DE1124851B - Hand grenade and grenade - Google Patents

Description

The invention relates to a hand grenade and throwing grenade of spherical, egg or teardrop shape and with a housing made of plastic.

Hand grenades and grenades are generally used as fragmentation effective ordnance, with the effective splinters are generally those produced by the dismantling of the casing shell by the Detonation of the explosive can be generated.

So far, ferrous materials have mainly been used for the casing of hand grenades and throwing grenades. This had to be done with a view to a favorable dismantling of the casing during the detonation of the explosives are required that the ferrous material used is a sufficient Has brittleness and that the housing jacket is relatively thick-walled. You have recognized that a certain brittleness of the iron material and a relatively thick-walled design of the Housing shell is necessary so that when the explosive detonates, the number and size of the housing fragments in one favorable for the intended fragmentation effect of the hand grenade or throwing grenade Way to appear.

Even with the previously known applications of non-metallic materials for the housing jacket of explosive projectiles and hand grenades one has to look for the use of ferrous materials as appropriate recognized requirements for sufficient brittleness of the applied Material and held by relatively large wall thickness of the housing shell. examples for this are the well-known explosive projectiles and hand grenades with a casing made of concrete, cement, clay, Earthenware or the like, which are typical brittle materials. Even where the housing jacket of Ammunition bodies of the aforementioned type of plastics used, one has so far relatively brittle types of plastic chosen.

The disadvantage of the previously used material types for the housing shell of explosive projectiles in general and hand grenades and grenades in particular had to be taken, is on the one hand that for some of these materials (ferrous materials) a a large proportion of the energy of the explosives is lost just for the dismantling of the casing shell, on the other hand, in particular in the low resistance of the housing jacket made of relatively brittle material against the stresses during transport, when firing or dropping and when the ammunition body hits the target.

The invention, which deals with the use of hand grenades and grenades

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 2895)

Dipl.-Ing. Karl Leitner, Schwechat-Kledering

(Austria),
has been named as the inventor

dealing with plastics for the casing of hand grenades and throwing grenades, it is based on the knowledge that that one by the possible splinters of the housing made of plastic at most an insufficient Can achieve splintering effect. This is a consequence of the low specific weight of the Plastics. One of the prerequisites for a good splinter effect is that the weight of the Splinters should not be too small on average, due to the low specific weight of the When dismantling the casing, plastics are only made relatively light, i.e. not can produce very effective splinters.

The effect of an ammunition, for example a hand grenade or throwing grenade, which one Has housing jacket made of plastic is therefore practically only caused by the explosives and fillers arranged in the interior of the ammunition body be.

The plastic housing jacket essentially has the function of a container for the explosives and fillers arranged inside the hand grenade or throwing grenade.

It must withstand the stresses during transport, when it is fired or dropped and when it hits the Withstand target. Furthermore, the dismantling of the housing jacket should take place without any significant effort Energy going on so that the energy developed during the detonation of the explosive becomes one

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the greatest possible proportion for the intended use of the high local tensions, which for example Hand grenade or grenade has the same effect as otherwise with continuous alternating loads (vibrations) Available. If the hand grenade or grenade could easily lead to fatigue fractures, as practice ammunition or as offensive ammunition.

set, then any high impact strength of the splinters resulting from the dismantling of the 5 proper housing shell for a plastic that gets into the manure of the energy expenditure surrounding the detonation point for the dismantling of the housing shell must not be very dangerous for the person. This should also have to, since it is known from the highly impact-resistant construction of a housing jacket made of plastics that it is considered under normal material for a hand grenade or a throwing grenade load conditions a high work load, may show, which means that under these According to the invention, compliance with the conditions requires a considerable expenditure of energy, the above requirements being achieved in that the material breaks until the material breaks. Now the housing shell is made relatively thin-walled, but especially with plastics there is a very pronounced, elastic plastic of high impact strength and change in mechanical properties, in the low Ε-module and preferably a compact one on the inner wall depending on the internal wall Loading speed. When the extremely layer is supported by fillers. high loading speeds, such as occur in the case of an example of a special detonation of the explosive within the meaning of the invention, the most suitable plastic is polyethylene. Another example, which is also highly impact-resistant, would be polyvinyl chloride. Poly-plastics low and thus the energy consumption Ethylene and polyvinyl chloride are plastics that are insignificant for the dismantling of a housing shell from a standardized impact test for the determination of the plastics with high impact strength. Impact strength of a plastic using this behavior, however, shows itself in the pronounced degree of a standard rod as a test specimen does not break. 25 Dimensions do not apply to all high-impact plastics - this means that their impact strength is greater than types. The fiber-reinforced ones, which are 100 cmkg / cm ² , are an exception. Plastics that show such behavior in the standardized, in particular, the glass fiber reinforced plastic impact test, i.e. construction materials and the elastomers. If they do not break, they are generally referred to as high-impact, fiber-reinforced plastic structures, so if plastics are made of high materials, it is the reinforcement inserts that improve the impact strength. mechanical behavior of this plastic construction under a plastic of low Ε-modulus tion materials determine, whereby, among other things, such a plastic is understood in the sense of the invention, the otherwise so pronounced in plastics, whose Ε-module depends on the order of various mechanical properties of 100 kg / mm ² , but in any case less than 35 of the loading speed is partially lost than 1000 kg / mm ² . The two examples given works.

Polyethylene and polyvinyl chloride are sufficient for the elastomers, which are among others

Definition. characterized by an extremely high elongation at break,

By stating that the housing jacket is in accordance with even in the case of a very high load Invention is made thin-walled, the 40 speed should still have a relatively high fracture-specific function of the housing expansion according to the invention, which in turn has the consequence that mantels as a container for the inside of the hand a greater expenditure of energy is necessary until or explosive grenade arranged explosive and filling a break occurs.

fabrics are emphasized. While in most cases those fiber-reinforced plastic construction

Ammunition bodies, in particular in which the active materials, which, as stated above, are suitable for the potash ratio with regard to the action of the ammunition body due to the splinters of the housing jacket which is less suitable for the task according to the invention, have a Ε module , which is greater than the wall thickness less than 10, which is more than 1000 kg / mm ² , but the inventive relatively thick-walled construction of the casing material should have a Ε module, which indicates that in this case the wall thickness 50 is smaller is than 1000 kg / mm ² , the mentioned must be at least a tenth of the caliber; According to characteristics characterized plastics, bers to the wall thickness is greater than 15, ie that the same applies to the elastomers, we The wall thickness of the case jacket is smaller than a 55 Kunststofftechnik in general as a highly elastic fifteenth of the value of the caliber. A housing denotes plastics and plastics can be distinguished from the rest of the elastic jacket with such a wall thickness ratio. Character will be described as thin-walled. ristic for the invention is, as indicated, the

The initially required good resistance of the use of elastic and not highly elastic house jacket against the stresses of 60 plastics.

Transport, when shooting or dropping and when in connection with the achievement of a possible

Impact of the hand grenade or throwing grenade is mainly low energy expenditure for the dismantling the inventive high impact strength of the housing jacket is also the inventive conditionally used plastic. Characteristic of the relatively thin-walled design of the The low Ε module according to the invention is also important in the housing shell. It is clear that a This is of importance because the thin-walled housing shell means that less effort is required low Ε-modulus occur due to any wall of energy to its decomposition in the Deto deformations especially when transporting hardly any nation of explosives required. The thin-walled one

However, the design of the housing jacket has no significant loss of resistance to the various Loads during transport, dropping or launching and impact only in connection with the further inventive feature of high impact strength possible because when using a plastic of not very high impact strength, the wall thickness would have to be used of the housing jacket must be chosen larger so that

Housing shell with the closure body, which then also consist of a weldable plastic must close absolutely tight. The property of thermoplastic synthetic 5 is also advantageous substances that they are accessible in various ways of shaping according to the invention. disadvantage however, are not to be expected, because the thermoplastics can be made without difficulty those are selected that have the necessary insensitivity

have sufficient resistance to the cited objects against moisture and that too th stresses are present. are sufficiently temperature resistant.

The features according to the invention also to the projectile despite its inventive

the requirement mentioned at the beginning, namely that the all-elastic housing jacket should have a firm consistency It is advisable to give up those due when the casing is dismantled inside the projectile emerging splinters practically ineffective or approximately 15 no free cavities, but these should be borrowed to fill cavities with filler in a particularly favorable manner. Particularly green-filled. This is due to the fact that it is the case that it is when these fillers are attached to the inner jacket According to the invention, compact walls adjoining the housing jacket with relatively thin walls is formed. Form the total weight of any Ge layer. It can be this compact layer House splinters are therefore very low, especially since the special one compared to the elastic housing shell The weight of the plastics is also low. form a rigid inner layer. For this, z. B. The low Ε module is also concrete in this combination.

matter. In particular, if this as a filler can also be used, optionally in addition to

Ε module is less than 100 kg / mm ² , other fillers, fragments that are neither effective nor dangerous, arise at the most flexible substances tailored to the specific use of the dismantling of the casing shell. such as B. Fog substances (phosphorus), fuels, ver- In addition, it results from the special turn. For splinter-effective projectiles, temperature behavior of the plastics can be arranged in a favorable change in the formation body in the sense of fillers iron parts inside the projectile of the invention. It is useful in doing so, the more effective and dangerous splinters. In the case of plastic iron parts in the aforementioned compact inner layer, namely, one occurs for the relevant (concrete inner jacket) to be enclosed. In this way

is the measure according to the invention, which is completely unusual in multi-storey building, also for fragile projectiles applicable.

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 in the event that the plastic of the housing 40 throw grenade (without tip and stabilizing wing), mantels either already before the mechanical destruction. However, the invention is based on the disturbance shown in no way restricted by the pressure of the combustion gases in the example. Explosives thermal destruction (flow, the hand grenade shown in Fig. 1 leans

Decompose) or that a subsequent thermal in the external form to the known, with a mix destruction of the fragments of the hand grenades encased in 45 iron casing. The coat As a result of the flow temperature being exceeded, however, the housing jacket 1 consists of plastic, beiratur or decomposition temperature of the relevant example of polyethylene. The wall thicknesses of this Plastic enters. Plastic sheaths vary between 1.5 and

In addition to the listed mechanical intrinsic 2.5 mm. Inside the hand grenade is in celebrities the plastics used must be the 50 tion with the housing shell 1 an inner layer 2 Have properties arranged opposite moisture from concrete. In the inner cavity of the and temperature influences in an area of the hand grenade is a metal tube 3, in -40 to + 60 ° C to be resistant. which a delay set 4 of about 4.5 seconds

Of the available plastics, the burn time is screwed in. At the lower end, which meet all these requirements, 55 of the delay set 4 is a powerful blast, especially the thermoplastics, the capsule 5 is choked. Give preference in the remaining space, since the special behavior of the plastics or the metal tube 3 of the delay set 4 at high loading speeds in particular with the thermoplastic plastics between the inner layer 2 and the detonator capsule 5 is an explosive charge 6 . Appears as a Sprengter way. Also with regard to 60 charge 6, a plastic explosion is preferably used, the advantages mentioned of the special temperature substance.

Behavior of the plastics are the thermoplastics in The hand grenade is through the detonator body 7,

particularly suitable. In addition, which draw the delay sentence 4 and downwards the thermoplastics also carry through the detonator 5, closed. The after processing advantages. For example, 65 outwardly protruding part of the detonator body can be made from Thermoplastics are almost always made of plastic. The discarded hand goods are weldable. There is therefore the possibility that the grenade has no metallic properties whatsoever in this way the projectile body by welding the outer parts.

Type of plastic, with its characteristic temperature, will flow or decompose. These temperatures are not very high. The flow temperature of thermoplastics is usually below 100 ° C. The decomposition 35 The temperature of the tongue of thermosets is usually between 100 and 150 ° C. The explosive of the projectile causes it but immediately after ignition, temperatures are much higher. So it will

The filling of the hand grenade described does not present any difficulties. First, a Concrete mixture poured in in the pasty state. Then a rod is inserted, which the paste-like concrete mixture pushes against the inner wall of the housing shell. After the concrete has at least partially hardened is, the rod is pulled out again and the hand grenade is completely hardened left behind of the concrete. Following this, the plastic explosive of the explosive charge 6 is in the ίο Filled cavity within the now solidified inner layer 2 made of concrete.

Then only the detonator with the delay set 4 and the detonator S has to be screwed on are, the plastic explosive through the protruding into the cavity part to Page is displaced. So much plastic explosive is preferably filled in that after it has been displaced the entire cavity is filled.

The hand grenade described does not have an effective fragmentation effect when the explosive charge detonates cause. However, the detonation is very impressive, especially in one area of action of about 10 m. There is a typical example of a so-called assault hand grenade.

The embodiment shown in Fig. 2 relates on a thrown hand grenade. Again, the projectile body consists of a thermoplastic Plastic, e.g. B. polyethylene. The wall thicknesses of the housing jacket 8 are, for example, 3 to 5 mm.

In a manner analogous to the embodiment of the hand grenade according to FIG. 1, the interior of the Projectile body lined with an inner layer 9 made of concrete. The remaining cavity inside this inner layer 9 serves to hold the explosive 10.

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 inner layer of Concrete. It can be replaced by another filler, e.g. B. a plastic that is in liquid or Viscous form can be introduced into the cavity of the projectile body. This plastic too can be displaced by a rod-shaped body, so that an inner layer is formed which rests against the inner walls of the elastic housing jacket and this before being pressed in protects.

With certain special projectiles, such as. B. smoke hand grenades or incendiary hand grenades offer The fillers (phosphorus, fuels) provided for the special effect alone are a guarantee ensure that the plastic jacket of the projectile body is not depressed. A lining made of concrete Plastic or the like is therefore unnecessary.

The use of a plastic explosive is also expedient, but by no means necessary Measure. The explosive can also be used in cast, pressed or granular form reach.

Claims (4)

PATENT CLAIMS: 1. Hand and throw grenade of spherical, egg or teardrop-shaped shape and with a housing jacket made of plastic, characterized in that the housing jacket (1, 8) is thin-walled, made of plastic with high impact strength and low Ε-module and preferably through a compact layer of fillers (2, 9) resting against the inner wall is supported. 2. Hand and throwing grenade according to claim 1, characterized in that the plastic of the housing jacket (1, 8) has a Ε module which is smaller than 100 kg / mm ² . 3. Hand and throw grenade according to claim 1 or 2, characterized in that the housing jacket (1, 8) consists of a thermoplastic plastic. 4. Hand and throwing grenade according to claim 3, characterized in that the housing jacket (1, 8) is made of polyethylene. Considered publications: German patent specifications No. 308 445, 370 830, 382707, 399 594, 569406, 622256, 711903; Austrian Patent No. 46,388; French Patent Nos. 488 026, 491 085; British Patent Nos. 696 887, 745 078; Canadian Patent No. 385 040. For this purpose, 1 sheet of drawings © 209 517/55 2.62