DE1809699A1 - Improved device to prevent double ammunition feed - Google Patents

Description

Improved device to prevent double ammunition feed.

This invention relates generally to apparatus for Interruption of an automatic high-speed firearm in the event that a cartridge or a projectile has not been withdrawn from the lungs. In particular this invention relates to gowns for scanning un-withdrawn cartridges and timely actuation of the interruption mechanism of the gun to prevent a subsequent projectile from falling into the chamber of the gun is introduced, as a result of which a jam and damage to the weapon or of the magazine system is created.

There are currently a number of automatic rifles after Kind of the "Gatling-Geschptzes" known, in which numerous barrels for a turn are grouped around a common gun axis. Holds in such treasures Significantly, a rotor assembly includes runs and lengthways running tracks or guides for a number of locking devices which are used for this purpose are used, the live cartridges or projectiles to a cartridge chamber (battery station) of the projectile. After firing, the same locking devices engage the used fatron necks and pull them for a subsequent promotion to an ejection area (cleaning station) out when the rotor is around the common Axis rotates. It is usually a means of moving the locking devices between the chamber and the ejection area in the form of rollers on the locking devices provided, which are in engagement with an elliptical cam track in a housing, surrounding the rotor and support means for its rotation. There are also devices for guiding the live cartridges from a magazine to an opening in the housing provided where they are received by the locking devices. It is already been known to counteract a double supply of ammunition in automatic weapons Such mechanisms, however, require extensive restructuring of the operational or the gun's fire mechanism. This makes the system more expensive and less reliable. Furthermore, such systems usually only work on control circuits (usually electrical) and are not mechanically effective, to prevent eu directly, that the following cartridges are fed to the chamber. In a weapon according to Art a machine gun can have this dependence on an electrical function have an adverse effect on operational safety.

According to this invention there is provided an apparatus for preventing a double ammunition feed created together with a swiveling main part the ejection area, which includes an arcuate segment of the Geach etch housing. The apparatus includes scanning means with an elongated shaft extending from the Housing is rotatably held, one to one. Lever arm attached to the end of the shaft and a cam plate mounted on the other end of the shaft. The lever arm generally extends radially in the plane of the gun loading port inside to the gun axis.

This arm is arranged in such a way that it meets the loading surface free night and one of the many loading points of the gun opens, but from one not pulled out projectile case is touched, which is in one of the barrel chambers or Cartridge chamber is left behind. When touching one that is not pulled out Sleeve, the lever arm rotates the shaft attached to it and this rotation in turn causes that the attached to the other end of the shaft cam disc into engagement rotates with the ejector body (olearing body). The part of the ejection area, the ale a continuation of the fire cam or the path in the gun serves, rotates again in such a way that thereby the following locking devices of the protection remain in the ejection position of the gun and not to the chamber The invention briefly explained above will be taken from the following description a preferred embodiment for a representation in the Drawings-is selected to become more understandable.

Fig. 1 is a partial pictorial view of the tap orifice and feed section an automatic weapon in the manner of a ttGatling gun ", which this invention includes.

FIG. 2 is a cross-sectional, cross-sectional view of a portion of FIG Loading opening of the gun, which is simplified in detail for illustration purposes is. The view shows the position of the lever arm of the device for prevention a double ammunition feed during normal operation of the gun.

FIG. 3 is a cross section taken along line 3 in FIG. 2.

Fig. 4 is a view similar to Fig. 2 and shows the type and Way in which the improved device of the invention eliminates the unextracted Scans cartridges.

Reference is now made in particular to FIG. Here is whole generally at 10 the rotor of an automatic speed firearm of the type one "Gatling guns" shown for a shot of ammunition projectiles or Cartridges from a magazine determined iat, which is not shown in the drawings is. The weapon itself, essentially unchanged by the incorporation of this invention remains is known. As shown, it includes a housing assembly 11 with a elliptical cam formed in the outer periphery of the housing wall and the front part of which is partially shown at 12. The rotor part is with numerous longitudinally extending tracks or guides 14 provided, the releasably attached to the rotor by balls 15 or as one piece in the main part of the rotor body can be formed on its circumference. At each end of the case is generally located at 18-18 a couple of bearing rings to hold the rotor for a Rotation to support a common gun axis. In the guides of the rotor Numerous closure devices are movable, which are shown in FIG. 2 as a whole at 20 are indicated.

Significantly, each locking device includes a firing pin and a firing pin spring attached to the inside of the main part 22 of the locking device are attached. These parts are not shown in the drawing. Of this Body 22 extends to the side of a shaft 24 that supports a roller 26, the is intended to be engaged with the elliptical cam 12 in the housing, around the closures in the guides 14 due to the relative rotation between the To move the rotor and the housing to a forward cartridge chamber. In the firing position cartridges or projectiles "R" are inserted into openings 28 in the loading port of the gun introduced or the rear rotor wall 29 through the rear ends of the Gun barrels 30 is formed, is flush with the wall surface, such as it can be seen from FIG. 1. The elliptical cam 12 also moves the latches 20 on a path to the ejection position or a housing section to the rear, the is indicated overall at 54 in FIG. 2 and more precisely in FIG. Near an opening in the housing and between the housing and a suitable magazine Adjacent is a guide rod assembly (not shown) that inagesamt is indicated at 36. This driving rod assembly includes a pair of guide members, a part of which is indicated at 38, the longitudinal direction at a distance from the Housing opening is arranged to the sharply charged Cartridges from the magazine mechanism to the rotating and reciprocating relative thereto To steer locking devices. The cartridges are designed so that they Process thereby suitable extraction claws (not shown) on the front face of each locking device 20 are grasped by their pull-out grooves at "C", as indicated in FIG. 3. The cam surface 38 a on the guide rod part 38 also ensures that the used cartridges are withdrawn from the gun after they are fired and out of the chamber or the loading port 28 of the barrel and moved to the ejection position at 34. It it can be seen that the locking devices do not remain in the ejection position, instead, each locking device continues to rotate to a new one or to pick up a fully charged cartridge from the magazine after one is used up Cartridge is ejected through the stylet assembly 36.

Occasionally, however, a projectile may not come out of the Chamber or gun chamber pulled out at the loading opening end of the barrels will. This can happen, for example, when a bullet Rtw is in front of the extractor claws the locking device is inserted, i.e. when the magazine control is related to the revolutions of the gun rotor is disabled. In such a case, can a projectile jammed in the chamber or the loading opening 28, after which Firing no means are available to pull the projectile out of the chamber, because it is not in the place where it is due to the locking device is seized.

However, the locking devices are unobstructed by the chamber rotated by the cooperation of the rollers 26 and the cam 12 and return to the Feed Ejection position back where they armed the following Pick up bullets from the magazine. If now a breech and a cartridge closed advances the chamber, jamming occurs when attempting to lock should, to insert an acharged cartridge into the chamber, which is already through a used or jammed cartridge case is occupied.

In order to eliminate this circumstance and any damage resulting from it To prevent the weapon, the invention has been designed to be simple and but safe and reliable mechanical arrangement to create an essential one Damage to the weapon and possibly the vehicle that carries the weapon prevent when such double feeding occurs, which is the purpose a pair of longitudinally spaced mounting pieces are provided, those in FIG. 1 at 40-40 on an exterior surface of the stylet assembly 36 are shown. Each mounting piece 40 has a drilled hole 41. Both punches are arranged at the same radial distance from the gun axis and they are in line along the length of the gun, around the ejection mechanism of the gun mechanically at the right time so that a double feed is prevented, scanning means are provided for monitoring, if an unremoved sleeve remained in the chamber or barrel opening 28 that should normally be prepared at the next turn of the special Gun breeches to accommodate a fully charged cartridge, the chamber fills. As shown in Fig. 1, a sensor designated 42 is used for this purpose or lever fitting provided on one end of an elongated shaft 44 which is rotatably mounted in the holes 41 of the Halterungsvor direction. The lever arm 42 runs at the end of the shaft generally perpendicular to its Shaft axis, i.e. radially inwards towards the axis of the gun. These The arrangement is best seen in FIG. -The scanning arm is arranged in such a way that that he is in a position beyond the firing position or behind the angular position Each cartridge is located when it is in the loading opening. In other words a cartridge that is in the chamber and ready to fire is fired and normally pulled out of the drawer opening 28 before this area of the Rotor reaches the angular position of the scanning arm, as indicated by the dashed line Lines shown in Fig. 2. The trajectory of a used floor @ -ses "R" is if it is gripped by a locking arrangement, elliptically, until the sleeve meets the cam surfaces 38a of the guide rod reached, which then eject the sleeve to the outside. If however, the projectile is not withdrawn, as shown in Fig. 4, becomes the Sensing arm touches in front of the sleeve and this moves the arm around the midline of the shaft, i.e. clockwise in Fig. 4. At the other end of the shaft 44 is a cam marked at 46, which is also on the shaft 44 is attached and intended to be in a stop part 48 of a device of the Ejection area to be included, which is indicated in total at 50. the ejection sector comprises an elongated arcuate main portion 51, the general curve shape is the same as that of the housing 11. The part of this area is pivotable about a pivot 52 on one side of the part. As from the lower one Part of Fig. 2 is evident, the cam 46 slides normally freely from the stop member 48 of the area. A torsion spring 55 (or any other suitable means) is used to cover the part of the area in the outer layer that is, where it is effectively outside of the normal path of fire that a rear (generally nen circular) part 54 (dwell portion 54) of the elliptical cam track, in which no change in the plunger position he follows. As shown in Fig. 2 by the dashed lines, the rollers 26, when they leave the elliptical cam 12, to the front of the Absohnitteeil and steered into the normal path of action, the area 54 and the initial part the cam 12 which is indicated by the groove 12a.

It is easy to see that the quiet zone 54 is the normal path of action a substantially circular slot in the inner surface of the housing 11 the ejection point 34 is, which serves the locking devices on the back of the gun until the ejection process of the used cartridges and the The loaded cartridges are picked up at the magazine opening. Thereafter it takes over the main part of the elliptical cam 12 (opening in slot 54 at 12a) to provide the necessary back and forth movement of the locking devices, On the other hand, if an error occurs in pulling out, as shown in FIG is, the resultant force exerted on shaft 44 pivots clockwise the cam 46 against the stop 48. This becomes the main part 51 of the ejection area pivoted against the force of the Torai spring 53. This will make the one with a inclined plane provided ejection part 51a of the rotor introduction in such a position brought so that it grips the rollers 26 of the subsequent locking devices, which at this point move in the normal path of action of the cam (rest zone 54). This causes the rollers to slide into an ejector cam track or groove, which is indicated at 60. From Fig. 4 it is clear that as long as this main part of the Ejection area is held in this position, all shutter doors of the train 60 follow and are thus held on the back of the gun housing. If the Feeding process is continued, the locking devices captured, armed cases only in the plane of the ejection area 34 led around the circle and after one complete revolution - ignited - after ejected outside.

However, it can also be desirable to save ammunition, the operation of the gun and the magazine immediately after an extraction error break up.

For this reason, a spring-actuated puncture switch is provided, which is indicated overall at 66 to an interruption in the main power circuit partially shown in Fig. 4 to produce the drive device, not shown of the cannon so while the switch 66 is depressed, is the circuit between the trigger switch and a solenoid and a relay of the indicated by box 80 is closed. It is intended to feed the fatron and initiate the rotor operation by driving the rotor by a suitable drive motor (not shown) is driven and the cartridges are inserted into the gun. If the plunger 66 a by the pivoting movement due to a not pulled out Projectile is left free, as shown in Fig. 4, is the "purely interrupted, the energy supply to the rotor is switched off and shortly afterwards the cartridge supply is switched off stopped0

Claims (1)

Claims 1. Machine gun in which a housing contains a rotor device with barrels that hold circular for rotation about a common central axis are grouped on the rotor, the successive runs one forward Go through fixed chamber and in the loading chamber at the fixed chamber successively bullets are fed through numerous locking devices, those for subsequent firing, pulling the projectiles out of the chambers and the subsequent transport of the projectiles to a rear n ejection area serve, d u r c h E e -k e n n s 5 i c h n e t, that means are provided, which prevent bullets from being fed to a loading chamber in which, after a Rotation of running through the firing position through a projectile not withdrawn (R) is present, and this means a sensing device (42) capable of being touched with a projectile not withdrawn, which is in some loading chamber is left behind when its barrel from the fixed loading position of the gun is rotated out, housing sector pieces (48,51), which between a first position, in which the gun locks along a normal operating track (12a) are directed, and a second position in which the locking devices are directed on an ejection path (60) of the gun, are movable, further Actuating means (46,52,53) adjoining the housing sector pieces (48,51) arranged and operable between the scanning device (42) and the sector pieces (48,51) are coupled, and devices (40,41,44) for holding the actuating means (46,52,53) and the scanning device (42) on the gun housing, so that always when the scanning device (42) touches one that is not pulled out Projectile the actuating means (46, 52,53) the housing sector pieces (48,51) move from the first to the second position, 2nd machine gun after Claim 1 d a d u r c h e k e n n n z e i c h n e t that the holding devices (46,52,53) have an elongated shaft (40) which is rotatable on the housing is mounted and extends in the longitudinal direction of the housing between the front cartridge chamber and the rear ejection point, and in which the scanning device comprises an angled lever arm (42) secured to the end of the shaft (40) and is provided with a leg part which is circular in the general plane of the arranged loading chamber openings inwards into the housing and through its radial Extension protrudes. 3. Machine gun according to claim 1 or 29 d a d u r to c h g e it is not indicated that a circuit breaker (66,66a) is operated by the lever arm (42) can be operated when it comes into contact with a projectile that has not been pulled out is located so that the rotary drive of the gun rotor can be switched off in coincidence with the movement of the housing sector pieces to the second position. 4. Maschinengeachütz according to claim 1 or 2, d a d u r c h g e k e it is noted that the actuating means comprise a cam disk (46), mounted on the opposite end of the shaft with respect to the lever arm (42) and is rotatable inwardly into the housing, the housing sector pieces an elongated, generally arcuate main part (58) flat on the side, the corresponds to the general curve shape of the gun housing, the main part (51) has one end biased fastening means so that the main part in the take a position outside of a Slot (12a) in the housing is held achwenkbar, this slot (12 a) in the normal Betriebssbabn of the locking devices, furthermore the main part has an attachment part (48) contains on the outer circumference and the cam disk (46) upon contact of the Lever arm (42) with a projectile (R) not pulled out in contact with the stop part (48) is movable, so that thereby the main part in its second position within of the slot (12a) is displaceable, and the stop piece (48) holds the cam disk in contact with the main part, causing the locking devices in the owl lane of the Geachützes are kept. L e r s e i t e