There are no related applications on which priority is based. However, projectiles useful with the low velocity marker of the present invention are disclosed in the inventors' co-pending application Ser. No. 11/126,889, filed May 11, 2005 and entitled “Reusable Marker Projectile”.
The inventions described and claimed in this application were not made under federally sponsored research and development.
This invention relates to a projectile marker to pneumatically propel marker projectiles shot from a barrel. More specifically, this invention relates to a projectile marker with a low pressure propellant source to fire low velocity marker projectiles.
The sport of paintball is one of the fastest growing sports among teenagers and young adults. It is a combat type game in which players suitably attired in padded clothing and face shields shoot paint filled balls at each other through compressed air guns. On impact, the paintball typically breaks open to leave a splotch of water soluble, colored liquid. Suppliers of paintball equipment have substantially standardized the size of conventional paintballs to be approximately 0.688 to 0.690 inches or about 17.5 mm in diameter. The skin or capsule wall of a paintball is characteristically in the range of 0.2 to 0.4 mm in thickness so that the liquid volume contained within the paintball is a little more than 2.5 cubic centimeters. The weight of a typical paintball is slightly more than 3 grams. In short, it is a dense round ball and potentially dangerous.
The guns developed for shooting conventional paintballs include a barrel having a bore corresponding in size to the diameter of standard paintballs as previously mentioned. Such guns normally operate with compressed air or carbon dioxide (CO2) gas stored in a removable, high pressure canister. The pressure canister, which may be a rechargeable type or it may be disposable, is a metal container capable of withstanding high gas pressures up to at least 4500 pounds per square inch (psi) or 316 kilograms per square centimeter (kg/cm2). Typical operating pressures range from about 450 to 900 psi (32 to 63 kg/cm2). The conventional paintball gun, therefore, is designed to propel a paintball weighing more than 3 grams at a velocity of approximately 300 feet per second or slightly more than 90 meters per second. The momentum of the paintball is sufficient on impact to cause bruising even under protective clothing. Although a strong desire to engage in this sport exists for pre-teenage youth, pain aversion among youngsters limits participation.
Due to the high pressures and velocities involved, it is well known that the sport of paintball and the associated use of paintball equipment pose very serious safety concerns. The industry is largely self regulated at the present. Responsible retailers limit sales of the guns to those over 18 years of age, and paintball venues, either outside or indoor arenas, characteristically limit paintball participation to those over 12 years of age and require signed parental consent to play. In addition to these initial safeguards, the combat games at public paintball facilities are carefully supervised with a variety of rules all designed to make the sport safer. Yet, injuries seem to be inevitable. Accordingly, the dangers associated with paintball have significantly limited participation by pre-teenage youth either through exercise of parental control or through age restrictions imposed by paintball field operators.
Another limiting factor associated with the sport of paintball is expense. During a staged combat on a paintball field, a player can shoot several hundred paintballs most of which break on contact with whatever they hit. Even those which remain unbroken cannot be reused due to distortion or dirt, either of which interfere with operation of the paintball gun if one attempts to reload a spent, but unbroken paintball.
Although it is impossible to eliminate all risks associated with any shooting recreation, nonetheless, a need exists in the sports industry to provide low pressure, low velocity projectile marker equipment for youth sports designed to reduce some of the risks of combat field sports and to lessen the impact experienced by a hit, while at the same time retaining the marking feature which has made the paintball sport so popular. The primary objective of this invention is to meet this need.
More specifically, an object of the invention is to provide a low pressure, low velocity projectile marker for youth shooting sports as an effective alternative to the sport of paintball.
Another object of the invention is to provide a projectile marker for youth shooting sports with a diminished impact as compared with traditional paintball. By combining a velocity of less than 150 feet per second (45 meters per second) with a greater impact surface area, impact from the projectile fired from the marker of this invention is safer and can be tolerated by youngsters wearing appropriate protective clothing.
An additional object of the invention is to provide a projectile marker capable of repeated reuse of a lightweight foam projectiles for youth shooting sports which, after shooting, may be recovered and recharged with a marking agent for repeated shots. This feature renders the equipment more economical for the youth market as compared with the expense associated with the traditional paintball sport.
Another object of the invention is to provide a projectile marker of the character described which includes an on-board air compressor. This eliminates the need for a separate pressure canister that must be removed from the marker and refilled from specialized, high pressure compressing equipment such as required for traditional paintball.
A further object of the invention is to provide an on-board air compressor of the character described which includes a hand activated pump with superior mechanical leverage to permit a youngster to compress a sufficient quantity of air into a storage reservoir so that the marker may be fired several times before re-pumping is necessary to recharge the supply reservoir.
Yet another object of the invention is to provide a pressure system for a projectile marker which prevents the user from exceeding a maximum pressure of approximately 150 psi (11 kg/cm2).
Another object of the invention is to provide a removable barrel/magazine assembly to store a plurality of projectiles for seriatim firing from a marker. This permits combat players to carry a number of preloaded barrevmagazine assemblies onto a playing field to facilitate repeated firings and exchange of fresh barrel/magazine assemblies fully loaded with a supply of projectiles.
Another object of the invention is to provide a projectile marker of the character described which permits only seriatim firing of projectiles, rather than several projectiles being fired at once as is common with traditional paintball equipment.
An additional object of the invention is to provide a projectile marker of the character described with a sighting system through the marker that includes a line-of-sight substantially parallel with and above the cylindrical bore of the marker barrel.
A further object of the invention is to provide a projectile marker equipped with a removable barrel/magazine unit that visually indicates the number of projectiles remaining to be fired.
Another object of the invention is to provide a pressurized projectile marker having a number of safety features designed to reduce the risk of injury associated with pressure contained firing devices. Such features include a large cross sectional pressure conduit to disperse a pressure charge whenever the barrel/magazine assembly is not inserted into the marker; a twist lock to maintain the barrel/magazine assembly to the marker when correctly installed; and safety vent ports to harmlessly release a compressed air pulse in the event the barrel/magazine assembly is not correctly installed.
Yet another object of the invention is to provide a projectile marker of the character described having a trigger operated fire control valve to precisely release a controlled, momentary pulse of compressed air in order to discharge a projectile through the barrel of the marker.
In summary, a low pressure, low velocity projectile marker for youth shooting sports as an acceptable alternative to the traditional sport of paintball. The marker includes an onboard, hand activated pressure system to charge an air reservoir up to a maximum pressure of 150 psi (11 kg/cm2) as limited by a pressure relief valve. A removable barrel/magazine assembly stores and visibly displays a plurality of projectiles. The barrel/magazine assembly is inserted and sealably locked into a pressure deliver conduit of the marker. A trigger mechanism operates a fire control valve to precisely release a controlled, momentary pulse of compressed air in order to discharge a single projectile through the barrel of the marker.
Other and further objects of the invention, together with the features of novelty appurtenant thereto, will appear in the course of the detailed description of the drawings.
In the following description of the drawings, in which like reference numerals are employed to indicate like parts in the various views:
Referring to the drawings in greater detail, attention is first directed to
The body frame 22 comprises two substantially similar shells 22a & 22b (
Securely fixed to the body frame 22 and slightly offset with respect to the central parting line 32 is an air reservoir 24. The reservoir 24 is a sealed pressure tank 34 that may be of any convenient shape and size. The reservoir 24 illustrated in the drawings is contoured, shaped and sized to mimic the appearance of a hopper for a conventional paintball gun that holds a supply of paintballs for feeding to the paintball gun. As mentioned, however, the function of the reservoir 24 in the present invention is completely different from the paintball hopper of a conventional paintball gun. As shown in section in
With reference to
Interiorly of the body frame 22 is housed the air pressure system 26. The system 26 includes an air pump comprising a cylinder 50 fitted with a movable piston 52 on the end of an integral, longitudinally grooved piston rod 54 to slide back and forth within the cylinder 50. One end of the cylinder 50 is closed and fitted with a check valve 56, the details of which are best illustrated in
The check valve 56 comprises in combination the closed end wall 58 of the cylinder 50, a plurality of openings 60 through the closed end wall 58, and a flexible circular seal gasket 62 which overlies the openings 60 on the outside of the cylinder end wall 58 and which is pinned to the end wall 58 by a retainer 64. Accordingly, when air pressure within the cylinder 50 is greater than the pressure on the outside of the seal gasket 62 of the check valve 56, the gasket 62 will flex to undercover the openings 60 in the end wall 58 of the cylinder 50 so that air flow from the interior of the cylinder 50 out through the openings 60. This would be the case for a compression stroke of the piston 52 as illustrated in
The piston 52 is slightly smaller in diameter than the inner diameter of the cylinder 50. Cut in the outer circumference of the piston 52 is a tapered groove 66 which slopes inwardly toward the leading face of the piston 52. That is to say that the diameter of the tapered groove 66 decreases from back to front as shown in
To prevent over pressure conditions from developing, the piston 52 is equipped with a pressure relief valve 72. Centrally positioned in a recess 74 in the face of the piston 52 is a central hollow bore 76 which extends into the piston rod 54. Positioned in the bottom of the bore 76 is a spring 78. A valve body 80 having an elongate lateral slot 82 therethrough is secured within the bore 76 by a cross pin 84 extending from the piston rod 54 through the lateral slot 82 of the valve body 80. The valve body 80 includes circumferential groove 86 therein which receives an O-ring seal 88 to engage the interior wall of the bore 76. So configured, the spring 78 within the bore 76 normally biases the valve body 80 toward the face of the piston 52 to the limit permitted by the cross pin 84 within the lateral slot 82 of the valve body 80 as shown in
In accordance with the objectives of this invention, the maximum pressure should never exceed 150 pounds per square inch (psi) or 10.5 kg/cm2. Experimentation has determined that the maximum pressure for the marker 20 may fall in the broad range of 10 to 150 psi (0.7 to 10.5 kg/cm2) which is considered to be low pressure and is orders of magnitude less than the maximum pressure for conventional paintball guns considered to be high pressure devices. An effective range for the maximum pressure of the marker 20 of this invention is from 20 to 40 psi (1.4 to 2.8 kg/cm2), but the most preferred range for the maximum pressure falls within 25 to 35 psi (1.8 to 2.5 kg/cm2).
The onboard air pressure system 26 also includes a hand lever 92 connected to the piston rod 54 of the air pump. The lower end of the hand lever 92 forms a grip 94 from which a Y-shaped yoke 96 extends upwardly on each side of the body frame 22. The upper ends of the yoke 96 are pivotally connected by pin 98 to the superstructure projection 38 of the body frame 22 extending above the barrel/magazine assembly 28. Beneath the barrel/magazine assembly 28, the body frame 22 includes a projection hook 100 to be engaged by a spring loaded latch 102 member carried in the grip portion 94 of the hand lever 92. The latch 102 includes an elongate slot 104 throughwhich a pin 106 attached to the grip 94 extends to limit movement of the latch 102. A spring 108 mounted within the grip portion 94 biases the latch 102 upwardly to catch behind the projection hook 100 when the lever 92 is positioned as shown in
The latch 102 also includes an inclined cam surface 112 engaged by an angled surface 114 of a depressible release button 116 which projects from the grip 94. When depressed, as shown in
The piston rod 54 from the air pump includes a cross piece 118 on the outer end thereof which is received by a pair of elongate sockets 120 within the hand lever 92. With the release button 116 depressed, therefore, the hand lever 92 may be pivoted on the superstructure projection 38 of the body frame 22 and may be moved outwardly which causes the piston rod 54 to move the piston 52 of the air pump in an intake or vacuum stroke. At the outer limit of travel of the hand lever 92, the grip 94 may then be pulled back to execute a compression stroke. This to and fro pumping action may be continued until sufficient air pressure is developed for operation of the marker 20. By pivoting the hand lever 92 above the barrel/magazine assembly 28 as described, a youngster can achieve a superior mechanical leverage to permit sufficient compression of a quantity of air to a storage reservoir 24 so that the marker 20 may be fired several times before re-pumping is necessary to recharge the storage reservoir 24.
Returning then to the internals of the air pressure system 26, attention is again called to
One end of an elongate, cylindrical pressure delivery conduit 134 is sealably connected to the receiver base 132 with an O-ring seal 136. The pressure delivery conduit 134 is securely held in place by the body frame 22 engaging ridges 138 and ribs 140 formed on the outer cylindrical surface of the delivery conduit 134. In the event the fire control valve 130 is opened, as shown in
Attention is next focused on the barrel/magazine assembly 28 with reference to
The representative projectiles 146 illustrated in the drawings are spherical in form, but cone-shaped or bull-nosed projectiles may also be utilized without departing from the scope of this invention. Projectiles 146 suitable for use with the marker 20 of this invention are described our co-pending application Ser. No. 11/126,889, filed May 11, 2005 and entitled “Reusable Marker Projectile” which is incorporated herein by reference. In a spherical shape, the projectiles 146 are preferably in the range of 0.80 inches (20 mm) to 1.20 inches (30 mm) diameter which are substantially larger than conventional paintball at 0.689 inch (17.5 mm). Moreover, the projectiles 146 for use with the marker 20 of this invention are preferably formed of a synthetic molded foam to be fired at a velocity less than 150 feet per second (46 meters per second) which is approximate half the normal speed of a conventional paintball. Therefore, the size, shape, material and velocity all contribute to the goal of providing a projectile 146 for combat games which is less painful and has reduced safety risks than those associated with conventional paintball.
As shown in
Influenced of course by several factors such as operating pressure of the marker 20, as well as the resiliency of the material used for the projectiles 146, the minimum diameter for the firing chamber 148 may range from approximately 80 to 90 percent of the diameter of the projectiles 146. Through experimentation, the most preferred range for the minimum diameter of the firing chamber 148 is believed to fall in the range of 84 to 87% of the diameter of the projectiles 146.
The firing chamber 148 is attached to an elongate tubular magazine 152 having first and second ends spaced apart sufficient distance to hold a quantity of projectiles 146 for seriatim delivery to the firing chamber 148. The inside diameter of the tubular magazine 152 is slightly larger than the projectiles 146 to be fired so that the projectiles 146 may freely move within the magazine 152. Near the second end of the tubular magazine 152, a short flexible retainer or finger 154 extends into the passageway defined by the magazine 152. The finger 154 is sufficiently flexible to permit projectiles 146 to be inserted into the second end of the magazine 152 and pushed past the flexible finger 154. But it is also sufficiently rigid so as to prevent projectiles 146 within the magazine 152 from falling out through the second end of the magazine 152.
At the connection between the first end of the tubular magazine 152 and the firing chamber 148, a plurality of openings 156 extend through the wall of the magazine 152 to establish gas flow communication between the outside of the magazine 152 and the firing chamber 148. The purpose of such openings 156 will become clear in the subsequent discussion explaining the interrelationship between the barrel/magazine assembly 28 and the pressure conduit 134.
On the exterior wall of the firing chamber 148 is circumferential rib 158 having an outer diameter slightly less or equal to the inside diameter of the pressure conduit 134. The circumferential rib 158 includes a groove or channel 160 therein to seat an O-ring seal 162.
Just behind the openings 156 at the first end of the tubular magazine 152 is a circumferential band 164 which encircles a portion of the outer surface of the magazine 152. The band 164 has secured thereto a pair of diametrically opposed seal pads 166 such that the diametric distance from the outer surface of one seal pad 166 to the other substantially equals the inside diameter of the pressure conduit 134. The seal pads 166 are positioned around and held in place on the magazine 152 by bosses 168 projecting from the outer surface of the magazine 152 (see
With reference to
Referring again to
The barrel/magazine assembly 28 as previously described and as illustrated in
The pressure relief ports 190 of the delivery conduit 134 provide an important safety feature of the marker 20. In the event the barrel/magazine assembly 28 is not twist locked as described onto the pressure conduit 134, the relief ports 190 will be unsealed in order to dissipate pressure of any firing of the marker 20 (
When properly installed into the pressure delivery conduit 134, the outer diameter of the tubular magazine 152 forms an annulus 192 with the inner diameter of the delivery conduit 134.
The annulus 192 is in communication with the receiver base 132 opposite the fire control valve 130 such that compressed air through the control valve 130 is delivered to the annulus 192, travels the length of the magazine 152 and passes through the openings 156 in the magazine 152 behind the firing chamber 148 to propel a projectile 146 in the firing chamber 148 into the barrel 142, as illustrated with the gas flow arrows in
Extending centrally through the pedestal of the receiver base 132 is a narrow rod 194 having a plunger head 196 on one end thereof. Supported within the body frame 22 is a tubular housing 198 which receives the opposite end of the rod 194. An elongate coil spring 200 caged within the tubular housing 198 biases the rod 194 outwardly. So constructed the plunger head 196 and a portion of the rod 194 projects centrally into the magazine 152 to urge the projectiles 146 stored therein to seriatim engagement with the firing chamber 148.
It is desirable that the pressure delivery conduit 134 and magazine 152 be fabricated of substantially transparent material. This enables the user to visually verify the number of projectiles 146 remaining in the magazine 152 and firing chamber 148. Alternatively, the delivery conduit 134 and magazine 152 may be fabricated of opaque materials with strategically placed transparent windows therein so that the number of projectiles 146 remaining in the magazine 152 and firing chamber 148 can be ascertained by the user. Examples of such transparent windows 202 are illustrated in
Attention is next directed to the trigger mechanism 30 for the marker 20 with principal reference to
Interiorly of the body frame 22, the trigger 204 includes a pawl 212 biased upwardly by a spring 214. In alignment with but remote from the pawl 212 is cam wheel 216 mounted within the body frame 22 on a pivot post 218. A leaf spring 220 encircles the pivot post 218 to hold the cam wheel 216 in the position as shown in
The anvil 226 is adjustably secured to a first end of an elongate fire control rod 228. A threaded nut member 230 carried on the control rod 228 may be used to adjust the position of the anvil 226 with respect to the first end of the rod 228. The opposite, second end of the rod 228, fitted with an O-ring 232, sealably penetrates the internal air chamber 122 and is connected to the fire control valve 130 normally closing the valve seat 128 between the internal air chamber 122 and the receiver base 132. A spring 234 within the internal air chamber 122 acts to bias the fire control valve 130 to engagement with the valve seat 128 in order to block air flow through the valve seat 128 to the receiver base 132.
However, when the cam wheel 216 is released by the trigger pawl 212 and whirls around with its striker hammer 224 impacting the anvil member 226, the force of this blow to the anvil 226 temporarily dislodges the fire control valve 130 against its spring 234 bias to permit a momentary blast of compressed air to travel through the valve seat 128. The amount of air delivered with each “shot” can be factory adjusted or fined tuned with the aid of the threaded member 230 to minutely change the location of the anvil 226 on the rod 228 connected to the fire control valve 130.
In operation, therefore, the user will insure that a supply of appropriately sized projectiles 146 are loaded into the magazine 152 and that the barrel/magazine assembly 28 is properly installed to the pressure delivery conduit 134 of the marker 20. The release button 116 on the hand lever 92 may be depressed to release the latch 102 and sufficient pumping strokes may be made to adequately pressurized the marker 20. With the safety pin 210 moved to the “fire” position, the user squeezes the trigger 204 to fire a single projectile 146 one after another with each trigger pull so long as sufficient enough pressure remains stored the marker 20 for effective operation.
From the foregoing it will be seen that this invention is one well adapted to attain all the ends and objects hereinabove set forth, together with the other advantages which are obvious and which are inherent to the invention.
It will be understood that certain features and subcombinations are of utility and may be employed without reference to other features and subcombinations. This is contemplated by and is within the scope of the claims.
Since many possible embodiments may be made of the invention without departing from the scope thereof, it is understood that all matter herein set forth or shown in the accompanying drawings is to be interpreted as illustrative and not in a limiting sense.