Patent Application
20050133014
This application relates generally to paintball guns (or “markers”). The inventive principles disclosed in this application primarily relate to electro-pneumatic paintball guns and components for electro-pneumatic paintball guns, including, among other things, bolt and firing assemblies.
It is common for pneumatic paintball guns, including electro-pneumatic paintball guns, to use firing assemblies and bolt assemblies. For instance, in U.S. Pat. No. 6,349,711 (incorporated herein by reference) the firing assembly includes a firing valve actuated by a separate pneumatic ram assembly, and a bolt coupled to the pneumatic ram assembly through an externally-protruding removable bolt pin. To remove the bolt for maintenance or cleaning, the bolt pin is removed from the gun and the bolt is then allowed to slide out. This bolt pin is a separate part that must be kept track of during cleaning and maintenance.
To avoid loss of the bolt pin, some paintball gun manufacturers have provided bolt pins that do not completely separate from the bolt. These bolt pins typically release from the pneumatic ram assembly by an upward movement of the bolt pin, and can then be slid out of the paintball gun along with the bolt via a channel formed in the paintball gun body. These solutions still maintain an externally protruding bolt pin. Another approach has been to provide a hinged breech block. In this design, the bolt is arranged in the breech block with an integral, internal bolt pin. When a breech pin is retracted, the breech block is permitted to swing open by rotating about its hinge axis, releasing the bolt pin from the pneumatic ram assembly via this swinging movement. While this approach provides a completely internal bolt assembly, it suffers because the breech block may become loose over time and may fail to align itself properly or have a sloppy feel during play. Dirt and other debris can also enter into the breech through gaps between the breech block and the gun body.
According to one embodiment, a bolt assembly for a pneumatic paintball gun that incorporates principles of the present invention preferably comprises a bolt, a bolt linkage attached to the bolt, and a bolt removal assembly. The bolt linkage (or pin) preferably remains entirely inside the gun housing during operation of the gun. The bolt removal assembly preferably includes a bolt removal sleeve and an actuator (such as a handle or knob). Using the bolt removal assembly, the bolt assembly can preferably be removed as a single unit from the rear of the gun housing for maintenance and cleaning of the gun and its components. The actuator is preferably used to rotate the bolt sleeve and bolt for removal from the gun. A back plate is also preferably included to conceal the internal components of the marker and to prevent sand or other debris from entering the paintball gun through the back of the marker.
A method for removing a bolt assembly from a paintball gun is also preferably provided. Specifically, a rearward end of the bolt assembly is preferably rotated about a center axis of the bolt to disengage a bolt linkage from a pneumatic actuator. The bolt assembly is then preferably withdrawn from the marker through a rearward opening in the gun housing.
A pneumatic firing assembly, according to other principles of this invention, can also easily be installed or removed from a paintball gun. The pneumatic firing assembly preferably comprises a piston rod, a firing valve having a stem (or valve pin) positioned on or within an end of the piston rod, a piston chamber, and a firing mass positioned on an opposite end of the piston rod. The firing mass is preferably weighted to provide sufficient mass to activate the firing valve. A groove is preferably arranged in the firing mass for engaging a bolt linkage.
An electro-pneumatic paintball gun can be configured to utilize the above-described bolt assembly and pneumatic firing assembly. The paintball gun preferably includes a housing with a firing assembly chamber that receives the firing assembly and a bolt assembly chamber that receives the bolt assembly. A firing mass of the firing assembly is preferably arranged on a pneumatic piston. The firing mass preferably has a receiving groove for engaging a bolt linkage. A groove is preferably arranged in the housing between the firing assembly chamber and the bolt assembly to permit the bolt linkage to travel forwards and backwards with the pneumatic piston and firing mass. The electro-pneumatic paintball gun also preferably includes an opening in the rear of the housing that enables the firing assembly and bolt assembly to be readily removed from the paintball gun. A removable back plate can be provided to conceal the rear opening and prevent dirt or debris from entering the opening.
The foregoing and other objects, features and advantages of the present invention will become more readily apparent from the following detailed description of various preferred embodiments, proceeding with reference to the accompanying drawings, in which:
Various aspects and embodiments of the present invention will now be described in greater detail with reference to the accompany drawings. Beginning with
The bolt assembly 300 preferably includes a bolt 310, a bolt linkage (or pin) 312, and a bolt removal sleeve 320. The bolt linkage 312 is preferably attached to a rearward portion of the bolt 310. When arranged in the gun body, the bolt linkage 312 preferably extends downward through a housing channel 32 arranged between the bolt assembly chamber 30 and the firing assembly chamber 40 to communicate with a firing mass 430 of the firing assembly 400. In this embodiment, for example, the bolt linkage 312 is received into a groove 432 of the firing mass 430.
The firing assembly 400 preferably includes a pneumatic cylinder 410 that houses a pneumatic piston 422 arranged on a piston rod 420. The firing mass 430 is preferably arranged on a rearward end of the piston rod 420. The firing mass 430 can be threaded onto the piston rod 420, formed integrally with the piston rod 420, or attached the piston rod 420 in any other method desirable. The firing mass 430 preferably includes a groove 432 configured to receive an end of the bolt linkage 312 from the bolt assembly 300. In this embodiment, a forward end of the piston rod 420 extends through a valve body 440 and into a mating hole 444 in the valve pin 442.
In operation, compressed gas is delivered to alternating sides of the pneumatic piston 422 on the piston rod 420 to operate the marker. In a loading operation, compressed gas is delivered to a front end 422A of the piston 422 and vented from a back end 422B of the piston 422 causing the piston rod 420 to move to a rearward position in the cylinder 410. The firing mass 430 and connected bolt 310 are thereby moved to a rearward position in the paintball gun 20, and a paintball is permitted to enter the breech 34 through the feed tube 26.
When a firing sequence is initiated, compressed gas is directed to a rearward end 422B of the piston 420 through the solenoid valve 50 and is vented from the front end 422A of the piston 422. The piston rod 420 thereby moves forward in the cylinder, causing the firing mass 430 and attached bolt linkage 412 and bolt 410 to move forward in the paintball gun 20. As the piston rod 420 and attached bolt 412 reach their forward positions, the paintball is loaded into its firing position and the piston rod 420 contacts a forward wall in the firing valve pin 442, opening the firing valve 440 and causing compressed gas to be released from the compressed gas storage chamber 42 through the bolt 310 and into contact with the paintball to expel it from the marker 20.
More specifically, the bolt sleeve 320 preferably comprises a cylindrical housing 330 having a receiving chamber 332 that fits around an external circumference of the bolt 310. A bolt linkage groove 324 is preferably longitudinally arranged along the center of the bottom of the bolt sleeve 320 and extends from a forward end of the bolt sleeve 320 a predetermined distance toward the rearward end of the bolt sleeve 320. The bolt linkage groove 324 is preferably sized wide enough and long enough so as not to restrict movement of the bolt linkage 312 during operation of the marker 20. The bolt catch groove 326 preferably extends perpendicular to the bolt linkage groove 324 from a rearward end of the bolt linkage groove 324, such that twisting the bolt sleeve 320 (via the actuator 322) will engage the bolt linkage 312 in the catch groove 326 when the linkage 312 is in its rearward position.
To remove the bolt assembly 300 from the marker 20, with the bolt 310 in its rearward position, the actuator 322 is twisted so that the bolt linkage 312 is engaged in the bolt catch groove 326. The actuator 322 is twisted further until the bolt linkage 312 contacts the end of the bolt catch groove 326. The bolt linkage 312 is then moved out of the groove 432 in the firing mass 430. The housing channel 32 is preferably wide enough to permit the bolt linkage 312 to swing clear of the firing mass 430. The bolt assembly 300 can then be removed through an opening in the rear of the gun body 22, along with the back plate 340.
Guide grooves 328 are also preferably provided in the bolt sleeve 320 to align with and engage guide pins 28 arranged in the gun body 22. The guide grooves 328 and pins 28 provide a travel path for the bolt sleeve 320 to ensure that the bolt removal sleeve 320 is aligned properly during removal and reinsertion. A mating notch and detent (or other locking mechanism) can also be provided within the bolt sleeve 320 to retain the bolt linkage 312 in the bolt catch groove 326 while the bolt assembly 300 is removed from the gun body 22. Upon reinsertion into the gun body 22, the twisting action of the actuator 322 to realign the bolt linkage 312 within the firing mass groove 430 releases the detent from the notch (or otherwise unlocks the locking mechanism) and permits the bolt linkage 312 to travel from the catch groove 326 back into the bolt linkage groove 324.
In an alternative embodiment, the actuator could be attached directly to the bolt. The actuator in this embodiment would move with the bolt and would be accessible through a rearward opening in the paintball gun when the bolt is in its rearward position. As in the previous embodiment, twisting the actuator would cause the bolt linkage to disengage from the firing mass. The bolt assembly could then be removed through the back of the marker. Guide channels could be provided in the bolt, rather than the bolt sleeve, to align with guide pins in the paintball gun body to ensure proper alignment of the bolt in the bolt chamber of the paintball gun.
The firing assembly 400 is preferably operated by using a solenoid valve 50 to direct compressed gas to one side of the pneumatic piston 422 while venting the opposite side. When compressed gas is supplied to a front end 422A and vented from a back end 422B of the piston 422, the compressed gas storage chamber 42 is permitted to charge with compressed gas. To fire the marker, compressed gas is supplied to the rearward end 422B and vented from the forward end 422A of the pneumatic piston 422. The pneumatic piston rod 420 is thereby driven forward until the rearward wall of the chamber strikes the firing valve pin 442B. The momentum given to the piston rod 422 by the firing mass 430 causes the valve head 446 to unseat from the valve body 440, releasing the compressed gas from the compressed gas storage chamber 42 through the valve body 440.
In a preferred configuration, the firing assembly 400 can be removed as a unit together with all its components. Referring to
Having described and illustrated the principles of the invention in a preferred embodiment thereof, it should be apparent that the invention can be modified in arrangement and detail without departing from such principles. We claim all modifications and variations coming within the spirit and scope of the following claims.
