Firearm enhancing trigger connector

Abstract

A firearm enhancing trigger connector having a torso with first and second edges. The torso has a guide lip mount extending from the torso beyond the first edge at a first predetermined angle. The guide lip mount has a guide lip positioned at a second predetermined angle approximately 65-80 degrees with respect to the second edge. The guide lip mount further has a control tab extending therefrom at a third predetermined angle from the first edge. The torso further has a first connector leg. The first connector leg has a reset tab. The torso also has a second connector leg and an elongated debris slot.

Claims

1. A firearm enhancing trigger connector, comprising a torso having first and second edges, said torso comprising a guide lip mount extending from said torso beyond said first edge at a first predetermined angle, said guide lip mount comprises a guide lip positioned at a second predetermined angle approximately 65-80 degrees with respect to said second edge, said guide lip containing a trigger bar of a firearm, said guide lip mount further comprises a control tab extending therefrom at a third predetermined angle from said first edge, said torso further comprising a first connector leg extending from said torso towards said first edge at a fourth predetermined angle, said first connector leg having a reset tab at a fifth predetermined angle approximately 85-95 degrees with respect to said first connector leg, said torso further comprising a second connector leg that removably fits within a trigger housing of said firearm, said trigger bar nearly contacts or contacts said guide lip when said firearm is in a rest position, said guide lip mount extends from said torso beyond said first edge a first predetermined distance, and said first connector leg extends from said torso beyond said first edge a second predetermined distance, and said first predetermined distance is greater than said second predetermined distance.

2. The firearm enhancing trigger connector set forth in claim 1, further characterized in that said torso further comprises an elongated debris slot designed to minimize debris accumulation.

3. The firearm enhancing trigger connector set forth in claim 1, further characterized in that said first connector leg extends from said second edge.

4. The firearm enhancing trigger connector set forth in claim 1, further characterized in that said reset tab is positioned over said guide lip.

5. The firearm enhancing trigger connector set forth in claim 1, further characterized in that said guide lip is closer to said second connector leg than said reset tab.

6. The firearm enhancing trigger connector set forth in claim 1, further characterized in that said first connector leg defines a sixth predetermined angle with respect to said guide lip, wherein said sixth predetermined angle is less than 90 degrees.

7. The firearm enhancing trigger connector set forth in claim 1, further characterized in that said guide lip contains said trigger bar of said firearm when biased against said guide lip.

8. The firearm enhancing trigger connector set forth in claim 1, further characterized in that said trigger bar is biased against said torso when said firearm is in said rest position.

9. The firearm enhancing trigger connector set forth in claim 1, further characterized in that said nearly contacts is a distance up to approximately 3 mm.

10. The firearm enhancing trigger connector set forth in claim 1, further characterized in that as a trigger is pulled, said trigger bar slidably travels generally in a rearward and downward direction and said guide lip serves to guide an end of said trigger bar with no obstruction.

11. The firearm enhancing trigger connector set forth in claim 10, further characterized in that said no obstruction is achieved with said second predetermined angle for said guide lip, saving a user from exerting a second force after exerting an initial force to pull said trigger.

12. The firearm enhancing trigger connector set forth in claim 1, further characterized in that after a point of firing, said trigger bar continues to travel generally in a rearward and downward direction until a cross edge contacts said control tab.

13. The firearm enhancing trigger connector set forth in claim 1, further characterized in that a lobe cams said reset tab while cycling until completing an operating cycle with minimal obstruction.

14. The firearm enhancing trigger connector set forth in claim 13, further characterized in that said minimal obstruction is achieved with said fifth predetermined angle of said reset tab, minimizing torsion forces while said cycling occurs.

15. The firearm enhancing trigger connector set forth in claim 1, further characterized in that said second connector leg is approximately opposite in direction from said guide lip.

16. The firearm enhancing trigger connector set forth in claim 1, further characterized in that said second connector leg is approximately opposite in direction from said reset tab.

17. The firearm enhancing trigger connector set forth in claim 1, further characterized in that said first predetermined angle is approximately 130-140 degrees.

18. The firearm enhancing trigger connector set forth in claim 1, further characterized in that said third predetermined angle is approximately 40-50 degrees.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) With the above and other related objects in view, the invention consists in the details of construction and combination of parts as will be more fully understood from the following description, when read in conjunction with the accompanying drawings in which:

(2) FIG. 1 is an isometric view of a prior art trigger connector.

(3) FIG. 1a is an isometric view of the prior art trigger connector mounted onto a trigger bar and housing.

(4) FIG. 2 is an elevation view of the prior art trigger connector mounted onto the trigger bar and housing, before firing a firearm.

(5) FIG. 2a is an elevation view of the prior art trigger connector seen in FIG. 2, at the point of firing the firearm.

(6) FIG. 2b is an elevation view of the prior art trigger connector seen in FIG. 2a, after firing the firearm.

(7) FIG. 3 is an isometric view of the present invention.

(8) FIG. 3a is an isometric view of the present invention mounted onto a trigger bar and housing.

(9) FIG. 4 is an elevation view of the present invention mounted onto the trigger bar and housing, before firing the firearm.

(10) FIG. 4a is an elevation view of the present invention seen in FIG. 3, after firing the firearm.

(11) FIG. 5 is a top view of the prior art trigger connector seen in FIG. 1, illustrating torsion forces while cycling.

(12) FIG. 6 is a top view of the present invention seen in FIG. 3, while cycling.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

(13) Referring now to the drawings, the present invention is generally referred to with numeral 10. It can be observed that it basically includes firearm enhancing trigger connector 220, bent at predetermined locations to permit its mechanical transactions to effectuate a trigger connector mechanism for minimizing trigger pull effort and torsion force effects.

(14) Seen in FIGS. 1 and 1a is prior art connector 20. Torso 21 has lip 24. Lip 24 serves to contain trigger bar TB when biased against it. Lip 24 is at angle . Angle is approximately 90 degrees. Connector leg 26 extends from torso 21 at a predetermined angle and has connector lip 28. Connector lip 28 is at angle from connector leg 26. Angle is approximately 90 degrees. Opposite in direction from lip 24 and connector lip 28 is connector leg 22. FIG. 1a illustrates trigger bar TB secured onto trigger housing TH. Connector leg 22 removably fits within firearm F, seen in FIG. 2, to remain secured.

(15) As seen in FIG. 2, prior art connector 20 works in conjunction with trigger bar TB. While firearm F, is in the rest position, trigger bar TB is biased against torso 21. As trigger T is pulled, trigger bar TB slidably travels generally in a rearward and downward direction establishing undesired trigger pull excess travel.

(16) As seen in FIG. 2a, lip 24 serves to guide curved end 50. However, due to its position and angle A, lip 24 also is an obstruction. This obstruction causes a user to exert a second force to overcome the obstruction after exerting an initial force to pull trigger T. Thus, resulting in a reduction of accuracy and precision when firing. Trigger bar TB remains biased against torso 21 at the point of firing.

(17) As seen in FIG. 2b, after the point of firing, trigger bar TB continuous to travel generally in a rearward and downward direction until a spring force, not shown, causes trigger bar TB to shift. Guided by connector lip 28, edge 52 of trigger bar TB slidably travels generally in a forward and upward direction until completing the operating cycle.

(18) Seen in FIGS. 3 and 3a is the present invention, defined as firearm enhancing trigger connector 220. As seen in FIG. 3, firearm enhancing trigger connector 220 has torso 221 having first and second edges 234 and 236 respectively. Torso 221 has guide lip mount 232 extending beyond first edge 234 at a first predetermined angle A approximately 130-140 degrees. In a preferred embodiment, angle A is approximately 134 degrees. Guide lip mount 232 comprises guide lip 224 positioned at a second predetermined angle B approximately 65-80 degrees with respect to second edge 236. In a preferred embodiment, the second predetermined angle B is approximately 77 degrees. Guide lip 224 contains trigger bar TB of firearm F, seen in FIG. 4.

(19) Guide lip mount 232 further comprises control tab 240 extending therefrom at a third predetermined angle C approximately 40-50 degrees from first edge 234. In a preferred embodiment, the third predetermined angle C is approximately 44 degrees. Torso 221 further comprises first connector leg 226 extending from torso 221 towards first edge 234 at a fourth predetermined angle. First connector leg 226 has reset tab 228 at a fifth predetermined angle E approximately 85-95 degrees with respect to first connector leg 226. In a preferred embodiment, fifth predetermined angle E is approximately 90 degrees. Approximately opposite in direction from guide lip 224 and reset tab 228 is connector leg 222. Torso 221 further comprises elongated debris slot 238. In a preferred embodiment, elongated debris slot 238 extends along of approximately a first half of torso 221. Elongated debris slot 238 is designed to minimize debris accumulation between trigger bar TB, seen in FIG. 3A, and firearm enhanced trigger connector 220.

(20) Guide lip mount 232 extends from torso 221 beyond first edge 234 a first predetermined distance and first connector leg 226 extends from torso 221 beyond first edge 234 a second predetermined distance, wherein the first predetermined distance is greater than the second predetermined distance.

(21) First connector leg 226 extends from second edge 236, whereby it defines a corner as it extends from second edge 236. Reset tab 228 is positioned over guide lip 224, and guide lip 224 is closer to second connector leg 222 than reset tab 228, whereby a distance from reset tab 228 to connector leg 222 is longer than a distance from guide lip 224 to connector leg 222. In addition, first connector leg 226 defines a sixth predetermined angle D with respect to guide lip 224, wherein the sixth predetermined angle D is less than 90 degrees. In a preferred embodiment sixth predetermined angle D is approximately 50-60 degrees, and more specifically approximately 56 degrees.

(22) FIG. 3a illustrates trigger bar TB secured onto trigger housing TH. Second connector leg 222 removably fits within trigger housing TH of firearm F, as seen in FIG. 4, to remain secured. Guide lip 224 serves to contain trigger bar TB when biased against it. Trigger bar TB nearly contacts or contacts guide lip 224 when firearm F, seen in FIG. 4, is in a rest position.

(23) Control tab 240 is designed as a specific contact to prevent over-travel of trigger bar TB when operating in cooperation with trigger T, and a spring force, not shown, causes trigger bar TB to shift.

(24) The conventional placement of guide lip 224 and reset tab 228 is reversed from the prior art. Changing their placement creates the smoothest trigger pull possible. Thus, providing a mechanical advantage with present invention 10.

(25) As seen in FIG. 4, firearm F is in the rest position. Once a user grasps firearm F, aims, and is ready to fire, the user exerts a force to overcome the force of trigger T. Trigger T is mechanically connected to trigger bar TB. In the rest position, trigger bar TB is biased against torso 221. It is noted that guide lip 224 is located at a predetermined positioned forward and elevated as compared to lip 24, seen in FIG. 1, and has a predetermined angle B, seen in FIG. 3, to contain trigger bar TB when biased against it.

(26) More specifically, guide lip 224 is positioned at the predetermined angle B, seen in FIG. 3, whereby curved end 50 of trigger bar TB nearly contacts, or contacts, guide lip 224 when firearm F is in the rest position, as illustrated, to eliminate undesired trigger pull obstruction and to minimize trigger pull effort when trigger T is pulled. In a preferred embodiment, nearly contacts are defined as a distance up to approximately 3 mm.

(27) As trigger T is pulled, trigger bar TB slidably travels generally in a rearward and downward direction and guide lip 224 serves to guide curved end 50 with no obstruction. The no obstruction is achieved with the predetermined angle B for guide lip 224, saving the user from exerting a second force after exerting an initial force to pull trigger T. Thus, resulting in improved accuracy and precision when firing. Trigger bar TB remains biased against torso 221 at the point of firing.

(28) As seen in FIG. 4a, after the point of firing, trigger bar TB continuous to travel generally in a rearward and downward direction. Cross edge 60 contacts control tab 240. Guided by reset tab 228, edge 52 of trigger bar TB then slidably travels generally in a forward and upward direction until completing the operating cycle. Control tab 240 establishes a shortened trigger travel distance. With a shortened trigger travel distance, less time is required for the user to discharge firearm F. As a result, the user benefits from each subsequent discharge with less time required for firearm F to cycle back into the rest position, as seen in FIG. 4.

(29) As seen in FIG. 5, after the point of firing, trigger bar TB continues to travel generally in a rearward and downward direction. Connector lip 28 is cammed inwardly by lobe L until a spring force, not shown, causes trigger bar TB to shift. Edge 52, seen in FIG. 4A, of trigger bar TB slidably travels generally in a forward and upward direction. Lobe L defines a ramped surface that cams connector lip 28 while cycling until completing the operating cycle. However, due to its position, connector lip 28 also is an obstruction. This obstruction causes torsion forces upon prior art connector 20 while cycling. Thus, compromising the stability and durability of prior art connector 20.

(30) As seen in FIG. 6, after the point of firing, trigger bar TB continues to travel generally in a rearward and downward direction. Reset tab 228 is cammed inwardly by lobe L until a spring force, not shown, causes trigger bar TB to shift. Edge 52, seen in FIG. 4A, of trigger bar TB slidably travels generally in a forward and upward direction. Lobe L defines a ramped surface that cams reset tab 228 while cycling until completing the operating cycle with minimal obstruction. The minimal obstruction is achieved with the length and the fifth predetermined angle E of reset tab 228, minimizing torsion forces upon firearm enhancing trigger connector 220 while cycling. Thus, resulting in improved stability and durability.

(31) Firearm enhancing trigger connector 220 is made out of a durable and light weight material as stainless steel, alloy metal, or other material having similar characteristics. In the preferred embodiment, firearm enhancing trigger connector 220 is manufactured as a single metallic piece and have a general consistent thickness throughout of approximately 0.10 mm to 2.00 mm, so as to cooperatively interact with the general trigger mechanism of semiautomatic firearms that have an enclosed striker assembly. Such a firearm may be GLOCK, without limitation to this specific brand.

(32) The foregoing description conveys the best understanding of the objectives and advantages of the present invention. Different embodiments may be made of the inventive concept of this invention. It is to be understood that all matter disclosed herein is to be interpreted merely as illustrative, and not in a limiting sense.