The invention relates generally to paintball markers and air soft guns and the gameplay related thereto. The sport of paintball is very well known and includes the use of a paintball marker or gun to pneumatically launch a rubber ball or a ball that is typically filled with a colored liquid. For air soft, plastic projectiles are shot at opposing players or targets. Each of the players in the game has such a marker or gun so they can launch projectiles toward players on the opposing team. When players on the opposing team are marked or hit with a projectile, there is typically a scoring event.
The present invention is particularly related to the game of paintball and the related paintball markers. Therefore, the invention will be discussed in detail in connection with paintball markers for ease of illustration but it should be understood that the present invention is applicable to the air soft sport and air soft guns as well.
Also, the present invention relates to any type of projectile launching device or any device that is or simulates a projectile launching device, such as a laser tag simulated firearm. The present invention has applicability for use in security and police forces as well as “less than lethal” and “non-lethal” firearms. For ease of discussion herein, the present invention is discussed in detail in connection with paintball markers but is should be understood that the present invention can be used in connection with any type of firearm, projectile launcher and simulated versions thereof.
It is known, in the sport of paintball, that there are many different types of game play. For example, “supair or speedball”: events are very close range games, played on a small field, using inflatable bunkers or similar small barricades. Typically they last a few minutes and the turnaround between games is limited to a few minutes or seconds. Such speedball games can even be played indoors. In speedball events it is preferable to have a small low profile paintball marker that is hard for a player's opponent to see and shoot at, but is quick and easy to clean the paint from between games if the player is shot during the game. Thus, for this type of game, the basic or core paintball marker is all that is needed.
On the other hand, another popular type of paintball gameplay is called a “scenario or MILSIM (military simulation)” game. Such a scenario game is played on a much larger mixed terrain field, possibly woodland or urban environment, the idea of the game is to mimic some sort of “war type scenario.” Typically these games are played over a much longer period of time, normally hours or days. In scenario games many people find it preferable to have a paintball marker that you can attach various third party devices or tactical aids to, such as a fore grip, magazine, sling mounts, light sources/torches, optical sights, laser sights, cameras etc. In other words, in these types of scenario types games, it is desirable for the paintball marker to look and have the ability to accessorize more like a real firearm, such as an M16 or M4, therefore creating a MILSIM (military simulation) marker or airsoft gun.
There is a need in the prior art to enable a paintball marker (or air soft gun) to be easily and quickly converted over from its basic speedball form to a scenario or MILSIM form that includes some type of rail arrangement/system so it can more closely simulate a real firearm. As is well known, accessories, such as a light sources and scopes, are commonly mounted onto rail systems.
There have been attempts in the prior art to provide rail systems on guns and replacement mounting systems that can be interchanged on these guns. However, these devices and systems are inadequate because they do not closely simulate a real weapon or firearm because they do not completely enshroud the marker or gun. Without full or substantially full enshroudment of the underlying projectile launching device, attachment of accessories simulating a real weapon or firearm is not possible.
These prior art systems are also inadequate because they do not completely detach to leave a marker that is totally free from any rail mountings. There are shrouds or mounting systems available, but they typically attach to the barrel or to the existing rail mount.
There is a need to provide a rail kit for a paintball marker or an air soft gun that can also simultaneously easily convert the marker from a normal non-MILSIM setup to a modified scenario MILSIM set up that more closely simulates a real firearm. There is a need to provide a rail kit for a paintball marker or an air soft gun that is easy to install, remove and clean, and allows easy access to the eyes or ball detectors, without the need to remove the rail kit. There is a need to provide a rail kit for a paintball marker or airsoft gun that allows easy access to the internals of the paintball marker, without the need to remove the complete rail kit, by providing an easily removable rear cap or opening to allow removal of the internal firing mechanism for easy maintenance. There is a need to provide a rail kit for a paintball marker or airsoft gun that allows easy fitment of a stock via a quick release mechanism that may be operated with a lever latch mechanism, screw fit, bayonet fit or other mechanism. There is also a need to provide a rail kit for a paintball marker or airsoft gun that has rail mounts or the ability to mount accessory rails, such as Weaver, Picatinny or NATO rails built into the rail kit. There is a need to provide a rail kit for a paintball marker or airsoft gun that does not clamp onto, nor interfere with the barrel of the paintball marker or airsoft gun. Finally, there is a need to provide a rail kit that can receive a wide range of accessories thereon like a rail system of a real firearm.
The present invention preserves the advantages of prior art paintball markers and airsoft guns accessories added thereto. In addition, it provides new advantages not found in currently available markers, guns and accessories and overcomes many disadvantages of such currently available markers, guns and accessories.
The invention is generally directed to the novel and unique rail kit that is attached to a paintball marker, air soft gun or any other type of projectile launching device or simulated device thereof. The rail kit can quickly and easily convert a standard paintball marker or air soft gun from a conventional speedball non-MILSIM setup to a scenario or MILSIM setup that simulates the look and mounting flexibility of a real firearm. The purpose of the rail kit of the present invention is to allow the user to play ‘speedball type games’ and “scenario type games” with the same paintball marker by simply adding or removing the rail kit system.
In a first embodiment of the invention, the shells are formed without hinges.
In a second embodiment of the invention, at least one shell is provided with a front shell portion and a rear shell portion that are connected by a hinge that rotatably connects the front shell portion to the rear shell portion. Thus, a user can pivot the rear shell portion with respect to the front shell portion.
It is therefore an object of the present invention to provide a rail kit for a paintball marker or an air soft gun that can easily convert it from a normal non-MILSIM setup to a modified scenario MILSIM set up that more closely simulates a real firearm.
Another object of the present invention is to provide a rail kit for a paintball marker or an air soft gun that is easy to install, remove and clean.
Another object of the present invention is to provide a rail kit for a paintball marker or airsoft gun that allows easy access to the eyes or ball detectors, without the need to remove the rail kit, by providing easily removable eye cover plates.
Another object of the present invention is to provide a rail kit for a paintball marker or airsoft gun that allows easy access to the internals of the paintball marker, without the need to remove the complete rail kit, by providing an easily removable rear cap or opening to allow removal of the internal firing mechanism, such as for easy maintenance or any other purpose.
Another object of the present invention is to provide a rail kit for a paintball marker or airsoft gun, projectile launcher or simulation thereof that allows easy fitment of a stock via a quick release mechanism that may be operated with a lever latch mechanism or any other type of mechanism.
Another object of the present invention is to provide a rail kit for a paintball marker or airsoft gun that has rail mounts such as Weaver, Picatinny or NATO rails built into the rail kit.
Another object of the present invention is to provide a rail kit for a paintball marker, airsoft gun, projectile launcher or simulation thereof that has the ability to mount accessory rails such as Weaver, Picatinny, NATO rails, dovetail rail or other rail system onto the rail kit.
Another object of the present invention is to provide a rail kit for a paintball marker or airsoft gun that does not clamp onto, nor interfere with the barrel of the paintball marker or airsoft gun. Therefore allowing the barrel to be removed without the need to remove the complete rail kit. For example, optionally, the regulator, frame, feed neck can be removed where the rail kit does not interfere of clamp onto these components.
A further object of the present invention is to provide a rail kit that can receive a wide range of accessories thereon like a rail system of a real firearm.
A further object of the present invention is to provide a rail kit that has a front shell portion and a rear shell portion connected by a hinge, so that a user can selectively rotate the rear portion with respect to the front portion to access the underlying marker.
A further object of the present invention is to provide a rail kit with a rear shell portion that is detachable from a front shell portion at a hinge when the front shell portion is secured to a projectile launching device.
The novel features which are characteristic of the present invention are set forth in the appended claims. However, the invention's preferred embodiments, together with further objects and attendant advantages, will be best understood by reference to the following detailed description taken in connection with the accompanying drawings in which:
The add-on mounting rail kit 10 is designed to be simple to add or remove from a paintball marker 11, thus enabling the player to enjoy all types of paintball games with the same paintball marker 11. This negates the need for the player to have to buy two guns to play all types of the game, saving the player a great deal of money.
The construction of the rail kit 10 of the present invention can be seen best in connection with
An example of an underlying marker 11 is shown in
The conversion kit 10, shown in
Referring to
These contact points are an integral part of the attachment method around the body giving the clamping sections stability when the mating pads or protrusions 60 on the inner surface of the shell 31A, 31B, as in
Although the conversion kit 10 is shown as including two shells in the figures, the conversion kit could also be formed of a single shell. For example, a shell could be formed as a single piece that is capable of being placed around a marker. A flexible portion or a hinged portion on the single shell would allow a single shell to completely enshroud the marker 11. Another example of a single shell would be a shell that provides an upper shroud for a marker and has an aperture in the lower surface of the shell for receiving a marker. Single shell embodiments such as these would allow the user to more quickly convert the marker to a MILSIM type marker, and also provide a conversion kit that more closely simulates a real firearm.
When the two shells 31A, 31B are mated together and enshrouding the marker 11, they leave a rear open end 65. This open end 65 can be either closed up or have an accessory mounted therein. A unique lever latch system, employing a locking latch lever 54 preferably pivotally mounted to one or both of the shells 31A, 31B, as seen in
Turning now to
Although the invention is shown as having a lever 54 to secure the accessories inserted into the rear of the conversion kit 10, the conversion kit 10 could use other retention devices. For example, a user could secure a blanking plug 51 or butt stock 53 in the rear of the conversion kit 10 using cable ties, clips, ratchets, screw thread, bayonet fitting and any other structure envisioned including any of those envisioned by a person of ordinary skill in the art.
In view of the foregoing, a new and novel rail kit system and conversion kit 10 is provided that can easily convert a standard paintball marker or air soft gun 11 from a speedball non-MILSIM setup with no rail system to a scenario MILSIM type setup where a rail kit 31A, 31B fully enshrouds the marker or gun 11 to better simulate a real MILSIM firearm and provide a rail system 38 for receipt of accessories thereon.
The rail kit 10 of the present invention may be made out of any suitable material and manufactured in many different ways. For example, the rail kit 10 may be molded out of plastic or machined from metal, such as aluminum. Any such material and method of manufacture is considered within the scope of the present invention.
Generally, the second embodiment of the conversion kit of the present invention includes at least one shell, each shell having a front shell portion and a rear shell portion that are rotatably connected to each other at a hinge. The front shell portion is releasably securable to a projectile launching device, and the rear shell portion is releasably securable to the front shell portion by selective engagement of the hinge. A user can selectively rotate the rear shell portion with respect to the front shell portion between a lowered orientation and a raised orientation. A user would typically rotate the rear shell portion to the lowered orientation (see
Turning now to the figures,
The second embodiment of the present invention can be provided to a consumer as either a conversion kit 110 that is provided separately from a projectile launching device 111, or the present invention can be provided as a system that includes the conversion kit 110 and a projectile launching device 111.
In the second embodiment, the conversion kit 110 includes at least one shell that is capable of being secured on a projectile launching device. In the case of a single shell, there is a single front shell portion and a single rear shell portion. The front shell portion and the rear shell portion are rotatably connected at a hinge so that the rear shell portion may pivot about the hinge with respect to the front shell portion when the front shell portion is secured to a projectile launching device. In the case of one shell, the front shell portion and the rear shell portion respectively take the place of the front shell assembly and the rear shell assembly that are made up of front shell portions in the case discussed in more detail below where there is more than one shell.
In the case of more than one shell, as shown in the embodiment of
The at least one shell 131A,131B changes the outer configuration of a projectile launching device 111 onto which it is secured, as shown in the views of
In the second embodiment of the conversion kit 110, the hinge 184 includes two pins 185 and two knuckles 186 that respectively engage the pins 185. Each pin 185 is respectively secured to the respective front portion 180A,180B of one of the shells 131A,131B, and each knuckle 186 is formed on the respective rear portion 182A,182B of one of the shells 131A,131B. In embodiments not shown, this may be reversed, with the knuckles on the respective front portions, and the pins on the respective rear portions.
Each pin 185 extends along the same pin axis 187, as shown in
Generally, when securing the second embodiment of the conversion kit 110 to a projectile launching device 111, the user first secures the one or more front portions 180A, 180B to the projectile launching device 111, as shown in the exploded view of
As shown in
Each respective knuckle 186 has an inner knuckle surface 192 that extends along an arc from a first edge 193A to a second edge 193B. A gap is defined between the first edge 193A of the inner knuckle surface 192 and the second edge 193B of the inner knuckle surface. The gap has a second width W2. A first gap side wall 195A is adjacent to the first edge 193A of the inner knuckle surface 192, and a second gap side wall 195B is adjacent to the second edge 193B of the inner knuckle surface 192. The first and second gap side walls 195A,195B are at least substantially parallel, and are configured so that there is a gap at least as great as the second width W2 between the first and second gap side walls 195A,195B along their lengths.
To allow a user to selectively insert each pin into its respective knuckle, this second width W2 is at least as great as the first width W1. That is, there is sufficient clearance between the flat walls 189A,189B of the pin 185 and side walls 195A,195B of the knuckle 186 to allow the pin 185 to be received by the knuckle 186, or the respective materials of the pin 185 and the knuckle 186 allow for the pin 185 to be received by the knuckle 186 due to the deformability of the respective materials or the low friction of the respective materials or a combination thereof. For example, each pin could snap into a respective knuckle where there is insufficient clearance to simply slide the pin into place.
When each pin 185 is received in its respective knuckle 186, at least one of the arced walls 188A,188B of the pin 185 is in facing relation or in direct facing engagement with the inner knuckle surface 192, as shown in
After passing the opposed flat surfaces 189A,189B of each pin 185 through the gap between the side walls 195A,195B of the respective knuckle 186, the user can rotate the rear shell assembly (comprising the rear shell portions 182A,182B) with respect to the front shell assembly (comprising the front shell portions 180A,180B). When the user rotates the rear shell assembly downward, towards the underlying projectile launching device 111 (i.e. a rotation from the orientation of
To rotationally secure the rear shell assembly with respect to the front shell assembly, and with respect to the underlying projectile launching device 111 when the rear shell assembly is rotated to the lowered orientation of
The locking bolt 202 is movable from a locked position to an unlocked position. In the second embodiment of the conversion kit 110, the locking bolt 202 can be moved rearward to its unlocked position in which it does not engage the rear surface 113 of the projectile launching device 111, and can be moved forward to its locked position in which it does engage the rear surface 113 of the projectile launching device 111. In the second embodiment of the conversion kit 110, the locking bolt assembly includes a spring 204 so that the locking bolt 202 is spring biased forward to the locked position. The spring is seated against a spring mounting plate 207 secured between the rear shell portions 182A,182B. The spring 204 thus engages the spring mounting plate 207 at a first end of the spring 204 and engages the locking bolt actuator 206 at the other end of the spring 204. A user can slide the locking bolt rearward to the unlocked position by manually applying a force to bolt grip surfaces 205 on a bolt actuator 206 that is sufficient to overcome the spring force of the spring 204. Then, the user can release the locking bolt actuator 206 to let the locking bolt 202 return to its forward position.
When the rear shell assembly (comprising the rear shell portions 182A,182B) of the second embodiment of the conversion kit 110 is fully rotated downward to the orientation shown in
The at least one shell 131A,131B is capable of being secured about a projectile launching device using fasteners 132. The fasteners can be selected from the group consisting of: threaded fasteners, cable ties, clips, and ratchets. Other fasteners can be used without departing from the scope of the present invention. In
The at least one shell 131A,131B is capable of at least substantially fully enshrouding a projectile launching device 111. Thus, the at least one shell 131A,131B allows a projectile to be launched from the barrel of the projectile launching device 111, allows projectiles to be fed into the projectile launching device through a projectile receiver 119 from an external hopper, and allows a gas line to be connected to the a gas tube receiver 118 on the projectile launching device 111 that relies on compressed air.
The at least one shell 131A,131B of the conversion kit 110 is capable of converting a non-MILSIM type projectile launching device into a MILS IM type projectile launching device (for example, compare the appearance of the marker in
Each front shell portion 180A,180B further comprises an inner surface 181 that is a mating surface for engaging an outer surface 170 of the projectile launching device 111. The engagement of the respective inner surfaces 181 of the front shell portions 180A,180B with the outer surface 170 of the projectile launching device 111 increase stability of the shells with respect to the projectile launching device when the shells are mounted on a projectile launching device.
The inner surfaces 181 of the shell 131A, 131B, as in
When the two rear shell portions 182A, 182B are mated together and enshrouding the marker 111, they leave a rear open end defined by rear opening edges 166 on each of the rear shell portions 182A,182B. This open end can be either closed up or have an accessory mounted therein. More specifically, a blanking plug 151 (see
Each front shell portion 180A,180B includes two hinge support walls 210 that are laterally spaced apart, and that are located at the rear end of the respective front shell portion 180A,180B. A slot is defined between the pair of spaced apart hinge support walls 210, as visible in
Each hinge pin 185 is formed on and extends from a respective mounting plate 214. The mounting plate 214 is secured to the respective front shell portion 180A,180B.
Other structures for supporting the hinge pin are possible. Other methods of forming a hinge pin are also possible, such as integrally forming the hinge pin on the front shell portion through injection molding.
The second embodiment of the conversion kit 110, as discussed above and as shown in the figures, preferably has two shells 131A, 131B that are secured on the marker 11. While two shells are preferred, it is envisioned that the conversion kit 110 may include more than two shells, such as where multiple shells are secured about each side of the marker 11. These variations in the configuration of the shells are considered to be within the scope of the present invention.
As shown in
Although the conversion kit 110 is shown as including two shells in the figures, the conversion kit could also be formed of a single shell having a front portion and a rear portion. For example, a shell could be formed as with a single front portion that is capable of being placed around a marker. The front portion and the rear portion, connected by a hinge, completely enshroud the marker 111. A single shell could also be provided with a flexible front and rear portion that can be secured around a marker. Another example of a single shell would be a shell that provides an upper shroud for a marker and has an aperture in the lower surface of the shell for receiving a marker. Single shell embodiments such as these would allow the user to more quickly convert the marker to a MILSIM type marker, and also provide a conversion kit that more closely simulates a real firearm.
In view of the foregoing, a new and novel rail kit system and conversion kit 110 is provided that can easily convert a standard paintball marker or air soft gun 111 from a speedball non-MILSIM setup with no rail system to a scenario MILSIM type setup where a rail kit 131A, 1318 fully enshrouds the marker or gun 111 to better simulate a real MILSIM firearm and provide a rail system 138A-C for receipt of accessories thereon.
The second embodiment of the rail kit 110 of the present invention may be made out of any suitable material and manufactured in many different ways. For example, the rail kit 110 may be molded out of plastic or machined from metal, such as aluminum. Any such material and method of manufacture is considered within the scope of the present invention.
It would be appreciated by those skilled in the art that various changes and modifications can be made to the illustrated embodiments without departing from the spirit of the present invention. All such modifications and changes are intended to be covered by the appended claims.
This application is a continuation-in-part of and claims priority to earlier filed non-provisional patent application Ser. No. 13/775,414, filed Feb. 25, 2013, which is related to and claims priority from earlier filed provisional patent application Ser. No. 61/603,830, filed Feb. 27, 2012, and the entire contents of each is incorporated herein by reference.
Number | Date | Country | |
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61603830 | Feb 2012 | US |
Number | Date | Country | |
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Parent | 13775414 | Feb 2013 | US |
Child | 14960656 | US |