The present invention relates to telescoping legs for firearms, in general and, in particular, to telescoping legs for rifles, carbines and similar firearms.
A telescoping rear third leg for sniper and sharpshooter rifles is well known. This permits the shooter to rest the firearm on a solid support, such as the ground or a wall, and to adjust the height of the firearm. However, conventional rear telescoping legs are limited in operation, as they have one means of adjustment, consisting of a single extension of the leg.
There is provided according to the present invention a telescoping leg for a firearm including a housing, a first telescoping portion mounted inside the housing, and a second telescoping portion mounted inside the first telescoping portion.
According to one embodiment, the first telescoping portion is spring loaded inside the housing and the second telescoping portion is spring loaded inside the first telescoping portion.
According to a preferred embodiment of the invention, the telescoping leg further includes a screw thread portion for rotation of said first portion relative to said second portion, for fine adjustment of the length of the leg.
Further according to a preferred embodiment, the telescoping leg includes a pivot mechanism permitting the leg to be pivoted and locked in a folded position adjacent to a stock of the firearm, in a fully open position substantially perpendicular to the folded position, and in at least one intermediate position between the folded position and the fully open position.
There is also provided in accordance with the invention, a method for forming a telescoping leg for a firearm, the method including mounting a first telescoping portion inside a housing, and mounting a second telescoping portion inside the first telescoping portion.
The present invention will be further understood and appreciated from the following detailed description taken in conjunction with the drawings in which:
a & 2b are schematic side and sectional illustrations of a stock for a firearm according to one embodiment of the present invention, with the telescoping leg according to
a and 6b are respective sectional and plan illustrations of a telescoping leg according to another embodiment of the present invention; and
a and 7b are illustrations of stocks, according to
The present invention relates to a telescoping leg for a firearm which can be extended to almost three times its length when collapsed, and which can be rapidly and easily raised and lowered to permit rapid adjustment and re-adjustment of the angle of fire of the firearm. According to one embodiment of the invention, the telescoping leg is mounted on a removable stock for a firearm having a long buffer (the tube connecting the bore of the firearm to the stock), and is particularly suitable for use with M16-type or SR-25-type sniper and sharpshooter rifles. According to an alternative embodiment of the invention, the telescoping leg is mounted on a removable stock for a firearm having a short buffer, and is particularly suitable for use with M16 carbines or rifles having shorter buffers. In addition, the telescoping leg can be mounted on AK47 rifles or other similar firearms by using a mounting adapter to mount the removable stock on the firearm. In addition, the telescoping leg can be mounted on the stocks of hunting rifles and similar firearms, or on any firearm including, but not limited to, guns, pistols, grenade & mortar launchers, by means of an appropriate adaptor for the telescoping leg.
Referring now to
An upper release button 24 is mounted in housing 12 for releasing first telescoping portion 14 to help lift a firearm to which the leg 10 is attached. A lower release button 26 is mounted in housing 12 for releasing second telescoping portion 20 downwards from the firearm.
According to a preferred embodiment of the invention, the housing is formed of two parts, an upper housing 30 with upper release button 24 mounted therein, and a lower housing 32 with lower release button 26 mounted therein. Lower housing 32 includes an upstanding cylindrical portion 34 having external screw threads 36. Screw threads 36 are preferably simple spiral threads. Cylindrical portion 34 is mounted in first portion 14, and second portion 20 is mounted in cylindrical portion 34. A nut 36a is mounted about cylindrical portion 34 and upper housing 20 is locked to nut 36a as by a set screw 38. In this fashion, upper housing 30 and upper portion 14 can rotate together about cylindrical portion 34 relative to second portion 20, to permit fine tuning of the height of the telescoping leg 10.
Telescoping leg 10 may also include a rubber base (not shown) for added stability and to permit additional fine tuning of the height of the stock by pressing down on the firearm.
Telescoping leg 10 includes a coupling element 40 for coupling to the stock of a firearm. Preferably, coupling element 40 includes a pivot mechanism permitting the leg 10 to be pivoted and locked in each of several different positions: a folded position adjacent a stock of the firearm, a fully open position substantially perpendicular to the folded position, and at least one, and preferably several, intermediate positions between the folded position and the fully open position. This permits the user to lock the leg at an angle smaller than 90° in a stable position for shooting, as shown, for example in
According to the illustrated embodiment, the pivot mechanism includes a head 42 having a plurality of dimples 44. A complementary ball 46 is mounted in the stock (not shown). Pivoting of leg 10 causes ball 46 to move between dimples 44 and to lock in the selected position. Thus, the number and location of the dimples 46 about the head 42 determine the positions in which the leg can be locked relative to the stock. Coupling element 40 may include a pivot release button 47 (seen in
a,
2
b,
3 and 4 are respective schematic folded side and side sectional, and extended side and side sectional illustrations of a stock 50 having a long buffer tube 52 for a firearm (not shown) having a long buffer. Stock 50 includes an extendable cheek rest 54, and an extendable butt plate 56. Pivotally mounted on stock 50 is a telescoping leg 10, according to
In the folded orientation of
Operation of the telescoping leg 10 is as follows. When the telescoping leg is collapsed, internal teeth on upper release button 24 engage screw threads 16, preventing relative movement between upper portion 14 and housing 12. Similarly, internal teeth on lower release button 26 engage screw threads 22, preventing relative movement between lower portion 20 and housing 12.
Inside leg 10 there is mounted first telescoping portion 14, for extending downwards to rest on a support surface. Inside of telescoping portion 14 there is mounted second telescoping portion 20 for lifting the stock to a desired height. According to a preferred embodiment of the invention, first telescoping portion 14 and second telescoping portion 20 are spring-biased for rapid extension.
On site, a shooter moves the firearm on which the stock is mounted in the direction of a target. When an approximate direction is reached, he can adjust the angle of the leg relative to the stock by pressing pivot release button 47 (seen in
The shooter now presses lower release button 26, causing lower portion 20 to jump downwards under the urging of spring 18. The second portion 20 extends until the shooter releases lower release button 26, causing it to engage screw threads 22 again, or until the bottom of the leg contacts the ground or a wall or other support surface. The user may now press upper release button 24 causing first portion 14 to jump upwards, preferably under the urging of spring 18. This causes the entire firearm to rise relative to the support surface until the user releases upper release button 24, causing it to engage screw threads 16 again. Thus, telescoping portions 14 and 20 permit rapid gross adjustment of the length of the leg (height of the stock), both up and down, for locating a target.
In this way, it is easy to move the firearm and readjust the height and aim of the firearm as quickly and as often as necessary.
Fine adjustment of the length of the leg and the height of the stock is accomplished by rotating upper housing 30 relative to lower housing 32, or vice versa, about cylindrical portion 34. This permits precise adjustment of the desired height as the portions rotate about the screw threads.
A stock 60 according to an alternative embodiment of the invention is shown in
According to an alternative embodiment of the invention, the telescoping leg 10′ may include only a single compression spring 18′ which is mounted so as to extend either or both of the first telescoping portion 14′ and the second telescoping portion 20′, depending upon which release button is pressed, as shown in
It will be appreciated that the various elements of the telescoping leg 10 may be mounted on either side of the stock, for ease of use of a right handed or left handed shooter.
It is a particular feature of the present invention that the telescoping leg 10, when in its collapsed orientation, is only about one third its length when extended. It is a further particular feature that dividing the leg into two telescoping portions permits rapid and more accurate adjustment of the position of the stock for locating and focusing on a target.
While the invention has been described with respect to a limited number of embodiments, it will be appreciated that many variations, modifications and other applications of the invention may be made. It will further be appreciated that the invention is not limited to what has been described hereinabove merely by way of example. Rather, the invention is limited solely by the claims which follow.
This application claims the benefit of Provisional Application No. 60/700,259, filed Jul. 18, 2005.
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2489283 | Garand | Nov 1949 | A |
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Number | Date | Country |
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2349609 | Apr 1975 | DE |
2345202 | Aug 2000 | GB |
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Number | Date | Country | |
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20070011932 A1 | Jan 2007 | US |
Number | Date | Country | |
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60700259 | Jul 2005 | US |