The present invention relates generally to the field of firearms and, more specifically, to technologies for loading cartridges into a removable magazine for a firearm such as a pistol.
Modern semi-automatic firearms are often designed to be fed ammunition (e.g., rounds or cartridges) from a removable magazine. Typically, the magazine includes a tubular housing of generally rectangular cross-section capable of holding one or two columns of cartridges. A follower is mounted on a strong spring at the bottom of the housing to urge the cartridges upwardly toward the open end of the magazine so that a cartridge is always in position to be fed into the chamber after a round is discharged. A pair of lips or flanges at the open end of the magazine engage the cartridge casing to prevent the cartridges from moving vertically beyond the magazine, while allowing the uppermost cartridge to be fed laterally into the chamber of the firearm. Handgun or pistol magazines expose only a single round between both lips, the gap between which is too narrow to allow a cartridge to pass through, whereas magazines for rifles typically have lips that are spaced further apart to expose two rounds between the lips. The configuration of the lips at the open end of a pistol magazine, coupled with the strength of the spring, makes loading cartridges into a pistol magazine particularly difficult. The casing of each cartridge must be located forwardly of the lips and pressed downwardly against the uppermost cartridge in the magazine with great force, usually with one's fingers, until the casing clears the lips and can be slid laterally under the lips to properly seat the cartridge in the magazine. The process is repeated for each cartridge and can be painful and time consuming when loading large capacity magazines.
A first aspect of the invention is directed to an apparatus for loading cartridges into a pistol magazine. An apparatus according to an example embodiment of the invention comprises a main unit with a magazine holder for holding a magazine and a tray for holding cartridges. The apparatus may also include a wall that covers the cartridges in the tray, and a handle movable relative to the tray. The magazine holder is configured to receive a pistol magazine with a first long axis, and the tray includes an elongate channel configured to arrange a column of cartridges along a second long axis laterally offset from the first long axis. The tray further includes an angled wall extending across the elongate channel adjacent the magazine holder and oriented at a non-zero angle relative to the second long axis. The handle includes a pusher disposed inside the elongate channel so that, when the handle is moved in the direction of the magazine holder, the pusher forces cartridges in the tray against the angled wall and into the pistol magazine. The angled wall may be oriented at an angle of about 45° relative to the second long axis. The pusher may include an angled pusher surface oriented at an oblique angle relative to the second long axis. The angled pusher surface may be oriented at an angle of about 70° relative to the second long axis. The wall covering the tray may include a longitudinal slot, and the handle may include a grip connected to the pusher via a member slidably disposed in the longitudinal slot. The wall may be part of a sleeve configured to fit telescopically around the tray.
A second aspect of the invention is directed to a method of loading cartridges into a pistol magazine. A method according to an example embodiment of the invention comprises inserting a pistol magazine with a first long axis into a magazine holder, arranging a plurality of cartridges in an elongate channel of a tray coupled with the magazine holder such that the cartridges are stacked along a second long axis that is laterally offset from the first long axis, covering the cartridges in the tray with a wall, positioning a pusher on a side of the plurality of cartridges opposite the pistol magazine, and moving a handle connected to the pusher in a direction of the pistol magazine to cause the pusher to urge the plurality of cartridges toward an angled wall at an end of the elongate channel adjacent the magazine holder. Moving the handle may be continued to cause each of the cartridges in succession to be tilted using the angled wall and loaded into the pistol magazine along the first long axis. Positioning a pusher may include positioning a pusher with an angled pusher surface oriented at an oblique angle relative to the second long axis. Covering the cartridges in the tray may include covering the cartridges with a wall having a longitudinal slot formed therein, and moving the handle may include sliding a grip connected to the pusher via a member in the longitudinal slot. Covering the cartridges in the tray may also include covering the cartridges with a sleeve fitted telescopically over the tray.
Advantages of the present invention are best understood with reference to the attached drawings, in which like reference numerals denote like parts.
An apparatus 10 for loading cartridges 12 into a pistol magazine 14 according to an example embodiment is shown in
Referring still to
The pistol magazine 14 may include a first central or long axis 30, and the tray 20 may include an elongate bottom wall 32 with laterally opposed side walls 34 defining an elongate channel with a second central or long axis 36 laterally offset from the first long axis 30. In an example embodiment, the amount of lateral offset between the first and second long axes may be equal to the length of the tapered metal flanges or lips at the opening of the magazine ±5 mm. The length and width of the elongate channel may be selected to hold a desired number of cartridges of a specific caliber side-by-side in a column as shown. For example, the channel width may be equal to the length of a cartridge ±7 mm. In an embodiment, the bottom wall 32 may include a plurality of spaced cartridge-shaped indentations (see, e.g.,
The tray 20 and the magazine holder 18 may be coupled with each other in a variety of ways. For example, the magazine holder 18 and the tray 20 may be formed as separate pieces and connected together (e.g., using fasteners, adhesives, or thermal welding), or they may be formed as an integral one piece unit (e.g., by molding). The main unit 16 may be formed of any material rigid enough to maintain an adequate offset between the cartridges and the magazine and durable enough to withstand loading operations. In an example embodiment, the main unit 16 is formed of a plastic material. Optionally, metal or some other highly durable material may be used to reinforce points susceptible to wear and tear (e.g., due to exposure to high pressures and/or repeated contact forces), such as the bottom and/or side walls of the tray.
The sleeve 22 may include at least one wall 42 covering the tray 20, the at least one wall having a longitudinal slot 44 formed therein in parallel with the second long axis 36. The wall 42 may include a protrusion 46 at an end closest to the magazine holder 18. In an embodiment, the protrusion 46 may be semicircular. In an embodiment, the sleeve 22 may include a tubular body of generally rectangular cross-section configured to fit telescopically over the tray 20 to help retain the cartridges in the tray during loading operations, e.g., as shown in
The handle 24 includes a grip 48 disposed outside the sleeve 22, a pusher 50 disposed inside the tray 20, and a connecting member (see
Referring now to
In use, the open end 28 of an empty or less than fully loaded pistol magazine 14 with a first long axis 30 is inserted into the opening 26 in magazine holder 18 and advanced until the open end of the magazine is adjacent the opening between the magazine holder and the tray (or until a retaining mechanism, such as a detent mechanism, is engaged). A plurality of cartridges 12 are positioned in the elongate channel defined by the tray 20 such that the cartridges are stacked side-by-side to form a column along the second long axis 36 that is laterally offset from the first long axis 30. If the sleeve 22 is covering the tray 20, the sleeve may be retracted or removed to deposit the cartridges into the tray 20.
The sleeve 22 is then advanced over the tray 20, e.g., until the lowermost end of the sleeve abuts the magazine holder 18, so that all of the cartridges 12 in the tray are covered and will not pop out during loading operations. The handle 24 may positioned on the sleeve 22 by aligning the connecting member 54 with the longitudinal slot 44 in the sleeve and advancing the grip 48 longitudinally until the handle is in a first position in which the pusher 50 abuts the uppermost cartridge 12 in the tray 20.
The cartridges 12 in the tray 20 may be loaded into the pistol magazine 14 simply by moving the handle 24 in the direction of the magazine (e.g., downwardly in
From the above, it will be appreciated that an apparatus according to an example embodiment of the present invention may produce a pushing force that is transmitted through the column of cartridges which may be constrained to a straight path. The angle of the pusher may also be telegraphed across the column of cartridges ensuring that each consecutive cartridge has the angle needed to make contact at the necessary points and times on both the angled wall and the shell casing of the last round that entered the magazine. The combination of the pressure and angle of the pusher and the angle of the angled wall may cause a constriction on the front part of the first bullet in the tray, forcing the first bullet in the tray to move backward, down, and then backward some more, into the magazine, under the lips of the magazine, and on top of the last bullet to enter the magazine.
While example embodiments of the present invention have been shown and described, it will be appreciated that various modifications and changes may be made without departing from the spirit and scope of the invention. For example, self-adjusting channels may be provided to allow the apparatus to be used with cartridges and magazines of different sizes without the need for removable adapter inserts. Examples of self-adjusting channels include channels comprising spring loaded walls or compressible walls or walls lined with a compressible material, such as cork. Also, providing a convex radius or curvature on the angled surface of the pusher may smooth the loading process by allowing the cartridges to rock as each cartridge traverses from the tray into the magazine. Furthermore, while a tray is shown having cartridge indentations oriented perpendicular to the long axis of the tray, it will be appreciated that cartridge indentations may be formed at an oblique angle relative to the long axis of the tray. For example, the cartridge indentations may be formed at the same angle as the pusher surface. While a handle with a tubular grip configured to fit telescopically around the sleeve is shown, it will be appreciated that other types of handles may be used. For example, the handle may include a rod or plunger arranged longitudinally in the elongate channel, with one end of the plunger protruding outwardly from the tray to be gripped by a user and the other end of the plunger terminating at a pusher. In one embodiment, the plunger may have a width about the same as the elongate channel and a length longer than the elongate channel so that a portion of the plunger extends outwardly from the channel a sufficient amount to be gripped by hand. Additionally, while the pusher is shown and described as being moved by hand as part of a handle, it will be appreciated that the pusher may be moved in other ways, such as by use of a motor or actuator instead of, or in addition to, a handle. For example, a motor may be used to rotate the wheel shown in
This application is a continuation of U.S. patent application Ser. No. 15/641,793, filed on Jul. 5, 2017, which claims priority to U.S. Provisional Patent Application No. 62/358,750, filed on Jul. 6, 2016, the contents of which are incorporated by reference herein in their entirety.
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Number | Date | Country | |
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62358750 | Jul 2016 | US |
Number | Date | Country | |
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Parent | 15641793 | Jul 2017 | US |
Child | 16171546 | US |