DE1134003B - Hand grenade and grenade - Google Patents

Description

The invention relates to a hand grenade and throwing grenade of spherical, egg or teardrop-shaped Shape and with a housing jacket made of plastic, the housing jacket being made relatively thin-walled is made of elastic plastic with high impact strength and low Ε modulus and is made of a compact layer of fillers resting against the inner wall is supported, according to patent application L 32655 Ic / 72d (German interpretation 1124851).

As in patent application L32655Ic / 72d (German Auslegeschrift 1124 851) detailed, Such a hand grenade or throwing grenade has a number of advantages, including among others exist that only a small proportion of the energy released when the explosive detonates is used to disassemble the housing shell. Much of this released energy of the The explosive is therefore available for the outwardly penetrating effect of the explosive.

If the effect of the hand grenade or throwing grenade is to be a kind of fragmentation effect, one can, however not content with the possible splinters of the housing, but must be the one for a sufficient splintering effect arrange the necessary iron particles inside the hand grenade or throwing grenade, which is known per se.

So that the energy of the explosive released during the detonation, minus the small portion of this energy used to dismantle the casing, is transferred to the greatest possible extent to the iron particles located inside the hand grenade or thrown grenade and appears as the kinetic energy of these iron particles occurs, it is proposed according to the invention that the value of the mass per unit area Qp is small for the housing jacket made of elastic plastic and that iron particles are embedded in the rigid, compact layer of fillers.

The value of the mass _per unit area ρ Ρ - that is the mass of the housing shell assigned to an area element the size of the unit area (1 cm ² ) of the inner surface of the housing shell - is decisive for the energy required to remove any plastic housing fragments from the detonation control . Since these housing fragments do not make an effective contribution to the fragmentation effect of the hand grenade or throwing grenade - the fragmentation effect is caused solely by the iron particles embedded in the ammunition body - the energy required to transport the housing fragments from artificial hand and throwing grenades is

Addition to patent application L32655Ic / 72d
(Interpretation document 1124 851)

Applicant:

Dipl.-Ing. Karl Leitner,
Schwechat-Kledering (Austria)

Representative: Dipl.-Ing. K. Siebert, patent attorney,
Starnberg (Obb.), Almeidaweg 12

Claimed priority:
Austria of April 21, 1958 (No.A 2894)

Dipl.-Ing. Karl Leitner, Schwechat-Kledering

(Austria),
has been named as the inventor

to be regarded as a loss of energy. By taking suitable measures to ensure a small value for the mass per unit _{area q f of} the housing shell, this energy loss can be largely reduced.

The value of the mass per unit _{area seal ρ Ρ} can be kept small not only by choosing a relatively small wall thickness for the housing jacket, but also by using a plastic with a very low density.

An example of a plastic that appears particularly suitable in this regard is polyethylene, the density ρ of which is very low ^{with a value of 0.92 g / cm 3.} The polyamide with a density ρ of 1.1 g / cm ³ can also be regarded as being well suited.

The use of plastics of such low density and the wall thicknesses of the housing jacket that are less than about 0.5 cm make it possible to achieve low values of less than about 0.5 g / cm ² for the mass per unit area q _f.

Since, as stated, a low surface mass density Qp for the housing jacket also requires a relatively small wall thickness of the housing jacket, the strength of the housing jacket is weakened to a certain extent, but this is in connection with the use according to the invention.

209 627/43

Generation of plastics of high impact strength is not important, because precisely because of the high impact strength of the plastics used according to the invention, good resistance to the stresses of transport, throwing or shooting and impact of the hand or hand is achieved even with low wall thicknesses Throwing grenade guaranteed. Plastics of high impact strength are those that do not break in the standardized impact test using a standard rod as a test specimen, i.e. those whose impact strength is greater than 100 cmkg / cm ² .

By the further feature of the invention, namely that the splinter-effective iron particles in one carrier layers directly adjacent to the inner wall of the housing jacket are arranged, the most uniform possible transfer of energy to the metal particles is achieved; because the iron particles enclose the explosive charge like a closed shell on which the At the moment of the detonation, the high pressure of the combustion gases suddenly arising is distributed relatively evenly.

In addition to the listed mechanical properties, the plastics used must also have other properties, such as adequate resistance to the effects of moisture and against temperature influences in a range of about -40 ° to + 60 ° C.

Both for manufacturing reasons and for reasons of particularly low energy consumption for the dismantling of the casing shell in the event of detonation, thermoplastic ones are preferred Suitable for plastics.

It has been found that the splinter penetration performance of, for example, one according to the invention Hand grenade is much higher than a conventional hand grenade. The trials were carried out with an iron granulate filling, the weight of which is considerably below the Weight of the casing of the conventional hand grenade was. One can see from this that one is with the Projectile according to the invention also achieved weight savings, which is very advantageous in many ways affects. For example, significant improvements in the throwing range or range can be achieved will. Of course, particles from another heavy metal are equivalent to the iron particles.

The invention is explained in more detail with reference to the drawings.

Fig. 1 shows in longitudinal section an embodiment of a hand grenade and

Fig. 2, also in longitudinal section, the body of a throwing grenade (without tip and stabilizing wing).

However, the invention is in no way restricted to the exemplary embodiments shown.

The hand grenade shown in Fig. 1 is based in the external form on the known, with a Hand grenades surrounded by iron shells. The housing shell 1 is made of plastic, for example made of polyethylene. The wall thicknesses of this housing jacket 1 made of plastic vary between 1.5 and 2.5 mm. In the interior of the hand grenade, an inner layer is in contact with the housing jacket 1 2 arranged from concrete. This inner concrete layer 2 is used as a carrier layer for iron particles 3 (Splinters, granules) formed. There is a metal tube in the inner filling of the hand grenade 4, into which a delay set 5 with a burning time of about 4.5 seconds is screwed. At the At the bottom of the delay set 5, a powerful detonator 6 is strangled. In the remaining Space between the inner layer 2 and the detonator 6 or the metal tube 4 of the delay set 5 an explosive charge 7 is provided. The explosive charge 7 is preferably a plastic one Explosives (e.g. TNT) used.

ίο The hand grenade is triggered by the detonator 8, which carries the delay set 5 and the detonator 6 downwards, closed. The after outwardly protruding part of the ignition body can be made of plastic. The dropped hand grenade In this way, it does not have any metallic outer parts.

The filling of the hand grenade described does not present any difficulties. First, a Concrete mixture mixed with iron particles 3 in the

ao pasty state filled. Then becomes a stick introduced, which the pasty concrete mixture with the iron particles 3 on the inner wall of the housing shell 1 is urging. After the concrete is at least partially hardened, the rod is again pulled out and left the hand grenade until the concrete had completely hardened. in the Following this, the plastic explosive of the explosive charge 7 is in the cavity within the now solidified concrete. Then only the detonator with the delay set 5 and the detonator 6 are screwed on, whereby the plastic explosive through the into the cavity protruding part is displaced to the side. Preferably so much plastic explosives will be used filled in that the entire cavity is filled after the displacement.

The embodiment shown in Fig. 2 relates to a throwing grenade. Again there is the projectile body consists of a housing jacket 9 made of plastic, preferably made of a thermoplastic Plastic, e.g. B. polyethylene. The wall thicknesses of the housing jacket 9 are, for example, 3 to 5 mm.

In an analogous manner to the exemplary embodiment

the hand grenade according to FIG. 1 is the interior of the projectile body with an inner layer 10 made of concrete lined, in the iron particles 12 (splinters, granules) are embedded. The remaining cavity inside this inner layer 10 serves to accommodate the explosive charge 11.

The filling of the interior of the projectile body can also be the same in this exemplary embodiment Way can be made as described in the embodiment of the hand grenade.

2 are used to explain the invention insignificant parts of the grenade, such as B. the detonator, the grenade tip and the wing stabilizers not shown.

A useful but not essential feature of the invention is the use of Concrete for the inner layer of the hand grenade or grenade, which is designed as a carrier layer. She can be replaced are replaced by another filler absorbing the iron particles, e.g. B. a plastic that is in liquid or viscous form in the cavity

6g of the ammunition body can be inserted. Even this plastic can be displaced by a rod-shaped body, so that an inner layer is formed is attached to the inner walls of the elastic

Housing jacket rests and protects it from being pressed in.

The use of a plastic explosive is also expedient, but not at all necessary action. The explosive can also be used in cast, pressed or granular form reach.

If the density ρ of the plastic polyethylene mentioned in the exemplary embodiments according to FIGS. 1 and 2 is assumed to be about 1 g / cm ³ (in fact, most types of polyethylene have a somewhat lower density), then one obtains, taking into account the specified wall thickness Values for the mass per unit area density q _{f of} the casing shell of the hand grenade according to FIG. 1 have a value between about 0.15 and 0.25 g / cm ² and the throwing grenade according to FIG. 2 has a value between about 0.3 and 0.5 g / cm 2 ² .

Claims (3)

Patent claims: 1. Hand and throw grenades of spherical, egg or teardrop-shaped shape and with a housing jacket made of plastic, the housing jacket being made relatively thin-walled, made of elastic plastic with high impact strength and low Ε-module and a compact layer adjacent to the inner wall is supported by fillers, according to patent application L32655Ic / 72d (German Auslegeschrift 1124 851), characterized in that for the housing jacket (1, 9) made of elastic plastic, the value of the mass density ρ _{Ρ is} small and that in the rigid compact layer (2, 10) iron particles (3, 12) are embedded by fillers. 2. Hand and throwing grenade according to claim 1, characterized in that the mass per unit area density for hand grenades is approximately 0.15 to 0.25 g / cm ² and for throwing grenades 0.3 to 0.5 g / cm ² . 3. Hand and throw grenade according to claim 1, characterized in that the filler in known Way is made of concrete. Considered publications:
British Patent Nos. 745 078, 696 887. 1 sheet of drawings © 209 627/43 7.