Crossbow trigger mechanism
First Claim
1. A crossbow trigger mechanism comprising:
- (a) a mechanism-containing case adapted for installation in a crossbow stock;
(b) a forward-opening bowstring entry area in the upper portion of said case for receiving a bowstring;
(c) a one-piece trigger pivotally installed in a lower portion of said case, said trigger comprising a trigger arm extending downwardly from the trigger pivot point and out of the case and an integral sear arm extending forwardly from said trigger pivot point, said sear arm having a rearward-facing sear surface, such that said sear arm and its sear surface move downwardly when said trigger arm is pulled rearwardly, the length of said sear arm and said trigger arm being such that a mechanical advantage of in excess of 2.1 is achieved; and
(d) a catch pivotally installed in said case, its pivot point being slightly above the plane of said bowstring entry area and said bowstring, said catch comprising a bowstring-retaining hook portion extending forwardly form said catch pivot point for pivoting downwardly into said bowstring entry area for retaining a bowstring to arm the crossbow and upwardly away form said bowstring entry area for releasing said bowstring to project an arrow or other projectile, and a catch arm extending downwardly from said catch pivot point, said catch arm terminating in a forward-facing sear surface, said sear surface adapted to be engaged by the sear surface of the sear arm of the trigger, such that rearward motion of the trigger arm disengages the sear arm sear surface from the catch arm sear surface;
whereby, when a bowstring is retained by said bowstring-retaining hook poriton of said catch, and said trigger is pulled rearwardly, the sear surface disengages the catch arm sear surface, and the catch rotates about its pivot point by virtue of the force produced by bowstring tension, whereby the bowstring-retaining hook portion pivots upwardly away from said bowstring entry area, thereby releasing said bowstring to project an arrow or other projectile.
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Accused Products
Abstract
A novel trigger mechanism for a crossbow is disclosed, in which a relatively large mechanical advantage is employed to obtain reduced trigger pressures in comparison with trigger pressures in the prior art. The mechanism has two main components, namely a trigger and a catch, pivotally mounted in a case which is in turn mounted in the crossbow stock. The trigger has a trigger arm extending downwardly from the trigger pivot point and out of the case, and a sear arm extending forwardly and having a rearward-facing sear surface. The catch is installed with its pivot point slightly above the plane of a bowstring entry area in the case, and thus slightly above the plane of the bowstring. The catch has a bowstring-retaining hook portion extending forwardly from the catch pivot point, and a catch arm extending downwardly from the catch pivot point and terminating in a forward-facing sear surface, which is engaged by the sear surface of the trigger sear arm when the crossbow is armed. By virtue of a relatively high mechanical advantage in the catch, of about 4.5 to 1, combined with the mechanical advantage in the trigger and with lubrication and/or polishing of the sear surfaces, low trigger pressure is achieved. The trigger pressure is augmented by means of a spring installed between a portion of the case and the trigger.
83 Citations
12 Claims
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1. A crossbow trigger mechanism comprising:
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(a) a mechanism-containing case adapted for installation in a crossbow stock; (b) a forward-opening bowstring entry area in the upper portion of said case for receiving a bowstring; (c) a one-piece trigger pivotally installed in a lower portion of said case, said trigger comprising a trigger arm extending downwardly from the trigger pivot point and out of the case and an integral sear arm extending forwardly from said trigger pivot point, said sear arm having a rearward-facing sear surface, such that said sear arm and its sear surface move downwardly when said trigger arm is pulled rearwardly, the length of said sear arm and said trigger arm being such that a mechanical advantage of in excess of 2.1 is achieved; and (d) a catch pivotally installed in said case, its pivot point being slightly above the plane of said bowstring entry area and said bowstring, said catch comprising a bowstring-retaining hook portion extending forwardly form said catch pivot point for pivoting downwardly into said bowstring entry area for retaining a bowstring to arm the crossbow and upwardly away form said bowstring entry area for releasing said bowstring to project an arrow or other projectile, and a catch arm extending downwardly from said catch pivot point, said catch arm terminating in a forward-facing sear surface, said sear surface adapted to be engaged by the sear surface of the sear arm of the trigger, such that rearward motion of the trigger arm disengages the sear arm sear surface from the catch arm sear surface; whereby, when a bowstring is retained by said bowstring-retaining hook poriton of said catch, and said trigger is pulled rearwardly, the sear surface disengages the catch arm sear surface, and the catch rotates about its pivot point by virtue of the force produced by bowstring tension, whereby the bowstring-retaining hook portion pivots upwardly away from said bowstring entry area, thereby releasing said bowstring to project an arrow or other projectile. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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Specification