Autococker

Last updated
An early model Autococker Autococker.jpg
An early model Autococker

The Autococker is a closed-bolt semiautomatic paintball marker manufactured by Worr Game Products (WGP). It was one of the first paintball markers to be designed specifically for the sport, and has long been known throughout the paintball community for its popularity and customizability as well as its complexity. It is commonly believed that the closed-bolt design of the marker makes it inherently more accurate than its open-bolt counterparts, though this is disputed (see Accuracy, below).

Contents

Once a common sight at professional paintball tournaments (especially in the early- to mid-1990s), [1] its popularity has since waned with the rise in popularity of electropneumatic markers.

History

A 1991 WGP Sniper II Serial Number #3810. The precursor to the Autococker. 1991SNIPER2.JPG
A 1991 WGP Sniper II Serial Number #3810. The precursor to the Autococker.
A 2003 WGP Prostock vertical feed Autococker with slider frame and a pump kit. Pumpmarker042206.jpg
A 2003 WGP Prostock vertical feed Autococker with slider frame and a pump kit.

In late 1986, Bud Orr created the original Sniper pump marker by carving the works of a standard Sheridan PGP into an aluminum block that would accept a longer barrel. The Sniper was operated in a manner similar to pump-action shotguns in that it had to be manually recocked after each shot to load the next round. In 1987, Orr founded Worr Game Products to sell the products he was developing, and by 1988 he was running the business full-time. In order to stay competitive with the rising popularity of semiautomatic markers in the late 1980s, Orr added a pneumatic system onto the Sniper. The pneumatics automatically re-cocked the marker after each shot, and in 1989 the Autococker was born. [2] There is a lot of controversy as to whether the design was stolen from Glenn Palmer (who has repeatedly and publicly made and defended this claim and has given a detailed accounting of the circumstances) or was actually Bud's innovation.

In the early 1990s the Autococker quickly rose to become one of the most popular markers used by top professional teams, used by such teams as Bob Long's original Ironmen. [2] Although heavily criticized for reliability and a number of design defects, [3] it proved to be an easy platform to work off and aftermarket parts soon appeared shortly after its inception. One of the most fundamental and important upgrades was the Palmer "Rock" low pressure regulator (LPR) to replace the troublesome stock LPR. With a variety of options appearing for parts, Belsales in the UK became the first company to build WGP-certified aftermarket cockers, called "Evolution" in 1993. Throughout the remainder of the 1990s, dozens of shops ranging from large notables such as Dave Youngblood Enterprises (Dye), Shocktech, Planet Eclipse, Belsales and FreeFlow down to small one man pro-shop operations made a business of servicing and customizing Autocockers with price tags of nearly $2000 for high-end models. A combination of performance, upgradeability and cosmetic options made it one of the top tournament markers of the 90's. Only the Automag rivaled it in popularity until electronic markers appeared. Indeed, the autococker was so ubiquitous that its barrel threading became one of the most commonly used standards on high-end markers (akin to how firearm cartridge sizes are often named for the first popular gun model or manufacturer to use them). To this day, most high-end markers, and many entry-level as well, accept barrels with "autococker threads".

By the turn of the century, with the advent and increased popularity of electropneumatics, it no longer became profitable for specialized shops to produce custom autocockers, and they slowly began to disappear. Though the introduction of partial-electropneumatic conversion kits in the early 2000s by companies like Planet Eclipse extended the autocockers' popularity by a few more years, the availability of fully electropneumatic markers that required less work to maintain caused the autococker to lose favor with tournament teams, and eventually, casual players as well. [4] Newer Autocockers with integrated, solenoid-controlled pneumatics remain available, boasting lesser maintenance and tuning. "Classic" Autococker models retain some popularity with recreational players, some of whom "revert" the design back to the pump-action "Sniper" concept for use in pump play.

Operation

The Autococker is essentially a pump marker with an automated pumping mechanism. It is a closed-bolt design, like all pump markers, and its operation can be broken down into two discrete phases, or cycles:

1) The firing cycle – The process that releases the gas that fires a paintball out of the marker is fairly simple compared to the re-cocking cycle. At rest, the bolt sits forward, closing the chamber (hence, closed-bolt). This prevents more paintballs from entering. A pull of the trigger drops the sear, which in turn releases the hammer. A spring propels the hammer forward into the valve, which causes the valve to release a burst of gas upward into the bolt. The bolt redirects the gas behind the paintball, propelling it out the barrel.

2) The re-cocking cycle – Once the paintball is fired, three things must happen in order to return the marker to a "ready" state: 1) the hammer must be pulled back so that it re-engages the sear and re-compresses the spring, 2) the bolt must be pulled back so that another paintball can fall from the feed tube into the breech, and 3) the bolt must be pushed forward after the paintball is loaded to close the breech.

The Autococker back block Back block closeup diagram.jpg
The Autococker back block

On both the Sniper and the Autococker, a back block performs all three of these functions. The bolt is attached to the block, while a cocking rod (which is attached to the hammer and designed to catch on the block) passes through it. When the block moves backward, it pulls the bolt back, allowing a paintball to drop into the breech. The backward movement simultaneously pulls the cocking rod back, causing the hammer to also be pulled back until it re-engages the sear. When the block moves forward, it pushes the bolt (and the paintball) forward, closing the breech. The cocking rod stays pulled back, with the hammer ready to fire.

On both the Sniper and Autococker, a pump rod runs from the front of the marker to the back block and serves as the means by which the back block moves forward and back. On the Sniper (and converted Autocockers), a pump handle is located on the front of the marker and attaches to the pump rod. After the player has pulled the trigger to fire a paintball, he/she then pulls back on the pump arm, pushing the back block rearward. This opens the bolt, allowing the next ball to be fed into the breech, and simultaneously pulls the hammer back until it is caught by the sear.

The front block

In the Autococker, a pneumatic system replaces the pump handle to automatically re-cock the marker (hence the name, "auto cocker"). The pneumatics are composed of three components: the low pressure regulator (LPR), the 3-way valve, and the ram. All three are grouped together at the front of the marker on what is known as the front block.

The Autococker front block Front block closeup diagram.jpg
The Autococker front block

Timing

The re-cocking cycle as described above is understandably complex, involving many independent components that must be synchronized in order for the marker to function properly. The process of synchronizing these components is known as timing. [6] Timing is a process unique to Autocockers, and viewed by non-owners as particularly onerous. Experienced Autococker owners claim however that with enough practice, timing becomes as simple and routine as the upkeep required of any other paintball marker. [7]

Most Autocockers are timed at the factory, and only need to be retimed if some of the timing components (such as the hammer, 3-way, timing rod, etc.) are replaced.

Players experienced in both working on and operating Autocockers prefer a more careful timing process called suction, or vacuum timing. The recocking cycle is carefully moved closer towards the firing point, until the interaction between the ball exiting the barrel and the bolt recocking creates a vacuum in the breech. This causes the marker to effectively "suck" a paintball into the chamber.

Accuracy

A common belief is that the closed-bolt design of Autocockers makes them inherently more accurate than open-bolt markers. [1] [8] This argument is premised on the fact that the bolt's mass does not move forward when the trigger is pulled, (as it does in open-bolt designs) since the ball is already "chambered" in the breech when the firing cycle is initiated. Proponents suggest that the absence of an oscillating mass during the firing cycle makes the autococker a more stable firing platform, which increases accuracy.

Tests have indicated however, that where there is a good paint-to-barrel match, the design of the marker is irrelevant. [9] Open-bolt markers with a good paint-to-barrel match have proven to be just as accurate as the Autococker. These tests, however, did not measure the stability of the shooting platform, which is the main reason many believe Autocockers to be accurate. They instead used a fixed mounting point which artificially equalizes the stability of both marker tested. Additionally, these test were performed with a single marker modified to act like both and open or closed bolt paintball marker. This modification along with the poor quality of the modified marker leads to inherently inaccurate shots for both versions.

The belief that Autocockers are more accurate due to their design is partially due to the confounding fact that the Autococker requires a good paint-to-barrel match. In open-bolt markers, the breech is open during the firing phase, since the bolt is in a "back" position. Thus, a rubber detent keeps the "chambered" ball from rolling out of the barrel before the marker is fired. The closed-bolt design of the marker means that paintballs are held in the chamber, beyond the breech where the detent is located. The only thing keeping the paintball from rolling out the barrel is a good paint-to-barrel match. Autococker owners unaware of this fact tend to notice that paintballs roll out of the barrel when the end is pointed downward.

Criticisms

Reliability: Due to their large number of moving parts, Autocockers are popular with tinkerers. Since even seemingly unimportant aspects of the marker, such as how far the back block is screwed onto the pushrod, can affect Autococker performance, minor tinkering with the marker can compound over time and lead to failure. It is not uncommon for an inexperienced owner to try to fix an Autococker that is not broken, frequently with disastrous results. As a result, rumors of Autocockers being unreliable have circulated the internet for years. The reality however, is that Autocockers are extremely reliable once set up properly. Experienced owners that understand how each of the parts in the marker interact are consistently able to modify and upgrade the marker without causing problems. Since new Autocockers are designed to work "out of the box," new owners are usually advised to not tinker with anything until they fully understand how the marker works.

Gas Efficiency: Although the Autococker operates at lower pressures than many of its contemporaries, such as the Kingman Spyder and Automag, the forces and pressures at play in the firing and recocking mechanisms must be balanced for the greatest effectiveness at the desired shot velocity, something that does not have to be done (at least to this degree) in any other marker. This is generally known as "sweet-spotting" the marker, or more specifically the marker's high-pressure regulator or HPR. If the HPR is set at too low a pressure, the marker will get insufficient pressure to fire the ball at the desired velocity or even to operate. If set too high, the pressure against the back of the valve will work against the hammer opening the valve to fire the paintball and again reduce velocity. Either way, the consistency of shots and the gas efficiency of the marker are reduced, and a common complaint among inexperienced Autococker users is that they do not get many shots from a full tank of air or CO2. Balancing the marker requires firing several shots over a chronograph to find the "sweet spot" of the HPR (the point at which the velocity is highest, then adjusting the hammer spring tension to increase or decrease velocity, and re-adjusting the HPR to find the new sweet spot, until the marker is firing at field limits with the HPR at or near its sweet spot. The LPR controlling the pneumatics must then be adjusted to use the least amount of pressure necessary to move the back block fully rearward. This process requires access to a shooting range with a chronograph, and significant time, air, paint and patience, which many casual players do not possess.

Slow rate of fire: In an era where electropneumatic markers are prized for their high rate of fire in both tournament and recreational play, the slower mechanical operation of the Autococker (at least in entry-level models) is looked upon with some disdain. The first production E-cocker conversion was the PMS mark 3 system in the late 90s, which met with minimal success but paved the way for offerings by Sandridge (fully electronic and one of the first electro's to use eye technology) and the centerflag Uprising (partial conversion). Next generation frames from Racegun and Eclipse (with multiple fire modes, fully electronic sear and pneumatics) were the first frames to find broad use and the Eclipse E-Blade became the standard for electro-cockers but was discontinued in 2006. WGP's own electropneumatic system, based on technology licensed from Planet Eclipse, is now standard on many of their new Autococker models.

Short-Stroking: On mechanical Autocockers, the trigger both fires the marker (by releasing the sear) and re-cocks it (by pulling the timing rod and activating the 3-way). The pull of the trigger accomplishes first one, then the other, in a precisely timed operation, making it necessary for the player to fully pull and release the trigger each time. Only partially pulling the trigger, known colloquially as "short-stroking", will alter the duration of time the pneumatics are actively operating the recocking mechanism, or may eliminate the re-cocking cycle altogether. Short-stroking can thus cause many malfunctions related to one or more steps of the recocking process not being performed. For instance, if the back block does not move fully rearward, the hammer may not be caught by the sear, and will be released into the pin valve immediately upon the back block moving forward again. If the back block is not kept rearward long enough for a paintball to drop fully into the chamber, a "dry fire" or a "ball chop" may occur, the latter being extremely frustrating as it drastically affects accuracy of future shots until the barrel, breech and bolt are cleaned. The need for a full trigger pull on mechanical Autocockers also results in a slower rate of fire.

Sear Trip: Even with an electronic trigger, the Autococker still relies on a hammer and spring valve for firing. The electronic trigger controls the recocking pneumatics, and a sear solenoid. Thus, even electronic Autocockers have an amount of recoil and rate of fire some find unacceptable for serious play (though Autocockers are still seen in serious tournament play). In early 2006, the first fully electronic (valve and recock) electronic Autocockers were seen, made using the "mQ valve" (named after their inventor Mike Quinn). [10] The valve only had a limited release cycle however, and became tied up in production and legal issues. A lack of steady supply of mQ valves caused prices to skyrocket on eBay, even for used or damaged ones. In mid-2007, the original creators announced that they had resolved the production issues and are now making new "mQ2 valves," which are mQ valves redesigned for greater reliability, flow, and consistency.

Variants

WGP has produced several of its own "higher-end" versions of its base Autococker:

Trilogy autococker

After its acquisition by K2 in 2004, WGP decided to produce Autocockers that could compete with entry-level markers like Kingman's Spyder and Smart Parts' Ion. However, the popular perception of Autocockers as "complex" and "difficult to maintain" was a serious hurdle to WGP's ability to market it to beginner players. The decision was made to "simplify" the functions of the Autococker, and the result was the Trilogy line.

On Trilogy Autocockers, the front block is removed, and the pneumatics are attached directly on to the body. The 4-way valve is also integrated into the body and cannot be replaced with third-party upgrades. This lack of the front block allows them to be produced at lower cost while decreasing complexity. However, upgrades to the marker can be a bit more difficult because of this. For example, an adapter is needed to allow the use of standard LPR's, and specialized pump kits are required to make a Trilogy a pump gun.

Within the Trilogy Autococker line, there are three models, the Pro, Competition, and Sport. Variations such as the Trilogy Tactical have the same basic mechanical components; changes are mostly cosmetic. The Trilogy Pro and Tactical models are available with an electronic frame called Trilogy Select Fire. This is different from the separately available WorrFrame Select Fire, such as can be found on the 2005 Black Magic model. The Trilogy Select Fire, uses the 4-way valve integrated into the body of the gun rather than an electronic solenoid like other electronic frames.

Though most markers in the Trilogy line are mechanical, it is possible to add an electronic trigger frame, which bypasses elements like the integrated 3-way. Later released Eclipse Blade 2 kits had an adapter for this purpose. The Trilogy can also be converted to manual pump-action, similar to the original Sniper line, which makes the integrated 4-way irrelevant.

Related Research Articles

<span class="mw-page-title-main">Action (firearms)</span> Functional mechanism of breech-loading

In firearms terminology, an action is the functional mechanism of a breech-loading firearm that handles the ammunition cartridges, or the method by which that mechanism works. Actions are technically not present on muzzleloaders, as all those are single-shot firearms with a closed off breech with the powder and projectile manually loaded from the muzzle. Instead, the muzzleloader ignition mechanism is referred to as the lock.

<span class="mw-page-title-main">Air gun</span> Gun that uses compressed air to launch projectiles

An air gun or airgun is a gun that fires projectiles using energy from compressed air or other gases that are mechanically pressurized. This is in contrast to a firearm, which fires projectiles using energy created by burning combustible propellants, i.e. gunpowder.

Tippmann is an American manufacturer of paintball markers and paintball equipment, including military simulation (MilSim) kits. A related company, Tippmann Industrial Products manufactures manual and pneumatic heavy-duty sewing machines primarily used for leather, other leather-related equipment, and some industrial products. Originally a family-owned business run from Fort Wayne, Indiana, in 2004 Dennis Tippmann Sr. sold a majority ownership stake to Summit Partners, a private equity firm. Tippmann designed one of the first automatic markers, the use of refillable air systems in place of 12 gram cartridges, the "Cyclone Feed" system, the "Flatline" barrel, and the Tippmann C-3, the first propane-powered marker.

<span class="mw-page-title-main">Firing pin</span> Part of the firing mechanism in a firearm

A firing pin or striker is a part of the firing mechanism of a firearm that impacts the primer in the base of a cartridge and causes it to fire. In firearms terminology, a striker is a particular type of firing pin where a compressed spring acts directly on the firing pin to provide the impact force rather than it being struck by a hammer.

Pump action or slide action is a repeating firearm action that is operated manually by moving a sliding handguard on the gun's forestock. When shooting, the sliding forend is pulled rearward to eject any expended cartridge and typically to cock the hammer/striker, and then pushed forward to load (chamber) a new cartridge into the chamber. Most pump-action firearms use an integral tubular magazine, although some do use detachable box magazines. Pump-action is typically associated with shotguns, although it has been used in rifles and other firearms as well.

<span class="mw-page-title-main">Angel (paintball gun)</span>

The Angel is one of the first electropneumatic paintball markers. It was manufactured by Angel Paintball Sports starting in 1997 and was introduced alongside Smart Parts' original Shocker.

<span class="mw-page-title-main">Breechblock</span> Part of the firearm action

A breechblock is the part of the firearm action that closes the breech of a breech loading weapon before or at the moment of firing. It seals the breech and contains the pressure generated by the ignited propellant. Retracting the breechblock allows the chamber to be loaded with a cartridge.

<span class="mw-page-title-main">Mannlicher M1894</span> Semi-automatic pistol

The Mannlicher M1894 was an early blow-forward semi-automatic pistol.

Smart Parts was a paintball manufacturing company in Latrobe, Pennsylvania, which filed for liquidation on July 28, 2010. As of August 22, 2010 Smart Parts' assets and intellectual property were acquired by Kee Action Sports.

<span class="mw-page-title-main">Paintball marker</span> Air gun used in the shooting sport of paintball

A paintball marker, also known as a paintball gun, paint gun, or simply marker, is an air gun used in the shooting sport of paintball, and the main piece of paintball equipment. Paintball markers use compressed gas, such as carbon dioxide (CO2) or compressed air (HPA), to propel dye-filled gel capsules called paintballs through the barrel and quickly strike a target. The term "marker" is derived from its original use as a tool for forestry personnel to mark trees and ranchers to mark wandering cattle.

Paintball is an equipment-intensive sport and in order to safely conduct a game, every player requires a marker with propellant to fire the paint, a mask to protect the eyes and face, paintballs, and a loader to hold them. To ensure safety off the playing field, a barrel sock or plug for the marker is also compulsory.

<span class="mw-page-title-main">Automag (paintball marker)</span> Guntype

The Automag is a paintball marker designed by Tom Kaye and produced by Airgun Designs, Inc. It bears the distinction of being the first semi-automatic marker ever to win a paintball tournament. Team Swarm used Automags in their victory at the 1990 International Masters.

The Shocker is a series of electropneumatic paintball markers manufactured by Smart Parts. The original Shocker was built by PneuVentures and distributed by Smart Parts in the US in 1995. It is now discontinued, but was the first electropneumatic paintball marker on the market at the time. Several revisions of the marker have since been produced.

<span class="mw-page-title-main">Break action</span>

Break action is a type of firearm action in which the barrel or barrels are hinged much like a door and rotate perpendicularly to the bore axis to expose the breech and allow loading and unloading of cartridges. A separate operation may be required for the cocking of a hammer to fire the new round. There are many types of break-action firearms; break actions are universal in double-barrelled shotguns, double-barrelled rifles, combination guns, and are commonly found in single shot pistols, rifles, shotguns, including flare guns, grenade launchers, air guns, and some older revolver designs. They are also known as hinge-action, break-open, break-barrel, break-top, or, on old revolvers, top-break actions.

An inline blowback is a type of blowback design. A blowback marker is one that when the trigger is pulled, the sear is released, which allows the striker, which is linked to the bolt, to slam into the valve, which releases air into the bolt, which is redirected out the barrel. The valve also releases air back into the striker, pushing it back and recocking the marker. An inline blowback is where the bolt, striker, and valve are all adjacent horizontally in the same tube, instead of in a stacked tube blowback where the valve and striker are in one tube, and the bolt is in another tube above the valve and striker.

The CCI Phantom is a Nelson-based pump action paintball marker developed and produced by Mike Casady. Production began in 1987 after about six months of prototype work. The name for the marker was derived from the much more stealth-oriented and drawn-out style of play that was typical when the game was first developing. The Phantom was designed to be powered by a single 12-gram CO2 Powerlet, but larger tanks may also be used by removing the powerlet adapter or using a dummy powerlet. When first introduced the marker featured a fixed barrel assembly referred to as a "unibody" combined with a modified Crosman air pistol frame and brass bead sight. However, since roughly 1989 the body and barrel of the marker have been two distinct parts and no longer feature the bead style sight. The marker is also capable of supporting bulk gravity fed hoppers by using a different breach type. The Phantom is one of only a handful of readily available markers acceptable for use in the various forms of stock class paintball. However, because the Phantom is capable of auto-triggering and features barrel porting it is considered to be a modified stock class marker.

<span class="mw-page-title-main">Ion (paintball marker)</span>

The Ion is an electropneumatic paintball marker manufactured by Smart Parts. At the time of its release, the Ion was the first fully electropneumatic marker aimed at entry-level players, at a price point similar to Spyders and other mechanical blowbacks. The Ion has generally been credited with making high-rate-of-fire electropneumatic markers generally available, at a time when electropneumatic markers were considered out of reach of most casual or budget players.

The PGP is a paintball pistol originally manufactured by Sheridan. It is a "Stock Class" paintball marker, meaning that it utilizes 12 gram CO2 powerlets, and has a horizontal feed tube that holds 10 rounds.

The Intimidator is an electropneumatic paintball marker that was manufactured by former professional paintball player Bob Long and his company, Bob Long Technologies.

<span class="mw-page-title-main">Electropneumatic paintball marker</span>

An electropneumatic paintball marker is a paintball marker that uses a pneumatic solenoid to actuate the hammer and/or bolt's movement.

References

  1. 1 2 Withstanding the Test of Time Archived 2007-12-31 at the Wayback Machine , Mohammed Alo, June 2002, The Paintball Times
  2. 1 2 Autococker Tech Page - Cocker History at Ultra Twisted Paintball Archived March 1, 2007, at the Wayback Machine
  3. An In Depth Review of the Worr Games Products Autococker
  4. Has Paintball Technology Reached a Plateau? Archived 2008-01-03 at the Wayback Machine , Mohammed S. Alo, April 2004, The Paintball Times
  5. "Archived copy". www.northarc.com. Archived from the original on 23 June 2004. Retrieved 12 January 2022.{{cite web}}: CS1 maint: archived copy as title (link)
  6. OtterSC's Custom Cockers, AutoCocker Timing and Troubleshooting, 2004 Archived May 12, 2008, at the Wayback Machine
  7. Endless Paintball Archived 2008-05-24 at the Wayback Machine - Timing Tutorial, 2005
  8. Sniper II - AutoCocker, Martin Heffron, WARPIG
  9. Where's the Bolt? at WARPIG
  10. MQ Valve Review Archived 2007-12-31 at the Wayback Machine , Andrew C. Syren, December 12, 2005, The Paintball Times