A molded arrow assembly preferably includes an insert and an outsert for an arrow or an insert/outsert assembly. The molded arrow assembly may include an insert having a cylindrical body with a first end and a second end. The second end may be dimensioned to fit within a bore of an arrow shaft. The first end may terminate in a prong containing male threads. The insert/outsert assembly may also include an outsert having a cylindrical wall with an arrow shaft end and an arrowhead end. The cylindrical wall may also include a center bore extending between the arrow shaft end and the arrowhead end. The center bore may contain a threaded region containing female threads. The threaded region may be located intermediate of the arrowhead end and the arrow shaft end and may extend between a top shoulder and a bottom shoulder.
An arrow head cluster is created utilizing an injection mold. An upper cluster cavity is formed in an upper die member and a lower cluster cavity is created in a lower die member. The upper and lower cluster cavities, when joined create a cluster cavity. The cluster cavity is used to create the arrow head cluster, after molten material is injected into the injection mold. The cluster cavity includes a plurality of chambers for creating a plurality of arrow heads. The plurality of chambers are connected to each other with a plurality of flow channels and a support frame. The injected material includes metals, ceramic and plastic. The materials are injected into the cluster cavity through the plurality of flow channels. The plurality of flow channels allow the material to flow evenly through the plurality of cluster cavities.
A molded arrow assembly preferably includes an insert and an outsert for an arrow or an insert/outsert assembly. The molded arrow assembly may include an insert having a cylindrical body with a first end and a second end. The second end may be dimensioned to fit within a bore of an arrow shaft. The first end may terminate in a prong containing male threads. The insert/outsert assembly may also include an outsert having a cylindrical wall with an arrow shaft end and an arrowhead end. The cylindrical wall may also include a center bore extending between the arrow shaft end and the arrowhead end. The center bore may contain a threaded region containing female threads. The threaded region may be located intermediate of the arrowhead end and the arrow shaft end and may extend between a top shoulder and a bottom shoulder.
B29C 45/14 - Moulage par injection, c. à d. en forçant un volume déterminé de matière à mouler par une buse d'injection dans un moule fermé; Appareils à cet effet en incorporant des parties ou des couches préformées, p.ex. moulage par injection autour d'inserts ou sur des objets à recouvrir
A crossbow with a movable trigger latch block. The crossbow has a trigger latch block slidingly connected to the flight track. The trigger latch block is configured to engage and retain the bowstring. A cocking mechanism is configured to draw the trigger latch block with the bowstring from an initial position near a forward end of the flight track to a cocked position. A one-way retention mechanism is configured to immobilize the trigger latch block against linear movement in a forward direction along the flight track. A trigger-traverse mechanism is configured to slide the trigger latch block in a forward direction to its initial position after the bowstring is released.
A trigger-traverse crossbow. The crossbow has a trigger latch block slidingly connected to the flight track. The trigger latch block is configured to engage and retain the bowstring. A cocking mechanism is configured to draw the trigger latch block with the bowstring from an initial position near a forward end of the flight track to a cocked position. A one-way retention mechanism is configured to immobilize the trigger latch block against linear movement in a forward direction along the flight track. A trigger-traverse mechanism is configured to slide the trigger latch block in a forward direction to its initial position after the bowstring is released. In one embodiment, the cocking mechanism includes a cocking lever pivotally connected to the crossbow body along with one pair or two pairs of cocking hooks that move in response to the rotation of the cocking lever.
A trigger-traverse crossbow. The crossbow has a trigger latch block slidingly connected to the flight track. The trigger latch block is configured to engage and retain the bowstring. A cocking mechanism is configured to draw the trigger latch block with the bowstring from an initial position near a forward end of the flight track to a cocked position. A one-way retention mechanism is configured to immobilize the trigger latch block against linear movement in a forward direction along the flight track. A trigger-traverse mechanism is configured to slide the trigger latch block in a forward direction to its initial position after the bowstring is released. In one embodiment, the cocking mechanism includes a cocking lever pivotally connected to the crossbow body along with one pair or two pairs of cocking hooks that move in response to the rotation of the cocking lever.
A break action pistol crossbow having a repeating capability. The crossbow has a loading chamber configured to house a plurality of bolts. A biasing mechanism is disposed within the loading chamber. The crossbow has a forward retainer positioned at the front of a flight rail and a rear retainer positioned at the back of the flight rail. The bowstring is configured to be drawn over a bolt loaded into the chamber. As the bowstring travels over the bolt, the biasing mechanism presses the bolt against the bowstring. When the bowstring clears the bolt, the force applied onto the bolt by the biasing mechanism presses the leading end of the bolt against the retaining bridge and presses the trailing end of the bolt against retaining brush. In this manner, the bolt is aligned with the flight rail.
A break action pistol crossbow having a repeating capability. The crossbow has a loading chamber configured to house a plurality of bolts. A biasing mechanism is disposed within the loading chamber. The crossbow has a forward retainer positioned at the front of a flight rail and a rear retainer positioned at the back of the flight rail. The bowstring is configured to be drawn over a bolt loaded into the chamber. As the bowstring travels over the bolt, the biasing mechanism presses the bolt against the bowstring. When the bowstring clears the bolt, the force applied onto the bolt by the biasing mechanism presses the leading end of the bolt against the retaining bridge and presses the trailing end of the bolt against retaining brush. In this manner, the bolt is aligned with the flight rail.
A multi-stroke lever action crossbow has two sets of cocking hooks. The first cocking hooks are disposed on cocking links slidingly coupled to a crossbow body. The second cocking hooks are retractable. The second cocking hooks are disposed on a cocking arm, which is pivotally attached to a cocking lever. A retractable handover latch operatively engages the cocking arm. During the first stroke of the cocking lever, the first cocking hooks draw the bowstring past the handover latch, where the bowstring is retained in a partially drawn position. During the second stroke of the cocking lever, the second cocking hooks draw the bowstring past a trigger latch, where the bowstring is retained in a fully drawn position. When the cocking lever returns to its initial closed position, the second cocking hooks and the handover latch are retracted into the crossbow body.
A multi-stroke lever action crossbow has two sets of cocking hooks. The first cocking hooks are disposed on cocking links slidingly coupled to a crossbow body. The second cocking hooks are retractable. The second cocking hooks are disposed on a cocking arm, which is pivotally attached to a cocking lever. A retractable handover latch operatively engages the cocking arm. During the first stroke of the cocking lever, the first cocking hooks draw the bowstring past the handover latch, where the bowstring is retained in a partially drawn position. During the second stroke of the cocking lever, the second cocking hooks draw the bowstring past a trigger latch, where the bowstring is retained in a fully drawn position. When the cocking lever returns to its initial closed position, the second cocking hooks and the handover latch are retracted into the crossbow body.
An improved slingshot band having a tapered outer contour. The slingshot band has a tubular body having a first fork end and a second pouch end. The tubular body comprises a first layer of an elastic polymer. The first layer has a constant thickness. The tubular body further comprises a second layer of an elastic polymer. The second layer has a greater thickness near the fork end of the tubular body and lower thickness near the pouch end of the tubular body. The increased thickness of the section of the tubular body near the fork end of the slingshot band reinforces the most vulnerable section of the slingshot band against failure, thereby extending its longevity.
B05D 7/00 - Procédés, autres que le flocage, spécialement adaptés pour appliquer des liquides ou d'autres matériaux fluides, à des surfaces particulières, ou pour appliquer des liquides ou d'autres matériaux fluides particuliers
B05D 1/18 - Procédés pour appliquer des liquides ou d'autres matériaux fluides aux surfaces par immersion
An improved slingshot band having a tapered outer contour. The slingshot band has a tubular body having a first fork end and a second pouch end. The tubular body comprises a first layer of an elastic polymer. The first layer has a constant thickness. The tubular body further comprises a second layer of an elastic polymer. The second layer has a greater thickness near the fork end of the tubular body and lower thickness near the pouch end of the tubular body. The increased thickness of the section of the tubular body near the fork end of the slingshot band reinforces the most vulnerable section of the slingshot band against failure, thereby extending its longevity.
A repeating crossbow having a pump-action reloading mechanism. The crossbow includes an elongated body with a shooting track and a holding chamber configured to house one or more projectiles. A hatch is coupled to the body and configured to move between a first position aligned with the shooting track and a second position at least partially aligned with the holding chamber. A palm rest is slidingly connected to the elongated body. Sliding the palm rest in a rearward direction causes the hatch to move from the first position into the second position. A biasing member within the holding chamber ejects a projectile onto the hatch. Sliding the palm rest in a forward direction to return to its default position causes the hatch to return to its first position, bringing the projectile into alignment with the shooting track.
F41B 11/54 - Chargeurs pour armes à gaz comprimé; Dispositifs pour alimenter ou charger des projectiles à partir de chargeurs les projectiles étant stockés dans un chargeur à tambour
F41B 11/89 - Armes de tir à gaz comprimé, p.ex. armes de tir à air comprimé; Armes de tir à vapeur spécialement adaptées à des utilisations particulières pour des jouets
A repeating crossbow having a pump-action reloading mechanism. The crossbow includes an elongated body with a shooting track and a holding chamber configured to house one or more projectiles. A hatch is coupled to the body and configured to move between a first position aligned with the shooting track and a second position at least partially aligned with the holding chamber. A palm rest is slidingly connected to the elongated body. Sliding the palm rest in a rearward direction causes the hatch to move from the first position into the second position. A biasing member within the holding chamber ejects a projectile onto the hatch. Sliding the palm rest in a forward direction to return to its default position causes the hatch to return to its first position, bringing the projectile into alignment with the shooting track.
An arrow with a shaft having a reduced outer diameter. The outer diameter of the arrow shaft may be in the range of 0.231 to 0.274 inches. The arrow may also include an insert. The arrow may also include a nock. The nock may have an enlarged section including two opposing arms defining a recess for placement of the bowstring, with each of the opposing arms including a safety tab configured to increase an outer diameter of the nock. The arrow is capable of withstanding 400 pounds of force and travel at a velocity of up to 500 fps.
A crossbow includes a stock, a riser mounted to the stock, left upper and lower mounting brackets attached to the riser, right upper and lower mounting brackets attached to the riser, and cam assemblies respectively mounted to proximal ends of the upper and lower mounting brackets. The crossbow includes first and second limbs respectively attached to distal ends of the left and right upper and lower sides of the riser. A draw string extends between the first and second cam assemblies over the stock and is wrapped around outer surfaces of the cam assemblies. The crossbow includes power cables crossing inside of the stock to form a crossing pattern and traverse a centerline of the stock. The power cables respectively wrap around the cam assemblies through helical take-up journal assemblies extending below each cam assembly, and the power cables respectively connect to opposing limbs at distal ends of the limbs.
A worm gear crank cocking device (“CCD”) for a crossbow to draw a bowstring from a released position to a cocked position. A user rotates a receptacle of the worm gear CCD to draw hooks rearward along the crossbow track to engage the bowstring and to draw the hooks with the bow string to a catch to place the crossbow in the cocked position. The worm gear CCD provides an automatic stop. If a user stops rotating the receptacle of the worm gear CCD, the hooks remain stationary on the track. A release mechanism is provided that disengages spools winding the cords attached to the hooks so that the hooks may return to their starting position forward of the released bowstring.
A retractable cocking assembly with hooks slidingly secured to a crossbow track. In a default or non-actuated position, the hooks are positioned forward of the uncocked bowstring. The hooks are drawn in a rearward direction to engage the bowstring and to pull the bowstring to its cocked position. When the bowstring is secured in a trigger catch in the cocked position, a user engages a release member that causes the hooks to return to the default position at the forward end of the crossbow track. A continuous force springs pull the hooks forward into the default position when the release member is engaged.
A crossbow trigger assembly with a nock sensor enabling the catch to release the crossbow string only when a nock of an arrow is properly engaging the crossbow string. The trigger assembly also contains a bypass feature for deactivating the nock sensor to cause release of the crossbow string from the catch when a user activates a release switch. The bypass feature can only be activated when retractable hooks are positioned to receive the crossbow string near the catch, thereby preventing a dry fire of the crossbow string.
A crossbow track assembly includes a crossbow track having a top surface and a side surface. The top surface includes an arrow track. The side surface includes a longitudinal passage leading to a longitudinal cavity. The side surface forms an upper shoulder and a lower shoulder of the longitudinal cavity. A second side surface may include a second longitudinal passage leading to a second longitudinal cavity. The second side surface may form an upper shoulder and a lower shoulder of the second longitudinal cavity. The crossbow track assembly may further include a crossbow accessory including an accessory body operatively connected to a plug, which is dimensioned to fit within the longitudinal cavity of the crossbow track for securing the accessory body to the crossbow track. The accessory body may be adjustably connected to the plug with a fastener. Alternatively, the plug may be in sliding engagement with the longitudinal cavity.
A stock for a weapon, such as a crossbow stock, that includes one or more central dampeners, such as first, second, and third central dampeners, and/or one or more component dampeners, such as first, second, and third component dampeners, that function to reduce vibrations transmitted through the stock as a result of weapon firing. The central and/or component dampeners may be positioned in the stock's foregrip section, pistol grip section, crank cocking device section, thumb grip section, rearward end section, and cheek rest section.
A trigger assembly includes one or more stationary magnets and a trigger member pivotable relative to the stationary magnets. The trigger member includes a base portion with a pivot point, an actuating portion extending from the base portion in a first direction, and a magnetic trigger portion extending from the base portion in a second direction. The magnetic trigger portion operatively engages the stationary magnets in a first position. The base portion of the trigger member operatively engages a first sear element, which is operatively connected to a sear arm, which in turn operatively engages a second sear element. A spring operatively biases the first sear element. The second sear element retains a bow string in the first position. In a second position, the trigger member rotates to separate the magnetic trigger portion from the magnets, and the second sear element rotates to release the bow string.
F41A 19/59 - Mécanismes de mise à feu électromécaniques, c. à d. dans lesquels une pièce de percussion mécanique est mue ou libérée par des moyens électriques
F41A 17/28 - Sûretés de crosse ou de poignée, c. à d. sûretés libérées en saisissant la crosse ou la poignée agissant sur la gâchette
F41A 17/46 - Sûretés de détente, c. à d. moyens pour prévenir le mouvement de la détente
F41A 17/56 - Sûretés de gâchette, c. à d. moyens pour neutraliser l'action d'un levier intermédiaire qui transmet le mouvement de la détente au percuteur, au chien, au bloc de culasse ou à la gâchette
F41B 5/14 - Arcs; Arbalètes - Détails des arcs; Accessoires pour le tir à l'arc
A crossbow track assembly includes a crossbow track having a top surface and a side surface. The top surface includes an arrow track. The side surface includes a longitudinal passage leading to a longitudinal cavity. The side surface forms an upper shoulder and a lower shoulder of the longitudinal cavity. A second side surface may include a second longitudinal passage leading to a second longitudinal cavity. The second side surface may form an upper shoulder and a lower shoulder of the second longitudinal cavity. The crossbow track assembly may further include a crossbow accessory including an accessory body operatively connected to a plug, which is dimensioned to fit within the longitudinal cavity of the crossbow track for securing the accessory body to the crossbow track. The accessory body may be adjustably connected to the plug with a fastener. Alternatively, the plug may be in sliding engagement with the longitudinal cavity.
A crossbow including a receptacle in a side of the crossbow's stock configured to receive a portion of a cocking device in a storage position, and a bore through a rear portion of the stock configured to receive a spool of the cocking device. A cover is pivotally connected to the rear portion of the stock. When closed, the cover blocks access to the bore. In a cocking position, the spool of the cocking device is rotatably disposed within the bore.
A weapon stabilizing device for stabilizing a weapon during use. The device includes a spool member configured to release and retract an anchor line with rotation of the spool member. A lock member prevents rotation of the spool member in a locked position and allows rotation of the spool member in a released position. Actuation of an activation member switches the lock member from a default position to an activated position. The default position may be the locked position or the released position. When the default position is the locked position, the activated position is the released position. When the default position is the released position, the activated position is the locked position. A spool spring may provide continuous positive rotation of the spool member in the released position. The weapon stabilizing device may be connected to or within a base of a weapon.
A crossbow track assembly includes a crossbow track having a top surface and a side surface. The top surface includes an arrow track. The side surface includes a longitudinal passage leading to a longitudinal cavity. The side surface forms an upper shoulder and a lower shoulder of the longitudinal cavity. A second side surface may include a second longitudinal passage leading to a second longitudinal cavity. The second side surface may form an upper shoulder and a lower shoulder of the second longitudinal cavity. The crossbow track assembly may further include a crossbow accessory including an accessory body operatively connected to a plug, which is dimensioned to fit within the longitudinal cavity of the crossbow track for securing the accessory body to the crossbow track. The accessory body may be adjustably connected to the plug with a fastener. Alternatively, the plug may be in sliding engagement with the longitudinal cavity.
A compound crossbow including a stock having a forward end and a rearward end. The crossbow includes a bow assembly mounted to the forward end of the stock and a retractable support lever operatively connected to the stock by a pivot point hinge. The retractable support lever is pivotable about the pivot point hinge between a retracted position, in which the retractable support lever is folded against the stock lower portion, and an extended position, in which the retractable support lever extends rearward from the pivot point hinge such that a distal end of the retractable support lever is positioned rearward of the rearward end of the stock. The crossbow may further include a guide configured to house and retain a knife within a receptacle of the stock lower portion.
A crossbow discharge bolt for preventing damage to a crossbow associated with dry firing. The crossbow discharge bolt has a length of 10 inches or less and a weight of at least 330 grains. The length may be in the range of 6 to 10 inches. The weight may be in the range of 330 to 600 grains.
A weapon stabilizing device for stabilizing a weapon during use. The device includes a spool member configured to release and retract an anchor line with rotation of the spool member. A lock member prevents rotation of the spool member in a locked position and allows rotation of the spool member in a released position. Actuation of an activation member switches the lock member from a default position to an activated position. The default position may be the locked position or the released position. When the default position is the locked position, the activated position is the released position. When the activated position is the released position, the activated position is the locked position. A spool spring may provide continuous positive rotation of the spool spring in the released position. The weapon stabilizing device may be connected to or within a base of a weapon.
A crossbow discharge bolt for preventing damage to a crossbow associated with dry firing. The crossbow discharge bolt has a length of 10 inches or less and a weight of at least 330 grains. The length may be in the range of 6 to 10 inches. The weight may be in the range of 330 to 600 grains.
A crossbow case with an exterior shell and an interior compartment within the exterior shell. The exterior shell is made of ethylene-vinyl acetate. The exterior shell has a thickness in the range of about 1/16 to ¼ of an inch. The exterior shell includes a top member and a bottom member in a hinged configuration.
A crossbow track assembly includes a crossbow track having a top surface and a side surface. The top surface includes an arrow track. The side surface includes a longitudinal passage leading to a longitudinal cavity. The side surface forms an upper shoulder and a lower shoulder of the longitudinal cavity. A second side surface may include a second longitudinal passage leading to a second longitudinal cavity. The second side surface may form an upper shoulder and a lower shoulder of the second longitudinal cavity. The crossbow track assembly may further include a crossbow accessory including an accessory body operatively connected to a plug, which is dimensioned to fit within the longitudinal cavity of the crossbow track for securing the accessory body to the crossbow track. The accessory body may be adjustably connected to the plug with a fastener. Alternatively, the plug may be in sliding engagement with the longitudinal cavity.
A weapon stabilizing device for stabilizing a weapon during use. The device includes a spool member configured to release and retract an anchor line with rotation of the spool member. A lock member prevents rotation of the spool member in a locked position and allows rotation of the spool member in a released position. Actuation of an activation member switches the lock member from a default position to an activated position. The default position may be the locked position or the released position. When the default position is the locked position, the activated position is the released position. When the default position is the released position, the activated position is the locked position. A spool spring may provide continuous positive rotation of the spool member in the released position. The weapon stabilizing device may be connected to or within a base of a weapon.
An arrow retainer for a crossbow including a projection extending from a hood of the crossbow to retain an arrow on a stock of the crossbow. A plurality of projections may be affixed to a retainer insert that is detachably disposed within a receptacle in the hood of the crossbow. Alternatively, the retainer insert may be detachably disposed within a recess of a housing that is detachably connected to the hood of the crossbow. A spring may bias the projection toward the stock. The projection may be formed of bristles or of a circumferential surface of a wheel member.
An insert/outsert assembly for an arrow. The insert includes a cylindrical body having first and second ends. The second end of the insert is dimensioned to fit within the bore of an arrow shaft. The first end includes a prong containing male threads. The outsert includes a cylindrical wall with an arrowshaft end and an arrowhead end. A center bore extends between the arrowshaft and arrowhead ends. The center bore contains a threaded region with female threads located intermediate of the arrowhead end and arrowshaft end. The insert is threadedly connected to the outsert. An arrowhead is threadedly connected to the outsert.
An arrow retainer for a crossbow including a projection extending from a hood of the crossbow to retain an arrow on a stock of the crossbow. A plurality of projections may be affixed to a retainer insert that is detachably disposed within a receptacle in the hood of the crossbow. Alternatively, the retainer insert may be detachably disposed within a recess of a housing that is detachably connected to the hood of the crossbow. A spring may bias the projection toward the stock. The projection may be formed of bristles or of a circumferential surface of a wheel member.
A lighted nock may include an arrow nock, LED/battery assembly, and an end cap. The end cap may be engaged with the inner diameter of a portion of an arrow shaft, and a portion of the LED/battery assembly may be engaged with the end cap. An arrow nock may be selectively positioned over a portion of the LED/battery assembly and/or engaged with the inner diameter of a portion of the arrow shaft such that the user may determine when the LED in the lighted nock is illuminated and when the LED is not illuminated.
An apparatus for crossbows. The crossbow has a stock attached to a bow and the bolt has an arrowhead attached to a shaft. The apparatus includes an arrowhead bracket attached to the stock, the arrowhead bracket having a first arm containing a first receptacle and a second arm containing a second receptacle. The apparatus may include a hood operatively attached to a cap, the hood being operatively configured to receive the arrowhead. The hood may be engagable with the first or second receptacle. The apparatus may contain a brace positioned on one side of the stock and having a first leg pivotally attached to a second leg and wherein said first leg is configured to engage the shaft of the bolt. The apparatus may also include a selective attachment member that will selectively attach the first and second leg together when the legs are pivoted together.
A flight track assembly of a crossbow stock having a base component dimensioned to attach to an upper portion of the crossbow stock and a flight track component disposed on an upper surface of the base component. The flight track component is formed by one continuous piece or two rails. The flight track component is secured to the base component by an attachment mechanism. For example, the attachment mechanism is a projection extending from a lower surface of the flight track component designed to slide into a recess in the upper surface of the base component. Alternatively, the attachment mechanism is a projection extending from the lower surface of the flight track component designed to engage a cooperating projection on the upper surface of the base component.
A multi-purpose crossbow cocking device having two handles attached by a draw cord or string. Slidably affixed to the cord are a pair of pulley members having hooks that engage a bow string of a crossbow. The handles may have an inner cavity. One or both of the handles may contain one or more Allen wrenches pivotally connected to the handle within the inner cavity. In its retracted position, the Allen wrench is housed within the inner cavity. In its extended position, the distal end of the Allen wrench is placed external of the handle's inner cavity and may be used to drive a bolt or screw with a hexagonal shaft head. The Allen wrenches may be different sizes.
A crossbow (1) comprises α stock (2) having a detachable, pre-stru꧀g prod (10), with the stock (2) including a recess (20) for receiving the pre-strung prod (10), a latch (24) pivotally attached to the stock (2) adjacent the recess (20) for capturing the pre-strung prod (10) within the recess (20), and a fastener (22) for securing the pre-strung prod (10) to the stock (2).
Air pistols and air rifles, and parts thereof; sights for pistols and for rifles; pellets and darts for firing from air pistols and air rifles; gun bags. Crossbows and longbows and parts thereof; bolts for firing from crossbows, arrows for firing from longbows; bow strings for crossbows and for longbows; bags for crossbows and longbows; quivers for crossbow bolts and for arrows; slingshots, catapults and parts thereof; projectiles for firing from slingshots and catapults; boomerangs; targets and parts thereof; arm guards and finger tabs for use in archery.