US20080174071A1 - Shooting gallery devices and methods - Google Patents
Shooting gallery devices and methods Download PDFInfo
- Publication number
- US20080174071A1 US20080174071A1 US11/844,980 US84498007A US2008174071A1 US 20080174071 A1 US20080174071 A1 US 20080174071A1 US 84498007 A US84498007 A US 84498007A US 2008174071 A1 US2008174071 A1 US 2008174071A1
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- United States
- Prior art keywords
- targets
- target
- extended position
- shooting gallery
- fallen
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Abandoned
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F41—WEAPONS
- F41J—TARGETS; TARGET RANGES; BULLET CATCHERS
- F41J1/00—Targets; Target stands; Target holders
- F41J1/10—Target stands; Target holders
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F41—WEAPONS
- F41J—TARGETS; TARGET RANGES; BULLET CATCHERS
- F41J7/00—Movable targets which are stationary when fired at
- F41J7/04—Movable targets which are stationary when fired at disappearing or moving when hit
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F41—WEAPONS
- F41J—TARGETS; TARGET RANGES; BULLET CATCHERS
- F41J9/00—Moving targets, i.e. moving when fired at
- F41J9/02—Land-based targets, e.g. inflatable targets supported by fluid pressure
Definitions
- the present disclosure is directed to shooting galleries and methods of operating shooting galleries.
- Shooting galleries have existed for many years, providing amateurs and professionals alike the opportunity to shoot a firearm at a moving target for fun, skill, sport, enjoyment, and/or practice.
- Shooting galleries range from those found at amusement parks using numerous types of projectiles (water, cork, beans, BB's) to galleries designed for high power rifles.
- Conventional shooting galleries include multiple targets moving on an endless chain or belt in front of a shooter. As the targets pass laterally in front of a shooter, the shooter attempts to hit the targets with a projectile to knock the targets over. When a shooter successfully hits a target, the target temporarily disappears from view. The target then travels around a loop and reappears upright in front of the shooter.
- FIG. 1A is an isometric view and FIG. 1B is a side view of a shooting gallery configured in accordance with one embodiment of the invention.
- FIG. 2A is a schematic front view and FIG. 2B is a schematic back view of a shooting gallery configured in accordance with an embodiment of the invention.
- FIG. 3A is an isometric view and FIG. 3B is an enlarged isometric view of a target and target connector subassembly configured in accordance with further embodiments of the invention.
- FIG. 3C is a schematic side view taken along the line 3 C- 3 C of FIG. 3B
- FIG. 3D is a schematic side view taken along the line 3 D- 3 D of FIG. 3B .
- FIG. 4A is a side view of a shooting gallery configured in accordance with another embodiment of the invention.
- FIGS. 4B and 4C are isometric views of a target and target connector, respectively, configured in accordance with embodiments of the invention.
- FIGS. 5A-5F are schematic side views
- FIG. 5G is a schematic front view
- FIGS. 5H and 5I are schematic side views of subassemblies configured in accordance with further embodiments of the invention.
- FIGS. 6A and 6B are isometric views of subassemblies configured in accordance with further embodiments of the invention.
- FIGS. 7A and 7B are schematic isometric views and FIG. 7C is a schematic side view of subassemblies configured in accordance with further embodiments of the invention.
- FIGS. 8A and 8B are schematic side views of subassemblies and FIG. 8C is an isometric view of a shooting gallery configured in accordance with further embodiments of the invention.
- FIGS. 9A and 9B are side views of shooting galleries configured in accordance with further embodiments of the invention.
- FIGS. 10A-10B are schematic front views of shooting galleries configured in accordance with further embodiments of the invention.
- FIGS. 11A-11E are schematic back views of shooting galleries configured in accordance with further embodiments of the invention.
- FIG. 12A is a schematic front view and FIGS. 12B and 12C are schematic back views of shooting galleries configured in accordance with further embodiments of the invention.
- FIG. 13A is an isometric view of a power source protective housing and FIG. 13B is a partial back view of a power cord protection member configured in accordance with an embodiment of the invention.
- a shooting gallery comprises a first plate, a frame coupled to the first plate, a power source, and a conveyor driven by the power source.
- the conveyor travels in a predetermined path and includes a shooting zone and a return zone.
- a plurality of target connectors are coupled to the conveyor.
- the shooting gallery further comprises a plurality of targets that are movable between an extended position and a fallen position.
- the targets are pivotally connected to the target connectors, and the target connectors at least partially retain the targets in the extended position when the targets are positioned in the shooting zone.
- the targets at least partially rest against the target connectors in the extended position during the shooting zone of the path.
- the targets in the fallen position are configured to reset to the extended position from the fallen position during the return zone of the path without the aid of a resetting mechanism.
- the shooting gallery comprises a support frame, one or more gears rotatably coupled to the frame, a power source coupled to the one or more gears, and a conveyor disposed on the one or more gears.
- the power source drives the conveyor through a loop including a shooting zone and a return zone.
- the shooting gallery further includes a plurality of target connectors coupled to the conveyor and a plurality of targets retained by the target connectors.
- the individual targets include a sleeve portion that removably and pivotally couples the targets to the individual target connectors. The targets are configured to pivot between extended and fallen positions, and to move laterally across the shooting gallery in a first direction through the shooting zone and in a second direction opposite the first direction through the return zone.
- the shooting gallery includes a target connector assembly including a target having a first portion and a target connector including side portions.
- the side portions can have an aperture configured to removably receive a pivot member.
- the first portion of the target is pivotally coupled to the pivot member.
- the assembly may be configured to increase the force required to pivot the target from an extended position to a fallen position.
- the shooting gallery includes a target connector assembly having a first portion that slidably engages a target connector retention guide rail that is mounted to a support member on the shooting gallery.
- the target connector may be configured so that the targets do not touch the target connector retention guide rail when they are in the extended position.
- Another embodiment of the invention is directed to a method of moving targets across a shooting gallery.
- the method comprises driving a conveyor with a power source through a cycle having a shooting phase and a return phase, wherein a plurality of target connectors are attached to the conveyor.
- the method further comprises pivotally connecting individual targets to the plurality of target connectors and moving the targets laterally across the shooting gallery in a first direction during the shooting phase.
- the targets move in the first direction and rotate between an extended position and a fallen position.
- the method further comprises moving the targets in a second direction opposite the first direction laterally across the shooting gallery during the return phase. In the return phase targets in the fallen position automatically reset to the extended position without the aid of a resetting device.
- Another embodiment of the invention includes a method of connecting a plurality of targets to a shooting gallery.
- the method comprises attaching a plurality of target connectors to a conveyor that travels in a loop relative to the shooting gallery and pivotally coupling a target to each of the target connectors with a removable pin.
- the pin is inserted through a sleeve portion of the targets such that the targets rotate about the pin between an extended position and a fallen position.
- the pin may include a torsion spring to urge the targets from the fallen position to the extended position.
- the targets automatically reset from the fallen position to the extended position without contacting any other device.
- FIG. 1A is an isometric view and FIG. 1B is a side view of a shooting gallery system 100 configured in accordance with one embodiment of the invention.
- the system 100 includes a first plate 110 attached to feet 114 and a support frame 120 .
- the first plate 110 protects other components of the system 100 from projectiles fired at the system 100 .
- the first plate 110 can be made of a material, such as steel, suitable for withstanding a varied caliber of projectiles.
- the first plate 110 includes a first side 111 that is angled slightly downward to deflect projectiles toward the ground.
- the first plate 110 may include a receptacle (not shown) to catch or collect the deflected projectiles.
- the feet 114 include elongated members 116 to provide a stable base for the system 100 and to at least partially prevent the system from moving or falling when a projectile strikes the first plate 110 .
- the feet 114 may include spiked or pointed ends (not shown) to facilitate embedding the feet 114 into the ground.
- the feet 114 may also be removably attached to the first plate 110 to facilitate transport or storage of the system 100 ; may fold into the system 100 to facilitate transport or storage; or may be fixedly attached to the first plate 110 to facilitate a more rugged construction.
- the illustrated feet 114 are configured to space the system 100 away from the ground at a height H.
- the feet 114 may be adjustable to adjust the angle or distance between the system 100 and the ground. For example, the angle between the system 100 and the ground may be adjusted to compensate for uneven ground or to stabilize the system 100 against a various caliber projectiles.
- the support frame 120 is connected to a power source 130 (shown in FIG. 2B ) that drives a conveyer 140 .
- the conveyor 140 can be a flexible conveyer that travels around the system 100 in an endless loop along a predefined path, as explained below regarding FIGS. 2A-B .
- the illustrated conveyor 140 is a belt; however, in other embodiments the conveyor 140 can include a wire, strap, cable, chain (e.g., a linked chain or roller chain), or any other device suitable for traveling around the system 100 .
- the conveyer 140 is mounted so that a plane bisecting the conveyer's longest axis is not perpendicular to a horizontal plane.
- the conveyor 140 travels over one or more gears (not shown) coupled to a tension device 136 (shown in FIG. 2B ) that is configured to adjust a tension in the conveyor 140 .
- the tension device 136 includes a set screw 137 that can increase or decrease the tension of the conveyor 140 .
- the system 100 further includes a plurality of target connectors 150 attached to the conveyor 140 .
- the target connectors 150 can be brackets, hinges, magnetic couplings, or mechanical or electromechanical connection means as are known in the art. Embodiments of the target connectors 150 are described in more detail below with respect to FIGS. 3A-3B and 4 C.
- Individual targets 170 are rotatably and removably attached to corresponding connectors 150 to move the targets 170 along the predefined path of the conveyor 140 .
- FIG. 2A is a schematic front view and FIG. 2B is a schematic back view of an embodiment of the shooting gallery system 100 .
- Like reference characters refer to like components in the Figures, and thus the description of such components will not be repeated with reference to all of the Figures.
- a few of the targets 170 are rotated into a fallen position 214 .
- the conveyor 140 moves the target connectors 150 and attached targets 170 laterally across the system 100 in a first direction 202 a in an active zone 210 , and in a second direction 202 b opposite the first direction 202 a in a return zone 220 .
- the targets 170 are in an extended position 212 such that at least a portion of each target 170 is visible to a shooter when viewing the system 100 from the first side 111 .
- the target 170 rotates to the fallen position 214 , which is out of view of the shooter in the active zone 210 .
- the targets 170 continue to travel with the conveyor 140 until they are reset to the extended position 212 in the return zone 220 .
- gravity at least partially aids in rotating and resetting the targets 170 from the fallen position 214 to the extended position 212 when the targets 170 are in the return zone 220 . Accordingly, fallen targets 170 automatically rotate from the fallen position 214 to the extended position 212 as they pass through the return zone 220 . Thus, gravity provides a sufficient force to rotate the targets 170 from the fallen position 214 into the extended position 212 .
- the target connectors 150 include a torsion spring or other mechanical device to urge the targets 170 from a fallen position 214 to an extended position 212 .
- the configuration of the targets 170 and/or target connectors 150 disclosed herein provides an eccentric weight over center to at least partially help reset the target 170 without the aid of a target rail or a resetting cam.
- a support portion 172 of each of the targets 170 is configured to be generally parallel with the first plate 110 in the extended and fallen positions 212 , 214 .
- the targets 170 tend to pivot towards the first plate 110 from the fallen position 214 to the extended position 212 in the return zone 220 .
- the targets 170 also tend to pivot towards the first plate 110 in the extended position when they are passing through the active zone 210 .
- the targets 170 can be otherwise configured to reset without the aid of an external mechanism.
- additional weight (not shown) may be attached to the support portion 172 of individual targets 170 to increase the tendency for the targets 170 to reset to and stay in the extended position 212 .
- the system 100 can include other features or components configured to move the targets 170 from the fallen position 214 to the extended position 212 , or to at least partially aid in doing so.
- the targets 170 travel through a transition zone 230 between the return zone 220 and the active zone 210 . Because the targets 170 have automatically righted themselves to the extended position 212 in the return zone 220 , the targets 170 enter the transition zone 230 in the extended position 212 and travel through the transition zone 230 in the extended position 212 . Accordingly, in certain embodiments no guide rail, target rail, reset cam or other reset surface or structure for contacting the targets 170 is necessary to reset them from the fallen position 214 . In addition, in certain embodiments the targets 170 are configured to travel through the active zone 210 without a support or other device contacting the support portion 172 of the targets 170 while in the extended position 212 . In other embodiments, however, the system 100 can include support members, resetting members or other devices to reset or support the moving targets 170 .
- the target connector 150 and geometry of individual targets 170 can be configured to support the targets 170 in both the extended position 212 and the fallen position 214 without requiring contact from other structures or devices. Accordingly, these embodiments eliminate the need for contact structures to reset the targets 170 or for a guide rail or other structure to support the targets 170 as they move. As such, the configuration of these embodiments can result in fewer components of the system, as well as in reduced cost and weight of the system 100 .
- the system 100 includes a second plate 112 (illustrated in FIGS. 1A , 1 B and 2 B).
- the second plate 112 can at least partially cover components of the system 100 and also aid in restricting the rotation of the targets 170 in the fallen position 214 .
- the targets 370 may contact and rest against the second plate 112 in the fallen position, in addition to, or in lieu of stops provided in the target connectors 150 as described below.
- One advantage of the second plate 112 is that the second plate 112 protects the other components of the system 100 from stray projectiles or fragments from projectiles.
- the targets 170 can bend or deform.
- the second plate 112 can accordingly at least partially shield components of the system 100 and prevent deformed targets 170 from contacting or damaging these components. Furthermore, the second plate 112 can also stabilize the conveyor 140 when a target moves from the extended position 212 to the fallen position 214 . For example, the pivoting movement of the targets 170 can occasionally cause other targets 170 to also fall. As such, at least partially supporting the targets 170 in the fallen position 214 with the second plate 112 can provide stability for other targets in the extended position 212 and further can inhibit bounce back.
- the system 100 can further include a wireless remote control unit 240 for controlling the movement of the targets 170 in the system 100 .
- the remote control unit 240 may be electrically connected to the power source 130 with a wire (not shown) of suitable length (e.g., 40 feet in a specific embodiment) to provide a safe shooting distance.
- the remote control unit 240 may be a radio frequency (RF) controlled remote.
- the remote control unit 240 can direct the speed and direction of the target 170 movement by controlling the speed and direction of the conveyer 140 .
- the remote control unit 240 can include a rheostat or potentiometer for speed adjustment.
- the remote control unit 240 can also be configured to vary the target speed from a maximum to a minimum over a period of time, such as periods of three seconds in a specific example.
- the remote control unit 240 can also be configured to periodically stop the targets 170 from moving. Accordingly, the remote control unit allows a shooter to adjust the target travel speed from a safe distance to provide a dynamic target shooting experience.
- a remote control unit 240 is not used and the shooting gallery 100 is operated by a power switch (not shown) contained on the system 100 .
- FIG. 3A is a schematic isometric view of a subassembly 300 configured in accordance with an embodiment of the invention.
- FIG. 3B is an enlarged isometric view of components of the subassembly 300 .
- the target assembly 300 includes a target 370 pivotally connected to a target connector 350 .
- the target 370 includes a target head 310 , an upper portion 372 extending from the target head 310 , and a lower portion 374 extending from the upper portion 372 to a sleeve 340 .
- the lower portion 374 includes an upper surface 376 and a lower surface 378 .
- the target 370 can be formed of a single piece of material suitable for being repeatedly shot with guns of varied calibers.
- the targets 370 can be formed of a single piece of hardened steel.
- the target 370 can also be formed from several pieces of material mechanically or otherwise fastened together.
- the illustrated target head 310 includes a generally round shape. In other embodiments, however, the target head 310 can include different sizes and shapes or configurations, such as, for example, animal shapes, face card symbols, bull's-eyes, stars or other shapes.
- the target head 310 is made from metal or a metal alloy.
- the targets can be nonmetallic, such as a ceramic, cardboard, composite, paper or the like.
- the illustrated target 370 includes a geometry that at least partially assists the target 370 in pivoting from the fallen position to the extended position without the use of any other contact device, as described above.
- the target 370 can include a bend between the target head 310 and the upper portion 372 , and a bend between the upper portion 372 and the lower portion 374 .
- the illustrated geometry of the target 370 also allows the target head 310 to be oriented generally perpendicular to a projectile source, such as a gun.
- the target 370 is pivotally connected to the target connector 350 .
- the target connector 350 includes a bottom surface 351 and sidewalls 352 extending from the bottom surface 351 .
- the sidewalls 352 are spaced apart from each other to allow at least part of the lower portion 374 of the target 370 to pass between the sidewalls 352 as the target 370 rotates.
- the target connector 350 further includes an opening 354 in each sidewall 352 to removably receive a pin 380 .
- the pin 380 is inserted through the sleeve 340 to allow the target 370 to rotate about the pin 380 .
- the illustrated pin 380 includes an aperture 382 for inserting a removable retaining member 384 , such as a cotter pin, to retain the pin 380 in the target connector 350 .
- the target connector 350 is configured to restrict the rotation of the target 370 so that a support member or other device is not required to support the target 370 .
- the target connector 350 can restrict the position of the target 370 in the fallen position and in the extended position (the target illustrated in FIGS. 3A and 3B is in the extended position).
- the target connector 350 can include a stop 360 configured to restrict the rotation of the target 370 and support it in the fallen position. As the target 370 rotates to the fallen position, the upper surface 376 contacts the stop 360 thus halting the rotation of the target 370 .
- the stop 360 can be an integral component with the target connector 350 , or the stop 360 can be attached to the target connector 350 . As illustrated in FIG.
- the target connector 350 can include a bracket, hinge, magnetic coupling, and/or other mechanical or electromechanical device configured to control or restrict the rotation of the target 370 about the target connector 350 .
- the configuration of the target 370 and the target connector 350 illustrated in FIGS. 3A and 3B can provide many benefits, offering a variety of advantages over existing shooting galleries.
- the configuration of the target connector 350 allows a shooter to change the target 370 as it becomes worn or deformed.
- a shooter can change or replace the target 370 without using a tool as the retaining member 384 keeping the pin 380 in the sleeve 340 is easily removable.
- a shooter can replace individual targets 370 with a preferred shape, size or a combination of different shapes and sizes, thereby adding variability to the target selection.
- the configuration of the target 370 and target connector 350 eliminates the need for a contact member or rail to support the target 370 in the extended position during the shooting phase or to reset the targets 370 from the fallen position to the extended position.
- FIGS. 3B-3D illustrate additional features of the corresponding targets 370 and target connectors 350 to at least partially retain the targets 370 in the upright extended position.
- FIGS. 3C is a side cross-sectional view along the line 3 C- 3 C of FIG. 3B
- FIG. 3D is also a side cross-sectional view along the line 3 D- 3 D of FIG. 3B
- the sleeve 340 of the target 370 includes a circular or annular body 342 having an outer surface 344 .
- a first protrusion 362 (shown in broken lines) is positioned on the outer surface 344 and has a gradually increasing thickness forming a ramp or wedge-like configuration.
- the first protrusion 362 includes a contact surface 364 configured to contact the stop 360 to initially and at least partially impede rotation of the sleeve 340 in the direction indicated by the arrow 365 representing the direction that the target 370 falls.
- the configuration of the first protrusion 362 including the gradually increasing thickness, allows the sleeve 340 to rotate more easily in the direction indicated by an arrow 366 representing the direction that the target 370 rotates into the extended position. Accordingly, the first protrusion 362 can at least partially retain or lock the targets 370 in the extended position and at least partially prevent targets that are not struck with a projectile or other unintended targets from rotating to the fallen position.
- first protrusion 362 extends across only a portion of the width of the sleeve 340
- first protrusion 362 can extend the entire width of the sleeve 340
- other retaining devices can include a magnet, electromagnetic device or a mechanical retention means to retain target assemblies against certain forces.
- the target connector 350 includes a second retaining device illustrated as a second protrusion 368 (shown in broken lines) on the sidewall 352 of the target connector 350 .
- the second protrusion 368 can be positioned proximate to the lower portion 374 of the target 370 and configured similarly to the first protrusion 362 of the sleeve 340 .
- the second protrusion 368 can at least partially resist the rotation of the target to the fallen position, unless a sufficient impact force, for example from a projectile, is applied to the target head 310 .
- the second protrusion 368 contacts the lower portion 374 of the target 370 as it rotates to the fallen position, and accordingly at least partially retains the target 370 in the extended position.
- the second protrusion 368 allows the lower portion 374 to more easily rotate past the second protrusion 368 in the direction toward the extended position from the fallen position.
- the second retaining device can be a magnet, an electromagnetic device or a mechanical retention means to retain target assemblies against certain forces.
- FIG. 4A is a side view of a shooting gallery system 400
- FIG. 4B is an isometric view of a target 470
- FIG. 4C is an isometric view of a target connector 450 according to further embodiments of the invention.
- the illustrated system 400 is generally similar to the system 100 described above with reference to FIGS. 1A-2B .
- the system 400 includes the first plate 110 attached to the frame 120 , and the conveyer 140 coupled to the tension device 136 .
- the system 400 includes, however, another embodiment of feet 414 having elongated members 416 configured in a stabilizing geometric configuration.
- the illustrated system 400 further includes the target 470 and corresponding target connectors 450 illustrated in FIGS. 4B and 4C .
- the target 470 includes a target head 410 and support portion 472 having an upper surface 474 and a lower surface 478 .
- the illustrated target 470 includes only a single bend between the head 410 and the support portion 472 .
- the target 470 also includes a sleeve 440 to attach the target 470 to the pin 380 .
- the target connector 450 illustrated in FIG. 4C includes features generally similar to the target connector 350 described above.
- the target connector 450 includes first and second sidewalls 352 each having the opening 354 configured to receive the pin 380 to attach corresponding targets 470 .
- the illustrated target connector 450 also includes first stops 460 to contact the upper surface 474 of the target 470 in the fallen position.
- the target connector 470 also includes second stops 462 to contact the lower surface 478 of the target 470 in the extended position (see, e.g., FIG. 4A ). Accordingly, the first and second stops 460 , 462 restrict the rotation of the target 470 to limit the range of motion from in the fallen and extended positions.
- the target connector 450 further includes a tab 480 extending from the sidewalls 352 .
- the tab 480 extends from the target connector 450 to contact a conveyor retention device 482 attached to the first plate 110 of the assembly 400 .
- the tab 480 can slidably engage the retention device 482 when the targets 470 rotate around the system in the extended position.
- the twisting motion of the conveyor 140 can cause other unintended targets 470 to also fall and rotate to the fallen position.
- the retention device 482 can contact the tabs 480 of corresponding target connectors 450 to prevent the conveyor 140 from twisting during projectile impact.
- first stops, 460 , second stops 462 and tab 480 can be integral components forming a single piece construction of the target connector 450 . In other embodiments, however, these components can be separate components that are individually attached (e.g., welded) to the target connector 450 .
- FIGS. 5A-5F , 5 H and 5 I are schematic side views of subassemblies 520 , 530 , 540 , 550 , 560 , 570 , 580 and 585 , respectively, and FIG. 5G is a schematic front view of a subassembly 575 , each of which are configured in accordance with further embodiments of the invention.
- the subassemblies illustrated in FIGS. 5A-5I include various embodiments for supporting a target 508 in the extended position while the target 508 is presented to the shooter (e.g., in the active zone shown 210 in FIG. 2A ).
- the targets 508 illustrated in FIGS. 5A-5I can have a configuration generally similar to the target 470 described above and illustrated in FIG.
- the targets 508 include a head 510 and a support portion 512 coupled to a target connector 518 .
- the target connectors 518 can also be configured to have features generally similar to some of the features of the target connectors described above. In the embodiments illustrated in FIGS. 5A-5I , however, the target connector 518 is not required to have a stop to contact and support the support portion 512 of the target 508 when the target 508 is in the extended position. Rather, other means are used to support the target 508 in the extended position.
- the subassembly 520 illustrated in FIG. 5A includes an embodiment wherein the target 508 is supported and slides against a top portion 503 of the first plate 110 . Accordingly, the illustrated embodiment provides the benefit of using the existing first plate 110 as the support for the target 508 , rather than including a stop in the target connector 518 or a separate rail assembly.
- the target 508 includes a forward extension member 532 projecting from the support portion 512 of the target 508 towards the interior surface of the support plate 110 .
- the support plate 110 includes a corresponding support member 534 projecting towards the target 508 and positioned generally below the extension member 532 .
- the support member 534 can extend the width of the first plate 110 , and the extension member 532 can accordingly slide along the support member 534 while the target 508 is in the extended position.
- the extension member 532 and the support member 534 can have different shapes and configurations than those illustrated in FIG.
- the support member 534 can be a cable or an adjustable contact bar which can be removeably attached to the first plate 110 and/or the frame 120 .
- the extension member 532 and the support member 534 can be integral components of the target 508 and the first plate 110 , respectively. In other embodiments, however, these members can be separate components attached to the target 508 , the first plate 110 and/or the frame 120 .
- the subassembly 540 includes a cable member 542 running generally parallel to an interior surface 501 of the first plate 110 in the active zone. Accordingly, the support portion 512 slides along the cable member 542 and is supported by the cable member 542 as the target 508 moves in front of a shooter in the extended position.
- the cable member 542 can include other configurations, such as, for example, a wire, rope, cord, string or other suitable member to support the target 508 .
- the cable member 542 can be adjustable to calibrate a target resistance to moving between the extended position and the fallen position.
- the target 508 includes a rear extension member 552 projecting from the support portion 512 .
- the rear extension member 552 projects in a direction away from the first plate 110 and is configured to contact a support member 554 as the target 508 rotates into the extended position.
- the support member 554 accordingly stops and retains the target 508 as it rotates into the extended position.
- the support member 554 may be V-shaped to allow a contact surface for the rear extension member 552 and/or the head 510 .
- the support member 554 can be attached to portions of the shooting gallery assemblies described above.
- the support member 554 can be attached to the second plate 112 or the frame 120 (see, e.g., FIGS. 1A and 1B ).
- the rear extension member 552 as well as the support member 554 , can be integral or separate components with the target 508 and other structures of the shooting gallery assemblies.
- a flexible connector 564 is attached to a target connector 562 and the support portion 512 of the target 508 .
- the flexible connector 564 has a fixed length to retain the target 508 in the extended position.
- the illustrated target connector 562 includes an elongated base 563 , and the flexible connector 564 is attached to the target connector 562 at an attachment location 565 behind the target 508 .
- the flexible connector 564 is also attached to the support portion 512 of the target 508 proximate to the target head 567 .
- the connector 564 can have an adjustable length to alter the rotation of the target 508 towards the extended position.
- the flexible connector 564 can be composed of a braided wire, chain, cable, rope, cord, string or other suitable flexible connector.
- the subassembly 570 illustrated in FIG. 5F includes one or more magnetic sources to retain the target 508 in the extended position and at least partially prevent the target 508 from unintentionally rotating to the fallen position.
- the support portion 512 of the target 508 includes a first magnet 572
- the first plate 110 includes a second magnet 574 .
- the first and second magnets 572 , 574 create an attractive force to at least partially retain the target 508 in the extended position proximate to the first plate 110 as the target passes in front of a shooter.
- the first and second magnets 572 , 574 are at least partially embedded in the target 508 and the first plate 110 , respectively.
- either magnet can be embedded or attached to the target 508 or first plate 110 .
- the second magnet 574 can extend the entire width of the first plate 110 . In other embodiments, however, the second magnet can extend a shorter distance in the first plate 110 .
- one of the first and second magnets 572 , 574 can be omitted from the subassembly. For example, in embodiments where the targets 508 are composed of a magnetically attractive material (e.g., steel), the targets 508 may not include the first magnet 572 . Conversely, in embodiments wherein the first plate 110 is composed of a magnetically attractive material, the second magnet 574 may be omitted.
- FIG. 5G is a front view of a subassembly 575 including a pin 576 pivotally connecting the target 508 to the target connector 518 .
- the target connector 518 is configured to retain the target 508 in the extended position. More specifically, the target connector 518 includes a protrusion 577 extending towards a sleeve 578 of the target 508 such that the protrusion 577 contacts the sleeve 578 when the target 508 is fully extended in the extended position. The protrusion 577 , however, does not contact the sleeve 578 during the range of motion from the fallen position to the extended position.
- the sleeve 578 has a channel 579 corresponding to the protrusion 577 to allow the sleeve 578 to freely rotate over the protrusion 577 in the range of motion when the target is not in the extended position.
- the protrusion 577 is not positioned within the channel 579 and the sleeve 578 rotates onto the protrusion 577 to retain the target 508 in the extended position.
- the tolerances between the pin 576 and the sleeve 578 can be configured to accommodate a slight displacement of the sleeve 578 as the sleeve 578 rotates onto the protrusion 577 .
- the subassembly 580 illustrated in FIG. 5H includes a first target 508 a sliding along a support member 581 in the active zone (i.e., in the extended position) and a second target 508 b that is not supported in the return zone 220 (see, e.g., FIGS. 2A and 2B ). More specifically, the first plate 110 includes a support member 581 projecting towards the first target 508 a.
- the support member 581 can be configured to be generally similar to the support member 534 described above and illustrated in FIG. 5B . For example, the support member 581 can contact and support the target 508 a while the target moves in the extended position.
- the first target 508 a does not include an extension member, but rather the target 508 a itself contacts the support member. Accordingly, as the target 508 a moves in the extended position it contacts and slides along the support member 581 . In the return zone 220 , however, the target 508 b does not contact other members and relies on gravity alone to reset into the extended position.
- the support member 581 can be a cable, an adjustable bar or other supporting structure as would be understood by one skilled in the art.
- the subassembly 585 illustrated in FIG. 5I is generally similar to the subassembly 580 illustrated in FIG. 5G , except that in this embodiment, the second target 508 b contacts and slides along a support member 586 in the return zone 220 , and the first target 508 a is only supported by the target connector 518 in the active zone 210 . Accordingly, a support member 586 extends from the interior surface of the first plate 110 towards the second target 508 b in the return zone 220 . The support member 586 is configured to at least partially help reset the targets as they move from the return zone 220 into the active zone 210 . In certain embodiments, the support member 586 can be a cable, an adjustable bar or other supporting structure as would be understood by one skilled in the art.
- FIGS. 6A and 6B are isometric views illustrating subassemblies 610 , 620 , respectively, which are also configured to support a target 602 in the extended position.
- the illustrated target 602 is in the extended position and can have a configuration generally similar to the target 370 described above with reference to FIG. 3A .
- the target 602 pivotally connects to a target connector 608 with a pin 612 , and includes a target face 603 to be struck by a projectile.
- the illustrated target connector 608 is coupled to a roller chain having a plurality of links 615 .
- support members 618 are coupled to opposite sides of a corresponding link 615 .
- Individual stops 614 are positioned on the first and second support members 618 a, 618 b, and the target connector is removably attached to a corresponding stop 614 and support members 618 a, 618 b.
- a fastener 611 e.g., a bolt, screw, etc.
- Each stop 614 includes an upright member 616 projecting from the stop 614 to contact a corresponding protruding member 604 (identified individually as first and second protruding members 604 a, 604 b ) projecting from the target 602 .
- the protruding members 604 project laterally from sides of the target 602 to contact the upright members 616 . Accordingly, as the target 602 rotates into the extended position, the laterally protruding members 604 contact the corresponding upright members 616 of each stop 614 to halt the rotation of the target 602 and support the target 602 in the extended position.
- the configuration of the subassembly 620 illustrated in FIG. 6B is generally similar to the subassembly 610 illustrated in FIG. 6A .
- the target 602 includes a curved forward extension member 606 , rather than the laterally protruding members 604 illustrated in FIG. 6A , to support the target 602 in the extended position. More specifically, the forward extension member 606 projects from the target 602 and generally curves towards a chain link 615 below the target 602 . As the target 602 rotates forward into the extended position, the forward extension member 606 contacts corresponding first support members 618 a proximate to the chain links 615 . Because the forward extension member 606 directly contacts the first support member 618 a, the target connector 608 can be attached (e.g., with the fastener 611 ) to first and second support members 618 a, 618 b without any intervening structure.
- the target 602 can also include an optional curved rearward extension member 607 (shown in broken lines) projecting in a direction generally opposite from the forward extension member 606 .
- the rearward extension member 607 projects from the target and curves towards the second support members 618 b proximate to the chain link 615 below the target 602 .
- the illustrated configuration of the subassembly 620 can restrict the rotation of the target 602 and support the target 602 in the extended and fallen positions without the aid of any other structure or device.
- FIGS. 7A-7C illustrate additional embodiments of subassemblies 710 , 720 and 730 having other features configured to restrict the rotation of the targets, as well as support the targets in the extended or fallen positions.
- FIG. 7A is an exploded isometric view of a subassembly 710 including a target 704 a pivotally coupled to a target connector 712 a with a pin 718 a.
- Certain aspects of the subassembly 710 can be generally similar to aspects of the embodiment described above with reference to FIGS. 3A-3C .
- the target connector 712 a includes spaced apart sidewalls 715 each having an opening 714 to receive the pin 718 a.
- the target 704 a does not freely rotate about the pin 718 a. Rather, the target 706 a has a sleeve 706 a including a securing member 707 (e.g., a set screw, bolt, pin etc.) to secure the sleeve 706 a to the pin 718 a such that the target 704 a rotates with the pin 718 a.
- a securing member 707 e.g., a set screw, bolt, pin etc.
- Each sidewall 715 of the illustrated target connector 712 a includes a protrusion 716 (identified individually as first and second protrusions 716 a, 716 b ) extending into each of the openings 714 .
- the illustrated pin 718 a includes a slot 720 aligned with the first and second protrusions 716 a, 716 b extending into the openings 714 .
- the slot 720 can extend the entire length of the pin 718 a. In other embodiments, however, the slot 720 can be at end portions of the pin 718 a to engage the protrusions 716 .
- the slot 720 has a width W that is greater than a thickness T of each of the protrusions 716 a, 716 b.
- the width W of the slot 720 corresponds to the range of rotation of the target 704 a from the extended position to the fallen position. Accordingly, as the pin 718 a rotates in the openings 714 , the first and second protrusions 716 a, 716 b engage the slot 720 to limit the rotation of the pin 720 . Because the sleeve 706 a is secured to the pin 718 a with the securing member 707 , the rotation of the target 704 a is limited to the rotation of the pin 718 a.
- the subassembly illustrated in FIG. 7B includes a target 704 b that having a sleeve 706 b that limits the rotation of the target 704 b, rather than the pin 718 a illustrated in FIG. 7A .
- the sleeve 706 b freely rotates about a pin 718 b.
- the sleeve 706 b is configured to contact the target connector 712 b to restrict the rotation of the target 704 b. More specifically, the sleeve 706 b includes a channel 708 at an outer surface of the sleeve 706 b that engages a protrusion 717 extending from a base 713 of the target connector 712 b.
- the channel 708 can extend the entire length of the sleeve 706 b, and the protrusion 717 can extend between the sidewalls 715 . In other embodiments, however, the channel 708 can extend along the sleeve 706 b at a certain distance corresponding to a length of the protrusion 717 .
- the protrusion 717 has a thickness T that is less than a width W of a channel 708 .
- the width W of the channel 708 corresponds to the range of rotation of the target 704 b from the extended position to the fallen position. Accordingly, as the sleeve 706 b rotates about the pin 718 b, the protrusion 717 engages the channel 708 to limit the rotation of the target 704 b between the extended and fallen positions.
- FIG. 7C is a side view illustrating another embodiment of a subassembly 730 having features configured to limit the rotation of a target 732 (shown as an extended target 732 a, and in broken lines as a fallen target 732 b ).
- the target 732 is carried on a chain 737 and interacts with an elliptical link 738 a of the chain 737 to limit the rotation of the target 732 between the extended and fallen positions.
- a first link 738 a of the chain 737 is shown extending out of the plane of the page, and a second link 738 b is shown extending into the plane of the page.
- the target 732 includes a target face 734 shown facing to the left, and a lower portion 735 of the target 732 is positioned within the elliptical link 738 a.
- an upper surface 740 of the target 732 a contacts an upper portion of the link 738 a and a lower surface 742 of the target 732 a contacts a lower portion of the link 738 a.
- a projectile (not shown) strikes the target face 734
- the lower portion 735 of the target 732 pivots in the link 738 a until the link 738 a restricts the rotation of the target 732 .
- the target 732 also includes an enlarged end portion 736 to prevent the target 732 from slipping out of the link 738 a.
- FIGS. 8A and 8B are schematic side views of subassemblies 810 and 820 , respectively, configured to reset a target 802 pivotally attached to a target connector 804 .
- the subassembly 810 includes an extended target 808 a (shown in broken lines), and a fallen target 808 b.
- the subassembly 810 includes a rotating member 806 that is configured to move the fallen target 802 b into the extended position. More specifically, the rotating member 806 includes a support surface 808 that contacts and lifts the target 802 b.
- the rotating member 806 When the rotating member 806 is actuated, it rotates about a pivot point 809 in the direction indicated by an arrow 805 .
- the rotating member 806 can accordingly be pivotally attached to a component (not shown) of the shooting gallery to rotate the fallen target 802 b about the target connector 804 and into the extended position.
- the subassembly 820 illustrated in FIG. 8B includes a biasing member 826 configured to urge the fallen target 802 b into the extended position.
- a retaining member 822 having a catch 824 retains the target 802 b and compresses the biasing member 826 .
- the subassembly 8 B can be configured such that when the target connector 804 moves across the shooting gallery 802 b, the catch 824 is released and the biasing member 826 pivotally urges the target 802 b away from the target connector 804 into the extended position.
- FIG. 8C illustrates a further embodiment of a shooting gallery system 830 configured to reset fallen targets 802 to the extended position.
- a plurality of targets 802 (identified individually as extended targets 802 a, fallen targets 802 b, transition targets 802 c and return targets 802 d ) move around system 830 in the direction indicated by an arrow 831 .
- the assembly 830 also includes a first cover plate 832 and a second cover plate 834 , each of which can be configured and positioned to protect the internal components of the assembly 830 .
- the second cover plate 834 can also act as a support surface for the fallen targets 802 b.
- the targets 802 can contact and slide against the first cover plate 832 as they rotate into the fallen position.
- a reset member 836 engages the fallen targets 802 b to move them into the extended position as the fallen targets 802 b slide along the first cover plate 832 .
- a first portion 838 of the reset member 836 engages the fallen targets 802 b and a curved geometry of the reset member 836 lifts them off of the first cover plate 832 and towards a support member 840 .
- the reset member 836 urges the transition target 802 c into the extended position and onto the support member.
- the support member 840 can accordingly support the transition targets 802 c and the return targets 802 d in the transition and return zones, respectively.
- FIGS. 9A and 9B illustrate additional embodiments of shooting gallery systems 910 and 920 , respectively, including features configured to generally cushion or at least partially absorb the force from the toppled targets. More specifically, FIG. 9A is a side view of the shooting gallery system 910 with targets 170 (identified individually as targets first, second, third and fourth targets 170 a - 170 d ). The first target 170 a is shown in the extended position and the second target 170 b is shown in the fallen position, both of which are in the active zone 210 (see, e.g., FIG. 2A ).
- targets 170 identified individually as targets first, second, third and fourth targets 170 a - 170 d .
- the first target 170 a is shown in the extended position and the second target 170 b is shown in the fallen position, both of which are in the active zone 210 (see, e.g., FIG. 2A ).
- target connectors 904 connect individual targets 170 to the conveyor 140 .
- Individual target connectors 904 include a forward stop 906 configured to support the targets 170 in the extended position.
- the target connectors 904 do not include a rear stop to inhibit to stop or inhibit the rotation of the targets 170 into the fallen position. Rather, the system 910 includes an impact absorbing member 912 coupled to the second plate 112 .
- the absorbing member 912 can extend the width of the second plate 112 and be positioned on the second plate 112 to contact the heads of the targets 170 as they rotate into the fallen position. Accordingly, the force of the falling target 170 b is spread throughout the absorbing member 912 and not returned to the target 170 b.
- the absorbing member 912 includes an extension 914 projecting from the absorbing member 912 and second plate 112 . The extension 914 adds energy dissipating mass to the absorbing member 912 to at least partially dissipate the force of the falling targets 170 .
- the absorbing member 912 can be composed of a resilient material, such as an elastomer or rubber material, to partially cushion and absorb the force of the toppled targets 170 .
- the absorbing member 912 can have other configurations or be made from different materials.
- the system 910 illustrated in FIG. 9A also includes a reinforced upper portion of the first plate 110 .
- the first plate 110 includes a strip 901 of reinforcement material attached to the first plate 910 at a location that is likely to be repeatedly struck with projectiles.
- the strip 901 can be composed of the same material as the first plate 110 and increase the thickness of the upper portion of the first plate.
- the strip 901 can be an integral part of the first plate 110 .
- the strip 901 provides the benefit of reinforcing the upper portion of the first plate 110 . As such and in certain embodiments, the remainder of the first plate 901 can be made to have a thinner cross-section to conserve material for cost and weight purposes.
- the illustrated system 910 also includes legs 902 (identified individually as a first leg 902 a and a second leg 902 b ) having independently adjustable feet 903 .
- the feet 903 can be threadably engaged with corresponding legs 902 to provide an elevation adjustment. For example, rotating a foot 903 can adjust a height of the foot with reference to the corresponding leg 902 .
- the system 910 can accordingly be used on uneven terrain or support surfaces.
- FIG. 9B is a side view of a shooting gallery system 920 configured in accordance with another embodiment of the invention.
- the illustrated system 920 includes features generally analogous to the system 910 illustrated in FIG. 9A .
- the target connectors 904 include the forward stop 904 to support corresponding targets 170 in the extended position.
- the target connectors 904 include a rear stop 908 to inhibit the rotation of the targets 170 in the fallen position, rather than relying on the second plate 112 (illustrated in FIG. 9A ) to stop the targets in the fallen position.
- the system 920 also includes a resilient member 922 configured to retain the targets 170 in the fallen position.
- the resilient member 922 can be attached to first and second support members 921 , 923 extending from the second leg 902 b of the system 920 . In other embodiments, the resilient member 922 can be attached to other components.
- the resilient member 922 has a generally wedge-shaped configuration including a tapered end portion 924 .
- the tapered end portion 924 is positioned such that the uppermost portions of the heads of the targets 170 contact and deflect the end portion 924 as the targets 170 rotate into the fallen position.
- the resilient member 922 is configured such that the impact force of the falling targets is sufficient to deflect the tapered end portion 924 to pass beneath the resilient member 922 .
- the resilient member 922 can have a length (not shown) that extends most of the width of the system 910 . Once the targets 170 have traveled outside the length of the resilient member 922 , they can reset or be reset to the extended position without interference from the resilient member. Accordingly, the resilient member 922 prevents unintended targets 170 from falling by at least partially absorbing the impact force of the targets 170 that are hit by a projecting and retaining the fallen targets 170 in the fallen position.
- FIGS. 10A-10B are schematic front views of alternative shooting gallery configurations in accordance with further embodiments of the invention. More specifically, FIG. 10A is a schematic front view of an embodiment of a shooting gallery system 1010 . Like reference characters refer to like components in the Figures, and thus the description of such components will not be repeated with reference to all of the Figures. As illustrated in FIG. 10A , the shooting gallery system 1010 allows presentation of targets 1004 a, 1004 b, 1004 c along multiple sections of the system 1010 .
- the system 1010 is oriented in a vertical direction such that targets 1004 a are presented along a first side section 1008 a, targets 1004 b are presented along a top section 1009 , and targets 1004 c are presented along a second side section 1008 b.
- the shooting gallery configuration shown in FIG. 10A provides the shooter the opportunity to shoot at targets moving up/down, and left/right, thus providing a more challenging shooting scenario.
- FIG. 10B is a schematic front view of yet another embodiment of a shooting gallery system 1022 .
- the shooting gallery system 1022 includes attachment device 1024 configured to suspend the shooting gallery system 1022 from a tree or other support structure and targets 1004 .
- the attachment device 1024 can be a chain, rope, cable, bar or similar attachment mechanism suitable for suspending the system 1022 from a support structure.
- FIGS. 11A-11E are schematic back views of shooting galleries configured in accordance with further embodiments of the invention.
- various linear motion devices for moving the targets are illustrated.
- FIG. 11A illustrates a shooting gallery system 1110 including worm gear 1106 , drive motor 1108 , support bracket 1112 , a plurality of target connectors 1104 corresponding to a plurality of targets 1102 and a controller 1114 .
- the worm gear 1106 rotary movement is illustrated by arrow 1113 .
- the rotation of the worm gear 1106 causes the targets 1102 to move in a left-right direction as illustrated by directional arrow 1111 .
- the rotation of the worm gear 1106 can be reversed at the controller 1114 , by means of an automatic timer associated with the motor 1108 , and/or by an actuator or captured spring system as is known by those skilled in the art.
- FIG. 11B illustrates a shooting gallery system 1120 including a linear actuator 1122 , a plurality of target connectors 1104 corresponding to a plurality of targets 1102 and a support member 1128 .
- the linear actuator 1122 includes a drive shaft 1124 coupled to an extension member 1126 .
- the extension member 1126 couples to the drive shaft 1124 at a proximal end and rests on a support member 1128 at a distal end.
- the linear actuator 1122 moves the drive shaft 1124 which in turn moves the extension member 1126 .
- the target connectors 1104 couple to the targets 1102 and to the extension member 1126 to move the targets 1102 with the extension member 1126 as the extension member 1126 moves in a left-right direction as illustrated by directional arrow 1111 .
- FIG. 11C is similar to FIG. 11B except the actuator in FIG. 11C is hydraulic.
- FIG. 11C illustrates a shooting gallery system 1130 including a hydraulic actuator 1132 , a plurality of target connectors 1104 corresponding to a plurality of targets 1102 and support members 1138 .
- the hydraulic actuator 1132 includes a hydraulic hose 1134 coupled to an extension member 1136 by coupling 1135 .
- the extension member 1136 couples to the hydraulic hose 1134 at a proximal end and rests on support members 1138 at the proximal and the distal end.
- the target connectors 1104 couple to the targets 1102 and to the extension member 1136 to move the targets 1102 with the extension member 1136 as the extension member 1136 moves in a left-right direction as illustrated by directional arrow 1111 .
- the targets 1102 may be reset by an actuator, a captured spring system, a controller, or similar means.
- FIG. 11C illustrates a shooting gallery system 1130 including piston actuators 1142 a, 1142 b, an extension member 1146 , a support member 1148 , and a plurality of target connectors 1104 corresponding to a plurality of targets 1102 .
- the piston actuators 1142 a, 1142 b include pistons 1144 a, 1144 b configured to contact the extension member 1146 at a distal and a proximal end.
- the extension member 1146 pivots about the support member 1148 at an approximate mid-point.
- the target connectors 1104 couple to the targets 1102 and slidably connect to the extension member 1146 to allow the targets 1102 to slide along the extension member 1146 as shown by arrow 1141 when the piston actuator 1142 a is in an extended position and piston actuator 1142 b is in a withdrawn position (or vice versa).
- Targets 1102 move in a left-right direction as illustrated by directional arrow 1111 .
- FIG. 11C illustrates a shooting gallery system 1130 including gear actuators 1152 a, 1152 b, 1154 a, 1154 b, an extension member 1156 , and a plurality of target connectors 1104 corresponding to a plurality of targets 1102 .
- the gear actuators 1152 a, 1152 b, 1154 a, 1154 b are configured to drive the extension member 1156 , shown in the illustrative embodiment as a chain, at a distal and a proximal end.
- the extension member 1156 is supported by the gear actuators 1152 a, 1152 b, 1154 a, 1154 b.
- a gear or other support member may further be included at a midpoint or along the length of the extension member 1156 to provide additional support.
- the target connectors 1104 couple to the targets 1102 and to the extension member 1156 to move the targets 1102 with the extension member 1156 as the extension member 1156 moves in a left-right direction as illustrated by directional arrow 1111 .
- FIG. 12A is a schematic front view and FIGS. 12B and 12C are schematic back views of shooting galleries configured in accordance with further embodiments of the invention.
- FIGS. 12A and 12B illustrate a shooting gallery system 1210 including two rotary members 1206 a, 1206 b rotationally moving targets 1202 as illustrated by directional arrow 1211 .
- the rotary members 1206 a, 1206 b shown in FIGS. 12A and 12B move independently, thus allowing one to rotate at a different speed than the other.
- the rotary members 1206 a, 1206 b further include target connectors 1204 coupled to targets 1202 shown in a configuration that presents the targets 1202 to the shooter at fixed interval distances.
- the targets 1202 may be presented in intervals of varying distances.
- the front face of the shooting gallery system 1210 is curved to reveal more targets 1202 at one time.
- the front face of the shooting gallery system 1210 could be of any other geometric shape to all more or fewer targets to be revealed to the shooter.
- FIG. 12C illustrates a shooting gallery system 1220 including two rotary members 1206 a, 1206 b linked by an actuator 1222 .
- the actuator 1222 may include a chain, rope, belt, cable, or any other actuator as described above.
- the rotary members 1206 a, 1206 b shown in FIG. 12C move in unison, thus allowing each to rotate at the same speed.
- the rotary members 1206 a, 1206 b further include target connectors 1204 coupled to targets 1202 .
- the target 1202 movement in shooting gallery system 1220 is rotary as illustrated by directional arrow 1221 .
- FIG. 13A is an isometric view of a protective housing 1300 for use with the shooting gallery.
- the protective housing 1300 can at least partially surround the power source 130 (see, e.g., FIG. 2B ) to shield the power source from the projectiles.
- wires that connect the power source 130 e.g., a battery
- remote control are shielded from projectiles with cable shields, shown in FIG. 5B .
- FIG. 5B more specifically, illustrates power cord protection members 1310 adjacent to the power cord (not shown) and positioned to protect the power cord from stray projectiles.
- the illustrated power cord protection members 1310 are shown connected generally at a right angle, however, as understood by one skilled in the art, the protection members 1310 could be U-shaped, C-shaped, tubular or the like. Furthermore, the protection member 1310 can be made of any material suitable to protect the power cord from a projectile, such as, for example, steel.
Abstract
Shooting gallery devices and methods are disclosed herein. In one embodiment, a shooting gallery includes a plurality of targets rotatably connected to a plurality of target connectors. The targets rotate between an extended position and a fallen position. The target and target connector assembly at least partially retains the targets in the extended position and/or prevents the targets from rotating from the extended position to the fallen position. Furthermore, the targets and target connector assemblies are configured to reset from the fallen position to the extended position without a rail guide or reset cam.
Description
- This application is a Continuation-in-Part of U.S. patent application Ser. No. 11/679,136 filed Feb. 26, 2007, which claims the benefit of U.S. Provisional Patent Application No. 60,776,469, filed Feb. 24, 2006, the disclosures of which are incorporated herein in their entirety by reference.
- The present disclosure is directed to shooting galleries and methods of operating shooting galleries.
- Shooting galleries have existed for many years, providing amateurs and professionals alike the opportunity to shoot a firearm at a moving target for fun, skill, sport, enjoyment, and/or practice. Shooting galleries range from those found at amusement parks using numerous types of projectiles (water, cork, beans, BB's) to galleries designed for high power rifles. Conventional shooting galleries include multiple targets moving on an endless chain or belt in front of a shooter. As the targets pass laterally in front of a shooter, the shooter attempts to hit the targets with a projectile to knock the targets over. When a shooter successfully hits a target, the target temporarily disappears from view. The target then travels around a loop and reappears upright in front of the shooter. Most shooting galleries typically reset the targets by using a complex system including guides, reset cams and target rails to direct the targets upright again. One example of a shooting gallery device requiring a target rail to reset and retain the targets in an upright position along the target track is disclosed in U.S. Pat. No. 6,736,400 issued to Cesternino. These components increase the cost, complexity, size and weight of the gallery.
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FIG. 1A is an isometric view andFIG. 1B is a side view of a shooting gallery configured in accordance with one embodiment of the invention. -
FIG. 2A is a schematic front view andFIG. 2B is a schematic back view of a shooting gallery configured in accordance with an embodiment of the invention. -
FIG. 3A is an isometric view andFIG. 3B is an enlarged isometric view of a target and target connector subassembly configured in accordance with further embodiments of the invention.FIG. 3C is a schematic side view taken along theline 3C-3C ofFIG. 3B , andFIG. 3D is a schematic side view taken along theline 3D-3D ofFIG. 3B . -
FIG. 4A is a side view of a shooting gallery configured in accordance with another embodiment of the invention.FIGS. 4B and 4C are isometric views of a target and target connector, respectively, configured in accordance with embodiments of the invention. -
FIGS. 5A-5F are schematic side views,FIG. 5G is a schematic front view, andFIGS. 5H and 5I are schematic side views of subassemblies configured in accordance with further embodiments of the invention. -
FIGS. 6A and 6B are isometric views of subassemblies configured in accordance with further embodiments of the invention. -
FIGS. 7A and 7B are schematic isometric views andFIG. 7C is a schematic side view of subassemblies configured in accordance with further embodiments of the invention. -
FIGS. 8A and 8B are schematic side views of subassemblies andFIG. 8C is an isometric view of a shooting gallery configured in accordance with further embodiments of the invention. -
FIGS. 9A and 9B are side views of shooting galleries configured in accordance with further embodiments of the invention. -
FIGS. 10A-10B are schematic front views of shooting galleries configured in accordance with further embodiments of the invention. -
FIGS. 11A-11E are schematic back views of shooting galleries configured in accordance with further embodiments of the invention. -
FIG. 12A is a schematic front view andFIGS. 12B and 12C are schematic back views of shooting galleries configured in accordance with further embodiments of the invention. -
FIG. 13A is an isometric view of a power source protective housing andFIG. 13B is a partial back view of a power cord protection member configured in accordance with an embodiment of the invention. - The following disclosure describes several embodiments of shooting galleries. One aspect of the invention is directed to an automatic shooting gallery. In one embodiment, a shooting gallery comprises a first plate, a frame coupled to the first plate, a power source, and a conveyor driven by the power source. The conveyor travels in a predetermined path and includes a shooting zone and a return zone. A plurality of target connectors are coupled to the conveyor. The shooting gallery further comprises a plurality of targets that are movable between an extended position and a fallen position. The targets are pivotally connected to the target connectors, and the target connectors at least partially retain the targets in the extended position when the targets are positioned in the shooting zone. The targets at least partially rest against the target connectors in the extended position during the shooting zone of the path. The targets in the fallen position are configured to reset to the extended position from the fallen position during the return zone of the path without the aid of a resetting mechanism.
- In another embodiment, the shooting gallery comprises a support frame, one or more gears rotatably coupled to the frame, a power source coupled to the one or more gears, and a conveyor disposed on the one or more gears. The power source drives the conveyor through a loop including a shooting zone and a return zone. The shooting gallery further includes a plurality of target connectors coupled to the conveyor and a plurality of targets retained by the target connectors. In another embodiment, the individual targets include a sleeve portion that removably and pivotally couples the targets to the individual target connectors. The targets are configured to pivot between extended and fallen positions, and to move laterally across the shooting gallery in a first direction through the shooting zone and in a second direction opposite the first direction through the return zone.
- In another embodiment, the shooting gallery includes a target connector assembly including a target having a first portion and a target connector including side portions. The side portions can have an aperture configured to removably receive a pivot member. The first portion of the target is pivotally coupled to the pivot member. The assembly may be configured to increase the force required to pivot the target from an extended position to a fallen position.
- In another embodiment, the shooting gallery includes a target connector assembly having a first portion that slidably engages a target connector retention guide rail that is mounted to a support member on the shooting gallery. The target connector may be configured so that the targets do not touch the target connector retention guide rail when they are in the extended position.
- Another embodiment of the invention is directed to a method of moving targets across a shooting gallery. The method comprises driving a conveyor with a power source through a cycle having a shooting phase and a return phase, wherein a plurality of target connectors are attached to the conveyor. The method further comprises pivotally connecting individual targets to the plurality of target connectors and moving the targets laterally across the shooting gallery in a first direction during the shooting phase. The targets move in the first direction and rotate between an extended position and a fallen position. The method further comprises moving the targets in a second direction opposite the first direction laterally across the shooting gallery during the return phase. In the return phase targets in the fallen position automatically reset to the extended position without the aid of a resetting device.
- Another embodiment of the invention includes a method of connecting a plurality of targets to a shooting gallery. The method comprises attaching a plurality of target connectors to a conveyor that travels in a loop relative to the shooting gallery and pivotally coupling a target to each of the target connectors with a removable pin. The pin is inserted through a sleeve portion of the targets such that the targets rotate about the pin between an extended position and a fallen position. The pin may include a torsion spring to urge the targets from the fallen position to the extended position. Alternative, the targets automatically reset from the fallen position to the extended position without contacting any other device.
- Specific details of several embodiments of the invention are described below with reference to shooting galleries and shooting gallery assemblies. Several details describing well-known structures or processes often associated with shooting galleries are not set forth in the following description for purposes of brevity and clarity. Also, several other embodiments of the invention can have different configurations, components, or procedures than those described in this section. A person of ordinary skill in the art, therefore, will accordingly understand that the invention may have other embodiments with additional elements, or the invention may have other embodiments without several of the elements shown and described below with reference to
FIGS. 1-5 . -
FIG. 1A is an isometric view andFIG. 1B is a side view of ashooting gallery system 100 configured in accordance with one embodiment of the invention. In this embodiment, thesystem 100 includes afirst plate 110 attached tofeet 114 and asupport frame 120. Thefirst plate 110 protects other components of thesystem 100 from projectiles fired at thesystem 100. For example, thefirst plate 110 can be made of a material, such as steel, suitable for withstanding a varied caliber of projectiles. Thefirst plate 110 includes afirst side 111 that is angled slightly downward to deflect projectiles toward the ground. In other embodiments, thefirst plate 110 may include a receptacle (not shown) to catch or collect the deflected projectiles. Thefeet 114 includeelongated members 116 to provide a stable base for thesystem 100 and to at least partially prevent the system from moving or falling when a projectile strikes thefirst plate 110. In certain embodiments, thefeet 114 may include spiked or pointed ends (not shown) to facilitate embedding thefeet 114 into the ground. Thefeet 114 may also be removably attached to thefirst plate 110 to facilitate transport or storage of thesystem 100; may fold into thesystem 100 to facilitate transport or storage; or may be fixedly attached to thefirst plate 110 to facilitate a more rugged construction. Theillustrated feet 114 are configured to space thesystem 100 away from the ground at a height H. Thefeet 114 may be adjustable to adjust the angle or distance between thesystem 100 and the ground. For example, the angle between thesystem 100 and the ground may be adjusted to compensate for uneven ground or to stabilize thesystem 100 against a various caliber projectiles. - According to one embodiment, the
support frame 120 is connected to a power source 130 (shown inFIG. 2B ) that drives aconveyer 140. Theconveyor 140 can be a flexible conveyer that travels around thesystem 100 in an endless loop along a predefined path, as explained below regardingFIGS. 2A-B . For example, the illustratedconveyor 140 is a belt; however, in other embodiments theconveyor 140 can include a wire, strap, cable, chain (e.g., a linked chain or roller chain), or any other device suitable for traveling around thesystem 100. In certain embodiments, theconveyer 140 is mounted so that a plane bisecting the conveyer's longest axis is not perpendicular to a horizontal plane. Theconveyor 140 travels over one or more gears (not shown) coupled to a tension device 136 (shown inFIG. 2B ) that is configured to adjust a tension in theconveyor 140. For example, as illustrated inFIG. 2B , thetension device 136 includes aset screw 137 that can increase or decrease the tension of theconveyor 140. Referring again toFIGS. 1A and 1B , thesystem 100 further includes a plurality oftarget connectors 150 attached to theconveyor 140. In certain embodiments, thetarget connectors 150 can be brackets, hinges, magnetic couplings, or mechanical or electromechanical connection means as are known in the art. Embodiments of thetarget connectors 150 are described in more detail below with respect toFIGS. 3A-3B and 4C.Individual targets 170 are rotatably and removably attached to correspondingconnectors 150 to move thetargets 170 along the predefined path of theconveyor 140. -
FIG. 2A is a schematic front view andFIG. 2B is a schematic back view of an embodiment of theshooting gallery system 100. Like reference characters refer to like components in the Figures, and thus the description of such components will not be repeated with reference to all of the Figures. As illustrated inFIGS. 2A and 2B , a few of thetargets 170 are rotated into a fallenposition 214. Theconveyor 140 moves thetarget connectors 150 and attachedtargets 170 laterally across thesystem 100 in afirst direction 202a in anactive zone 210, and in asecond direction 202b opposite thefirst direction 202a in areturn zone 220. In theactive zone 210, thetargets 170 are in anextended position 212 such that at least a portion of eachtarget 170 is visible to a shooter when viewing thesystem 100 from thefirst side 111. When the shooter fires a projectile and successfully hits atarget 170 in theactive zone 210, thetarget 170 rotates to the fallenposition 214, which is out of view of the shooter in theactive zone 210. In the fallenposition 214, thetargets 170 continue to travel with theconveyor 140 until they are reset to theextended position 212 in thereturn zone 220. - In certain embodiments, gravity at least partially aids in rotating and resetting the
targets 170 from the fallenposition 214 to theextended position 212 when thetargets 170 are in thereturn zone 220. Accordingly, fallentargets 170 automatically rotate from the fallenposition 214 to theextended position 212 as they pass through thereturn zone 220. Thus, gravity provides a sufficient force to rotate thetargets 170 from the fallenposition 214 into theextended position 212. In other embodiments, thetarget connectors 150 include a torsion spring or other mechanical device to urge thetargets 170 from a fallenposition 214 to anextended position 212. In addition, in certain embodiments, the configuration of thetargets 170 and/ortarget connectors 150 disclosed herein, provides an eccentric weight over center to at least partially help reset thetarget 170 without the aid of a target rail or a resetting cam. For example, as illustrated inFIG. 1B , asupport portion 172 of each of thetargets 170 is configured to be generally parallel with thefirst plate 110 in the extended and fallenpositions targets 170 tend to pivot towards thefirst plate 110 from the fallenposition 214 to theextended position 212 in thereturn zone 220. Thetargets 170 also tend to pivot towards thefirst plate 110 in the extended position when they are passing through theactive zone 210. In other embodiments thetargets 170 can be otherwise configured to reset without the aid of an external mechanism. For example, additional weight (not shown) may be attached to thesupport portion 172 ofindividual targets 170 to increase the tendency for thetargets 170 to reset to and stay in theextended position 212. In still further embodiments and as described below, thesystem 100 can include other features or components configured to move thetargets 170 from the fallenposition 214 to theextended position 212, or to at least partially aid in doing so. - During operation, the
targets 170 travel through atransition zone 230 between thereturn zone 220 and theactive zone 210. Because thetargets 170 have automatically righted themselves to theextended position 212 in thereturn zone 220, thetargets 170 enter thetransition zone 230 in theextended position 212 and travel through thetransition zone 230 in theextended position 212. Accordingly, in certain embodiments no guide rail, target rail, reset cam or other reset surface or structure for contacting thetargets 170 is necessary to reset them from the fallenposition 214. In addition, in certain embodiments thetargets 170 are configured to travel through theactive zone 210 without a support or other device contacting thesupport portion 172 of thetargets 170 while in theextended position 212. In other embodiments, however, thesystem 100 can include support members, resetting members or other devices to reset or support the movingtargets 170. - Eliminating the need for contact surfaces or structures to reset or support the
targets 170 reduces the complexity of thesystem 100. As described below, thetarget connector 150 and geometry ofindividual targets 170 can be configured to support thetargets 170 in both theextended position 212 and the fallenposition 214 without requiring contact from other structures or devices. Accordingly, these embodiments eliminate the need for contact structures to reset thetargets 170 or for a guide rail or other structure to support thetargets 170 as they move. As such, the configuration of these embodiments can result in fewer components of the system, as well as in reduced cost and weight of thesystem 100. - In certain embodiments, the
system 100 includes a second plate 112 (illustrated inFIGS. 1A , 1B and 2B). Thesecond plate 112 can at least partially cover components of thesystem 100 and also aid in restricting the rotation of thetargets 170 in the fallenposition 214. For example, thetargets 370 may contact and rest against thesecond plate 112 in the fallen position, in addition to, or in lieu of stops provided in thetarget connectors 150 as described below. One advantage of thesecond plate 112 is that thesecond plate 112 protects the other components of thesystem 100 from stray projectiles or fragments from projectiles. In addition, as thetargets 170 are repeatedly struck with projectiles, thetargets 170 can bend or deform. As adeformed target 170 travels through theactive zone 210 in the fallen position, thesecond plate 112 can accordingly at least partially shield components of thesystem 100 and preventdeformed targets 170 from contacting or damaging these components. Furthermore, thesecond plate 112 can also stabilize theconveyor 140 when a target moves from theextended position 212 to the fallenposition 214. For example, the pivoting movement of thetargets 170 can occasionally causeother targets 170 to also fall. As such, at least partially supporting thetargets 170 in the fallenposition 214 with thesecond plate 112 can provide stability for other targets in theextended position 212 and further can inhibit bounce back. - In certain embodiments, the
system 100 can further include a wirelessremote control unit 240 for controlling the movement of thetargets 170 in thesystem 100. In other embodiments theremote control unit 240 may be electrically connected to thepower source 130 with a wire (not shown) of suitable length (e.g., 40 feet in a specific embodiment) to provide a safe shooting distance. Alternatively theremote control unit 240 may be a radio frequency (RF) controlled remote. Theremote control unit 240 can direct the speed and direction of thetarget 170 movement by controlling the speed and direction of theconveyer 140. For example, in certain embodiments theremote control unit 240 can include a rheostat or potentiometer for speed adjustment. Theremote control unit 240 can also be configured to vary the target speed from a maximum to a minimum over a period of time, such as periods of three seconds in a specific example. Theremote control unit 240 can also be configured to periodically stop thetargets 170 from moving. Accordingly, the remote control unit allows a shooter to adjust the target travel speed from a safe distance to provide a dynamic target shooting experience. In alternative embodiments, aremote control unit 240 is not used and theshooting gallery 100 is operated by a power switch (not shown) contained on thesystem 100. -
FIG. 3A is a schematic isometric view of asubassembly 300 configured in accordance with an embodiment of the invention.FIG. 3B is an enlarged isometric view of components of thesubassembly 300. Referring toFIGS. 3A and 3B together, thetarget assembly 300 includes atarget 370 pivotally connected to atarget connector 350. In the illustrated embodiment, thetarget 370 includes atarget head 310, anupper portion 372 extending from thetarget head 310, and alower portion 374 extending from theupper portion 372 to asleeve 340. Thelower portion 374 includes anupper surface 376 and alower surface 378. In certain embodiments, thetarget 370 can be formed of a single piece of material suitable for being repeatedly shot with guns of varied calibers. For example, thetargets 370 can be formed of a single piece of hardened steel. Thetarget 370 can also be formed from several pieces of material mechanically or otherwise fastened together. The illustratedtarget head 310 includes a generally round shape. In other embodiments, however, thetarget head 310 can include different sizes and shapes or configurations, such as, for example, animal shapes, face card symbols, bull's-eyes, stars or other shapes. In certain embodiments, thetarget head 310 is made from metal or a metal alloy. Alternatively, the targets can be nonmetallic, such as a ceramic, cardboard, composite, paper or the like. - The illustrated
target 370 includes a geometry that at least partially assists thetarget 370 in pivoting from the fallen position to the extended position without the use of any other contact device, as described above. For example, thetarget 370 can include a bend between thetarget head 310 and theupper portion 372, and a bend between theupper portion 372 and thelower portion 374. The illustrated geometry of thetarget 370 also allows thetarget head 310 to be oriented generally perpendicular to a projectile source, such as a gun. - In one aspect of the embodiment illustrated in
FIGS. 3A and 3B , thetarget 370 is pivotally connected to thetarget connector 350. Thetarget connector 350 includes abottom surface 351 andsidewalls 352 extending from thebottom surface 351. Thesidewalls 352 are spaced apart from each other to allow at least part of thelower portion 374 of thetarget 370 to pass between thesidewalls 352 as thetarget 370 rotates. Thetarget connector 350 further includes anopening 354 in eachsidewall 352 to removably receive apin 380. Thepin 380 is inserted through thesleeve 340 to allow thetarget 370 to rotate about thepin 380. The illustratedpin 380 includes anaperture 382 for inserting a removable retainingmember 384, such as a cotter pin, to retain thepin 380 in thetarget connector 350. - In certain embodiments, the
target connector 350 is configured to restrict the rotation of thetarget 370 so that a support member or other device is not required to support thetarget 370. For example, thetarget connector 350 can restrict the position of thetarget 370 in the fallen position and in the extended position (the target illustrated inFIGS. 3A and 3B is in the extended position). Accordingly, thetarget connector 350 can include astop 360 configured to restrict the rotation of thetarget 370 and support it in the fallen position. As thetarget 370 rotates to the fallen position, theupper surface 376 contacts thestop 360 thus halting the rotation of thetarget 370. Thestop 360 can be an integral component with thetarget connector 350, or thestop 360 can be attached to thetarget connector 350. As illustrated inFIG. 3A , in the extended portion of thelower surface 378 of thetarget 370 rests against thebottom surface 351 of thetarget connector 350 to halt the rotation of thetarget 370 as thetarget 370 rotates into the extended position. According to alternative embodiments, thetarget connector 350 can include a bracket, hinge, magnetic coupling, and/or other mechanical or electromechanical device configured to control or restrict the rotation of thetarget 370 about thetarget connector 350. - The configuration of the
target 370 and thetarget connector 350 illustrated inFIGS. 3A and 3B can provide many benefits, offering a variety of advantages over existing shooting galleries. For example, the configuration of thetarget connector 350 allows a shooter to change thetarget 370 as it becomes worn or deformed. Moreover, a shooter can change or replace thetarget 370 without using a tool as the retainingmember 384 keeping thepin 380 in thesleeve 340 is easily removable. In addition, a shooter can replaceindividual targets 370 with a preferred shape, size or a combination of different shapes and sizes, thereby adding variability to the target selection. Furthermore, the configuration of thetarget 370 andtarget connector 350 eliminates the need for a contact member or rail to support thetarget 370 in the extended position during the shooting phase or to reset thetargets 370 from the fallen position to the extended position. - Although the embodiments described above offer the many described advantages, another challenge associated with conventional shooting galleries is keeping unintended targets from rotating to the fallen position. For example, targets that are struck with a projectile are often struck with such a great impact force that they can cause other unintended targets to also fall. Accordingly, some of the embodiments described below address this problem and at least partially retain the targets in the upright and extended position. For example,
FIGS. 3B-3D illustrate additional features of the correspondingtargets 370 andtarget connectors 350 to at least partially retain thetargets 370 in the upright extended position. -
FIGS. 3C is a side cross-sectional view along theline 3C-3C ofFIG. 3B , andFIG. 3D is also a side cross-sectional view along theline 3D-3D ofFIG. 3B . Referring toFIGS. 3B-3D together, thesleeve 340 of thetarget 370 includes a circular orannular body 342 having anouter surface 344. In certain embodiments, a first protrusion 362 (shown in broken lines) is positioned on theouter surface 344 and has a gradually increasing thickness forming a ramp or wedge-like configuration. Thefirst protrusion 362 includes acontact surface 364 configured to contact thestop 360 to initially and at least partially impede rotation of thesleeve 340 in the direction indicated by thearrow 365 representing the direction that thetarget 370 falls. The configuration of thefirst protrusion 362, including the gradually increasing thickness, allows thesleeve 340 to rotate more easily in the direction indicated by anarrow 366 representing the direction that thetarget 370 rotates into the extended position. Accordingly, thefirst protrusion 362 can at least partially retain or lock thetargets 370 in the extended position and at least partially prevent targets that are not struck with a projectile or other unintended targets from rotating to the fallen position. Although the illustratedfirst protrusion 362 extends across only a portion of the width of thesleeve 340, in other embodiments thefirst protrusion 362 can extend the entire width of thesleeve 340. In alternative embodiments and as described below, other retaining devices can include a magnet, electromagnetic device or a mechanical retention means to retain target assemblies against certain forces. - According to another embodiment of the invention, the
target connector 350 includes a second retaining device illustrated as a second protrusion 368 (shown in broken lines) on thesidewall 352 of thetarget connector 350. Thesecond protrusion 368 can be positioned proximate to thelower portion 374 of thetarget 370 and configured similarly to thefirst protrusion 362 of thesleeve 340. For example, thesecond protrusion 368 can at least partially resist the rotation of the target to the fallen position, unless a sufficient impact force, for example from a projectile, is applied to thetarget head 310. Thesecond protrusion 368 contacts thelower portion 374 of thetarget 370 as it rotates to the fallen position, and accordingly at least partially retains thetarget 370 in the extended position. Similar to thefirst protrusion 362, thesecond protrusion 368 allows thelower portion 374 to more easily rotate past thesecond protrusion 368 in the direction toward the extended position from the fallen position. In alternative embodiments, the second retaining device can be a magnet, an electromagnetic device or a mechanical retention means to retain target assemblies against certain forces. -
FIG. 4A is a side view of ashooting gallery system 400,FIG. 4B is an isometric view of atarget 470 andFIG. 4C is an isometric view of atarget connector 450 according to further embodiments of the invention. Referring toFIGS. 4A-4C together, the illustratedsystem 400 is generally similar to thesystem 100 described above with reference toFIGS. 1A-2B . For example, thesystem 400 includes thefirst plate 110 attached to theframe 120, and theconveyer 140 coupled to thetension device 136. Thesystem 400 includes, however, another embodiment offeet 414 having elongatedmembers 416 configured in a stabilizing geometric configuration. The illustratedsystem 400 further includes thetarget 470 andcorresponding target connectors 450 illustrated inFIGS. 4B and 4C . Thetarget 470 includes atarget head 410 andsupport portion 472 having anupper surface 474 and alower surface 478. The illustratedtarget 470 includes only a single bend between thehead 410 and thesupport portion 472. Thetarget 470 also includes asleeve 440 to attach thetarget 470 to thepin 380. - The
target connector 450 illustrated inFIG. 4C includes features generally similar to thetarget connector 350 described above. For example, thetarget connector 450 includes first andsecond sidewalls 352 each having the opening 354 configured to receive thepin 380 to attachcorresponding targets 470. The illustratedtarget connector 450, however, also includes first stops 460 to contact theupper surface 474 of thetarget 470 in the fallen position. Thetarget connector 470 also includes second stops 462 to contact thelower surface 478 of thetarget 470 in the extended position (see, e.g.,FIG. 4A ). Accordingly, the first andsecond stops target 470 to limit the range of motion from in the fallen and extended positions. Thetarget connector 450 further includes atab 480 extending from thesidewalls 352. Thetab 480 extends from thetarget connector 450 to contact aconveyor retention device 482 attached to thefirst plate 110 of theassembly 400. As shown inFIG. 4A , thetab 480 can slidably engage theretention device 482 when thetargets 470 rotate around the system in the extended position. In operation, as thetargets 470 rotate to the fallen position, the twisting motion of theconveyor 140 can cause otherunintended targets 470 to also fall and rotate to the fallen position. Accordingly, theretention device 482 can contact thetabs 480 ofcorresponding target connectors 450 to prevent theconveyor 140 from twisting during projectile impact. In certain embodiments, the first stops, 460, second stops 462 andtab 480 can be integral components forming a single piece construction of thetarget connector 450. In other embodiments, however, these components can be separate components that are individually attached (e.g., welded) to thetarget connector 450. -
FIGS. 5A-5F , 5H and 5I are schematic side views ofsubassemblies FIG. 5G is a schematic front view of asubassembly 575, each of which are configured in accordance with further embodiments of the invention. The subassemblies illustrated inFIGS. 5A-5I include various embodiments for supporting atarget 508 in the extended position while thetarget 508 is presented to the shooter (e.g., in the active zone shown 210 inFIG. 2A ). Thetargets 508 illustrated inFIGS. 5A-5I can have a configuration generally similar to thetarget 470 described above and illustrated inFIG. 4B . For example, thetargets 508 include ahead 510 and asupport portion 512 coupled to atarget connector 518. Thetarget connectors 518 can also be configured to have features generally similar to some of the features of the target connectors described above. In the embodiments illustrated inFIGS. 5A-5I , however, thetarget connector 518 is not required to have a stop to contact and support thesupport portion 512 of thetarget 508 when thetarget 508 is in the extended position. Rather, other means are used to support thetarget 508 in the extended position. More specifically, thesubassembly 520 illustrated inFIG. 5A includes an embodiment wherein thetarget 508 is supported and slides against atop portion 503 of thefirst plate 110. Accordingly, the illustrated embodiment provides the benefit of using the existingfirst plate 110 as the support for thetarget 508, rather than including a stop in thetarget connector 518 or a separate rail assembly. - In the
subassembly 530 illustrated inFIG. 5B , thetarget 508 includes aforward extension member 532 projecting from thesupport portion 512 of thetarget 508 towards the interior surface of thesupport plate 110. Thesupport plate 110 includes acorresponding support member 534 projecting towards thetarget 508 and positioned generally below theextension member 532. In certain embodiments, thesupport member 534 can extend the width of thefirst plate 110, and theextension member 532 can accordingly slide along thesupport member 534 while thetarget 508 is in the extended position. One skilled in the art will appreciate that theextension member 532 and thesupport member 534 can have different shapes and configurations than those illustrated inFIG. 5B , for example, thesupport member 534 can be a cable or an adjustable contact bar which can be removeably attached to thefirst plate 110 and/or theframe 120. In certain embodiments, theextension member 532 and thesupport member 534 can be integral components of thetarget 508 and thefirst plate 110, respectively. In other embodiments, however, these members can be separate components attached to thetarget 508, thefirst plate 110 and/or theframe 120. - In
FIG. 5C , thesubassembly 540 includes acable member 542 running generally parallel to an interior surface 501 of thefirst plate 110 in the active zone. Accordingly, thesupport portion 512 slides along thecable member 542 and is supported by thecable member 542 as thetarget 508 moves in front of a shooter in the extended position. In other embodiments thecable member 542 can include other configurations, such as, for example, a wire, rope, cord, string or other suitable member to support thetarget 508. Further, thecable member 542 can be adjustable to calibrate a target resistance to moving between the extended position and the fallen position. - In the
subassembly 550 illustrated inFIG. 5D , thetarget 508 includes arear extension member 552 projecting from thesupport portion 512. Therear extension member 552 projects in a direction away from thefirst plate 110 and is configured to contact asupport member 554 as thetarget 508 rotates into the extended position. Thesupport member 554 accordingly stops and retains thetarget 508 as it rotates into the extended position. In certain embodiments thesupport member 554 may be V-shaped to allow a contact surface for therear extension member 552 and/or thehead 510. In certain other embodiments, thesupport member 554 can be attached to portions of the shooting gallery assemblies described above. For example, in certain embodiments, thesupport member 554 can be attached to thesecond plate 112 or the frame 120 (see, e.g.,FIGS. 1A and 1B ). In addition, similar to the embodiments described above, therear extension member 552, as well as thesupport member 554, can be integral or separate components with thetarget 508 and other structures of the shooting gallery assemblies. - In the
subassembly 560 illustrated inFIG. 5E , aflexible connector 564 is attached to atarget connector 562 and thesupport portion 512 of thetarget 508. Theflexible connector 564 has a fixed length to retain thetarget 508 in the extended position. The illustratedtarget connector 562 includes anelongated base 563, and theflexible connector 564 is attached to thetarget connector 562 at anattachment location 565 behind thetarget 508. Theflexible connector 564 is also attached to thesupport portion 512 of thetarget 508 proximate to thetarget head 567. In certain embodiments, theconnector 564 can have an adjustable length to alter the rotation of thetarget 508 towards the extended position. In certain embodiments, theflexible connector 564 can be composed of a braided wire, chain, cable, rope, cord, string or other suitable flexible connector. - The subassembly 570 illustrated in
FIG. 5F includes one or more magnetic sources to retain thetarget 508 in the extended position and at least partially prevent thetarget 508 from unintentionally rotating to the fallen position. For example, in the illustrated embodiment thesupport portion 512 of thetarget 508 includes afirst magnet 572, and thefirst plate 110 includes asecond magnet 574. The first andsecond magnets target 508 in the extended position proximate to thefirst plate 110 as the target passes in front of a shooter. In the illustrated embodiment, the first andsecond magnets target 508 and thefirst plate 110, respectively. In other embodiments however, either magnet can be embedded or attached to thetarget 508 orfirst plate 110. In certain embodiments, thesecond magnet 574 can extend the entire width of thefirst plate 110. In other embodiments, however, the second magnet can extend a shorter distance in thefirst plate 110. Moreover, in certain embodiments, one of the first andsecond magnets targets 508 are composed of a magnetically attractive material (e.g., steel), thetargets 508 may not include thefirst magnet 572. Conversely, in embodiments wherein thefirst plate 110 is composed of a magnetically attractive material, thesecond magnet 574 may be omitted. -
FIG. 5G is a front view of asubassembly 575 including apin 576 pivotally connecting thetarget 508 to thetarget connector 518. In one aspect of the illustrated embodiment, thetarget connector 518 is configured to retain thetarget 508 in the extended position. More specifically, thetarget connector 518 includes aprotrusion 577 extending towards asleeve 578 of thetarget 508 such that theprotrusion 577 contacts thesleeve 578 when thetarget 508 is fully extended in the extended position. Theprotrusion 577, however, does not contact thesleeve 578 during the range of motion from the fallen position to the extended position. As such, thesleeve 578 has achannel 579 corresponding to theprotrusion 577 to allow thesleeve 578 to freely rotate over theprotrusion 577 in the range of motion when the target is not in the extended position. When thetarget 508 is in the fully extended however, theprotrusion 577 is not positioned within thechannel 579 and thesleeve 578 rotates onto theprotrusion 577 to retain thetarget 508 in the extended position. In certain embodiments, the tolerances between thepin 576 and thesleeve 578 can be configured to accommodate a slight displacement of thesleeve 578 as thesleeve 578 rotates onto theprotrusion 577. - The
subassembly 580 illustrated inFIG. 5H includes afirst target 508 a sliding along asupport member 581 in the active zone (i.e., in the extended position) and asecond target 508 b that is not supported in the return zone 220 (see, e.g.,FIGS. 2A and 2B ). More specifically, thefirst plate 110 includes asupport member 581 projecting towards thefirst target 508 a. Thesupport member 581 can be configured to be generally similar to thesupport member 534 described above and illustrated inFIG. 5B . For example, thesupport member 581 can contact and support thetarget 508 a while the target moves in the extended position. In this embodiment, however, thefirst target 508 a does not include an extension member, but rather thetarget 508 a itself contacts the support member. Accordingly, as thetarget 508 a moves in the extended position it contacts and slides along thesupport member 581. In thereturn zone 220, however, thetarget 508 b does not contact other members and relies on gravity alone to reset into the extended position. In certain embodiments, thesupport member 581 can be a cable, an adjustable bar or other supporting structure as would be understood by one skilled in the art. - The
subassembly 585 illustrated inFIG. 5I is generally similar to thesubassembly 580 illustrated inFIG. 5G , except that in this embodiment, thesecond target 508 b contacts and slides along asupport member 586 in thereturn zone 220, and thefirst target 508 a is only supported by thetarget connector 518 in theactive zone 210. Accordingly, asupport member 586 extends from the interior surface of thefirst plate 110 towards thesecond target 508 b in thereturn zone 220. Thesupport member 586 is configured to at least partially help reset the targets as they move from thereturn zone 220 into theactive zone 210. In certain embodiments, thesupport member 586 can be a cable, an adjustable bar or other supporting structure as would be understood by one skilled in the art. -
FIGS. 6A and 6B are isometricviews illustrating subassemblies target 602 in the extended position. Referring toFIG. 6A , the illustratedtarget 602 is in the extended position and can have a configuration generally similar to thetarget 370 described above with reference toFIG. 3A . For example, thetarget 602 pivotally connects to atarget connector 608 with apin 612, and includes atarget face 603 to be struck by a projectile. The illustratedtarget connector 608, however, is coupled to a roller chain having a plurality oflinks 615. More specifically, support members 618 (identified individually as first andsecond support members corresponding link 615. Individual stops 614 are positioned on the first andsecond support members corresponding stop 614 andsupport members target connector 608, stop 614 andrespective support member stop 614 includes anupright member 616 projecting from thestop 614 to contact a corresponding protruding member 604 (identified individually as first and second protrudingmembers target 602. The protruding members 604 project laterally from sides of thetarget 602 to contact theupright members 616. Accordingly, as thetarget 602 rotates into the extended position, the laterally protruding members 604 contact the correspondingupright members 616 of eachstop 614 to halt the rotation of thetarget 602 and support thetarget 602 in the extended position. - The configuration of the
subassembly 620 illustrated inFIG. 6B is generally similar to thesubassembly 610 illustrated inFIG. 6A . In this embodiment, however, thetarget 602 includes a curvedforward extension member 606, rather than the laterally protruding members 604 illustrated inFIG. 6A , to support thetarget 602 in the extended position. More specifically, theforward extension member 606 projects from thetarget 602 and generally curves towards achain link 615 below thetarget 602. As thetarget 602 rotates forward into the extended position, theforward extension member 606 contacts correspondingfirst support members 618 a proximate to the chain links 615. Because theforward extension member 606 directly contacts thefirst support member 618 a, thetarget connector 608 can be attached (e.g., with the fastener 611) to first andsecond support members - In certain embodiments, the
target 602 can also include an optional curved rearward extension member 607 (shown in broken lines) projecting in a direction generally opposite from theforward extension member 606. Therearward extension member 607 projects from the target and curves towards thesecond support members 618 b proximate to thechain link 615 below thetarget 602. As thetarget 602 rotates to the fallen position, therearward extension member 607 is rotated to contact thesecond support members 618 b. Accordingly, the illustrated configuration of thesubassembly 620 can restrict the rotation of thetarget 602 and support thetarget 602 in the extended and fallen positions without the aid of any other structure or device. -
FIGS. 7A-7C illustrate additional embodiments ofsubassemblies FIG. 7A , more specifically, is an exploded isometric view of asubassembly 710 including atarget 704 a pivotally coupled to atarget connector 712 a with apin 718 a. Certain aspects of thesubassembly 710 can be generally similar to aspects of the embodiment described above with reference toFIGS. 3A-3C . For example, thetarget connector 712 a includes spaced apart sidewalls 715 each having anopening 714 to receive thepin 718 a. In the illustrated embodiment, however, thetarget 704 a does not freely rotate about thepin 718 a. Rather, thetarget 706 a has asleeve 706 a including a securing member 707 (e.g., a set screw, bolt, pin etc.) to secure thesleeve 706 a to thepin 718 a such that thetarget 704 a rotates with thepin 718 a. - Each
sidewall 715 of the illustratedtarget connector 712 a includes a protrusion 716 (identified individually as first andsecond protrusions openings 714. The illustratedpin 718 a includes aslot 720 aligned with the first andsecond protrusions openings 714. In certain embodiments, theslot 720 can extend the entire length of thepin 718 a. In other embodiments, however, theslot 720 can be at end portions of thepin 718 a to engage the protrusions 716. Theslot 720 has a width W that is greater than a thickness T of each of theprotrusions slot 720 corresponds to the range of rotation of thetarget 704 a from the extended position to the fallen position. Accordingly, as thepin 718 a rotates in theopenings 714, the first andsecond protrusions slot 720 to limit the rotation of thepin 720. Because thesleeve 706 a is secured to thepin 718 a with the securingmember 707, the rotation of thetarget 704 a is limited to the rotation of thepin 718 a. - The subassembly illustrated in
FIG. 7B includes atarget 704 b that having asleeve 706 b that limits the rotation of thetarget 704 b, rather than thepin 718 a illustrated inFIG. 7A . In this embodiment, thesleeve 706 b freely rotates about apin 718 b. Thesleeve 706 b, however, is configured to contact thetarget connector 712 b to restrict the rotation of thetarget 704 b. More specifically, thesleeve 706 b includes achannel 708 at an outer surface of thesleeve 706 b that engages aprotrusion 717 extending from abase 713 of thetarget connector 712 b. In certain embodiments, thechannel 708 can extend the entire length of thesleeve 706 b, and theprotrusion 717 can extend between thesidewalls 715. In other embodiments, however, thechannel 708 can extend along thesleeve 706 b at a certain distance corresponding to a length of theprotrusion 717. Theprotrusion 717 has a thickness T that is less than a width W of achannel 708. The width W of thechannel 708 corresponds to the range of rotation of thetarget 704 b from the extended position to the fallen position. Accordingly, as thesleeve 706 b rotates about thepin 718 b, theprotrusion 717 engages thechannel 708 to limit the rotation of thetarget 704 b between the extended and fallen positions. -
FIG. 7C is a side view illustrating another embodiment of asubassembly 730 having features configured to limit the rotation of a target 732 (shown as anextended target 732 a, and in broken lines as a fallentarget 732 b). In the illustrated embodiment, the target 732 is carried on achain 737 and interacts with anelliptical link 738 a of thechain 737 to limit the rotation of the target 732 between the extended and fallen positions. In the illustrated embodiment, afirst link 738 a of thechain 737 is shown extending out of the plane of the page, and asecond link 738 b is shown extending into the plane of the page. The target 732 includes atarget face 734 shown facing to the left, and alower portion 735 of the target 732 is positioned within theelliptical link 738 a. In the extended position, anupper surface 740 of thetarget 732 a contacts an upper portion of thelink 738 a and alower surface 742 of thetarget 732 a contacts a lower portion of thelink 738 a. When a projectile (not shown) strikes thetarget face 734, thelower portion 735 of the target 732 pivots in thelink 738 a until thelink 738 a restricts the rotation of the target 732. The target 732 also includes anenlarged end portion 736 to prevent the target 732 from slipping out of thelink 738 a. - In certain embodiments, the shooting galleries disclosed herein can also include features configured to reset targets from the fallen position to the extended position.
FIGS. 8A and 8B , for example, are schematic side views ofsubassemblies target connector 804. Referring toFIG. 8A , thesubassembly 810 includes an extended target 808 a (shown in broken lines), and a fallen target 808 b. Thesubassembly 810 includes a rotatingmember 806 that is configured to move the fallentarget 802 b into the extended position. More specifically, the rotatingmember 806 includes asupport surface 808 that contacts and lifts thetarget 802 b. When the rotatingmember 806 is actuated, it rotates about apivot point 809 in the direction indicated by anarrow 805. The rotatingmember 806 can accordingly be pivotally attached to a component (not shown) of the shooting gallery to rotate the fallentarget 802 b about thetarget connector 804 and into the extended position. - The
subassembly 820 illustrated inFIG. 8B includes a biasingmember 826 configured to urge the fallentarget 802 b into the extended position. When thetarget 802 b moves into the fallen position, a retainingmember 822 having acatch 824 retains thetarget 802 b and compresses the biasingmember 826. In certain embodiments, the subassembly 8B can be configured such that when thetarget connector 804 moves across theshooting gallery 802 b, thecatch 824 is released and the biasingmember 826 pivotally urges thetarget 802 b away from thetarget connector 804 into the extended position. -
FIG. 8C illustrates a further embodiment of ashooting gallery system 830 configured to reset fallen targets 802 to the extended position. In the illustrated embodiment, a plurality of targets 802 (identified individually asextended targets 802 a, fallentargets 802 b, transition targets 802 c and returntargets 802 d) move aroundsystem 830 in the direction indicated by anarrow 831. Theassembly 830 also includes afirst cover plate 832 and asecond cover plate 834, each of which can be configured and positioned to protect the internal components of theassembly 830. Thesecond cover plate 834 can also act as a support surface for the fallentargets 802 b. The targets 802 can contact and slide against thefirst cover plate 832 as they rotate into the fallen position. Areset member 836 engages the fallentargets 802 b to move them into the extended position as the fallentargets 802 b slide along thefirst cover plate 832. Afirst portion 838 of thereset member 836 engages the fallentargets 802 b and a curved geometry of thereset member 836 lifts them off of thefirst cover plate 832 and towards asupport member 840. For example, as illustrated by thetransition target 802 c, thereset member 836 urges thetransition target 802 c into the extended position and onto the support member. Thesupport member 840 can accordingly support the transition targets 802 c and the return targets 802 d in the transition and return zones, respectively. -
FIGS. 9A and 9B illustrate additional embodiments ofshooting gallery systems FIG. 9A is a side view of theshooting gallery system 910 with targets 170 (identified individually as targets first, second, third andfourth targets 170 a-170 d). Thefirst target 170 a is shown in the extended position and thesecond target 170 b is shown in the fallen position, both of which are in the active zone 210 (see, e.g.,FIG. 2A ). Thethird target 170 c has reset to the extended position in thereturn zone 220 and thefourth target 170 d is moving through the transition zone 230 (see, e.g.,FIG. 2A ). In one aspect of the illustrated embodiment,target connectors 904 connectindividual targets 170 to theconveyor 140.Individual target connectors 904 include aforward stop 906 configured to support thetargets 170 in the extended position. Thetarget connectors 904, however, do not include a rear stop to inhibit to stop or inhibit the rotation of thetargets 170 into the fallen position. Rather, thesystem 910 includes animpact absorbing member 912 coupled to thesecond plate 112. The absorbingmember 912 can extend the width of thesecond plate 112 and be positioned on thesecond plate 112 to contact the heads of thetargets 170 as they rotate into the fallen position. Accordingly, the force of the fallingtarget 170 b is spread throughout the absorbingmember 912 and not returned to thetarget 170 b. In one aspect of the illustrated embodiment, the absorbingmember 912 includes anextension 914 projecting from the absorbingmember 912 andsecond plate 112. Theextension 914 adds energy dissipating mass to the absorbingmember 912 to at least partially dissipate the force of the fallingtargets 170. In certain embodiments, the absorbingmember 912 can be composed of a resilient material, such as an elastomer or rubber material, to partially cushion and absorb the force of the toppled targets 170. In other embodiments, the absorbingmember 912 can have other configurations or be made from different materials. - The
system 910 illustrated inFIG. 9A also includes a reinforced upper portion of thefirst plate 110. More specifically, thefirst plate 110 includes astrip 901 of reinforcement material attached to thefirst plate 910 at a location that is likely to be repeatedly struck with projectiles. In certain embodiments, thestrip 901 can be composed of the same material as thefirst plate 110 and increase the thickness of the upper portion of the first plate. In other embodiments, thestrip 901 can be an integral part of thefirst plate 110. Thestrip 901 provides the benefit of reinforcing the upper portion of thefirst plate 110. As such and in certain embodiments, the remainder of thefirst plate 901 can be made to have a thinner cross-section to conserve material for cost and weight purposes. - The illustrated
system 910 also includes legs 902 (identified individually as afirst leg 902 a and asecond leg 902 b) having independentlyadjustable feet 903. Thefeet 903 can be threadably engaged with corresponding legs 902 to provide an elevation adjustment. For example, rotating afoot 903 can adjust a height of the foot with reference to the corresponding leg 902. Thesystem 910 can accordingly be used on uneven terrain or support surfaces. -
FIG. 9B is a side view of ashooting gallery system 920 configured in accordance with another embodiment of the invention. The illustratedsystem 920 includes features generally analogous to thesystem 910 illustrated inFIG. 9A . For example, thetarget connectors 904 include theforward stop 904 to supportcorresponding targets 170 in the extended position. In one aspect of the illustrated embodiment however, thetarget connectors 904 include arear stop 908 to inhibit the rotation of thetargets 170 in the fallen position, rather than relying on the second plate 112 (illustrated inFIG. 9A ) to stop the targets in the fallen position. Thesystem 920 also includes aresilient member 922 configured to retain thetargets 170 in the fallen position. In certain embodiments, theresilient member 922 can be attached to first andsecond support members second leg 902 b of thesystem 920. In other embodiments, theresilient member 922 can be attached to other components. In the illustrated embodiment, theresilient member 922 has a generally wedge-shaped configuration including atapered end portion 924. Thetapered end portion 924 is positioned such that the uppermost portions of the heads of thetargets 170 contact and deflect theend portion 924 as thetargets 170 rotate into the fallen position. Theresilient member 922 is configured such that the impact force of the falling targets is sufficient to deflect thetapered end portion 924 to pass beneath theresilient member 922. Once thetargets 170 rotate into the fallen position and beneath theresilient member 922, they will not be able to bounce back up past theresilient member 922. Theresilient member 922 can have a length (not shown) that extends most of the width of thesystem 910. Once thetargets 170 have traveled outside the length of theresilient member 922, they can reset or be reset to the extended position without interference from the resilient member. Accordingly, theresilient member 922 preventsunintended targets 170 from falling by at least partially absorbing the impact force of thetargets 170 that are hit by a projecting and retaining the fallentargets 170 in the fallen position. -
FIGS. 10A-10B are schematic front views of alternative shooting gallery configurations in accordance with further embodiments of the invention. More specifically,FIG. 10A is a schematic front view of an embodiment of ashooting gallery system 1010. Like reference characters refer to like components in the Figures, and thus the description of such components will not be repeated with reference to all of the Figures. As illustrated inFIG. 10A , theshooting gallery system 1010 allows presentation oftargets system 1010. Thesystem 1010 is oriented in a vertical direction such thattargets 1004 a are presented along afirst side section 1008 a, targets 1004 b are presented along atop section 1009, andtargets 1004 c are presented along asecond side section 1008 b. The shooting gallery configuration shown inFIG. 10A provides the shooter the opportunity to shoot at targets moving up/down, and left/right, thus providing a more challenging shooting scenario. -
FIG. 10B is a schematic front view of yet another embodiment of ashooting gallery system 1022. Theshooting gallery system 1022 includesattachment device 1024 configured to suspend theshooting gallery system 1022 from a tree or other support structure and targets 1004. Theattachment device 1024 can be a chain, rope, cable, bar or similar attachment mechanism suitable for suspending thesystem 1022 from a support structure. -
FIGS. 11A-11E are schematic back views of shooting galleries configured in accordance with further embodiments of the invention. In the embodiments illustrated inFIGS. 11A-11E , various linear motion devices for moving the targets are illustrated. For example,FIG. 11A illustrates ashooting gallery system 1110 includingworm gear 1106, drivemotor 1108,support bracket 1112, a plurality oftarget connectors 1104 corresponding to a plurality oftargets 1102 and acontroller 1114. Theworm gear 1106 rotary movement is illustrated byarrow 1113. The rotation of theworm gear 1106 causes thetargets 1102 to move in a left-right direction as illustrated bydirectional arrow 1111. The rotation of theworm gear 1106 can be reversed at thecontroller 1114, by means of an automatic timer associated with themotor 1108, and/or by an actuator or captured spring system as is known by those skilled in the art. -
FIG. 11B illustrates ashooting gallery system 1120 including alinear actuator 1122, a plurality oftarget connectors 1104 corresponding to a plurality oftargets 1102 and asupport member 1128. Thelinear actuator 1122 includes adrive shaft 1124 coupled to anextension member 1126. Theextension member 1126 couples to thedrive shaft 1124 at a proximal end and rests on asupport member 1128 at a distal end. Thelinear actuator 1122 moves thedrive shaft 1124 which in turn moves theextension member 1126. Thetarget connectors 1104 couple to thetargets 1102 and to theextension member 1126 to move thetargets 1102 with theextension member 1126 as theextension member 1126 moves in a left-right direction as illustrated bydirectional arrow 1111. -
FIG. 11C is similar toFIG. 11B except the actuator inFIG. 11C is hydraulic. Thus,FIG. 11C illustrates ashooting gallery system 1130 including ahydraulic actuator 1132, a plurality oftarget connectors 1104 corresponding to a plurality oftargets 1102 andsupport members 1138. Thehydraulic actuator 1132 includes ahydraulic hose 1134 coupled to anextension member 1136 bycoupling 1135. Theextension member 1136 couples to thehydraulic hose 1134 at a proximal end and rests onsupport members 1138 at the proximal and the distal end. Thetarget connectors 1104 couple to thetargets 1102 and to theextension member 1136 to move thetargets 1102 with theextension member 1136 as theextension member 1136 moves in a left-right direction as illustrated bydirectional arrow 1111. As discussed above, thetargets 1102 may be reset by an actuator, a captured spring system, a controller, or similar means. -
FIG. 11C illustrates ashooting gallery system 1130 includingpiston actuators extension member 1146, asupport member 1148, and a plurality oftarget connectors 1104 corresponding to a plurality oftargets 1102. Thepiston actuators pistons 1144 a, 1144 b configured to contact theextension member 1146 at a distal and a proximal end. Theextension member 1146 pivots about thesupport member 1148 at an approximate mid-point. Thetarget connectors 1104 couple to thetargets 1102 and slidably connect to theextension member 1146 to allow thetargets 1102 to slide along theextension member 1146 as shown byarrow 1141 when thepiston actuator 1142 a is in an extended position andpiston actuator 1142 b is in a withdrawn position (or vice versa).Targets 1102 move in a left-right direction as illustrated bydirectional arrow 1111. -
FIG. 11C illustrates ashooting gallery system 1130 includinggear actuators extension member 1156, and a plurality oftarget connectors 1104 corresponding to a plurality oftargets 1102. Thegear actuators extension member 1156, shown in the illustrative embodiment as a chain, at a distal and a proximal end. Theextension member 1156 is supported by thegear actuators extension member 1156 to provide additional support. Thetarget connectors 1104 couple to thetargets 1102 and to theextension member 1156 to move thetargets 1102 with theextension member 1156 as theextension member 1156 moves in a left-right direction as illustrated bydirectional arrow 1111. -
FIG. 12A is a schematic front view andFIGS. 12B and 12C are schematic back views of shooting galleries configured in accordance with further embodiments of the invention.FIGS. 12A and 12B illustrate ashooting gallery system 1210 including tworotary members targets 1202 as illustrated bydirectional arrow 1211. Therotary members FIGS. 12A and 12B move independently, thus allowing one to rotate at a different speed than the other. Therotary members target connectors 1204 coupled totargets 1202 shown in a configuration that presents thetargets 1202 to the shooter at fixed interval distances. In certain embodiments, thetargets 1202 may be presented in intervals of varying distances. InFIGS. 12A and 12B , the front face of theshooting gallery system 1210 is curved to revealmore targets 1202 at one time. Alternatively, the front face of theshooting gallery system 1210 could be of any other geometric shape to all more or fewer targets to be revealed to the shooter. -
FIG. 12C illustrates ashooting gallery system 1220 including tworotary members actuator 1222. Theactuator 1222 may include a chain, rope, belt, cable, or any other actuator as described above. Therotary members FIG. 12C move in unison, thus allowing each to rotate at the same speed. As inFIGS. 12A and 12B , therotary members target connectors 1204 coupled totargets 1202. Similar to theshooting gallery system 1210 shown inFIGS. 12A and 12B , thetarget 1202 movement inshooting gallery system 1220 is rotary as illustrated bydirectional arrow 1221. -
FIG. 13A is an isometric view of aprotective housing 1300 for use with the shooting gallery. Theprotective housing 1300 can at least partially surround the power source 130 (see, e.g.,FIG. 2B ) to shield the power source from the projectiles. In certain embodiments, wires that connect thepower source 130, (e.g., a battery) or remote control are shielded from projectiles with cable shields, shown inFIG. 5B .FIG. 5B , more specifically, illustrates powercord protection members 1310 adjacent to the power cord (not shown) and positioned to protect the power cord from stray projectiles. The illustrated powercord protection members 1310 are shown connected generally at a right angle, however, as understood by one skilled in the art, theprotection members 1310 could be U-shaped, C-shaped, tubular or the like. Furthermore, theprotection member 1310 can be made of any material suitable to protect the power cord from a projectile, such as, for example, steel. - Unless the context clearly requires otherwise, throughout the description and the claims, the words “comprise,” “comprising,” and the like are to be construed in an inclusive sense as opposed to an exclusive or exhaustive sense; that is to say, in a sense of “including, but not limited to.” Words using the singular or plural number also include the plural or singular number, respectively. When the claims use the word “or” in reference to a list of two or more items, that word covers all of the following interpretations of the word: any of the items in the list, all of the items in the list, and any combination of the items in the list.
- The above detailed descriptions of embodiments of the invention are not intended to be exhaustive or to limit the invention to the precise form disclosed above. While specific embodiments of, and examples for, the invention are described above for illustrative purposes, various equivalent modifications are possible within the scope of the invention, as those skilled in the relevant art will recognize. For example, while steps are presented in a given order, alternative embodiments may perform steps in a different order. The various embodiments described herein can be combined to provide further embodiments.
- In general, the terms used in the following claims should not be construed to limit the invention to the specific embodiments disclosed in the specification, unless the above detailed description explicitly defines such terms. While certain aspects of the invention are presented below in certain claim forms, the inventors contemplate the various aspects of the invention in any number of claim forms. Accordingly, the inventors reserve the right to add additional claims after filing the application to pursue such additional claim forms for other aspects of the invention.
- The various embodiments described above can be combined to provide further embodiments. All of the U.S. patents, U.S. patent application publications, U.S. patent applications, foreign patents, foreign patent applications and non-patent publications referred to in this specification and/or listed in the Application Data Sheet are incorporated herein by reference, in their entirety. Aspects of the invention can be modified, if necessary, to employ shooting galleries, targets and target supports with various configurations, and concepts of the various patents, applications, and publications to provide yet further embodiments of the invention.
- These and other changes can be made to the invention in light of the above-detailed description. In general, in the following claims, the terms used should not be construed to limit the invention to the specific embodiments disclosed in the specification and the claims, but should be construed to include all shooting galleries, targets and target supports that operate in accordance with the claims. Accordingly, the invention is not limited by the disclosure, but instead its scope is to be determined entirely by the following claims.
Claims (25)
1. An automatic shooting gallery, comprising:
a first plate;
a support frame coupled to the first plate;
a power source;
a conveyor driven by the power source, wherein the conveyor travels in a predetermined path having an active zone and a return zone;
a plurality of target connectors coupled to the conveyor; and
a plurality of targets being movable between an extended position and a fallen position, the targets are rotatably connected to the target connectors, wherein the target connectors at least partially retain the targets in the extended position in the active zone of the path, and wherein the targets in the fallen position are configured to reset to the extended position from the fallen position during the return zone of the path without the aid of any other mechanism.
2. The shooting gallery of claim 1 , further comprising a second plate coupled to the frame, wherein the targets at least partially rest against the second plate in the fallen position in the active zone.
3. The shooting gallery of claim 1 wherein each target connector comprises a protrusion at least partially retaining the targets in the extended position.
4. The shooting gallery of claim 3 wherein the target connectors further include protrusions configured to at least partially resist rotating the targets from the extended position to the fallen position, such that a first force is required to move the targets from the extended position past the protrusions to the fallen position, and a second force is required to reset the targets from the fallen position past the protrusions to the extended position, and wherein the first force is greater than the second force.
5. The shooting gallery of claim 4 wherein the first force comprises an impact force of a projectile.
6. The shooting gallery of claim 4 wherein the second force comprises gravity.
7. The shooting gallery of claim 1 wherein each target connector comprises a stop, wherein the stop at least partially supports the targets in the fallen position in the active zone.
8. The shooting gallery of claim 1 wherein:
each target connector further includes a sleeve configured to receive a rotation device, the sleeve further configured to receive a locking removable pin.
9. The shooting gallery of claim 8 wherein the sleeve is integral with the target.
10. The shooting gallery of claim 1 wherein the targets are removable without the use of a tool.
11. The shooting gallery of claim 1 , further comprising an adjustable conveyor tensioning device.
12. The shooting gallery of claim 1 wherein the power source is configured to drive the conveyor at different speeds.
13. The shooting gallery of claim 1 , further comprising a remote control for directing the power source.
14. The shooting gallery of claim 13 wherein the remote control is wireless.
15. The shooting gallery of claim 1 , further comprising a conveyor guide positioned proximate to the conveyor, wherein the conveyor guide at least partially maintains the conveyor on the predetermined path when the targets move from the extended position to the fallen position.
16. The shooting gallery of claim 1 wherein the plurality of targets are nonmetallic.
17. The shooting gallery of claim 1 wherein a geometry of the targets distributes a target weight such that the target weight at least partially retains the targets in the extended position.
18. The shooting gallery of claim 1 wherein the shooting gallery is sized to allow a user to hand carry the gallery.
19. An automatic shooting gallery, comprising:
a frame;
one or more gears rotatably coupled to the frame;
a power source coupled to the one or more gears;
a conveyor disposed on the one or more gears, wherein the power source drives the conveyor through a loop comprising an active zone and a return zone;
a plurality of target connectors coupled to one or more of the gear; and
a plurality of targets, wherein individual targets comprise a bracket that removably and pivotally couples the targets to the individual target connectors, and wherein the targets are configured to rotate between extended and fallen positions and wherein the bracket is configured to at least partially retain the targets in the extended position in the active zone.
20. The shooting gallery of claim 19 , wherein the targets are non-metallic.
21. The shooting gallery of claim 19 wherein the bracket further includes a protrusion for at least partially retaining the targets in the extended position.
22. The shooting gallery of claim 21 wherein the protrusion is configured to at least partially resist rotating the targets from the extended position to the fallen position, such that a first force is required to move the targets from the extended position to the fallen position, and a second force is required to reset the targets from the fallen position to the extended position, and wherein the first force is greater than the second force.
23. The shooting gallery of claim 21 wherein the target connectors further comprise a stop that at least partially contacts the protrusion when the targets rotate, wherein the protrusion provides a greater rotational resistance in the direction of rotating from the extended position to the fallen position than in the direction of rotating from the fallen position to the extended position.
24. The shooting gallery of claim 19 wherein the targets further comprise a geometry configured to at least partially rotate the targets from the fallen position to the extended position.
25. The shooting gallery of claim 19 wherein the targets are constructed of a composite material.
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US9448044B1 (en) | 2014-10-08 | 2016-09-20 | Robert Swailes | Moving target device |
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US11333461B2 (en) | 2019-02-15 | 2022-05-17 | Aob Products Company | Recoil-reducing firearm shooting rest having tank |
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