This invention relates generally to paintball markers for firing paintballs with sufficient velocity to explode the paintballs against a target and, in particular, to pneumatic paintball markers which are capable of rapidly firing a large number of paintball rounds.
Paintball markers are popular for firing a spherical ball loaded with a marking dye designed to rupture and mark a target on contact. Typical markers have an appearance similar to a handgun or small rifle but are typically fired by compressed air rather than an explosive charge. Compressed air (or other compressed gases) is stored within the marker with the compressed air firing the paintball out of a firing chamber.
Rapid-fire operation of the paintball marker has recently become particularly desirable and has resulted in advances in paintball marker accessories including the force-feeding of paintballs into the markers to obtain ever-faster rates of fire.
Generally the main distinctions between paintball markers is the choices between the usage of one, an impact opening pin valve vs. a spool valve, also referred to as a dump valve and two, an open bolt vs. a closed bolt.
The distinction between the impact opening pin valve vs. spool valve markers is that the former uses an impact opening pin valve for momentary escapement of a continuous supply of air while, the latter spool valve, stores air in a separate chamber and dumps a predetermined amount of air.
With respect to the open bolt vs. closed bolt terminology it should be noted that a majority of markers employ the combination of a bolt and an impact opening pin valve, it is noteworthy that the more correct term would be “open chamber” vs. “closed chamber”. Hence, the distinction between the open and closed refers to whether or not the chamber is indeed open to the supply of paintballs when the marker is in the rest position.
The desired effects of those making choices in engineering, are listed as guidelines to design:
One desired effect is speed. Semi-automatic markers should cycle as quickly as possible. A benchmark would be firing in excess of 20 balls per second for highest priced markers. Entry-level markers have a benchmark in the 8 to 10 balls per second range. This can be improved to 12 to 14 balls per second with the use of an optional electronically controlled trigger mechanism. A separate stock class or pump marker is available that operate at slower speeds that is generally used exclusively from semiautomatic markers. Note: stated speed is measures in bursts over a chronograph. Measurement being taken as a maximum of several balls in less than a whole second, not as a full second or more than one second.
Another desired effect is air efficiency. Good seals and an impact opening pin valve being sufficient. Spool or dump valves being less efficient but acceptable.
A further desired effect is accuracy. The paintball's delivery into the barrel by the bolt, being the most contested factor in accuracy. Engineering choices include: open bolt or closed bolt; method of detaining the ball in place; speed and pressure of bolt transitioning ball into barrel and its effect on ball with subsequent ball deflection. Additionally, turbulence in the firing chamber should be kept to a minimum. An increase in turbulence has been acknowledged to cause a decrease in flight accuracy.
Another further desired effect is ease of cleaning in the event of ball rupture in the marker housing. Removing the bolt and cleaning the marker with a swab from back to front usually accomplish cleaning.
Desirable features sometime conflict, such as, lightweight vs. rugged and a smaller size vs. accuracy. Additionally, there are liabilities to design inherent in the dump valve or spool valve markers listed above such as:
One, its difficulty in cleaning in the event of a broken paintball in the marker housing. It is nearly a universal practice for dump valve type markers to locate compressed gas, stored for use in firing the next paintball, in the area behind and directly in line with the firing chamber. Therefore dump valve markers can only be cleaned from the front.
Two, its lower gas efficiency. This is sometimes overcome by use of higher pressure air to fire the ball. While it is arguable in the engineering community if said higher pressure is undesirable, it is generally considered within the playing community to be highly desirable to have low firing pressure.
Three, its high impact speed of chambering object caused to transition paintball into the barrel. The object is powered by a piston itself powered by the air that has been released to fire the paintball.
It is deemed, by those selecting the dump valve markers as their choice in engineering, that the inherent liabilities to design are overcome by the combination of entry-level price and increased speed possible with the dump valve type markers.
Similarly, there are liabilities to design inherent to boltless markers:
One: Paintball should be transitioned into the barrel before the impact of the air used to propel out of the barrel. Transitioning paintball with air used to propel paintball results in increased paintball breakage, increased turbulence and decreased air efficiency.
Two: Method of sealing the firing chamber. Chamber should be sealed as completely as possible as loss of seal decreases air efficiency.
Three: Impact of door, or other sealing mechanism, on the paintball to be loaded next. The bolts being substantially the same size as the paintballs the bolts makes negligible contact with the paintball. However with the use of a door sealing over the paintballs, the entire width of the door impacts paintball and occupies the space previously taken by the paintball.
Four: Possible lower speed of operation than found elsewhere in the art.
Five: Increased turbulence of compressed gas acting upon paintball. Increased turbulence sometimes caused by air travel through the dissimilar shape of firing chamber when compared to cylindrical barrel.
Background of Boltless Markers: Some examples of open chamber dump valve type markers which have had some commercial success include those manufactured by Air Star and sold under the name NOVA and the name SUPER NOVA. Although a second-generation marker, manufactured by War Machine Incorporated and sold under the name WAR MACHINE ASSAULT 80 has replaced them. These markers employ a barrel that retracts rearward and over paintball, sealing firing camber. This retracting barrel transitions ball into the barrel before air impacted paintball. These markers provide good sealing and loading but, have inherent liabilities a slower speed of operation than is possible in the art and a decrease in air efficiency.
Some further attempts at a commercial application of a boltless rotary seal include markers sold under the respective names the PHOENIX and the PHANTOM REVOLUTION. The PHANTOM REVOLUTION is manufactured by Component Concepts Incorporated. These two markers are closed chamber markers. Both sealed the firing chamber by the use of a revolving seal, the usage being common in firearms, specifically in pistols. Rotating on an axis, parallel to firing chamber and barrel, separated chambers intersect and align with firing chamber, momentarily sealing said rotating chamber and said firing chamber as one unit. Limitation of these markers include: Paintball not being transitioned into barrel, lower speed of operation and less gas efficient.
A further example of a boltless design is illustrated in U.S. Pat. No. 6,520,171 issued on Feb. 18, 2003 to Reibel and is embodied in a marker being manufactured by Insight Component Engineering under the name EPIC as there current attempt at commercial success using a boltless design. This marker chooses a dump valve and a closed firing chamber. As noted, a nearly universal feature of dump valve markers, a storage chamber is located behind and inline with the firing chamber. In contrast, the Insight Component Engineering marker sold under the name EPIC uses the energy of compressed gas within a chamber to power a piston coupled to a door. In essence when storage chamber is empty a spring acts upon the door opening it and allowing a paintball into the firing chamber. When the compressed air storage is charged, the rest position, the compressed air pushes the piston forward, piston itself being slideably supported with a cylindrical bore. Piston's forward movement causing forward movement of the door coupled thereto for sliding over paintball and seal firing chamber.
Additionally one very commercially successful marker is manufactured by Dye Precision Incorporated and sold under the name MATRIX. This marker evolved from a boltless marker, into a morphed spindle/bolt design. Specifically, a prototype of the very commercially successful MATRIX previously used a door that lifted up and down. The MATRIX prototype used a dump valve and an open chamber. MATRIX sealed firing chamber somewhat similar to the PHOENIX and the REVOLUTION, except instead of rotating into position with a ball, the MATRIX prototype rotated a door open and closed for each cycling. Inherent limitations including: air used to propel paintball was used to transition paintball, lower speed of operation, loss of air efficiency and most notably the impact of door on the paintball next to be loaded. The unique principle of the MATRIX is the use of a larger spindle to direct air first into a storage chamber and then into the firing chamber, the spindle itself shuttling back and forth in said chamber between the firing chamber and compressed gas storage area. Said limiting factors lead MATRIX to abandon use of a door, instead using a protrusion of the air-directing spindle. The extension of the spindle itself performing the function of, and having the appearance of, an otherwise free floating bolt.
The use of a seal sliding over the ball, omitting a bolt to transition the paintball into the barrel, is an inexplicable one in the marker manufactured by Insight Component Engineering and sold under the name EPIC. The marker arguably closet to this marker is a very commercially successful marker manufactured by Air Gun Design and sold under the name AUTOMAG. Both of these markers are dump valve markers that use the compressed gas stored behind the firing chamber to act upon a piston, causing the sealing of the firing chamber. The marker manufactured by Air Gun Design and sold under the name AUTOMAG has an open chamber choosing to have the stored compressed gas act on their piston during the firing cycle, while the marker manufactured by Insight Component Engineering and sold under the name EPIC is closed chamber choosing instead to have the air act on the piston while stored.
More specifically, initiation of firing sequence in the marker manufactured by Air Gun Design and sold under the name AUTOMAG causes air escapement from said storage chamber. The air acts on ram moving it forward. Ram being located between the stored air and said firing chamber in a cylindrical bore. The ram additionally having a protrusion extending from it. The extension of the ram itself performing the function of, and having the appearance of, an otherwise free floating bolt (note similarity to the marker manufactured by Dye Precision Incorporated and sold under the name MATRIX which was introduced years after the marker manufactured by Air Gun Design and sold under the name AUTOMAG). The marker manufactured by Insight Component Engineering and sold under the name EPIC chooses to have the air act on the piston initially, and an extension of their piston, a rod and a door mated to the rod, then acts as independently from the paintball as possible. Chamber sealed when door slides over the paintball.
The marker manufactured by Insight Component Engineering and sold under the name EPIC has engineering choices leading to the inherent limitations of: transitioning the paintball into barrel by the use of the air that used to propel the paintball out of the barrel, lower speed of operation than possible elsewhere in the art, decreased air efficiencies (due to reduced sealing efficiencies), increased turbulence of compressed gas acting upon paintball caused by air travel through dissimilar shape of firing chamber when compared to cylindrical barrel and impact of door on the paintball next to be loaded. Acceptance of said limitations is difficult to understand when AUTOMAG and MATRIX employ the use of a protrusion from piston that performs the function of a bolt in similar circumstances.
While advancements have been made in the art to achieve rapid-fire operation, problems with such rapid-fire paintball markers persist. These problems include excessive length of the paintball marker, excessive pressure on paintball while transitioning into barrel, excessive turbulence in firing chamber, excessive jamming of the mechanisms that load the paintball into the firing chamber and difficulty of required cleaning inside marker housing after paintball rupture. Also excessive complexity of prior markers leads to excessive cost and more difficult maintenance.
Accordingly, a need exists for a rapid-fire paintball marker with a loading and firing apparatus which addresses these deficiencies in the prior art.
The present invention is distinguished over the known prior art in a multiplicity of ways. For one thing, an embodiment of the invention provides a pneumatic paintball marker comprised offset or nonparallel sealing such that a desirable reduction in size and weight and is accomplished by the unique use of a cam and a pivoting door arrangement to affect upper firing chamber sealing and the use of a removable back plug which seals a rear of the firing chamber while smoothing the transition of air into firing chamber and, when removed, allows full access for easy cleaning of the marker. Particularly, and in one embodiment of the invention, the pivoting door and removable back plug allow a barrel to be located decidedly rear in the marker allowing for a dramatic reduction in the size of the marker and a relative reduction in weight from prior art, approximately half the body length previously possible in semiautomatic markers.
In one embodiment of the invention, the pneumatic paintball marker is comprised of a firing chamber having a barrel coupled to one end and a removable back plug coupled to an opposing end, a door surmounting a firing chamber loading hole disposed between the back plug and the barrel; a cam coupled to the door; an actuator coupled to the door cam; a pin valve interposed in a first gas path between a source of compressed gas and a passage leading to the firing chamber, and a trigger coupled to a second gas path between the source of compressed gas and the actuator for opening the second gas path for actuating the actuator such that the door cam transforms motion of the actuator into pivoting motion of the door from an open position such that a paintball is loaded into the firing chamber to a closed position and then continuing to actuate the actuator to coact with the pin valve for opening the first gas path for firing the paintball.
Additionally, an embodiment of the invention provides a pneumatic paintball marker comprised of an impact-opening pin valve such as a hammer actuated pin valve. In one embodiment of the invention, the impact-opening pin valve or hammer actuated pin valve can have an escape hole of an elongated or oval shape or multiple escape holes together each having an elongated or oval shape for evenly distributing air into the firing chamber for a more even pressure on the paintball as it is fired. This even pressure allows for more consistent flight trajectory and more accurate shots. One embodiment of the invention also provides a pneumatic paintball marker comprised of a low pressure regulator having a regulator pin extending backwards from a seal into a blind bore disposed within housing for allowing more exact alignment of the regulator pin and therefore more exact seating of the pin on a valve seal. This improved alignment allows for a more exact and consistent regulation of the air than has been possible with the prior art.
Furthermore, and in one embodiment of the invention, the pneumatic paintball marker includes electronic activation of the paintball marker by means of: at least one solenoid, a timing control circuit, a trigger, a switch or sensor, and a battery or other power source. The electronic firing of the marker by means at least one solenoid, the timing control circuit, the trigger, the switch or sensor, and the battery or other power source allows for more exact timing of firing thereby less ball breaks in the firing chamber and faster operation of the marker thereby providing faster more controlled firing of the marker with less ball breakage.
Moreover, and in one embodiment of the invention, a magnetic resistor may be built into the ram for impeding initial ram motion for allowing air pressure build up. For example, a magnet may be built into the ram for initially resisting ram movement into the closed and firing position. This initial resistance allowing for the build up of pressure before the start of the closing and firing stroke, this build up and resistance of pressure provides the benefit of using a lower pressure to operate the paintball marker. Additionally, and in an embodiment of the invention, a sensor using break beam or reflective may be used for allowing the timing control circuit to adjust for the presence or absence of paintball within the loading chamber.
More particularly, and in one embodiment of the invention, the pneumatic paintball marker is comprised of a housing having a hollow open ended firing chamber extending there through and having a first open end operatively coupled to a barrel and a second open end closed by a removable back plug for allowing easy cleaning of the marker. The pneumatic paintball marker further includes a paintball-loading hole in a side wall thereof at a location between the back plug and the barrel and includes a pivoting door surmounting the firing chamber and pivotally coupled to the housing for providing access to the paintball-loading hole when the door is pivoted to an open position and for sealing the firing chamber when the door is pivoted to a closed position. Additionally, and in one embodiment of the invention, the pneumatic paintball marker further includes a cam operatively coupled to the door and a control means including a linear actuator operatively coupled to the door cam such that the door cam transforms a linear motion of the linear actuator into a rotational motion of the door for pivoting the door from the open to closed position and from the closed to open position. Furthermore, and in one embodiment of the invention, the pneumatic paintball marker is comprised of a pin valve interposed between a source of compressed gas and a bore leading to the firing chamber and located adjacent the linear actuator for controlling a gas path between the source of compressed gas and the firing chamber. Moreover, and in one embodiment of the invention, the pneumatic paintball marker is further comprised of a selectively openable gas path between the source of compressed gas and the linear actuator of the controls means, and a trigger means operatively coupled to the control means for opening the selectively openable gas path between the source of compressed gas and the linear actuator for moving the linear actuator from a forward to a backward position such that the cam means transforms linear motion of the linear actuator into rotational motion of the door for pivoting the door from the open position such that a paintball is loaded into the firing chamber to a closed position for sealing the firing chamber and blocking passage of paintballs therein and then continuing to move the linear actuator backward to a position of impact with the pin valve for opening the gas path between the source of compressed gas and the firing chamber for firing the paintball through and out the barrel in an opposite direction of movement of the linear actuator when the trigger means is actuated.
Accordingly, having thus summarized the invention, it should be apparent that numerous modifications and adaptations may be resorted to without departing from the scope and fair meaning of the present invention as set forth hereinbelow by the claims.
Considering the drawings, wherein like reference numerals denote like parts throughout the various drawing figures, reference numeral 10 is directed to a pneumatic paintball marker.
In its essence, and referring to the drawings, one embodiment of the invention provides a paintball marker 10 comprised of a hollow open ended firing chamber 322 having a barrel 420 coupled to one end 324 and a removable back plug 334 coupled to an opposing end 326, a door 360 surmounting a paintball loading hole 328 disposed between the back plug 334 and the barrel 420; a cam 370 coupled to the door 360; an actuator 180 coupled to the door cam 370; a pin valve 230 interposed in a first gas path between a source of compressed gas 108 and a passage 332 leading to the firing chamber 322, and a trigger 44 operatively coupled to a second gas path between the source of compressed gas 108 and the actuator 180 for opening the second gas path for actuating the actuator 180 such that the door cam 370 transforms linear motion of the actuator 180 into pivoting motion of the door 360 about double ended arrow A (
More specifically, and referring to
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Additionally, the trigger assembly 42 includes a spring biased ball detent assembly 56 such that the ball detent assembly biases the trigger 44 away from the switch to provide a normally open condition as well as providing tactile feed back when actuated. The spring biased ball detent assembly 56 is comprised of a plurality of springs 58 and balls 60 forming pairs each received within a blind bore 62 disposed on a top portion of the trigger 44 such that each ball 60 follows the insertion of each spring 58. A cover plate 64 closes the blind bores 62 of the trigger locking the spring and ball pair therein by way of fasteners 66 passing through apertures 68 disposed in the cover plate 64 and threadedly fastening with treaded bores 70 disposed in the trigger frame 22. A guard 72 is preferably located forward of and beneath the trigger 44 to decrease the possibility of accidental toggling of the trigger 44 and closing of the switch or sensor actuation.
Referring to
As noted herein above, the trigger 44 is pivotally coupled adjacent the trigger switch 80 for engagement therewith when actuated. The trigger switch 80 is operatively coupled to the timing control circuit/processor 78 which, in turn, is coupled to the solenoid 76. The solenoid 76 is in communication with the source of compressed air 108 originating at the high pressure air regulator assembly 100 by means of the low pressure regulator valve assembly 160.
Specifically, and referring to
The ram housing 112 includes port 136 extending from the dedicated air rail passage 130 in the first air rail 132 to an underside 120 of the housing 112. Additionally the ram housing includes ports 138, 140 which traverse form the underside 120 of the housing 112 to a forward portion 142 and a reward portion 144 of the ram bore 116, respectively. 82. Referring to
Thus, toggling of the trigger 44 causes activation of the trigger sensor or switch 80 which signals the timing control circuit 78 (
Referring back to
Additionally, the high pressure regulator assembly 100 is also operatively coupled to the ram housing assembly 110 and is threadedly coupled underneath and at a forward end 124 of the ram housing 112 and is comprised of a gauge 102 coupled to the ram housing 112 via a threaded fastener 104 threaded into a threaded bore 105 (
Referring to
The seal 166 is held in place by the seal cap 168 which is cupped. The seal 166 provides a divider between the high-pressure air and the subsequent low-pressure compressed air. The low-pressure air then passes through port 128 to the low-pressure compressed air rail 132. Low-pressure pin 164 is held in a closed position by the use of the spring 176 which constrains movement. The low-pressure pin 164 is held in alignment through seal 166 and is acted upon by piston 170 in response to the bias of the spring 176 wherein the piston 170 is slideably supported within the cylindrical bore 114 in the front of the ram housing and the piston position being governed by the spring 176 held in place by the adjustment knob 178 for adjusting the air volume escaping around pin 164 and through seal 166 thus translating into desired lower pressure compressed air. In a manner novel in the art, the low-pressure pin 164 extends forward through the seal and back ward such that a back section of the pin 164 has a circumscribing spring 162 and terminates to end 290 which resides within a blind bore 292 disposed in the housing 112 (
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The barrel housing 302 includes a hollow open ended firing chamber 322 extending therethrough, the firming chamber 322 comprising a first open end 324 and a second open end 326, the first open end 324 is operatively coupled to the entrance end 422 of the barrel 420 for propelling a fired paintball out the exit end 424 thereof and the second open end 326 is closed by a removable back plug 334 for allowing easy cleaning of the pneumatic paintball marker 10. The pneumatic paintball marker further includes a paintball-loading hole 328 in a side wall 330 thereof at a location between the back plug 334 and the barrel 420 and includes the pivoting door 360 surmounting the firing chamber 322 and pivotally coupled to the housing 302 for providing access to the paintball-loading hole 328 and firing chamber 322 when the door 360 is pivoted to an open position and for sealing the firing chamber 322 when the door is pivoted to a closed position. Additionally, it should be noted that the back top opening or escape hole 268 of the rear bore 118 supporting the firing valve 230 mates with a back bottom opening or bottom escape hole 332 disposed in the barrel housing 302 which is in open communication with the firing chamber 322 such that an open line of communication is provided between the escape hole 268 of the rear bore 118 supporting the firing valve 230 and the firing chamber 322.
The barrel housing assembly 300 is further comprised of a detent assembly 348 including a ball 350, a spring 352, and a threaded plug 354 received within a threaded bore 346 of the barrel housing 302 in the order shown in
As noted above, the firing chamber 322 is sealed by the back plug 334, which is particularly configured to be quickly and easily removed by the means of a twisting, locking feature comprised of tabs 336 disposed on the back plug 334 and fitting within complemental grooves disposed in a rim 338 in the firing chamber 322 proximate the back opening 326 such that when the tabs are inserted into the groove of the rim 338 and twisted the tabs lock behind the rim 338 of the firing chamber 322. The firing chamber 322 can also be sealed by the back plug 33 by means of a threaded of the back plug with the open ended firing chamber. Uniquely, the back plug 334 does not move during the loading and firing of chamber 322. Rather, the back plug 334 is only removed when cleaning the firing chamber 322 and barrel is required, such as when a paintball ruptures within the firing chamber 322 or barrel. The back plug 334 also locates the paintball in place within the firing chamber 322 by having a protrusion 342 at a forward end that at least partially protruding into the firing chamber 322. The back Plug 334 a minor portion or cut portion 344 for enabling air to transition, changing direction from a vertical to a horizontal flow, from the firing valve 230 through passages and ports in housing assemblies into firing chamber 322. The transition between the port 332 and chamber 322 being smoothed by a radius in the back plug 334 where the full cylinder has the minor cut on the bottom on the back plug 334. Additionally, the back plug has a narrowing flange 340 on the portion located outside the housing 302 to enable the user to twist the back plug 334 enabling removal of the back plug. Optionally, the minor cut in back plug can be of different heights and or shapes including minor or major cuts.
Referring to
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In use and operation, and referring in general to
Upon firing of the paintball, the timing circuit 78 continues the firing sequence ending charging of solenoid 76, causing solenoid to again reverse, changing air flow through the solenoid 76 so that compressed air is again directed to the forward portion of the ram body 182, causing the piston 194 and rod 198 to contract such that the hammer 206 moves away from end 250 of valve pin 248, valve pin spring 258 assists in closing the firing valve 230, in turn cutting off the flow of air there through. Further movement of hammer 206 and connecting rod 210 mated to it, causing contact of the connecting rod cap 216 upon cam groove 370 in door 360 again pivoting the door on its axis pivot pin 320, opening the firing chamber 322 and allowing a paintball to drop in. User can now again toggle the switch and repeat the process. Optionally an optical sensor(s), placed in the firing chamber 322, can detect the presence or absence of a paintball. Presence of paintball would allow the toggling of the trigger to initiate the firing sequence, whereas the absent of a paintball would negate the effects of toggling of trigger in the timing circuit.
Alternate embodiments may involve the use of separating the cam from the door, such as a similar cam groove cut into a slideable unit mated to the hammer. Offset door would then communicate with cam, such as by a pin mated to the door, the door sliding within a track. The door could be two pieces with 45 degree cuts in each, instead of cut into one piece or stacked cuts. In such an arrangement the cover portion of the door would slide linearly in a direction non-parallel with the barrel, rather than pivoting, and a driver portion of the door would be coupled to the cam or to the linear actuator, with motion of the driver portion of the door causing the cover portion of the door to move. A spring could be provided on the cover portion of the door to keep the cover portion of the door biased toward a closed position except when acted upon by the driver portion of the door.
Additionally,
Furthermore, an embodiment of the invention can be embodied into four basic configurations of paintball markers: electro pneumatic, pneumatic, blowback and single action or stock class.
In a first example, an embodiment of the present invention can be comprised of an electro pneumatic marker, at rest the marker is in the open position, the firing chamber being open and a paintball able drop as delineated above. Trigger is provided for firing the marker; said trigger is connected to an electric switch or a sensor such as a magnetic field sensor, potentiometer, or other resistance-measuring device. Said switch or sensor itself controlling a solenoid. Said solenoid controls a ram and a hammer mated to it. Said hammer includes slideability (note: slideability within a blind bore is removed) within the housing of the marker. Activating said solenoid causes said ram to extend. Extension of said ram and, thereby movement of hammer coupled to it, said hammer having a rod extending from it, said hammer rod in turn acts upon the door rotating it on its' axis and closing said door. Said door, having said “L” extending from it, upon closing occupies some of the space of the loading chamber, said “L” occupying some of said loading chamber paintball is forced at least partially into barrel. Further extension of said ram causes contact between said hammer with a valve seat and valve pin configuration, said contact causing compressed gas to be released from the top of said valve. Said compressed gas flows past back plug and fires a paintball. Electric sensor is timed in such a manor that release of said compressed gas through solenoid is reversed causing the ram to contract, which in turn causes the hammer and thereby the hammer rod to return to their original positions, which in turn causes the door to rotate on axis and again return to its' open position. Operator could now toggle the trigger and complete the cycle again.
In a second example, an embodiment of the present invention can be comprised of a pneumatic marker, having a trigger is provided for firing the marker. This trigger is coupled to a sear. The sear controls a hammer. The hammer includes slideability within a blind bore within the housing of the marker. Hammer being biased in the forward or firing position by a spring. Toggling of said trigger causes sear to release said hammer allowing for rearward movement of the hammer. Said hammer, having a rod extending from it, hammer rod in turn acts upon the door pivoting it on its' axis and closing the door. Said door, having said “L” extending from it, upon closing occupies some of the space of the loading chamber, said “L” occupying some of said loading chamber paintball is forced at least partially into barrel. Further movement of said hammer causes said hammer to contact with a valve seat and valve pin configuration, said contact causing compressed gas to flow through the valve past said back plug allowing the firing of the paintball. Increased toggling activates a 3-way pneumatic valve. Said valve controls the position of a ram. Said ram acting upon said hammer so that extension of said rams returns said hammer to the cocked position where said sear again captures said hammer. Said ram having a rod extending from it, would in turn act upon the door pivoting it on its' axis and opening the loading chamber allowing for loading of the next paintball. Release of trigger would allow for return of 3-way valve, which would in turn retract said ram, which would in turn close said door, resealing the firing chamber, with said door at least partially occupying loading chamber and in turn transitioning the paintball at least partially into the barrel. Operator could now toggle the trigger and complete the cycle again.
In a second example, an embodiment of the present invention can be comprised of a blow back marker, a trigger is provided for firing the marker. This trigger is coupled to a sear. The sear controls a hammer. The hammer includes slideability within a blind bore within the housing of the marker. Hammer being biased in the rearward or firing position by a spring. Marker being in the open and cocked position, the firing chamber is open and a paintball can drop in, the spring being in the compress state. Toggling of said trigger causes release of said hammer, movement of the hammer caused by release of stored energy in compressed spring. Said hammer, having a connecting rod extending from it, connecting rod in turn acts upon the door pivoting it on its' axis and closing the door. Said door, having said “L” extending from it, upon closing occupies some of the space of the loading chamber, said “L” occupying some of said loading chamber the paintball is forced at least partially into barrel. Further movement of hammer causes hammer to contact with a valve seat and valve pin configuration, said contact causing compressed gas to be released from the top and the front of said valve seat. Upon the release of said compressed gas through top of said valve said compressed gas flows past the back plug in turn firing said paintball. Further release of said compressed gas through front of said valve in turn causes return of said hammer to its original position, movement of said hammer and said hammer rod coupled to it causes reopening of said door, again allowing a paintball into the loading chamber. Operator could now toggle the trigger and complete the cycle again.
In a fourth example, an embodiment of the present invention can be comprised of a stock class marker; a trigger is provided for firing the marker. This trigger is coupled to a sear. The sear controls a hammer. The hammer includes slideability within a blind bore within the housing of the marker. Hammer being biased in the forward or firing position by a spring. Toggling of said trigger causes sear to release said hammer allowing for rearward movement of the hammer. Said hammer, having a rod extending from it, hammer rod in turn acts upon the door pivoting it on its' axis and closing the door. Said door, having said “L” extending from it, upon closing occupies some of the space of the loading chamber, said “L” occupying some of said loading chamber paintball is forced at least partially into barrel. Further movement of said hammer causes said hammer to contact with a valve seat and valve pin configuration, said contact causing compressed gas to flow through the valve past said back plug allowing the firing of the paintball. After firing the operator would then cock the marker. Said cocking would consist of pumping an actuator grip mounted on the front of the marker. The first half of the cocking stroke would reset the hammer allowing the sear to capture it and, via a rod extending from said actuator grip, would act upon the door causing it to pivot on its' axis. Said pivoting would expose the loading chamber allowing for loading of the next paintball. The second half, or return stoke of cocking procedure, would cause the door to close, said door closing resealing the firing chamber, with said door at least partially occupying loading chamber thereby causing transitioning of the paintball at least partially into the barrel. Operator could now complete the cycle again.
Accordingly, and in one aspect, the present invention provides a paintball marker 10 that is significantly reduced in length.
In another aspect, the present invention provides the paintball marker 10 that can be quickly and easily cleaned, especially through the loading and firing chamber and continuing through the barrel.
In another aspect, the present invention provides the paintball marker 10 which is of a lightweight and relatively simple design.
In another aspect, the present invention provides the paintball marker 10 which can rapidly fire paintballs.
In another aspect, the present invention provides the paintball marker 10 which accurately fires a paintball with a charge of compressed gas.
In another aspect, the present invention provides the paintball marker 10 which reliably loads paintballs, and avoids jamming and paintball rupture.
In another aspect, the present invention provides the paintball marker 10 which has a unique appearance and can be easily distinguished from other paintball markers.
These aspects, along with the above delineation of the paintball marker 10 including its use and operation, demonstrate the industrial applicability of this invention.
This disclosure is provided to reveal a preferred embodiment of the invention and a best mode for practicing the invention. Having thus described the invention in this way, it should be apparent that various different modifications can be made to the preferred embodiment without departing from the scope and spirit of this invention disclosure. When structures are identified as a means to perform a function, the identification is intended to include all structures which can perform the function specified. When structures of this invention are identified as being coupled together, such language should be interpreted broadly to include the structures being coupled directly together or coupled together through intervening structures. Such coupling could be permanent or temporary and either in a rigid fashion or in a fashion which allows pivoting, sliding or other relative motion while still providing some form of attachment, unless specifically restricted.
This application claims benefit under Title 35, United States Code § 119(e) of U.S. Provisional Application No. 60/485,805 filed on Jul. 9, 2003. This application incorporates herein by reference the entire contents of pending U.S. patent application Ser. No. 10/033,161 filed on Oct. 26, 2001 and for which a notice of allowance was provided on Jun. 29, 2004.
Number | Name | Date | Kind |
---|---|---|---|
5462042 | Greenwell | Oct 1995 | A |
5497758 | Dobbins | Mar 1996 | A |
5503137 | Fusco | Apr 1996 | A |
5520171 | David | May 1996 | A |
5673679 | Walters | Oct 1997 | A |
5769066 | Schneider | Jun 1998 | A |
6276353 | Briggs et al. | Aug 2001 | B1 |
6343599 | Perrone | Feb 2002 | B1 |
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6520171 | Reible | Feb 2003 | B1 |
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Number | Date | Country | |
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60485805 | Jul 2003 | US |