ROTATIONAL SAFETY DEVICE FOR FIREARM

Abstract

A rotational safety device for a firearm is provided that replaces a traditional cross bar safety device and is installed within a trigger mechanism to rotate about an axis. The safety device may include a recessed portion that may be rotationally positioned to face a trigger to allow the trigger to be completely depressed. The safety device also includes one or more locking positions in a range of rotation to be engaged by a guide pin.

Claims

1. A firearm safety apparatus comprising: a cylindrical safety member, the cylindrical safety is adapted to rotate between at least a first position and a second position within a hole disposed in a trigger housing of a firearm and includes a notched region, an unnotched region, and a plurality of positioning apertures positioned in a bore in the unnotched region, wherein the notched region is adapted to receive a rear portion of a trigger of the firearm with respect to a firing direction of the firearm when the first cylindrical portion is in the first position and the notched region is adapted to not receive the rear portion of the trigger when the first cylindrical portion is in the second position, wherein the unnotched region is adapted to face and abuttedly engage the rear portion of the trigger when the first cylindrical portion is in the second position and the unnotched region is adapted to not face the rear portion of the trigger when the first cylindrical portion is in the first position, and wherein the positioning apertures are each adapted to successively engage a guide pin of the trigger housing of the firearm when the first cylindrical portion is rotated within the hole between the first position and the second position.

2. The firearm safety apparatus of claim 1, further comprising a lever coupled to the cylindrical safety member of the rotational replacement trigger safety.

3. The firearm safety apparatus of claim 1, wherein the bore comprises a guide wall adapted to maintain the guide pin in alignment with the positioning apertures.

4. The firearm safety apparatus of claim 3, wherein one or more of the positioning apertures has a slanted sidewall.

5. The firearm safety apparatus of claim 1, wherein a first positioning aperture of the one or more of the positioning apertures abuttedly engages the guide pin when the first cylindrical safety member is in the first position.

6. The firearm safety apparatus of claim 5, wherein a second positioning aperture of the one or more of the positioning apertures abuttedly engages the guide pin when the cylindrical safety member is in the second position.

7. The firearm safety apparatus of claim 4, wherein the guide pin has a slanted nose portion and a cylindrical portion for engaging the guide wall of the bore.

8. The firearm safety apparatus of claim 1, wherein the guide pin has a spring engagement portion for receipt for an end of a spring.

9. The firearm safety apparatus of claim 8, wherein the spring engagement portion is a post.

10. The firearm safety apparatus of claim 8, wherein the spring engagement portion is a cylindrical portion having a bore.

11. A firearm safety apparatus, the safety apparatus comprising: a rotational replacement trigger safety adapted to replace a safety of a firearm, the rotational replacement trigger safety having a safety member, the safety member comprising a cylindrical member adapted to rotate between at least a first position and a second position within a hole disposed in a trigger housing of the firearm, wherein the cylindrical member includes a notched region, an unnotched region, and a plurality of positioning apertures, wherein the notched region is adapted to receive a rear portion of a trigger of the firearm with respect to a firing direction of the firearm when the cylindrical member is in the first position and the notched region is adapted to not receive the rear portion of the trigger when the cylindrical member is in the second position, wherein the unnotched region is adapted to face and abuttedly engage the rear portion of the trigger when the cylindrical member is in the second position and the unnotched region is adapted to not face the rear portion of the trigger when the cylindrical member is in the first position, wherein the positioning apertures are adapted to successively engage a guide pin of the trigger housing of the firearm when the cylindrical member is rotated within the hole, and wherein the cylindrical member has a bore with a guide wall that engages the guide pin to maintain the guide pin in the positioning apertures positioned in a base of the bore.

12. The firearm safety apparatus of claim 11, further comprising a lever coupled to the cylindrical member of the rotational replacement trigger safety.

13. The firearm safety apparatus of claim 11, wherein one or more of the positioning apertures has a slanted sidewall.

14. The firearm safety apparatus of claim 13, wherein a groove is positioned in the base of the bore between the positioning apertures.

15. The firearm safety apparatus of claim 11, wherein a first positioning aperture of the one or more of the positioning apertures abuttedly engages the guide pin when the cylindrical member is in the first position.

16. The firearm safety apparatus of claim 15, wherein a second positioning aperture of the one or more of the positioning apertures abuttedly engages the guide pin when the cylindrical member is in the second position.

17. The firearm safety apparatus of claim 16 wherein the guide pin has a slanted nose portion and a cylindrical portion for engaging the guide wall of the bore.

18. The firearm safety apparatus of claim 11 wherein the guide pin has a spring engagement portion for receipt for an end of a spring.

19. The firearm safety apparatus of claim 18, wherein the spring engagement portion is a post.

20. The firearm safety apparatus of claim 18, wherein the spring engagement portion is a cylindrical portion having a bore.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0007] FIG. 1 is an exploded view of a safety system and a trigger mechanism.

[0008] FIG. 2 illustrates an end view (bottom left of FIG. 2), top view (top left of FIG. 2) and side view (bottom right of FIG. 2) of a safety member 130.

[0009] FIG. 3 provides a perspective view of a safety member.

[0010] FIG. 4 illustrates a safety member in a first rotational position within a trigger mechanism.

[0011] FIG. 5 illustrates a safety member in a second rotational position within a trigger mechanism.

[0012] FIG. 6 illustrates a firearm having a rotational safety device with a first lever.

[0013] FIG. 7 illustrates a user of a firearm using the rotational safety device of FIG. 6.

[0014] FIG. 8 illustrates a firearm having a rotational safety device with a second lever.

[0015] FIG. 9 illustrates a user of a firearm using the rotational safety device of FIG. 8.

[0016] FIG. 10 illustrates an alternative guide pin.

[0017] FIG. 11 illustrates another alternative guide pin.

[0018] FIG. 12 illustrates a safety member for use with the guide pin of FIGS. 10 and 11.

DETAILED DESCRIPTION

[0019] The present technology provides a rotational safety device for a firearm that replaces a traditional cross bar safety device. The safety device is easier to operate and assess whether the firearm can be fired than previous safety systems. The safety device of the present technology involves setting a safety to “fire” or to a no fire or “safety on” position by causing a safety member installed within a trigger mechanism to rotate. In some instances, a lever or other means may be used to rotate a safety member.

[0020] The safety device may include a recessed portion that may be rotationally positioned to face a trigger to allow the trigger to be completely depressed. The safety device may also include one or more locking positions in a range of rotation, limits on the range of rotation such as pins that engage surfaces of a firearm, and may be used with a variety of levers or other devices to provide rotation.

[0021] When a lever is used, the lever may extend from the trigger frame up along a side of the firearm and may be engaged by a thumb or finger of the firearm user. The lever may be moved in such a manner as to rotate a trigger member that provides the safety setting. Hence, when the lever is moved to a first position, the safety member rotates to a position that sets the safety device in a “safety on” state. When the lever is moved to a second position, the safety member is rotated out of the safety on state and into a “fire” state. The lever may be moved forward or backward to rotate the safety member, which results in toggling between the safety positions, with a thumb or quick swipe of one or more fingers without removing a use's hand from the firearm. Manipulating a lever that extends up a side of the firearm is much easier than pressing a traditional safety button using a single finger in a bent position, which often requires removing the trigger finger from the trigger.

[0022] The safety device mechanism may also provide a much easier way to determine whether a firearm safety is turned on or off. For a traditional safety pin, a user of a firearm must look at the pin housed inside a trigger frame to determine if a portion of the pin, usually with red coloring to it, is extending from the trigger frame in a particular direction. Hence, a user must view a small part of the trigger area of previous firearms at a particular angle to look for the pin. The present trigger mechanism includes a lever that can be seen from multiple angles, and even while aiming the firearm at a target. As such, a user of the firearm may quickly determine whether the safety is on without removing the gun from a target, but rather while maintaining the gun aimed at a particular target.

[0023] FIG. 1 is an exploded view of a safety system and a trigger mechanism. Safety system includes first screw 110, lever 120, safety member 130, and second screw 140. Trigger mechanism includes trigger 180, trigger pin 190, and trigger housing 150. The safety system and a trigger mechanism may be used in a firearm such as a rifle, shotgun, pistol, or other firearm. The details of a particular firearm, such as a barrel, sight, and other parts, are not shown in FIG. 1 for purposes of simplicity.

[0024] First screw 110 is used to attach lever 120 to safety member 130. Second screw 140 is used to secure safety member 130 to trigger housing 150. The screws may each attach to a connection portion of the safety member. A connection mechanism may include threads for receiving the screw or other mechanisms configured to attaching the safety member to another part. Though screws are used to assemble the safety system and couple it to the trigger housing, other devices and parts may be used to achieve this purposes.

[0025] A guide pin 170 may be installed into trigger housing 150. The guide pin is coupled to a spring 160 which provides a force on guide pin 170 towards the safety member 130. The safety member 130 includes positioning apertures (see FIG. 2-3) to receive the guide pin when the safety member is positioned at a “fire” position and when at a “safety on” position. The guide pin 170 may engage the positioning apertures when the safety member 130 is at the “fire”, “safety on” position, or other positions.

[0026] FIG. 2 illustrates an end view (bottom left of FIG. 2), top view (top left of FIG. 2) and side view (bottom right of FIG. 2) of a safety member 130. FIG. 3 provides a perspective view of a safety member. Safety member 130 may include a recessed portion (or notch) 210, a guide 220, positioning apertures 250, and position pins 230 and 240. As shown in the end view, portions of safety member 130 may be cylindrical in shape. Some portions may be cylindrical but have a different radius at other portions. For example, the portion that includes recessed portion 210 may have smaller radius than the portion that includes position pins 230 and 240. Having multiple radius lengths may help maintain the safety member 130 in position when installed within a trigger mechanism.

[0027] The recessed portion may enable the trigger to be pulled far enough to fire the firearm. When safety member 130 is rotated into a position associated with the safety being “on”, the recessed portion may not be facing the trigger. In this position, the recessed portion 210 may be facing up, down, or otherwise away from the trigger, and a depressed trigger will engage an outer surface of safety member 130 other than recessed portion 210. The outer surface of safety member 130 other than the recessed portion prevents a trigger from being depressed enough to fire the firearm. When safety member 130 is rotated into a position associated with the safety being “off”, the recessed portion 210 faces the trigger which allows the trigger to be depressed enough to fire the firearm. In particular, the trigger may be depressed into the recessed portion when the safety member 130 is rotationally positioned such that the recessed portion faces the trigger.

[0028] As mentioned with respect to FIG. 1, the positioning apertures 250 may be engaged by guide pin 170. As the safety member 130 is rotated between a safety “on” position and safety “off” position, the guide pin 170 may engage the positioning apertures 250 by extending into an aperture as it aligns with pin 170. A safety member 130 may include one or more positioning apertures 250. Each aperture may include cone or otherwise slanted sidewall.

[0029] The cone or slanted side wall may make it easier for the positioning pin to “click” into place inside the aperture but still allow the guide pin 170 to disengage from the aperture when the safety position is changed by a user.

[0030] Safety member 130 may include a positioning aperture wherever a lockable position is desired. For example, safety member 130 may include a positioning aperture at a rotational position where the safety is completely on and a rotational position where the safety would be completely off. Guide 220 may guide the guide pin 170 and/or keep the positioning pin in place and aligned with the positioning apertures as the safety member 130 is rotated.

[0031] Position pins 230 and 240 may be used to stop rotational movement of the safety member 130 by engaging a surface of a trigger mechanism, firearm surface, or other object. In some embodiments of the present technology, there may be a first position pin to stop rotation of safety member 130 in one direction and a second position pin to stop rotation of safety member 130 in a second direction.

[0032] FIG. 4 illustrates a safety member in a first rotational position within a trigger mechanism. In FIG. 4, the safety member 130 is installed into a trigger mechanism and position pin 230 is engaged with a surface of the trigger mechanism. When in this position, the safety member 130 may not be rotated any further in a clockwise position.

[0033] FIG. 5 illustrates a safety member in a second rotational position within a trigger mechanism. The safety member 130 in FIG. 5 is rotationally positioned such that position pin 230 is engaged with a surface of the trigger mechanism. When in this position, the safety member 130 may not be rotated any further in a counter-counter-clockwise position.

[0034] In operation, a user of a firearm that includes the safety system and a trigger mechanism would move lever 120 forward or backward along the length of the firearm. FIG. 6 illustrates a firearm having a rotational safety device with a first lever. The lever 120 is attached to an end of the safety member (not shown) and extends towards the top surface of the firearm. FIG. 7 illustrates a user of a firearm using the rotational safety device of FIG. 6. As shown, the user is handling the firearm with the user's hand over the top of the firearm, and in particular with the user's thumb over the top of the firearm. As such, the lever is accessible to the user's finger for rotationally setting the safety on and off by moving the lever forward or backward.

[0035] FIG. 8 illustrates a firearm having a rotational safety device with a second lever. The lever 120 of FIG. 8 is attached to an end of the safety member (not shown) and extends upwards towards the top surface of the firearm, but does not reach the top of the firearm. FIG. 9 illustrates a user of a firearm using the rotational safety device of FIG. 8. As shown, the user is handling the firearm with the user's hand underneath the firearm. The lever of FIG. 9 is positioned to allow a user's thumb to engage the lever to move it forward or backward, thereby rotating the safety member.

[0036] FIG. 10 illustrates an alternative guide pin 300 having a spring mount portion 302 which extends into the interior of spring 160 for engagement of the spring. The spring mount portion is sized to provide a friction fit with the spring to provide a positive lock between the spring mount portion and the spring. The spring mount portion 302 can have a chamfered leading edge 304 to assist in guiding the spring mount portion into the spring. The length of the spring mount portion and the diameter thereof can vary depending upon the particular application. Alternatively no chamfered leading edge can be provided.

[0037] FIG. 11 illustrates another alternative guide pin 310 wherein the spring mount portion 312 is sized to include a bore 314 for receipt of the spring 160. In this embodiment, the bore 314 is sized to provide a friction fit with the outside diameter of the spring coils to provide locking engagement with the spring. Alternatively, the bore can be slightly oversized so that no friction fit is provided. Guide pins 300, 310 also include a trigger plate contact surface portion 306, 316 respectively, slightly smaller in diameter than the trigger plate safety mechanism spring hole 330 shown in FIG. 1. Trigger plate contact surface portion 306 can have a chamfered leading edge 308 so that the guide pin 300 slides smoothly within the trigger plate safety mechanism spring hole 330. The length of trigger plate contact surface portion can vary depending upon the particular application as well as the angle to the leading chamfered end.

[0038] Guide pins 300 and 310 include safety member contact portions 303 and 318, respectively. Safety member contact portions include a cylindrical portion 305, 320, a tapered portion 307, 322 and a nose portion 309, 324. Safety member contact portions 303, 318 engage safety member 340 shown in FIG. 12 by extending into bore 342 such that portion 305, 320 engage sidewall 344 and tapered portion 307, 322 can toggle between two cone shaped recesses 346, 348 to move the safety device between the safety on and safety off position. A round over 350 is positioned between cone shaped recesses 346, 348 to allow nose 309, 324 to make a smooth transition between recesses 346, 348. When positioned in either of recesses 346, 348 nose 309, 324 would be positioned in the center of the recess. Tapered portions 307, 322 can have the same angle as the taper for recesses 346, 348. Interior wall 344 engages cylindrical portions 305, 320 to prevent rotation away from recesses 346, 348. The sizes and shapes of the various components can be varied depending on the particular application.

[0039] The present technology is described above with reference to exemplary embodiments. It will be apparent to those skilled in the art that various modifications may be made and other embodiments can be used without departing from the broader scope of the present technology. For example, the present technology may be implemented for right handed users and left handed users. Therefore, these and other variations upon the exemplary embodiments are intended to be covered by the present technology.