The present invention relates to a semi-automatic, select fire, and/or fully automatic rifle platform capable of shooting a pistol cartridge. This original rifle equipment includes a straight, perpendicularly mounted magazine, an ejector in the upper receiver, a feed ramp in the lower receiver and an integral bolt, which encapsulates the cartridge in the chamber.
Rifles having firing options, including those heretofore known as semi-automatic, select fire (such as three shot burst), and fully automatic, are well known in the art. These semi-automatic, select fire, and/or fully automatic guns are commonly used by military personnel, law enforcement, competitive shooters, and gun enthusiasts.
To become proficient, a great deal of practice and training are required. The cost of the high caliber ammunition becomes an economic consideration for the users of such guns. Therefore, conversion kits have become available to convert the AR15, or similar weapons, to use smaller caliber cartridges, such as the 9 mm and 45 ACP used in pistols and handguns, which are more cost efficient. However, such conversion kits require the rifle to be partially disassembled with replacement parts being substituted for original parts. The conversion kit then must be removed and the original equipment reassembled before the rifle can be used with high caliber cartridges as designed.
There are several different styles of conversion kits, varying from metal inserts that go into the magazine well of the lower receiver, to all new lower receivers that use conventional hand gun magazines. These conversion kits have several issues.
First, they use currently commercial available magazines which have an angle that feeds the cartridge up the magazine to the chamber, which creates a tendency to jam due to the feed angle. Also, the inclined feed angle of the magazine requires a greater spring force to push or feed the cartridges into the chamber in front of the bolt as compared to a perpendicular feed angle. Extended cartridge pistol magazines tend to jam when trying to feed the cartridges into a rifle. The more cartridges that go into a magazine, the less reliable the magazine is. Furthermore, the pistol magazines used in the conversion kits generally are not as durable and can be easily damaged, which further impedes functionality of the rifle firing system.
Secondly, when the rifle bolt carrier is released from the charging position, there often is bolt bounce or bolt slap. As the weight of the carrier picks up a cartridge from the magazine and places the cartridge in the chamber, the carrier slaps the bolt face and bounces back, while still having the live cartridge in the bolt face being held by the extractor. If the trigger is pulled at the incorrect time, there is a possibility of an out of battery firing wherein the cartridge detonates outside of the chamber. Such an out of battery firing can rupture the case and cause bodily injury and may damage and/or destroy the firearm.
Therefore, there is a need for a semi-automatic, select fire, and/or fully automatic rifle platform which addresses the issues of the prior art.
Accordingly, a primary objective of the present invention is the provision of a semi-automatic, select fire, and/or fully automatic rifle which is designed and built to shoot pistol caliber cartridges, without utilizing a conversion kit.
A further objective of the present invention is the provision of an improved magazine for a semi-automatic, select fire, and/or fully automatic rifle which has a large capacity that feeds into the chamber of the upper receiver in a direction perpendicular to the chamber axis.
Another objective of the present invention is the provision of a semi-automatic, select fire, and/or fully automatic rifle having an integral bolt carrier which fully encloses the cartridge inside the chamber so as to preclude out of battery firing.
Another objective of the present invention is the provision of a semi-automatic, select fire, and/or fully automatic rifle having an ejection system in the upper receiver.
Still another objective of the present invention is the provision of a semi-automatic, select fire, and/or fully automatic rifle having a feed ramp in the lower receiver for the cartridge.
A further objective of the present invention is the provision of a semi-automatic, select fire, and/or fully automatic rifle having interchangeability of the majority of the parts commonly found on the M16A1 M16A2, the current M-4 carbine, and commercial variations.
Another objective of the present invention is the provision of a semi-automatic, select fire, and/or fully automatic rifle has reliability and has an extended service life.
These and other objectives will come apparent from the following description of the invention.
The semi-automatic, select fire, and/or fully automatic rifle has an upper receiver to accept an integral bolt and a lower receiver to accept a magazine. The magazine is designed to feed the cartridge straight into the chamber in the upper housing, in a path perpendicular to the chamber longitudinal axis. The bolt encloses the rear of the cartridge in the chamber to preclude out of battery firing. The lower receiver includes a feed ramp to direct the cartridge from the magazine into the chamber. The upper receiver has an ejector for discharging the cartridge from the bolt face then the upper receiver. The magazine includes a mechanism to lock the bolt after the last shot. The rifle is designed to shoot pistol or handgun caliber ammunition, without removing or exchanging components.
A semi-automatic, select fire, and/or fully automatic rifle according to the present invention is generally designated in the drawings by the reference numeral 10. The invention focuses on several key components of the rifle 10, including the bolt 12, the upper receiver 14, the lower receiver 16, and the magazine 18.
The bolt 12 is shown in
An extension 26 is mounted on the forward end of the upper receiver 14. The extension is shown in
A feed ramp 36 is mounted on the lower receiver 16, such as by roll pins driven down, extending through holes 38 on each side of the ramp 36. The ramp 36 has an inclined surface 40 which aligns with the ramp 32 of the extension 26, as best seen in
The upper receiver 14 includes an ejection system for ejecting the expended shell case from the rifle 10. The ejection system includes an ejector 42 mounted in the upper receiver 14, as compared to prior art ejectors which are spring mounted on the bolt face. A roll pin pins the ejector 42 to the upper receiver 14 via a hole in the head of the ejector as best seen in
The upper receiver 14 and the lower receiver 16 are coupled by pins, as is known in the art. A pistol grip 46 is mounted on the lower receiver 16 in a conventional manner. A conventional trigger 48 is pinned to the lower receiver 16, and a trigger guard 50 is pinned to the lower receiver 16 to prevent accidental actuation of the trigger 48. Other conventional components of the lower receiver include the sear 52, the safety latch 54, the hammer 56, the bolt stop 58, and the magazine catch push button 60. Components of the bolt 12 include the extractor 62, and the firing pin 64. An extractor 62 is mounted in a slot in the bolt 12.
A conventional buffer tube 66 is threadably mounted to the collar 17 on the lower receiver 16, with the butt stock 72 being mounted on the buffer tube, in known manners. A conventional buffer tube plate 68 is provided on the buffer tube 66, is well known in the art. A buffer tube retaining nut 70 is on the rearward end of the upper receiver 14. The butt stock lock latch 74 is also provided on the butt stock 72, as is known in the art.
A bolt guide 76 (
A conventional free float tube 80 surrounds the barrel 34. A muzzle device 82 is threadably mounted on the front end of the barrel 34.
The magazine 18 is removably inserted into the lower receiver 16 and retained by the catch 60. The magazine 18 is adapted to hold a plurality of cartridges 20 of the desired small caliber, such a 9 mm and/or 45 ACP. A follower 84 slidably mounts within the magazine shell. The cartridges 20 are pushed into the chamber, in a direction perpendicular to the chamber axis, by the follower 84 via upward force by the spring 90 in the magazine 18. The perpendicular feed direction reduces the spring force, as compared to prior art inclined magazine feeds. The follower includes a unique rib 86 which is received in a groove 88 in the magazine. The rib 86 and groove 88 design allow for the bolt hold open to actuate the bolt stop, which allows the bolt to stop open upon the firing of the last cartridge from the magazine. This will indicate to the user that the magazine 18 is empty and a new magazine needs to be loaded into the lower receiver 16 of the rifle 10. The rib 86 keeps dirt and other contaminants out of the magazine 18. Also, in low light or dark environments, the rear magazine groove 88 provides a tactile feel to the user so as to properly orient the magazine 18 for loading into the lower receiver 16.
When the last cartridge is shot from the rifle 10, the follower 84 extends upwardly. Thus, the bolt automatically locks after the last cartridge is fired, contrary to the prior art wherein the bolt did not lock after the last shot.
The rifle 10 is a complete rifle, and operates in a manner similar to a conventional AR15 shooting a .223 or 5.56×45 mm round, except that the rifle 10 shoots a pistol round. No disassembly or substitution of parts is required.
From the foregoing, it can be seen that the present invention accomplishes at least all of the stated of objectives.