SEMIAUTOMATIC PISTOL
The present invention is directed to semiautomatic pistols with partially internalized recoil. In an aspect of the invention, the semiautomatic pistol allows for the shooter's grip to be aligned closer to the center-axis of the barrel so that the recoil force is substantially in line with the shooter's grip, thereby reducing and/or preventing muzzle flip. In another aspect of the invention, the semiautomatic pistol is configured to translate the linear recoil movement into rotational movement, which allows internalized recoil.
This is a Continuation Application of PCT/US13/075938 filed Dec. 18, 2013, which application claims priority under 35 U.S.C. §119 to U.S. application Ser. No. 61/738,494 filed Dec. 18, 2012, which is incorporated herein by reference in its entirety.
FIELD OF THE INVENTIONThe present invention relates to semiautomatic pistols, and more particularly, but not exclusively, to internalized recoil, safety mechanisms, magazine releases, and take-down mechanisms for use with firearms.
BACKGROUND OF THE INVENTIONA semiautomatic pistol is a handgun that harnesses the power of a previous discharge to load a new cartridge. It typically includes a single barrel, a magazine, a slide, and a firing mechanism, which includes a trigger mechanism. The trigger mechanism usually includes a trigger, sear, hammer, and firing pin. In some semiautomatic pistols, a sear assembly is the mechanism that facilitates movement of the hammer and firing pin to discharge the ammunition cartridge. In such semiautomatic pistols, when the safety is disengaged, movement of the trigger causes the trigger bar to move within the frame and actuate the sear assembly out of engagement with the hammer, thereby allowing the firing pin to contact an ammunition cartridge loaded in the firing chamber. This causes discharge of the ammunition round. Discharge of the ammunition results in recoil, which typically occurs through the rearward movement of the barrel and/or slide. When the slide has moved to the fullest rearward extent, springs thrust the slide forward to its original position. The slide's rearward and subsequent forward movement is in communication with an upward movement of an ammunition cartridge such that the subsequent cartridge is loaded into the firing chamber by the slide's movement. This results in the discharge of single ammunition round every time the trigger is pulled.
Recoil is a reactive force equal and opposite in energy to the force propelling the ammunition round. The force is longitudinal and in line with the barrel of the gun. The design of semiautomatic pistols places the grip of the shooter's hand below the recoil axis, which results in an upward and rearward rotation of the gun in the hand of the shooter upon firing of the firearm, sometimes referred to as “muzzle flip.” The shooter has less control of the direction of firing due to muzzle flip. The muzzle flip also requires significant realignment of the gun after each shot and can increase the amount of time before the shooter is able to accurately discharge the pistol. This result is counter to the chief purpose of the semiautomatic pistol, which is to provide an ability to rapidly and accurately fire individual shots.
It is particularly important in target shooting applications, where the shooter is judged on the number of shots and accuracy of those shots within a specified time period. Thus, there is a need to provide a semiautomatic pistol structure allowing the shooter to align the upper part of their grip with the center-line axis of the barrel, in order to limit or even prevent upward rotation of the pistol after each discharge so as to facilitate more rapid and accurate discharge of the semiautomatic pistol.
Other attempts to prevent the upward rotation of the pistol during and after recoil have been unsuccessful. One such attempt is exemplified in U.S. Pat. No. 2,975,680, which is hereby incorporated in its entirety, where the semiautomatic pistol was designed so that the shooter's grip was raised on the vertical axis of the gun, but the slide still extended over the shooter's hand during recoil. However, this design has many problems, including the following examples: safety concerns due to the slide moving over the shooter's hand toward their arm during recoil movement; continual movement of external parts creates greater concern for break down or wear on those parts; and the sight base is positioned so that it is subject to movement from the slide and thereby loses alignment more quickly.
SUMMARY OF THE INVENTIONAccordingly, it is an object, feature, and/or advantage of the present invention to overcome deficiencies in the art.
It is yet another object, feature, and/or advantage of the invention to provide a semiautomatic pistol where the upper portion of the shooter's grip is aligned closer to the center-axis of the barrel.
It is another object, feature, and/or advantage of the invention to provide a semiautomatic pistol that is capable of more rapid and accurate shooting.
It is another object, feature, and/or advantage of the invention to provide a semiautomatic pistol wherein the rearward movement of components due to recoil does not extend beyond the rear of the pistol.
It is another object, feature, and/or advantage of the invention to provide a semiautomatic pistol wherein the barrel and slide are operably connected and their movement due to recoil takes place internally.
It is another object, feature, and/or advantage of the invention to provide a triple-point sliding safety that simultaneously locks the trigger, sear, and hammer
It is another object, feature, and/or advantage of the invention to provide a sliding safety that can be operated ambidextrously by the hand gripping the gun or the thumb of the free hand while in a supportive grip position.
It is another object, feature, and/or advantage of the invention to provide a magazine release that is pivotally connected to the frame and grip to compliment a shooter's grip placed higher on the vertical axis of the pistol.
It is another object, feature, and/or advantage of the invention to provide a pivot block that physically restrains rearward movement of the barrel during recoil and can be vertically pivoted to effectively take apart the pistol for cleaning, inspection, and repair.
It is another object, feature, and/or advantage of the invention to provide a configuration that translates linear movement of the barrel and slide due to recoil into rotational movement of a cam around a pin.
These and/or other objects, features, and advantages of the present invention will be apparent to those skilled in the art. The present invention is not to be limited to or by these objects, features, and advantages. No single embodiment need provide each and every object, feature, or advantage.
The embodiments of this invention are not limited to particular semiautomatic pistols, their components, and methods of use thereof, which can vary and are understood by skilled artisans. It is further to be understood that all terminology used herein is for the purpose of describing particular embodiments only, and is not intended to be limiting in any manner or scope. For example, as used in this specification and the appended claims, the singular forms “a,” “an,” and “the” can include plural referents unless the content clearly indicates otherwise.
The Figures show a semiautomatic pistol 10, in particular, a locked breech, short recoil, center-fire action semiautomatic pistol 10 with a structure exhibiting internal recoil and permitting a high hand hold on the vertical axis of the pistol 10 so that the upper part of the hand is equal or near equal to the center-line of the barrel 14.
Internal recoil is achieved by use of a translating pin 38 and a cam 48. The cam 48 is operably connected to the barrel 14, which is operably connected to the frame 12. The barrel 14 and slide 16 are operably connected to the frame 12 and move in communication with one another. The barrel 14 is rounded and the slide 16 has a complimentary concave cutout, such that the barrel 14 can travel under the slide 16 and such that the slide 16 can travel over the barrel 14 without the need for rails, internal notches, or other known methods of accomplishing slide or barrel movement. Furthermore, the slide 16 contains a cam cutout 82, for which an embodiment is exemplified in
During recoil, the barrel 14 and slide 16 move rearward in a longitudinal and linear motion. The cam 48, which is operably connected to the barrel 14, contacts the translating pin 38, whereby the cam 48 translates the linear longitudinal motion due to recoil into rotational movement around the translating pin 38.
According to another aspect of the invention, a pivot block 46 is positioned at the front of the frame 12. The frame 12 contains a forward pivot block pinhole 58 and a rear pivot block pinhole 60, as shown in
According to another aspect of the invention, the rotational movement of the cam 48 around the translating pin 38 unlatches the slide 16 so that it can continue in linear rearward recoil movement and as the slide 16 continues in rearward recoil movement the case ejection port 28 passes over the firing chamber 84.
The slide 16 contains upper slide cutouts 76, lateral slide cutouts 78, and lower slide cutouts 80, which are shown in
Within the frame casing 13 are two recoil springs 56, shown in
In an embodiment of the invention, the slide 16 is angled to taper toward the front of the slide 16 on both forward lateral sides of the slide 16. The tapering is exemplified at least in
According to an aspect of the invention, the pistol 10 includes a slidable two-thumb piece safety 18, which can be operated ambidextrously, and also which can be located on either side of the pistol 10. The safety is a triple-point safety simultaneously locking the hammer 52, sear 50, and trigger 26. The triple-point safety 18, exemplified in
An embodiment of the hammer 52 is illustrated in
The external lateral surface of the safety 18 can have two raised and textured parts 96, 98. These two raised textured parts 96, 98 can be a first and second thumb piece, of the two-thumb piece slidable safety. The forward-most part of the safety 18 contains the front textured surface 96. Near the rear of the safety 18 is a raised rear textured surface 98. Texturing of the front and rear textured surfaces 96, 98 may be achieved by any method known to those of skill in the art, including, but not limited to, the addition of grooves, bumps, teeth, notches, or serrations. According to an embodiment, the texturing of the front textured surface 96 is different from the texturing of the rear textured surface 98. For example, the front textured surface 96 may be textured by bumps, while the rear textured surface 98 may be textured by vertical grooves. The forward and rear textured surfaces 96, 98 are raised and textured so as to permit ambidextrous use of the safety 18 with the thumb of either the left or right hand. For example, when the pistol 10 is held and discharged using one hand, the shooter can manipulate the safety 18 with the thumb of the grip hand; but the shooter can also attain a firm grip on the pistol 10 with the grip hand in a manner that said grip hand does not touch the safety 18 and the shooter can use their free hand in a supportive grip position and then when aimed toward the target can manipulate the safety 18 to the forward unlocked position with the thumb of the free hand or the shooter can manipulate the safety 18 to the rear locked position with the thumb of the free hand by pushing rearward against the rear textured surface 98. In an embodiment of the present invention, the two-thumb piece slidable safety 18 can be designed to require substantial force to move the safety 18 to an unlocked position, such as requiring the strength of either thumb, or it can be designed to require less force so that the safety 18 can be operated by the shooter's trigger finger or other non-thumb finger.
According to another aspect of the invention, the safety 18 additionally comprises a locking lever 100, which is horizontally pivotable about a vertical locking lever pin 104, and is horizontally extended from the lateral surface of the safety 18 when the safety is in an unlocked position. On the interior lateral surface of the safety 18 is a spring loaded detent 102. This spring loaded detent 102 is directly opposite to and connected with the locking lever 100. Between the frame 12 and safety 18 is a slide release lever 19, which is in the slidable path of the safety 18 corresponding to the path that the spring loaded detent 102 travels. The slide release lever 19 contains a recess 103, which is designed so that the spring loaded detent 102 extends into the recess 103 while in the locked position. The slide release lever 19 and recess 103 for the spring loaded detent 102 are exemplified in
In another aspect of the invention, the frame 12 contains a magazine release 20, which resembles a push button style release, which can be located on either side of the pistol 10. The magazine release 20 is connected to a horizontal pin 21, which is embedded in the handle 44 and protrudes through the grip 22. The horizontal pin 21 permits pivoting of the magazine release 20 about a generally horizontal axis by the application of pressure on the bottom part of the magazine release 20. When pressed, the magazine release 20 releases the magazine 108 from within the handle 44. The magazine release 20 can have a surface that contacts a notched surface 110 of the magazine such that the magazine 108 is held in place in the handle of the pistol 10 until released.
In another aspect of the invention, the pivot block 46 can be vertically pivoted around the forward pivot block pin 34 to remove the barrel 14 and slide 16 from the front of the pistol 10 and subsequently remove the recoil springs 56 and frame casing 13. This process is generally referred to as field stripping or “take-down” and is used to clean, inspect, and/or repair the pistol or its components.
In a further aspect of the invention, atop the frame casing 13 an optional sight base 30 may be placed. This sight base 30 is attached so as to align with the barrel sight 32, which is positioned atop the barrel 14 in a manner known to those of skill in the art. In an additional aspect of the invention, part of the frame 12 is an optional trigger guard 24, for which an embodiment is exemplified in
In a further aspect of the invention, the firing pin retainer 88 is attached to the pistol 10 as shown in
The invention has been shown and described above with reference to the preferred embodiments, and it is understood that many modifications, substitutions, and additions may be made which are within the intended spirit and scope of the invention.
Claims
1. A semiautomatic pistol, comprising:
- a frame and a handle extending therefrom;
- a barrel and slide operably connected to the frame and in communication with one another such that recoil of the barrel and slide will not extend beyond a rear surface of the pistol; and
- a trigger mechanism including a sliding safety movable between a locked position wherein the trigger cannot be moved, and an unlocked position wherein the trigger is operable.
2. The pistol of claim 1 wherein the safety locks the hammer, sear, and trigger at the same time when in a locked position.
3. The pistol of claim 2 wherein the safety is an ambidextrous safety.
4. The pistol of claim 1 further comprising a pivot block operably connected to the frame and configured to receive and restrain movement of the barrel and slide; and
- wherein, said pivot block can be vertically pivoted to permit take-down of the pistol.
5. The pistol of claim 1 wherein the upper part of the grip is in even alignment with the center line of the barrel.
6. The pistol of claim 1 wherein the recoil of the barrel and slide is internal.
7. The pistol of claim 1 wherein the recoil is longitudinal and linear, and wherein the linear recoil is translated into rotational movement of a cam around a pin.
8. The pistol of claim 1 further comprising a magazine release pivotally connected to the handle and configured to selectively hold and release a magazine within the handle.
9. A semiautomatic pistol with internal recoil, comprising:
- a frame including a handle and magazine chamber;
- a trigger mechanism operably connected to the frame; and
- a barrel and slide operably connected to the frame and in communication with one another such that the recoil of the barrel and slide is internal and does not extend beyond the rear of the pistol;
- wherein said barrel is operably connected to a cam; and
- wherein said frame includes a pin configured to communicate with said cam to translate linear longitudinal recoil of the barrel and slide into rotational movement.
10. The pistol of claim 9 wherein said pin is removable and horizontally pierces the frame through pinholes transverse to the barrel and slide, so that the pin is fixed and free from movement along the length of the barrel.
11. The pistol of claim 10 wherein said barrel and cam move in communication longitudinally in linear fashion during recoil.
12. The pistol of claim 11 wherein said linear recoil movement of the barrel and slide is translated into rotational movement of the cam around said horizontally fixed pin.
13. The pistol of claim 9 further comprising a safety operably connected to the frame.
14. The pistol of claim 13 wherein said safety comprises a hammer block and a trigger block; and wherein said safety locks the hammer, sear, and trigger at the same time when in a locked position.
15. The pistol of claim 13 wherein the safety is a sliding ambidextrous safety.
16. The pistol of claim 13 wherein the safety is a two-thumb piece slidable safety.
17. The pistol of claim 9 further comprising a magazine release operably connected to the frame.
18. The pistol of claim 17 wherein said magazine release is pivotally connected to the handle and configured to selectively hold and release a magazine within the handle.
19. The pistol of claim 9 further comprising a pivot block operably connected to the frame and configured to receive and restrain movement of the barrel and slide.
20. The pistol of claim 19 wherein said pivot block can be vertically pivoted to permit take down of the pistol.
21. The pistol of claim 9 wherein the upper part of the hand grip is in even alignment with the center line of the barrel.
Type: Application
Filed: Jun 16, 2015
Publication Date: Nov 19, 2015
Inventor: Dan Love (Arthur, IA)
Application Number: 14/740,951