Safety Lock for Lever Action Firearms
A safety lock device for lever action firearms. The safety device has two hardened side plates and transverse hardened pins. The safety lock device must be designed for each specific lever action firearm onto which it is intended to be used in order to insure the most secure fit and the highest confidence in the inability for disabling the device once installed onto the firearm. The combination of the hardened pins and a trigger channel and a separate lever channel for the open lever provide protection against the disabling of the lever action safety lock device.
This application is a continuation in part of application Ser. No. 11/299,217, entitled “UNIVERSAL FIXED PIN TRIGGER LOCK”, filed on Dec. 9, 2005 by Thomas J. Farchione, for which a notice of allowance was issued Jan. 14, 2008, which is the non-provisional application from provisional application Ser. No. 60/635,128 filed Dec. 10, 2004. This application claims priority from the previous applications for material that is similar but claims priority for any new matter distinct from the subject matter of the previous application and which is being presented by this application.
FIELD OF THE INVENTIONThe invention pertains to the field of firearm safety lock mechanisms. More particularly, the invention pertains to a safety lock having hardened fixed pins and hardened plates designed to fit only over and around the trigger and the open lever of lever action firearms.
BACKGROUND OF THE INVENTIONRifle manufacturers might provide some type of safety lock with new firearms to prevent an unauthorized or untrained individual from operating what can become a very dangerous device in the hands of such a person, specifically children. Different lock designs have evolved over time. Cable locks use lengths of cable to extend through the action or barrel of the weapon, thereby preventing usage. Another type of lock is a trigger guard plate lock which uses two “plate” sections that can be locked together from opposite sides over and around the trigger guard. A locking cylinder enables the clamping and tightening of this type of lock over the trigger guard. In certain designs, pins extend from one plate and insertion into holes in the other plate. When stationary pins (i.e., rigid and non-retractable pins) are used, they are located in such a manner as to abut parts of the trigger and trigger guard to hold the plates in a secure position on a particular firearm. There are also retractable pin designs having retractable spring biased pins. In this type of design, the locations of some pins may be blocked by components on the firearm (such as the trigger guard and trigger). Some designs combine the functions of a cable lock and a plate lock into one assembly.
Lever action rifles provide a unique challenge to gun safety lock manufacturers. There are designs that require the opening of the action to insert a transverse locking plate through the receiver, thereby preventing the receiver from accepting a cartridge to be seated in the barrel by locking the receiver in its open position. A design such as this may be seen in U.S. Pat. No. 6,694,659 B2, specifically
The instant device is a firearm safety lock device that is designed specifically for use with lever action rifles, such as the historic Winchester model rifles of the late 19th century. Of course, other manufacturers now produce similar lever action model rifles and the present safety lock device may be utilized with such similar weapons. The present safety lock device consists of an opposing pair of hardened plates located and sized to surround a portion of and secure in place the open lever of a lever action rifle. Each plate is attached to a cover element. The pair of steel plates are provided with interlocking hardened pins and a lock that are positioned around the lever in its fully open position. The pins are arranged not only to secure the lever in the open position, but their hardened construction, specifically a hardened steel alloy, prevents someone from sawing through or otherwise destroying any one or more of the pins to disable the safety lock device.
In the manufacture of the safety lock device, the lever action rifle onto which the device is to be installed must first be measured to insure an accurate fit. Hardened pins are then arranged to insure that the lever remains fixed in an open position. The pins are secured by, for example, force fitting or the like, to one of the pair of plates. Mating holes are then provided in the opposing plate to receive each of the pins when the safety lock device is installed onto the firearm. One end of a conventional shaft type lock is securely installed through the plate and into the cover element that already has the pins secured to it. Similarly, a mating hole is formed in the opposing plate and its cover element so that upon installation, the other end of the lock inserts into its mating hole or cavity in the opposing cover element. The shaft of the lock mechanism progresses through the hole in the opposing plate until the pair of opposing plates are securely in contact with the open lever of the firearm. The hardened plates are designed to extend above, below, forward of and behind the open lever so to prevent a saw or other destructive device from disabling the safety lock device. The present safety lock device for lever action rifles complies with requirements such as those set forth in California Department of Justice AB 106 and ASTM F2369-04.
It is often necessary, in order to comply with many local regulations, or beneficial (from a marketing standpoint) for gun manufacturers and/or the gun retailers to provide a lock that will precisely operate with each specific lever action rifle model produced providing a more secure firearm and lessening the chance that the lock is improperly installed.
As is best shown in
A locking means is used to non-permanently secure the 2 cover plates to each other. This locking means may consist of conventional locking devices, such as, for example, ratchet locks, “T” headed locks installed on the end of a shaft, cam locks, plunger locks, such as those that are spring loaded. This list is merely exemplary and is not intended to limit the type of lock that may be used with the safety lock of the invention. The most preferred embodiment of the locking means is shown in
In the embodiments illustrated, a plurality of pins 400 extend from left cover element 200 through the left hardened plate 102, right hardened plate 101, into holes or pin receivers 402 of cover 100 (not shown). It should be readily understood that the features described with respect to the left and right protective plates and left and right side elements may be reversed at the discretion of the manufacturer and would not represent a patentably distinct embodiment of the invention.
Pins 400 are advantageous elements in order to insure the mechanical integrity of the firearm safety device as they are relatively easy to manufacture and are uncomplicated enough to make so that tolerances can be designed into them to permit as tight or lose a fit into pin receivers 402 as desired. Ease of assembly and the inability to disable the safety lock once installed on the firearm are prime considerations. A key advantage of using hardened pins over hardened metal plates, whether the plates are placed horizontal or vertical to the axis of the locking device, is that the pins take up minimal space and provide for a lighter overall weight for the locking device. For example, if the diameters of all pins used in the safety lock device were calculated, they would make up less than 10% of the surface area of any one of the cover elements 100 or 200.
The safety lock device is installed such that the axes of its pins 400 are transverse to the axis of the barrel of the firearm. As best shown in
In a first embodiment of the invention, best shown in
In a second embodiment of the invention, corresponding channels 120 and 122, not shown, are formed into the right cover 100, which of course, must now be of greater thickness. Lever channel 120 matches up with lever channel 220 and trigger channel 122 matches up with trigger channel 222, such that, as left cover 200 and right cover 100 are brought together to surround trigger 22 and the open lever 20.
The hardened steel or steel alloy pins 400 are positioned around the trigger 22 and the open lever 20 to prevent attempts to disable the safety lock by use of a saw or other invasive device. As shown best in
Accordingly, it is to be understood that the embodiments of the invention herein described are merely illustrative of the application of the principles of the invention. Reference herein to details of the illustrated embodiments is not intended to limit the scope of the claims, which themselves recite those features regarded as essential to the invention.
Claims
1. A safety lock device for a lever action firearm, the firearm having a trigger and a moveable lever moveable to an open position for ejecting spent cartridges from and for allowing the insertion of a new cartridge into a receiver end of a barrel of the lever action firearm, comprising:
- a) a right cover element in abutment with a right hardened plate;
- b) a left cover element in abutment with a left hardened plate;
- at least one of the right cover element and the left cover element having a lever channel and a trigger channel formed therein;
- c) a plurality of pins to align the right cover element, the right hardened plate, with the left cover element, the left hardened plate; and
- d) a locking means to insure the secure attachment of the left cover element, the left hardened plate to the right cover element, and the right hardened plate with the trigger and the moveable lever of the lever action firearm in the open position aligned within their respective trigger channel and lever channel.
2. The safety lock device of claim 1 wherein the locking means are selected from the group consisting of ratchet locks, “T” headed locks installed on the end of a shaft, cam locks and plunger locks.
3. The safety lock device of claim 2 wherein the locking means is a “T” headed lock.
4. The safety lock device of claim 1, wherein the left and right hardened plates consist of a hardened metal alloy.
5. The safety lock device of claim 4, wherein the hardened metal alloy is hardened steel of sufficient strength to prevent the disabling of the safety lock device by a disabling implement.
6. The safety lock device of claim 5 wherein the disabling implement is a saw.
7. The safety lock device of claim 1 wherein the pins consist of a hardened metal alloy.
8. The safety lock device of claim 7 wherein the hardened metal alloy is hardened steel of sufficient strength to prevent the disabling of the safety lock device by a disabling implement.
9. The safety lock device of claim 8 wherein the disabling implement is a saw.
10. The safety lock device of claim 1 wherein the trigger channel and the lever channel are located within the left cover element.
11. The safety lock device of claim 1 wherein the trigger channel and the lever channel are located within the right cover element.
12. The safety lock device of claim 1 wherein the trigger channel and the lever channel are located in both the right cover element and the left cover element such that the channels are aligned with each other to receive their respective trigger and open lever.
13. The safety lock device of claim 1 wherein each of the plurality of pins has a diameter.
14. The safety lock device of claim 13 wherein the combined diameters of the plurality of pins is approximately less that 10% of a surface area of one of the left or right hardened metal plates.
15. The safety lock device of claim 1, wherein the right cover element is over-molded over the right hardened plate.
Type: Application
Filed: May 7, 2008
Publication Date: Mar 10, 2011
Applicant: REGAL INDUSTRIAL SALES, INC. (Victor, NY)
Inventors: Thomas Joseph Farchione (Pittsford, NY), Patrick Farchione, JR. (East Rochester, NY)
Application Number: 12/116,692