DE2149977A1 - BULLET FOR PRACTICE AMMUNITION - Google Patents

Description

Projectile for practice ammunition The main patent (German patent application P 16 78 197.8) deals with a projectile for training ammunition, which is attached to his front end is provided with a spin braking device. This spin retardant Device can, for example, as a blind hole-like starting from the front floor end Central bore be formed, which with its rear end about symmetrically to each other arranged outflow channels is connected to the projectile jacket.

The effect of the spin-braking device is to reduce it the rotational energy of the spin-stabilized projectile in such a way that the projectile after flying through the exercise area, the one required for spin stabilization Has fallen below the minimum speed and is consequently unstable. The projectile begins to tumble, eventually pivots 180 ° perpendicular to its axis of rotation and flies on with the projectile tail ahead. But that is one through the training of the projectile tail controllable increase in air resistance, which is a corresponding curved trajectory and thus a shortened one in the desired manner maximum range of the projectile result.

With such a training it is achieved that the Ubungsmuni tion can be used largely in the same way as live ammunition.

The training floor initially shows the same external ballistic behavior and consequently the same trajectory as the live ammunition projectile, so that in accordance with the repeatedly raised demand for the use of practice ammunition the same sight setting as can be used for live ammunition. But at the same time it is maximum range smaller than with a sharp one Ammunition, so that the training bullet is versatile even on shooting ranges with smaller Security area can be used.

Now that it has been recognized that this spin-braking device is basically acts like a centrifugal compressor, whose energy requirement is due to the rotational energy of the projectile is covered, is provided in an expedient development of the invention, in the case of a projectile of the type explained at the beginning, the central bore and the outflow channels according to the known principles of centrifugal compressors with radial impellers to train. This makes it dependent on the given external ballistic Data of the projectile possible, as well as the discharge channels acting like a radial runner Central bore ton from the start, i.e. without lengthy experiments to be designed so that the decrease in the rotational energy and thus also falling below the stability limit of the floor in a predetermined manner.

It is generally expedient in accordance with a further proposal of the invention, the clear diameter of the central bore between about 10 and about 40 s of the bullet caliber should be selected, since a smaller clear diameter reduces the flow a sufficient amount of air through the central hole in question and a larger clear diameter with correspondingly shorter outflow channels can undesirably reduce the energy transfer to the outflowing air.

In order to allow the air to flow out of the central bore as freely as possible To ensure, it is advantageous, according to another proposal of the invention the clear inlet cross-section of all outflow channels together by at least to choose about 20% larger than the clear cross-section of the central bore. The drainage the air is also favored if, according to the invention, the outlet openings of the Outflow channels are arranged in the cylindrical part of the projectile jacket to a if possible large pressure gradient for the air flow through the central bore and the outflow channels to get through. About the influence of any asymmetrically acting transverse forces to keep as low as possible due to the air flow through the projectile, can also be provided that the outflow channels at least approximately in To form the area of the cross-sectional plane determined by the center of gravity of the storey.

In this way it is possible to avoid the resultant balanced lateral flow forces within, for example, in a Exhaust ducts lying flat or on a conical surface, at least approximately to attack in the floor focus, which makes any tilting moments in more advantageous Can be reduced in size or excluded entirely.

The projectile itself can in principle, for example, in one piece Casting are made. However, in order to keep the manufacturing effort as low as possible, is provided according to the invention, the projectile in the area of the outflow channels Way to share that one part with a pin in a corresponding recess the other part engages, and the outflow channels each as two vorzugswelse against each other to form inclined partial bores arranged in the pin and in the wall of the recess. According to a further proposal of the invention, in particular Sür A mass production will also be provided, the discharge ducts in a special to form a separate component, the one with the projectile in the area of the rear end the central bore is connectable.

The rigid connection of the two storey parts with each other or

of the radial impeller manufactured for itself with the one in the area of the rear end of the central bore split projectile can be done in a known manner Depending on the circumstances, for example the materials used or the on forces acting on the projectile, by frictional engagement in the manner of a press fit or also by means of a screw-pin, adhesive, welded, soldered connection or the like. Of course, there is no division of the storey if the central bore is guided to the rear of the projectile, so that the radial impeller is easy to be attached to the stern.

With a view to the smallest possible turbulence from the central bore Air entering the outflow channels is expediently at the rear end of the Central bore a deflecting mandrel with a cross-section that increases in the direction of flow arranged. For example, this can have a conical shape, the Base diameter corresponds to the diameter of the central hole. Preferably is but thought of the deflection mandrel in its acted upon by the air flow Form part with a concave surface.

The invention is shown in the drawing in exemplary embodiments and is explained in more detail below on the basis of this.

1 shows a projectile in longitudinal section, and FIG. 2 shows another projectile also in longitudinal section, FIG. 3 shows a cross section of this projectile according to FIG Line III - III in FIG. 2, FIG. 4 shows a section of a projectile with inserted Radial impeller in longitudinal section, Fig. 5a + 5b this radial impeller in plan view and in the view and FIG. 6, another radial impeller in cross section.

The training bullet manufactured in one piece according to FIG. 1, e.g. by casting 1 of the caliber D2 has the central bore 2 with the clear diameter D1 and the Outflow channels 3. The outflow channels have a height of h1 at the inlet and a height of h1 at the outlet the Heighth2. At the rear end of the central bore 2 is the rotationally symmetrical one Deflection mandrel 4 molded in one piece, the outflow channels 3 are approximately in the area the cross-sectional plane determined by the center of gravity of the storey, so that any Transverse forces due to the air flow indicated by the arrows A are only slight Have influence. The projectile 1 is made of steel, brass, aluminum in a known manner or the like

manufactured.

The projectile 1 shown in Figure 2 is in the area of the outflow channels 3 - of which only one is shown for technical reasons - in the manner divided that the rear part 5 with a pin 6 in a corresponding recess of the front part. 7 intervenes. Both parts are connected to one another by means of a screw thread tied together. In the rear end of the central bore 2 is made of manufacturing technology Reasons separately manufactured, shown in the view deflecting mandrel 8 used and in its position by means of the collar 9 and the base piece screwed into the rear part 5 10 held.

The surface 15 of the deflecting mandrel acted upon by the air flow 8 is concave and rotationally symmetrical. The rear part 5 has the annular Guide band 11 made of, for example, copper, brass or lead, the better Sealing in the barrel of the weapon is used. In the bottom piece 10 is also here Tracer cartridge 12 inserted, while the front part 7 the target marker charge 13 has. Of course, instead of the tracer cartridge 12 and / or the Target marking charge 13, of course, an impact explosive charge or the like. Provided be. The projectile tip 14 can, for example, made of plastic, or aluminum made of steel. The choice of material depends on the weight, that you want to give the projectile and then whether a pyrotechnic target marker it is asked for. In this case, the projectile tip is expediently made of one easily deformable material made, preferably polyethylene or aluminum.

The cross section of the projectile shown in Figure 3 along the line III - III in Figure 2 shows the division of the outflow channels 3 on the pin 6 and the front part 7 in two mutually inclined partial bores 16 and 17 rotates the spin-stabilized projectile counterclockwise according to arrow B, this causes the inclination of the partial bores 16 and 17, which is provided in the same sense against each other the greatest possible twist braking. Of course, depending on the required braking effect but also an inclination in the opposite direction can be provided or both partial bores can be arranged in alignment with one another, so that the outflow channels are directed purely radially0 According to FIG again divided into rear and front part 5 and 7, the projectile 1 produced separately therefrom Impeller 18 used. The radial impeller 18 is in the rear part 5 with the pins 19 fixed. The rear and front parts 5 and 7 are connected to one another by means of the thread 20. In the front part 7, the outflow channels 3 formed in the radial impeller 18 are assigned Breakthroughs 21 are provided to enable the air to flow out to the side. In contrast to FIG. 2, the front part 7 has the bullet tip (not shown) manufactured in one piece.

The radial impeller 18 of FIG. 4 shown in FIGS. 5a and 5b has the six radially arranged blades 22 in an even distribution, between which the outflow channels 3 are formed. The height of the blades 22 increases from the inside to the outside, while their distance from one another increases towards the outside. Both parameters are matched to one another in such a way that the resulting increase in cross-section the outflow channels 3 just allow the desired influencing of the air flow.

The radial flow wheel 18 is preferably made of a metal, that can be processed in the fuel pouring process, such as aluminum, target alloys or the like

In the figure 6 a slightly differently designed radial impeller 23 is shown, in cross section near the lower end of the deflecting mandrel 4. The blades 24 are curved like turbine blades. The connection with the storey parts can as shown in Figure 4, of course, but also in other known ways Way.

As a numerical example for a twist-stabilized exercise floor with a shortened Range according to the principles explained above is a projectile here with the caliber D2 = 105 mm, the muzzle velocity is about 800 m / s and its peripheral speed at the muzzle of the weapon is about 30 m / s is of the same order of magnitude as is generally the case with centrifugal compressors. the Pressure difference between the bullet tip and the cylindrical area of the bullet jacket is depending on the design of the tip 2 up to about 1 kp / cm2. This floor should fall below the stability limit after about 1,500 m firing range and then fall to the ground as quickly as possible. Based on projections, Figures 2 and 3 for the outflow channels 16, 17 four bores with a diameter of 12.5 mm and an articulation angle of 450 with a clear diameter of the central bore 2 of D1 = 30 mm provided. With shooting attempts carried out in practice with this projectile was based on photographic recordings of the projectile trajectory about 1500 m discrepancies were found, which are due to the unstable flight of the projectile and the required shortening of the maximum range of the Projectile resulted.

Claims (9)

Claims 1. Projectile for practice ammunition, with a spin-braking device in the form of an outgoing end from the front floor with its rear end over symmetrically arranged outflow channels connected to the jacket Blind hole-like central bore (German patent application P 16 78 197.8), d a d u It is noted that the central bore (2) and the outflow channels (3,16,17) according to the known principles of centrifugal compressors with radial Impellers are formed. 2.) Projectile according to claim 1, characterized in that the light Diameter of the central bore (2) between about 10 and about 40% of the bullet caliber amounts to. 3.) Projectile according to claim 1 or 2, characterized in that the clear inlet cross-section of all outflow channels (3, 16) together at least is at least about 20% larger than the clear cross-section of the central bore (2). 4.) Projectile according to one of claims 1 Es 3, characterized in that that the outlet openings of the outflow channels (3.17) in the cylindrical part of the projectile jacket lie. 5.) Projectile according to one of claims 1 to 4+, characterized in that that the outflow channels (3, 16, 17) are at least approximately in the area of the center of gravity of the projectile certain cross-sectional plane are formed. Projectile according to one of Claims 1 to 5, characterized in that that the projectile (1) in the area of the outflow channels (3,16,17) but divided into catfish is that the one part with a pin (6) in a corresponding recess of other part engages and further characterized by that the outflow channels (3) each as two preferably mutually inclined in the pin (6) and formed in the wall of the recess arranged partial bores (16,17) are. 7.) Projectile according to one of claims 1 to 5, characterized in that that the discharge channels (3) are formed in a special component (18, 23), which can be connected to the projectile (1) in the region of the rear end of the central bore (2) is. 8.) Projectile according to one of claims 1 to 7, characterized in that that at the rear end of the central bore (2) a deflecting mandrel (4,8) with in the direction of flow is arranged with increasing cross-section. 9.) Projectile according to claim 8, characterized in that the deflecting mandrel (4,8) has a concave surface (15) acted upon by the flow.