DE1578139B1 - Device for correcting the trajectory of a projectile - Google Patents

Description

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The invention relates to a device for Kor- moment a predetermined pulse on the Ge

reaction of the trajectory of a projectile that fired, with which the trajectory of the

turns when going through this trajectory and changes a shot practically instantaneously in this way

has remotely triggered detector, which is the Ausbrin that this with greater accuracy to the target

Gen of correction means from the coat of the Ge 5 flies.

shot causes. According to the invention, this object is thereby achieved the German patent 361016 is a than solves that a roughly in the center of gravity of the projectile Shrapnel or grenade-acting artillery projectile perpendicular to the projectile axis with an auxiliary charge unknown, in which part of his coat with z. B. firable auxiliary storey is provided in a is fired by cutting open along the longitudinal meridians, in provided wings, which during part of the direction of the firing of the auxiliary projectile against Trajectory held immobile and only after over the target deposition direction from the trajectory of the Course of a certain period of time after the projectile has been fired in the opposite direction, with the aid of the Projectile projectile through destruction or disposal and auxiliary charge are dimensioned so that the a locking organ is suddenly released 15 new trajectory of the projectile after firing den, so that they come closer to the spread. The locked organ can be experienced by means of a target.

Drilling charge be destructible ring. This known in an advantageous manner, it is possible to make a large However, the correction device only has the we-range of angle corrections in the flight path kung that an increased air resistance is generated, to carry out 20. The device consists of one thereby creating the trajectory in a predetermined very small number of items, so that the farthest point Position costs are low when the angle of fall is increased. The small number of will. So it can only be a change of the individual parts also leads to a simple structure Fall angle can be achieved. the device. The new path of the storey will be

From the German patent specification 1215 554 is a 25 through the resultant of two perpendicular to a control device determined for a rotating speed vector in the flight path, of the projectile with two opposing control- whereby the first vector by the driving force of the known areas, which is generated under the action of a control projectile motor and the other by signals from the bullet jacket into the air - the propelling force of the auxiliary bullet. The ejection electricity can be brought. Such a correction of the auxiliary bullet takes place practically in the same way tion device can essentially only a moment in which the command empaerodynamische Correction of the flight path is made, this moment leading to an angle will. Such a correction is not a position of the bullet in which the instant correction and it is for the execution speed vector of the auxiliary bullet in one For the correction of the correction, a longer period of time is required in which the axis of the projectile and the borrowed, which is very disadvantageous. Target point lies. The speed vector of the

It has also already been proposed that the auxiliary floor can also be designed in one plane with a transverse drive device that is somewhat different from this one, so that at a certain moment in a certain other influences, such as those for a certain In the direction of ejecting a gas mass in such a way, 40 discharge of the auxiliary projectile required time and that the angle of inclination of the projectile can be changed quickly shifting the target point after triggering, whereby a change in the path of the impulse can be taken into account,
is achieved. Such a transverse drive device is important, however, that the speed of the is not reliable since, on the one hand, the mass projectile remains variable during the passage of the path of the disproportionate amount of gas emitted to the mass 45. For this reason, in one of the projectile and thus the size of the force generated by the preferred embodiment, the projectile an ejection force are very low and there is a drive motor whose driving force is so besides the way in which this force is sen that the Air resistance which is used at the beginning leads to greater inaccuracies. speed of the projectile moving forward. In a preferred embodiment, the shaft of the projectile has a tubular section in another direction of the shell of the projectile. The path correction requires a longer 55 with great strength, which by an intermediate time, the size of the change in direction wall is divided into two chambers and the longitudinal axis can not be determined with sufficient accuracy of one arranged in this partition wall. Blind hole runs to the longitudinal axis of the projectile

In addition, in these known devices it is approximately vertical and takes up one chamber

that the explosive charge of the projectile is generated by the gas ejection, the other

Rotation of the projectile around its center of gravity mer the drive motor of the projectile and the

by generating a counterforce back to zero blind hole the auxiliary projectile, the auxiliary charge and a

respectively. This in turn opens the ignition capsule exactly. This creates a particularly

Reduced the ability of a path correction to create a multi-faceted and robust structure,

can be performed and it is a very complicated 65 In a further special embodiment

Structure of the storey required. of the invention, the tubular portion of the

The invention is based on the object of the projectile means from the ends or from points that are in

to create, with which lie at a predetermined a certain distance from these ends,

Claims (4)

3 4 a wall thickness F i g increasing towards the intermediate wall. 3, in addition to the exhibit. torvZ shown airspeed component The invention is to be explained in the following description with the occurrence of the transversely directed pulse, an additional explanation represented by the vector w 2 with reference to the figures of the drawing. It shows 5 speed components, which result from the relative F i g. 1 shows a schematic longitudinal section, tive speed wl of the auxiliary projectile 14 F i g. 2 is a sectional view taken along FIG. Line II-II of FIG. 1 and floor 1 therefore flies with a resulting 3 shows a schematic representation of the flight speed, the vector ν2 of which corresponds to t change of course. io drew a path which at least approximated to the In the F i g. 1 and 2 is a floor 1 with a goal leads, tangents. Jacket 2, a head 3 and collapsible It should be noted that it is necessary that the out-stabilizing fins 4 shown schematically. The detachment of the detector 18, i. H. so the ignition of the Shell 2 consists in this example of a tubular auxiliary charge 13 for ejecting the auxiliary projectile shaped cut 5 of great strength, which is made by a 15 14 exactly at the moment in which the Vek- Partition wall 8, the longitudinal axis of which AA to the longitudinal gate wl, which the speed of the auxiliary floor axis BB of the projectile is approximately vertical, represents, lies exactly or approximately in the plane, is divided into two chambers 6 and 7. which is the longitudinal axis BB of the projectile and In the example shown, the chamber takes 6 if the target point contains ο. the explosive charge 9, generally a shaped charge, 20 Deviations and / or tolerances are imposed here. The chamber 7 accommodates a device, centrally approved, which is determined by the firing conditions depending on which the projectile moves with a constant trajectory. The ignition of the auxiliary charge 13 can move speed can. In this example, as required in any other position of the Vekwird for this purpose a drive motor 10 verwen- tors carried wl. det. A blind hole 11 is formed in the intermediate wall 8. With such a projectile, a ratio can be formed, the longitudinal axis of which coincides with the axis AA by means of relatively simple means with a very good accuracy. can be achieved. The main parameters that In this blind hole 11 are at least one ignition influence the accuracy, can with capsule 12, an auxiliary charge 13, an auxiliary projectile 14 are determined in advance with sufficient precision, and, if necessary, a cover 15 is arranged. 30 assuming, of course, that the fire Preferably, the tubular portion 5 is so weapon is aimed precisely at the target. The target designed that it, especially in the plane, at an angle at which the detector determines the target It is known that the impulse is effective and provides increased strength. The size of this target drop angle having. determines the angular size of the flight path change, In a further embodiment, the tubular 35 which corresponds to the projectile, which is associated with known, con- Section 5 a variable wall thickness on which constant speed moves, can be granted with this wall thickness of the two ends 16-17 must. The size of this correction is sufficient with or of bodies that are reproducible at a certain distance from the approximation, since the resultant the ends, gradually increasing towards the middle. during the ejection of the auxiliary projectile 16 The bottom of the blind hole 11 is also formed in such a way that 40 focuses on the center of gravity G of the main floor. that a perfect strength is achieved. acting reaction forces with sufficient The projectile head 3 contains, among other things, a known accuracy, with the focus in one Detector 18, the structure of which is postponed to the selected control extremely short period of time. Be it rungsart, d. H. of the kind emitted by the transmitter notices that the driving force of the drive motor 10 Waves, corresponds. 45 is chosen in such a way that it Various detectors are already known that have at least an approximate effect of air resistance which by means of electromagnetic waves, compensates for heat, if this coincides with the initial Radiation, rays of light, etc. also move at great distances. As a result, the can be operated remotely. Lateral correction angle caused by the The projectile head 3 has a spherical, acute pulse of the auxiliary projectile comes about, for all- arcuate or similar protective cap 19. It kept phases of flight unchangeable can be a translucent one for the protective cap 19. or impermeable material can be used, the device described can also be used in other which, however, for the shafts, which correspond to the schematic embodiments with corresponding detec- table at 18 must reach the detector shown, 55 gates are used in which the through the must be permeable. Auxiliary floor generated pulse z. B., the rotation In particular, known plastic work speed of the bullet around its axis can be fabrics are used. drops off. The mode of operation is as follows: When firing, in general, each projectile is equipped with a large amount of charge and a single auxiliary projectile at a point near the target. However, it is also possible per main course. At a certain point in the path of the shot several auxiliary projectiles with auxiliary charges to projectile 1, the detector is used in a known manner, insofar as this triggers the described conditions by, for. B. a wave train, or meet a conditions.
The bundle of waves is aimed directly at the projectile, 65 or by these waves z. B. through the goal of ieflek patent claims: or in any other suitable manner. 1. Device for correcting the flight path At this moment the projectile receives, as in a projectile, which is when passing through this trajectory rotates and has a remotely triggerable detector, the application of correction means effected from the shell of the projectile, characterized in that a transverse approximately in the center of gravity (G) of the projectile to the projectile axis with an auxiliary charge (13) fireable auxiliary projectile (14) is provided, the is fired in one rotation position of the projectile in which the shooting device of the auxiliary projectile (14) Opposite to the target deposition direction from the trajectory of the projectile runs, with auxiliary floor (14) and auxiliary charge (13) are dimensioned so that the new The trajectory of the projectile after the auxiliary projectile (14) has been fired a greater approximation to the goal. 2. Apparatus according to claim 1, characterized in that the projectile (1) has a drive motor (10), the driving force of which is such that the air resistance of the with the initial speed of the moving projectile at least approximately balanced and thus when the auxiliary projectile (14) is fired for all phases of the flight unchangeable transverse correction angle arises. 3. Device according to one of claims 1 or 2, characterized in that the jacket (2) of the projectile (1) has a tubular portion (5) with great strength, which by an intermediate wall (8) in two chambers (6,7 ) is subdivided so that the longitudinal axis (AA) of a blind hole (11) arranged in this partition wall is approximately perpendicular to the longitudinal axis (BB) of the projectile (1) and that one chamber (6) contains the explosive charge (9) of the projectile, the other Chamber (7) the drive motor (10) of the projectile and the blind hole (11) accommodate the auxiliary projectile (14), the auxiliary charge (13) and a detonator (12). 4. Device according to one of claims 1 to 3, characterized in that the tubular Section (5) of the projectile from the ends (16-17) or from places in a certain Distance from these ends, a wall thickness increasing towards the intermediate wall (8) having. 1 sheet of drawings