The present invention relates to firearms; specifically, it relates to a simple, safe and compact multi-shot firearm for self defense.
In recent years, the purchase of small handguns for self defense by people generally unfamiliar with firearms has increased. The vast majority of handguns purchased are semi-automatic pistols rather than revolvers, largely because of their flat, compact configuration. However, such pistols can pose a threat to unskilled users. First, a simple glance will not reveal whether most such pistols are loaded; they must be manually manipulated to ascertain this, and the manipulation itself can lead to accidents. If the magazine is removed for safety reasons, a cartridge may still remain in the chamber, and later be fired unintentionally by someone unaware of the chambered cartridge. If the slide is opened to inspect the chamber while a loaded magazine is in place, closing the slide will force a cartridge into the chamber, again making accidental discharge possible.
It is an object of the present invention to provide a flat, compact pocket pistol, with a capacity of five or six cartridges, which is inherently safe and simple in operation.
The above object and others which will become apparent upon a reading of the following specification is achieved by pistol in which it can readily be seen if the pistol has a round in position to be fired without the need to manipulate it, because a round in firing alignment is always exposed to view via a side ejection port. A pistol according to the invention has no reciprocating slide as in a conventional semi-auto pistol, and no rotating cylinder as in a conventional revolver. In fact, its only mechanisms comprise a firing mechanism, and a magazine spring and follower. Such simplicity is possible because each cartridge is housed in its own chamber tube, which functions as a conventional chamber and since each cartridge is fired when in its chamber tube. Thus, it is designed to be of ample strength to withstand the radial pressure generated by the cartridge when fired.
The chamber tubes each have a conventional rimfire or centerfire round loaded therein, and rest one on top of another in a hollow pistol grip magazine to form a stack, and are continuously pressed upward by a spring and follower, the whole arrangement similar to that of magazines in semi-auto pistols. The topmost tube is seated in a firing recess which is open to one side to be clearly visible. In this position it is located in alignment with the pistol bore and ready for firing.
The top chamber tube aligned with the pistol bore and ready for discharge is easily visible through the open side of the firing recess. In darkness, a touch of the fingertip through the open side will make one instantly aware whether or not a chamber tube is in firing alignment. The chamber tubes maybe brightly colored, and/or otherwise marked with warning symbols.
When the pistol is fired, some of the gas is designed to escape between the front end of the chamber tube and the rear face of the barrel, and forces itself between the chamber tube and the rear face of the barrel into which the bore extends. Thus the chamber tube and its expended cartridge case are ejected by the gas pressure through the open side of the firing recess which thereby functions as an ejection port. The next chamber tube being urged upwardly by the magazine spring, rises into the firing recess in alignment with the bore and ready for firing.
The present invention will be more fully understood by reference to the attached drawings, wherein:
In the following detailed description, certain specific terminology will be employed for the sake of clarity and a particular embodiment described in accordance with the requirements of 35 USC 112, but it is to be understood that the same is not intended to be limiting and should not be so construed inasmuch as the invention is capable of taking many forms and variations within the scope of the appended claims.
As seen in
The top chamber tube 12A is held in a firing recess 14 aligned with the bore 19 of the barrel 11. The top chamber tube 12A is held located in the aligned position, as seen in
Firing is effected by a conventional hammer and trigger mechanism (not shown in detail), or striker and trigger, both well known in the art which when the trigger 26 is squeezed, causes a firing pin (not shown) to be driven against the base of the cartridge 22. Upon firing, the bullet 24 leaves the expended cartridge case in the chamber tube 12A and enters the bore 19 of the barrel 11. As it does so, some of the high pressure gas generated by the discharge leaks from a small space 16 between the front face of the chamber tube 12A and the rear face of the barrel 11. While the bullet 24 is passing through the bore 19, a portion of the gas flowing through the clearance 16 forces itself between the body of the chamber tube 12A and the left wall 24 of the frame 10, as seen in
To minimize the bullet's loss of velocity from gas leakage, the chamber tubes 12 are made to be as long as practical i.e., 1-⅜″, or 35 mm, for example, and the bore 19 has a comparatively long freebore at its breach end.
Once the top chamber tube 12A containing a fired case is ejected through the ejection port defined by the open side of the firing recess 14, and the next chamber tube 12 below with its unfired cartridge 22 moves into the firing recess 14 to be in alignment with the bore 19 to ready the pistol for another shot. The chamber tubes 12 may be reused many times.
Thus, a simple firearm comprising semiautomatic pistol is provided which allows easy detection of the presence of a round in a position ready to be fired, either visually or by inserting a fingertip into the recess 14. This design can also be used with a grenade launcher or shotgun.
This application claims the benefit of U.S. provisional application No. 60/851,877 filed on Oct. 16, 2006.
Number | Date | Country | |
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60851877 | Oct 2006 | US |