charger, and method for providing cartridges to a firearm using a charger

专利摘要:
CHARGER, AND, METHOD FOR PROTECTING CARTRIDGES TO A FIRE WEAPON USING A CHARGER. A case magazine for a firearm is described which can have a housing with two substantially different widths. A wider region can accommodate four cartridge columns and can have tapered surfaces at one end that leads to a narrower region that can accommodate a staggered, interconnected double column of cartridges. Cartridges in the widest region can be separated into two double columns staggered by a vertical dividing wall and can be advanced by internal and external contoured followers that can be nested together to form a single follower set involving the independent wall and that can be triggered by the spring of the external follower. A spring of the inner follower can remain nested within the outer follower in such a way that the two followers coordinate the advance of the two separate double columns of cartridges towards the tapered surfaces that merge the two double columns into two single columns near the top of the partition wall .
公开号:BR112012023711B1
申请号:R112012023711-0
申请日:2011-03-25
公开日:2021-03-16
发明作者:Leroy James Sullivan
申请人:ArmWest, LLC；
IPC主号:

专利说明:

PRIORITY CLAIMS
[001] This patent application claims priority for United States provisional patent application serial number 61 / 317,386, filed on March 25, 2010 and entitled High Capacity Magazine, whose contents in its entirety are hereby expressly incorporated by reference . BACKGROUND OF THE INVENTION Field of the Invention
[002] The present disclosure relates in general to firearms and concerns, more particularly, high-capacity box loaders to feed cartridges into firearms. Related Technique
[003] Removable loaders for feeding cartridges into firearms are well known. There are generally two main types of loaders, that is, box loaders and drum loaders. Box loaders are generally limited to around 30 cartridges, in order to maintain reliability. Drum loaders typically contain 50-150 cartridges. Due to their smaller capacity, box loaders in general have to be changed more frequently than drum loaders. Box loaders are much lighter, simpler and more compact. One person can load more cartridges loaded in box loaders than drum loaders. Drum loaders are generally preferred over box loaders for high capacity applications.
[004] It is desirable to provide chargers with high capacities. The use of high capacity chargers requires less frequent charger changes than the use of low capacity chargers. The use of high-capacity chargers gives more assurance that the firearm will be ready for use when needed.
[005] Because of their greater capacities, drum loaders require less frequent loader changes compared to box loaders, but drum loaders are heavier, more complicated and are relatively bulky. Although drum loaders initially provide greater firepower, their weight and volume reduce the amount of ammunition (kept in the loaders) that a person can carry. One option is for a person to load a drum magazine (such as a 100-shot drum magazine) into the firearm for initial firepower and to load the rest of the ammunition into box magazine (such as 30 magazine box magazine). shots). However, such an approach is often impractical because of the volume of the drum loader and because of the number of box loaders required, for example.
[006] It is desirable to combine the large capacity of a drum loader with the compact and lightweight size and portability of a box loader, in order to obtain both the greater initial firepower of the drum loader and the greater sustained firepower. a plurality of cashiers. However, as the size of a magazine is increased to accommodate more cartridges, a longer, stronger spring generally has to be used to move the cartridges into the magazine. As the capacity of a loader is increased, each cartridge added tends to reduce the reliability of the loader. For example, the greater force provided by the higher strength spring, particularly when fully compressed, can cause undesirable feeding problems that render the firearm temporarily inoperable.
[007] According to conventional methodology, increasing the capacity of a conventional double column box loader from the 30 common cartridges today to 100 cartridges undesirably more than would triple the length of the loader and would also require three and a third more of the force to accelerate three and one-third more of the cartridges' weight in order to lift the upper cartridge into the firearm's feed path as quickly as possible when using a conventional 30-cartridge magazine (such as a 30-cartridge magazine for which most firearms are normally designed). Such conventional firearms would often not be able to remove the upper cartridge forward out of the magazine and into the chamber if the outlet force that lifts and holds the upper cartridge in a feed position is increased by three times and a third. The use of such force would often interfere undesirably in the cycle of the automatic firearm.
[008] U.S. patent 2,217,848 discloses a four-column magazine with a dividing wall that passes completely through the longitudinal interior space of the magazine (thus vertically dividing the magazine into two). A loader like this uses two separate followers and springs so that each follower and spring has to separately advance their respective two sets of cartridges without a positive connection between the two followers to synchronize their movement. Such a separate, unsynchronized movement of the two sets of cartridges can result in unwanted charger sticking.
[009] U.S. patent 4,589,218 discloses a four-column magazine that has a longitudinal dividing wall and uses a single follower to advance all four columns, including advancing the last ammunition, to the feed position. However, it is not easily possible for a single follower that advances all four cartridge columns to continue upward through a portion of the double column of a magazine. Such double column chargers or portions of chargers are necessary in order to adapt the firearm's charger chamber to the M4 / M16 family of weapons, whose interface dimensions for the charger adapter have been recommended as a NATO standard.
[0010] In view of the above, it would be beneficial to provide an improved box loader, such as a box loader that has greater capacity and / or greater reliability compared to modern loaders. SUMMARY
[0011] According to one modality, a high capacity box loader is provided. The high capacity box loader typically requires less frequent charger changes than conventional smaller capacity box loaders. Nested followers and nested springs can facilitate the advancement of cartridges within the case loader to a firearm in a way that substantially maintains the reliability of a conventional lower capacity case loader without requiring significantly greater length to accommodate the greater capacity .
[0012] According to one embodiment, a loader can comprise two followers and two springs that are adapted to move the followers. The followers and the springs can be adapted to facilitate the fusion of substantially four columns of cartridges into substantially two interconnected and staggered columns of the cartridges, in such a way that the movement of the cartridges is accelerated and in such a way that the force applied by the cartridges that inhibits removal is reduced, as discussed here.
[0013] According to one embodiment, a magazine may comprise a housing adapted to facilitate the fusion of substantially four columns of cartridges into substantially two interconnected and staggered columns of the cartridges. The movement of the cartridges can be accelerated in such a way that the force applied by the cartridges that inhibits removal is reduced.
[0014] According to one embodiment, a carrier may comprise two followers adapted to nest at least partially within each other. The two followers can cooperate to define a single follower set that functions as a single follower. The two followers can separate in such a way that one of the two followers continues to function as a follower after the separation.
[0015] According to one embodiment, a carrier may comprise two springs adapted to nest at least partially within each other. Sometimes, the two springs can be partially nested or completely nested in relation to each other. At other times, the two springs can be substantially or completely misaligned and extended in relation to each other.
[0016] According to one embodiment, a loader may comprise a housing and a partition wall with a base. The partition wall can separate cartridges into two sets of these. The partition wall can be kept in the housing only at the base of the partition wall. For example, the partition wall can be held at the base of the housing by the force of a spring.
[0017] According to one embodiment, a magazine may comprise a housing adapted to match a substantially two-column magazine chamber of a firearm. The housing can be adapted to contain substantially four cartridge columns.
[0018] According to one embodiment, a housing for a magazine may comprise a plurality of walls converging to the area between the widths of substantially four columns and substantially two columns of the housing to compress upwardly the path of the substantially four columns of cartridges in substantially two columns of cartridges, thus approximately doubling the speed upward of the substantially two columns of cartridges and reducing the applied force upward of these approximately by half compared to the applied speed and force of the substantially four columns. In this way, the movement of the cartridges can be accelerated and the force applied by the cartridges that inhibits removal can be reduced.
[0019] According to one embodiment, an external follower for a magazine may comprise a plurality of surfaces adapted to support a plurality of cartridges. The outer follower can be adapted to move within a carrier housing and the outer follower adapted to nest with an inner follower.
[0020] According to one embodiment, an internal follower for a magazine may comprise a plurality of surfaces adapted to support a plurality of cartridges. The inner follower can be adapted to move within a charger housing and the inner follower can be adapted to nest with an outer follower.
[0021] According to one embodiment, a follower assembly for a charger may comprise an external follower adapted to move within a charger housing and an internal follower adapted to move within the charger housing. The inner follower can be adapted to nest at least partially within the outer follower.
[0022] According to one embodiment, a loader may comprise first support device for supporting a plurality of cartridges, second support device for supporting a plurality of cartridges, first movement device for moving the first support device, second device for movement to move the second support device, and features to separate cartridges into two sets. The first support device and the second support device can be adapted to nest at least partially in each other.
[0023] According to one embodiment, a method for advancing cartridges within a magazine may comprise substantially merging four columns of cartridges into substantially two interconnected and staggered columns of the cartridges. Cartridge movement can be accelerated and the force applied by the cartridges that inhibits removal can be reduced.
[0024] According to one embodiment, a method of advancing cartridges within a magazine may comprise moving substantially four columns of cartridges in a portion of the magazine using two nested followers. Substantially two columns of cartridges can be moved in a different portion of the magazine using the internal follower of the two nested followers.
[0025] According to one embodiment, a method for advancing cartridges within a magazine may comprise nesting a follower at least partially within another follower. Followers may be at least partially nested at times and may not be nested at other times.
[0026] According to one embodiment, a method of advancing cartridges within a magazine may comprise nesting a spring at least partially within another spring. The springs can be at least partially nested a few times. Springs can be more nested at times and less nested at other times.
[0027] According to one embodiment, a method for advancing cartridges into a magazine can comprise separating cartridges into a housing into two sets of these. For example, a partition wall can be used to facilitate such a separation. The partition wall can be kept in the housing only at the base of the partition wall.
[0028] According to one embodiment, a method of manufacturing a magazine may comprise forming a housing that is adapted to facilitate the fusion of substantially four columns of cartridges into substantially two interconnected and staggered columns of cartridges. In this way, the movement of the cartridges can be accelerated and the force applied by the cartridges that inhibits removal can be reduced.
[0029] According to one embodiment, a method of making a charger may comprise placing two followers inside an accommodation. The two followers can be adapted to nest at least partially within each other.
[0030] According to one embodiment, a method of manufacturing a charger may comprise placing two springs in a housing. The two springs can be adapted to nest at least partially within each other.
[0031] According to one embodiment, a method of manufacturing a charger may comprise attaching a partition wall within a housing only on a base of the partition wall. Thus, the partition wall can remain substantially free within the housing. The partition wall can be adapted to separate cartridges within the housing into two sets of these.
[0032] According to one embodiment, a method for using a charger may comprise matching a charger to a firearm. The magazine can be adapted to fuse substantially four columns of cartridges into substantially two interconnected and staggered columns of cartridges in such a way that the movement of the cartridges is accelerated and in such a way that the force applied by the cartridges that inhibits removal is reduced.
[0033] According to one embodiment, a method for using a charger may comprise matching a charger to a firearm. The loader can be adapted to nest a follower at least partially within another follower and / or the loader can be adapted to nest a spring at least partially within another spring.
[0034] According to one embodiment, a method for using a charger may comprise matching a charger to a firearm. The magazine can be adapted to separate cartridges into two sets of these using a partition wall that is held in a magazine housing only on a base of the partition wall.
[0035] According to one embodiment, a magazine for supplying cartridges to a firearm may comprise a housing with an upper end and a lower end that is substantially opposite the upper end. An external follower can be arranged movably within the housing. An internal follower can also be arranged movable within the housing. The inner follower can be adapted to nest at least partially within the outer follower. A first spring can be arranged within the housing and can be adapted to move the outer follower out of the lower end of the housing. A second spring can be arranged inside the housing and can be adapted to move the inner follower out of the outer follower and towards the upper end of the housing. The second spring can be adapted to nest at least partially within the outer follower. The first spring and the second spring can be adapted to expand to move the cartridges into the firearm.
[0036] According to one embodiment, a method of providing cartridges to a firearm using a magazine may comprise moving the cartridges out of a lower end of a magazine housing and toward an upper end of the magazine housing substantially opposite the lower end using a first spring arranged in the housing and an external follower arranged in the housing. The cartridges can be moved out of the outer follower and towards the upper end of the housing using a second spring arranged in the housing and an internal follower arranged in the housing. The inner follower can be adapted to nest at least partially within the outer follower. The second spring can be adapted to nest at least partially within the outer follower.
[0037] According to one embodiment, a weapon system may comprise a firearm and a magazine to provide cartridges to the firearm. The charger can be removably attached to the firearm. The loader may comprise a housing with an upper end and a lower end substantially opposite the upper end. An external follower can be arranged movably within the housing. An inner follower can be arranged movable within the housing and adapted to nest at least partially within the outer follower. A first spring can be arranged within the housing and can be adapted to move the outer follower out of the lower end of the housing. A second spring can be arranged inside the housing and can be adapted to move the inner follower out of the outer follower and towards the upper end of the housing. The second spring can be adapted to nest at least partially within the outer follower. The first spring and the second spring can be adapted to expand to move the cartridges into the firearm.
[0038] The scope of the disclosure is defined by the claims, which are incorporated in this section by reference. A more complete understanding of the modalities of the present disclosure will be provided to those skilled in the art, as well as the realization of additional advantages of the same, taking into account the following detailed description of one or more modalities. Reference will be made to the accompanying drawing sheets, which will first be briefly described. BRIEF DESCRIPTION OF THE FIGURES
[0039] Figure 1 is a cross-sectional view of a high-capacity magazine without cartridges, according to a disclosure mode.
[0040] Figure 2 is a cross-sectional view of a high capacity magazine that is partially filled with cartridges, according to a disclosure mode.
[0041] Figure 3 is a cross-sectional view of a high capacity magazine that is substantially filled with cartridges, according to a disclosure mode.
[0042] Figure 4 is a cross-sectional view taken along line 4,5 of figure 3, according to a disclosure mode.
[0043] Figure 5 is a cross-sectional view taken along line 4,5 of figure 3 with four cartridges superimposed on it, according to one embodiment of the disclosure.
[0044] Figure 6 is a perspective view of an internal follower and an external follower, according to a mode of disclosure.
[0045] Figure 7 is a perspective view of the inner follower and the outer follower, according to a mode of disclosure.
[0046] Figure 8 is a perspective view of the inner follower, the outer follower and a dividing wall, according to a mode of disclosure.
[0047] Figure 9 is a perspective view of an accommodation, according to a mode of disclosure.
[0048] Modalities of the present disclosure and its advantages are best understood by reference to the following detailed description. It should be noted that like reference numbers are used to identify like elements illustrated in one or more of the figures. DETAILED DESCRIPTION OF THE INVENTION
[0049] Examples of modalities for high capacity chargers are disclosed here. One or more modalities use four or more columns of cartridges that transition to fewer columns (such as two columns, for example). This is done in a way that controls the cartridges as they transition to fewer columns so that each of the cartridges matches and reliably coordinates with others of the cartridges.
[0050] Such modalities in general require less frequent charger changes than conventional lower capacity chargers. Greater capabilities can be provided without sacrificing reliability, such as due to the use of nested followers and nested springs as disclosed herein. Thus, a more effective weapon system can be provided for use in battlefield, police, and other situations.
[0051] In one embodiment, a high capacity charger can be implemented with a width of four columns that reduces the overall length (for example, larger dimension) of the charger. Since NATO countries have all agreed to use the same staggered double column magazine to which their firearms must fit, an upper region of the high capacity magazine can use a staggered double column configuration to fit the NATO rifle chamber. currently standard of the charger. Thus, in a modality like this, the reduction in the length of the charger can be limited to this value, which is facilitated by the greater capacity that has the contribution of the four-column charger section.
[0052] In one embodiment, the greater width of the four columns increases the potential width of the spring turns used to force the cartridges upwards in the magazine. This allows the springs to be fitted on a full circle loop instead of the conventional elongated, for example, rectangular spiral configuration that is used on conventional two column width loaders. Such conventional elongated spiral springs are thus highly tensioned, even in 30-shot loaders it is common practice to load only 28 cartridges to ensure that the spring does not settle and consequently cannot properly feed the last cartridge or cartridges. Advantageously, round turns have less tension per load than any other form of loop because they are equally tensioned over the entire length of the wire and thus tend not to have points of concentrated high tension of conventional elongated spiral springs.
[0053] Concentric round loops of different diameters can be made to fit telescopically or nest within each other to reduce the height of the compressed pile of the spring loops and the height of the resulting loader. A free vertical partition wall can then fit in the center of a spring group like this without interfering or limiting the space available for the spiral springs. The partition wall can effectively define a spring guide in order to limit the undesirable movement of the springs, such as their lateral movement. The partition wall can also divide the cartridges into two sets of these and can help to position the cartridges for the proper fusion of the two sets.
[0054] A transitional or tapered portion of the magazine between the four-column region and the two-column region of the magazine can accelerate the cartridges as they move to substantially reduce the output force on the upper cartridge while increasing at the same time the input force required to advance the weight three and one-third times (for example, the weight of 100 cartridges according to a modality versus the weight of 30 cartridges for a conventional magazine) at the same distance as in the magazine magazine. 30 conventional bullets. This can also be done by interrupting and restarting the movement of the cartridge during each firing cycle of the weapon.
[0055] This acceleration is the result of a principle analogous to the relationship of force, area, and speed in hydraulics. The four cartridge columns act as a larger piston driving the smaller double cartridge column. The double column of cartridges is thus driven at twice the speed with half the output force.
[0056] The result is that only about half the force otherwise three and a third times greater is needed in a mode like this to lift the upper cartridge in the desired amount of time (the portion of the automatic cycle between when the movement from the back of the breech it discovers the top cartridge then reverses the movement and starts to drive the cartridge forward). Because of this acceleration, only about half of the force that would otherwise be transferred to the top cartridge and applied to it up to the top (ferrules) of the magazine is actually applied. Thus, instead of the output force of the 100-cartridge loader being 333% of the output force of a conventional 30-cartridge loader, the output force is only about 83% of this (gain of 4 to 1). In this way, the removal force is substantial and desirably reduced compared to that of a conventional 30-cartridge magazine.
[0057] As those skilled in the art will realize, the removal force of a spring-loaded automatic firearm is the force that the breech must apply to the top cartridge of a magazine in order to drive (remove) the cartridge forward outward of the charger and into the cylinder chamber of the firearm. Excessive removal resistance (which opposes removal force) can cause interrupted feeding or deny fire (for example, malnutrition), in which the firearm cannot be used until the malnutrition is corrected. Malnutrition like this can result in a soldier or police officer being endangered and possibly killed. Therefore, it is important to keep the removal resistance well below that in which the firearm was designed to accommodate.
[0058] In order to reliably control and coordinate the marriage of cartridges that transition from four columns to two columns, it is important to maintain the relative pattern and position of each cartridge on one side of the partition wall with respect to the cartridges on the opposite side of the partition wall with which they will eventually combine. For example, if a set (on one side of the partition wall) had to move slower than the other set of cartridges (on the other side of the partition wall), then the cartridge that reaches the double column section first can cross to the empty space of the cartridge is delayed and the loader may become stuck.
[0059] In one embodiment, to ensure that the movement of the cartridge on both sides of the partition wall remains synchronized, a set of four-column follower can be adapted as a piece that surrounds the partition wall, such as the springs, so that everyone move forward together or else don't move forward. In such an embodiment, the four-column follower set can be adapted as a piece by nesting two followers, which then combine or cooperate to define a one-piece follower set.
[0060] As discussed earlier, U.S. Patent 2,217,848 discloses a four-column charger with a dividing wall that passes completely through the longitudinal interior space of the charger (thus vertically dividing the charger substantially in two). A loader like this uses two separate followers and springs so that each follower and spring has to advance their respective two sets of cartridges separately without a positive connection between the two to synchronize the movement. As discussed earlier, such separate, unsynchronized movement of the two sets of cartridges can result in undesirable jamming of the magazine.
[0061] By way of comparison with US patent 2,217,848 and according to one embodiment, the two followers disclosed herein are nested in a way that provides a positive connection between them at least during a portion of their displacement within the housing of the charger, as described here in detail. Such a positive connection facilitates the synchronization of the two sets of cartridges in order to substantially mitigate the likelihood of the charger jamming.
[0062] As discussed earlier, U.S. Patent 4,589,218 discloses a four-column magazine that has a longitudinal dividing wall and uses a single follower to advance all four columns, including advancing the last ammunition to the feed position. It is not possible to easily make a single follower that advances all four columns of cartridges to continue upwards through a double column loader, which is the configuration required to adjust the chamber of a firearm loader in the M4 / M16 family. of weapons.
[0063] By way of comparison with US Patent 4,589,218 and according to one embodiment, the follower set disclosed herein may comprise nested followers in such a way that the combined followers cooperate to advance all four columns in the region of four columns of the magazine and in such a way that one of the followers can separately continue upwards through a region of two columns of the magazine as required to fit the magazine chamber of a firearm in the M4 / M16 family of weapons.
[0064] According to one embodiment, a case loader for a firearm has a housing with two substantially different widths. The widest bottom region (which defines the four column region) can accommodate four columns of cross cartridges therefrom. A transition defined by converging or tapered surfaces at one end (for example, an upper end) of the lower region can lead to a narrower upper region (which defines the two column region) that can accommodate a staggered double column interconnected with cartridges. Cartridges in the lower region can be separated into two double columns staggered by a free vertical partition wall and can be advanced by an internal contoured follower and external contoured follower that are at least partially nested with each other to form a single follower set involving the independent wall and driven by the spring of the external follower.
[0065] An inner follower spring that is weaker than the outer follower spring can remain telescopically engaged, that is, substantially compressed, and inoperable within the outer follower to facilitate the definition of the combined contoured steps of the two followers. The two contoured steps support the cartridges in slightly staggered positions that facilitate their fusion in the transition. The two followers cooperate to coordinate the advance of the two separate double columns of cartridges towards the tapered surfaces that guide and transition, that is, they merge the two double columns into a staggered interconnected double column just above the uppermost edge of the partition wall. Thus, the two staggered double columns form a staggered double column as they enter the uppermost narrow region of the housing.
[0066] As the last of the cartridges advances out of the wider lower region, the movement of the outer follower is prevented by stops. This relieves the inner spring of the greater force of the outer spring that kept it inoperable and acts to release the inner follower which is then independently driven by the inner spring in order to advance the remaining double column of cartridges through the narrowest upper region of the housing.
[0067] Thus, according to one modality, the same configuration that is used to increase the capacity of the charger helps to mitigate power problems. That is, the use of four columns that merge into two columns reduces the removal force required in such a way that problems caused by the firearm with insufficient removal force are substantially alleviated. This is made possible by using a follower set in which a portion of the follower (one of two followers of the same) can pass through the narrowest two column region of the magazine to facilitate the advancement of cartridges within the magazine.
[0068] A tapered portion can define a transition between the four-column region of the magazine and the two-column region of the magazine. The transition can disassociate at least some of the behavior of the four column region and the two column region from each other. Thus, the number of columns, the force provided by the cartridges, and the speed at which the cartridges move can be different in each region.
[0069] In addition, the two-column region of the magazine can function in a way that is generally similar to a straight 16-shot M16 magazine (which is superior to the original 20-shot M16 magazine). The four-column region can have all the benefits of a completely curved magazine that does not need to compensate for the angular error imposed on the tapered cartridges by the straight two-column region. The lower four-column region can thus have any desired capacity up to the point where the increased spring force (to accelerate the increased ammunition weight) becomes strong so that this force begins to slow the firing cycle of a weapon's weapon. undesirable way.
[0070] In addition to facilitating the doubling of the speed of the upper cartridges while cutting the spring force in half, the transition also compensates, at least to some degree, for the angular error imposed by the straight region of two columns. Unlike cartridges in the straight two-column region and cartridges in the curved four-column region (both of which are substantially trapped within the staggered double columns and thus cannot tilt without tilting their neighbors), cartridges in the transition can cross and tilt independently relative to each other.
[0071] The transition walls can compress the four columns into two columns in a way that allows the cartridges to cross with each other. As the cartridges rise within the transition, they position themselves to enter the two-column region. The upper cartridge thus remains square with respect to the feed throat of the magazine and does not obtain an undesirable nose-down or bottom-down orientation or attribute. In this way, locking of ammunition in the magazine, chewing shots, and other malfunctions / jamming problems are substantially alleviated. This configuration also improves feed uniformity (all cartridges tend to feed substantially with the same orientation or attribute).
[0072] Examples of modalities are discussed below with reference to the figures. As those skilled in the art will realize, other modalities, which may use other resources or combinations of resources, may likewise fall within the scope of the claims.
[0073] Now with reference to figures 1-9, examples of disclosure modalities are discussed. In the discussion and following figures, like numbers refer to like structures.
[0074] Figure 1 illustrates a high capacity charger 100 without cartridges, according to a disclosure mode. The magazine 100 can be adapted to hold 50 cartridges 310, for example. Charger 100 can be adapted to be removably attached to a firearm. For example, the magazine 100 can be adapted to removably attach to a firearm that belongs to the M4 / M16 family of weapons. Charger 100 can be adapted to removably attach to any desired firearm.
[0075] In one embodiment, the magazine 100 can attach to the firearm by means of a lock, just as in the manner that a conventional magazine attaches to an M-16 rifle. In other embodiments, the charger100 can attach in any desired manner.
[0076] The magazine 100 may comprise a housing 101 into which the cartridges 301 are loaded (as shown in figures 2, 3, and 5). The cartridges 301 disposed within the housing 101 can be fed through the magazine 100 into the firearm, as discussed here in detail. Housing 101 can be adapted to contain a larger number of cartridges 301 compared to typical conventional carriers, particularly conventional carriers of approximately the same length.
[0077] Although the housing 101 is adapted to contain 50 of the 301 cartridges in the manner illustrated and discussed herein, this is by way of example only, and not by way of limitation. For example, housing 101 can be adapted to contain 30, 50, 100, 150, or more of cartridges 301. Certainly, housing 101 can be adapted to contain any desired number of cartridges 301.
[0078] Housing 101 can be adapted to contain any type of desired cartridges 301. For example, housing 101 can be adapted to contain any desired caliber of rifle or pistol cartridges. More particularly, housing 101 can be adapted to contain cartridges such as 223, 5.56x45 NATO, 7.62x39 mm, or 7.62x51 NATO, for example.
[0079] A lower region 102 of the housing 101 can be adapted to contain the cartridges 301 in a cross configuration in general of four (as shown in figures 3 and 5). An upper region 103 of housing 101 can be adapted to contain cartridges 301 in a cross configuration in general of two (as shown in figures 2 and 3). Thus, the lower region 102 of the housing 101 can be substantially wider than the upper region 103 of the housing 101.
[0080] In the cross configuration of four and / or in the cross configuration of two, the 301 cartridges can be substantially mismatched, in such a way that the 301 cartridges are not all at the same height or distance from a base 111 of the magazine (as shown in figures 3).
[0081] Although housing 101 can be adapted to contain cartridges 301 substantially four crossed in its lower region 102 and substantially two crossed in its upper region 103 in the manner illustrated and discussed here, this is by way of example only, and not limitation. Any desired number of regions, which maintains any desired number of 301 cartridges through them, can be used.
[0082] A tapered portion 113 can connect the lower region 102 of the housing 101 to the upper region 103 of the housing 101. The tapered portion 113 can be formed in the housing 101. The upper region 103 of the housing 101 can be adapted to be received within a firearm carrier chamber and the lower region 102 can be adapted to extend outward (e.g., downward) away from the firearm.
[0083] The housing 101 can comprise the lower end 111 and an upper end 112. The housings 116 can be formed at the upper end 112 of the housing 101. The housings 116 can be adapted to hold the cartridges 301 retained within the housing 101 until the cartridges 301 are fed by the magazine 100, such as by the action of the breech of the firearm (not shown) during arming the dog or firing the firearm. The ferrules 116 also define one or more stops of the inner follower 122 that limit the movement of an inner follower 162 out of the lower end 111 of the housing 101.
[0084] The tapered portion 113 can define one or more stops of the outer follower 121. The stops of the outer follower 121 can limit the movement of an outer follower 161 out of the lower end 111 of the housing 101.
[0085] According to one modality, the housing 101 can be made of metal, composite, or plastic. For example, housing 101 can be made of sheet metal. As an additional example, housing 101 can be made of any desired combination of aluminum, steel and / or titanium. Any other suitable material or combination of materials can similarly be used. The housing 101 can be made by forming, for example, folding or drawing, shaping and / or by machining, for example, milling. The housing 101 can be made by any desired method.
[0086] Within the housing 101 there may be contained a mechanism for advancing the cartridges 301 upwards, towards the upper end 112 of the housing 101. This mechanism may comprise an outer spring 151, an inner spring 152, the outer follower 161, the internal follower 162, and a partition wall 170.
[0087] Housing 101 can substantially define a closure for magazine 100. In one embodiment, substantially all components of magazine 100, as well as any of the cartridges 301 contained therein, are disposed within housing 101. In another embodiment, the housing 101 can be more frame type. For example, housing 101 may have openings in such a way that they do not completely close all components of the magazine 100 and / or all cartridges 301 contained therein. In another embodiment, portions or all components of the charger 100 can be arranged outside the housing 101. In this way, the housing 101 can have any desired configuration.
[0088] The outer spring 151 can be arranged substantially between the outer follower 161 and the lower end 111 of the housing 101. The outer follower 161 can be arranged substantially between the outer spring 151 and the inner spring 152. The inner spring 152 can be substantially arranged between outer follower 161 and inner follower 162. Inner follower 162 can be substantially disposed between inner spring 152 and upper end 112 of housing 101.
[0089] In one embodiment, the partition wall 170 can extend upwards from the lower end 111 of the housing 101 and can be maintained in the housing 101 only at the lower end 111 of the housing 101. Thus, the partition wall 170 can be adapted from in such a way that it is not supported along its length or at its upper end and is free flexible and self-centered. The partition wall 170 can be supported and centered by cartridges 301 anywhere on it when the magazine is at least partially filled with cartridges 301.
[0090] The partition wall 170 can extend through the outer spring 151, the outer follower 161, at least a portion of the inner spring 152, and the inner follower 162 (when the inner follower 162 is in the lower region 102 of the loader 100 ). The partition wall 170 can extend through a portion of the inner spring 152 when the inner spring 152 is fully expanded (as shown in Figure 1) and the partition wall 170 can extend through the total inner spring 152 when the inner spring 152 is completely compressed (as shown in figures 2 and 3).
[0091] The partition wall 170 can extend substantially along a central axis 181, that is, longitudinal, of the loader 100. The longitudinal axis 181 can be a central axis of the external spring 151, of the internal spring 152, of the follower outer 161, and inner follower 162.
[0092] The outer follower 161 and inner follower 162 can move or slide within housing 101 and along partition wall 170. An opening 163 of outer follower 161 and an opening 164 of inner follower 162 can facilitate such movement of the outer follower 161 and inner follower 162 with respect to partition wall 170. Opening 163 of outer follower 161 and opening 164 of inner follower 162 can freely receive and position partition wall 170 and align one end 171 of partition wall 170 to substantially divide two cartridge columns 301 in two separate sets of these when cartridges 301 are being loaded into magazine 100. The cartridges then center the flexible free vertical partition wall.
[0093] Figure 2 is a cross-sectional view of the magazine 100 which is partially filled with the cartridges 301, according to an embodiment of the disclosure. As shown, the upper region 103 and the transition defined by the taper 113 retain the cartridges 301. As shown, the lower region 102 does not retain the cartridges 301. For example, the magazine 100 may be filled this way when it has partially loaded or has previously been fully loaded and some of the 301 cartridges have been triggered.
[0094] As you can see, the outer spring 151 is completely expanded and the inner spring 152 is completely compressed. During firing, this configuration results after all cartridges 301 are emptied from the lower region 102 of the housing 101 and the upper region 103 is still filled with cartridges 301 (at least some of which were previously in the lower region 102). In this configuration, outer follower 161 has ceased to move upward and inner follower 162 can now continue to move cartridges 301 toward the upper end 112 of housing 101.
[0095] More particularly, outer follower 161 has stopped upward movement because its stepped upper surfaces 168 and 169 have made contact with outer follower stops 121. Inner follower 162 is still free to move upwards to the upper end 112 of housing 101.
[0096] The outer spring 151 can be substantially stronger than the inner spring 152. Therefore, the inner spring 152 can remain completely compressed until the upward movement of outer follower 161 is stopped by the stops of outer follower 121. After the upward movement of the outer follower 161 has been interrupted, then the inner spring 152 may be free to expand in order to continue moving the cartridges 301 towards the upper end 112 of the housing 101 and thus feeding the cartridges 301 into the firearm.
[0097] Figures 3-5 are cross-sectional views of the magazine 100 when the magazine 100 is substantially filled (such as completely filled) with cartridges 301, according to a disclosure mode. Figures 4 and 5 are cross sections taken along line 4, 5 of figure 3. No cartridges 301 are shown in figure 4. Cartridges 301 are shown in figure 5. In figures 3 and 5, magazine 100 is full with cartridges 301 in such a way that the outer spring 151 and the inner spring 152 are substantially (almost completely) compressed.
[0098] As can be seen, the partition wall 170 separates the cartridges 301 in two sets. One set is to the left of the partition wall 170 and one set is to the right of the partition wall 170.
[0099] With particular reference to figures 4 and 5, the housing 101 may comprise a rear wall 202, a front wall 203, and two side walls 204 and 205. Those skilled in the art will find that various other configurations of the housing 101 are equally suitable.
[00100] The cartridges 301 of the two sets can fuse at the transition defined by the tapered portion 113 after passing through the tip 171 (for example, upper end) of the dividing wall 170. Thus, the cartridges 301 of the lower region 102 can move to the region top 103 since cartridges 301 of a four-crossover cartridge configuration of the magazine 100 merge to form a two-crossover configuration of the magazine 100.
[00101] Furthermore, the cartridges 301 on one side of the partition wall 170 can move together with the cartridges 301 on the other side of the partition wall 170 in such a way that both sets of cartridges 301 are slightly or completely synchronized in their movement. This synchronization can result in the free vertical partition wall 170 allowing the left and right side of the outer follower 161 and inner follower 162 to remain cross-linked in front of and behind the partition wall 170. Thus, both sides of the follower outer 161 and inner follower 162 can only move together so that cartridges 301 only move in unison. The inner follower 162 cannot move out of sync with the outer follower 161 because the weaker inner spring 152 cannot independently move the innermost columns of cartridges 301 adjacent to the partition wall 170 because of the cartridges 301L and 301R plus outer columns are interconnected with the innermost columns of the 310 cartridges. All columns of the 301 cartridges therefore move substantially in unison. Due to relative spring forces, the outer follower 161 and its stronger outer spring 151 lifts the outer columns of the cartridges 301 in such a way that, in any case, all cartridges 301 move substantially in unison.
[00102] This synchronization facilitates better casting of the two sets of cartridges 301. One set of cartridges 301 is displaced relative to the other set of cartridges 301 by the stepped upper surfaces 168 and 169 in order to further improve their fusion. In this way, malfeeding or unwanted sticking of cartridges 301 as cartridges 301 fuse can be substantially mitigated.
[00103] By substantially nesting or telescoping the outer spring 151 and the inner spring 152, the use of a smaller spring assembly (defined by the combination of outer spring 151 and inner spring 152), and consequently a smaller housing 101, is facilitated. For example, approximately twice the number of turns of the spring can be provided according to one embodiment (as shown in figures 1-3) as would otherwise be provided in a conventional charger of the same length.
[00104] In one embodiment, the inner spring 152 can be substantially weaker than the outer spring 151 in such a way that the stronger force provided by the inner spring 152, such as when the inner spring 152 is compressed, is less than the force weaker provided by the outer spring 151, such as when the outer spring 151 is fully expanded. In this way, the inner spring 152 expands only after the outer spring 151 stops the expansion, just as when the stepped upper surfaces 168 and 169 of the outer follower 161 come into contact with the stops 121. The mixture of the staggered double columns of the cartridges 301 above the outer follower 161 and inner follower 162 substantially nested inhibit the independent upward movement of outer follower 161 and inner follower 162 before outer spring 151 interrupts the expansion.
[00105] Having discussed the structure of the charger 100, the operation of such a modality will now be discussed. Loader 100 can be filled with cartridges 301 manually, either with or without the use of a tool (for example, such as a conventional tool for loading loaders with cartridges) or by a machine. Loader 100 can be filled with cartridges 301 either by the provider of loader 100 (for example, such as an arsenal, warehouse, or factory), in the field, or in any other desired location.
[00106] As cartridges 301 are loaded in magazine 100, cartridges 301 are positioned first by the stepped upper surfaces 166 and 167 of the inner follower 162 and subsequently (as more cartridges 301 are loaded) by the stepped upper surfaces 168 and 169 of external follower 161. Cartridges 301 are formed in their staggered columns. Thus, the configurations (particularly the heights) of the stepped upper surfaces 168 and 169 of the outer follower 161 and the stepped upper surfaces 166 and 167 of the inner follower 162 determine the configuration of the cartridges 301 disposed within the magazine 100.
[00107] The first of the loaded cartridges 301 will be disposed on the lower upper surface 167 of the inner follower 162 and the second of the loaded cartridges 301 will be disposed on the upper upper surface 166 of the internal follower 162 to initiate a staggered sequence of the cartridges 301. Subsequently, loaded cartridges 301 will continue this staggered sequence. After the inner follower 162 has been pushed down to the point where it is approximately below the taper 113, the stepped sequence will be divided on each side of the partition wall 170.
[00108] As cartridges 301 are additionally loaded in magazine 100, cartridges 301 are guided by the partition wall 170 to one of the two sets of cartridges 301 that are mismatched on either side of the partition wall 170. The cartridges 301 that are predisposed to the left of the partition wall 170 are guided to the left of the partition wall 170 as the cartridges 301 make contact with the tip 171 of the partition wall 170. Similarly, the cartridges 301 that are predisposed to the right of the partition wall 170 are guided to the right of the partition wall 170 as cartridges 301 make contact with the end 171 of the partition wall 170.
[00109] Loader 100 can be filled with cartridges 301 in order to compress both outer spring 151 and inner spring 152. When loader 100 is completely filled with cartridges 301, outer spring 151 and inner spring 152 are approximately completely compressed and the inner spring 152 is substantially nested within the outer spring 151 (as shown in figures 3-5). Also when the magazine 100 is completely filled with cartridges 301, the inner follower 162 and the inner spring 152 are substantially nested inside the outer follower 161 and the outer follower 161 is substantially nested within the outer spring 151. Due to these various features, the height of the compressed stack of the two springs 151, 152 is substantially reduced so that the length of the magazine 100 does not need to be as large as would be necessary if all the springs are stacked on top of each other as in conventional box loaders.
[00110] Nesting of inner follower 162 at least partially within outer follower 161 facilitates the cooperation of inner follower 162 and outer follower 161 to define a single combined follower that moves cartridges 301 toward the upper end 112 of housing 101. Nesting of inner follower 162 at least partially within outer follower 161 also facilitates independent operation of inner follower 162 to move cartridges 301 towards the upper end 112 of housing 101 without corresponding movement of outer follower 161.
[00111] An upper cartridge 301A (and consequently all other cartridges 301) is held in place by the ferrules 116. The upper cartridge 301 is a slide of the magazine 100 as the upper cartridge 301A is fed into the firearm.
[00112] When the firearm cycles, the upper cartridge 301A is fed from the magazine into the firearm gun. When cartridges 301 are maintained in the lower region 102 of the housing 101 and the upper cartridge 301A is fed from the magazine 100, then the outer spring 151 expands to push all other cartridges 301 out of the lower end 111 of the housing 101 and towards to the upper end 112 of it so that the next upper cartridge 301A (for example, the next cartridge 301 after the upper cartridge 301 previously fed) is again held in place by the ferrules 116.
[00113] As the firearm is fired, the outer spring 151 continues to expand and push all cartridges 301 toward the upper end 112 of the magazine until the stepped upper surfaces 168 and 169 of the outer follower 161 come into contact with the stops of the outer follower 121. When the stepped top surface 168 and l69 of the outer follower 161 comes into contact with the stops of the outer follower 121, all cartridges 301 of the lower region 102 of the housing 101 will be moved out of the lower region 102. Some of the cartridges 301 of the lower region 102 may remain in the upper region 103, as shown in figure 2.
[00114] After the stepped upper surfaces 168 and l69 of outer follower 161 come into contact with the stops of outer follower 121 and some cartridges 301 still remain in the upper region 103, then the inner spring 152 expands in order to move the cartridges 301 remnants out of the lower end 111 of the housing 101 and toward the upper end 112 of the housing 101. The inner spring 152 continues to expand and move the cartridges 301 towards the upper end 112 until the last cartridge 301 is fed into the firearm. fire and the inner follower 162 contact the stops of the inner follower 122.
[00115] Figures 6-8 are seen in perspective showing outer follower 161 and inner follower 162, according to an embodiment. Figure 8 additionally shows the partition wall 170 which extends through the opening 163 of the outer follower 161 and the opening 164 of the inner follower 162, according to an embodiment.
[00116] Other modalities are also contemplated. For example, although the upper region 103 of the loader is illustrated in the figures and described here with a staggered two-column configuration, the upper region 103 may have a single-column configuration in another embodiment. For example, the two columns can optionally be pushed into a single column before cartridges 301 reach the upper end 112 of housing 101.
[00117] As another example, instead of implementing partition wall 170 as a vertical free partition wall illustrated in the figures and described here, partition wall 170 can be a partition wall implemented as discussed to separate cartridges 301 into two sets, but the partition wall can comprise two parts. A portion of the partition wall can be attached to the front wall 203 of the housing 101 and extend substantially along it in the lower region 102 of the housing 101, and another portion of the partition wall can be attached to the rear wall 202 of the housing 101 and extend substantially along it in the lower region 102 of the housing. A gap can be formed between the two portions in such a way that the springs and followers move within the gap in a manner similar to that of the magazine disclosed in U.S. Patent 4,589,218.
[00118] Figure 9 is a perspective view showing the housing 101 of the magazine 100. A recess, hole, or notch 901 formed in the housing 101 in the tapered portion 113 can define a protuberance or rail within the housing 101. The rail can be considered an extension of tracks formed by notches 902 in housing 101. All tracks defined by notches 901 and 902 can make contact with the outermost of cartridges 301 and maintain the desired positioning of the outermost of cartridges 301. Such tracks can be formed in the two sides of housing 101.
[00119] Advantageously, high-capacity chargers implemented in accordance with the various modalities described here, typically require less frequent recharging than conventional lower-capacity chargers and thus tend to better guarantee that a firearm will be ready for use when needed. Certainly, having a firearm that is ready to use can save lives in many battlefield, police, and other situations.
[00120] Also, the modalities of the high capacity charger disclosed here can provide greater capacities than conventional chargers without sacrificing reliability. In this regard, substantially stronger springs are not required, and the springs are not compressed to a point where they are likely to interfere with the intended operation of the firearm. The round springs disclosed here are less likely to take an assembly when the charger remains fully charged for an extended period of time. Thus, a high capacity charger is provided that is reliable, simple to build, and relatively inexpensive.
[00121] Where applicable, the various components presented here can be combined into mixed components and / or separated into subcomponents without departing from the spirit of the present disclosure. Similarly, where applicable, the order of the various steps described here can be changed, combined in mixed steps and / or separated into substeps to provide the resources described here.
[00122] Cartridge columns 301 can be referred to here "substantially" with a given width because the columns can be overlapped or staggered in such a way that the widths are not necessarily well defined. For example, "substantially four columns of the 301 cartridges" may refer to four columns of the 301 cartridge that absolutely do not overlap or substantially overlap in such a way that the columns are at least somewhat staggered.
[00123] The columns of the 301 cartridges and / or the 301 cartridges themselves can be referred to here as interconnected and / or mismatched when there is a certain overlap between the columns and / or the 301 cartridges. When two of the 301 cartridges in a column and one of the cartridge 301 in another column are adapted in such a way that each of the cartridges 301 makes contact with the other two of the cartridges 301, so there is a certain overlap between the columns and the cartridges 301. Thus the columns and cartridges 301 can be referred to as interconnected and / or mismatched.
[00124] Various modalities, aspects and resources of the revelation are further discussed below. Such modalities, aspects and resources, as well as any others discussed here, can be used separately or combined with each other, as desired.
[00125] According to one embodiment, a loader may comprise two followers and two springs adapted to move the followers. The followers and springs can be adapted to facilitate the fusion of substantially four cartridge columns into substantially two interconnected and staggered cartridge columns to accelerate the movement of the cartridges and attenuate the force required to remove the cartridges from the magazine.
[00126] The substantially two interconnected and staggered columns can comprise at least one of the cartridges in one column and at least two of the cartridges in another column. The two followers can be adapted to nest at least partially in each other. The two springs can be adapted to nest at least partially in each other.
[00127] The magazine can additionally comprise a housing and a partition wall with a base and adapted to separate the cartridges into two sets of cartridges. The partition wall can be kept in the housing only at the base of the partition wall.
[00128] The loader may additionally comprise a housing within which the followers and the springs are substantially arranged. The housing may have a wider lower region and a narrower upper region. A partition wall can have a base and can be adapted to separate the cartridges into two sets of these in the lower region. The partition wall can be kept in the housing only at the base of the partition wall. Followers can comprise an outer follower and an inner follower, and the inner follower can be adapted to nest at least partially within the outer follower. The inner follower can be adapted to separate from the outer follower to enter the upper region of the housing. The springs can be adapted to nest at least partially within each other. One spring can move the inner follower and the outer follower when the inner follower and the outer follower are in the lower region, and the other spring can move the inner follower when the inner follower is in the upper region. The housing, the followers, the springs and the partition wall can be adapted to cooperate to fuse the substantially four columns of the cartridges into the substantially two interconnected and staggered columns of cartridges.
[00129] According to one embodiment, a magazine may comprise a housing adapted to facilitate the fusion of substantially four columns of the cartridges into substantially two interconnected and staggered columns of the cartridges. This can be done to speed up the movement of the cartridges and to attenuate the force required to remove the cartridges from the magazine.
[00130] The substantially two interconnected and staggered columns can comprise at least one of the cartridges in one column and at least two of the cartridges in another column. The carrier can additionally comprise two followers that are adapted to nest at least partially in each other and two springs that are adapted to nest at least partially in each other. Followers and springs can be adapted to cooperate with the housing to fuse four cartridge columns into substantially two interconnected and staggered cartridge columns.
[00131] The loader may comprise a partition wall with a base and adapted to separate the cartridges into two sets of these. The partition wall can be kept in the housing only at the base of the partition wall.
[00132] According to one embodiment, a carrier may comprise two followers adapted to nest at least partially within each other. The loader may additionally comprise a dedicated spring for each of the followers. The magazine can additionally comprise a partition wall. Followers can be adapted to receive the dividing wall through them.
[00133] Followers can comprise an outer follower and an inner follower adapted to nest at least partially within the outer follower. An external spring can be adapted to move the external follower. An inner spring can be adapted to move the inner follower. The outer follower can be adapted to cooperate with the inner follower to support substantially four columns of the cartridges when the outer follower and the inner follower are nested. The inner follower can be adapted to support substantially two columns of the cartridges when the outer follower and the inner follower are not nested.
[00134] The carrier may additionally comprise a housing within which the followers are arranged. The housing may have a first region that is adapted to contain cartridges in a substantially cross-configuration of four and a second region that is adapted to contain cartridges in a substantially cross-configuration of two.
[00135] The loader may additionally comprise a housing within which the followers are arranged. The housing may have a first region that is adapted to contain cartridges in a substantially cross configuration of four, a second region that is adapted to contain cartridges in a substantially cross configuration of two, an outer spring, and an inner spring. Followers can comprise an external follower and an internal follower. The outer follower can be adapted to be moved in the first region by the outer spring and can be adapted to cooperate with the inner follower to support substantially four columns of the cartridges when the outer follower and the inner follower are nested. The inner follower can be adapted to be moved in the second region by the inner spring and can be adapted to support substantially two columns of the cartridges when the outer follower and the inner follower are not nested. The outer follower, inner follower, outer spring and inner spring can be adapted to nest together.
[00136] According to one embodiment, a carrier may comprise two springs adapted to nest at least partially within each other. The loader may additionally comprise a dedicated follower for each of the springs. Each dedicated follower can be adapted to move by its associated spring.
[00137] The magazine can additionally comprise a partition wall. The springs can be adapted to receive the partition wall through them. The springs comprise round springs. The springs may comprise an inner spring and an outer spring which is adapted to nest at least partially within the inner spring. The outer spring can be substantially stronger than the inner spring.
[00138] According to one embodiment, a magazine can comprise a housing and a partition wall with a base and adapted to separate cartridges into two sets of these. The partition wall can be kept in the housing only at the base of the partition wall.
[00139] The housing may comprise a first region that is adapted to contain cartridges in a substantially crossed configuration of four, a second region that is adapted to contain cartridges in a substantially crossed configuration of two, and a tapered portion that defines a transition between the first region and the second region. The partition wall may have an upper end close to the tapered portion.
[00140] The loader may additionally comprise a plurality of followers and a plurality of springs. The dividing wall can pass through the followers and the springs.
[00141] A magazine may comprise a housing adapted to substantially match a firearm's two-column magazine chamber and adapted to contain substantially four cartridge columns. The housing can be adapted to match a firearm carrier chamber within an M4 / M16 family of weapons.
[00142] According to one embodiment, a housing for a loader may comprise a plurality of walls. The walls can be adapted to facilitate the fusion of substantially four columns of the cartridges into substantially two interconnected and staggered columns of the cartridges to accelerate the movement of the cartridges and attenuate the force required to remove the cartridges from the magazine.
[00143] According to one embodiment, an external follower for a magazine may comprise a plurality of surfaces adapted to support a plurality of cartridges and adapted to move within a magazine housing. The outer follower can be adapted to nest with an inner follower.
[00144] According to one embodiment, an internal follower for a magazine can comprise a plurality of surfaces adapted to support a plurality of cartridges and adapted to move within a magazine housing. The inner follower can be adapted to nest with an outer follower.
[00145] According to one embodiment, a follower assembly for a charger may comprise an external follower adapted to move within a charger housing and an internal follower adapted to move within the charger housing. The inner follower can be adapted to nest at least partially within the outer follower.
[00146] A loader may comprise a first support device for supporting a plurality of cartridges and a second support device for supporting a plurality of cartridges. A first movement device can be adapted to move the first support device. A second movement device can be adapted to move the second support device. The devices can be provided to separate cartridges into two sets. The first support device and the second support device can be adapted to nest at least partially in each other.
[00147] According to one embodiment, a method of advancing cartridges within a magazine may comprise substantially merging four columns of the cartridges into substantially two interconnected and staggered columns of the cartridges to accelerate the movement of the cartridges and attenuate the force required to remove the cartridges. loader cartridges. The method may comprise moving substantially four columns of the cartridges in one portion of the magazine using two nested followers and moving substantially two columns of the cartridges in a different portion of the magazine using an internal follower of the two nested followers.
[00148] According to one embodiment, a method of advancing cartridges within a magazine may comprise nesting a follower at least partially within another follower. According to one embodiment, a method of advancing cartridges within a magazine may comprise nesting a spring at least partially within another spring.
[00149] According to one embodiment, a method for advancing cartridges into a magazine can comprise separating the cartridges into a housing into two sets of these using a partition wall that is secured in the housing only on a base of the partition wall. According to one embodiment, a method of manufacturing a magazine may comprise forming a housing that is adapted to facilitate the fusion of substantially four columns of the cartridges into substantially two interconnected and staggered columns of the cartridges to accelerate the movement of the cartridges and attenuate the required force to remove the cartridges from the magazine.
[00150] According to one embodiment, a method of manufacturing a charger may comprise placing two followers inside an accommodation. The two followers can be adapted to nest at least partially within each other. According to one embodiment, a method of making a charger may comprise placing two springs in a housing. The two springs can be adapted to nest at least partially within each other.
[00151] According to one embodiment, a method of manufacturing a charger may comprise attaching a partition wall within a housing only on a basis of the partition wall. The partition wall can be adapted to separate cartridges within the housing into two sets of these.
[00152] According to one embodiment, a method for using a charger may comprise matching a charger to a firearm. The magazine can be adapted to fuse substantially four columns of the cartridges into substantially two interconnected and staggered columns of the cartridges to accelerate the movement of the cartridges and attenuate the force required to remove the cartridges from the magazine.
[00153] According to one embodiment, a method for using a charger may comprise matching a charger to a firearm. The carrier can be adapted to nest a follower at least partially within another follower.
[00154] According to one embodiment, a method for using a charger may comprise matching a charger to a firearm. The magazine can be adapted to nest a spring at least partially within another spring.
[00155] According to one embodiment, a method for using a charger may comprise matching a charger to a firearm. The magazine can be adapted to separate cartridges into two sets of these using a partition wall that is held in a magazine housing only on a base of the partition wall.
[00156] According to one embodiment, a magazine for supplying cartridges to a firearm may comprise a housing with an upper end and a lower end substantially opposite the upper end. An external follower can be arranged movably within the housing. An inner follower can be arranged movable within the housing and can be adapted to nest at least partially within the outer follower. A first spring can be arranged within the housing and can be adapted to move the outer follower out of the lower end of the housing. A second spring can be arranged within the housing and can be adapted to move the inner follower out of the outer follower and towards the upper end of the housing, the second spring can be adapted to nest at least partially within the outer follower. The first spring and the second spring can be adapted to expand to move the cartridges into the firearm.
[00157] The spring can be arranged at least substantially between the outer follower and the lower end of the housing. The loader may additionally comprise a spring guide which extends from near the lower end of the housing towards the upper end of the housing. The spring guide can be attached to the housing only near the lower end of the housing. The spring guide can extend substantially through the first spring and the second spring.
[00158] The inner follower and the outer follower can be adapted to receive the spring guide through them. The spring guide can be substantially planar. The housing may comprise a tapered portion between the upper end and the lower end.
[00159] The housing can be adapted to contain the cartridges in a first region of the housing substantially between the lower end and the tapered portion, and to maintain the cartridges in a second region of the housing substantially between the tapered portion and the upper end, and in that the first region has a wider width than the second region. The first spring can be adapted to expand to move the cartridges from the first region to the second region using at least the first follower. The second spring can be adapted to expand to move the cartridges of the second region in the firearm through the upper end of the housing using at least the second follower.
[00160] The second spring can be adapted to start expanding only after the outer follower is close to the tapered portion. The loader may comprise a spring guide adapted to separate the cartridges in the first region of the housing into a first set of cartridges on a first side of the spring guide and a second set of cartridges on a second side of the spring guide. The first region can be adapted to contain approximately four columns of the cartridges and the second region is adapted to contain approximately two columns of the cartridges.
[00161] According to one embodiment, a method of providing cartridges to a firearm using a magazine may comprise moving cartridges out of a lower end of a magazine housing and towards an upper end of the magazine substantially opposite the magazine. lower end using a first spring arranged in the housing and an external follower arranged in the housing and moving the cartridges out of the external follower and towards the upper end of the housing using a second spring arranged in the housing and an internal follower arranged in the housing. The inner follower can be adapted to nest at least partially within the outer follower. The second spring can be adapted to nest at least partially within the outer follower.
[00162] The first spring can be arranged at least substantially between the outer follower and the lower end of the housing. The loader may comprise a spring guide that extends from near the lower end of the housing towards the upper end of the housing. The spring guide can be attached to the housing only near the lower end of the housing. The spring guide can extend substantially through the first spring and the second spring. The inner follower and the outer follower can be adapted to receive the spring guide through them. The spring guide can be substantially planar. The housing may comprise a tapered portion between the upper end and the lower end.
[00163] The method may further comprise maintaining the cartridges in a first region of the housing substantially between the lower end and the tapered portion and maintaining the cartridges in a second region of the housing substantially between the tapered portion and the upper end. The first region may have a wider width than the second region.
[00164] Moving the cartridges out of the lower end of the housing may comprise expanding the first spring to move the cartridges from the first region to the second region using at least the first follower. Moving the cartridges out of the outer follower may comprise expanding the second spring to move the cartridges from the second region in the firearm through the upper end of the housing using at least the second follower.
[00165] Expansion of the second spring can occur only after the outer follower is close to the tapered portion. The method may further comprise separating the cartridges in the first region of the housing into a first set of cartridges on a first side of a spring guide and a second set of cartridges on a second side of the spring guide.
[00166] Maintaining the cartridges in the first region of the housing may comprise maintaining approximately four columns of the cartridges in the first region. Maintaining the cartridges in the second region of the housing may comprise maintaining approximately two columns of the cartridges in the second region.
[00167] According to one embodiment, a weapon system may comprise a firearm and a magazine to provide cartridges for the firearm. The charger can be removably attached to the firearm. The loader may comprise a housing with an upper end and a lower end substantially opposite the upper end, an outer follower arranged movable within the housing, an inner follower arranged movable within the housing and adapted to nest at least partially within the outer follower, a first spring arranged within the housing and adapted to move the outer follower out of the lower end of the housing, and a second spring disposed within the housing and adapted to move the inner follower out of the outer follower and towards the upper end of the housing. The second spring can be adapted to nest at least partially within the outer follower. The first spring and the second spring can be adapted to expand to move the cartridges into the firearm.
[00168] When a number of columns is referred to here (such as when referring to the “two column region” and the “four column region”), such reference can be inferred with respect to “substantially” that number of columns per cause of their mismatch and / or interconnection. Thus, referring to a “two column region” or referring to a “four column region” can be the same as referring to a “substantially two column region” or referring to a “region substantially four columns ”. That is, the terms a "two column region" and "four column region" can be used interchangeably with "substantially two column region" and "substantially four column region" and can have the same meaning.
[00169] In the form used herein, the terms “removal force” can refer to the force that is applied by a breech of a firearm to a cartridge in a magazine in order to feed the cartridge through the magazine in the magazine .
[00170] Various modalities can use several resources described here. A modality does not necessarily have all the features described here. Thus, a given modality can use any desired combination of such resources.
[00171] The modalities described above illustrate, but do not limit the disclosure. It should also be understood that countless modifications and variations are possible according to the principles of the present disclosure. In this way, the scope of the invention is defined only by the following claims.

权利要求:
Claims (29)
[0001]
1. Charger (100), characterized by the fact that it comprises: two followers (161, 162); two springs (151, 152) adapted to move the followers (161. 162); and in which the followers (161, 162) and the springs (151, 152) are adapted to facilitate the fusion of four cartridge columns (301) into two interconnected and staggered cartridge columns (301) to accelerate cartridge movement (301 ) and to attenuate a force required to remove the cartridges (301) from the magazine (100); wherein the two followers (161, 162) are adapted to nest at least partially in each other; and wherein the two springs (151, 152) are adapted to nest at least partially with each other.
[0002]
2. Loader (100) according to claim 1, characterized in that: the two interconnected and staggered columns comprise at least one of the cartridges (301) in one column and at least one of the cartridges (301) in another column .
[0003]
3. Charger (100) according to claim 1, characterized in that it additionally comprises a housing (101) within which the followers (161, 162) and springs (151, 152) are arranged, the housing (101 ) having a broader lower region (102) and a narrower upper region (103).
[0004]
4. Charger (100) according to claim 1, characterized in that it additionally comprises: a housing (101) with a lower lower region (102) and a higher upper region (103); a partition wall (170) with a base and adapted to separate the cartridges (301) into two sets thereof in the lower region (102), where such partition wall (170) is retained in the housing (101) only at the base of the wall partition (170); wherein: the followers comprise an outer follower (161) and an inner follower (162) and the inner follower (162) is adapted to nest at least partially within the outer follower (161); the inner follower (162) is adapted to separate from the outer follower (161) to enter the upper region (103) of the housing (101); the springs (151, 152) are adapted to nest at least partially within each other; and one of the springs is adapted to move the inner follower (162) and the outer follower (161) when the inner follower (162) and the outer follower (161) are in the lower region (102) and the other spring is adapted to move the inner follower (162) when the inner follower (162) is in the upper region (103).
[0005]
5. Charger (100) according to claim 1, characterized in that it additionally comprises: a housing (101); a dividing wall (170), in which the two followers (161, 162) are adapted to receive the dividing wall (170) through them; and in which the housing (101), the followers (161, 162), the springs (151, 152), and the dividing wall (170) are adapted to cooperate and to fuse the four cartridge columns (301) into the two columns interconnected and staggered cartridges (301).
[0006]
6. Charger (100), characterized by the fact that it comprises: two followers (161, 162) adapted to nest at least partially within each other; and two springs (151, 152) adapted to nest at least partially within each other.
[0007]
Charger (100) according to claim 6, characterized in that the springs are round spiral springs.
[0008]
8. Charger (100) according to claim 6, characterized in that it additionally comprises: a dividing wall (170); wherein the followers (161, 162) are adapted to receive the dividing wall (170) through them; and wherein the two springs (151, 152) comprise a dedicated spring for each of the followers.
[0009]
9. Charger (100) according to claim 6, characterized by the fact that: a first follower of the followers is an external follower (161); a second follower of followers is an internal follower (162); the two springs comprise: an external spring (151) adapted to move the external follower (161); an inner spring (152) adapted to move the inner follower; the outer follower (161) is adapted to cooperate with the inner follower (162) to support four cartridge columns (301) when the outer follower (161) and the inner follower (162) are nested; and the inner follower (162) is adapted to support two columns of cartridges (301) when the outer follower (161) and the inner follower (162) are not nested.
[0010]
10. Charger (100) according to claim 6, characterized in that it further comprises: a housing (101) within which the followers (161, 162) are arranged, the housing (101) having a first region (102 ) which is adapted to retain cartridges (301) in a cross configuration of four and a second region (103) which is adapted to retain cartridges (301) in a cross configuration of two; wherein the two springs comprise an external spring (151); wherein the two springs comprise an internal spring (152); where a first of the followers is an external follower (161); where a second of the followers is an internal follower (162); wherein the outer follower (161) is adapted to be moved within the first region (102) by the outer spring (151) and is adapted to cooperate with the inner follower to support four cartridge columns (301) when the outer follower (161 ) and the inner follower are nested; and wherein the inner follower is adapted to be moved within the second region by the inner spring and is adapted to support two columns of cartridges (301) when the outer follower (161) and the inner follower are not nested.
[0011]
11. Charger (100) according to claim 6, characterized in that it additionally comprises a housing (101) adapted to connect to a chamber of the two-column magazine of a firearm and adapted to contain four columns of cartridges (301 ).
[0012]
12. Charger (100), characterized by the fact that it comprises: a housing (101); two followers (161, 162) adapted to nest at least partially within each other; a dividing wall (170) having a base and adapted to separate cartridges (301) into two sets thereof; wherein the partition wall is retained in the housing only at the base of the partition wall; and in which the followers are adapted to receive the dividing wall through them.
[0013]
13. Loader (100) according to claim 12, characterized in that the housing comprises: a first region (102) which is adapted to retain cartridges (301) in a cross configuration of four; a second region (103) which is adapted to retain cartridges (301) in a cross configuration of two; a tapered portion (113) defining a transition between the first region and the second region; and wherein the dividing wall (170) has an upper end close to the tapered portion.
[0014]
14. Loader (100) according to claim 12, characterized in that it additionally comprises: a plurality of springs (151, 152); and where the dividing wall passes through the followers and the springs.
[0015]
15. Loader (100) according to claim 12, characterized in that the housing is adapted to facilitate the fusion of four cartridge columns (301) into two interconnected and staggered cartridge columns (301) to accelerate cartridge movement ( 301) and to attenuate a force required to remove the cartridges (301) from the magazine.
[0016]
16. Loader (100) according to claim 15, characterized in that the two interconnected and staggered columns comprise at least one of the cartridges (301) in one column and at least one of the cartridges (301) in another column.
[0017]
17. Charger (100) according to claim 15, characterized in that it additionally comprises: two springs (151, 152) adapted to nest at least partially in each other; and wherein the followers (161, 162) and the springs (151, 152) are adapted to cooperate with the housing (101) to fuse the four columns of cartridges (301) into the two interconnected and staggered columns of the cartridges (301).
[0018]
18. Charger (100) according to claim 12, characterized in that it further comprises: an upper end (112) of the housing (101) and a lower end (111) of the housing (101) opposite the upper end (112) ); wherein a first follower of the two followers comprises an external follower (161) arranged movably within the housing; wherein a second follower of the two followers comprises an inner follower (162) arranged movably within the housing (101) and adapted to nest at least partially within the outer follower (161); a first spring (151) disposed within the housing (101) and adapted to move the outer follower (161) out of the lower end of the housing (111); a second spring (152) arranged inside the housing (101) and adapted to move the inner follower (162) out of the outer follower (161) and towards the upper end (112) of the housing (101), the second spring ( 152) being adapted to nest at least partially within the outer follower (161); and wherein the first spring (151) and the second spring (152) are adapted to expand and move the cartridges (301) to a firearm.
[0019]
19. Loader (100) according to claim 18, characterized in that: the housing (101) comprises a tapered portion (113) between the upper end (112) and the lower end (111); the housing (101) is adapted to retain the cartridges (301) within a first region (102) of the housing between the lower end (111) and the tapered portion (113), and to retain the cartridges (301) within a second region (103) of the housing (101) between the tapered portion (113) and the upper end (112); and the first region (102) exhibits a wider width than the second region (103).
[0020]
20. Charger (100) according to claim 12, characterized by the fact that the partition wall (170) is flexible and self-centered.
[0021]
21.Method for providing cartridges (301) to a firearm using a magazine (100), characterized by the fact that it comprises the steps of: moving cartridges (301) out of a lower end (111) of a housing (101) of a loader (100) and towards an upper end (112) of the housing (101) opposite the lower end (111) using a first spring (151) disposed in the housing (101) and an external follower (161 ) arranged in the accommodation; move the cartridges (301) out of the outer follower (161) and towards the upper end (112) of the housing (101) using a second spring (152) disposed in the housing (101) and an internal follower (162) ) arranged in the housing (101); wherein the inner follower (162) is adapted to nest at least partially within the outer follower (161); and wherein the second spring (152) is adapted to nest at least partially within the first spring (151).
[0022]
22. Method according to claim 21, characterized by the fact that: the first spring (151) is arranged at least between the outer follower (161) and the lower end (111) of the housing (101); the magazine (100) comprises a spring guide (170) which extends from near the lower end (111) of the housing (101) towards the upper end (112) of the housing (101); the spring guide (170) is not secured in the housing (101) and is retained in said housing (101) only near the lower end (111) of the housing (101); the spring guide (170) extends through the first spring (151) and the second spring (152); the inner follower (162) and the outer follower (161) are adapted to receive the spring guide (170) through them; the spring guide (170) is planar; and the housing (101) comprises a tapered portion (113) between the upper end (112) and the lower end (111).
[0023]
23. Method according to claim 22, characterized in that it further comprises: retaining the cartridges (301) within a first region (102) of the housing (101) between the lower end (111) and the tapered portion (113 ); retaining the cartridges (301) within a second region (103) of the housing (101) between the tapered portion (113) and the upper end (112); and wherein the first region (102) exhibits a wider width than the second region (103).
[0024]
24. Method according to claim 23, characterized in that: the movement of the cartridges (301) out of the lower end (111) of the housing (101) comprises expanding the first spring (151) to move the cartridges (301) ) from the first region (102) to the second region (103) with the use of at least the first follower (161); and the movement of the cartridges (301) out of the outer follower (161) comprises expanding the second spring (152) to move the cartridges (301) of the second region (1030 for the firearm through the upper end (112) of the housing (101) with the use of at least the second follower (162).
[0025]
25. Method according to claim 23, characterized by the fact that the expansion of the second spring (152) occurs only after the outer follower (161) is close to the tapered portion (113).
[0026]
Method according to claim 23, characterized in that it further comprises separating the cartridges (301) within the first region (102) of the housing (101) in a first set of cartridges (301) on a first side of the spring guide ( 170) and in a second set of cartridges (301) on a second side of the spring guide (170).
[0027]
27. Method according to claim 23, characterized by the fact that: the retention of the cartridges (301) within the first region (102) of the housing (101) comprises retaining four columns of the cartridges (301) within the first region ( 102); and retaining the cartridges (301) within the second region (103) of the housing (101) comprises retaining two columns of the cartridges (301) in the second region (103).
[0028]
28. Method according to claim 21, characterized by the fact that inner follower (162), outer follower (161), first spring (151), and second spring (152) are adapted to facilitate the fusion of four cartridge columns (301) in two interconnected and staggered columns of the cartridges (301) to accelerate movement of the cartridges (301) and to attenuate a force required to remove the cartridges (301) from the magazine (100).
[0029]
29. Method according to claim 21, characterized by the fact that: a dividing wall (170) with a base is adapted to separate the cartridges (301) into two sets thereof in a lower region of the magazine (100); and the partition wall (170) is not secured in the housing (101) and is retained in the housing (101) only at the base of the partition wall (170).

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引用文献:

---

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

---

DE203574C|

---

US1202707A|1916-07-01|1916-10-24|Thomas Petry|Automatic pistol.|

---

DE569280C|1931-06-06|1933-02-01|Simson & Co|Multi-shot magazine for pistol ammunition|

---

DE664926C|1936-11-20|1938-09-08|Carl Walther Waffenfabrik|Pistol magazine made from flat sheet metal|

---

NL51468C|1938-04-28|1941-11-15|

---

DE712084C|1938-06-22|1941-10-11|Rheinmetall Borsig Akt Ges|Spring arrangement on box magazines for firearms|

---

GB536728A|1939-11-17|1941-05-26|Josef Dobremysl|Improvements in or relating to magazines for automatic fire arms|

---

DE858944C|1945-09-29|1952-12-11|Brevets Aero Mecaniques|Cartridge magazine for automatic firearms|

---

US3226869A|1964-11-23|1966-01-04|Daniel D Musgrave|Multiple row cartridge magazine|

---

US3345771A|1966-01-07|1967-10-10|Stanley D Silsby|High capacity magazine and cooperating firearm structure|

---

US3440751A|1967-06-30|1969-04-29|Colt S Inc|Firearm box magazine with straight end and intermediate arcuate portions|

---

GB1227706A|1969-03-17|1971-04-07|

---

US3604142A|1969-06-30|1971-09-14|Us Army|Four-stack cartridge magazine|

---

US4428137A|1981-10-13|1984-01-31|Johnson James H|Cartridge magazine|

---

US4446645A|1982-02-12|1984-05-08|Devel Corporation|Cartridge magazine and follower for autoloading firearms|

---

US4524672A|1983-04-27|1985-06-25|Walter Balsavage|Magazine and feed mechanism for firearms|

---

US4589218A|1984-06-26|1986-05-20|Sites S.P.A.|Multi-stack cartridge magazine for firearms|

---

DE3833229A1|1988-09-30|1990-04-05|Heckler & Koch Gmbh|MAGAZINE FOR A FIREARM|

---

US5495687A|1995-02-16|1996-03-05|Waiser; Shimon|Firearm magazine|

---

WO1997025581A1|1996-01-11|1997-07-17|Villani Michael J|An empty/malfunction alarm for a firearm|

---

WO2002095321A2|2001-05-24|2002-11-28|Greenhut Paul M|Cartridge chambering system for firearms|

---

US6907766B2|2002-04-09|2005-06-21|Sandy Alexander Garrett, Jr.|Lip forming tool for firearm magazines|

---

CN2534547Y|2002-04-12|2003-02-05|建设工业有限责任公司|Automatic weapon box magazine|

---

US7117626B1|2005-08-16|2006-10-10|The United States Of America As Represented By The Secretary Of The Army|Magazine feed lips gauge|

---

DE102006011278B4|2006-03-10|2008-01-03|Heckler & Koch Gmbh|Plastic magazine|

---

DE102007011502A1|2007-03-09|2008-09-11|German Sport Guns Gmbh|Magazine for a handgun|

---

US8061071B2|2008-07-22|2011-11-22|Magpul Industries Corp.|Ammunition magazine with four ammunition stacks|

---

RU85621U1|2009-02-05|2009-08-10|Алексей Иванович Симоненко|THREE-SHOP STORE|

---

RU2594318C2|2010-03-25|2016-08-10|АРМВЕСТ, ЭлЭлСи|High capacity magazine with multiple springs|US8850732B2|2011-12-30|2014-10-07|Jing Zheng|Magazine shell of a universal magazine of multiple caliber compatibility for firearms|

---

US8819977B2|2012-01-24|2014-09-02|Steven Corso|Compact firearm spring arrangement|

---

US8887428B1|2013-08-23|2014-11-18|Eric Lemoine|Variable capacity modular firearm magazine|

---

US9255749B2|2013-11-07|2016-02-09|Sagi Faifer|Ammunition magazine and resilient member|

---

USD735831S1|2013-11-07|2015-08-04|Sagi Faifer|Magazine for a firearm|

---

BG111687A|2014-01-31|2014-05-30|Златан ХАРАЛАМПИЕВ|Magazine for munitions to automatic weapons|

---

US8966801B1|2014-04-23|2015-03-03|Adaptive Tactical Llc|Modular shotgun box magazine|

---

US20150345882A1|2014-06-03|2015-12-03|Magpul Industries Corp|Compact anti-tilt follower for an ammunition magazine|

---

US10317153B2|2016-07-11|2019-06-11|Sagi Faifer|Apparatus and method for increasing capacity of an ammunition magazine|

---

UA117181C2|2016-12-07|2018-06-25|Гліб Георгійович Макаров|SHOOTING WEAPONS SHOP|

---

CZ307611B6|2017-11-22|2019-01-09|Česká Zbrojovka A.S.|Cartridge cartridge for firearms|

---

DE102018000740B4|2018-01-30|2020-08-06|Schmeisser Gmbh|Housing for a cartridge magazine for a handgun and cartridge magazine for a handgun|

---

RU2683921C1|2018-03-20|2019-04-02|Общество с ограниченной ответственностью "Тактика"|Multi row small arms magazine|

---

WO2020084550A1|2018-10-24|2020-04-30|Buys Andre Johann|A less-lethal device|

---

RU187466U1|2018-12-10|2019-03-06|Общество с ограниченной ответственностью "Производственная Инженерная Компания"|Small arms store|

---

DE102019000388B4|2019-01-22|2021-02-25|Schmeisser Gmbh|Cartridge magazine with feeder unit and method for operating a handgun using a cartridge magazine|

---

DE102020000298A1|2020-01-20|2021-07-22|Schmeisser Gmbh|Feeder for a cartridge magazine for a handgun, feeder unit for a cartridge magazine for a handgun, cartridge magazine for a handgun and method for operating a handgun|

法律状态:
2019-01-08| B06F| Objections, documents and/or translations needed after an examination request according art. 34 industrial property law|

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2019-10-29| B06U| Preliminary requirement: requests with searches performed by other patent offices: suspension of the patent application procedure|

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2021-01-12| B09A| Decision: intention to grant|

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2021-03-16| B16A| Patent or certificate of addition of invention granted|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 25/03/2011, OBSERVADAS AS CONDICOES LEGAIS. |

优先权:

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申请号 | 申请日 | 专利标题

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US31738610P| true| 2010-03-25|2010-03-25|

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US61/317,386|2010-03-25|

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PCT/US2011/030051|WO2012003020A2|2010-03-25|2011-03-25|High capacity magazine|

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