This invention relates to bolts for firearms, and especially to bolts for semiautomatic pistols.
Reliability is an important attribute of a firearm, especially semiautomatic pistols. One heretofore overlooked opportunity to improve the reliability of pistols concerns the effect of inertial forces on cartridges in the magazine of the pistol. When the pistol is fired, momentum is conserved and reaction forces operate to force the pistol in a direction opposite to the direction of travel of the bullet, the well-known phenomenon of recoil. However, the cartridges are held only loosely in the magazine and resist moving in response to recoil by their own inertia. The cartridges in the magazine will thus appear to move in the opposite direction relative to the pistol due to the sudden application of the recoil forces. This can lead to malfunctioning of the pistol because the cartridge at the top of the magazine may not be in the most advantageous position when the slide moves into battery to strip it from the magazine and chamber it in the barrel. There would be a clear advantage to counteracting the inertial forces on the cartridges in the magazine.
The invention concerns a slide for a pistol having a frame, the pistol being fed cartridges from a magazine received within the frame. In one example embodiment the slide comprises first and second sidewalls in spaced relation adjacent to one another and connected by a top wall. The sidewalls and top wall surround a central space. The sidewalls are engageable with the frame for reciprocating motion of the slide thereon between a first position in battery and a second position out of battery. A bolt is mounted within the central space. The bolt has a surface positionable in facing relation with one of the cartridges in the magazine when the sidewalls engage the frame. The surface contacts and exerts a force on the one cartridge in a direction of motion of the slide upon motion of the slide toward the out of battery position.
In a particular example embodiment, friction between the surface and the cartridge exerts the force on the cartridge. In another example embodiment, the surface comprises at least one step. The at least one step comprises a shoulder projecting from the surface toward the one cartridge. The shoulder faces the direction of motion of the slide toward the out of battery position. In another example embodiment the surface comprises a plurality of steps arranged one behind another along the direction of motion of the slide.
In another example embodiment a rib is mounted on the bolt. The rib extends lengthwise parallel to the direction of motion of the slide. In this example the surface is positioned on the rib. The bolt further comprises a breech face, and, in an example embodiment, the rib has an end positioned adjacent to the breech face.
The invention further encompasses a pistol fed cartridges from a magazine. In one example embodiment the pistol comprises a frame defining a magazine well. The magazine is receivable within the magazine well. A slide engages with the frame for reciprocating motion thereon between a first position in battery and a second position out of battery. A bolt is mounted within the slide. The bolt has a surface in facing relation with one of the cartridges in the magazine when the magazine is received within the magazine well. The surface contacts and exerts a force on the one cartridge in the direction of motion of the slide upon motion of the slide toward the out of battery position.
In a specific example embodiment of the pistol, the slide comprises first and second sidewalls in spaced relation adjacent to one another and connected by a top wall. The sidewalls and top wall surround a central space. The sidewalls are engaged with the frame for reciprocating motion. The bolt is mounted within the central space.
In one example embodiment, friction between the surface and the cartridge exerts a force on the cartridge. In one example embodiment, the surface comprises at least one step. The at least one step comprises a shoulder projecting from the surface toward the one cartridge. The shoulder faces the direction of motion of the slide toward the out of battery position. In another example embodiment the surface comprises a plurality of steps arranged one behind another along the direction of motion of the slide.
By way of further example, a rib is mounted on the bolt. The rib extends lengthwise parallel to the direction of motion of the slide. The surface is positioned on the rib in this example.
The bolt further comprises a breech face. In an example embodiment the rib has an end positioned adjacent to the breech face.
As shown in
Surface 40 is further positioned so that it contacts the cartridge 20. In the example slide 22 shown in
Operation of the pistol 10 is described with reference to
This application is based upon and claims benefit of priority to U.S. Provisional Application No. 62/335,347, filed May 12, 2016, the Provisional Application being hereby incorporated by reference.
Number | Date | Country | |
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62335347 | May 2016 | US |