the destructive hatch (28) are interchangeably arranged. 2. Hand grenade according to claim 1, characterized in that between the explosive charge (22) and the garnet jacket (10,12) small metal particles (28) are arranged, which have a mass that makes them effective Gives penetrative power within a predetermined, lethal range of action that differs from the Explosion center calculated from is much smaller than a certain safe distance, the particles due to their external geometric shape while moving through the air have an air resistance that is their speed within the safety distance decreases to zero. 3. Hand grenade according to claim 2, characterized in that the metal particles (28) from a plurality of similar Particle consists. 4. Hand grenade according to claims 2 and 3 _3, characterized in that the mass of the particles (28) is so great that the particles do not reach a distance of 20 m from the explosion center and the lethal efficiency is within a radius of at least 5 m. - 13 - 709839/0638 ORIGINAL INSPECTED 5. Hand grenade according to one of claims 2 to k, characterized in that the metal particles (28) consist of a plurality of small, sharp-edged, prism-like bodies weighing 0.08-0.13 g. 6. Hand grenade according to claim 5 _}, characterized in that the bodies are made of steel and have a cuboid shape. 7. Hand grenade according to claim 6, characterized in that the bodies weigh about 0.1 g and are cube-shaped. 8. Hand grenade according to one of claims 5 to 7, characterized in that the number of particles is 600 to 1500. 9. Hand grenade according to one of claims 1 to 8, characterized in that the grenade wall (10,12) and the Handle lever (70), which is coupled to a firing pin device, consist mainly of plastic. 10. Hand grenade according to claim 9, characterized in that the grenade wall (10, 12) and the handle lever (70) are made of thermoplastic materials with high elasticity, such as nylon or ABS copolymers. 11. Hand grenade according to one of claims 1 to 10, characterized characterized in that it has a sleeve with barrel-shaped outer walls (10,12) and with an inner axial, cylindrical cavity, an explosive charge (22) within said cylindrical cavity and Metal particles (28) within the cavity between 709839/0638 - 14 - the said outer walls (10,12) and the cylindrical inner walls (18,20). 12. Hand grenade according to Claim 11, characterized in that that the garnet wall is created by axially assembling two cup-like bodies, whereby the union at the level of the size range of said fit following the introduction of the explosive charge (22) and the metal particles (28) in the respective cavities. 13. Method of assembling the hand grenade according to claim 11, • characterized in that the two cup-like Body direct their openings upwards that the metal particles (28 a and 28 b) to the edge of the respective Seats are filled, that one of the said filled bodies is placed on an electromagnet (30), whereby the metal particles (28 b) are attracted and retained when the body is tilted, and that a Body is turned over, placed on the second and united with this. 14. Hand grenade according to one of claims 1 to 12, characterized in that it has an ignition system (36), the hand grenade, which has been assembled and provided with a ready-to-use firing pin device through an opening in the upper part (62) of the handle lifter (70) can be used, wherein the opening is in a (22) cavity continues, which extends into the explosive charge, and the handle lever (70) so with the firing pin device is coupled that it detaches itself from the grenade body by their action. - 15 - 709839/0638 15. Hand grenade according to claim 14, characterized in that that the ignition system (36) through said opening can be inserted into and removed from said cavity and in this by a plug (58) remains closed, the plug (58) in the mentioned opening of the upper part (62) of the handle lever (70) is tensioned, so that the removal of the lever (70) the removal of the plug (58) and the prelimitation of the Ignition system capsule (40) for the contact bolt (88) causes. 16.Hand grenade according to claim I _3, characterized in that a robust steel tube (20 ¹ ) is used along the grenade axis and includes a cavity in which a pyrotechnic charge (22 ') and the ignition system (36 ") are arranged so that their The effects of the explosion remain limited and the integrity, recovery and repeated use of the remaining grenade components are guaranteed. 709839/0638