DE1453826C3 - Damage for a propellant charge for recoilless guns - Google Patents

Description

The invention relates to a dam for a propellant charge for recoilless guns, with loose in an easily destructible shell housed powdery sealing compound and with a cross-section reduction opposite the launch tube.

For better utilization of the energy of the propellant charge powder, it is used in recoilless guns It is customary to dam the propellant charge located behind the projectile in the tube that is open on both sides men. When it is shot down, the dam turns to the rear. ejected from the pipe, which inevitably entails has that there is a more or less large danger zone behind the pipe. It is therefore appropriate and also often practiced to use such materials for damnation, which can easily be broken down into many small ones Disassemble parts or are already in disassembled form, namely as a powder.

According to DT-PS 11 72 989, for example, a dam pressed from dust or powder into a one-part or multi-part body is known, which should disintegrate again into dust or powder under the influence of the firing when leaving the rear end of the weapon. In order to reduce in comparison with conventional charges constant Vo of the projectile the maximum pressure occurring in the gun during firing, and to delay the pressure drop, it is provided to provide the compressed Verdämmkörper with at least one axial passage of the leakage of the propellant charge gases over the entire length Rearward damming allows even before the damming body leaves the rear end of the weapon. It is true that pushing this pressed damper out of the launch tube does not present any difficulties. However, as has been shown in practice, the perfect disintegration of the damper to dust or powder when leaving the rear muzzle of the weapon is not guaranteed under all circumstances. Rather, more or less large and firm pressed powder lumps are thrown out to the rear, which undesirably enlarge the danger area behind the weapon. These pressed damming bodies are therefore unsatisfactory.

More advantageous in this regard are the powdery dams, which are also up to a certain point Allow mass or length to be pushed out of the launch tube properly when firing. For heavier and thus also longer condemnations, as they are preferred today, it turned out, however, that it was the case with Launch as a result of the pressure of the propellant gases in the loose powder of the dam Formation of a pressure cone came, which resulted in a lateral pushing off of the powder and, as a result, a Strong pressure on the inner wall of the pipe resulted in what is known as the dam's seizure. This deadlock, however, in turn disadvantageously causes such a strong recoil of the launch tube, that the correct operation of the weapon is no longer guaranteed under all circumstances.

In order to avoid this disadvantage it is in the case of powdery dams from the GB-PS 5 77 318 known to arrange the main part of the dam with radial play in the launch tube and between this and the propellant charge a smaller additional damming connected to the main part Provide conical outer surface, which rests with the area of its largest diameter on the launch tube and this seals to the rear. The disadvantage here is on the one hand that the dam is due to the radial Game is not properly performed in the launch tube, but is crooked in this, so to speak, so one asymmetrical mass distribution is given, which results in transverse forces acting on the launch tube,

which are uncontrollable and the accuracy

adversely affect.

On the other hand, it also happens here heavier and therefore longer dams during the shot to an axial compression of the Damnation, because the rear parts of the damnation due to their inertia are a Rearward displacement under the dynamic pressurization by the propellant gases oppose. The powder of the dam is hurled radially outwards against the launch tube, as a rule, because of z. B. unavoidable inhomogeneities in the powder filling in practice, with uneven distribution of forces over the circumference and length of the damming body. These radial forces occur completely undefined and put the launch tube in additional uncontrolled vibrations, whereby the achievable target accuracy is further reduced.

The present invention has as its object that to avoid the disadvantages mentioned above, d. H. on the one hand, a hazard behind the weapon to exclude clumped parts of the dam and on the other hand from the dam to the launch tube Avoid exerted, uneven forces that reduce the accuracy of the target.

According to the invention, this object is achieved in the case of a dam of the type mentioned at the outset in that the cross-sectional reduction is designed as at least one channel, which is led through the damming compound in the direction of the axis of the launch tube, and is lined with a thin, easily destructible shell. the damming powder given the opportunity to give in to the pressure of the propellant gases by evading in the sense of a narrowing of the clear cross-section of the channel or channels, whereby the formation of a pressure cone and the ejection of undivided central parts of the dam are avoided. The dam is properly guided within the launch tube and centered in ^ ₀ iiesem arranged In the alternate movement of the / erdämmungspulvers into and the internal passages Reten not on the launch tube adversely einwirkenie radial forces. As has been established on the basis of detailed investigations, it has been shown to be expedient in the formation of a single, per se known, central channel to measure its diameter so that it is between a quarter and half of the clear diameter of the launch tube To achieve uniform pushing out or shoving of the naturally not very dimensionally stable ulver-shaped damming compound from the launch year, according to a further proposal ar invention between propellant charge and dam ne cover plate made of metal, plastic or the like is provided. This is expediently designed so that the clear cross-section of the launch tube is completely braced, which then, depending on its thickness and depending on the material used, ensures that the desired propellant gas pressure can build up after the propellant charge has been ignited. The arrangement and design can easily be made so that the pressure of the propellant gases is punched out to a precisely predeterminable value in the area of the channel or the channels of the dam so that some of the propellant gas can escape through the dam and accordingly, the service gas pressure is limited to the desired level. In addition, this measure has the advantage that any foreign bodies, such as soil, that have got into the rear end of the pipe through improper handling of the weapon are pushed out of the pipe by the gases flowing out and are therefore not in the way of the subsequent ejection of the dam.

For precise setting of the pressure required and desired for punching out the cover plate and also to achieve a precisely defined shape of the part to be punched out, a further expedient embodiment of the invention provides that the cover plate or the like with predetermined breaking grooves at least approximately corresponding to the contour of the cross section of the channel. to provide. According to a further proposal, the cover disk can be formed with further predetermined breaking grooves, recesses, perforations, weakening zones or the like extending in the non-perforated area of the propellant-side end face of the damming compound, so that the disk when ejected from the launch tube by the pressure of the propellant gases into a A number of preferably identical and sufficiently small parts are dismantled, which, due to their low mass and high air resistance, fall to the ground at a short distance from the end of the pipe and do not represent a hazard.

The exact and clean punching out of the covering the channel or channels of the sealing compound Parts of the cover plate can be further enhanced by the fact that the cover plate has an additional plate is underlaid, which is perforated in at least approximately the same way as the dam If the additional disk is broken down into small parts when it is ejected from the tube, it can otherwise be used in the same way The way in which the cover plate is provided with predetermined breaking grooves. Another additional disk can can also be arranged between the cover plate and the propellant charge.

According to a further proposal of the invention it is provided that in the channel of the sealing compound over at least part of its length a powder-like additional insulation material housed in an easily destructible shell It is therefore possible to use the additional sealing compound at low cargo temperatures the low gas pressure towards the service gas pressure increase or influence the performance of the storey, all the more so as the additional insulation by training with a corresponding excess, more or less firmly in the main damming insert or can be clamped in this

The invention is shown in the drawing in exemplary embodiments and is based on this in The following is explained in more detail It shows

F i g. 1 one with the propellant charge behind the projectile dam arranged in the launch tube,

F i g - 2a and 2c each in a view and in cross section different designs of the cover plate,

F i g. 3 a dam associated with the propellant charge with additional insulation and

F i g. 4 shows a variant of FIG. 3.

According to Fig.l, the propellant charge 3 and the dam 4 are in the launch tube 1 behind the projectile 2 arranged. Propellant charge 3 and dam 4 are housed in the common shell 5 and through the

The cover disk 6 and the additional disk 7 are separated from one another. The powdery dam 4 is here provided with a central continuous channel 8, the inner wall of which by means of the thin shell 9 is lined

The cover 6 can for example as in Fig.2a to 2c shown be formed. According to Figure 2a, the cover 6 has approximately the clear cross section of the channel 8 corresponding thicker middle part 10 and the eight equally large thinner sector parts 11. The latter are divided by the reinforcing ribs 12 according to FIG. 2b has the cover 6 has a constant thickness. The clear cross section of the channel 8 of the The central part 10 to be punched out corresponding to the dam 4 is here through the annular predetermined breaking notch 13 achieved The part of the disc 6 that comes to lie in front of the non-perforated area of the dam 4, is provided here with holes 14 of the same size evenly distributed over the circumference, the purpose of which is that this outer annular part of the disc 6 when ejected from the launch tube by the powder gases of the propellant charge in the area of the holes 14 at the points of the smallest material cross-section along radial lines and possibly also along a line running in the circumferential direction breaks apart into a number of correspondingly small parts in the same way as the disc of the Fig.2b with an annular predetermined breaking groove 13 provided disk of Fig.2b are on the outer Perimeter, the sector-shaped recesses 15 are provided. The thereby with a number of lobes 16 formed outer part of the disc should thereby when ejected from the launch tube between the Break apart individual tabs 16 along approximately radial lines.

In approximately the same way as the cover disk 6 of FIGS. 2a to 2c, the additional disk 7 be formed, the central part 10 of course being absent, i.e. instead of such a one Cross section of the channel 8 of the dam 4 is provided corresponding hole

It is clear that with a different arrangement of the channels of the dam 4, the cover 6 and the Additional disk 7 are designed differently in a corresponding manner, but the one shown in FIGS. 2a to 2c illustrated principle can be retained.

According to FIG. 3, the propellant charge 3 and the dam 4 are arranged in the common, easily destructible shell 5 and are supported by the cover disk 6, which again is analogous to the exemplary embodiments in FIG. 2a to 2c can be formed, separated from one another. The casing 5 is extended to the rear by the piece 5a for the eventual inclusion of the additional dam 17, which, like the dam 4, is formed with a central hole 8a

According to FIG. 4 is the additional damming as a plug with shell 18, closure or stop disk 19 and Powdery additional insulation compound 20 is formed and inserted into the channel 8 of the dam 4. By choosing an appropriate oversize of the plug diameter in relation to the diameter of the cross-section of the channel 8, a more or less firm press fit can be achieved and thus additionally influence the gas pressure curve of the propellant charge in the desired way for additional damming mass.

1 sheet of drawings

Claims (8)

Patent claims: 1. Damage for the projectile propellant charge in recoilless guns, with loose in a light powdery sealing compound housed in a destructible shell and with a reduction in cross section compared to the launch tube, characterized in that the cross-section reduction than at least one in the direction of the axis of the launch tube (I) through the Damming compound (4) passed through and lined with a thin, easily destructible shell Channel (8) is formed 2. Dam according to claim 1, with an on known single central channel, characterized in that the central channel (8) a Has diameter that is between about a quarter and half of the clear diameter of the Launch tube (1) is 3. dam according to claim 1 or 2, characterized in that in front of the sealing compound (4) is arranged after the propellant charge (3) to form a cover plate (6) made of metal, plastic or the like 4. dam according to claim 3, characterized in that the cover plate (6) the clear pipe cross-section completely spanned 5. dam according to claim 4, characterized in that the cover plate (6) with predetermined breaking grooves formed at least approximately in accordance with the contour of the cross section of the channel (8) or the like. Is provided. 6. dam according to claim 5, characterized in that the cover disc (6) with im non-perforated area of the propellant-side face of the damming compound (4) extending, the disk into a number of preferably equally large areas subdividing further Breakaway grooves, recesses, perforations, weakened zones or the like. Is formed 7. dam according to claim 6, characterized in that between the cover plate (6) and the propellant charge-side end face of the damming compound (4) and possibly also between the propellant charge (3) and the cover disk (6) an additional disk (7) made of metal, plastic Od. The like. The one with the clear cross-section of the channel (8) of the sealing compound is arranged (4) matching perforation and in the non-perforated area of the propellant charge-side end face the damming compound (4) extending, the additional disk (7) in a number preferably Has predetermined breaking grooves or the like dividing equal areas. 8. Dam according to one of claims I to 7, characterized in that in the channel (8) of the Damming compound (4) in an easily destructible shell over at least part of its length housed powdery additional insulation compound (20) is used