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.
In some embodiments, a crossbow cocking device comprises a rope and a hook engaged with the rope. The hook defines a longitudinal axis and comprises a valley, a surface of the valley oriented at a non-orthogonal angle to the longitudinal axis.
In some embodiments, a crossbow trigger mechanism comprises a housing, a trigger, a latch and a latch retaining mechanism. The housing defines a slot. The latch comprises a string catch and a trigger engaging portion. The latch is moveable with respect to the housing between first and second positions. In the first position, the trigger engaging portion contacts the trigger. In the second position, the trigger engaging portion does not contact the trigger. The latch retaining mechanism is arranged to retain the latch in the second position.
In some embodiments, a crossbow trigger mechanism comprises a housing, a trigger, a latch and a latch retaining mechanism. The housing defines a slot. The latch comprises a string catch and a trigger engaging portion. The latch is moveable with respect to the housing between first and second positions. In the first position, the trigger engaging portion contacts the trigger. In the second position, the trigger engaging portion does not contact the trigger. The latch retaining mechanism is arranged to retain the latch in the second position.
In some embodiments, a crossbow trigger mechanism comprises a housing, a trigger, a latch and a latch retaining mechanism. The housing defines a slot. The latch comprises a string catch and a trigger engaging portion. The latch is moveable with respect to the housing between first and second positions. In the first position, the trigger engaging portion contacts the trigger. In the second position, the trigger engaging portion does not contact the trigger. The latch retaining mechanism is arranged to retain the latch in the second position.
A trigger mechanism for use in a crossbow having a bowstring, the trigger mechanism comprising a housing having a slot formed therein, a trigger lever pivotally mounted in the housing and having a trigger that extends partially outside the housing, a catch pivotally mounted in the housing, and a disarm mechanism received in the housing that is moveable between a neutral first position and a disarm second position. The catch has a first end configured to retain the bowstring in a cocked position and a second end configured to operatively engage the trigger lever. When the disarm mechanism is in the disarm second position and the user draws the bowstring further into the housing slot, the trigger mechanism is configured to allow the catch to move from the catch first position into the catch second position without requiring the user to engage the trigger (e.g., squeezing or pulling the trigger).
In some embodiments, an archery bow comprises a frame supporting a first limb and a second limb. A first rotatable member is supported by the first limb and arranged to rotate about a first rotation axis. The first rotatable member comprises a cam track. A second rotatable member is supported by the second limb and arranged to rotate about a second rotation axis. The second rotatable member comprises a synchronizer track. A bowstring extends between the first rotatable member and the second rotatable member. A power cable is arranged to be taken up on the cam track and fed out from the synchronizer track as the bow is drawn. The synchronizer track is circular and a centerpoint of the synchronizer is offset from the second rotation axis.
In at least one embodiment, a crossbow comprises a stock defining a shooting axis and a bow portion comprising a bowstring and a cable. The stock comprises an aperture formed therein and the cable extends through the aperture. A surface of the aperture biases the cable in a direction lateral to the shooting axis. At least a portion of the surface is oriented non-parallel to the shooting axis.
In at least one embodiment, an archery bow comprises a limb and an axle assembly supported by the limb. The axle assembly comprises a shaft having a threaded portion and a fastener arranged to engage the threaded portion.
In at least one embodiment, an archery bow comprises a limb and an axle assembly supported by the limb. The axle assembly comprises a shaft having a threaded portion and a fastener arranged to engage the threaded portion.
In some embodiments, an archery bow comprises a riser, a first limb supported by the riser and a second limb supported by the riser. A first rotatable member is supported by the first limb and arranged to rotate on a first axis and a second rotatable member is supported by the second limb and arranged to rotate on a second axis. The first rotatable member comprises a first bowstring track comprising a first arc having a constant radius and a center located on the first axis. The second rotatable member comprises a second bowstring track comprising a second arc having a constant radius and a center located on the second axis. A bowstring comprises a first end attached to the first rotatable member and a second end attached to the second rotatable member.
A trigger mechanism for use in a crossbow comprises a housing having a first slot formed in a first side and a second slot formed in a second side opposite the first side. A trigger lever, a bowstring catch and a disarm mechanism are all moveably mounted in the housing. The catch has a first end configured to engage the trigger lever and a second end configured to retain the bowstring in a cocked position. The disarm mechanism is partially positioned in the second slot and is moveable between a fixed first position proximate the housing second slot toward a second disarm position toward the housing first slot. As the disarm mechanism moves from the first position into the second position, it engages the trigger lever causing it to move out of engagement with the catch first end allowing the user to release the bowstring using the bowstring cocking device from the trigger mechanism without having to engage the trigger
In at least one embodiment, a crossbow comprises a stock, a first limb, a first rotatable member, a second limb and a second rotatable member. A bowstring, a first power cable and a second power cable each extend between the first rotatable member and the second rotatable member. The first rotatable member and the second rotatable member are constructed and arranged to provide a left-off during draw of said bowstring in an amount of approximately 70%, 80%, 90% or 95% or more. The drawstring let-off reducing load on a latch assembly and/or a trigger assembly.
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.
A soundboard for a musical instrument is disclosed the soundboard having at least one layer of material. In some embodiments the material comprising carbon fiber, fibrous laminate material, resin or a plastic matrix and combinations thereof. At least one bracing structure is engaged to the at least one layer of material. The at least one bracing structure comprising at least one layer of honeycomb or shaped core and at least one sheet of material bonded to the honeycomb or shaped core.
A soundboard for a musical instrument is disclosed the soundboard having at least one layer of material. In some embodiments the material comprising carbon fiber, fibrous laminate material, resin or a plastic matrix and combinations thereof. At least one bracing structure is engaged to the at least one layer of material. The at least one bracing structure comprising at least one layer of honeycomb or shaped core and at least one sheet of material bonded to the honeycomb or shaped core.
B32B 3/12 - Layered products comprising a layer with external or internal discontinuities or unevennesses, or a layer of non-planar shapeLayered products comprising a layer having particular features of form characterised by a discontinuous layer, i.e. apertured or formed of separate pieces of material characterised by a layer of regularly-arranged cells whether integral or formed individually or by conjunction of separate strips, e.g. honeycomb structure
In some embodiments, a crossbow crank comprises a housing and a shaft rotatable with respect to the housing. A one-way mechanism is arranged to prevent rotation of the shaft in a first rotational direction, but allow rotation in a second direction. A release mechanism is arranged to disengage the one-way mechanism from the shaft. The release mechanism has a first position and a second position, wherein the release mechanism moves along a length of the shaft between the first position and the second position.
In at least one embodiment, a crossbow comprises a stock, a first limb, a first rotatable member, a second limb and a second rotatable member. A bowstring, a first cable and a second cable each extend between the first rotatable member and the second rotatable member. The crossbow defines a shooting axis. The first cable is offset from the shooting axis in a first direction and the second cable is offset from the shooting axis in a second direction different from the first direction.
In some embodiments, a crossbow system comprises a crossbow comprising a stock and a bow portion. The bow portion comprises a bowstring having a nocking point. The crossbow defines a shooting axis. The stock comprises a rope anchor located below the shooting axis. The crossbow system further comprises a cocking rope constructed and arranged to engage the bowstring and to be anchored to the rope anchor.
In one or more embodiments, a prod may include a rail-engagement portion configured to engage a rail extending along a longitudinal axis extending proximally from the rail-engagement portion; a peripheral surface including a foot- engagement region; and, optionally, a bow-engagement portion configured to engage a bow or a bow limb. In one or more embodiments, prod or crossbow accessory engages a crossbow, wherein the prod or crossbow accessory includes a first foot- engagement region and a second foot-engagement region.
In some embodiments, a crossbow comprises a bow portion defining a first central vertical axis and a stock portion defining a second central vertical axis. The bow portion comprises an interfacing portion and the stock portion comprises a complimentary interfacing portion. The interfacing portion and the complimentary interfacing portion are arranged to provide self-alignment of the stock portion with the bow portion, such that the first central vertical axis and the second central vertical axis are coaxial.
In some embodiments, a crossbow comprises a stock, a bow portion and a cable guide member. The bow portion comprises a power cable and a second cable. The cable guide member comprises a first channel and a second channel. At least a portion of the first channel is non-parallel to the second channel.
In some embodiments, a crossbow comprises a stock and a bow portion comprising at least one limb and a string. A riser attaches said bow portion to the stock. A latch is located in proximity to a butt of the stock. The latch is configured to retain the string in a drawn condition. A trigger is arranged to release the latch. An extension member extends from the butt of the stock to the latch. The extension member and the stock define a cavity, and the latch assembly is oriented within the cavity.
In some embodiments, a crossbow comprises a stock and a bow portion comprising at least one limb and a string. A riser attaches said bow portion to the stock. A latch is located in proximity to a butt of the stock. The latch is configured to retain the string in a drawn condition. A trigger is arranged to release the latch. An extension member extends from the butt of the stock to the latch. The extension member and the stock define a cavity, and the latch assembly is oriented within the cavity.
An archery bow comprises a rotatable member configured for rotation about a first rotatable member axis. A cable anchor for anchoring a power cable 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.
An improved archery bow having a handle portion, at least one limb, and at least one innovative bow limb pocket. The limb pocket is engaged to an end of the handle portion, and has two side wall portions that taper to a bottom of the limb pocket. The limb pocket slidably engages at least a portion of the limb on at least the two side walls of the limb pocket.
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