I. Field of the Invention
The present invention relates generally to weaponry and, more particularly, to a magazine for a firearm.
II. Description of Related Art
There are many previously known magazines that are used to store and provide ammunition for weapons and firearms of all different sizes, calibers, and configurations. These previously known magazines typically include a housing defining a channel in which stacked ammunition is contained. A spring loaded follower is also contained within the channel and abuts against a lower end of the stacked ammunition. The spring then urges the stack of ammunition toward the upper end, i.e. the end attached to the firearm, thus urging ammunition from the magazine into the ammunition loading chamber of the firearm.
Although there are many types of different magazines used with firearms, a box magazine is most commonly used for firearms, both automatic, semi-automatic, and manual. These previously known box cartridges typically comprise an elongated housing defining a channel in which the stacked ammunition is contained. The number of rounds of ammunition contained within the magazine will, of course, vary from one firearm and to another.
In order to urge the ammunition into the loading chamber of the firearm, a spring loaded follower is contained within the channel of the housing. This spring loaded follower, furthermore, abuts against a lower end of the stack of ammunition within the magazine chamber and urges the ammunition stack within the magazine toward the other end of the magazine, i.e., the end of the magazine attached to the firearm. Consequently, the follower urges the ammunition stack into the loading chamber for the firearm.
In many situations, it would be desirable to be able to rapidly determine the amount of ammunition remaining within the magazine. Such information would be particularly advantageous in combat situations.
Previously, the only mechanism to identify the amount of ammunition remaining within the magazine has been to provide a slot extending longitudinally along the magazine housing so that the bottom of the ammunition stack can be viewed through the slot. In some cases, the slot is filled with a transparent material, such as transparent plastic.
This previously known mechanism for allowing the shooter to determine how many rounds of ammunition remain within the magazine, however, has not proven wholly successful in use. Specifically, in order for the shooter to determine the position of the bottom of the stack, it is necessary for the shooter to take his or her eyes off of the intended target and to look through the slot. This however, is unacceptable in many situations such as combat situations, where it is desirable for the soldier to keep his or her eyes on the intended target at all times.
A still further disadvantage of these previously known magazines with a longitudinally extending slot is that it is not possible to see the bottom of the ammunition stack at nighttime or in other situations where there is simply insufficient light to view the bottom of the ammunition stack. This also is unacceptable in many situations, such as combat situations.
The present invention provides a magazine assembly which overcomes all of the above mentioned disadvantages of the previously known magazine assemblies by providing a magazine assembly with a tactile indicator of the amount of ammunition remaining within the magazine.
In brief, the present invention comprises a magazine assembly having an elongated housing which defines a channel dimensioned to receive and contain a plurality of stacked ammunition so that the stack extends between an upper or first end of the housing and a second or lower end of the housing. The actual dimension tor the channel will vary depending upon the ammunition type and caliber, as well as the amount of ammunition which the magazine can contain.
A spring loaded follower is mounted within the housing channel adjacent its lower or second end and this follower is adapted to abut against one end of the stacked ammunition within the magazine channel. The follower thus urges the stack of ammunition towards the upper or a first end of the ammunition housing. The first end of the ammunition housing is attached to the firearm and open to the ammunition loading chamber of the firearm.
A tactile indicator assembly is mounted to the housing. This tactile indicator assembly cooperates with the follower to indicate the position of the follower between the first and second ends of the housing. The position of the follower, of course, will move from the second and towards the first end of the magazine as the firearm discharges or fires the ammunition from the firearm. Consequently, the position of the follower within the magazine chamber provides an indication of the amount of ammunition remaining within the magazine.
In one embodiment of the invention, a plurality of pins are movably mounted to the elongated housing so that the pins are longitudinally spaced from each other between the first and second ends of the magazine housing. Each pin is movable between an extended and a retracted position while a spring or other biasing mechanism is employed to urge each of the pins towards its retracted position.
All of the pins cooperate with the follower so that, when the follower is aligned with the pins, the follower moves the pins from their retracted position and to an extended position such that the pins protrude exteriorly of the magazine housing. Consequently, a soldier may identify the longitudinal position of the follower within the magazine channel, and thus the amount of remaining ammunition within the magazine, by merely manually identifying which of the pins has been forced by the follower to its extended position. Since this may be achieved by the soldier merely rubbing his or her finger or thumb along the magazine in the area of the pins and identifying the outwardly extending pin, the soldier is able to identify the amount of ammunition remaining within the magazine. Furthermore, this can all be done without the soldier taking his or her eyes off of the current target.
The actual cooperation between the individual pins and the follower may assume any of several different forms.
A better understanding of the present invention will be had upon reference to the following detailed description when read in conjunction with the accompanying drawing, wherein like reference characters refer to like parts throughout the several views, and in which:
With reference first to
Still referring to
The upper end 24 of the magazine housing 22 is adapted for detachable connection with a firearm. The upper end 24 is positioned in alignment with an ammunition loading chamber on the firearm. Thus, in the conventional fashion, as the ammunition 30 moves into the loading chamber and is subsequently discharged by the firearm, the stack 30 of ammunition moves upwardly within the housing chamber 28.
In order to urge the ammunition stack 30 towards the upper end 24 of the magazine housing 22, a follow 32 is contained within the magazine channel 28. The follower 32 abuts against the lower end of the stack of ammunition 30, i.e. adjacent the second or lower end 26 of the magazine housing 22. A compression spring 34 is contained within the follower to urge the magazine stack 30 towards the upper end 24 of the housing 22.
Although the follower 32 may take different forms, typically the follower 32 is generally cup shaped having sides 36 and a top 38 which abuts against the bottom of the stack of ammunition 30. Consequently, the cup shape of the follower 32 is efficient in containing the compression spring 34 at least partially within the follower 32.
When the magazine 20 is initially completely loaded with its maximum number of shells of ammunition, the cam follower 32 is positioned adjacent the bottom 26 of the housing 22 and the spring 34 is in a state of maximum compression. Conversely, as shells are fired by the firearm, the follower 32 moves upwardly within the magazine channel 38 as shown in phantom line in
With reference now to
The tactile indicator assembly 40 may be provided along one side, e.g. the back, of the magazine. However, if desired, multiple tactile indicator assemblies may be provided on the same magazine.
A resilient member 50, such as a spring, is associated with each pin 44 and urges the pin 44 towards its retracted position 48. Furthermore, the pins 44 are dimensioned so that, with the pins 44 in their retracted position 48, a portion 52 of the pin protrudes into the housing channel 28 for the magazine 20.
The pins 44 and the follower 38 are dimensioned so that, when the follower is aligned with one or more pins 44, the follower 38 manually engages and displaces the pin outwardly to its extended position 46 against the force of the compression spring 50 associated with those pins 44. Preferably, the follower includes one ort lore ramps 54 and 56 to facilitate the displacement of the pins 44 between their extended position 46 and retracted position 48.
As previously described, the longitudinal position of the follower 38 within the magazine channel 28 is directly proportional to the amount of ammunition remaining within the magazine 20. Consequently, by simply determining which of the pins 44 are in the extended position 46, e.g. by moving the soldier's finger or thumb along the side 42 of the magazine housing 22, the soldier is able to tactilely rapidly identify the longitudinal position the follower 38 and thus the amount of ammunition remaining within the magazine.
With reference now to
The membrane 60 is positioned within the side 42 of the magazine housing 22 so that the membrane 60 resiliently urges the pins 44 to a retracted position 48. However, when the follower 38 is aligned with the pin, the follower 38 mechanically displaces the pin 44 to its extended position by deforming the membrane 60. When the follower 38 moves past the pin 44 in its extended position, the membrane 60 will then resiliently return the pin 44 to its retracted position 48.
A primary advantage of using a membrane 60 rather than individual springs 50 is that the membrane 60 can also serve as a seal to prevent dust and other debris from entering into the interior of the magazine 20 through the openings for the pins 44.
With reference now to
A primary advantage of using the permanent magnet 64 on the follower 38 and its cooperation with the magnetic pins 44 is that friction, and thus mechanical wear and tear, between the follower 38 and the indicator assembly 40 is eliminated.
With reference now to
With reference now to
With reference now to
With reference now to
A preformed elastomeric cell 74 is then positioned within each pocket 72 so that at least one cell 74 is associated with each pin 44. The cells furthermore, are filled with a smart fluid which compresses, as shown at 76, to mechanically displace its associated pin 44 to the extended position 46 when exposed to a magnetic field. A permanent magnet 78 is then attached directly to the follower 38 so that, when the magnet 78 is aligned with one or more pins 44, the cell contracts from a concave shape to a convex shape thus forcing the pin 44 to its extended position 46. A primary advantage of the elastomeric cells 74 is that the entire tactile indicator assembly 40 may be completely sealed from the interior of the magazine. The tactile indicator assembly 40 may be provided along one side, e.g. the back, of the magazine. However, if desired, multiple tactile indicator assemblies may be provided on the same magazine.
From the foregoing, it can be seen that the present invention provides a simple yet effective magazine assembly with a tactile indicator assembly by which the soldier may determine the amount of ammunition tactilely and without removing his or her eyes from the target. Furthermore, the tactile indicator assembly may be used effectively and easily by the solider at any time of day or night.
Having described my invention, many modifications thereto will become apparent to those skilled in the art to which it pertains without deviation from the spirit of the invention as defined by the scope of the appended claims.
The invention described herein may be manufactured, used, and licensed by or for the United States Government.
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