A compound bow includes a first and second pulley, each of which is operative, when the bow is drawn, to unwind a portion of a bow string from a bow string groove and to take up a portion of a bow cable so as to decrease its effective length. At least one of the pulleys includes a cable controller which operates to modify the rate at which the effective length of the bow cable is decreasing so that during an initial portion of the draw of the bow, the rate is greater than it would be in the absence of the controller, and during a second portion of the draw, the rate is less than it would be in the absence of the controller. Use of the controller provides a bow which has an inherently balanced draw.

A compound bow includes a first and second pulley, each of which is operative, when the bow is drawn, to unwind a portion of a bow string from a bow string groove and to take up a portion of a bow cable so as to decrease its effective length. At least one of the pulleys includes a cable controller which operates to modify the rate at which the effective length of the bow cable is decreasing so that during an initial portion of the draw of the bow, the rate is greater than it would be in the absence of the controller, and during a second portion of the draw, the rate is less than it would be in the absence of the controller. Use of the controller provides a bow which has an inherently balanced draw.

The invention relates to a bow or prod of a crossbow, said prod having a spring limbs connected with a crosspiece and a working rotatable elements guiding a bowstring and/or cable, and the bowstring and/or the cable, wherein the working rotatable elements guiding the bowstring and/or the cable are located at both ends of the spring limbs, respectively. In one embodiment of the prod, the rear ends of the spring limbs (2) are fastened to both rear ends of the crosspiece (1) by the holders (9) fastened rotatably on the pivots (7a), and the working rotatable elements (3) guiding the bowstring (6) are rotatably fastened to the rear ends of the crosspiece (1) and coaxially with said holders (9), said bowstring (6) is fastened at the fastening point (5) with its for receiving the rear working to the first front end of the crosspiece (1), and similarly with its second end to the second opposite front end of the crosspiece (1). The bowstring (6) runs from its for receiving the rear working through first front working rotatable element (8) guiding the bowstring (6), located on the same side of the prod, and connected coaxially by the pivot (7b) with the holder (9) of the for receiving the rear working of the first spring limb (2), towards the first rear working rotatable element (3) guiding the bowstring (6), located on the same side of the prod, and next towards the second rear working rotatable element (3) guiding the bowstring (6), located on the opposite side of the prod, and further towards the second front working rotatable element (8) guiding the bowstring (6) and connected coaxially with the holder (9) of the front end of the second spring limb (2), and further passing over said second front working rotatable element (8) guiding the bowstring (6), it ends its course at the second front end of the crosspiece (1) with its second end fastened at the fastening point (5). The bowstring (6) runs passes over all the working rotatable elements (3, 8) guiding the bowstring (6).

In some embodiments, an archery bow comprises a frame, a first rotatable member supported by the frame, a second rotatable member supported by the frame and a limb supported by the frame. The first rotatable member comprises a first track, a second track and a cam. The cam comprises a power cable track. A bowstring cable segment extends from the first rotatable member to the second rotatable member. A control cable segment extends from the first rotatable member to the second rotatable member. A power cable extends from the limb to the first rotatable member. When the bowstring is drawn, the first track feeds out the bowstring cable segment, the second track feeds out the control cable segment and the power cable track takes up the power cable. In some embodiments, the frame comprises a riser and a spar. In some embodiments, the first rotatable member is supported by the spar.

In some embodiments, an archery bow comprises a rotatable member configured for rotation about a first rotatable member axis. A cable anchor is attached to the rotatable member and rotatable with respect to the rotatable member about an anchor axis. The anchor axis is offset from the rotatable member axis. The bow can further comprise a power cable anchored to said cable anchor.

In some embodiments, an archery bow comprises a rotatable member configured for rotation about a first rotatable member axis. A cable anchor is attached to the rotatable member and rotatable with respect to the rotatable member about an anchor axis. The anchor axis is offset from the rotatable member axis. The bow can further comprise a power cable anchored to said cable anchor.

An archery bow comprises a structural riser that comprises a plurality of cells arranged in a repeating pattern. In some embodiments, the riser comprises multiple pluralities of similarly shaped cells, wherein each plurality comprises a different shape. In some embodiments, a bow comprises one or more rotatable members. Each rotatable member can comprise a plurality of cells arranged in a repeating pattern. In some embodiments, cell shapes in the rotatable member(s) are similar to cell shapes in the riser.

An archery bow comprises a structural riser that comprises a plurality of cells arranged in a repeating pattern. In some embodiments, the riser comprises multiple pluralities of similarly shaped cells, wherein each plurality comprises a different shape. In some embodiments, a bow comprises one or more rotatable members. Each rotatable member can comprise a plurality of cells arranged in a repeating pattern. In some embodiments, cell shapes in the rotatable member(s) are similar to cell shapes in the riser.

In some embodiments, a limb assembly comprises a limb cup, a first limb member and a second limb member. The first limb member supports a rotatable member. The first limb member is supported by the limb cup at a first location and is supported by the second limb member at a second location. The second limb member is supported by the limb cup. The second limb member applies a supporting force to the first limb member.

In some embodiments, a limb assembly comprises a limb cup, a first limb member and a second limb member. The first limb member supports a rotatable member. The first limb member is supported by the limb cup at a first location and is supported by the second limb member at a second location. The second limb member is supported by the limb cup. The second limb member applies a supporting force to the first limb member.