US20080173166A1 - Shotgun choke - Google Patents
Shotgun choke Download PDFInfo
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- US20080173166A1 US20080173166A1 US11/656,618 US65661807A US2008173166A1 US 20080173166 A1 US20080173166 A1 US 20080173166A1 US 65661807 A US65661807 A US 65661807A US 2008173166 A1 US2008173166 A1 US 2008173166A1
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- Prior art keywords
- choke
- bore
- shotgun
- ports
- circumference
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F41—WEAPONS
- F41A—FUNCTIONAL FEATURES OR DETAILS COMMON TO BOTH SMALLARMS AND ORDNANCE, e.g. CANNONS; MOUNTINGS FOR SMALLARMS OR ORDNANCE
- F41A21/00—Barrels; Gun tubes; Muzzle attachments; Barrel mounting means
- F41A21/32—Muzzle attachments or glands
- F41A21/40—Chokes for shotguns, e.g. automatic chokes
Definitions
- the present invention relates generally to a shotgun choke. More particularly, the present application involves a shotgun choke arranged with a series of ports in such a manner to reduce muzzle rise when discharging the shotgun.
- the shotgun choke will also function to reduce actual and perceived recoil when discharged.
- a choke is a tapered constriction of the bore of the barrel of a shotgun.
- the amount of constriction is the difference between the diameter of the bore of the barrel and the diameter of the exit of the choke.
- the choke is located at the muzzle of the barrel and its presence acts to force the shot of a shotgun into a tighter stream upon exiting. Chokes can be provided in order to achieve a desired shot pattern for a particular purpose. For example, a skeet shooter may use a choke to achieve a desired shot pattern at a particular distance while a trap shooter may use a different choke to achieve the same shot pattern but at an increased distance.
- One may experiment with different chokes in order to achieve a shot pattern that is as large as possible without having the shot spaced too greatly so that the target is not killed or broken.
- a choke can be integrally formed into the barrel of a shotgun during its manufacture.
- the end of the barrel can be squeezed a desired amount through the use of a tool such as a mandrel.
- Interchangeable chokes are also known which can be attached to and removed from the barrel of the shotgun.
- Interchangeable chokes may have internal threading that engages external threading located on the barrel.
- the interchangeable choke may have external threading.
- the barrel of the shotgun can include internal threading configured to engage external threading on the interchangeable choke when recessed therein.
- Chokes can be provided with various features to improve the performance of the shotgun to which they are attached.
- the bore of a choke may include blades or other features that act to score the wad as it passes through the bore. Scoring of the wad facilitates its rapid opening upon exiting the choke so that the wad does not interfere with the string of pellets as they travel to their target.
- chokes that have ports that function to expel firing gases out of the bore of the choke. Diffusion of firing gases in this manner acts to dissipate heat during firing and prevents temperature elevation of the choke after multiple shots are fired. The release of gases from the ports functions to reduce both the actual and perceived recoil of the shotgun. Actual recoil is the force directed back to the user upon discharge of the shotgun.
- Perceived recoil is what the shooter feels or experiences when the shotgun is discharged and can vary from shooter to shooter. Perceived recoil may be dependent upon the way in which the shooter holds the shotgun, the position from which the shotgun is fired, and the height and body type of the user.
- the ports are located around the circumference of the choke and are radially symmetrical with respect to a longitudinal axis of the bore. Ports are provided in a radially symmetrical manner since manufacturing differences exist between threading of chokes and barrels so that a top dead center position cannot be attained.
- Shotguns have a tendency to rise upwards upon their discharge.
- the upwards rise of a shotgun results in having the butt of the shotgun placed against the shoulder of the user at a location vertically below the discharge point of the shot. The difference in this vertical distance creates a moment when a force is created at the exit of the barrel of the shotgun during discharge to cause the shotgun to rise.
- the user After taking a shot, the user must then spend some amount of time repositioning the shotgun for any subsequent shot. Chokes that employ ports act to diffuse the energy of the shot radially outwards and hence less force is directed linearly which causes a lesser moment and hence upwards rise to be realized.
- the choke includes a body that defines a bore with a longitudinal axis therethrough.
- the body is configured for engagement with a shotgun so that the bore is positioned for traversal of projectiles of the shotgun therethrough and out of an end of the bore.
- the body has a circumference and defines at least one port for venting gas from the bore through the circumference.
- the port is located within a first radial arc that extends 180° about the longitudinal axis.
- Ports for venting gas from the bore through the circumference are not located within a second radial arc.
- the second radial arc does not overlap the first radial arc and extends 180° about the longitudinal axis.
- Another aspect of one exemplary embodiment resides in a choke as immediately discussed in which the body has external threading located on the circumference.
- the external threading is configured for engaging complimentary internal threading of a barrel of a shotgun so as to render the body releasably attachable to the barrel.
- a choke as described above in which the bore of the body has a conical section and a parallel section.
- the parallel section is configured for receipt of the projectiles of the shotgun from the conical section and for traversal of the projectiles of the shotgun therethrough and out of the end of the bore.
- Another aspect of one exemplary embodiment resides in a choke as mentioned previously in which the circumference is curved in shape.
- a further exemplary embodiment in accordance with another aspect is found in a choke as described above in which a plurality of the ports for venting gas from the bore through the circumference are present.
- the ports are positioned and oriented so as to be bilaterally symmetrical.
- a still further exemplary embodiment exists in an aspect as immediately discussed in which the ports are in the shape of slots.
- the ports have a major axis that is oriented in the longitudinal direction of the body.
- a choke as described above in which the ports are in the shape of slots.
- the slots each have a major axis that is oriented at an angle to the longitudinal direction of the body.
- a choke for use with a shotgun that has a body that defines a bore therethrough.
- the body has a mounting segment for engagement with a barrel of a shotgun so that the mounting segment is located inside of the barrel when engaged.
- the body has a choking segment that is located outside of the barrel when the mounting segment is engaged with the barrel.
- the choking segment has a circumference that is curved in shape.
- the circumference of the choking segment has an upper half and a lower half.
- the upper half of the circumference is located above the lower half of the circumference when the mounting segment is engaged with the barrel.
- the body defines at least one port for venting gas from the bore through the upper half of the circumference when the shotgun is discharged.
- the lower half of the circumference is configured for preventing gas in the bore from passing through the lower half of the circumference when the shotgun is discharged.
- a further aspect in accordance with an additional exemplary embodiment is found in a choke as immediately described in which the mounting segment has a circumference that is curved in shape and has external threading thereon.
- the external threading of the mounting segment is configured to engage internal threading of the barrel in order to render the body releasably attachable to the barrel.
- a further aspect exits in an exemplary embodiment all ready described in which the bore of the body has a conical shape in the mounting segment.
- the bore of the body has a constant diameter throughout the choking segment.
- Another aspect of one exemplary embodiment resides in a choke as described above in which a plurality of the ports for venting gas from the bore through the upper half of the circumference are present.
- the ports are positioned and oriented so as to be bilaterally symmetrical with respect to a plane through a longitudinal axis of the bore and perpendicular to a plane passing through the location of contact between the upper half and lower half of the circumference.
- a further aspect in accordance with another exemplary embodiment is found in a choke as immediately described in which the ports are in the shape of slots.
- the slots have a major axis that is oriented in the longitudinal direction of the body.
- a choke as mentioned above in which the ports are in the shape of slots.
- the slots each have a major axis that is oriented at an angle to the longitudinal direction of the body.
- a still further aspect in accordance with another exemplary embodiment includes a choke for use with a shotgun that has a body that defines a bore with a longitudinal axis therethrough.
- the body is configured for engagement with the barrel of a shotgun so that projectiles of the shotgun are capable of being transferred through the bore and out of an open end of the bore.
- the longitudinal axis lies in a plane that divides the body into an upper half and a lower half.
- the body defines at least one port for venting gas from the bore through the upper half of the body to reduce muzzle rise during discharge of the shotgun.
- the body is configured so that a greater amount of gas is transferred through the upper half of the body from the bore than through the lower half of the body from the bore during discharge of the shotgun.
- Also provided in another aspect of an additional embodiment is a method of forming ports in a choke for the purpose of reducing muzzle rise.
- the method includes the steps of providing a shotgun and a choke.
- the choke is engaged to the shotgun so that the choke is oriented to have an upper half and a lower half relative to the shotgun once engaged.
- a reference point is located once the shotgun and choke are engaged with one another.
- At least one port in the upper half of the choke is formed at a location based on the reference point.
- the forming step involves forming a plurality of ports in the upper half of the choke so that the plurality of ports are arranged symmetrically with respect to the reference point.
- a further aspect in accordance with another exemplary embodiment resides in a method as mentioned above that further includes the step of leaving the lower half of the choke without ports.
- FIG. 1 is side view of a shotgun with a choke attached in accordance with one exemplary embodiment.
- FIG. 2 is a side view of the shotgun and choke of FIG. 1 upon discharging projectiles.
- FIG. 3 is a close-up side view of the choke barrel of the shotgun of FIG. 1 .
- FIG. 4 is a top view of the choke of FIG. 1 .
- FIG. 5 is a bottom view of the choke of FIG. 1 .
- FIG. 6 is a front view of the choke of FIG. 1 .
- FIG. 7 is a perspective view of a choke in accordance with an alternative exemplary embodiment.
- FIG. 8 is a perspective view of a choke in accordance with yet another alternative exemplary embodiment.
- ranges mentioned herein include all ranges located within the prescribed range. As such, all ranges mentioned herein include all sub-ranges included in the mentioned ranges. For instance, a range from 100-200 also includes ranges from 110-150, 170-190, and 153-162. Further, all limits mentioned herein include all other limits included in the mentioned limits. For instance, a limit of up to 7 also includes a limit of up to 5, up to 3, and up to 4.5.
- the present invention provides for a choke 10 for use with a shotgun 11 that may be beneficial in reducing the amount of muzzle 18 rise upon discharge of the shotgun 11 .
- the choke 10 includes at least one port 38 that functions to vent firing gases 72 from the choke 10 in a direction that counters muzzle 18 rise. Time is thus saved by the user of shotgun 11 in firing subsequent shots as the shotgun 11 need not be repositioned at all or as much due to the elimination or reduction of muzzle 18 rise.
- FIG. 1 is a side view of a shotgun 11 and choke 10 in accordance with one exemplary embodiment.
- the shotgun 11 includes a stock 12 with a butt 14 that is placed against the shoulder of the user when firing. Discharge of projectiles 70 from the muzzle 18 of barrel 16 causes projectile force 20 to be created as indicated. Projectile force 20 creates a corresponding recoil force 22 in the opposite direction and felt by the user upon contacting the butt 14 of stock 12 . Projectile force 20 and recoil force 22 are separated a distance 24 vertically from one another. The presence of two opposite forces that are not linearly aligned with one another forms a moment. In the context of shotgun 11 , this moment functions to pull the muzzle 18 of barrel 16 upwards. Such a moment is commonly referred to as the muzzle 18 rise of the shotgun 11 or may sometimes be known as the kick (recoil) of the shotgun 11 .
- FIG. 2 shows the shotgun 11 of FIG. 1 upon discharging projectiles 70 therefrom.
- Projectiles 70 includes a wad 76 from which a plurality of shot or pellets 78 escape upon exiting the muzzle 18 or shortly thereafter.
- Firing gas 80 is present in the barrel 16 and trails projectiles 70 as it travels through the barrel 16 and out of muzzle 18 .
- Firing gas 80 exits from muzzle 18 and causes projectile force 20 to be formed which in turn results in muzzle 18 rise and kick (recoil) as previously mentioned.
- choke 10 located at the end of barrel 16 , and in this instance forming the muzzle 18 , includes a plurality of ports 38 .
- Ports 38 are arranged so as to vent some of the firing gas 72 in the barrel 16 in a direction different than that of projectile force 20 .
- the ports 38 are arranged so that the firing gas 72 causes a downward force 74 to be imparted onto muzzle 18 .
- the downward force 74 is directed so as to cause the muzzle 18 to be urged downward and hence in a direction opposite to the direction of muzzle 18 rise.
- the downward force 74 thus tends to reduce or eliminate muzzle 18 rise depending upon the magnitude of forces and actual directions of forces 20 and 74 .
- the choke 10 does not include ports 38 that act to expel firing gas 80 in a downward direction. As such, all of the venting of all of the ports 38 of the choke 10 function to resist muzzle 18 rise.
- the ports 38 also act to reduce the magnitude of projectile force 20 as a portion of the firing force makes up the downward force 74 .
- the recoil force 22 is likewise reduced in response to the reduction of projectile force 20 .
- the presence of ports 38 thus reduces the recoil force 22 which causes the actual recoil of the shotgun 11 to be reduced.
- the perceived recoil of the shotgun 11 is reduced due to the presence of ports 38 .
- the perceived recoil is the force felt by the user of the shotgun 11 and can vary from user to user due to differences in the body structure of the user, the position in which the shotgun 11 is held during discharge, or the position taken by the user during discharge.
- the perceived recoil of a user firing from a prone position will be greater than in a standing position. This may be true because in the prone position all of the force of the discharge is directed into the user where as in the standing position the user can sway or move backwards in response to the discharge so as to reduce the perceived recoil of the discharge.
- FIG. 3 A close-up view of the end of barrel 16 and of the choke 10 is shown in FIG. 3 .
- the choke 10 is releasably attachable to the barrel 16 through a threaded engagement.
- choke 10 includes external threading 44 that engages internal threading 46 present in the interior passage of barrel 16 .
- the choke 10 can then be attached to and removed from barrel 16 by the user as desired.
- a different choke 10 that includes different features may be subsequently attached to the barrel 16 to result in a desired shot pattern or to achieve some other desired benefit.
- the choke 10 may be permanently attached to the barrel 16 in accordance with various exemplary embodiments.
- the choke 10 can be integrally formed with the barrel 16 or may be a separate component that is either permanently or releasably attached to barrel 16 in accordance with other embodiments. Although described as being attached through the use of threading 44 and 46 , the choke 10 can be attached to the barrel 16 through various means such as clips, welding, a snap-fit engagement, screws, or various types of mechanical fasteners.
- the choke 10 includes a body 26 that defines a bore 28 therethrough.
- Bore 28 has a longitudinal axis 30 that may be coaxial with a longitudinal axis of the barrel 16 when the choke 10 is attached to barrel 16 .
- the bore 28 extends from one open end 32 to an opposite open end 34 .
- Open end 32 receives projectiles 70 traveling from the barrel 16 .
- Projectiles 70 are subsequently expelled from the choke 10 through open end 34 of bore 28 to exit the shotgun 11 .
- Choke 10 can be made of a strong material such as high-hardness stainless steel in order to resist deformation due to explosive forces and elevated temperatures that result upon firing projectiles 70 therethrough.
- Various materials that can be used to construct body 26 along with various wear resistant coatings that can be applied thereto can be found in U.S. Pat. No. 7,140,140 B2, the entire contents of which are incorporated by reference herein in their entirety for all purposes.
- Body 26 has a mounting segment 52 and a choking segment 54 .
- the mounting segment 52 and choking segment 54 are located next to one another in the longitudinal direction 56 of body 26 .
- Open end 32 of bore 28 opens into the mounting segment 52 which also includes the external threading 44 .
- the choking segment 54 includes open end 34 of the bore 28 along with one or more ports 38 .
- Bore 28 does not have a consistent diameter extending all the way from end 32 to end 34 . Instead, a conical section 48 of bore 28 is present in the mounting segment 52 . Bore 28 has a larger diameter at end 32 which tapers to a smaller diameter at the location in which mounting segment 52 contacts choking segment 54 . In effect, the conical section 48 of bore 28 narrows as the projectiles 70 traverse therethrough.
- Conical section 48 functions to constrict the projectiles 70 and thus causes certain desired effects to be achieved.
- Bore 28 has a parallel section 50 in choking segment 54 .
- Bore 28 has a constant diameter through the parallel section 50 from the point of contact between the choking segment 54 and mounting segment 52 until the end 34 of bore 28 .
- the inner wall of choking segment 54 of body 26 has a constant inner diameter.
- Parallel section 50 of bore 28 may also function to impart a constriction onto projectiles 70 traveling therethrough to achieve certain desired effects.
- the shape and length of conical section 48 and parallel section 50 can be varied in order to achieve various results. For example, a steep taper angle of the conical section 48 will cause the shot 78 to quickly compress which may result in a larger shot pattern spread. A flatter taper angle of conical section 48 will cause the shot 78 to compress more gradually and may result in a tighter and more consistent shot pattern.
- the length of the parallel section 50 in the longitudinal direction 56 of body 26 may also effect the resulting shot pattern of projectiles 70 . For example, a larger length of parallel section 50 may cause a more uniform shot column to develop which can create consistently tighter shot patterns. A shorter length in the longitudinal direction 56 of parallel section 50 may cause a larger shot pattern to be produced from parallel section 50 .
- ports 38 cause firing gas 72 to be released which in turn acts to slow down the speed of projectiles 70 upon traversing bore 28 .
- the presence of ports 38 function to slow the speed of the wad 76 of projectiles 70 which may be prevent the wad 76 from breaking up a column of shot or pellets 78 . Allowing the shot 78 to develop into a column without interference of wad 76 can result in a more desirably consistent shot pattern. Modification of the length of parallel section 50 acts to modify the effectiveness of the ports 38 and thus effects the resulting shot pattern.
- bore 28 can be variously configured in accordance with other exemplary embodiments.
- the bore 28 may have a constant diameter from one end 32 to the other end 34 .
- the bore 28 is parallel throughout.
- the bore 28 may be conical from end 32 to end 34 .
- the bore 28 may be larger at end 32 and smaller in diameter at end 34 .
- the diameter of bore 28 may be varied in accordance with various exemplary embodiments to modify the size of the resulting shot patterns.
- the projectiles 70 can be restricted or choked in either one of or both of these segments 52 or 54 .
- the choke 10 as shown with reference to FIGS. 3-6 has a circumference 36 , that is the external surface of the body 26 , that has a curved shape.
- circumference 36 can have one or more flat sections in the mounting segment 52 or choking segment 54 of body 26 .
- the ports 38 are provided in order to allow firing gases in bore 28 to escape through the body 26 and exit through the circumference 36 .
- the ports 38 are located within a first radial arc 40 that extends 180° about the longitudinal axis 30 .
- the first radial arc 40 still exists in embodiments in which a portion or all of the circumference 36 has a flat surface.
- the first radial arc 40 is thus defined about the longitudinal axis 30 and is not dependent upon the shape of the circumference 36 .
- a second radial arc 42 extends 1800 about the longitudinal axis 30 and likewise can exist regardless of whether the circumference 36 is curved or flat.
- the first radial arc 40 and second radial arc 42 may be oriented so that no portion of the first radial arc 40 overlaps a portion of the second radial arc 42 .
- no ports 38 are present within the second radial arc 42 .
- apertures through the body 26 may be present within the second radial arc 42 .
- a hole within the second radial arc 42 and located through the mounting segment 52 may be used to help hold the mounting segment 52 to the barrel 16 , with an associated pin or bolt, in accordance with certain embodiments. In these instances, although an aperture is present in the second radial arc 42 it does not function to vent firing gases from the bore 28 through the body 26 .
- the ports 38 may be positioned at any location within the first radial arc 40 .
- the ports 38 can be symmetrically or asymmetrically located within the first radial arc 40 .
- the first radial arc 40 is less than 180°.
- the first radical arc 40 can be up to 120°, up to 110°, up to 90°, up to 60°, from 120° to 180°, from 60° to 120°, or from 45° to 160° in accordance with various exemplary embodiments.
- the second radial arc 42 may consume the remaining arc length about the longitudinal axis 30 or can be otherwise variously sized.
- the first and second radial arcs 40 and 42 do not overlap.
- ports 38 can be located in the first radial arc 40 and can be completely absent from the second radial arc 42 .
- a plane 68 passes through the longitudinal axis 30 and splits the body 26 in half. With respect to the orientation of choke 10 to barrel 16 when engaged, plane 68 divides the body 26 into an upper half and a lower half. Upper half of body 26 faces the direction of muzzle 18 rise while the lower half of body 26 faces opposite to the direction of muzzle 18 rise and essentially faces the ground when the user discharges shotgun 11 in a conventional manner. Plane 68 likewise causes the choking segment 54 of the body 26 to be divided into an upper half 60 and a lower half 62 . Ports 38 are located in the upper half 60 of choking segment 54 . The lower half 62 of choking segment 54 does not include any ports 38 . In this manner, firing gas 72 may be discharged out of the upper half 60 and not out of the lower half 62 in order to counteract the forces associated with muzzle 18 rise to minimize or prevent its formation.
- Longitudinal axis 30 also lies within plane 64 which likewise passes through the body 26 so as to divide body 26 into two halves.
- Plane 64 is perpendicular to plane 68 and thus acts to divide body 26 into a left side and a right side when oriented for engagement with the barrel 16 .
- the ports 38 can be positioned and oriented so as to be bilaterally symmetrical with respect to plane 64 . As such, the design and pattern of ports 38 on either side of plane 64 are mirror images of one another.
- Body 26 may also have a top dead center 66 which designates a point of body 26 that is at the midpoint with respect to the left right direction when looking straight on when attached to the barrel 16 .
- the top dead center 66 is also located on the circumference 36 and has plane 64 passing therethrough.
- the top dead center 66 can be found by first engaging choke 10 onto barrel 16 so that the choke 10 is positioned as it would be during operation of the shotgun 11 . One may then locate the top dead center 66 and designate it by way of a line or other marking. The ports 38 can then be made a desired arc length distance on either side of the top dead center 66 .
- a method of forming the ports 38 in accordance with one exemplary embodiment includes engaging the choke 10 and shotgun 11 and locating a reference point. If threading is used to effect the engagement, the choke 10 can be tightened onto the shotgun 11 until it stops. A certain amount of torque may be applied to the choke 10 and the reference point can be located.
- the reference point is the top dead center 66 .
- the reference point may be the bottom dead center or other point in accordance with other embodiments.
- the ports 38 can then be formed so as to be symmetrical with respect to the top dead center 66 .
- the resulting choke 10 is thus unique to the shotgun 11 and the ports 38 will be properly positioned upon removal and subsequent engagement of the choke 10 and shotgun 11 .
- the choke 10 is not intended to be used with other shotguns 11 . Instead, ports 38 will be formed in chokes 10 unique to the other individual shotguns 11 . In practice, a user may send his or her shotgun 11 to a manufacture who engages the choke 10 to the shotgun 11 and subsequently forms ports 38 .
- the manufacture will then return both the shotgun 11 and uniquely formed choke 10 . It is to be understood, however, that the aforementioned method of locating ports 38 is but one exemplary embodiment and that other methods of forming ports 38 exist.
- the choke 10 may be made so that it is not unique but may instead be used on multiple shotguns 11 .
- choke 10 features a pair of ports 38 with plane 64 located therebetween.
- Ports 38 are slot like in shape and have a major axis 58 that is oriented parallel to the longitudinal axis 30 and extend in the longitudinal direction 56 .
- Ports 38 are also located in the upper half 60 of choking segment 54 and are within a first radial arc 40 .
- the lower half 62 of choking segment 54 does not include any ports 38 for the venting of firing gases 72 .
- the size and length of ports 38 can be adjusted in order to provide varying degrees of venting of gas 72 so that different shot patterns can result.
- the ports 38 can be circular, rectangular, triangular or asymmetrically shaped in accordance with other embodiments.
- the ports 38 can be sized and shaped as those disclosed in U.S. Pat. Nos. 3,367,055 and 6,112,447 the entire contents of which are incorporated by reference herein in their entireties for all purposes.
- all of the ports 38 of choke 10 need not have the same shape in accordance with other embodiments.
- FIG. 8 Another version of the choke 10 is shown in FIG. 8 .
- the choke 10 has ten ports 38 that are disposed through the body 26 to allow gas 72 to vent from the bore 28 through the circumference 36 .
- Ports 38 are located in the upper half 60 of the choking segment 54 . Further, ports 38 are within a first radial arc 40 that extends 180° about the longitudinal axis 30 .
- Ports 38 each have a major axis 58 that is oriented at an angle to the longitudinal axis 30 .
- Ports 38 previously shown with respect to the exemplary embodiment in FIGS. 1-6 likewise each have a major axis 58 oriented at an angle to the longitudinal axis 30 .
- the ports 38 can be provided in any number. Although shown in FIG.
- Ports 38 in FIG. 8 are bilaterally symmetrical about plane 64 as is the case in previous embodiments. However, it is to be understood that further variations of choke 10 exist in which the ports 38 are not bilaterally symmetrical about plane 64 .
- the choke 10 is thus designed to reduce muzzle 18 rise by ejecting gas 72 in a direction that opposes such muzzle 18 rise.
- ports 38 are located in the lower half 62 of choking segment 54 .
- exemplary embodiments exist in which ports 38 are located in the second radial arc 42 in addition to being located in the first radial arc 40 .
- the firing gas 72 expelled from ports 38 have a net effect of reducing muzzle 18 rise.
- the choke 10 may include ten ports 38 in the upper half 60 and four ports 38 in the lower half 62 . All of these ports 38 can be of the same size. Although gas 72 is ejected from all of the ports 38 , more firing gas 72 is ejected from the upper half 60 so that the net effect of gas 72 discharge functions to reduce muzzle 18 rise. Alternatively, a greater number of ports 38 can be located in the lower half 62 than in the upper half 60 . However, the ports 38 may be sized to be larger in the upper half 60 versus the those of the lower half 62 thus causing a greater amount of gas 72 to be discharged therefrom to again function to reduce muzzle 18 rise.
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Abstract
A choke for use with a shotgun is provided. The choke includes a body that defines a bore with a longitudinal axis. The body is configured for engagement with a shotgun so that projectiles from the shotgun can traverse therethrough and out of an end of the bore. The body has a circumference and defines at least one port for venting gas from the bore through the circumference. The port is located within a first radial arc that extends 180° about the longitudinal axis. No ports are present for venting gas from the bore through the circumference that are located within a second radial arc that does not overlap the first radial arc and that extends 180° about the longitudinal axis. An associated method is also provided.
Description
- The present invention relates generally to a shotgun choke. More particularly, the present application involves a shotgun choke arranged with a series of ports in such a manner to reduce muzzle rise when discharging the shotgun. The shotgun choke will also function to reduce actual and perceived recoil when discharged.
- A choke is a tapered constriction of the bore of the barrel of a shotgun. The amount of constriction is the difference between the diameter of the bore of the barrel and the diameter of the exit of the choke. The choke is located at the muzzle of the barrel and its presence acts to force the shot of a shotgun into a tighter stream upon exiting. Chokes can be provided in order to achieve a desired shot pattern for a particular purpose. For example, a skeet shooter may use a choke to achieve a desired shot pattern at a particular distance while a trap shooter may use a different choke to achieve the same shot pattern but at an increased distance. One may experiment with different chokes in order to achieve a shot pattern that is as large as possible without having the shot spaced too greatly so that the target is not killed or broken.
- A choke can be integrally formed into the barrel of a shotgun during its manufacture. Here, the end of the barrel can be squeezed a desired amount through the use of a tool such as a mandrel. Interchangeable chokes are also known which can be attached to and removed from the barrel of the shotgun. Interchangeable chokes may have internal threading that engages external threading located on the barrel. Alternatively, the interchangeable choke may have external threading. In such an instance, the barrel of the shotgun can include internal threading configured to engage external threading on the interchangeable choke when recessed therein.
- Chokes can be provided with various features to improve the performance of the shotgun to which they are attached. For example, the bore of a choke may include blades or other features that act to score the wad as it passes through the bore. Scoring of the wad facilitates its rapid opening upon exiting the choke so that the wad does not interfere with the string of pellets as they travel to their target. It is also known to employ chokes that have ports that function to expel firing gases out of the bore of the choke. Diffusion of firing gases in this manner acts to dissipate heat during firing and prevents temperature elevation of the choke after multiple shots are fired. The release of gases from the ports functions to reduce both the actual and perceived recoil of the shotgun. Actual recoil is the force directed back to the user upon discharge of the shotgun. Perceived recoil is what the shooter feels or experiences when the shotgun is discharged and can vary from shooter to shooter. Perceived recoil may be dependent upon the way in which the shooter holds the shotgun, the position from which the shotgun is fired, and the height and body type of the user. The ports are located around the circumference of the choke and are radially symmetrical with respect to a longitudinal axis of the bore. Ports are provided in a radially symmetrical manner since manufacturing differences exist between threading of chokes and barrels so that a top dead center position cannot be attained.
- Shotguns have a tendency to rise upwards upon their discharge. The upwards rise of a shotgun results in having the butt of the shotgun placed against the shoulder of the user at a location vertically below the discharge point of the shot. The difference in this vertical distance creates a moment when a force is created at the exit of the barrel of the shotgun during discharge to cause the shotgun to rise. After taking a shot, the user must then spend some amount of time repositioning the shotgun for any subsequent shot. Chokes that employ ports act to diffuse the energy of the shot radially outwards and hence less force is directed linearly which causes a lesser moment and hence upwards rise to be realized. Although such chokes are effective at reducing the amount of linear force, they do not direct the firing gases in a location so as to counteract the resulting upward rise as the ports are arranged in a radially symmetrical manner about the entire circumference. As such, there remains room for variation and improvement within the art.
- Various features and advantages of the invention will be set forth in part in the following description, or may be obvious from the description, or may be learned from practice of the invention.
- One aspect of one exemplary embodiment provides for a choke for use with a shotgun. The choke includes a body that defines a bore with a longitudinal axis therethrough. The body is configured for engagement with a shotgun so that the bore is positioned for traversal of projectiles of the shotgun therethrough and out of an end of the bore. The body has a circumference and defines at least one port for venting gas from the bore through the circumference. The port is located within a first radial arc that extends 180° about the longitudinal axis. Ports for venting gas from the bore through the circumference are not located within a second radial arc. The second radial arc does not overlap the first radial arc and extends 180° about the longitudinal axis.
- Another aspect of one exemplary embodiment resides in a choke as immediately discussed in which the body has external threading located on the circumference. The external threading is configured for engaging complimentary internal threading of a barrel of a shotgun so as to render the body releasably attachable to the barrel.
- Also provided in accordance with another aspect of one exemplary embodiment is a choke as described above in which the bore of the body has a conical section and a parallel section. The parallel section is configured for receipt of the projectiles of the shotgun from the conical section and for traversal of the projectiles of the shotgun therethrough and out of the end of the bore.
- Another aspect of one exemplary embodiment resides in a choke as mentioned previously in which the circumference is curved in shape.
- A further exemplary embodiment in accordance with another aspect is found in a choke as described above in which a plurality of the ports for venting gas from the bore through the circumference are present. The ports are positioned and oriented so as to be bilaterally symmetrical.
- A still further exemplary embodiment exists in an aspect as immediately discussed in which the ports are in the shape of slots. The ports have a major axis that is oriented in the longitudinal direction of the body.
- Another aspect in accordance with another exemplary embodiment is found in a choke as described above in which the ports are in the shape of slots. The slots each have a major axis that is oriented at an angle to the longitudinal direction of the body.
- An additional aspect in accordance with another exemplary embodiment is found in a choke for use with a shotgun that has a body that defines a bore therethrough. The body has a mounting segment for engagement with a barrel of a shotgun so that the mounting segment is located inside of the barrel when engaged. The body has a choking segment that is located outside of the barrel when the mounting segment is engaged with the barrel. The choking segment has a circumference that is curved in shape. The circumference of the choking segment has an upper half and a lower half. The upper half of the circumference is located above the lower half of the circumference when the mounting segment is engaged with the barrel. The body defines at least one port for venting gas from the bore through the upper half of the circumference when the shotgun is discharged. The lower half of the circumference is configured for preventing gas in the bore from passing through the lower half of the circumference when the shotgun is discharged.
- A further aspect in accordance with an additional exemplary embodiment is found in a choke as immediately described in which the mounting segment has a circumference that is curved in shape and has external threading thereon. The external threading of the mounting segment is configured to engage internal threading of the barrel in order to render the body releasably attachable to the barrel.
- A further aspect exits in an exemplary embodiment all ready described in which the bore of the body has a conical shape in the mounting segment. The bore of the body has a constant diameter throughout the choking segment.
- Another aspect of one exemplary embodiment resides in a choke as described above in which a plurality of the ports for venting gas from the bore through the upper half of the circumference are present. The ports are positioned and oriented so as to be bilaterally symmetrical with respect to a plane through a longitudinal axis of the bore and perpendicular to a plane passing through the location of contact between the upper half and lower half of the circumference.
- A further aspect in accordance with another exemplary embodiment is found in a choke as immediately described in which the ports are in the shape of slots. The slots have a major axis that is oriented in the longitudinal direction of the body.
- Another aspect of one exemplary embodiment is found in a choke as mentioned above in which the ports are in the shape of slots. The slots each have a major axis that is oriented at an angle to the longitudinal direction of the body.
- A still further aspect in accordance with another exemplary embodiment includes a choke for use with a shotgun that has a body that defines a bore with a longitudinal axis therethrough. The body is configured for engagement with the barrel of a shotgun so that projectiles of the shotgun are capable of being transferred through the bore and out of an open end of the bore. The longitudinal axis lies in a plane that divides the body into an upper half and a lower half. The body defines at least one port for venting gas from the bore through the upper half of the body to reduce muzzle rise during discharge of the shotgun. The body is configured so that a greater amount of gas is transferred through the upper half of the body from the bore than through the lower half of the body from the bore during discharge of the shotgun.
- Also provided in another aspect of an additional embodiment is a method of forming ports in a choke for the purpose of reducing muzzle rise. The method includes the steps of providing a shotgun and a choke. The choke is engaged to the shotgun so that the choke is oriented to have an upper half and a lower half relative to the shotgun once engaged. A reference point is located once the shotgun and choke are engaged with one another. At least one port in the upper half of the choke is formed at a location based on the reference point.
- In accordance with another exemplary embodiment a method is provided as immediately discussed in which the reference point is the top dead center.
- Another aspect exists in a method as previously discussed in which the forming step involves forming a plurality of ports in the upper half of the choke so that the plurality of ports are arranged symmetrically with respect to the reference point.
- A further aspect in accordance with another exemplary embodiment resides in a method as mentioned above that further includes the step of leaving the lower half of the choke without ports.
- These and other features, aspects and advantages of the present invention will become better understood with reference to the following description and appended claims. The accompanying drawings, which are incorporated in and constitute part of this specification, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.
- A full and enabling disclosure of the present invention, including the best mode thereof, directed to one of ordinary skill in the art, is set forth more particularly in the remainder of the specification, which makes reference to the appended Figs. in which:
-
FIG. 1 is side view of a shotgun with a choke attached in accordance with one exemplary embodiment. -
FIG. 2 is a side view of the shotgun and choke ofFIG. 1 upon discharging projectiles. -
FIG. 3 is a close-up side view of the choke barrel of the shotgun ofFIG. 1 . -
FIG. 4 is a top view of the choke ofFIG. 1 . -
FIG. 5 is a bottom view of the choke ofFIG. 1 . -
FIG. 6 is a front view of the choke ofFIG. 1 . -
FIG. 7 is a perspective view of a choke in accordance with an alternative exemplary embodiment. -
FIG. 8 is a perspective view of a choke in accordance with yet another alternative exemplary embodiment. - Repeat use of reference characters in the present specification and drawings is intended to represent the same or analogous features or elements of the invention.
- Reference will now be made in detail to embodiments of the invention, one or more examples of which are illustrated in the drawings. Each example is provided by way of explanation of the invention, and not meant as a limitation of the invention. For example, features illustrated or described as part of one embodiment can be used with another embodiment to yield still a third embodiment. It is intended that the present invention include these and other modifications and variations.
- It is to be understood that the ranges mentioned herein include all ranges located within the prescribed range. As such, all ranges mentioned herein include all sub-ranges included in the mentioned ranges. For instance, a range from 100-200 also includes ranges from 110-150, 170-190, and 153-162. Further, all limits mentioned herein include all other limits included in the mentioned limits. For instance, a limit of up to 7 also includes a limit of up to 5, up to 3, and up to 4.5.
- The present invention provides for a
choke 10 for use with ashotgun 11 that may be beneficial in reducing the amount ofmuzzle 18 rise upon discharge of theshotgun 11. Thechoke 10 includes at least oneport 38 that functions to vent firinggases 72 from thechoke 10 in a direction that countersmuzzle 18 rise. Time is thus saved by the user ofshotgun 11 in firing subsequent shots as theshotgun 11 need not be repositioned at all or as much due to the elimination or reduction ofmuzzle 18 rise. -
FIG. 1 is a side view of ashotgun 11 and choke 10 in accordance with one exemplary embodiment. Theshotgun 11 includes astock 12 with abutt 14 that is placed against the shoulder of the user when firing. Discharge ofprojectiles 70 from themuzzle 18 ofbarrel 16 causesprojectile force 20 to be created as indicated.Projectile force 20 creates acorresponding recoil force 22 in the opposite direction and felt by the user upon contacting thebutt 14 ofstock 12.Projectile force 20 andrecoil force 22 are separated adistance 24 vertically from one another. The presence of two opposite forces that are not linearly aligned with one another forms a moment. In the context ofshotgun 11, this moment functions to pull themuzzle 18 ofbarrel 16 upwards. Such a moment is commonly referred to as themuzzle 18 rise of theshotgun 11 or may sometimes be known as the kick (recoil) of theshotgun 11. -
FIG. 2 shows theshotgun 11 ofFIG. 1 upon dischargingprojectiles 70 therefrom.Projectiles 70 includes awad 76 from which a plurality of shot orpellets 78 escape upon exiting themuzzle 18 or shortly thereafter. Firinggas 80 is present in thebarrel 16 andtrails projectiles 70 as it travels through thebarrel 16 and out ofmuzzle 18. Firinggas 80 exits frommuzzle 18 and causesprojectile force 20 to be formed which in turn results inmuzzle 18 rise and kick (recoil) as previously mentioned. As shown inFIG. 2 , choke 10 located at the end ofbarrel 16, and in this instance forming themuzzle 18, includes a plurality ofports 38.Ports 38 are arranged so as to vent some of the firinggas 72 in thebarrel 16 in a direction different than that ofprojectile force 20. As shown, theports 38 are arranged so that the firinggas 72 causes adownward force 74 to be imparted ontomuzzle 18. Thedownward force 74 is directed so as to cause themuzzle 18 to be urged downward and hence in a direction opposite to the direction ofmuzzle 18 rise. Thedownward force 74 thus tends to reduce or eliminatemuzzle 18 rise depending upon the magnitude of forces and actual directions offorces choke 10 does not includeports 38 that act to expel firinggas 80 in a downward direction. As such, all of the venting of all of theports 38 of thechoke 10 function to resistmuzzle 18 rise. - The
ports 38 also act to reduce the magnitude ofprojectile force 20 as a portion of the firing force makes up thedownward force 74. Therecoil force 22 is likewise reduced in response to the reduction ofprojectile force 20. The presence ofports 38 thus reduces therecoil force 22 which causes the actual recoil of theshotgun 11 to be reduced. Additionally, the perceived recoil of theshotgun 11 is reduced due to the presence ofports 38. The perceived recoil is the force felt by the user of theshotgun 11 and can vary from user to user due to differences in the body structure of the user, the position in which theshotgun 11 is held during discharge, or the position taken by the user during discharge. For example, the perceived recoil of a user firing from a prone position will be greater than in a standing position. This may be true because in the prone position all of the force of the discharge is directed into the user where as in the standing position the user can sway or move backwards in response to the discharge so as to reduce the perceived recoil of the discharge. - A close-up view of the end of
barrel 16 and of thechoke 10 is shown inFIG. 3 . Thechoke 10 is releasably attachable to thebarrel 16 through a threaded engagement. As shown, choke 10 includes external threading 44 that engages internal threading 46 present in the interior passage ofbarrel 16. Thechoke 10 can then be attached to and removed frombarrel 16 by the user as desired. Adifferent choke 10 that includes different features may be subsequently attached to thebarrel 16 to result in a desired shot pattern or to achieve some other desired benefit. Although described as being releasably attachable, thechoke 10 may be permanently attached to thebarrel 16 in accordance with various exemplary embodiments. Additionally, thechoke 10 can be integrally formed with thebarrel 16 or may be a separate component that is either permanently or releasably attached tobarrel 16 in accordance with other embodiments. Although described as being attached through the use of threading 44 and 46, thechoke 10 can be attached to thebarrel 16 through various means such as clips, welding, a snap-fit engagement, screws, or various types of mechanical fasteners. - The
choke 10 includes abody 26 that defines abore 28 therethrough.Bore 28 has alongitudinal axis 30 that may be coaxial with a longitudinal axis of thebarrel 16 when thechoke 10 is attached tobarrel 16. Thebore 28 extends from oneopen end 32 to an oppositeopen end 34.Open end 32 receivesprojectiles 70 traveling from thebarrel 16.Projectiles 70 are subsequently expelled from thechoke 10 throughopen end 34 ofbore 28 to exit theshotgun 11.Choke 10 can be made of a strong material such as high-hardness stainless steel in order to resist deformation due to explosive forces and elevated temperatures that result upon firingprojectiles 70 therethrough. Various materials that can be used to constructbody 26 along with various wear resistant coatings that can be applied thereto can be found in U.S. Pat. No. 7,140,140 B2, the entire contents of which are incorporated by reference herein in their entirety for all purposes. -
Body 26 has a mountingsegment 52 and a chokingsegment 54. The mountingsegment 52 and chokingsegment 54 are located next to one another in thelongitudinal direction 56 ofbody 26.Open end 32 ofbore 28 opens into the mountingsegment 52 which also includes theexternal threading 44. The chokingsegment 54 includesopen end 34 of thebore 28 along with one ormore ports 38.Bore 28 does not have a consistent diameter extending all the way fromend 32 to end 34. Instead, aconical section 48 ofbore 28 is present in the mountingsegment 52.Bore 28 has a larger diameter atend 32 which tapers to a smaller diameter at the location in which mountingsegment 52contacts choking segment 54. In effect, theconical section 48 ofbore 28 narrows as theprojectiles 70 traverse therethrough.Conical section 48 functions to constrict theprojectiles 70 and thus causes certain desired effects to be achieved.Bore 28 has aparallel section 50 in chokingsegment 54.Bore 28 has a constant diameter through theparallel section 50 from the point of contact between the chokingsegment 54 and mountingsegment 52 until theend 34 ofbore 28. In this regard, the inner wall of chokingsegment 54 ofbody 26 has a constant inner diameter.Parallel section 50 ofbore 28 may also function to impart a constriction ontoprojectiles 70 traveling therethrough to achieve certain desired effects. - The shape and length of
conical section 48 andparallel section 50 can be varied in order to achieve various results. For example, a steep taper angle of theconical section 48 will cause theshot 78 to quickly compress which may result in a larger shot pattern spread. A flatter taper angle ofconical section 48 will cause theshot 78 to compress more gradually and may result in a tighter and more consistent shot pattern. The length of theparallel section 50 in thelongitudinal direction 56 ofbody 26 may also effect the resulting shot pattern ofprojectiles 70. For example, a larger length ofparallel section 50 may cause a more uniform shot column to develop which can create consistently tighter shot patterns. A shorter length in thelongitudinal direction 56 ofparallel section 50 may cause a larger shot pattern to be produced fromparallel section 50. Further, the use of a longerparallel section 50 may increase the benefits realized by the presence ofports 38. As stated,ports 38cause firing gas 72 to be released which in turn acts to slow down the speed ofprojectiles 70 upon traversingbore 28. In some instances, the presence ofports 38 function to slow the speed of thewad 76 ofprojectiles 70 which may be prevent thewad 76 from breaking up a column of shot orpellets 78. Allowing theshot 78 to develop into a column without interference ofwad 76 can result in a more desirably consistent shot pattern. Modification of the length ofparallel section 50 acts to modify the effectiveness of theports 38 and thus effects the resulting shot pattern. - Although described as having both a
conical section 48 and aparallel section 50, it is to be understood that bore 28 can be variously configured in accordance with other exemplary embodiments. For example, thebore 28 may have a constant diameter from oneend 32 to theother end 34. In this regard, thebore 28 is parallel throughout. Alternatively, thebore 28 may be conical fromend 32 to end 34. Here, thebore 28 may be larger atend 32 and smaller in diameter atend 34. Further, the diameter ofbore 28 may be varied in accordance with various exemplary embodiments to modify the size of the resulting shot patterns. Although described as having a mountingsegment 52 and chokingsegment 54, it is to be understood that theprojectiles 70 can be restricted or choked in either one of or both of thesesegments - The
choke 10 as shown with reference toFIGS. 3-6 has acircumference 36, that is the external surface of thebody 26, that has a curved shape. However, it is to be understood that other exemplary embodiments exist in which thecircumference 36 need not be curved in shape. For example,circumference 36 can have one or more flat sections in the mountingsegment 52 or chokingsegment 54 ofbody 26. Theports 38 are provided in order to allow firing gases inbore 28 to escape through thebody 26 and exit through thecircumference 36. As shown with reference toFIG. 6 , theports 38 are located within a firstradial arc 40 that extends 180° about thelongitudinal axis 30. Although thecircumference 36 is shown as having a curved surface, the firstradial arc 40 still exists in embodiments in which a portion or all of thecircumference 36 has a flat surface. The firstradial arc 40 is thus defined about thelongitudinal axis 30 and is not dependent upon the shape of thecircumference 36. - A second
radial arc 42 extends 1800 about thelongitudinal axis 30 and likewise can exist regardless of whether thecircumference 36 is curved or flat. The firstradial arc 40 and secondradial arc 42 may be oriented so that no portion of the firstradial arc 40 overlaps a portion of the secondradial arc 42. As shown, noports 38 are present within the secondradial arc 42. In accordance with some exemplary embodiments, apertures through thebody 26 may be present within the secondradial arc 42. For example, a hole within the secondradial arc 42 and located through the mountingsegment 52 may be used to help hold the mountingsegment 52 to thebarrel 16, with an associated pin or bolt, in accordance with certain embodiments. In these instances, although an aperture is present in the secondradial arc 42 it does not function to vent firing gases from thebore 28 through thebody 26. - The
ports 38 may be positioned at any location within the firstradial arc 40. Theports 38 can be symmetrically or asymmetrically located within the firstradial arc 40. Further, other exemplary embodiments exist in which the firstradial arc 40 is less than 180°. For instance, the firstradical arc 40 can be up to 120°, up to 110°, up to 90°, up to 60°, from 120° to 180°, from 60° to 120°, or from 45° to 160° in accordance with various exemplary embodiments. The secondradial arc 42 may consume the remaining arc length about thelongitudinal axis 30 or can be otherwise variously sized. In accordance with the aforementioned various embodiments, the first and second radial arcs 40 and 42 do not overlap. Also, in these embodiments,ports 38 can be located in the firstradial arc 40 and can be completely absent from the secondradial arc 42. - As can be seen upon study of
FIGS. 3-6 , aplane 68 passes through thelongitudinal axis 30 and splits thebody 26 in half. With respect to the orientation ofchoke 10 tobarrel 16 when engaged,plane 68 divides thebody 26 into an upper half and a lower half. Upper half ofbody 26 faces the direction ofmuzzle 18 rise while the lower half ofbody 26 faces opposite to the direction ofmuzzle 18 rise and essentially faces the ground when the user dischargesshotgun 11 in a conventional manner.Plane 68 likewise causes the chokingsegment 54 of thebody 26 to be divided into anupper half 60 and alower half 62.Ports 38 are located in theupper half 60 of chokingsegment 54. Thelower half 62 of chokingsegment 54 does not include anyports 38. In this manner, firinggas 72 may be discharged out of theupper half 60 and not out of thelower half 62 in order to counteract the forces associated withmuzzle 18 rise to minimize or prevent its formation. -
Longitudinal axis 30 also lies withinplane 64 which likewise passes through thebody 26 so as to dividebody 26 into two halves.Plane 64 is perpendicular to plane 68 and thus acts to dividebody 26 into a left side and a right side when oriented for engagement with thebarrel 16. Theports 38 can be positioned and oriented so as to be bilaterally symmetrical with respect toplane 64. As such, the design and pattern ofports 38 on either side ofplane 64 are mirror images of one another.Body 26 may also have a topdead center 66 which designates a point ofbody 26 that is at the midpoint with respect to the left right direction when looking straight on when attached to thebarrel 16. The topdead center 66 is also located on thecircumference 36 and hasplane 64 passing therethrough. The topdead center 66 can be found by first engagingchoke 10 ontobarrel 16 so that thechoke 10 is positioned as it would be during operation of theshotgun 11. One may then locate the topdead center 66 and designate it by way of a line or other marking. Theports 38 can then be made a desired arc length distance on either side of the topdead center 66. - Internal threading 46 and other features of the
shotgun 11 can vary fromshotgun 11 toshotgun 11. As such, the topdead center 66 of achoke 10 may be different when engaged with twodifferent shotguns 11. Therefore, if one were to formports 38 on achoke 10 with respect to oneshotgun 11 engagement of thechoke 10 with asubsequent shotgun 11 could result in theports 38 in an unsymmetrical manner about the topdead center 66. As such, a method of forming theports 38 in accordance with one exemplary embodiment includes engaging thechoke 10 andshotgun 11 and locating a reference point. If threading is used to effect the engagement, thechoke 10 can be tightened onto theshotgun 11 until it stops. A certain amount of torque may be applied to thechoke 10 and the reference point can be located. In accordance with one embodiment the reference point is the topdead center 66. The reference point may be the bottom dead center or other point in accordance with other embodiments. Theports 38 can then be formed so as to be symmetrical with respect to the topdead center 66. The resultingchoke 10 is thus unique to theshotgun 11 and theports 38 will be properly positioned upon removal and subsequent engagement of thechoke 10 andshotgun 11. Thechoke 10 is not intended to be used withother shotguns 11. Instead,ports 38 will be formed inchokes 10 unique to the otherindividual shotguns 11. In practice, a user may send his or hershotgun 11 to a manufacture who engages thechoke 10 to theshotgun 11 and subsequently formsports 38. The manufacture will then return both theshotgun 11 and uniquely formedchoke 10. It is to be understood, however, that the aforementioned method of locatingports 38 is but one exemplary embodiment and that other methods of formingports 38 exist. For example, thechoke 10 may be made so that it is not unique but may instead be used onmultiple shotguns 11. - An alternative exemplary embodiment of the
choke 10 is shown inFIG. 7 . In this embodiment, choke 10 features a pair ofports 38 withplane 64 located therebetween.Ports 38 are slot like in shape and have amajor axis 58 that is oriented parallel to thelongitudinal axis 30 and extend in thelongitudinal direction 56.Ports 38 are also located in theupper half 60 of chokingsegment 54 and are within a firstradial arc 40. Thelower half 62 of chokingsegment 54 does not include anyports 38 for the venting of firinggases 72. The size and length ofports 38 can be adjusted in order to provide varying degrees of venting ofgas 72 so that different shot patterns can result. Although shown as being in the shape of a slot, theports 38 can be circular, rectangular, triangular or asymmetrically shaped in accordance with other embodiments. For example, theports 38 can be sized and shaped as those disclosed in U.S. Pat. Nos. 3,367,055 and 6,112,447 the entire contents of which are incorporated by reference herein in their entireties for all purposes. Further, all of theports 38 ofchoke 10 need not have the same shape in accordance with other embodiments. - Another version of the
choke 10 is shown inFIG. 8 . Thechoke 10 has tenports 38 that are disposed through thebody 26 to allowgas 72 to vent from thebore 28 through thecircumference 36.Ports 38 are located in theupper half 60 of the chokingsegment 54. Further,ports 38 are within a firstradial arc 40 that extends 180° about thelongitudinal axis 30.Ports 38 each have amajor axis 58 that is oriented at an angle to thelongitudinal axis 30.Ports 38 previously shown with respect to the exemplary embodiment inFIGS. 1-6 likewise each have amajor axis 58 oriented at an angle to thelongitudinal axis 30. Theports 38 can be provided in any number. Although shown inFIG. 8 as having tenports 38, other exemplary embodiments exist in which up to 15, up to 20, up to 25, from 1 to 5, or from 15 to 20ports 38 are present.Ports 38 inFIG. 8 are bilaterally symmetrical aboutplane 64 as is the case in previous embodiments. However, it is to be understood that further variations ofchoke 10 exist in which theports 38 are not bilaterally symmetrical aboutplane 64. - The
choke 10 is thus designed to reducemuzzle 18 rise by ejectinggas 72 in a direction that opposessuch muzzle 18 rise. Although described as having nogas 72 ejected through thebody 26 out of thelower half 62 of chokingsegment 54, it is to be understood that other exemplary embodiments exist in whichports 38 are located in thelower half 62 of chokingsegment 54. In a similar manner, exemplary embodiments exist in whichports 38 are located in the secondradial arc 42 in addition to being located in the firstradial arc 40. However, in all of these embodiments, the firinggas 72 expelled fromports 38 have a net effect of reducingmuzzle 18 rise. For example, thechoke 10 may include tenports 38 in theupper half 60 and fourports 38 in thelower half 62. All of theseports 38 can be of the same size. Althoughgas 72 is ejected from all of theports 38,more firing gas 72 is ejected from theupper half 60 so that the net effect ofgas 72 discharge functions to reducemuzzle 18 rise. Alternatively, a greater number ofports 38 can be located in thelower half 62 than in theupper half 60. However, theports 38 may be sized to be larger in theupper half 60 versus the those of thelower half 62 thus causing a greater amount ofgas 72 to be discharged therefrom to again function to reducemuzzle 18 rise. - While the present invention has been described in connection with certain preferred embodiments, it is to be understood that the subject matter encompassed by way of the present invention is not to be limited to those specific embodiments. On the contrary, it is intended for the subject matter of the invention to include all alternatives, modifications and equivalents as can be included within the spirit and scope of the following claims.
Claims (24)
1. A choke for use with a shotgun, comprising:
a body defining a bore with a longitudinal axis therethrough, said body configured for engagement with a shotgun such that said bore is positioned for traversal of projectiles of the shotgun therethrough and out of an end of said bore, wherein said body has a circumference, wherein said body defines at least one port for venting gas from said bore through said circumference, wherein said at least one port is located within a first radial arc that extends 180° about said longitudinal axis, wherein no port for venting gas from said bore through said circumference is located within a second radial arc that does not overlap said first radial arc and that extends 180° about said longitudinal axis.
2. The choke as set forth in claim 1 , wherein said body has external threading located on said circumference, wherein said external threading of said body is configured for engaging complimentary internal threading of a barrel of a shotgun so as to render said body releasably attachable to the barrel.
3. The choke as set forth in claim 1 , wherein said bore of said body is conical from one end of said bore to an opposite end of said bore.
4. The choke as set forth in claim 1 , wherein said bore of said body has a conical section and a parallel section, wherein said parallel section is configured for receipt of the projectiles of the shotgun from said conical section and for traversal of the projectiles of the shotgun therethrough and out of said end of said bore.
5. The choke as set forth in claim 1 , wherein said body is configured for permanent attachment with a barrel of the shotgun.
6. The choke as set forth in claim 1 , wherein said body has a mounting segment and a choking segment positioned next to one another in the longitudinal direction of said body, wherein said circumference of said mounting segment has a curved shape, and wherein said circumference of said choking segment has a curved shape with an outer diameter that is greater than the outer diameter of said circumference of said mounting segment.
7. The choke as set forth in claim 1 , wherein said circumference is curved in shape.
8. The choke as set forth in claim 1 , wherein a plurality of said ports for venting gas from said bore through said circumference are present, and wherein said ports are positioned and oriented so as to be bilaterally symmetrical.
9. The choke as set forth in claim 8 , wherein said ports are in the shape of slots that have a major axis that is oriented in the longitudinal direction of said body.
10. The choke as set forth in claim 8 , wherein said ports are in the shape of slots that have a major axis that is oriented at an angle to the longitudinal direction of said body.
11. A choke for use with a shotgun, comprising:
a body defining a bore therethrough, wherein said body has a mounting segment for engagement with a barrel of a shotgun such that said mounting segment is located inside of the barrel when engaged, wherein said body has a choking segment that is located outside of the barrel when said mounting segment is engaged with the barrel, wherein said choking segment has a circumference that is curved in shape, wherein said circumference of said choking segment has an upper half and a lower half, wherein said upper half of said circumference is located above said lower half of said circumference when said mounting segment is engaged with the barrel, wherein said body defines at least one port for venting gas from said bore through said upper half of said circumference when the shotgun is discharged, wherein said lower half of said circumference is configured for preventing gas in said bore from passing through said lower half of said circumference when the shotgun is discharged.
12. The choke as set forth in claim 11 , wherein said mounting segment has a circumference that is curved in shape and has external threading thereon, wherein said external threading of said mounting segment is configured to engage internal threading of the barrel in order to render said body releasably attachable to the barrel.
13. The choke as set forth in claim 11 , wherein said bore of said body is conical from one end of said bore to an opposite end of said bore.
14. The choke as set forth in claim 11 , wherein said bore of said body has a conical shape in said mounting segment, and wherein said bore of said body has a constant diameter throughout said choking segment.
15. The choke as set forth in claim 11 , wherein said body is permanently attached to the barrel of the shotgun.
16. The choke as set forth in claim 11 , wherein a plurality of said ports for venting gas from said bore through said upper half of said circumference are present, and wherein said ports are positioned and oriented so as to be bilaterally symmetrical with respect to a plane through a longitudinal axis of said bore and perpendicular to a plane passing through the location of contact between said upper half and said lower half of said circumference.
17. The choke as set forth in claim 16 , wherein said ports are in the shape of slots that have a major axis that is oriented in the longitudinal direction of said body.
18. The choke as set forth in claim 16 , wherein said ports are in the shape of slots that have a major axis that is oriented at an angle to the longitudinal direction of said body.
19. The choke as set forth in claim 18 , wherein ten of said ports are present such that five of said ports are located on one side of the plane through the longitudinal axis of said bore and perpendicular to the plane passing through the location of contact between said upper half and said lower half of said circumference, and wherein five of said ports are located on the other side of the plane through the longitudinal axis of said bore and perpendicular to the plane passing through the location of contact between said upper half and said lower half of said circumference.
20. A choke for use with a shotgun, comprising:
a body defining a bore with a longitudinal axis therethrough, wherein said body is configured for engagement with the barrel of a shotgun such that projectiles of the shotgun are capable of being transferred through said bore and out of an open end of said bore, wherein said longitudinal axis lies in a plane that divides said body into an upper half and a lower half, wherein said body defines at least one port for venting gas from said bore through said upper half of said body to reduce muzzle rise during discharge of the shotgun, wherein said body is configured such that a greater amount of gas is transferred through said upper half of said body from said bore than through said lower half of said body from said bore during discharge of the shotgun.
21. A method of forming ports in a choke for the purpose of reducing muzzle rise comprising the steps of:
providing a shotgun;
providing a choke;
engaging the choke to the shotgun such that the choke is oriented so as to have an upper half and a lower half relative to the shotgun once engaged;
locating a reference point once the shotgun and choke are engaged with one another;
forming at least one port in the upper half of the choke at a location based on the reference point.
22. The method as set forth in claim 21 , wherein said forming step involves forming a plurality of ports in the upper half of the choke such that the plurality of ports are arranged symmetrically with respect to the reference point.
23. The method as set forth in claim 21 , further comprising the step of leaving the lower half of the choke without ports.
24. The method as set forth in claim 21 , wherein the reference point of said locating step is the top dead center.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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US11/656,618 US20080173166A1 (en) | 2007-01-23 | 2007-01-23 | Shotgun choke |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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US11/656,618 US20080173166A1 (en) | 2007-01-23 | 2007-01-23 | Shotgun choke |
Publications (1)
Publication Number | Publication Date |
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US20080173166A1 true US20080173166A1 (en) | 2008-07-24 |
Family
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US11/656,618 Abandoned US20080173166A1 (en) | 2007-01-23 | 2007-01-23 | Shotgun choke |
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Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20090133681A1 (en) * | 2007-11-26 | 2009-05-28 | Hsin-Cheng Yeh | Multi-purposes mechanism for shooting apparatus |
US7895787B1 (en) * | 2008-01-11 | 2011-03-01 | Andry Mark L | Porting feature for firearm |
US8112931B2 (en) * | 2008-04-14 | 2012-02-14 | Yost Bill R | Shotgun gas exchanger |
US20120240443A1 (en) * | 2011-03-22 | 2012-09-27 | Washam Jr Jimmy | One piece progressive bore multi-staged shotgun choke system |
CN104169783A (en) * | 2011-11-03 | 2014-11-26 | 福尔图纳乌尔比斯有限公司 | Eyeglasses |
US10753700B2 (en) * | 2016-01-15 | 2020-08-25 | ZEV Technologies, Inc. | Firearm accessory mounting system |
US20210356226A1 (en) * | 2020-01-31 | 2021-11-18 | Dustin Nicklaus Fromholtz | Muzzle brake compensator |
RU2785229C1 (en) * | 2022-01-25 | 2022-12-05 | Алена Алексеевна Поляева | Muzzle brake-compensator with muzzle constrictions and jet nozzles and firing method |
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US20050154209A1 (en) * | 2002-01-31 | 2005-07-14 | Yutaka Ishii | Novel optically active compounds, method for kinetic optical resolution of carboxylic acid derivatives and catalysts therefor |
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US20060010750A1 (en) * | 2004-04-21 | 2006-01-19 | Ryosuke Yoshitaka | Choke tube |
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US20060048639A1 (en) * | 2004-09-03 | 2006-03-09 | Law Enforcement International Ltd. | Muzzle device |
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US7328645B1 (en) * | 2003-02-10 | 2008-02-12 | Smith & Wesson Corp. | Compensation system for a firearm |
-
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- 2007-01-23 US US11/656,618 patent/US20080173166A1/en not_active Abandoned
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US1598360A (en) * | 1924-03-22 | 1926-08-31 | William J Pavek | Variable and low muzzle-pressure gun |
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US2088380A (en) * | 1934-12-07 | 1937-07-27 | Schneider & Cie | Muzzle recoil check for guns |
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US5631438A (en) * | 1995-04-17 | 1997-05-20 | Martel; Phillip C. | Adjustable gas pressure deflector |
US5811714A (en) * | 1996-10-08 | 1998-09-22 | Hull; Harold L. | Gun muzzle brake |
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US20050154209A1 (en) * | 2002-01-31 | 2005-07-14 | Yutaka Ishii | Novel optically active compounds, method for kinetic optical resolution of carboxylic acid derivatives and catalysts therefor |
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US6990764B2 (en) * | 2003-02-12 | 2006-01-31 | Inpromarketing Corp. | Shotgun attachment |
US6782651B1 (en) * | 2003-02-12 | 2004-08-31 | Inpromarketing Corp. | Breaching tool |
US20050011102A1 (en) * | 2003-03-12 | 2005-01-20 | Frank Boyer | Shotgun choke with integral wad-stopping feature |
US6789343B1 (en) * | 2003-03-28 | 2004-09-14 | James P. Dietrich | Automatic choke system |
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US20060060075A1 (en) * | 2004-09-23 | 2006-03-23 | Zeineh Rashid A | Firearms recoil reducer |
Cited By (13)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20090133681A1 (en) * | 2007-11-26 | 2009-05-28 | Hsin-Cheng Yeh | Multi-purposes mechanism for shooting apparatus |
US7658186B2 (en) * | 2007-11-26 | 2010-02-09 | Sunworld Industrial Co., Ltd. | Multi-purposes mechanism for shooting apparatus |
US7895787B1 (en) * | 2008-01-11 | 2011-03-01 | Andry Mark L | Porting feature for firearm |
US20110067284A1 (en) * | 2008-01-11 | 2011-03-24 | Andry Mark L | Porting feature for firearm |
US8112931B2 (en) * | 2008-04-14 | 2012-02-14 | Yost Bill R | Shotgun gas exchanger |
US8458945B2 (en) * | 2011-03-22 | 2013-06-11 | Jimmy Washam, Jr. | One piece progressive bore multi-staged shotgun choke system |
US20120240443A1 (en) * | 2011-03-22 | 2012-09-27 | Washam Jr Jimmy | One piece progressive bore multi-staged shotgun choke system |
CN104169783A (en) * | 2011-11-03 | 2014-11-26 | 福尔图纳乌尔比斯有限公司 | Eyeglasses |
US10753700B2 (en) * | 2016-01-15 | 2020-08-25 | ZEV Technologies, Inc. | Firearm accessory mounting system |
US10830550B2 (en) | 2016-01-15 | 2020-11-10 | ZEV Technologies, Inc. | Firearm accessory mounting system |
US20210356226A1 (en) * | 2020-01-31 | 2021-11-18 | Dustin Nicklaus Fromholtz | Muzzle brake compensator |
US11703296B2 (en) * | 2020-01-31 | 2023-07-18 | Dustin Nicklaus Fromholtz | Muzzle brake compensator |
RU2785229C1 (en) * | 2022-01-25 | 2022-12-05 | Алена Алексеевна Поляева | Muzzle brake-compensator with muzzle constrictions and jet nozzles and firing method |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
STCB | Information on status: application discontinuation |
Free format text: ABANDONED -- FAILURE TO RESPOND TO AN OFFICE ACTION |
|
AS | Assignment |
Owner name: LOCKHEED MARTIN CORPORATION,MARYLAND Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:HARRISON, LANNIE D.;REEL/FRAME:023961/0168 Effective date: 20100203 |