DE1220182B - Device for determining the distance-time ratio of a projectile that is long in relation to the length of the launch tube - Google Patents

Description

Device for determining the path-time ratio of a related on the length of the launcher tube long projectile The invention relates to a device for determining the path-time ratio of a with respect to the Length of the launch tube long projectile, especially for recoilless weapons. The device has one arranged on the launch tube near its muzzle Coil in which a ferromagnetic to be fired from the launch tube Projectile, in particular a test projectile, when emerging from the muzzle Causes a change in the field, which induces an electrical voltage in the coil, the time course of which is made visible by an oscilloscope or the like.

In the German patent specification 318 163 is a device for measurement the muzzle velocity of projectiles described in several, one after the other on the tube arranged coils through the projectile successive path impulses be induced. It concerns here the detection of the projectile speed in a gun barrel, d. that is, the projectile is short in terms of barrel length. The temporal position of the path impulses can be determined with some precision, because the field change in the coils when the short projectile passes through is relative done quickly. For measuring the travel-time ratio of a pipe length long storey, this facility is not suitable because in this case there is no sharp impulses that are precisely defined in terms of their timing are generated.

Furthermore, in the French patent 1 302233 a measuring device described for the projectile velocity, in which on the muzzle a with two coils provided frame is placed, the projectile through the coils flies through. The projectile is provided with a guide ring Passage through a coil in which a displacement pulse is generated. For a flawless Works of this device are both multiple coils and one in its cross-section stepped storey required.

The set-up is complex and has not established itself in practice can.

This also applies to the similarly constructed measuring device according to French patent specification 1 156 907. Here the projectile flies through a frame, at both ends of which air coils are arranged, and thereby induced in the coils a measuring voltage. This facility is also poorly suited for long storeys, because in this case the coil spacing will be large and the frame will be relatively long got to.

Finally, there is a device in German patent 620161 for the inclusion of pressure-time diagrams, in which the projectile when leaving of the pipe touches a wire and thus closes a circuit. In the pressure-time diagram a way marker is generated, which shows the exit time of the floor marked from the muzzle. This facility is used to record distance-time diagrams but not suitable.

The object of the invention is to provide a device for determining the To create a way-time ratio of the type mentioned, which can be used for weapons where the projectile is long relative to the length of the launch tube. According to the invention is proposed for this purpose, the projectile body in a known manner with several To provide gradations that occur when stepping out of the muzzle in the coil induce a pulse each time.

The invention is shown below with reference to one shown in the drawing Embodiment explained in more detail. It shows F i g. 1 a launcher with a device according to the invention from the side and partially cut, FIG. 2 the half profile of a test bullet according to the invention and FIG. 3 an oscillogram, obtained with a device according to the invention.

In Fig. 1, an ignition device 2 is provided on a launch tube 1, by means of which an additional charge 3 of a propellant charge 4 can be ignited. The propellant charge4 is stuck in a projectile 5, which has the same weight as a combat projectile of the same caliber and is designed as a test projectile. This test projectile 5 consists of ferromagnetic Material and is axially magnetized, a head 6 z. B. as north, a stern 7 as South Pole.

One does not protrude closer into an ignition channel 8 of the ignition device 2 here illustrated measuring probe 97 which as the pilot flame beam sweeps past via a double line 10 to an oscilloscope 11, d. H. its horizontal deflection gives a start impulse. To the vertical deflection of this oscilloscope 11 is a Connected line 12, which comes from a coil 13 which is on the launch tube 1 is arranged close to the muzzle 14 thereof. As can be seen from the figure, the projectile 5 is inserted into the barrel 1 approximately up to the stop on the head 6.

In particular, FIG. 2 shows that the test projectile 5 has several stages or has punctures.

These gradations are labeled A to E.

3 shows a section from one with the oscilloscope 11 according to Fig. 1 recorded oscillogram. Denoted at 15 is a diagram which Field strength fluctuations at the muzzle 14 when firing, d. H. during the bullet path reflected in tube 1. Corresponding to levels A to E of test floor 5 in F i g. 2 are the deflections of the beam generated by the coil 13 in the diagram 15 denoted by a to e. A curve 16 shows a means which is not illustrated in any more detail here Means on the oscilloscope simultaneously written gas pressure diagram in a second track. This has its rising edge at f and its peak at g - correspondingly for example 1000 kg / cm2 -and shows the burnout of the Propellant charge 4 (Fig. 1).

At an ordinate 0, the two rays 15 and 16 begin from controlled by the probe 9 (Fig. 1) to write when the pilot jet passes through the channel 8 advances to additional cargo 3. As FIG. 3 illustrates, one now elapses some time until a pressure increase occurs. Then the floor 5 (Fig. 1) in motion. At point a of FIG. 3 there is a deflection that of the step A of the floor 5 (Fig. 2) corresponds. Step B emerges from the muzzle 14 off, point b is registered. The grooves C and D, which for example can be used to insert sealing rings made of non-ferromagnetic material, are visible in the lane 15 by two points, d, and when stepping through the stern 7, d. H. of level E, the jet at e (Fig. 3) will jump again strongly up. The points a to - e) thus form rough waypoints. Since their assignment to the form of the projectile 5 can be determined by static preliminary tests and the dimensions of the test projectile 5 or any other projectile are known, can precisely determine the path-time ratio of the projectile in the tube from the marks.

Instead of axially magnetizing the projectile 5, could during the measuring process a quiescent direct current also flows through the coil 13 itself. The DC voltage would then be the change in the field when exiting levels A to E of the storey 5 superimposed pulses generated from the muzzle 14 and would be in the same way measurable as in the example. This path-time diagram 15 as well as the one written at the same time Pressure diagrams can be recorded photographically in the usual way. The speed the horizontal deflection of the beam is set so that at least the period from the ignition to the exit of the projectile rear 7 is fully covered.

Claims (1)

Claim: Device for determining the distance-time ratio a long in relation to the length of the launch tube, especially for recoilless weapons, with one placed on the launch tube near its muzzle Coil in which a ferromagnetic projectile to be fired from the launch tube, in particular a test projectile, a field change when stepping out of the muzzle causes which induces an electrical voltage in the coil, its time Course is made visible by an oscilloscope or the like, characterized in that that the projectile body (5) several cross-sectional gradations in a known manner (A to E), which when stepping out of the barrel mouth (14) in the coil (13) induce one impulse each time. Considered publications: German Patent Specifications No. 318163, 620161; French patents nos. 1 156 907, 1302233.