The present invention relates to targets used for target practice. More specifically, the present invention relates to target systems which can be readily modified to facilitate different target training exercises.
In order to maintain proficiency in the use of firearms, it is common for law enforcement officers, members of the military and sportsmen to engage in target practice. While many perceive target practice as simply a method for improving accuracy, it is important for law enforcement officers and the like to conduct target practice in scenarios which improve timing and the ability to make split-second decisions on whether or not to fire. Such split-second decisions can mean the difference between life and death both for the officer and the potential threat.
In order to properly train police officers, it is important that they develop both hand-eye coordination and that they also receive sensory stimulation which is associated with actual conditions, such as feedback as to whether a potential threat has been properly handled. It is important for law enforcement officers and the like to be able to see when a target has been hit properly.
Likewise, it is also desirable for a police officer to be forced to make split second decisions on whether or not to fire. If an officer is properly trained in making firing decisions, he or she will be more comfortable with his or her ability to make a split second decision and will be able to make decisions more accurately. This can lower the risk of an officer accidentally firing at a person who is not an actual threat or hesitating too long to shoot at a person who is endangering the life of the officer or others who are nearby.
One common type of target is a pop-up target. A pop-up target is typically disposed behind a shield and includes a target which can be made to stand generally vertical. When the target is hit by a bullet, the target will fall over, thereby providing a visual stimulus that the target has been hit. An arm often engages the target and lifts it back into a vertical position to allow further shooting. Other targets may use a spring to draw the target back to the upright position.
Another type of target is a shoot through target which has distinctive “kill zones.” Such a target may provide a silhouette of a person and have cut-outs in areas where a hit would most likely be fatal (typically the head and parts of the chest). The officer often will not be able to advance until the target has been hit in the kill zone. Thus, the officer is placed under stress until he or she has properly hit the target in such a way that a real person would be incapacitated if so hit.
It is beneficial for the officer to receive prompt indication that he or she has appropriately hit the target. For example, shooting at a target and then retrieving the target to see where it has been hit is often less desirable than allowing the officer to see a visual response in the target itself immediately after the shot. Thus, for example, it is desirable if the officer can instantly know that he or she has hit the target in the desired “kill zone.” If the officer does hit the target in the appropriate location, he or she can immediately move to the next target. If the officer misses, he or she can take additional shots until the goal has been met.
In order to maximize the benefit of training, it is often desirable to change the targets between each exercise. This prevents the officer from getting accustomed to the target layout and anticipating what will be presented. However, with many existing target designs, changing the targets can be time consuming and burdensome.
Thus there is a need for an improved target which allow for rapid change out of portions of the target to provide customization of a target course in very little time and without the need for tools, etc.
Embodiments of an improved target system and associated methods are disclosed below. According to some embodiments, the target system includes a blocking plate which may be positioned in a forward position to present a general target area for a shooter. One or more openings are formed in the blocking plate in areas where it may be desirable for the shooter to hit. At least one target is placed behind the opening(s) in the blocking plate. The target is movable when struck by a bullet to provide a visual indication that the target has been hit by the shooter. In such a manner, the shooter is provided with an immediate indication as to whether the shot was successful.
In accordance with one aspect of the invention, the target may be attached to the blocking plate or a structure positioned behind the blocking plate by a hinge mechanism to enable the target to pivot when hit by a bullet or other projectile. The hinge mechanism, in one embodiment of the invention, allows the target to be attached to and removed from the hinge mechanism without the use of tools. Tool less attachment of the targets to the hinge mechanism allows the target to be mounted on or in the hinge mechanism and removed therefrom in a matter of seconds, thereby facilitating the changing of target plates.
In accordance with another aspect of the invention, the hinge mechanism may include a hinge pin and a pair of hinge mounts that interact with one another. A portion of the hinge pin is configured to engage a shaped opening in the hinge mounts to allow rotation of the hinge pin a predetermined amount (e.g. 80-100 degrees or other ranges) while preventing further rotation of the target.
In accordance with another aspect of the invention, the hinge mechanism may include a hinge pin which is held within the hinge mounts by the target itself, and removal of the target enables the hinge pin to be removed from the hinge mounts.
In accordance with another aspect of the present invention, the hinge mechanism may include a hinge pin with an opening extending therethrough and sized to receive the target through the opening.
In accordance with another aspect of the present invention, the target is formed by a target plate, the target plate may have retaining tabs configured to engage the hinge pin to prevent the target plate from passing completely through the hinge pin.
In accordance with still another aspect of the invention, the retaining tabs of the target plate may be sized and positioned to be disposed adjacent the hinge mounts such that the restraining tabs limit movement of the hinge pin and thereby hold the hinge pin in the hinge mounts.
In accordance with yet another aspect of the invention, a plurality of targets having different visual characteristics may be included with the target system. The different targets may be mounted in the hinge pins to change the visual effect given to a shooter and thereby indicate whether or not the shooter is to shoot at a given target.
In accordance with still yet another aspect of the present invention, the plurality of targets may comprise targets having different mass to thereby allow the target to move appropriately in response to a given class of projectile, while minimizing damage to the target. Thus, for example, the target may be made from ¼th inch soft steel for being shot with a 22 caliber pistol, and be replaced with a ½ inch piece of hardened steel for being shot by a high powered rifle.
It will be appreciated that the present invention provides various aspects and different embodiments provide different advantages. Thus, it will be appreciated that each embodiment need not provide all aspects or advantages of the present invention while still falling within the general scope of the invention as set forth in the appended claims.
Various embodiments and features of target systems are shown and described in reference to the following numbered drawings:
It will be appreciated that the drawings are illustrative and not limiting of the scope of the invention which is defined by the appended claims. The embodiments shown accomplish various aspects of the invention. It is appreciated that it is not possible to clearly show each element and aspect of an invention in a single figure, and as such, multiple figures are presented to separately illustrate the various details of embodiments of target systems in greater clarity. Several aspects from different figures may be used in accordance with target systems in a single structure. Similarly, not every embodiment need accomplish all advantages of various embodiments of target systems.
Embodiments of target systems and associated methods as shown in the accompanying drawings, which include reference numerals referred to below, provide details for understanding and practice by one skilled in the art. The drawings and descriptions are exemplary of various aspects of target systems and associated methods and are not intended to narrow the scope of the appended claims.
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The blocking plate 14 may include one or more openings 18 through which a bullet or other projectile can pass. As shown in
The second opening 18b is positioned at another kill zone, the area immediately around the heart. A perpetrator hit in the proper place in the chest will usually be killed or incapacitated. Thus, an officer engaging in target practice can shoot at the two kill zones on a target to ensure that he or she is able to take down a threat before the threat can injure the officer or others.
It will be appreciated that target openings on other targets may have different shapes or may be positioned in different locations relative to a blocking plate. For example, an infantryman in the army may train to disable a vehicle with his weapon. The blocking plate 14 may be in the shape of a truck and the openings 18 may correlate with the likely location of the driver's head, the gas tank or other locations in which the soldier should shoot. Likewise, if used for practice hunting, the blocking plate 14 may be in the form of an animal and the openings placed in appropriate locations for the animal (typically the head and heart).
Disposed behind the openings 18 are targets 22 which are to be hit by the shooter. The targets 22 may typically be steel plates or comprised of some other similar or suitable material to be impacted by the bullet. Because it is generally desirable for the shooter to instantly recognize if he or she has hit the target 22, the targets are connected to a hinge mechanism 26. When the target 22 is hit, it will swing backwards and upwardly in response to the impact of the bullet. This allows the shooter to know instantly whether the kill zone has been hit. This may be important as a shooter may not be allowed to advance until a given number of hits are made to a kill zone. Thus, for example, a shooter may not be allowed to advance until he or she has had at least one shot strike the head target (22a) and two shots which strike the chest target (22b). The shooter is able to instantly tell if each shot hit the appropriate target 22 and when she can proceed to the next target.
As will be discussed in more detail below, the hinge mechanism 26 allows the target 22 to move, but may also limit movement to contain the “reset” time—i.e. the time between hitting the target and when the target is once again ready to be hit. This may be done by an interaction between a hinge pin 30 and a shaped opening 34 on hinge mounts 38.
One important aspect of a target system 10 such as that shown in
Additionally, it may also be desirable to change targets 22 in response to different types of ammunition being fired. For example, when firing a high powered rifle, it may be desirable to have a heavy plate of hardened steel as the target to minimize damage caused to the plate. However, if the shooter is firing a 22 caliber pistol, a very heavy plate will move little in response to the impact, thereby minimizing the ability of the shooter to confirm that he or she hit the proper location. Thus, it is desirable to be able to change out the targets 22 so that the target will responds appropriately when a particular caliber of bullet strikes the target. The present invention allows such changes to be made with very little effort and can avoid the need for tools all together.
The hinge mounts 38 may be positioned adjacent to the opening 18a (typically above so that the target (not shown) hangs down behind the opening). Openings 34 are formed in the hinge mounts to receive the hinge pin (not show) and allow the hinge pin to rotate.
As shown in
The hinge pin 30 includes an elongate opening 44 which extends into and, in the present embodiment, through the hinge pin 30. As will be explained in additional detail below, this allows the target or a portion thereof to be inserted into the hinge pin 30 without the use of tools.
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The targets 22 may be formed by pieces of metal (often steel) or other appropriate target material. In some instances it is desirable to have the projectile penetrate the target 22 to provide confirmation of a hit. Thus, softer materials such as plastics, wood, etc., may also be used.
The targets 22 are held in place by hinge mechanisms 26. The hinge mechanisms 26 are formed by hinge pins 30 which rotate in openings 34 in hinge mounts 38. As shown in
While shown as being attached to the blocking plate 14, it will be appreciated that a support frame or other structure could also be used to hold the hinge mechanisms 26 and targets 22 behind the blocking plate 14 without them having to be attached thereto. The blocking plate 14 could also be attached to a common support frame as the hinge mechanisms 26 to hold all of the parts in relative proximity to one another.
It will be appreciated that the hinge pin 30 can be of a variety of shapes. For example, the end of the hinge pin 30 could be round and could rotate in a generally circular opening. However, in accordance with one aspect of the present invention, the end of the hinge pin 30 is generally rectangular and is mounted in an opening which may be rounded on two opposing approximate quarter circles 40a having inwardly extending projections 40b. In this configuration, the end of the hinge pin 30 is allowed to rotate approximately 90 degrees until its rotation is prevented by the projections 40b. This, in turn, allows the target 22 to be deflected adequately to clearly indicate that it has been hit, but forcing it to return quickly to its original orientation behind the openings 18 in the blocking plate 14. It also prevents the target 22 from rotating upwardly to the point where gravity holds it in contact with the back side or top of the blocking plate 14.
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It will be appreciated that in addition to the tabs 54 preventing the target 22 from passing through the opening 44, the tabs 54 could be made to engage the opening 44. Thus, the target 22 could also be suspended by the tabs 54 mounted in the opening 44 in the hinge pin 30.
One significant advantage of certain embodiments of the present invention is that the target plate 50 and thus the target 22 can be removed from the hinge pin 30 with very little effort. Rather than requiring tools, simply lifting or pushing the target 22 upwardly allows it to be drawn out of the opening 44 in the hinge pin 30. Thus, in a manner of one to two seconds one target 22 can be removed from the hinge pin 30 and a different target may be put in its place.
As was mentioned previously, it may be desirable to replace a target 22 depending on the type of projectile being fired at the target. A much heavier plate may be used for high caliber rifles than with a small pistol. In accordance with the present invention, this can be done in moments and without the need of tools.
Likewise, if a target 22 becomes damaged or is no longer of use, the plate can be removed virtually instantaneously without the use of tools. Thus, if the target 22 is being used for documentation (i.e. how many hits were recorded), the target 22 can be removed and replaced with the next target in a matter of seconds.
Additionally, the ability to replace the target 22 allows different visual indications to be used. For example, to judge an officer's ability to make quick, accurate decisions, an officer may be presented with ten target systems side by side and then instructed to only shoot red. The officer would then advance in front of each target and have to determine whether or not to shoot. The first target system may have two green targets 22, the second two red targets 22 and the third a green lower target 22b and red upper target 22a, followed by two target systems with green targets in both areas. As the officer moves through the training scenario in a timed manner, trainers can evaluate how quickly the officer is making decisions and how accurately both the decisions and the shooting are being made. If the officer needs additional training. In less than 1 minute, the trainer can change the locations of the red and green targets. When the officer again goes through the test, he or she must make decisions about whether to shoot and cannot rely on memory, for example, that target system numbers 1, 4 and 5 are no shoots, target system 2 is both and target system 3 is a head shot only.
One aspect of the present invention also shown in
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A second target 122b has a retaining tab 154b formed by a simple bend in the target plate 150b to prevent the target plate from passing through the opening 144 in the hinge pin 130. Unlike the prior figures, the hinge mounts 138 may have round holes. Thus, it may be desirable to have the retaining tabs 154a, 154b, or some other structure, engage the blocking plate 114 when a bullet passes through the opening 118 and impacts the target 122a or 122b. For example, a post, an arm, or the like 160 may extend generally perpendicularly away from the target plate 150b and contact the blocking plate 114 after the target 122b is hit by a projectile. It will be appreciated that the post 160 may be constructed to be various lengths, such that a longer post 160 will contact the backing plate 114 sooner than a shorter post 160 after the target 122b is hit by a projectile. Thus, a longer post 160 may allow the target 122b to be returned to its original position, i.e., in line with the opening 118, more quickly than if target plate 150b had a shorter post 160.
It will be appreciated that numerous changes may be made to the above-disclosed embodiments of target systems and associated methods without departing from the scope of the claims. The appended claims are intended to cover such modifications.
The present application claims the benefit of U.S. Provisional Patent Application Ser. No. 61/433,513, filed Jan. 17, 2011, which is incorporated herein by reference in its entirety.
Number | Date | Country | |
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61433513 | Jan 2011 | US |