DE4412257A1 - Automatic, revolver-like firearm, as well as a metal caseless projectile for such a firearm - Google Patents

Abstract

The invention relates to an automatic, revolver-like firearm having a barrel (1), a tubular magazine (2), a drum (3), a laser (6) which is arranged in the stock (5), an accumulator (8) and an electronic control device (9) which is accommodated in the weapon frame and in the handles, as well as a metal caseless projectile (10) for such a firearm. The object is to achieve a high rate of fire and very fast loading times. The tubular magazine (2) contains projectiles (10), stacked in five magazine tubes (11), having a projectile base (13) through which a laser beam can pass and having a firing charge (22) which is fired by laser pulses and initiates the combustion of the propellant charge powder (18). A plurality of projectiles (10), which leave the drum (3) and the barrel (1) without any coarse body residues, are fired successively in the rotating drum (3). After a specific final cycle, the electronic control device (9) causes all the drum chambers located under the barrel axis to be loaded simultaneously with new projectiles (10) from the tubular magazine (2), using the muzzle-loader principle. As a result of this rational cycle (firing of a plurality of rounds successively, avoiding having to get rid of cartridge cases, and simultaneous reloading of a plurality of projectiles) allows a theoretical rate of fire of 5600 rounds per minute to be calculated (Figs. 1 and 5). <IMAGE>

Description

The invention relates to an automatic revolver-type fire weapon for the firing of metal caseless bullets with a barrel, a tube magazine, a drum, an im Shaft arranged laser, a rechargeable battery and an elec tronic control device and a metallhülsenloses Projectile for such a firearm.

The invention is applicable to handguns as well Artillery weapons usable.

The basic structure of the revolver has been around since the time of Ein management of cartridge ammunition has not changed. As the well He is still the most reliable handgun from the US Police preferred. The most significant disadvantage of the revolver lies in the cumbersome removal of the empty cartridge case out of the drum. With the principle of swinging trom mel and the simultaneous removal of all Leerhül The development of the Revol ended with the help of an ejector star verse. This principle of drumming was still too much slowly, so that the revolver in the development of Maschi weapons was not considered.

According to DE-OS 38 10 048 is already a handgun and a cartridge known for this weapon, in which the ignition of the Cartridge by a laser arranged in the shaft or a Magnetron is done. The bottom of the cartridge, whose coat in known manner consists of brass, is from a hochfre  quente electromagnetic waves non-absorbing matter al, like glass or ceramic. The well-known hand fire weapon is provided with a conventional rod magazine.

The disadvantage of this known handgun and the Conventional machine guns is that the ver Cartridge ammunition used a Repetiervorgang for removal the empty cartridge cases and to reload after each shot requires. This has the consequence that the upper limit of the achie baren theoretical firing speed only at 1200 shot per minute.

The invention is based on the object of an automatic Revolver-type firearm of the type mentioned above as well a metal shell for such a firearm create a very high rate of fire and very achieved fast loading times.

According to the invention this object is achieved by the in the plate of claim 1 and 4 mentioned features. The advantages achieved by the invention are that a very high rate of fire is achieved, with the realizable short bursts of fire of five shots each Field of application up to 100 m are very effective. Very fast loading times are achieved because at the same time several storeys are loaded. By using metal caseless bullets eliminates an emptying of the drum and by saving a cartridge case, the propellant shorter, whereby in the tube magazine a larger number of floors can be introduced.

The invention is based on an embodiment be explained in more detail. In the accompanying drawing show:

Fig. 1 is a perspective view of the firearm according to the invention

Fig. 2 shows the middle part of the firearm with drum, barrel and tube magazine

Fig. 3 shows the section AA of Fig. 2

Fig. 4 is a perspective view of the rear part of the drum with trigger device

Fig. 5, the metallhülsenlose bullet for the inventive firearm.

As can be seen from Fig. 1, the inventive revol verartigen firearm includes a drawn barrel 1 , a tube 1 arranged below the barrel magazine 2 , a drum 3 to measure the metallhülsenlosen projectiles 10 , an electric drum drive 4 , a shaft 5 with a in this angeord Neten Pocket Nitrogen UV laser 6 , one of the laser 6 to Trom mel 3 led light guide 7 , an accumulator 8 for energy gieversorgung and arranged in a weapon frame and in the handles electronic control. 9

The drawn barrel 1 is executed as Revolverlauf with transition cone and screwed in the weapon frame. In this embodiment, the barrel 1 is designed for the caliber 357 Magnum. The barrel length is 10 "(254 mm).

The tubular magazine 2 has the same length as the barrel 1 and is posi tioned below the barrel 1 via a latching connection, so that it can be easily removed down. In Röh renmagazin 2 five magazine tubes 11 are formed, which together with the bore of the barrel 1 form a bolt circle, so that the magazine tubes 11 exactly to the opposite Trom melkammern 12 are aligned. The front distal end of Röhrenma gazins 2 is closed by a bottom. On this floor, a coil spring is arranged in each magazine tube 11 .

The metal sleeve-less projectile 10 shown in FIG. 5 has the same diameter on the projectile base 13 and on the projectile nose 14 . The projectile core 15 is formed as a partial jacket hollow point bullet (semi jacketed hollow point) with a mass of 7.1 to 7.8 g (110 to 120 grains). The projectile coat 16 may consist of Tombak or plastic. The projectile core 15 also has a strong hollow base. This excavation of the projectile core floor 17 serves to receive propellant powder 18 with the aim of making the propellant charge set as short as possible. Via an annular groove 19 in the lower part of the shell core 15 and a bead 20 in the interior of the plastic jacket 21 of the shell core 15 and connected to the Treibla dung powder 18 enclosing plastic sheath 21 together. This shell 21 consists of a specially developed for hül senlose projectiles in the US plastic material that burns with the propellant charge powder 18 and no coarse residues left in the chamber. With regard to the com pact projectile design is the propellant charge powder 18, the use of dibasic Nitroglycerinpulver or dreibasi gem Nitroguadinpulver ball shape (ball powder) preferred because of the high bulk density. The back of the Plastikman tel 21 with the laser-transparent bullet bottom 13 , z. B. polyethylene, air and water tight. The Ge floor 13 is inside like conventional primers with a SINOXID (registered trademark of Dynamit Nobel AG) -Zeitsatz 22 coated. This ignition charge 22 is protected by a cover 23 against abrasion by the propellant charge powder 18 . Due to this compact design, the total length of the projectile 10 can be reduced to about 25 mm compared to conventional ammunition.

In each magazine tube 11 can be several metallhülsenlose projectiles 10 with the projectile bottom 13 in the direction of the drum 3 introduce one behind the other. The fact that the diameter of the basement floor 13 and the projectile nose 14 are the same, damage to the basement floor 13 by other projectile peaks 14 is avoided and good stackability in Röhrenma magazine 2 achieved.

With a length of the tube magazine 2 of 254 mm and a projectile length of 25 mm results in a magazine capacity of 6 × 5 = 30 shot. With additional hand load of the drum, the firearm invention 30 + 6 = 36 shot. As is apparent from Fig. 2, 10 engage the inserted into the magazine tube 11 projectiles with a projectile edge 24 behind a resilient retaining hooks 25 a, whereby an automatic emptying of the tube magazine 2 is prevented. By a weapon frame located on the magnetic switch 26 , a loading button 27 of the tube magazine 2 is fixed, causing it to be moved axially against a compression spring and the five resilient holding hooks 25 are released. As a result, five metal sleeves loose projectiles 10 are simultane- ously catapulted out of the tube magazine 2 by their respective compression springs and the drum 3 loaded according to the preloader principle.

The drum 3 is rotatable and not swing out in the armed frame. By locking a drum lock 28 in a Trommelarretierungsnut 29 , the symmetry of the running and drum chamber axis is ensured. On the drum back are a drum base 30 , a Trommelbo denabdichtung 31 and a drum gear rim 32 or a Wel lenstumpf, which is in a sound with the electric drum drive 4 . The drum base 30 consists of a Stahlschei be with small holes 33 axially symmetric to the respective chamber. The bores 33 ensure the passage of the laser beam through the drum base 30 and reduce the force acting by the gas pressure on the underlying drum base seal 31st The drum bottom seal 31 provides the back seal of the drum 3 and prevents loss of the combustion gas pressure. It consists of tempered glass to allow the laser beam to pass through without loss of energy. At the radial outer edge of the drum base seal 31 control notches 34 are ground in an exact 60 ° division, which have an angle of 45 ° and are mirrored. About the control notch 34 is controlled by an optoelectronic control unit 35 , consisting of a light transmitter and a receiver, exactly the ignition pulse of the laser 6 .

Since in the projectile 10 used for the construction of a combustion pressure of 2500 to 3000 bar necessary from the reference resistance of the cartridge case is missing, the pairing drum chamber bore / projectile 10 is preferably carried out as a slight interference fit.

The drive or the rotation of the drum 3 takes place according to the following variants:

Variant 1: A lifting magnet moves a transport pawl, which moves the drum toothed rim 32 by one respective drum locking groove 29 . This corresponds to the mechanical drum trans port conventional drum turrets.

Variant 2: The electric drum drive 4 is designed as a stepping motor which, triggered by an electrical pulse, rotates the drum 3 incrementally by 60 ° in the direction of rotation ( FIG. 4).

Variant 3: The electric drum drive 4 comprises a motor which moves the drum 3 steplessly by 300 ° (= 5 shot), wherein the projectile 10 , which passes the barrel axis, is ignited by the laser 6 . Thereafter, the drum 3 stops, and five empty drum chambers 12 are loaded from the opposite tube magazine 2 after actuation of the magnetic switch 26 with five new floors 10 simultaneously. The engine starts again, etc.

In a drum rotation without stopping a correspondingly far reaching drum gap sealing surface must be present so that no pressure loss occurs when the active drum chamber 12 moves out of the barrel axis after ignition and the Ge shot 10 the barrel 1 has not yet left.

In the selection of an engine was from a measurement of the on running torque of a drum 3 when grinding Trommelarretie tion on a brand new revolver Smith & Wesson Model 686 assumed (18.9 mNm). The actual starting torque is likely to be lower because the drum lock does not grind when shooting begins.

A maxon DC motor 2326.945-12.216-200 with graphite brushes, 6 W; at 12 V starting torque = 24 mNm; Rotation speed: n = 5.450 min ^-1 at a continuous torque of 12 mNm, housing diameter: 26 mm, housing length: 45 mm.

The laser 6 is disposed within the shaft 5 and accessible after removal of the butt plate. The laser 6 is due to the unusual geometry of its housing a Spezialan production for this application. Otherwise it corresponds to a Pocket Nitrogen UV laser from LTB Lasertechnik Berlin GmbH. (Technology Park Adlershof):

Wavelength: | 337.1 nm Tension: 9.6 V or 12 V (internal 5.5 V) Max. pulse rate: 100 Hz Mass: about 2 kg

Attempts to ignite a primer (CCI primer, large pistol) showed that the necessary pulse energy of the laser must be at least 1 mJ. The laser 6 includes the laser tube, control elements, triggers, high voltage switches and high voltage generation elements.

From the laser 6 , a light guide 7 is guided to the barrel 1 opposite the drum chamber. The end of the light guide 36 includes the focus, which is set to the distance to the SINOXID ignition 22 in the floor 10 . An adjustable speed of focusing on the inside of Trommelbodenab seal 31 has the positive side effect that this Glasflä surface can be bombarded at regular intervals with the laser empty (without bullets 10 ), whereby a cleaning of smoke takes place by ablation. This eliminates frequent Rei nigen the weapon during use.

Between the time of the laser pulse and leaving the projectile 10 of the drum 3 passes a time of about 0.5 ms, in which the drum 3 rotates. This makes it necessary that the end of the light guide 36 together with the optoelektroni rule control unit 35 after the start of the electric Trom melantriebes 4 against the drum rotation against a spring is adjusted to a certain stop (ignition angle). For this purpose, the end of the light guide 36 and the optoelectronic control unit 35 are arranged together on a mounted on the drum axis control disk, which is adjusted in dependence on the engine speed against a spring to Vorzündpunkt (ZP) against the drum rotation direction.

The accumulator 8 is known as in cordless drills inserted into the lower part of the handle. This example shows a Herkules accumulator, 12 V, 1.4 Ah (10 cells). Qualitatively cheaper here would be a battery mulator from the company Panasonic, type VW-VBC4E; 9.6 V; 1.4 Ah, but can be adapted by its cuboid dimensions bad to the weapon. For this embodiment, a custom-made by a battery manufacturer would aspire to.

The electronic controller 9 coordinates the interaction of the individual weapon elements. There are three switch positions possible:

S - secured, all units are de-energized
E - single fire
F - continuous fire

The switching position "single fire" differs from the "Dau erfeuer" only in that after actuation of the trigger 37 only one laser pulse occurs and the drum 3 rotates ter only 60 ° wei. For another shot of the trigger must be taken again betä.

In the following the switching position "continuous fire" is considered.

All six drum chambers 12 are loaded with one projectile 10 each. The end of the light guide 36 is in the position "0" directly in front of a projectile 10 , the optoelectronic control unit 35 is directly above a control notch 34 , the Trom melarretierung 28 snaps into the Trommelarretierungsnut 29 a. Now, if the trigger 37 is actuated, a micro-switch 38 closes a circuit and the optoelectronic control unit 35 is queried. This provides due to the currently existing control notch 34 for a laser pulse, the electromagnet gneten 39 for releasing the drum lock 28 and the elec tric drum drive 4 and allows an electronic counter count the first pulse. The laser spark ignites the SINOXID primer 22 , which in turn ignites the propellant charge powder 18 . The projectile 10 enters the barrel 1 over. After the start of the electric drum drive 4 , the end of the light guide 36 is moved together with the optoelectronic control unit 35 in the direction of preignition (ZP). Then he seems the next drum chamber before the end of the Lichtlei age 36 and the next control notch 34 before the optoelektroni rule control unit 35th Again, a laser spark is initiated and a projectile 10 is ignited. The electronic counter counts the second impulse. After about 0.5 ms, the drum 3 has moved to the "0" position and the projectile 10 enters the transition cone of the barrel 1 , etc. After 240 ° drum rotation of the electronic counter counted five pulses, five shots were fired , The controller 9 now causes the reset of the electronic counter to the value 0, the switching off of the current for the electric drum drive 4 and for the electromagnet 39th The drum lock 28 begins to grind on the drum shell surface. The end of the light guide 36 and the optoelectronic control unit 35 move back to the rest position "0". The Trommelarre orientation 28 engages after 300 ° drum rotation in the corresponding de Trommelarretierungsnut 29 a. The electric Trommelan drive 4 and the drum 3 stand still, the optoelectronic control unit 35 and the laser 6 are de-energized. Before the end of the light guide 36 is now the last not yet ignited te projectile 10th The other five drum chambers 12 are empty. The controller 9 controls the magnetic switch 26 , which actuates the loading button 27 of the tube magazine 2 . Thus five new projectiles 10 are katapul advantage into the empty drum chambers 12th If the trigger 37 is still pressed, this cycle starts from the beginning and the next five shots follow.

The theoretical rate of fire

The engine speed is n = 5.450 min ^-1.

Six rounds correspond to one turn, therefore 545 rounds per second can be accepted. The time interval between two shots is thus 1.835 ms. However, there must never be two projectiles 10 in run 1 at the same time, since too high pressures would occur. So it must be proven that a projectile 10 has left the barrel 1 in less than 1.835 ms: The projectile 10 is, for example, with 7.0 grains NC powder type Rottweil P804 at a barrel length of 254 mm, a muzzle velocity of V ₀ = 440 reach m / s. With an ignition delay of 0.5 ms from the laser pulse to the passage of the projectile 10 in the transition cone of the barrel 1 and a mean velocity of the projectile 10 in the run 1 of 200 m / s results

x = 0.254 m / 200 m / s x = 1.27 ms + Ignition delay:  0.5 ms 1.77 ms

After 1.77 ms, projectile 10 has left run 1 (<1.835 ms).

However, since the drum 3 is always operated in the start-up phase of the electrical drum drive 4 rule, it can be simpi- reason starting from half the load speed: n _tats = 45.42 s ^-1 . This corresponds to 272.5 shot / s. The time interval between two shots is 3.67 ms and thus five shots last 18.35 ms. The electromechanical charging process can be estimated with approx. 35 ms. Thus, the total time for a five-shot cycle is exactly 18.35 ms + 35 ms = 53.35 ms. From this, the theoretical rate of fire can be calculated:
5 rounds / 0.055335 s = 93.72 rounds / s, ie approx. 5600 rounds / min.

Calculation of the Vorzündwinkels α

The actual drum _speed is n _tats = 45.42 s ^-1 . The angular velocity is 16,351 s ^-1 (rotation angle per second).

Thus, calculated at the Zündverzug of 0.5 ms neces sary Vorzündwinkel
α = 16.351 ° x 0.0005 s / s
α = 8,18 °.

Claims (4)

1. Automatic revolver-type firearm for the shot of metallhülsenlosen floors, consisting of a barrel, a tube magazine, a drum, a shaft angeord Neten laser, an accumulator and an electronic control device, characterized in that the Röhrenmaga zin ( 2 ) five magazine tubes ( 11 ) is mounted below the barrel ( 1 ) via a latching connection and has the same length as the barrel ( 1 ), the five magazine tubes ( 11 ) being aligned with the opposite barrel chambers ( 12 ) of the barrel ( 3 ), the front distal end of the tube magazine ( 2 ) is closed by a bottom on which a helical spring is arranged in each magazine tube ( 11 ) and a magnetic switch ( 26 ) is located above the rear distal end of the tube magazine ( 2 ) axially of the drum ( 3 ). and a loading button ( 27 ) acting against a compression spring, which is connected to five resilient retaining hooks ( 25 ) is standing and that the drum ( 3 ) is rotatable but not swinging frame mounted in the weapons and on its back a drum base ( 30 ), a drum base made of tempered glass ( 31 ) and axially to the drum ( 3 ) an electric drum drive ( 4 ) is arranged in the form of an electric motor, wherein in Trom melboden ( 30 ) radially six offset by 60 ° small holes ( 33 ) and denabdichtung ( 31 ) at the radial outer edge of the Trommelbo incorporated at a distance of 60 ° each mirrored control notches ( 34 ) are at an angle of 45 ° and that on a control notch ( 34 ) an optoelek tronic control unit ( 35 ) consisting of a light emitter and a receiver, is provided and that of the in the shaft ( 5 ) located UV laser ( 6 ) a light guide ( 7 ) to the drum bottom seal ( 31 ) is guided, whose end ( 36 ) contains a focus tion and on the run ( 1 ) opposite small bore ( 31 ) 33 ) is positioned, and that the trigger device comprises an electromagnet ( 39 ) and a micro-probe ( 38 ). 2. Automatic revolver-type firearm according to claim 1, characterized in that the electric drum drive ( 4 ) is an electric stepping motor, which rotates in pulse-controlled increments of 60 °. 3. Automatic revolver-type firearm according to claim 1, characterized in that the electric drum drive ( 4 ) is an electric motor. 4. Metallhülsenloses bullet for an automatic revolver-type firearm according to one of the preceding claims, comprising a Teilmantel hollow point projectile core, the Treibla molding powder enclosing and burning with the propellant powder plastic jacket and a laserstrahldurchlässi gene bullet bottom, characterized in that the projectile spokes ze ( 14 ) is flattened and has the same diameter as the projectile bottom ( 13 ), the projectile core bottom ( 17 ) to take on the propellant charge powder ( 18 ) with a cavity ver seen and that the plastic sheath ( 21 ) via a arranged in its inner cavity bead ( 20 ) and in the lower part of the projectile core ( 15 ) formed annular groove ( 19 ) with the Ge lap core ( 15 ) is connected and that in the rear part of the projectile ( 10 ) has a projectile edge ( 24 ) for engaging the fe-reducing holding hook ( 25 ) is.