The present invention relates generally to devices and apparatuses for launching projectiles, such as paintballs. These devices are commonly called paintball guns or paintball markers. The present invention, more specifically, relates to the bolt and valve mechanism in such devices and apparatuses that are employed for preparing the gas behind the projectile and then releasing the gas for launch of the projectile. For ease of discussion and illustration, the present invention will be discussed in connection with launching a paintball, as an example projectile, and a paintball marker as an example of a device that incorporates the mechanism of the present invention. However, it should be understood that this invention relates to and can be used in any type of gas projectile launcher for launching any type of projectile.
In the prior art, gas powered guns or markers are well known in the art. In general, these devices include a supply of gas that fills a chamber, which is then emptied to launch a projectile, namely, a paintball. Valving is typically provided in the marker to control the flow of gas therein. In the prior art, various types of bolts and valving can be employed. For example, electrically operated solenoid valves and mechanical valves have been employed for this purpose. One example of such a mechanical valve used in paintball markers is a “spool” valve. These are so well known that they need not be discussed in detail herein. These spool valves are very common for use in connection with paintball markers.
Gas within a marker not only provides power for launching a projectile but also is commonly used to control loading and launching of the projectile. In other words, gas can also be used to control bolt movement within a marker to, in turn, control position of a paintball. There are number of prior art patents that use this concept. U.S. Pat. Nos. 6,035,843 and 5,613,483 both use the existing gas supply for bolt control. The gas pneumatically actuates the bolt back and forth, as desired. Also, springs can be used for actuation of the bolt in certain directions. In these sample prior art systems, a unitary bolt construction is used for the dual purpose of controlling flow of gas to a storage chamber to serve as the power to launch the projectile and as well as serving as a conventional bolt that moves the projectile to a launch position while preventing additional projectiles from entering the breech.
Essentially, prior art bolt unitary constructions typically have a standard bolt at one end and a gas control at the opposing end so that its actuation back and forth can be pneumatically controlled. The bolt reciprocates back and forth within the marker. With the appropriate timing, gas fills the appropriate chamber with the bolt assembly when the bolt construction is rearwardly positioned. When the bolt moves forward, the paintball is moved forward into a launching position. This forward motion causes the appropriate passageways within the marker so that the stored gas is released behind the paintball for launching thereof.
As can be seen in
Referring first to
Similarly, in
In both of these example prior art devices, in
While these prior bolt constructions effectively control gas flow and launching of a paintball, they suffer from many disadvantages that result from inefficiencies in the flow and use of gas within a marker. This is of high concern because paintball is played with paintball markers that operate off compressed air or compressed carbon dioxide. The presence or amount remaining of a source of gas is, therefore, of concern for operation of these markers. These gases are typically carried in compressed gas cylinders that are either mounted directly to the paintball marker, or to the paintball player who carries the cylinder on their person, and the gases are transferred to the marker via a length of hose. In either case it is beneficial to use as small a cylinder as is possible as the weight of the cylinder is an unwanted hindrance to the player as it is heavy and bulky. In order to have a small cylinder, and still be able to fire a high quantity of paintballs, it is essential that the paintball marker is as gas efficient as possible. The more efficient a marker is, the smaller the compressed gas tank can be.
Therefore, it is envisioned that if this wasteful empty volume, located behind the paintball and, typically, inside the bolt, could be eliminated from the design of a paintball marker, it has the potential to significantly increase the efficiency of the marker, allowing more shots from a given cylinder size, or the use of smaller cylinders to be able to shoot the same number of shots.
In view of the foregoing, there is a need to make a marker more efficient in its use of gas. There is also a need for a marker to use less gas for each paintball launch. There is a further need for a marker that requires smaller gas cylinders to provide operational gas. There is a need for a marker that has an improved bolt and valve mechanism that enables more paintballs to be launched from a given cylinder of gas than prior art markers.
An embodiment of the present invention preserves the advantages of prior art gas powered guns or markers. In addition, it provides new advantages not found in currently available gas powered guns or markers and overcomes many disadvantages of such currently available gas powered guns or markers.
The proposed invention is a new bolt and air release valve mechanism for a paintball marker that uses significantly less gas per shot. The open gas chamber between the paintball and the air release mechanism is eliminated thereby requiring much less gas to be used for launching a given paintball. The construction of the bolt and gas release member is configured move the location of the seal between the bolt and the gas release member to right behind the paintball to be launched. Thus, only the launching gas to propel the paintball is needed and not the additional gas required to fill the chamber in the bolt directly behind the paintball.
It is therefore an object of the embodiment to provide a bolt and valve mechanism that uses less gas.
It is a further object of the embodiment to provide a marker with a bolt and valve system that uses less gas for each paintball launch than prior art markers.
Another object of the embodiment to provide a marker that requires a smaller gas cylinder than prior art markers to launch the same number of paintballs.
Yet another object of the present invention is to provide a marker that is more efficient than prior art markers due to use of less gas for each paintball launch.
The novel features which are characteristic of the pneumatic launching assembly are set forth in the appended claims. However, the pneumatic launching assembly, together with further embodiments and attendant advantages, will be best understood by reference to the following detailed description taken in connection with the accompanying drawings in which:
The improved bolt and valve mechanism of the present invention allows for a marker design that has the potential to have zero empty volume to fill between the gas release mechanism, namely between a gas release member and the bolt, and the back of the paintball. As a result, a marker equipped with the bolt and valve mechanism of the present uses less gas for operation than prior art markers.
In accordance with the present invention, the improved bolt and valve mechanism carries the air release mechanism inside the bolt mechanism rather than at the end thereof as in the prior art. As a result, and as the bolt moves, the air release mechanism moves with it. Namely, the sealing connection of the bolt and the free end of the gas release member is directly behind the paintball. The seal and sealing poppet of the air release mechanism are both sited, and move together with, the bolt body.
The gas release member 114 includes an elongated stem portion 114a with a front sealing portion 114b with an O-ring 116 positioned therearound. A centering 114c pin is also provided on the front most portion 114b of the gas release member 114. The gas release member 114 is slidably received in the bolt 112, which has a slot 112a therethrough. It should be noted that the bolt 112 is shown with two portions that are threaded together to form the bolt structure. It should be understood that the bolt 112 may be of a unitary construction. The gas release member 114 includes a firing pin 120 that is fixed thereto. As a result, the extent of travel of the gas release member 114 relative to the bolt 112 is defined by the slot 112a in the bolt 112, as will be further discussed below. Therefore, the gas release member 114 actuates back and forth within the bolt 112 and is spring-biased, by a spring 122, into a forward position so that the front most portion 114b and centering pin 114c of the gas release member 114 resides on a seat 112b and with the O-ring sealing thereacross. A keyway 112c is also preferably provided to receive centering pin 114c. Thus, along with numerous other sealing surfaces, the chamber 124 behind the front most portion 114b of the gas release member 114 is rendered airtight and is in condition for receipt of gas therein in preparation for paintball launch.
It can also be seen in
In the paintball loading step seen in
Turning now to
Now turning to
As a result, the air release member 114 cannot travel any further forward. However, due to the further slidable engagement of the firing pin 120 relative the longitudinal slot 112a in the bolt 112, further forward travel of the bolt 112 is possible, which will result in the gas release member 114 separating from the bolt 112 thereby opening the seal and allowing the gas from the firing chamber 124 to be released directly behind the paintball 110 for launching.
This separation of the bolt 112 and the gas release member 114 is shown in
Still referring to
It should be noted that the configuration of the bolt 112 and gas release member 114 are preferred embodiments of the present invention. It is possible to modify the mating configuration, such as the structure of the seat 112b and the front portion 114b of the gas release member 114 and the location and construction of the firing pin mechanism and still be within the scope of the present invention.
The paintball marker 100 can then be configured to reset in preparation for launch in a number of different ways known in the prior art. For example, springs or pneumatics can be used to move the bolt 112 and gas release member 114 back to the condition see in
In view of the foregoing, the construction of the present invention can result in a significant increase in marker efficiency due to the fact that there is little or no air lost in filling an empty volume between the back of the paintball 110 and gas release member 114 on every paintball launch. This is made possible by moving the sealing point to a position directly behind the paintball 110.
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 related to and claims priority from earlier filed provisional patent application Ser. No. 61/252,750, filed Oct. 19, 2009, the entire contents thereof is incorporated herein by reference.
Number | Date | Country | |
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61252750 | Oct 2009 | US |