DE1195203B - Propellant charge with rearward damming for recoilless weapons - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. α .:

Number:
File number:
Registration date:
Display day:

F07f

German class: 72d-2

1195 203
D40556Ic / 72d
December 20, 1962
June 16, 1965

The subject of the main patent is a propellant charge for recoilless weapons with both sides open launch tube, which can be made from dust or powder to a one-part or multi-part Body pressed dam and the projectile is arranged, the dam with at least an axial passage is provided which allows the propellant gases to flow out over the whole Length of the dam allows to the rear, even before the dam reaches the rear muzzle of the weapon leaves and disintegrates again to dust or powder, according to patent 1172,989. This training the dam is used to reduce the maximum gas pressure in the weapon when firing and to delay the discharge of the dam and the pressure drop.

If propellant charges are stored for a long time at low temperatures, it is known that their effective energy content when fired is lower. The gas pressure required to achieve the required or desired V _{0 of} the projectile is no longer achieved. This can be taken into account through special brands or settings in the target device. The aim, however, is to keep the floor's _{F 0 constant.} In principle, this would be possible, for example, by increasing the charge at low temperatures. However, since the propellant charge space is completely tightly sealed in the case of the propellant charge of the type described above, this measure cannot be achieved with simple means. In the case of propellant charges with rearward dam, there is, however, the possibility of influencing the V _{0 of} the projectile by changing the weight of the dam, since, as is known, the ejection speed of the projectile increases with the damming weight.

In contrast, the object of the present invention is to reduce the gas pressure in the cold Raise weapon when firing, d. H. to raise to the target pressure.

According to the invention, for this purpose the dam of a propellant charge according to the main patent should be provided with additional blocking means, which enable an optional reduction in the intended flow cross-section of the gases. In the case of propellant charges, the damming diameter of which is smaller than the inside diameter of the pipe, a reinforcing bead or bandage can be provided, for example, on the circumference of the damming body when it is cold or torn off when hot. Due to this cross-sectional constriction for the gases flowing backwards, the propellant charge increases when the propellant is fired with a rearward dam
recoilless weapons

Addendum to the patent: 1172 989

Applicant:

Diehl, Nuremberg, Stephanstr. 49

Named as inventor:
Edith Schweickert, Nuremberg

Maximum pressure and the desired V _{0 is achieved} even in cold weather without any significant change in the mass of the dam. In the case of a damming body which has at least one axial passage opening to reduce the cross-section, a sealing plug or a sealing disk can be provided as an additional locking means, which can be optionally removed or pivoted or rotated into an inoperative position.

In order to obtain the correct gas pressure in each case, the contactor in the first embodiment Before introducing the propellant charge into the tube, tear off the bead or bandage in poor weather. In the second example mentioned, he can turn the disc to a greater or lesser extent depending on the outside temperature or remove one or more plugs.

In order to free the shooter from this task, the additional locking means can also be temperature-dependent Be assigned control elements. These can, for example, correspond to the bimetal regulators be constructed, but preferably consist of easily melting, evaporating or known Way combustible materials, especially plastics with different expansion coefficients.

To regulate the diameter of the dam as a function of the temperature can be in a Groove on the circumference of the dam, a ring can be provided, which consists of an inner ring and low an outer ring with a larger expansion coefficient. At least the two rings are on. some Points, especially at the ends, welded to one another or to one another by means of an adhesive tied together. So as not to leave a gap, you should

509 580/53

the ends overlap, that is, for example, be loosely displaceable next to one another, offset in width. The different expansion coefficients ensure that the outer ring contracts more than the inner ring at low temperatures, and the ring diameter is consequently larger. When heated, the outer ring expands more than the inner ring, and the entire ring closes. By appropriate selection of the coefficients or to be joined together materials at the respective correct adjustment over a temperature range, for example -20 to +40 ⁰ C can be achieved. At very low temperatures the ring, which is made of plastic, for example, acts as a cover, at higher temperatures it contracts. When it is very hot, the ring disappears completely in the groove of the dam.

When regulating the oil flow cross-section via a disk, the disk can be controlled by a Thermal control member can be rotated or pivoted. A rod that consists of twisted material consists of different expansion coefficients and with one end, for example is fixed in the dam, while its other end engages the disc and this as Moves in a closing sense at falling temperatures, in an opening sense at rising temperatures.

Claims (7)

Patent claims: 1. Propellant charge for recoilless weapons with launch tube open on both sides, which between a dam pressed from dust or powder into a one-part or multi-part body and the projectile is arranged, the dam having at least one axial passage is provided that an outflow of propellant gases over the entire length of the dam to the rear before the damming leaves the rear gun muzzle and disintegrates again to dust or powder, according to patent 1 172989, characterized in that that to increase the gas pressure in the weapon when shooting in the cold, the damming is provided with additional locking means that the intended passage cross-section of the Partially reduce gases. 2. Propellant charge according to claim 1, wherein the diameter of the dam is smaller than that The inside diameter of the pipe is characterized by one on the circumference of the damming body Reinforcement bead or bandage that can be placed or torn on when cold and torn off when heated. 3. propellant charge according to claim 1, wherein the dam at least one the damming cross-section having reducing axial passage opening, characterized in that the additional Blocking means as optionally to be attached to the dam body or to be removed from this plug or as an optional removable or in an inoperative position pivotable or rotatable disc are. 4. propellant charge according to claim 1, characterized in that the additional locking means by temperature-dependent control elements, which increase the cross-section of the passage as the temperature increases can be enlarged, engaged or disengaged. 5. propellant charge according to claim 1 and 4, characterized in that the cross-section change in a groove on the circumference of the dam at least one end overlapping ring is provided which consists of Materials with different expansion coefficients, an inner ring made of material lower and an outer ring made of material with a higher expansion coefficient, which two Rings are welded to one another or connected to one another by an adhesive. 6. propellant charge according to claim 3 and 4, characterized in that the temperature-dependent Control element is a rod made of twisted materials with different expansion coefficients is attached to the dam at one end and at the other The end engages the disc and this pivoted or rotated. 7. propellant charge according to claim 1 to 6, characterized in that the control elements from one that melts or vaporizes due to the heating when the recoil gases flow through or material that burns in a known manner, in particular plastic. Considered publications:
British Patent Nos. 577 318, 577 319;
U.S. Patent No. 2,924,174. 509 580/53 6.65 @ Bundesdruckerei Berlin