Hunter's Manufacturing Company, Inc. d/b/a TenPoint Crossbow Technologies (USA)
Inventor
Bednar, Richard
Shaffer, Michael
Smith, Jr., Gary
Vankeulen, Eric
Abstract
A crossbow de-cocking method may include the step of providing a trigger mechanism, a trigger latch mechanism and a winch assembly. A first input to the winch assembly may move a trigger latch to disengage the trigger mechanism. A second input to the trigger latch may move a crossbow bowstring from a cocked position to an un-cocked position.
A crossbow may have a main beam, two bow limbs, a bow string and a trigger mechanism. First ends of the bow limbs may extend distally beyond the distal end of the main beam on respective sides of the main beam. The bow limb first ends may be separated from each other such that a minimum distance between them is at least as wide as a user's foot but not greater than about 5 inches.
A crossbow may include a main beam and a bow mechanism having a pair of outwardly extending bow limbs, a pair of bowstring wheels, a bowstring and at least one power cord that extends between the bow limbs. The crossbow may also include a traveling trigger mechanism and a drawing mechanism. The traveling trigger mechanism may hold the bowstring in the un-cocked condition. The drawing mechanism may then be operated to move the traveling trigger mechanism and thus the bow string from the un-cocked condition to a cocked condition.
A bow may have a string latch that holds a bowstring and that can be moved into three distinct positions. One activator may be used to prevent the string latch from being moved into its second position. A second activator may be used to prevent the string latch from being moved into its third position. A third activator may be used to move the first and second activators to prevent the string latch from being moved into its second or third positions.
A crossbow de-cock mechanism may include a de-cock activator that is selectively movable from a first de-cock activator position that prevents de-cocking of a crossbow into a second de-cock activator position that permits de-cocking of the crossbow.
A crossbow de-cocking mechanism may include a trigger mechanism, a trigger latch mechanism and a winch assembly. A first rotational input to the winch may move a trigger latch to disengage the trigger mechanism. A second rotational input to the trigger latch, opposite to the first, may move the trigger mechanism to move a crossbow bowstring from a cocked position to an un-cocked position.
A crossbow may include a bowstring and a string latch that can be moved into a first string latch position that holds the bowstring in a cocked position, a second string latch position that does not hold the bowstring in the cocked position and a third string latch position. To de-cock the crossbow, a de-cock activator may be selectively movable from a first de-cock activator position that prevents the string latch from being moved into the third string latch position into a second de-cock activator position that permits the string latch to be moved into the third string latch position. When the string latch is in the first string latch position and the de-cock activator is in the second de-cock activator position: the string latch may be selectively movable into the third string latch position and then the second string latch position permitting de-cocking of the crossbow.
HUNTER'S MANUFACTURING COMPANY, INC. D/B/A TENPOINT CROSSBOW TECHNOLOGIES (USA)
Inventor
Bednar, Richard
Shaffer, Michael
Smith, Jr., Gary
Vankeulen, Eric
Abstract
A crossbow may have a cocking mechanism that includes a trigger mechanism, a trigger latch mechanism and a winch assembly. The winch assembly may be used to move the trigger mechanism to simultaneously move the bowstring from an un-cocked position to a cocked position.
HUNTER'S MANUFACTURING COMPANY, INC. D/B/A TENPOINT CROSSBOW TECHNOLOGIES (USA)
Inventor
Bednar, Richard
Shaffer, Michael
Smith, Jr., Gary
Vankeulen, Eric
Abstract
A crossbow may have a winch assembly. The winch assembly may include a spool, a spool gear, a drive gear, a plate gear, a one way bearing and a brake gear. The winch assembly may be used to move the bowstring from an un-cocked position to a cocked position. The winch assembly may also be used to move the bowstring from the cocked position to the un-cocked position.
HUNTER'S MANUFACTURING COMPANY, INC. D/B/A TENPOINT CROSSBOW TECHNOLOGIES (USA)
Inventor
Bednar, Richard
Shaffer, Michael
Smith, Jr., Gary
Vankeulen, Eric
Abstract
A crossbow may have a de-cocking mechanism that includes a trigger mechanism, a trigger latch mechanism and a winch assembly. The winch assembly may be used to move the trigger mechanism to simultaneously move the bowstring from a cocked position to an un-cocked position.
A method of constructing a crossbow may include the steps of: supporting the riser to the main beam; supporting a pair of bow limbs to the ends of the riser; separating the bow limbs such that a minimum distance between them is not greater than about 5 inches; supporting the bowstring to the bow limbs; and providing at least a portion of the opening in the riser to be as wide as a user's foot and to extend between the bow limb.
A crossbow reset mechanism may be used to reset a safety activator and a de-cock activator. The reset mechanism may reset the safety and de-cock activators simultaneously.
A crossbow display may include a crossbow and a display board. The crossbow may be displayed in the un-cocked state with the display board supported to the crossbow. The display board may include one or more images that depict at least a portion of the crossbow in the cocked state. The crossbow display enables a prospective purchaser/user to simultaneously visualize at least part of both the un-cocked and cocked states of the crossbow.
G09F 19/00 - Advertising or display means not otherwise provided for
F16M 13/02 - Other supports for positioning apparatus or articles; Means for steadying hand-held apparatus or articles for supporting on, or attaching to, an object, e.g. tree, gate, window-frame, cycle
F41B 5/14 - Bows; Crossbows - Details of bows; Accessories for arc shooting
A63B 71/00 - Games or sports accessories not covered in groups
A crossbow reset mechanism may be used to reset a safety activator and a de-cock activator. The reset mechanism may reset the safety and de-cock activators simultaneously.
A crossbow de-cock mechanism may include a de-cock activator that is selectively movable from a first de-cock activator position that prevents de-cocking of a crossbow into a second de-cock activator position that permits de-cocking of the crossbow.
A nock may be used with an associated arrow and an associated crossbow. The nock may include a connection surface designed to connect the nock to the associated arrow and string guide impressions that may be designed to receive a bowstring to fire the associated arrow from the associated bow.
A crossbow may include two bowstring guides engaged on first and second sides of the crossbow barrel. The bowstring guides may push the bowstring toward opposite sides of the barrel when the bowstring is moved from the fully uncocked position to the fully cocked position and when the bowstring is moved from the fully cocked position to the fully uncocked position.
A crossbow router system may include a frame that may be positioned within a hole in a crossbow main beam and not fixed to the main beam. Two or more cylindrical surfaces may be rotatable with respect to the frame and may engage a power chord to guide the power chord through the hole in the main beam.
Provided is a crossbow router system comprising a first elongated frame defining a plurality of parallel rotational axes of the first frame; a second elongated frame defining a plurality of parallel rotational axes of the second frame; wherein multiple rotational axes of the first frame are coincident with one multiple rotational axes of the second frame; multiple elongated shafts with each shaft defining a shaft axis, each shaft being coincident with a rotational axis of the first elongated frame, and a rotational axis of the second elongated frame; and each shaft having a bushing thereon.
A bow assembly may include bow limbs on opposite sides and a cam rotatably supported to each bow limb. In some embodiments, the cams on each limb may be identical. In other embodiments, each cam may have a stud on each side of the cam that may engage with the bowstring. In yet other embodiments, each cam may have a channel on each side of the cam that may engage with the bowstring.
A crossbow assembly may include a riser and a pair of bow limbs that attach to the riser. The limb attachment surfaces on the riser may be separated such that a minimum distance between them is not greater than 5 inches. The minimum distance may be at least as wide as a user's foot. The riser may have an opening that extends between the limb attachment surfaces. The limb attachment surfaces may be angled between 60 and 30 degrees. The riser may have a foot stirrup that begins behind the limb attachment surfaces and extends beyond them.
Provided is a crossbow safety system comprising a crossbow, a pressure sensor, and an interlock. The crossbow has a bowstring operable between a cocked and an uncocked position, a foregrip adapted for being grasped by an associated hand of an associated user, and a trigger assembly adapted to selectably retain the bowstring in the cocked position. The pressure sensor is on or in the foregrip, and is adapted to detect a pressure signature from the foregrip being grasped by an associated hand of an associated user, the associated hand having fingers. The interlock is operationally engaged with the pressure sensor and the trigger assembly, and is adapted to lock the trigger assembly from releasing the bowstring if the pressure sensor does not detect a first pressure signature sufficiently similar to a predetermined pressure signature.
A crossbow in some embodiments may include two power cables and two power cable wheels. Each power cable may extend from a bowstring wheel, to a power cable wheel and then back to the bowstring wheel. A crossbow in some other embodiments may include four power cables and two power cable wheels. Each power cable may extend from a bowstring wheel, to a power cable wheel and then to a portion of the crossbow that does not move relative to the main beam.
Provided is a crossbow comprising an elongated barrel having a front barrel end and a rear barrel end opposite the front barrel end, and a first barrel side and a second barrel side opposite the first barrel side; a bow engaged with the elongated barrel; an elongated bowstring having a first end and a second end opposite the first end; a first bowstring guide engaged with the first barrel side, the first bowstring guide being adapted to push the bowstring toward the second barrel side while the bowstring is moved between a cocked position and an uncocked position; and a second bowstring guide engaged with the second barrel side, the second bowstring guide being adapted to push the bowstring toward the first barrel side while the bowstring is moved between a cocked position and an uncocked position.
Provided is a crossbow trigger apparatus comprising a housing, a first lever operationally engaged with the housing to pivot about a first pivot axis; a second lever operationally engaged with the housing to pivot about a second pivot axis between an actuated orientation and an unactuated orientation; a third lever operationally engaged with the housing to pivot about a third pivot axis between an actuated orientation and an unactuated orientation; a fourth lever operationally engaged with the housing to pivot about a fourth pivot axis between an actuated orientation and an unactuated orientation wherein the fourth lever comprises a fourth lever catch adapted to selectably engage the second lever to prevent the second lever from operating to move from the unactuated orientation of the second lever to the actuated orientation of the second lever when the fourth lever is in the unactuated orientation of the fourth lever.
An arrow nock may have at least two distinct string guide impressions each designed to receive a bowstring to fire an arrow from a bow. The nock may be operable when connected and aligned with the arrow to cause the bowstring to be received within at least one of the string guide impressions to fire the arrow. As it is received within the string guide impression, the bowstring may cause the arrow to rotate about its longitudinal axis.
Provided is a crossbow safety system comprising a crossbow, optic fence, and interlock. The crossbow may have a bowstring operable between a cocked and an uncocked position, the cocked position and the uncocked position defining between them a bowstring plane, and a trigger assembly adapted to selectably retain the bowstring in the cocked position. The optic fence may be adapted to detect an obstruction in a safety plane coincident with the bowstring plane or offset below the bowstring plane by some offset distance. The optic fence may have an infrared emitter adapted to output IR radiation, and a photodiode adapted to sense the output IR radiation from the infrared emitter. The interlock may be operationally engaged with the optic fence and the trigger assembly. The interlock may be adapted to lock the trigger assembly from releasing the bowstring if the optic fence detects an obstruction in the safety plane.
A mid-limb cam crossbow system may comprise an elongated beam; a bow assembly engaged with the beam and having a pair of limbs; the pair of limbs being a first limb and a second limb, wherein the first limb has a proximate end and a distal end offset from the proximate end by a length L1, and the second limb has a proximate end and a distal end offset from the proximate end by a length L2. A first cam may be engaged with the first limb at a first cam mount point offset from the proximate end of the first limb by a length between (0.15)L1 and (0.75)L1. A second cam may be engaged with the second limb at a second cam mount point offset from the proximate end of the second limb by a length between (0.15)L2 and (0.75)L2.
Provided is a string suppressor for a crossbow comprising a first suppressor axis; a first suppressor plane containing the first suppressor axis; an elastomeric pad elongated along the first suppressor axis to define a first pad end, and a second pad end opposite the first pad end along the first suppressor axis; wherein the first pad end has a feature adapted for engagement with a crossbow riser; and wherein the second pad end has a string groove formed therein, the string groove being coextensive with the first suppressor plane, and has a cam groove formed therein, the cam groove being coextensive with the first suppressor plane, the cam groove being wide enough to provide a clearance fit with an associated cam.
Provided is a crossbow cam comprising: a first cam axis; a second cam axis parallel to and offset from the first cam axis; a first power cord channel extending from the first surface along a first helical path having a first helix axis coincident with the first cam axis; and a second power cord channel extending from the second surface along a second helical path having a second helix axis coincident with first cam axis. The crossbow cam may further comprise a plate normal to the first cam axis, and defining a first plane therethrough, the plate having a first surface, a second surface opposite the first surface, and a perimeter surface extending between the first surface and the second surface, the perimeter surface defined by a bowstring channel extending around the first cam axis to define a path of varying radius about the first cam axis.
Provided is a crossbow comprising a bow having: a riser having a first riser side and a second riser side; a first cam set having a first shaft, a first power cord cam of the first cam set, a bowstring cam, and a second power cord cam of the first cam set; a second cam set having a second shaft, a first power cord cam of the second cam set, a bowstring cam, and a second power cord cam of the second cam set; a first power cord engaged with the first power cord cam of the first cam set and the first riser side; a second power cord engaged with the first power cord cam of the second cam set and the second riser side; and a third power cord engaged between the second power cord cams.
A crossbow assembly may include a riser and a pair of bow limbs that attach to the riser. The limb attachment surfaces on the riser may be separated such that a minimum distance between them is not greater than 5 inches. The minimum distance may be at least as wide as a user's foot. The riser may have a U-shaped opening that extends between the limb attachment surfaces. The limb attachment surfaces may be angled between 60 and 30 degrees. The riser may have a foot stirrup that begins behind the limb attachment surfaces and extends beyond them.
Provided is a crossbow cocking system comprising a crossbow stock having a first side and a second side opposite the first side; a first receptacle extending through the stock from the first side of the stock to the second side of the stock; a first adapter plate adapted for selectable and operational engagement with the first receptacle; and a cocking device engaged with the first adapter plate, and extending through the first adapter plate.
Provided is a crossbow comprising an elongated barrel having a front barrel end and a rear barrel end opposite the front barrel end, and a first barrel side and a second barrel side opposite the first barrel side; a bow engaged with the elongated barrel; an elongated bowstring having a first end and a second end opposite the first end; a first bowstring guide engaged with the first barrel side, the first bowstring guide being adapted to push the bowstring toward the second barrel side while the bowstring is moved between a cocked position and an uncocked position; and a second bowstring guide engaged with the second barrel side, the second bowstring guide being adapted to push the bowstring toward the first barrel side while the bowstring is moved between a cocked position and an uncocked position.
Provided is a crossbow cocking system comprising a sled, an elongated cocking cable, a first handle, and a second handle. The sled may have a first side having a first bowstring retainer, a first arm having a first set of handle engagement features adapted for engagement with a first handle, and a first pulley rotatably engaged with the first arm; and a second side having a second bowstring retainer, and a second arm having a second set of handle engagement features adapted for engagement with a second handle, a second pulley rotatably engaged with the second arm. The first and the second handle may each be engaged to the elongated cocking cable, and be ergonomically adapted to permit an associated user to operate the each handle during a cocking operation with a hand in a vertical hand position.
A crossbow assembly may include a riser and a pair of bow limbs that attach to the riser. The limb attachment surfaces on the riser may be separated such that a minimum distance between them is not greater than 5 inches. The minimum distance may be at least as wide as a user's foot. The riser may have a U-shaped opening that extends between the limb attachment surfaces. The limb attachment surfaces may be angled between 60 and 30 degrees. The riser may have a foot stirrup that begins behind the limb attachment surfaces and extends beyond them.
An arrow nock may have at least two distinct string guides each designed to receive a bowstring to fire an arrow from a bow. When the nock is connected to and aligned with the arrow, each distinct string guide may be designed, when receiving the bowstring, to rotate the arrow about its longitudinal axis with respect to the bow into one of a limited number of alignment orientations.
An arrow nock may have three or more string guide impressions that are designed to receive a portion of a bowstring to fire an arrow. Each string guide impression may be defined by two circumferentially spaced walls separated by a floor. The walls and floors may be curvilinear in shape. The walls may have sides and a peak that are curvilinear. The walls may have widths that narrow toward the peak. The walls may have a radial length that is at least one fourth of the nock outside diameter.
HUNTER'S MANUFACTURING COMPANY, INC. D/B/A TENPOINT CROSSBOW TECHNOLOGIES (USA)
Inventor
Mook, Dean
Ans, Gregory S.
Abstract
An arrow nock and nock receiver assembly may include first and second interconnections each including a groove portion and a finger. The fingers may have lips that are received in the groove portions. The connection between the nock and nock receiver may provide relative rotational alignment between the nock receiver and the nock as well as relative longitudinal alignment between the nock receiver and the nock.
A crossbow riser may include a pair of limb attachment surfaces that are designed to be used to attach bow limbs and that are separated such that a minimum distance between them is at least as wide as a user's foot but not greater than 5 inches. A U-shaped opening may extend between the pair of limb attachment surfaces and may be designed to receive a user's foot.
An alignment tool may be used with an arrow and a nock. The alignment tool may include a tool body, a connection member, and an opening. The alignment tool and nock may be rotatable with respect to the arrow when the nock is connected to the arrow and the connection member is connected to the nock to align the nock with respect to the arrow by aligning the opening in the tool with an arrow vane with the vane visible through the opening in the tool.
F41B 5/14 - Bows; Crossbows - Details of bows; Accessories for arc shooting
F42B 33/00 - Manufacture of ammunition; Dismantling of ammunition; Apparatus therefor
F42B 12/42 - Projectiles, missiles or mines characterised by the warhead, the intended effect, or the material characterised by the warhead or the intended effect for signalling of illuminating type, e.g. carrying flares
A crossbow may be a horizontal crossbow having a main beam and a bow assembly mounted to the main beam. The bow assembly may include: a bowstring; a riser attached to the main beam; a first bow limb; a second bow limb; a first wheel that is supported to the first bow limb; and a second wheel that is supported to the second bow limb. In some embodiments, the bow limbs may be separated at least as wide as a user's foot. In other embodiments, the bow assembly may include a trigger oriented parallel to pivot axes about which the wheels rotate. In yet other embodiments, a ratio of the distance between the wheels and the power stroke is less than 1.8.
A crossbow may be a horizontal crossbow having a main beam and a bow assembly mounted to the main beam. The bow assembly may include: a bowstring; a riser attached to the main beam; a first bow limb; a second bow limb; a first wheel that is supported to the first bow limb; and a second wheel that is supported to the second bow limb. In some embodiments, the bow limbs may be separated at least as wide as a user's foot. In other embodiments, the bow assembly may include a trigger oriented parallel to pivot axes about which the wheels rotate. In yet other embodiments, a ratio of the distance between the wheels and the power stroke is less than 1.8.
A crossbow may be a horizontal crossbow having a main beam and a bow assembly mounted to the main beam. The bow assembly may include: a bowstring; a riser attached to the main beam; a first bow limb; a second bow limb; a first wheel that is supported to the first bow limb; and a second wheel that is supported to the second bow limb. In some embodiments, the bow limbs may be separated at least as wide as a user's foot. In other embodiments, the bow assembly may include a trigger oriented parallel to pivot axes about which the wheels rotate. In yet other embodiments, a ratio of the distance between the wheels and the power stroke is less than 1.8.
One or more techniques and/or systems are disclosed for a nock device that may be used on an arrow. A top portion a nock device can comprise one or more pairs of string guide impression on its top surface, where the respective one or more pairs of string guide impressions may be symmetrically arranged on the top surface, with respect to each other. A first pair of string guide impression can be disposed along a first bisecting line on the top surface, and, if present, a second pair of string guide impressions can be disposed along a second bisecting line on the top surface. The respective one or more pairs of string guide impression can be configured to receive a bowstring, where the first pair may receive the bowstring in a first orientation, and the second pair, if present, may receive the bowstring in a second orientation.
One or more techniques and/or systems are disclosed for a crossbow may include a main beam; a compound bow assembly mounted to the main beam; and, a trigger mechanism mounted to the beam for use in holding a bowstring in a cocked position. The crossbow may include wheels at opposite ends of the bow that operatively receive the bowstring. The wheels may be separated by a wheel distance (WD) when the crossbow is in an un-cocked position. The crossbow may also have a power stroke distance (PD) and the ratio WD/PD may be less than 2.0.
An alignment tool may be used to align a nock with respect to an arrow having vanes. The alignment tool may include a body, a connection member extending from the body, and indicating surfaces that are spaced around the outer surface of the alignment tool body at a relative angular orientation that matches the angular orientation of the arrow vanes. The connection member may be attached to the nock and then both the tool and the nock may be rotated with respect to the arrow to align the nock with respect to the arrow by aligning the indicating surfaces with respect to the vanes.
F41B 5/14 - Bows; Crossbows - Details of bows; Accessories for arc shooting
F42B 12/42 - Projectiles, missiles or mines characterised by the warhead, the intended effect, or the material characterised by the warhead or the intended effect for signalling of illuminating type, e.g. carrying flares
F42B 12/36 - Projectiles, missiles or mines characterised by the warhead, the intended effect, or the material characterised by the warhead or the intended effect for signalling
F42B 33/00 - Manufacture of ammunition; Dismantling of ammunition; Apparatus therefor
A grip guard may be used with a crossbow that has a main beam including a stock and a barrel. The grip guard may have a first wall that is positioned between the stock and the barrel and a second wall that extends outwardly from the main beam. The first wall may have dampening properties to attenuate sounds and vibrations caused by firing the crossbow and the second wall may prevent a user's fingers from inadvertently extending from the handle toward the barrel.
A crossbow may include a crossbow barrel having reduced weight and increased strength and shock resistance to the crossbow. This invention may also aid in improving torsional resistance, improving specific stiffness, and increasing compresses strength. The invention may also reduce friction between a barrel and a bow string to increase bow string life. The invention may also reduce the friction between a barrel and a bow to allow added arrow distance. Additionally, the crossbow may decrease both vibration and sound.
One or more techniques and/or systems are disclosed for a crossbow may include a main beam; a compound bow assembly mounted to the main beam; and, a trigger mechanism mounted to the main beam for use in holding a bowstring in a cocked position. The crossbow may include wheels at opposite ends of the bow that operatively receive the bowstring. The wheels may be separated by a wheel distance (WD) when the crossbow is in an un-cocked position. The crossbow may also have a power stroke distance (PD) and the ratio WD/PD may be less than 2.0.
One or more techniques and/or systems are disclosed for a crossbow may include a main beam; a compound bow assembly mounted to the main beam; and, a trigger mechanism mounted to the main beam for use in holding a bowstring in a cocked position. The crossbow may include wheels at opposite ends of the bow that operatively receive the bowstring. The wheels may be separated by a wheel distance (WD) when the crossbow is in an un-cocked position. The crossbow may also have a power stroke distance (PD) and the ratio WD/PD may be less than 2.0.
A portable device for drawing the bowstring of a crossbow. The cocking device may be designed to prevent the uneven drawing of the crossbow and may eliminate the complex installation process typically required to retro-fit an existing crossbow with known cocking devices.
A cocking device for drawing the bowstring of a crossbow that can be selectively installed on an existing crossbow. The cocking device comprises a shape designed to prevent the cocking device from being improperly installed.
One or more techniques and/or systems are disclosed for a crossbow may include a main beam; a compound bow assembly mounted to the main beam; and, a trigger mechanism mounted to the main beam for use in holding a bowstring in a cocked position. The crossbow may include wheels at opposite ends of the bow that operatively receive the bowstring. The wheels may be separated by a wheel distance (WD) when the crossbow is in an un-cocked position. The crossbow may also have a power stroke distance (PD) and the ratio WD/PD may be less than 2.0.
One or more techniques and/or systems are disclosed for a bowstring drawing mechanism for drawing and controllably releasing a crossbow bowstring comprises a clutch mechanism. The clutch mechanism protects the bowstring drawing mechanism from damage caused by over-cranking and allows the user to controllably release the bowstring from the drawn position.
One or more techniques and/or systems are disclosed for a nock device that may be used on an arrow. A top portion a nock device can comprise one or more pairs of string guide impression on its top surface, where the respective one or more pairs of string guide impressions may be symmetrically arranged on the top surface, with respect to each other. A first pair of string guide impression can be disposed along a first bisecting line on the top surface, and, if present, a second pair of string guide impressions can be disposed along a second bisecting line on the top surface. The respective one or more pairs of string guide impression can be configured to receive a bowstring, where the first pair may receive the bowstring in a first orientation, and the second pair, if present, may receive the bowstring in a second orientation.
A bowstring drawing mechanism for drawing and controllably releasing a crossbow bowstring comprises a clutch mechanism. The clutch mechanism protects the bowstring drawing mechanism from damage caused by over-cranking and allows the user to controllably release the bowstring from the drawn position.
A crossbow may comprise a safety device that provides the user a visual means other than the mechanical positioning of the various components of the crossbow to quickly and accurately determine the firing condition of the crossbow. The safety device may comprise an illuminated marker that emits a specific color of light to denote the firing condition of the crossbow. In another embodiment, the safety device may comprise a mechanical assembly that is raised and lowered to denote the firing condition of the crossbow. In yet another embodiment, the safety device may comprise an electric switch that causes an illuminated marker to emit a light or a mechanical assembly to raise or lower in order to denote the firing condition of the crossbow.
A cocking device for drawing the bowstring of a crossbow that can be selectively installed on an existing crossbow. The cocking device comprises a shape designed to prevent the cocking device from being improperly installed.
A crossbow may include a main beam; a compound bow assembly mounted to the main beam; and, a trigger mechanism mounted to the main beam for use in holding a bowstring in a cocked position. The crossbow may include wheels at opposite ends of the bow that operatively receive the bowstring. The wheels may be separated by a wheel distance (WD) when the crossbow is in an un-cocked position. The crossbow may also have a power stroke distance (PD) and the ratio WD/PD may be less than 2.0.
A crossbow may include a main beam; a compound bow assembly mounted to the main beam; and, a trigger mechanism mounted to the main beam for use in holding a bowstring in a cocked position. The crossbow may include wheels at opposite ends of the bow that operatively receive the bowstring. The wheels may be separated by a wheel distance (WD) when the crossbow is in an un-cocked position. The crossbow may also have a power stroke distance (PD) and the ratio WD/PD may be less than 2.0.
A crossbow may include a main beam; a compound bow assembly mounted to the main beam; and, a trigger mechanism mounted to the main beam for use in holding a bowstring in a cocked position. The crossbow may include wheels at opposite ends of the bow that operatively receive the bowstring. The wheels may be separated by a wheel distance (WD) when the crossbow is in an un-cocked position. The crossbow may also have a power stroke distance (PD) and the ratio WD/PD may be less than 2.0.
A crossbow may comprise a main beam, a trigger mechanism, a bow assembly, and a barrel cable suppressor. First and second cables may pass through a cable slot formed in a barrel member. The first and second cables may be received by first and second cams respectively such that the rotation of the first and second cams in a first direction causes the first and second limbs to be pulled generally inward towards the main beam. The barrel cable suppressor may be positioned at least partially within the cable slot and may at least partially suppresses vibrations and noise caused by the first and second cables when the bowstring is released from the trigger mechanism.
A portable device for drawing the bowstring of a crossbow. The cocking device may be designed to prevent the uneven drawing of the crossbow and may eliminate the complex installation process typically required to retro-fit an existing crossbow with known cocking devices.
A crossbow may include a main beam; a compound bow assembly mounted to the main beam; and, a trigger mechanism mounted to the main beam for use in holding a bowstring in a cocked position. The crossbow may include wheels at opposite ends of the bow that operatively receive the bowstring. The wheels may be separated by a wheel distance (WD) when the crossbow is in an un-cocked position. The crossbow may also have a power stroke distance (PD) and the ratio WD/PD may be less than 2.0.
A crossbow grip guard for preventing the fingers of an associated user from extending above a top portion of a stock of an associated crossbow. The crossbow grip guard may be adapted to be retro-fitted to an existing crossbow and may comprise a main body and an outwardly extending member that extends away from an exterior surface of the main body to create an obstacle or barrier positioned along a length of the main body and is designed to prevent the fingers of the associated user from extending above the top portion of the stock when firing the crossbow.
A crossbow having a crossbow grip guard that has a member that extends outwardly in a direction that is substantially perpendicular to the longitudinal axis of the crossbow barrel or stock, and wherein the member extends for a length in a direction that is substantially parallel to the longitudinal axis of the crossbow barrel or stock.
A crossbow may include a main beam; a compound bow assembly mounted to the main beam including a riser and a pair of bow limbs; and a trigger mechanism mounted to the main beam for use in holding a bowstring in a cocked position. The crossbow may include wheels at opposite ends of the bow that operatively receive the bowstring. The wheels may be separated by a wheel distance (WD) when the crossbow is in an un-cocked position. The crossbow may also have a power stroke distance (PD) and the ratio WD/PD may be less than 2.0. The crossbow may include a foot stirrup being integral with the riser, the foot stirrup beginning behind the pair of bow limbs and extending beyond the bow limbs.
HUNTER'S MANUFACTURING COMPANY, INC., D/B/A AS TENPOINT CROSSBOW TECHNOLOGIES (USA)
Inventor
Bednar, Richard L.
Shaffer, Michael J.
Abstract
A crossbow may include a main beam; a compound bow assembly mounted to the main beam; and, a trigger mechanism mounted to the main beam for use in holding a bowstring in a cocked position. The crossbow may include wheels at opposite ends of the bow that operatively receive the bowstring. The wheels may be separated by a wheel distance (WD) when the crossbow is in an un-cocked position. The crossbow may also have a power stroke distance (PD) and the ratio WD/PD may be less than 2Ø
A weapon, such as a crossbow or firearm, may have a main beam, a trigger mechanism mounted to the main beam and, a support rod that can be positioned into a first use position and a second stowed position. The support rod may have a first end used to support the main beam and a second end used to contact a ground surface. In one embodiment, a contact member with a hemispherical contact surface is attached to the second end of the support rod. In another embodiment, the support rod has a handgrip portion that receives a user's hand in supporting the weapon when shooting the weapon when the support rod is in the second stowed position. In still another embodiment, a mounting bracket is used to provide at least two locations for attaching the support rod to the main beam.
HUNTER'S MANUFACTURING COMPANY, INC. (DBA TENPOINT CROSSBOW TECHNOLOGIES) (USA)
Inventor
Bednar, Richard L.
Shaffer, Michael J.
Abstract
A crossbow having a crossbow grip guard that has a member that extends outwardly in a direction that is substantially perpendicular to the longitudinal axis of the crossbow barrel or stock, and wherein the member extends for a length in a direction that is substantially parallel to the longitudinal axis of the crossbow barrel or stock.
A crossbow includes a body having a stock member and a barrel connected to the stock member. The barrel has an arrow receiving area for receiving an arrow. The crossbow also includes a bow having a pair of bow arms, a bowstring connected to the bow arms, a bowstring release mechanism used to hold and release the bowstring and, a scope mount used to hold a scope. An arrow retention spring is provided for retaining the arrow to the arrow receiving area. A vibration dampener may be positioned between the arrow retention spring and the scope mount in order to dampen the arrow retention spring vibrations made when shooting the crossbow. This greatly reduces unwanted noise.
A crossbow includes a safety mechanism located on the stock of the crossbow that prevents the crossbow from firing until the safety mechanism is properly engaged. The safety mechanism includes a push button that requires the operator appendages to be securely below the path of the traveling bolt before the trigger mechanism will release.
