This disclosure relates to implementations of an electronically scored target array.
Competitive shooting sports today include firing handguns, rifles, and other firearms at various types (e.g., steel, paper, etc.) of targets. Performance is a measure of accuracy, speed, time, shot placement, shot grouping, and a host of combinations of these and other criteria. To successfully compete, a shooter must possess a combination of skills, competitive talents, and equipment (e.g., firearm and ammunition). The required skills involve marksmanship fundamentals, such as stance, grip, sight picture, sight alignment, breathing control, trigger manipulation, and follow through. Competitive talents necessary to compete vary by discipline, but may include shooting while moving, drawing from the holster, transitioning efficiently between targets, etc.
A variety of target systems are available for shooters to develop their marksmanship skills and facilitate competition between participants. User preference, competitive considerations, and the size of a firing range often direct the target or target system selected for use.
Implementations of an electronically scored target array are provided. In some implementations, the electronically scored target array comprises a base, a base guard, a cover plate, a first trunk tube, a second trunk tube, and nine target plates. In some implementations, the electronically scored target array may further comprise a target controller, nine lasers, and nine accelerometers.
In some implementations, the base of the electronically scored target array may be configured to support the trunk tubes. In some implementations, the trunk tubes may be at a 65 degree angle relative to the base.
In some implementations, a first strike plate and a second strike plate may be secured to the front side of the first trunk tube and the second trunk tube, respectively. In some implementations, the strike plates may be configured to protect the trunk tubes and/ or other portions of the electronically scored target array located behind the target plates from damage.
In some implementations, a first spall plate and a second spall plate may be secured on opposite sides of the electronically scored target array. In some implementations, each spall plate may be secured to one or more of the plate cross bars used to secure target plates to the trunk tubes of the electronically scored target array.
In some implementations, the spall plates may be configured to prevent ricocheting projectiles and/or spall from striking objects or structures located on either side of the electronically scored target array. In this way, for example, the electronically scored target array may be used at an indoor firing range without damaging the interior walls.
In some implementations, the cover plate may be configured to fit onto the top of the base. In some implementations, the cover plate may be configured to cover one or more interior compartments of the base. In this way, any electronics (e.g., the target controller), wiring, and/ or other equipment stored within the interior compartment(s) may be protected from spall resulting from projectiles impacting on and/or around the target plates and/or strike plates.
In some implementations, the electronically scored target array may include a first target plate assembly, a second target plate assembly, and a third target plate assembly. In some implementations, the electronically scored target array may include more than three or less than three target plate assemblies.
In some implementations, each target plate assembly may comprise three target plates secured to a plate cross bar, three isolation blocks, two isolation bars, and six dampener blocks. The target plates of each target plate assembly are spaced to not come into contact with each other. In some implementations, the target plates when secured to a target plate assembly may be at a 70 degree angle relative to the base.
In some implementations, the angle (e.g., 70 degrees) of the target plates relative to the base may be different than the angle (e.g., 65 degrees) of the trunk tubes relative to the base. In this way, spall resulting from a projectile impacting on one target plate will not be deflected downwardly along a path that would cause it to strike a target plate positioned below it.
In some implementations, the isolation blocks, isolation bars, and dampener blocks of each target plate assembly may be made of an isolation material. In some implementations, the isolation blocks, isolation bars, and dampener blocks may be positioned and used to shock isolate each target plate from the plate cross bar and/ or to shock isolate the plate cross bar from each trunk tube. In this way, when a projectile strikes any portion of the electronically scored target array the resulting forces (i.e., vibrations) are not transferred to a target plate that was not directly struck by the projectile. This prevents the accelerometer on the back side of each target plate from registering a hit when there was none.
In some implementations, the nine lasers may be secured to the base of the electronically scored target array. In some implementations, there may be one laser for each target plate on the electronically scored target array. In some implementations, each laser is positioned so that a laser beam generated thereby illuminates a single target plate.
In some implementations, a target controller in conjunction with a computer (e.g., a laptop, desktop, tablet, and/or other portable electronic device) may be used to control the operation of the lasers and/or the accelerometers of the electronically scored target array.
In some implementations, when an accelerometer on a target plate registers the impact of a projectile on that target plate, a signal is passed to the target controller. In some implementations, the target controller may be configured to control when, for how long, and/or which accelerometer(s) are activated. In this way, only hits on a target plate with an activated accelerometer are recorded.
In some implementations, a laser(s) may be used to designate the target plate(s) having an active accelerometer. A signal may be passed from the target controller to the laser(s) and thereby control when, for how long, and/or which laser(s) are activated. In this way, a user may know which target plates to engage (i.e., to shoot) for score.
In some implementations, gaming software may be used in conjunction with a computer and one or more target controllers. In some implementations, the gaming software may be used to control the activation of the lasers and/or accelerometers of an electronically scored target array. In some implementations, the gaming software may be used to create a preset course of fire that will control the activation of the lasers and/or accelerometers. In some implementations, a course of fire may be randomly generated by the gaming software.
In some implementations, the gaming software may be used to associate recorded times, the number of target plates shot, the number of target plates not shot (i.e., missed or not engaged), and/or any other recorded information with a particular shooter. In some implementations, the recorded times, successful hits on the target plates, the number of target plates not hit, and/or any other recorded information (e.g., personal information about the shooter) may be stored by the gaming software and associated with an account of the shooter's.
As shown in
As shown in
As shown in
As shown in
In some implementations, as shown in
As shown in
In some implementations, as shown in
As shown in
In some implementations, as shown in
As shown in
As shown in
In some implementations, as shown in
As shown in
In some implementations, as shown in
In some implementations, as shown in
In some implementations, an isolation block 121 and/or an isolation bar 123 may be a single piece of material (see, e.g.,
In some implementations, a dampener block 127 may be made from four stacked pieces of material (see, e.g.,
In some implementations, the isolation blocks 121, isolation bars 123, and dampener blocks 127 may be made of an isolation material. In some implementations, the isolation material may be a vinyl solid sold under the name ISODAMP®. In some implementations, the isolation material may be any material suitable for the purposes discussed herein.
As shown in
To assemble a target plate assembly 115 constructed in accordance with the present disclosure, in some implementations, an isolation block 121 is positioned against the backside of the target plate 110 so that the two screws 125 thereon are protruding from openings 122 in the isolation block 121 (see, e.g.,
In some implementations, the plate cross bar cap 119 may be secured to the plate cross bar 117 after all of the target plates 110 are attached thereto (see, e.g.,
In some implementations, as shown in
To secure a target plate assembly 115 to the trunk tubes 160 constructed in accordance with the present disclosure, in some implementations, an isolation bar 123 may be initially positioned against the backside of each trunk tube 160 so that the two screws 166 extending from each trunk tube 160 are protruding from openings 124 in the isolation bar 123 (see, e.g.,
As shown in
In some implementations, one or more lasers 170 may be used to designate one or more target plates 110 to be engaged by a shooter. In some implementations, each laser 170 may be positioned (e.g., angled) so that the laser beam generated thereby strikes somewhere on the top one-third of the target plate 110 strike face. In this way, a shooter may align their firearm's sights on a target plate 110 without obscuring their view of the laser beam striking the same target plate 110. In some implementations, each laser 170 may be positioned so that the laser beam generated thereby strikes anywhere on the target plate 110. In some implementations, there may be more than nine or less than nine lasers 170.
In some implementations, one or more of the lasers 170 may be configured to emit a green light. In some implementations, one or more of the lasers 170 may be configured to emit any visible color light (e.g., yellow, red, orange, green, etc.). In some implementations, one or more of the lasers 170 may be configured to emit an infrared light. In this way, a user having night vision equipment may be able to use the electronically scored target array 100 in the dark.
In some implementations, a light-emitting diode (LED) may be used in place of a laser 170. In some implementations, any illumination source suitable for illuminating a single target plate 110 at a time may be used in place of a laser 170.
As shown in
As shown in
In some implementations, as shown in
In some implementations, the transceiver 183 may be configured to communicate with the one or more accelerometers 173 used with each target plate 110. In some implementations, when an accelerometer 173 on a target plate 110 registers the impact of a projectile on that target plate, a signal is passed through the transceiver 183 to the target controller 175. In some implementations, the target controller 175 may be configured to control when, for how long, and/or which accelerometer(s) 173 are activated. In this way, only hits on a target plate 110 with an activated accelerometer 173 are recorded.
In some implementations, the laser drivers 181 may be configured to communicate with the lasers 170 used to designate the target plates 110. A signal may be passed from the target controller 175 through the laser drivers 181 to the lasers 170 and thereby control when, for how long, and/or which laser(s) 170 are activated. In this way, a user may know which target plates 110 to engage (i.e., to shoot) for score.
In some implementations, gaming software 300 may be used in conjunction with a computer 172 and one or more target controllers 175. In some implementations, the gaming software 300 may be used to control the activation of the lasers 170 and/or accelerometers 173. In some implementations, the gaming software 300 may be used to create a preset course of fire that will control the activation of the lasers and/or accelerometers (173).
In some implementations, the gaming software 300 may be used to create a course of fire in which one or more target plates 110 are designated (i.e., illuminated) by a laser 170 in a preset order for a preset amount of time. In some implementations, the laser 170 and the accelerometer 173 of the designated target plate 110 may only be active for the preset amount of time.
In some implementations, the laser 170 and the accelerometer 173 of the designated target plate 110 may remain active until the shooter successfully engages the designated target plate. In some implementations, after the designated target plate 110 has been shot and a preset amount of time has passed (i.e. a delay), the accelerometer 173 of another target plate 110 may then be activated and the target plate 110 designated by its associated laser 170. In some implementations, after the designated target plate 110 has been shot, the accelerometer 173 of another target plate 110 may be immediately activated (i.e. no delay) and the target plate 110 designated by its associated laser 170.
In some implementations, for example, all of the target plates 110 may be simultaneously designated by a laser 170 and their respective accelerometers 173 active. As the shooter successfully engages each target plate 110, the laser 170 designating that target plate 110 turns off as does its accelerometer 173. In this way, the shooter will be provided with a visual indication as to which target plates 110 have been successfully engaged (i.e. there is no laser visible on those target plates 110) and those that have not (i.e. the laser is still visible on those target plates 110). In some implementations, the time between the activation of each laser 170 and accelerometer 173 and when a shooter successfully engages each target plate 110 may be recorded.
In some implementations, the course of fire may be randomly generated by the gaming software 300 on demand.
In some implementations, the gaming software 300 may be used to record the amount of time that passes from the initial designation of a target plate 110 by a laser 170 and a shooter successfully shooting (i.e. hitting with a projectile) the target plate.
In some implementations, when a target plate 110 being designated by a laser 170 is shot its accelerometer 173 may register the hit and the gaming software 300 may record the hit for the purposes of scoring. In some implementations, the accelerometer 173 of a target plate 110 may only be active while a laser 170 is illuminating that target plate 110. In this way, the gaming software 300 only records hits on target plates 110 to which the shooter is being directed by the lasers 170.
In some implementations, the gaming software 300 may associate recorded times, successful hits on the target plates 110, the number of target plates 110 not hit (i.e., missed), and/or any other recorded information with a particular shooter. In some implementations, the recorded times, successful hits on the target plates 110, the number of target plates 110 not hit, and/or any other recorded information may be stored by the gaming software 300 in nonvolatile memory and associated with an account of the shooter's.
In some implementations, the gaming software 300 may be connected via a network to a web server. In this way, a shooter's account may be retrieved by the gaming software 300 and/or the gaming software 300 may associate information recorded during a course of fire with the shooter's account.
In some implementations, an administrator of the gaming software 300 can interact with the web server via an application, such as a web browser or a native application, residing on a computer 172. In some implementations, the recorded times, successful hits on the target plates 110, the number of target plates 110 not hit, and/or any other recorded information (e.g., personal information about the shooter) may be stored in a database by the gaming software 300.
In some implementations, the communication of data and data processing may be performed in real time or non-real time by the gaming software 300.
One of ordinary skill in the art, having the benefit of the present disclosure, could produce the gaming software 300 described herein.
In some implementations, the base 130, base guard 140, cover plate 150, target plates 110, trunk tubes 160, and/or strike plates 162 may be manufactured from a steel and/or other metal alloy. In some implementations, the base 130, base guard 140, cover plate 150, target plates 110, trunk tubes 160, and/or strike plates 162 may be manufactured from any material suitable for resisting repeated impacts by projectiles discharged from a firearm.
It is to be understood that, in some implementations, the electronically scored target array 100 could be used simply as a target array by omitting, for example, the target controller 175, lasers 170, accelerometers 173 and/or other related electrical components.
While the various implementations of the electronically scored target array 100 disclosed herein are intended to be used with a firearm (e.g., a rifle and/or handgun), in some implementations, the electronically scored target array 100 may be configured to work with alternative projectile launchers (e.g., BB guns, pellet guns, airsoft guns, etc.). In implementations configured to be used with these alternative projectile launchers, the base 130, base guard 140, cover plate 150, target plates 110, trunk tubes 160, and/or strike plates 162 may be manufactured from a polymer material.
Reference throughout this specification to “an embodiment” or “implementation” or words of similar import means that a particular described feature, structure, or characteristic is included in at least one embodiment of the present invention. Thus, the phrase “in some implementations” or a phrase of similar import in various places throughout this specification does not necessarily refer to the same embodiment.
Many modifications and other embodiments of the inventions set forth herein will come to mind to one skilled in the art to which these inventions pertain having the benefit of the teachings presented in the foregoing descriptions and the associated drawings.
The described features, structures, or characteristics may be combined in any suitable manner in one or more embodiments. In the above description, numerous specific details are provided for a thorough understanding of embodiments of the invention. One skilled in the relevant art will recognize, however, that embodiments of the invention can be practiced without one or more of the specific details, or with other methods, components, materials, etc. In other instances, well-known structures, materials, or operations may not be shown or described in detail.
While operations are depicted in the drawings in a particular order, this should not be understood as requiring that such operations be performed in the particular order shown, or in sequential order, or that all illustrated operations be performed, to achieve desirable results.
This application claims the benefit of U.S. Patent Application Ser. No. 62/135,869, which was filed on Mar. 20, 2015, and is incorporated herein by reference in its entirety.
Number | Date | Country | |
---|---|---|---|
62135869 | Mar 2015 | US |