In some embodiments, a bow comprises a first limb supporting a first rotatable member. The first rotatable member comprises a first bowstring track and a first terminal post. A second limb supports a second rotatable member. The second rotatable member comprising a second bowstring track and a second terminal post. A bowstring comprises a first end attached to the first terminal post and a second end attached to the second terminal post. The first bowstring track and the second bowstring track are oriented in a bowstring plane, and the first terminal post is laterally offset from the bowstring plane.

A projectile launcher includes a frame and a projectile moves within a horizontal projectile plane and along the projectile axis. The projectile is fired from a front end of the frame. The projectile launcher includes a first power group at a first frame side. The first power group includes a plurality of first power group drawstring pulleys. At least one of the plurality of first power group drawstring pulleys is attached to the frame. The projectile launcher further includes a second power group at a second frame side. The second power group includes a plurality of second power group drawstring pulleys. At least one of the plurality of second power group drawstring pulleys is attached to the frame. The drawstring is configured to be routed at least partially around the first and second power group drawstring pulleys.

A crossbow includes a frame, a riser coupled to the frame, a first flexible limb, a second flexible limb, a third flexible limb, and a fourth flexible limb. A first cam assembly couples to the first flexible limb and the second limb and includes a first draw string journal, a first power cable journal, and a second power cable journal. A second cam assembly couples to the third flexible limb and the fourth flexible limb and includes a second draw string journal, a third power cable journal, and a fourth power cable journal. A draw string is received in the first draw string journal and the second draw string journal. Power cables cross over the center rail, above and below the draw string, and are received in the first power cable journal, the second power cable journal, the third power cable journal, and the fourth power cable journal, respectively.

A crossbow is provided with a reciprocating linear rack and a locking linear rack, wherein a traveler having a pawl for each linear rack is engaged by the reciprocating linear rack to move rearward relative to the locking rack, thereby moving the traveler to a drawn position. A cocking lever is hand operated by the user though a plurality of cycles to move the traveler, and captured bowstring to a fully drawn configuration. A trigger mechanism engage the traveler in the drawn configuration and selectively releases the bowstring from the traveler. A bow assembly is provided, wherein the bowstring wraps about a front edge of opposing rotatable members, to be longitudinally located in front of a portion of power cables. The bow assembly includes a power cable on each side of the stock, and thus the power cables do not cross a longitudinal axis of the crossbow

The structure discloses a crossbow head assembly structure, comprising a main bracket, crossbow pieces, pulleys, a main string, and auxiliary strings. The invention improves the assembling method of the crossbow piece and the hanging method of the crossbow string, and is equipped with a string adjusting device. Advantageous effects: 1. the forward speed of the pulley when the arrow is shot is superimposed on the forward speed of the main string; 2. the weight of the pulley can be reduced, so that the shooting speed of the crossbow arrow can be increased, and the impact of the pulley on the crossbow string can be reduced by the sudden stop of the pulley; no matter which crossbow string is broken, the other crossbow strings will be completely relaxed; 3. the crossbow string can be assembled without a bow opener; moreover, the accuracy of shooting can be adjusted very conveniently.

A crossbow is provided with a reciprocating linear rack and a locking linear rack, wherein a traveler having a pawl for each linear rack is engaged by the reciprocating linear rack to move rearward relative to the locking rack, thereby moving the traveler to a drawn position. A cocking lever is hand operated by the user though a plurality of cycles to move the traveler, and captured bowstring to a fully drawn configuration. A trigger mechanism engage the traveler in the drawn configuration and selectively releases the bowstring from the traveler. A bow assembly is provided, wherein the bowstring wraps about a front edge of opposing rotatable members, to be longitudinally located in front of a portion of power cables. The bow assembly includes a power cable on each side of the stock, and thus the power cables do not cross a longitudinal axis of the crossbow.

A crossbow including a center rail including a rail body and a riser, a first flexible limb coupled to the riser, a second flexible limb coupled to the riser, and a first cam mounted to the first flexible limb and rotatable around a first cam axis, and including a first draw string journal defining a first draw string plane of rotation perpendicular to the first cam axis, and a first power cable take-up journal extending in a direction perpendicular to the first draw string plane of rotation. The crossbow including a second cam mounted to the second flexible limb and rotatable around a second cam axis. The second cam including a second draw string journal defining a second draw string plane of rotation perpendicular to the second cam axis, and a second power cable take-up journal extending in a direction perpendicular to the second draw string plane of rotation.

A projectile launcher includes a frame, a grip, a hub mounted to the frame and configured to rotate about a central axis, the hub configured to wind a power cable about the central axis, and a flexible limb extending upwardly from the frame, the limb having a first end and a second end, the first end secured to the frame, the power cable coupled with the limb proximate the second end, with the grip mounted to the frame between the central axis and the first end of the limb.

A crossbow includes a stock having a first side and a second side. The stock defines a projectile flight path. The crossbow includes a scope rail mount. The scope rail mount includes a first support and a second support. The first support is coupled with the first side of the stock. The second support coupled with the second side of the stock. The scope rail mount configured to straddle the projectile flight path.

A projectile launcher includes a drawstring, a frame, a limb, and a power cable. The frame includes a vertical grip. The limb includes a fixed end coupled to the frame rearward of the vertical grip and a free end positioned forward of the vertical grip. The power cable is coupled to the frame and operatively coupled with the limb. During operation of the projectile launcher, the limb flexes toward the frame as the drawstring moves to a drawn position.